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Geant4/externals/g4tools/include/tools/sg/plotter

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Diff markup

Differences between /externals/g4tools/include/tools/sg/plotter (Version 11.3.0) and /externals/g4tools/include/tools/sg/plotter (Version 10.6.p1)


  1 // Copyright (C) 2010, Guy Barrand. All rights    
  2 // See the file tools.license for terms.          
  3                                                   
  4 #ifndef tools_sg_plotter                          
  5 #define tools_sg_plotter                          
  6                                                   
  7 #include "../lina/vec2f"                          
  8                                                   
  9 #include "render_action"                          
 10 #include "plottables"                             
 11 #include "style"                                  
 12 #include "rep"                                    
 13 #include "colormap"                               
 14 #include "noderef"                                
 15 #include "atb_vertices"                           
 16 #include "cube" //for lego                        
 17 #include "matrix"                                 
 18 #include "normal"                                 
 19 #include "holder"                                 
 20 #include "tex_rect" //for plottable_img.          
 21                                                   
 22 #include "axis"                                   
 23 #include "infos_box"                              
 24 #include "legend"                                 
 25 #include "text"                                   
 26 #include "torche"                                 
 27 #include "ellipse"                                
 28                                                   
 29 #include "../data_axis"                           
 30 #include "../hatcher"                             
 31 #include "../clist_contour"                       
 32 #include "../tess_contour"                        
 33 #include "../lina/geom3"                          
 34 #include "../spline"                              
 35 #include "../rtausmef"                            
 36                                                   
 37 //#define INLIBS_SG_PLOTTER_TIMING                
 38 #ifdef INLIBS_SG_PLOTTER_TIMING                   
 39 #include "../sys/atime"                           
 40 #endif                                            
 41                                                   
 42 #include <utility>                                
 43                                                   
 44 namespace tools {                                 
 45 namespace sg {                                    
 46                                                   
 47 class plotter : public node {                     
 48   TOOLS_NODE(plotter,tools::sg::plotter,node)     
 49 private:                                          
 50   static const std::string& s_infos_what_def()    
 51     static const std::string s_v("name entries    
 52     return s_v;                                   
 53   }                                               
 54   static float default_infos_margin() {return     
 55   static float default_title_box_width()    {r    
 56   static float default_title_box_height()   {r    
 57   static float default_title_box_x_margin() {r    
 58   static float default_title_box_y_margin() {r    
 59 public:                                           
 60   sf<float> width;          //PAW XSIZ            
 61   sf<float> height;         //PAW YSIZ            
 62   sf<float> left_margin;    //PAW XMGL            
 63   sf<float> right_margin;   //PAW XMGR            
 64   sf<float> bottom_margin;  //PAW YMGL            
 65   sf<float> top_margin;     //PAW YMGU            
 66                                                   
 67   sf<float> depth;                                
 68   sf<float> down_margin;                          
 69   sf<float> up_margin;                            
 70                                                   
 71   sf<bool> title_up;                              
 72   sf<float> title_to_axis;                        
 73   sf<float> title_height;                         
 74   sf<bool> title_automated;                       
 75   sf_enum<hjust> title_hjust;                     
 76   sf_string title; //output if title_automated    
 77                                                   
 78   sf<bool> colormap_visible;                      
 79   enum colormap_axis_labeling_type {              
 80     cells = 0,                                    
 81     min_max                                       
 82   };                                              
 83   sf_enum<colormap_axis_labeling_type> colorma    
 84   sf<bool> colormap_attached;                     
 85   sf<bool> colormap_axis_visible;                 
 86                                                   
 87   // Wanted axes parameters.                      
 88   // They are not necessary realized on the sg    
 89   sf<bool> x_axis_enforced;                       
 90   sf<bool> x_axis_automated;                      
 91   sf<float> x_axis_min;                           
 92   sf<float> x_axis_max;                           
 93   sf<bool> x_axis_is_log;                         
 94                                                   
 95   sf<bool> y_axis_enforced;                       
 96   sf<bool> y_axis_automated;                      
 97   sf<float> y_axis_min;                           
 98   sf<float> y_axis_max;                           
 99   sf<bool> y_axis_is_log;                         
100                                                   
101   sf<bool> z_axis_enforced;                       
102   sf<bool> z_axis_automated;                      
103   sf<float> z_axis_min;                           
104   sf<float> z_axis_max;                           
105   sf<bool> z_axis_is_log;                         
106                                                   
107   sf<float> value_top_margin;                     
108   sf<float> value_bottom_margin;                  
109   sf<bool> value_bins_with_entries;               
110                                                   
111   sf<float> infos_width; //in percent of width    
112   sf<float> infos_x_margin; //in percent of wi    
113   sf<float> infos_y_margin; //in percent of he    
114   sf_string infos_what;                           
115                                                   
116   sf<float> title_box_width;    //in percent o    
117   sf<float> title_box_height;   //in percent o    
118   sf<float> title_box_x_margin; //in percent o    
119   sf<float> title_box_y_margin; //in percent o    
120                                                   
121   sf<bool> func2D_borders_visible;                
122                                                   
123   // used with shape xyz                          
124   sf<float> theta;  //in degrees.                 
125   sf<float> phi;    //in degrees.                 
126   sf<float> tau;    //in degrees.                 
127                                                   
128   ////////////////////////////////////////////    
129   /// legend related :////////////////////////    
130   ////////////////////////////////////////////    
131   sf<bool> legends_automated;                     
132   //sf<bool> legends_attached_to_infos;           
133   //if legends_attached_to_infos is false :       
134   //  legends_origin is used to place the lege    
135   //  the lower left corner of the box contain    
136   mf_vec<vec2f,float> legends_origin; //common    
137   enum unit_type {                                
138     unit_percent,                                 
139     unit_axis                                     
140   };                                              
141   mf_enum<unit_type> legends_origin_unit;         
142   mf_vec<vec2f,float> legends_size; //overall     
143   mf_string legends_string;                       
144                                                   
145   ////////////////////////////////////////////    
146   ////////////////////////////////////////////    
147   ////////////////////////////////////////////    
148                                                   
149   sf<bool> shape_automated;                       
150                                                   
151   enum shape_type {                               
152     xy = 0,                                       
153     xyz                                           
154   };                                              
155   sf_enum<shape_type> shape;                      
156                                                   
157   // used with xy shape :                         
158   sf<float> xy_depth; //all is in z [0,xy_dept    
159                                                   
160   sf<unsigned int> curve_number_of_points;        
161                                                   
162   sf<bool> data_light_on_automated;               
163                                                   
164   // for gopaw :                                  
165   sf<bool> primitives_enforced;                   
166   sf<bool> inner_frame_enforced;                  
167   // to be implemented :                          
168   sf<bool> top_axis_visible;                      
169   sf<bool> right_axis_visible;                    
170   sf<bool> superpose_bins;                        
171   //sf<bool> grid_visible;                        
172   // For contours :                               
173   sf<unsigned int> number_of_levels;              
174   mf<float> levels;                               
175   //sf<bool> frozen;                              
176   //sf<float> ttfScale;                           
177   //sf<bool> wallEnforced;                        
178   //sf<bool> gridEnforced;                        
179   //SoMFString infos; //Output                    
180   //SoMFString legend; //Output                   
181                                                   
182 public:                                           
183   virtual const desc_fields& node_desc_fields(    
184     TOOLS_FIELD_DESC_NODE_CLASS(tools::sg::plo    
185     static const desc_fields s_v(parent::node_    
186                                                   
187       TOOLS_ARG_FIELD_DESC(width),                
188       TOOLS_ARG_FIELD_DESC(height),               
189       TOOLS_ARG_FIELD_DESC(left_margin),          
190       TOOLS_ARG_FIELD_DESC(right_margin),         
191       TOOLS_ARG_FIELD_DESC(bottom_margin),        
192       TOOLS_ARG_FIELD_DESC(top_margin),           
193       TOOLS_ARG_FIELD_DESC(depth),                
194       TOOLS_ARG_FIELD_DESC(down_margin),          
195       TOOLS_ARG_FIELD_DESC(up_margin),            
196       TOOLS_ARG_FIELD_DESC(colormap_visible),     
197                                                   
198       TOOLS_ARG_FIELD_DESC_ENUMS_BEG(colormap_    
199         TOOLS_ARG_ENUM(cells),                    
200         TOOLS_ARG_ENUM(min_max)                   
201       TOOLS_ARG_FIELD_DESC_ENUMS_END,             
202                                                   
203       TOOLS_ARG_FIELD_DESC(colormap_attached),    
204       TOOLS_ARG_FIELD_DESC(colormap_axis_visib    
205                                                   
206       TOOLS_ARG_FIELD_DESC(title_up),             
207       TOOLS_ARG_FIELD_DESC(title_to_axis),        
208       TOOLS_ARG_FIELD_DESC(title_height),         
209       TOOLS_ARG_FIELD_DESC(title_automated),      
210                                                   
211       TOOLS_ARG_FIELD_DESC_ENUMS_BEG(title_hju    
212         "left",left,                              
213         "center",center,                          
214         "right",right                             
215       TOOLS_ARG_FIELD_DESC_ENUMS_END,             
216                                                   
217       TOOLS_ARG_FIELD_DESC(title),                
218                                                   
219       TOOLS_ARG_FIELD_DESC(x_axis_enforced),      
220       TOOLS_ARG_FIELD_DESC(x_axis_automated),     
221       TOOLS_ARG_FIELD_DESC(x_axis_min),           
222       TOOLS_ARG_FIELD_DESC(x_axis_max),           
223       TOOLS_ARG_FIELD_DESC(x_axis_is_log),        
224                                                   
225       TOOLS_ARG_FIELD_DESC(y_axis_enforced),      
226       TOOLS_ARG_FIELD_DESC(y_axis_automated),     
227       TOOLS_ARG_FIELD_DESC(y_axis_min),           
228       TOOLS_ARG_FIELD_DESC(y_axis_max),           
229       TOOLS_ARG_FIELD_DESC(y_axis_is_log),        
230                                                   
231       TOOLS_ARG_FIELD_DESC(z_axis_enforced),      
232       TOOLS_ARG_FIELD_DESC(z_axis_automated),     
233       TOOLS_ARG_FIELD_DESC(z_axis_min),           
234       TOOLS_ARG_FIELD_DESC(z_axis_max),           
235       TOOLS_ARG_FIELD_DESC(z_axis_is_log),        
236                                                   
237       TOOLS_ARG_FIELD_DESC(value_top_margin),     
238       TOOLS_ARG_FIELD_DESC(value_bottom_margin    
239       TOOLS_ARG_FIELD_DESC(value_bins_with_ent    
240                                                   
241       TOOLS_ARG_FIELD_DESC(infos_width),          
242       TOOLS_ARG_FIELD_DESC(infos_x_margin),       
243       TOOLS_ARG_FIELD_DESC(infos_y_margin), //    
244       TOOLS_ARG_FIELD_DESC(infos_what),           
245                                                   
246       TOOLS_ARG_FIELD_DESC(func2D_borders_visi    
247       TOOLS_ARG_FIELD_DESC(theta),                
248       TOOLS_ARG_FIELD_DESC(phi),                  
249       TOOLS_ARG_FIELD_DESC(tau),                  
250                                                   
251       TOOLS_ARG_FIELD_DESC(legends_automated),    
252                                                   
253       TOOLS_ARG_FIELD_DESC_ENUMS_BEG(legends_o    
254         "unit_percent",unit_percent,              
255         "unit_axis",unit_axis                     
256       TOOLS_ARG_FIELD_DESC_ENUMS_END,             
257                                                   
258       TOOLS_ARG_FIELD_DESC(legends_origin_unit    
259       TOOLS_ARG_FIELD_DESC(legends_size),         
260       TOOLS_ARG_FIELD_DESC(legends_string), //    
261                                                   
262       TOOLS_ARG_FIELD_DESC(shape_automated),      
263                                                   
264       TOOLS_ARG_FIELD_DESC_ENUMS_BEG(shape,2)     
265         "xy",xy,                                  
266         "xyz",xyz                                 
267       TOOLS_ARG_FIELD_DESC_ENUMS_END,             
268                                                   
269       TOOLS_ARG_FIELD_DESC(xy_depth),             
270       TOOLS_ARG_FIELD_DESC(curve_number_of_poi    
271                                                   
272       TOOLS_ARG_FIELD_DESC(number_of_levels),     
273       TOOLS_ARG_FIELD_DESC(levels),               
274                                                   
275       TOOLS_ARG_FIELD_DESC(data_light_on_autom    
276                                                   
277       TOOLS_ARG_FIELD_DESC(primitives_enforced    
278       TOOLS_ARG_FIELD_DESC(inner_frame_enforce    
279                                                   
280       TOOLS_ARG_FIELD_DESC(title_box_width), /    
281       TOOLS_ARG_FIELD_DESC(title_box_height),     
282       TOOLS_ARG_FIELD_DESC(title_box_x_margin)    
283       TOOLS_ARG_FIELD_DESC(title_box_y_margin)    
284                                                   
285     );                                            
286     return s_v;                                   
287   }                                               
288   virtual bool touched() {                        
289     if(parent::touched()) return true;            
290                                                   
291     if(background_style().touched()) return tr    
292     if(title_style().touched()) return true;      
293     if(infos_style().touched()) return true;      
294     if(title_box_style().touched()) return tru    
295     if(inner_frame_style().touched()) return t    
296     if(grid_style().touched()) return true;       
297     if(wall_style().touched()) return true;       
298                                                   
299    {tools_vforit(style,m_bins_style,it) {if((*    
300    {tools_vforit(style,m_errors_style,it) {if(    
301    {tools_vforit(style,m_func_style,it) {if((*    
302    {tools_vforit(style,m_points_style,it) {if(    
303    {tools_vforit(style,m_left_hatch_style,it)     
304    {tools_vforit(style,m_right_hatch_style,it)    
305    {tools_vforit(style,m_legend_style,it) {if(    
306                                                   
307     return false;                                 
308   }                                               
309   virtual void reset_touched() {                  
310     parent::reset_touched();                      
311                                                   
312     background_style().reset_touched();           
313     title_style().reset_touched();                
314     infos_style().reset_touched();                
315     title_box_style().reset_touched();            
316     inner_frame_style().reset_touched();          
317     grid_style().reset_touched();                 
318     wall_style().reset_touched();                 
319                                                   
320    {tools_vforit(style,m_bins_style,it) (*it).    
321    {tools_vforit(style,m_errors_style,it) (*it    
322    {tools_vforit(style,m_func_style,it) (*it).    
323    {tools_vforit(style,m_points_style,it) (*it    
324    {tools_vforit(style,m_left_hatch_style,it)     
325    {tools_vforit(style,m_right_hatch_style,it)    
326    {tools_vforit(style,m_legend_style,it) (*it    
327   }                                               
328                                                   
329 private:                                          
330   void add_fields(){                              
331     // if adding a field, look for reset_style    
332     add_field(&width);                            
333     add_field(&height);                           
334     add_field(&left_margin);                      
335     add_field(&right_margin);                     
336     add_field(&bottom_margin);                    
337     add_field(&top_margin);                       
338     add_field(&depth);                            
339     add_field(&down_margin);                      
340     add_field(&up_margin);                        
341                                                   
342     add_field(&title_up);                         
343     add_field(&title_to_axis);                    
344     add_field(&title_height);                     
345     add_field(&title_automated);                  
346     add_field(&title_hjust);                      
347     add_field(&title);                            
348                                                   
349     add_field(&x_axis_enforced);                  
350     add_field(&x_axis_automated);                 
351     add_field(&x_axis_min);                       
352     add_field(&x_axis_max);                       
353     add_field(&x_axis_is_log);                    
354                                                   
355     add_field(&y_axis_enforced);                  
356     add_field(&y_axis_automated);                 
357     add_field(&y_axis_min);                       
358     add_field(&y_axis_max);                       
359     add_field(&y_axis_is_log);                    
360                                                   
361     add_field(&z_axis_enforced);                  
362     add_field(&z_axis_automated);                 
363     add_field(&z_axis_min);                       
364     add_field(&z_axis_max);                       
365     add_field(&z_axis_is_log);                    
366                                                   
367     add_field(&value_top_margin);                 
368     add_field(&value_bottom_margin);              
369     add_field(&value_bins_with_entries);          
370                                                   
371     add_field(&infos_width);                      
372     add_field(&infos_x_margin);                   
373     add_field(&infos_y_margin);                   
374     add_field(&infos_what);                       
375                                                   
376     add_field(&title_box_width);                  
377     add_field(&title_box_height);                 
378     add_field(&title_box_x_margin);               
379     add_field(&title_box_y_margin);               
380                                                   
381     add_field(&func2D_borders_visible);           
382     add_field(&theta);                            
383     add_field(&phi);                              
384     add_field(&tau);                              
385                                                   
386     add_field(&legends_automated);                
387     //add_field(&legends_attached_to_infos);      
388     add_field(&legends_origin);                   
389     add_field(&legends_origin_unit);              
390     add_field(&legends_size);                     
391     add_field(&legends_string);                   
392                                                   
393     add_field(&shape_automated);                  
394     add_field(&shape);                            
395                                                   
396     add_field(&xy_depth);                         
397     add_field(&curve_number_of_points);           
398     add_field(&number_of_levels);                 
399     add_field(&levels);                           
400     add_field(&data_light_on_automated);          
401     add_field(&primitives_enforced);              
402     add_field(&inner_frame_enforced);             
403   }                                               
404 public: //style                                   
405   void copy_style(const plotter& a_from) {  //    
406     //////////////////////////////////////////    
407     //////////////////////////////////////////    
408     //////////////////////////////////////////    
409     shape_automated = a_from.shape_automated;     
410     shape = a_from.shape;                         
411     xy_depth = a_from.xy_depth;                   
412     curve_number_of_points = a_from.curve_numb    
413     value_top_margin = a_from.value_top_margin    
414     value_bottom_margin = a_from.value_bottom_    
415     value_bins_with_entries = a_from.value_bin    
416     infos_what = a_from.infos_what;               
417     infos_width = a_from.infos_width;             
418     //infos height is automatic.                  
419     infos_x_margin = a_from.infos_x_margin;       
420     infos_y_margin = a_from.infos_y_margin;       
421                                                   
422     title_box_width = a_from.title_box_width;     
423     title_box_height = a_from.title_box_height    
424     title_box_x_margin = a_from.title_box_x_ma    
425     title_box_y_margin = a_from.title_box_y_ma    
426                                                   
427     legends_automated = a_from.legends_automat    
428     title_automated = a_from.title_automated;     
429     title = a_from.title;                         
430     title_up = a_from.title_up;                   
431     title_hjust = a_from.title_hjust;             
432                                                   
433     colormap_visible = a_from.colormap_visible    
434     colormap_axis_labeling = a_from.colormap_a    
435     colormap_attached = a_from.colormap_attach    
436     colormap_axis_visible = a_from.colormap_ax    
437                                                   
438     number_of_levels = a_from.number_of_levels    
439     levels  = a_from.levels;                      
440     data_light_on_automated = a_from.data_ligh    
441     primitives_enforced = a_from.primitives_en    
442     inner_frame_enforced = a_from.inner_frame_    
443                                                   
444     //////////////////////////////////////////    
445     //////////////////////////////////////////    
446     //////////////////////////////////////////    
447     x_axis_enforced = a_from.x_axis_enforced;     
448     x_axis_automated = a_from.x_axis_automated    
449     x_axis_min = a_from.x_axis_min;               
450     x_axis_max = a_from.x_axis_max;               
451     x_axis_is_log = a_from.x_axis_is_log;         
452                                                   
453     y_axis_enforced = a_from.y_axis_enforced;     
454     y_axis_automated = a_from.y_axis_automated    
455     y_axis_min = a_from.y_axis_min;               
456     y_axis_max = a_from.y_axis_max;               
457     y_axis_is_log = a_from.y_axis_is_log;         
458                                                   
459     z_axis_enforced = a_from.z_axis_enforced;     
460     z_axis_automated = a_from.z_axis_automated    
461     z_axis_min = a_from.z_axis_min;               
462     z_axis_max = a_from.z_axis_max;               
463     z_axis_is_log = a_from.z_axis_is_log;         
464                                                   
465     /*                                            
466     m_x_axis = a_from.m_x_axis;                   
467     m_y_axis = a_from.m_y_axis;                   
468     m_z_axis = a_from.m_z_axis;                   
469     m_cmap_axis = a_from.m_cmap_axis;             
470                                                   
471     */                                            
472     //////////////////////////////////////////    
473     //////////////////////////////////////////    
474     //////////////////////////////////////////    
475                                                   
476     m_background_style = a_from.m_background_s    
477     m_title_style = a_from.m_title_style;         
478     m_infos_style = a_from.m_infos_style;         
479     m_title_box_style = a_from.m_title_box_sty    
480     m_inner_frame_style = a_from.m_inner_frame    
481     m_grid_style = a_from.m_grid_style;           
482     m_wall_style = a_from.m_wall_style;           
483                                                   
484     m_bins_style = a_from.m_bins_style;           
485     m_errors_style = a_from.m_errors_style;       
486     m_func_style = a_from.m_func_style;           
487     m_points_style = a_from.m_points_style;       
488     m_left_hatch_style = a_from.m_left_hatch_s    
489     m_right_hatch_style = a_from.m_right_hatch    
490     m_legend_style = a_from.m_legend_style;       
491   }                                               
492                                                   
493   void reset_style(bool a_geom = false) {         
494     //reset fields that are considered as part    
495                                                   
496     //::printf("debug : tools::sg::plotter::re    
497                                                   
498     shape_automated = true;                       
499     shape = xy;                                   
500                                                   
501     xy_depth = 0.01f;                             
502     curve_number_of_points = 100;                 
503     //////////////////////////////////////////    
504     value_top_margin = 0.1f; //percent.  // CE    
505     value_bottom_margin = 0.0f; //percent.        
506     value_bins_with_entries = true; //gopaw us    
507                                                   
508     infos_what = s_infos_what_def();              
509     infos_width = 0.3f;                           
510     //infos height is automatic.                  
511     infos_x_margin = default_infos_margin(); /    
512     infos_y_margin = default_infos_margin(); /    
513                                                   
514     title_box_width = default_title_box_width(    
515     title_box_height = default_title_box_heigh    
516     title_box_x_margin = default_title_box_x_m    
517     title_box_y_margin = default_title_box_y_m    
518                                                   
519     legends_automated = true;                     
520                                                   
521     //////////////////////////////////////////    
522                                                   
523     if(a_geom) {                                  
524     float xfac = 1.0F/20.0F; //0.05               
525     float yfac = 1.0F/20.0F; //0.05               
526                                                   
527     // Take PAW defaults :                        
528     float XSIZ = 20 * xfac;    //1     //page     
529     float YSIZ = 20 * yfac;    //1     //page     
530     float XMGL = 2 * xfac;     //0.1   //left     
531     float XMGR = 2 * xfac;     //0.1   //right    
532     float YMGL = 2 * yfac;     //0.1   //low y    
533     float YMGU = 2 * yfac;     //0.1   //up y     
534     // Axes :                                     
535     float VSIZ = 0.28F * yfac; //0.014 //tick     
536     float XVAL = 0.4F * xfac;  //0.02 //x dist    
537     float YVAL = 0.4F * yfac;  //0.02 //y dist    
538     float XTIC = 0.3F * yfac;  //0.015 //y len    
539     float YTIC = 0.3F * xfac;  //0.015 //x len    
540     float XLAB = 1.4F * xfac;  //0.07  //x dis    
541     float YLAB = 0.8F * yfac;  //0.04  //y dis    
542     float ASIZ = 0.28F * yfac; //0.014 // axis    
543                                                   
544     float YHTI = 1.2F * yfac;  //0.06  //y dis    
545     float TSIZ = 0.28F * yfac; //0.014 //title    
546                                                   
547     float zfac = 1.0F/20.0F; //0.05               
548     float ZSIZ = 20 * zfac;    //1     //page     
549     float ZMGD = 2 * zfac;     //0.1   //low y    
550     float ZMGU = 2 * zfac;     //0.1   //up y     
551                                                   
552     // Data area :                                
553     //float wData = XSIZ-XMGL-XMGR;               
554     //float hData = YSIZ-YMGL-YMGU;               
555     //float dData = ZSIZ-ZMGD-ZMGU;               
556                                                   
557     width = XSIZ;                                 
558     height = YSIZ;                                
559     depth = ZSIZ;                                 
560                                                   
561     left_margin = XMGL;                           
562     right_margin = XMGR;                          
563     bottom_margin = YMGL;                         
564     top_margin = YMGU;                            
565     down_margin = ZMGD;                           
566     up_margin = ZMGU;                             
567                                                   
568     title_to_axis = YHTI;                         
569     title_height = TSIZ;                          
570                                                   
571     if(shape.value()==xy) {                       
572       m_x_axis.tick_length.value(XTIC);           
573       m_x_axis.label_to_axis.value(YVAL);         
574       m_x_axis.label_height.value(VSIZ);          
575       m_x_axis.title_to_axis.value(YLAB);         
576       m_x_axis.title_height.value(ASIZ);          
577                                                   
578       m_y_axis.tick_length.value(YTIC);           
579       m_y_axis.label_to_axis.value(XVAL);         
580       m_y_axis.label_height.value(VSIZ);          
581       m_y_axis.title_to_axis.value(XLAB);         
582       m_y_axis.title_height.value(ASIZ);          
583                                                   
584       //set anyway z axis :                       
585       //m_z_axis.tick_length.value(YTIC);         
586       //m_z_axis.label_to_axis.value(XVAL);       
587       //m_z_axis.label_height.value(VSIZ);        
588       //m_z_axis.title_to_axis.value(XLAB);       
589       //m_z_axis.title_height.value(ASIZ);        
590                                                   
591       m_cmap_axis.tick_length.value(YTIC);        
592       m_cmap_axis.label_to_axis.value(XVAL);      
593       m_cmap_axis.label_height.value(VSIZ);       
594       m_cmap_axis.title_to_axis.value(XLAB);      
595       m_cmap_axis.title_height.value(ASIZ);       
596                                                   
597     } else { //xyz                                
598       m_x_axis.tick_length.value(XTIC);           
599       m_x_axis.label_to_axis.value(YVAL);         
600       m_x_axis.label_height.value(VSIZ);          
601       m_x_axis.title_to_axis.value(YLAB);         
602       m_x_axis.title_height.value(ASIZ);          
603                                                   
604       m_y_axis.tick_length.value(XTIC);           
605       m_y_axis.label_to_axis.value(YVAL);         
606       m_y_axis.label_height.value(VSIZ);          
607       m_y_axis.title_to_axis.value(YLAB);         
608       m_y_axis.title_height.value(ASIZ);          
609                                                   
610       m_z_axis.tick_length.value(YTIC);           
611       m_z_axis.label_to_axis.value(XVAL);         
612       m_z_axis.label_height.value(VSIZ);          
613       m_z_axis.title_to_axis.value(XLAB);         
614       m_z_axis.title_height.value(ASIZ);          
615                                                   
616       m_cmap_axis.tick_length.value(XTIC);        
617       m_cmap_axis.label_to_axis.value(YVAL);      
618       m_cmap_axis.label_height.value(VSIZ);       
619       m_cmap_axis.title_to_axis.value(YLAB);      
620       m_cmap_axis.title_height.value(ASIZ);       
621                                                   
622     }                                             
623                                                   
624     }                                             
625                                                   
626     title_automated = true;                       
627     title.value().clear();                        
628     title_up = true;                              
629     title_hjust = center;                         
630                                                   
631     //////////////////////////////////////////    
632     colormap_visible = true;                      
633     colormap_axis_labeling = cells;               
634     colormap_attached = true;                     
635     colormap_axis_visible = true;                 
636                                                   
637     //////////////////////////////////////////    
638     x_axis_enforced = false;                      
639     x_axis_automated = true;                      
640     x_axis_min = 0;                               
641     x_axis_max = 1;                               
642     x_axis_is_log = false;                        
643                                                   
644     y_axis_enforced = false;                      
645     y_axis_automated = true;                      
646     y_axis_min = 0;                               
647     y_axis_max = 1;                               
648     y_axis_is_log = false;                        
649                                                   
650     z_axis_enforced = false;                      
651     z_axis_automated = true;                      
652     z_axis_min = 0;                               
653     z_axis_max = 1;                               
654     z_axis_is_log = false;                        
655                                                   
656     m_x_axis.reset_style();                       
657     m_y_axis.reset_style();                       
658     m_z_axis.reset_style();                       
659                                                   
660     //////////////////////////////////////////    
661     //////////////////////////////////////////    
662     //////////////////////////////////////////    
663     number_of_levels = 10;                        
664     levels.clear();                               
665     data_light_on_automated = true;               
666     primitives_enforced = false;                  
667     inner_frame_enforced = false;                 
668                                                   
669     //////////////////////////////////////////    
670     // setup styles :                             
671     //////////////////////////////////////////    
672                                                   
673     m_title_style = text_style();                 
674     m_infos_style = text_style();                 
675     m_title_box_style = text_style();             
676     m_background_style = style();                 
677     m_wall_style = style();                       
678     m_inner_frame_style = style();                
679     m_grid_style = style();                       
680                                                   
681     m_title_style.color = colorf_black();         
682     m_title_style.font = font_hershey();          
683     m_title_style.font_modeling = font_filled;    
684     m_title_style.encoding = encoding_PAW();      
685                                                   
686     m_background_style.back_color = colorf_whi    
687     m_background_style.line_width = 0; //no bo    
688     m_background_style.color = colorf_black();    
689                                                   
690     m_inner_frame_style.color = colorf_black()    
691     m_inner_frame_style.line_pattern = line_so    
692                                                   
693     m_grid_style.color = colorf_black();          
694     m_grid_style.line_pattern = line_dashed;      
695                                                   
696     m_infos_style.font = font_hershey();          
697     m_infos_style.font_modeling = font_filled;    
698     m_infos_style.encoding = encoding_PAW();      
699                                                   
700     m_title_box_style.visible = false;            
701     m_title_box_style.font = font_hershey();      
702     m_title_box_style.font_modeling = font_fil    
703     m_title_box_style.encoding = encoding_PAW(    
704                                                   
705    {tools_vforit(style,m_bins_style,it) {         
706       (*it) = style();                            
707       (*it).modeling = modeling_top_lines();      
708       (*it).marker_size = 5; //for bins1D of p    
709     }}                                            
710    {tools_vforit(style,m_errors_style,it) {(*i    
711    {tools_vforit(style,m_func_style,it) (*it)     
712    {tools_vforit(style,m_points_style,it) {       
713       (*it) = style();                            
714       (*it).modeling = modeling_markers(); //f    
715     }}                                            
716    {tools_vforit(style,m_left_hatch_style,it)     
717    {tools_vforit(style,m_right_hatch_style,it)    
718    {tools_vforit(style,m_legend_style,it) {(*i    
719                                                   
720   }                                               
721                                                   
722   void gopaw_reset_style() {                      
723    {tools_vforit(style,m_bins_style,it) {         
724       (*it) = style();                            
725       (*it).modeling = modeling_top_lines();      
726       (*it).marker_size = 5; //for bins1D of p    
727     }}                                            
728                                                   
729    {tools_vforit(style,m_errors_style,it) {(*i    
730    {tools_vforit(style,m_func_style,it) (*it)     
731    {tools_vforit(style,m_points_style,it) {       
732       (*it) = style();                            
733       (*it).modeling = modeling_markers(); //f    
734     }}                                            
735    {tools_vforit(style,m_left_hatch_style,it)     
736    {tools_vforit(style,m_right_hatch_style,it)    
737    {tools_vforit(style,m_legend_style,it) {(*i    
738   }                                               
739                                                   
740   typedef std::pair<std::string,std::string> s    
741   typedef std::vector<style_item_t> style_t;      
742   bool set_from_style(std::ostream& a_out,cons    
743     tools_vforcit(style_item_t,a_style,it) {      
744       const std::string& key = (*it).first;       
745       const std::string& sv = (*it).second;       
746       //::printf("debug : plotter::set_from_st    
747       //if(key=="reset") {}                       
748       if(key=="tag") {                            
749         // key to find back <plotter_style>s.     
750         // see also :                             
751         //   xml_style::load_plotter_style()      
752         //   xml_style::find_plotter_styles()     
753                                                   
754                                                   
755       //width,height,depth : could set from st    
756       } else if(key=="width") {                   
757         float v;                                  
758         if(!to<float>(sv,v)) {style_failed(a_o    
759         width = v;                                
760       } else if(key=="height") {                  
761         float v;                                  
762         if(!to<float>(sv,v)) {style_failed(a_o    
763         height = v;                               
764       } else if(key=="depth") {                   
765         float v;                                  
766         if(!to<float>(sv,v)) {style_failed(a_o    
767         depth = v;                                
768                                                   
769       } else if(key=="left_margin") {             
770         float v;                                  
771         if(!to<float>(sv,v)) {style_failed(a_o    
772         left_margin = v;                          
773       } else if(key=="right_margin") {            
774         float v;                                  
775         if(!to<float>(sv,v)) {style_failed(a_o    
776         right_margin = v;                         
777       } else if(key=="bottom_margin") {           
778         float v;                                  
779         if(!to<float>(sv,v)) {style_failed(a_o    
780         bottom_margin = v;                        
781       } else if(key=="top_margin") {              
782         float v;                                  
783         if(!to<float>(sv,v)) {style_failed(a_o    
784         top_margin = v;                           
785       } else if(key=="down_margin") {             
786         float v;                                  
787         if(!to<float>(sv,v)) {style_failed(a_o    
788         down_margin = v;                          
789       } else if(key=="up_margin") {               
790         float v;                                  
791         if(!to<float>(sv,v)) {style_failed(a_o    
792         up_margin = v;                            
793                                                   
794       } else if(key=="title") {                   
795         title = sv;                               
796       } else if(key=="title_up") {                
797         bool v;                                   
798         if(!to(sv,v)) {style_failed(a_out,key,    
799         title_up = v;                             
800       } else if(key=="title_to_axis") {           
801         float v;                                  
802         if(!to<float>(sv,v)) {style_failed(a_o    
803         title_to_axis = v;                        
804       } else if(key=="title_height") {            
805         float v;                                  
806         if(!to<float>(sv,v)) {style_failed(a_o    
807         title_height = v;                         
808       } else if(key=="title_automated") {         
809         bool v;                                   
810         if(!to(sv,v)) {style_failed(a_out,key,    
811         title_automated = v;                      
812       } else if(key=="title_hjust") {             
813         hjust v;                                  
814         if(!shjust(sv,v))                         
815           {style_failed(a_out,key,sv);return f    
816         title_hjust = v;                          
817                                                   
818       } else if(key=="x_axis_enforced") {         
819         bool v;                                   
820         if(!to(sv,v)) {style_failed(a_out,key,    
821         x_axis_enforced = v;                      
822       } else if(key=="x_axis_automated") {        
823         bool v;                                   
824         if(!to(sv,v)) {style_failed(a_out,key,    
825         x_axis_automated = v;                     
826       } else if(key=="x_axis_min") {              
827         float v;                                  
828         if(!to<float>(sv,v)) {style_failed(a_o    
829         x_axis_min = v;                           
830       } else if(key=="x_axis_max") {              
831         float v;                                  
832         if(!to<float>(sv,v)) {style_failed(a_o    
833         x_axis_max = v;                           
834       } else if(key=="x_axis_is_log") {           
835         bool v;                                   
836         if(!to(sv,v)) {style_failed(a_out,key,    
837         x_axis_is_log = v;                        
838                                                   
839       } else if(key=="y_axis_enforced") {         
840         bool v;                                   
841         if(!to(sv,v)) {style_failed(a_out,key,    
842         y_axis_enforced = v;                      
843       } else if(key=="y_axis_automated") {        
844         bool v;                                   
845         if(!to(sv,v)) {style_failed(a_out,key,    
846         y_axis_automated = v;                     
847       } else if(key=="y_axis_min") {              
848         float v;                                  
849         if(!to<float>(sv,v)) {style_failed(a_o    
850         y_axis_min = v;                           
851       } else if(key=="y_axis_max") {              
852         float v;                                  
853         if(!to<float>(sv,v)) {style_failed(a_o    
854         y_axis_max = v;                           
855       } else if(key=="y_axis_is_log") {           
856         bool v;                                   
857         if(!to(sv,v)) {style_failed(a_out,key,    
858         y_axis_is_log = v;                        
859                                                   
860       } else if(key=="z_axis_enforced") {         
861         bool v;                                   
862         if(!to(sv,v)) {style_failed(a_out,key,    
863         z_axis_enforced = v;                      
864       } else if(key=="z_axis_automated") {        
865         bool v;                                   
866         if(!to(sv,v)) {style_failed(a_out,key,    
867         z_axis_automated = v;                     
868       } else if(key=="z_axis_min") {              
869         float v;                                  
870         if(!to<float>(sv,v)) {style_failed(a_o    
871         z_axis_min = v;                           
872       } else if(key=="z_axis_max") {              
873         float v;                                  
874         if(!to<float>(sv,v)) {style_failed(a_o    
875         z_axis_max = v;                           
876       } else if(key=="z_axis_is_log") {           
877         bool v;                                   
878         if(!to(sv,v)) {style_failed(a_out,key,    
879         z_axis_is_log = v;                        
880                                                   
881       } else if(key=="value_top_margin") {        
882         float v;                                  
883         if(!to<float>(sv,v)) {style_failed(a_o    
884         value_top_margin = v;                     
885       } else if(key=="value_bottom_margin") {     
886         float v;                                  
887         if(!to<float>(sv,v)) {style_failed(a_o    
888         value_bottom_margin = v;                  
889       } else if(key=="value_bins_with_entries"    
890         float v;                                  
891         if(!to<float>(sv,v)) {style_failed(a_o    
892         value_bins_with_entries = v;              
893       } else if(key=="infos_width") {             
894         float v;                                  
895         if(!to<float>(sv,v)) {style_failed(a_o    
896         infos_width = v;                          
897       } else if(key=="infos_x_margin") {          
898         float v;                                  
899         if(!to<float>(sv,v)) {style_failed(a_o    
900         infos_x_margin = v;                       
901       } else if(key=="infos_y_margin") {          
902         float v;                                  
903         if(!to<float>(sv,v)) {style_failed(a_o    
904         infos_y_margin = v;                       
905                                                   
906       } else if(key=="title_box_width") {         
907         float v;                                  
908         if(!to<float>(sv,v)) {style_failed(a_o    
909         title_box_width = v;                      
910       } else if(key=="title_box_height") {        
911         float v;                                  
912         if(!to<float>(sv,v)) {style_failed(a_o    
913         title_box_height = v;                     
914       } else if(key=="title_box_x_margin") {      
915         float v;                                  
916         if(!to<float>(sv,v)) {style_failed(a_o    
917         title_box_x_margin = v;                   
918       } else if(key=="title_box_y_margin") {      
919         float v;                                  
920         if(!to<float>(sv,v)) {style_failed(a_o    
921         title_box_y_margin = v;                   
922                                                   
923       } else if(key=="infos_what") {              
924         infos_what = sv;                          
925                                                   
926 //      } else if(key=="legends_visible") {       
927 //        bool v;                                 
928 //        if(!to(sv,v)) {style_failed(a_out,ke    
929 //        legends_visible = v;                    
930       } else if(key=="legends_automated") {       
931         bool v;                                   
932         if(!to(sv,v)) {style_failed(a_out,key,    
933         legends_automated = v;                    
934 //    } else if(key=="legends_attached_to_info    
935 //      bool v;                                   
936 //      if(!to(sv,v)) {style_failed(a_out,key,    
937 //      legends_attached_to_infos = v;            
938       } else if(key=="legends_origin") {          
939         vec2f v;                                  
940         if(!sto(sv,v)) {style_failed(a_out,key    
941         legends_origin.setValue(v);               
942       } else if(key=="legends_size") {            
943         vec2f v;                                  
944         if(!sto(sv,v)) {style_failed(a_out,key    
945         legends_size.setValue(v);                 
946       } else if(key=="legends_origin_unit") {     
947         unit_type v;                              
948         if(!sto(sv,v)) {style_failed(a_out,key    
949         legends_origin_unit.setValue(v);          
950                                                   
951       } else if(key=="shape_automated") {         
952         bool v;                                   
953         if(!to(sv,v)) {style_failed(a_out,key,    
954         shape_automated = v;                      
955                                                   
956       } else if(key=="shape") {                   
957         if(sv=="xy") {                            
958           shape = xy;                             
959         } else if(sv=="xyz") {                    
960           shape = xyz;                            
961         } else {                                  
962           style_failed(a_out,key,sv);return fa    
963         }                                         
964                                                   
965       //legends_string                            
966       //legends_color                             
967       //legends_string mf_string                  
968       //legends_color mf_vec<colorf,float>        
969                                                   
970       } else {                                    
971         a_out << "tools::sg::plotter::set_from    
972       }                                           
973     }                                             
974     return true;                                  
975   }                                               
976                                                   
977 protected:                                        
978   bool s2axis(const std::string& a_s,sg::axis*    
979          if(a_s=="x_axis")        {a_axis = &(    
980     else if(a_s=="y_axis")        {a_axis = &(    
981     else if(a_s=="z_axis")        {a_axis = &(    
982     else if(a_s=="colormap_axis") {a_axis = &(    
983     else {                                        
984       a_axis = 0;                                 
985       return false;                               
986     }                                             
987   }                                               
988 public:                                           
989   bool set_from_string(std::ostream& a_out,cma    
990     // see also plotter_style file.               
991     std::string::size_type pos = a_field.find(    
992     bool status = true;                           
993     if(pos==std::string::npos) {                  
994       style_t _style;                             
995       _style.push_back(style_item_t(a_field,a_    
996       if(!set_from_style(a_out,_style)) status    
997     } else {                                      
998       std::vector<std::string> _words;            
999       words(a_field,".",false,_words);            
1000       if(_words.size()==2) {                     
1001         const std::string& word0 = _words[0];    
1002         const std::string& word1 = _words[1];    
1003         std::string _s = word1+" "+std::strin    
1004         sg::axis* _axis = 0;                     
1005              if(word0=="background_style")  {    
1006         else if(word0=="title_style")       {    
1007         else if(word0=="infos_style")       {    
1008         else if(word0=="title_box_style")   {    
1009         else if(word0=="inner_frame_style") {    
1010         else if(word0=="grid_style")        {    
1011         else if(word0=="wall_style")        {    
1012         else if(!s2axis(word0,_axis)) {          
1013           a_out << "tools::sg::plotter::set_f    
1014           status = false;                        
1015         } else {                                 
1016           style_t _style;                        
1017           _style.push_back(style_item_t(word1    
1018           if(!_axis->set_from_style(a_out,_st    
1019         }                                        
1020       } else if(_words.size()==3) {              
1021         const std::string& word0 = _words[0];    
1022         const std::string& word1 = _words[1];    
1023         const std::string& word2 = _words[2];    
1024         sg::axis* _axis = 0;                     
1025         std::string _s = word2+" "+std::strin    
1026         unsigned int index;                      
1027         bool to_status = to<unsigned int>(wor    
1028   if(word0=="bins_style") {                      
1029     if(!to_status) {                             
1030             a_out << "tools::sg::plotter::set    
1031             status = false;                      
1032           } else {                               
1033             if(!bins_style(index).from_string    
1034     }                                            
1035   } else if(word0=="errors_style") {             
1036     if(!to_status) {                             
1037             a_out << "tools::sg::plotter::set    
1038             status = false;                      
1039           } else {                               
1040             if(!errors_style(index).from_stri    
1041     }                                            
1042   } else if(word0=="func_style") {               
1043     if(!to_status) {                             
1044             a_out << "tools::sg::plotter::set    
1045             status = false;                      
1046           } else {                               
1047             if(!func_style(index).from_string    
1048     }                                            
1049   } else if(word0=="points_style") {             
1050     if(!to_status) {                             
1051             a_out << "tools::sg::plotter::set    
1052             status = false;                      
1053           } else {                               
1054             if(!points_style(index).from_stri    
1055     }                                            
1056   } else if(word0=="left_hatch_style") {         
1057     if(!to_status) {                             
1058             a_out << "tools::sg::plotter::set    
1059             status = false;                      
1060           } else {                               
1061             if(!left_hatch_style(index).from_    
1062     }                                            
1063   } else if(word0=="right_hatch_style") {        
1064     if(!to_status) {                             
1065             a_out << "tools::sg::plotter::set    
1066             status = false;                      
1067           } else {                               
1068             if(!right_hatch_style(index).from    
1069     }                                            
1070   } else if(word0=="legend_style") {             
1071     if(!to_status) {                             
1072             a_out << "tools::sg::plotter::set    
1073             status = false;                      
1074           } else {                               
1075             if(!legend_style(index).from_stri    
1076     }                                            
1077         } else if(!s2axis(word0,_axis)) {        
1078           a_out << "tools::sg::plotter::set_f    
1079           status = false;                        
1080         } else {                                 
1081                if(word1=="line_style")   {if(    
1082           else if(word1=="ticks_style")  {if(    
1083           else if(word1=="labels_style") {if(    
1084           else if(word1=="mag_style")    {if(    
1085           else if(word1=="title_style")  {if(    
1086           else {                                 
1087             a_out << "tools::sg::plotter::set    
1088             status = false;                      
1089           }                                      
1090         }                                        
1091       } else {                                   
1092         a_out << "tools::sg::plotter::set_fro    
1093         status = false;                          
1094       }                                          
1095     }                                            
1096     return status;                               
1097   }                                              
1098                                                  
1099   void set_encoding(const std::string& a_valu    
1100     title_style().encoding = a_value;            
1101     infos_style().encoding = a_value;            
1102     title_box_style().encoding = a_value;        
1103     m_x_axis.set_encoding(a_value);              
1104     m_y_axis.set_encoding(a_value);              
1105     m_z_axis.set_encoding(a_value);              
1106     m_cmap_axis.set_encoding(a_value);           
1107   }                                              
1108   void set_encoding_none() {set_encoding(enco    
1109                                                  
1110   void print_available_customization(std::ost    
1111     a_out << "plotter fields :" << std::endl;    
1112    {const std::vector<field_desc>& fds = node    
1113     tools_vforcit(field_desc,fds,itd) {          
1114       a_out << " " << (*itd).name() << ", cla    
1115     }}                                           
1116     a_out << std::endl;                          
1117                                                  
1118     a_out << "plotter data available styles :    
1119     a_out << " bins_style.<uint>, class style    
1120     a_out << " errors_style.<uint>, class sty    
1121     a_out << " func_style.<uint>, class style    
1122     a_out << " points_style.<uint>, class sty    
1123     a_out << " left_hatch_style.<uint>, class    
1124     a_out << " right_hatch_style.<uint>, clas    
1125     a_out << " legend_style.<uint>, class sty    
1126     a_out << std::endl;                          
1127                                                  
1128     a_out << "plotter available styles :" <<     
1129     a_out << " title_style, class text_style"    
1130     a_out << " infos_style, class text_style"    
1131     a_out << " title_box_style, class text_st    
1132     a_out << " background_style, class style"    
1133     a_out << " inner_frame_style, class style    
1134     a_out << " grid_style, class style" << st    
1135     a_out << " wall_style, class style" << st    
1136     a_out << std::endl;                          
1137                                                  
1138     a_out << "plotter available axes :" << st    
1139     a_out << " x_axis" << std::endl;             
1140     a_out << " y_axis" << std::endl;             
1141     a_out << " z_axis" << std::endl;             
1142     a_out << " colormap_axis" << std::endl;      
1143     a_out << std::endl;                          
1144                                                  
1145     a_out << "plotter axis available styles :    
1146     a_out << " title_style, class text_style"    
1147     a_out << " labels_style, class text_style    
1148     a_out << " mag_style, class text_style" <    
1149     a_out << " line_style, class line_style"     
1150     a_out << " ticks_style, class line_style"    
1151     a_out << std::endl;                          
1152                                                  
1153     a_out << "plotter style class fields :" <    
1154    {style _style;                                
1155     const std::vector<field_desc>& fds = _sty    
1156     tools_vforcit(field_desc,fds,itd) {          
1157       a_out << " " << (*itd).name() << ", cla    
1158     }}                                           
1159     a_out << std::endl;                          
1160                                                  
1161     a_out << "plotter text_style class fields    
1162    {text_style _style;                           
1163     const std::vector<field_desc>& fds = _sty    
1164     tools_vforcit(field_desc,fds,itd) {          
1165       a_out << " " << (*itd).name() << ", cla    
1166     }}                                           
1167     a_out << std::endl;                          
1168                                                  
1169     a_out << "plotter line_style class fields    
1170    {line_style _style;                           
1171     const std::vector<field_desc>& fds = _sty    
1172     tools_vforcit(field_desc,fds,itd) {          
1173       a_out << " " << (*itd).name() << ", cla    
1174     }}                                           
1175     a_out << std::endl;                          
1176   }                                              
1177 protected:                                       
1178   void style_failed(std::ostream& a_out,const    
1179     a_out << "tools::sg::plotter::set_from_st    
1180           << " failed for key " << sout(a_key    
1181           << " and value " << sout(a_value) <    
1182           << std::endl;                          
1183   }                                              
1184 public:                                          
1185   virtual void render(render_action& a_action    
1186     if(touched()) {                              
1187       update_sg(a_action.out());                 
1188       reset_touched();                           
1189     }                                            
1190     m_group.render(a_action);                    
1191   }                                              
1192   virtual void pick(pick_action& a_action) {     
1193     if(touched()) {                              
1194       update_sg(a_action.out());                 
1195       reset_touched();                           
1196     }                                            
1197     nodekit_pick(a_action,m_group,this);         
1198   }                                              
1199   virtual void search(search_action& a_action    
1200     if(touched()) {                              
1201       update_sg(a_action.out());                 
1202       reset_touched();                           
1203     }                                            
1204     node::search(a_action);                      
1205     if(a_action.done()) return;                  
1206     m_group.search(a_action);                    
1207   }                                              
1208   virtual void bbox(bbox_action& a_action) {     
1209     if(touched()) {                              
1210       update_sg(a_action.out());                 
1211       reset_touched();                           
1212     }                                            
1213     m_group.bbox(a_action);                      
1214   }                                              
1215                                                  
1216   virtual bool write(write_action& a_action)     
1217     if(touched()) {                              
1218       update_sg(a_action.out());                 
1219       reset_touched();                           
1220     }                                            
1221     //if(!write_fields(a_action)) return fals    
1222     return m_group.write(a_action);              
1223   }                                              
1224 public:                                          
1225   plotter(const base_freetype& a_ttf)            
1226   :parent()                                      
1227   ,width(0)                                      
1228   ,height(0)                                     
1229   ,left_margin(0)                                
1230   ,right_margin(0)                               
1231   ,bottom_margin(0)                              
1232   ,top_margin(0)                                 
1233   ,depth(0)                                      
1234   ,down_margin(0)                                
1235   ,up_margin(0)                                  
1236                                                  
1237   ,title_up(true)                                
1238   ,title_to_axis(0) //set below.                 
1239   ,title_height(0)  //set below.                 
1240   ,title_automated(true)                         
1241   ,title_hjust(center)                           
1242   ,title("")                                     
1243                                                  
1244   ,colormap_visible(true)                        
1245   ,colormap_axis_labeling(cells)                 
1246   ,colormap_attached(true)                       
1247   ,colormap_axis_visible(true)                   
1248                                                  
1249   ,x_axis_enforced(false)                        
1250   ,x_axis_automated(true)                        
1251   ,x_axis_min(0)                                 
1252   ,x_axis_max(1)                                 
1253   ,x_axis_is_log(false)                          
1254   ,y_axis_enforced(false)                        
1255   ,y_axis_automated(true)                        
1256   ,y_axis_min(0)                                 
1257   ,y_axis_max(1)                                 
1258   ,y_axis_is_log(false)                          
1259   ,z_axis_enforced(false)                        
1260   ,z_axis_automated(true)                        
1261   ,z_axis_min(0)                                 
1262   ,z_axis_max(1)                                 
1263   ,z_axis_is_log(false)                          
1264                                                  
1265   ,value_top_margin(0.1f) //percent. // CERN-    
1266   ,value_bottom_margin(0.0f) //percent.          
1267   ,value_bins_with_entries(true)                 
1268                                                  
1269   ,infos_width(0.3f) //percent of width          
1270   ,infos_x_margin(default_infos_margin()) //p    
1271   ,infos_y_margin(default_infos_margin()) //p    
1272   ,infos_what(s_infos_what_def())                
1273                                                  
1274   ,title_box_width(default_title_box_width())    
1275   ,title_box_height(default_title_box_height(    
1276   ,title_box_x_margin(default_title_box_x_mar    
1277   ,title_box_y_margin(default_title_box_y_mar    
1278                                                  
1279   ,func2D_borders_visible(true)                  
1280   ,theta(30)                                     
1281   ,phi(30)                                       
1282   ,tau(-90)                                      
1283                                                  
1284   ,legends_automated(true)                       
1285   //,legends_attached_to_infos(true)             
1286   // if legends_attached_to_infos is false an    
1287   // unit_percent, legends_origin is the posi    
1288   // of the upper right corner of the legends    
1289   // relative to the upper right corner of th    
1290   // with positive values going in reverse x,    
1291   //,legends_origin(vec2f(0.01f,0.01f))          
1292   //,legends_origin_unit(unit_percent)           
1293   //,legends_size(vec2f(0.2f,0.16f))             
1294   //legends_string                               
1295                                                  
1296   ,shape_automated(true)                         
1297   ,shape(xy)                                     
1298                                                  
1299   ,xy_depth(0.01f)                               
1300   ,curve_number_of_points(100)                   
1301   ,data_light_on_automated(true)                 
1302   ,primitives_enforced(false)                    
1303   ,inner_frame_enforced(false)                   
1304   ,number_of_levels(10)                          
1305   ,levels()                                      
1306                                                  
1307   ,m_ttf(a_ttf)                                  
1308                                                  
1309   ,m_cmap_axis(a_ttf)                            
1310   ,m_x_axis(a_ttf)                               
1311   ,m_y_axis(a_ttf)                               
1312   ,m_z_axis(a_ttf)                               
1313                                                  
1314   ,m_shape(xy)                                   
1315   {                                              
1316     m_cmaps[style_default_colormap::s_default    
1317                                                  
1318     add_fields();                                
1319     reset_style(true);                           
1320                                                  
1321     init_sg(); // skeleton of scene graph.       
1322   }                                              
1323   virtual ~plotter(){                            
1324     clear_plottables();                          
1325     clear_primitives();                          
1326     clear_cmaps();                               
1327   }                                              
1328 public:                                          
1329   plotter(const plotter& a_from)                 
1330   :parent(a_from)                                
1331   ,width(a_from.width)                           
1332   ,height(a_from.height)                         
1333   ,left_margin(a_from.left_margin)               
1334   ,right_margin(a_from.right_margin)             
1335   ,bottom_margin(a_from.bottom_margin)           
1336   ,top_margin(a_from.top_margin)                 
1337   ,depth(a_from.depth)                           
1338   ,down_margin(a_from.down_margin)               
1339   ,up_margin(a_from.up_margin)                   
1340                                                  
1341   ,title_up(a_from.title_up)                     
1342   ,title_to_axis(a_from.title_to_axis)           
1343   ,title_height(a_from.title_height)             
1344   ,title_automated(a_from.title_automated)       
1345   ,title_hjust(a_from.title_hjust)               
1346   ,title(a_from.title)                           
1347                                                  
1348   ,colormap_visible(a_from.colormap_visible)     
1349   ,colormap_axis_labeling(a_from.colormap_axi    
1350   ,colormap_attached(a_from.colormap_attached    
1351   ,colormap_axis_visible(a_from.colormap_axis    
1352                                                  
1353   ,x_axis_enforced(a_from.x_axis_enforced)       
1354   ,x_axis_automated(a_from.x_axis_automated)     
1355   ,x_axis_min(a_from.x_axis_min)                 
1356   ,x_axis_max(a_from.x_axis_max)                 
1357   ,x_axis_is_log(a_from.x_axis_is_log)           
1358   ,y_axis_enforced(a_from.y_axis_enforced)       
1359   ,y_axis_automated(a_from.y_axis_automated)     
1360   ,y_axis_min(a_from.y_axis_min)                 
1361   ,y_axis_max(a_from.y_axis_max)                 
1362   ,y_axis_is_log(a_from.y_axis_is_log)           
1363   ,z_axis_enforced(a_from.z_axis_enforced)       
1364   ,z_axis_automated(a_from.z_axis_automated)     
1365   ,z_axis_min(a_from.z_axis_min)                 
1366   ,z_axis_max(a_from.z_axis_max)                 
1367   ,z_axis_is_log(a_from.z_axis_is_log)           
1368   ,value_top_margin(a_from.value_top_margin)     
1369   ,value_bottom_margin(a_from.value_bottom_ma    
1370   ,value_bins_with_entries(a_from.value_bins_    
1371                                                  
1372   ,infos_width(a_from.infos_width)               
1373   ,infos_x_margin(a_from.infos_x_margin)         
1374   ,infos_y_margin(a_from.infos_y_margin)         
1375   ,infos_what(a_from.infos_what)                 
1376                                                  
1377   ,title_box_width(a_from.title_box_width)       
1378   ,title_box_height(a_from.title_box_height)     
1379   ,title_box_x_margin(a_from.title_box_x_marg    
1380   ,title_box_y_margin(a_from.title_box_y_marg    
1381                                                  
1382   ,func2D_borders_visible(a_from.func2D_borde    
1383   ,theta(a_from.theta)                           
1384   ,phi(a_from.phi)                               
1385   ,tau(a_from.tau)                               
1386                                                  
1387   ,legends_automated(a_from.legends_automated    
1388 //,legends_attached_to_infos(a_from.legends_a    
1389   ,legends_origin(a_from.legends_origin)         
1390   ,legends_origin_unit(a_from.legends_origin_    
1391   ,legends_size(a_from.legends_size)             
1392   ,legends_string(a_from.legends_string)         
1393                                                  
1394   ,shape_automated(a_from.shape_automated)       
1395   ,shape(a_from.shape)                           
1396                                                  
1397   ,xy_depth(a_from.xy_depth)                     
1398   ,curve_number_of_points(a_from.curve_number    
1399   ,data_light_on_automated(a_from.data_light_    
1400   ,primitives_enforced(a_from.primitives_enfo    
1401   ,inner_frame_enforced(a_from.inner_frame_en    
1402   ,number_of_levels(a_from.number_of_levels)     
1403   ,levels(a_from.levels)                         
1404                                                  
1405   ,m_ttf(a_from.m_ttf)                           
1406                                                  
1407   ,m_background_sep()                            
1408                                                  
1409   ,m_cmap_axis(m_ttf)                            
1410   ,m_x_axis(m_ttf)                               
1411   ,m_y_axis(m_ttf)                               
1412   ,m_z_axis(m_ttf)                               
1413                                                  
1414   ,m_etc_sep(a_from.m_etc_sep)                   
1415                                                  
1416   ,m_shape(a_from.m_shape)                       
1417                                                  
1418   ,m_bins_style(a_from.m_bins_style)             
1419   ,m_errors_style(a_from.m_errors_style)         
1420   ,m_func_style(a_from.m_func_style)             
1421   ,m_points_style(a_from.m_points_style)         
1422   ,m_left_hatch_style(a_from.m_left_hatch_sty    
1423   ,m_right_hatch_style(a_from.m_right_hatch_s    
1424   ,m_legend_style(a_from.m_legend_style)         
1425                                                  
1426   ,m_title_style(a_from.m_title_style)           
1427   ,m_infos_style(a_from.m_infos_style)           
1428   ,m_title_box_style(a_from.m_title_box_style    
1429   ,m_background_style(a_from.m_background_sty    
1430   ,m_wall_style(a_from.m_wall_style)             
1431   ,m_inner_frame_style(a_from.m_inner_frame_s    
1432   ,m_grid_style(a_from.m_grid_style)             
1433   ,m_cmaps(a_from.m_cmaps)                       
1434   {                                              
1435     add_fields();                                
1436                                                  
1437     // to copy axes styles :                     
1438     m_x_axis = a_from.m_x_axis;                  
1439     m_y_axis = a_from.m_y_axis;                  
1440     m_z_axis = a_from.m_z_axis;                  
1441     m_cmap_axis = a_from.m_cmap_axis;            
1442                                                  
1443     init_sg(); // skeleton of scene graph.       
1444                                                  
1445    {tools_vforcit(plottable*,a_from.m_plottab    
1446    {tools_vforcit(plotprim*,a_from.m_primitiv    
1447   }                                              
1448   plotter& operator=(const plotter& a_from){     
1449     parent::operator=(a_from);                   
1450     if(&a_from==this) return *this;              
1451                                                  
1452     width = a_from.width;                        
1453     height = a_from.height;                      
1454     left_margin = a_from.left_margin;            
1455     right_margin = a_from.right_margin;          
1456     bottom_margin = a_from.bottom_margin;        
1457     top_margin = a_from.top_margin;              
1458     depth = a_from.depth;                        
1459     down_margin = a_from.down_margin;            
1460     up_margin = a_from.up_margin;                
1461                                                  
1462     title_up = a_from.title_up;                  
1463     title_to_axis = a_from.title_to_axis;        
1464     title_height = a_from.title_height;          
1465     title_automated = a_from.title_automated;    
1466     title_hjust = a_from.title_hjust;            
1467     title = a_from.title;                        
1468                                                  
1469     colormap_visible = a_from.colormap_visibl    
1470     colormap_axis_labeling = a_from.colormap_    
1471     colormap_attached = a_from.colormap_attac    
1472     colormap_axis_visible = a_from.colormap_a    
1473                                                  
1474     x_axis_enforced = a_from.x_axis_enforced;    
1475     x_axis_automated = a_from.x_axis_automate    
1476     x_axis_min = a_from.x_axis_min;              
1477     x_axis_max = a_from.x_axis_max;              
1478     x_axis_is_log = a_from.x_axis_is_log;        
1479     y_axis_enforced = a_from.y_axis_enforced;    
1480     y_axis_automated = a_from.y_axis_automate    
1481     y_axis_min = a_from.y_axis_min;              
1482     y_axis_max = a_from.y_axis_max;              
1483     y_axis_is_log = a_from.y_axis_is_log;        
1484     z_axis_enforced = a_from.z_axis_enforced;    
1485     z_axis_automated = a_from.z_axis_automate    
1486     z_axis_min = a_from.z_axis_min;              
1487     z_axis_max = a_from.z_axis_max;              
1488     z_axis_is_log = a_from.z_axis_is_log;        
1489     value_top_margin = a_from.value_top_margi    
1490     value_bottom_margin = a_from.value_bottom    
1491     value_bins_with_entries = a_from.value_bi    
1492                                                  
1493     infos_width = a_from.infos_width;            
1494     infos_x_margin = a_from.infos_x_margin;      
1495     infos_y_margin = a_from.infos_y_margin;      
1496     infos_what = a_from.infos_what;              
1497                                                  
1498     title_box_width = a_from.title_box_width;    
1499     title_box_height = a_from.title_box_heigh    
1500     title_box_x_margin = a_from.title_box_x_m    
1501     title_box_y_margin = a_from.title_box_y_m    
1502                                                  
1503     func2D_borders_visible = a_from.func2D_bo    
1504     theta = a_from.theta;                        
1505     phi = a_from.phi;                            
1506     tau = a_from.tau;                            
1507                                                  
1508     legends_automated = a_from.legends_automa    
1509   //legends_attached_to_infos = a_from.legend    
1510     legends_origin = a_from.legends_origin;      
1511     legends_origin_unit = a_from.legends_orig    
1512     legends_size = a_from.legends_size;          
1513     legends_string = a_from.legends_string;      
1514                                                  
1515     shape_automated = a_from.shape_automated;    
1516     shape = a_from.shape;                        
1517                                                  
1518     xy_depth = a_from.xy_depth;                  
1519     curve_number_of_points = a_from.curve_num    
1520     number_of_levels = a_from.number_of_level    
1521     levels = a_from.levels;                      
1522     data_light_on_automated = a_from.data_lig    
1523     primitives_enforced = a_from.primitives_e    
1524     inner_frame_enforced = a_from.inner_frame    
1525                                                  
1526     m_etc_sep = a_from.m_etc_sep;                
1527                                                  
1528     m_bins_style = a_from.m_bins_style;          
1529     m_errors_style = a_from.m_errors_style;      
1530     m_func_style = a_from.m_func_style;          
1531     m_points_style = a_from.m_points_style;      
1532     m_left_hatch_style = a_from.m_left_hatch_    
1533     m_right_hatch_style = a_from.m_right_hatc    
1534     m_legend_style = a_from.m_legend_style;      
1535                                                  
1536     m_title_style = a_from.m_title_style;        
1537     m_infos_style = a_from.m_infos_style;        
1538     m_title_box_style = a_from.m_title_box_st    
1539     m_background_style = a_from.m_background_    
1540     m_wall_style = a_from.m_wall_style;          
1541     m_inner_frame_style = a_from.m_inner_fram    
1542     m_grid_style = a_from.m_grid_style;          
1543                                                  
1544     // to copy axes styles :                     
1545     m_x_axis = a_from.m_x_axis;                  
1546     m_y_axis = a_from.m_y_axis;                  
1547     m_z_axis = a_from.m_z_axis;                  
1548     m_cmap_axis = a_from.m_cmap_axis;            
1549                                                  
1550     m_cmaps = a_from.m_cmaps;                    
1551                                                  
1552     clear_plottables();                          
1553     clear_primitives();                          
1554     clear_todels();                              
1555                                                  
1556    {tools_vforcit(plottable*,a_from.m_plottab    
1557    {tools_vforcit(plotprim*,a_from.m_primitiv    
1558                                                  
1559     return *this;                                
1560   }                                              
1561 public:                                          
1562   size_t number_of_plottables() const {          
1563     size_t number = 0;                           
1564     tools_vforcit(plottable*,m_plottables,it)    
1565       plottable* object = *it;                   
1566       if(!object) continue;                      
1567       if(!object->is_valid()) continue;          
1568       // take into account all valid plottabl    
1569       number++;                                  
1570     }                                            
1571     return number;                               
1572   }                                              
1573                                                  
1574 #define TOOLS_SG_PLOTTER_NUMBER_OF(a__what) \    
1575   size_t number_of_plotted_##a__what##s() con    
1576     size_t number = 0;\                          
1577     tools_vforcit(plottable*,m_plottables,it)    
1578       plottable* object = *it;\                  
1579       if(!object) continue;\                     
1580       if(!object->is_valid()) continue;\         
1581       if(safe_cast<plottable,a__what>(*object    
1582     }\                                           
1583     return number;\                              
1584   }                                              
1585                                                  
1586   TOOLS_SG_PLOTTER_NUMBER_OF(bins1D)             
1587   TOOLS_SG_PLOTTER_NUMBER_OF(bins2D)             
1588   TOOLS_SG_PLOTTER_NUMBER_OF(points2D)           
1589   TOOLS_SG_PLOTTER_NUMBER_OF(points3D)           
1590   TOOLS_SG_PLOTTER_NUMBER_OF(func1D)             
1591   TOOLS_SG_PLOTTER_NUMBER_OF(func2D)             
1592                                                  
1593 #undef TOOLS_SG_PLOTTER_NUMBER_OF                
1594                                                  
1595   void plotted_object_names(std::vector<std::    
1596     a_names.clear();                             
1597     tools_vforcit(plottable*,m_plottables,it)    
1598       plottable* object = *it;                   
1599       if(!object) continue;                      
1600       if(!object->is_valid()) continue;          
1601       // take into account all valid plottabl    
1602       a_names.push_back(object->name());         
1603     }                                            
1604   }                                              
1605                                                  
1606 public: //public                                 
1607   const torche& data_light() const {return m_    
1608   torche& data_light() {return m_data_light;}    
1609                                                  
1610   matrix& tsf() {return m_tsf;}                  
1611                                                  
1612   const separator& etc_sep() const {return m_    
1613   separator& etc_sep() {return m_etc_sep;}       
1614                                                  
1615   const std::vector<plottable*>& plottables()    
1616                                                  
1617   void add_plottable(plottable* a_p) {           
1618     //WARNING : it takes ownership of a_p obj    
1619     m_plottables.push_back(a_p);                 
1620     touch();                                     
1621   }                                              
1622                                                  
1623   void prep_plottable(plottable* a_p) {          
1624     //WARNING : it takes ownership of a_p obj    
1625     m_plottables.insert(m_plottables.begin(),    
1626     touch();                                     
1627   }                                              
1628                                                  
1629   void transfer_plottables(std::vector<plotta    
1630     a_to = m_plottables;                         
1631     m_plottables.clear(); //do not delete plo    
1632     touch();                                     
1633   }                                              
1634                                                  
1635   template <class T>                             
1636   bool remove_plottables() {                     
1637     bool found = false;                          
1638     std::vector<plottable*>::iterator it;        
1639     for(it=m_plottables.begin();it!=m_plottab    
1640       plottable* object = *it;                   
1641       if(object && safe_cast<plottable,T>(*ob    
1642         it = m_plottables.erase(it);             
1643         delete object;                           
1644         found = true;                            
1645       } else {                                   
1646         it++;                                    
1647       }                                          
1648     }                                            
1649     if(found) touch();                           
1650     return found;                                
1651   }                                              
1652                                                  
1653   void add_primitive(plotprim* a_prim) {m_pri    
1654                                                  
1655   void transfer_primitives(std::vector<plotpr    
1656     a_to = m_primitives;                         
1657     m_primitives.clear(); //do not delete pri    
1658     touch();                                     
1659   }                                              
1660                                                  
1661   template <class T>                             
1662   void add_todel(T* a_obj) {                     
1663     m_todel_group.add(new sg::holder<T>(a_obj    
1664   }                                              
1665   template <class T>                             
1666   void remove_todels(){                          
1667     remove_holders<T>(m_todel_group.children(    
1668   }                                              
1669   void transfer_todels(std::vector<node*>& a_    
1670     m_todel_group.transfer(a_to);                
1671   }                                              
1672   void add_node_todel(node* a_node) { //used     
1673     m_todel_group.add(a_node);                   
1674   }                                              
1675                                                  
1676   void clear() {                                 
1677     clear_plottables();                          
1678     clear_primitives();                          
1679     clear_todels();                              
1680                                                  
1681     legends_string.clear();                      
1682     legends_origin_unit.clear();                 
1683     legends_origin.clear();                      
1684     legends_size.clear();                        
1685                                                  
1686     //wallEnforced.setValue(false);              
1687     //gridEnforced.setValue(false);              
1688     primitives_enforced = false;                 
1689     inner_frame_enforced = false;                
1690                                                  
1691     //getEtcSeparator()->removeAllChildren();    
1692     //getEtcDataSeparator()->removeAllChildre    
1693   }                                              
1694                                                  
1695   const sg::axis& x_axis() const {return m_x_    
1696   sg::axis& x_axis() {return m_x_axis;}          
1697                                                  
1698   const sg::axis& y_axis() const {return m_y_    
1699   sg::axis& y_axis() {return m_y_axis;}          
1700                                                  
1701   const sg::axis& z_axis() const {return m_z_    
1702   sg::axis& z_axis() {return m_z_axis;}          
1703                                                  
1704   const sg::axis& colormap_axis() const {retu    
1705   sg::axis& colormap_axis() {return m_cmap_ax    
1706                                                  
1707   text_style& title_style() {return m_title_s    
1708   style& background_style() {return m_backgro    
1709   style& wall_style() {return m_wall_style;}     
1710   style& inner_frame_style() {return m_inner_    
1711   style& grid_style() {return m_grid_style;}     
1712   text_style& infos_style() {return m_infos_s    
1713   text_style& title_box_style() {return m_tit    
1714                                                  
1715   style& bins_style(size_t a_index) {            
1716     size_t sz = m_bins_style.size();             
1717     if(a_index>=sz) {                            
1718       //012345 sz=6                              
1719       //         9 a_index wanted                
1720       //      6789 loop                          
1721       for(size_t index=sz;index<=a_index;inde    
1722         m_bins_style.push_back(style());         
1723         m_bins_style.back().modeling = modeli    
1724         m_bins_style.back().marker_size = 5;     
1725       }                                          
1726     }                                            
1727     return m_bins_style[a_index];                
1728   }                                              
1729                                                  
1730   style& errors_style(size_t a_index) {          
1731     size_t sz = m_errors_style.size();           
1732     if(a_index>=sz) {                            
1733       for(size_t index=sz;index<=a_index;inde    
1734         m_errors_style.push_back(style());       
1735         m_errors_style.back().visible = false    
1736       }                                          
1737     }                                            
1738     return m_errors_style[a_index];              
1739   }                                              
1740                                                  
1741   style& func_style(size_t a_index) {            
1742     size_t sz = m_func_style.size();             
1743     if(a_index>=sz) {                            
1744       for(size_t index=sz;index<=a_index;inde    
1745         m_func_style.push_back(style());         
1746       }                                          
1747     }                                            
1748     return m_func_style[a_index];                
1749   }                                              
1750                                                  
1751   style& points_style(size_t a_index) {          
1752     size_t sz = m_points_style.size();           
1753     if(a_index>=sz) {                            
1754       //012345 sz=6                              
1755       //         9 a_index wanted                
1756       //      6789 loop                          
1757       for(size_t index=sz;index<=a_index;inde    
1758         m_points_style.push_back(style());       
1759         m_points_style.back().modeling = mode    
1760       }                                          
1761     }                                            
1762     return m_points_style[a_index];              
1763   }                                              
1764                                                  
1765   style& left_hatch_style(size_t a_index) {      
1766     size_t sz = m_left_hatch_style.size();       
1767     if(a_index>=sz) {                            
1768       for(size_t index=sz;index<=a_index;inde    
1769         m_left_hatch_style.push_back(style())    
1770         m_left_hatch_style.back().visible = f    
1771       }                                          
1772     }                                            
1773     return m_left_hatch_style[a_index];          
1774   }                                              
1775                                                  
1776   style& right_hatch_style(size_t a_index) {     
1777     size_t sz = m_right_hatch_style.size();      
1778     if(a_index>=sz) {                            
1779       for(size_t index=sz;index<=a_index;inde    
1780         m_right_hatch_style.push_back(style()    
1781         m_right_hatch_style.back().visible =     
1782       }                                          
1783     }                                            
1784     return m_right_hatch_style[a_index];         
1785   }                                              
1786                                                  
1787   style& legend_style(size_t a_index) {          
1788     size_t sz = m_legend_style.size();           
1789     if(a_index>=sz) {                            
1790       for(size_t index=sz;index<=a_index;inde    
1791         m_legend_style.push_back(style());       
1792       }                                          
1793     }                                            
1794     return m_legend_style[a_index];              
1795   }                                              
1796                                                  
1797   void bins_modelings(size_t a_index,std::vec    
1798     a_opts.clear();                              
1799     update_shape();                              
1800     if(m_shape==xy) {                            
1801       size_t ibins = 0;                          
1802       tools_vforcit(plottable*,m_plottables,i    
1803         plottable* object = *it;                 
1804         if(!object) continue;                    
1805         if(bins1D* b1 = safe_cast<plottable,b    
1806           //update_bins1D_xy                     
1807           if(a_index==ibins) {                   
1808             if(b1->is_profile()) {               
1809               a_opts.push_back(modeling_point    
1810               a_opts.push_back(modeling_marke    
1811         return;                                  
1812             } else {                             
1813               a_opts.push_back(modeling_boxes    
1814               a_opts.push_back(modeling_wire_    
1815               a_opts.push_back(modeling_bar_c    
1816               a_opts.push_back(modeling_top_l    
1817               a_opts.push_back(modeling_point    
1818               a_opts.push_back(modeling_marke    
1819               return;                            
1820             }                                    
1821           }                                      
1822           ibins++;                               
1823         } if(safe_cast<plottable,bins2D>(*obj    
1824           //update_bins2D_xy                     
1825           if(a_index==ibins) {                   
1826             a_opts.push_back(modeling_curve()    
1827             a_opts.push_back(modeling_filled_    
1828             a_opts.push_back(modeling_boxes()    
1829             a_opts.push_back(modeling_wire_bo    
1830             a_opts.push_back(modeling_solid()    
1831             a_opts.push_back(modeling_points(    
1832             return;                              
1833           }                                      
1834           ibins++;                               
1835         }                                        
1836       }                                          
1837     }                                            
1838   }                                              
1839                                                  
1840   bool xx_2_yy(const vec3f& a_pos,vec3f& a_ou    
1841     // a_pos is in data frame NDC coordinates    
1842    {float XSIZ = width;                          
1843     float XMGL = left_margin;                    
1844     float XMGR = right_margin;                   
1845     float wData = XSIZ-XMGL-XMGR;                
1846     a_out[0] = wData*a_pos[0];}                  
1847                                                  
1848    {float YSIZ = height;                         
1849     float YMGL = bottom_margin;                  
1850     float YMGU = top_margin;                     
1851     float hData = YSIZ-YMGL-YMGU;                
1852     a_out[1] = hData*a_pos[1];}                  
1853                                                  
1854    {float ZSIZ = depth;                          
1855     float ZMGD = down_margin;                    
1856     float ZMGU = up_margin;                      
1857     float dData = ZSIZ-ZMGD-ZMGU;                
1858     a_out[2] = dData*a_pos[2];}                  
1859                                                  
1860     return true;                                 
1861   }                                              
1862                                                  
1863   bool data_frame_2_vp(const vec3f& a_pos,vec    
1864     // a_pos is in data frame NDC coordinates    
1865     // a_vp is in viewport/screen coordinates    
1866    {float XSIZ = width;                          
1867     float XMGL = left_margin;                    
1868     float XMGR = right_margin;                   
1869     float wData = XSIZ-XMGL-XMGR;                
1870     if(XSIZ==0.0F) {                             
1871       //SoDebugError::postInfo("tools::sg;:pl    
1872       return false;                              
1873     }                                            
1874     a_vp[0] = (wData*a_pos[0] + XMGL)/XSIZ;}     
1875                                                  
1876    {float YSIZ = height;                         
1877     float YMGL = bottom_margin;                  
1878     float YMGU = top_margin;                     
1879     float hData = YSIZ-YMGL-YMGU;                
1880     if(YSIZ==0.0F) {                             
1881       //SoDebugError::postInfo("tools::sg;:pl    
1882       return false;                              
1883     }                                            
1884     a_vp[1] = (hData*a_pos[1] + YMGL)/YSIZ;}     
1885                                                  
1886    {float ZSIZ = depth;                          
1887     float ZMGD = down_margin;                    
1888     float ZMGU = up_margin;                      
1889     float dData = ZSIZ-ZMGD-ZMGU;                
1890     if(ZSIZ==0.0F) {                             
1891       //SoDebugError::postInfo("tools::sg;:pl    
1892       return false;                              
1893     }                                            
1894     a_vp[2] = (dData*a_pos[2] + ZMGD)/ZSIZ;}     
1895                                                  
1896     return true;                                 
1897   }                                              
1898                                                  
1899   bool vp_2_data_frame(const vec3f& a_vp,vec3    
1900     // a_vp is in viewport/screen coordinates    
1901     // a_pos is in data frame NDC coordinates    
1902                                                  
1903    {float XSIZ = width;                          
1904     float XMGL = left_margin;                    
1905     float XMGR = right_margin;                   
1906     float wData = XSIZ-XMGL-XMGR;                
1907     if(wData==0.0F) {                            
1908       //SoDebugError::postInfo("tools::sg;:pl    
1909       return false;                              
1910     }                                            
1911     a_pos[0] = (a_vp[0]*XSIZ - XMGL)/wData;}     
1912                                                  
1913    {float YSIZ = height;                         
1914     float YMGL = bottom_margin;                  
1915     float YMGU = top_margin;                     
1916     float hData = YSIZ-YMGL-YMGU;                
1917     if(hData==0.0F) {                            
1918       //SoDebugError::postInfo("tools::sg;:pl    
1919       return false;                              
1920     }                                            
1921     a_pos[1] = (a_vp[1]*YSIZ - YMGL)/hData;}     
1922                                                  
1923    {float ZSIZ = depth;                          
1924     float ZMGD = down_margin;                    
1925     float ZMGU = up_margin;                      
1926     float dData = ZSIZ-ZMGD-ZMGU;                
1927     if(dData==0.0F) {                            
1928       //SoDebugError::postInfo("tools::sg;:pl    
1929       return false;                              
1930     }                                            
1931     a_pos[2] = (a_vp[2]*ZSIZ - ZMGD)/dData;}     
1932                                                  
1933     return true;                                 
1934   }                                              
1935                                                  
1936   bool data_frame_2_axis(const vec3f& aDF,vec    
1937     // aDF is in data area coordinates. In [0    
1938     // a_pos is in axes coordinates.             
1939                                                  
1940     // Assume that axes min,max,is_log are up    
1941                                                  
1942    {float mn = m_x_axis.minimum_value;           
1943     float mx = m_x_axis.maximum_value;           
1944     bool lg = m_x_axis.is_log;                   
1945     if(lg) {                                     
1946       mn = fpow(10,mn);                          
1947       mx = fpow(10,mx);                          
1948     }                                            
1949     a_pos[0] = verify_log_inv(aDF[0],mn,mx-mn    
1950                                                  
1951    {float mn = m_y_axis.minimum_value;           
1952     float mx = m_y_axis.maximum_value;           
1953     bool lg = m_y_axis.is_log;                   
1954     if(lg) {                                     
1955       mn = fpow(10,mn);                          
1956       mx = fpow(10,mx);                          
1957     }                                            
1958     a_pos[1] = verify_log_inv(aDF[1],mn,mx-mn    
1959                                                  
1960    {float mn = m_z_axis.minimum_value;           
1961     float mx = m_z_axis.maximum_value;           
1962     bool lg = m_z_axis.is_log;                   
1963     if(lg) {                                     
1964       mn = fpow(10,mn);                          
1965       mx = fpow(10,mx);                          
1966     }                                            
1967     a_pos[2] = verify_log_inv(aDF[2],mn,mx-mn    
1968                                                  
1969     return true;                                 
1970   }                                              
1971                                                  
1972   bool axis_2_data_frame(const vec3f& a_pos,v    
1973     // a_pos is in axes coordinates.             
1974     // aDF in data area coordinate. In [0,1][    
1975                                                  
1976     // Assume that axes min,max,logScale are     
1977                                                  
1978    {float mn = m_x_axis.minimum_value;           
1979     float mx = m_x_axis.maximum_value;           
1980     if(mx==mn) {                                 
1981       //SoDebugError::postInfo                   
1982       //  ("tools::sg;:plotter::axis_2_data_f    
1983       return false;                              
1984     }                                            
1985     bool lg = m_x_axis.is_log;                   
1986     if(lg) {                                     
1987       if(mn<=0) {                                
1988         //SoDebugError::postInfo                 
1989         //  ("tools::sg;:plotter::axis_2_data    
1990         return false;                            
1991       }                                          
1992       if(mx<=0) {                                
1993         //SoDebugError::postInfo                 
1994         //  ("tools::sg;:plotter::axis_2_data    
1995         return false;                            
1996       }                                          
1997       mn = flog10(mn);                           
1998       mx = flog10(mx);                           
1999     }                                            
2000     aDF[0] = verify_log(a_pos[0],mn,mx-mn,lg)    
2001                                                  
2002    {float mn = m_y_axis.minimum_value;           
2003     float mx = m_y_axis.maximum_value;           
2004     if(mx==mn) {                                 
2005       //SoDebugError::postInfo                   
2006       //  ("tools::sg;:plotter::axis_2_data_f    
2007       return false;                              
2008     }                                            
2009     bool lg = m_y_axis.is_log;                   
2010     if(lg) {                                     
2011       if(mn<=0) {                                
2012         //SoDebugError::postInfo                 
2013         //  ("tools::sg;:plotter::axis_2_data    
2014         return false;                            
2015       }                                          
2016       if(mx<=0) {                                
2017         //SoDebugError::postInfo                 
2018         //  ("tools::sg;:plotter::axis_2_data    
2019         return false;                            
2020       }                                          
2021       mn = flog10(mn);                           
2022       mx = flog10(mx);                           
2023     }                                            
2024     aDF[1] = verify_log(a_pos[1],mn,mx-mn,lg)    
2025                                                  
2026    {float mn = m_z_axis.minimum_value;           
2027     float mx = m_z_axis.maximum_value;           
2028     if(mx==mn) {                                 
2029       //SoDebugError::postInfo                   
2030       //  ("tools::sg;:plotter::axis_2_data_f    
2031       return false;                              
2032     }                                            
2033     bool lg = m_z_axis.is_log;                   
2034     if(lg) {                                     
2035       if(mn<=0) {                                
2036         //SoDebugError::postInfo                 
2037         //  ("tools::sg;:plotter::axis_2_data    
2038         return false;                            
2039       }                                          
2040       if(mx<=0) {                                
2041         //SoDebugError::postInfo                 
2042         //  ("tools::sg;:plotter::axis_2_data    
2043         return false;                            
2044       }                                          
2045       mn = flog10(mn);                           
2046       mx = flog10(mx);                           
2047     }                                            
2048     aDF[2] = verify_log(a_pos[2],mn,mx-mn,lg)    
2049                                                  
2050     return true;                                 
2051   }                                              
2052                                                  
2053   bool axis_2_vp(const vec3f& a_pos,vec3f& a_    
2054     // a_pos is in axes coordinates.             
2055     // a_vp is in viewport/screen coordinates    
2056     vec3f d; // In data area coordinate. In [    
2057     if(!axis_2_data_frame(a_pos,d)) return fa    
2058     return data_frame_2_vp(d,a_vp);              
2059   }                                              
2060                                                  
2061   bool vp_2_axis(const vec3f& a_vp,vec3f& a_p    
2062     // a_vp is in viewport/screen coordinates    
2063     // a_pos is in axes coordinates.             
2064     vec3f d; // In data area coordinate. In [    
2065     if(!vp_2_data_frame(a_vp,d)) return false    
2066     return data_frame_2_axis(d,a_pos);           
2067   }                                              
2068                                                  
2069 public:                                          
2070   void set_axes_modeling(const std::string& a    
2071     m_x_axis.modeling = a_v;                     
2072     m_y_axis.modeling = a_v;                     
2073     m_z_axis.modeling = a_v;                     
2074     m_cmap_axis.modeling = a_v;                  
2075   }                                              
2076                                                  
2077   void set_axes_color(const colorf& a_color){    
2078     m_x_axis.line_style().color = a_color;       
2079     m_x_axis.ticks_style().color = a_color;      
2080     m_x_axis.labels_style().color = a_color;     
2081     m_x_axis.title_style().color = a_color;      
2082     m_x_axis.mag_style().color = a_color;        
2083                                                  
2084     m_y_axis.line_style().color = a_color;       
2085     m_y_axis.ticks_style().color = a_color;      
2086     m_y_axis.labels_style().color = a_color;     
2087     m_y_axis.title_style().color = a_color;      
2088     m_y_axis.mag_style().color = a_color;        
2089                                                  
2090     m_z_axis.line_style().color = a_color;       
2091     m_z_axis.ticks_style().color = a_color;      
2092     m_z_axis.labels_style().color = a_color;     
2093     m_z_axis.title_style().color = a_color;      
2094     m_z_axis.mag_style().color = a_color;        
2095                                                  
2096     m_cmap_axis.line_style().color = a_color;    
2097     m_cmap_axis.ticks_style().color = a_color    
2098     m_cmap_axis.labels_style().color = a_colo    
2099     m_cmap_axis.title_style().color = a_color    
2100     m_cmap_axis.mag_style().color = a_color;     
2101   }                                              
2102                                                  
2103   void set_axes_text_scale(float a_v){           
2104     m_x_axis.labels_style().scale = a_v;         
2105     m_x_axis.title_style().scale = a_v;          
2106     m_x_axis.mag_style().scale = a_v;            
2107                                                  
2108     m_y_axis.labels_style().scale = a_v;         
2109     m_y_axis.title_style().scale = a_v;          
2110     m_y_axis.mag_style().scale = a_v;            
2111                                                  
2112     m_z_axis.labels_style().scale = a_v;         
2113     m_z_axis.title_style().scale = a_v;          
2114     m_z_axis.mag_style().scale = a_v;            
2115                                                  
2116     m_cmap_axis.labels_style().scale = a_v;      
2117     m_cmap_axis.title_style().scale = a_v;       
2118     m_cmap_axis.mag_style().scale = a_v;         
2119   }                                              
2120                                                  
2121   void set_axes_line_pattern(unsigned short a    
2122     m_x_axis.line_style().pattern = a_v;         
2123     m_y_axis.line_style().pattern = a_v;         
2124     m_z_axis.line_style().pattern = a_v;         
2125     m_cmap_axis.line_style().pattern = a_v;      
2126   }                                              
2127                                                  
2128   void set_axes_line_width(int a_v){             
2129     m_x_axis.line_style().width = float(a_v);    
2130     m_y_axis.line_style().width = float(a_v);    
2131     m_z_axis.line_style().width = float(a_v);    
2132     m_cmap_axis.line_style().width = float(a_    
2133                                                  
2134     m_x_axis.ticks_style().width = float(a_v)    
2135     m_y_axis.ticks_style().width = float(a_v)    
2136     m_z_axis.ticks_style().width = float(a_v)    
2137     m_cmap_axis.ticks_style().width = float(a    
2138   }                                              
2139                                                  
2140   void set_axes_tick_length(float a_v){          
2141     m_x_axis.tick_length = a_v;                  
2142     m_y_axis.tick_length = a_v;                  
2143     m_z_axis.tick_length = a_v;                  
2144     m_cmap_axis.tick_length = a_v;               
2145   }                                              
2146                                                  
2147   void set_axes_title_height(float a_v){         
2148     m_x_axis.title_height = a_v;                 
2149     m_y_axis.title_height = a_v;                 
2150     m_z_axis.title_height = a_v;                 
2151     m_cmap_axis.title_height = a_v;              
2152   }                                              
2153                                                  
2154   void set_axes_label_height(float a_v){         
2155     m_x_axis.label_height = a_v;                 
2156     m_y_axis.label_height = a_v;                 
2157     m_z_axis.label_height = a_v;                 
2158     m_cmap_axis.label_height = a_v;              
2159   }                                              
2160                                                  
2161   void set_axes_font_modeling(font_modeling a    
2162     m_x_axis.labels_style().font_modeling = a    
2163     m_x_axis.title_style().font_modeling = a_    
2164     m_x_axis.mag_style().font_modeling = a_v;    
2165                                                  
2166     m_y_axis.labels_style().font_modeling = a    
2167     m_y_axis.title_style().font_modeling = a_    
2168     m_y_axis.mag_style().font_modeling = a_v;    
2169                                                  
2170     m_z_axis.labels_style().font_modeling = a    
2171     m_z_axis.title_style().font_modeling = a_    
2172     m_z_axis.mag_style().font_modeling = a_v;    
2173                                                  
2174     m_cmap_axis.labels_style().font_modeling     
2175     m_cmap_axis.title_style().font_modeling =    
2176     m_cmap_axis.mag_style().font_modeling = a    
2177   }                                              
2178                                                  
2179   void set_font_modeling(font_modeling a_v){     
2180     set_axes_font_modeling(a_v);                 
2181     title_style().font_modeling = a_v;           
2182     infos_style().font_modeling = a_v;           
2183     title_box_style().font_modeling = a_v;       
2184   }                                              
2185 protected:                                       
2186   void init_sg(){                                
2187                                                  
2188     m_group.add(new noderef(m_background_sep)    
2189     m_group.add(new noderef(m_cmap_sep));        
2190     m_group.add(new noderef(m_infos_title_sep    
2191     m_group.add(new noderef(m_infos_sep));       
2192     m_group.add(new noderef(m_legend_sep));      
2193     m_group.add(new noderef(m_title_box_sep))    
2194     m_group.add(new noderef(m_tsf));             
2195     m_group.add(new noderef(m_layout));          
2196     m_group.add(new noderef(m_title_sep));       
2197     m_group.add(new noderef(m_x_axis_sep));      
2198     m_group.add(new noderef(m_y_axis_sep));      
2199     m_group.add(new noderef(m_z_axis_sep));      
2200     m_group.add(new noderef(m_grid_sep));        
2201     m_group.add(new noderef(m_data_sep));        
2202     m_group.add(new noderef(m_primitives_sep)    
2203                                                  
2204     m_cmap_sep.add(new noderef(m_cmap_matrix)    
2205     m_cmap_sep.add(new noderef(m_cmap_cells_s    
2206     m_cmap_sep.add(new noderef(m_cmap_axis_ma    
2207     m_cmap_sep.add(new noderef(m_cmap_axis));    
2208                                                  
2209     m_x_axis_sep.add(new noderef(m_x_axis_mat    
2210     m_x_axis_sep.add(new noderef(m_x_axis));     
2211                                                  
2212     m_y_axis_sep.add(new noderef(m_y_axis_mat    
2213     m_y_axis_sep.add(new noderef(m_y_axis));     
2214                                                  
2215     m_z_axis_sep.add(new noderef(m_z_axis_mat    
2216     m_z_axis_sep.add(new noderef(m_z_axis));     
2217                                                  
2218     m_data_sep.add(new noderef(m_data_light))    
2219     m_data_sep.add(new noderef(m_data_matrix)    
2220                                                  
2221     m_data_sep.add(new noderef(m_bins_sep));     
2222     m_data_sep.add(new noderef(m_errors_sep))    
2223     m_data_sep.add(new noderef(m_func_sep));     
2224     m_data_sep.add(new noderef(m_points_sep))    
2225     m_data_sep.add(new noderef(m_inner_frame_    
2226     m_data_sep.add(new noderef(m_etc_sep));      
2227   }                                              
2228                                                  
2229   void update_layout(){                          
2230     float XSIZ = width;                          
2231     float XMGL = left_margin;                    
2232     float XMGR = right_margin;                   
2233     float wData = XSIZ-XMGL-XMGR;                
2234                                                  
2235     float YSIZ = height;                         
2236     float YMGL = bottom_margin;                  
2237     float YMGU = top_margin;                     
2238     float hData = YSIZ-YMGL-YMGU;                
2239                                                  
2240     float ZSIZ = depth;                          
2241     float ZMGD = down_margin;                    
2242     float ZMGU = up_margin;                      
2243     float dData = ZSIZ-ZMGD-ZMGU;                
2244                                                  
2245    {mat4f& mtx = m_layout.mtx.value();           
2246     mtx.set_identity();                          
2247                                                  
2248     if(m_shape==xy) {                            
2249       // in rep primitives (0,0) is the lower    
2250       // of the data area square;                
2251       mtx.mul_translate(-XSIZ/2+XMGL,-YSIZ/2+    
2252                                                  
2253       if(data_light_on_automated.value()) m_d    
2254       vec3f dir(0,0,-1);                         
2255       m_data_light.direction = dir;              
2256                                                  
2257     } else { //xyz                               
2258       //printf("debug : update_layout : X : %    
2259       //  XSIZ,XMGL,XMGR,wData);                 
2260       //printf("debug : update_layout : Y : %    
2261       //  YSIZ,YMGL,YMGU,hData);                 
2262                                                  
2263       // global transformation (to have a "le    
2264       //  translate so that the center of the    
2265       //  is the center of the data area cube    
2266       //  then rotate to have lego 3D layout.    
2267                                                  
2268       mtx.mul_rotate(1,0,0,theta*fdeg2rad());    
2269       mtx.mul_rotate(0,1,0,phi*fdeg2rad());      
2270       mtx.mul_rotate(1,0,0,tau*fdeg2rad());      
2271                                                  
2272       // To place as CERN-PAW default.           
2273       // In CERN-PAW, it is the projection       
2274       // which fits in the (XSIZ,XMGL,XMGR)/(    
2275       // page setup.                             
2276                                                  
2277       rotf r1(vec3f(1,0,0),theta * fdeg2rad()    
2278       rotf r2(vec3f(0,1,0),phi * fdeg2rad());    
2279       rotf r3(vec3f(1,0,0),tau * fdeg2rad());    
2280                                                  
2281       rotf r = r1*r2*r3;                         
2282       mat4f _m;                                  
2283       r.value(_m);                               
2284                                                  
2285       float xmn = -0.5F*wData;                   
2286       float ymn = -0.5F*hData;                   
2287       float zmn = -0.5F*dData;                   
2288       float xmx =  0.5F*wData;                   
2289       float ymx =  0.5F*hData;                   
2290       float zmx =  0.5F*dData;                   
2291                                                  
2292       box3f _box;                                
2293       float x,y,z;                               
2294       // zmn face :                              
2295      {x = xmn;y = ymn;z = zmn;                   
2296       _m.mul_3f(x,y,z);                          
2297       _box.extend_by(x,y,z);}                    
2298      {x = xmx;y = ymn;z = zmn;                   
2299       _m.mul_3f(x,y,z);                          
2300       _box.extend_by(x,y,z);}                    
2301      {x = xmx;y = ymx;z = zmn;                   
2302       _m.mul_3f(x,y,z);                          
2303       _box.extend_by(x,y,z);}                    
2304      {x = xmn;y = ymx;z = zmn;                   
2305       _m.mul_3f(x,y,z);                          
2306       _box.extend_by(x,y,z);}                    
2307                                                  
2308       // zmx face :                              
2309      {x = xmn;y = ymn;z = zmx;                   
2310       _m.mul_3f(x,y,z);                          
2311       _box.extend_by(x,y,z);}                    
2312      {x = xmx;y = ymn;z = zmx;                   
2313       _m.mul_3f(x,y,z);                          
2314       _box.extend_by(x,y,z);}                    
2315      {x = xmx;y = ymx;z = zmx;                   
2316       _m.mul_3f(x,y,z);                          
2317       _box.extend_by(x,y,z);}                    
2318      {x = xmn;y = ymx;z = zmx;                   
2319       _m.mul_3f(x,y,z);                          
2320       _box.extend_by(x,y,z);}                    
2321                                                  
2322       float xfac = _box.mx()[0]-_box.mn()[0];    
2323       float yfac = _box.mx()[1]-_box.mn()[1];    
2324       float zfac = _box.mx()[2]-_box.mn()[2];    
2325                                                  
2326       //cube setup (driven by hData) :           
2327       mtx.mul_scale(hData/xfac,hData/yfac,hDa    
2328                                                  
2329       mtx.mul_translate(-wData/2,-hData/2,-dD    
2330                                                  
2331       if(data_light_on_automated.value()) m_d    
2332      {vec3f dir(1,-1,-10);                       
2333       float dx,dy,dz;dir.value(dx,dy,dz);        
2334       mat4f inv;                                 
2335       if(mtx.invert(inv)) {                      
2336         inv.mul_dir_3f(dx,dy,dz);                
2337         m_data_light.direction = vec3f(dx,dy,    
2338       }}                                         
2339     }}                                           
2340                                                  
2341    {mat4f& mtx = m_data_matrix.mtx.value();      
2342     mtx.set_identity();                          
2343     if(m_shape==xy) {                            
2344       mtx.mul_scale(wData,hData,1); //z size     
2345     } else if(m_shape==xyz) {                    
2346       mtx.mul_scale(wData,hData,dData);          
2347     }}                                           
2348                                                  
2349   }                                              
2350                                                  
2351 public:                                          
2352   void update_sg(std::ostream& a_out) {          
2353                                                  
2354     update_shape();                              
2355     update_axes_data(a_out);                     
2356                                                  
2357     update_background();                         
2358     update_layout();                             
2359                                                  
2360     // roundtrip over plottables to check if     
2361     unsigned int nplottables = 0;                
2362     unsigned int nbins = 0;                      
2363     unsigned int npoints = 0;                    
2364     unsigned int nfunc = 0;                      
2365    {tools_vforit(plottable*,m_plottables,it)     
2366       plottable* object = *it;                   
2367       if(!object) continue;                      
2368       if(!object->is_valid()) {                  
2369         *it = 0;                                 
2370         delete object;                           
2371       } else {                                   
2372         if(safe_cast<plottable,bins1D>(*objec    
2373           nplottables++;                         
2374           nbins++;                               
2375         } else if(safe_cast<plottable,bins2D>    
2376           nplottables++;                         
2377           nbins++;                               
2378                                                  
2379         } else if(safe_cast<plottable,points2    
2380           nplottables++;                         
2381           npoints++;                             
2382         } else if(safe_cast<plottable,points3    
2383           nplottables++;                         
2384           npoints++;                             
2385                                                  
2386         } else if(safe_cast<plottable,func1D>    
2387           nplottables++;                         
2388           nfunc++;                               
2389         } else if(safe_cast<plottable,func2D>    
2390           nplottables++;                         
2391           nfunc++;                               
2392         }                                        
2393       }                                          
2394     }}                                           
2395                                                  
2396     clear_cmaps();                               
2397     m_bins_cmaps.resize(nbins,0);                
2398     m_points_cmaps.resize(npoints,0);            
2399     m_func_cmaps.resize(nfunc,0);                
2400                                                  
2401     // even if !nplottables we continue.         
2402                                                  
2403     m_infos_title_sep.clear();                   
2404     m_infos_sep.clear();                         
2405     m_legend_strings.clear();                    
2406                                                  
2407     bool superpose = false;                      
2408     /*uuuu                                       
2409     bool superpose = superposeBins;              
2410     if(superpose) {                              
2411       // Check compatibility of bins :           
2412       if( (nbins1D<=0) || (m_shape!=XY) ) {      
2413         superpose = false;                       
2414       } else {                                   
2415         SbPlottableBins1D* bins = f_bins1DLis    
2416         int xnbin = bins->getAxisNumberOfBins    
2417         float xmn = bins->get_axis_min();        
2418         float xmx = bins->get_axis_max();        
2419         superpose = true;                        
2420         for(int ibins=1;ibins<nbins1D;ibins++    
2421           SbPlottableBins1D* binsloop = f_bin    
2422           if( (xnbin!=binsloop->getAxisNumber    
2423               (xmn!=binsloop->get_axis_min())    
2424               (xmx!=binsloop->get_axis_max())    
2425             superpose = false;                   
2426             break;                               
2427           }                                      
2428         }                                        
2429         if(superpose) { //Compatible bins :      
2430           if(y_axis_automated) {                 
2431             // Correct Y axis if XY shape and    
2432             // Get min/max                       
2433             float bmin,bmax;                     
2434             getHeight(nbins1D-1,f_bins1DList,    
2435             bmin = bmax;                         
2436             for(int ibin=1;ibin<xnbin;ibin++)    
2437               float mini,maxi;                   
2438               getHeight                          
2439                 (nbins1D-1,f_bins1DList,bins1    
2440               bmin = SbMinimum(bmin,maxi);       
2441               bmax = SbMaximum(bmax,maxi);       
2442             }                                    
2443             f_yDataAxis.setMinimumValue(bmin)    
2444             f_yDataAxis.setMaximumValue(bmax)    
2445             f_yDataAxis.adjustAxis();            
2446           }                                      
2447         }                                        
2448       }                                          
2449     }*/                                          
2450                                                  
2451     float xmin =  m_x_axis_data.min_value();     
2452     float xmax =  m_x_axis_data.max_value();     
2453     bool xlog = m_x_axis_data.is_log();          
2454     if(xlog) {                                   
2455       if((xmin<=0) || (xmax<=0) ) {              
2456         m_x_axis_data.adjust();                  
2457         xmin =  m_x_axis_data.min_value();       
2458         xmax =  m_x_axis_data.max_value();       
2459         // now should have reasonable values.    
2460       }                                          
2461       if((xmin<=0) || (xmax<=0) ) {              
2462         xlog = false;                            
2463       } else {                                   
2464         xmin = flog10(xmin);                     
2465         xmax = flog10(xmax);                     
2466       }                                          
2467     }                                            
2468                                                  
2469     float ymin =  m_y_axis_data.min_value();     
2470     float ymax =  m_y_axis_data.max_value();     
2471     bool ylog = m_y_axis_data.is_log();          
2472     if(ylog) {                                   
2473       if((ymin<=0) || (ymax<=0) ) {              
2474         m_y_axis_data.adjust();                  
2475         ymin = m_y_axis_data.min_value();        
2476         ymax = m_y_axis_data.max_value();        
2477         // now should have reasonable values.    
2478       }                                          
2479       if((ymin<=0) || (ymax<=0) ) {              
2480         ylog = false;                            
2481       }else{                                     
2482         ymin = flog10(ymin);                     
2483         ymax = flog10(ymax);                     
2484       }                                          
2485     }                                            
2486                                                  
2487     float zmin =  m_z_axis_data.min_value();     
2488     float zmax =  m_z_axis_data.max_value();     
2489     bool zlog = m_z_axis_data.is_log();          
2490     if(zlog) {                                   
2491       if((zmin<=0) || (zmax<=0) ) {              
2492         m_z_axis_data.adjust();                  
2493         zmin = m_z_axis_data.min_value();        
2494         zmax = m_z_axis_data.max_value();        
2495         // now should have reasonable values.    
2496       }                                          
2497       if((zmin<=0) || (zmax<=0) ) {              
2498         zlog = false;                            
2499       }else{                                     
2500         zmin = flog10(zmin);                     
2501         zmax = flog10(zmax);                     
2502       }                                          
2503     }                                            
2504                                                  
2505     if(m_shape==xy) {                            
2506       if(xmin>=xmax) {                           
2507         DUMP_UPDATE_WHAT(a_out,"bad min/max x    
2508       }                                          
2509       if(ymin>=ymax) {                           
2510         DUMP_UPDATE_WHAT(a_out,"bad min/max y    
2511       }                                          
2512     } else if(m_shape==xyz) {                    
2513       if(xmin>=xmax) {                           
2514         DUMP_UPDATE_WHAT(a_out,"bad min/max x    
2515       }                                          
2516       if(ymin>=ymax) {                           
2517         DUMP_UPDATE_WHAT(a_out,"bad min/max y    
2518       }                                          
2519       if(zmin>=zmax) {                           
2520         DUMP_UPDATE_WHAT(a_out,"bad min/max z    
2521       }                                          
2522     }                                            
2523                                                  
2524    {float XSIZ = width;                          
2525     float XMGL = left_margin;                    
2526     float XMGR = right_margin;                   
2527     float wData = XSIZ-XMGL-XMGR;                
2528                                                  
2529     float YSIZ = height;                         
2530     float YMGL = bottom_margin;                  
2531     float YMGU = top_margin;                     
2532     float hData = YSIZ-YMGL-YMGU;                
2533     if(m_shape==xy) {                            
2534       if(wData<=0) {                             
2535         DUMP_UPDATE_WHAT(a_out,"null w data a    
2536       }                                          
2537       if(hData<=0) {                             
2538         DUMP_UPDATE_WHAT(a_out,"null h data a    
2539       }                                          
2540     } else if(m_shape==xyz) {                    
2541       float ZSIZ = depth;                        
2542       float ZMGD = down_margin;                  
2543       float ZMGU = up_margin;                    
2544       float dData = ZSIZ-ZMGD-ZMGU;              
2545       if(wData<=0) {                             
2546         DUMP_UPDATE_WHAT(a_out,"null w data a    
2547       }                                          
2548       if(hData<=0) {                             
2549         DUMP_UPDATE_WHAT(a_out,"null h data a    
2550       }                                          
2551       if(dData<=0) {                             
2552         DUMP_UPDATE_WHAT(a_out,"null d data a    
2553       }                                          
2554     }}                                           
2555                                                  
2556     float dx   = xmax - xmin;                    
2557     float dy   = ymax - ymin;                    
2558     float dz   = zmax - zmin;                    
2559                                                  
2560     rep_box boxX(xmin,dx,xlog);                  
2561     rep_box boxY(ymin,dy,ylog);                  
2562     rep_box boxZ(zmin,dz,zlog);                  
2563                                                  
2564     ////////////////////////////////////         
2565     /// data : /////////////////////////         
2566     ////////////////////////////////////         
2567     if(m_shape==xy) {                            
2568       //a_out << "tools::sg::plotter::update_    
2569                                                  
2570       // first data plane is at zz = _zoffset    
2571                                                  
2572       float zz = 0;                              
2573                                                  
2574       ////////////////////////////////////       
2575       /// binss //////////////////////////       
2576       ////////////////////////////////////       
2577                                                  
2578       //if(verbose) {                            
2579       //  SoDebugError::postInfo("tools::sg;:    
2580       //  "%lu : XY : update bins",(unsigned     
2581       //}                                        
2582                                                  
2583      {m_bins_sep.clear();                        
2584       m_errors_sep.clear();                      
2585                                                  
2586       unsigned int ibins = 0; //used to get e    
2587       //unsigned int ibins1D = 0;                
2588       //unsigned int ibins2D = 0;                
2589       tools_vforcit(plottable*,m_plottables,i    
2590         plottable* object = *it;                 
2591         if(!object) continue;                    
2592         if(bins1D* b1 = safe_cast<plottable,b    
2593                                                  
2594           zz += _zoffset(); // ibins = 0 back    
2595           style* data_style = merge_bins_styl    
2596           style* _left_hatch_style = merge_le    
2597           style* _right_hatch_style = merge_r    
2598           style* error_style = merge_errors_s    
2599                                                  
2600           update_bins1D_xy(a_out,*b1,            
2601                            *data_style,*_left    
2602                            superpose,boxX,box    
2603                                                  
2604           if(legends_automated.value()) {        
2605             m_legend_strings.push_back(object    
2606             style& _style = legend_style(m_le    
2607             _style.color = data_style->color;    
2608             _style.marker_style = data_style-    
2609             _style.marker_size = data_style->    
2610           }                                      
2611                                                  
2612           delete data_style;                     
2613           delete _left_hatch_style;              
2614           delete _right_hatch_style;             
2615           delete error_style;                    
2616           ibins++;                               
2617           //ibins1D++;                           
2618         } if(bins2D* b2 = safe_cast<plottable    
2619           //a_out << "tools::sg::plotter::upd    
2620           zz += _zoffset(); // ibins = 0 back    
2621           style* data_style = merge_bins_styl    
2622                                                  
2623           update_bins2D_xy(a_out,*b2,*data_st    
2624                                                  
2625           if(legends_automated.value()) {        
2626             m_legend_strings.push_back(object    
2627             style& _style = legend_style(m_le    
2628             _style.color = data_style->color;    
2629             _style.marker_style = data_style-    
2630             _style.marker_size = data_style->    
2631           }                                      
2632                                                  
2633           delete data_style;                     
2634           ibins++;                               
2635         }                                        
2636       }}                                         
2637                                                  
2638       ////////////////////////////////////       
2639       /// funcs //////////////////////////       
2640       ////////////////////////////////////       
2641                                                  
2642      {m_func_sep.clear();                        
2643       //zz = 0; // Functions in front.           
2644       unsigned int ifunc = 0; //used to get e    
2645       tools_vforcit(plottable*,m_plottables,i    
2646         plottable* object = *it;                 
2647         if(!object) continue;                    
2648         if(func1D* f1 = safe_cast<plottable,f    
2649           zz += _zoffset();                      
2650           style* data_style = merge_func_styl    
2651           update_func1D_xy(a_out,*f1,*data_st    
2652           if(legends_automated.value()) {        
2653             m_legend_strings.push_back(object    
2654             style& _style = legend_style(m_le    
2655             _style.color = data_style->color;    
2656             _style.marker_style = data_style-    
2657             _style.marker_size = data_style->    
2658           }                                      
2659           delete data_style;                     
2660           ifunc++;                               
2661         } else if(func2D* f2 = safe_cast<plot    
2662           zz += _zoffset();                      
2663           style* data_style = merge_func_styl    
2664           update_func2D_xy(a_out,*f2,ifunc,*d    
2665           if(legends_automated.value()) {        
2666             m_legend_strings.push_back(object    
2667             style& _style = legend_style(m_le    
2668             _style.color = data_style->color;    
2669             _style.marker_style = data_style-    
2670             _style.marker_size = data_style->    
2671           }                                      
2672           delete data_style;                     
2673           ifunc++;                               
2674         }                                        
2675       }}                                         
2676                                                  
2677       ////////////////////////////////////       
2678       /// pointss ////////////////////////       
2679       ////////////////////////////////////       
2680      {m_points_sep.clear();                      
2681       unsigned int ipoints = 0; //used to get    
2682       tools_vforcit(plottable*,m_plottables,i    
2683         plottable* object = *it;                 
2684         if(!object) continue;                    
2685         if(points2D* p2 = safe_cast<plottable    
2686                                                  
2687           zz += _zoffset(); // ibins = 0 back    
2688           style* data_style = merge_points_st    
2689           update_points2D_xy(a_out,*p2,*data_    
2690                                                  
2691           if(legends_automated.value()) {        
2692             m_legend_strings.push_back(object    
2693             style& _style = legend_style(m_le    
2694             _style.color = data_style->color;    
2695             _style.modeling = data_style->mod    
2696             _style.marker_style = data_style-    
2697             _style.marker_size = data_style->    
2698             _style.point_size = data_style->p    
2699     }                                            
2700                                                  
2701           delete data_style;                     
2702           ipoints++;                             
2703         }                                        
2704       }}                                         
2705     }                                            
2706                                                  
2707     if(m_shape==xyz) {                           
2708                                                  
2709       ////////////////////////////////////       
2710       /// binss //////////////////////////       
2711       ////////////////////////////////////       
2712      {m_bins_sep.clear();                        
2713       m_errors_sep.clear();                      
2714       unsigned int ibins = 0; //used to get e    
2715       tools_vforcit(plottable*,m_plottables,i    
2716         plottable* object = *it;                 
2717         if(!object) continue;                    
2718         if(safe_cast<plottable,bins1D>(*objec    
2719           ibins++;                               
2720         } else if(bins2D* b2 = safe_cast<plot    
2721           style* data_style = merge_bins_styl    
2722           update_bins2D_xyz(a_out,*b2,ibins,*    
2723           delete data_style;                     
2724           ibins++;                               
2725         }                                        
2726       }}                                         
2727                                                  
2728       ////////////////////////////////////       
2729       /// funcs //////////////////////////       
2730       ////////////////////////////////////       
2731                                                  
2732      {m_func_sep.clear();                        
2733       unsigned int ifunc = 0; //used to get e    
2734       tools_vforcit(plottable*,m_plottables,i    
2735         plottable* object = *it;                 
2736         if(!object) continue;                    
2737         if(safe_cast<plottable,func1D>(*objec    
2738           ifunc++;                               
2739         } else if(func2D* f2 = safe_cast<plot    
2740           style* data_style = merge_func_styl    
2741           update_func2D_xyz(a_out,*f2,ifunc,*    
2742           delete data_style;                     
2743           ifunc++;                               
2744         }                                        
2745       }}                                         
2746                                                  
2747       ////////////////////////////////////       
2748       /// pointss ////////////////////////       
2749       ////////////////////////////////////       
2750      {m_points_sep.clear();                      
2751       unsigned int ipoints = 0; //used to get    
2752       tools_vforcit(plottable*,m_plottables,i    
2753         plottable* object = *it;                 
2754         if(!object) continue;                    
2755         if(points3D* p3 = safe_cast<plottable    
2756                                                  
2757           style* data_style = merge_points_st    
2758           update_points3D_xyz(a_out,*p3,*data    
2759                                                  
2760           if(legends_automated.value()) {        
2761             m_legend_strings.push_back(object    
2762             style& _style = legend_style(m_le    
2763             _style.color = data_style->color;    
2764             _style.modeling = data_style->mod    
2765             _style.marker_style = data_style-    
2766             _style.marker_size = data_style->    
2767             _style.point_size = data_style->p    
2768     }                                            
2769                                                  
2770           delete data_style;                     
2771           ipoints++;                             
2772         }                                        
2773       }}                                         
2774     }                                            
2775                                                  
2776     ////////////////////////////////////         
2777     /// axes : /////////////////////////         
2778     ////////////////////////////////////         
2779     // done before update_legends() which nee    
2780     // the x_axis min/max if legends_origin_u    
2781     // is unit_axis.                             
2782                                                  
2783     // axes :                                    
2784     if(m_shape==xy){                             
2785       if(x_axis_enforced.value()) {              
2786         update_x_axis_2D();                      
2787         m_x_axis.minimum_value = x_axis_min.v    
2788         m_x_axis.maximum_value = x_axis_max.v    
2789         m_x_axis.is_log = x_axis_is_log.value    
2790         m_x_axis.update_sg(a_out); // So that    
2791         m_x_axis.reset_touched();                
2792       } else {                                   
2793   if(!nplottables) {                             
2794     m_x_axis.width = 0;                          
2795   } else {                                       
2796           update_x_axis_2D();                    
2797           update_axis(a_out,m_x_axis,m_x_axis    
2798   }                                              
2799       }                                          
2800                                                  
2801       if(y_axis_enforced.value()) {              
2802         update_y_axis_2D();                      
2803         m_y_axis.minimum_value = y_axis_min.v    
2804         m_y_axis.maximum_value = y_axis_max.v    
2805         m_y_axis.is_log = y_axis_is_log.value    
2806         m_y_axis.update_sg(a_out); // So that    
2807         m_y_axis.reset_touched();                
2808       } else {                                   
2809   if(!nplottables) {                             
2810     m_y_axis.width = 0;                          
2811   } else {                                       
2812           update_y_axis_2D();                    
2813           update_axis(a_out,m_y_axis,m_y_axis    
2814   }                                              
2815       }                                          
2816                                                  
2817       if(z_axis_enforced.value()) {              
2818         update_z_axis_2D();                      
2819         m_z_axis.minimum_value = z_axis_min.v    
2820         m_z_axis.maximum_value = z_axis_max.v    
2821         m_z_axis.is_log = z_axis_is_log.value    
2822         m_z_axis.update_sg(a_out); // So that    
2823         m_z_axis.reset_touched();                
2824       } else {                                   
2825   if(!nplottables) {                             
2826     m_z_axis.width = 0;                          
2827   } else {                                       
2828           update_z_axis_2D();                    
2829   }                                              
2830       }                                          
2831     }                                            
2832                                                  
2833     if(m_shape==xyz){                            
2834       if(x_axis_enforced.value()) {              
2835         update_x_axis_3D();                      
2836         m_x_axis.minimum_value = x_axis_min.v    
2837         m_x_axis.maximum_value = x_axis_max.v    
2838         m_x_axis.is_log = x_axis_is_log.value    
2839         m_x_axis.update_sg(a_out); // So that    
2840         m_x_axis.reset_touched();                
2841       } else {                                   
2842   if(!nplottables) {                             
2843     m_x_axis.width = 0;                          
2844   } else {                                       
2845           update_x_axis_3D();                    
2846           update_axis(a_out,m_x_axis,m_x_axis    
2847   }                                              
2848       }                                          
2849                                                  
2850       if(y_axis_enforced.value()) {              
2851         update_y_axis_3D();                      
2852         m_y_axis.minimum_value = y_axis_min.v    
2853         m_y_axis.maximum_value = y_axis_max.v    
2854         m_y_axis.is_log = y_axis_is_log.value    
2855         m_y_axis.update_sg(a_out); // So that    
2856         m_y_axis.reset_touched();                
2857       } else {                                   
2858   if(!nplottables) {                             
2859     m_y_axis.width = 0;                          
2860   } else {                                       
2861           update_y_axis_3D();                    
2862           update_axis(a_out,m_y_axis,m_y_axis    
2863   }                                              
2864       }                                          
2865                                                  
2866       if(z_axis_enforced.value()) {              
2867         update_z_axis_3D();                      
2868         m_z_axis.minimum_value = z_axis_min.v    
2869         m_z_axis.maximum_value = z_axis_max.v    
2870         m_z_axis.is_log = z_axis_is_log.value    
2871         m_z_axis.update_sg(a_out); // So that    
2872         m_z_axis.reset_touched();                
2873       } else {                                   
2874   if(!nplottables) {                             
2875     m_z_axis.width = 0;                          
2876   } else {                                       
2877           update_z_axis_3D();                    
2878           update_axis(a_out,m_z_axis,m_z_axis    
2879   }                                              
2880       }                                          
2881     }                                            
2882                                                  
2883     if(nplottables) {                            
2884       // infos box is done before update_lege    
2885       // because legends may be placed relati    
2886       update_infos(a_out);                       
2887     }                                            
2888     m_legend_sep.clear();                        
2889                                                  
2890     if(!legends_automated) {                     
2891       m_legend_strings = legends_string.value    
2892     }                                            
2893     update_legends(a_out);                       
2894                                                  
2895     if(title_automated) {                        
2896       std::string _s;                            
2897       get_title(_s);                             
2898       title.value(_s);                           
2899       title.reset_touched(); //output field.     
2900     }                                            
2901     m_title_sep.clear();                         
2902     if(nplottables) update_title();              
2903                                                  
2904     m_title_box_sep.clear();                     
2905     if(nplottables) update_title_box();          
2906                                                  
2907     m_inner_frame_sep.clear();                   
2908     if(inner_frame_enforced.value() || nplott    
2909       if(m_shape==xy) {                          
2910         update_inner_frame_XY();                 
2911       } else {                                   
2912         update_inner_frame_XYZ();                
2913       }                                          
2914     }                                            
2915                                                  
2916     m_grid_sep.clear();                          
2917     if(nplottables) {                            
2918       if(m_shape==xy) {                          
2919         update_grid_XY();                        
2920       } else {                                   
2921         update_grid_XYZ();                       
2922       }                                          
2923     }                                            
2924                                                  
2925     m_cmap_axis.width = 0;                       
2926     m_cmap_cells_sep.clear();                    
2927     if(m_bins_cmaps.size() && m_bins_cmaps[0]    
2928       update_cmap(a_out,*(m_bins_cmaps[0]));     
2929     } else if(m_points_cmaps.size() && m_poin    
2930       update_cmap(a_out,*(m_points_cmaps[0]))    
2931     } else if(m_func_cmaps.size() && m_func_c    
2932       update_cmap(a_out,*(m_func_cmaps[0]));     
2933     }                                            
2934                                                  
2935     update_primitives(a_out);                    
2936   }                                              
2937                                                  
2938   void get_value_axis_min_max(float a_Sw_mn,f    
2939     if(a_Sw_mn>a_Sw_mx) {                        
2940       a_min = 0;                                 
2941       a_max = 0;                                 
2942       return;                                    
2943     }                                            
2944     // a_Sw_mx >= a_Sw_mn.                       
2945     if(a_is_log && (a_Sw_mn<=0) ) { //let dat    
2946       a_min = a_Sw_mn;                           
2947       a_max = a_Sw_mx;                           
2948       return;                                    
2949     }                                            
2950     float mn;                                    
2951     if(a_is_log) {                               
2952       if(value_bottom_margin.value()!=0) {       
2953         float log_Sw_mn = flog10(a_Sw_mn);       
2954         float log_Sw_mx = flog10(a_Sw_mx);       
2955         float log_mn = log_Sw_mn - (log_Sw_mx    
2956         mn = fpow(10,log_mn);                    
2957       } else {                                   
2958         mn = a_Sw_mn;                            
2959         if(a_min_visible) { // arrang so that    
2960           float log_Sw_mn = flog10(a_Sw_mn);     
2961           mn = fpow(10,log_Sw_mn)*(1.0f-0.4f)    
2962         }                                        
2963       }                                          
2964     } else {                                     
2965       if(value_bottom_margin.value()!=0) {       
2966         mn = a_Sw_mn - (a_Sw_mx-a_Sw_mn)*valu    
2967       } else {                                   
2968         if(a_min_visible) {                      
2969     // Arrange so that the bin with a_Sw_mn (    
2970           if(a_Sw_mn>0) {                        
2971       mn = 0; //PAW logic.                       
2972     } else if(a_Sw_mn==0) {                      
2973       mn = 0; //PAW logic. min bin will be an    
2974     } else {                                     
2975       mn = a_Sw_mn; // min bin will be anyway    
2976     }                                            
2977   } else {                                       
2978           mn = a_Sw_mn; //min bin will be on     
2979   }                                              
2980       }                                          
2981     }                                            
2982     a_min = mn;                                  
2983                                                  
2984     float mx;                                    
2985     if(a_is_log) {                               
2986       if(value_top_margin.value()!=0) {          
2987         float log_Sw_mn = flog10(a_Sw_mn);       
2988         float log_Sw_mx = flog10(a_Sw_mx);       
2989         float log_mx = log_Sw_mx + (log_Sw_mx    
2990         mx = fpow(10,log_mx);                    
2991       } else {                                   
2992         mx = a_Sw_mx; //max bin will be on to    
2993       }                                          
2994     } else {                                     
2995       mx = a_Sw_mx + (a_Sw_mx-mn)*value_top_m    
2996     //mx = a_Sw_mx + (a_Sw_mx-a_Sw_mn)*value_    
2997     }                                            
2998     a_max = mx;                                  
2999   }                                              
3000                                                  
3001   void update_axes_data(std::ostream& a_out){    
3002     m_x_axis_data.set_min_value(0);              
3003     m_x_axis_data.set_max_value(0);              
3004     m_x_axis_data.set_is_log(x_axis_is_log);     
3005                                                  
3006     m_y_axis_data.set_min_value(0);              
3007     m_y_axis_data.set_max_value(0);              
3008     m_y_axis_data.set_is_log(y_axis_is_log);     
3009                                                  
3010     m_z_axis_data.set_min_value(0);              
3011     m_z_axis_data.set_max_value(0);              
3012     m_z_axis_data.set_is_log(z_axis_is_log);     
3013                                                  
3014     if(!x_axis_automated) { //def = true         
3015       m_x_axis_data.set_min_value(x_axis_min)    
3016       m_x_axis_data.set_max_value(x_axis_max)    
3017     }                                            
3018                                                  
3019     if(!y_axis_automated) {                      
3020       m_y_axis_data.set_min_value(y_axis_min)    
3021       m_y_axis_data.set_max_value(y_axis_max)    
3022     }                                            
3023                                                  
3024     if(!z_axis_automated) {                      
3025       m_z_axis_data.set_min_value(z_axis_min)    
3026       m_z_axis_data.set_max_value(z_axis_max)    
3027     }                                            
3028                                                  
3029     bins1D* b1;                                  
3030     bins2D* b2;                                  
3031                                                  
3032     func1D* f1;                                  
3033     func2D* f2;                                  
3034                                                  
3035     points2D* p2;                                
3036     points3D* p3;                                
3037                                                  
3038     if(first_bins(b1,b2)) {                      
3039                                                  
3040       if(b1) {                                   
3041                                                  
3042         if(x_axis_automated) {                   
3043           m_x_axis_data.set_min_value(b1->axi    
3044           m_x_axis_data.set_max_value(b1->axi    
3045         }                                        
3046                                                  
3047         if(y_axis_automated) {                   
3048         //::printf("debug : value %g %g %d :     
3049         //    value_bottom_margin.value(),val    
3050         //    m_y_axis_data.is_log());           
3051           float Sw_mn,Sw_mx;                     
3052           b1->bins_Sw_range(Sw_mn,Sw_mx,value    
3053         //::printf("debug : Sw %g %g\n",Sw_mn    
3054           float mn,mx;                           
3055           get_value_axis_min_max(Sw_mn,Sw_mx,    
3056         //::printf("debug : mn mx %g %g\n",mn    
3057           m_y_axis_data.set_min_value(mn);       
3058           m_y_axis_data.set_max_value(mx);       
3059                                                  
3060           m_y_axis_data.adjust();                
3061         //::printf("debug : adjusted : mn mx     
3062         }                                        
3063                                                  
3064       } if(b2) {                                 
3065         if(x_axis_automated) {                   
3066           m_x_axis_data.set_min_value(b2->x_a    
3067           m_x_axis_data.set_max_value(b2->x_a    
3068         }                                        
3069                                                  
3070         if(y_axis_automated) {                   
3071           m_y_axis_data.set_min_value(b2->y_a    
3072           m_y_axis_data.set_max_value(b2->y_a    
3073         }                                        
3074                                                  
3075         if(z_axis_automated) {                   
3076           float Sw_mn,Sw_mx;                     
3077           b2->bins_Sw_range(Sw_mn,Sw_mx,value    
3078           float mn,mx;                           
3079           get_value_axis_min_max(Sw_mn,Sw_mx,    
3080           m_z_axis_data.set_min_value(mn);       
3081           m_z_axis_data.set_max_value(mx);       
3082                                                  
3083           m_z_axis_data.adjust();                
3084         }                                        
3085       } /*else if(f_binsList[0]->getDimension    
3086         //FIXME : should do something.           
3087       } else {                                   
3088         // Unusual case.                         
3089       }*/                                        
3090                                                  
3091     } else if(first_points(p2,p3)) {             
3092       if(p2) {                                   
3093         if(x_axis_automated) {                   
3094           m_x_axis_data.set_min_value(p2->x_a    
3095           m_x_axis_data.set_max_value(p2->x_a    
3096         }                                        
3097         if(y_axis_automated) {                   
3098           float ymn = p2->y_axis_min();          
3099           float ymx = p2->y_axis_max();          
3100           // For pawex22 ?                       
3101           //m_y_axis_data.set_min_value(ymn*1    
3102           //m_y_axis_data.set_max_value(ymx*1    
3103           m_y_axis_data.set_min_value(ymn);      
3104           m_y_axis_data.set_max_value(ymx);      
3105         }                                        
3106       } else if(p3) {                            
3107                                                  
3108         if(x_axis_automated) {                   
3109           m_x_axis_data.set_min_value(p3->x_a    
3110           m_x_axis_data.set_max_value(p3->x_a    
3111         }                                        
3112                                                  
3113         if(y_axis_automated) {                   
3114           m_y_axis_data.set_min_value(p3->y_a    
3115           m_y_axis_data.set_max_value(p3->y_a    
3116         }                                        
3117                                                  
3118         if(z_axis_automated) {                   
3119           m_z_axis_data.set_min_value(p3->z_a    
3120           m_z_axis_data.set_max_value(p3->z_a    
3121         }                                        
3122       }                                          
3123                                                  
3124     } else if(first_func(f1,f2)) {               
3125                                                  
3126       if(f1) {                                   
3127                                                  
3128         if(x_axis_automated) {                   
3129           float xmn = f1->x_min();               
3130           float xmx = f1->x_max();               
3131           if(xmx<=xmn) {                         
3132             xmn = -1;                            
3133             xmx = 1;                             
3134           }                                      
3135           m_x_axis_data.set_min_value(xmn);      
3136           m_x_axis_data.set_max_value(xmx);      
3137         }                                        
3138                                                  
3139         if(y_axis_automated) {                   
3140           float xmn = m_x_axis_data.min_value    
3141           float xmx = m_x_axis_data.max_value    
3142           unsigned int nstp = f1->x_steps();     
3143           nstp = nstp <=0 ? curve_number_of_p    
3144                                                  
3145           float df = (xmx - xmn)/nstp;           
3146           bool problem = false;                  
3147           float vmin;                            
3148           if(!f1->value(xmn,vmin)) problem =     
3149           float vmax = vmin;                     
3150           for(unsigned int ibin=0;ibin<=nstp;    
3151             float xx = xmn + ibin * df;          
3152             float val;                           
3153             if(!f1->value(xx,val)) problem =     
3154             vmax = mx<float>(vmax,val);          
3155             vmin = mn<float>(vmin,val);          
3156           }                                      
3157           if(problem) {                          
3158             a_out << "tools::sg::plotter :"      
3159                   << " problem when getting s    
3160                   << std::endl;                  
3161           }                                      
3162           m_y_axis_data.set_min_value(vmin);     
3163           m_y_axis_data.set_max_value(vmax);     
3164           m_y_axis_data.adjust();                
3165         }                                        
3166                                                  
3167       } else if(f2) {                            
3168         if(x_axis_automated) {                   
3169           float xmn = f2->x_min();               
3170           float xmx = f2->x_max();               
3171           if(xmx<=xmn) {                         
3172             xmn = -1;                            
3173             xmx = 1;                             
3174           }                                      
3175           m_x_axis_data.set_min_value(xmn);      
3176           m_x_axis_data.set_max_value(xmx);      
3177         }                                        
3178                                                  
3179         if(y_axis_automated) {                   
3180           float ymn =  f2->y_min();              
3181           float ymx =  f2->y_max();              
3182           if(ymx<=ymn) {                         
3183             ymn = -1;                            
3184             ymx = 1;                             
3185           }                                      
3186           m_y_axis_data.set_min_value(ymn);      
3187           m_y_axis_data.set_max_value(ymx);      
3188         }                                        
3189                                                  
3190         if(z_axis_automated) {                   
3191                                                  
3192           float xmn = m_x_axis_data.min_value    
3193           float xmx = m_x_axis_data.max_value    
3194           int nx = f2->x_steps();                
3195           nx = nx <=0 ? curve_number_of_point    
3196                                                  
3197           float ymn = m_y_axis_data.min_value    
3198           float ymx = m_y_axis_data.max_value    
3199           int ny = f2->y_steps();                
3200           ny = ny <=0 ? curve_number_of_point    
3201                                                  
3202           float dfx = (xmx - xmn)/nx;            
3203           float dfy = (ymx - ymn)/ny;            
3204                                                  
3205           bool problem = false;                  
3206           float vmin;                            
3207           if(!f2->value(xmn,ymn,vmin)) proble    
3208           float vmax = vmin;                     
3209           for(int jbin=ny-1;jbin>=0;jbin--) {    
3210             for(int ibin=nx-1;ibin>=0;ibin--)    
3211               float xx = xmn + ibin * dfx;       
3212               float yy = ymn + jbin * dfy;       
3213               float val;                         
3214               if(!f2->value(xx,yy,val)) probl    
3215               vmin = mn<float>(vmin,val);        
3216               vmax = mx<float>(vmax,val);        
3217             }                                    
3218           }                                      
3219           if(problem) {                          
3220             a_out << "tools::sg::plotter :"      
3221                   << " problem when getting s    
3222                   << std::endl;                  
3223           }                                      
3224           m_z_axis_data.set_min_value(vmin);     
3225           m_z_axis_data.set_max_value(vmax);     
3226           m_z_axis_data.adjust();                
3227         }                                        
3228       }                                          
3229     }                                            
3230   }                                              
3231   void update_shape(){                           
3232     m_shape = get_shape();                       
3233     //uuuu if(shapeAutomated) {                  
3234     //  shape.setValue(m_shape);                 
3235     //}                                          
3236   }                                              
3237                                                  
3238   void update_axis(std::ostream& a_out,sg::ax    
3239     a_axis.minimum_value = a_data.min_value()    
3240     a_axis.maximum_value = a_data.max_value()    
3241     a_axis.is_log = a_data.is_log();             
3242     a_axis.update_sg(a_out); // So that the g    
3243     a_axis.reset_touched();                      
3244   }                                              
3245                                                  
3246   void update_x_axis_2D(){                       
3247     float XSIZ = width;                          
3248     float XMGL = left_margin;                    
3249     float XMGR = right_margin;                   
3250     float wData = XSIZ-XMGL-XMGR;                
3251                                                  
3252     //m_x_axis.verbose.setValue(verbose);        
3253     m_x_axis.tick_up = true;                     
3254     m_x_axis.width = wData;                      
3255                                                  
3256    {text_style& style = m_x_axis.labels_style    
3257     if(!style.enforced.value()) { //gopaw may    
3258       style.x_orientation = vec3f(1,0,0);        
3259       style.y_orientation = vec3f(0,1,0);        
3260       style.hjust = center;                      
3261       style.vjust = top;                         
3262     }}                                           
3263                                                  
3264    {text_style& style = m_x_axis.title_style(    
3265     style.x_orientation = vec3f(1,0,0);          
3266     style.y_orientation = vec3f(0,1,0);          
3267     style.hjust = m_x_axis.title_hjust;          
3268     style.vjust = top;}                          
3269                                                  
3270    {text_style& style = m_x_axis.mag_style();    
3271     style.hjust = left;                          
3272     style.vjust = bottom;}                       
3273                                                  
3274     m_x_axis_matrix.set_translate(0,0,_zaxis(    
3275   }                                              
3276                                                  
3277   void update_y_axis_2D(){                       
3278     float YSIZ = height;                         
3279     float YMGL = bottom_margin;                  
3280     float YMGU = top_margin;                     
3281     float hData = YSIZ-YMGL-YMGU;                
3282                                                  
3283     //m_x_axis.verbose.setValue(verbose);        
3284     m_y_axis.tick_up.value(true);                
3285     m_y_axis.width.value(hData);                 
3286                                                  
3287    {text_style& style = m_y_axis.labels_style    
3288     if(!style.enforced.value()) {                
3289       style.x_orientation = vec3f(0,1,0);        
3290       style.y_orientation = vec3f(1,0,0);        
3291       style.hjust = right;                       
3292       style.vjust = middle;                      
3293     }}                                           
3294                                                  
3295    {text_style& style = m_y_axis.title_style(    
3296     style.x_orientation = vec3f(1,0,0);          
3297     style.y_orientation = vec3f(0,-1,0);         
3298     style.hjust = m_y_axis.title_hjust;          
3299     style.vjust = bottom;}                       
3300                                                  
3301    {text_style& style = m_y_axis.mag_style();    
3302     style.x_orientation = vec3f(0,1,0);          
3303     style.y_orientation = vec3f(1,0,0);          
3304     style.hjust = right;                         
3305     style.vjust = bottom;}                       
3306                                                  
3307    {mat4f& mtx = m_y_axis_matrix.mtx.value();    
3308     mtx.set_translate(0,0,_zaxis());             
3309     mtx.mul_rotate(0,1,0,fpi());                 
3310     mtx.mul_rotate(0,0,1,fhalf_pi());}           
3311   }                                              
3312                                                  
3313   void update_z_axis_2D(){                       
3314     m_z_axis.width = 0;                          
3315     m_z_axis_matrix.set_identity();              
3316   }                                              
3317                                                  
3318   void update_x_axis_3D(){                       
3319     float XSIZ = width;                          
3320     float XMGL = left_margin;                    
3321     float XMGR = right_margin;                   
3322     float wData = XSIZ-XMGL-XMGR;                
3323                                                  
3324     //m_x_axis.verbose.setValue(verbose);        
3325     m_x_axis.tick_up = false;                    
3326     m_x_axis.width = wData;                      
3327                                                  
3328    {text_style& style = m_x_axis.labels_style    
3329     if(!style.enforced.value()) {                
3330       //style->font_name = SbFont_Hershey; //    
3331       style.x_orientation = vec3f(1,0,0);        
3332       style.y_orientation = vec3f(0,1,0);        
3333       style.hjust = center;                      
3334       style.vjust = top;                         
3335     }}                                           
3336                                                  
3337    {text_style& style = m_x_axis.title_style(    
3338     style.x_orientation = vec3f(1,0,0);          
3339     style.y_orientation = vec3f(0,1,0);          
3340     style.hjust = right;                         
3341     style.vjust = top;}                          
3342                                                  
3343    //{text_style& style = m_x_axis.mag_style(    
3344    // style.hjust = left;                        
3345    // style.vjust = bottom;}                     
3346                                                  
3347     m_x_axis_matrix.set_rotate(1,0,0,fhalf_pi    
3348                                                  
3349   }                                              
3350                                                  
3351   void update_y_axis_3D(){                       
3352     float YSIZ = height;                         
3353     float YMGL = bottom_margin;                  
3354     float YMGU = top_margin;                     
3355     float hData = YSIZ-YMGL-YMGU;                
3356                                                  
3357     //m_x_axis.verbose.setValue(verbose);        
3358     m_y_axis.tick_up = false;                    
3359     m_y_axis.width = hData;                      
3360                                                  
3361    {text_style& style = m_y_axis.labels_style    
3362     if(!style.enforced.value()) {                
3363       //style->fontName.setValue(SbFont_Hersh    
3364       style.x_orientation = vec3f(-1,0,0);       
3365       style.y_orientation = vec3f( 0,1,0);       
3366       style.hjust = center;                      
3367       style.vjust = top;                         
3368     }}                                           
3369                                                  
3370    {text_style& style = m_y_axis.title_style(    
3371     style.x_orientation = vec3f(-1,0,0);         
3372     style.y_orientation = vec3f( 0,1,0);         
3373     style.hjust = left;                          
3374     style.vjust = top;}                          
3375                                                  
3376    //{text_style& style = m_y_axis.mag_style(    
3377    // style.x_orientation = vec3f(0,1,0);        
3378    // style.y_orientation = vec3f(1,0,0);        
3379    // style.hjust = right;                       
3380    // style.vjust = bottom;}                     
3381                                                  
3382    {mat4f& mtx = m_y_axis_matrix.mtx.value();    
3383     mtx.set_rotate(0,1,0,fhalf_pi());            
3384     mtx.mul_rotate(0,0,1,fhalf_pi());}           
3385   }                                              
3386                                                  
3387   void update_z_axis_3D(){                       
3388     float ZSIZ = depth;                          
3389     float ZMGD = down_margin;                    
3390     float ZMGU = up_margin;                      
3391     float dData = ZSIZ-ZMGD-ZMGU;                
3392                                                  
3393     m_z_axis.tick_up = false;                    
3394     m_z_axis.width = dData;                      
3395                                                  
3396    {text_style& style = m_z_axis.labels_style    
3397     if(!style.enforced.value()) {                
3398       //style->fontName.setValue(SbFont_Hersh    
3399       style.x_orientation = vec3f(0,1,0);        
3400       style.y_orientation = vec3f(1,0,0);        
3401       style.hjust = right;                       
3402       style.vjust = middle;                      
3403     }}                                           
3404                                                  
3405    {text_style& style = m_z_axis.title_style(    
3406     style.x_orientation = vec3f(0,1,0);          
3407     style.y_orientation = vec3f(1,0,0);          
3408     style.hjust = right;                         
3409     style.vjust = bottom;}                       
3410                                                  
3411    //{text_style& style = m_z_axis.mag_style(    
3412    // style.hjust = center;                      
3413    // style.vjust = bottom;}                     
3414                                                  
3415    {mat4f& mtx = m_z_axis_matrix.mtx.value();    
3416     mtx.set_translate(0,m_y_axis.width.value(    
3417     mtx.mul_rotate(0,0,1,-fhalf_pi());           
3418     mtx.mul_rotate(0,1,0,-fhalf_pi());}          
3419                                                  
3420   }                                              
3421                                                  
3422   void update_cmap(std::ostream& a_out,const     
3423     if(!colormap_visible.value()) return;        
3424                                                  
3425     size_t valn = a_cmap.valn();                 
3426     if(!valn) return;                            
3427     size_t coln = a_cmap.colorn();               
3428     if(!coln) return;                            
3429                                                  
3430     float XSIZ = width;                          
3431     float XMGL = left_margin;                    
3432     float XMGR = right_margin;                   
3433     float wData = XSIZ-XMGL-XMGR;                
3434                                                  
3435     float YSIZ = height;                         
3436     float YMGL = bottom_margin;                  
3437     float YMGU = top_margin;                     
3438     float hData = YSIZ-YMGL-YMGU;                
3439                                                  
3440     float hcmap = hData;                         
3441                                                  
3442    {mat4f& mtx = m_cmap_matrix.mtx.value();      
3443     if(m_shape==xy) {                            
3444       mtx = m_layout.mtx.value();                
3445       mtx.mul_translate(0,0,_zgrid());           
3446     } else {                                     
3447       float ZSIZ = depth;                        
3448       float ZMGD = down_margin;                  
3449       float ZMGU = up_margin;                    
3450       float dData = ZSIZ-ZMGD-ZMGU;              
3451       hcmap = dData;                             
3452       if(colormap_attached.value()) {            
3453         mtx = m_layout.mtx.value();              
3454         mtx.mul_rotate(1,0,0,90.0F*fdeg2rad()    
3455       } else { //OpenPAW                         
3456         float zz = -depth*0.5f;                  
3457         mtx.set_translate(-XSIZ/2+XMGL,-YSIZ/    
3458       }                                          
3459     }}                                           
3460                                                  
3461     float w  = XMGR*0.3F;                        
3462     float xx = wData+XMGR*0.1F;                  
3463     float zz = 0;                                
3464                                                  
3465     float yy = 0;                                
3466     float h = hcmap/float(coln);                 
3467                                                  
3468     // colored cells :                           
3469    {m_cmap_cells_sep.clear();                    
3470     m_cmap_cells_sep.add(new normal);            
3471     for(unsigned int index=0;index<coln;index    
3472       rgba* mat = new rgba();                    
3473       mat->color = a_cmap.color(index);          
3474       m_cmap_cells_sep.add(mat);                 
3475                                                  
3476       vertices* vtxs = new vertices;             
3477       vtxs->mode = gl::triangle_fan();           
3478       m_cmap_cells_sep.add(vtxs);                
3479                                                  
3480       vtxs->add(xx      ,yy     ,zz);            
3481       vtxs->add(xx + w  ,yy     ,zz);            
3482       vtxs->add(xx + w  ,yy + h ,zz);            
3483       vtxs->add(xx      ,yy + h ,zz);            
3484                                                  
3485       yy += h;                                   
3486     }}                                           
3487                                                  
3488     // surrounding box :                         
3489    {rgba* mat = new rgba();                      
3490     mat->color = colorf_black();                 
3491     m_cmap_cells_sep.add(mat);                   
3492                                                  
3493     draw_style* ds = new draw_style;             
3494     ds->style = draw_lines;                      
3495     ds->line_pattern = line_solid;               
3496     ds->line_width = 1;                          
3497     m_cmap_cells_sep.add(ds);                    
3498                                                  
3499     vertices* vtxs = new vertices;               
3500     vtxs->mode = gl::line_strip();               
3501     m_cmap_cells_sep.add(vtxs);                  
3502                                                  
3503     vtxs->add(xx      ,0     ,zz);               
3504     vtxs->add(xx + w  ,0     ,zz);               
3505     vtxs->add(xx + w  ,hcmap ,zz);               
3506     vtxs->add(xx      ,hcmap ,zz);               
3507     vtxs->add(xx      ,0     ,zz);}              
3508                                                  
3509     if(!colormap_axis_visible.value()) {         
3510       m_cmap_axis.width = 0;                     
3511     } else {                                     
3512                                                  
3513     // right axis :                              
3514     mat4f& mtx = m_cmap_axis_matrix.mtx.value    
3515     mtx.set_identity();                          
3516                                                  
3517     zz += _zoffset()*0.01f;                      
3518                                                  
3519     if(safe_cast<base_colormap,by_value_color    
3520       if(colormap_axis_labeling.value()==cell    
3521         if((valn+1)==coln) { // <col> <num> <    
3522           mtx.set_translate(xx+w,h,zz);          
3523         } else {                                 
3524           mtx.set_translate(xx+w,0,zz);          
3525         }                                        
3526       } else {                                   
3527         mtx.set_translate(xx+w,0,zz);            
3528       }                                          
3529     } else { //grey_scale,grey_scale_inverse,    
3530       mtx.set_translate(xx+w,0,zz);              
3531     }                                            
3532                                                  
3533     mtx.mul_rotate(0,0,1,fhalf_pi());            
3534                                                  
3535     m_cmap_axis.title = "";                      
3536     m_cmap_axis.tick_up = true;                  
3537     //m_cmap_axis.label_to_axis = 0.01F;         
3538     //m_cmap_axis.label_height = 0.10F;          
3539     //m_cmap_axis.ttf_scale = 10.0F;             
3540                                                  
3541     if(safe_cast<base_colormap,by_value_color    
3542       if(colormap_axis_labeling.value()==cell    
3543         if((valn+1)==coln) { // <col> <num> <    
3544           m_cmap_axis.width = hcmap-2*h;         
3545           m_cmap_axis.modeling = tick_modelin    
3546           m_cmap_axis.tick_number = uint32(va    
3547           m_cmap_axis.labels.clear();            
3548           m_cmap_axis.coords.clear();            
3549           for(unsigned int index=0;index<valn    
3550             //FIXME : for the labels, have a     
3551             char tmp[32];                        
3552             snpf(tmp,sizeof(tmp),"%g",a_cmap.    
3553             m_cmap_axis.labels.add(tmp);         
3554             m_cmap_axis.coords.add(h*index);     
3555           }                                      
3556         } else if((coln+1)==valn) { // <num>     
3557           m_cmap_axis.width = hcmap;             
3558           m_cmap_axis.modeling = tick_modelin    
3559           m_cmap_axis.tick_number = uint32(va    
3560           m_cmap_axis.labels.clear();            
3561           m_cmap_axis.coords.clear();            
3562           for(unsigned int index=0;index<valn    
3563             //FIXME : for the labels, have a     
3564             char tmp[32];                        
3565             snpf(tmp,sizeof(tmp),"%g",a_cmap.    
3566             m_cmap_axis.labels.add(tmp);         
3567             m_cmap_axis.coords.add(h*index);     
3568           }                                      
3569         } else {                                 
3570           a_out << "tools::sg::plotter::updat    
3571                 << " inconsistent by value co    
3572                 << std::endl;                    
3573         }                                        
3574       } else {                                   
3575         m_cmap_axis.modeling = tick_modeling_    
3576         m_cmap_axis.width = hcmap;               
3577         m_cmap_axis.minimum_value = a_cmap.va    
3578         m_cmap_axis.maximum_value = a_cmap.va    
3579       }                                          
3580     } else { //grey_scale,grey_scale_inverse,    
3581       m_cmap_axis.modeling = tick_modeling_hi    
3582       m_cmap_axis.width = hcmap;                 
3583       m_cmap_axis.minimum_value = a_cmap.valu    
3584       m_cmap_axis.maximum_value = a_cmap.valu    
3585     }                                            
3586                                                  
3587    {text_style& style = m_cmap_axis.labels_st    
3588     style.x_orientation = vec3f(0,-1,0);         
3589     style.y_orientation = vec3f(1,0,0);          
3590     style.hjust = left;                          
3591     style.vjust = middle;}                       
3592                                                  
3593    {text_style& style = m_cmap_axis.mag_style    
3594     style.hjust = center;                        
3595     style.vjust = bottom;}                       
3596                                                  
3597     }//end axis                                  
3598   }                                              
3599                                                  
3600   void update_primitives(std::ostream& a_out)    
3601 //    if(primitives_enforced.value()) {          
3602       m_primitives_sep.clear();                  
3603       tools_vforcit(plotprim*,m_primitives,it    
3604         if(plottable_text* ptext = safe_cast<    
3605           update_primitive_text(*ptext);         
3606         } else if(plottable_box* pbox = safe_    
3607           update_primitive_box(a_out,*pbox);     
3608         } else if(plottable_ellipse* pellipse    
3609           update_primitive_ellipse(a_out,*pel    
3610         } else if(plottable_img* pimg = safe_    
3611           update_primitive_img(a_out,*pimg);     
3612   }                                              
3613       }                                          
3614     //}                                          
3615   }                                              
3616                                                  
3617 protected: //vis bins                            
3618   void update_bins1D_xy(std::ostream& a_out,     
3619                         const bins1D& a_bins,    
3620                         const style& a_data_s    
3621                         const style& a_left_h    
3622                         const style& a_right_    
3623                         const style& a_errors    
3624                         int a_index,             
3625                       /*SoStyle& aGraphicStyl    
3626                         int aIndex1D,            
3627                         const std::vector<SbP    
3628                         const SbPList& a_bins    
3629                         bool /*aSuperpose*/,     
3630                         const rep_box& a_box_    
3631                         const rep_box& a_box_    
3632                         float a_zz){             
3633                                                  
3634     //char sid[128];                             
3635     //::sprintf(sid,"tools::sg::bins1D/0x%lx"    
3636     //  (unsigned long)const_cast<bins1D*>(&a    
3637                                                  
3638   //bool hbe = a_bins.has_entries_per_bin();     
3639                                                  
3640     float bmin = 0;                              
3641     float bmax = 0;                              
3642                                                  
3643     size_t xnbin = a_bins.bins();                
3644     std::vector<rep_bin1D> bins(xnbin);          
3645    {bool first = true;                           
3646     for(size_t ibin=0;ibin<xnbin;ibin++) {       
3647     //if(hbe && (a_bins.bin_entries(size_t(ib    
3648       float val = a_bins.bin_Sw(int(ibin));      
3649       float xx = float(a_bins.bin_lower_edge(    
3650       float xe = float(a_bins.bin_upper_edge(    
3651       bins[ibin] = rep_bin1D(xx,xe,0,val);       
3652       if(first) {                                
3653         first = false;                           
3654         bmin = val;                              
3655         bmax = val;                              
3656       } else {                                   
3657         bmin = mn<float>(bmin,val);              
3658         bmax = mx<float>(bmax,val);              
3659       }                                          
3660     }}                                           
3661                                                  
3662     //a_bins.bins_Sw_range(bmin,bmax,false);     
3663                                                  
3664     //modeling_profile could override errors_    
3665     bool errors_visible = a_errors_style.visi    
3666                                                  
3667     if(a_data_style.visible) {                   
3668                                                  
3669       painting_policy painting = a_data_style    
3670       if(painting==painting_by_value) {          
3671         m_bins_cmaps[a_index] = new by_value_    
3672       } else if( (painting==painting_grey_sca    
3673                  (painting==painting_grey_sca    
3674                  (painting==painting_violet_t    
3675        {float dbins = bmax-bmin;                 
3676         if(dbins!=0.0F) {                        
3677           for(size_t index=0;index<xnbin;inde    
3678         }}                                       
3679         if(painting==painting_grey_scale) {      
3680           m_bins_cmaps[a_index] = new grey_sc    
3681         } else if(painting==painting_grey_sca    
3682           m_bins_cmaps[a_index] = new grey_sc    
3683         } else if(painting==painting_violet_t    
3684           m_bins_cmaps[a_index] = new violet_    
3685         }                                        
3686       } else {                                   
3687         m_bins_cmaps[a_index] = new const_col    
3688       }                                          
3689                                                  
3690       if(a_bins.is_profile()) {                  
3691         // enforce with a_data_style, a bins     
3692         //  rep_bins1D_xy_points                 
3693         // AND :                                 
3694         //  rep_errors_plus for bins rep.        
3695         // NOTE : a_data_style.modeling not u    
3696         //printf("debug : bins is profile : m    
3697                                                  
3698         style data_style = a_data_style;         
3699         data_style.modeling = modeling_marker    
3700         rep_bins1D_xy_points(a_out,data_style    
3701                                                  
3702         std::vector<float> bars(xnbin);          
3703         for(size_t ibin=0;ibin<xnbin;ibin++)     
3704                                                  
3705         rep_errors_plus_xy(a_out,a_data_style    
3706         errors_visible = false;                  
3707                                                  
3708       } else {                                   
3709                                                  
3710         const std::string& modeling = a_data_    
3711                                                  
3712         //bool one_node = false;                 
3713         //bool oneNode = false;                  
3714        //{int nlimit = aGraphicStyle.multiNod    
3715         //if(nlimit!=NoLimit) {                  
3716         //  oneNode = (xnbin>nlimit?true:fals    
3717         //}}                                     
3718                                                  
3719         bool _bar_chart = false;                 
3720                                                  
3721         //char sid_bin[128];                     
3722         //::sprintf(sid_bin,"SbBin1D/0x%lx",(    
3723                                                  
3724         if((modeling==modeling_points())||(mo    
3725           //if(oneNode) {                        
3726           //  rep_bins1D_xy_points_one(binsNo    
3727           //                       bins,a_box    
3728           //} else {                             
3729             rep_bins1D_xy_points(a_out,a_data    
3730                                  *(m_bins_cma    
3731                                  bins,a_box_x    
3732           //}                                    
3733         } else if(modeling==modeling_boxes())    
3734           //if(oneNode) {                        
3735           //  rep_bins1D_xy_boxes_one(binsNod    
3736           //                      bins,a_box_    
3737           //} else {                             
3738             rep_bins1D_xy_boxes(a_data_style,    
3739                                 *(m_bins_cmap    
3740                                 bins,a_box_x,    
3741                                 );               
3742           //}                                    
3743                                                  
3744         } else if(modeling==modeling_wire_box    
3745           //if(oneNode) {                        
3746           //  rep_bins1D_xy_wire_boxes_one(bi    
3747           //                           bins,a    
3748           //} else {                             
3749             rep_bins1D_xy_wire_boxes(a_data_s    
3750           //}                                    
3751         } else if(modeling==modeling_bar_char    
3752            _bar_chart = true;                    
3753           //if(oneNode) {                        
3754           //  rep_bins1D_xy_wire_boxes_one(bi    
3755           //                           bins,a    
3756           //} else {                             
3757             rep_bins1D_xy_wire_boxes(a_data_s    
3758           //}                                    
3759                                                  
3760         } else if(modeling==modeling_lines())    
3761           rep_bins1D_xy_lines_one(a_data_styl    
3762         } else if(modeling==modeling_curve())    
3763           rep_bins1D_xy_curve_one(a_out,a_dat    
3764                                                  
3765         } else if(modeling==modeling_top_line    
3766           style _style;_style.color = colorf_    
3767           rep_bins1D_xy_boxes(_style,*(m_bins    
3768           rep_bins1D_xy_top_lines(a_data_styl    
3769                                                  
3770         } else { //default modeling==modeling    
3771           rep_bins1D_xy_top_lines(a_data_styl    
3772                                                  
3773         }                                        
3774                                                  
3775         hatching_policy hatching = a_data_sty    
3776   //::printf("debug : bins1D %d hatching : %d    
3777         if(hatching!=hatching_none) {            
3778           // WARNING : must come AFTER rep_bi    
3779           if((hatching==hatching_right)||((ha    
3780             //if(oneNode) {                      
3781               //repHatch1D_xy_one(binsNode,aR    
3782             //} else {                           
3783               rep_hatch1D_xy(a_right_hatch_st    
3784             //}                                  
3785           }                                      
3786           if((hatching==hatching_left)||((hat    
3787             //if(oneNode) {                      
3788               //repHatch1D_xy_one(binsNode,aL    
3789             //} else {                           
3790               rep_hatch1D_xy(a_left_hatch_sty    
3791             //}                                  
3792           }                                      
3793         }                                        
3794                                                  
3795       } //end !is_profile.                       
3796     } //end data_style visible                   
3797                                                  
3798     // Errors :                                  
3799     if(errors_visible) {                         
3800       std::vector<float> bars(xnbin);            
3801       for(size_t ibin=0;ibin<xnbin;ibin++) ba    
3802       const std::string& modeling = a_errors_    
3803       if(modeling==modeling_plus()) {            
3804         rep_errors_plus_xy(a_out,a_errors_sty    
3805       } else { //modeling_I()                    
3806         rep_errors_I_xy(a_out,a_errors_style,    
3807       }                                          
3808     }                                            
3809                                                  
3810   }                                              
3811                                                  
3812   static bool bins2D_to_func(const bins2D& a_    
3813     unsigned int xn = a_bins.x_bins();           
3814     float xmn = a_bins.x_axis_min();             
3815     float xmx = a_bins.x_axis_max();             
3816     unsigned int yn = a_bins.y_bins();           
3817     float ymn = a_bins.y_axis_min();             
3818     float ymx = a_bins.y_axis_max();             
3819                                                  
3820     float dx = (xmx-xmn)/xn;                     
3821     float dy = (ymx-ymn)/yn;                     
3822     int ibin = (int)((a_X-xmn)/dx);              
3823     int jbin = (int)((a_Y-ymn)/dy);              
3824                                                  
3825     if((ibin<0)||(ibin>=int(xn))) {a_value=0;    
3826     if((jbin<0)||(jbin>=int(yn))) {a_value=0;    
3827                                                  
3828     float xx_0 = a_bins.bin_lower_edge_x(ibin    
3829     //float xe_0 = a_bins.bin_upper_edge_x(ib    
3830     float xx_1 = a_bins.bin_lower_edge_x(ibin    
3831     //float xe_1 = a_bins.bin_upper_edge_x(ib    
3832                                                  
3833     float yy_0 = a_bins.bin_lower_edge_y(jbin    
3834     //float ye_0 = a_bins.bin_upper_edge_y(jb    
3835     float yy_1 = a_bins.bin_lower_edge_y(jbin    
3836     //float ye_1 = a_bins.bin_upper_edge_y(jb    
3837                                                  
3838     float val1 = a_bins.bin_Sw(ibin,jbin);       
3839     float val2 = a_bins.bin_Sw(ibin+1,jbin);     
3840     //float val3 = a_bins.getBinSumOfWeights(    
3841     float val4 = a_bins.bin_Sw(ibin,jbin+1);     
3842                                                  
3843     // Interpolate :                             
3844     vec3f p1(xx_0,yy_0,val1);                    
3845     vec3f p2(xx_1,yy_0,val2);                    
3846     //vec3f p3(xx_1,yy_1,val3);                  
3847     vec3f p4(xx_0,yy_1,val4);                    
3848                                                  
3849     //FIXME : case of (x,y) in (p2,p3,p4)        
3850                                                  
3851     plane<vec3f> _plane(p1,p2,p4);               
3852     vec3f pt;                                    
3853     line<vec3f> _line(vec3f(a_X,a_Y,0),vec3f(    
3854     _plane.intersect(_line,pt);                  
3855                                                  
3856     a_value = pt[2];                             
3857     return true;                                 
3858   }                                              
3859                                                  
3860   typedef struct {                               
3861     const func2D* m_func2D;                      
3862     const bins2D* m_bins2D;                      
3863     double m_limits[4];                          
3864     double m_limits_in[4];                       
3865     bool m_problem;                              
3866   } SbFunc;                                      
3867                                                  
3868   static double bins2D_to_contour(double a_X,    
3869     SbFunc* func =(SbFunc*)aData;                
3870     if( (a_X<func->m_limits_in[0])||             
3871         (a_X>func->m_limits_in[1])||             
3872         (a_Y<func->m_limits_in[2])||             
3873         (a_Y>func->m_limits_in[3])               
3874       ) return -FLT_MAX;                         
3875     float value;                                 
3876     if(!bins2D_to_func(*(func->m_bins2D),(flo    
3877     return value;                                
3878   }                                              
3879                                                  
3880   static double log_bins2D_to_contour(double     
3881     SbFunc* func =(SbFunc*)aData;                
3882     if( (a_X<func->m_limits_in[0])||             
3883         (a_X>func->m_limits_in[1])||             
3884         (a_Y<func->m_limits_in[2])||             
3885         (a_Y>func->m_limits_in[3])               
3886       ) return -FLT_MAX;                         
3887     float value;                                 
3888     if(!bins2D_to_func(*(func->m_bins2D),(flo    
3889     return take_log(value);                      
3890   }                                              
3891                                                  
3892   void update_bins2D_xy(std::ostream& a_out,     
3893                         const bins2D& a_bins,    
3894                         const style& a_data_s    
3895                         int a_index,             
3896                         const rep_box& a_box_    
3897                         const rep_box& a_box_    
3898                         const rep_box& a_box_    
3899                         float a_zz){             
3900                                                  
3901     //a_out << "tools::sg::update_bins2D_xy :    
3902                                                  
3903     if(!a_data_style.visible) return;            
3904                                                  
3905     //a_out << "tools::sg::update_bins2D_xy :    
3906                                                  
3907     unsigned int xnbin = a_bins.x_bins();        
3908     unsigned int ynbin = a_bins.y_bins();        
3909                                                  
3910     const std::string& modeling = a_data_styl    
3911                                                  
3912     if( (modeling==modeling_curve()) || (mode    
3913                                                  
3914       a_out << "tools::sg::update_bins2D_xy :    
3915                                                  
3916       painting_policy painting = a_data_style    
3917                                                  
3918       float zmin = a_box_z.m_pos;                
3919       float dz = a_box_z.m_width;                
3920       bool zlog = a_box_z.m_log;                 
3921                                                  
3922       float xmn =  m_x_axis_data.min_value();    
3923       float xmx =  m_x_axis_data.max_value();    
3924       float ymn =  m_y_axis_data.min_value();    
3925       float ymx =  m_y_axis_data.max_value();    
3926                                                  
3927       clist_contour list_contour;                
3928       //int nFir = 32;                           
3929       int nFir = 128;                            
3930       list_contour.set_first_grid(nFir,nFir);    
3931       //int nSec = 256;                          
3932       int nSec = 512; //slower than 256          
3933       list_contour.set_secondary_grid(nSec,nS    
3934                                                  
3935       double limits[4];                          
3936       // User limits :                           
3937       limits[0] = xmn;                           
3938       limits[1] = xmx;                           
3939       limits[2] = ymn;                           
3940       limits[3] = ymx;                           
3941                                                  
3942       SbFunc sbFunc;                             
3943       sbFunc.m_func2D = 0;                       
3944       sbFunc.m_problem = false;                  
3945       sbFunc.m_bins2D = &a_bins;                 
3946       sbFunc.m_limits_in[0] = limits[0];         
3947       sbFunc.m_limits_in[1] = limits[1];         
3948       sbFunc.m_limits_in[2] = limits[2];         
3949       sbFunc.m_limits_in[3] = limits[3];         
3950                                                  
3951       // Extend the grid to have some borders    
3952       int n = nSec - 2 * 10;                     
3953       double dx = (limits[1]-limits[0]) /n;      
3954       double dy = (limits[3]-limits[2]) /n;      
3955       limits[0] = limits[0] - 10 * dx;           
3956       limits[1] = limits[1] + 10 * dx;           
3957       limits[2] = limits[2] - 10 * dy;           
3958       limits[3] = limits[3] + 10 * dy;           
3959                                                  
3960       sbFunc.m_limits[0] = limits[0];            
3961       sbFunc.m_limits[1] = limits[1];            
3962       sbFunc.m_limits[2] = limits[2];            
3963       sbFunc.m_limits[3] = limits[3];            
3964                                                  
3965       list_contour.set_limits(limits);           
3966                                                  
3967       if(levels.size()) {                        
3968         size_t zn = levels.size();               
3969         std::vector<double> zs(zn);              
3970         for(size_t zi=0;zi<zn;zi++) zs[zi] =     
3971         list_contour.set_planes(zs);             
3972       } else {                                   
3973         unsigned int zn = number_of_levels.va    
3974         if(zn<=0) zn = 1;                        
3975         std::vector<double> zs(zn+1);            
3976         float zmax = zmin + dz;                  
3977         double zd = (zmax-zmin)/zn;              
3978         for(unsigned int zi=0;zi<=zn;zi++) zs    
3979         list_contour.set_planes(zs);             
3980       }                                          
3981                                                  
3982       if(zlog)                                   
3983         list_contour.set_field_fcn(log_bins2D    
3984       else                                       
3985         list_contour.set_field_fcn(bins2D_to_    
3986                                                  
3987 #ifdef INLIBS_SG_PLOTTER_TIMING                  
3988       atime _start = atime::now();               
3989 #endif                                           
3990       list_contour.ccontour::generate();         
3991 #ifdef INLIBS_SG_PLOTTER_TIMING                  
3992       a_out << "tools::sg::update_bins2D_xy :    
3993       _start = atime::now();                     
3994 #endif                                           
3995                                                  
3996       if(!list_contour.compact_strips ()) {      
3997         a_out << "tools::sg::plotter::updateB    
3998       } else {                                   
3999 #ifdef INLIBS_SG_PLOTTER_TIMING                  
4000         a_out << "tools::sg::update_bins2D_xy    
4001 #endif                                           
4002         if( (painting==painting_by_level) ||     
4003           m_bins_cmaps[a_index] = new by_valu    
4004           //bool zlog = a_box_z.m_log;           
4005           if(zlog) m_bins_cmaps[a_index]->set    
4006         } else {                                 
4007           m_bins_cmaps[a_index] = new const_c    
4008         }                                        
4009                                                  
4010         if(modeling==modeling_filled_curve())    
4011           rep_contour_xy_filled(a_out,a_data_    
4012                                 painting,*(m_    
4013                                 list_contour,    
4014         } else {                                 
4015           rep_contour_xy(a_out,a_data_style,     
4016                          painting,*(m_bins_cm    
4017                          list_contour,a_box_x    
4018         }                                        
4019                                                  
4020       }                                          
4021                                                  
4022       if(sbFunc.m_problem) {                     
4023         a_out << "tools::sg::plotter::updateF    
4024         << "problem when getting some functio    
4025       }                                          
4026                                                  
4027     } else {                                     
4028                                                  
4029       bool hbe = a_bins.has_entries_per_bin()    
4030                                                  
4031       float bmin = 0;                            
4032       float bmax = 0;                            
4033                                                  
4034       std::vector<rep_bin2D> bins;               
4035      {bool first = true;                         
4036       for(int jbin=ynbin-1;jbin>=0;jbin--) {     
4037         for(int ibin=xnbin-1;ibin>=0;ibin--)     
4038           if(hbe && (a_bins.bin_entries(ibin,    
4039                                                  
4040           float val = a_bins.bin_Sw(ibin,jbin    
4041                                                  
4042           float xx = a_bins.bin_lower_edge_x(    
4043           float xe = a_bins.bin_upper_edge_x(    
4044           float yy = a_bins.bin_lower_edge_y(    
4045           float ye = a_bins.bin_upper_edge_y(    
4046                                                  
4047           bins.push_back(rep_bin2D(xx,xe,yy,y    
4048                                                  
4049           if(first) {                            
4050             first = false;                       
4051             bmin = val;                          
4052             bmax = val;                          
4053           } else {                               
4054             bmin = mn<float>(bmin,val);          
4055             bmax = mx<float>(bmax,val);          
4056           }                                      
4057         }                                        
4058       }}                                         
4059       size_t number = bins.size();               
4060                                                  
4061       //a_bins.bins_Sw_range(bmin,bmax,false)    
4062                                                  
4063       painting_policy painting = a_data_style    
4064       if(painting==painting_by_value) {          
4065         m_bins_cmaps[a_index] = new by_value_    
4066       } else if( (painting==painting_grey_sca    
4067                  (painting==painting_grey_sca    
4068                  (painting==painting_violet_t    
4069        {float dbins = bmax-bmin;                 
4070         if(dbins!=0.0F) {                        
4071           for(size_t index=0;index<number;ind    
4072             bins[index].m_ratio = (bins[index    
4073           }                                      
4074         }}                                       
4075         if(painting==painting_grey_scale) {      
4076           m_bins_cmaps[a_index] = new grey_sc    
4077         } else if(painting==painting_grey_sca    
4078           m_bins_cmaps[a_index] = new grey_sc    
4079         } else if(painting==painting_violet_t    
4080           m_bins_cmaps[a_index] = new violet_    
4081         }                                        
4082       } else {                                   
4083         m_bins_cmaps[a_index] = new const_col    
4084       }                                          
4085                                                  
4086       if(modeling==modeling_solid()) {           
4087         //a_out << "tools::sg::update_bins2D_    
4088                                                  
4089         rep_bins2D_xy_solid(a_data_style,*(m_    
4090                                                  
4091       } else if(modeling==modeling_points())     
4092         //a_out << "tools::sg::update_bins2D_    
4093         rep_bins2D_xy_random_one(a_data_style    
4094                                                  
4095       } else if(modeling==modeling_wire_boxes    
4096         //a_out << "tools::sg::update_bins2D_    
4097                                                  
4098         // one node decision :                   
4099       /*bool oneNode = false;                    
4100        {int nlimit = aGraphicStyle.multiNodeL    
4101         if(nlimit!=NoLimit) {                    
4102           oneNode = (number>nlimit?true:false    
4103         }}*/                                     
4104                                                  
4105       /*if(oneNode) {                            
4106           rep_bins2D_xy_wire_box_one(a_data_s    
4107         } else {*/                               
4108           rep_bins2D_xy_wire_box(a_data_style    
4109         //}                                      
4110                                                  
4111       } else if(modeling==modeling_texts()) {    
4112         //a_out << "tools::sg::update_bins2D_    
4113                                                  
4114         // one node decision :                   
4115       //bool oneNode = false;                    
4116      //{int nlimit = aGraphicStyle.multiNodeL    
4117       // if(nlimit!=NoLimit) {                   
4118       //   oneNode = (number>nlimit?true:fals    
4119       //}}                                       
4120                                                  
4121         //if(oneNode) {                          
4122         //  rep_bins2D_xy_text_one(binsNode,     
4123         //                        aGraphicSty    
4124         //                        bins,a_box_    
4125         //} else {                               
4126           rep_bins2D_xy_text(a_data_style,bin    
4127        //}                                       
4128                                                  
4129       } else { //default rep modeling==modeli    
4130         //a_out << "tools::sg::update_bins2D_    
4131                                                  
4132         rep_bins2D_xy_box(a_data_style,bins,a    
4133                                                  
4134       }                                          
4135                                                  
4136                                                  
4137     } //end if modeling                          
4138                                                  
4139   }                                              
4140                                                  
4141   void update_func1D_xy(std::ostream& a_out,c    
4142                         const style& a_style,    
4143                                                  
4144     //a_out << "debug : tools::sg::plotter::u    
4145                                                  
4146     if(!a_style.visible) return;                 
4147                                                  
4148     float xmn = m_x_axis_data.min_value();       
4149     float xmx = m_x_axis_data.max_value();       
4150                                                  
4151     unsigned int nstp = a_func.x_steps();        
4152     nstp = nstp <=0 ? curve_number_of_points.    
4153                                                  
4154     float df = (xmx - xmn)/nstp;                 
4155                                                  
4156     bool problem = false;                        
4157     std::vector<vec3f> points(nstp+1);           
4158     for(unsigned int ibin=0;ibin<=nstp;ibin++    
4159       float xx = xmn + ibin * df;                
4160       float val;                                 
4161       if(!a_func.value(xx,val)) problem = tru    
4162       points[ibin].set_value(xx,val,a_zz);       
4163     }                                            
4164     if(problem) {                                
4165       a_out << "tools::sg::plotter::update_fu    
4166             << " problem when getting some fu    
4167             << std::endl;                        
4168     }                                            
4169                                                  
4170     const std::string& modeling = a_style.mod    
4171                                                  
4172     if(modeling==modeling_points()){             
4173       vertices* vtxs = new vertices;             
4174       std::vector<float>& pts = vtxs->xyzs.va    
4175       clip_points_2D(points,a_box_x,a_box_y,p    
4176       if(pts.size()) {                           
4177         //a_out << "debug : tools::sg::plotte    
4178         //      << " ptn " << pts.size()         
4179         //      << std::endl;                    
4180                                                  
4181         separator* sep = new separator;          
4182         m_func_sep.add(sep);                     
4183                                                  
4184         rgba* mat = new rgba();                  
4185         mat->color = a_style.color;              
4186         sep->add(mat);                           
4187                                                  
4188         draw_style* ds = new draw_style;         
4189         ds->style = draw_points;                 
4190         ds->point_size = a_style.point_size;     
4191         sep->add(ds);                            
4192                                                  
4193         vtxs->mode = gl::points();               
4194         sep->add(vtxs);                          
4195       } else {                                   
4196         delete vtxs;                             
4197       }                                          
4198                                                  
4199     } else if(modeling==modeling_markers()){     
4200       markers* _marks = new markers;             
4201       std::vector<float>& pts = _marks->xyzs.    
4202       clip_points_2D(points,a_box_x,a_box_y,p    
4203       if(pts.size()) {                           
4204         //a_out << "debug : tools::sg::plotte    
4205         //      << " ptn " << pts.size()         
4206         //      << std::endl;                    
4207                                                  
4208         separator* sep = new separator;          
4209         m_func_sep.add(sep);                     
4210                                                  
4211         rgba* mat = new rgba();                  
4212         mat->color = a_style.color;              
4213         sep->add(mat);                           
4214                                                  
4215         _marks->size = a_style.marker_size;      
4216         _marks->style = a_style.marker_style;    
4217         sep->add(_marks);                        
4218       } else {                                   
4219         delete _marks;                           
4220       }                                          
4221                                                  
4222     } else {                                     
4223                                                  
4224       vertices* vtxs = new vertices;             
4225       std::vector<float>& pts = vtxs->xyzs.va    
4226                                                  
4227       clip_polyline_2D(points,a_box_x,a_box_y    
4228       if(pts.size()) {                           
4229         //a_out << "debug : tools::sg::plotte    
4230                                                  
4231         separator* sep = new separator;          
4232         m_func_sep.add(sep);                     
4233                                                  
4234         rgba* mat = new rgba();                  
4235         mat->color = a_style.color;              
4236         sep->add(mat);                           
4237                                                  
4238         draw_style* ds = new draw_style;         
4239         ds->style = draw_lines;                  
4240         ds->line_pattern = a_style.line_patte    
4241         ds->line_width = a_style.line_width;     
4242         sep->add(ds);                            
4243                                                  
4244         vtxs->mode = gl::line_strip();           
4245         sep->add(vtxs);                          
4246       } else {                                   
4247         delete vtxs;                             
4248       }                                          
4249     }                                            
4250   }                                              
4251                                                  
4252   static double function_to_contour(double a_    
4253     SbFunc* func = (SbFunc*)aData;               
4254     if( (a_X<func->m_limits_in[0])||             
4255         (a_X>func->m_limits_in[1])||             
4256         (a_Y<func->m_limits_in[2])||             
4257         (a_Y>func->m_limits_in[3])               
4258       ) return -FLT_MAX;                         
4259     float value;                                 
4260     if(!func->m_func2D->value((float)a_X,(flo    
4261     return double(value);                        
4262   }                                              
4263   static double log_function_to_contour(doubl    
4264     SbFunc* func =(SbFunc*)aData;                
4265     if( (a_X<func->m_limits_in[0])||             
4266         (a_X>func->m_limits_in[1])||             
4267         (a_Y<func->m_limits_in[2])||             
4268         (a_Y>func->m_limits_in[3])               
4269       ) return -FLT_MAX;                         
4270     float value;                                 
4271     if(!func->m_func2D->value((float)a_X,(flo    
4272     return take_log(value);                      
4273   }                                              
4274                                                  
4275   void update_func2D_xy(std::ostream& a_out,c    
4276                         const rep_box& a_box_    
4277     //a_out << "debug : tools::sg::plotter::u    
4278     if(!a_data_style.visible.value()) return;    
4279                                                  
4280   //  std::string sid;                           
4281   // {std::string sp;                            
4282   //  if(!p2sx(&a_func,sp)){}                    
4283   //  sid = "SbFunction2D/"+sp;}                 
4284                                                  
4285     const std::string& modeling = a_data_styl    
4286     painting_policy painting = a_data_style.p    
4287                                                  
4288     if( (modeling==modeling_curve()) || (mode    
4289                                                  
4290       //a_out << "debug : tools::sg::plotter:    
4291                                                  
4292       float zmin = a_box_z.m_pos;                
4293       float dz = a_box_z.m_width;                
4294       bool zlog = a_box_z.m_log;                 
4295                                                  
4296       float xmn = m_x_axis_data.min_value();     
4297       float xmx = m_x_axis_data.max_value();     
4298       float ymn = m_y_axis_data.min_value();     
4299       float ymx = m_y_axis_data.max_value();     
4300                                                  
4301       clist_contour list_contour;                
4302       //int nFir = 32;                           
4303       int nFir = 128;                            
4304       list_contour.set_first_grid(nFir,nFir);    
4305       //int nSec = 256;                          
4306       int nSec = 512; //slower than 256          
4307       list_contour.set_secondary_grid(nSec,nS    
4308                                                  
4309       double limits[4];                          
4310       // User limits :                           
4311       limits[0] = xmn;                           
4312       limits[1] = xmx;                           
4313       limits[2] = ymn;                           
4314       limits[3] = ymx;                           
4315                                                  
4316       SbFunc sbFunc;                             
4317       sbFunc.m_func2D = &a_func;                 
4318       sbFunc.m_problem = false;                  
4319       sbFunc.m_bins2D = 0;                       
4320       sbFunc.m_limits_in[0] = limits[0];         
4321       sbFunc.m_limits_in[1] = limits[1];         
4322       sbFunc.m_limits_in[2] = limits[2];         
4323       sbFunc.m_limits_in[3] = limits[3];         
4324                                                  
4325       // Extend the grid to have some borders    
4326       int n = nSec - 2 * 10;                     
4327       double dx = (limits[1]-limits[0]) /n;      
4328       double dy = (limits[3]-limits[2]) /n;      
4329       limits[0] = limits[0] - 10 * dx;           
4330       limits[1] = limits[1] + 10 * dx;           
4331       limits[2] = limits[2] - 10 * dy;           
4332       limits[3] = limits[3] + 10 * dy;           
4333                                                  
4334       sbFunc.m_limits[0] = limits[0];            
4335       sbFunc.m_limits[1] = limits[1];            
4336       sbFunc.m_limits[2] = limits[2];            
4337       sbFunc.m_limits[3] = limits[3];            
4338                                                  
4339       list_contour.set_limits(limits);           
4340                                                  
4341       if(levels.getNum()) {                      
4342         size_t zn = levels.size();               
4343         std::vector<double> zs(zn);              
4344         for(size_t zi=0;zi<zn;zi++) zs[zi] =     
4345         list_contour.set_planes(zs);             
4346       } else {                                   
4347         unsigned int zn = number_of_levels;      
4348         if(zn<=0) zn = 1;                        
4349         std::vector<double> zs(zn+1);            
4350         float zmax = zmin + dz;                  
4351         double zd = (zmax-zmin)/zn;              
4352         for(unsigned int zi=0;zi<=zn;zi++) zs    
4353         list_contour.set_planes(zs);             
4354       }                                          
4355                                                  
4356       if(zlog) {                                 
4357         list_contour.set_field_fcn(log_functi    
4358       } else {                                   
4359         list_contour.set_field_fcn(function_t    
4360       }                                          
4361                                                  
4362 #ifdef INLIBS_SG_PLOTTER_TIMING                  
4363       atime _start = atime::now();               
4364 #endif                                           
4365       list_contour.ccontour::generate();         
4366                                                  
4367 #ifdef INLIBS_SG_PLOTTER_TIMING                  
4368       a_out << "tools::sg::update_func2D_xy :    
4369       _start = atime::now();                     
4370 #endif                                           
4371                                                  
4372       if(!list_contour.compact_strips ()) {      
4373         a_out << "tools::sg::plotter::update_    
4374       } else {                                   
4375 #ifdef INLIBS_SG_PLOTTER_TIMING                  
4376         a_out << "tools::sg::update_func2D_xy    
4377 #endif                                           
4378         if( (painting==painting_by_level) ||     
4379           m_func_cmaps[a_index] = new by_valu    
4380           //bool zlog = a_box_z.m_log;           
4381           if(zlog) m_func_cmaps[a_index]->set    
4382         } else {                                 
4383           m_func_cmaps[a_index] = new const_c    
4384         }                                        
4385                                                  
4386         if(modeling==modeling_filled_curve())    
4387           rep_contour_xy_filled(a_out,a_data_    
4388                                 painting,*(m_    
4389                                 list_contour,    
4390         } else {                                 
4391           rep_contour_xy(a_out,a_data_style,     
4392                          painting,*(m_func_cm    
4393                          list_contour,a_box_x    
4394         }                                        
4395       }                                          
4396                                                  
4397       if(sbFunc.m_problem) {                     
4398         a_out << "tools::sg::plotter::update_    
4399       }                                          
4400                                                  
4401   /*                                             
4402     } else if(modeling==SbModeling_polygon) {    
4403                                                  
4404       int npoint = a_func.getNumberOfPoints()    
4405       if(npoint) {                               
4406                                                  
4407       std::vector<vec3f> points(npoint);         
4408       std::vector<int> controls;                 
4409       for(int count=0;count<npoint;count++) {    
4410         float xx,yy;                             
4411         bool isControl;                          
4412         a_func.getIthPoint(count,xx,yy,isCont    
4413         points[count] = vec3f(xx,yy,a_zz);       
4414         if(isControl) controls.push_back(coun    
4415       }                                          
4416       //check closure :                          
4417       if((points.size()>=2) && (points[points    
4418         points.push_back(points[0]);             
4419       }                                          
4420                                                  
4421       project2D(points,a_box_x,a_box_y);         
4422                                                  
4423       bool editable = a_data_style.editable.g    
4424       if(!editable) {                            
4425         clip<float> clipper;                     
4426        {size_t ptn = points.size();              
4427         for(size_t index=0;index<ptn;index++)    
4428                                                  
4429         plane<vec3f> plane_xy_bot(vec3f(0, 1,    
4430         plane<vec3f> plane_xy_top(vec3f(0,-1,    
4431         plane<vec3f> plane_yz_left (vec3f( 1,    
4432         plane<vec3f> plane_yz_right(vec3f(-1,    
4433                                                  
4434         clipper.execute(plane_xy_bot);           
4435         clipper.execute(plane_xy_top);           
4436         clipper.execute(plane_yz_left);          
4437         clipper.execute(plane_yz_right);         
4438                                                  
4439        {int n = clipper.getNumVertices();        
4440         points.resize(n);                        
4441         for(int index=0;index<n;index++) {       
4442           clipper.getVertex(index,points[inde    
4443         }}                                       
4444         if((points.size()>=2) && (points[poin    
4445           points.push_back(points[0]);           
4446         }                                        
4447       }                                          
4448                                                  
4449       int ptn = points.size();                   
4450       if(ptn) {                                  
4451       vec3f* pts = &(points[0]);                 
4452                                                  
4453       SoSceneGraph* separator = new SoSceneGr    
4454       separator->setString(sid.c_str());         
4455       functionNode->addChild(separator);         
4456                                                  
4457       SoSeparator* sep = new SoSeparator;        
4458       separator->addChild(sep);                  
4459                                                  
4460       sep->addChild(fStyleCache->getFilled())    
4461       sep->addChild(fStyleCache->getNormalBin    
4462       sep->addChild(fStyleCache->getNormalZ()    
4463       sep->addChild(fStyleCache->getMaterial(    
4464                                                  
4465       SoCoordinate3* coordinate3 = new SoCoor    
4466       coordinate3->point.setValues(0,ptn,pts)    
4467       sep->addChild(coordinate3);                
4468                                                  
4469       SoFaceSet* faceSet = new SoFaceSet;        
4470       faceSet->numVertices.set1Value(0,ptn);     
4471       sep->addChild(faceSet);                    
4472                                                  
4473       sep->addChild(fStyleCache->getLineStyle    
4474       sep->addChild(fStyleCache->getMaterial(    
4475                                                  
4476       //NOTE : we could simply add faceSet ag    
4477       SoLineSet* lineSet = new SoLineSet;        
4478       lineSet->numVertices.set1Value(0,ptn);     
4479       sep->addChild(lineSet);                    
4480                                                  
4481       if(editable) {                             
4482         SoSeparator* sep = new SoSeparator;      
4483         separator->addChild(sep);                
4484                                                  
4485         float scale = 0.05F;                     
4486                                                  
4487         for(int index=0;index<controls.size()    
4488           int icontrol = controls[index];        
4489           const vec3f& pt = pts[icontrol];       
4490                                                  
4491           SoSeparator* sp = new SoSeparator;     
4492           sep->addChild(sp);                     
4493                                                  
4494           SoTransform* tsf = new SoTransform(    
4495           tsf->translation.setValue(pt);         
4496           tsf->scaleFactor.setValue(scale,sca    
4497           sp->addChild(tsf);                     
4498                                                  
4499           SoPlotter_dragger* dragger =           
4500             new SoPlotter_dragger(*coordinate    
4501           SoTools_setDraggerColor(*dragger,Sb    
4502           sp->addChild(dragger);                 
4503         }                                        
4504       }                                          
4505                                                  
4506       } //ptn                                    
4507       } //npoint                                 
4508                                                  
4509   */                                             
4510     } else {                                     
4511       a_out << "tools::sg::plotter::update_fu    
4512             << " modeling " << modeling          
4513       << " does not apply on Functi  on2D in     
4514     << std::endl;                                
4515     }                                            
4516                                                  
4517   }                                              
4518                                                  
4519   void update_points2D_xy(std::ostream& a_out    
4520                           const rep_box& a_bo    
4521                                                  
4522     //a_out << "debug : tools::sg::plotter::u    
4523                                                  
4524     if(!a_style.visible) return;                 
4525                                                  
4526     size_t number = a_points.points();           
4527     if(!number) return;                          
4528                                                  
4529     const std::string& modeling = a_style.mod    
4530                                                  
4531     if(modeling==modeling_lines()) {             
4532       rep_points2D_xy_lines(a_style,a_points,    
4533     } else if(modeling==modeling_curve()) {      
4534       rep_points2D_xy_curve(a_out,a_style,a_p    
4535     } else {                                     
4536       rep_points2D_xy_points(a_out,a_style,a_    
4537     }                                            
4538   }                                              
4539                                                  
4540   void update_points3D_xyz(std::ostream& a_ou    
4541                            const rep_box& a_b    
4542                                                  
4543     //a_out << "debug : tools::sg::plotter::u    
4544                                                  
4545     if(!a_style.visible) return;                 
4546                                                  
4547     size_t number = a_points.points();           
4548     if(!number) return;                          
4549                                                  
4550     rep_points3D_xyz_points(a_out,a_style,a_p    
4551   }                                              
4552                                                  
4553   void get_title(std::string& a_s){              
4554     a_s.clear();                                 
4555     bins1D* b1;                                  
4556     bins2D* b2;                                  
4557     func1D* f1;                                  
4558     func2D* f2;                                  
4559     points2D* p2;                                
4560     points3D* p3;                                
4561     if(first_bins(b1,b2)) {                      
4562       if(b1) {                                   
4563         a_s = b1->title();                       
4564       } else if(b2) {                            
4565         a_s = b2->title();                       
4566       }                                          
4567     } else if(first_points(p2,p3)) {             
4568       if(p2) {                                   
4569         a_s = p2->title();                       
4570       } else if(p3) {                            
4571         a_s = p3->title();                       
4572       }                                          
4573     } else if(first_func(f1,f2)) {               
4574       if(f1) {                                   
4575         a_s = f1->title();                       
4576       } if(f2) {                                 
4577         a_s = f2->title();                       
4578       }                                          
4579     }                                            
4580   }                                              
4581                                                  
4582   void update_bins2D_xyz(std::ostream& a_out,    
4583                          const rep_box& a_box    
4584     //a_out << "tools::sg::update_bins2D_xyz     
4585                                                  
4586     if(!a_style.visible) return;                 
4587                                                  
4588     //a_out << "tools::sg::update_bins2D_xyz     
4589                                                  
4590     unsigned int xnbin = a_bins.x_bins();        
4591     unsigned int ynbin = a_bins.y_bins();        
4592     if(!xnbin || !ynbin) return;                 
4593                                                  
4594     const std::string& modeling = a_style.mod    
4595                                                  
4596     if(modeling==modeling_boxes()) {             
4597                                                  
4598       bool hbe = a_bins.has_entries_per_bin()    
4599                                                  
4600       float bmin = 0;                            
4601       float bmax = 0;                            
4602                                                  
4603       std::vector<rep_bin2D> bins;               
4604      {bool first = true;                         
4605       for(int jbin=ynbin-1;jbin>=0;jbin--) {     
4606         for(int ibin=xnbin-1;ibin>=0;ibin--)     
4607           if(hbe && (a_bins.bin_entries(ibin,    
4608                                                  
4609           float val = a_bins.bin_Sw(ibin,jbin    
4610                                                  
4611           float xx = a_bins.bin_lower_edge_x(    
4612           float xe = a_bins.bin_upper_edge_x(    
4613           float yy = a_bins.bin_lower_edge_y(    
4614           float ye = a_bins.bin_upper_edge_y(    
4615                                                  
4616           bins.push_back(rep_bin2D(xx,xe,yy,y    
4617                                                  
4618           if(first) {                            
4619             first = false;                       
4620             bmin = val;                          
4621             bmax = val;                          
4622           } else {                               
4623             bmin = mn<float>(bmin,val);          
4624             bmax = mx<float>(bmax,val);          
4625           }                                      
4626         }                                        
4627       }}                                         
4628       size_t number = bins.size();               
4629                                                  
4630       //a_bins.bins_Sw_range(bmin,bmax,false)    
4631                                                  
4632       painting_policy painting = a_style.pain    
4633       if(painting==painting_by_value) {          
4634         m_bins_cmaps[a_index] = new by_value_    
4635       } else if( (painting==painting_grey_sca    
4636                  (painting==painting_grey_sca    
4637                  (painting==painting_violet_t    
4638        {float dbins = bmax-bmin;                 
4639         if(dbins!=0.0F) {                        
4640           for(size_t index=0;index<number;ind    
4641             bins[index].m_ratio = (bins[index    
4642           }                                      
4643         }}                                       
4644         if(painting==painting_grey_scale) {      
4645           m_bins_cmaps[a_index] = new grey_sc    
4646         } else if(painting==painting_grey_sca    
4647           m_bins_cmaps[a_index] = new grey_sc    
4648         } else if(painting==painting_violet_t    
4649           m_bins_cmaps[a_index] = new violet_    
4650         }                                        
4651       } else {                                   
4652         m_bins_cmaps[a_index] = new const_col    
4653       }                                          
4654                                                  
4655       rep_bins2D_xyz_box(a_style,*m_bins_cmap    
4656                                                  
4657     } else if(modeling==modeling_curve()){ //    
4658                                                  
4659       float bmin = 0;                            
4660       float bmax = 0;                            
4661                                                  
4662       std::vector<rep_top_face2D> faces((xnbi    
4663      {bool first = true;                         
4664       size_t facei = 0;                          
4665       unsigned int xnbin_1 = xnbin-1;            
4666       unsigned int ynbin_1 = ynbin-1;            
4667       for(unsigned int jbin=0;jbin<ynbin_1;jb    
4668         for(unsigned int ibin=0;ibin<xnbin_1;    
4669                                                  
4670           float xx_0 = a_bins.bin_lower_edge_    
4671           float xe_0 = a_bins.bin_upper_edge_    
4672           float xx_1 = a_bins.bin_lower_edge_    
4673           float xe_1 = a_bins.bin_upper_edge_    
4674                                                  
4675           float yy_0 = a_bins.bin_lower_edge_    
4676           float ye_0 = a_bins.bin_upper_edge_    
4677           float yy_1 = a_bins.bin_lower_edge_    
4678           float ye_1 = a_bins.bin_upper_edge_    
4679                                                  
4680           float xx = (xx_0+xe_0)/2;              
4681           float xe = (xx_1+xe_1)/2;              
4682           float yy = (yy_0+ye_0)/2;              
4683           float ye = (yy_1+ye_1)/2;              
4684                                                  
4685           float val1 = a_bins.bin_Sw(ibin,jbi    
4686           float val2 = a_bins.bin_Sw(ibin+1,j    
4687           float val3 = a_bins.bin_Sw(ibin+1,j    
4688           float val4 = a_bins.bin_Sw(ibin,jbi    
4689                                                  
4690           faces[facei] = rep_top_face2D(xx,xe    
4691                                                  
4692           if(first) {                            
4693             first = false;                       
4694             bmin = val1;                         
4695             bmax = val1;                         
4696           } else {                               
4697             bmin = mn<float>(bmin,val1);         
4698             bmax = mx<float>(bmax,val1);         
4699           }                                      
4700                                                  
4701           facei++;                               
4702         }                                        
4703       }}                                         
4704                                                  
4705       //a_bins.bins_Sw_range(bmin,bmax,false)    
4706                                                  
4707       painting_policy painting = a_style.pain    
4708       if((painting==painting_by_value)||(pain    
4709         m_bins_cmaps[a_index] = new by_value_    
4710       } else {                                   
4711         m_bins_cmaps[a_index] = new const_col    
4712       }                                          
4713                                                  
4714       if(painting==painting_by_level) { //gop    
4715         rep_top_face2D_xyz_by_level(a_style,p    
4716                                     faces,a_b    
4717                                     bmin,bmax    
4718         //if(a_style.area_style.value()==area    
4719         //  style gs;                            
4720         //  gs.light_model = light_model_base    
4721         //  gs.line_width = 1;                   
4722         //  rep_top_face2D_xyz_line(gs,faces,    
4723         //}                                      
4724                                                  
4725       } else {                                   
4726                                                  
4727         //bool oneNode = false;                  
4728        //{int nlimit = aGraphicStyle.multiNod    
4729         //if(nlimit!=NoLimit) {                  
4730         //oneNode = ((int)faces.size()>nlimit    
4731         //}}                                     
4732                                                  
4733         //if(oneNode) {                          
4734         //repTopFaces2D_xyz_one(binsNode,aGra    
4735         //} else {                               
4736         bool zlog = a_box_z.m_log;               
4737         if(zlog) m_func_cmaps[a_index]->set_P    
4738         rep_top_face2D_xyz(m_bins_sep,a_style    
4739                                                  
4740         if(a_style.area_style.value()==area_e    
4741           style gs;                              
4742           gs.light_model = light_model_base_c    
4743           gs.line_width = 1;                     
4744           rep_top_face2D_xyz_line(gs,faces,a_    
4745         }                                        
4746                                                  
4747         if(painting==painting_uniform) { //go    
4748                                                  
4749           base_colormap* cmap = new by_value_    
4750           if(cmap->colorn()<=0) {                
4751             //a_out << "tools::sg::update_bin    
4752             delete cmap;                         
4753           } else {                               
4754             //updateBins2D_XY(a_bins,aIndex,*    
4755                                                  
4756             float zmin = a_box_z.m_pos;          
4757             float dz = a_box_z.m_width;          
4758             //bool zlog = a_box_z.m_log;         
4759                                                  
4760             float xmn =  m_x_axis_data.min_va    
4761             float xmx =  m_x_axis_data.max_va    
4762             float ymn =  m_y_axis_data.min_va    
4763             float ymx =  m_y_axis_data.max_va    
4764                                                  
4765             clist_contour list_contour;          
4766             //int nFir = 32;                     
4767             int nFir = 128;                      
4768             list_contour.set_first_grid(nFir,    
4769             //int nSec = 256;                    
4770             int nSec = 512;                      
4771             list_contour.set_secondary_grid(n    
4772                                                  
4773             double limits[4];                    
4774             // User limits :                     
4775             limits[0] = xmn;                     
4776             limits[1] = xmx;                     
4777             limits[2] = ymn;                     
4778             limits[3] = ymx;                     
4779                                                  
4780             SbFunc sbFunc;                       
4781             sbFunc.m_func2D = 0;                 
4782             sbFunc.m_problem = false;            
4783             sbFunc.m_bins2D = &a_bins;           
4784             sbFunc.m_limits_in[0] = limits[0]    
4785             sbFunc.m_limits_in[1] = limits[1]    
4786             sbFunc.m_limits_in[2] = limits[2]    
4787             sbFunc.m_limits_in[3] = limits[3]    
4788                                                  
4789             // Extend the grid to have some b    
4790             int n = nSec - 2 * 10;               
4791             double dx = (limits[1]-limits[0])    
4792             double dy = (limits[3]-limits[2])    
4793             limits[0] = limits[0] - 10 * dx;     
4794             limits[1] = limits[1] + 10 * dx;     
4795             limits[2] = limits[2] - 10 * dy;     
4796             limits[3] = limits[3] + 10 * dy;     
4797                                                  
4798             sbFunc.m_limits[0] = limits[0];      
4799             sbFunc.m_limits[1] = limits[1];      
4800             sbFunc.m_limits[2] = limits[2];      
4801             sbFunc.m_limits[3] = limits[3];      
4802                                                  
4803             list_contour.set_limits(limits);     
4804                                                  
4805             //int zn = numberOfLevels.getValu    
4806             size_t zn = cmap->colorn();          
4807             if(zn<=0) zn = 1;                    
4808                                                  
4809             std::vector<double> zs(zn+1);        
4810             float zmax = zmin + dz;              
4811             double zd = (zmax-zmin)/zn;          
4812             for(size_t zi=0;zi<=zn;zi++) zs[z    
4813             list_contour.set_planes(zs);         
4814                                                  
4815             if(zlog) list_contour.set_field_f    
4816             else     list_contour.set_field_f    
4817                                                  
4818             list_contour.ccontour::generate()    
4819             if(!list_contour.compact_strips (    
4820               a_out << "tools::sg::plotter::u    
4821               delete cmap;                       
4822             } else {                             
4823               delete m_bins_cmaps[a_index];      
4824               m_bins_cmaps[a_index] = cmap; /    
4825                                                  
4826               matrix* transf = new matrix;       
4827               //contour back is at ZZ - 0.01F    
4828               transf->set_translate(0,0,1.02F    
4829               transf->mul_scale(1,1,0.01F); /    
4830         m_bins_sep.add(transf);                  
4831                                                  
4832               style gs;                          
4833               gs.light_model = light_model_ba    
4834               //FIXME gs.transparency = 0.3F;    
4835                                                  
4836               float ZZ = 0.0F;                   
4837                                                  
4838               rep_contour_xy_filled(a_out,gs,    
4839                                     a_box_x,a    
4840             }                                    
4841           }                                      
4842                                                  
4843         } //uniform                              
4844                                                  
4845       }                                          
4846                                                  
4847     } //end if modeling                          
4848                                                  
4849   }                                              
4850                                                  
4851   void update_func2D_xyz(std::ostream& a_out,    
4852                          const func2D& a_func    
4853                          unsigned int a_index    
4854                          const style& a_style    
4855                          const rep_box& a_box    
4856                          const rep_box& a_box    
4857                          const rep_box& a_box    
4858     //a_out << "tools::sg::plotter::update_fu    
4859     if(!a_style.visible) return;                 
4860                                                  
4861     //a_out << "tools::sg::plotter::update_fu    
4862                                                  
4863     float xmn = m_x_axis_data.min_value();       
4864     float xmx = m_x_axis_data.max_value();       
4865                                                  
4866     unsigned int nx = a_func.x_steps();          
4867     nx = !nx?20:nx;                              
4868                                                  
4869     float ymn = m_y_axis_data.min_value();       
4870     float ymx = m_y_axis_data.max_value();       
4871                                                  
4872     unsigned int ny = a_func.y_steps();          
4873     ny = !ny?20:ny;                              
4874                                                  
4875     float dfx = (xmx - xmn)/nx;                  
4876     float dfy = (ymx - ymn)/ny;                  
4877                                                  
4878     //printf("debug : nx %d ny %d\n",nx,ny);     
4879                                                  
4880     std::vector<rep_top_face2D> faces(nx*ny);    
4881    {bool problem = false;                        
4882     unsigned int facei = 0;                      
4883     float* vprev = new float[2*nx];              
4884     for(int jbin=ny-1;jbin>=0;jbin--) {          
4885       float o1 = 0;                              
4886       float o4 = 0;                              
4887       for(int ibin=nx-1;ibin>=0;ibin--) {        
4888                                                  
4889         float xx = xmn + ibin * dfx;             
4890         float yy = ymn + jbin * dfy;             
4891         float xe = xx + dfx;                     
4892         float ye = yy + dfy;                     
4893                                                  
4894         // Values at the corner :                
4895         float val1;                              
4896         if(!a_func.value(xx,yy,val1)) problem    
4897         float val2;                              
4898         if(ibin==int(nx-1)) {                    
4899           if(!a_func.value(xe,yy,val2)) probl    
4900         } else {                                 
4901           val2 = o1;                             
4902         }                                        
4903         float val3,val4;                         
4904         if(jbin==int(ny-1)) {                    
4905           if(ibin==int(nx-1)) {                  
4906             if(!a_func.value(xe,ye,val3)) pro    
4907           } else {                               
4908             val3 = o4;                           
4909           }                                      
4910           if(!a_func.value(xx,ye,val4)) probl    
4911         } else {                                 
4912           val3 = vprev[2*ibin+1];                
4913           val4 = vprev[2*ibin];                  
4914         }                                        
4915         //printf("debug : %d %d : %g %g %g %g    
4916         //   ibin,jbin,                          
4917         //   val1,val2,val3,val4);               
4918         vprev[2*ibin] = val1;                    
4919         vprev[2*ibin+1] = val2;                  
4920         o4 = val4;                               
4921         o1 = val1;                               
4922                                                  
4923         faces[facei] = rep_top_face2D(xx,xe,y    
4924         facei++;                                 
4925       }                                          
4926     }                                            
4927     delete [] vprev;                             
4928     if(problem) {                                
4929       a_out << "tools::sg::plotter::update_fu    
4930             << " problem when getting some fu    
4931             << std::endl;                        
4932     }}                                           
4933                                                  
4934     painting_policy painting = a_style.painti    
4935                                                  
4936     if(painting==painting_by_value) {            
4937       m_func_cmaps[a_index] = new by_value_co    
4938                                                  
4939     } else if( (painting==painting_grey_scale    
4940                (painting==painting_grey_scale    
4941                (painting==painting_violet_to_    
4942       float vmin = faces[0].m_v1;                
4943       float vmax = faces[0].m_v1;                
4944       size_t number = faces.size();              
4945       for(size_t index=0;index<number;index++    
4946         float vmean  = faces[index].m_v1;        
4947         vmean += faces[index].m_v2;              
4948         vmean += faces[index].m_v3;              
4949         vmean += faces[index].m_v4;              
4950         vmean /= 4.0f;                           
4951                                                  
4952         vmin = mn<float>(vmin,vmean);            
4953         vmax = mx<float>(vmax,vmean);            
4954                                                  
4955         faces[index].m_ratio = vmean;            
4956       }                                          
4957                                                  
4958      {float dbins = vmax-vmin;                   
4959       if(dbins!=0.0F) {                          
4960         for(size_t index=0;index<number;index    
4961           faces[index].m_ratio = (faces[index    
4962         }                                        
4963       }}                                         
4964                                                  
4965       if(painting==painting_grey_scale) {        
4966         m_func_cmaps[a_index] = new grey_scal    
4967       } else if(painting==painting_grey_scale    
4968         m_func_cmaps[a_index] = new grey_scal    
4969       } else if(painting==painting_violet_to_    
4970         m_func_cmaps[a_index] = new violet_to    
4971       }                                          
4972                                                  
4973     } else {                                     
4974       m_func_cmaps[a_index] = new const_color    
4975     }                                            
4976                                                  
4977   // bool oneNode = false;                       
4978   //{int nlimit = a_data_style.multiNodeLimit    
4979   // if(nlimit!=NoLimit) {                       
4980   //   oneNode = ((int)faces.size()>nlimit?tr    
4981   //}}                                           
4982                                                  
4983   //char sid[128];                               
4984   //::sprintf(sid,"SbFunction2D/0x%lx",(unsig    
4985                                                  
4986   //if(oneNode) {                                
4987   //  repTopFaces2D_xyz_one(functionNode,a_da    
4988   //                        faces,a_box_x,a_b    
4989   //} else                                       
4990     {                                            
4991       bool zlog = a_box_z.m_log;                 
4992       if(zlog) m_func_cmaps[a_index]->set_PAW    
4993       rep_top_face2D_xyz(m_func_sep,a_style,*    
4994     }                                            
4995                                                  
4996     float xmin = a_box_x.m_pos;                  
4997     float dx = a_box_x.m_width;                  
4998     bool xlog = a_box_x.m_log;                   
4999                                                  
5000     float ymin = a_box_y.m_pos;                  
5001     float dy = a_box_y.m_width;                  
5002     bool ylog = a_box_y.m_log;                   
5003                                                  
5004     float zmin = a_box_z.m_pos;                  
5005     float dz = a_box_z.m_width;                  
5006     bool zlog = a_box_z.m_log;                   
5007                                                  
5008    if(func2D_borders_visible.value()) {          
5009    // border X (Y=0)                             
5010                                                  
5011    {separator* sep = new separator;              
5012    {normal* nm = new normal;                     
5013     nm->vec = vec3f(0,-1,0);                     
5014     sep->add(nm);}                               
5015    {rgba* mat = new rgba();                      
5016     mat->color = colorf(0.6f,0.2f,0.2f); //br    
5017     sep->add(mat);}                              
5018                                                  
5019     vertices* vtxs = new vertices;               
5020     vtxs->mode = gl::triangle_fan();             
5021     sep->add(vtxs);                              
5022                                                  
5023     bool empty = true;                           
5024     bool problem = false;                        
5025                                                  
5026    {float xx = xmn;                              
5027     float yy = ymn;                              
5028     xx = verify_log(xx,xmin,dx,xlog);            
5029     yy = verify_log(yy,ymin,dy,ylog);            
5030     vtxs->add(xx,yy,0);}                         
5031                                                  
5032    {float xx = xmx;                              
5033     float yy = ymn;                              
5034     xx = verify_log(xx,xmin,dx,xlog);            
5035     yy = verify_log(yy,ymin,dy,ylog);            
5036     vtxs->add(xx,yy,0);}                         
5037                                                  
5038    {float val;                                   
5039    {if(!a_func.value(xmx,ymn,val)) problem =     
5040     val = verify_log(val,zmin,dz,zlog);          
5041     if(val<0) val = 0;                           
5042     if(val>1) val = 1;}                          
5043    {float xx = xmx;                              
5044     float yy = ymn;                              
5045     xx = verify_log(xx,xmin,dx,xlog);            
5046     yy = verify_log(yy,ymin,dy,ylog);            
5047     vtxs->add(xx,yy,val);}}                      
5048                                                  
5049     for(int ibin=nx-1;ibin>=0;ibin--) {          
5050                                                  
5051       float xx = xmn + ibin * dfx;               
5052       //float xe = xx + dfx;                     
5053       float yy = ymn;                            
5054                                                  
5055       float val;                                 
5056      {if(!a_func.value(xx,yy,val)) problem =     
5057       val = verify_log(val,zmin,dz,zlog);        
5058       if(val<0) val = 0;                         
5059       if(val>1) val = 1;}                        
5060                                                  
5061       xx = verify_log(xx,xmin,dx,xlog);          
5062       yy = verify_log(yy,ymin,dy,ylog);          
5063                                                  
5064       if((xx>=0)&&(xx<=1) && (yy>=0)&&(yy<=1)    
5065                                                  
5066         vtxs->add(xx,yy,val);                    
5067                                                  
5068         empty = false;                           
5069       }                                          
5070     }                                            
5071     if(empty) {                                  
5072       delete sep;                                
5073     } else {                                     
5074       m_func_sep.add(sep);                       
5075     }                                            
5076     if(problem) {                                
5077       a_out << "tools::sg::plotter::update_fu    
5078             << " problem when getting some fu    
5079             << std::endl;                        
5080     }}                                           
5081                                                  
5082     // border Y (X=0)                            
5083    {separator* sep = new separator;              
5084    {normal* nm = new normal;                     
5085     nm->vec = vec3f(-1,0,0);                     
5086     sep->add(nm);}                               
5087    {rgba* mat = new rgba();                      
5088     mat->color = colorf(0.6f,0.2f,0.2f); //br    
5089     sep->add(mat);}                              
5090                                                  
5091     vertices* vtxs = new vertices;               
5092     vtxs->mode = gl::triangle_fan();             
5093     sep->add(vtxs);                              
5094                                                  
5095    {float xx = xmn;                              
5096     float yy = ymx;                              
5097     xx = verify_log(xx,xmin,dx,xlog);            
5098     yy = verify_log(yy,ymin,dy,ylog);            
5099     vtxs->add(xx,yy,0);}                         
5100                                                  
5101    {float xx = xmn;                              
5102     float yy = ymn;                              
5103     xx = verify_log(xx,xmin,dx,xlog);            
5104     yy = verify_log(yy,ymin,dy,ylog);            
5105     vtxs->add(xx,yy,0);}                         
5106                                                  
5107     bool empty = true;                           
5108     bool problem = false;                        
5109                                                  
5110     for(unsigned int jbin=0;jbin<ny;jbin++) {    
5111                                                  
5112       float xx = xmn;                            
5113       float yy = ymn + jbin * dfy;               
5114                                                  
5115       float val;                                 
5116      {if(!a_func.value(xx,yy,val)) problem =     
5117       val = verify_log(val,zmin,dz,zlog);        
5118       if(val<0) val = 0;                         
5119       if(val>1) val = 1;}                        
5120                                                  
5121       xx = verify_log(xx,xmin,dx,xlog);          
5122       yy = verify_log(yy,ymin,dy,ylog);          
5123                                                  
5124       if((xx>=0)&&(xx<=1)   &&                   
5125          (yy>=0)&&(yy<=1)   ){                   
5126                                                  
5127         vtxs->add(xx,yy,val);                    
5128                                                  
5129         empty = false;                           
5130                                                  
5131       }                                          
5132     }                                            
5133                                                  
5134    {float val;                                   
5135    {if(!a_func.value(xmn,ymx,val)) problem =     
5136     val = verify_log(val,zmin,dz,zlog);          
5137     if(val<0) val = 0;                           
5138     if(val>1) val = 1;}                          
5139    {float xx = xmn;                              
5140     float yy = ymx;                              
5141     xx = verify_log(xx,xmin,dx,xlog);            
5142     yy = verify_log(yy,ymin,dy,ylog);            
5143     vtxs->add(xx,yy,val);}}                      
5144     if(empty) {                                  
5145       delete sep;                                
5146     } else {                                     
5147       m_func_sep.add(sep);                       
5148     }                                            
5149     if(problem) {                                
5150       a_out << "tools::sg::plotter::update_fu    
5151             << " problem when getting some fu    
5152             << std::endl;                        
5153     }}                                           
5154                                                  
5155                                                  
5156     } //func2D_borders_visible                   
5157                                                  
5158   }                                              
5159                                                  
5160   void update_title(){                           
5161     if(!m_title_style.visible) return;           
5162                                                  
5163     if(m_shape==xyz) return;                     
5164                                                  
5165     if(title.value().empty()) return;            
5166                                                  
5167     // Use the XY layout transform to positio    
5168     // (Else we would have to compensate the     
5169     //  in order to bring the title at the ri    
5170     //  without rotation).                       
5171     //titleNode->addChild(layout);               
5172                                                  
5173     rgba* mat = new rgba();                      
5174     mat->color = m_title_style.color;            
5175     m_title_sep.add(mat);                        
5176                                                  
5177     float text_size = title_height * m_title_    
5178                                                  
5179     std::string font = m_title_style.font.val    
5180                                                  
5181     if(font==font_hershey()) {                   
5182       draw_style* ds = new draw_style;           
5183       ds->style = draw_lines;                    
5184       ds->line_pattern = m_title_style.line_p    
5185       ds->line_width = m_title_style.line_wid    
5186       m_title_sep.add(ds);                       
5187     } else {                                     
5188       m_title_sep.add(new normal);               
5189     }                                            
5190                                                  
5191     float XSIZ = width;                          
5192     float XMGL = left_margin;                    
5193     float XMGR = right_margin;                   
5194     float wData = XSIZ-XMGL-XMGR;                
5195                                                  
5196     float YSIZ = height;                         
5197     float YMGL = bottom_margin;                  
5198     float YMGU = top_margin;                     
5199     float hData = YSIZ-YMGL-YMGU;                
5200                                                  
5201     float xx = wData/2;                          
5202     float yy = hData + title_to_axis;            
5203                                                  
5204     float zz = _zinfos();                        
5205                                                  
5206     vjust vjust = bottom;                        
5207     if(!title_up) {                              
5208       yy = -title_to_axis;                       
5209       vjust = top;                               
5210     }                                            
5211                                                  
5212     //::printf("debug : %lu : %g %g : text_si    
5213     //  this,xx,yy,text_size,title.value().c_    
5214                                                  
5215     vec3f TX(1,0,0);                             
5216     vec3f TY(0,1,0);                             
5217     add_string(m_title_sep,                      
5218                        font,                     
5219                        m_title_style.font_mod    
5220                        m_title_style.encoding    
5221                        m_title_style.smoothin    
5222                        title.value(),            
5223                        xx,yy,zz, //vec           
5224                        TX,TY,                    
5225                        text_size,                
5226                        title_hjust,vjust,        
5227                        m_ttf);                   
5228   }                                              
5229                                                  
5230   void update_title_box(){                       
5231     if(!m_title_box_style.visible) return;       
5232     if(title.value().empty()) return;            
5233                                                  
5234     // same plane than infos, then in front o    
5235     float zz = _zinfos();                        
5236     if(m_shape==xyz) zz = depth*0.5f;            
5237                                                  
5238     float wbox = width*title_box_width;          
5239     float hbox = height*title_box_height;        
5240                                                  
5241     float xmargin = width*title_box_x_margin;    
5242     float ymargin = height*title_box_y_margin    
5243                                                  
5244     matrix* _tsf = new matrix;                   
5245    {float xx = -width*0.5f+wbox*0.5f+xmargin;    
5246     float yy = height*0.5f-hbox*0.5F-ymargin;    
5247     _tsf->set_translate(xx,yy,zz);               
5248     _tsf->mul_scale(1,1,_zscale_text());}        
5249     m_title_box_sep.add(_tsf);                   
5250                                                  
5251     sg::text* title_box = new sg::text(m_ttf)    
5252     title_box->width = wbox;                     
5253     title_box->height = hbox;                    
5254     title_box->back_area::color = m_title_box    
5255     title_box->color = m_title_box_style.colo    
5256     title_box->font = m_title_box_style.font;    
5257     title_box->font_modeling = m_title_box_st    
5258     title_box->encoding = m_title_box_style.e    
5259     title_box->line_width = m_title_box_style    
5260   //title_box->front_face = m_title_box_style    
5261     title_box->confine = true;                   
5262     title_box->back_area::shadow = m_title_bo    
5263                                                  
5264     title_box->strings.add(title.value());       
5265                                                  
5266     m_title_box_sep.add(title_box);              
5267   }                                              
5268                                                  
5269   void get_infos(std::string& a_s){              
5270     // return "[<key>\n<value>]\n".              
5271     a_s.clear();                                 
5272     const std::string&  opts = infos_what.val    
5273    {bins1D* b1;                                  
5274     bins2D* b2;                                  
5275     func1D* f1;                                  
5276     func2D* f2;                                  
5277     points2D* p2;                                
5278     points3D* p3;                                
5279     if(first_bins(b1,b2)) {                      
5280       if(b1) {                                   
5281         b1->infos(opts,a_s);                     
5282       } else if(b2) {                            
5283         b2->infos(opts,a_s);                     
5284       }                                          
5285     } else if(first_points(p2,p3)) {             
5286       if(p2) {                                   
5287         p2->infos(opts,a_s);                     
5288       } else if(p3) {                            
5289         p3->infos(opts,a_s);                     
5290       }                                          
5291     } else if(first_func(f1,f2)) {               
5292       if(f1) {                                   
5293         f1->infos(opts,a_s);                     
5294       } if(f2) {                                 
5295         f2->infos(opts,a_s);                     
5296       }                                          
5297     }}                                           
5298     //look for fit infos :                       
5299    {tools_vforcit(plottable*,m_plottables,it)    
5300       plottable* object = *it;                   
5301       if(!object) continue;                      
5302       if(object->cast(s_tools_sg_fit2plot()))    
5303         if(a_s.size()) a_s += "\n";              
5304         std::string _s;                          
5305         object->infos(opts,_s);                  
5306         a_s += _s;                               
5307       }                                          
5308     }}                                           
5309   }                                              
5310                                                  
5311   matrix* get_infos_matrix() {                   
5312     if(m_infos_sep.empty()) return 0;            
5313     return (matrix*)m_infos_sep[0]; //WARNING    
5314   }                                              
5315   sg::infos_box* get_infos_node() {              
5316     if(m_infos_sep.empty()) return 0;            
5317     return (sg::infos_box*)m_infos_sep[1]; //    
5318   }                                              
5319                                                  
5320   void update_infos(std::ostream&){              
5321     if(!m_infos_style.visible) return;           
5322                                                  
5323     std::string sinfos;                          
5324     get_infos(sinfos);                           
5325     std::vector<std::string> ws;                 
5326     words(sinfos,"\n",false,ws);                 
5327     size_t linen = ws.size()/2;                  
5328                                                  
5329     float zz = _zinfos(); //xy                   
5330     if(m_shape==xyz) zz = depth*0.5f;            
5331                                                  
5332     float _height = height;                      
5333     if(m_shape==xyz) _height = depth;            
5334                                                  
5335     float wbox = width*infos_width;              
5336                                                  
5337     matrix* infos_title_tsf = 0;                 
5338     sg::text* infos_title_text = 0;              
5339                                                  
5340     std::string infos_title;                     
5341     if(m_infos_style.modeling==infos_modeling    
5342       std::vector<std::string> _ws; //to rm "    
5343       for(size_t index=0;index<linen;index++)    
5344         const std::string& name = ws[2*index]    
5345         const std::string& value = ws[2*index    
5346         if(name=="Name") {                       
5347           infos_title = value;                   
5348         } else {                                 
5349     _ws.push_back(name);                         
5350     _ws.push_back(value);                        
5351   }                                              
5352       }                                          
5353       ws = std::move(_ws);                       
5354       linen = ws.size()/2;                       
5355     }                                            
5356                                                  
5357     if(infos_title.size()) {                     
5358       float hbox = _height*0.05f;                
5359                                                  
5360       matrix* _tsf = new matrix;                 
5361      {float xx = width*0.5f  - wbox*0.5f -  w    
5362       float yy = _height*0.5f - hbox*0.5F - _    
5363       _tsf->mul_translate(xx,yy,zz);             
5364       _tsf->mul_scale(1,1,_zscale_text());}      
5365       //in case of having infos, the tsf is r    
5366       m_infos_title_sep.add(_tsf);               
5367                                                  
5368       // same params as title_box.               
5369       sg::text* txt = new sg::text(m_ttf);       
5370       txt->width = wbox;                         
5371       txt->height = hbox;                        
5372       txt->back_area::color = m_infos_style.b    
5373       txt->color = m_infos_style.color;          
5374       txt->font = m_infos_style.font;            
5375       txt->font_modeling = m_infos_style.font    
5376       txt->encoding = m_infos_style.encoding;    
5377       txt->line_width = m_infos_style.line_wi    
5378     //txt->front_face = m_infos_style.front_f    
5379       txt->confine = true;                       
5380       txt->back_area::shadow = m_infos_style.    
5381                                                  
5382       txt->hjust = center;                       
5383                                                  
5384       txt->strings.add(infos_title);             
5385       m_infos_title_sep.add(txt);                
5386                                                  
5387       // to refine height below.                 
5388       infos_title_tsf = _tsf;                    
5389       infos_title_text = txt;                    
5390     }                                            
5391                                                  
5392     if(sinfos.empty()) return;                   
5393     if(!linen) return;                           
5394                                                  
5395     matrix* _tsf = new matrix;                   
5396     m_infos_sep.add(_tsf);                       
5397                                                  
5398     sg::infos_box* infos = new sg::infos_box(    
5399     infos->width = wbox;                         
5400     //infos->height is an output field, see b    
5401     infos->back_area::color = m_infos_style.b    
5402     infos->color = m_infos_style.color;          
5403     infos->font = m_infos_style.font;            
5404     infos->encoding = m_infos_style.encoding;    
5405     infos->font_modeling = m_infos_style.font    
5406     infos->line_width = m_infos_style.line_wi    
5407   //infos->front_face = m_infos_style.front_f    
5408     infos->back_area::shadow = m_infos_style.    
5409     infos->border_line_width = m_infos_style.    
5410                                                  
5411    {for(size_t index=0;index<linen;index++) {    
5412       const std::string& name = ws[2*index];     
5413       const std::string& value = ws[2*index+1    
5414       infos->lstrings.add(name);                 
5415       infos->rstrings.add(value);                
5416       //a_out << "debug : name " << sout(name    
5417       //      << " value " << sout(value) <<     
5418     }}                                           
5419                                                  
5420     // enforce an infos::update_sg to get inf    
5421     // to place the box.                         
5422     infos->update_sg();                          
5423                                                  
5424     // if any, set infos_title height :          
5425     float title_hbox = 0;                        
5426     if(infos_title_tsf && infos_title_text) {    
5427       title_hbox = infos->height/linen;          
5428       float xx = width*0.5f  - wbox*0.5f         
5429       float yy = _height*0.5f - title_hbox*0.    
5430       infos_title_tsf->set_identity();           
5431       infos_title_tsf->mul_translate(xx,yy,zz    
5432       infos_title_tsf->mul_scale(1,1,_zscale_    
5433                                                  
5434       infos_title_text->height = title_hbox;     
5435     }                                            
5436                                                  
5437     float hbox = infos->height;                  
5438    {float xx = width*0.5f  -wbox*0.5f -width*    
5439     float yy = _height*0.5f -hbox*0.5F - _hei    
5440     yy -= title_hbox;                            
5441     _tsf->set_translate(xx,yy,zz);               
5442     _tsf->mul_scale(1,1,_zscale_text());}        
5443                                                  
5444     m_infos_sep.add(infos);                      
5445   }                                              
5446                                                  
5447 /*                                               
5448   void update_legends(std::ostream& a_out){      
5449     if(!legends_visible) return;                 
5450                                                  
5451     if(m_legend_strings.empty()) return;         
5452     if(m_legend_colors.size()!=m_legend_strin    
5453                                                  
5454     //m_legend_sep contains :                    
5455     //   one global mtx                          
5456     //   one sep per legend.                     
5457                                                  
5458    {matrix* _tsf = new matrix;                   
5459     m_legend_sep.add(_tsf);                      
5460                                                  
5461     float zz = _zinfos();                        
5462                                                  
5463     //set legends layout :                       
5464     if(legends_attached_to_infos) {              
5465       _tsf->set_translate(0,0,zz);               
5466     } else {                                     
5467       if(legends_origin_unit==unit_axis) {       
5468                                                  
5469         // legends_origin is in axes coordina    
5470         float x = legends_origin.value()[0];     
5471         float y = legends_origin.value()[1];     
5472                                                  
5473         vec3f pos;                               
5474         if(!axis_2_vp(vec3f(x,y,0),pos)) {       
5475           //SoDebugError::postInfo("SoPlotter    
5476         //                 "failed for %g %g.    
5477         } else {                                 
5478           //pos is in NDC of [0,width][0,heig    
5479                                                  
5480           float xx = width  * (-0.5f+pos[0]);    
5481           float yy = height * (-0.5f+pos[1]);    
5482                                                  
5483           _tsf->set_translate(xx,yy,zz);         
5484                                                  
5485         }                                        
5486                                                  
5487       } else { //unit_percent                    
5488         // legends_origin is                     
5489         // the UR corner of legend region rel    
5490         // to UR of plotter region.              
5491         float xur = legends_origin.value()[0]    
5492         float yur = legends_origin.value()[1]    
5493                                                  
5494         vec2f ur(1-xur,1-yur);                   
5495                                                  
5496         float w = legends_size.value()[0];       
5497         float h = legends_size.value()[1];       
5498                                                  
5499         float x = ur[0]-w;                       
5500         float y = ur[1]-h;                       
5501                                                  
5502         float xx = width  * (x-0.5f);            
5503         float yy = height * (y-0.5f);            
5504                                                  
5505         _tsf->set_translate(xx,yy,zz);           
5506                                                  
5507       }                                          
5508     }}                                           
5509                                                  
5510     size_t number = m_legend_strings.size();     
5511     for(size_t index=0;index<number;index++)     
5512                                                  
5513       separator* sep = new separator;            
5514       m_legend_sep.add(sep);                     
5515                                                  
5516       matrix* _tsf = new matrix;                 
5517       sep->add(_tsf);                            
5518                                                  
5519       //sg::text* text = new sg::text;           
5520       legend* text = new legend(m_ttf);          
5521       //text->confine = true;                    
5522       text->strings.add(m_legend_strings[inde    
5523       sep->add(text);                            
5524       text->color = m_legend_colors[index];      
5525                                                  
5526       if(legends_attached_to_infos) {            
5527         // global tsf should be the identity.    
5528                                                  
5529         // legend box geometry and placement     
5530         // to the infos box placement and geo    
5531         if(m_infos_style.visible) {              
5532           sg::infos_box* inode = get_infos_no    
5533           if(!inode) {delete sep;return;}        
5534           matrix* imtx = get_infos_matrix();     
5535           if(!imtx) {delete sep;return;}         
5536                                                  
5537           float wbox = inode->width;             
5538           float hbox = inode->height/number;     
5539                                                  
5540           text->width = wbox;                    
5541           text->height = hbox;                   
5542                                                  
5543           _tsf->mtx = imtx->mtx;                 
5544                                                  
5545           float xx = width*0.5f-wbox*0.5f;       
5546                                                  
5547           float yy = height*0.5f-inode->heigh    
5548                                                  
5549           _tsf->set_translate(xx,yy,0);          
5550                                                  
5551         } else {                                 
5552           float wbox = width  * legends_size.    
5553           float hbox = (height * legends_size    
5554                                                  
5555           text->width = wbox;                    
5556           text->height = hbox;                   
5557                                                  
5558           float xx = width*0.5f-wbox*0.5f - w    
5559           float yy = height*0.5f-hbox*0.5F -     
5560                                                  
5561           yy -= hbox*index;                      
5562                                                  
5563           _tsf->set_translate(xx,yy,0);          
5564         }                                        
5565                                                  
5566       } else {                                   
5567                                                  
5568         //legends_size is in NDC of [0,width]    
5569         float w = width  * legends_size.value    
5570         float h = height * legends_size.value    
5571                                                  
5572         text->width = w;                         
5573         text->height = h/number;                 
5574                                                  
5575         float xx = w * 0.5f;                     
5576         float yy = text->height * 0.5f;          
5577         yy += text->height*(number-index-1);     
5578                                                  
5579         _tsf->set_translate(xx,yy,0);            
5580                                                  
5581       }                                          
5582       _tsf->mul_scale(1,1,_zscale_text());       
5583                                                  
5584     }                                            
5585   }                                              
5586 */                                               
5587                                                  
5588   void update_legends(std::ostream& a_out) {     
5589     //::printf("debug : update_legends : begi    
5590     if(m_legend_strings.empty()) return;         
5591     if(m_legend_strings.size()!=legends_origi    
5592     if(legends_size.size()!=legends_origin.si    
5593     if(legends_origin_unit.size()!=legends_or    
5594                                                  
5595     float zz = _zinfos();                        
5596                                                  
5597    {matrix* _tsf = new matrix;                   
5598     _tsf->mul_scale(1,1,_zscale_text());         
5599     m_legend_sep.add(_tsf);}                     
5600                                                  
5601     size_t number = m_legend_strings.size();     
5602     //::printf("debug : update_legends : 001     
5603     for(size_t index=0;index<number;index++)     
5604       const style& _style = legend_style(inde    
5605       if(!_style.visible) continue;              
5606       //::printf("debug : update_legends : 00    
5607                                                  
5608       separator* sep = new separator;            
5609       m_legend_sep.add(sep);                     
5610                                                  
5611       matrix* _tsf = new matrix;                 
5612       sep->add(_tsf);                            
5613                                                  
5614       //sg::text* text = new sg::text;           
5615       legend* text = new legend(m_ttf);          
5616       text->font = _style.font;                  
5617       text->font_modeling = _style.font_model    
5618       text->encoding = _style.encoding;          
5619       text->strings.add(m_legend_strings[inde    
5620       text->color = _style.color;                
5621       text->marker_style = _style.marker_styl    
5622       text->marker_size = _style.marker_size;    
5623       text->back_visible = false;                
5624       sep->add(text);                            
5625                                                  
5626       //legends_size is in NDC of [0,width][0    
5627       float w = width  * legends_size[index][    
5628       float h = height * legends_size[index][    
5629       text->width = w;                           
5630       text->height = h;                          
5631                                                  
5632       float xxx = w * 0.5f;                      
5633       float yyy = h * 0.5f;                      
5634                                                  
5635       if(legends_origin_unit[index]==unit_axi    
5636                                                  
5637         // legends_origin is in axes coordina    
5638         float x = legends_origin[index][0];      
5639         float y = legends_origin[index][1];      
5640                                                  
5641         vec3f pos;                               
5642         if(!axis_2_vp(vec3f(x,y,0),pos)) {       
5643           a_out << "tools::sg::plotter::updat    
5644         } else {                                 
5645           //pos is in NDC of [0,width][0,heig    
5646           float xx = width  * (-0.5f+pos[0]);    
5647           float yy = height * (-0.5f+pos[1]);    
5648           _tsf->set_translate(xx,yy,zz);         
5649         }                                        
5650                                                  
5651       } else { //unit_percent                    
5652         // legends_origin is                     
5653         // the UR corner of legend region rel    
5654         // to UR of plotter region.              
5655         float xur = legends_origin[index][0];    
5656         float yur = legends_origin[index][1];    
5657                                                  
5658         vec2f ur(1-xur,1-yur);                   
5659                                                  
5660         float x =  width*ur[0] - w;              
5661         float y = height*ur[1] - h;              
5662                                                  
5663         float xx =  -width*0.5f + x;             
5664         float yy = -height*0.5f + y;             
5665                                                  
5666         _tsf->set_translate(xx,yy,zz);           
5667       }                                          
5668                                                  
5669       _tsf->mul_translate(xxx,yyy,0); //appli    
5670                                                  
5671     }                                            
5672   }                                              
5673                                                  
5674   void update_background(){                      
5675     m_background_sep.clear();                    
5676     if(!m_background_style.visible) return;      
5677                                                  
5678     matrix* _tsf = new matrix;                   
5679     m_background_sep.add(_tsf);                  
5680                                                  
5681     float w2 = width*0.5F;                       
5682     float h2 = height*0.5F;                      
5683                                                  
5684     float zz = 0; //in xy, then before first     
5685     if(m_shape==xyz) zz = -depth*0.5f;           
5686                                                  
5687    {rgba* mat = new rgba();                      
5688     if(m_background_style.line_width) { //the    
5689       mat->color = m_background_style.color;     
5690     } else {                                     
5691       mat->color = m_background_style.back_co    
5692     }                                            
5693     m_background_sep.add(mat);                   
5694                                                  
5695     m_background_sep.add(new normal);            
5696                                                  
5697     vertices* vtxs = new vertices;               
5698     vtxs->mode = gl::triangle_fan();             
5699     m_background_sep.add(vtxs);                  
5700                                                  
5701     vtxs->add(-w2,-h2,zz);                       
5702     vtxs->add( w2,-h2,zz);                       
5703     vtxs->add( w2, h2,zz);                       
5704     vtxs->add(-w2, h2,zz);}                      
5705                                                  
5706     if(m_background_style.line_width) { //bor    
5707       //WARNING : line_width should be in per    
5708                                                  
5709       //NOTE : border is done by drawing a fr    
5710                                                  
5711       rgba* mat = new rgba();                    
5712       mat->color = m_background_style.back_co    
5713       m_background_sep.add(mat);                 
5714                                                  
5715       vertices* vtxs = new vertices;             
5716       vtxs->mode = gl::triangle_fan();           
5717       m_background_sep.add(vtxs);                
5718                                                  
5719       //float d = width*0.005;                   
5720       float d = width*m_background_style.line    
5721                                                  
5722       zz += _zoffset()*0.5f;                     
5723                                                  
5724       vtxs->add(-w2+d,-h2+d,zz);                 
5725       vtxs->add( w2-d,-h2+d,zz);                 
5726       vtxs->add( w2-d, h2-d,zz);                 
5727       vtxs->add(-w2+d, h2-d,zz);                 
5728     }                                            
5729                                                  
5730   }                                              
5731                                                  
5732   void update_inner_frame_XY(){                  
5733     if(!m_inner_frame_style.visible) return;     
5734                                                  
5735     rgba* mat = new rgba();                      
5736     mat->color = m_inner_frame_style.color;      
5737     m_inner_frame_sep.add(mat);                  
5738                                                  
5739     draw_style* ds = new draw_style;             
5740     ds->style = draw_lines;                      
5741     ds->line_pattern = m_inner_frame_style.li    
5742     ds->line_width = m_inner_frame_style.line    
5743     m_inner_frame_sep.add(ds);                   
5744                                                  
5745     vertices* vtxs = new vertices;               
5746     vtxs->mode = gl::line_strip();               
5747     m_inner_frame_sep.add(vtxs);                 
5748                                                  
5749     float zz = _zgrid();                         
5750                                                  
5751     vtxs->add(0,0,zz);                           
5752     vtxs->add(1,0,zz);                           
5753     vtxs->add(1,1,zz);                           
5754     vtxs->add(0,1,zz);                           
5755     vtxs->add(0,0,zz);                           
5756   }                                              
5757                                                  
5758   void update_inner_frame_XYZ(){                 
5759     if(!m_inner_frame_style.visible) return;     
5760                                                  
5761     rgba* mat = new rgba();                      
5762     mat->color = m_inner_frame_style.color;      
5763     m_inner_frame_sep.add(mat);                  
5764                                                  
5765     draw_style* ds = new draw_style;             
5766     ds->style = draw_lines;                      
5767     ds->line_pattern = m_inner_frame_style.li    
5768     ds->line_width = m_inner_frame_style.line    
5769     m_inner_frame_sep.add(ds);                   
5770                                                  
5771     vertices* ls = new vertices;                 
5772     ls->mode = gl::lines();                      
5773     m_inner_frame_sep.add(ls);                   
5774                                                  
5775     // z bottom :                                
5776     ls->add(0,0,0);ls->add(1,0,0);               
5777     ls->add(1,0,0);ls->add(1,1,0);               
5778     ls->add(1,1,0);ls->add(0,1,0);               
5779     ls->add(0,1,0);ls->add(0,0,0);               
5780                                                  
5781     // z top :                                   
5782     ls->add(0,0,1);ls->add(1,0,1);               
5783     ls->add(1,0,1);ls->add(1,1,1);               
5784     ls->add(1,1,1);ls->add(0,1,1);               
5785     ls->add(0,1,1);ls->add(0,0,1);               
5786                                                  
5787     // sides along z :                           
5788     ls->add(0,0,0);ls->add(0,0,1);               
5789     ls->add(1,0,0);ls->add(1,0,1);               
5790     ls->add(1,1,0);ls->add(1,1,1);               
5791     ls->add(0,1,0);ls->add(0,1,1);               
5792   }                                              
5793                                                  
5794   void update_grid_XY(){                         
5795     if(!m_grid_style.visible) return;            
5796                                                  
5797     unsigned int number = m_x_axis.tick_numbe    
5798     if(number<=0) return;                        
5799                                                  
5800     bool draw_vertical = true;                   
5801     bool draw_horizontal = true;                 
5802     if(m_grid_style.options.value()=="vertica    
5803     if(m_grid_style.options.value()=="horizon    
5804                                                  
5805     rgba* mat = new rgba();                      
5806     mat->color = m_grid_style.color;             
5807     m_grid_sep.add(mat);                         
5808                                                  
5809     draw_style* ds = new draw_style;             
5810     ds->style = draw_lines;                      
5811     ds->line_pattern = line_solid;               
5812     ds->line_width = m_grid_style.line_width;    
5813     m_grid_sep.add(ds);                          
5814                                                  
5815     float zz = _zgrid();                         
5816                                                  
5817     vertices* vtxs = new vertices;               
5818     vtxs->mode = gl::lines();                    
5819     m_grid_sep.add(vtxs);                        
5820                                                  
5821     std::vector<float>& pts = vtxs->xyzs.valu    
5822                                                  
5823     bool is_solid = m_grid_style.line_pattern    
5824                                                  
5825     if(draw_vertical) {                          
5826       float _width = m_y_axis.width;             
5827       float xx;                                  
5828      {size_t _number = m_x_axis.coords.size()    
5829       if(is_solid) {                             
5830         pts.reserve(_number*6);                  
5831         for(size_t count=0;count<_number;coun    
5832           xx = m_x_axis.coords[count];           
5833           vtxs->add(xx, 0    ,zz);               
5834           vtxs->add(xx, _width,zz);              
5835         }                                        
5836       } else {                                   
5837         pts.reserve(_number*100*6);              
5838         for(size_t count=0;count<_number;coun    
5839           xx = m_x_axis.coords[count];           
5840           vtxs->add_dashed_line(xx,0,zz,xx,_w    
5841         }                                        
5842       }}                                         
5843       if(m_x_axis.is_log) {                      
5844         size_t _number = m_x_axis.sub_coords.    
5845         if(is_solid) {                           
5846           pts.reserve(_number*6);                
5847           for(size_t count=0;count<_number;co    
5848             xx = m_x_axis.sub_coords[count];     
5849             vtxs->add(xx, 0    ,zz);             
5850             vtxs->add(xx,_width,zz);             
5851           }                                      
5852         } else {                                 
5853           pts.reserve(_number*100*6);            
5854           for(size_t count=0;count<_number;co    
5855             xx = m_x_axis.sub_coords[count];     
5856             vtxs->add_dashed_line(xx,0,zz,xx,    
5857           }                                      
5858         }                                        
5859       }                                          
5860     }                                            
5861                                                  
5862     if(draw_horizontal) {                        
5863       float _width = m_x_axis.width;             
5864       float yy;                                  
5865      {size_t _number = m_y_axis.coords.size()    
5866       if(is_solid) {                             
5867         pts.reserve(_number*6);                  
5868         for(size_t count=0;count<_number;coun    
5869           yy = m_y_axis.coords[count];           
5870           vtxs->add(0,yy    ,zz);                
5871           vtxs->add(_width,yy,zz);               
5872         }                                        
5873       } else {                                   
5874         pts.reserve(_number*100*6);              
5875         for(size_t count=0;count<_number;coun    
5876           yy = m_y_axis.coords[count];           
5877           vtxs->add_dashed_line(0,yy,zz,_widt    
5878         }                                        
5879       }}                                         
5880       if(m_y_axis.is_log) {                      
5881         size_t _number = m_y_axis.sub_coords.    
5882         if(is_solid) {                           
5883           pts.reserve(_number*6);                
5884           for(size_t count=0;count<_number;co    
5885             yy = m_y_axis.sub_coords[count];     
5886             vtxs->add(0,yy,    zz);              
5887             vtxs->add(_width,yy,zz);             
5888           }                                      
5889         } else {                                 
5890           pts.reserve(_number*100*6);            
5891           for(size_t count=0;count<_number;co    
5892             yy = m_y_axis.sub_coords[count];     
5893             vtxs->add_dashed_line(0,yy,zz,_wi    
5894           }                                      
5895         }                                        
5896       }                                          
5897     }                                            
5898                                                  
5899   }                                              
5900                                                  
5901   void update_grid_XYZ(){                        
5902     if(!m_grid_style.visible) return;            
5903                                                  
5904     rgba* mat = new rgba();                      
5905     mat->color = m_grid_style.color;             
5906     m_grid_sep.add(mat);                         
5907                                                  
5908     draw_style* ds = new draw_style;             
5909     ds->style = draw_lines;                      
5910     ds->line_pattern = m_grid_style.line_patt    
5911     ds->line_width = m_grid_style.line_width;    
5912     m_grid_sep.add(ds);                          
5913                                                  
5914 /*                                               
5915     vertices* vtxs = new vertices;               
5916     vtxs->mode = gl::line_strip();               
5917     m_grid_sep.add(vtxs);                        
5918                                                  
5919     float z = 0.5F;                              
5920                                                  
5921     vtxs->add(0,0,z);                            
5922     vtxs->add(1,0,z);                            
5923     vtxs->add(1,1,z);                            
5924     vtxs->add(0,1,z);                            
5925     vtxs->add(0,0,z);                            
5926 */                                               
5927 /*                                               
5928   int ntick = m_z_axis.tickNumber;               
5929   if(ntick<=0) return;                           
5930                                                  
5931   SoSeparator* sep = (SoSeparator*)gridSepara    
5932                                                  
5933   sep->addChild(fStyleCache->getMaterial         
5934                (style->color.value(),            
5935                 style->transparency.value()))    
5936                                                  
5937   sep->addChild(getLineStyle(*style));           
5938                                                  
5939   vec3f* points = new vec3f[4 * ntick];          
5940   int pos = 0;                                   
5941   for(int count=0;count<ntick;count++) {         
5942     float xe = m_x_axis.width.value();           
5943     float ye = m_y_axis.width.value();           
5944     float zz = m_z_axis.coords[count];           
5945     LIST_SET(points,pos,0 ,ye,zz);pos++;         
5946     LIST_SET(points,pos,xe,ye,zz);pos++;         
5947     LIST_SET(points,pos,xe,ye,zz);pos++;         
5948     LIST_SET(points,pos,xe,0 ,zz);pos++;         
5949   }                                              
5950   if(pos>0) {                                    
5951     SoCoordinate3* coordinate3 = new SoCoordi    
5952     int32_t pointn = pos;                        
5953     coordinate3->point.setValues(0,pointn,poi    
5954     sep->addChild(coordinate3);                  
5955                                                  
5956     SoLineSet* lineSet = new SoLineSet;          
5957     int segmentn = pointn/2;                     
5958     int32_t* vertices = new int32_t[segmentn]    
5959     for (int count=0;count<segmentn;count++)     
5960     lineSet->numVertices.setValues(0,segmentn    
5961     delete [] vertices;                          
5962     sep->addChild(lineSet);                      
5963   }                                              
5964                                                  
5965   delete [] points;                              
5966 */                                               
5967   }                                              
5968                                                  
5969 protected: //rep                                 
5970   ///////////////////////////////////////////    
5971   // reps xy ////////////////////////////////    
5972   ///////////////////////////////////////////    
5973   void rep_bins1D_xy_top_lines(const style& a    
5974                                const base_col    
5975                                const std::vec    
5976                                const rep_box&    
5977                                const rep_box&    
5978                                float a_zz/*,     
5979                                const std::str    
5980     painting_policy painting = a_style.painti    
5981                                                  
5982     float xmin = a_box_x.m_pos;                  
5983     float dx = a_box_x.m_width;                  
5984     bool xlog = a_box_x.m_log;                   
5985                                                  
5986     float ymin = a_box_y.m_pos;                  
5987     float dy = a_box_y.m_width;                  
5988     bool ylog = a_box_y.m_log;                   
5989                                                  
5990     float y0 = 0;                                
5991     y0 = verify_log(y0,ymin,dy,ylog);            
5992     if(y0<0) y0 = 0;                             
5993     if(y0>1) y0 = 1;                             
5994                                                  
5995     separator* _sep = new separator();           
5996                                                  
5997     draw_style* ds = new draw_style;             
5998     ds->style = draw_lines;                      
5999     ds->line_pattern = a_style.line_pattern;     
6000     ds->line_width = a_style.line_width;         
6001     _sep->add(ds);                               
6002                                                  
6003     bool empty = true;                           
6004     colorf clr;                                  
6005                                                  
6006     float yp = 0;                                
6007     size_t xnbin = a_bins.size();                
6008     for(size_t index=0;index<xnbin;index++) {    
6009       float xx = a_bins[index].m_x_min;          
6010       float xe = a_bins[index].m_x_max;          
6011       float y = a_bins[index].m_val;             
6012                                                  
6013       float val = a_bins[index].m_val;           
6014                                                  
6015       xx = verify_log(xx,xmin,dx,xlog);          
6016       xe = verify_log(xe,xmin,dx,xlog);          
6017       y = verify_log(y,ymin,dy,ylog);            
6018                                                  
6019       // Clipping :                              
6020       if(xe<0) continue;                         
6021       if(xx>1) continue;                         
6022       if(xx<0) xx = 0;                           
6023       if(xe>1) xe = 1;                           
6024       if(y<0) y = 0;                             
6025       if(y>1) y = 1;                             
6026                                                  
6027       separator* sep = new separator();          
6028       _sep->add(sep);                            
6029                                                  
6030     /*uuu                                        
6031       a_bins[index].fSeparator = sep;            
6032                                                  
6033      {char s[128];                               
6034       //::sprintf(s,"%d",index);                 
6035       sep->setInfos(s);                          
6036       //::sprintf(s,"/0x%lx",(unsigned long)s    
6037       std::string sid = aID;                     
6038       sid += std::string(s);                     
6039       sep->setString(sid);}*/                    
6040                                                  
6041       if(painting==painting_by_value) {          
6042         a_cmap.get_color(val,clr);               
6043       } else if( (painting==painting_grey_sca    
6044                  (painting==painting_grey_sca    
6045                  (painting==painting_violet_t    
6046         a_cmap.get_color(a_bins[index].m_rati    
6047       } else {                                   
6048         clr = a_style.color;                     
6049       }                                          
6050                                                  
6051       rgba* mat = new rgba();                    
6052       mat->color = clr;                          
6053       sep->add(mat);                             
6054                                                  
6055       vertices* vtxs = new vertices;             
6056       vtxs->mode = gl::line_strip();             
6057       sep->add(vtxs);                            
6058                                                  
6059       vtxs->add(xx,yp,a_zz);                     
6060       vtxs->add(xx,y,a_zz);                      
6061       vtxs->add(xe,y,a_zz);                      
6062       if(index==xnbin-1){                        
6063         vtxs->add(xe,y0,a_zz);                   
6064       }                                          
6065                                                  
6066       empty = false;                             
6067       yp = y;                                    
6068     }                                            
6069                                                  
6070     if(empty) {                                  
6071       delete _sep;                               
6072     } else {                                     
6073       m_bins_sep.add(_sep);                      
6074     }                                            
6075   }                                              
6076                                                  
6077   void rep_bins1D_xy_points(std::ostream& a_o    
6078                             const style& a_st    
6079                             const base_colorm    
6080                             const std::vector    
6081                             const rep_box& a_    
6082                             const rep_box& a_    
6083                             float a_zz/*,        
6084                             const std::string    
6085     //::printf("debug : tools::sg::plotter::r    
6086     float xmin = a_box_x.m_pos;                  
6087     float dx = a_box_x.m_width;                  
6088     bool xlog = a_box_x.m_log;                   
6089                                                  
6090     float ymin = a_box_y.m_pos;                  
6091     float dy = a_box_y.m_width;                  
6092     bool ylog = a_box_y.m_log;                   
6093                                                  
6094     painting_policy painting = a_style.painti    
6095                                                  
6096     separator* _sep = new separator();           
6097                                                  
6098     if(a_style.modeling==modeling_points()) {    
6099       draw_style* ds = new draw_style;           
6100       ds->style = draw_points;                   
6101       ds->point_size = a_style.point_size;       
6102       _sep->add(ds);                             
6103     }                                            
6104                                                  
6105     bool empty = true;                           
6106     colorf clr;                                  
6107     size_t xnbin = a_bins.size();                
6108     for(size_t index=0;index<xnbin;index++) {    
6109       float x = (a_bins[index].m_x_min + a_bi    
6110       float y = a_bins[index].m_val;             
6111       float val = a_bins[index].m_val;           
6112                                                  
6113       x = verify_log(x,xmin,dx,xlog);            
6114       y = verify_log(y,ymin,dy,ylog);            
6115                                                  
6116       if((x<0)||(x>1)||(y<0)||(y>1)) continue    
6117                                                  
6118       //::printf("debug : tools::sg::plotter:    
6119                                                  
6120       separator* sep = new separator();          
6121       _sep->add(sep);                            
6122                                                  
6123       //a_bins[index].fSeparator = sep;          
6124                                                  
6125      //{char s[128];                             
6126      // ::sprintf(s,"%d",index);                 
6127      // sep->setInfos(s);                        
6128      // ::sprintf(s,"/0x%lx",(unsigned long)s    
6129      // std::string sid = aID;                   
6130      // sid += std::string(s);                   
6131      // sep->setString(sid);}                    
6132                                                  
6133       if(painting==painting_by_value) {          
6134         a_cmap.get_color(val,clr);               
6135       } else if( (painting==painting_grey_sca    
6136                  (painting==painting_grey_sca    
6137                  (painting==painting_violet_t    
6138         a_cmap.get_color(a_bins[index].m_rati    
6139       } else {                                   
6140         clr = a_style.color;                     
6141       }                                          
6142                                                  
6143       rgba* mat = new rgba();                    
6144       mat->color = clr;                          
6145       sep->add(mat);                             
6146                                                  
6147       if(a_style.modeling==modeling_points())    
6148         vertices* vtxs = new vertices;           
6149         vtxs->mode = gl::points();               
6150         vtxs->add(x,y,a_zz);                     
6151         sep->add(vtxs);                          
6152       } else if(a_style.modeling==modeling_ma    
6153         markers* _marks = new markers;           
6154         _marks->size = a_style.marker_size;      
6155         _marks->style = a_style.marker_style;    
6156         _marks->add(x,y,a_zz);                   
6157         sep->add(_marks);                        
6158       } else {                                   
6159         a_out << "tools::sg::plotter::rep_bin    
6160               << " bad modeling style " << to    
6161         delete _sep;                             
6162         return;                                  
6163       }                                          
6164                                                  
6165       empty = false;                             
6166     }                                            
6167                                                  
6168     if(empty) {                                  
6169       delete _sep;                               
6170     } else {                                     
6171       m_bins_sep.add(_sep);                      
6172     }                                            
6173   }                                              
6174                                                  
6175   void rep_bins1D_xy_boxes(const style& a_sty    
6176                            const base_colorma    
6177                            const std::vector<    
6178                            const rep_box& a_b    
6179                            const rep_box& a_b    
6180                            float a_zz //,cons    
6181                                ){                
6182     painting_policy painting = a_style.painti    
6183                                                  
6184     float xmin = a_box_x.m_pos;                  
6185     float dx = a_box_x.m_width;                  
6186     bool xlog = a_box_x.m_log;                   
6187                                                  
6188     float ymin = a_box_y.m_pos;                  
6189     float dy = a_box_y.m_width;                  
6190     bool ylog = a_box_y.m_log;                   
6191                                                  
6192     separator* _sep = new separator();           
6193                                                  
6194     _sep->add(new normal);                       
6195                                                  
6196     bool empty = true;                           
6197     colorf clr;                                  
6198                                                  
6199     tools_vforcit(rep_bin1D,a_bins,it) {         
6200       const rep_bin1D& rbin = *it;               
6201                                                  
6202       float xx = rbin.m_x_min;                   
6203       float xe = rbin.m_x_max;                   
6204       float yy = rbin.m_v_min;                   
6205       float ye = rbin.m_val;                     
6206       if(ye<yy) {                                
6207         yy = rbin.m_val;                         
6208         ye = rbin.m_v_min;                       
6209       }                                          
6210                                                  
6211       float val = rbin.m_val;                    
6212                                                  
6213       xx = verify_log(xx,xmin,dx,xlog);          
6214       xe = verify_log(xe,xmin,dx,xlog);          
6215       yy = verify_log(yy,ymin,dy,ylog);          
6216       ye = verify_log(ye,ymin,dy,ylog);          
6217                                                  
6218       // Clipping :                              
6219       if(xx>1) continue;                         
6220       if(xe<0) continue;                         
6221       if(xx<0) xx = 0;                           
6222       if(xe>1) xe = 1;                           
6223       if(yy>1) continue;                         
6224       if(ye<0) continue;                         
6225       if(yy<0) yy = 0;                           
6226       if(ye>1) ye = 1;                           
6227                                                  
6228       //FIXME if(ye<=yy) continue; //Else we     
6229                                                  
6230       separator* sep = new separator();          
6231       _sep->add(sep);                            
6232                                                  
6233     //a_bins[index].fSeparator = sep;            
6234     //{char s[128];                              
6235     //::sprintf(s,"%d",index);                   
6236     //sep->setInfos(s);                          
6237     //::sprintf(s,"/0x%lx",(unsigned long)sep    
6238     //std::string sid = aID;                     
6239     //sid += std::string(s);                     
6240     //sep->setString(sid);}                      
6241                                                  
6242       if(painting==painting_by_value) {          
6243         a_cmap.get_color(val,clr);               
6244       } else if( (painting==painting_grey_sca    
6245                  (painting==painting_grey_sca    
6246                  (painting==painting_violet_t    
6247         a_cmap.get_color(rbin.m_ratio,clr);      
6248       } else {                                   
6249         clr = a_style.color;                     
6250       }                                          
6251                                                  
6252       rgba* mat = new rgba();                    
6253       mat->color = clr;                          
6254       sep->add(mat);                             
6255                                                  
6256       vertices* vtxs = new vertices;             
6257       vtxs->mode = gl::triangle_fan();           
6258       sep->add(vtxs);                            
6259                                                  
6260       vtxs->add(xx,yy,a_zz);                     
6261       vtxs->add(xe,yy,a_zz);                     
6262       vtxs->add(xe,ye,a_zz);                     
6263       vtxs->add(xx,ye,a_zz);                     
6264                                                  
6265       empty = false;                             
6266     }                                            
6267                                                  
6268     if(empty) {                                  
6269       delete _sep;                               
6270     } else {                                     
6271       m_bins_sep.add(_sep);                      
6272     }                                            
6273   }                                              
6274                                                  
6275   void rep_bins1D_xy_wire_boxes(const style&     
6276                                 const base_co    
6277                                 const std::ve    
6278                                 const rep_box    
6279                                 float a_zz,      
6280                                 bool a_bar_ch    
6281                                 const std::st    
6282                                                  
6283     painting_policy painting = a_style.painti    
6284                                                  
6285     float xmin = a_box_x.m_pos;                  
6286     float dx = a_box_x.m_width;                  
6287     bool xlog = a_box_x.m_log;                   
6288                                                  
6289     float ymin = a_box_y.m_pos;                  
6290     float dy = a_box_y.m_width;                  
6291     bool ylog = a_box_y.m_log;                   
6292                                                  
6293     separator* _sep = new separator();           
6294                                                  
6295     bool empty = true;                           
6296     colorf clr;                                  
6297                                                  
6298     tools_vforcit(rep_bin1D,a_bins,it) {         
6299       const rep_bin1D& rbin = *it;               
6300                                                  
6301       float xx = rbin.m_x_min;                   
6302       float xe = rbin.m_x_max;                   
6303       float yy = rbin.m_v_min;                   
6304       float ye = rbin.m_val;                     
6305       if(ye<yy) {                                
6306         yy = rbin.m_val;                         
6307         ye = rbin.m_v_min;                       
6308       }                                          
6309                                                  
6310       float val = rbin.m_val;                    
6311                                                  
6312       if(a_bar_chart) {                          
6313         bar_chart(a_style.bar_offset.value(),    
6314                   a_style.bar_width.value(),x    
6315       }                                          
6316                                                  
6317       xx = verify_log(xx,xmin,dx,xlog);          
6318       xe = verify_log(xe,xmin,dx,xlog);          
6319       yy = verify_log(yy,ymin,dy,ylog);          
6320       ye = verify_log(ye,ymin,dy,ylog);          
6321                                                  
6322       // Clipping :                              
6323       if(xx>1) continue;                         
6324       if(xe<0) continue;                         
6325       if(xx<0) xx = 0;                           
6326       if(xe>1) xe = 1;                           
6327       if(yy>1) continue;                         
6328       if(ye<0) continue;                         
6329       if(yy<0) yy = 0;                           
6330       if(ye>1) ye = 1;                           
6331                                                  
6332       separator* sep = new separator();          
6333       _sep->add(sep);                            
6334                                                  
6335    //{char s[128];                               
6336     //::sprintf(s,"%d",index);                   
6337     //sep->setInfos(s);                          
6338     //::sprintf(s,"/0x%lx",(unsigned long)sep    
6339     //std::string sid = aID;                     
6340     //sid += std::string(s);                     
6341     //sep->setString(sid);}                      
6342                                                  
6343       if(painting==painting_by_value) {          
6344         a_cmap.get_color(val,clr);               
6345       } else if( (painting==painting_grey_sca    
6346                  (painting==painting_grey_sca    
6347                  (painting==painting_violet_t    
6348         a_cmap.get_color(rbin.m_ratio,clr);      
6349       } else {                                   
6350         clr = a_style.color;                     
6351       }                                          
6352                                                  
6353       rgba* mat = new rgba();                    
6354       mat->color = clr;                          
6355       sep->add(mat);                             
6356                                                  
6357       vertices* vtxs = new vertices;             
6358       vtxs->mode = gl::line_strip();             
6359       sep->add(vtxs);                            
6360                                                  
6361       vtxs->add(xx,yy,a_zz);                     
6362       vtxs->add(xe,yy,a_zz);                     
6363       vtxs->add(xe,ye,a_zz);                     
6364       vtxs->add(xx,ye,a_zz);                     
6365       vtxs->add(xx,yy,a_zz);                     
6366                                                  
6367       empty = false;                             
6368     }                                            
6369                                                  
6370     if(empty) {                                  
6371       delete _sep;                               
6372     } else {                                     
6373       m_bins_sep.add(_sep);                      
6374     }                                            
6375   }                                              
6376                                                  
6377   void rep_bins1D_xy_lines_one(const style& a    
6378                                const rep_box&    
6379     // Draw lines connecting top middle of bi    
6380                                                  
6381     //::printf("debug : rep_bins2D_lines_one\    
6382                                                  
6383     size_t xnbin = a_bins.size();                
6384     std::vector<vec3f> points(xnbin);            
6385     for(size_t index=0;index<xnbin;index++) {    
6386       float x = (a_bins[index].m_x_min + a_bi    
6387       float y = a_bins[index].m_val;             
6388       points[index] = vec3f(x,y,a_zz);           
6389     }                                            
6390                                                  
6391     vertices* vtxs = new vertices;               
6392     std::vector<float>& pts = vtxs->xyzs.valu    
6393                                                  
6394     clip_polyline_2D(points,a_box_x,a_box_y,p    
6395     if(pts.size()) {                             
6396       sg::separator* separator = new sg::sepa    
6397       //separator->setString(aID);               
6398                                                  
6399       rgba* mat = new rgba();                    
6400       mat->color = a_style.color;                
6401       separator->add(mat);                       
6402                                                  
6403       draw_style* ds = new draw_style;           
6404       ds->style = draw_lines;                    
6405       ds->line_pattern = a_style.line_pattern    
6406       ds->line_width = a_style.line_width;       
6407       separator->add(ds);                        
6408                                                  
6409       vtxs->mode = gl::line_strip();             
6410       separator->add(vtxs);                      
6411                                                  
6412       m_bins_sep.add(separator);                 
6413     } else {                                     
6414       delete vtxs;                               
6415     }                                            
6416   }                                              
6417                                                  
6418   void rep_bins1D_xy_curve_one(std::ostream&     
6419                                const rep_box&    
6420     //::printf("debug : rep_bins1D_curve_one\    
6421                                                  
6422     size_t number = a_bins.size();               
6423     if(!number) return;                          
6424                                                  
6425     double* xs = new double[number];             
6426     double* ys = new double[number];             
6427     float x,y;                                   
6428     for(size_t index=0;index<number;index++)     
6429       x = (a_bins[index].m_x_min + a_bins[ind    
6430       y = a_bins[index].m_val;                   
6431       xs[index] = x;ys[index] = y;               
6432     }                                            
6433     spline::cubic _spline(a_out,number,xs,ys)    
6434   //spline::quintic _spline(a_out,number,xs,y    
6435     delete [] xs;delete [] ys;                   
6436                                                  
6437     float xmn = m_x_axis_data.min_value();       
6438     float xmx = m_x_axis_data.max_value();       
6439     unsigned int nstp = curve_number_of_point    
6440     float step = (xmx - xmn)/nstp;               
6441     std::vector<vec3f> points(nstp+1);           
6442     for(unsigned int ibin=0;ibin<=nstp;ibin++    
6443       float xx = xmn + ibin * step;              
6444       double val = _spline.eval(xx);             
6445       points[ibin].set_value(xx,float(val),a_    
6446     }                                            
6447                                                  
6448     vertices* vtxs = new vertices;               
6449     std::vector<float>& pts = vtxs->xyzs.valu    
6450                                                  
6451     clip_polyline_2D(points,a_box_x,a_box_y,p    
6452     if(pts.size()) {                             
6453       sg::separator* separator = new sg::sepa    
6454       //separator->setString(aID);               
6455                                                  
6456       rgba* mat = new rgba();                    
6457       mat->color = a_style.color;                
6458       separator->add(mat);                       
6459                                                  
6460       draw_style* ds = new draw_style;           
6461       ds->style = draw_lines;                    
6462       ds->line_pattern = a_style.line_pattern    
6463       ds->line_width = a_style.line_width;       
6464       separator->add(ds);                        
6465                                                  
6466       vtxs->mode = gl::line_strip();             
6467       separator->add(vtxs);                      
6468                                                  
6469       m_bins_sep.add(separator);                 
6470     } else {                                     
6471       delete vtxs;                               
6472     }                                            
6473                                                  
6474   }                                              
6475                                                  
6476                                                  
6477   void rep_bins2D_xy_box(const style& a_style    
6478                          const rep_box& a_box    
6479     // Draw box of size proportionnal to bin     
6480                                                  
6481     //std::cout << "debug : tools::sg::plotte    
6482                                                  
6483     separator* _sep = new separator();           
6484                                                  
6485     _sep->add(new normal);                       
6486                                                  
6487     rgba* mat = new rgba();                      
6488     mat->color = a_style.color;                  
6489     _sep->add(mat);                              
6490                                                  
6491     float xmin = a_box_x.m_pos;                  
6492     float dx = a_box_x.m_width;                  
6493     bool xlog = a_box_x.m_log;                   
6494                                                  
6495     float ymin = a_box_y.m_pos;                  
6496     float dy = a_box_y.m_width;                  
6497     bool ylog = a_box_y.m_log;                   
6498                                                  
6499     bool empty = true;                           
6500     float range = a_bmax - a_bmin;               
6501                                                  
6502     tools_vforcit(rep_bin2D,a_bins,it) {         
6503       const rep_bin2D& rbin = *it;               
6504                                                  
6505       float xx = rbin.m_x_min;                   
6506       float xe = rbin.m_x_max;                   
6507       float yy = rbin.m_y_min;                   
6508       float ye = rbin.m_y_max;                   
6509       float val = rbin.m_val;                    
6510                                                  
6511       float xsize,ysize;                         
6512       if(range>0) {                              
6513         // If val = bmax, the box maps the ce    
6514         xsize = (val - a_bmin) * (xe - xx) /     
6515         ysize = (val - a_bmin) * (ye - yy) /     
6516       } else {                                   
6517         //If range is 0. ; then all bins that    
6518         // entries have same values. Draw box    
6519         xsize = xe - xx;                         
6520         ysize = ye - yy;                         
6521       }                                          
6522                                                  
6523       xx = xx + ((xe-xx) - xsize)/2;             
6524       xe = xx + xsize;                           
6525       yy = yy + ((ye-yy) - ysize)/2;             
6526       ye = yy + ysize;                           
6527                                                  
6528       xx = verify_log(xx ,xmin,dx  ,xlog);       
6529       xe = verify_log(xe ,xmin,dx  ,xlog);       
6530       yy = verify_log(yy ,ymin,dy  ,ylog);       
6531       ye = verify_log(ye ,ymin,dy  ,ylog);       
6532                                                  
6533       // Clipping :                              
6534       if(xx>1) continue;                         
6535       if(xe<0) continue;                         
6536       if(xx<0) xx = 0;                           
6537       if(xe>1) xe = 1;                           
6538       if(yy>1) continue;                         
6539       if(ye<0) continue;                         
6540       if(yy<0) yy = 0;                           
6541       if(ye>1) ye = 1;                           
6542                                                  
6543       //sg::separator* sep = new separator();    
6544       //_sep->add(sep);                          
6545                                                  
6546    /*{char s[128];                               
6547       //::sprintf(s,"%d %d",rbin.fI,rbin.fJ);    
6548       sep->setInfos(s);                          
6549       //::sprintf(s,"/0x%lx",(unsigned long)s    
6550       std::string sid = aID;                     
6551       sid += std::string(s);                     
6552       sep->setString(sid);}*/                    
6553                                                  
6554       vertices* vtxs = new vertices;             
6555       vtxs->mode = gl::triangle_fan();           
6556       //sep->add(vtxs);                          
6557       _sep->add(vtxs);                           
6558                                                  
6559       vtxs->add(xx,yy,a_zz);                     
6560       vtxs->add(xe,yy,a_zz);                     
6561       vtxs->add(xe,ye,a_zz);                     
6562       vtxs->add(xx,ye,a_zz);                     
6563                                                  
6564       empty = false;                             
6565     }                                            
6566                                                  
6567     if(empty) {                                  
6568       delete _sep;                               
6569     } else {                                     
6570       m_bins_sep.add(_sep);                      
6571     }                                            
6572   }                                              
6573                                                  
6574   void rep_bins2D_xy_wire_box(const style& a_    
6575                               const std::vect    
6576             const rep_box& a_box_x,const rep_    
6577             float a_bmin,float a_bmax,float a    
6578                               /*,const SbStri    
6579     // Draw box of size proportionnal to bin     
6580                                                  
6581     sg::separator* separator = new sg::separa    
6582                                                  
6583     rgba* mat = new rgba();                      
6584     mat->color = a_style.color;                  
6585     separator->add(mat);                         
6586                                                  
6587     draw_style* ds = new draw_style;             
6588     ds->style = draw_lines;                      
6589     ds->line_pattern = a_style.line_pattern;     
6590     ds->line_width = a_style.line_width;         
6591     separator->add(ds);                          
6592                                                  
6593     vertices* vtxs = new vertices;               
6594     vtxs->mode = gl::lines();                    
6595     separator->add(vtxs);                        
6596                                                  
6597     bool empty = true;                           
6598                                                  
6599     float xmin = a_box_x.m_pos;                  
6600     float dx = a_box_x.m_width;                  
6601     bool xlog = a_box_x.m_log;                   
6602                                                  
6603     float ymin = a_box_y.m_pos;                  
6604     float dy = a_box_y.m_width;                  
6605     bool ylog = a_box_y.m_log;                   
6606                                                  
6607     float range = a_bmax - a_bmin;               
6608     size_t number = a_bins.size();               
6609     for(size_t index=0;index<number;index++)     
6610                                                  
6611       float xx = a_bins[index].m_x_min;          
6612       float xe = a_bins[index].m_x_max;          
6613       float yy = a_bins[index].m_y_min;          
6614       float ye = a_bins[index].m_y_max;          
6615       float val = a_bins[index].m_val;           
6616                                                  
6617       float xsize,ysize;                         
6618       if(range>0) {                              
6619         // If val = bmax, the box maps the ce    
6620         xsize = (val - a_bmin) * (xe - xx) /     
6621         ysize = (val - a_bmin) * (ye - yy) /     
6622       } else {                                   
6623         //If range is 0. ; then all bins that    
6624         // entries have same values. Draw box    
6625         xsize = xe - xx;                         
6626         ysize = ye - yy;                         
6627       }                                          
6628                                                  
6629       xx = xx + ((xe-xx) - xsize)/2;             
6630       xe = xx + xsize;                           
6631       yy = yy + ((ye-yy) - ysize)/2;             
6632       ye = yy + ysize;                           
6633                                                  
6634       xx = verify_log(xx ,xmin,dx  ,xlog);       
6635       xe = verify_log(xe ,xmin,dx  ,xlog);       
6636       yy = verify_log(yy ,ymin,dy  ,ylog);       
6637       ye = verify_log(ye ,ymin,dy  ,ylog);       
6638                                                  
6639       // Clipping :                              
6640       if(xx>1) continue;                         
6641       if(xe<0) continue;                         
6642       if(xx<0) xx = 0;                           
6643       if(xe>1) xe = 1;                           
6644       if(yy>1) continue;                         
6645       if(ye<0) continue;                         
6646       if(yy<0) yy = 0;                           
6647       if(ye>1) ye = 1;                           
6648                                                  
6649       //::printf("debug : zzzzuu : %g %g %g %    
6650                                                  
6651      //{char s[128];                             
6652      // ::sprintf(s,"%d %d",a_bins[index].fI,    
6653      // sep->setInfos(s);}                       
6654      //{std::string sp;                          
6655      // if(!p2sx(sep->getInfos(),sp)){}          
6656      // std::string sid(aID.getString());        
6657      // sid += "/"+sp;                           
6658      // sep->setString(sid.c_str());}            
6659                                                  
6660     //vertices* vtxs = new vertices;             
6661     //vtxs->mode = gl::line_strip();             
6662     //separator->add(vtxs);                      
6663     //vtxs->add(xx,yy,a_zz);                     
6664     //vtxs->add(xe,yy,a_zz);                     
6665     //vtxs->add(xe,ye,a_zz);                     
6666     //vtxs->add(xx,ye,a_zz);                     
6667     //vtxs->add(xx,yy,a_zz);                     
6668                                                  
6669       vtxs->add(xx,yy,a_zz);                     
6670       vtxs->add(xe,yy,a_zz);                     
6671                                                  
6672       vtxs->add(xe,yy,a_zz);                     
6673       vtxs->add(xe,ye,a_zz);                     
6674                                                  
6675       vtxs->add(xe,ye,a_zz);                     
6676       vtxs->add(xx,ye,a_zz);                     
6677                                                  
6678       vtxs->add(xx,ye,a_zz);                     
6679       vtxs->add(xx,yy,a_zz);                     
6680                                                  
6681       empty = false;                             
6682     }                                            
6683                                                  
6684     if(empty) {                                  
6685       delete separator;                          
6686     } else {                                     
6687       m_bins_sep.add(separator);                 
6688     }                                            
6689   }                                              
6690                                                  
6691   void rep_bins2D_xy_solid(const style& a_sty    
6692                            const rep_box& a_b    
6693     painting_policy painting = a_style.painti    
6694                                                  
6695     separator* _sep = new separator();           
6696                                                  
6697     _sep->add(new normal);                       
6698                                                  
6699     float xmin = a_box_x.m_pos;                  
6700     float dx = a_box_x.m_width;                  
6701     bool xlog = a_box_x.m_log;                   
6702                                                  
6703     float ymin = a_box_y.m_pos;                  
6704     float dy = a_box_y.m_width;                  
6705     bool ylog = a_box_y.m_log;                   
6706                                                  
6707     bool empty = true;                           
6708     colorf clr;                                  
6709                                                  
6710     tools_vforcit(rep_bin2D,a_bins,it) {         
6711       const rep_bin2D& rbin = *it;               
6712                                                  
6713       float xx = rbin.m_x_min;                   
6714       float xe = rbin.m_x_max;                   
6715       float yy = rbin.m_y_min;                   
6716       float ye = rbin.m_y_max;                   
6717       float val = rbin.m_val;                    
6718                                                  
6719       xx = verify_log(xx ,xmin,dx  ,xlog);       
6720       xe = verify_log(xe ,xmin,dx  ,xlog);       
6721       yy = verify_log(yy ,ymin,dy  ,ylog);       
6722       ye = verify_log(ye ,ymin,dy  ,ylog);       
6723                                                  
6724       // Clipping :                              
6725       if(xx>1) continue;                         
6726       if(xe<0) continue;                         
6727       if(xx<0) xx = 0;                           
6728       if(xe>1) xe = 1;                           
6729       if(yy>1) continue;                         
6730       if(ye<0) continue;                         
6731       if(yy<0) yy = 0;                           
6732       if(ye>1) ye = 1;                           
6733                                                  
6734       if(painting==painting_by_value) {          
6735         a_cmap.get_color(val,clr);               
6736       } else if( (painting==painting_grey_sca    
6737                  (painting==painting_grey_sca    
6738                  (painting==painting_violet_t    
6739         a_cmap.get_color(rbin.m_ratio,clr);      
6740       } else {                                   
6741         clr = a_style.color;                     
6742       }                                          
6743                                                  
6744       rgba* mat = new rgba();                    
6745       mat->color = clr;                          
6746       _sep->add(mat);                            
6747                                                  
6748       vertices* vtxs = new vertices;             
6749       vtxs->mode = gl::triangle_fan();           
6750       //sep->add(vtxs);                          
6751       _sep->add(vtxs);                           
6752                                                  
6753       vtxs->add(xx,yy,a_zz);                     
6754       vtxs->add(xe,yy,a_zz);                     
6755       vtxs->add(xe,ye,a_zz);                     
6756       vtxs->add(xx,ye,a_zz);                     
6757                                                  
6758       empty = false;                             
6759     }                                            
6760                                                  
6761     if(empty) {                                  
6762       delete _sep;                               
6763     } else {                                     
6764       m_bins_sep.add(_sep);                      
6765     }                                            
6766   }                                              
6767                                                  
6768   void rep_bins2D_xy_random_one(const style&     
6769                                 const rep_box    
6770                                 /*,const SbSt    
6771     //::printf("debug : rep_bins2D_xy_random_    
6772                                                  
6773     sg::separator* separator = new sg::separa    
6774                                                  
6775     rgba* mat = new rgba();                      
6776     mat->color = a_style.color;                  
6777     separator->add(mat);                         
6778                                                  
6779     draw_style* ds = new draw_style;             
6780     ds->style = draw_points;                     
6781     ds->point_size = a_style.point_size;         
6782     separator->add(ds);                          
6783                                                  
6784     float xmin = a_box_x.m_pos;                  
6785     float dx = a_box_x.m_width;                  
6786     bool xlog = a_box_x.m_log;                   
6787                                                  
6788     float ymin = a_box_y.m_pos;                  
6789     float dy = a_box_y.m_width;                  
6790     bool ylog = a_box_y.m_log;                   
6791                                                  
6792     //  Draw for each bins a number of random    
6793     // points proportiannal to bins range.       
6794                                                  
6795     float range = a_bmax - a_bmin;               
6796                                                  
6797     bool empty = true;                           
6798                                                  
6799     size_t number = a_bins.size();               
6800     for(size_t index=0;index<number;index++)     
6801                                                  
6802       float xx = a_bins[index].m_x_min;          
6803       float xe = a_bins[index].m_x_max;          
6804       float yy = a_bins[index].m_y_min;          
6805       float ye = a_bins[index].m_y_max;          
6806       float val = a_bins[index].m_val;           
6807                                                  
6808       // If range is 0. ; then all bins that     
6809       // have same values. Draw one point.       
6810                                                  
6811       int nmin = 1;                              
6812       int nmax = 50;                             
6813       int npt = range>0. ? (int)((val - a_bmi    
6814       if(npt>0) {                                
6815         vertices* vtxs = new vertices;           
6816         vtxs->mode = gl::points();               
6817         separator->add(vtxs);                    
6818                                                  
6819         float xdbin = xe - xx;                   
6820         float ydbin = ye - yy;                   
6821         for(int count=0;count<npt;count++) {     
6822           float xxx = xx + xdbin * m_rtausmef    
6823           float yyy = yy + ydbin * m_rtausmef    
6824           xxx = verify_log(xxx ,xmin,dx  ,xlo    
6825           yyy = verify_log(yyy ,ymin,dy  ,ylo    
6826           if((xxx>=0)&&(xxx<=1)  &&              
6827              (yyy>=0)&&(yyy<=1)  ) {             
6828             vtxs->add(xxx,yyy,a_zz);             
6829             empty = false;                       
6830           }                                      
6831         }                                        
6832       }                                          
6833                                                  
6834     }//end for                                   
6835                                                  
6836     if(empty) {                                  
6837       delete separator;                          
6838     } else {                                     
6839       m_bins_sep.add(separator);                 
6840     }                                            
6841   }                                              
6842                                                  
6843   void rep_bins2D_xy_text(                       
6844    const style& //a_style                        
6845   ,const std::vector<rep_bin2D>& //a_bins        
6846   ,const rep_box& //a_box_x                      
6847   ,const rep_box& //a_box_y                      
6848   //,const SbString& aID                         
6849   ){                                             
6850     //Draw box and text for number of entries    
6851     ::printf("debug : rep_bins2D_xy_text : du    
6852                                                  
6853   /*                                             
6854     sg::separator* separator = new sg::separa    
6855                                                  
6856     //bool drawWireBoxe = false;                 
6857                                                  
6858     bool empty = true;                           
6859                                                  
6860     float xmin = a_box_x.m_pos;                  
6861     float dx = a_box_x.m_width;                  
6862     bool xlog = a_box_x.m_log;                   
6863                                                  
6864     float ymin = a_box_y.m_pos;                  
6865     float dy = a_box_y.m_width;                  
6866     bool ylog = a_box_y.m_log;                   
6867                                                  
6868     vec3f points[5];                             
6869                                                  
6870     for(unsigned int index=0;index<a_bins.siz    
6871                                                  
6872       float xx = a_bins[index].m_x_min;          
6873       float xe = a_bins[index].m_x_max;          
6874       float yy = a_bins[index].m_y_min;          
6875       float ye = a_bins[index].m_y_max;          
6876       float val = a_bins[index].m_val;           
6877                                                  
6878       int ival = (int)val;                       
6879       if(ival==0) continue;                      
6880                                                  
6881       xx = VerifyLog(xx ,xmin,dx  ,xlog);        
6882       xe = VerifyLog(xe ,xmin,dx  ,xlog);        
6883       yy = VerifyLog(yy ,ymin,dy  ,ylog);        
6884       ye = VerifyLog(ye ,ymin,dy  ,ylog);        
6885                                                  
6886       // Clipping :                              
6887       if(xx>1) continue;                         
6888       if(xe<0) continue;                         
6889       if(xx<0) xx = 0;                           
6890       if(xe>1) xe = 1;                           
6891       if(yy>1) continue;                         
6892       if(ye<0) continue;                         
6893       if(yy<0) yy = 0;                           
6894       if(ye>1) ye = 1;                           
6895                                                  
6896       char sval[32];                             
6897       //::sprintf (sval,"%d",ival);              
6898       SbString sbval(sval);                      
6899       int charn = sbval.getLength();             
6900       if(charn<=0) continue;                     
6901                                                  
6902       SoSceneGraph* sep = new SoSceneGraph;      
6903       separator->addChild(sep);                  
6904                                                  
6905      {char s[128];                               
6906       //::sprintf(s,"%d %d",a_bins[index].fI,    
6907       sep->setInfos(s);}                         
6908      {std::string sp;                            
6909       if(!p2sx(sep->getInfos(),sp)){}            
6910       std::string sid(aID.getString());          
6911       sid += "/"+sp;                             
6912       sep->setString(sid.c_str());}              
6913                                                  
6914       SoMaterial* material =                     
6915         fStyleCache->getMaterial(a_style.colo    
6916                                  a_style.tran    
6917       sep->addChild(material);                   
6918                                                  
6919       sep->addChild(getLineStyle(a_style));      
6920                                                  
6921       float dx = xe-xx;                          
6922       float dy = ye-yy;                          
6923                                                  
6924       if(drawWireBoxe) {                         
6925         LIST_SET(points,0,xx,yy,0);              
6926         LIST_SET(points,1,xe,yy,0);              
6927         LIST_SET(points,2,xe,ye,0);              
6928         LIST_SET(points,3,xx,ye,0);              
6929         LIST_SET(points,4,xx,yy,0);              
6930         coordIndex[0] = icoord + 0;              
6931         coordIndex[1] = icoord + 1;              
6932         coordIndex[2] = icoord + 2;              
6933         coordIndex[3] = icoord + 3;              
6934         coordIndex[4] = icoord + 4;              
6935         coordIndex[5] = SO_END_LINE_INDEX;       
6936                                                  
6937         coordinate3->point.setValues(icoord,5    
6938         icoord += 5;                             
6939                                                  
6940         SoIndexedLineSet* lineSet = new SoInd    
6941         lineSet->coordIndex.setValues(0,6,coo    
6942         sep->addChild(lineSet);                  
6943       }                                          
6944                                                  
6945       float x = xx + 0.1F * dx;                  
6946       float y = yy + 0.1F * dy;                  
6947       float z = 0;                               
6948       float w = dx * 0.5F;                       
6949       float h = dy * 0.5F;                       
6950                                                  
6951       SoTransform* transform = new SoTransfor    
6952       transform->scaleFactor.setValue(vec3f(w    
6953       transform->translation.setValue(x,y,z);    
6954       sep->addChild(transform);                  
6955                                                  
6956       SoTextHershey* text = new SoTextHershey    
6957       text->string.setValue(sbval);              
6958       sep->addChild (text);                      
6959                                                  
6960       empty = false;                             
6961     }                                            
6962                                                  
6963     if(empty) {                                  
6964       delete separator;                          
6965     } else {                                     
6966       m_bins_sep.add(separator);                 
6967     }                                            
6968   */                                             
6969   }                                              
6970                                                  
6971   void rep_contour_xy(std::ostream& a_out,con    
6972                       const base_colormap& a_    
6973           const rep_box& a_box_x,const rep_bo    
6974                       /*,const std::string& a    
6975     //a_out << "debug : rep_contour_xy :" <<     
6976                                                  
6977     float xmin = a_box_x.m_pos;                  
6978     float dx = a_box_x.m_width;                  
6979     bool xlog = a_box_x.m_log;                   
6980                                                  
6981     float ymin = a_box_y.m_pos;                  
6982     float dy = a_box_y.m_width;                  
6983     bool ylog = a_box_y.m_log;                   
6984                                                  
6985     float zmin = a_box_z.m_pos;                  
6986     float dz = a_box_z.m_width;                  
6987     //bool zlog = a_box_z.m_log;                 
6988                                                  
6989     sg::separator* separator = new sg::separa    
6990     //separator->setString(aID);                 
6991                                                  
6992     draw_style* ds = new draw_style;             
6993     ds->style.value(draw_lines);                 
6994     ds->line_pattern.value(a_style.line_patte    
6995     ds->line_width.value(a_style.line_width);    
6996     separator->add(ds);                          
6997                                                  
6998     atb_vertices* vtxs = new atb_vertices;       
6999     vtxs->mode = gl::lines(); //segments         
7000     separator->add(vtxs);                        
7001                                                  
7002     bool empty = true;                           
7003                                                  
7004     for (unsigned int i=0;i<a_contour.get_num    
7005       cline_strip_list* pStripList = a_contou    
7006       if(!pStripList) {                          
7007         a_out << "tools::sg;:plotter::rep_con    
7008         delete separator;                        
7009         return;                                  
7010       }                                          
7011                                                  
7012       //If zlog true, zz is already in log.      
7013       float val = (float)a_contour.get_plane(    
7014       float zz = val;                            
7015                                                  
7016       zz = verify_log(zz,zmin,dz,false);         
7017       if(zz>1) continue;                         
7018       if(zz<0) continue;                         
7019                                                  
7020       colorf _color;                             
7021       if(a_painting==painting_by_value) {        
7022         a_cmap.get_color(val,_color);            
7023       } else if(a_painting==painting_by_level    
7024         size_t icol = a_cmap.colorn() ? (i %     
7025         _color = a_cmap.color(icol);             
7026       } else {                                   
7027         _color = a_style.color;                  
7028       }                                          
7029                                                  
7030       tools_lforcit(cline_strip*,*pStripList,    
7031         cline_strip* pStrip = (*pos);            
7032         if(!pStrip) {                            
7033           a_out << "tools::sg;:plotter::rep_c    
7034           delete separator;                      
7035           return;                                
7036         }                                        
7037         if (pStrip->empty()) continue;           
7038                                                  
7039         //// putting point at start and end o    
7040         //// retreiving index                    
7041         //unsigned int index=pStrip->front();    
7042         //double xb=a_contour.get_xi(index);     
7043         //double yb=a_contour.get_yi(index);     
7044         //// retreiving index                    
7045         ////glColor4f(0,0,1,.8f);                
7046         //index=pStrip->back();                  
7047         //double xe=a_contour.get_xi(index);     
7048         //double ye=a_contour.get_yi(index);     
7049                                                  
7050         bool first = true;                       
7051         float xprev = 0;                         
7052         float yprev = 0;                         
7053         float xx,yy;                             
7054                                                  
7055         tools_lforcit(unsigned int,*pStrip,po    
7056           xx = (float)a_contour.get_xi(*pos2)    
7057           yy = (float)a_contour.get_yi(*pos2)    
7058           xx = verify_log(xx,xmin,dx,xlog);      
7059           yy = verify_log(yy,ymin,dy,ylog);      
7060           if(                                    
7061               (xx<0) || (xx>1) ||                
7062               (yy<0) || (yy>1)                   
7063             ) {                                  
7064             // Throw away this strip :           
7065           }                                      
7066     if(first) {                                  
7067       first = false;                             
7068     } else {                                     
7069             vtxs->add(xprev,yprev,a_zz+zz);      
7070             vtxs->add(xx,yy,a_zz+zz);            
7071             vtxs->add_color(_color);             
7072             vtxs->add_color(_color);             
7073     }                                            
7074           xprev = xx;                            
7075           yprev = yy;                            
7076                                                  
7077           empty = false;                         
7078       }                                          
7079     }                                            
7080                                                  
7081     }                                            
7082                                                  
7083     if(empty) {                                  
7084       delete separator;                          
7085     } else {                                     
7086       m_bins_sep.add(separator);                 
7087     }                                            
7088   }                                              
7089                                                  
7090   void rep_contour_xy_filled(std::ostream& a_    
7091                              const base_color    
7092            const rep_box& a_box_x,const rep_b    
7093                              /*,const std::st    
7094     //a_out << "debug : rep_contour_xy_filled    
7095                                                  
7096     float xmin = a_box_x.m_pos;                  
7097     float dx = a_box_x.m_width;                  
7098     bool xlog = a_box_x.m_log;                   
7099                                                  
7100     float ymin = a_box_y.m_pos;                  
7101     float dy = a_box_y.m_width;                  
7102     bool ylog = a_box_y.m_log;                   
7103                                                  
7104     float zmin = a_box_z.m_pos;                  
7105     float dz = a_box_z.m_width;                  
7106     //bool zlog = a_box_z.m_log;                 
7107                                                  
7108     sg::separator* separator = new sg::separa    
7109     //separator->setString(aID);                 
7110                                                  
7111     vec3f AB,BC,vcross;                          
7112                                                  
7113     {// Draw background :                        
7114       sg::separator* sep = new sg::separator;    
7115       separator->add(sep);                       
7116                                                  
7117       float zz = a_zz - 0.01F;                   
7118                                                  
7119       colorf _color;                             
7120       if(a_cmap.colorn()) {                      
7121         _color = a_cmap.color(0);                
7122       } else {                                   
7123         _color = a_style.color;                  
7124       }                                          
7125                                                  
7126       rgba* mat = new rgba();                    
7127       mat->color = _color;                       
7128       sep->add(mat);                             
7129                                                  
7130       float xx = xmin;                           
7131       float xe = xmin+dx;                        
7132       float yy = ymin;                           
7133       float ye = ymin+dy;                        
7134                                                  
7135       xx = verify_log(xx,xmin,dx,xlog);          
7136       xe = verify_log(xe,xmin,dx,xlog);          
7137       yy = verify_log(yy,ymin,dy,ylog);          
7138       ye = verify_log(ye,ymin,dy,ylog);          
7139                                                  
7140       vertices* vtxs = new vertices;             
7141       vtxs->mode = gl::triangle_fan();           
7142       vtxs->add(xx,yy,zz);                       
7143       vtxs->add(xe,yy,zz);                       
7144       vtxs->add(xe,ye,zz);                       
7145       vtxs->add(xx,ye,zz);                       
7146       sep->add(vtxs);                            
7147                                                  
7148     } // End background.                         
7149                                                  
7150     bool empty = true;                           
7151                                                  
7152     for (unsigned int i=0;i<a_contour.get_num    
7153                                                  
7154       cline_strip_list* pStripList = a_contou    
7155       if(!pStripList) {                          
7156         a_out << "tools::sg;:plotter::rep_con    
7157         delete separator;                        
7158         return;                                  
7159       }                                          
7160                                                  
7161       sg::separator* sep = new sg::separator;    
7162       separator->add(sep);                       
7163                                                  
7164       //If zlog true, zz is already in log.      
7165       float val = (float)a_contour.get_plane(    
7166       float zz = val;                            
7167                                                  
7168       zz = verify_log(zz,zmin,dz,false);         
7169       if(zz>1) continue;                         
7170       if(zz<0) continue;                         
7171                                                  
7172       std::vector< std::vector<vec3f> > conto    
7173                                                  
7174       tools_lforcit(cline_strip*,*pStripList,    
7175         cline_strip* pStrip = (*pos);            
7176         if(pStrip->size() >2) {                  
7177           std::vector<vec3f> v;                  
7178           for (cline_strip::iterator pos2=pSt    
7179             unsigned int index=(*pos2);          
7180             float xx = (float)a_contour.get_x    
7181             float yy = (float)a_contour.get_y    
7182             xx = verify_log(xx,xmin,dx,xlog);    
7183             yy = verify_log(yy,ymin,dy,ylog);    
7184             v.push_back(vec3f(xx,yy,a_zz+zz))    
7185           }                                      
7186           contourVector.push_back(std::move(v    
7187         }                                        
7188       }                                          
7189                                                  
7190       std::vector<tess_triangle> tris;           
7191       tess_contour tessContour(a_out,tris); /    
7192       tessContour.getFilledArea(contourVector    
7193       if(!tris.size()) continue;                 
7194                                                  
7195       colorf _color;                             
7196       if(a_painting==painting_by_value) {        
7197         a_cmap.get_color(val,_color);            
7198       } else if(a_painting==painting_by_level    
7199         int icol = a_cmap.colorn() ? (i % a_c    
7200         _color = a_cmap.color(icol);             
7201       } else {                                   
7202         _color = a_style.color;                  
7203       }                                          
7204                                                  
7205       atb_vertices* vtxs = new atb_vertices;     
7206       vtxs->mode = gl::triangles();              
7207       sep->add(vtxs);                            
7208                                                  
7209       for(size_t itri=0;itri<tris.size();itri    
7210         tess_triangle& tri = tris[itri];         
7211   AB.set_value((float)(tri.pointB[0]-tri.poin    
7212                      (float)(tri.pointB[1]-tr    
7213                      (float)(tri.pointB[2]-tr    
7214         BC.set_value((float)(tri.pointC[0]-tr    
7215                      (float)(tri.pointC[1]-tr    
7216                      (float)(tri.pointC[2]-tr    
7217         AB.cross(BC,vcross);                     
7218   if(vcross.z()>=0) {                            
7219           vtxs->add((float)tri.pointA[0],(flo    
7220           vtxs->add((float)tri.pointB[0],(flo    
7221           vtxs->add((float)tri.pointC[0],(flo    
7222   } else {                                       
7223           vtxs->add((float)tri.pointA[0],(flo    
7224           vtxs->add((float)tri.pointC[0],(flo    
7225           vtxs->add((float)tri.pointB[0],(flo    
7226   }                                              
7227         vtxs->add_color(_color);                 
7228         vtxs->add_color(_color);                 
7229         vtxs->add_color(_color);                 
7230       }                                          
7231                                                  
7232       empty = false;                             
7233                                                  
7234     }                                            
7235                                                  
7236     if(empty) {                                  
7237       delete separator;                          
7238     } else {                                     
7239       m_bins_sep.add(separator);                 
7240     }                                            
7241   }                                              
7242                                                  
7243   void rep_errors_plus_xy(std::ostream& /*a_o    
7244                           const rep_box& a_bo    
7245     //a_out << "debug : rep_erros_plus_xy : b    
7246     separator* _sep = new separator();           
7247     //_sep->setString(aID);                      
7248                                                  
7249     rgba* mat = new rgba();                      
7250     mat->color = a_style.color;                  
7251     _sep->add(mat);                              
7252                                                  
7253     draw_style* ds = new draw_style;             
7254     ds->style.value(draw_lines);                 
7255     ds->line_pattern.value(a_style.line_patte    
7256     ds->line_width.value(a_style.line_width);    
7257     _sep->add(ds);                               
7258                                                  
7259     vertices* vtxs = new vertices;               
7260     vtxs->mode = gl::lines();                    
7261     _sep->add(vtxs);                             
7262                                                  
7263     float xmin = a_box_x.m_pos;                  
7264     float dx = a_box_x.m_width;                  
7265     bool xlog = a_box_x.m_log;                   
7266                                                  
7267     float ymin = a_box_y.m_pos;                  
7268     float dy = a_box_y.m_width;                  
7269     bool ylog = a_box_y.m_log;                   
7270                                                  
7271     size_t xnbin = a_bins.size();                
7272                                                  
7273     for(size_t index=0;index<xnbin;index++) {    
7274                                                  
7275       //Need all bins modeled for fitting.       
7276                                                  
7277       float val = a_bins[index].m_val;           
7278       float bar_height = a_bars[index];          
7279                                                  
7280       float bar_min = val - bar_height/2;        
7281       float bar_max = val + bar_height/2;        
7282                                                  
7283       float xx = a_bins[index].m_x_min;          
7284       float xe = a_bins[index].m_x_max;          
7285                                                  
7286       xx = verify_log(xx,xmin,dx,xlog);          
7287       xe = verify_log(xe,xmin,dx,xlog);          
7288       val = verify_log(val,ymin,dy,ylog);        
7289                                                  
7290       bar_min = verify_log(bar_min,ymin,dy,yl    
7291       bar_max = verify_log(bar_max,ymin,dy,yl    
7292                                                  
7293       if(xe<0) continue;                         
7294       if(xx>1) continue;                         
7295       if(xx<0) xx = 0;                           
7296       if(xe>1) xe = 1;                           
7297       //if(val<0) val = 0;                       
7298       //if(val>1) val = 1;                       
7299                                                  
7300       float ex = (xe+xx)/2;                      
7301       //if( (ex >=0)&&(ex <=1) ) { //FIXME :     
7302                                                  
7303       float edx = 0.3F * (xe-xx);                
7304                                                  
7305       if((val>=0)&&(val<=1)) {                   
7306         vtxs->add(ex-edx,val,aZ);                
7307         vtxs->add(ex+edx,val,aZ);                
7308       }                                          
7309                                                  
7310       if(bar_min >1)  {                          
7311         // do nothing                            
7312       } else  if(bar_max <0)  {                  
7313         // do nothing                            
7314       } else  if(bar_min <0) {                   
7315         if(bar_max >1) {                         
7316           vtxs->add(ex,0,aZ);                    
7317           vtxs->add(ex,1,aZ);                    
7318         } else {                                 
7319           vtxs->add(ex,0,aZ);                    
7320           vtxs->add(ex,bar_max,aZ);              
7321         }                                        
7322       } else  if(bar_max >1) {                   
7323         vtxs->add(ex,bar_min,aZ);                
7324         vtxs->add(ex,1,aZ);                      
7325       } else {                                   
7326         vtxs->add(ex    ,bar_min,aZ);            
7327         vtxs->add(ex    ,bar_max,aZ);            
7328       }                                          
7329                                                  
7330     }                                            
7331                                                  
7332     if(vtxs->number()) {                         
7333       m_errors_sep.add(_sep);                    
7334     } else {                                     
7335       delete _sep;                               
7336     }                                            
7337   }                                              
7338                                                  
7339   void rep_errors_I_xy(std::ostream& /*a_out*    
7340                        const rep_box& a_box_x    
7341     //a_out << "debug : rep_erros_I_xy : begi    
7342     separator* _sep = new separator();           
7343     //_sep->setString(aID);                      
7344                                                  
7345     rgba* mat = new rgba();                      
7346     mat->color = a_style.color;                  
7347     _sep->add(mat);                              
7348                                                  
7349     draw_style* ds = new draw_style;             
7350     ds->style.value(draw_lines);                 
7351     ds->line_pattern.value(a_style.line_patte    
7352     ds->line_width.value(a_style.line_width);    
7353     _sep->add(ds);                               
7354                                                  
7355     vertices* vtxs = new vertices;               
7356     vtxs->mode = gl::lines();                    
7357     _sep->add(vtxs);                             
7358                                                  
7359     float xmin = a_box_x.m_pos;                  
7360     float dx = a_box_x.m_width;                  
7361     bool xlog = a_box_x.m_log;                   
7362                                                  
7363     float ymin = a_box_y.m_pos;                  
7364     float dy = a_box_y.m_width;                  
7365     bool ylog = a_box_y.m_log;                   
7366                                                  
7367     size_t xnbin = a_bins.size();                
7368                                                  
7369     for(size_t index=0;index<xnbin;index++) {    
7370                                                  
7371       //Need all bins modeled for fitting.       
7372                                                  
7373       float val = a_bins[index].m_val;           
7374       float bar_height = a_bars[index];          
7375                                                  
7376       float bar_min = val - bar_height/2;        
7377       float bar_max = val + bar_height/2;        
7378                                                  
7379       float xx = a_bins[index].m_x_min;          
7380       float xe = a_bins[index].m_x_max;          
7381                                                  
7382       xx = verify_log(xx,xmin,dx,xlog);          
7383       xe = verify_log(xe,xmin,dx,xlog);          
7384       val = verify_log(val,ymin,dy,ylog);        
7385                                                  
7386       bar_min = verify_log(bar_min,ymin,dy,yl    
7387       bar_max = verify_log(bar_max,ymin,dy,yl    
7388                                                  
7389       if(xe<0) continue;                         
7390       if(xx>1) continue;                         
7391       if(xx<0) xx = 0;                           
7392       if(xe>1) xe = 1;                           
7393       if(val<0) val = 0;                         
7394       if(val>1) val = 1;                         
7395                                                  
7396       float ex = (xe+xx)/2;                      
7397       //if( (ex >=0)&&(ex <=1) ) { //FIXME :     
7398                                                  
7399       float edx = 0.3F * (xe-xx);                
7400                                                  
7401       if(bar_min >1)  {                          
7402         // do nothing                            
7403       } else  if(bar_max <0)  {                  
7404         // do nothing                            
7405       } else  if(bar_min <0) {                   
7406         if(bar_max >1) {                         
7407           vtxs->add(ex,0,aZ);                    
7408           vtxs->add(ex,1,aZ);                    
7409         } else {                                 
7410           vtxs->add(ex,0,aZ);                    
7411           vtxs->add(ex,bar_max,aZ);              
7412           vtxs->add(ex-edx,bar_max,aZ);          
7413           vtxs->add(ex+edx,bar_max,aZ);          
7414         }                                        
7415       } else  if(bar_max >1) {                   
7416         vtxs->add(ex-edx,bar_min,aZ);            
7417         vtxs->add(ex+edx,bar_min,aZ);            
7418         vtxs->add(ex,bar_min,aZ);                
7419         vtxs->add(ex,1,aZ);                      
7420       } else {                                   
7421         vtxs->add(ex-edx,bar_min,aZ);            
7422         vtxs->add(ex+edx,bar_min,aZ);            
7423         vtxs->add(ex    ,bar_min,aZ);            
7424         vtxs->add(ex    ,bar_max,aZ);            
7425         vtxs->add(ex-edx,bar_max,aZ);            
7426         vtxs->add(ex+edx,bar_max,aZ);            
7427       }                                          
7428                                                  
7429     }                                            
7430                                                  
7431     if(vtxs->number()) {                         
7432       m_errors_sep.add(_sep);                    
7433     } else {                                     
7434       delete _sep;                               
7435     }                                            
7436   }                                              
7437                                                  
7438   void rep_hatch1D_xy(const style& a_style,      
7439                       const std::vector<rep_b    
7440           const rep_box& a_box_x,const rep_bo    
7441           bool a_bar_chart){                     
7442     //printf("debug : tools::sg;:plotter::rep    
7443                                                  
7444     separator* _sep = new separator;             
7445                                                  
7446     rgba* mat = new rgba();                      
7447     mat->color = a_style.color;                  
7448     _sep->add(mat);                              
7449                                                  
7450     draw_style* ds = new draw_style;             
7451     if(a_style.strip_width.value()==0) {         
7452       ds->style = draw_lines;                    
7453       ds->line_pattern = line_solid;             
7454       ds->line_width = a_style.line_width;       
7455     } else {                                     
7456       ds->style = draw_filled;                   
7457       //ds->cull_face = true;                    
7458     }                                            
7459     _sep->add(ds);                               
7460                                                  
7461     float xmin = a_box_x.m_pos;                  
7462     float dx = a_box_x.m_width;                  
7463     bool xlog = a_box_x.m_log;                   
7464                                                  
7465     float ymin = a_box_y.m_pos;                  
7466     float dy = a_box_y.m_width;                  
7467     bool ylog = a_box_y.m_log;                   
7468                                                  
7469     bool empty = true;                           
7470                                                  
7471     vec3f points[5];                             
7472     size_t xnbin = a_bins.size();                
7473     for(size_t index=0;index<xnbin;index++) {    
7474       float xx = a_bins[index].m_x_min;          
7475       float xe = a_bins[index].m_x_max;          
7476       float yy = a_bins[index].m_v_min;          
7477       float ye = a_bins[index].m_val;            
7478       if(ye<yy) {                                
7479         yy = a_bins[index].m_val;                
7480         ye = a_bins[index].m_v_min;              
7481       }                                          
7482                                                  
7483       if(a_bar_chart) bar_chart(a_style.bar_o    
7484                                                  
7485       xx = verify_log(xx,xmin,dx,xlog);          
7486       xe = verify_log(xe,xmin,dx,xlog);          
7487       yy = verify_log(yy,ymin,dy,ylog);          
7488       ye = verify_log(ye,ymin,dy,ylog);          
7489                                                  
7490       // Clipping :                              
7491       if(xx>1) continue;                         
7492       if(xe<0) continue;                         
7493       if(xx<0) xx = 0;                           
7494       if(xe>1) xe = 1;                           
7495       if(yy>1) continue;                         
7496       if(ye<0) continue;                         
7497       if(yy<0) yy = 0;                           
7498       if(ye>1) ye = 1;                           
7499                                                  
7500       points[0].set_value(xx,yy,a_zz);           
7501       points[1].set_value(xe,yy,a_zz);           
7502       points[2].set_value(xe,ye,a_zz);           
7503       points[3].set_value(xx,ye,a_zz);           
7504       points[4].set_value(xx,yy,a_zz);           
7505                                                  
7506       //FIXME : have picking a hatch picks al    
7507                                                  
7508       hatcher _hatcher;                          
7509       _hatcher.set_offset_point(vec3f(0,0,a_z    
7510       _hatcher.set_angle(a_style.angle.value(    
7511       _hatcher.set_spacing(a_style.spacing.va    
7512       if(!_hatcher.set_strip_width(a_style.st    
7513                                                  
7514       bool res = _hatcher.check_polyline(poin    
7515       if(res) res = _hatcher.compute_polyline    
7516                                                  
7517       size_t numPoints = _hatcher.points().si    
7518       size_t numVertices = _hatcher.vertices(    
7519       if((res) && numPoints && numVertices) {    
7520                                                  
7521           const std::vector<vec3f>& _points =    
7522                                                  
7523           if(a_style.strip_width.value()==0)     
7524                                                  
7525             size_t ipt = 0;                      
7526       tools_vforcit(unsigned int,_hatcher.ver    
7527               vertices* vtxs = new vertices;     
7528               vtxs->mode = gl::line_strip();     
7529               for(size_t _index=0;_index<(*it    
7530                 vtxs->add(_points[ipt]);         
7531     ipt++;                                       
7532               }                                  
7533               _sep->add(vtxs);                   
7534               empty = false;                     
7535       }                                          
7536                                                  
7537           } else {                               
7538             size_t ipt = 0;                      
7539       tools_vforcit(unsigned int,_hatcher.ver    
7540               vertices* vtxs = new vertices;     
7541               vtxs->mode = gl::triangle_fan()    
7542               for(size_t _index=0;_index<(*it    
7543                 vtxs->add(_points[ipt]);         
7544     ipt++;                                       
7545               }                                  
7546               _sep->add(vtxs);                   
7547               empty = false;                     
7548       }                                          
7549     }                                            
7550                                                  
7551       }                                          
7552     }                                            
7553     if(empty) {                                  
7554       delete _sep;                               
7555     } else {                                     
7556       m_bins_sep.add(_sep);                      
7557     }                                            
7558   }                                              
7559                                                  
7560   void rep_points2D_xy_lines(const style& a_s    
7561                              const rep_box& a    
7562     //::printf("debug : rep_points2D_xy_lines    
7563     float xmin = a_box_x.m_pos;                  
7564     float dx = a_box_x.m_width;                  
7565     bool xlog = a_box_x.m_log;                   
7566                                                  
7567     float ymin = a_box_y.m_pos;                  
7568     float dy = a_box_y.m_width;                  
7569     bool ylog = a_box_y.m_log;                   
7570                                                  
7571     separator* _sep = new separator();           
7572                                                  
7573     rgba* mat = new rgba();                      
7574     mat->color = a_style.color;                  
7575     _sep->add(mat);                              
7576                                                  
7577     draw_style* ds = new draw_style;             
7578     ds->style.value(draw_lines);                 
7579     ds->line_pattern.value(a_style.line_patte    
7580     ds->line_width.value(a_style.line_width);    
7581     _sep->add(ds);                               
7582                                                  
7583     vertices* vtxs = new vertices;               
7584     vtxs->mode = gl::line_strip();               
7585     _sep->add(vtxs);                             
7586                                                  
7587     bool empty = true;                           
7588                                                  
7589     float x,y;                                   
7590     unsigned int number = a_points.points();     
7591     for(unsigned int index=0;index<number;ind    
7592       a_points.ith_point(index,x,y);             
7593       x = verify_log(x,xmin,dx,xlog);            
7594       y = verify_log(y,ymin,dy,ylog);            
7595       if((x<0)||(x>1)||(y<0)||(y>1)) continue    
7596       vtxs->add(x,y,a_zz);                       
7597       empty = false;                             
7598     }                                            
7599                                                  
7600     if(empty) {                                  
7601       delete _sep;                               
7602     } else {                                     
7603       m_points_sep.add(_sep);                    
7604     }                                            
7605   }                                              
7606                                                  
7607   void rep_points2D_xy_curve(std::ostream& a_    
7608                              const rep_box& a    
7609     //::printf("debug : rep_points2D_xy_curve    
7610     unsigned int number = a_points.points();     
7611     if(!number) return;                          
7612                                                  
7613     double* xs = new double[number];             
7614     double* ys = new double[number];             
7615     float x,y;                                   
7616    {for(unsigned int index=0;index<number;ind    
7617       a_points.ith_point(index,x,y);             
7618       xs[index] = x;ys[index] = y;               
7619     }}                                           
7620     spline::cubic _spline(a_out,number,xs,ys)    
7621   //spline::quintic _spline(a_out,number,xs,y    
7622     delete [] xs;delete [] ys;                   
7623                                                  
7624     float xmn = m_x_axis_data.min_value();       
7625     float xmx = m_x_axis_data.max_value();       
7626     unsigned int nstp = curve_number_of_point    
7627     float step = (xmx - xmn)/nstp;               
7628     std::vector<vec3f> points(nstp+1);           
7629     for(unsigned int ibin=0;ibin<=nstp;ibin++    
7630       float xx = xmn + ibin * step;              
7631       double val = _spline.eval(xx);             
7632       points[ibin].set_value(xx,float(val),a_    
7633     }                                            
7634                                                  
7635     vertices* vtxs = new vertices;               
7636     std::vector<float>& pts = vtxs->xyzs.valu    
7637                                                  
7638     clip_polyline_2D(points,a_box_x,a_box_y,p    
7639     if(pts.size()) {                             
7640       sg::separator* separator = new sg::sepa    
7641       //separator->setString(aID);               
7642                                                  
7643       rgba* mat = new rgba();                    
7644       mat->color = a_style.color;                
7645       separator->add(mat);                       
7646                                                  
7647       draw_style* ds = new draw_style;           
7648       ds->style = draw_lines;                    
7649       ds->line_pattern = a_style.line_pattern    
7650       ds->line_width = a_style.line_width;       
7651       separator->add(ds);                        
7652                                                  
7653       vtxs->mode = gl::line_strip();             
7654       separator->add(vtxs);                      
7655                                                  
7656       m_points_sep.add(separator);               
7657     } else {                                     
7658       delete vtxs;                               
7659     }                                            
7660                                                  
7661   }                                              
7662                                                  
7663   void rep_points2D_xy_points(std::ostream& a    
7664                               const style& a_    
7665                               const rep_box&     
7666     float xmin = a_box_x.m_pos;                  
7667     float dx = a_box_x.m_width;                  
7668     bool xlog = a_box_x.m_log;                   
7669                                                  
7670     float ymin = a_box_y.m_pos;                  
7671     float dy = a_box_y.m_width;                  
7672     bool ylog = a_box_y.m_log;                   
7673                                                  
7674     separator* _sep = new separator();           
7675                                                  
7676     rgba* mat = new rgba();                      
7677     mat->color = a_style.color;                  
7678     _sep->add(mat);                              
7679                                                  
7680     mf<float>* _xyzs = 0;                        
7681                                                  
7682     if(a_style.modeling==modeling_markers())     
7683       markers* _marks = new markers;             
7684       _marks->size = a_style.marker_size;        
7685       _marks->style = a_style.marker_style;      
7686       _xyzs = &(_marks->xyzs);                   
7687       _sep->add(_marks);                         
7688                                                  
7689     } else if(a_style.modeling==modeling_poin    
7690       draw_style* ds = new draw_style;           
7691       ds->style = draw_points;                   
7692       ds->point_size = a_style.point_size;       
7693       _sep->add(ds);                             
7694                                                  
7695       vertices* vtxs = new vertices;             
7696       vtxs->mode = gl::points();                 
7697       _xyzs = &(vtxs->xyzs);                     
7698       _sep->add(vtxs);                           
7699     } else {                                     
7700       a_out << "tools::sg::plotter::rep_point    
7701             << " bad modeling style " << tool    
7702       delete _sep;                               
7703       return;                                    
7704     }                                            
7705                                                  
7706     float x,y;                                   
7707                                                  
7708     // first round trip to get number of floa    
7709     size_t npts = 0;                             
7710    {unsigned int number = a_points.points();     
7711     for(unsigned int index=0;index<number;ind    
7712       a_points.ith_point(index,x,y);             
7713       //float val = a_bins[index].m_val;         
7714       x = verify_log(x,xmin,dx,xlog);            
7715       y = verify_log(y,ymin,dy,ylog);            
7716       if((x<0)||(x>1)||(y<0)||(y>1)) continue    
7717       npts += 3;                                 
7718     }}                                           
7719                                                  
7720     _xyzs->values().resize(npts);                
7721     size_t xyz_pos = 0;                          
7722                                                  
7723     bool empty = true;                           
7724                                                  
7725    {unsigned int number = a_points.points();     
7726     for(unsigned int index=0;index<number;ind    
7727       a_points.ith_point(index,x,y);             
7728       //float val = a_bins[index].m_val;         
7729       x = verify_log(x,xmin,dx,xlog);            
7730       y = verify_log(y,ymin,dy,ylog);            
7731       if((x<0)||(x>1)||(y<0)||(y>1)) continue    
7732       _xyzs->add_allocated(xyz_pos,x,y,a_zz);    
7733       empty = false;                             
7734     }}                                           
7735                                                  
7736     if(empty) {                                  
7737       delete _sep;                               
7738     } else {                                     
7739       m_points_sep.add(_sep);                    
7740     }                                            
7741   }                                              
7742                                                  
7743   void rep_points3D_xyz_points(std::ostream&     
7744                                const style& a    
7745                                const rep_box&    
7746     float xmin = a_box_x.m_pos;                  
7747     float dx = a_box_x.m_width;                  
7748     bool xlog = a_box_x.m_log;                   
7749                                                  
7750     float ymin = a_box_y.m_pos;                  
7751     float dy = a_box_y.m_width;                  
7752     bool ylog = a_box_y.m_log;                   
7753                                                  
7754     float zmin = a_box_z.m_pos;                  
7755     float dz = a_box_z.m_width;                  
7756     bool zlog = a_box_z.m_log;                   
7757                                                  
7758     separator* _sep = new separator();           
7759                                                  
7760     rgba* mat = new rgba();                      
7761     mat->color = a_style.color;                  
7762     _sep->add(mat);                              
7763                                                  
7764     mf<float>* _xyzs = 0;                        
7765                                                  
7766     if(a_style.modeling==modeling_markers())     
7767       markers* _marks = new markers;             
7768       _marks->size = a_style.marker_size;        
7769       _marks->style = a_style.marker_style;      
7770       _xyzs = &(_marks->xyzs);                   
7771       _sep->add(_marks);                         
7772                                                  
7773     } else if(a_style.modeling==modeling_poin    
7774       draw_style* ds = new draw_style;           
7775       ds->style = draw_points;                   
7776       ds->point_size = a_style.point_size;       
7777       _sep->add(ds);                             
7778                                                  
7779       vertices* vtxs = new vertices;             
7780       vtxs->mode = gl::points();                 
7781       _xyzs = &(vtxs->xyzs);                     
7782       _sep->add(vtxs);                           
7783     } else {                                     
7784       a_out << "tools::sg::plotter::rep_point    
7785             << " bad modeling style " << tool    
7786       delete _sep;                               
7787       return;                                    
7788     }                                            
7789                                                  
7790     float x,y,z;                                 
7791                                                  
7792     // first round trip to get number of floa    
7793     size_t npts = 0;                             
7794    {unsigned int number = a_points.points();     
7795     for(unsigned int index=0;index<number;ind    
7796       a_points.ith_point(index,x,y,z);           
7797       //float val = a_bins[index].m_val;         
7798       x = verify_log(x,xmin,dx,xlog);            
7799       y = verify_log(y,ymin,dy,ylog);            
7800       z = verify_log(z,zmin,dz,zlog);            
7801       if((x<0)||(x>1)||(y<0)||(y>1)||(z<0)||(    
7802       npts += 3;                                 
7803     }}                                           
7804                                                  
7805     _xyzs->values().resize(npts);                
7806     size_t xyz_pos = 0;                          
7807                                                  
7808     bool empty = true;                           
7809                                                  
7810    {unsigned int number = a_points.points();     
7811     for(unsigned int index=0;index<number;ind    
7812       a_points.ith_point(index,x,y,z);           
7813       //float val = a_bins[index].m_val;         
7814       x = verify_log(x,xmin,dx,xlog);            
7815       y = verify_log(y,ymin,dy,ylog);            
7816       z = verify_log(z,zmin,dz,zlog);            
7817       if((x<0)||(x>1)||(y<0)||(y>1)||(z<0)||(    
7818       _xyzs->add_allocated(xyz_pos,x,y,z);       
7819       empty = false;                             
7820     }}                                           
7821                                                  
7822     if(empty) {                                  
7823       delete _sep;                               
7824     } else {                                     
7825       m_points_sep.add(_sep);                    
7826     }                                            
7827   }                                              
7828                                                  
7829   void rep_bins2D_xyz_box(const style& a_styl    
7830                           const rep_box& a_bo    
7831     float xmin = a_box_x.m_pos;                  
7832     float dx = a_box_x.m_width;                  
7833     bool xlog = a_box_x.m_log;                   
7834                                                  
7835     float ymin = a_box_y.m_pos;                  
7836     float dy = a_box_y.m_width;                  
7837     bool ylog = a_box_y.m_log;                   
7838                                                  
7839     float zmin = a_box_z.m_pos;                  
7840     float dz = a_box_z.m_width;                  
7841     bool zlog = a_box_z.m_log;                   
7842                                                  
7843     painting_policy painting = a_style.painti    
7844                                                  
7845     separator* _sep = new separator();           
7846                                                  
7847     bool empty = true;                           
7848     //float range = a_bmax - a_bmin;             
7849     colorf clr;                                  
7850                                                  
7851     tools_vforcit(rep_bin2D,a_bins,it) {         
7852       const rep_bin2D& rbin = *it;               
7853                                                  
7854       float xx = rbin.m_x_min;                   
7855       float xe = rbin.m_x_max;                   
7856       float yy = rbin.m_y_min;                   
7857       float ye = rbin.m_y_max;                   
7858       float val = rbin.m_val;                    
7859       float zz = a_bmin;                         
7860       float ze = val;                            
7861                                                  
7862       xx = verify_log(xx ,xmin,dx  ,xlog);       
7863       xe = verify_log(xe ,xmin,dx  ,xlog);       
7864       yy = verify_log(yy ,ymin,dy  ,ylog);       
7865       ye = verify_log(ye ,ymin,dy  ,ylog);       
7866       zz = verify_log(zz ,zmin,dz  ,zlog);       
7867       ze = verify_log(ze ,zmin,dz  ,zlog);       
7868                                                  
7869       // Clipping :                              
7870       if(xx>1) continue;                         
7871       if(xe<0) continue;                         
7872       if(xx<0) xx = 0;                           
7873       if(xe>1) xe = 1;                           
7874                                                  
7875       if(yy>1) continue;                         
7876       if(ye<0) continue;                         
7877       if(yy<0) yy = 0;                           
7878       if(ye>1) ye = 1;                           
7879                                                  
7880       if(zz>1) continue;                         
7881       if(ze<0) continue;                         
7882       if(zz<0) zz = 0;                           
7883       if(ze>1) ze = 1;                           
7884                                                  
7885       if(yy>=ye) continue;                       
7886       if(xx>=xe) continue;                       
7887       if(zz>=ze) continue;                       
7888                                                  
7889       separator* sep = new separator();          
7890       _sep->add(sep);                            
7891                                                  
7892       if(painting==painting_by_value) {          
7893         a_cmap.get_color(val,clr);               
7894       } else if( (painting==painting_grey_sca    
7895                  (painting==painting_grey_sca    
7896                  (painting==painting_violet_t    
7897         a_cmap.get_color(rbin.m_ratio,clr);      
7898       } else {                                   
7899         clr = a_style.color;                     
7900       }                                          
7901                                                  
7902       rgba* mat = new rgba();                    
7903       mat->color = clr;                          
7904       sep->add(mat);                             
7905                                                  
7906    /*{char s[128];                               
7907       //::sprintf(s,"%d %d",rbin.fI,rbin.fJ);    
7908       sep->setInfos(s);                          
7909       //::sprintf(s,"/0x%lx",(unsigned long)s    
7910       std::string sid = aID;                     
7911       sid += std::string(s);                     
7912       sep->setString(sid);}*/                    
7913                                                  
7914       float sx = xe-xx;                          
7915       float sy = ye-yy;                          
7916       float sz = ze-zz;                          
7917                                                  
7918       matrix* _tsf = new matrix;                 
7919       _tsf->set_translate(xx+sx/2,yy+sy/2,sz/    
7920       sep->add(_tsf);                            
7921                                                  
7922       cube* _cube = new cube;                    
7923       _cube->width = sx;                         
7924       _cube->height = sy;                        
7925       _cube->depth = sz;                         
7926       sep->add(_cube);                           
7927                                                  
7928       empty = false;                             
7929     }                                            
7930                                                  
7931     if(empty) {                                  
7932       delete _sep;                               
7933     } else {                                     
7934       m_bins_sep.add(_sep);                      
7935     }                                            
7936   }                                              
7937                                                  
7938   void rep_top_face2D_xyz(separator& a_sep,co    
7939                           const std::vector<r    
7940         const rep_box& a_box_x,const rep_box&    
7941     float xmin = a_box_x.m_pos;                  
7942     float dx = a_box_x.m_width;                  
7943     bool xlog = a_box_x.m_log;                   
7944                                                  
7945     float ymin = a_box_y.m_pos;                  
7946     float dy = a_box_y.m_width;                  
7947     bool ylog = a_box_y.m_log;                   
7948                                                  
7949     float zmin = a_box_z.m_pos;                  
7950     float dz = a_box_z.m_width;                  
7951     bool zlog = a_box_z.m_log;                   
7952                                                  
7953     bool empty = true;                           
7954                                                  
7955     painting_policy painting = a_style.painti    
7956                                                  
7957     separator* _sep = new separator();           
7958                                                  
7959     //draw_style* ds = new draw_style;           
7960     //ds->style = draw_filled;                   
7961     //ds->cull_face = true;                      
7962     //_sep->add(ds);                             
7963                                                  
7964     atb_vertices* vtxs = new atb_vertices;       
7965     vtxs->mode = gl::triangles();                
7966     vtxs->do_back = true;                        
7967     vtxs->epsilon = 1e-6f;                       
7968     _sep->add(vtxs);                             
7969                                                  
7970     colorf clr;                                  
7971     vec3f nm;                                    
7972                                                  
7973     size_t number = a_faces.size();              
7974     for(size_t index=0;index<number;index++)     
7975       float xx = a_faces[index].m_x_min;         
7976       float xe = a_faces[index].m_x_max;         
7977       float yy = a_faces[index].m_y_min;         
7978       float ye = a_faces[index].m_y_max;         
7979       float val1 = a_faces[index].m_v1;          
7980       float val2 = a_faces[index].m_v2;          
7981       float val3 = a_faces[index].m_v3;          
7982       float val4 = a_faces[index].m_v4;          
7983                                                  
7984       float val = val1;                          
7985                                                  
7986       val1 = verify_log(val1,zmin,dz,zlog);      
7987       val2 = verify_log(val2,zmin,dz,zlog);      
7988       val3 = verify_log(val3,zmin,dz,zlog);      
7989       val4 = verify_log(val4,zmin,dz,zlog);      
7990       xx = verify_log(xx,xmin,dx,xlog);          
7991       xe = verify_log(xe,xmin,dx,xlog);          
7992       yy = verify_log(yy,ymin,dy,ylog);          
7993       ye = verify_log(ye,ymin,dy,ylog);          
7994                                                  
7995       if(val1<0) val1 = 0;                       
7996       if(val1>1) val1 = 1;                       
7997                                                  
7998       if(val2<0) val2 = 0;                       
7999       if(val2>1) val2 = 1;                       
8000                                                  
8001       if(val3<0) val3 = 0;                       
8002       if(val3>1) val3 = 1;                       
8003                                                  
8004       if(val4<0) val4 = 0;                       
8005       if(val4>1) val4 = 1;                       
8006                                                  
8007       if((xx>=0)&&(xx<=1)   &&                   
8008          (xe>=0)&&(xe<=1)   &&                   
8009          (yy>=0)&&(yy<=1)   &&                   
8010          (ye>=0)&&(ye<=1)  ) {                   
8011                                                  
8012         if(painting==painting_by_value) {        
8013           float v = (zlog?take_log(val):val);    
8014           a_cmap.get_color(v,clr);               
8015         } else if( (painting==painting_grey_s    
8016                    (painting==painting_grey_s    
8017                    (painting==painting_violet    
8018           a_cmap.get_color(a_faces[index].m_r    
8019         } else {                                 
8020           clr = a_style.color;                   
8021         }                                        
8022                                                  
8023         //if(a_style.area_style.getValue()==S    
8024         //}                                      
8025                                                  
8026         /////////////////////////////////////    
8027         /////////////////////////////////////    
8028         vtxs->add(xx,ye,val4);                   
8029         vtxs->add(xx,yy,val1);                   
8030         vtxs->add(xe,yy,val2);                   
8031                                                  
8032         vtxs->add_color(clr);                    
8033         vtxs->add_color(clr);                    
8034         vtxs->add_color(clr);                    
8035                                                  
8036         direction(xx,ye,val4,                    
8037                   xx,yy,val1,                    
8038                   xe,yy,val2,nm);                
8039         nm.normalize();                          
8040         vtxs->add_normal(nm[0],nm[1],nm[2]);     
8041         vtxs->add_normal(nm[0],nm[1],nm[2]);     
8042         vtxs->add_normal(nm[0],nm[1],nm[2]);     
8043                                                  
8044         /////////////////////////////////////    
8045         /////////////////////////////////////    
8046         vtxs->add(xe,yy,val2);                   
8047         vtxs->add(xe,ye,val3);                   
8048         vtxs->add(xx,ye,val4);                   
8049                                                  
8050         vtxs->add_rgba(clr[0],clr[1],clr[2],c    
8051         vtxs->add_rgba(clr[0],clr[1],clr[2],c    
8052         vtxs->add_rgba(clr[0],clr[1],clr[2],c    
8053                                                  
8054         direction(xe,yy,val2,                    
8055                   xe,ye,val3,                    
8056                   xx,ye,val4,nm);                
8057         nm.normalize();                          
8058         vtxs->add_normal(nm[0],nm[1],nm[2]);     
8059         vtxs->add_normal(nm[0],nm[1],nm[2]);     
8060         vtxs->add_normal(nm[0],nm[1],nm[2]);     
8061                                                  
8062         empty = false;                           
8063       }                                          
8064     }                                            
8065     if(empty) {                                  
8066       delete _sep;                               
8067     } else {                                     
8068       a_sep.add(_sep);                           
8069     }                                            
8070   }                                              
8071                                                  
8072   void rep_top_face2D_xyz_line(const style& /    
8073                                const rep_box&    
8074     //::printf("debug : rep_top_face2D_xyz_li    
8075                                                  
8076     float xmin = a_box_x.m_pos;                  
8077     float dx = a_box_x.m_width;                  
8078     bool xlog = a_box_x.m_log;                   
8079                                                  
8080     float ymin = a_box_y.m_pos;                  
8081     float dy = a_box_y.m_width;                  
8082     bool ylog = a_box_y.m_log;                   
8083                                                  
8084     float zmin = a_box_z.m_pos;                  
8085     float dz = a_box_z.m_width;                  
8086     bool zlog = a_box_z.m_log;                   
8087                                                  
8088     sg::separator* separator = new sg::separa    
8089     bool empty = true;                           
8090                                                  
8091     rgba* mat = new rgba();                      
8092     mat->color = colorf_black();                 
8093     separator->add(mat);                         
8094                                                  
8095     draw_style* ds = new draw_style;             
8096     ds->style = draw_lines;                      
8097     ds->line_pattern = line_solid;               
8098     ds->line_width = 1;                          
8099     separator->add(ds);                          
8100                                                  
8101     vertices* vtxs = new vertices;               
8102     vtxs->mode = gl::lines();                    
8103     separator->add(vtxs);                        
8104                                                  
8105     float zepsilon = 0.02f; //for pawex9.kuma    
8106                                                  
8107     size_t number = a_top_faces.size();          
8108     for(size_t index=0;index<number;index++)     
8109       float xx = a_top_faces[index].m_x_min;     
8110       float xe = a_top_faces[index].m_x_max;     
8111       float yy = a_top_faces[index].m_y_min;     
8112       float ye = a_top_faces[index].m_y_max;     
8113       float val1 = a_top_faces[index].m_v1;      
8114       float val2 = a_top_faces[index].m_v2;      
8115       float val3 = a_top_faces[index].m_v3;      
8116       float val4 = a_top_faces[index].m_v4;      
8117                                                  
8118       //float val = val1;                        
8119                                                  
8120       val1 = verify_log(val1,zmin,dz,zlog);      
8121       val2 = verify_log(val2,zmin,dz,zlog);      
8122       val3 = verify_log(val3,zmin,dz,zlog);      
8123       val4 = verify_log(val4,zmin,dz,zlog);      
8124       xx = verify_log(xx,xmin,dx,xlog);          
8125       xe = verify_log(xe,xmin,dx,xlog);          
8126       yy = verify_log(yy,ymin,dy,ylog);          
8127       ye = verify_log(ye,ymin,dy,ylog);          
8128                                                  
8129       if(val1<0) val1 = 0;                       
8130       if(val1>1) val1 = 1;                       
8131                                                  
8132       if(val2<0) val2 = 0;                       
8133       if(val2>1) val2 = 1;                       
8134                                                  
8135       if(val3<0) val3 = 0;                       
8136       if(val3>1) val3 = 1;                       
8137                                                  
8138       if(val4<0) val4 = 0;                       
8139       if(val4>1) val4 = 1;                       
8140                                                  
8141       if((xx>=0)&&(xx<=1)   &&                   
8142          (xe>=0)&&(xe<=1)   &&                   
8143          (yy>=0)&&(yy<=1)   &&                   
8144          (ye>=0)&&(ye<=1)  ) {                   
8145                                                  
8146         vtxs->add(xx,ye,val4+zepsilon);          
8147         vtxs->add(xx,yy,val1+zepsilon);          
8148                                                  
8149         vtxs->add(xx,yy,val1+zepsilon);          
8150         vtxs->add(xe,yy,val2+zepsilon);          
8151                                                  
8152         vtxs->add(xe,yy,val2+zepsilon);          
8153         vtxs->add(xe,ye,val3+zepsilon);          
8154                                                  
8155         vtxs->add(xe,ye,val3+zepsilon);          
8156         vtxs->add(xx,ye,val4+zepsilon);          
8157                                                  
8158         empty = false;                           
8159                                                  
8160       }                                          
8161     }                                            
8162     if(empty) {                                  
8163       delete separator;                          
8164     } else {                                     
8165       m_bins_sep.add(separator);                 
8166     }                                            
8167   }                                              
8168                                                  
8169   void rep_top_face2D_xyz_by_level(const styl    
8170                                    const std:    
8171                                    const rep_    
8172                                    float a_bm    
8173     //::printf("debug : rep_top_face2D_xyz_by    
8174                                                  
8175     size_t ncol = a_cmap.colorn();               
8176     if(!ncol) return;                            
8177                                                  
8178     float xmin = a_box_x.m_pos;                  
8179     float dx = a_box_x.m_width;                  
8180     bool xlog = a_box_x.m_log;                   
8181                                                  
8182     float ymin = a_box_y.m_pos;                  
8183     float dy = a_box_y.m_width;                  
8184     bool ylog = a_box_y.m_log;                   
8185                                                  
8186     float zmin = a_box_z.m_pos;                  
8187     float dz = a_box_z.m_width;                  
8188     bool zlog = a_box_z.m_log;                   
8189                                                  
8190     float zz = a_bmin;                           
8191     zz = verify_log(zz,zmin,dz,zlog);            
8192     float zmx = a_bmax;                          
8193     zmx = verify_log(zmx,zmin,dz,zlog);          
8194                                                  
8195     bool empty = true;                           
8196                                                  
8197     sg::separator* separator = new sg::separa    
8198     //separator->setString(aID);                 
8199                                                  
8200     atb_vertices* tris = new atb_vertices;       
8201     tris->mode = gl::triangles();                
8202     tris->do_back = true;                        
8203     tris->epsilon = 1e-6f;                       
8204     separator->add(tris);                        
8205                                                  
8206     colorf _color;                               
8207     vec3f _point;                                
8208                                                  
8209     float d_z = (zmx-zz)/ncol;                   
8210                                                  
8211     size_t number = a_top_faces.size();          
8212                                                  
8213     for(size_t icol=0;icol<ncol;icol++) {        
8214                                                  
8215       //sg::separator* sep = new sg::separato    
8216       //bool sep_empty = true;                   
8217                                                  
8218       _color = a_cmap.color(icol);               
8219                                                  
8220       for(size_t index=0;index<number;index++    
8221         float xx = a_top_faces[index].m_x_min    
8222         float xe = a_top_faces[index].m_x_max    
8223         float yy = a_top_faces[index].m_y_min    
8224         float ye = a_top_faces[index].m_y_max    
8225         float val1 = a_top_faces[index].m_v1;    
8226         float val2 = a_top_faces[index].m_v2;    
8227         float val3 = a_top_faces[index].m_v3;    
8228         float val4 = a_top_faces[index].m_v4;    
8229                                                  
8230         //float val = val1;                      
8231                                                  
8232         val1 = verify_log(val1,zmin,dz,zlog);    
8233         val2 = verify_log(val2,zmin,dz,zlog);    
8234         val3 = verify_log(val3,zmin,dz,zlog);    
8235         val4 = verify_log(val4,zmin,dz,zlog);    
8236         xx = verify_log(xx,xmin,dx,xlog);        
8237         xe = verify_log(xe,xmin,dx,xlog);        
8238         yy = verify_log(yy,ymin,dy,ylog);        
8239         ye = verify_log(ye,ymin,dy,ylog);        
8240                                                  
8241         if(val1<0) val1 = 0;                     
8242         if(val1>1) val1 = 1;                     
8243                                                  
8244         if(val2<0) val2 = 0;                     
8245         if(val2>1) val2 = 1;                     
8246                                                  
8247         if(val3<0) val3 = 0;                     
8248         if(val3>1) val3 = 1;                     
8249                                                  
8250         if(val4<0) val4 = 0;                     
8251         if(val4>1) val4 = 1;                     
8252                                                  
8253         if((xx>=0)&&(xx<=1)   &&                 
8254            (xe>=0)&&(xe<=1)   &&                 
8255            (yy>=0)&&(yy<=1)   &&                 
8256            (ye>=0)&&(ye<=1)  ) {                 
8257                                                  
8258           ///////////////////////////////////    
8259           ///////////////////////////////////    
8260          {clip<vec3f> clipper;                   
8261           clipper.add(vec3f(xx,ye,val4));        
8262           clipper.add(vec3f(xx,yy,val1));        
8263           clipper.add(vec3f(xe,yy,val2));        
8264           //val[n] had been z normalized.        
8265           float z1 = zz+d_z*icol;                
8266           float z2 = z1+d_z;                     
8267           plane<vec3f> plane_z_bot(vec3f(0,0,    
8268           plane<vec3f> plane_z_top(vec3f(0,0,    
8269           clipper.execute(plane_z_bot);          
8270           clipper.execute(plane_z_top);          
8271                                                  
8272           const std::vector<vec3f>& result =     
8273           if(result.size()) {                    
8274             plane<vec3f> plane1(vec3f(xx,ye,v    
8275             if(result.size()==3) {               
8276               tools_vforcit(vec3f,result,it)     
8277                 tris->add(*it);                  
8278                 tris->add_color(_color);         
8279                 tris->add_normal(plane1.norma    
8280               }                                  
8281             } else {                             
8282               atb_vertices* vtxs = new atb_ve    
8283               vtxs->mode = gl::triangle_fan()    
8284               vtxs->do_back = true;              
8285               vtxs->epsilon = 1e-6f;             
8286               separator->add(vtxs);              
8287               tools_vforcit(vec3f,result,it)     
8288                 vtxs->add(*it);                  
8289                 vtxs->add_color(_color);         
8290                 vtxs->add_normal(plane1.norma    
8291               }                                  
8292         }                                        
8293             empty = false;                       
8294             //sep_empty = false;                 
8295           }}                                     
8296                                                  
8297           ///////////////////////////////////    
8298           ///////////////////////////////////    
8299          {clip<vec3f> clipper;                   
8300           clipper.add(vec3f(xe,yy,val2));        
8301           clipper.add(vec3f(xe,ye,val3));        
8302           clipper.add(vec3f(xx,ye,val4));        
8303           //val[n] had been z normalized.        
8304           float z1 = zz+d_z*icol;                
8305           float z2 = z1+d_z;                     
8306           plane<vec3f> plane_z_bot(vec3f(0,0,    
8307           plane<vec3f> plane_z_top(vec3f(0,0,    
8308           clipper.execute(plane_z_bot);          
8309           clipper.execute(plane_z_top);          
8310                                                  
8311           const std::vector<vec3f>& result =     
8312           if(result.size()) {                    
8313             plane<vec3f> plane2(vec3f(xe,yy,v    
8314             if(result.size()==3) {               
8315               tools_vforcit(vec3f,result,it)     
8316                 tris->add(*it);                  
8317                 tris->add_color(_color);         
8318                 tris->add_normal(plane2.norma    
8319               }                                  
8320             } else {                             
8321               atb_vertices* vtxs = new atb_ve    
8322               vtxs->mode = gl::triangle_fan()    
8323               vtxs->do_back = true;              
8324               vtxs->epsilon = 1e-6f;             
8325               separator->add(vtxs);              
8326               tools_vforcit(vec3f,result,it)     
8327                 vtxs->add(*it);                  
8328                 vtxs->add_color(_color);         
8329                 vtxs->add_normal(plane2.norma    
8330               }                                  
8331             }                                    
8332             empty = false;                       
8333             //sep_empty = false;                 
8334           }}                                     
8335         }                                        
8336                                                  
8337       } //index faces                            
8338                                                  
8339       //if(sep_empty) {                          
8340       //  delete sep;                            
8341       //} else {                                 
8342       //  separator->add(sep);                   
8343       //}                                        
8344                                                  
8345     } //icol                                     
8346                                                  
8347     if(empty) {                                  
8348       delete separator;                          
8349     } else {                                     
8350       m_bins_sep.add(separator);                 
8351     }                                            
8352   }                                              
8353                                                  
8354   // for OpenPAW /GRAPHICS/PRIMITIVES/TEXT       
8355   // for OpenPAW /GRAPHICS/PRIMITIVES/ITX        
8356   void update_primitive_text(const plottable_    
8357     if(a_obj.m_TEXT.empty()) return;             
8358                                                  
8359     float z = xy_depth.value()*1.1F;             
8360                                                  
8361     vec3f pos;                                   
8362     axis_2_data_frame(vec3f(a_obj.m_X,a_obj.m    
8363     xx_2_yy(pos,pos);                            
8364                                                  
8365     separator* sep = new separator;              
8366                                                  
8367     rgba* mat = new rgba();                      
8368     mat->color = a_obj.m_TXCI;                   
8369     sep->add(mat);                               
8370                                                  
8371     matrix* _tsf = new matrix;                   
8372     _tsf->set_translate(pos);                    
8373     _tsf->mul_rotate(0,0,1,a_obj.m_ANGLE*fpi(    
8374     _tsf->mul_scale(a_obj.m_SCALE,a_obj.m_SCA    
8375     sep->add(_tsf);                              
8376                                                  
8377     //SIZE is in page coordinate YSIZ.           
8378     //float YSIZ = height.value();               
8379     //if(YSIZ<=0) YSIZ = 1;                      
8380                                                  
8381     //::printf("debug : tools::sg::plotter::u    
8382     //    a_obj.m_TEXT.c_str(),a_obj.m_X,a_ob    
8383     //    pos[0],pos[1],pos[2]);                 
8384                                                  
8385     if(a_obj.m_text_mode==plottable_text::tex    
8386                                                  
8387       vec3f pos2;                                
8388       axis_2_data_frame(vec3f(a_obj.m_X+a_obj    
8389       xx_2_yy(pos2,pos2);                        
8390                                                  
8391       float _width = pos2.x()-pos.x();           
8392                                                  
8393       text* _text = new text(m_ttf);             
8394       _text->enforce_front_width = true;  //i    
8395       _text->front_width = _width;               
8396       _text->back_visible = false;               
8397                                                  
8398       _text->encoding = encoding_PAW();          
8399       _text->strings.add(a_obj.m_TEXT);          
8400       _text->line_width = a_obj.m_line_width;    
8401       _text->font = a_obj.m_FONT;                
8402       _text->font_modeling = a_obj.m_font_mod    
8403                                                  
8404       if(a_obj.m_HJUST=='R') {                   
8405         _text->hjust = right;                    
8406       } else if(a_obj.m_HJUST=='C') {            
8407         _text->hjust = center;                   
8408       } else {                                   
8409         _text->hjust = left;                     
8410       }                                          
8411       if(a_obj.m_VJUST=='T') {                   
8412         _text->vjust = top;                      
8413       } else if(a_obj.m_VJUST=='M') {            
8414         _text->vjust = middle;                   
8415       } else {                                   
8416         _text->vjust = bottom;                   
8417       }                                          
8418                                                  
8419       sep->add(_text);                           
8420                                                  
8421     } else if(a_obj.m_text_mode==plottable_te    
8422                                                  
8423       vec3f pos2;                                
8424       axis_2_data_frame(vec3f(a_obj.m_X,a_obj    
8425       xx_2_yy(pos2,pos2);                        
8426                                                  
8427       float _height = pos2.y()-pos.y();          
8428                                                  
8429       text* _text = new text(m_ttf);             
8430       _text->enforce_front_height = true;  //    
8431       _text->front_height = _height;             
8432       _text->back_visible = false;  //if true    
8433                                                  
8434       _text->encoding = encoding_PAW();          
8435       _text->strings.add(a_obj.m_TEXT);          
8436       _text->line_width = a_obj.m_line_width;    
8437       _text->font = a_obj.m_FONT;                
8438       _text->font_modeling = a_obj.m_font_mod    
8439                                                  
8440       if(a_obj.m_HJUST=='R') {                   
8441         _text->hjust = right;                    
8442       } else if(a_obj.m_HJUST=='C') {            
8443         _text->hjust = center;                   
8444       } else {                                   
8445         _text->hjust = left;                     
8446       }                                          
8447       if(a_obj.m_VJUST=='T') {                   
8448         _text->vjust = top;                      
8449       } else if(a_obj.m_VJUST=='M') {            
8450         _text->vjust = middle;                   
8451       } else {                                   
8452         _text->vjust = bottom;                   
8453       }                                          
8454                                                  
8455       sep->add(_text);                           
8456                                                  
8457     } else { //text_as_it (for gopaw/pagpri.c    
8458       _tsf->mul_scale(a_obj.m_SIZE,a_obj.m_SI    
8459                                                  
8460       if(a_obj.m_FONT==font_hershey()) {         
8461         //::printf("debug : tools::sg::plotte    
8462         draw_style* ds = new draw_style;         
8463         ds->style = draw_lines;                  
8464         ds->line_pattern = line_solid;           
8465         ds->line_width = a_obj.m_line_width;     
8466         //ds->line_pattern = m_title_style.li    
8467         //ds->line_width = m_title_style.line    
8468         sep->add(ds);                            
8469                                                  
8470         text_hershey* text = new text_hershey    
8471         text->encoding = encoding_PAW();         
8472         text->strings.add(a_obj.m_TEXT);         
8473         if(a_obj.m_HJUST=='R') {                 
8474           text->hjust = right;                   
8475         } else if(a_obj.m_HJUST=='C') {          
8476           text->hjust = center;                  
8477         } else {                                 
8478           text->hjust = left;                    
8479         }                                        
8480         if(a_obj.m_VJUST=='T') {                 
8481           text->vjust = top;                     
8482         } else if(a_obj.m_VJUST=='M') {          
8483           text->vjust = middle;                  
8484         } else {                                 
8485           text->vjust = bottom;                  
8486         }                                        
8487         sep->add(text);                          
8488                                                  
8489       } else {                                   
8490         //::printf("debug : tools::sg::plotte    
8491         base_freetype* text = base_freetype::    
8492                                                  
8493         text->font = a_obj.m_FONT;               
8494         if(a_obj.m_HJUST=='R') {                 
8495           text->hjust = right;                   
8496         } else if(a_obj.m_HJUST=='C') {          
8497           text->hjust = center;                  
8498         } else {                                 
8499           text->hjust = left;                    
8500         }                                        
8501         if(a_obj.m_VJUST=='T') {                 
8502           text->vjust = top;                     
8503         } else if(a_obj.m_VJUST=='M') {          
8504           text->vjust = middle;                  
8505         } else {                                 
8506           text->vjust = bottom;                  
8507         }                                        
8508                                                  
8509         text->modeling = a_obj.m_font_modelin    
8510                                                  
8511         //text->encoding = encoding_PAW()        
8512         //text->smooting = a_obj.m_SMOOTHING;    
8513         //text->hinting = a_obj.m_HINTING;       
8514         text->strings.add(a_obj.m_TEXT);         
8515         //text->hjust.value(a_hjust);            
8516         //text->vjust.value(a_vjust);            
8517                                                  
8518         sep->add(text);                          
8519       }                                          
8520                                                  
8521     } //text_mode.                               
8522                                                  
8523     m_primitives_sep.add(sep);                   
8524   }                                              
8525                                                  
8526   // for OpenPAW /GRAPHICS/PRIMITIVES/BOX        
8527   void PAW_hatch(int aHTYP,hatching_policy& a    
8528     // PAW hatching encoding (paw.pdf 1.14(19    
8529                                                  
8530     a_policy = hatching_none;                    
8531     a_spacing = 0;                               
8532     a_angle_right = 0;                           
8533     a_angle_left = 0;                            
8534                                                  
8535     int code = aHTYP;                            
8536     if(code==0) return;                          
8537                                                  
8538     // From PAW FAQ web page.                    
8539     // special code from code [1,25]             
8540     if(code==1) {                                
8541       a_policy = hatching_left_and_right;        
8542       a_spacing = 0.04F;                         
8543       a_angle_right = 3.0F*fpi()/4.0F;           
8544       a_angle_left = fpi()/4.0F;                 
8545       return;                                    
8546     } else if(code==2) {                         
8547       a_policy = hatching_left_and_right;        
8548       a_spacing = 0.08F;                         
8549       a_angle_right = 3.0F*fpi()/4.0F;           
8550       a_angle_left = fpi()/4.0F;                 
8551       return;                                    
8552     } else if(code==3) {                         
8553       a_policy = hatching_left_and_right;        
8554       a_spacing = 1.6f*0.07F; //cooking          
8555       a_angle_right = 3.0F*fpi()/4.0F;           
8556       a_angle_left = fpi()/4.0F;                 
8557       return;                                    
8558     } else if(code==4) {                         
8559       code = 354;                                
8560     } else if(code==5) {                         
8561       code = 345;                                
8562     } else if(code==6) {                         
8563       code = 359;                                
8564     } else if(code==7) {                         
8565       code = 350;                                
8566     } else if(code<=25) {                        
8567       //FIXME : seems to be done with pattern    
8568       a_policy = hatching_none;                  
8569       return;                                    
8570     } else if(code<=99) {                        
8571       //FIXME                                    
8572       a_policy = hatching_none;                  
8573       return;                                    
8574     }                                            
8575                                                  
8576     //code >=100                                 
8577                                                  
8578     // code = ijk                                
8579                                                  
8580     int i = code / 100;                          
8581     int j = (code - i * 100)/10;                 
8582     int k = code - i * 100 - j * 10;             
8583                                                  
8584     // j-hatching on rightHatchStyle :           
8585     // k-hatching on leftHatchStyle :            
8586                                                  
8587     if((j==5)&&(k==5))                           
8588       a_policy = hatching_none;                  
8589     else if((j!=5)&&(k==5))                      
8590       a_policy = hatching_right;                 
8591     else if((j==5)&&(k!=5))                      
8592       a_policy = hatching_left;                  
8593     else if((j!=5)&&(k!=5))                      
8594       a_policy = hatching_left_and_right;        
8595                                                  
8596     unsigned int NY = 1;                         
8597                                                  
8598     a_spacing = float(NY) * float(i) * 0.07F;    
8599                                                  
8600     if(j!=5) {                                   
8601       float angle = float(j==4?45:j*10);         
8602       angle = 180.0F - angle;                    
8603       angle *= fpi() / 180.0F;                   
8604                                                  
8605       a_angle_right = angle;                     
8606     }                                            
8607                                                  
8608     if(k!=5) {                                   
8609       float angle = float(k==4?45:k*10);         
8610       angle *= fpi() / 180.0F;                   
8611       a_angle_left = angle;                      
8612     }                                            
8613                                                  
8614   }                                              
8615                                                  
8616   void rep_box_hatch(separator& a_parent,floa    
8617                      float xx,float yy,float     
8618                                                  
8619     //printf("debug : SoPlotter::repHatch1D_x    
8620     sg::separator* separator = new sg::separa    
8621                                                  
8622     bool empty = true;                           
8623                                                  
8624     vec3f points[5];                             
8625                                                  
8626     points[0].set_value(xx,yy,a_zz);             
8627     points[1].set_value(xe,yy,a_zz);             
8628     points[2].set_value(xe,ye,a_zz);             
8629     points[3].set_value(xx,ye,a_zz);             
8630     points[4].set_value(xx,yy,a_zz);             
8631                                                  
8632     //We can have multiple hatching for a bin    
8633     hatcher _hatcher;                            
8634     _hatcher.set_offset_point(vec3f(0,0,a_zz)    
8635     _hatcher.set_angle(a_angle);                 
8636     _hatcher.set_spacing(a_spacing);             
8637     if(!_hatcher.set_strip_width(a_strip_widt    
8638                                                  
8639     bool res = _hatcher.check_polyline(points    
8640     if(res) res = _hatcher.compute_polyline(p    
8641                                                  
8642     size_t numPoints = _hatcher.points().size    
8643     size_t numVertices = _hatcher.vertices().    
8644     if((res) && numPoints && numVertices) {      
8645                                                  
8646       const std::vector<vec3f>& _points = _ha    
8647                                                  
8648       if(a_strip_width==0) {                     
8649         size_t ipt = 0;                          
8650         tools_vforcit(unsigned int,_hatcher.v    
8651           vertices* vtxs = new vertices;         
8652           vtxs->mode = gl::line_strip();         
8653           for(size_t index=0;index<(*itv);ind    
8654             vtxs->add(_points[ipt]);             
8655             ipt++;                               
8656           }                                      
8657           separator->add(vtxs);                  
8658           empty = false;                         
8659         }                                        
8660                                                  
8661       } else {                                   
8662         size_t ipt = 0;                          
8663         tools_vforcit(unsigned int,_hatcher.v    
8664           vertices* vtxs = new vertices;         
8665           vtxs->mode = gl::triangle_fan();       
8666           for(size_t index=0;index<(*itv);ind    
8667             vtxs->add(_points[ipt]);             
8668             ipt++;                               
8669           }                                      
8670           separator->add(vtxs);                  
8671           empty = false;                         
8672         }                                        
8673       }                                          
8674                                                  
8675       empty = false;                             
8676     }                                            
8677                                                  
8678     if(empty) {                                  
8679       delete separator;                          
8680     } else {                                     
8681       a_parent.add(separator);                   
8682     }                                            
8683   }                                              
8684                                                  
8685   void update_primitive_box(std::ostream& a_o    
8686                                                  
8687     float z = xy_depth.value()*1.1F;             
8688                                                  
8689     vec3f pos1;                                  
8690     axis_2_data_frame(vec3f(a_obj.m_X1,a_obj.    
8691     xx_2_yy(pos1,pos1);                          
8692                                                  
8693     vec3f pos2;                                  
8694     axis_2_data_frame(vec3f(a_obj.m_X2,a_obj.    
8695     xx_2_yy(pos2,pos2);                          
8696                                                  
8697     z = pos1[2];                                 
8698                                                  
8699 //    ::printf("debug : tools::sg::plotter::u    
8700 //        pos1.x(),pos1.y(),pos1.z(),pos2.x()    
8701                                                  
8702     if(a_obj.m_FAIS==plottable_box::HOLLOW) {    
8703                                                  
8704       separator* sep = new separator;            
8705                                                  
8706       rgba* mat = new rgba();                    
8707       mat->color = a_obj.m_PLCI;                 
8708       sep->add(mat);                             
8709                                                  
8710       draw_style* ds = new draw_style;           
8711       ds->style = draw_lines;                    
8712       ds->line_pattern = line_solid;             
8713       ds->line_width = a_obj.m_LWID;             
8714       sep->add(ds);                              
8715                                                  
8716       vertices* vtxs = new vertices;             
8717       vtxs->mode = gl::line_strip();             
8718       sep->add(vtxs);                            
8719                                                  
8720       vtxs->add(pos1[0],pos1[1],z);              
8721       vtxs->add(pos2[0],pos1[1],z);              
8722       vtxs->add(pos2[0],pos2[1],z);              
8723       vtxs->add(pos1[0],pos2[1],z);              
8724       vtxs->add(pos1[0],pos1[1],z);              
8725                                                  
8726       m_primitives_sep.add(sep);                 
8727                                                  
8728     } else if(a_obj.m_FAIS==plottable_box::SO    
8729       separator* sep = new separator;            
8730                                                  
8731       rgba* mat = new rgba();                    
8732       mat->color = a_obj.m_FACI;                 
8733       sep->add(mat);                             
8734                                                  
8735       draw_style* ds = new draw_style;           
8736       ds->style = draw_filled;                   
8737       sep->add(ds);                              
8738                                                  
8739       vertices* vtxs = new vertices;             
8740       vtxs->mode = gl::triangle_fan();           
8741       sep->add(vtxs);                            
8742                                                  
8743       vtxs->add(pos1[0],pos1[1],z);              
8744       vtxs->add(pos2[0],pos1[1],z);              
8745       vtxs->add(pos2[0],pos2[1],z);              
8746       vtxs->add(pos1[0],pos2[1],z);              
8747                                                  
8748       m_primitives_sep.add(sep);                 
8749                                                  
8750     } else if(a_obj.m_FAIS==plottable_box::HA    
8751                                                  
8752      {separator* sep = new separator;            
8753                                                  
8754       rgba* mat = new rgba();                    
8755       mat->color = a_obj.m_FACI;                 
8756       sep->add(mat);                             
8757                                                  
8758       hatching_policy hatching;                  
8759       float spacing;                             
8760       float angle_right;                         
8761       float angle_left;                          
8762       PAW_hatch(a_obj.m_FASI,hatching,spacing    
8763       float stripWidth = 0;                      
8764                                                  
8765       if((hatching==hatching_right)||((hatchi    
8766         rep_box_hatch(*sep,spacing,angle_righ    
8767       }                                          
8768       if((hatching==hatching_left)||((hatchin    
8769         rep_box_hatch(*sep,spacing,angle_left    
8770       }                                          
8771                                                  
8772       if(hatching==hatching_none) {              
8773         draw_style* ds = new draw_style;         
8774         ds->style = draw_filled;                 
8775         sep->add(ds);                            
8776         vertices* vtxs = new vertices;           
8777         vtxs->mode = gl::triangle_fan();         
8778         sep->add(vtxs);                          
8779         vtxs->add(pos1[0],pos1[1],z);            
8780         vtxs->add(pos2[0],pos1[1],z);            
8781         vtxs->add(pos2[0],pos2[1],z);            
8782         vtxs->add(pos1[0],pos2[1],z);            
8783       }                                          
8784                                                  
8785       m_primitives_sep.add(sep);}                
8786                                                  
8787       if(a_obj.m_BORD) {                         
8788         separator* sep = new separator;          
8789         rgba* mat = new rgba();                  
8790         mat->color = a_obj.m_PLCI;               
8791         sep->add(mat);                           
8792                                                  
8793         draw_style* ds = new draw_style;         
8794         ds->style = draw_lines;                  
8795         ds->line_pattern = line_solid;           
8796         ds->line_width = 1;                      
8797         sep->add(ds);                            
8798                                                  
8799         vertices* vtxs = new vertices;           
8800         vtxs->mode = gl::line_strip();           
8801         sep->add(vtxs);                          
8802                                                  
8803         z *= 1.01F;                              
8804         vtxs->add(pos1[0],pos1[1],z);            
8805         vtxs->add(pos2[0],pos1[1],z);            
8806         vtxs->add(pos2[0],pos2[1],z);            
8807         vtxs->add(pos1[0],pos2[1],z);            
8808         vtxs->add(pos1[0],pos1[1],z);            
8809                                                  
8810         m_primitives_sep.add(sep);               
8811       }                                          
8812                                                  
8813     } else if(a_obj.m_FAIS==plottable_box::PA    
8814       a_out << "tools::sg::plotter::update_pl    
8815     }                                            
8816                                                  
8817   }                                              
8818                                                  
8819   void update_primitive_ellipse(std::ostream&    
8820                                                  
8821     float z = xy_depth.value()*1.1F;             
8822                                                  
8823     vec3f pos;                                   
8824     axis_2_data_frame(vec3f(a_obj.m_X,a_obj.m    
8825     xx_2_yy(pos,pos);                            
8826                                                  
8827     vec3f pos2;                                  
8828     axis_2_data_frame(vec3f(a_obj.m_X+a_obj.m    
8829     xx_2_yy(pos2,pos2);                          
8830                                                  
8831     float rx = pos2[0]-pos[0];                   
8832     float ry = pos2[1]-pos[1];                   
8833                                                  
8834     z = pos[2];                                  
8835                                                  
8836     //::printf("debug : tools::sg::plotter::u    
8837     //         pos.x(),pos.y(),pos.z(),rx,ry)    
8838                                                  
8839     if(a_obj.m_FAIS==plottable_ellipse::HOLLO    
8840                                                  
8841       separator* sep = new separator;            
8842                                                  
8843       matrix* _tsf = new matrix;                 
8844       _tsf->set_translate(pos);                  
8845       sep->add(_tsf);                            
8846                                                  
8847       rgba* mat = new rgba();                    
8848       mat->color = a_obj.m_PLCI;                 
8849       sep->add(mat);                             
8850                                                  
8851       draw_style* ds = new draw_style;           
8852       ds->style = draw_lines;                    
8853       ds->line_pattern = line_solid;             
8854       ds->line_width = a_obj.m_LWID;             
8855       sep->add(ds);                              
8856                                                  
8857       ellipse* _ellipse = new ellipse;           
8858       _ellipse->rx = rx;                         
8859       _ellipse->ry = ry;                         
8860       sep->add(_ellipse);                        
8861                                                  
8862       m_primitives_sep.add(sep);                 
8863                                                  
8864 /*                                               
8865     } else if(a_obj.m_FAIS==plottable_ellipse    
8866       separator* sep = new separator;            
8867                                                  
8868       rgba* mat = new rgba();                    
8869       mat->color = a_obj.m_FACI;                 
8870       sep->add(mat);                             
8871                                                  
8872       draw_style* ds = new draw_style;           
8873       ds->style = draw_filled;                   
8874       sep->add(ds);                              
8875                                                  
8876       vertices* vtxs = new vertices;             
8877       vtxs->mode = gl::triangle_fan();           
8878       sep->add(vtxs);                            
8879                                                  
8880       vtxs->add(pos1[0],pos1[1],z);              
8881       vtxs->add(pos2[0],pos1[1],z);              
8882       vtxs->add(pos2[0],pos2[1],z);              
8883       vtxs->add(pos1[0],pos2[1],z);              
8884                                                  
8885       m_primitives_sep.add(sep);                 
8886                                                  
8887     } else if(a_obj.m_FAIS==plottable_ellipse    
8888                                                  
8889      {separator* sep = new separator;            
8890                                                  
8891       rgba* mat = new rgba();                    
8892       mat->color = a_obj.m_FACI;                 
8893       sep->add(mat);                             
8894                                                  
8895       hatching_policy hatching;                  
8896       float spacing;                             
8897       float angle_right;                         
8898       float angle_left;                          
8899       PAW_hatch(a_obj.m_FASI,hatching,spacing    
8900       float stripWidth = 0;                      
8901                                                  
8902       if((hatching==hatching_right)||((hatchi    
8903         rep_box_hatch(*sep,spacing,angle_righ    
8904       }                                          
8905       if((hatching==hatching_left)||((hatchin    
8906         rep_box_hatch(*sep,spacing,angle_left    
8907       }                                          
8908                                                  
8909       if(hatching==hatching_none) {              
8910         draw_style* ds = new draw_style;         
8911         ds->style = draw_filled;                 
8912         sep->add(ds);                            
8913         vertices* vtxs = new vertices;           
8914         vtxs->mode = gl::triangle_fan();         
8915         sep->add(vtxs);                          
8916         vtxs->add(pos1[0],pos1[1],z);            
8917         vtxs->add(pos2[0],pos1[1],z);            
8918         vtxs->add(pos2[0],pos2[1],z);            
8919         vtxs->add(pos1[0],pos2[1],z);            
8920       }                                          
8921                                                  
8922       m_primitives_sep.add(sep);}                
8923                                                  
8924       if(a_obj.m_BORD) {                         
8925         separator* sep = new separator;          
8926         rgba* mat = new rgba();                  
8927         mat->color = a_obj.m_PLCI;               
8928         sep->add(mat);                           
8929                                                  
8930         draw_style* ds = new draw_style;         
8931         ds->style = draw_lines;                  
8932         ds->line_pattern = line_solid;           
8933         ds->line_width = 1;                      
8934         sep->add(ds);                            
8935                                                  
8936         vertices* vtxs = new vertices;           
8937         vtxs->mode = gl::line_strip();           
8938         sep->add(vtxs);                          
8939                                                  
8940         z *= 1.01F;                              
8941         vtxs->add(pos1[0],pos1[1],z);            
8942         vtxs->add(pos2[0],pos1[1],z);            
8943         vtxs->add(pos2[0],pos2[1],z);            
8944         vtxs->add(pos1[0],pos2[1],z);            
8945         vtxs->add(pos1[0],pos1[1],z);            
8946                                                  
8947         m_primitives_sep.add(sep);               
8948       }                                          
8949                                                  
8950     } else if(a_obj.m_FAIS==plottable_ellipse    
8951       a_out << "tools::sg::plotter::update_pl    
8952 */                                               
8953     } else {                                     
8954       a_out << "tools::sg::plotter::update_pl    
8955     }                                            
8956                                                  
8957   }                                              
8958                                                  
8959   void update_primitive_img(std::ostream& /*a    
8960                                                  
8961     float z = xy_depth.value()*1.1F;             
8962                                                  
8963     vec3f pos;                                   
8964     axis_2_data_frame(vec3f(a_obj.m_X,a_obj.m    
8965     xx_2_yy(pos,pos);   //pos = center of ima    
8966     z = pos[2];                                  
8967                                                  
8968     vec3f top;                                   
8969     axis_2_data_frame(vec3f(0,a_obj.m_Y+a_obj    
8970     xx_2_yy(top,top);  //top = (o,y-top)  of     
8971     float scale = 2.0f*(top[1]-pos[1]);          
8972     //float scale = a_obj.m_HEIGHT; //m_HEIGH    
8973                                                  
8974     const img<byte>& img = a_obj.m_img;          
8975                                                  
8976   //::printf("debug : tools::sg::plotter::upd    
8977   //    img.width(),img.height(),img.bpp(),      
8978   //    pos.x(),pos.y(),pos.z(),a_obj.m_HEIGH    
8979                                                  
8980     separator* sep = new separator;              
8981                                                  
8982     rgba* mat = new rgba();                      
8983     mat->color = colorf_white();                 
8984     sep->add(mat);                               
8985                                                  
8986     normal* nm = new normal;                     
8987     sep->add(nm);                                
8988                                                  
8989     matrix* _tsf = new matrix;                   
8990     _tsf->set_translate(pos);                    
8991     _tsf->mul_rotate(0,1,0,a_obj.m_THETA*fpi(    
8992     _tsf->mul_rotate(0,0,1,a_obj.m_PHI*fpi()/    
8993     _tsf->mul_scale(scale,scale,1);              
8994     sep->add(_tsf);                              
8995                                                  
8996     tex_rect* _img = new tex_rect();             
8997     _img->img = img;                             
8998     sep->add(_img);                              
8999                                                  
9000     m_primitives_sep.add(sep);                   
9001                                                  
9002   }                                              
9003                                                  
9004 protected: //etc                                 
9005   // background is at z = 0.                     
9006   // last z items are text in infos, legend b    
9007                                                  
9008   float _zoffset() const {                       
9009     // first data plane is at _zoffset.          
9010     // last one at m_plottables.size()*_zoffs    
9011     return xy_depth.value()/(float(m_plottabl    
9012   }                                              
9013   float _zaxis() const {return _zoffset();}      
9014   float _zgrid() const {return xy_depth.value    
9015   float _ztext() const {return 0.01f;} //if t    
9016   float _zscale_text() const {return _zoffset    
9017   float _zinfos() const {return xy_depth.valu    
9018   float _zhatch() const {return _zoffset()*0.    
9019   float _zerrors() const {return _zoffset()*0    
9020                                                  
9021   //static void LIST_SET(vec3f a_list[],unsig    
9022                                                  
9023   static float take_log(float a_x){              
9024     if(a_x<=0) {                                 
9025       return -FLT_MAX;                           
9026     } else {                                     
9027       return flog10(a_x);                        
9028     }                                            
9029   }                                              
9030                                                  
9031   static float verify_log(float a_val,float a    
9032     if(a_log) {                                  
9033       if(a_val>0.0F) {                           
9034         return (flog10(a_val) - a_min)/a_dx;     
9035       } else { // Return a negative large num    
9036         //return -FLT_MAX;                       
9037         return -100;                             
9038       }                                          
9039     } else {                                     
9040       // Simple protection against value that    
9041       if(a_val>(a_min+100.0F * a_dx)) return     
9042       if(a_val<(a_min-100.0F * a_dx)) return     
9043       // Rescale :                               
9044       return (a_val - a_min)/a_dx;               
9045     }                                            
9046   }                                              
9047                                                  
9048   static float verify_log_inv(float a_val,flo    
9049    if(a_log) {                                   
9050       return fpow(10,a_val*a_dx+a_min);          
9051     } else {                                     
9052       return a_val*a_dx+a_min;                   
9053     }                                            
9054   }                                              
9055                                                  
9056   style* merge_bins_style(unsigned int a_inde    
9057     style& _style = bins_style(a_index);         
9058     //uuu merge with a_p.infos().                
9059     return new style(_style);                    
9060   }                                              
9061                                                  
9062   style* merge_left_hatch_style(unsigned int     
9063     style& _style = left_hatch_style(a_index)    
9064     //uuu merge with a_p.infos().                
9065     return new style(_style);                    
9066   }                                              
9067                                                  
9068   style* merge_right_hatch_style(unsigned int    
9069     style& _style = right_hatch_style(a_index    
9070     //uuu merge with a_p.infos().                
9071     return new style(_style);                    
9072   }                                              
9073                                                  
9074   style* merge_errors_style(unsigned int a_in    
9075     style& _style = errors_style(a_index);       
9076     //uuu merge with a_p.infos().                
9077     return new style(_style);                    
9078   }                                              
9079                                                  
9080   style* merge_func_style(unsigned int a_inde    
9081     style& _style = func_style(a_index);         
9082     //uuu merge with a_p.infos().                
9083     return new style(_style);                    
9084   }                                              
9085                                                  
9086   style* merge_points_style(unsigned int a_in    
9087     style& _style = points_style(a_index);       
9088     //uuu merge with a_p.infos().                
9089     return new style(_style);                    
9090   }                                              
9091                                                  
9092 /*                                               
9093   text_style* merge_legend_style(unsigned int    
9094     if(a_index>=m_legend_style.size()) return    
9095     return new text_style(m_legend_style[a_in    
9096     //uuu merge with a_p.infos().                
9097   }                                              
9098 */                                               
9099                                                  
9100   shape_type get_shape() const {                 
9101     if(!shape_automated) return shape.value()    
9102                                                  
9103     // Guess XY or XYZ shape :                   
9104   /*if(f_binsList.size()) { // major bins com    
9105       if(f_binsList[0]->getDimension()==1) {     
9106         return XY;                               
9107       } else if(f_binsList[0]->getDimension()    
9108         return XY; //lego is not the default.    
9109       } else {                                   
9110         return XYZ;                              
9111       }                                          
9112     } else if(f_pointsList.size()) { // major    
9113       if(f_pointsList[0]->getDimension()==1)     
9114         return XY;                               
9115       } else if(f_pointsList[0]->getDimension    
9116         return XY;                               
9117       } else {                                   
9118         return XYZ;                              
9119       }                                          
9120     } else if(f_functionList.size()) { // maj    
9121       if(f_functionList[0]->getDimension()==1    
9122         return XY;                               
9123       } else {                                   
9124         return XYZ;                              
9125       }                                          
9126     } else*/ {                                   
9127       return xy; //Default.                      
9128     }                                            
9129   }                                              
9130                                                  
9131   void clear_plottables() {                      
9132     //unsigned int objn = m_plottables.size()    
9133    {std::vector<plottable*>::iterator it;        
9134     for(it=m_plottables.begin();it!=m_plottab    
9135     m_plottables.clear();}                       
9136                                                  
9137     /*                                           
9138     if(objn) {                                   
9139       // If a title (logScale) had been given    
9140       // it is probably no more pertinent for    
9141       if(xAxisEnforced.value()==false)  {        
9142         m_x_axis.title.setValue("");             
9143         xAxisLogScale.setValue(false);           
9144       }                                          
9145       if(yAxisEnforced.value()==false)  {        
9146         m_y_axis.title.setValue("");             
9147         yAxisLogScale.setValue(false);           
9148       }                                          
9149       if(zAxisEnforced.value()==false)  {        
9150         m_z_axis.title.setValue("");             
9151         zAxisLogScale.setValue(false);           
9152       }                                          
9153     }                                            
9154     */                                           
9155                                                  
9156     touch();                                     
9157   }                                              
9158   void clear_primitives() {                      
9159    {std::vector<plotprim*>::iterator it;         
9160     for(it=m_primitives.begin();it!=m_primiti    
9161     m_primitives.clear();}                       
9162     touch();                                     
9163   }                                              
9164                                                  
9165   void clear_todels() {m_todel_group.clear();    
9166                                                  
9167   bool first_bins(bins1D*& a_1,bins2D*& a_2)     
9168     tools_vforcit(plottable*,m_plottables,it)    
9169       plottable* object = *it;                   
9170       if(!object) continue;                      
9171       if(bins1D* b1 = safe_cast<plottable,bin    
9172         a_1 = b1;                                
9173         a_2 = 0;                                 
9174         return true;                             
9175       } else if(bins2D* b2 = safe_cast<plotta    
9176         a_1 = 0;                                 
9177         a_2 = b2;                                
9178         return true;                             
9179       }                                          
9180     }                                            
9181     a_1 = 0;                                     
9182     a_2 = 0;                                     
9183     return false;                                
9184   }                                              
9185                                                  
9186   bool first_func(func1D*& a_1,func2D*& a_2)     
9187     tools_vforcit(plottable*,m_plottables,it)    
9188       plottable* object = *it;                   
9189       if(!object) continue;                      
9190       if(func1D* f1 = safe_cast<plottable,fun    
9191         a_1 = f1;                                
9192         a_2 = 0;                                 
9193         return true;                             
9194       } else if(func2D* f2 = safe_cast<plotta    
9195         a_1 = 0;                                 
9196         a_2 = f2;                                
9197         return true;                             
9198       }                                          
9199     }                                            
9200     a_1 = 0;                                     
9201     a_2 = 0;                                     
9202     return false;                                
9203   }                                              
9204                                                  
9205   bool first_points(points2D*& a_2,points3D*&    
9206     tools_vforcit(plottable*,m_plottables,it)    
9207       plottable* object = *it;                   
9208       if(!object) continue;                      
9209       if(points2D* p2 = safe_cast<plottable,p    
9210         a_2 = p2;                                
9211         a_3 = 0;                                 
9212         return true;                             
9213       } else if(points3D* p3 = safe_cast<plot    
9214         a_2 = 0;                                 
9215         a_3 = p3;                                
9216         return true;                             
9217       }                                          
9218     }                                            
9219     a_2 = 0;                                     
9220     a_3 = 0;                                     
9221     return false;                                
9222   }                                              
9223                                                  
9224   void clear_sg() {                              
9225     m_bins_sep.clear();                          
9226     m_errors_sep.clear();                        
9227     m_func_sep.clear();                          
9228     m_points_sep.clear();                        
9229   }                                              
9230                                                  
9231   void DUMP_UPDATE_WHAT(std::ostream&,const s    
9232 /*                                               
9233   void DUMP_UPDATE_WHAT(std::ostream& a_out,c    
9234     a_out << "tools::sg::plotter :"              
9235           << " " << a_msg                        
9236           << std::endl;                          
9237   }                                              
9238 */                                               
9239                                                  
9240   static void add_pt(std::vector<float>& a_pt    
9241     a_pts.push_back(a_x);                        
9242     a_pts.push_back(a_y);                        
9243     a_pts.push_back(a_z);                        
9244   }                                              
9245                                                  
9246   static void clip_points_2D(const std::vecto    
9247                              const rep_box& a    
9248     float xmin = a_box_x.m_pos;                  
9249     float dx = a_box_x.m_width;                  
9250     bool xlog = a_box_x.m_log;                   
9251                                                  
9252     float ymin = a_box_y.m_pos;                  
9253     float dy = a_box_y.m_width;                  
9254     bool ylog = a_box_y.m_log;                   
9255                                                  
9256     a_pts.clear();                               
9257                                                  
9258     float xx,yy,zz;                              
9259     tools_vforcit(vec3f,a_points,it) {           
9260       const vec3f& _point = *it;                 
9261       xx = _point[0];                            
9262       yy = _point[1];                            
9263       zz = _point[2];                            
9264       xx = verify_log(xx,xmin,dx,xlog);          
9265       yy = verify_log(yy,ymin,dy,ylog);          
9266       if((xx>=0)&&(xx<=1)&&(yy>=0)&&(yy<=1))     
9267     }                                            
9268   }                                              
9269                                                  
9270   static void clip_polyline_2D(const std::vec    
9271                                const rep_box&    
9272     //  Clip line in a_box_x, a_box_y.           
9273                                                  
9274     //NOTE : it is not a general algorithm.      
9275     //       It is assumed that a_points are     
9276     //       And the algorithm clips against     
9277     //       (Use clip<float> for a more gene    
9278                                                  
9279     float xmin = a_box_x.m_pos;                  
9280     float dx = a_box_x.m_width;                  
9281     bool xlog = a_box_x.m_log;                   
9282                                                  
9283     float ymin = a_box_y.m_pos;                  
9284     float dy = a_box_y.m_width;                  
9285     bool ylog = a_box_y.m_log;                   
9286                                                  
9287     a_pts.clear();                               
9288                                                  
9289     float xprev = 0;                             
9290     float yprev = 0;                             
9291                                                  
9292    {unsigned int index = 0;                      
9293     std::vector<vec3f>::const_iterator it;       
9294     for(it=a_points.begin();it!=a_points.end(    
9295       const vec3f& _point = *it;                 
9296       float xx = _point[0];                      
9297       float yy = _point[1];                      
9298       float zz = _point[2];                      
9299       //add_pt(a_pts,xx,yy,zz);continue; //de    
9300       xx = verify_log(xx,xmin,dx,xlog);          
9301       yy = verify_log(yy,ymin,dy,ylog);          
9302       if((xx>=0)&&(xx<=1) ) {                    
9303         if(yy>1) {                               
9304           if(index==0) {                         
9305             add_pt(a_pts,xx,1,zz);               
9306           } else {                               
9307             if(yprev>1) {                        
9308               add_pt(a_pts,xx,1,zz);             
9309             } else if(yprev<0) {                 
9310               float a = (yy - yprev)/(xx - xp    
9311               float b = yy - a * xx;             
9312               add_pt(a_pts,-b/a,0,zz);           
9313               add_pt(a_pts,(1 - b)/a,1,zz);      
9314               add_pt(a_pts,xx,1,zz);             
9315             } else {                             
9316               float a = (yy - yprev)/(xx - xp    
9317               float b = yy - a * xx;             
9318               add_pt(a_pts,(1 - b)/a,1,zz);      
9319               add_pt(a_pts,xx,1,zz);             
9320             }                                    
9321           }                                      
9322         } else if (yy < 0) {                     
9323           if(index==0) {                         
9324             add_pt(a_pts,xx,0,zz);               
9325           } else {                               
9326             if(yprev<0) {                        
9327               add_pt(a_pts,xx,0,zz);             
9328             } else if(yprev>1) {                 
9329               float a = (yy - yprev)/(xx - xp    
9330               float b = yy - a * xx;             
9331               add_pt(a_pts,(1 - b)/a,1,zz);      
9332               add_pt(a_pts,-b/a,0,zz);           
9333               add_pt(a_pts,xx,0,zz);             
9334             } else {                             
9335               float a = (yy - yprev)/(xx - xp    
9336               float b = yy - a * xx;             
9337               add_pt(a_pts,-b/a,0,zz);           
9338               add_pt(a_pts,xx,0,zz);             
9339              }                                   
9340           }                                      
9341         } else {                                 
9342           if(index==0) {                         
9343             add_pt(a_pts,xx,yy,zz);              
9344           } else if( (yprev>1) || (yprev<0) )    
9345             // interpolate :                     
9346             float a = (yy - yprev)/(xx - xpre    
9347             float b = yy - a * xx;               
9348             if(yprev>1) {                        
9349               add_pt(a_pts,(1 - b)/a,1,zz);      
9350             } else {                             
9351               add_pt(a_pts,-b/a,0,zz);           
9352             }                                    
9353             add_pt(a_pts,xx,yy,zz);              
9354           } else {                               
9355             add_pt(a_pts,xx,yy,zz);              
9356           }                                      
9357         }                                        
9358       }                                          
9359       xprev = xx;                                
9360       yprev = yy;                                
9361     }}                                           
9362   }                                              
9363                                                  
9364   bool sto(const std::string& a_s,vec2f& a_v)    
9365     std::vector<std::string> ws;                 
9366     words(a_s," ",false,ws);                     
9367     if(ws.size()!=2) return false;               
9368     float x = 0;                                 
9369     if(!to<float>(ws[0],x)) return false;        
9370     float y = 0;                                 
9371     if(!to<float>(ws[1],x)) return false;        
9372     a_v.set_value(x,y);                          
9373     return true;                                 
9374   }                                              
9375                                                  
9376   bool sto(const std::string& a_s,unit_type&     
9377     if(a_s=="percent") {a_v = unit_percent;re    
9378     else if(a_s=="axis") {a_v = unit_axis;ret    
9379     return false;                                
9380   }                                              
9381                                                  
9382   void clear_cmaps() {                           
9383    {std::vector<base_colormap*>::iterator it;    
9384     for(it=m_bins_cmaps.begin();it!=m_bins_cm    
9385     m_bins_cmaps.clear();}                       
9386                                                  
9387    {std::vector<base_colormap*>::iterator it;    
9388     for(it=m_points_cmaps.begin();it!=m_point    
9389     m_points_cmaps.clear();}                     
9390                                                  
9391    {std::vector<base_colormap*>::iterator it;    
9392     for(it=m_func_cmaps.begin();it!=m_func_cm    
9393     m_func_cmaps.clear();}                       
9394   }                                              
9395                                                  
9396   void bar_chart(float a_bar_offset,float a_b    
9397                  float& a_beg,float& a_end){     
9398     float xe = (a_end - a_beg)*a_bar_offset;     
9399     float xw = (a_end - a_beg)*a_bar_width;      
9400     a_end = a_beg + xe + xw;                     
9401     a_beg = a_beg + xe;                          
9402   }                                              
9403                                                  
9404 protected:                                       
9405   const base_freetype& m_ttf;                    
9406 protected: //fields for skeleton.                
9407   group m_group;                                 
9408                                                  
9409   separator m_background_sep;                    
9410                                                  
9411   separator m_cmap_sep;                          
9412   matrix m_cmap_matrix;                          
9413   separator m_cmap_cells_sep;                    
9414   matrix m_cmap_axis_matrix;                     
9415   sg::axis m_cmap_axis;                          
9416                                                  
9417   separator m_infos_title_sep;                   
9418   separator m_infos_sep;                         
9419   separator m_legend_sep;                        
9420   separator m_title_box_sep;                     
9421                                                  
9422   matrix m_tsf;                                  
9423   matrix m_layout;                               
9424                                                  
9425   separator m_title_sep;                         
9426                                                  
9427   separator m_x_axis_sep;                        
9428   matrix m_x_axis_matrix;                        
9429   sg::axis m_x_axis;                             
9430                                                  
9431   separator m_y_axis_sep;                        
9432   matrix m_y_axis_matrix;                        
9433   sg::axis m_y_axis;                             
9434                                                  
9435   separator m_z_axis_sep;                        
9436   matrix m_z_axis_matrix;                        
9437   sg::axis m_z_axis;                             
9438                                                  
9439   separator m_grid_sep;                          
9440                                                  
9441   separator m_data_sep;                          
9442   torche m_data_light;                           
9443   matrix m_data_matrix;                          
9444   separator m_bins_sep;                          
9445   separator m_errors_sep;                        
9446   separator m_func_sep;                          
9447   separator m_points_sep;                        
9448   separator m_inner_frame_sep;                   
9449   separator m_primitives_sep;                    
9450   separator m_etc_sep;                           
9451                                                  
9452 protected: //fields                              
9453   shape_type m_shape;                            
9454                                                  
9455   data_axis m_x_axis_data;                       
9456   data_axis m_y_axis_data;                       
9457   data_axis m_z_axis_data;                       
9458                                                  
9459   std::vector<plottable*> m_plottables; //it     
9460                                                  
9461   std::vector<style> m_bins_style;               
9462   std::vector<style> m_errors_style;             
9463   std::vector<style> m_func_style;               
9464   std::vector<style> m_points_style;             
9465   std::vector<style> m_left_hatch_style;         
9466   std::vector<style> m_right_hatch_style;        
9467   std::vector<style> m_legend_style;             
9468                                                  
9469   text_style m_title_style;                      
9470   text_style m_infos_style;                      
9471   text_style m_title_box_style;                  
9472   style m_background_style;                      
9473   style m_wall_style; //for gopaw.               
9474   style m_inner_frame_style;                     
9475   style m_grid_style;                            
9476                                                  
9477 protected:                                       
9478   std::vector<std::string> m_legend_strings;     
9479                                                  
9480   std::vector<base_colormap*> m_bins_cmaps;      
9481   std::vector<base_colormap*> m_points_cmaps;    
9482   std::vector<base_colormap*> m_func_cmaps;      
9483                                                  
9484   group m_todel_group;                           
9485   std::vector<plotprim*> m_primitives;           
9486   cmaps_t m_cmaps;                               
9487   rtausmef m_rtausmef;                           
9488 };                                               
9489                                                  
9490 }}                                               
9491                                                  
9492 #endif