1 /* === S Y N F I G ========================================================= */
2 /*! \file svg_parser.cpp
3 ** \brief Implementation of the Svg parser
4 ** \brief Based on SVG XML specification 1.1
5 ** \brief See: http://www.w3.org/TR/xml11/ for deatils
10 ** Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley
11 ** Copyright (c) 2008 Chris Moore
12 ** Copyright (c) 2009 Carlos A. Sosa Navarro
14 ** This package is free software; you can redistribute it and/or
15 ** modify it under the terms of the GNU General Public License as
16 ** published by the Free Software Foundation; either version 2 of
17 ** the License, or (at your option) any later version.
19 ** This package is distributed in the hope that it will be useful,
20 ** but WITHOUT ANY WARRANTY; without even the implied warranty of
21 ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
22 ** General Public License for more details.
25 /* ========================================================================= */
27 /* === H E A D E R S ======================================================= */
34 #include "svg_parser.h"
36 /* === U S I N G =========================================================== */
38 using namespace synfig;
40 /* === G L O B A L S ======================================================= */
42 /* === P R O C E D U R E S ================================================= */
45 synfig::open_svg(std::string _filepath,String &errors, String &warnings){
46 Canvas::Handle canvas;
50 canvas=parser.load_svg_canvas(_filepath,errors,warnings);
51 //canvas->set_id(parser.get_id());
53 std::cout<<"error"<<std::endl;
59 Svg_parser::load_svg_canvas(std::string _filepath,String &errors, String &warnings){
61 #ifdef LIBXMLCPP_EXCEPTIONS_ENABLED
63 #endif //LIBXMLCPP_EXCEPTIONS_ENABLED
65 parser.set_substitute_entities();
66 parser.parse_file(filepath);
69 const xmlpp::Node* pNode = parser.get_document()->get_root_node();
72 #ifdef LIBXMLCPP_EXCEPTIONS_ENABLED
73 }catch(const std::exception& ex){
74 std::cout << "Exception caught: " << ex.what() << std::endl;
76 #endif //LIBXMLCPP_EXCEPTIONS_ENABLED
77 Canvas::Handle canvas;
79 //canvas=synfig::open_canvas(nodeRoot,_filepath,errors,warnings);
80 canvas=synfig::open_canvas(nodeRoot,errors,warnings);
85 Svg_parser::Svg_parser(){
88 set_canvas=0;//we must run parser_canvas method
89 // 0.5 in gamma parameter of color correct layer is 1/0.5 = 2 (thinking) it must be 2.2!!!!
95 if(!id_name.empty()) return id_name;
99 Svg_parser::set_id(String source){
100 const char bad_chars[]=" :#@$^&()*";
101 int start= source.find_last_of('/')+1;
102 int end= source.find_last_of('.');
103 String x=source.substr(start,end-start);
105 for(unsigned int i=0;i<sizeof(bad_chars);i++){
106 unsigned int pos=x.find_first_of(bad_chars[i]);
107 if(pos!=String::npos)
114 id_name="id_arbitrario";
121 Svg_parser::parser_node(const xmlpp::Node* node){
122 const xmlpp::ContentNode* nodeContent = dynamic_cast<const xmlpp::ContentNode*>(node);
123 const xmlpp::TextNode* nodeText = dynamic_cast<const xmlpp::TextNode*>(node);
124 const xmlpp::CommentNode* nodeComment = dynamic_cast<const xmlpp::CommentNode*>(node);
126 if(nodeText && nodeText->is_white_space()) //Let's ignore the indenting - you don't always want to do this.
129 Glib::ustring nodename = node->get_name();
130 if(!nodeText && !nodeComment && !nodename.empty()){
131 if(nodename.compare("svg")==0){
133 }else if(nodename.compare("namedview")==0){
135 }else if(nodename.compare("defs")==0){
138 if(set_canvas==0) parser_canvas (node);
139 parser_graphics(node,nodeRoot,"",NULL);
140 if(nodename.compare("g")==0) return;
144 xmlpp::Node::NodeList list = node->get_children();
145 for(xmlpp::Node::NodeList::iterator iter = list.begin(); iter != list.end(); ++iter){
146 parser_node(*iter); //recursive
153 Svg_parser::parser_svg (const xmlpp::Node* node){
154 if(const xmlpp::Element* nodeElement = dynamic_cast<const xmlpp::Element*>(node)){
155 width =etl::strprintf("%f",getDimension(nodeElement->get_attribute_value("width")));
156 height =etl::strprintf("%f",getDimension(nodeElement->get_attribute_value("height")));
157 docname=nodeElement->get_attribute_value("docname","");
161 Svg_parser::parser_canvas (const xmlpp::Node* node){
162 if(const xmlpp::Element* nodeElement = dynamic_cast<const xmlpp::Element*>(node)){
163 if(width.compare("")==0){
164 width=nodeElement->get_attribute_value("width","");
166 if(height.compare("")==0){
167 height=nodeElement->get_attribute_value("height","");
169 if(width.compare("")==0 && height.compare("")!=0){
172 if(width.compare("")!=0 && height.compare("")==0){
175 if(height.compare("")==0 && width.compare("")==0){
180 nodeRoot=document.create_root_node("canvas", "", "");
181 nodeRoot->set_attribute("version","0.5");
182 nodeRoot->set_attribute("width",width);
183 nodeRoot->set_attribute("height",height);
184 nodeRoot->set_attribute("xres","2834.645752");
185 nodeRoot->set_attribute("yres","2834.645752");
188 view_x=atof(width.c_str())/kux;
189 view_y=atof(height.c_str())/kux;
192 char attr_view_box[60];
193 sprintf(attr_view_box,"%f %f %f %f",-1.0*view_x,view_y,view_x,-1.0*view_y);
194 nodeRoot->set_attribute("view-box",attr_view_box);
195 ox=atof(width.c_str() )/2;
196 oy=atof(height.c_str())/2;
197 nodeRoot->set_attribute("antialias","1");
198 nodeRoot->set_attribute("fps","24.000");
199 nodeRoot->set_attribute("begin-time","0f");
200 nodeRoot->set_attribute("end-time","5s");
201 nodeRoot->set_attribute("bgcolor","0.500000 0.500000 0.500000 1.000000");
202 if(!id_name.empty()) nodeRoot->add_child("name")->set_child_text(id_name);
203 else nodeRoot->add_child("name")->set_child_text("Synfig Animation 1");
211 //Seperate transformations: apply transformations on a per-layer basis, rather than on canvases
212 //Resolve BLine transformations: resolve transformations instead of creating transformation layers
213 #define SVG_SEP_TRANSFORMS 1
214 #define SVG_RESOLVE_BLINE 1
217 Svg_parser::parser_graphics(const xmlpp::Node* node,xmlpp::Element* root,String parent_style,Matrix* mtx_parent){
218 if(const xmlpp::Element* nodeElement = dynamic_cast<const xmlpp::Element*>(node)){
219 Glib::ustring nodename = node->get_name();
220 if (nodename.compare("g")==0 || nodename.compare("path")==0 || nodename.compare("polygon")==0 || nodename.compare("rect")==0){} else return;
222 //load sub-attributes
223 Glib::ustring id =nodeElement->get_attribute_value("id");
224 Glib::ustring transform =nodeElement->get_attribute_value("transform");
226 //resolve transformations
228 if(!transform.empty())
229 mtx=build_transform (transform);
230 if (SVG_SEP_TRANSFORMS)
234 composeMatrix(&mtx,mtx_parent,mtx);
236 mtx=newMatrix(mtx_parent);
239 if(nodename.compare("g")==0){
240 parser_layer (node,root->add_child("layer"),parent_style,mtx);
244 Glib::ustring obj_style =nodeElement->get_attribute_value("style");
245 Glib::ustring obj_fill =nodeElement->get_attribute_value("fill");
248 String fill =loadAttribute("fill",obj_style,parent_style,obj_fill,"none");
249 String fill_rule =loadAttribute("fill-rule",obj_style,parent_style,"evenodd");
250 String stroke =loadAttribute("stroke",obj_style,parent_style,"none");
251 String stroke_width =loadAttribute("stroke-width",obj_style,parent_style,"1px");
252 String stroke_linecap =loadAttribute("stroke-linecap",obj_style,parent_style,"butt");
253 String stroke_linejoin =loadAttribute("stroke-linejoin",obj_style,parent_style,"miter");
254 String stroke_opacity =loadAttribute("stroke-opacity",obj_style,parent_style,"1");
255 String fill_opacity =loadAttribute("fill-opacity",obj_style,parent_style,"1");
256 String opacity =loadAttribute("opacity",obj_style,parent_style,"1");
260 int typeFill=0; //nothing
262 if(fill.compare("none")!=0){
265 if(typeFill==1 && fill.compare(0,3,"url")==0){
266 typeFill=2; //gradient
269 int typeStroke=0;//nothing
271 if(stroke.compare("none")!=0){
272 typeStroke=1; //simple
274 if(typeStroke==1 && stroke.compare(0,3,"url")==0){
275 typeStroke=2; //gradient
278 xmlpp::Element* child_layer = nodeStartBasicLayer(root->add_child("layer"));
279 xmlpp::Element* child_fill = child_layer;
280 xmlpp::Element* child_stroke = child_layer;
282 child_fill=nodeStartBasicLayer(child_fill->add_child("layer"));
285 child_stroke=nodeStartBasicLayer(child_stroke->add_child("layer"));
289 if(nodename.compare("rect")==0 && typeFill!=0){
290 rect_simple(nodeElement,child_fill,fill,fill_opacity,opacity);
292 build_url (child_fill->add_child("layer"),fill,NULL);
294 parser_effects(nodeElement,child_layer,parent_style,mtx);
299 //=======================================================================
300 std::list<std::list<Vertice*> > k;
301 //if we are creating a bline
303 //First, create the list of vertices
304 if (SVG_RESOLVE_BLINE) {
305 if(nodename.compare("path")==0){
306 k=parser_path_d (nodeElement->get_attribute_value("d"),mtx);
307 } else if(nodename.compare("polygon")==0){
308 k=parser_polygon_path (nodeElement->get_attribute_value("points"),mtx);
311 if(nodename.compare("path")==0){
312 k=parser_path_d (nodeElement->get_attribute_value("d"),NULL);
313 } else if(nodename.compare("polygon")==0){
314 k=parser_polygon_path (nodeElement->get_attribute_value("points"),NULL);
321 for (int i=0;i<n;i++){
322 bline_id[i]=new_guid();
323 offset_id[i]=new_guid();
326 std::list<std::list<Vertice*> >::iterator aux = k.begin();
327 if(typeFill!=0){//region layer
328 for (int i=0; aux!=k.end(); aux++){
329 xmlpp::Element *child_region=child_fill->add_child("layer");
330 child_region->set_attribute("type","region");
331 child_region->set_attribute("active","true");
332 child_region->set_attribute("version","0.1");
333 child_region->set_attribute("desc",id);
334 build_param (child_region->add_child("param"),"z_depth","real","0.0000000000");
335 build_param (child_region->add_child("param"),"amount","real","1.0000000000");
336 build_param (child_region->add_child("param"),"blend_method","integer","0");
337 build_color (child_region->add_child("param"),getRed(fill),getGreen(fill),getBlue(fill),atof(fill_opacity.data())*atof(opacity.data()));
338 build_vector (child_region->add_child("param"),"offset",0,0,offset_id[i]);
339 build_param (child_region->add_child("param"),"invert","bool","false");
340 build_param (child_region->add_child("param"),"antialias","bool","true");
341 build_param (child_region->add_child("param"),"feather","real","0.0000000000");
342 build_param (child_region->add_child("param"),"blurtype","integer","1");
343 if(fill_rule.compare("evenodd")==0) build_param (child_region->add_child("param"),"winding_style","integer","1");
344 else build_param (child_region->add_child("param"),"winding_style","integer","0");
346 build_bline (child_region->add_child("param"),*aux,loop,bline_id[i]);
350 if(typeFill==2){ //gradient in onto mode (fill)
351 if (SVG_RESOLVE_BLINE)
352 build_url(child_fill->add_child("layer"),fill,mtx);
354 build_url(child_fill->add_child("layer"),fill,NULL);
357 if(typeStroke!=0){//outline layer
359 for (aux=k.begin(); aux!=k.end(); aux++){
360 xmlpp::Element *child_outline=child_stroke->add_child("layer");
361 child_outline->set_attribute("type","outline");
362 child_outline->set_attribute("active","true");
363 child_outline->set_attribute("version","0.2");
364 child_outline->set_attribute("desc",id);
365 build_param (child_outline->add_child("param"),"z_depth","real","0.0000000000");
366 build_param (child_outline->add_child("param"),"amount","real","1.0000000000");
367 build_param (child_outline->add_child("param"),"blend_method","integer","0");
368 build_color (child_outline->add_child("param"),getRed(stroke),getGreen(stroke),getBlue(stroke),atof(stroke_opacity.data())*atof(opacity.data()));
369 build_vector (child_outline->add_child("param"),"offset",0,0,offset_id[i]);
370 build_param (child_outline->add_child("param"),"invert","bool","false");
371 build_param (child_outline->add_child("param"),"antialias","bool","true");
372 build_param (child_outline->add_child("param"),"feather","real","0.0000000000");
373 build_param (child_outline->add_child("param"),"blurtype","integer","1");
375 build_param (child_outline->add_child("param"),"winding_style","integer","0");
377 build_bline (child_outline->add_child("param"),*aux,loop,bline_id[i]);
379 stroke_width=etl::strprintf("%f",getDimension(stroke_width)/kux);
380 build_param (child_outline->add_child("param"),"width","real",stroke_width);
381 build_param (child_outline->add_child("param"),"expand","real","0.0000000000");
382 if(stroke_linejoin.compare("miter")==0) build_param (child_outline->add_child("param"),"sharp_cusps","bool","true");
383 else build_param (child_outline->add_child("param"),"sharp_cusps","bool","false");
384 if(stroke_linecap.compare("butt")==0){
385 build_param (child_outline->add_child("param"),"round_tip[0]","bool","false");
386 build_param (child_outline->add_child("param"),"round_tip[1]","bool","false");
388 build_param (child_outline->add_child("param"),"round_tip[0]","bool","true");
389 build_param (child_outline->add_child("param"),"round_tip[1]","bool","true");
391 build_param (child_outline->add_child("param"),"loopyness","real","1.0000000000");
392 build_param (child_outline->add_child("param"),"homogeneous_width","bool","true");
398 if(typeStroke==2){ //gradient in onto mode (stroke)
399 if (SVG_RESOLVE_BLINE)
400 build_url(child_stroke->add_child("layer"),fill,mtx);
402 build_url(child_stroke->add_child("layer"),fill,NULL);
404 if (SVG_RESOLVE_BLINE)
405 parser_effects(nodeElement,child_layer,parent_style,NULL);
407 parser_effects(nodeElement,child_layer,parent_style,mtx);
414 Svg_parser::rect_simple(const xmlpp::Element* nodeElement,xmlpp::Element* root,String fill, String fill_opacity, String opacity){
415 Glib::ustring rect_id =nodeElement->get_attribute_value("id");
416 Glib::ustring rect_x =nodeElement->get_attribute_value("x");
417 Glib::ustring rect_y =nodeElement->get_attribute_value("y");
418 Glib::ustring rect_width =nodeElement->get_attribute_value("width");
419 Glib::ustring rect_height =nodeElement->get_attribute_value("height");
421 xmlpp::Element *child_rect=root->add_child("layer");
422 child_rect->set_attribute("type","rectangle");
423 child_rect->set_attribute("active","true");
424 child_rect->set_attribute("version","0.2");
425 child_rect->set_attribute("desc",rect_id);
427 build_real(child_rect->add_child("param"),"z_depth",0.0);
428 build_real(child_rect->add_child("param"),"amount",1.0);
429 build_integer(child_rect->add_child("param"),"blend_method",0);
430 build_color (child_rect->add_child("param"),getRed (fill),getGreen (fill),getBlue(fill),atof(opacity.data())*atof(fill_opacity.data()));
432 float auxx=atof(rect_x.c_str());
433 float auxy=atof(rect_y.c_str());
434 coor2vect(&auxx,&auxy);
435 build_vector (child_rect->add_child("param"),"point1",auxx,auxy);
436 auxx= atof(rect_x.c_str()) + atof(rect_width.c_str());
437 auxy= atof(rect_y.c_str()) + atof(rect_height.c_str());
438 coor2vect(&auxx,&auxy);
439 build_vector (child_rect->add_child("param"),"point2",auxx,auxy);
445 Svg_parser::parser_layer(const xmlpp::Node* node,xmlpp::Element* root,String parent_style,Matrix* mtx){
446 if(const xmlpp::Element* nodeElement = dynamic_cast<const xmlpp::Element*>(node)){
447 Glib::ustring label =nodeElement->get_attribute_value("label");
448 Glib::ustring style =nodeElement->get_attribute_value("style");
449 Glib::ustring fill =nodeElement->get_attribute_value("fill");
454 }else if(!fill.empty()){
455 layer_style.append("fill:");
456 layer_style.append(fill);
457 }else if(!parent_style.empty()){
458 layer_style=parent_style;
461 root->set_attribute("type","PasteCanvas");
462 root->set_attribute("active","true");
463 root->set_attribute("version","0.1");
464 if(!label.empty()) root->set_attribute("desc",label);
465 else root->set_attribute("desc","Inline Canvas");
467 build_real(root->add_child("param"),"z_depth",0.0);
468 build_real(root->add_child("param"),"amount",1.0);
469 build_integer(root->add_child("param"),"blend_method",0);
470 build_vector (root->add_child("param"),"origin",0,0);
472 //printf(" canvas attributes ");
474 xmlpp::Element *child_canvas=root->add_child("param");
475 child_canvas->set_attribute("name","canvas");
476 child_canvas=child_canvas->add_child("canvas");
477 const xmlpp::ContentNode* nodeContent = dynamic_cast<const xmlpp::ContentNode*>(node);
479 xmlpp::Node::NodeList list = node->get_children();
480 for(xmlpp::Node::NodeList::iterator iter = list.begin(); iter != list.end(); ++iter){
481 Glib::ustring name =(*iter)->get_name();
482 parser_graphics (*iter,child_canvas,layer_style,mtx);
485 if (! SVG_SEP_TRANSFORMS) parser_effects(nodeElement,child_canvas,parent_style,mtx);
489 std::list<std::list<Vertice*> >
490 Svg_parser::parser_polygon_path(Glib::ustring polygon_points, Matrix* mtx){
491 std::list<std::list<Vertice*> > k0;
492 if(polygon_points.empty())
494 std::list<Vertice*> k;
495 std::vector<String> tokens=get_tokens_path (polygon_points);
497 float ax,ay; ax=ay=0;
498 for(i=0;i<tokens.size();i++){
499 ax=atof(tokens.at(i).data());
500 i++; if(tokens.at(i).compare(",")==0) i++;
501 ay=atof(tokens.at(i).data());
503 if(mtx) transformPoint2D(mtx,&ax,&ay);
507 k.push_back(newVertice(ax,ay));
514 Svg_parser::get_tokens_path(String path){ //mini path lexico-parser
515 std::vector<String> tokens;
520 while(i<path.size()){
523 case 0: //initial state
524 if(a=='m'){ e=1; i++;}
525 else if(a=='c'){ e= 2; i++;}
526 else if(a=='q'){ e= 3; i++;}
527 else if(a=='t'){ e= 4; i++;}
528 else if(a=='a'){ e= 5; i++;}
529 else if(a=='l'){ e= 6; i++;}
530 else if(a=='v'){ e= 7; i++;}
531 else if(a=='h'){ e= 8; i++;}
532 else if(a=='M'){ e= 9; i++;}
533 else if(a=='C'){ e=10; i++;}
534 else if(a=='Q'){ e=11; i++;}
535 else if(a=='T'){ e=12; i++;}
536 else if(a=='A'){ e=13; i++;}
537 else if(a=='L'){ e=14; i++;}
538 else if(a=='V'){ e=15; i++;}
539 else if(a=='H'){ e=16; i++;}
540 else if(a=='z' || a=='Z'){ e=17; i++;}
541 else if(a=='-' ||a=='.'|| isdigit (a)){ e=18;}
542 else if(a==','){ e=19; i++;}
543 else if(a==' '){i++;}
546 case 1 : tokens.push_back("m"); e=0; break;//move
547 case 2 : tokens.push_back("c"); e=0; break;//curve
548 case 3 : tokens.push_back("q"); e=0; break;//quadratic
549 case 4 : tokens.push_back("t"); e=0; break;//smooth quadratic
550 case 5 : tokens.push_back("a"); e=0; break;//elliptic arc
551 case 6 : tokens.push_back("l"); e=0; break;//line to
552 case 7 : tokens.push_back("v"); e=0; break;//vertical
553 case 8 : tokens.push_back("h"); e=0; break;//horizontal
555 case 9 : tokens.push_back("M"); e=0; break;
556 case 10: tokens.push_back("C"); e=0; break;
557 case 11: tokens.push_back("Q"); e=0; break;
558 case 12: tokens.push_back("T"); e=0; break;
559 case 13: tokens.push_back("A"); e=0; break;
560 case 14: tokens.push_back("L"); e=0; break;
561 case 15: tokens.push_back("V"); e=0; break;
562 case 16: tokens.push_back("H"); e=0; break;
564 case 17: tokens.push_back("z"); e=0; break;//loop
565 case 18: if(a=='-'||a=='.'|| isdigit (a)){
566 buffer.append(path.substr(i,1));i++;
571 case 19: tokens.push_back(","); e=0; break;
572 case 20: tokens.push_back(buffer);
578 switch(e){//last element
579 case 1 : tokens.push_back("m"); break;
580 case 2 : tokens.push_back("c"); break;
581 case 3 : tokens.push_back("q"); break;
582 case 4 : tokens.push_back("t"); break;
583 case 5 : tokens.push_back("a"); break;
584 case 6 : tokens.push_back("l"); break;
585 case 7 : tokens.push_back("v"); break;
586 case 8 : tokens.push_back("h"); break;
587 case 9 : tokens.push_back("M"); break;
588 case 10: tokens.push_back("C"); break;
589 case 11: tokens.push_back("Q"); break;
590 case 12: tokens.push_back("T"); break;
591 case 13: tokens.push_back("A"); break;
592 case 14: tokens.push_back("L"); break;
593 case 15: tokens.push_back("V"); break;
594 case 16: tokens.push_back("H"); break;
595 case 17: tokens.push_back("z"); break;
596 case 18: tokens.push_back(buffer); break;
597 case 19: tokens.push_back(","); break;
598 case 20: tokens.push_back(buffer); break;
604 std::list<std::list<Vertice*> >
605 Svg_parser::parser_path_d(String path_d,Matrix* mtx){
606 std::list<std::list<Vertice*> > k;
607 std::list<Vertice*> k1;
608 std::vector<String> tokens=get_tokens_path(path_d);
609 String command="M"; //the current command
610 float ax,ay,tgx,tgy,tgx2,tgy2;//each method
612 float actual_x=0,actual_y=0; //in svg coordinate space
613 float old_x=0,old_y=0; //needed in rare cases
616 for(unsigned int i=0;i<tokens.size();i++){
617 //if the token is a command, change the current command
618 if(tokens.at(i).compare("M")==0 || tokens.at(i).compare("m")==0 || tokens.at(i).compare("L")==0 || tokens.at(i).compare("l")==0 || tokens.at(i).compare("H")==0 || tokens.at(i).compare("h")==0 || tokens.at(i).compare("V")==0 || tokens.at(i).compare("v")==0 || tokens.at(i).compare("C")==0 || tokens.at(i).compare("c")==0 || tokens.at(i).compare("S")==0 || tokens.at(i).compare("s")==0 || tokens.at(i).compare("Q")==0 || tokens.at(i).compare("q")==0 || tokens.at(i).compare("T")==0 || tokens.at(i).compare("t")==0 || tokens.at(i).compare("A")==0 || tokens.at(i).compare("a")==0 || tokens.at(i).compare("z")==0) {
619 command=tokens.at(i);
625 //if command is absolute, set actual_x/y to zero
626 if(command.compare("M")==0 || command.compare("L")==0 || command.compare("C")==0 || command.compare("S")==0 || command.compare("Q")==0 || command.compare("T")==0 || command.compare("A")==0 || command.compare("H")==0 || command.compare("V")==0) {
631 //now parse the commands
632 if(command.compare("M")==0 || command.compare("m")==0){ //move to
637 actual_x+=atof(tokens.at(i).data());
638 i++; if(tokens.at(i).compare(",")==0) i++;
639 actual_y+=atof(tokens.at(i).data());
644 if(mtx) transformPoint2D(mtx,&ax,&ay);
646 k1.push_back(newVertice (ax,ay)); //first element
647 setSplit(k1.back(),TRUE);
648 //"If a moveto is followed by multiple pairs of coordinates,
649 // the subsequent pairs are treated as implicit lineto commands."
650 if (command.compare("M")==0)
654 }else if(command.compare("C")==0 || command.compare("c")==0){ //curve
656 tgx2=actual_x+atof(tokens.at(i).data());
657 i++; if(tokens.at(i).compare(",")==0) i++;
658 tgy2=actual_y+atof(tokens.at(i).data());
660 i++; tgx=actual_x+atof(tokens.at(i).data());
661 i++; if(tokens.at(i).compare(",")==0) i++;
662 tgy=actual_y+atof(tokens.at(i).data());
664 i++; actual_x+=atof(tokens.at(i).data());
665 i++; if(tokens.at(i).compare(",")==0) i++;
666 actual_y+=atof(tokens.at(i).data());
672 transformPoint2D(mtx,&tgx2,&tgy2);
673 transformPoint2D(mtx,&ax,&ay);
674 transformPoint2D(mtx,&tgx,&tgy);
677 coor2vect(&tgx2,&tgy2);
679 coor2vect(&tgx,&tgy);
681 setTg2(k1.back(),k1.back()->x,k1.back()->y,tgx2,tgy2);
682 if(isFirst(k1.front(),ax,ay)){
683 setTg1(k1.front(),k1.front()->x,k1.front()->y,tgx,tgy);
685 k1.push_back(newVertice (ax,ay));
686 setTg1(k1.back(),k1.back()->x,k1.back()->y,tgx,tgy);
687 setSplit(k1.back(),TRUE);
689 }else if(command.compare("Q")==0 || command.compare("q")==0){ //quadractic curve
691 tgx=actual_x+atof(tokens.at(i).data());
692 i++; if(tokens.at(i).compare(",")==0) i++;
693 tgy=actual_y+atof(tokens.at(i).data());
695 i++; actual_x+=atof(tokens.at(i).data());
696 i++; if(tokens.at(i).compare(",")==0) i++;
697 actual_y+=atof(tokens.at(i).data());
703 transformPoint2D(mtx,&ax,&ay);
704 transformPoint2D(mtx,&tgx,&tgy);
708 coor2vect(&tgx,&tgy);
710 setTg1(k1.back(),k1.back()->x,k1.back()->y,tgx,tgy);
711 setSplit(k1.back(),FALSE);
712 k1.push_back(newVertice (ax,ay));
713 setTg1(k1.back(),k1.back()->x,k1.back()->y,tgx,tgy);
714 }else if(command.compare("L")==0 || command.compare("l")==0){ //line to
716 actual_x+=atof(tokens.at(i).data());
717 i++; if(tokens.at(i).compare(",")==0) i++;
718 actual_y+=atof(tokens.at(i).data());
723 if(mtx) transformPoint2D(mtx,&ax,&ay);
727 setTg2(k1.back(),k1.back()->x,k1.back()->y,k1.back()->x,k1.back()->y);
728 if(isFirst(k1.front(),ax,ay)){
729 setTg1(k1.front(),k1.front()->x,k1.front()->y,k1.front()->x,k1.front()->y);
731 k1.push_back(newVertice(ax,ay));
732 setTg1(k1.back(),k1.back()->x,k1.back()->y,k1.back()->x,k1.back()->y);
734 }else if(command.compare("H")==0 || command.compare("h")==0){// horizontal move
735 //the same that L but only Horizontal movement
737 actual_x+=atof(tokens.at(i).data());
742 if(mtx) transformPoint2D(mtx,&ax,&ay);
746 setTg2(k1.back(),k1.back()->x,k1.back()->y,k1.back()->x,k1.back()->y);
747 if(isFirst(k1.front(),ax,ay)){
748 setTg1(k1.front(),k1.front()->x,k1.front()->y,k1.front()->x,k1.front()->y);
750 k1.push_back(newVertice(ax,ay));
751 setTg1(k1.back(),k1.back()->x,k1.back()->y,k1.back()->x,k1.back()->y);
753 }else if(command.compare("V")==0 || command.compare("v")==0){//vertical
755 actual_y+=atof(tokens.at(i).data());
760 if(mtx) transformPoint2D(mtx,&ax,&ay);
764 setTg2(k1.back(),k1.back()->x,k1.back()->y,k1.back()->x,k1.back()->y);
765 if(isFirst(k1.front(),ax,ay)){
766 setTg1(k1.front(),k1.front()->x,k1.front()->y,k1.front()->x,k1.front()->y);
768 k1.push_back(newVertice(ax,ay));
769 setTg1(k1.back(),k1.back()->x,k1.back()->y,k1.back()->x,k1.back()->y);
771 }else if(command.compare("T")==0 || command.compare("t")==0){// I don't know what does it
772 actual_x+=atof(tokens.at(i).data());
773 i++; if(tokens.at(i).compare(",")==0) i++;
774 actual_y+=atof(tokens.at(i).data());
775 }else if(command.compare("A")==0 || command.compare("a")==0){//elliptic arc
777 //isn't complete support, is only for circles
779 //this curve have 6 parameters
781 float radio_x,radio_y;
785 radio_x=atof(tokens.at(i).data());
786 i++; if(tokens.at(i).compare(",")==0) i++;
787 radio_y=atof(tokens.at(i).data());
789 i++; angle=atof(tokens.at(i).data());
791 i++; large=atoi(tokens.at(i).data());
792 i++; sweep=atoi(tokens.at(i).data());
794 i++; actual_x+=atof(tokens.at(i).data());
795 i++; if(tokens.at(i).compare(",")==0) i++;
796 actual_y+=atof(tokens.at(i).data());
798 if(!large && !sweep){
800 tgx2 = old_x + radio_x*0.5;
803 tgy = actual_y + radio_y*0.5;
809 transformPoint2D(mtx,&tgx2,&tgy2);
810 transformPoint2D(mtx,&ax,&ay);
811 transformPoint2D(mtx,&tgx,&tgy);
814 coor2vect(&tgx2,&tgy2);
816 coor2vect(&tgx,&tgy);
818 setTg2(k1.back(),k1.back()->x,k1.back()->y,tgx2,tgy2);
819 if(isFirst(k1.front(),ax,ay)){
820 setTg1(k1.front(),k1.front()->x,k1.front()->y,tgx,tgy);
822 k1.push_back(newVertice (ax,ay));
823 setTg1(k1.back(),k1.back()->x,k1.back()->y,tgx,tgy);
824 setSplit(k1.back(),TRUE);
826 }else if(!large && sweep){
829 tgy2 = old_y + radio_y*0.5;
830 tgx = actual_x + radio_x*0.5;
837 transformPoint2D(mtx,&tgx2,&tgy2);
838 transformPoint2D(mtx,&ax,&ay);
839 transformPoint2D(mtx,&tgx,&tgy);
842 coor2vect(&tgx2,&tgy2);
844 coor2vect(&tgx,&tgy);
846 setTg2(k1.back(),k1.back()->x,k1.back()->y,tgx2,tgy2);
847 if(isFirst(k1.front(),ax,ay)){
848 setTg1(k1.front(),k1.front()->x,k1.front()->y,tgx,tgy);
850 k1.push_back(newVertice (ax,ay));
851 setTg1(k1.back(),k1.back()->x,k1.back()->y,tgx,tgy);
852 setSplit(k1.back(),TRUE);
854 }else if( large && !sweep){//rare
855 //this need more than one vertex
856 }else if( large && sweep){//circles in inkscape are made with this kind of arc
859 if(old_x>actual_x) sense =-1;
860 float in_x,in_y,in_tgx1,in_tgy1,in_tgx2,in_tgy2;
861 in_x = (old_x+actual_x)/2;
862 in_y = old_y - sense*radio_y;
863 in_tgx1 = in_x - sense*(radio_x*0.5);
864 in_tgx2 = in_x + sense*(radio_x*0.5);
869 tgy2=actual_y - sense*(radio_y*0.5);
871 tgy =actual_y - sense*(radio_y*0.5);
877 transformPoint2D(mtx,&tgx2,&tgy2);
878 transformPoint2D(mtx,&tgx ,&tgy );
879 transformPoint2D(mtx,&ax,&ay);
881 transformPoint2D(mtx,&in_tgx2,&in_tgy2);
882 transformPoint2D(mtx,&in_tgx1,&in_tgy1);
883 transformPoint2D(mtx,&in_x,&in_y);
886 coor2vect(&tgx2 , &tgy2);
887 coor2vect(&ax , &ay );
888 coor2vect(&tgx , &tgy );
890 coor2vect(&in_tgx2 , &in_tgy2);
891 coor2vect(&in_tgx1 , &in_tgy1);
892 coor2vect(&in_x , &in_y );
895 setTg2(k1.back(),k1.back()->x,k1.back()->y,tgx2,tgy2);
896 //save the intermediate point
897 k1.push_back(newVertice (in_x,in_y));
898 setTg1(k1.back(),k1.back()->x,k1.back()->y, in_tgx1 , in_tgy1);
899 setTg2(k1.back(),k1.back()->x,k1.back()->y, in_tgx2 , in_tgy2);
900 setSplit(k1.back(),TRUE); //this could be changed
902 if(isFirst(k1.front(),ax,ay)){
903 setTg1(k1.front(),k1.front()->x,k1.front()->y,tgx,tgy);
905 k1.push_back(newVertice (ax,ay));
906 setTg1(k1.back(),k1.back()->x,k1.back()->y,tgx,tgy);
907 setSplit(k1.back(),TRUE);
910 }else if(command.compare("z")==0){
913 std::cout<<"unsupported path token: "<<tokens.at(i)<<std::endl;
917 k.push_front(k1); //last element
922 Svg_parser::parser_effects(const xmlpp::Element* nodeElement,xmlpp::Element* root,String parent_style,Matrix* mtx){
924 xmlpp::Element *child_transform=root->add_child("layer");
925 child_transform->set_attribute("type","warp");
926 child_transform->set_attribute("active","true");
927 child_transform->set_attribute("version","0.1");
928 child_transform->set_attribute("desc","Transform");
931 x=100;y=100;coor2vect(&x,&y);
932 build_vector (child_transform->add_child("param"),"src_tl",x,y);
934 x=200;y=200;coor2vect(&x,&y);
935 build_vector (child_transform->add_child("param"),"src_br",x,y);
939 transformPoint2D(mtx,&x,&y);coor2vect(&x,&y);
940 build_vector (child_transform->add_child("param"),"dest_tl",x,y);
943 transformPoint2D(mtx,&x,&y);coor2vect(&x,&y);
944 build_vector (child_transform->add_child("param"),"dest_tr",x,y);
947 transformPoint2D(mtx,&x,&y);coor2vect(&x,&y);
948 build_vector (child_transform->add_child("param"),"dest_br",x,y);
951 transformPoint2D(mtx,&x,&y);coor2vect(&x,&y);
952 build_vector (child_transform->add_child("param"),"dest_bl",x,y);
954 build_param (child_transform->add_child("param"),"clip","bool","false");
955 build_param (child_transform->add_child("param"),"horizon","real","4.0");
961 Svg_parser::parser_defs(const xmlpp::Node* node){
962 const xmlpp::ContentNode* nodeContent = dynamic_cast<const xmlpp::ContentNode*>(node);
964 xmlpp::Node::NodeList list = node->get_children();
965 for(xmlpp::Node::NodeList::iterator iter = list.begin(); iter != list.end(); ++iter){
966 Glib::ustring name =(*iter)->get_name();
967 if(name.compare("linearGradient")==0){
968 parser_linearGradient(*iter);
969 }else if(name.compare("radialGradient")==0){
970 parser_radialGradient(*iter);
977 Svg_parser::AdjustPointUrl(){
979 if(!lg.empty()){//linealgradient
980 std::list<LinearGradient*>::iterator aux=lg.begin();
981 while(aux!=lg.end()){
982 LinearGradient* auxlg=*aux;
983 coor2vect (&auxlg->x1,&auxlg->y1);
984 coor2vect (&auxlg->x2,&auxlg->y2);
988 if(!rg.empty()){//radialgradient
989 std::list<RadialGradient*>::iterator aux=rg.begin();
990 while(aux!=rg.end()){
991 RadialGradient* auxrg=*aux;
992 coor2vect (&auxrg->cx,&auxrg->cy);
993 auxrg->r= auxrg->r/kux;
999 std::list<ColorStop*>*
1000 Svg_parser::find_colorStop(String name){
1002 if(lg.empty()&& rg.empty())
1006 if(find.at(0)=='#') find.erase(0,1);
1008 std::list<LinearGradient*>::iterator aux=lg.begin();
1009 while(aux!=lg.end()){//only find into linear gradients
1010 if(find.compare((*aux)->name)==0){
1011 return (*aux)->stops;
1019 Svg_parser::build_url(xmlpp::Element* root, String name,Matrix *mtx){
1021 if(lg.empty()&& rg.empty())
1022 root->get_parent()->remove_child(root);
1024 int start=name.find_first_of("#")+1;
1025 int end=name.find_first_of(")");
1026 String find= name.substr(start,end-start);
1027 bool encounter=false;
1029 std::list<LinearGradient*>::iterator aux=lg.begin();
1030 while(aux!=lg.end()){
1031 if(find.compare((*aux)->name)==0){
1032 build_linearGradient (root,*aux,mtx);
1038 if(!encounter && !rg.empty()){
1039 std::list<RadialGradient*>::iterator aux=rg.begin();
1040 while(aux!=rg.end()){
1041 if(find.compare((*aux)->name)==0){
1042 build_radialGradient (root,*aux,mtx);
1049 root->get_parent()->remove_child(root);
1051 root->get_parent()->remove_child(root);
1055 Svg_parser::build_stop_color(xmlpp::Element* root, std::list<ColorStop*> *stops){
1056 std::list<ColorStop*>::iterator aux_stop=stops->begin();
1057 while(aux_stop!=stops->end()){
1058 xmlpp::Element *child=root->add_child("color");
1059 child->set_attribute("pos",etl::strprintf("%f",(*aux_stop)->pos));
1060 child->add_child("r")->set_child_text(etl::strprintf("%f",(*aux_stop)->r));
1061 child->add_child("g")->set_child_text(etl::strprintf("%f",(*aux_stop)->g));
1062 child->add_child("b")->set_child_text(etl::strprintf("%f",(*aux_stop)->b));
1063 child->add_child("a")->set_child_text(etl::strprintf("%f",(*aux_stop)->a));
1068 Svg_parser::build_linearGradient(xmlpp::Element* root,LinearGradient* data,Matrix* mtx){
1070 root->set_attribute("type","linear_gradient");
1071 root->set_attribute("active","true");
1072 root->set_attribute("desc","Gradient004");
1073 build_param (root->add_child("param"),"z_depth","real","0");
1074 build_param (root->add_child("param"),"amount","real","1");
1076 build_param (root->add_child("param"),"blend_method","integer","21");
1083 transformPoint2D(mtx,&x1,&y1);
1084 transformPoint2D(mtx,&x2,&y2);
1086 coor2vect (&x1,&y1);
1087 coor2vect (&x2,&y2);
1089 build_vector (root->add_child("param"),"p1",x1,y1);
1090 build_vector (root->add_child("param"),"p2",x2,y2);
1092 xmlpp::Element *child=root->add_child("param");
1093 child->set_attribute("name","gradient");
1094 build_stop_color (child->add_child("gradient"),data->stops);
1095 build_param (root->add_child("param"),"loop","bool","false");
1096 build_param (root->add_child("param"),"zigzag","bool","false");
1100 Svg_parser::build_radialGradient(xmlpp::Element* root,RadialGradient* data,Matrix* mtx){
1103 root->set_attribute("type","radial_gradient");
1104 root->set_attribute("active","true");
1105 build_param (root->add_child("param"),"z_depth","real","0");
1106 build_param (root->add_child("param"),"amount","real","1");
1108 build_param (root->add_child("param"),"blend_method","integer","21");
1110 xmlpp::Element *child=root->add_child("param");
1111 child->set_attribute("name","gradient");
1112 build_stop_color (child->add_child("gradient"),data->stops);
1113 //here the center point and radio
1119 transformPoint2D(mtx,&cx,&cy);
1122 coor2vect (&cx,&cy);
1124 build_vector (root->add_child("param"),"center",cx,cy);
1125 build_param (root->add_child("param"),"radius","real",r);
1127 build_param (root->add_child("param"),"loop","bool","false");
1128 build_param (root->add_child("param"),"zigzag","bool","false");
1133 Svg_parser::parser_linearGradient(const xmlpp::Node* node){
1134 if(const xmlpp::Element* nodeElement = dynamic_cast<const xmlpp::Element*>(node)){
1135 Glib::ustring id =nodeElement->get_attribute_value("id");
1136 float x1 =atof(nodeElement->get_attribute_value("x1").data());
1137 float y1 =atof(nodeElement->get_attribute_value("y1").data());
1138 float x2 =atof(nodeElement->get_attribute_value("x2").data());
1139 float y2 =atof(nodeElement->get_attribute_value("y2").data());
1140 Glib::ustring link =nodeElement->get_attribute_value("href");
1142 std::list<ColorStop*> *stops;
1144 stops=find_colorStop (link);
1147 stops=new std::list<ColorStop*>();
1148 const xmlpp::ContentNode* nodeContent = dynamic_cast<const xmlpp::ContentNode*>(node);
1150 xmlpp::Node::NodeList list = node->get_children();
1151 for(xmlpp::Node::NodeList::iterator iter = list.begin(); iter != list.end(); ++iter){
1152 Glib::ustring name =(*iter)->get_name();
1153 if(name.compare("stop")==0){
1154 const xmlpp::Element* nodeIter = dynamic_cast<const xmlpp::Element*>(*iter);
1155 Glib::ustring style =nodeIter->get_attribute_value("style");
1156 float offset=atof(nodeIter->get_attribute_value("offset").data());
1160 extractSubAttribute (style,"stop-color",&stop_color);
1161 extractSubAttribute (style,"stop-opacity",&opacity);
1163 if(opacity.empty()) opacity="1";
1164 if(stop_color.empty()) stop_color="#000000";//black for default :S
1165 stops->push_back(newColorStop(stop_color,atof(opacity.data()),offset));
1171 lg.push_back(newLinearGradient(id,x1,y1,x2,y2,stops));
1176 Svg_parser::parser_radialGradient(const xmlpp::Node* node){
1177 if(const xmlpp::Element* nodeElement = dynamic_cast<const xmlpp::Element*>(node)){
1178 Glib::ustring id =nodeElement->get_attribute_value("id");
1179 float cx =atof(nodeElement->get_attribute_value("cx").data());
1180 float cy =atof(nodeElement->get_attribute_value("cy").data());
1181 float r =atof(nodeElement->get_attribute_value("r").data());
1182 Glib::ustring link =nodeElement->get_attribute_value("href");//basic
1183 std::list<ColorStop*> *stops=NULL;
1185 //inkscape always use link, i dont need parser stops here, but it's posible
1186 stops=find_colorStop (link);
1189 rg.push_back(newRadialGradient(id,cx,cy,r,stops));
1194 Svg_parser::newColorStop(String color,float opacity,float pos){
1196 _stop=(ColorStop*)malloc(sizeof(ColorStop));
1197 float r=getRed(color);
1198 float g=getGreen(color);
1199 float b=getBlue(color);
1201 Color ret=adjustGamma(r/255,g/255,b/255,a);
1202 _stop->r=ret.get_r();
1203 _stop->g=ret.get_g();
1204 _stop->b=ret.get_b();
1205 _stop->a=ret.get_a();
1210 Svg_parser::adjustGamma(float r,float g,float b,float a){
1212 if(gamma.get_gamma_r()!=1.0){
1214 ret.set_r(-gamma.r_F32_to_F32(-ret.get_r()));
1216 ret.set_r(gamma.r_F32_to_F32(ret.get_r()));
1218 if(gamma.get_gamma_g()!=1.0){
1220 ret.set_g(-gamma.g_F32_to_F32(-ret.get_g()));
1222 ret.set_g(gamma.g_F32_to_F32(ret.get_g()));
1224 if(gamma.get_gamma_b()!=1.0){
1226 ret.set_b(-gamma.b_F32_to_F32(-ret.get_b()));
1228 ret.set_b(gamma.b_F32_to_F32(ret.get_b()));
1234 Svg_parser::newLinearGradient(String name,float x1,float y1, float x2,float y2,std::list<ColorStop*> *stops){
1235 LinearGradient* data;
1236 data=(LinearGradient*)malloc(sizeof(LinearGradient));
1237 sprintf(data->name,"%s",name.data());
1247 Svg_parser::newRadialGradient(String name,float cx,float cy,float r,std::list<ColorStop*> *stops){
1248 RadialGradient* data;
1249 data=(RadialGradient*)malloc(sizeof(RadialGradient));
1250 sprintf(data->name,"%s",name.data());
1260 Svg_parser::build_gamma(xmlpp::Element* root,float gamma){
1261 root->set_attribute("type","colorcorrect");
1262 root->set_attribute("active","true");
1263 root->set_attribute("version","0.1");
1264 root->set_attribute("desc","Gamma");
1265 build_real (root->add_child("param"),"gamma",gamma);
1268 Svg_parser::build_transform(const String transform){
1270 String tf(transform);
1272 std::vector<String> tokens=tokenize(tf," ");
1273 std::vector<String>::iterator aux=tokens.begin();
1274 while(aux!=tokens.end()){
1275 if((*aux).compare(0,9,"translate")==0){
1278 start =(*aux).find_first_of("(")+1;
1279 end =(*aux).find_first_of(",");
1280 dx =atof((*aux).substr(start,end-start).data());
1281 start =(*aux).find_first_of(",")+1;
1282 end =(*aux).size()-1;
1283 dy =atof((*aux).substr(start,end-start).data());
1285 a=newMatrix(1,0,0,1,dx,dy);
1287 multiplyMatrix(&a,newMatrix(1,0,0,1,dx,dy));
1288 }else if((*aux).compare(0,5,"scale")==0){
1290 a=newMatrix(1,0,0,1,0,0);
1291 }else if((*aux).compare(0,6,"rotate")==0){
1292 float angle,seno,coseno;
1294 start =(*aux).find_first_of("(")+1;
1295 end =(*aux).size()-1;
1296 angle=getRadian (atof((*aux).substr(start,end-start).data()));
1300 a=newMatrix(coseno,seno,-1*seno,coseno,0,0);
1302 multiplyMatrix(&a,newMatrix(coseno,seno,-1*seno,coseno,0,0));
1303 }else if((*aux).compare(0,6,"matrix")==0){
1304 int start =(*aux).find_first_of('(')+1;
1305 int end =(*aux).find_first_of(')');
1307 a=newMatrix((*aux).substr(start,end-start));
1309 multiplyMatrix(&a,newMatrix((*aux).substr(start,end-start)));
1311 a=newMatrix(1,0,0,1,0,0);
1319 Svg_parser::build_translate(xmlpp::Element* root,float dx,float dy){
1320 root->set_attribute("type","translate");
1321 root->set_attribute("active","true");
1322 root->set_attribute("version","0.1");
1323 build_vector (root->add_child("param"),"origin",dx,dy);
1326 Svg_parser::build_rotate(xmlpp::Element* root,float dx,float dy,float angle){
1327 root->set_attribute("type","rotate");
1328 root->set_attribute("active","true");
1329 root->set_attribute("version","0.1");
1330 build_vector (root->add_child("param"),"origin",dx,dy);
1331 build_real (root->add_child("param"),"amount",angle);
1334 Svg_parser::build_points(xmlpp::Element* root,std::list<Vertice*> p){
1335 root->set_attribute("name","vector_list");
1336 xmlpp::Element *child=root->add_child("dynamic_list");
1337 child->set_attribute("type","vector");
1338 std::list<Vertice*>::iterator aux = p.begin();
1339 while(aux!=p.end()){
1340 xmlpp::Element *child_entry=child->add_child("entry");
1341 xmlpp::Element *child_vector=child_entry->add_child("vector");
1342 child_vector->add_child("x")->set_child_text(etl::strprintf("%f",(*aux)->x));
1343 child_vector->add_child("y")->set_child_text(etl::strprintf("%f",(*aux)->y));
1348 Svg_parser::build_vertice(xmlpp::Element* root , Vertice *p){
1349 xmlpp::Element *child_comp=root->add_child("composite");
1350 child_comp->set_attribute("type","bline_point");
1351 build_vector (child_comp->add_child("param"),"point",p->x,p->y);
1352 build_param (child_comp->add_child("width"),"","real","1.0000000000");
1353 build_param (child_comp->add_child("origin"),"","real","0.5000000000");
1354 if(p->split) build_param (child_comp->add_child("split"),"","bool","true");
1355 else build_param (child_comp->add_child("split"),"","bool","false");
1357 xmlpp::Element *child_t1=child_comp->add_child("t1");
1358 xmlpp::Element *child_rc=child_t1->add_child("radial_composite");
1359 child_rc->set_attribute("type","vector");
1360 build_param (child_rc->add_child("radius"),"","real",p->radio1);
1361 build_param (child_rc->add_child("theta"),"","angle",p->angle1);
1363 xmlpp::Element *child_t2=child_comp->add_child("t2");
1364 xmlpp::Element *child_rc2=child_t2->add_child("radial_composite");
1365 child_rc2->set_attribute("type","vector");
1366 build_param (child_rc2->add_child("radius"),"","real",p->radio2);
1367 build_param (child_rc2->add_child("theta"),"","angle",p->angle2);
1371 Svg_parser::build_bline(xmlpp::Element* root,std::list<Vertice*> p,bool loop,String blineguid){
1372 root->set_attribute("name","bline");
1373 xmlpp::Element *child=root->add_child("bline");
1374 child->set_attribute("type","bline_point");
1376 child->set_attribute("loop","true");
1378 child->set_attribute("loop","false");
1379 if(!blineguid.empty()) child->set_attribute("guid",blineguid);
1380 std::list<Vertice*>::iterator aux = p.begin();
1381 while(aux!=p.end()){
1382 if(*aux) build_vertice (child->add_child("entry"),*aux);
1388 Svg_parser::build_param(xmlpp::Element* root,String name,String type,String value){
1389 if(!type.empty() && !value.empty()){
1390 if(!name.empty()) root->set_attribute("name",name);
1391 xmlpp::Element *child=root->add_child(type);
1392 child->set_attribute("value",value);
1394 root->get_parent()->remove_child(root);
1398 Svg_parser::build_param(xmlpp::Element* root,String name,String type,float value){
1400 if(!name.empty()) root->set_attribute("name",name);
1401 xmlpp::Element *child=root->add_child(type);
1402 child->set_attribute("value",etl::strprintf ("%f",value));
1404 root->get_parent()->remove_child(root);
1408 Svg_parser::build_param(xmlpp::Element* root,String name,String type,int value){
1410 if(!name.empty()) root->set_attribute("name",name);
1411 xmlpp::Element *child=root->add_child(type);
1412 char *enteroc=new char[10];
1413 sprintf(enteroc,"%d",value);
1414 child->set_attribute("value",enteroc);
1417 root->get_parent()->remove_child(root);
1422 Svg_parser::build_integer(xmlpp::Element* root,String name,int value){
1423 if(name.compare("")!=0) root->set_attribute("name",name);
1424 xmlpp::Element *child=root->add_child("integer");
1425 char *enteroc=new char[10];
1426 sprintf(enteroc,"%d",value);
1427 child->set_attribute("value",enteroc);
1430 Svg_parser::build_real(xmlpp::Element* root,String name,float value){
1431 if(name.compare("")!=0) root->set_attribute("name",name);
1432 xmlpp::Element *child=root->add_child("real");
1433 char *realc=new char[20];
1434 sprintf(realc,"%f",value);
1435 child->set_attribute("value",realc);
1439 Svg_parser::build_color(xmlpp::Element* root,float r,float g,float b,float a){
1440 if(r>255 || g>255 || b>255 || a>1 || r<0 || g<0 || b<0 || a<0){
1441 root->get_parent()->remove_child(root);
1442 printf("Color aborted\n");
1445 Color ret=adjustGamma(r/255,g/255,b/255,a);
1447 root->set_attribute("name","color");
1448 xmlpp::Element *child=root->add_child("color");
1449 child->add_child("r")->set_child_text(etl::strprintf("%f",ret.get_r()));
1450 child->add_child("g")->set_child_text(etl::strprintf("%f",ret.get_g()));
1451 child->add_child("b")->set_child_text(etl::strprintf("%f",ret.get_b()));
1452 child->add_child("a")->set_child_text(etl::strprintf("%f",ret.get_a()));
1455 Svg_parser::build_vector(xmlpp::Element* root,String name,float x,float y){
1457 if(name.compare("")!=0) root->set_attribute("name",name);
1458 xmlpp::Element *child=root->add_child("vector");
1459 child->add_child("x")->set_child_text(etl::strprintf("%f",x));
1460 child->add_child("y")->set_child_text(etl::strprintf("%f",y));
1464 Svg_parser::build_vector (xmlpp::Element* root,String name,float x,float y,String guid){
1465 if(name.compare("")!=0) root->set_attribute("name",name);
1466 xmlpp::Element *child=root->add_child("vector");
1467 if(!guid.empty()) child->set_attribute("guid",guid);
1468 child->add_child("x")->set_child_text(etl::strprintf("%f",x));
1469 child->add_child("y")->set_child_text(etl::strprintf("%f",y));
1473 Svg_parser::nodeStartBasicLayer(xmlpp::Element* root){
1474 root->set_attribute("type","PasteCanvas");
1475 root->set_attribute("active","true");
1476 root->set_attribute("version","0.1");
1477 root->set_attribute("desc","Composite");
1478 build_param (root->add_child("param"),"z_depth","real","0");
1479 build_param (root->add_child("param"),"amount","real","1");
1480 build_param (root->add_child("param"),"blend_method","integer","0");
1481 build_vector (root->add_child("param"),"origin",0,0);
1482 xmlpp::Element *child=root->add_child("param");
1483 child->set_attribute("name","canvas");
1484 return child->add_child("canvas");
1489 Svg_parser::coor2vect(float *x,float *y){
1493 sy= atof(height.c_str())-sy;
1502 Svg_parser::setTg1(Vertice *p,float p1x,float p1y,float p2x,float p2y){
1504 float d1x,d1y,d2x,d2y,dx,dy;
1515 rd=sqrt(dx*dx + dy*dy);
1517 ag=PI + atan(dy/dx);
1518 }else if(dx>0 && dy<0){
1519 ag=PI + atan(dy/dx);
1520 }else if(dx<0 && dy<0){
1522 }else if(dx<0 && dy>0){
1523 ag= 2*PI+atan(dy/dx);
1524 }else if(dx==0 && dy>0){
1526 }else if(dx==0 && dy<0){
1528 }else if(dx==0 && dy==0){
1530 }else if(dx<0 && dy==0){
1532 }else if(dx>0 && dy==0){
1540 Svg_parser::setTg2(Vertice* p,float p1x,float p1y,float p2x,float p2y){
1542 float d1x,d1y,d2x,d2y,dx,dy;
1554 rd=sqrt(dx*dx + dy*dy);
1556 ag=PI + atan(dy/dx);
1557 // printf("case 180-270\n");
1558 }else if(dx>0 && dy<0){
1559 ag=PI + atan(dy/dx);
1560 // printf("case 90-180\n");
1561 }else if(dx<0 && dy<0){
1563 // printf("case 0-90\n");
1564 }else if(dx<0 && dy>0){
1565 ag= 2*PI+atan(dy/dx);
1566 // printf("case 270-360\n");
1567 }else if(dx==0 && dy>0){
1569 }else if(dx==0 && dy<0){
1571 }else if(dx==0 && dy==0){
1573 }else if(dx<0 && dy==0){
1575 }else if(dx>0 && dy==0){
1585 Svg_parser::setSplit(Vertice* p,bool val){
1591 Svg_parser::isFirst(Vertice* nodo,float a, float b){
1592 if(nodo->x==a && nodo->y==b)
1598 Svg_parser::newVertice(float x,float y){
1600 vert=(Vertice*)malloc(sizeof(Vertice));
1603 vert->radio1=vert->radio2=vert->angle1=vert->angle2=0;
1608 Svg_parser::extractSubAttribute(const String attribute, String name,String* value){
1610 if(!attribute.empty()){
1611 String str(attribute);
1613 std::vector<String> tokens=tokenize(str,";");
1614 std::vector<String>::iterator aux=tokens.begin();
1615 while(aux!=tokens.end()){
1616 int mid= (*aux).find_first_of(":");
1617 if((*aux).substr(0,mid).compare(name)==0){
1618 int end=(*aux).size();
1619 *value=(*aux).substr(mid+1,end-mid);
1628 Svg_parser::loadAttribute(String name,const String path_style,const String master_style,const String defaultVal){
1631 if(!path_style.empty())
1632 fnd=extractSubAttribute(path_style,name,&value);
1634 if(!master_style.empty())
1635 fnd=extractSubAttribute(master_style,name,&value);
1642 Svg_parser::loadAttribute(String name,const String path_style,const String master_style,const String subattribute,const String defaultVal){
1645 if(!path_style.empty())
1646 fnd=extractSubAttribute(path_style,name,&value);
1647 if(fnd==0 && !master_style.empty())
1648 fnd=extractSubAttribute(master_style,name,&value);
1650 if(!subattribute.empty())
1659 Svg_parser::randomLetter(){
1661 if(a) return (49 + rand()%9);
1662 else return (65 + rand()%24);
1666 Svg_parser::getRed(String hex){
1668 return hextodec(hex.substr(1,2));
1669 }else if(hex.compare(0,3,"rgb")==0 || hex.compare(0,3,"RGB")==0){
1670 int start=hex.find_first_of("(")+1;
1671 int end =hex.find_last_of(")");
1672 String aux=tokenize(hex.substr(start,end-start),",").at(0);
1673 return atoi(aux.data());
1678 Svg_parser::getGreen(String hex){
1680 return hextodec(hex.substr(3,2));
1681 }else if(hex.compare(0,3,"rgb")==0 || hex.compare(0,3,"RGB")==0){
1682 int start=hex.find_first_of("(")+1;
1683 int end =hex.find_last_of(")");
1684 String aux=tokenize(hex.substr(start,end-start),",").at(1);
1685 return atoi(aux.data());
1690 Svg_parser::getBlue(String hex){
1692 return hextodec(hex.substr(5,2));
1693 }else if(hex.compare(0,3,"rgb")==0 || hex.compare(0,3,"RGB")==0){
1694 int start=hex.find_first_of("(")+1;
1695 int end =hex.find_last_of(")");
1696 String aux=tokenize(hex.substr(start,end-start),",").at(2);
1697 return atoi(aux.data());
1702 Svg_parser::hextodec(String hex){
1711 else if(hex.at(i)=='1')
1713 else if(hex.at(i)=='2')
1715 else if(hex.at(i)=='3')
1717 else if(hex.at(i)=='4')
1719 else if(hex.at(i)=='5')
1721 else if(hex.at(i)=='6')
1723 else if(hex.at(i)=='7')
1725 else if(hex.at(i)=='8')
1727 else if(hex.at(i)=='9')
1729 else if(hex.at(i)=='a')
1731 else if(hex.at(i)=='b')
1733 else if(hex.at(i)=='c')
1735 else if(hex.at(i)=='d')
1737 else if(hex.at(i)=='e')
1739 else if(hex.at(i)=='f')
1747 result+=pow(16,i)*ihex[top-i-1];
1755 Svg_parser::getDimension(const String ac){
1759 int length=ac.size();
1761 if(isdigit(ac.at(length-1))){
1763 }else if(ac.at(length-1)=='%'){
1766 String mtc=ac.substr(length-2,length);
1767 String nmc=ac.substr(0,length-2);
1768 if(mtc.compare("px")==0){
1769 af=atof(nmc.data());
1770 }else if(mtc.compare("pt")==0){
1771 af=atof(nmc.data())*1.25;
1772 }else if(mtc.compare("em")==0){
1773 af=atof(nmc.data())*16;
1774 }else if(mtc.compare("mm")==0){
1775 af=atof(nmc.data())*3.54;
1776 }else if(mtc.compare("pc")==0){
1777 af=atof(nmc.data())*15;
1778 }else if(mtc.compare("cm")==0){
1779 af=atof(nmc.data())*35.43;
1780 }else if(mtc.compare("in")==0){
1781 af=atof(nmc.data())*90;
1790 Svg_parser::newMatrix(Matrix *a){
1792 data=(Matrix*)malloc(sizeof(Matrix));
1793 data->a=a->a; data->b=a->b; data->c=a->c;
1794 data->d=a->d; data->e=a->e; data->f=a->f;
1798 Svg_parser::newMatrix(float a,float b,float c,float d,float e,float f){
1800 data=(Matrix*)malloc(sizeof(Matrix));
1801 data->a=a; data->b=b; data->c=c;
1802 data->d=d; data->e=e; data->f=f;
1806 Svg_parser::newMatrix(const String mvector){
1807 if(!mvector.empty()){
1808 Matrix* data=(Matrix*)malloc(sizeof(Matrix));
1809 std::vector<String> tokens=tokenize(mvector,",");
1810 if(tokens.size()!=6) return newMatrix(1,0,0,1,0,0);
1811 data->a=atof(tokens.at(0).data());
1812 data->b=atof(tokens.at(1).data());
1813 data->c=atof(tokens.at(2).data());
1814 data->d=atof(tokens.at(3).data());
1815 data->e=atof(tokens.at(4).data());
1816 data->f=atof(tokens.at(5).data());
1819 return newMatrix(1,0,0,1,0,0);
1823 Svg_parser::transformPoint2D(Matrix *mtx,float *a,float *b){
1827 auxa= (*a)*(mtx->a) + (*b)*(mtx->c) + (mtx->e);
1828 auxb= (*a)*(mtx->b) + (*b)*(mtx->d) + (mtx->f);
1834 Svg_parser::composeMatrix(Matrix **mtx,Matrix* mtx1,Matrix* mtx2){
1835 Matrix* aux=newMatrix(0,0,0,0,0,0);
1836 aux->a=(mtx1->a)*(mtx2->a)+(mtx1->c)*(mtx2->b);
1837 aux->b=(mtx1->b)*(mtx2->a)+(mtx1->d)*(mtx2->b);
1838 aux->c=(mtx1->a)*(mtx2->c)+(mtx1->c)*(mtx2->d);
1839 aux->d=(mtx1->b)*(mtx2->c)+(mtx1->d)*(mtx2->d);
1840 aux->e=(mtx1->a)*(mtx2->e)+(mtx1->c)*(mtx2->f)+(mtx1->e);
1841 aux->f=(mtx1->b)*(mtx2->e)+(mtx1->d)*(mtx2->f)+(mtx1->f);
1845 Svg_parser::multiplyMatrix(Matrix **mtx1,Matrix *mtx2){
1846 Matrix* aux=newMatrix(0,0,0,0,0,0);
1847 aux->a=((*mtx1)->a)*(mtx2->a)+((*mtx1)->c)*(mtx2->b);
1848 aux->b=((*mtx1)->b)*(mtx2->a)+((*mtx1)->d)*(mtx2->b);
1849 aux->c=((*mtx1)->a)*(mtx2->c)+((*mtx1)->c)*(mtx2->d);
1850 aux->d=((*mtx1)->b)*(mtx2->c)+((*mtx1)->d)*(mtx2->d);
1851 aux->e=((*mtx1)->a)*(mtx2->e)+((*mtx1)->c)*(mtx2->f)+((*mtx1)->e);
1852 aux->f=((*mtx1)->b)*(mtx2->e)+((*mtx1)->d)*(mtx2->f)+((*mtx1)->f);
1861 Svg_parser::matrixIsNull(Matrix *mtx){
1862 if(mtx == NULL) return true;
1867 Svg_parser::getRadian(float sexa){
1868 return (sexa*2*PI)/360;
1871 Svg_parser::removeS(String *input){
1872 for(unsigned int i=0;i<input->size();i++){
1873 if(input->at(i)==' '){
1879 Svg_parser::removeIntoS(String *input){
1881 for(unsigned int i=0;i<input->size();i++){
1882 if(input->at(i)=='('){
1884 }else if(input->at(i)==')'){
1886 }else if(into && input->at(i)==' '){
1892 Svg_parser::tokenize(const String& str,const String& delimiters){
1893 std::vector<String> tokens;
1894 String::size_type lastPos = str.find_first_not_of(delimiters, 0);
1895 String::size_type pos = str.find_first_of(delimiters, lastPos);
1896 while (String::npos != pos || String::npos != lastPos){
1897 tokens.push_back(str.substr(lastPos, pos - lastPos));
1898 lastPos = str.find_first_not_of(delimiters, pos);
1899 pos = str.find_first_of(delimiters, lastPos);
1904 Svg_parser::new_guid(){
1906 return GUID::hasher(uid).get_string();