X-Git-Url: https://git.pterodactylus.net/?a=blobdiff_plain;f=synfig-core%2Fsrc%2Fmodules%2Fmod_svg%2Fsvg_parser.cpp;h=e26117c9878a2b40476731304fbaccd39d8f0e17;hb=bc8569534c622aac17ef3500526993a21299cb5a;hp=5fdf485758306d704a790c4ee3c4d8264f5d36e8;hpb=17dfb73c59e0953ccf7a55fff9757fc89e652662;p=synfig.git diff --git a/synfig-core/src/modules/mod_svg/svg_parser.cpp b/synfig-core/src/modules/mod_svg/svg_parser.cpp index 5fdf485..e26117c 100644 --- a/synfig-core/src/modules/mod_svg/svg_parser.cpp +++ b/synfig-core/src/modules/mod_svg/svg_parser.cpp @@ -210,191 +210,201 @@ Svg_parser::parser_canvas (const xmlpp::Node* node){ //parser preferences //Seperate transformations: apply transformations on a per-layer basis, rather than on canvases //Resolve BLine transformations: resolve transformations instead of creating transformation layers -//All Paths: convert objects to paths -// 1: when necessary -// 2: when necessary, including for linking -// 3: always #define SVG_SEP_TRANSFORMS 1 #define SVG_RESOLVE_BLINE 1 -#define SVG_CONVERT_PATHS 1 void Svg_parser::parser_graphics(const xmlpp::Node* node,xmlpp::Element* root,String parent_style,Matrix* mtx_parent){ if(const xmlpp::Element* nodeElement = dynamic_cast(node)){ Glib::ustring nodename = node->get_name(); - if(nodename.compare("g")==0 || nodename.compare("rect")==0 || nodename.compare("polygon")==0 || nodename.compare("path")==0){ - //load sub-attributes - Glib::ustring id =nodeElement->get_attribute_value("id"); - Glib::ustring transform =nodeElement->get_attribute_value("transform"); - - //resolve transformations - Matrix* mtx=NULL; - if(!transform.empty()) - mtx=build_transform (transform); - if (SVG_SEP_TRANSFORMS) - { - if(mtx_parent){ - if(mtx) - composeMatrix(&mtx,mtx_parent,mtx); - else - mtx=newMatrix(mtx_parent); - } - } - if(nodename.compare("g")==0){ - parser_layer (node,root->add_child("layer"),parent_style,mtx); - return; + + //load sub-attributes + Glib::ustring id =nodeElement->get_attribute_value("id"); + Glib::ustring transform =nodeElement->get_attribute_value("transform"); + + //resolve transformations + Matrix* mtx=NULL; + if(!transform.empty()) + mtx=build_transform (transform); + if (SVG_SEP_TRANSFORMS) + { + if(mtx_parent){ + if(mtx) + composeMatrix(&mtx,mtx_parent,mtx); + else + mtx=newMatrix(mtx_parent); } + } + if(nodename.compare("g")==0){ + parser_layer (node,root->add_child("layer"),parent_style,mtx); + return; + } - Glib::ustring obj_style =nodeElement->get_attribute_value("style"); - Glib::ustring obj_fill =nodeElement->get_attribute_value("fill"); + Glib::ustring obj_style =nodeElement->get_attribute_value("style"); + Glib::ustring obj_fill =nodeElement->get_attribute_value("fill"); - //style - String fill =loadAttribute("fill",obj_style,parent_style,obj_fill,"none"); - String fill_rule =loadAttribute("fill-rule",obj_style,parent_style,"evenodd"); - String stroke =loadAttribute("stroke",obj_style,parent_style,"none"); - String stroke_width =loadAttribute("stroke-width",obj_style,parent_style,"1px"); - String stroke_linecap =loadAttribute("stroke-linecap",obj_style,parent_style,"butt"); - String stroke_linejoin =loadAttribute("stroke-linejoin",obj_style,parent_style,"miter"); - String stroke_opacity =loadAttribute("stroke-opacity",obj_style,parent_style,"1"); - String fill_opacity =loadAttribute("fill-opacity",obj_style,parent_style,"1"); - String opacity =loadAttribute("opacity",obj_style,parent_style,"1"); + //style + String fill =loadAttribute("fill",obj_style,parent_style,obj_fill,"none"); + String fill_rule =loadAttribute("fill-rule",obj_style,parent_style,"evenodd"); + String stroke =loadAttribute("stroke",obj_style,parent_style,"none"); + String stroke_width =loadAttribute("stroke-width",obj_style,parent_style,"1px"); + String stroke_linecap =loadAttribute("stroke-linecap",obj_style,parent_style,"butt"); + String stroke_linejoin =loadAttribute("stroke-linejoin",obj_style,parent_style,"miter"); + String stroke_opacity =loadAttribute("stroke-opacity",obj_style,parent_style,"1"); + String fill_opacity =loadAttribute("fill-opacity",obj_style,parent_style,"1"); + String opacity =loadAttribute("opacity",obj_style,parent_style,"1"); - //Fill - int typeFill=0; //nothing + //Fill + int typeFill=0; //nothing - if(fill.compare("none")!=0){ - typeFill=1; //simple - } - if(typeFill==1 && fill.compare(0,3,"url")==0){ - typeFill=2; //gradient - } - //Stroke - int typeStroke=0;//nothing + if(fill.compare("none")!=0){ + typeFill=1; //simple + } + if(typeFill==1 && fill.compare(0,3,"url")==0){ + typeFill=2; //gradient + } + //Stroke + int typeStroke=0;//nothing - if(stroke.compare("none")!=0){ - typeStroke=1; //simple - } - if(typeStroke==1 && stroke.compare(0,3,"url")==0){ - typeStroke=2; //gradient - } - - xmlpp::Element* child_fill = root; //TODO: child_filter - xmlpp::Element* child_stroke = root; - if(typeFill!=0 && typeStroke!=0){ - child_fill=child_stroke=nodeStartBasicLayer(root->add_child("layer")); - } + if(stroke.compare("none")!=0){ + typeStroke=1; //simple + } + if(typeStroke==1 && stroke.compare(0,3,"url")==0){ + typeStroke=2; //gradient + } + + xmlpp::Element* child_layer = nodeStartBasicLayer(root->add_child("layer")); + xmlpp::Element* child_fill = child_layer; + xmlpp::Element* child_stroke = child_layer; + if(typeFill==2){ + child_fill=nodeStartBasicLayer(child_fill->add_child("layer")); + } + if(typeStroke==2){ + child_stroke=nodeStartBasicLayer(child_stroke->add_child("layer")); + } + + //make simple fills + if(nodename.compare("rect")==0 && typeFill!=0){ + rect_simple(nodeElement,child_fill,fill,fill_opacity,opacity); if(typeFill==2){ - child_fill=nodeStartBasicLayer(child_fill->add_child("layer")); + build_url (child_fill->add_child("layer"),fill,NULL); } - if(typeStroke==2){ - child_stroke=nodeStartBasicLayer(child_stroke->add_child("layer")); + parser_effects(nodeElement,child_layer,parent_style,mtx); + return; + } + + + //======================================================================= + std::list > k; + //if we are creating a bline + + //First, create the list of vertices + if (SVG_RESOLVE_BLINE) { + if(nodename.compare("path")==0){ + k=parser_path_d (nodeElement->get_attribute_value("d"),mtx); + } else if(nodename.compare("polygon")==0){ + k=parser_polygon_path (nodeElement->get_attribute_value("points"),mtx); } - if ((SVG_CONVERT_PATHS == 1 && typeFill!=0) || (SVG_CONVERT_PATHS == 2 && typeFill!=0 && typeStroke==0)) { - //make simple fills - if(nodename.compare("rect")==0){ - rect_simple(nodeElement,child_fill,fill,fill_opacity,opacity); - if(typeFill==2){ - build_url (child_fill->add_child("layer"),fill,mtx); - } - typeFill=0; //set fill to zero so as not to create a fill layer in the paths section - } + } else { + if(nodename.compare("path")==0){ + k=parser_path_d (nodeElement->get_attribute_value("d"),NULL); + } else if(nodename.compare("polygon")==0){ + k=parser_polygon_path (nodeElement->get_attribute_value("points"),NULL); } + } + + int n = k.size(); + String bline_id[n]; + String offset_id[n]; + for (int i=0;i > k; - if (nodename.compare("path")==0 || nodename.compare("polygon")==0 || typeStroke!=0 || SVG_CONVERT_PATHS==3) { - //if we are creating a bline - - //First, create the list of vertices - if(nodename.compare("path")==0){ - k=parser_path_d (nodeElement->get_attribute_value("d"),mtx); - } else if(nodename.compare("polygon")==0){ - k=parser_polygon_path (nodeElement->get_attribute_value("points"),mtx); - } else {return;} - - int n = k.size(); - String bline_id[n]; - String offset_id[n]; - for (int i=0;i >::iterator aux = k.begin(); + if(typeFill!=0){//region layer + for (int i=0; aux!=k.end(); aux++){ + xmlpp::Element *child_region=child_fill->add_child("layer"); + child_region->set_attribute("type","region"); + child_region->set_attribute("active","true"); + child_region->set_attribute("version","0.1"); + child_region->set_attribute("desc",id); + build_param (child_region->add_child("param"),"z_depth","real","0.0000000000"); + build_param (child_region->add_child("param"),"amount","real","1.0000000000"); + build_param (child_region->add_child("param"),"blend_method","integer","0"); + build_color (child_region->add_child("param"),getRed(fill),getGreen(fill),getBlue(fill),atof(fill_opacity.data())*atof(opacity.data())); + build_vector (child_region->add_child("param"),"offset",0,0,offset_id[i]); + build_param (child_region->add_child("param"),"invert","bool","false"); + build_param (child_region->add_child("param"),"antialias","bool","true"); + build_param (child_region->add_child("param"),"feather","real","0.0000000000"); + build_param (child_region->add_child("param"),"blurtype","integer","1"); + if(fill_rule.compare("evenodd")==0) build_param (child_region->add_child("param"),"winding_style","integer","1"); + else build_param (child_region->add_child("param"),"winding_style","integer","0"); + + build_bline (child_region->add_child("param"),*aux,loop,bline_id[i]); + i++; + } + } + if(typeFill==2){ //gradient in onto mode (fill) + if (SVG_RESOLVE_BLINE) + build_url(child_fill->add_child("layer"),fill,mtx); + else + build_url(child_fill->add_child("layer"),fill,NULL); + } - std::list >::iterator aux = k.begin(); - if(typeFill!=0){//region layer - for (int i=0; aux!=k.end(); aux++){ - xmlpp::Element *child_region=child_fill->add_child("layer"); - child_region->set_attribute("type","region"); - child_region->set_attribute("active","true"); - child_region->set_attribute("version","0.1"); - child_region->set_attribute("desc",id); - build_param (child_region->add_child("param"),"z_depth","real","0.0000000000"); - build_param (child_region->add_child("param"),"amount","real","1.0000000000"); - build_param (child_region->add_child("param"),"blend_method","integer","0"); - build_color (child_region->add_child("param"),getRed(fill),getGreen(fill),getBlue(fill),atof(fill_opacity.data())*atof(opacity.data())); - build_vector (child_region->add_child("param"),"offset",0,0,offset_id[i]); - build_param (child_region->add_child("param"),"invert","bool","false"); - build_param (child_region->add_child("param"),"antialias","bool","true"); - build_param (child_region->add_child("param"),"feather","real","0.0000000000"); - build_param (child_region->add_child("param"),"blurtype","integer","1"); - if(fill_rule.compare("evenodd")==0) build_param (child_region->add_child("param"),"winding_style","integer","1"); - else build_param (child_region->add_child("param"),"winding_style","integer","0"); - - build_bline (child_region->add_child("param"),*aux,loop,bline_id[i]); - i++; - } - } - if(typeFill==2){ //gradient in onto mode (fill) - build_url(child_fill->add_child("layer"),fill,mtx); + if(typeStroke!=0){//outline layer + int i=0; + for (aux=k.begin(); aux!=k.end(); aux++){ + xmlpp::Element *child_outline=child_stroke->add_child("layer"); + child_outline->set_attribute("type","outline"); + child_outline->set_attribute("active","true"); + child_outline->set_attribute("version","0.2"); + child_outline->set_attribute("desc",id); + build_param (child_outline->add_child("param"),"z_depth","real","0.0000000000"); + build_param (child_outline->add_child("param"),"amount","real","1.0000000000"); + build_param (child_outline->add_child("param"),"blend_method","integer","0"); + build_color (child_outline->add_child("param"),getRed(stroke),getGreen(stroke),getBlue(stroke),atof(stroke_opacity.data())*atof(opacity.data())); + build_vector (child_outline->add_child("param"),"offset",0,0,offset_id[i]); + build_param (child_outline->add_child("param"),"invert","bool","false"); + build_param (child_outline->add_child("param"),"antialias","bool","true"); + build_param (child_outline->add_child("param"),"feather","real","0.0000000000"); + build_param (child_outline->add_child("param"),"blurtype","integer","1"); + //outline in nonzero + build_param (child_outline->add_child("param"),"winding_style","integer","0"); + + build_bline (child_outline->add_child("param"),*aux,loop,bline_id[i]); + + stroke_width=etl::strprintf("%f",getDimension(stroke_width)/kux); + build_param (child_outline->add_child("param"),"width","real",stroke_width); + build_param (child_outline->add_child("param"),"expand","real","0.0000000000"); + if(stroke_linejoin.compare("miter")==0) build_param (child_outline->add_child("param"),"sharp_cusps","bool","true"); + else build_param (child_outline->add_child("param"),"sharp_cusps","bool","false"); + if(stroke_linecap.compare("butt")==0){ + build_param (child_outline->add_child("param"),"round_tip[0]","bool","false"); + build_param (child_outline->add_child("param"),"round_tip[1]","bool","false"); + }else{ + build_param (child_outline->add_child("param"),"round_tip[0]","bool","true"); + build_param (child_outline->add_child("param"),"round_tip[1]","bool","true"); } - - if(typeStroke!=0){//outline layer - int i=0; - for (aux=k.begin(); aux!=k.end(); aux++){ - xmlpp::Element *child_outline=child_stroke->add_child("layer"); - child_outline->set_attribute("type","outline"); - child_outline->set_attribute("active","true"); - child_outline->set_attribute("version","0.2"); - child_outline->set_attribute("desc",id); - build_param (child_outline->add_child("param"),"z_depth","real","0.0000000000"); - build_param (child_outline->add_child("param"),"amount","real","1.0000000000"); - build_param (child_outline->add_child("param"),"blend_method","integer","0"); - build_color (child_outline->add_child("param"),getRed(stroke),getGreen(stroke),getBlue(stroke),atof(stroke_opacity.data())*atof(opacity.data())); - build_vector (child_outline->add_child("param"),"offset",0,0,offset_id[i]); - build_param (child_outline->add_child("param"),"invert","bool","false"); - build_param (child_outline->add_child("param"),"antialias","bool","true"); - build_param (child_outline->add_child("param"),"feather","real","0.0000000000"); - build_param (child_outline->add_child("param"),"blurtype","integer","1"); - //outline in nonzero - build_param (child_outline->add_child("param"),"winding_style","integer","0"); - - build_bline (child_outline->add_child("param"),*aux,loop,bline_id[i]); - - stroke_width=etl::strprintf("%f",getDimension(stroke_width)/kux); - build_param (child_outline->add_child("param"),"width","real",stroke_width); - build_param (child_outline->add_child("param"),"expand","real","0.0000000000"); - if(stroke_linejoin.compare("miter")==0) build_param (child_outline->add_child("param"),"sharp_cusps","bool","true"); - else build_param (child_outline->add_child("param"),"sharp_cusps","bool","false"); - if(stroke_linecap.compare("butt")==0){ - build_param (child_outline->add_child("param"),"round_tip[0]","bool","false"); - build_param (child_outline->add_child("param"),"round_tip[1]","bool","false"); - }else{ - build_param (child_outline->add_child("param"),"round_tip[0]","bool","true"); - build_param (child_outline->add_child("param"),"round_tip[1]","bool","true"); - } - build_param (child_outline->add_child("param"),"loopyness","real","1.0000000000"); - build_param (child_outline->add_child("param"),"homogeneous_width","bool","true"); + build_param (child_outline->add_child("param"),"loopyness","real","1.0000000000"); + build_param (child_outline->add_child("param"),"homogeneous_width","bool","true"); - i++; - } + i++; + } - if(typeStroke==2){ //gradient in onto mode (stroke) - build_url(child_stroke->add_child("layer"),stroke,mtx); - } - } + if(typeStroke==2){ //gradient in onto mode (stroke) + if (SVG_RESOLVE_BLINE) + build_url(child_stroke->add_child("layer"),fill,mtx); + else + build_url(child_stroke->add_child("layer"),fill,NULL); } + if (SVG_RESOLVE_BLINE) + parser_effects(nodeElement,child_layer,parent_style,NULL); + else + parser_effects(nodeElement,child_layer,parent_style,mtx); + } } } @@ -471,6 +481,7 @@ Svg_parser::parser_layer(const xmlpp::Node* node,xmlpp::Element* root,String par parser_graphics (*iter,child_canvas,layer_style,mtx); } } + parser_effects(nodeElement,child_canvas,parent_style,mtx); } } @@ -935,6 +946,12 @@ Svg_parser::parser_path_d(String path_d,Matrix* mtx){ } void +Svg_parser::parser_effects(const xmlpp::Element* nodeElement,xmlpp::Element* root,String parent_style,Matrix* mtx){ + +} + + +void Svg_parser::parser_defs(const xmlpp::Node* node){ const xmlpp::ContentNode* nodeContent = dynamic_cast(node); if(!nodeContent){ @@ -949,6 +966,7 @@ Svg_parser::parser_defs(const xmlpp::Node* node){ } } } + void Svg_parser::AdjustPointUrl(){ /*