3 This file is part of R²C²
4 Copyright © 2010 Mikkosoft Productions, Mikko Rasa
5 Distributed under the GPL
9 #include <msp/strings/formatter.h>
10 #include "libr2c2/catalogue.h"
11 #include "libr2c2/track.h"
12 #include "libr2c2/tracktype.h"
13 #include "svgexporter.h"
19 SvgExporter::SvgExporter(const Layout &l):
25 void SvgExporter::save(const string &fn)
27 gauge = layout.get_catalogue().get_gauge()*1000;
29 const Profile &rail_profile = layout.get_catalogue().get_rail_profile();
30 const Point &rail_min = rail_profile.get_min_coords();
31 const Point &rail_max = rail_profile.get_max_coords();
32 rail_width = (rail_max.x-rail_min.x)*1000;
34 xmlpp::Document *doc = new xmlpp::Document;
35 xmlpp::Element *root = doc->create_root_node("svg", "http://www.w3.org/2000/svg");
37 xmlpp::Element *style = root->add_child("style");
38 style->set_attribute("type", "text/css");
39 style->set_child_text(format("\n.rail { fill: none; stroke: #000000; stroke-width: %.3f; }\n"
40 ".endpoint { fill: none; stroke: #808080; stroke-width: %.3f; }\n"
41 ".artnr { text-anchor: middle; font-size: %.3f; }\n",
42 rail_width, rail_width, gauge*0.75));
46 const set<Track *> &tracks = layout.get_tracks();
47 for(set<Track *>::const_iterator i=tracks.begin(); i!=tracks.end(); ++i)
49 xmlpp::Element *elem = root->add_child("g");
50 save_track(**i, *elem);
52 unsigned n_endpoints = (*i)->get_type().get_endpoints().size();
53 for(unsigned j=0; j<n_endpoints; ++j)
55 Point pos = (*i)->get_endpoint_position(j);
56 if(i==tracks.begin() && j==0)
60 minp.x = min(minp.x, pos.x);
61 minp.y = min(minp.y, pos.y);
62 maxp.x = max(maxp.x, pos.x);
63 maxp.y = max(maxp.y, pos.y);
68 root->set_attribute("viewBox", format("%.3f %.3f %.3f %.3f",
69 minp.x*1000-gauge*3, -maxp.y*1000-gauge*3, (maxp.x-minp.x)*1000+gauge*6, (maxp.y-minp.y)*1000+gauge*6));
71 doc->write_to_file_formatted(fn);
74 void SvgExporter::save_track(const Track &track, xmlpp::Element &group)
76 const Point &pos = track.get_position();
77 float rot = track.get_rotation();
78 string transform = format("translate(%.3f %.3f) rotate(%.3f)", pos.x*1000, -pos.y*1000, -rot*180/M_PI);
79 group.set_attribute("transform", transform);
81 const TrackType &type = track.get_type();
83 const vector<TrackType::Endpoint> &endpoints = type.get_endpoints();
84 for(vector<TrackType::Endpoint>::const_iterator i=endpoints.begin(); i!=endpoints.end(); ++i)
86 xmlpp::Element *elem = group.add_child("path");
87 elem->set_attribute("class", "endpoint");
89 float dx = -sin(i->dir)*gauge;
90 float dy = -cos(i->dir)*gauge;
92 string data = format("M %.3f %.3f L %.3f %.3f",
93 i->pos.x*1000+dx, -i->pos.y*1000+dy,
94 i->pos.x*1000-dx, -i->pos.y*1000-dy);
95 elem->set_attribute("d", data);
98 const vector<TrackPart> &parts = type.get_parts();
99 for(vector<TrackPart>::const_iterator i=parts.begin(); i!=parts.end(); ++i)
101 TrackPoint start = i->get_point(0);
102 TrackPoint end = i->get_point(i->get_length());
105 xmlpp::Element *elem = group.add_child("path");
106 elem->set_attribute("class", "rail");
108 float cs = cos(start.dir);
109 float ss = sin(start.dir);
110 float ce = cos(end.dir);
111 float se = sin(end.dir);
112 float dx1 = -ss*(gauge+rail_width)*0.5;
113 float dy1 = -cs*(gauge+rail_width)*0.5;
114 float dx2 = -se*(gauge+rail_width)*0.5;
115 float dy2 = -ce*(gauge+rail_width)*0.5;
116 // Largely an educated guess, but seems to be accurate enough
117 float clen = i->get_length()*1000/2.9;
119 string data = format("M %.3f %.3f C %.3f %.3f %.3f %.3f %.3f %.3f")
120 (start.pos.x*1000+dx1)(-start.pos.y*1000+dy1)
121 (start.pos.x*1000+dx1+cs*clen)(-start.pos.y*1000+dy1-ss*clen)
122 (end.pos.x*1000+dx2-ce*clen)(-end.pos.y*1000+dy2+se*clen)
123 (end.pos.x*1000+dx2)(-end.pos.y*1000+dy2).str();
124 data += format(" M %.3f %.3f C %.3f %.3f %.3f %.3f %.3f %.3f")
125 (start.pos.x*1000-dx1)(-start.pos.y*1000-dy1)
126 (start.pos.x*1000-dx1+cs*clen)(-start.pos.y*1000-dy1-ss*clen)
127 (end.pos.x*1000-dx2-ce*clen)(-end.pos.y*1000-dy2+se*clen)
128 (end.pos.x*1000-dx2)(-end.pos.y*1000-dy2).str();
129 elem->set_attribute("d", data);
133 xmlpp::Element *elem = group.add_child("path");
134 elem->set_attribute("class", "rail");
136 float dx = -sin(start.dir)*(gauge+rail_width)*0.5;
137 float dy = -cos(start.dir)*(gauge+rail_width)*0.5;
139 string data = format("M %.3f %.3f L %.3f %.3f",
140 start.pos.x*1000+dx, -start.pos.y*1000+dy,
141 end.pos.x*1000+dx, -end.pos.y*1000+dy);
142 data += format(" M %.3f %.3f L %.3f %.3f",
143 start.pos.x*1000-dx, -start.pos.y*1000-dy,
144 end.pos.x*1000-dx, -end.pos.y*1000-dy);
145 elem->set_attribute("d", data);
149 TrackPoint label_pt = parts.front().get_point(parts.front().get_length()/2);
151 while(rot+label_pt.dir>M_PI/2)
152 label_pt.dir -= M_PI;
153 while(rot+label_pt.dir<-M_PI/2)
154 label_pt.dir += M_PI;
156 label_pt.pos.x = label_pt.pos.x*1000+sin(label_pt.dir)*gauge*0.25;
157 label_pt.pos.y = label_pt.pos.y*1000-cos(label_pt.dir)*gauge*0.25;
159 xmlpp::Element *elem = group.add_child("text");
160 elem->set_attribute("class", "artnr");
161 elem->set_attribute("transform", format("translate(%.3f %.3f) rotate(%.3f)",
162 label_pt.pos.x, -label_pt.pos.y, -label_pt.dir*180/M_PI));
163 elem->set_child_text(track.get_type().get_article_number().str());