7 #include "../contrib/pugixml-1.4/src/pugixml.cpp"
8 #include "transformationtype.h"
10 #include "stb_truetype.h"
15 //TODO: Make this work for variable sized Reals
17 // Loads an std::vector<T> of size num_elements from a file.
19 static void LoadStructVector(FILE *src_file, size_t num_elems, std::vector<T>& dest)
21 size_t structsread = 0;
22 dest.resize(num_elems);
23 structsread = fread(dest.data(), sizeof(T), num_elems, src_file);
24 if (structsread != num_elems)
25 Fatal("Only read %u structs (expected %u)!", structsread, num_elems);
28 // Saves an std::vector<T> to a file. Size must be saves separately.
30 static void SaveStructVector(FILE *dst_file, std::vector<T>& src)
33 written = fwrite(src.data(), sizeof(T), src.size(), dst_file);
34 if (written != src.size())
35 Fatal("Only wrote %u structs (expected %u)!", written, src.size());
38 static void WriteChunkHeader(FILE *dst_file, DocChunkTypes type, uint32_t size)
41 written = fwrite(&type, sizeof(type), 1, dst_file);
43 Fatal("Could not write Chunk header! (ID)");
44 written = fwrite(&size, sizeof(size), 1, dst_file);
46 Fatal("Could not write Chunk header (size)!");
49 static bool ReadChunkHeader(FILE *src_file, DocChunkTypes& type, uint32_t& size)
51 if (fread(&type, sizeof(DocChunkTypes), 1, src_file) != 1)
53 if (fread(&size, sizeof(uint32_t), 1, src_file) != 1)
58 void Document::Save(const string & filename)
60 Debug("Saving document to file \"%s\"...", filename.c_str());
61 FILE * file = fopen(filename.c_str(), "w");
63 Fatal("Couldn't open file \"%s\" - %s", filename.c_str(), strerror(errno));
66 Debug("Number of objects (%u)...", ObjectCount());
67 WriteChunkHeader(file, CT_NUMOBJS, sizeof(m_count));
68 written = fwrite(&m_count, sizeof(m_count), 1, file);
70 Fatal("Failed to write number of objects!");
72 Debug("Object types...");
73 WriteChunkHeader(file, CT_OBJTYPES, m_objects.types.size() * sizeof(ObjectType));
74 SaveStructVector<ObjectType>(file, m_objects.types);
76 Debug("Object bounds...");
77 WriteChunkHeader(file, CT_OBJBOUNDS, m_objects.bounds.size() * sizeof(Rect));
78 SaveStructVector<Rect>(file, m_objects.bounds);
80 Debug("Object data indices...");
81 WriteChunkHeader(file, CT_OBJINDICES, m_objects.data_indices.size() * sizeof(unsigned));
82 SaveStructVector<unsigned>(file, m_objects.data_indices);
84 Debug("Bezier data...");
85 WriteChunkHeader(file, CT_OBJBEZIERS, m_objects.beziers.size() * sizeof(uint8_t));
86 SaveStructVector<Bezier>(file, m_objects.beziers);
88 int err = fclose(file);
90 Fatal("Failed to close file \"%s\" - %s", filename.c_str(), strerror(err));
92 Debug("Successfully saved %u objects to \"%s\"", ObjectCount(), filename.c_str());
95 #ifndef QUADTREE_DISABLED
97 void Document::GenBaseQuadtree()
99 m_quadtree.nodes.push_back(QuadTreeNode{QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, QTC_UNKNOWN, 0, ObjectCount(), -1});
100 m_quadtree.root_id = 0;
103 int Document::ClipObjectToQuadChild(int object_id, QuadTreeNodeChildren type)
105 PROFILE_SCOPE("Document::ClipObjectToQuadChild");
106 switch (m_objects.types[object_id])
112 Rect obj_bounds = TransformToQuadChild(m_objects.bounds[object_id], type);
113 if (obj_bounds.x < 0)
115 obj_bounds.w += obj_bounds.x;
118 if (obj_bounds.y < 0)
120 obj_bounds.h += obj_bounds.y;
123 if (obj_bounds.x + obj_bounds.w > 1)
125 obj_bounds.w += (1 - (obj_bounds.x + obj_bounds.w));
127 if (obj_bounds.y + obj_bounds.h > 1)
129 obj_bounds.h += (1 - (obj_bounds.y + obj_bounds.h));
131 m_objects.bounds.push_back(obj_bounds);
132 m_objects.types.push_back(m_objects.types[object_id]);
133 m_objects.data_indices.push_back(m_objects.data_indices[object_id]);
138 // If we're entirely within the quadtree node, no clipping need occur.
139 if (ContainedInQuadChild(m_objects.bounds[object_id], type))
141 m_objects.bounds.push_back(TransformToQuadChild(m_objects.bounds[object_id], type));
142 m_objects.types.push_back(m_objects.types[object_id]);
143 m_objects.data_indices.push_back(m_objects.data_indices[object_id]);
146 Rect clip_bezier_bounds = TransformRectCoordinates(m_objects.bounds[object_id], TransformFromQuadChild(Rect{0,0,1,1}, type));
147 std::vector<Bezier> new_curves = m_objects.beziers[m_objects.data_indices[object_id]].ClipToRectangle(clip_bezier_bounds);
148 for (size_t i = 0; i < new_curves.size(); ++i)
150 Rect new_bounds = TransformToQuadChild(m_objects.bounds[object_id], type);
151 Bezier new_curve_data = new_curves[i].ToAbsolute(TransformToQuadChild(m_objects.bounds[object_id],type));
152 new_bounds = new_curve_data.SolveBounds();
153 Debug("New bounds: %s", new_bounds.Str().c_str());
154 new_curve_data = new_curve_data.ToRelative(new_bounds);
155 unsigned index = AddBezierData(new_curve_data);
156 m_objects.bounds.push_back(new_bounds);
157 m_objects.types.push_back(BEZIER);
158 m_objects.data_indices.push_back(index);
160 return new_curves.size();
163 Debug("Adding %s -> %s", m_objects.bounds[object_id].Str().c_str(), TransformToQuadChild(m_objects.bounds[object_id], type).Str().c_str());
164 m_objects.bounds.push_back(TransformToQuadChild(m_objects.bounds[object_id], type));
165 m_objects.types.push_back(m_objects.types[object_id]);
166 m_objects.data_indices.push_back(m_objects.data_indices[object_id]);
171 QuadTreeIndex Document::GenQuadChild(QuadTreeIndex parent, QuadTreeNodeChildren type)
173 PROFILE_SCOPE("Document::GenQuadChild()");
174 QuadTreeIndex new_index = m_quadtree.nodes.size();
175 Debug("-------------- Generating Quadtree Node %d (parent %d, type %d) ----------------------", new_index, parent, type);
176 m_quadtree.nodes.push_back(QuadTreeNode{QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, parent, type, 0, 0, -1, true});
178 m_quadtree.nodes[new_index].object_begin = m_objects.bounds.size();
179 for (QuadTreeIndex overlay = parent; overlay != -1; overlay = m_quadtree.nodes[overlay].next_overlay)
181 for (unsigned i = m_quadtree.nodes[overlay].object_begin; i < m_quadtree.nodes[overlay].object_end; ++i)
183 if (IntersectsQuadChild(m_objects.bounds[i], type))
185 m_count += ClipObjectToQuadChild(i, type);
189 m_quadtree.nodes[new_index].object_end = m_objects.bounds.size();
190 // No objects are dirty.
191 m_quadtree.nodes[new_index].object_dirty = m_objects.bounds.size();
195 m_quadtree.nodes[parent].top_left = new_index;
198 m_quadtree.nodes[parent].top_right = new_index;
200 case QTC_BOTTOM_LEFT:
201 m_quadtree.nodes[parent].bottom_left = new_index;
203 case QTC_BOTTOM_RIGHT:
204 m_quadtree.nodes[parent].bottom_right = new_index;
207 Fatal("Tried to add a QuadTree child of invalid type!");
209 m_document_dirty = true;
213 void Document::OverlayQuadChildren(QuadTreeIndex orig_parent, QuadTreeIndex parent, QuadTreeNodeChildren type)
215 PROFILE_SCOPE("Document::OverlayQuadChildren()");
216 QuadTreeIndex new_index = m_quadtree.nodes.size();
217 Debug("-------------- Generating Quadtree Node %d (orig %d parent %d, type %d) ----------------------", new_index, orig_parent, parent, type);
218 m_quadtree.nodes.push_back(QuadTreeNode{QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, orig_parent, type, 0, 0, -1, true});
220 m_quadtree.nodes[new_index].object_begin = m_objects.bounds.size();
221 for (unsigned i = m_quadtree.nodes[parent].object_dirty; i < m_quadtree.nodes[parent].object_end; ++i)
223 if (IntersectsQuadChild(m_objects.bounds[i], type))
225 m_count += ClipObjectToQuadChild(i, type);
228 m_quadtree.nodes[new_index].object_end = m_objects.bounds.size();
229 QuadTreeIndex orig_node = -1;
233 orig_node = m_quadtree.nodes[orig_parent].top_left;
236 orig_node = m_quadtree.nodes[orig_parent].top_right;
238 case QTC_BOTTOM_LEFT:
239 orig_node = m_quadtree.nodes[orig_parent].bottom_left;
241 case QTC_BOTTOM_RIGHT:
242 orig_node = m_quadtree.nodes[orig_parent].bottom_right;
245 Fatal("Tried to overlay a QuadTree child of invalid type!");
248 Fatal("Tried to overlay a QuadTree child that didn't exist!");
250 // Add us to the node's overlay linked list.
251 QuadTreeIndex prev_overlay = orig_node;
252 while (m_quadtree.nodes[prev_overlay].next_overlay != -1) prev_overlay = m_quadtree.nodes[prev_overlay].next_overlay;
253 Debug("- Original node %d, Previous overlay %d, new overlay %d", orig_node, prev_overlay, new_index);
254 m_quadtree.nodes[prev_overlay].next_overlay = new_index;
256 // Recurse into any extant children.
257 if (m_quadtree.nodes[orig_node].top_left != -1)
258 OverlayQuadChildren(orig_node, new_index, QTC_TOP_LEFT);
259 if (m_quadtree.nodes[orig_node].top_right != -1)
260 OverlayQuadChildren(orig_node, new_index, QTC_TOP_RIGHT);
261 if (m_quadtree.nodes[orig_node].bottom_left != -1)
262 OverlayQuadChildren(orig_node, new_index, QTC_BOTTOM_LEFT);
263 if (m_quadtree.nodes[orig_node].bottom_right != -1)
264 OverlayQuadChildren(orig_node, new_index, QTC_BOTTOM_RIGHT);
266 m_quadtree.nodes[new_index].object_dirty = m_quadtree.nodes[new_index].object_end;
267 m_quadtree.nodes[new_index].next_overlay = -1;
268 m_document_dirty = true;
271 void Document::OverlayQuadParent(QuadTreeIndex orig_child, QuadTreeIndex child, QuadTreeNodeChildren type)
273 PROFILE_SCOPE("Document::OverlayQuadParent()");
274 QuadTreeIndex new_index = m_quadtree.nodes.size();
275 m_quadtree.nodes.push_back(QuadTreeNode{QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, -1, QTC_UNKNOWN, 0, 0, -1, true});
277 m_quadtree.nodes[new_index].object_begin = m_objects.bounds.size();
278 m_quadtree.nodes[new_index].object_dirty = m_objects.bounds.size();
279 for (QuadTreeIndex overlay = child; overlay != -1; overlay = m_quadtree.nodes[overlay].next_overlay)
281 for (unsigned i = m_quadtree.nodes[overlay].object_begin; i < m_quadtree.nodes[overlay].object_end; ++i)
283 Rect new_bounds = TransformFromQuadChild(m_objects.bounds[i], type);
284 // If the object is too small to be seen, discard it.
285 if (!new_bounds.w || !new_bounds.h) continue;
286 m_objects.bounds.push_back(new_bounds);
287 m_objects.types.push_back(m_objects.types[i]);
288 m_objects.data_indices.push_back(m_objects.data_indices[i]);
292 m_quadtree.nodes[new_index].object_end = m_objects.bounds.size();
293 QuadTreeIndex orig_node = m_quadtree.nodes[orig_child].parent;
295 Fatal("Tried to overlay a QuadTree child that didn't exist!");
297 // Add us to the node's overlay linked list.
298 QuadTreeIndex prev_overlay = orig_node;
299 while (m_quadtree.nodes[prev_overlay].next_overlay != -1) prev_overlay = m_quadtree.nodes[prev_overlay].next_overlay;
300 m_quadtree.nodes[prev_overlay].next_overlay = new_index;
301 Debug("OverlayQuadParent(%d, %d, %d) = %d", orig_child, child, type, new_index);
303 // Recurse into any extant parent.
304 if (m_quadtree.nodes[orig_node].parent != -1)
305 OverlayQuadParent(orig_node, new_index, m_quadtree.nodes[orig_node].child_type);
307 m_quadtree.nodes[new_index].object_dirty = m_quadtree.nodes[new_index].object_end;
308 m_quadtree.nodes[new_index].next_overlay = -1;
309 m_document_dirty = true;
312 void Document::PropagateQuadChanges(QuadTreeIndex node)
314 for(QuadTreeIndex overlay = node; overlay != -1; overlay = m_quadtree.nodes[overlay].next_overlay)
316 // We don't care about clean overlays.
317 if (m_quadtree.nodes[overlay].object_dirty == m_quadtree.nodes[overlay].object_end) continue;
318 // Recurse into our parent, should we have any.
319 if (m_quadtree.nodes[node].parent != -1)
320 OverlayQuadParent(node, overlay, m_quadtree.nodes[node].child_type);
321 // Recurse into any extant children.
322 if (m_quadtree.nodes[node].top_left != -1)
323 OverlayQuadChildren(node, overlay, QTC_TOP_LEFT);
324 if (m_quadtree.nodes[node].top_right != -1)
325 OverlayQuadChildren(node, overlay, QTC_TOP_RIGHT);
326 if (m_quadtree.nodes[node].bottom_left != -1)
327 OverlayQuadChildren(node, overlay, QTC_BOTTOM_LEFT);
328 if (m_quadtree.nodes[node].bottom_right != -1)
329 OverlayQuadChildren(node, overlay, QTC_BOTTOM_RIGHT);
331 m_quadtree.nodes[overlay].object_dirty = m_quadtree.nodes[overlay].object_end;
335 // Reparent a quadtree node, making it the "type" child of a new node.
336 QuadTreeIndex Document::GenQuadParent(QuadTreeIndex child, QuadTreeNodeChildren type)
338 QuadTreeIndex new_index = m_quadtree.nodes.size();
339 m_quadtree.nodes.push_back(QuadTreeNode{QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, -1, QTC_UNKNOWN, 0, 0, -1, true});
341 m_quadtree.nodes[new_index].object_begin = m_objects.bounds.size();
342 for (QuadTreeIndex overlay = child; overlay != -1; overlay = m_quadtree.nodes[overlay].next_overlay)
344 for (unsigned i = m_quadtree.nodes[overlay].object_begin; i < m_quadtree.nodes[overlay].object_end; ++i)
346 Rect new_bounds = TransformFromQuadChild(m_objects.bounds[i], type);
347 // If the object is too small to be seen, discard it.
348 if (!new_bounds.w || !new_bounds.h) continue;
349 m_objects.bounds.push_back(new_bounds);
350 m_objects.types.push_back(m_objects.types[i]);
351 m_objects.data_indices.push_back(m_objects.data_indices[i]);
355 m_quadtree.nodes[new_index].object_end = m_objects.bounds.size();
356 m_quadtree.nodes[new_index].object_dirty = m_objects.bounds.size();
360 m_quadtree.nodes[new_index].top_left = child;
363 m_quadtree.nodes[new_index].top_right = child;
365 case QTC_BOTTOM_LEFT:
366 m_quadtree.nodes[new_index].bottom_left = child;
368 case QTC_BOTTOM_RIGHT:
369 m_quadtree.nodes[new_index].bottom_right = child;
372 Fatal("Tried to add a QuadTree child of invalid type!");
375 m_document_dirty = true;
380 void Document::Load(const string & filename)
382 m_objects.bounds.clear();
386 Debug("Loaded empty document.");
389 Debug("Loading document from file \"%s\"", filename.c_str());
390 FILE * file = fopen(filename.c_str(), "r");
392 Fatal("Couldn't open file \"%s\"", filename.c_str(), strerror(errno));
396 DocChunkTypes chunk_type;
398 while (ReadChunkHeader(file, chunk_type, chunk_size))
403 read = fread(&m_count, sizeof(m_count), 1, file);
405 Fatal("Failed to read number of objects!");
406 Debug("Number of objects: %u", ObjectCount());
409 Debug("Object types...");
410 LoadStructVector<ObjectType>(file, chunk_size/sizeof(ObjectType), m_objects.types);
413 Debug("Object bounds...");
414 LoadStructVector<Rect>(file, chunk_size/sizeof(Rect), m_objects.bounds);
417 Debug("Object data indices...");
418 LoadStructVector<unsigned>(file, chunk_size/sizeof(unsigned), m_objects.data_indices);
421 Debug("Bezier data...");
422 LoadStructVector<Bezier>(file, chunk_size/sizeof(Bezier), m_objects.beziers);
426 Debug("Path data...");
427 Warn("Not handled because lazy");
431 Debug("Successfully loaded %u objects from \"%s\"", ObjectCount(), filename.c_str());
432 #ifndef QUADTREE_DISABLED
433 if (m_quadtree.root_id == QUADTREE_EMPTY)
440 unsigned Document::AddPath(unsigned start_index, unsigned end_index, const Colour & fill, const Colour & stroke)
442 Path path(m_objects, start_index, end_index, fill, stroke);
443 unsigned data_index = AddPathData(path);
444 Rect bounds = path.SolveBounds(m_objects);
445 unsigned result = Add(PATH, bounds,data_index);
446 m_objects.paths[data_index].m_index = result;
447 //Debug("Added path %u -> %u (%u objects) colour {%u,%u,%u,%u}, stroke {%u,%u,%u,%u}", start_index, end_index, (end_index - start_index), fill.r, fill.g, fill.b, fill.a, stroke.r, stroke.g, stroke.b, stroke.a);
452 * Add a Bezier using Absolute coords
454 unsigned Document::AddBezier(const Bezier & bezier)
456 Rect bounds = bezier.SolveBounds();
457 Bezier data = bezier.ToRelative(bounds); // Relative
458 if (data.ToAbsolute(bounds) != bezier)
460 Warn("%s != %s", data.ToAbsolute(bounds).Str().c_str(),
461 bezier.Str().c_str());
462 Warn("ToAbsolute on ToRelative does not give original Bezier");
464 unsigned index = AddBezierData(data);
465 return Add(BEZIER, bounds, index);
467 // Adds an object to the Document, clipping it to m_clip_rect.
468 // Helper function called by Document::Add()
469 int Document::AddClip(ObjectType type, const Rect& bounds, unsigned data_index, const Rect& clip_rect)
471 PROFILE_SCOPE("Document::AddAndClip");
478 Rect obj_bounds = clip_rect.Clip(bounds);
479 m_objects.bounds.push_back(obj_bounds);
480 m_objects.types.push_back(type);
481 m_objects.data_indices.push_back(data_index);
486 // If we're entirely within the clipping rect, no clipping need occur.
487 if (clip_rect.Contains(bounds))
489 m_objects.bounds.push_back(bounds);
490 m_objects.types.push_back(type);
491 m_objects.data_indices.push_back(data_index);
494 Rect clip_bezier_bounds = TransformRectCoordinates(bounds, clip_rect);
495 std::vector<Bezier> new_curves = m_objects.beziers[data_index].ClipToRectangle(clip_bezier_bounds);
496 for (size_t i = 0; i < new_curves.size(); ++i)
498 Bezier new_curve_data = new_curves[i].ToAbsolute(bounds);
499 Rect new_bounds = new_curve_data.SolveBounds();
500 new_curve_data = new_curve_data.ToRelative(new_bounds);
501 unsigned index = AddBezierData(new_curve_data);
502 m_objects.bounds.push_back(new_bounds);
503 m_objects.types.push_back(BEZIER);
504 m_objects.data_indices.push_back(index);
506 return new_curves.size();
509 m_objects.bounds.push_back(bounds);
510 m_objects.types.push_back(type);
511 m_objects.data_indices.push_back(data_index);
517 unsigned Document::Add(ObjectType type, const Rect & bounds, unsigned data_index, QuadTreeIndex qti)
519 PROFILE_SCOPE("Document::Add");
520 Rect new_bounds = bounds;
521 #ifndef QUADTREE_DISABLED
523 if (qti == -1) qti = m_current_insert_node;
526 // Move the object to the quadtree node it should be in.
527 m_quadtree.GetCanonicalCoords(qti, new_bounds.x, new_bounds.y, this);
528 Rect cliprect = Rect(0,0,1,1);
529 num_added = AddClip(type, new_bounds, data_index, cliprect);
534 m_objects.types.push_back(type);
535 m_objects.bounds.push_back(new_bounds);
536 m_objects.data_indices.push_back(data_index);
538 m_document_dirty = true;
539 #ifndef QUADTREE_DISABLED
542 QuadTreeIndex new_qti = qti;
543 while (m_quadtree.nodes[new_qti].next_overlay != -1)
545 if (m_count == m_quadtree.nodes[new_qti].object_end+1)
547 m_quadtree.nodes[new_qti].object_end += num_added;
548 m_quadtree.nodes[new_qti].render_dirty = true;
552 new_qti = m_quadtree.nodes[new_qti].next_overlay;
556 QuadTreeIndex overlay = m_quadtree.nodes.size();
557 Debug("Adding new overlay, nqti = %d, overlay = %d", new_qti, overlay);
558 m_quadtree.nodes.push_back(QuadTreeNode{QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, QUADTREE_EMPTY, -1, QTC_UNKNOWN, 0, 0, -1});
559 m_quadtree.nodes[overlay].object_begin = m_count;
560 // All objects are dirty.
561 m_quadtree.nodes[overlay].object_dirty = m_count;
562 m_quadtree.nodes[overlay].object_end = m_count+num_added;
563 m_quadtree.nodes[overlay].next_overlay = -1;
564 m_quadtree.nodes[overlay].render_dirty = true;
565 m_quadtree.nodes[new_qti].next_overlay = overlay;
569 m_count += num_added;
570 return m_count-num_added;
571 #else // words fail me (still not amused)
577 unsigned Document::AddBezierData(const Bezier & bezier)
579 m_objects.beziers.push_back(bezier);
580 return m_objects.beziers.size()-1;
583 unsigned Document::AddPathData(const Path & path)
585 m_objects.paths.push_back(path);
586 return m_objects.paths.size()-1;
589 void Document::DebugDumpObjects()
591 Debug("Objects for Document %p are:", this);
592 for (unsigned id = 0; id < ObjectCount(); ++id)
594 Debug("%u. \tType: %u\tBounds: %s", id, m_objects.types[id], m_objects.bounds[id].Str().c_str());
598 bool Document::operator==(const Document & equ) const
600 return (ObjectCount() == equ.ObjectCount()
601 && memcmp(m_objects.bounds.data(), equ.m_objects.bounds.data(), ObjectCount() * sizeof(Rect)) == 0
602 && memcmp(m_objects.data_indices.data(), equ.m_objects.data_indices.data(), ObjectCount() * sizeof(unsigned)) == 0
603 && memcmp(m_objects.beziers.data(), equ.m_objects.beziers.data(), m_objects.beziers.size() * sizeof(Bezier)) == 0);
608 // Behold my amazing tokenizing abilities
609 static string & GetToken(const string & d, string & token, unsigned & i, const string & delims = "()[],{}<>;:=")
612 while (i < d.size() && iswspace(d[i]))
619 if (iswspace(d[i]) || strchr(delims.c_str(),d[i]) != NULL)
621 if (token.size() == 0 && !iswspace(d[i]))
629 //Debug("Got token \"%s\"", token.c_str());
633 static void GetXYPair(const string & d, Real & x, Real & y, unsigned & i,const string & delims = "()[],{}<>;:=")
636 while (GetToken(d, token, i, delims) == ",");
637 x = RealFromStr(token);
638 if (GetToken(d, token, i, delims) != ",")
640 Fatal("Expected \",\" seperating x,y pair");
642 y = RealFromStr(GetToken(d,token,i,delims));
645 static bool GetKeyValuePair(const string & d, string & key, string & value, unsigned & i, const string & delims = "()[],{}<>;:=")
649 while (GetToken(d, token, i, delims) == ":" || token == ";");
651 if (GetToken(d, token, i, delims) != ":")
653 Error("Expected \":\" seperating key:value pair");
657 GetToken(d, value, i, delims);
661 static void TransformXYPair(Real & x, Real & y, const SVGMatrix & transform)
664 x = transform.a * x + transform.c * y + transform.e;
665 y = transform.b * x0 + transform.d * y + transform.f;
668 void Document::ParseSVGTransform(const string & s, SVGMatrix & transform)
670 //Debug("Parsing transform %s", s.c_str());
677 GetToken(s, command, i);
678 if (command == "," || command == "" || command == ":")
681 GetToken(s, command, i);
685 //Debug("Token is \"%s\"", command.c_str());
687 SVGMatrix delta = {1,0,0,0,1,0};
690 assert(GetToken(s,token, i) == "(");
691 if (command == "translate")
693 GetXYPair(s, delta.e, delta.f, i);
694 assert(GetToken(s,token, i) == ")");
696 else if (command == "matrix")
698 GetXYPair(s, delta.a, delta.b,i);
699 GetXYPair(s, delta.c, delta.d,i);
700 GetXYPair(s, delta.e, delta.f,i);
701 assert(GetToken(s,token, i) == ")");
703 else if (command == "scale")
705 delta.a = RealFromStr(GetToken(s,token,i));
706 GetToken(s, token, i);
709 delta.d = RealFromStr(GetToken(s,token,i));
710 assert(GetToken(s, token, i) == ")");
715 assert(token == ")");
721 Warn("Unrecognised transform \"%s\", using identity", command.c_str());
724 //Debug("Old transform is {%f,%f,%f,%f,%f,%f}", transform.a, transform.b, transform.c, transform.d,transform.e,transform.f);
725 //Debug("Delta transform is {%f,%f,%f,%f,%f,%f}", delta.a, delta.b, delta.c, delta.d,delta.e,delta.f);
727 SVGMatrix old(transform);
728 transform.a = old.a * delta.a + old.c * delta.b;
729 transform.c = old.a * delta.c + old.c * delta.d;
730 transform.e = old.a * delta.e + old.c * delta.f + old.e;
732 transform.b = old.b * delta.a + old.d * delta.b;
733 transform.d = old.b * delta.c + old.d * delta.d;
734 transform.f = old.b * delta.e + old.d * delta.f + old.f;
736 //Debug("New transform is {%f,%f,%f,%f,%f,%f}", transform.a, transform.b, transform.c, transform.d,transform.e,transform.f);
740 inline Colour ParseColourString(const string & colour_str)
743 if (colour_str == "red")
745 else if (colour_str == "blue")
747 else if (colour_str == "green")
749 else if (colour_str == "black")
751 else if (colour_str == "white")
752 c = {255,255,255,255};
753 else if (colour_str.size() == 7 && colour_str[0] == '#')
755 //Debug("Parse colour string: \"%s\"", colour_str.c_str());
756 char comp[3] = {colour_str[1], colour_str[2], '\0'};
757 c.r = strtoul(comp, NULL, 16);
758 comp[0] = colour_str[3]; comp[1] = colour_str[4];
759 c.g = strtoul(comp, NULL, 16);
760 comp[0] = colour_str[5]; comp[1] = colour_str[6];
761 c.b = strtoul(comp, NULL, 16);
763 //Debug("Colour is: %u, %u, %u, %u", c.r, c.g, c.b, c.a);
768 void Document::ParseSVGNode(pugi::xml_node & root, SVGMatrix & parent_transform)
770 //Debug("Parse node <%s>", root.name());
774 if (strcmp(root.name(),"svg") == 0)
776 Real ww = RealFromStr(root.attribute("width").as_string());
777 Real hh = RealFromStr(root.attribute("height").as_string());
778 parent_transform.e -= parent_transform.a * ww/Real(2);
779 parent_transform.f -= parent_transform.d * hh/Real(2);
782 for (pugi::xml_node child = root.first_child(); child; child = child.next_sibling())
784 SVGMatrix transform(parent_transform);
785 pugi::xml_attribute attrib_trans = child.attribute("transform");
786 if (!attrib_trans.empty())
788 ParseSVGTransform(attrib_trans.as_string(), transform);
793 if (strcmp(child.name(), "svg") == 0 || strcmp(child.name(),"g") == 0
794 || strcmp(child.name(), "group") == 0)
797 ParseSVGNode(child, transform);
800 else if (strcmp(child.name(), "path") == 0)
802 string d = child.attribute("d").as_string();
803 //Debug("Path data attribute is \"%s\"", d.c_str());
805 pair<unsigned, unsigned> range = ParseSVGPathData(d, transform, closed);
806 if (true && range.first < m_count && range.second < m_count)//(closed)
809 string colour_str("");
810 map<string, string> style;
811 if (child.attribute("style"))
813 ParseSVGStyleData(child.attribute("style").as_string(), style);
816 // Determine shading colour
817 if (child.attribute("fill"))
819 colour_str = child.attribute("fill").as_string();
821 else if (style.find("fill") != style.end())
823 colour_str = style["fill"];
825 Colour fill = ParseColourString(colour_str);
826 Colour stroke = fill;
828 if (child.attribute("stroke"))
830 colour_str = child.attribute("stroke").as_string();
831 stroke = ParseColourString(colour_str);
833 else if (style.find("stroke") != style.end())
835 colour_str = style["stroke"];
836 stroke = ParseColourString(colour_str);
840 // Determin shading alpha
841 if (child.attribute("fill-opacity"))
843 fill.a = 255*child.attribute("fill-opacity").as_float();
845 else if (style.find("fill-opacity") != style.end())
847 fill.a = 255*strtod(style["fill-opacity"].c_str(), NULL);
849 if (child.attribute("stroke-opacity"))
851 stroke.a = 255*child.attribute("stroke-opacity").as_float();
853 else if (style.find("stroke-opacity") != style.end())
855 stroke.a = 255*strtod(style["stroke-opacity"].c_str(), NULL);
857 AddPath(range.first, range.second, fill, stroke);
861 else if (strcmp(child.name(), "line") == 0)
863 Real x0(child.attribute("x1").as_float());
864 Real y0(child.attribute("y1").as_float());
865 Real x1(child.attribute("x2").as_float());
866 Real y1(child.attribute("y2").as_float());
867 TransformXYPair(x0,y0,transform);
868 TransformXYPair(x1,y1,transform);
869 AddBezier(Bezier(x0,y0,x1,y1,x1,y1,x1,y1));
871 else if (strcmp(child.name(), "rect") == 0)
874 const char * attrib_names[] = {"x", "y", "width", "height"};
875 for (size_t i = 0; i < 4; ++i)
876 coords[i] = child.attribute(attrib_names[i]).as_float();
878 Real x2(coords[0]+coords[2]);
879 Real y2(coords[1]+coords[3]);
880 TransformXYPair(coords[0],coords[1],transform); // x, y, transform
881 TransformXYPair(x2,y2,transform);
882 coords[2] = x2 - coords[0];
883 coords[3] = y2 - coords[1];
885 bool outline = !(child.attribute("fill") && strcmp(child.attribute("fill").as_string(),"none") != 0);
886 Add(outline?RECT_OUTLINE:RECT_FILLED, Rect(coords[0], coords[1], coords[2], coords[3]),0);
888 else if (strcmp(child.name(), "circle") == 0)
890 Real cx = child.attribute("cx").as_float();
891 Real cy = child.attribute("cy").as_float();
892 Real r = child.attribute("r").as_float();
896 TransformXYPair(x,y,transform);
897 Real w = Real(2)*r*transform.a; // width scales
898 Real h = Real(2)*r*transform.d; // height scales
902 Add(CIRCLE_FILLED, rect,0);
903 Debug("Added Circle %s", rect.Str().c_str());
905 else if (strcmp(child.name(), "text") == 0)
907 Real x = child.attribute("x").as_float();
908 Real y = child.attribute("y").as_float();
909 TransformXYPair(x,y,transform);
910 Debug("Add text \"%s\"", child.child_value());
911 AddText(child.child_value(), 0.05, x, y);
916 void Document::ParseSVGStyleData(const string & style, map<string, string> & results)
921 while (i < style.size() && GetKeyValuePair(style, key, value, i))
923 results[key] = value;
928 * Parse an SVG string into a rectangle
930 void Document::ParseSVG(const string & input, const Rect & bounds)
932 using namespace pugi;
934 xml_document doc_xml;
935 xml_parse_result result = doc_xml.load(input.c_str());
938 Error("Couldn't parse SVG input - %s", result.description());
940 Debug("Loaded XML - %s", result.description());
941 SVGMatrix transform = {bounds.w, 0,bounds.x, 0,bounds.h,bounds.y};
942 ParseSVGNode(doc_xml, transform);
946 * Load an SVG into a rectangle
948 void Document::LoadSVG(const string & filename, const Rect & bounds)
950 using namespace pugi;
952 xml_document doc_xml;
953 ifstream input(filename.c_str(), ios_base::in);
954 xml_parse_result result = doc_xml.load(input);
957 Error("Couldn't load \"%s\" - %s", filename.c_str(), result.description());
959 Debug("Loaded XML from \"%s\" - %s", filename.c_str(), result.description());
963 SVGMatrix transform = {bounds.w,0 ,bounds.x, 0,bounds.h,bounds.y};
964 ParseSVGNode(doc_xml, transform);
969 // Fear the wrath of the tokenizing svg data
970 // Seriously this isn't really very DOM-like at all is it?
971 pair<unsigned, unsigned> Document::ParseSVGPathData(const string & d, const SVGMatrix & transform, bool & closed)
974 Real x[4] = {0,0,0,0};
975 Real y[4] = {0,0,0,0};
989 static string delims("()[],{}<>;:=LlHhVvmMqQzZcC");
991 pair<unsigned, unsigned> range(m_count, m_count);
993 while (i < d.size() && GetToken(d, token, i, delims).size() > 0)
995 if (isalpha(token[0]))
1004 bool relative = islower(command[0]);
1006 if (command == "m" || command == "M")
1008 //Debug("Construct moveto command");
1009 Real dx = RealFromStr(GetToken(d,token,i,delims));
1010 assert(GetToken(d,token,i,delims) == ",");
1011 Real dy = RealFromStr(GetToken(d,token,i,delims));
1013 x[0] = (relative) ? x[0] + dx : dx;
1014 y[0] = (relative) ? y[0] + dy : dy;
1018 //Debug("mmoveto %f,%f", Float(x[0]),Float(y[0]));
1019 command = (command == "m") ? "l" : "L";
1021 else if (command == "c" || command == "C" || command == "q" || command == "Q")
1023 //Debug("Construct curveto command");
1024 Real dx = RealFromStr(GetToken(d,token,i,delims));
1025 assert(GetToken(d,token,i,delims) == ",");
1026 Real dy = RealFromStr(GetToken(d,token,i,delims));
1028 x[1] = (relative) ? x[0] + dx : dx;
1029 y[1] = (relative) ? y[0] + dy : dy;
1031 dx = RealFromStr(GetToken(d,token,i,delims));
1032 assert(GetToken(d,token,i,delims) == ",");
1033 dy = RealFromStr(GetToken(d,token,i,delims));
1035 x[2] = (relative) ? x[0] + dx : dx;
1036 y[2] = (relative) ? y[0] + dy : dy;
1038 if (command != "q" && command != "Q")
1040 dx = RealFromStr(GetToken(d,token,i,delims));
1041 assert(GetToken(d,token,i,delims) == ",");
1042 dy = RealFromStr(GetToken(d,token,i,delims));
1043 x[3] = (relative) ? x[0] + dx : dx;
1044 y[3] = (relative) ? y[0] + dy : dy;
1050 Real old_x1(x[1]), old_y1(y[1]);
1051 x[1] = x[0] + Real(2) * (old_x1 - x[0])/ Real(3);
1052 y[1] = y[0] + Real(2) * (old_y1 - y[0])/ Real(3);
1053 x[2] = x[3] + Real(2) * (old_x1 - x[3])/ Real(3);
1054 y[2] = y[3] + Real(2) * (old_y1 - y[3])/ Real(3);
1059 for (int j = 0; j < 4; ++j)
1060 TransformXYPair(x[j],y[j], transform);
1062 range.second = AddBezier(Bezier(x[0],y[0],x[1],y[1],x[2],y[2],x[3],y[3]));
1064 //Debug("[%u] curveto %f,%f %f,%f %f,%f", index, Float(x[1]),Float(y[1]),Float(x[2]),Float(y[2]),Float(x[3]),Float(y[3]));
1071 else if (command == "l" || command == "L" || command == "h" || command == "H" || command == "v" || command == "V")
1073 //Debug("Construct lineto command, relative %d", relative);
1075 Real dx = RealFromStr(GetToken(d,token,i,delims));
1077 if (command == "l" || command == "L")
1079 assert(GetToken(d,token,i,delims) == ",");
1080 dy = RealFromStr(GetToken(d,token,i,delims));
1082 else if (command == "v" || command == "V")
1087 x[1] = (relative) ? x[0] + dx : dx;
1088 y[1] = (relative) ? y[0] + dy : dy;
1089 if (command == "v" || command == "V")
1093 else if (command == "h" || command == "H")
1101 TransformXYPair(x[0],y[0],transform);
1102 TransformXYPair(x[1],y[1],transform);
1105 range.second = AddBezier(Bezier(x[0],y[0],x[1],y[1],x[1],y[1],x[1],y[1]));
1107 //Debug("[%u] lineto %f,%f %f,%f", index, Float(x[0]),Float(y[0]),Float(x[1]),Float(y[1]));
1113 else if (command == "z" || command == "Z")
1115 //Debug("Construct returnto command");
1125 for (int j = 0; j < 4; ++j)
1126 TransformXYPair(x[j],y[j], transform);
1128 range.second = AddBezier(Bezier(x[0],y[0],x[1],y[1],x[2],y[2],x[3],y[3]));
1129 //Debug("[%u] returnto %f,%f %f,%f", index, Float(x[0]),Float(y[0]),Float(x[1]),Float(y[1]));
1138 Warn("Unrecognised command \"%s\", set to \"m\"", command.c_str());
1153 void Document::SetFont(const string & font_filename)
1155 if (m_font_data != NULL)
1160 FILE *font_file = fopen(font_filename.c_str(), "rb");
1161 fseek(font_file, 0, SEEK_END);
1162 size_t font_file_size = ftell(font_file);
1163 fseek(font_file, 0, SEEK_SET);
1164 m_font_data = (unsigned char*)malloc(font_file_size);
1165 size_t read = fread(m_font_data, 1, font_file_size, font_file);
1166 if (read != font_file_size)
1168 Fatal("Failed to read font data from \"%s\" - Read %u bytes expected %u - %s", font_filename.c_str(), read, font_file_size, strerror(errno));
1171 stbtt_InitFont(&m_font, m_font_data, 0);
1174 void Document::AddText(const string & text, Real scale, Real x, Real y)
1176 if (m_font_data == NULL)
1178 Warn("No font loaded");
1184 int ascent = 0, descent = 0, line_gap = 0;
1185 stbtt_GetFontVMetrics(&m_font, &ascent, &descent, &line_gap);
1186 Real font_scale = scale;
1187 font_scale /= Real(ascent - descent);
1188 Real y_advance = Real(font_scale) * Real(ascent - descent + line_gap);
1189 for (unsigned i = 0; i < text.size(); ++i)
1191 if (text[i] == '\n')
1196 if (!isprint(text[i]))
1199 int advance_width = 0, left_side_bearing = 0, kerning = 0;
1200 stbtt_GetCodepointHMetrics(&m_font, text[i], &advance_width, &left_side_bearing);
1203 kerning = stbtt_GetCodepointKernAdvance(&m_font, text[i-1], text[i]);
1205 x += font_scale * Real(kerning);
1206 AddFontGlyphAtPoint(&m_font, text[i], font_scale, x, y);
1207 x += font_scale * Real(advance_width);
1211 void Document::AddFontGlyphAtPoint(stbtt_fontinfo *font, int character, Real scale, Real x, Real y)
1213 int glyph_index = stbtt_FindGlyphIndex(font, character);
1215 // Check if there is actully a glyph to render.
1216 if (stbtt_IsGlyphEmpty(font, glyph_index))
1221 stbtt_vertex *instructions;
1222 int num_instructions = stbtt_GetGlyphShape(font, glyph_index, &instructions);
1224 Real current_x(0), current_y(0);
1225 unsigned start_index = m_count;
1226 unsigned end_index = m_count;
1227 for (int i = 0; i < num_instructions; ++i)
1229 // TTF uses 16-bit signed ints for coordinates:
1230 // with the y-axis inverted compared to us.
1231 // Convert and scale any data.
1232 Real inst_x = Real(instructions[i].x)*scale;
1233 Real inst_y = Real(instructions[i].y)*-scale;
1234 Real inst_cx = Real(instructions[i].cx)*scale;
1235 Real inst_cy = Real(instructions[i].cy)*-scale;
1236 Real old_x(current_x), old_y(current_y);
1240 switch(instructions[i].type)
1247 end_index = AddBezier(Bezier(old_x + x, old_y + y, old_x + x, old_y + y, current_x + x, current_y + y, current_x + x, current_y + y));
1249 // Quadratic Bezier To:
1251 // Quadratic -> Cubic:
1252 // - Endpoints are the same.
1253 // - cubic1 = quad0+(2/3)*(quad1-quad0)
1254 // - cubic2 = quad2+(2/3)*(quad1-quad2)
1255 end_index = AddBezier(Bezier(old_x + x, old_y + y, old_x + Real(2)*(inst_cx-old_x)/Real(3) + x, old_y + Real(2)*(inst_cy-old_y)/Real(3) + y,
1256 current_x + Real(2)*(inst_cx-current_x)/Real(3) + x, current_y + Real(2)*(inst_cy-current_y)/Real(3) + y, current_x + x, current_y + y));
1261 if (start_index < m_count && end_index < m_count)
1263 AddPath(start_index, end_index);
1265 //Debug("Added Glyph \"%c\" at %f %f, scale %f", (char)character, Float(x), Float(y), Float(scale));
1267 stbtt_FreeShape(font, instructions);
1270 void Document::TransformObjectBounds(const SVGMatrix & transform, ObjectType type)
1272 #ifdef TRANSFORM_BEZIERS_TO_PATH
1273 for (unsigned i = 0; i < m_objects.paths.size(); ++i)
1275 Path & p = m_objects.paths[i];
1276 p.m_bounds.x = transform.a * p.m_bounds.x + transform.e;
1277 p.m_bounds.y = transform.d * p.m_bounds.y + transform.f;
1278 p.m_bounds.w *= transform.a;
1279 p.m_bounds.h *= transform.d;
1284 for (unsigned i = 0; i < m_count; ++i)
1286 if (type == NUMBER_OF_OBJECT_TYPES || m_objects.types[i] == type)
1288 TransformXYPair(m_objects.bounds[i].x, m_objects.bounds[i].y, transform);
1289 m_objects.bounds[i].w *= transform.a;
1290 m_objects.bounds[i].h *= transform.d;
1295 void Document::TranslateObjects(const Real & dx, const Real & dy, ObjectType type)
1297 #ifdef TRANSFORM_BEZIERS_TO_PATH
1298 for (unsigned i = 0; i < m_objects.paths.size(); ++i)
1300 Path & p = m_objects.paths[i];
1307 for (unsigned i = 0; i < m_count; ++i)
1309 if (type == NUMBER_OF_OBJECT_TYPES || m_objects.types[i] == type)
1311 m_objects.bounds[i].x += dx;
1312 m_objects.bounds[i].y += dy;
1317 void Document::ScaleObjectsAboutPoint(const Real & x, const Real & y, const Real & scale_amount, ObjectType type)
1319 #ifdef TRANSFORM_BEZIERS_TO_PATH
1320 for (unsigned i = 0; i < m_objects.paths.size(); ++i)
1322 Path & p = m_objects.paths[i];
1323 p.m_bounds.w /= scale_amount;
1324 p.m_bounds.h /= scale_amount;
1326 p.m_bounds.x /= scale_amount;
1329 p.m_bounds.y /= scale_amount;
1335 for (unsigned i = 0; i < m_count; ++i)
1337 if (type != NUMBER_OF_OBJECT_TYPES && m_objects.types[i] != type)
1340 m_objects.bounds[i].w /= scale_amount;
1341 m_objects.bounds[i].h /= scale_amount;
1342 //m_objects.bounds[i].x = x + (m_objects.bounds[i].x-x)/scale_amount;
1343 //m_objects.bounds[i].y = y + (m_objects.bounds[i].y-x)/scale_amount;
1344 m_objects.bounds[i].x -= x;
1345 m_objects.bounds[i].x /= scale_amount;
1346 m_objects.bounds[i].x += x;
1348 m_objects.bounds[i].y -= y;
1349 m_objects.bounds[i].y /= scale_amount;
1350 m_objects.bounds[i].y += y;