X-Git-Url: https://git.ucc.asn.au/?p=ipdf%2Fcode.git;a=blobdiff_plain;f=src%2Fdocument.cpp;h=0aeee1ddb101f675569a99ae4d8be577b7158087;hp=8a5635c7bb2aa6d833128fc626870794b12a5039;hb=e7066887c0d142ddef87ec9ae07ef08ff31573dc;hpb=d83560835237d360f6d12776435e91676c8ab45f diff --git a/src/document.cpp b/src/document.cpp index 8a5635c..0aeee1d 100644 --- a/src/document.cpp +++ b/src/document.cpp @@ -132,13 +132,24 @@ int Document::ClipObjectToQuadChild(int object_id, QuadTreeNodeChildren type) } case BEZIER: { - Rect child_node_bounds = TransformFromQuadChild({0,0,1,1}, type); - std::vector new_curves = m_objects.beziers[m_objects.data_indices[object_id]].ClipToRectangle(child_node_bounds); - Rect obj_bounds = TransformToQuadChild(m_objects.bounds[object_id], type); + // If we're entirely within the quadtree node, no clipping need occur. + if (ContainedInQuadChild(m_objects.bounds[object_id], type)) + { + m_objects.bounds.push_back(TransformToQuadChild(m_objects.bounds[object_id], type)); + m_objects.types.push_back(m_objects.types[object_id]); + m_objects.data_indices.push_back(m_objects.data_indices[object_id]); + return 1; + } + Rect clip_bezier_bounds = TransformRectCoordinates(m_objects.bounds[object_id], TransformFromQuadChild(Rect{0,0,1,1}, type)); + std::vector new_curves = m_objects.beziers[m_objects.data_indices[object_id]].ClipToRectangle(clip_bezier_bounds); for (size_t i = 0; i < new_curves.size(); ++i) { - unsigned index = AddBezierData(new_curves[i]); - m_objects.bounds.push_back(obj_bounds); + Rect new_bounds = TransformToQuadChild(m_objects.bounds[object_id], type); + Bezier new_curve_data = new_curves[i].ToAbsolute(TransformToQuadChild(m_objects.bounds[object_id],type)); + new_bounds = new_curve_data.SolveBounds(); + new_curve_data = new_curve_data.ToRelative(new_bounds); + unsigned index = AddBezierData(new_curve_data); + m_objects.bounds.push_back(new_bounds); m_objects.types.push_back(BEZIER); m_objects.data_indices.push_back(index); } @@ -269,8 +280,8 @@ void Document::Load(const string & filename) LoadStructVector(file, chunk_size/sizeof(Bezier), m_objects.beziers); break; - case CT_OBJGROUPS: - Debug("Group data..."); + case CT_OBJPATHS: + Debug("Path data..."); Warn("Not handled because lazy"); break; } @@ -284,32 +295,12 @@ void Document::Load(const string & filename) #endif } -unsigned Document::AddGroup(unsigned start_index, unsigned end_index, const Colour & shading) +unsigned Document::AddPath(unsigned start_index, unsigned end_index, const Colour & fill, const Colour & stroke) { - Real xmin = 0; Real ymin = 0; - Real xmax = 0; Real ymax = 0; - - for (unsigned i = start_index; i <= end_index; ++i) - { - Rect & objb = m_objects.bounds[i]; - - if (i == start_index || objb.x < xmin) - xmin = objb.x; - if (i == start_index || (objb.x+objb.w) > xmax) - xmax = (objb.x+objb.w); - - if (i == start_index || objb.y < ymin) - ymin = objb.y; - if (i == start_index || (objb.y+objb.h) > ymax) - ymax = (objb.y+objb.h); - } - - Rect bounds(xmin,ymin, xmax-xmin, ymax-ymin); - - Group group = {start_index, end_index, shading}; - - unsigned data_index = AddGroupData(group); - unsigned result = Add(GROUP, bounds,data_index); + Path path(m_objects, start_index, end_index, fill, stroke); + unsigned data_index = AddPathData(path); + Rect bounds = path.SolveBounds(m_objects); + unsigned result = Add(PATH, bounds,data_index); return result; } @@ -320,6 +311,12 @@ unsigned Document::AddBezier(const Bezier & bezier) { Rect bounds = bezier.SolveBounds(); Bezier data = bezier.ToRelative(bounds); // Relative + if (data.ToAbsolute(bounds) != bezier) + { + Warn("%s != %s", data.ToAbsolute(Rect(0,0,1,1)).Str().c_str(), + bezier.Str().c_str()); + Warn("ToAbsolute on ToRelative does not give original Bezier"); + } unsigned index = AddBezierData(data); return Add(BEZIER, bounds, index); } @@ -338,10 +335,10 @@ unsigned Document::AddBezierData(const Bezier & bezier) return m_objects.beziers.size()-1; } -unsigned Document::AddGroupData(const Group & group) +unsigned Document::AddPathData(const Path & path) { - m_objects.groups.push_back(group); - return m_objects.groups.size()-1; + m_objects.paths.push_back(path); + return m_objects.paths.size()-1; } void Document::DebugDumpObjects() @@ -495,6 +492,34 @@ void Document::ParseSVGTransform(const string & s, SVGMatrix & transform) } } +inline Colour ParseColourString(const string & colour_str) +{ + Colour c(0,0,0,0); + if (colour_str == "red") + c = {255,0,0,255}; + else if (colour_str == "blue") + c = {0,0,255,255}; + else if (colour_str == "green") + c = {0,255,0,255}; + else if (colour_str == "black") + c = {0,0,0,255}; + else if (colour_str == "white") + c = {255,255,255,255}; + else if (colour_str.size() == 7 && colour_str[0] == '#') + { + Debug("Parse colour string: \"%s\"", colour_str.c_str()); + char comp[3] = {colour_str[1], colour_str[2], '\0'}; + c.r = strtoul(comp, NULL, 16); + comp[0] = colour_str[3]; comp[1] = colour_str[4]; + c.g = strtoul(comp, NULL, 16); + comp[0] = colour_str[5]; comp[1] = colour_str[6]; + c.b = strtoul(comp, NULL, 16); + c.a = 255; + Debug("Colour is: %u, %u, %u, %u", c.r, c.g, c.b, c.a); + } + return c; +} + void Document::ParseSVGNode(pugi::xml_node & root, SVGMatrix & parent_transform) { //Debug("Parse node <%s>", root.name()); @@ -524,9 +549,9 @@ void Document::ParseSVGNode(pugi::xml_node & root, SVGMatrix & parent_transform) //Debug("Path data attribute is \"%s\"", d.c_str()); bool closed = false; pair range = ParseSVGPathData(d, transform, closed); - if (closed) + if (true)//(closed) { - Colour c(0,0,0,0); + string colour_str(""); map style; if (child.attribute("style")) @@ -543,41 +568,39 @@ void Document::ParseSVGNode(pugi::xml_node & root, SVGMatrix & parent_transform) { colour_str = style["fill"]; } - if (colour_str == "red") - c = {1,0,0,1}; - else if (colour_str == "blue") - c = {0,0,1,1}; - else if (colour_str == "green") - c = {0,1,0,1}; - else if (colour_str == "black") - c = {0,0,0,1}; - else if (colour_str == "white") - c = {1,1,1,1}; - else if (colour_str.size() == 7 && colour_str[0] == '#') + Colour fill = ParseColourString(colour_str); + Colour stroke = fill; + + if (child.attribute("stroke")) + { + colour_str = child.attribute("stroke").as_string(); + stroke = ParseColourString(colour_str); + } + else if (style.find("stroke") != style.end()) { - Debug("Parse colour string: \"%s\"", colour_str.c_str()); - char comp[2] = {colour_str[1], colour_str[2]}; - c.r = Real(strtoul(comp, NULL, 16))/Real(255); - comp[0] = colour_str[3]; comp[1] = colour_str[4]; - c.g = Real(strtoul(comp, NULL, 16))/Real(255); - comp[0] = colour_str[5]; comp[1] = colour_str[6]; - c.b = Real(strtoul(comp, NULL, 16))/Real(255); - c.a = 1; - Debug("Colour is: %f, %f, %f, %f", Float(c.r), Float(c.g), Float(c.b), Float(c.a)); + colour_str = style["stroke"]; + stroke = ParseColourString(colour_str); } + // Determin shading alpha if (child.attribute("fill-opacity")) { - c.a = child.attribute("fill-opacity").as_float(); + fill.a = 255*child.attribute("fill-opacity").as_float(); } else if (style.find("fill-opacity") != style.end()) { - c.a = strtod(style["fill-opacity"].c_str(), NULL); + fill.a = 255*strtod(style["fill-opacity"].c_str(), NULL); } - - Debug("fill-opacity is %f", Float(c.a)); - AddGroup(range.first, range.second, c); + if (child.attribute("stroke-opacity")) + { + stroke.a = 255*child.attribute("stroke-opacity").as_float(); + } + else if (style.find("stroke-opacity") != style.end()) + { + stroke.a = 255*strtod(style["stroke-opacity"].c_str(), NULL); + } + AddPath(range.first, range.second, fill, stroke); } } @@ -982,7 +1005,7 @@ void Document::AddFontGlyphAtPoint(stbtt_fontinfo *font, int character, Real sca if (start_index < m_count && end_index < m_count) { - AddGroup(start_index, end_index); + AddPath(start_index, end_index); } Debug("Added Glyph \"%c\" at %f %f, scale %f", (char)character, Float(x), Float(y), Float(scale));