Merge pull request #93378 from akien-mga/thorvg-0.13.8

thorvg: Update to 0.13.8
This commit is contained in:
Rémi Verschelde 2024-06-21 10:14:32 +02:00
commit 1f134f3865
No known key found for this signature in database
GPG Key ID: C3336907360768E1
14 changed files with 310 additions and 130 deletions

View File

@ -15,5 +15,5 @@
// For internal debugging: // For internal debugging:
//#define THORVG_LOG_ENABLED //#define THORVG_LOG_ENABLED
#define THORVG_VERSION_STRING "0.13.7" #define THORVG_VERSION_STRING "0.13.8"
#endif #endif

View File

@ -1,13 +0,0 @@
diff --git a/thirdparty/thorvg/src/loaders/svg/tvgSvgLoader.cpp b/thirdparty/thorvg/src/loaders/svg/tvgSvgLoader.cpp
index f59994aae6..b2ce38852c 100644
--- a/thirdparty/thorvg/src/loaders/svg/tvgSvgLoader.cpp
+++ b/thirdparty/thorvg/src/loaders/svg/tvgSvgLoader.cpp
@@ -709,7 +709,7 @@ static bool _toColor(const char* str, uint8_t* r, uint8_t* g, uint8_t* b, char**
*ref = _idFromUrl((const char*)(str + 3));
return true;
} else if (len >= 10 && (str[0] == 'h' || str[0] == 'H') && (str[1] == 's' || str[1] == 'S') && (str[2] == 'l' || str[2] == 'L') && str[3] == '(' && str[len - 1] == ')') {
- float_t th, ts, tb;
+ float th, ts, tb;
const char *content, *hue, *satuation, *brightness;
content = str + 4;
content = _skipSpace(content, nullptr);

View File

@ -25,6 +25,8 @@
#ifdef THORVG_THREAD_SUPPORT #ifdef THORVG_THREAD_SUPPORT
#define _DISABLE_CONSTEXPR_MUTEX_CONSTRUCTOR
#include <mutex> #include <mutex>
namespace tvg { namespace tvg {

View File

@ -175,14 +175,14 @@ static float _toFloat(const SvgParser* svgParse, const char* str, SvgParserLengt
else if (strstr(str, "pc")) parsedValue *= PX_PER_PC; else if (strstr(str, "pc")) parsedValue *= PX_PER_PC;
else if (strstr(str, "in")) parsedValue *= PX_PER_IN; else if (strstr(str, "in")) parsedValue *= PX_PER_IN;
else if (strstr(str, "%")) { else if (strstr(str, "%")) {
if (type == SvgParserLengthType::Vertical) parsedValue = (parsedValue / 100.0) * svgParse->global.h; if (type == SvgParserLengthType::Vertical) parsedValue = (parsedValue / 100.0f) * svgParse->global.h;
else if (type == SvgParserLengthType::Horizontal) parsedValue = (parsedValue / 100.0) * svgParse->global.w; else if (type == SvgParserLengthType::Horizontal) parsedValue = (parsedValue / 100.0f) * svgParse->global.w;
else //if other then it's radius else //if other than it's radius
{ {
float max = svgParse->global.w; float max = svgParse->global.w;
if (max < svgParse->global.h) if (max < svgParse->global.h)
max = svgParse->global.h; max = svgParse->global.h;
parsedValue = (parsedValue / 100.0) * max; parsedValue = (parsedValue / 100.0f) * max;
} }
} }
//TODO: Implement 'em', 'ex' attributes //TODO: Implement 'em', 'ex' attributes
@ -580,7 +580,7 @@ static constexpr struct
}; };
static bool _hslToRgb(float hue, float satuation, float brightness, uint8_t* red, uint8_t* green, uint8_t* blue) static bool _hslToRgb(float hue, float saturation, float brightness, uint8_t* red, uint8_t* green, uint8_t* blue)
{ {
if (!red || !green || !blue) return false; if (!red || !green || !blue) return false;
@ -588,12 +588,12 @@ static bool _hslToRgb(float hue, float satuation, float brightness, uint8_t* red
float _red = 0, _green = 0, _blue = 0; float _red = 0, _green = 0, _blue = 0;
uint32_t i = 0; uint32_t i = 0;
if (mathZero(satuation)) _red = _green = _blue = brightness; if (mathZero(saturation)) _red = _green = _blue = brightness;
else { else {
if (mathEqual(hue, 360.0)) hue = 0.0f; if (mathEqual(hue, 360.0)) hue = 0.0f;
hue /= 60.0f; hue /= 60.0f;
v = (brightness <= 0.5f) ? (brightness * (1.0f + satuation)) : (brightness + satuation - (brightness * satuation)); v = (brightness <= 0.5f) ? (brightness * (1.0f + saturation)) : (brightness + saturation - (brightness * saturation));
p = brightness + brightness - v; p = brightness + brightness - v;
if (!mathZero(v)) sv = (v - p) / v; if (!mathZero(v)) sv = (v - p) / v;
@ -662,7 +662,7 @@ static bool _toColor(const char* str, uint8_t* r, uint8_t* g, uint8_t* b, char**
unsigned char tr, tg, tb; unsigned char tr, tg, tb;
if (len == 4 && str[0] == '#') { if (len == 4 && str[0] == '#') {
//Case for "#456" should be interprete as "#445566" //Case for "#456" should be interpreted as "#445566"
if (isxdigit(str[1]) && isxdigit(str[2]) && isxdigit(str[3])) { if (isxdigit(str[1]) && isxdigit(str[2]) && isxdigit(str[3])) {
char tmp[3] = { '\0', '\0', '\0' }; char tmp[3] = { '\0', '\0', '\0' };
tmp[0] = str[1]; tmp[0] = str[1];
@ -710,7 +710,7 @@ static bool _toColor(const char* str, uint8_t* r, uint8_t* g, uint8_t* b, char**
return true; return true;
} else if (len >= 10 && (str[0] == 'h' || str[0] == 'H') && (str[1] == 's' || str[1] == 'S') && (str[2] == 'l' || str[2] == 'L') && str[3] == '(' && str[len - 1] == ')') { } else if (len >= 10 && (str[0] == 'h' || str[0] == 'H') && (str[1] == 's' || str[1] == 'S') && (str[2] == 'l' || str[2] == 'L') && str[3] == '(' && str[len - 1] == ')') {
float th, ts, tb; float th, ts, tb;
const char *content, *hue, *satuation, *brightness; const char *content, *hue, *saturation, *brightness;
content = str + 4; content = str + 4;
content = _skipSpace(content, nullptr); content = _skipSpace(content, nullptr);
if (_parseNumber(&content, &hue, &th) && hue) { if (_parseNumber(&content, &hue, &th) && hue) {
@ -718,12 +718,12 @@ static bool _toColor(const char* str, uint8_t* r, uint8_t* g, uint8_t* b, char**
hue = _skipSpace(hue, nullptr); hue = _skipSpace(hue, nullptr);
hue = (char*)_skipComma(hue); hue = (char*)_skipComma(hue);
hue = _skipSpace(hue, nullptr); hue = _skipSpace(hue, nullptr);
if (_parseNumber(&hue, &satuation, &ts) && satuation && *satuation == '%') { if (_parseNumber(&hue, &saturation, &ts) && saturation && *saturation == '%') {
ts /= 100.0f; ts /= 100.0f;
satuation = _skipSpace(satuation + 1, nullptr); saturation = _skipSpace(saturation + 1, nullptr);
satuation = (char*)_skipComma(satuation); saturation = (char*)_skipComma(saturation);
satuation = _skipSpace(satuation, nullptr); saturation = _skipSpace(saturation, nullptr);
if (_parseNumber(&satuation, &brightness, &tb) && brightness && *brightness == '%') { if (_parseNumber(&saturation, &brightness, &tb) && brightness && *brightness == '%') {
tb /= 100.0f; tb /= 100.0f;
brightness = _skipSpace(brightness + 1, nullptr); brightness = _skipSpace(brightness + 1, nullptr);
if (brightness && brightness[0] == ')' && brightness[1] == '\0') { if (brightness && brightness[0] == ')' && brightness[1] == '\0') {
@ -2119,7 +2119,72 @@ static SvgNode* _createUseNode(SvgLoaderData* loader, SvgNode* parent, const cha
} }
//TODO: Implement 'text' primitive static constexpr struct
{
const char* tag;
SvgParserLengthType type;
int sz;
size_t offset;
} textTags[] = {
{"x", SvgParserLengthType::Horizontal, sizeof("x"), offsetof(SvgTextNode, x)},
{"y", SvgParserLengthType::Vertical, sizeof("y"), offsetof(SvgTextNode, y)},
{"font-size", SvgParserLengthType::Vertical, sizeof("font-size"), offsetof(SvgTextNode, fontSize)}
};
static bool _attrParseTextNode(void* data, const char* key, const char* value)
{
SvgLoaderData* loader = (SvgLoaderData*)data;
SvgNode* node = loader->svgParse->node;
SvgTextNode* text = &(node->node.text);
unsigned char* array;
int sz = strlen(key);
array = (unsigned char*)text;
for (unsigned int i = 0; i < sizeof(textTags) / sizeof(textTags[0]); i++) {
if (textTags[i].sz - 1 == sz && !strncmp(textTags[i].tag, key, sz)) {
*((float*)(array + textTags[i].offset)) = _toFloat(loader->svgParse, value, textTags[i].type);
return true;
}
}
if (!strcmp(key, "font-family")) {
if (text->fontFamily && value) free(text->fontFamily);
text->fontFamily = strdup(value);
} else if (!strcmp(key, "style")) {
return simpleXmlParseW3CAttribute(value, strlen(value), _parseStyleAttr, loader);
} else if (!strcmp(key, "clip-path")) {
_handleClipPathAttr(loader, node, value);
} else if (!strcmp(key, "mask")) {
_handleMaskAttr(loader, node, value);
} else if (!strcmp(key, "id")) {
if (node->id && value) free(node->id);
node->id = _copyId(value);
} else if (!strcmp(key, "class")) {
_handleCssClassAttr(loader, node, value);
} else {
return _parseStyleAttr(loader, key, value, false);
}
return true;
}
static SvgNode* _createTextNode(SvgLoaderData* loader, SvgNode* parent, const char* buf, unsigned bufLength, parseAttributes func)
{
loader->svgParse->node = _createNode(parent, SvgNodeType::Text);
if (!loader->svgParse->node) return nullptr;
//TODO: support the def font and size as used in a system?
loader->svgParse->node->node.text.fontSize = 10.0f;
loader->svgParse->node->node.text.fontFamily = nullptr;
func(buf, bufLength, _attrParseTextNode, loader);
return loader->svgParse->node;
}
static constexpr struct static constexpr struct
{ {
const char* tag; const char* tag;
@ -2134,7 +2199,8 @@ static constexpr struct
{"rect", sizeof("rect"), _createRectNode}, {"rect", sizeof("rect"), _createRectNode},
{"polyline", sizeof("polyline"), _createPolylineNode}, {"polyline", sizeof("polyline"), _createPolylineNode},
{"line", sizeof("line"), _createLineNode}, {"line", sizeof("line"), _createLineNode},
{"image", sizeof("image"), _createImageNode} {"image", sizeof("image"), _createImageNode},
{"text", sizeof("text"), _createTextNode}
}; };
@ -3122,6 +3188,20 @@ static void _copyAttr(SvgNode* to, const SvgNode* from)
to->node.use.symbol = from->node.use.symbol; to->node.use.symbol = from->node.use.symbol;
break; break;
} }
case SvgNodeType::Text: {
to->node.text.x = from->node.text.x;
to->node.text.y = from->node.text.y;
to->node.text.fontSize = from->node.text.fontSize;
if (from->node.text.text) {
if (to->node.text.text) free(to->node.text.text);
to->node.text.text = strdup(from->node.text.text);
}
if (from->node.text.fontFamily) {
if (to->node.text.fontFamily) free(to->node.text.fontFamily);
to->node.text.fontFamily = strdup(from->node.text.fontFamily);
}
break;
}
default: { default: {
break; break;
} }
@ -3174,27 +3254,12 @@ static void _clonePostponedNodes(Array<SvgNodeIdPair>* cloneNodes, SvgNode* doc)
} }
static constexpr struct
{
const char* tag;
size_t sz;
} popArray[] = {
{"g", sizeof("g")},
{"svg", sizeof("svg")},
{"defs", sizeof("defs")},
{"mask", sizeof("mask")},
{"clipPath", sizeof("clipPath")},
{"style", sizeof("style")},
{"symbol", sizeof("symbol")}
};
static void _svgLoaderParserXmlClose(SvgLoaderData* loader, const char* content) static void _svgLoaderParserXmlClose(SvgLoaderData* loader, const char* content)
{ {
content = _skipSpace(content, nullptr); content = _skipSpace(content, nullptr);
for (unsigned int i = 0; i < sizeof(popArray) / sizeof(popArray[0]); i++) { for (unsigned int i = 0; i < sizeof(groupTags) / sizeof(groupTags[0]); i++) {
if (!strncmp(content, popArray[i].tag, popArray[i].sz - 1)) { if (!strncmp(content, groupTags[i].tag, groupTags[i].sz - 1)) {
loader->stack.pop(); loader->stack.pop();
break; break;
} }
@ -3259,7 +3324,7 @@ static void _svgLoaderParserXmlOpen(SvgLoaderData* loader, const char* content,
node = method(loader, nullptr, attrs, attrsLength, simpleXmlParseAttributes); node = method(loader, nullptr, attrs, attrsLength, simpleXmlParseAttributes);
loader->cssStyle = node; loader->cssStyle = node;
loader->doc->node.doc.style = node; loader->doc->node.doc.style = node;
loader->style = true; loader->openedTag = OpenedTagType::Style;
} }
} else { } else {
node = method(loader, parent, attrs, attrsLength, simpleXmlParseAttributes); node = method(loader, parent, attrs, attrsLength, simpleXmlParseAttributes);
@ -3275,10 +3340,13 @@ static void _svgLoaderParserXmlOpen(SvgLoaderData* loader, const char* content,
else parent = loader->doc; else parent = loader->doc;
node = method(loader, parent, attrs, attrsLength, simpleXmlParseAttributes); node = method(loader, parent, attrs, attrsLength, simpleXmlParseAttributes);
if (node && !empty) { if (node && !empty) {
if (!strcmp(tagName, "text")) loader->openedTag = OpenedTagType::Text;
else {
auto defs = _createDefsNode(loader, nullptr, nullptr, 0, nullptr); auto defs = _createDefsNode(loader, nullptr, nullptr, 0, nullptr);
loader->stack.push(defs); loader->stack.push(defs);
loader->currentGraphicsNode = node; loader->currentGraphicsNode = node;
} }
}
} else if ((gradientMethod = _findGradientFactory(tagName))) { } else if ((gradientMethod = _findGradientFactory(tagName))) {
SvgStyleGradient* gradient; SvgStyleGradient* gradient;
gradient = gradientMethod(loader, attrs, attrsLength); gradient = gradientMethod(loader, attrs, attrsLength);
@ -3310,6 +3378,15 @@ static void _svgLoaderParserXmlOpen(SvgLoaderData* loader, const char* content,
} }
static void _svgLoaderParserText(SvgLoaderData* loader, const char* content, unsigned int length)
{
auto text = &loader->svgParse->node->node.text;
if (text->text) free(text->text);
text->text = strDuplicate(content, length);
loader->openedTag = OpenedTagType::Other;
}
static void _svgLoaderParserXmlCssStyle(SvgLoaderData* loader, const char* content, unsigned int length) static void _svgLoaderParserXmlCssStyle(SvgLoaderData* loader, const char* content, unsigned int length)
{ {
char* tag; char* tag;
@ -3342,7 +3419,7 @@ static void _svgLoaderParserXmlCssStyle(SvgLoaderData* loader, const char* conte
free(tag); free(tag);
free(name); free(name);
} }
loader->style = false; loader->openedTag = OpenedTagType::Other;
} }
@ -3365,7 +3442,8 @@ static bool _svgLoaderParser(void* data, SimpleXMLType type, const char* content
} }
case SimpleXMLType::Data: case SimpleXMLType::Data:
case SimpleXMLType::CData: { case SimpleXMLType::CData: {
if (loader->style) _svgLoaderParserXmlCssStyle(loader, content, length); if (loader->openedTag == OpenedTagType::Style) _svgLoaderParserXmlCssStyle(loader, content, length);
else if (loader->openedTag == OpenedTagType::Text) _svgLoaderParserText(loader, content, length);
break; break;
} }
case SimpleXMLType::DoctypeChild: { case SimpleXMLType::DoctypeChild: {
@ -3587,6 +3665,11 @@ static void _freeNode(SvgNode* node)
free(node->node.image.href); free(node->node.image.href);
break; break;
} }
case SvgNodeType::Text: {
free(node->node.text.text);
free(node->node.text.fontFamily);
break;
}
default: { default: {
break; break;
} }

View File

@ -374,6 +374,14 @@ struct SvgCssStyleNode
{ {
}; };
struct SvgTextNode
{
char* text;
char* fontFamily;
float x, y;
float fontSize;
};
struct SvgLinearGradient struct SvgLinearGradient
{ {
float x1; float x1;
@ -518,6 +526,7 @@ struct SvgNode
SvgClipNode clip; SvgClipNode clip;
SvgCssStyleNode cssStyle; SvgCssStyleNode cssStyle;
SvgSymbolNode symbol; SvgSymbolNode symbol;
SvgTextNode text;
} node; } node;
~SvgNode(); ~SvgNode();
}; };
@ -545,11 +554,18 @@ struct SvgNodeIdPair
char *id; char *id;
}; };
enum class OpenedTagType : uint8_t
{
Other = 0,
Style,
Text
};
struct SvgLoaderData struct SvgLoaderData
{ {
Array<SvgNode*> stack; Array<SvgNode*> stack;
SvgNode* doc = nullptr; SvgNode* doc = nullptr;
SvgNode* def = nullptr; SvgNode* def = nullptr; //also used to store nested graphic nodes
SvgNode* cssStyle = nullptr; SvgNode* cssStyle = nullptr;
Array<SvgStyleGradient*> gradients; Array<SvgStyleGradient*> gradients;
SvgStyleGradient* latestGradient = nullptr; //For stops SvgStyleGradient* latestGradient = nullptr; //For stops
@ -559,7 +575,7 @@ struct SvgLoaderData
Array<char*> images; //embedded images Array<char*> images; //embedded images
int level = 0; int level = 0;
bool result = false; bool result = false;
bool style = false; OpenedTagType openedTag = OpenedTagType::Other;
SvgNode* currentGraphicsNode = nullptr; SvgNode* currentGraphicsNode = nullptr;
}; };

View File

@ -67,6 +67,14 @@ static Box _boundingBox(const Shape* shape)
} }
static Box _boundingBox(const Text* text)
{
float x, y, w, h;
text->bounds(&x, &y, &w, &h, false);
return {x, y, w, h};
}
static void _transformMultiply(const Matrix* mBBox, Matrix* gradTransf) static void _transformMultiply(const Matrix* mBBox, Matrix* gradTransf)
{ {
gradTransf->e13 = gradTransf->e13 * mBBox->e11 + mBBox->e13; gradTransf->e13 = gradTransf->e13 * mBBox->e11 + mBBox->e13;
@ -79,7 +87,7 @@ static void _transformMultiply(const Matrix* mBBox, Matrix* gradTransf)
} }
static unique_ptr<LinearGradient> _applyLinearGradientProperty(SvgStyleGradient* g, const Shape* vg, const Box& vBox, int opacity) static unique_ptr<LinearGradient> _applyLinearGradientProperty(SvgStyleGradient* g, const Box& vBox, int opacity)
{ {
Fill::ColorStop* stops; Fill::ColorStop* stops;
int stopCount = 0; int stopCount = 0;
@ -134,7 +142,7 @@ static unique_ptr<LinearGradient> _applyLinearGradientProperty(SvgStyleGradient*
} }
static unique_ptr<RadialGradient> _applyRadialGradientProperty(SvgStyleGradient* g, const Shape* vg, const Box& vBox, int opacity) static unique_ptr<RadialGradient> _applyRadialGradientProperty(SvgStyleGradient* g, const Box& vBox, int opacity)
{ {
Fill::ColorStop *stops; Fill::ColorStop *stops;
int stopCount = 0; int stopCount = 0;
@ -320,14 +328,15 @@ static void _applyProperty(SvgLoaderData& loaderData, SvgNode* node, Shape* vg,
if (!style->fill.paint.gradient->userSpace) bBox = _boundingBox(vg); if (!style->fill.paint.gradient->userSpace) bBox = _boundingBox(vg);
if (style->fill.paint.gradient->type == SvgGradientType::Linear) { if (style->fill.paint.gradient->type == SvgGradientType::Linear) {
auto linear = _applyLinearGradientProperty(style->fill.paint.gradient, vg, bBox, style->fill.opacity); auto linear = _applyLinearGradientProperty(style->fill.paint.gradient, bBox, style->fill.opacity);
vg->fill(std::move(linear)); vg->fill(std::move(linear));
} else if (style->fill.paint.gradient->type == SvgGradientType::Radial) { } else if (style->fill.paint.gradient->type == SvgGradientType::Radial) {
auto radial = _applyRadialGradientProperty(style->fill.paint.gradient, vg, bBox, style->fill.opacity); auto radial = _applyRadialGradientProperty(style->fill.paint.gradient, bBox, style->fill.opacity);
vg->fill(std::move(radial)); vg->fill(std::move(radial));
} }
} else if (style->fill.paint.url) { } else if (style->fill.paint.url) {
//TODO: Apply the color pointed by url //TODO: Apply the color pointed by url
TVGLOG("SVG", "The fill's url not supported.");
} else if (style->fill.paint.curColor) { } else if (style->fill.paint.curColor) {
//Apply the current style color //Apply the current style color
vg->fill(style->color.r, style->color.g, style->color.b, style->fill.opacity); vg->fill(style->color.r, style->color.g, style->color.b, style->fill.opacity);
@ -363,14 +372,15 @@ static void _applyProperty(SvgLoaderData& loaderData, SvgNode* node, Shape* vg,
if (!style->stroke.paint.gradient->userSpace) bBox = _boundingBox(vg); if (!style->stroke.paint.gradient->userSpace) bBox = _boundingBox(vg);
if (style->stroke.paint.gradient->type == SvgGradientType::Linear) { if (style->stroke.paint.gradient->type == SvgGradientType::Linear) {
auto linear = _applyLinearGradientProperty(style->stroke.paint.gradient, vg, bBox, style->stroke.opacity); auto linear = _applyLinearGradientProperty(style->stroke.paint.gradient, bBox, style->stroke.opacity);
vg->stroke(std::move(linear)); vg->stroke(std::move(linear));
} else if (style->stroke.paint.gradient->type == SvgGradientType::Radial) { } else if (style->stroke.paint.gradient->type == SvgGradientType::Radial) {
auto radial = _applyRadialGradientProperty(style->stroke.paint.gradient, vg, bBox, style->stroke.opacity); auto radial = _applyRadialGradientProperty(style->stroke.paint.gradient, bBox, style->stroke.opacity);
vg->stroke(std::move(radial)); vg->stroke(std::move(radial));
} }
} else if (style->stroke.paint.url) { } else if (style->stroke.paint.url) {
//TODO: Apply the color pointed by url //TODO: Apply the color pointed by url
TVGLOG("SVG", "The stroke's url not supported.");
} else if (style->stroke.paint.curColor) { } else if (style->stroke.paint.curColor) {
//Apply the current style color //Apply the current style color
vg->stroke(style->color.r, style->color.g, style->color.b, style->stroke.opacity); vg->stroke(style->color.r, style->color.g, style->color.b, style->stroke.opacity);
@ -772,6 +782,61 @@ static unique_ptr<Scene> _useBuildHelper(SvgLoaderData& loaderData, const SvgNod
} }
static void _applyTextFill(SvgStyleProperty* style, Text* text, const Box& vBox)
{
//If fill property is nullptr then do nothing
if (style->fill.paint.none) {
//Do nothing
} else if (style->fill.paint.gradient) {
Box bBox = vBox;
if (!style->fill.paint.gradient->userSpace) bBox = _boundingBox(text);
if (style->fill.paint.gradient->type == SvgGradientType::Linear) {
auto linear = _applyLinearGradientProperty(style->fill.paint.gradient, bBox, style->fill.opacity);
text->fill(std::move(linear));
} else if (style->fill.paint.gradient->type == SvgGradientType::Radial) {
auto radial = _applyRadialGradientProperty(style->fill.paint.gradient, bBox, style->fill.opacity);
text->fill(std::move(radial));
}
} else if (style->fill.paint.url) {
//TODO: Apply the color pointed by url
TVGLOG("SVG", "The fill's url not supported.");
} else if (style->fill.paint.curColor) {
//Apply the current style color
text->fill(style->color.r, style->color.g, style->color.b);
text->opacity(style->fill.opacity);
} else {
//Apply the fill color
text->fill(style->fill.paint.color.r, style->fill.paint.color.g, style->fill.paint.color.b);
text->opacity(style->fill.opacity);
}
}
static unique_ptr<Text> _textBuildHelper(SvgLoaderData& loaderData, const SvgNode* node, const Box& vBox, const string& svgPath)
{
auto textNode = &node->node.text;
if (!textNode->text) return nullptr;
auto text = Text::gen();
Matrix textTransform = {1, 0, 0, 0, 1, 0, 0, 0, 1};
if (node->transform) textTransform = *node->transform;
mathTranslateR(&textTransform, node->node.text.x, node->node.text.y - textNode->fontSize);
text->transform(textTransform);
//TODO: handle def values of font and size as used in a system?
const float ptPerPx = 0.75f; //1 pt = 1/72; 1 in = 96 px; -> 72/96 = 0.75
auto fontSizePt = textNode->fontSize * ptPerPx;
if (textNode->fontFamily) text->font(textNode->fontFamily, fontSizePt);
text->text(textNode->text);
_applyTextFill(node->style, text.get(), vBox);
_applyComposition(loaderData, text.get(), node, vBox, svgPath);
return text;
}
static unique_ptr<Scene> _sceneBuildHelper(SvgLoaderData& loaderData, const SvgNode* node, const Box& vBox, const string& svgPath, bool mask, int depth, bool* isMaskWhite) static unique_ptr<Scene> _sceneBuildHelper(SvgLoaderData& loaderData, const SvgNode* node, const Box& vBox, const string& svgPath, bool mask, int depth, bool* isMaskWhite)
{ {
/* Exception handling: Prevent invalid SVG data input. /* Exception handling: Prevent invalid SVG data input.
@ -800,6 +865,9 @@ static unique_ptr<Scene> _sceneBuildHelper(SvgLoaderData& loaderData, const SvgN
scene->push(std::move(image)); scene->push(std::move(image));
if (isMaskWhite) *isMaskWhite = false; if (isMaskWhite) *isMaskWhite = false;
} }
} else if ((*child)->type == SvgNodeType::Text) {
auto text = _textBuildHelper(loaderData, *child, vBox, svgPath);
if (text) scene->push(std::move(text));
} else if ((*child)->type != SvgNodeType::Mask) { } else if ((*child)->type != SvgNodeType::Mask) {
auto shape = _shapeBuildHelper(loaderData, *child, vBox, svgPath); auto shape = _shapeBuildHelper(loaderData, *child, vBox, svgPath);
if (shape) { if (shape) {

View File

@ -26,18 +26,6 @@
#include "tvgCommon.h" #include "tvgCommon.h"
#include "tvgRender.h" #include "tvgRender.h"
#include <algorithm>
#if 0
#include <sys/time.h>
static double timeStamp()
{
struct timeval tv;
gettimeofday(&tv, NULL);
return (tv.tv_sec + tv.tv_usec / 1000000.0);
}
#endif
#define SW_CURVE_TYPE_POINT 0 #define SW_CURVE_TYPE_POINT 0
#define SW_CURVE_TYPE_CUBIC 1 #define SW_CURVE_TYPE_CUBIC 1
#define SW_ANGLE_PI (180L << 16) #define SW_ANGLE_PI (180L << 16)

View File

@ -34,14 +34,6 @@ struct AASpans
int32_t yEnd; int32_t yEnd;
}; };
static inline void _swap(float& a, float& b, float& tmp)
{
tmp = a;
a = b;
b = tmp;
}
//Careful! Shared resource, No support threading //Careful! Shared resource, No support threading
static float dudx, dvdx; static float dudx, dvdx;
static float dxdya, dxdyb, dudya, dvdya; static float dxdya, dxdyb, dudya, dvdya;
@ -85,7 +77,7 @@ static bool _rasterMaskedPolygonImageSegment(SwSurface* surface, const SwImage*
int32_t sh = image->h; int32_t sh = image->h;
int32_t x1, x2, x, y, ar, ab, iru, irv, px, ay; int32_t x1, x2, x, y, ar, ab, iru, irv, px, ay;
int32_t vv = 0, uu = 0; int32_t vv = 0, uu = 0;
int32_t minx = INT32_MAX, maxx = INT32_MIN; int32_t minx = INT32_MAX, maxx = 0;
float dx, u, v, iptr; float dx, u, v, iptr;
SwSpan* span = nullptr; //used only when rle based. SwSpan* span = nullptr; //used only when rle based.
@ -113,7 +105,7 @@ static bool _rasterMaskedPolygonImageSegment(SwSurface* surface, const SwImage*
if (!region) { if (!region) {
minx = INT32_MAX; minx = INT32_MAX;
maxx = INT32_MIN; maxx = 0;
//one single row, could be consisted of multiple spans. //one single row, could be consisted of multiple spans.
while (span->y == y && spanIdx < image->rle->size) { while (span->y == y && spanIdx < image->rle->size) {
if (minx > span->x) minx = span->x; if (minx > span->x) minx = span->x;
@ -278,7 +270,7 @@ static void _rasterBlendingPolygonImageSegment(SwSurface* surface, const SwImage
int32_t dw = surface->stride; int32_t dw = surface->stride;
int32_t x1, x2, x, y, ar, ab, iru, irv, px, ay; int32_t x1, x2, x, y, ar, ab, iru, irv, px, ay;
int32_t vv = 0, uu = 0; int32_t vv = 0, uu = 0;
int32_t minx = INT32_MAX, maxx = INT32_MIN; int32_t minx = INT32_MAX, maxx = 0;
float dx, u, v, iptr; float dx, u, v, iptr;
uint32_t* buf; uint32_t* buf;
SwSpan* span = nullptr; //used only when rle based. SwSpan* span = nullptr; //used only when rle based.
@ -307,7 +299,7 @@ static void _rasterBlendingPolygonImageSegment(SwSurface* surface, const SwImage
if (!region) { if (!region) {
minx = INT32_MAX; minx = INT32_MAX;
maxx = INT32_MIN; maxx = 0;
//one single row, could be consisted of multiple spans. //one single row, could be consisted of multiple spans.
while (span->y == y && spanIdx < image->rle->size) { while (span->y == y && spanIdx < image->rle->size) {
if (minx > span->x) minx = span->x; if (minx > span->x) minx = span->x;
@ -455,7 +447,7 @@ static void _rasterPolygonImageSegment(SwSurface* surface, const SwImage* image,
int32_t dw = surface->stride; int32_t dw = surface->stride;
int32_t x1, x2, x, y, ar, ab, iru, irv, px, ay; int32_t x1, x2, x, y, ar, ab, iru, irv, px, ay;
int32_t vv = 0, uu = 0; int32_t vv = 0, uu = 0;
int32_t minx = INT32_MAX, maxx = INT32_MIN; int32_t minx = INT32_MAX, maxx = 0;
float dx, u, v, iptr; float dx, u, v, iptr;
uint32_t* buf; uint32_t* buf;
SwSpan* span = nullptr; //used only when rle based. SwSpan* span = nullptr; //used only when rle based.
@ -489,7 +481,7 @@ static void _rasterPolygonImageSegment(SwSurface* surface, const SwImage* image,
if (!region) { if (!region) {
minx = INT32_MAX; minx = INT32_MAX;
maxx = INT32_MIN; maxx = 0;
//one single row, could be consisted of multiple spans. //one single row, could be consisted of multiple spans.
while (span->y == y && spanIdx < image->rle->size) { while (span->y == y && spanIdx < image->rle->size) {
if (minx > span->x) minx = span->x; if (minx > span->x) minx = span->x;
@ -650,28 +642,27 @@ static void _rasterPolygonImage(SwSurface* surface, const SwImage* image, const
float off_y; float off_y;
float dxdy[3] = {0.0f, 0.0f, 0.0f}; float dxdy[3] = {0.0f, 0.0f, 0.0f};
float tmp;
auto upper = false; auto upper = false;
//Sort the vertices in ascending Y order //Sort the vertices in ascending Y order
if (y[0] > y[1]) { if (y[0] > y[1]) {
_swap(x[0], x[1], tmp); std::swap(x[0], x[1]);
_swap(y[0], y[1], tmp); std::swap(y[0], y[1]);
_swap(u[0], u[1], tmp); std::swap(u[0], u[1]);
_swap(v[0], v[1], tmp); std::swap(v[0], v[1]);
} }
if (y[0] > y[2]) { if (y[0] > y[2]) {
_swap(x[0], x[2], tmp); std::swap(x[0], x[2]);
_swap(y[0], y[2], tmp); std::swap(y[0], y[2]);
_swap(u[0], u[2], tmp); std::swap(u[0], u[2]);
_swap(v[0], v[2], tmp); std::swap(v[0], v[2]);
} }
if (y[1] > y[2]) { if (y[1] > y[2]) {
_swap(x[1], x[2], tmp); std::swap(x[1], x[2]);
_swap(y[1], y[2], tmp); std::swap(y[1], y[2]);
_swap(u[1], u[2], tmp); std::swap(u[1], u[2]);
_swap(v[1], v[2], tmp); std::swap(v[1], v[2]);
} }
//Y indexes //Y indexes
@ -837,7 +828,9 @@ static AASpans* _AASpans(float ymin, float ymax, const SwImage* image, const SwB
for (int32_t i = 0; i < height; i++) { for (int32_t i = 0; i < height; i++) {
aaSpans->lines[i].x[0] = INT32_MAX; aaSpans->lines[i].x[0] = INT32_MAX;
aaSpans->lines[i].x[1] = INT32_MIN; aaSpans->lines[i].x[1] = 0;
aaSpans->lines[i].length[0] = 0;
aaSpans->lines[i].length[1] = 0;
} }
return aaSpans; return aaSpans;
} }

View File

@ -86,7 +86,7 @@ struct SwShapeTask : SwTask
Additionally, the stroke style should not be dashed. */ Additionally, the stroke style should not be dashed. */
bool antialiasing(float strokeWidth) bool antialiasing(float strokeWidth)
{ {
return strokeWidth < 2.0f || rshape->stroke->dashCnt > 0 || rshape->stroke->strokeFirst; return strokeWidth < 2.0f || rshape->stroke->dashCnt > 0 || rshape->stroke->strokeFirst || rshape->strokeTrim();
} }
float validStrokeWidth() float validStrokeWidth()

View File

@ -420,6 +420,7 @@ static bool _axisAlignedRect(const SwOutline* outline)
{ {
//Fast Track: axis-aligned rectangle? //Fast Track: axis-aligned rectangle?
if (outline->pts.count != 5) return false; if (outline->pts.count != 5) return false;
if (outline->types[2] == SW_CURVE_TYPE_CUBIC) return false;
auto pt1 = outline->pts.data + 0; auto pt1 = outline->pts.data + 0;
auto pt2 = outline->pts.data + 1; auto pt2 = outline->pts.data + 1;

View File

@ -87,4 +87,16 @@ uint16_t THORVG_VERSION_NUMBER();
#define P(A) ((A)->pImpl) //Access to pimpl. #define P(A) ((A)->pImpl) //Access to pimpl.
#define PP(A) (((Paint*)(A))->pImpl) //Access to pimpl. #define PP(A) (((Paint*)(A))->pImpl) //Access to pimpl.
//for debugging
#if 0
#include <sys/time.h>
static inline double THORVG_TIMESTAMP()
{
struct timeval tv;
gettimeofday(&tv, NULL);
return (tv.tv_sec + tv.tv_usec / 1000000.0);
}
#endif
#endif //_TVG_COMMON_H_ #endif //_TVG_COMMON_H_

View File

@ -41,8 +41,39 @@
} }
static Result _clipRect(RenderMethod* renderer, const Point* pts, const RenderTransform* pTransform, RenderTransform* rTransform, RenderRegion& before)
{
//sorting
Point tmp[4];
Point min = {FLT_MAX, FLT_MAX};
Point max = {0.0f, 0.0f};
static Result _compFastTrack(Paint* cmpTarget, const RenderTransform* pTransform, RenderTransform* rTransform, RenderRegion& viewport) for (int i = 0; i < 4; ++i) {
tmp[i] = pts[i];
if (rTransform) tmp[i] *= rTransform->m;
if (pTransform) tmp[i] *= pTransform->m;
if (tmp[i].x < min.x) min.x = tmp[i].x;
if (tmp[i].x > max.x) max.x = tmp[i].x;
if (tmp[i].y < min.y) min.y = tmp[i].y;
if (tmp[i].y > max.y) max.y = tmp[i].y;
}
float region[4] = {float(before.x), float(before.x + before.w), float(before.y), float(before.y + before.h)};
//figure out if the clipper is a superset of the current viewport(before) region
if (min.x <= region[0] && max.x >= region[1] && min.y <= region[2] && max.y >= region[3]) {
//viewport region is same, nothing to do.
return Result::Success;
//figure out if the clipper is totally outside of the viewport
} else if (max.x <= region[0] || min.x >= region[1] || max.y <= region[2] || min.y >= region[3]) {
renderer->viewport({0, 0, 0, 0});
return Result::Success;
}
return Result::InsufficientCondition;
}
static Result _compFastTrack(RenderMethod* renderer, Paint* cmpTarget, const RenderTransform* pTransform, RenderTransform* rTransform, RenderRegion& before)
{ {
/* Access Shape class by Paint is bad... but it's ok still it's an internal usage. */ /* Access Shape class by Paint is bad... but it's ok still it's an internal usage. */
auto shape = static_cast<Shape*>(cmpTarget); auto shape = static_cast<Shape*>(cmpTarget);
@ -58,9 +89,13 @@ static Result _compFastTrack(Paint* cmpTarget, const RenderTransform* pTransform
if (rTransform) rTransform->update(); if (rTransform) rTransform->update();
//No rotation and no skewing //No rotation and no skewing, still can try out clipping the rect region.
if (pTransform && (!mathRightAngle(&pTransform->m) || mathSkewed(&pTransform->m))) return Result::InsufficientCondition; auto tryClip = false;
if (rTransform && (!mathRightAngle(&rTransform->m) || mathSkewed(&rTransform->m))) return Result::InsufficientCondition;
if (pTransform && (!mathRightAngle(&pTransform->m) || mathSkewed(&pTransform->m))) tryClip = true;
if (rTransform && (!mathRightAngle(&rTransform->m) || mathSkewed(&rTransform->m))) tryClip = true;
if (tryClip) return _clipRect(renderer, pts, pTransform, rTransform, before);
//Perpendicular Rectangle? //Perpendicular Rectangle?
auto pt1 = pts + 0; auto pt1 = pts + 0;
@ -71,6 +106,8 @@ static Result _compFastTrack(Paint* cmpTarget, const RenderTransform* pTransform
if ((mathEqual(pt1->x, pt2->x) && mathEqual(pt2->y, pt3->y) && mathEqual(pt3->x, pt4->x) && mathEqual(pt1->y, pt4->y)) || if ((mathEqual(pt1->x, pt2->x) && mathEqual(pt2->y, pt3->y) && mathEqual(pt3->x, pt4->x) && mathEqual(pt1->y, pt4->y)) ||
(mathEqual(pt2->x, pt3->x) && mathEqual(pt1->y, pt2->y) && mathEqual(pt1->x, pt4->x) && mathEqual(pt3->y, pt4->y))) { (mathEqual(pt2->x, pt3->x) && mathEqual(pt1->y, pt2->y) && mathEqual(pt1->x, pt4->x) && mathEqual(pt3->y, pt4->y))) {
RenderRegion after;
auto v1 = *pt1; auto v1 = *pt1;
auto v2 = *pt3; auto v2 = *pt3;
@ -85,25 +122,19 @@ static Result _compFastTrack(Paint* cmpTarget, const RenderTransform* pTransform
} }
//sorting //sorting
if (v1.x > v2.x) { if (v1.x > v2.x) std::swap(v1.x, v2.x);
auto tmp = v2.x; if (v1.y > v2.y) std::swap(v1.y, v2.y);
v2.x = v1.x;
v1.x = tmp;
}
if (v1.y > v2.y) { after.x = static_cast<int32_t>(v1.x);
auto tmp = v2.y; after.y = static_cast<int32_t>(v1.y);
v2.y = v1.y; after.w = static_cast<int32_t>(ceil(v2.x - after.x));
v1.y = tmp; after.h = static_cast<int32_t>(ceil(v2.y - after.y));
}
viewport.x = static_cast<int32_t>(v1.x); if (after.w < 0) after.w = 0;
viewport.y = static_cast<int32_t>(v1.y); if (after.h < 0) after.h = 0;
viewport.w = static_cast<int32_t>(ceil(v2.x - viewport.x));
viewport.h = static_cast<int32_t>(ceil(v2.y - viewport.y));
if (viewport.w < 0) viewport.w = 0; after.intersect(before);
if (viewport.h < 0) viewport.h = 0; renderer->viewport(after);
return Result::Success; return Result::Success;
} }
@ -264,11 +295,8 @@ RenderData Paint::Impl::update(RenderMethod* renderer, const RenderTransform* pT
} }
} }
if (tryFastTrack) { if (tryFastTrack) {
RenderRegion viewport2;
if ((compFastTrack = _compFastTrack(target, pTransform, target->pImpl->rTransform, viewport2)) == Result::Success) {
viewport = renderer->viewport(); viewport = renderer->viewport();
viewport2.intersect(viewport); if ((compFastTrack = _compFastTrack(renderer, target, pTransform, target->pImpl->rTransform, viewport)) == Result::Success) {
renderer->viewport(viewport2);
target->pImpl->ctxFlag |= ContextFlag::FastTrack; target->pImpl->ctxFlag |= ContextFlag::FastTrack;
} }
} }

View File

@ -23,6 +23,8 @@
#ifndef _TVG_TASK_SCHEDULER_H_ #ifndef _TVG_TASK_SCHEDULER_H_
#define _TVG_TASK_SCHEDULER_H_ #define _TVG_TASK_SCHEDULER_H_
#define _DISABLE_CONSTEXPR_MUTEX_CONSTRUCTOR
#include <mutex> #include <mutex>
#include <condition_variable> #include <condition_variable>

View File

@ -1,6 +1,6 @@
#!/bin/bash -e #!/bin/bash -e
VERSION=0.13.7 VERSION=0.13.8
cd thirdparty/thorvg/ || true cd thirdparty/thorvg/ || true
rm -rf AUTHORS LICENSE inc/ src/ *.zip *.tar.gz tmp/ rm -rf AUTHORS LICENSE inc/ src/ *.zip *.tar.gz tmp/