/* * Copyright (c) 2020 - 2025 the ThorVG project. All rights reserved. * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #ifndef _TVG_RENDER_H_ #define _TVG_RENDER_H_ #include #include #include "tvgCommon.h" #include "tvgArray.h" #include "tvgLock.h" #include namespace tvg { using RenderData = void*; using pixel_t = uint32_t; #define DASH_PATTERN_THRESHOLD 0.001f enum RenderUpdateFlag : uint16_t {None = 0, Path = 1, Color = 2, Gradient = 4, Stroke = 8, Transform = 16, Image = 32, GradientStroke = 64, Blend = 128, Clip = 256, All = 0xffff}; enum CompositionFlag : uint8_t {Invalid = 0, Opacity = 1, Blending = 2, Masking = 4, PostProcessing = 8}; //Composition Purpose static inline void operator|=(RenderUpdateFlag& a, const RenderUpdateFlag b) { a = RenderUpdateFlag(uint16_t(a) | uint16_t(b)); } static inline RenderUpdateFlag operator|(const RenderUpdateFlag a, const RenderUpdateFlag b) { return RenderUpdateFlag(uint16_t(a) | uint16_t(b)); } struct RenderSurface { union { pixel_t* data = nullptr; //system based data pointer uint32_t* buf32; //for explicit 32bits channels uint8_t* buf8; //for explicit 8bits grayscale }; Key key; //a reserved lock for the thread safety uint32_t stride = 0; uint32_t w = 0, h = 0; ColorSpace cs = ColorSpace::Unknown; uint8_t channelSize = 0; bool premultiplied = false; //Alpha-premultiplied RenderSurface() { } RenderSurface(const RenderSurface* rhs) { data = rhs->data; stride = rhs->stride; w = rhs->w; h = rhs->h; cs = rhs->cs; channelSize = rhs->channelSize; premultiplied = rhs->premultiplied; } }; struct RenderColor { uint8_t r, g, b, a; }; struct RenderCompositor { MaskMethod method; uint8_t opacity; }; struct RenderRegion { struct { int32_t x, y; } min; struct { int32_t x, y; } max; static constexpr RenderRegion intersect(const RenderRegion& lhs, const RenderRegion& rhs) { return {{std::max(lhs.min.x, rhs.min.x), std::max(lhs.min.y, rhs.min.y)}, {std::min(lhs.max.x, rhs.max.x), std::min(lhs.max.y, rhs.max.y)}}; } void intersect(const RenderRegion& rhs); void add(const RenderRegion& rhs) { if (rhs.min.x < min.x) min.x = rhs.min.x; if (rhs.min.y < min.y) min.y = rhs.min.y; if (rhs.max.x > max.x) max.x = rhs.max.x; if (rhs.max.y > max.y) max.y = rhs.max.y; } bool operator==(const RenderRegion& rhs) const { return (min.x == rhs.min.x && min.y == rhs.min.y && max.x == rhs.max.x && max.y == rhs.max.y); } void reset() { min.x = min.y = max.x = max.y = 0; } bool valid() const { return (max.x > min.x && max.y > min.y); } bool invalid() const { return !valid(); } int32_t sx() const { return min.x; } int32_t sy() const { return min.y; } int32_t sw() const { return max.x - min.x; } int32_t sh() const { return max.y - min.y; } uint32_t x() const { return (uint32_t) sx(); } uint32_t y() const { return (uint32_t) sy(); } uint32_t w() const { return (uint32_t) sw(); } uint32_t h() const { return (uint32_t) sh(); } }; struct RenderPath { Array cmds; Array pts; void clear() { pts.clear(); cmds.clear(); } bool bounds(Matrix* m, float* x, float* y, float* w, float* h); }; struct RenderTrimPath { float begin = 0.0f; float end = 1.0f; bool simultaneous = true; bool valid() { if (begin != 0.0f || end != 1.0f) return true; return false; } bool trim(const RenderPath& in, RenderPath& out) const; }; struct RenderStroke { float width = 0.0f; RenderColor color{}; Fill *fill = nullptr; struct { float* pattern = nullptr; uint32_t count = 0; float offset = 0.0f; float length = 0.0f; } dash; float miterlimit = 4.0f; RenderTrimPath trim; StrokeCap cap = StrokeCap::Square; StrokeJoin join = StrokeJoin::Bevel; bool first = false; void operator=(const RenderStroke& rhs) { width = rhs.width; color = rhs.color; delete(fill); if (rhs.fill) fill = rhs.fill->duplicate(); else fill = nullptr; tvg::free(dash.pattern); if (rhs.dash.count > 0) { dash.pattern = tvg::malloc(sizeof(float) * rhs.dash.count); memcpy(dash.pattern, rhs.dash.pattern, sizeof(float) * rhs.dash.count); } else { dash.pattern = nullptr; } dash.count = rhs.dash.count; dash.offset = rhs.dash.offset; dash.length = rhs.dash.length; miterlimit = rhs.miterlimit; cap = rhs.cap; join = rhs.join; first = rhs.first; trim = rhs.trim; } ~RenderStroke() { tvg::free(dash.pattern); delete(fill); } }; struct RenderShape { RenderPath path; Fill *fill = nullptr; RenderColor color{}; RenderStroke *stroke = nullptr; FillRule rule = FillRule::NonZero; ~RenderShape() { delete(fill); delete(stroke); } void fillColor(uint8_t* r, uint8_t* g, uint8_t* b, uint8_t* a) const { if (r) *r = color.r; if (g) *g = color.g; if (b) *b = color.b; if (a) *a = color.a; } bool trimpath() const { if (!stroke) return false; return stroke->trim.valid(); } bool strokeFirst() const { return (stroke && stroke->first) ? true : false; } float strokeWidth() const { if (!stroke) return 0; return stroke->width; } bool strokeFill(uint8_t* r, uint8_t* g, uint8_t* b, uint8_t* a) const { if (!stroke) return false; if (r) *r = stroke->color.r; if (g) *g = stroke->color.g; if (b) *b = stroke->color.b; if (a) *a = stroke->color.a; return true; } const Fill* strokeFill() const { if (!stroke) return nullptr; return stroke->fill; } uint32_t strokeDash(const float** dashPattern, float* offset) const { if (!stroke) return 0; if (dashPattern) *dashPattern = stroke->dash.pattern; if (offset) *offset = stroke->dash.offset; return stroke->dash.count; } StrokeCap strokeCap() const { if (!stroke) return StrokeCap::Square; return stroke->cap; } StrokeJoin strokeJoin() const { if (!stroke) return StrokeJoin::Bevel; return stroke->join; } float strokeMiterlimit() const { if (!stroke) return 4.0f; return stroke->miterlimit;; } }; struct RenderEffect { RenderData rd = nullptr; RenderRegion extend{}; SceneEffect type; bool valid = false; virtual ~RenderEffect() {} }; struct RenderEffectGaussianBlur : RenderEffect { float sigma; uint8_t direction; //0: both, 1: horizontal, 2: vertical uint8_t border; //0: duplicate, 1: wrap uint8_t quality; //0 ~ 100 (optional) static RenderEffectGaussianBlur* gen(va_list& args) { auto inst = new RenderEffectGaussianBlur; inst->sigma = std::max((float) va_arg(args, double), 0.0f); inst->direction = std::min(va_arg(args, int), 2); inst->border = std::min(va_arg(args, int), 1); inst->quality = std::min(va_arg(args, int), 100); inst->type = SceneEffect::GaussianBlur; return inst; } }; struct RenderEffectDropShadow : RenderEffect { uint8_t color[4]; //rgba float angle; float distance; float sigma; uint8_t quality; //0 ~ 100 (optional) static RenderEffectDropShadow* gen(va_list& args) { std::cout << "gen:drop shadow" << std::endl; auto inst = new RenderEffectDropShadow; inst->color[0] = va_arg(args, int); inst->color[1] = va_arg(args, int); inst->color[2] = va_arg(args, int); inst->color[3] = va_arg(args, int); inst->angle = (float) va_arg(args, double); inst->distance = (float) va_arg(args, double); inst->sigma = std::max((float) va_arg(args, double), 0.0f); inst->quality = std::min(va_arg(args, int), 100); inst->type = SceneEffect::DropShadow; std::cout << "gen:drop shadow:color:" << (int)inst->color[0] << "," << (int)inst->color[1] << "," << (int)inst->color[2] << "," << (int)inst->color[3] << std::endl; std::cout << "gen:drop shadow:angle:" << inst->angle << std::endl; std::cout << "gen:drop shadow:distance:" << inst->distance << std::endl; std::cout << "gen:drop shadow:sigma:" << inst->sigma << std::endl; std::cout << "gen:drop shadow:quality:" << (int)inst->quality << std::endl; std::cout << "gen:drop shadow:end" << std::endl; return inst; } }; struct RenderEffectFill : RenderEffect { uint8_t color[4]; //rgba static RenderEffectFill* gen(va_list& args) { auto inst = new RenderEffectFill; inst->color[0] = va_arg(args, int); inst->color[1] = va_arg(args, int); inst->color[2] = va_arg(args, int); inst->color[3] = va_arg(args, int); inst->type = SceneEffect::Fill; return inst; } }; struct RenderEffectTint : RenderEffect { uint8_t black[3]; //rgb uint8_t white[3]; //rgb uint8_t intensity; //0 - 255 static RenderEffectTint* gen(va_list& args) { auto inst = new RenderEffectTint; inst->black[0] = va_arg(args, int); inst->black[1] = va_arg(args, int); inst->black[2] = va_arg(args, int); inst->white[0] = va_arg(args, int); inst->white[1] = va_arg(args, int); inst->white[2] = va_arg(args, int); inst->intensity = (uint8_t)(static_cast(va_arg(args, double)) * 2.55f); inst->type = SceneEffect::Tint; return inst; } }; struct RenderEffectTritone : RenderEffect { uint8_t shadow[3]; //rgb uint8_t midtone[3]; //rgb uint8_t highlight[3]; //rgb static RenderEffectTritone* gen(va_list& args) { auto inst = new RenderEffectTritone; inst->shadow[0] = va_arg(args, int); inst->shadow[1] = va_arg(args, int); inst->shadow[2] = va_arg(args, int); inst->midtone[0] = va_arg(args, int); inst->midtone[1] = va_arg(args, int); inst->midtone[2] = va_arg(args, int); inst->highlight[0] = va_arg(args, int); inst->highlight[1] = va_arg(args, int); inst->highlight[2] = va_arg(args, int); inst->type = SceneEffect::Tritone; return inst; } }; class RenderMethod { private: uint32_t refCnt = 0; //reference count Key key; public: uint32_t ref(); uint32_t unref(); virtual ~RenderMethod() {} virtual bool preUpdate() = 0; virtual RenderData prepare(const RenderShape& rshape, RenderData data, const Matrix& transform, Array& clips, uint8_t opacity, RenderUpdateFlag flags, bool clipper) = 0; virtual RenderData prepare(RenderSurface* surface, RenderData data, const Matrix& transform, Array& clips, uint8_t opacity, RenderUpdateFlag flags) = 0; virtual bool postUpdate() = 0; virtual bool preRender() = 0; virtual bool renderShape(RenderData data) = 0; virtual bool renderImage(RenderData data) = 0; virtual bool postRender() = 0; virtual void dispose(RenderData data) = 0; virtual RenderRegion region(RenderData data) = 0; virtual RenderRegion viewport() = 0; virtual bool viewport(const RenderRegion& vp) = 0; virtual bool blend(BlendMethod method) = 0; virtual ColorSpace colorSpace() = 0; virtual const RenderSurface* mainSurface() = 0; virtual bool clear() = 0; virtual bool sync() = 0; virtual RenderCompositor* target(const RenderRegion& region, ColorSpace cs, CompositionFlag flags) = 0; virtual bool beginComposite(RenderCompositor* cmp, MaskMethod method, uint8_t opacity) = 0; virtual bool endComposite(RenderCompositor* cmp) = 0; virtual void prepare(RenderEffect* effect, const Matrix& transform) = 0; virtual bool region(RenderEffect* effect) = 0; virtual bool render(RenderCompositor* cmp, const RenderEffect* effect, bool direct) = 0; virtual void dispose(RenderEffect* effect) = 0; }; static inline bool MASK_REGION_MERGING(MaskMethod method) { switch(method) { case MaskMethod::Alpha: case MaskMethod::InvAlpha: case MaskMethod::Luma: case MaskMethod::InvLuma: case MaskMethod::Subtract: case MaskMethod::Intersect: return false; //these might expand the rendering region case MaskMethod::Add: case MaskMethod::Difference: case MaskMethod::Lighten: case MaskMethod::Darken: return true; default: TVGERR("RENDERER", "Unsupported Masking Method! = %d", (int)method); return false; } } static inline uint8_t CHANNEL_SIZE(ColorSpace cs) { switch(cs) { case ColorSpace::ABGR8888: case ColorSpace::ABGR8888S: case ColorSpace::ARGB8888: case ColorSpace::ARGB8888S: return sizeof(uint32_t); case ColorSpace::Grayscale8: return sizeof(uint8_t); case ColorSpace::Unknown: default: TVGERR("RENDERER", "Unsupported Channel Size! = %d", (int)cs); return 0; } } static inline ColorSpace MASK_TO_COLORSPACE(RenderMethod* renderer, MaskMethod method) { switch(method) { case MaskMethod::Alpha: case MaskMethod::InvAlpha: case MaskMethod::Add: case MaskMethod::Difference: case MaskMethod::Subtract: case MaskMethod::Intersect: case MaskMethod::Lighten: case MaskMethod::Darken: return ColorSpace::Grayscale8; //TODO: Optimize Luma/InvLuma colorspace to Grayscale8 case MaskMethod::Luma: case MaskMethod::InvLuma: return renderer->colorSpace(); default: TVGERR("RENDERER", "Unsupported Masking Size! = %d", (int)method); return ColorSpace::Unknown; } } static inline uint8_t MULTIPLY(uint8_t c, uint8_t a) { return (((c) * (a) + 0xff) >> 8); } } #endif //_TVG_RENDER_H_