/* * Copyright 2014 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkRecords_DEFINED #define SkRecords_DEFINED #include "SkCanvas.h" #include "SkDrawable.h" #include "SkMatrix.h" #include "SkPath.h" #include "SkPicture.h" #include "SkRect.h" #include "SkRRect.h" #include "SkRSXform.h" #include "SkTextBlob.h" namespace SkRecords { // A list of all the types of canvas calls we can record. // Each of these is reified into a struct below. // // (We're using the macro-of-macro trick here to do several different things with the same list.) // // We leave this SK_RECORD_TYPES macro defined for use by code that wants to operate on SkRecords // types polymorphically. (See SkRecord::Record::{visit,mutate} for an example.) // // Order doesn't technically matter here, but the compiler can generally generate better code if // you keep them semantically grouped, especially the Draws. It's also nice to leave NoOp at 0. #define SK_RECORD_TYPES(M) \ M(NoOp) \ M(Restore) \ M(Save) \ M(SaveLayer) \ M(SetMatrix) \ M(ClipPath) \ M(ClipRRect) \ M(ClipRect) \ M(ClipRegion) \ M(DrawBitmap) \ M(DrawBitmapNine) \ M(DrawBitmapRect) \ M(DrawBitmapRectFast) \ M(DrawBitmapRectFixedSize) \ M(DrawDrawable) \ M(DrawImage) \ M(DrawImageRect) \ M(DrawImageNine) \ M(DrawDRRect) \ M(DrawOval) \ M(DrawPaint) \ M(DrawPath) \ M(DrawPatch) \ M(DrawPicture) \ M(DrawPoints) \ M(DrawPosText) \ M(DrawPosTextH) \ M(DrawText) \ M(DrawTextOnPath) \ M(DrawRRect) \ M(DrawRect) \ M(DrawSprite) \ M(DrawTextBlob) \ M(DrawAtlas) \ M(DrawVertices) // Defines SkRecords::Type, an enum of all record types. #define ENUM(T) T##_Type, enum Type { SK_RECORD_TYPES(ENUM) }; #undef ENUM // Macros to make it easier to define a record for a draw call with 0 args, 1 args, 2 args, etc. // These should be clearer when you look at their use below. #define RECORD0(T) \ struct T { \ static const Type kType = T##_Type; \ }; // Instead of requring the exact type A here, we take any type Z which implicitly casts to A. // This lets our wrappers like ImmutableBitmap work seamlessly. #define RECORD1(T, A, a) \ struct T { \ static const Type kType = T##_Type; \ T() {} \ template \ T(const Z& a) : a(a) {} \ A a; \ }; #define RECORD2(T, A, a, B, b) \ struct T { \ static const Type kType = T##_Type; \ T() {} \ template \ T(const Z& a, const Y& b) : a(a), b(b) {} \ A a; B b; \ }; #define RECORD3(T, A, a, B, b, C, c) \ struct T { \ static const Type kType = T##_Type; \ T() {} \ template \ T(const Z& a, const Y& b, const X& c) : a(a), b(b), c(c) {} \ A a; B b; C c; \ }; #define RECORD4(T, A, a, B, b, C, c, D, d) \ struct T { \ static const Type kType = T##_Type; \ T() {} \ template \ T(const Z& a, const Y& b, const X& c, const W& d) : a(a), b(b), c(c), d(d) {} \ A a; B b; C c; D d; \ }; #define RECORD5(T, A, a, B, b, C, c, D, d, E, e) \ struct T { \ static const Type kType = T##_Type; \ T() {} \ template \ T(const Z& a, const Y& b, const X& c, const W& d, const V& e) \ : a(a), b(b), c(c), d(d), e(e) {} \ A a; B b; C c; D d; E e; \ }; #define RECORD8(T, A, a, B, b, C, c, D, d, E, e, F, f, G, g, H, h) \ struct T { \ static const Type kType = T##_Type; \ T() {} \ template \ T(const Z& a, const Y& b, const X& c, const W& d, \ const V& e, const U& f, const S& g, const R& h) \ : a(a), b(b), c(c), d(d), e(e), f(f), g(g), h(h) {} \ A a; B b; C c; D d; E e; F f; G g; H h; \ }; #define ACT_AS_PTR(ptr) \ operator T*() const { return ptr; } \ T* operator->() const { return ptr; } template class RefBox : SkNoncopyable { public: RefBox() {} RefBox(T* obj) : fObj(SkSafeRef(obj)) {} ~RefBox() { SkSafeUnref(fObj); } ACT_AS_PTR(fObj); private: T* fObj; }; // An Optional doesn't own the pointer's memory, but may need to destroy non-POD data. template class Optional : SkNoncopyable { public: Optional() : fPtr(nullptr) {} Optional(T* ptr) : fPtr(ptr) {} ~Optional() { if (fPtr) fPtr->~T(); } ACT_AS_PTR(fPtr); private: T* fPtr; }; // Like Optional, but ptr must not be NULL. template class Adopted : SkNoncopyable { public: Adopted(T* ptr) : fPtr(ptr) { SkASSERT(fPtr); } Adopted(Adopted* source) { // Transfer ownership from source to this. fPtr = source->fPtr; source->fPtr = NULL; } ~Adopted() { if (fPtr) fPtr->~T(); } ACT_AS_PTR(fPtr); private: T* fPtr; }; // PODArray doesn't own the pointer's memory, and we assume the data is POD. template class PODArray { public: PODArray() {} PODArray(T* ptr) : fPtr(ptr) {} // Default copy and assign. ACT_AS_PTR(fPtr); private: T* fPtr; }; #undef ACT_AS_PTR // Like SkBitmap, but deep copies pixels if they're not immutable. // Using this, we guarantee the immutability of all bitmaps we record. class ImmutableBitmap : SkNoncopyable { public: ImmutableBitmap() {} explicit ImmutableBitmap(const SkBitmap& bitmap); int width() const { return fBitmap.width(); } int height() const { return fBitmap.height(); } // While the pixels are immutable, SkBitmap itself is not thread-safe, so return a copy. SkBitmap shallowCopy() const { return fBitmap; } private: SkBitmap fBitmap; }; // SkPath::getBounds() isn't thread safe unless we precache the bounds in a singlethreaded context. // SkPath::cheapComputeDirection() is similar. // Recording is a convenient time to cache these, or we can delay it to between record and playback. struct PreCachedPath : public SkPath { PreCachedPath() {} explicit PreCachedPath(const SkPath& path); }; // Like SkPath::getBounds(), SkMatrix::getType() isn't thread safe unless we precache it. // This may not cover all SkMatrices used by the picture (e.g. some could be hiding in a shader). struct TypedMatrix : public SkMatrix { TypedMatrix() {} explicit TypedMatrix(const SkMatrix& matrix); }; RECORD0(NoOp); RECORD2(Restore, SkIRect, devBounds, TypedMatrix, matrix); RECORD0(Save); RECORD3(SaveLayer, Optional, bounds, Optional, paint, SkCanvas::SaveFlags, flags); RECORD1(SetMatrix, TypedMatrix, matrix); struct RegionOpAndAA { RegionOpAndAA() {} RegionOpAndAA(SkRegion::Op op, bool aa) : op(op), aa(aa) {} SkRegion::Op op : 31; // This really only needs to be 3, but there's no win today to do so. unsigned aa : 1; // MSVC won't pack an enum with an bool, so we call this an unsigned. }; SK_COMPILE_ASSERT(sizeof(RegionOpAndAA) == 4, RegionOpAndAASize); RECORD3(ClipPath, SkIRect, devBounds, PreCachedPath, path, RegionOpAndAA, opAA); RECORD3(ClipRRect, SkIRect, devBounds, SkRRect, rrect, RegionOpAndAA, opAA); RECORD3(ClipRect, SkIRect, devBounds, SkRect, rect, RegionOpAndAA, opAA); RECORD3(ClipRegion, SkIRect, devBounds, SkRegion, region, SkRegion::Op, op); // While not strictly required, if you have an SkPaint, it's fastest to put it first. RECORD4(DrawBitmap, Optional, paint, ImmutableBitmap, bitmap, SkScalar, left, SkScalar, top); RECORD4(DrawBitmapNine, Optional, paint, ImmutableBitmap, bitmap, SkIRect, center, SkRect, dst); RECORD4(DrawBitmapRect, Optional, paint, ImmutableBitmap, bitmap, Optional, src, SkRect, dst); RECORD4(DrawBitmapRectFast, Optional, paint, ImmutableBitmap, bitmap, Optional, src, SkRect, dst); RECORD5(DrawBitmapRectFixedSize, SkPaint, paint, ImmutableBitmap, bitmap, SkRect, src, SkRect, dst, SkCanvas::SrcRectConstraint, constraint); RECORD3(DrawDRRect, SkPaint, paint, SkRRect, outer, SkRRect, inner); RECORD3(DrawDrawable, Optional, matrix, SkRect, worstCaseBounds, int32_t, index); RECORD4(DrawImage, Optional, paint, RefBox, image, SkScalar, left, SkScalar, top); RECORD5(DrawImageRect, Optional, paint, RefBox, image, Optional, src, SkRect, dst, SkCanvas::SrcRectConstraint, constraint); RECORD4(DrawImageNine, Optional, paint, RefBox, image, SkIRect, center, SkRect, dst); RECORD2(DrawOval, SkPaint, paint, SkRect, oval); RECORD1(DrawPaint, SkPaint, paint); RECORD2(DrawPath, SkPaint, paint, PreCachedPath, path); RECORD3(DrawPicture, Optional, paint, RefBox, picture, TypedMatrix, matrix); RECORD4(DrawPoints, SkPaint, paint, SkCanvas::PointMode, mode, unsigned, count, SkPoint*, pts); RECORD4(DrawPosText, SkPaint, paint, PODArray, text, size_t, byteLength, PODArray, pos); RECORD5(DrawPosTextH, SkPaint, paint, PODArray, text, unsigned, byteLength, SkScalar, y, PODArray, xpos); RECORD2(DrawRRect, SkPaint, paint, SkRRect, rrect); RECORD2(DrawRect, SkPaint, paint, SkRect, rect); RECORD4(DrawSprite, Optional, paint, ImmutableBitmap, bitmap, int, left, int, top); RECORD5(DrawText, SkPaint, paint, PODArray, text, size_t, byteLength, SkScalar, x, SkScalar, y); RECORD4(DrawTextBlob, SkPaint, paint, RefBox, blob, SkScalar, x, SkScalar, y); RECORD5(DrawTextOnPath, SkPaint, paint, PODArray, text, size_t, byteLength, PreCachedPath, path, TypedMatrix, matrix); RECORD5(DrawPatch, SkPaint, paint, PODArray, cubics, PODArray, colors, PODArray, texCoords, RefBox, xmode); RECORD8(DrawAtlas, Optional, paint, RefBox, atlas, PODArray, xforms, PODArray, texs, PODArray, colors, int, count, SkXfermode::Mode, mode, Optional, cull); // This guy is so ugly we just write it manually. struct DrawVertices { static const Type kType = DrawVertices_Type; DrawVertices(const SkPaint& paint, SkCanvas::VertexMode vmode, int vertexCount, SkPoint* vertices, SkPoint* texs, SkColor* colors, SkXfermode* xmode, uint16_t* indices, int indexCount) : paint(paint) , vmode(vmode) , vertexCount(vertexCount) , vertices(vertices) , texs(texs) , colors(colors) , xmode(SkSafeRef(xmode)) , indices(indices) , indexCount(indexCount) {} SkPaint paint; SkCanvas::VertexMode vmode; int vertexCount; PODArray vertices; PODArray texs; PODArray colors; SkAutoTUnref xmode; PODArray indices; int indexCount; }; #undef RECORD0 #undef RECORD1 #undef RECORD2 #undef RECORD3 #undef RECORD4 #undef RECORD5 #undef RECORD8 } // namespace SkRecords #endif//SkRecords_DEFINED