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27be14f2ca
skia2/gm/beziereffects.cpp
Brian Salomon 9fa47cc1c6 Make class members that are static constexpr also be inline. 
This is in prep for compiling with -std=c++14 and -Wno-c++17-extensions
when building with clang. Chrome has encountered problems with
third_party headers that are included both in Skia and other Chrome
sources that produce different code based on whether preprocessor macros
indicate a C++14 or C++17 compilation.

In C++17 they are already inline implicitly. When compiling with C++14
we can get linker errors unless they're explicitly inlined or defined
outside the class. With -Wno-c++17-extensions we can explicitly inline
them in the C++14 build because the warning that would be generated
about using a C++17 language extension is suppressed.

We cannot do this in public headers because we support compiling with
C++14 without suppressing the C++17 language extension warnings.

Bug: chromium:1257145
Change-Id: Iaf5f4c62a398f98dd4ca9b7dfb86f2d5cab21d66
Reviewed-on: https://skia-review.googlesource.com/c/skia/+/457498
Reviewed-by: Ben Wagner <bungeman@google.com>
Reviewed-by: Herb Derby <herb@google.com>
Commit-Queue: Brian Salomon <bsalomon@google.com>
2021-10-11 16:22:59 +00:00

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/*
* Copyright 2013 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
// This test only works with the GPU backend.
#include "gm/gm.h"
#include "include/core/SkBlendMode.h"
#include "include/core/SkCanvas.h"
#include "include/core/SkMatrix.h"
#include "include/core/SkPaint.h"
#include "include/core/SkPoint.h"
#include "include/core/SkPoint3.h"
#include "include/core/SkRect.h"
#include "include/core/SkRefCnt.h"
#include "include/core/SkScalar.h"
#include "include/core/SkSize.h"
#include "include/core/SkString.h"
#include "include/core/SkTypes.h"
#include "include/gpu/GrRecordingContext.h"
#include "include/private/GrTypesPriv.h"
#include "include/private/SkColorData.h"
#include "include/utils/SkRandom.h"
#include "src/core/SkCanvasPriv.h"
#include "src/core/SkGeometry.h"
#include "src/core/SkPointPriv.h"
#include "src/gpu/GrCaps.h"
#include "src/gpu/GrDirectContextPriv.h"
#include "src/gpu/GrGeometryProcessor.h"
#include "src/gpu/GrMemoryPool.h"
#include "src/gpu/GrOpFlushState.h"
#include "src/gpu/GrOpsRenderPass.h"
#include "src/gpu/GrPaint.h"
#include "src/gpu/GrProcessorAnalysis.h"
#include "src/gpu/GrProcessorSet.h"
#include "src/gpu/GrProgramInfo.h"
#include "src/gpu/GrRecordingContextPriv.h"
#include "src/gpu/GrUserStencilSettings.h"
#include "src/gpu/effects/GrBezierEffect.h"
#include "src/gpu/effects/GrPorterDuffXferProcessor.h"
#include "src/gpu/geometry/GrPathUtils.h"
#include "src/gpu/ops/GrDrawOp.h"
#include "src/gpu/ops/GrMeshDrawOp.h"
#include "src/gpu/ops/GrOp.h"
#include "src/gpu/ops/GrSimpleMeshDrawOpHelper.h"
#include "src/gpu/v1/SurfaceDrawContext_v1.h"
#include <memory>
#include <utility>
class GrAppliedClip;
namespace skiagm {
class BezierTestOp : public GrMeshDrawOp {
public:
FixedFunctionFlags fixedFunctionFlags() const override { return FixedFunctionFlags::kNone; }
GrProcessorSet::Analysis finalize(
const GrCaps& caps, const GrAppliedClip* clip, GrClampType clampType) override {
return fProcessorSet.finalize(
fColor, GrProcessorAnalysisCoverage::kSingleChannel, clip,
&GrUserStencilSettings::kUnused, caps, clampType, &fColor);
}
void visitProxies(const GrVisitProxyFunc& func) const override {
if (fProgramInfo) {
fProgramInfo->visitFPProxies(func);
} else {
fProcessorSet.visitProxies(func);
}
}
protected:
BezierTestOp(const SkRect& rect, const SkPMColor4f& color, int32_t classID)
: INHERITED(classID)
, fRect(rect)
, fColor(color)
, fProcessorSet(SkBlendMode::kSrc) {
this->setBounds(rect, HasAABloat::kYes, IsHairline::kNo);
}
virtual GrGeometryProcessor* makeGP(const GrCaps& caps, SkArenaAlloc* arena) = 0;
GrProgramInfo* programInfo() override { return fProgramInfo; }
void onCreateProgramInfo(const GrCaps* caps,
SkArenaAlloc* arena,
const GrSurfaceProxyView& writeView,
bool usesMSAASurface,
GrAppliedClip&& appliedClip,
const GrDstProxyView& dstProxyView,
GrXferBarrierFlags renderPassXferBarriers,
GrLoadOp colorLoadOp) override {
auto gp = this->makeGP(*caps, arena);
if (!gp) {
return;
}
GrPipeline::InputFlags flags = GrPipeline::InputFlags::kNone;
fProgramInfo = GrSimpleMeshDrawOpHelper::CreateProgramInfo(caps, arena, writeView,
usesMSAASurface,
std::move(appliedClip),
dstProxyView, gp,
std::move(fProcessorSet),
GrPrimitiveType::kTriangles,
renderPassXferBarriers,
colorLoadOp,
flags);
}
void onExecute(GrOpFlushState* flushState, const SkRect& chainBounds) final {
if (!fProgramInfo) {
this->createProgramInfo(flushState);
}
if (!fProgramInfo) {
return;
}
flushState->bindPipelineAndScissorClip(*fProgramInfo, chainBounds);
flushState->bindTextures(fProgramInfo->geomProc(), nullptr, fProgramInfo->pipeline());
flushState->drawMesh(*fMesh);
}
const SkRect& rect() const { return fRect; }
const SkPMColor4f& color() const { return fColor; }
protected:
GrSimpleMesh* fMesh = nullptr; // filled in by the derived classes
private:
SkRect fRect;
SkPMColor4f fColor;
GrProcessorSet fProcessorSet;
GrProgramInfo* fProgramInfo = nullptr;
using INHERITED = GrMeshDrawOp;
};
/**
* This GM directly exercises effects that draw Bezier curves in the GPU backend.
*/
class BezierConicTestOp : public BezierTestOp {
public:
DEFINE_OP_CLASS_ID
const char* name() const final { return "BezierConicTestOp"; }
static GrOp::Owner Make(GrRecordingContext* context,
const SkRect& rect,
const SkPMColor4f& color,
const SkMatrix& klm) {
return GrOp::Make<BezierConicTestOp>(context, rect, color, klm);
}
private:
friend class ::GrOp; // for ctor
BezierConicTestOp(const SkRect& rect, const SkPMColor4f& color, const SkMatrix& klm)
: INHERITED(rect, color, ClassID())
, fKLM(klm) {}
struct Vertex {
SkPoint fPosition;
float fKLM[4]; // The last value is ignored. The effect expects a vec4f.
};
GrGeometryProcessor* makeGP(const GrCaps& caps, SkArenaAlloc* arena) final {
auto tmp = GrConicEffect::Make(arena, this->color(), SkMatrix::I(), caps, SkMatrix::I(),
false);
if (!tmp) {
return nullptr;
}
SkASSERT(tmp->vertexStride() == sizeof(Vertex));
return tmp;
}
void onPrepareDraws(GrMeshDrawTarget* target) final {
QuadHelper helper(target, sizeof(Vertex), 1);
Vertex* verts = reinterpret_cast<Vertex*>(helper.vertices());
if (!verts) {
return;
}
SkRect rect = this->rect();
SkPointPriv::SetRectTriStrip(&verts[0].fPosition, rect, sizeof(Vertex));
for (int v = 0; v < 4; ++v) {
SkPoint3 pt3 = {verts[v].fPosition.x(), verts[v].fPosition.y(), 1.f};
fKLM.mapHomogeneousPoints((SkPoint3* ) verts[v].fKLM, &pt3, 1);
}
fMesh = helper.mesh();
}
SkMatrix fKLM;
inline static constexpr int kVertsPerCubic = 4;
inline static constexpr int kIndicesPerCubic = 6;
using INHERITED = BezierTestOp;
};
/**
* This GM directly exercises effects that draw Bezier curves in the GPU backend.
*/
class BezierConicEffects : public GpuGM {
public:
BezierConicEffects() {
this->setBGColor(0xFFFFFFFF);
}
protected:
static const int kNumConics = 10;
static const int kCellWidth = 128;
static const int kCellHeight = 128;
SkString onShortName() override {
return SkString("bezier_conic_effects");
}
SkISize onISize() override {
return SkISize::Make(kCellWidth, kNumConics*kCellHeight);
}
DrawResult onDraw(GrRecordingContext* rContext, SkCanvas* canvas, SkString* errorMsg) override {
auto sdc = SkCanvasPriv::TopDeviceSurfaceDrawContext(canvas);
if (!sdc) {
*errorMsg = kErrorMsg_DrawSkippedGpuOnly;
return DrawResult::kSkip;
}
const SkScalar w = kCellWidth, h = kCellHeight;
const SkPMColor4f kOpaqueBlack = SkPMColor4f::FromBytes_RGBA(0xff000000);
const SkPoint baseControlPts[kNumConics][3] = {
{ { 0.31f * w, 0.01f * h}, { 0.48f * w, 0.74f * h }, { 0.19f * w, 0.33f * h } },
{ { 0.00f * w, 0.07f * h}, { 0.30f * w, 0.70f * h }, { 0.47f * w, 0.37f * h } },
{ { 0.15f * w, 0.23f * h}, { 0.49f * w, 0.87f * h }, { 0.85f * w, 0.66f * h } },
{ { 0.09f * w, 0.15f * h}, { 0.42f * w, 0.33f * h }, { 0.17f * w, 0.38f * h } },
{ { 0.98f * w, 0.54f * h}, { 0.83f * w, 0.91f * h }, { 0.62f * w, 0.40f * h } },
{ { 0.96f * w, 0.65f * h}, { 0.03f * w, 0.79f * h }, { 0.24f * w, 0.56f * h } },
{ { 0.57f * w, 0.12f * h}, { 0.33f * w, 0.67f * h }, { 0.59f * w, 0.33f * h } },
{ { 0.12f * w, 0.72f * h}, { 0.69f * w, 0.85f * h }, { 0.46f * w, 0.32f * h } },
{ { 0.27f * w, 0.49f * h}, { 0.41f * w, 0.02f * h }, { 0.11f * w, 0.42f * h } },
{ { 0.40f * w, 0.13f * h}, { 0.83f * w, 0.30f * h }, { 0.31f * w, 0.68f * h } },
};
const SkScalar weights[kNumConics] = { 0.62f, 0.01f, 0.95f, 1.48f, 0.37f,
0.66f, 0.15f, 0.14f, 0.61f, 1.4f };
SkPaint ctrlPtPaint;
ctrlPtPaint.setColor(SK_ColorRED);
SkPaint choppedPtPaint;
choppedPtPaint.setColor(~ctrlPtPaint.getColor() | 0xFF000000);
SkPaint polyPaint;
polyPaint.setColor(0xffA0A0A0);
polyPaint.setStrokeWidth(0);
polyPaint.setStyle(SkPaint::kStroke_Style);
SkPaint boundsPaint;
boundsPaint.setColor(0xff808080);
boundsPaint.setStrokeWidth(0);
boundsPaint.setStyle(SkPaint::kStroke_Style);
for (int row = 0; row < kNumConics; ++row) {
SkScalar x = 0;
SkScalar y = row * h;
SkPoint controlPts[] = {
{x + baseControlPts[row][0].fX, y + baseControlPts[row][0].fY},
{x + baseControlPts[row][1].fX, y + baseControlPts[row][1].fY},
{x + baseControlPts[row][2].fX, y + baseControlPts[row][2].fY}
};
for (int i = 0; i < 3; ++i) {
canvas->drawCircle(controlPts[i], 6.f, ctrlPtPaint);
}
canvas->drawPoints(SkCanvas::kPolygon_PointMode, 3, controlPts, polyPaint);
SkConic dst[4];
SkMatrix klm;
int cnt = ChopConic(controlPts, dst, weights[row]);
GrPathUtils::getConicKLM(controlPts, weights[row], &klm);
for (int c = 0; c < cnt; ++c) {
SkPoint* pts = dst[c].fPts;
for (int i = 0; i < 3; ++i) {
canvas->drawCircle(pts[i], 3.f, choppedPtPaint);
}
SkRect bounds;
bounds.setBounds(pts, 3);
canvas->drawRect(bounds, boundsPaint);
GrOp::Owner op = BezierConicTestOp::Make(rContext, bounds,
kOpaqueBlack, klm);
sdc->addDrawOp(std::move(op));
}
}
return DrawResult::kOk;
}
private:
// Uses the max curvature function for quads to estimate
// where to chop the conic. If the max curvature is not
// found along the curve segment it will return 1 and
// dst[0] is the original conic. If it returns 2 the dst[0]
// and dst[1] are the two new conics.
static int SplitConic(const SkPoint src[3], SkConic dst[2], const SkScalar weight) {
SkScalar t = SkFindQuadMaxCurvature(src);
if (t == 0 || t == 1) {
if (dst) {
dst[0].set(src, weight);
}
return 1;
} else {
if (dst) {
SkConic conic;
conic.set(src, weight);
if (!conic.chopAt(t, dst)) {
dst[0].set(src, weight);
return 1;
}
}
return 2;
}
}
// Calls SplitConic on the entire conic and then once more on each subsection.
// Most cases will result in either 1 conic (chop point is not within t range)
// or 3 points (split once and then one subsection is split again).
static int ChopConic(const SkPoint src[3], SkConic dst[4], const SkScalar weight) {
SkConic dstTemp[2];
int conicCnt = SplitConic(src, dstTemp, weight);
if (2 == conicCnt) {
int conicCnt2 = SplitConic(dstTemp[0].fPts, dst, dstTemp[0].fW);
conicCnt = conicCnt2 + SplitConic(dstTemp[1].fPts, &dst[conicCnt2], dstTemp[1].fW);
} else {
dst[0] = dstTemp[0];
}
return conicCnt;
}
using INHERITED = GM;
};
//////////////////////////////////////////////////////////////////////////////
class BezierQuadTestOp : public BezierTestOp {
public:
DEFINE_OP_CLASS_ID
const char* name() const override { return "BezierQuadTestOp"; }
static GrOp::Owner Make(GrRecordingContext* context,
const SkRect& rect,
const SkPMColor4f& color,
const GrPathUtils::QuadUVMatrix& devToUV) {
return GrOp::Make<BezierQuadTestOp>(context, rect, color, devToUV);
}
private:
friend class ::GrOp; // for ctor
BezierQuadTestOp(const SkRect& rect, const SkPMColor4f& color,
const GrPathUtils::QuadUVMatrix& devToUV)
: INHERITED(rect, color, ClassID())
, fDevToUV(devToUV) {}
struct Vertex {
SkPoint fPosition;
float fKLM[4]; // The last value is ignored. The effect expects a vec4f.
};
GrGeometryProcessor* makeGP(const GrCaps& caps, SkArenaAlloc* arena) final {
auto tmp = GrQuadEffect::Make(arena, this->color(), SkMatrix::I(), caps, SkMatrix::I(),
false);
if (!tmp) {
return nullptr;
}
SkASSERT(tmp->vertexStride() == sizeof(Vertex));
return tmp;
}
void onPrepareDraws(GrMeshDrawTarget* target) final {
QuadHelper helper(target, sizeof(Vertex), 1);
Vertex* verts = reinterpret_cast<Vertex*>(helper.vertices());
if (!verts) {
return;
}
SkRect rect = this->rect();
SkPointPriv::SetRectTriStrip(&verts[0].fPosition, rect, sizeof(Vertex));
fDevToUV.apply(verts, 4, sizeof(Vertex), sizeof(SkPoint));
fMesh = helper.mesh();
}
GrPathUtils::QuadUVMatrix fDevToUV;
inline static constexpr int kVertsPerCubic = 4;
inline static constexpr int kIndicesPerCubic = 6;
using INHERITED = BezierTestOp;
};
/**
* This GM directly exercises effects that draw Bezier quad curves in the GPU backend.
*/
class BezierQuadEffects : public GpuGM {
public:
BezierQuadEffects() {
this->setBGColor(0xFFFFFFFF);
}
protected:
static const int kNumQuads = 5;
static const int kCellWidth = 128;
static const int kCellHeight = 128;
SkString onShortName() override {
return SkString("bezier_quad_effects");
}
SkISize onISize() override {
return SkISize::Make(kCellWidth, kNumQuads*kCellHeight);
}
DrawResult onDraw(GrRecordingContext* rContext, SkCanvas* canvas, SkString* errorMsg) override {
auto sdc = SkCanvasPriv::TopDeviceSurfaceDrawContext(canvas);
if (!sdc) {
*errorMsg = kErrorMsg_DrawSkippedGpuOnly;
return DrawResult::kSkip;
}
const SkScalar w = kCellWidth, h = kCellHeight;
const SkPMColor4f kOpaqueBlack = SkPMColor4f::FromBytes_RGBA(0xff000000);
const SkPoint baseControlPts[kNumQuads][3] = {
{ { 0.31f * w, 0.01f * h}, { 0.48f * w, 0.74f * h }, { 0.19f * w, 0.33f * h } },
{ { 0.00f * w, 0.07f * h}, { 0.30f * w, 0.70f * h }, { 0.47f * w, 0.37f * h } },
{ { 0.15f * w, 0.23f * h}, { 0.49f * w, 0.87f * h }, { 0.85f * w, 0.66f * h } },
{ { 0.09f * w, 0.15f * h}, { 0.42f * w, 0.33f * h }, { 0.17f * w, 0.38f * h } },
{ { 0.98f * w, 0.54f * h}, { 0.83f * w, 0.91f * h }, { 0.62f * w, 0.40f * h } },
};
SkPaint ctrlPtPaint;
ctrlPtPaint.setColor(SK_ColorRED);
SkPaint choppedPtPaint;
choppedPtPaint.setColor(~ctrlPtPaint.getColor() | 0xFF000000);
SkPaint polyPaint;
polyPaint.setColor(0xffA0A0A0);
polyPaint.setStrokeWidth(0);
polyPaint.setStyle(SkPaint::kStroke_Style);
SkPaint boundsPaint;
boundsPaint.setColor(0xff808080);
boundsPaint.setStrokeWidth(0);
boundsPaint.setStyle(SkPaint::kStroke_Style);
for (int row = 0; row < kNumQuads; ++row) {
SkScalar x = 0;
SkScalar y = row * h;
SkPoint controlPts[] = {
{x + baseControlPts[row][0].fX, y + baseControlPts[row][0].fY},
{x + baseControlPts[row][1].fX, y + baseControlPts[row][1].fY},
{x + baseControlPts[row][2].fX, y + baseControlPts[row][2].fY}
};
for (int i = 0; i < 3; ++i) {
canvas->drawCircle(controlPts[i], 6.f, ctrlPtPaint);
}
canvas->drawPoints(SkCanvas::kPolygon_PointMode, 3, controlPts, polyPaint);
SkPoint chopped[5];
int cnt = SkChopQuadAtMaxCurvature(controlPts, chopped);
for (int c = 0; c < cnt; ++c) {
SkPoint* pts = chopped + 2 * c;
for (int i = 0; i < 3; ++i) {
canvas->drawCircle(pts[i], 3.f, choppedPtPaint);
}
SkRect bounds;
bounds.setBounds(pts, 3);
canvas->drawRect(bounds, boundsPaint);
GrPathUtils::QuadUVMatrix DevToUV(pts);
GrOp::Owner op = BezierQuadTestOp::Make(rContext, bounds,
kOpaqueBlack, DevToUV);
sdc->addDrawOp(std::move(op));
}
}
return DrawResult::kOk;
}
private:
using INHERITED = GM;
};
DEF_GM(return new BezierConicEffects;)
DEF_GM(return new BezierQuadEffects;)
} // namespace skiagm
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