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path: root/src/gpu/GrDefaultPathRenderer.cpp
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/*
 * Copyright 2011 Google Inc.
 *
 * Use of this source code is governed by a BSD-style license that can be
 * found in the LICENSE file.
 */

#include "GrDefaultPathRenderer.h"

#include "GrContext.h"
#include "GrDrawState.h"
#include "GrPathUtils.h"
#include "SkString.h"
#include "SkTrace.h"


GrDefaultPathRenderer::GrDefaultPathRenderer(bool separateStencilSupport,
                                             bool stencilWrapOpsSupport)
    : fSeparateStencil(separateStencilSupport)
    , fStencilWrapOps(stencilWrapOpsSupport) {
}


////////////////////////////////////////////////////////////////////////////////
// Stencil rules for paths

////// Even/Odd

GR_STATIC_CONST_SAME_STENCIL(gEOStencilPass,
    kInvert_StencilOp,
    kKeep_StencilOp,
    kAlwaysIfInClip_StencilFunc,
    0xffff,
    0xffff,
    0xffff);

// ok not to check clip b/c stencil pass only wrote inside clip
GR_STATIC_CONST_SAME_STENCIL(gEOColorPass,
    kZero_StencilOp,
    kZero_StencilOp,
    kNotEqual_StencilFunc,
    0xffff,
    0x0000,
    0xffff);

// have to check clip b/c outside clip will always be zero.
GR_STATIC_CONST_SAME_STENCIL(gInvEOColorPass,
    kZero_StencilOp,
    kZero_StencilOp,
    kEqualIfInClip_StencilFunc,
    0xffff,
    0x0000,
    0xffff);

////// Winding

// when we have separate stencil we increment front faces / decrement back faces
// when we don't have wrap incr and decr we use the stencil test to simulate
// them.

GR_STATIC_CONST_STENCIL(gWindStencilSeparateWithWrap,
    kIncWrap_StencilOp,             kDecWrap_StencilOp,
    kKeep_StencilOp,                kKeep_StencilOp,
    kAlwaysIfInClip_StencilFunc,    kAlwaysIfInClip_StencilFunc,
    0xffff,                         0xffff,
    0xffff,                         0xffff,
    0xffff,                         0xffff);

// if inc'ing the max value, invert to make 0
// if dec'ing zero invert to make all ones.
// we can't avoid touching the stencil on both passing and
// failing, so we can't resctrict ourselves to the clip.
GR_STATIC_CONST_STENCIL(gWindStencilSeparateNoWrap,
    kInvert_StencilOp,              kInvert_StencilOp,
    kIncClamp_StencilOp,            kDecClamp_StencilOp,
    kEqual_StencilFunc,             kEqual_StencilFunc,
    0xffff,                         0xffff,
    0xffff,                         0x0000,
    0xffff,                         0xffff);

// When there are no separate faces we do two passes to setup the winding rule
// stencil. First we draw the front faces and inc, then we draw the back faces
// and dec. These are same as the above two split into the incrementing and
// decrementing passes.
GR_STATIC_CONST_SAME_STENCIL(gWindSingleStencilWithWrapInc,
    kIncWrap_StencilOp,
    kKeep_StencilOp,
    kAlwaysIfInClip_StencilFunc,
    0xffff,
    0xffff,
    0xffff);

GR_STATIC_CONST_SAME_STENCIL(gWindSingleStencilWithWrapDec,
    kDecWrap_StencilOp,
    kKeep_StencilOp,
    kAlwaysIfInClip_StencilFunc,
    0xffff,
    0xffff,
    0xffff);

GR_STATIC_CONST_SAME_STENCIL(gWindSingleStencilNoWrapInc,
    kInvert_StencilOp,
    kIncClamp_StencilOp,
    kEqual_StencilFunc,
    0xffff,
    0xffff,
    0xffff);

GR_STATIC_CONST_SAME_STENCIL(gWindSingleStencilNoWrapDec,
    kInvert_StencilOp,
    kDecClamp_StencilOp,
    kEqual_StencilFunc,
    0xffff,
    0x0000,
    0xffff);

// Color passes are the same whether we use the two-sided stencil or two passes

GR_STATIC_CONST_SAME_STENCIL(gWindColorPass,
    kZero_StencilOp,
    kZero_StencilOp,
    kNonZeroIfInClip_StencilFunc,
    0xffff,
    0x0000,
    0xffff);

GR_STATIC_CONST_SAME_STENCIL(gInvWindColorPass,
    kZero_StencilOp,
    kZero_StencilOp,
    kEqualIfInClip_StencilFunc,
    0xffff,
    0x0000,
    0xffff);

////// Normal render to stencil

// Sometimes the default path renderer can draw a path directly to the stencil
// buffer without having to first resolve the interior / exterior.
GR_STATIC_CONST_SAME_STENCIL(gDirectToStencil,
    kZero_StencilOp,
    kIncClamp_StencilOp,
    kAlwaysIfInClip_StencilFunc,
    0xffff,
    0x0000,
    0xffff);

////////////////////////////////////////////////////////////////////////////////
// Helpers for drawPath

#define STENCIL_OFF     0   // Always disable stencil (even when needed)

static inline bool single_pass_path(const SkPath& path, GrPathFill fill) {
#if STENCIL_OFF
    return true;
#else
    if (kEvenOdd_PathFill == fill || kWinding_PathFill == fill) {
        return path.isConvex();
    }
    return false;
#endif
}

bool GrDefaultPathRenderer::requiresStencilPass(const SkPath& path,
                                                GrPathFill fill,
                                                const GrDrawTarget* target) const {
    return !single_pass_path(path, fill);
}

static inline void append_countour_edge_indices(GrPathFill fillType,
                                                uint16_t fanCenterIdx,
                                                uint16_t edgeV0Idx,
                                                uint16_t** indices) {
    // when drawing lines we're appending line segments along
    // the contour. When applying the other fill rules we're
    // drawing triangle fans around fanCenterIdx.
    if (kHairLine_PathFill != fillType) {
        *((*indices)++) = fanCenterIdx;
    }
    *((*indices)++) = edgeV0Idx;
    *((*indices)++) = edgeV0Idx + 1;
}

bool GrDefaultPathRenderer::createGeom(const SkPath& path,
                                       GrPathFill fill,
                                       const GrVec* translate,
                                       GrScalar srcSpaceTol,
                                       GrDrawTarget* target,
                                       GrDrawState::StageMask stageMask,
                                       GrPrimitiveType* primType,
                                       int* vertexCnt,
                                       int* indexCnt,
                                       GrDrawTarget::AutoReleaseGeometry* arg) {
    {
    SK_TRACE_EVENT0("GrDefaultPathRenderer::createGeom");

    GrScalar srcSpaceTolSqd = GrMul(srcSpaceTol, srcSpaceTol);
    int contourCnt;
    int maxPts = GrPathUtils::worstCasePointCount(path, &contourCnt,
                                                  srcSpaceTol);

    if (maxPts <= 0) {
        return false;
    }
    if (maxPts > ((int)SK_MaxU16 + 1)) {
        GrPrintf("Path not rendered, too many verts (%d)\n", maxPts);
        return false;
    }

    GrVertexLayout layout = 0;
    for (int s = 0; s < GrDrawState::kNumStages; ++s) {
        if ((1 << s) & stageMask) {
            layout |= GrDrawTarget::StagePosAsTexCoordVertexLayoutBit(s);
        }
    }

    bool indexed = contourCnt > 1;

    int maxIdxs = 0;
    if (kHairLine_PathFill == fill) {
        if (indexed) {
            maxIdxs = 2 * maxPts;
            *primType = kLines_PrimitiveType;
        } else {
            *primType = kLineStrip_PrimitiveType;
        }
    } else {
        if (indexed) {
            maxIdxs = 3 * maxPts;
            *primType = kTriangles_PrimitiveType;
        } else {
            *primType = kTriangleFan_PrimitiveType;
        }
    }


    if (!arg->set(target, layout, maxPts, maxIdxs)) {
        return false;
    }

    uint16_t* idxBase = reinterpret_cast<uint16_t*>(arg->indices());;
    uint16_t* idx = idxBase;
    uint16_t subpathIdxStart = 0;

    GrPoint* base = reinterpret_cast<GrPoint*>(arg->vertices());
    GrAssert(NULL != base);
    GrPoint* vert = base;

    GrPoint pts[4];

    bool first = true;
    int subpath = 0;

    SkPath::Iter iter(path, false);

    for (;;) {
        GrPathCmd cmd = (GrPathCmd)iter.next(pts);
        switch (cmd) {
            case kMove_PathCmd:
                if (!first) {
                    uint16_t currIdx = (uint16_t) (vert - base);
                    subpathIdxStart = currIdx;
                    ++subpath;
                }
                *vert = pts[0];
                vert++;
                break;
            case kLine_PathCmd:
                if (indexed) {
                    uint16_t prevIdx = (uint16_t)(vert - base) - 1;
                    append_countour_edge_indices(fill, subpathIdxStart,
                                                 prevIdx, &idx);
                }
                *(vert++) = pts[1];
                break;
            case kQuadratic_PathCmd: {
                // first pt of quad is the pt we ended on in previous step
                uint16_t firstQPtIdx = (uint16_t)(vert - base) - 1;
                uint16_t numPts =  (uint16_t) 
                    GrPathUtils::generateQuadraticPoints(
                            pts[0], pts[1], pts[2],
                            srcSpaceTolSqd, &vert,
                            GrPathUtils::quadraticPointCount(pts, srcSpaceTol));
                if (indexed) {
                    for (uint16_t i = 0; i < numPts; ++i) {
                        append_countour_edge_indices(fill, subpathIdxStart,
                                                     firstQPtIdx + i, &idx);
                    }
                }
                break;
            }
            case kCubic_PathCmd: {
                // first pt of cubic is the pt we ended on in previous step
                uint16_t firstCPtIdx = (uint16_t)(vert - base) - 1;
                uint16_t numPts = (uint16_t) GrPathUtils::generateCubicPoints(
                                pts[0], pts[1], pts[2], pts[3],
                                srcSpaceTolSqd, &vert,
                                GrPathUtils::cubicPointCount(pts, srcSpaceTol));
                if (indexed) {
                    for (uint16_t i = 0; i < numPts; ++i) {
                        append_countour_edge_indices(fill, subpathIdxStart,
                                                     firstCPtIdx + i, &idx);
                    }
                }
                break;
            }
            case kClose_PathCmd:
                break;
            case kEnd_PathCmd:
                uint16_t currIdx = (uint16_t) (vert - base);
                goto FINISHED;
        }
        first = false;
    }
FINISHED:
    GrAssert((vert - base) <= maxPts);
    GrAssert((idx - idxBase) <= maxIdxs);

    *vertexCnt = vert - base;
    *indexCnt = idx - idxBase;

    if (NULL != translate && 
        (translate->fX || translate->fY)) {
        int count = vert - base;
        for (int i = 0; i < count; i++) {
            base[i].offset(translate->fX, translate->fY);
        }
    }
    }
    return true;
}

bool GrDefaultPathRenderer::internalDrawPath(const SkPath& path,
                                             GrPathFill fill,
                                             const GrVec* translate,
                                             GrDrawTarget* target,
                                             GrDrawState::StageMask stageMask,
                                             bool stencilOnly) {

    GrMatrix viewM = target->getDrawState().getViewMatrix();
    GrScalar tol = GR_Scalar1;
    tol = GrPathUtils::scaleToleranceToSrc(tol, viewM, path.getBounds());

    int vertexCnt;
    int indexCnt;
    GrPrimitiveType primType;
    GrDrawTarget::AutoReleaseGeometry arg;
    if (!this->createGeom(path,
                          fill,
                          translate,
                          tol,
                          target,
                          stageMask,
                          &primType,
                          &vertexCnt,
                          &indexCnt,
                          &arg)) {
        return false;
    }

    GrAssert(NULL != target);
    GrDrawTarget::AutoStateRestore asr(target, GrDrawTarget::kPreserve_ASRInit);
    GrDrawState* drawState = target->drawState();
    bool colorWritesWereDisabled = drawState->isColorWriteDisabled();
    // face culling doesn't make sense here
    GrAssert(GrDrawState::kBoth_DrawFace == drawState->getDrawFace());

    int                         passCount = 0;
    const GrStencilSettings*    passes[3];
    GrDrawState::DrawFace       drawFace[3];
    bool                        reverse = false;
    bool                        lastPassIsBounds;

    if (kHairLine_PathFill == fill) {
        passCount = 1;
        if (stencilOnly) {
            passes[0] = &gDirectToStencil;
        } else {
            passes[0] = NULL;
        }
        lastPassIsBounds = false;
        drawFace[0] = GrDrawState::kBoth_DrawFace;
    } else {
        if (single_pass_path(path, fill)) {
            passCount = 1;
            if (stencilOnly) {
                passes[0] = &gDirectToStencil;
            } else {
                passes[0] = NULL;
            }
            drawFace[0] = GrDrawState::kBoth_DrawFace;
            lastPassIsBounds = false;
        } else {
            switch (fill) {
                case kInverseEvenOdd_PathFill:
                    reverse = true;
                    // fallthrough
                case kEvenOdd_PathFill:
                    passes[0] = &gEOStencilPass;
                    if (stencilOnly) {
                        passCount = 1;
                        lastPassIsBounds = false;
                    } else {
                        passCount = 2;
                        lastPassIsBounds = true;
                        if (reverse) {
                            passes[1] = &gInvEOColorPass;
                        } else {
                            passes[1] = &gEOColorPass;
                        }
                    }
                    drawFace[0] = drawFace[1] = GrDrawState::kBoth_DrawFace;
                    break;

                case kInverseWinding_PathFill:
                    reverse = true;
                    // fallthrough
                case kWinding_PathFill:
                    if (fSeparateStencil) {
                        if (fStencilWrapOps) {
                            passes[0] = &gWindStencilSeparateWithWrap;
                        } else {
                            passes[0] = &gWindStencilSeparateNoWrap;
                        }
                        passCount = 2;
                        drawFace[0] = GrDrawState::kBoth_DrawFace;
                    } else {
                        if (fStencilWrapOps) {
                            passes[0] = &gWindSingleStencilWithWrapInc;
                            passes[1] = &gWindSingleStencilWithWrapDec;
                        } else {
                            passes[0] = &gWindSingleStencilNoWrapInc;
                            passes[1] = &gWindSingleStencilNoWrapDec;
                        }
                        // which is cw and which is ccw is arbitrary.
                        drawFace[0] = GrDrawState::kCW_DrawFace;
                        drawFace[1] = GrDrawState::kCCW_DrawFace;
                        passCount = 3;
                    }
                    if (stencilOnly) {
                        lastPassIsBounds = false;
                        --passCount;
                    } else {
                        lastPassIsBounds = true;
                        drawFace[passCount-1] = GrDrawState::kBoth_DrawFace;
                        if (reverse) {
                            passes[passCount-1] = &gInvWindColorPass;
                        } else {
                            passes[passCount-1] = &gWindColorPass;
                        }
                    }
                    break;
                default:
                    GrAssert(!"Unknown path fFill!");
                    return false;
            }
        }
    }

    {
    for (int p = 0; p < passCount; ++p) {
        drawState->setDrawFace(drawFace[p]);
        if (NULL != passes[p]) {
            *drawState->stencil() = *passes[p];
        }

        if (lastPassIsBounds && (p == passCount-1)) {
            if (!colorWritesWereDisabled) {
                drawState->disableState(GrDrawState::kNoColorWrites_StateBit);
            }
            GrRect bounds;
            if (reverse) {
                GrAssert(NULL != drawState->getRenderTarget());
                // draw over the whole world.
                bounds.setLTRB(0, 0,
                               GrIntToScalar(drawState->getRenderTarget()->width()),
                               GrIntToScalar(drawState->getRenderTarget()->height()));
                GrMatrix vmi;
                // mapRect through persp matrix may not be correct
                if (!drawState->getViewMatrix().hasPerspective() &&
                    drawState->getViewInverse(&vmi)) {
                    vmi.mapRect(&bounds);
                } else {
                    if (stageMask) {
                        if (!drawState->getViewInverse(&vmi)) {
                            GrPrintf("Could not invert matrix.");
                            return false;
                        }
                        drawState->preConcatSamplerMatrices(stageMask, vmi);
                    }
                    drawState->viewMatrix()->reset();
                }
            } else {
                bounds = path.getBounds();
                if (NULL != translate) {
                    bounds.offset(*translate);
                }
            }
            GrDrawTarget::AutoGeometryPush agp(target);
            target->drawSimpleRect(bounds, NULL, stageMask);
        } else {
            if (passCount > 1) {
                drawState->enableState(GrDrawState::kNoColorWrites_StateBit);
            }
            if (indexCnt) {
                target->drawIndexed(primType, 0, 0, 
                                    vertexCnt, indexCnt);
            } else {
                target->drawNonIndexed(primType, 0, vertexCnt);
            }
        }
    }
    }
    return true;
}

bool GrDefaultPathRenderer::canDrawPath(const SkPath& path,
                                        GrPathFill fill,
                                        const GrDrawTarget* target,
                                        bool antiAlias) const {
    // this class can draw any path with any fill but doesn't do any 
    // anti-aliasing.
    return !antiAlias;
}

bool GrDefaultPathRenderer::onDrawPath(const SkPath& path,
                                       GrPathFill fill,
                                       const GrVec* translate,
                                       GrDrawTarget* target,
                                       GrDrawState::StageMask stageMask,
                                       bool antiAlias) {
    return this->internalDrawPath(path,
                                  fill,
                                  translate,
                                  target,
                                  stageMask,
                                  false);
}

void GrDefaultPathRenderer::drawPathToStencil(const SkPath& path,
                                              GrPathFill fill,
                                              GrDrawTarget* target) {
    GrAssert(kInverseEvenOdd_PathFill != fill);
    GrAssert(kInverseWinding_PathFill != fill);
    this->internalDrawPath(path, fill, NULL, target, 0, true);
}