/* * Copyright 2015 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "GrTextUtils.h" #include "GrAtlasTextBlob.h" #include "GrBatchFontCache.h" #include "GrBlurUtils.h" #include "GrCaps.h" #include "GrContext.h" #include "GrDrawContext.h" #include "SkDistanceFieldGen.h" #include "SkDrawProcs.h" #include "SkFindAndPlaceGlyph.h" #include "SkGlyphCache.h" #include "SkPaint.h" #include "SkRect.h" #include "SkTextMapStateProc.h" #include "SkTextToPathIter.h" namespace { static const int kMinDFFontSize = 18; static const int kSmallDFFontSize = 32; static const int kSmallDFFontLimit = 32; static const int kMediumDFFontSize = 72; static const int kMediumDFFontLimit = 72; static const int kLargeDFFontSize = 162; #ifdef SK_BUILD_FOR_ANDROID static const int kLargeDFFontLimit = 384; #else static const int kLargeDFFontLimit = 2 * kLargeDFFontSize; #endif }; void GrTextUtils::DrawBmpText(GrAtlasTextBlob* blob, int runIndex, GrBatchFontCache* fontCache, const SkSurfaceProps& props, const SkPaint& skPaint, GrColor color, const SkMatrix& viewMatrix, const char text[], size_t byteLength, SkScalar x, SkScalar y) { SkASSERT(byteLength == 0 || text != nullptr); // nothing to draw if (text == nullptr || byteLength == 0) { return; } // Ensure the blob is set for bitmaptext blob->setHasBitmap(); GrBatchTextStrike* currStrike = nullptr; // Get GrFontScaler from cache SkGlyphCache* cache = blob->setupCache(runIndex, props, SkPaint::FakeGamma::On, skPaint, &viewMatrix); GrFontScaler* fontScaler = GrTextUtils::GetGrFontScaler(cache); SkFindAndPlaceGlyph::ProcessText( skPaint.getTextEncoding(), text, byteLength, {x, y}, viewMatrix, skPaint.getTextAlign(), cache, [&](const SkGlyph& glyph, SkPoint position, SkPoint rounding) { position += rounding; BmpAppendGlyph( blob, runIndex, fontCache, &currStrike, glyph, SkScalarFloorToInt(position.fX), SkScalarFloorToInt(position.fY), color, fontScaler); } ); SkGlyphCache::AttachCache(cache); } void GrTextUtils::DrawBmpPosText(GrAtlasTextBlob* blob, int runIndex, GrBatchFontCache* fontCache, const SkSurfaceProps& props, const SkPaint& skPaint, GrColor color, const SkMatrix& viewMatrix, const char text[], size_t byteLength, const SkScalar pos[], int scalarsPerPosition, const SkPoint& offset) { SkASSERT(byteLength == 0 || text != nullptr); SkASSERT(1 == scalarsPerPosition || 2 == scalarsPerPosition); // nothing to draw if (text == nullptr || byteLength == 0) { return; } // Ensure the blob is set for bitmaptext blob->setHasBitmap(); GrBatchTextStrike* currStrike = nullptr; // Get GrFontScaler from cache SkGlyphCache* cache = blob->setupCache(runIndex, props, SkPaint::FakeGamma::On, skPaint, &viewMatrix); GrFontScaler* fontScaler = GrTextUtils::GetGrFontScaler(cache); SkFindAndPlaceGlyph::ProcessPosText( skPaint.getTextEncoding(), text, byteLength, offset, viewMatrix, pos, scalarsPerPosition, skPaint.getTextAlign(), cache, [&](const SkGlyph& glyph, SkPoint position, SkPoint rounding) { position += rounding; BmpAppendGlyph( blob, runIndex, fontCache, &currStrike, glyph, SkScalarFloorToInt(position.fX), SkScalarFloorToInt(position.fY), color, fontScaler); } ); SkGlyphCache::AttachCache(cache); } void GrTextUtils::BmpAppendGlyph(GrAtlasTextBlob* blob, int runIndex, GrBatchFontCache* fontCache, GrBatchTextStrike** strike, const SkGlyph& skGlyph, int vx, int vy, GrColor color, GrFontScaler* scaler) { if (!*strike) { *strike = fontCache->getStrike(scaler); } GrGlyph::PackedID id = GrGlyph::Pack(skGlyph.getGlyphID(), skGlyph.getSubXFixed(), skGlyph.getSubYFixed(), GrGlyph::kCoverage_MaskStyle); GrGlyph* glyph = (*strike)->getGlyph(skGlyph, id, scaler); if (!glyph) { return; } int x = vx + glyph->fBounds.fLeft; int y = vy + glyph->fBounds.fTop; // keep them as ints until we've done the clip-test int width = glyph->fBounds.width(); int height = glyph->fBounds.height(); SkRect r; r.fLeft = SkIntToScalar(x); r.fTop = SkIntToScalar(y); r.fRight = r.fLeft + SkIntToScalar(width); r.fBottom = r.fTop + SkIntToScalar(height); blob->appendGlyph(runIndex, r, color, *strike, glyph, scaler, skGlyph, SkIntToScalar(vx), SkIntToScalar(vy), 1.0f, false); } bool GrTextUtils::CanDrawAsDistanceFields(const SkPaint& skPaint, const SkMatrix& viewMatrix, const SkSurfaceProps& props, const GrShaderCaps& caps) { // TODO: support perspective (need getMaxScale replacement) if (viewMatrix.hasPerspective()) { return false; } SkScalar maxScale = viewMatrix.getMaxScale(); SkScalar scaledTextSize = maxScale*skPaint.getTextSize(); // Hinted text looks far better at small resolutions // Scaling up beyond 2x yields undesireable artifacts if (scaledTextSize < kMinDFFontSize || scaledTextSize > kLargeDFFontLimit) { return false; } bool useDFT = props.isUseDeviceIndependentFonts(); #if SK_FORCE_DISTANCE_FIELD_TEXT useDFT = true; #endif if (!useDFT && scaledTextSize < kLargeDFFontSize) { return false; } // rasterizers and mask filters modify alpha, which doesn't // translate well to distance if (skPaint.getRasterizer() || skPaint.getMaskFilter() || !caps.shaderDerivativeSupport()) { return false; } // TODO: add some stroking support if (skPaint.getStyle() != SkPaint::kFill_Style) { return false; } return true; } void GrTextUtils::InitDistanceFieldPaint(GrAtlasTextBlob* blob, SkPaint* skPaint, SkScalar* textRatio, const SkMatrix& viewMatrix) { // getMaxScale doesn't support perspective, so neither do we at the moment SkASSERT(!viewMatrix.hasPerspective()); SkScalar maxScale = viewMatrix.getMaxScale(); SkScalar textSize = skPaint->getTextSize(); SkScalar scaledTextSize = textSize; // if we have non-unity scale, we need to choose our base text size // based on the SkPaint's text size multiplied by the max scale factor // TODO: do we need to do this if we're scaling down (i.e. maxScale < 1)? if (maxScale > 0 && !SkScalarNearlyEqual(maxScale, SK_Scalar1)) { scaledTextSize *= maxScale; } // We have three sizes of distance field text, and within each size 'bucket' there is a floor // and ceiling. A scale outside of this range would require regenerating the distance fields SkScalar dfMaskScaleFloor; SkScalar dfMaskScaleCeil; if (scaledTextSize <= kSmallDFFontLimit) { dfMaskScaleFloor = kMinDFFontSize; dfMaskScaleCeil = kSmallDFFontLimit; *textRatio = textSize / kSmallDFFontSize; skPaint->setTextSize(SkIntToScalar(kSmallDFFontSize)); } else if (scaledTextSize <= kMediumDFFontLimit) { dfMaskScaleFloor = kSmallDFFontLimit; dfMaskScaleCeil = kMediumDFFontLimit; *textRatio = textSize / kMediumDFFontSize; skPaint->setTextSize(SkIntToScalar(kMediumDFFontSize)); } else { dfMaskScaleFloor = kMediumDFFontLimit; dfMaskScaleCeil = kLargeDFFontLimit; *textRatio = textSize / kLargeDFFontSize; skPaint->setTextSize(SkIntToScalar(kLargeDFFontSize)); } // Because there can be multiple runs in the blob, we want the overall maxMinScale, and // minMaxScale to make regeneration decisions. Specifically, we want the maximum minimum scale // we can tolerate before we'd drop to a lower mip size, and the minimum maximum scale we can // tolerate before we'd have to move to a large mip size. When we actually test these values // we look at the delta in scale between the new viewmatrix and the old viewmatrix, and test // against these values to decide if we can reuse or not(ie, will a given scale change our mip // level) SkASSERT(dfMaskScaleFloor <= scaledTextSize && scaledTextSize <= dfMaskScaleCeil); blob->setMinAndMaxScale(dfMaskScaleFloor / scaledTextSize, dfMaskScaleCeil / scaledTextSize); skPaint->setLCDRenderText(false); skPaint->setAutohinted(false); skPaint->setHinting(SkPaint::kNormal_Hinting); skPaint->setSubpixelText(true); } void GrTextUtils::DrawDFText(GrAtlasTextBlob* blob, int runIndex, GrBatchFontCache* fontCache, const SkSurfaceProps& props, const SkPaint& skPaint, GrColor color, const SkMatrix& viewMatrix, const char text[], size_t byteLength, SkScalar x, SkScalar y) { SkASSERT(byteLength == 0 || text != nullptr); // nothing to draw if (text == nullptr || byteLength == 0) { return; } SkPaint::GlyphCacheProc glyphCacheProc = skPaint.getGlyphCacheProc(true); SkAutoDescriptor desc; skPaint.getScalerContextDescriptor(&desc, props, SkPaint::FakeGamma::Off, nullptr); SkGlyphCache* origPaintCache = SkGlyphCache::DetachCache(skPaint.getTypeface(), desc.getDesc()); SkTArray<SkScalar> positions; const char* textPtr = text; SkFixed stopX = 0; SkFixed stopY = 0; SkFixed origin = 0; switch (skPaint.getTextAlign()) { case SkPaint::kRight_Align: origin = SK_Fixed1; break; case SkPaint::kCenter_Align: origin = SK_FixedHalf; break; case SkPaint::kLeft_Align: origin = 0; break; } SkAutoKern autokern; const char* stop = text + byteLength; while (textPtr < stop) { // don't need x, y here, since all subpixel variants will have the // same advance const SkGlyph& glyph = glyphCacheProc(origPaintCache, &textPtr); SkFixed width = glyph.fAdvanceX + autokern.adjust(glyph); positions.push_back(SkFixedToScalar(stopX + SkFixedMul(origin, width))); SkFixed height = glyph.fAdvanceY; positions.push_back(SkFixedToScalar(stopY + SkFixedMul(origin, height))); stopX += width; stopY += height; } SkASSERT(textPtr == stop); SkGlyphCache::AttachCache(origPaintCache); // now adjust starting point depending on alignment SkScalar alignX = SkFixedToScalar(stopX); SkScalar alignY = SkFixedToScalar(stopY); if (skPaint.getTextAlign() == SkPaint::kCenter_Align) { alignX = SkScalarHalf(alignX); alignY = SkScalarHalf(alignY); } else if (skPaint.getTextAlign() == SkPaint::kLeft_Align) { alignX = 0; alignY = 0; } x -= alignX; y -= alignY; SkPoint offset = SkPoint::Make(x, y); DrawDFPosText(blob, runIndex, fontCache, props, skPaint, color, viewMatrix, text, byteLength, positions.begin(), 2, offset); } void GrTextUtils::DrawDFPosText(GrAtlasTextBlob* blob, int runIndex, GrBatchFontCache* fontCache, const SkSurfaceProps& props, const SkPaint& origPaint, GrColor color, const SkMatrix& viewMatrix, const char text[], size_t byteLength, const SkScalar pos[], int scalarsPerPosition, const SkPoint& offset) { SkASSERT(byteLength == 0 || text != nullptr); SkASSERT(1 == scalarsPerPosition || 2 == scalarsPerPosition); // nothing to draw if (text == nullptr || byteLength == 0) { return; } SkTDArray<char> fallbackTxt; SkTDArray<SkScalar> fallbackPos; // Setup distance field paint and text ratio SkScalar textRatio; SkPaint dfPaint(origPaint); GrTextUtils::InitDistanceFieldPaint(blob, &dfPaint, &textRatio, viewMatrix); blob->setHasDistanceField(); blob->setSubRunHasDistanceFields(runIndex, origPaint.isLCDRenderText()); GrBatchTextStrike* currStrike = nullptr; SkGlyphCache* cache = blob->setupCache(runIndex, props, SkPaint::FakeGamma::Off, dfPaint, nullptr); SkPaint::GlyphCacheProc glyphCacheProc = dfPaint.getGlyphCacheProc(true); GrFontScaler* fontScaler = GrTextUtils::GetGrFontScaler(cache); const char* stop = text + byteLength; if (SkPaint::kLeft_Align == dfPaint.getTextAlign()) { while (text < stop) { const char* lastText = text; // the last 2 parameters are ignored const SkGlyph& glyph = glyphCacheProc(cache, &text); if (glyph.fWidth) { SkScalar x = offset.x() + pos[0]; SkScalar y = offset.y() + (2 == scalarsPerPosition ? pos[1] : 0); if (!DfAppendGlyph(blob, runIndex, fontCache, &currStrike, glyph, x, y, color, fontScaler, textRatio, viewMatrix)) { // couldn't append, send to fallback fallbackTxt.append(SkToInt(text-lastText), lastText); *fallbackPos.append() = pos[0]; if (2 == scalarsPerPosition) { *fallbackPos.append() = pos[1]; } } } pos += scalarsPerPosition; } } else { SkScalar alignMul = SkPaint::kCenter_Align == dfPaint.getTextAlign() ? SK_ScalarHalf : SK_Scalar1; while (text < stop) { const char* lastText = text; // the last 2 parameters are ignored const SkGlyph& glyph = glyphCacheProc(cache, &text); if (glyph.fWidth) { SkScalar x = offset.x() + pos[0]; SkScalar y = offset.y() + (2 == scalarsPerPosition ? pos[1] : 0); SkScalar advanceX = SkFixedToScalar(glyph.fAdvanceX) * alignMul * textRatio; SkScalar advanceY = SkFixedToScalar(glyph.fAdvanceY) * alignMul * textRatio; if (!DfAppendGlyph(blob, runIndex, fontCache, &currStrike, glyph, x - advanceX, y - advanceY, color, fontScaler, textRatio, viewMatrix)) { // couldn't append, send to fallback fallbackTxt.append(SkToInt(text-lastText), lastText); *fallbackPos.append() = pos[0]; if (2 == scalarsPerPosition) { *fallbackPos.append() = pos[1]; } } } pos += scalarsPerPosition; } } SkGlyphCache::AttachCache(cache); if (fallbackTxt.count()) { blob->initOverride(runIndex); GrTextUtils::DrawBmpPosText(blob, runIndex, fontCache, props, origPaint, origPaint.getColor(), viewMatrix, fallbackTxt.begin(), fallbackTxt.count(), fallbackPos.begin(), scalarsPerPosition, offset); } } bool GrTextUtils::DfAppendGlyph(GrAtlasTextBlob* blob, int runIndex, GrBatchFontCache* cache, GrBatchTextStrike** strike, const SkGlyph& skGlyph, SkScalar sx, SkScalar sy, GrColor color, GrFontScaler* scaler, SkScalar textRatio, const SkMatrix& viewMatrix) { if (!*strike) { *strike = cache->getStrike(scaler); } GrGlyph::PackedID id = GrGlyph::Pack(skGlyph.getGlyphID(), skGlyph.getSubXFixed(), skGlyph.getSubYFixed(), GrGlyph::kDistance_MaskStyle); GrGlyph* glyph = (*strike)->getGlyph(skGlyph, id, scaler); if (!glyph) { return true; } // fallback to color glyph support if (kA8_GrMaskFormat != glyph->fMaskFormat) { return false; } SkScalar dx = SkIntToScalar(glyph->fBounds.fLeft + SK_DistanceFieldInset); SkScalar dy = SkIntToScalar(glyph->fBounds.fTop + SK_DistanceFieldInset); SkScalar width = SkIntToScalar(glyph->fBounds.width() - 2 * SK_DistanceFieldInset); SkScalar height = SkIntToScalar(glyph->fBounds.height() - 2 * SK_DistanceFieldInset); SkScalar scale = textRatio; dx *= scale; dy *= scale; width *= scale; height *= scale; sx += dx; sy += dy; SkRect glyphRect = SkRect::MakeXYWH(sx, sy, width, height); blob->appendGlyph(runIndex, glyphRect, color, *strike, glyph, scaler, skGlyph, sx - dx, sy - dy, scale, true); return true; } void GrTextUtils::DrawTextAsPath(GrContext* context, GrDrawContext* dc, const GrClip& clip, const SkPaint& skPaint, const SkMatrix& viewMatrix, const char text[], size_t byteLength, SkScalar x, SkScalar y, const SkIRect& clipBounds) { SkTextToPathIter iter(text, byteLength, skPaint, true); SkMatrix matrix; matrix.setScale(iter.getPathScale(), iter.getPathScale()); matrix.postTranslate(x, y); const SkPath* iterPath; SkScalar xpos, prevXPos = 0; while (iter.next(&iterPath, &xpos)) { matrix.postTranslate(xpos - prevXPos, 0); if (iterPath) { const SkPaint& pnt = iter.getPaint(); GrBlurUtils::drawPathWithMaskFilter(context, dc, clip, *iterPath, pnt, viewMatrix, &matrix, clipBounds, false); } prevXPos = xpos; } } void GrTextUtils::DrawPosTextAsPath(GrContext* context, GrDrawContext* dc, const SkSurfaceProps& props, const GrClip& clip, const SkPaint& origPaint, const SkMatrix& viewMatrix, const char text[], size_t byteLength, const SkScalar pos[], int scalarsPerPosition, const SkPoint& offset, const SkIRect& clipBounds) { // setup our std paint, in hopes of getting hits in the cache SkPaint paint(origPaint); SkScalar matrixScale = paint.setupForAsPaths(); SkMatrix matrix; matrix.setScale(matrixScale, matrixScale); // Temporarily jam in kFill, so we only ever ask for the raw outline from the cache. paint.setStyle(SkPaint::kFill_Style); paint.setPathEffect(nullptr); SkPaint::GlyphCacheProc glyphCacheProc = paint.getGlyphCacheProc(true); SkAutoGlyphCache autoCache(paint, &props, nullptr); SkGlyphCache* cache = autoCache.getCache(); const char* stop = text + byteLength; SkTextAlignProc alignProc(paint.getTextAlign()); SkTextMapStateProc tmsProc(SkMatrix::I(), offset, scalarsPerPosition); // Now restore the original settings, so we "draw" with whatever style/stroking. paint.setStyle(origPaint.getStyle()); paint.setPathEffect(origPaint.getPathEffect()); while (text < stop) { const SkGlyph& glyph = glyphCacheProc(cache, &text); if (glyph.fWidth) { const SkPath* path = cache->findPath(glyph); if (path) { SkPoint tmsLoc; tmsProc(pos, &tmsLoc); SkPoint loc; alignProc(tmsLoc, glyph, &loc); matrix[SkMatrix::kMTransX] = loc.fX; matrix[SkMatrix::kMTransY] = loc.fY; GrBlurUtils::drawPathWithMaskFilter(context, dc, clip, *path, paint, viewMatrix, &matrix, clipBounds, false); } } pos += scalarsPerPosition; } } bool GrTextUtils::ShouldDisableLCD(const SkPaint& paint) { return !SkXfermode::AsMode(paint.getXfermode(), nullptr) || paint.getMaskFilter() || paint.getRasterizer() || paint.getPathEffect() || paint.isFakeBoldText() || paint.getStyle() != SkPaint::kFill_Style; } uint32_t GrTextUtils::FilterTextFlags(const SkSurfaceProps& surfaceProps, const SkPaint& paint) { uint32_t flags = paint.getFlags(); if (!paint.isLCDRenderText() || !paint.isAntiAlias()) { return flags; } if (kUnknown_SkPixelGeometry == surfaceProps.pixelGeometry() || ShouldDisableLCD(paint)) { flags &= ~SkPaint::kLCDRenderText_Flag; flags |= SkPaint::kGenA8FromLCD_Flag; } return flags; } static void glyph_cache_aux_proc(void* data) { GrFontScaler* scaler = (GrFontScaler*)data; SkSafeUnref(scaler); } GrFontScaler* GrTextUtils::GetGrFontScaler(SkGlyphCache* cache) { void* auxData; GrFontScaler* scaler = nullptr; if (cache->getAuxProcData(glyph_cache_aux_proc, &auxData)) { scaler = (GrFontScaler*)auxData; } if (nullptr == scaler) { scaler = new GrFontScaler(cache); cache->setAuxProc(glyph_cache_aux_proc, scaler); } return scaler; }