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/*
* 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 "GrAtlasTextBlob.h"
#include "GrBlurUtils.h"
#include "GrContext.h"
#include "GrDrawContext.h"
#include "GrTextUtils.h"
#include "SkColorFilter.h"
#include "SkDrawFilter.h"
#include "SkGlyphCache.h"
#include "SkTextBlobRunIterator.h"
#include "batches/GrAtlasTextBatch.h"
GrAtlasTextBlob* GrAtlasTextBlob::Create(GrMemoryPool* pool, int glyphCount, int runCount) {
// We allocate size for the GrAtlasTextBlob itself, plus size for the vertices array,
// and size for the glyphIds array.
size_t verticesCount = glyphCount * kVerticesPerGlyph * kMaxVASize;
size_t size = sizeof(GrAtlasTextBlob) +
verticesCount +
glyphCount * sizeof(GrGlyph**) +
sizeof(GrAtlasTextBlob::Run) * runCount;
void* allocation = pool->allocate(size);
if (CACHE_SANITY_CHECK) {
sk_bzero(allocation, size);
}
GrAtlasTextBlob* cacheBlob = new (allocation) GrAtlasTextBlob;
cacheBlob->fSize = size;
// setup offsets for vertices / glyphs
cacheBlob->fVertices = sizeof(GrAtlasTextBlob) + reinterpret_cast<unsigned char*>(cacheBlob);
cacheBlob->fGlyphs = reinterpret_cast<GrGlyph**>(cacheBlob->fVertices + verticesCount);
cacheBlob->fRuns = reinterpret_cast<GrAtlasTextBlob::Run*>(cacheBlob->fGlyphs + glyphCount);
// Initialize runs
for (int i = 0; i < runCount; i++) {
new (&cacheBlob->fRuns[i]) GrAtlasTextBlob::Run;
}
cacheBlob->fRunCount = runCount;
cacheBlob->fPool = pool;
return cacheBlob;
}
SkGlyphCache* GrAtlasTextBlob::setupCache(int runIndex,
const SkSurfaceProps& props,
uint32_t scalerContextFlags,
const SkPaint& skPaint,
const SkMatrix* viewMatrix) {
GrAtlasTextBlob::Run* run = &fRuns[runIndex];
// if we have an override descriptor for the run, then we should use that
SkAutoDescriptor* desc = run->fOverrideDescriptor.get() ? run->fOverrideDescriptor.get() :
&run->fDescriptor;
SkScalerContextEffects effects;
skPaint.getScalerContextDescriptor(&effects, desc, props, scalerContextFlags, viewMatrix);
run->fTypeface.reset(SkSafeRef(skPaint.getTypeface()));
run->fPathEffect = sk_ref_sp(effects.fPathEffect);
run->fRasterizer = sk_ref_sp(effects.fRasterizer);
run->fMaskFilter = sk_ref_sp(effects.fMaskFilter);
return SkGlyphCache::DetachCache(run->fTypeface, effects, desc->getDesc());
}
void GrAtlasTextBlob::appendGlyph(int runIndex,
const SkRect& positions,
GrColor color,
GrBatchTextStrike* strike,
GrGlyph* glyph,
SkGlyphCache* cache, const SkGlyph& skGlyph,
SkScalar x, SkScalar y, SkScalar scale, bool applyVM) {
// If the glyph is too large we fall back to paths
if (glyph->fTooLargeForAtlas) {
this->appendLargeGlyph(glyph, cache, skGlyph, x, y, scale, applyVM);
return;
}
Run& run = fRuns[runIndex];
GrMaskFormat format = glyph->fMaskFormat;
Run::SubRunInfo* subRun = &run.fSubRunInfo.back();
if (run.fInitialized && subRun->maskFormat() != format) {
subRun = &run.push_back();
subRun->setStrike(strike);
} else if (!run.fInitialized) {
subRun->setStrike(strike);
}
run.fInitialized = true;
size_t vertexStride = GetVertexStride(format);
subRun->setMaskFormat(format);
subRun->joinGlyphBounds(positions);
subRun->setColor(color);
intptr_t vertex = reinterpret_cast<intptr_t>(this->fVertices + subRun->vertexEndIndex());
if (kARGB_GrMaskFormat != glyph->fMaskFormat) {
// V0
SkPoint* position = reinterpret_cast<SkPoint*>(vertex);
position->set(positions.fLeft, positions.fTop);
SkColor* colorPtr = reinterpret_cast<SkColor*>(vertex + sizeof(SkPoint));
*colorPtr = color;
vertex += vertexStride;
// V1
position = reinterpret_cast<SkPoint*>(vertex);
position->set(positions.fLeft, positions.fBottom);
colorPtr = reinterpret_cast<SkColor*>(vertex + sizeof(SkPoint));
*colorPtr = color;
vertex += vertexStride;
// V2
position = reinterpret_cast<SkPoint*>(vertex);
position->set(positions.fRight, positions.fBottom);
colorPtr = reinterpret_cast<SkColor*>(vertex + sizeof(SkPoint));
*colorPtr = color;
vertex += vertexStride;
// V3
position = reinterpret_cast<SkPoint*>(vertex);
position->set(positions.fRight, positions.fTop);
colorPtr = reinterpret_cast<SkColor*>(vertex + sizeof(SkPoint));
*colorPtr = color;
} else {
// V0
SkPoint* position = reinterpret_cast<SkPoint*>(vertex);
position->set(positions.fLeft, positions.fTop);
vertex += vertexStride;
// V1
position = reinterpret_cast<SkPoint*>(vertex);
position->set(positions.fLeft, positions.fBottom);
vertex += vertexStride;
// V2
position = reinterpret_cast<SkPoint*>(vertex);
position->set(positions.fRight, positions.fBottom);
vertex += vertexStride;
// V3
position = reinterpret_cast<SkPoint*>(vertex);
position->set(positions.fRight, positions.fTop);
}
subRun->appendVertices(vertexStride);
fGlyphs[subRun->glyphEndIndex()] = glyph;
subRun->glyphAppended();
}
void GrAtlasTextBlob::appendLargeGlyph(GrGlyph* glyph, SkGlyphCache* cache, const SkGlyph& skGlyph,
SkScalar x, SkScalar y, SkScalar scale, bool applyVM) {
if (nullptr == glyph->fPath) {
const SkPath* glyphPath = cache->findPath(skGlyph);
if (!glyphPath) {
return;
}
glyph->fPath = new SkPath(*glyphPath);
}
fBigGlyphs.push_back(GrAtlasTextBlob::BigGlyph(*glyph->fPath, x, y, scale, applyVM));
}
bool GrAtlasTextBlob::mustRegenerate(const SkPaint& paint,
GrColor color, const SkMaskFilter::BlurRec& blurRec,
const SkMatrix& viewMatrix, SkScalar x, SkScalar y) {
// If we have LCD text then our canonical color will be set to transparent, in this case we have
// to regenerate the blob on any color change
// We use the grPaint to get any color filter effects
if (fKey.fCanonicalColor == SK_ColorTRANSPARENT &&
fPaintColor != color) {
return true;
}
if (fInitialViewMatrix.hasPerspective() != viewMatrix.hasPerspective()) {
return true;
}
if (fInitialViewMatrix.hasPerspective() && !fInitialViewMatrix.cheapEqualTo(viewMatrix)) {
return true;
}
// We only cache one masked version
if (fKey.fHasBlur &&
(fBlurRec.fSigma != blurRec.fSigma ||
fBlurRec.fStyle != blurRec.fStyle ||
fBlurRec.fQuality != blurRec.fQuality)) {
return true;
}
// Similarly, we only cache one version for each style
if (fKey.fStyle != SkPaint::kFill_Style &&
(fStrokeInfo.fFrameWidth != paint.getStrokeWidth() ||
fStrokeInfo.fMiterLimit != paint.getStrokeMiter() ||
fStrokeInfo.fJoin != paint.getStrokeJoin())) {
return true;
}
// Mixed blobs must be regenerated. We could probably figure out a way to do integer scrolls
// for mixed blobs if this becomes an issue.
if (this->hasBitmap() && this->hasDistanceField()) {
// Identical viewmatrices and we can reuse in all cases
if (fInitialViewMatrix.cheapEqualTo(viewMatrix) && x == fInitialX && y == fInitialY) {
return false;
}
return true;
}
if (this->hasBitmap()) {
if (fInitialViewMatrix.getScaleX() != viewMatrix.getScaleX() ||
fInitialViewMatrix.getScaleY() != viewMatrix.getScaleY() ||
fInitialViewMatrix.getSkewX() != viewMatrix.getSkewX() ||
fInitialViewMatrix.getSkewY() != viewMatrix.getSkewY()) {
return true;
}
// We can update the positions in the cachedtextblobs without regenerating the whole blob,
// but only for integer translations.
// This cool bit of math will determine the necessary translation to apply to the already
// generated vertex coordinates to move them to the correct position
SkScalar transX = viewMatrix.getTranslateX() +
viewMatrix.getScaleX() * (x - fInitialX) +
viewMatrix.getSkewX() * (y - fInitialY) -
fInitialViewMatrix.getTranslateX();
SkScalar transY = viewMatrix.getTranslateY() +
viewMatrix.getSkewY() * (x - fInitialX) +
viewMatrix.getScaleY() * (y - fInitialY) -
fInitialViewMatrix.getTranslateY();
if (!SkScalarIsInt(transX) || !SkScalarIsInt(transY)) {
return true;
}
} else if (this->hasDistanceField()) {
// A scale outside of [blob.fMaxMinScale, blob.fMinMaxScale] would result in a different
// distance field being generated, so we have to regenerate in those cases
SkScalar newMaxScale = viewMatrix.getMaxScale();
SkScalar oldMaxScale = fInitialViewMatrix.getMaxScale();
SkScalar scaleAdjust = newMaxScale / oldMaxScale;
if (scaleAdjust < fMaxMinScale || scaleAdjust > fMinMaxScale) {
return true;
}
}
// It is possible that a blob has neither distanceField nor bitmaptext. This is in the case
// when all of the runs inside the blob are drawn as paths. In this case, we always regenerate
// the blob anyways at flush time, so no need to regenerate explicitly
return false;
}
inline GrDrawBatch* GrAtlasTextBlob::createBatch(
const Run::SubRunInfo& info,
int glyphCount, int run, int subRun,
const SkMatrix& viewMatrix, SkScalar x, SkScalar y,
GrColor color,
const SkPaint& skPaint, const SkSurfaceProps& props,
const GrDistanceFieldAdjustTable* distanceAdjustTable,
bool useGammaCorrectDistanceTable,
GrBatchFontCache* cache) {
GrMaskFormat format = info.maskFormat();
GrColor subRunColor;
if (kARGB_GrMaskFormat == format) {
uint8_t paintAlpha = skPaint.getAlpha();
subRunColor = SkColorSetARGB(paintAlpha, paintAlpha, paintAlpha, paintAlpha);
} else {
subRunColor = color;
}
GrAtlasTextBatch* batch;
if (info.drawAsDistanceFields()) {
SkColor filteredColor;
SkColorFilter* colorFilter = skPaint.getColorFilter();
if (colorFilter) {
filteredColor = colorFilter->filterColor(skPaint.getColor());
} else {
filteredColor = skPaint.getColor();
}
bool useBGR = SkPixelGeometryIsBGR(props.pixelGeometry());
batch = GrAtlasTextBatch::CreateDistanceField(glyphCount, cache,
distanceAdjustTable,
useGammaCorrectDistanceTable,
filteredColor, info.hasUseLCDText(), useBGR);
} else {
batch = GrAtlasTextBatch::CreateBitmap(format, glyphCount, cache);
}
GrAtlasTextBatch::Geometry& geometry = batch->geometry();
geometry.fViewMatrix = viewMatrix;
geometry.fBlob = SkRef(this);
geometry.fRun = run;
geometry.fSubRun = subRun;
geometry.fColor = subRunColor;
geometry.fX = x;
geometry.fY = y;
batch->init();
return batch;
}
inline
void GrAtlasTextBlob::flushRun(GrDrawContext* dc, GrPipelineBuilder* pipelineBuilder,
const GrClip& clip, int run, const SkMatrix& viewMatrix, SkScalar x,
SkScalar y, GrColor color,
const SkPaint& skPaint, const SkSurfaceProps& props,
const GrDistanceFieldAdjustTable* distanceAdjustTable,
GrBatchFontCache* cache) {
for (int subRun = 0; subRun < fRuns[run].fSubRunInfo.count(); subRun++) {
const Run::SubRunInfo& info = fRuns[run].fSubRunInfo[subRun];
int glyphCount = info.glyphCount();
if (0 == glyphCount) {
continue;
}
SkAutoTUnref<GrDrawBatch> batch(this->createBatch(info, glyphCount, run,
subRun, viewMatrix, x, y, color,
skPaint, props,
distanceAdjustTable, dc->isGammaCorrect(),
cache));
dc->drawBatch(pipelineBuilder, clip, batch);
}
}
static void calculate_translation(bool applyVM,
const SkMatrix& newViewMatrix, SkScalar newX, SkScalar newY,
const SkMatrix& currentViewMatrix, SkScalar currentX,
SkScalar currentY, SkScalar* transX, SkScalar* transY) {
if (applyVM) {
*transX = newViewMatrix.getTranslateX() +
newViewMatrix.getScaleX() * (newX - currentX) +
newViewMatrix.getSkewX() * (newY - currentY) -
currentViewMatrix.getTranslateX();
*transY = newViewMatrix.getTranslateY() +
newViewMatrix.getSkewY() * (newX - currentX) +
newViewMatrix.getScaleY() * (newY - currentY) -
currentViewMatrix.getTranslateY();
} else {
*transX = newX - currentX;
*transY = newY - currentY;
}
}
void GrAtlasTextBlob::flushBigGlyphs(GrContext* context, GrDrawContext* dc,
const GrClip& clip, const SkPaint& skPaint,
const SkMatrix& viewMatrix, SkScalar x, SkScalar y,
const SkIRect& clipBounds) {
SkScalar transX, transY;
for (int i = 0; i < fBigGlyphs.count(); i++) {
GrAtlasTextBlob::BigGlyph& bigGlyph = fBigGlyphs[i];
calculate_translation(bigGlyph.fApplyVM, viewMatrix, x, y,
fInitialViewMatrix, fInitialX, fInitialY, &transX, &transY);
SkMatrix ctm;
ctm.setScale(bigGlyph.fScale, bigGlyph.fScale);
ctm.postTranslate(bigGlyph.fX + transX, bigGlyph.fY + transY);
if (bigGlyph.fApplyVM) {
ctm.postConcat(viewMatrix);
}
GrBlurUtils::drawPathWithMaskFilter(context, dc, clip, bigGlyph.fPath,
skPaint, ctm, nullptr, clipBounds, false);
}
}
void GrAtlasTextBlob::flushRunAsPaths(GrContext* context, GrDrawContext* dc,
const SkSurfaceProps& props,
const SkTextBlobRunIterator& it,
const GrClip& clip, const SkPaint& skPaint,
SkDrawFilter* drawFilter, const SkMatrix& viewMatrix,
const SkIRect& clipBounds, SkScalar x, SkScalar y) {
SkPaint runPaint = skPaint;
size_t textLen = it.glyphCount() * sizeof(uint16_t);
const SkPoint& offset = it.offset();
it.applyFontToPaint(&runPaint);
if (drawFilter && !drawFilter->filter(&runPaint, SkDrawFilter::kText_Type)) {
return;
}
runPaint.setFlags(GrTextUtils::FilterTextFlags(props, runPaint));
switch (it.positioning()) {
case SkTextBlob::kDefault_Positioning:
GrTextUtils::DrawTextAsPath(context, dc, clip, runPaint, viewMatrix,
(const char *)it.glyphs(),
textLen, x + offset.x(), y + offset.y(), clipBounds);
break;
case SkTextBlob::kHorizontal_Positioning:
GrTextUtils::DrawPosTextAsPath(context, dc, props, clip, runPaint, viewMatrix,
(const char*)it.glyphs(),
textLen, it.pos(), 1, SkPoint::Make(x, y + offset.y()),
clipBounds);
break;
case SkTextBlob::kFull_Positioning:
GrTextUtils::DrawPosTextAsPath(context, dc, props, clip, runPaint, viewMatrix,
(const char*)it.glyphs(),
textLen, it.pos(), 2, SkPoint::Make(x, y), clipBounds);
break;
}
}
void GrAtlasTextBlob::flushCached(GrContext* context,
GrDrawContext* dc,
const SkTextBlob* blob,
const SkSurfaceProps& props,
const GrDistanceFieldAdjustTable* distanceAdjustTable,
const SkPaint& skPaint,
const GrPaint& grPaint,
SkDrawFilter* drawFilter,
const GrClip& clip,
const SkMatrix& viewMatrix,
const SkIRect& clipBounds,
SkScalar x, SkScalar y) {
// We loop through the runs of the blob, flushing each. If any run is too large, then we flush
// it as paths
GrPipelineBuilder pipelineBuilder(grPaint, dc->isUnifiedMultisampled());
pipelineBuilder.setRenderTarget(dc->accessRenderTarget());
GrColor color = grPaint.getColor();
SkTextBlobRunIterator it(blob);
for (int run = 0; !it.done(); it.next(), run++) {
if (fRuns[run].fDrawAsPaths) {
this->flushRunAsPaths(context, dc, props, it, clip, skPaint,
drawFilter, viewMatrix, clipBounds, x, y);
continue;
}
this->flushRun(dc, &pipelineBuilder, clip, run, viewMatrix, x, y, color, skPaint, props,
distanceAdjustTable, context->getBatchFontCache());
}
// Now flush big glyphs
this->flushBigGlyphs(context, dc, clip, skPaint, viewMatrix, x, y, clipBounds);
}
void GrAtlasTextBlob::flushThrowaway(GrContext* context,
GrDrawContext* dc,
const SkSurfaceProps& props,
const GrDistanceFieldAdjustTable* distanceAdjustTable,
const SkPaint& skPaint,
const GrPaint& grPaint,
const GrClip& clip,
const SkMatrix& viewMatrix,
const SkIRect& clipBounds,
SkScalar x, SkScalar y) {
GrPipelineBuilder pipelineBuilder(grPaint, dc->isUnifiedMultisampled());
pipelineBuilder.setRenderTarget(dc->accessRenderTarget());
GrColor color = grPaint.getColor();
for (int run = 0; run < fRunCount; run++) {
this->flushRun(dc, &pipelineBuilder, clip, run, viewMatrix, x, y, color, skPaint, props,
distanceAdjustTable, context->getBatchFontCache());
}
// Now flush big glyphs
this->flushBigGlyphs(context, dc, clip, skPaint, viewMatrix, x, y, clipBounds);
}
GrDrawBatch* GrAtlasTextBlob::test_createBatch(
int glyphCount, int run, int subRun,
const SkMatrix& viewMatrix, SkScalar x, SkScalar y,
GrColor color,
const SkPaint& skPaint, const SkSurfaceProps& props,
const GrDistanceFieldAdjustTable* distanceAdjustTable,
GrBatchFontCache* cache) {
const GrAtlasTextBlob::Run::SubRunInfo& info = fRuns[run].fSubRunInfo[subRun];
return this->createBatch(info, glyphCount, run, subRun, viewMatrix, x, y, color, skPaint,
props, distanceAdjustTable, false, cache);
}
void GrAtlasTextBlob::AssertEqual(const GrAtlasTextBlob& l, const GrAtlasTextBlob& r) {
SkASSERT_RELEASE(l.fSize == r.fSize);
SkASSERT_RELEASE(l.fPool == r.fPool);
SkASSERT_RELEASE(l.fBlurRec.fSigma == r.fBlurRec.fSigma);
SkASSERT_RELEASE(l.fBlurRec.fStyle == r.fBlurRec.fStyle);
SkASSERT_RELEASE(l.fBlurRec.fQuality == r.fBlurRec.fQuality);
SkASSERT_RELEASE(l.fStrokeInfo.fFrameWidth == r.fStrokeInfo.fFrameWidth);
SkASSERT_RELEASE(l.fStrokeInfo.fMiterLimit == r.fStrokeInfo.fMiterLimit);
SkASSERT_RELEASE(l.fStrokeInfo.fJoin == r.fStrokeInfo.fJoin);
SkASSERT_RELEASE(l.fBigGlyphs.count() == r.fBigGlyphs.count());
for (int i = 0; i < l.fBigGlyphs.count(); i++) {
const BigGlyph& lBigGlyph = l.fBigGlyphs[i];
const BigGlyph& rBigGlyph = r.fBigGlyphs[i];
SkASSERT_RELEASE(lBigGlyph.fPath == rBigGlyph.fPath);
// We can't assert that these have the same translations
}
SkASSERT_RELEASE(l.fKey == r.fKey);
//SkASSERT_RELEASE(l.fPaintColor == r.fPaintColor); // Colors might not actually be identical
SkASSERT_RELEASE(l.fMaxMinScale == r.fMaxMinScale);
SkASSERT_RELEASE(l.fMinMaxScale == r.fMinMaxScale);
SkASSERT_RELEASE(l.fTextType == r.fTextType);
SkASSERT_RELEASE(l.fRunCount == r.fRunCount);
for (int i = 0; i < l.fRunCount; i++) {
const Run& lRun = l.fRuns[i];
const Run& rRun = r.fRuns[i];
if (lRun.fTypeface.get()) {
SkASSERT_RELEASE(rRun.fTypeface.get());
SkASSERT_RELEASE(SkTypeface::Equal(lRun.fTypeface, rRun.fTypeface));
} else {
SkASSERT_RELEASE(!rRun.fTypeface.get());
}
SkASSERT_RELEASE(lRun.fDescriptor.getDesc());
SkASSERT_RELEASE(rRun.fDescriptor.getDesc());
SkASSERT_RELEASE(*lRun.fDescriptor.getDesc() == *rRun.fDescriptor.getDesc());
if (lRun.fOverrideDescriptor.get()) {
SkASSERT_RELEASE(lRun.fOverrideDescriptor->getDesc());
SkASSERT_RELEASE(rRun.fOverrideDescriptor.get() && rRun.fOverrideDescriptor->getDesc());
SkASSERT_RELEASE(*lRun.fOverrideDescriptor->getDesc() ==
*rRun.fOverrideDescriptor->getDesc());
} else {
SkASSERT_RELEASE(!rRun.fOverrideDescriptor.get());
}
// color can be changed
//SkASSERT(lRun.fColor == rRun.fColor);
SkASSERT_RELEASE(lRun.fInitialized == rRun.fInitialized);
SkASSERT_RELEASE(lRun.fDrawAsPaths == rRun.fDrawAsPaths);
SkASSERT_RELEASE(lRun.fSubRunInfo.count() == rRun.fSubRunInfo.count());
for(int j = 0; j < lRun.fSubRunInfo.count(); j++) {
const Run::SubRunInfo& lSubRun = lRun.fSubRunInfo[j];
const Run::SubRunInfo& rSubRun = rRun.fSubRunInfo[j];
// TODO we can do this check, but we have to apply the VM to the old vertex bounds
//SkASSERT_RELEASE(lSubRun.vertexBounds() == rSubRun.vertexBounds());
if (lSubRun.strike()) {
SkASSERT_RELEASE(rSubRun.strike());
SkASSERT_RELEASE(GrBatchTextStrike::GetKey(*lSubRun.strike()) ==
GrBatchTextStrike::GetKey(*rSubRun.strike()));
} else {
SkASSERT_RELEASE(!rSubRun.strike());
}
SkASSERT_RELEASE(lSubRun.vertexStartIndex() == rSubRun.vertexStartIndex());
SkASSERT_RELEASE(lSubRun.vertexEndIndex() == rSubRun.vertexEndIndex());
SkASSERT_RELEASE(lSubRun.glyphStartIndex() == rSubRun.glyphStartIndex());
SkASSERT_RELEASE(lSubRun.glyphEndIndex() == rSubRun.glyphEndIndex());
SkASSERT_RELEASE(lSubRun.maskFormat() == rSubRun.maskFormat());
SkASSERT_RELEASE(lSubRun.drawAsDistanceFields() == rSubRun.drawAsDistanceFields());
SkASSERT_RELEASE(lSubRun.hasUseLCDText() == rSubRun.hasUseLCDText());
}
}
}
void GrAtlasTextBlob::Run::SubRunInfo::computeTranslation(const SkMatrix& viewMatrix,
SkScalar x, SkScalar y, SkScalar* transX,
SkScalar* transY) {
calculate_translation(!this->drawAsDistanceFields(), viewMatrix, x, y,
fCurrentViewMatrix, fX, fY, transX, transY);
fCurrentViewMatrix = viewMatrix;
fX = x;
fY = y;
}
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