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      1 /*
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      3  *
      4  * Redistribution and use in source and binary forms, with or without
      5  * modification, are permitted provided that the following conditions are
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      9  * notice, this list of conditions and the following disclaimer.
     10  *     * Redistributions in binary form must reproduce the above
     11  * copyright notice, this list of conditions and the following disclaimer
     12  * in the documentation and/or other materials provided with the
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     15  * contributors may be used to endorse or promote products derived from
     16  * this software without specific prior written permission.
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     28  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     29  */
     30 
     31 #include "config.h"
     32 
     33 #include "SkiaUtils.h"
     34 
     35 #include "ImageBuffer.h"
     36 #include "SharedBuffer.h"
     37 #include "SkCanvas.h"
     38 #include "SkColorPriv.h"
     39 #include "SkMatrix.h"
     40 #include "SkRegion.h"
     41 #include "SkUnPreMultiply.h"
     42 
     43 namespace WebCore {
     44 
     45 #if PLATFORM(ANDROID)
     46 static const struct CompositOpToSkiaMode {
     47     uint8_t mCompositOp;
     48     uint8_t mMode;
     49 } gMapCompositOpsToSkiaModes[] = {
     50     { CompositeClear,           SkXfermode::kClear_Mode },
     51     { CompositeCopy,            SkXfermode::kSrc_Mode },
     52     { CompositeSourceOver,      SkXfermode::kSrcOver_Mode },
     53     { CompositeSourceIn,        SkXfermode::kSrcIn_Mode },
     54     { CompositeSourceOut,       SkXfermode::kSrcOut_Mode },
     55     { CompositeSourceAtop,      SkXfermode::kSrcATop_Mode },
     56     { CompositeDestinationOver, SkXfermode::kDstOver_Mode },
     57     { CompositeDestinationIn,   SkXfermode::kDstIn_Mode },
     58     { CompositeDestinationOut,  SkXfermode::kDstOut_Mode },
     59     { CompositeDestinationAtop, SkXfermode::kDstATop_Mode },
     60     { CompositeXOR,             SkXfermode::kXor_Mode },
     61     // need more details on the composite modes to be sure these are right
     62     { CompositePlusDarker,      SkXfermode::kDarken_Mode },
     63     { CompositeHighlight,       SkXfermode::kSrcOver_Mode },  // TODO
     64     { CompositePlusLighter,     SkXfermode::kPlus_Mode }
     65 };
     66 
     67 SkXfermode::Mode WebCoreCompositeToSkiaCOmposite(CompositeOperator op)
     68 {
     69     const CompositOpToSkiaMode* table = gMapCompositOpsToSkiaModes;
     70 
     71     for (unsigned i = 0; i < SK_ARRAY_COUNT(gMapCompositOpsToSkiaModes); i++) {
     72         if (table[i].mCompositOp == op)
     73             return (SkXfermode::Mode)table[i].mMode;
     74     }
     75 
     76     SkDEBUGF(("GraphicsContext::setCompositeOperation uknown CompositeOperator %d\n", op));
     77     return SkXfermode::kSrcOver_Mode; // fall-back
     78 }
     79 
     80 #endif
     81 
     82 static const struct CompositOpToXfermodeMode {
     83     uint8_t mCompositOp;
     84     uint8_t m_xfermodeMode;
     85 } gMapCompositOpsToXfermodeModes[] = {
     86     { CompositeClear,           SkXfermode::kClear_Mode },
     87     { CompositeCopy,            SkXfermode::kSrc_Mode },
     88     { CompositeSourceOver,      SkXfermode::kSrcOver_Mode },
     89     { CompositeSourceIn,        SkXfermode::kSrcIn_Mode },
     90     { CompositeSourceOut,       SkXfermode::kSrcOut_Mode },
     91     { CompositeSourceAtop,      SkXfermode::kSrcATop_Mode },
     92     { CompositeDestinationOver, SkXfermode::kDstOver_Mode },
     93     { CompositeDestinationIn,   SkXfermode::kDstIn_Mode },
     94     { CompositeDestinationOut,  SkXfermode::kDstOut_Mode },
     95     { CompositeDestinationAtop, SkXfermode::kDstATop_Mode },
     96     { CompositeXOR,             SkXfermode::kXor_Mode },
     97     { CompositePlusDarker,      SkXfermode::kDarken_Mode },
     98     { CompositeHighlight,       SkXfermode::kSrcOver_Mode },  // TODO
     99     { CompositePlusLighter,     SkXfermode::kPlus_Mode }
    100 };
    101 
    102 SkXfermode::Mode WebCoreCompositeToSkiaComposite(CompositeOperator op)
    103 {
    104     const CompositOpToXfermodeMode* table = gMapCompositOpsToXfermodeModes;
    105 
    106     for (unsigned i = 0; i < SK_ARRAY_COUNT(gMapCompositOpsToXfermodeModes); i++) {
    107         if (table[i].mCompositOp == op)
    108             return (SkXfermode::Mode)table[i].m_xfermodeMode;
    109     }
    110 
    111     SkDEBUGF(("GraphicsContext::setPlatformCompositeOperation unknown CompositeOperator %d\n", op));
    112     return SkXfermode::kSrcOver_Mode; // fall-back
    113 }
    114 
    115 #if PLATFORM(ANDROID)
    116 Color SkPMColorToWebCoreColor(SkPMColor pm)
    117 {
    118     SkColor c = SkUnPreMultiply::PMColorToColor(pm);
    119     // need the cast to find the right constructor
    120     return WebCore::Color((int)SkColorGetR(c), (int)SkColorGetG(c),
    121                           (int)SkColorGetB(c), (int)SkColorGetA(c));
    122 }
    123 #else
    124 static U8CPU InvScaleByte(U8CPU component, uint32_t scale)
    125 {
    126     SkASSERT(component == (uint8_t)component);
    127     return (component * scale + 0x8000) >> 16;
    128 }
    129 
    130 SkColor SkPMColorToColor(SkPMColor pm)
    131 {
    132     if (!pm)
    133         return 0;
    134     unsigned a = SkGetPackedA32(pm);
    135     if (!a) {
    136         // A zero alpha value when there are non-zero R, G, or B channels is an
    137         // invalid premultiplied color (since all channels should have been
    138         // multiplied by 0 if a=0).
    139         SkASSERT(false);
    140         // In production, return 0 to protect against division by zero.
    141         return 0;
    142     }
    143 
    144     uint32_t scale = (255 << 16) / a;
    145 
    146     return SkColorSetARGB(a,
    147                           InvScaleByte(SkGetPackedR32(pm), scale),
    148                           InvScaleByte(SkGetPackedG32(pm), scale),
    149                           InvScaleByte(SkGetPackedB32(pm), scale));
    150 }
    151 
    152 Color SkPMColorToWebCoreColor(SkPMColor pm)
    153 {
    154     return SkPMColorToColor(pm);
    155 }
    156 #endif
    157 
    158 void IntersectRectAndRegion(const SkRegion& region, const SkRect& srcRect, SkRect* destRect) {
    159     // The cliperator requires an int rect, so we round out.
    160     SkIRect srcRectRounded;
    161     srcRect.roundOut(&srcRectRounded);
    162 
    163     // The Cliperator will iterate over a bunch of rects where our transformed
    164     // rect and the clipping region (which may be non-square) overlap.
    165     SkRegion::Cliperator cliperator(region, srcRectRounded);
    166     if (cliperator.done()) {
    167         destRect->setEmpty();
    168         return;
    169     }
    170 
    171     // Get the union of all visible rects in the clip that overlap our bitmap.
    172     SkIRect currentVisibleRect = cliperator.rect();
    173     cliperator.next();
    174     while (!cliperator.done()) {
    175         currentVisibleRect.join(cliperator.rect());
    176         cliperator.next();
    177     }
    178 
    179     destRect->set(currentVisibleRect);
    180 }
    181 
    182 void ClipRectToCanvas(const SkCanvas& canvas, const SkRect& srcRect, SkRect* destRect) {
    183     // Translate into the canvas' coordinate space. This is where the clipping
    184     // region applies.
    185     SkRect transformedSrc;
    186     canvas.getTotalMatrix().mapRect(&transformedSrc, srcRect);
    187 
    188     // Do the intersection.
    189     SkRect transformedDest;
    190     IntersectRectAndRegion(canvas.getTotalClip(), transformedSrc, &transformedDest);
    191 
    192     // Now transform it back into world space.
    193     SkMatrix inverseTransform;
    194     canvas.getTotalMatrix().invert(&inverseTransform);
    195     inverseTransform.mapRect(destRect, transformedDest);
    196 }
    197 
    198 bool SkPathContainsPoint(SkPath* originalPath, const FloatPoint& point, SkPath::FillType ft)
    199 {
    200     SkRegion rgn;
    201     SkRegion clip;
    202 
    203     SkPath::FillType originalFillType = originalPath->getFillType();
    204 
    205     const SkPath* path = originalPath;
    206     SkPath scaledPath;
    207     int scale = 1;
    208 
    209     SkRect bounds = originalPath->getBounds();
    210 
    211     // We can immediately return false if the point is outside the bounding
    212     // rect.  We don't use bounds.contains() here, since it would exclude
    213     // points on the right and bottom edges of the bounding rect, and we want
    214     // to include them.
    215     SkScalar fX = SkFloatToScalar(point.x());
    216     SkScalar fY = SkFloatToScalar(point.y());
    217     if (fX < bounds.fLeft || fX > bounds.fRight || fY < bounds.fTop || fY > bounds.fBottom)
    218         return false;
    219 
    220     originalPath->setFillType(ft);
    221 
    222     // Skia has trouble with coordinates close to the max signed 16-bit values
    223     // If we have those, we need to scale.
    224     //
    225     // TODO: remove this code once Skia is patched to work properly with large
    226     // values
    227     const SkScalar kMaxCoordinate = SkIntToScalar(1<<15);
    228     SkScalar biggestCoord = std::max(std::max(std::max(bounds.fRight, bounds.fBottom), -bounds.fLeft), -bounds.fTop);
    229 
    230     if (biggestCoord > kMaxCoordinate) {
    231         scale = SkScalarCeil(SkScalarDiv(biggestCoord, kMaxCoordinate));
    232 
    233         SkMatrix m;
    234         m.setScale(SkScalarInvert(SkIntToScalar(scale)), SkScalarInvert(SkIntToScalar(scale)));
    235         originalPath->transform(m, &scaledPath);
    236         path = &scaledPath;
    237     }
    238 
    239     int x = static_cast<int>(floorf(point.x() / scale));
    240     int y = static_cast<int>(floorf(point.y() / scale));
    241     clip.setRect(x - 1, y - 1, x + 1, y + 1);
    242 
    243     bool contains = rgn.setPath(*path, clip);
    244 
    245     originalPath->setFillType(originalFillType);
    246     return contains;
    247 }
    248 
    249 GraphicsContext* scratchContext()
    250 {
    251     static ImageBuffer* scratch = ImageBuffer::create(IntSize(1, 1)).leakPtr();
    252     // We don't bother checking for failure creating the ImageBuffer, since our
    253     // ImageBuffer initializer won't fail.
    254     return scratch->context();
    255 }
    256 
    257 }  // namespace WebCore
    258