Ejemplo n.º 1
0
/*
 * Tries to handle the image with PIEX. If PIEX returns kOk and finds the preview image, create a
 * SkJpegCodec. If PIEX returns kFail, then the file is invalid, return nullptr. In other cases,
 * fallback to create SkRawCodec for DNG images.
 */
SkCodec* SkRawCodec::NewFromStream(SkStream* stream) {
    SkAutoTDelete<SkRawStream> rawStream;
    if (is_asset_stream(*stream)) {
        rawStream.reset(new SkRawAssetStream(stream));
    } else {
        rawStream.reset(new SkRawBufferedStream(stream));
    }

    // Does not take the ownership of rawStream.
    SkPiexStream piexStream(rawStream.get());
    ::piex::PreviewImageData imageData;
    if (::piex::IsRaw(&piexStream)) {
        ::piex::Error error = ::piex::GetPreviewImageData(&piexStream, &imageData);

        if (error == ::piex::Error::kOk && imageData.preview.length > 0) {
            // transferBuffer() is destructive to the rawStream. Abandon the rawStream after this
            // function call.
            // FIXME: one may avoid the copy of memoryStream and use the buffered rawStream.
            SkMemoryStream* memoryStream =
                rawStream->transferBuffer(imageData.preview.offset, imageData.preview.length);
            return memoryStream ? SkJpegCodec::NewFromStream(memoryStream) : nullptr;
        } else if (error == ::piex::Error::kFail) {
            return nullptr;
        }
    }

    // Takes the ownership of the rawStream.
    SkAutoTDelete<SkDngImage> dngImage(SkDngImage::NewFromStream(rawStream.release()));
    if (!dngImage) {
        return nullptr;
    }

    return new SkRawCodec(dngImage.release());
}
Ejemplo n.º 2
0
ContextInfo GrContextFactory::getContextInfo(ContextType type, ContextOptions options) {
    for (int i = 0; i < fContexts.count(); ++i) {
        Context& context = fContexts[i];
        if (context.fType == type &&
            context.fOptions == options &&
            !context.fAbandoned) {
            if (context.fGLContext) {
                context.fGLContext->makeCurrent();
            }
            return ContextInfo(context.fGrContext, context.fGLContext);
        }
    }
    SkAutoTDelete<GLTestContext> glCtx;
    sk_sp<GrContext> grCtx;
    GrBackendContext backendContext = 0;
    sk_sp<const GrGLInterface> glInterface;
#ifdef SK_VULKAN
    sk_sp<const GrVkBackendContext> vkBackend;
#endif
    GrBackend backend = ContextTypeBackend(type);
    switch (backend) {
        case kOpenGL_GrBackend:
            switch (type) {
                case kGL_ContextType:
                    glCtx.reset(CreatePlatformGLTestContext(kGL_GrGLStandard));
                    break;
                case kGLES_ContextType:
                    glCtx.reset(CreatePlatformGLTestContext(kGLES_GrGLStandard));
                    break;
#if SK_ANGLE
#   ifdef SK_BUILD_FOR_WIN
                case kANGLE_ContextType:
                    glCtx.reset(CreateANGLEDirect3DGLTestContext());
                    break;
#   endif
                case kANGLE_GL_ContextType:
                    glCtx.reset(CreateANGLEOpenGLGLTestContext());
                    break;
#endif
#if SK_COMMAND_BUFFER
                case kCommandBuffer_ContextType:
                    glCtx.reset(CommandBufferGLTestContext::Create());
                    break;
#endif
#if SK_MESA
                case kMESA_ContextType:
                    glCtx.reset(CreateMesaGLTestContext());
                    break;
#endif
                case kNullGL_ContextType:
                    glCtx.reset(CreateNullGLTestContext());
                    break;
                case kDebugGL_ContextType:
                    glCtx.reset(CreateDebugGLTestContext());
                    break;
                default:
                    return ContextInfo();
            }
            if (nullptr == glCtx.get()) {
                return ContextInfo();
            }
            glInterface.reset(SkRef(glCtx->gl()));
            // Block NVPR from non-NVPR types.
            if (!(kEnableNVPR_ContextOptions & options)) {
                glInterface.reset(GrGLInterfaceRemoveNVPR(glInterface.get()));
                if (!glInterface) {
                    return ContextInfo();
                }
            }
            backendContext = reinterpret_cast<GrBackendContext>(glInterface.get());
            glCtx->makeCurrent();
            break;
#ifdef SK_VULKAN
        case kVulkan_GrBackend:
            SkASSERT(kVulkan_ContextType == type);
            if ((kEnableNVPR_ContextOptions & options) ||
                (kRequireSRGBSupport_ContextOptions & options)) {
                return ContextInfo();
            }
            vkBackend.reset(GrVkBackendContext::Create());
            if (!vkBackend) {
                return ContextInfo();
            }
            backendContext = reinterpret_cast<GrBackendContext>(vkBackend.get());
            // There is some bug (either in Skia or the NV Vulkan driver) where VkDevice
            // destruction will hang occaisonally. For some reason having an existing GL
            // context fixes this.
            if (!fSentinelGLContext) {
                fSentinelGLContext.reset(CreatePlatformGLTestContext(kGL_GrGLStandard));
                if (!fSentinelGLContext) {
                    fSentinelGLContext.reset(CreatePlatformGLTestContext(kGLES_GrGLStandard));
                }
            }
            break;
#endif
        default:
            return ContextInfo();
    }

    grCtx.reset(GrContext::Create(backend, backendContext, fGlobalOptions));
    if (!grCtx.get()) {
        return ContextInfo();
    }
    if (kEnableNVPR_ContextOptions & options) {
        if (!grCtx->caps()->shaderCaps()->pathRenderingSupport()) {
            return ContextInfo();
        }
    }
    if (kRequireSRGBSupport_ContextOptions & options) {
        if (!grCtx->caps()->srgbSupport()) {
            return ContextInfo();
        }
    }

    Context& context = fContexts.push_back();
    context.fGLContext = glCtx.release();
    context.fGrContext = SkRef(grCtx.get());
    context.fType = type;
    context.fOptions = options;
    context.fAbandoned = false;
    return ContextInfo(context.fGrContext, context.fGLContext);
}
Ejemplo n.º 3
0
ContextInfo GrContextFactory::getContextInfo(ContextType type, ContextOptions options) {
    for (int i = 0; i < fContexts.count(); ++i) {
        Context& context = fContexts[i];
        if (context.fType == type &&
            context.fOptions == options &&
            !context.fAbandoned) {
            context.fTestContext->makeCurrent();
            return ContextInfo(context.fBackend, context.fTestContext, context.fGrContext);
        }
    }
    SkAutoTDelete<TestContext> testCtx;
    sk_sp<GrContext> grCtx;
    GrBackendContext backendContext = 0;
    sk_sp<const GrGLInterface> glInterface;
    GrBackend backend = ContextTypeBackend(type);
    switch (backend) {
        case kOpenGL_GrBackend: {
            GLTestContext* glCtx;
            switch (type) {
                case kGL_ContextType:
                    glCtx = CreatePlatformGLTestContext(kGL_GrGLStandard);
                    break;
                case kGLES_ContextType:
                    glCtx = CreatePlatformGLTestContext(kGLES_GrGLStandard);
                    break;
#if SK_ANGLE
#   ifdef SK_BUILD_FOR_WIN
                case kANGLE_ContextType:
                    glCtx = CreateANGLEDirect3DGLTestContext();
                    break;
#   endif
                case kANGLE_GL_ContextType:
                    glCtx = CreateANGLEOpenGLGLTestContext();
                    break;
#endif
#if SK_COMMAND_BUFFER
                case kCommandBuffer_ContextType:
                    glCtx = CommandBufferGLTestContext::Create();
                    break;
#endif
#if SK_MESA
                case kMESA_ContextType:
                    glCtx = CreateMesaGLTestContext();
                    break;
#endif
                case kNullGL_ContextType:
                    glCtx = CreateNullGLTestContext(kEnableNVPR_ContextOptions & options);
                    break;
                case kDebugGL_ContextType:
                    glCtx = CreateDebugGLTestContext();
                    break;
                default:
                    return ContextInfo();
            }
            if (!glCtx) {
                return ContextInfo();
            }
            testCtx.reset(glCtx);
            glInterface.reset(SkRef(glCtx->gl()));
            // Block NVPR from non-NVPR types. We don't block NVPR from contexts that will use
            // instanced rendering because that would prevent us from testing mixed samples.
            if (!((kEnableNVPR_ContextOptions | kUseInstanced_ContextOptions) & options)) {
                glInterface.reset(GrGLInterfaceRemoveNVPR(glInterface.get()));
                if (!glInterface) {
                    return ContextInfo();
                }
            }
            backendContext = reinterpret_cast<GrBackendContext>(glInterface.get());
            break;
        }
#ifdef SK_VULKAN
        case kVulkan_GrBackend:
            SkASSERT(kVulkan_ContextType == type);
            if (kEnableNVPR_ContextOptions & options) {
                return ContextInfo();
            }
            testCtx.reset(CreatePlatformVkTestContext());
            if (!testCtx) {
                return ContextInfo();
            }

            // There is some bug (either in Skia or the NV Vulkan driver) where VkDevice
            // destruction will hang occaisonally. For some reason having an existing GL
            // context fixes this.
            if (!fSentinelGLContext) {
                fSentinelGLContext.reset(CreatePlatformGLTestContext(kGL_GrGLStandard));
                if (!fSentinelGLContext) {
                    fSentinelGLContext.reset(CreatePlatformGLTestContext(kGLES_GrGLStandard));
                }
            }
            backendContext = testCtx->backendContext();
            break;
#endif
        default:
            return ContextInfo();
    }
    testCtx->makeCurrent();
    SkASSERT(testCtx && testCtx->backend() == backend);
    GrContextOptions grOptions = fGlobalOptions;
    if (kUseInstanced_ContextOptions & options) {
        grOptions.fEnableInstancedRendering = true;
    }
    grCtx.reset(GrContext::Create(backend, backendContext, grOptions));
    if (!grCtx.get()) {
        return ContextInfo();
    }
    if (kEnableNVPR_ContextOptions & options) {
        if (!grCtx->caps()->shaderCaps()->pathRenderingSupport()) {
            return ContextInfo();
        }
    }
    if (kUseInstanced_ContextOptions & options) {
        if (GrCaps::InstancedSupport::kNone == grCtx->caps()->instancedSupport()) {
            return ContextInfo();
        }
    }
    if (kRequireSRGBSupport_ContextOptions & options) {
        if (!grCtx->caps()->srgbSupport()) {
            return ContextInfo();
        }
    }

    Context& context = fContexts.push_back();
    context.fBackend = backend;
    context.fTestContext = testCtx.release();
    context.fGrContext = SkRef(grCtx.get());
    context.fType = type;
    context.fOptions = options;
    context.fAbandoned = false;
    return ContextInfo(context.fBackend, context.fTestContext, context.fGrContext);
}
Ejemplo n.º 4
0
SkAdvancedTypefaceMetrics::AdvanceMetric<Data>* getAdvanceData(
        FontHandle fontHandle,
        int num_glyphs,
        const uint32_t* subsetGlyphIDs,
        uint32_t subsetGlyphIDsLength,
        bool (*getAdvance)(FontHandle fontHandle, int gId, Data* data)) {
    // Assuming that on average, the ASCII representation of an advance plus
    // a space is 8 characters and the ASCII representation of a glyph id is 3
    // characters, then the following cut offs for using different range types
    // apply:
    // The cost of stopping and starting the range is 7 characers
    //  a. Removing 4 0's or don't care's is a win
    // The cost of stopping and starting the range plus a run is 22
    // characters
    //  b. Removing 3 repeating advances is a win
    //  c. Removing 2 repeating advances and 3 don't cares is a win
    // When not currently in a range the cost of a run over a range is 16
    // characaters, so:
    //  d. Removing a leading 0/don't cares is a win because it is omitted
    //  e. Removing 2 repeating advances is a win

    SkAutoTDelete<SkAdvancedTypefaceMetrics::AdvanceMetric<Data> > result;
    SkAdvancedTypefaceMetrics::AdvanceMetric<Data>* curRange;
    SkAdvancedTypefaceMetrics::AdvanceMetric<Data>* prevRange = nullptr;
    Data lastAdvance = kInvalidAdvance;
    int repeatedAdvances = 0;
    int wildCardsInRun = 0;
    int trailingWildCards = 0;
    uint32_t subsetIndex = 0;

    // Limit the loop count to glyph id ranges provided.
    int firstIndex = 0;
    int lastIndex = num_glyphs;
    if (subsetGlyphIDs) {
        firstIndex = static_cast<int>(subsetGlyphIDs[0]);
        lastIndex =
                static_cast<int>(subsetGlyphIDs[subsetGlyphIDsLength - 1]) + 1;
    }
    curRange = appendRange(&result, firstIndex);

    for (int gId = firstIndex; gId <= lastIndex; gId++) {
        Data advance = kInvalidAdvance;
        if (gId < lastIndex) {
            // Get glyph id only when subset is nullptr, or the id is in subset.
            SkASSERT(!subsetGlyphIDs || (subsetIndex < subsetGlyphIDsLength &&
                    static_cast<uint32_t>(gId) <= subsetGlyphIDs[subsetIndex]));
            if (!subsetGlyphIDs ||
                (subsetIndex < subsetGlyphIDsLength &&
                 static_cast<uint32_t>(gId) == subsetGlyphIDs[subsetIndex])) {
                SkAssertResult(getAdvance(fontHandle, gId, &advance));
                ++subsetIndex;
            } else {
                advance = kDontCareAdvance;
            }
        }
        if (advance == lastAdvance) {
            repeatedAdvances++;
            trailingWildCards = 0;
        } else if (advance == kDontCareAdvance) {
            wildCardsInRun++;
            trailingWildCards++;
        } else if (curRange->fAdvance.count() ==
                   repeatedAdvances + 1 + wildCardsInRun) {  // All in run.
            if (lastAdvance == 0) {
                resetRange(curRange, gId);
                trailingWildCards = 0;
            } else if (repeatedAdvances + 1 >= 2 || trailingWildCards >= 4) {
                finishRange(curRange, gId - 1,
                            SkAdvancedTypefaceMetrics::WidthRange::kRun);
                prevRange = curRange;
                curRange = appendRange(&curRange->fNext, gId);
                trailingWildCards = 0;
            }
            repeatedAdvances = 0;
            wildCardsInRun = trailingWildCards;
            trailingWildCards = 0;
        } else {
            if (lastAdvance == 0 &&
                    repeatedAdvances + 1 + wildCardsInRun >= 4) {
                finishRange(curRange,
                            gId - repeatedAdvances - wildCardsInRun - 2,
                            SkAdvancedTypefaceMetrics::WidthRange::kRange);
                prevRange = curRange;
                curRange = appendRange(&curRange->fNext, gId);
                trailingWildCards = 0;
            } else if (trailingWildCards >= 4 && repeatedAdvances + 1 < 2) {
                finishRange(curRange,
                            gId - trailingWildCards - 1,
                            SkAdvancedTypefaceMetrics::WidthRange::kRange);
                prevRange = curRange;
                curRange = appendRange(&curRange->fNext, gId);
                trailingWildCards = 0;
            } else if (lastAdvance != 0 &&
                       (repeatedAdvances + 1 >= 3 ||
                        (repeatedAdvances + 1 >= 2 && wildCardsInRun >= 3))) {
                finishRange(curRange,
                            gId - repeatedAdvances - wildCardsInRun - 2,
                            SkAdvancedTypefaceMetrics::WidthRange::kRange);
                curRange =
                    appendRange(&curRange->fNext,
                                gId - repeatedAdvances - wildCardsInRun - 1);
                curRange->fAdvance.append(1, &lastAdvance);
                finishRange(curRange, gId - 1,
                            SkAdvancedTypefaceMetrics::WidthRange::kRun);
                prevRange = curRange;
                curRange = appendRange(&curRange->fNext, gId);
                trailingWildCards = 0;
            }
            repeatedAdvances = 0;
            wildCardsInRun = trailingWildCards;
            trailingWildCards = 0;
        }
        curRange->fAdvance.append(1, &advance);
        if (advance != kDontCareAdvance) {
            lastAdvance = advance;
        }
    }
    if (curRange->fStartId == lastIndex) {
        SkASSERT(prevRange);
        SkASSERT(prevRange->fNext->fStartId == lastIndex);
        prevRange->fNext.reset();
    } else {
        finishRange(curRange, lastIndex - 1,
                    SkAdvancedTypefaceMetrics::WidthRange::kRange);
    }
    return result.release();
}