Ejemplo n.º 1
0
void QuartzBitmap_Output(QuartzDesc_t dev, QuartzBitmapDevice *qbd)
{
    if(qbd->path && qbd->uti) {
        /* On 10.4+ we can employ the CGImageDestination API to create a
           variety of different bitmap formats */
#if MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_4
	char buf[PATH_MAX+1];
	snprintf(buf, PATH_MAX, qbd->path, qbd->page); buf[PATH_MAX] = '\0';
        CFStringRef pathString = CFStringCreateWithBytes(kCFAllocatorDefault, (UInt8*) buf, strlen(buf), kCFStringEncodingUTF8, FALSE);
        CFURLRef path;
        if(CFStringFind(pathString, CFSTR("://"), 0).location != kCFNotFound) {
            CFStringRef pathEscaped = CFURLCreateStringByAddingPercentEscapes(kCFAllocatorDefault, pathString, NULL, NULL, kCFStringEncodingUTF8);
            path = CFURLCreateWithString(kCFAllocatorDefault, pathEscaped, NULL);
            CFRelease(pathEscaped);
        } else {
            path = CFURLCreateFromFileSystemRepresentation(kCFAllocatorDefault, (const UInt8*) buf, strlen(buf), FALSE);
        }
        CFRelease(pathString);

        CFStringRef scheme = CFURLCopyScheme(path);
       	CFStringRef type  = CFStringCreateWithBytes(kCFAllocatorDefault, (UInt8*) qbd->uti, strlen(qbd->uti), kCFStringEncodingUTF8, FALSE);
    	CGImageRef image = CGBitmapContextCreateImage(qbd->bitmap);
        if(CFStringCompare(scheme,CFSTR("file"), 0) == 0) { /* file output */
            CGImageDestinationRef dest = CGImageDestinationCreateWithURL(path, type, 1, NULL);
	    if(dest) {
		CGImageDestinationAddImage(dest, image, NULL);
		CGImageDestinationFinalize(dest);
		CFRelease(dest);
	    } else 
		error(_("QuartzBitmap_Output - unable to open file '%s'"), buf);
        } else if(CFStringCompare(scheme, CFSTR("clipboard"), 0) == 0) { /* clipboard output */
            CFMutableDataRef      data = CFDataCreateMutable(kCFAllocatorDefault, 0);
            CGImageDestinationRef dest = CGImageDestinationCreateWithData(data, type, 1, NULL);
            CGImageDestinationAddImage(dest, image, NULL);
            CGImageDestinationFinalize(dest);
            CFRelease(dest);
            PasteboardRef pb = NULL;
            if(PasteboardCreate(kPasteboardClipboard, &pb) == noErr) {
                PasteboardClear(pb);
                PasteboardSynchronize(pb);
                PasteboardPutItemFlavor(pb, (PasteboardItemID) 1, type, data, 0);
            }
            CFRelease(data);
        } else
            warning(_("not a supported scheme, no image data written"));
        CFRelease(scheme);
       	CFRelease(type);
        CFRelease(path);
        CFRelease(image);
#endif
    }
}
Ejemplo n.º 2
0
static void dumpBitmap(CGContextRef bitmapContext, const char* checksum)
{
    RetainPtr<CGImageRef> image = adoptCF(CGBitmapContextCreateImage(bitmapContext));
    RetainPtr<CFMutableDataRef> imageData = adoptCF(CFDataCreateMutable(0, 0));
    RetainPtr<CGImageDestinationRef> imageDest = adoptCF(CGImageDestinationCreateWithData(imageData.get(), kUTTypePNG, 1, 0));
    CGImageDestinationAddImage(imageDest.get(), image.get(), 0);
    CGImageDestinationFinalize(imageDest.get());

    const unsigned char* data = CFDataGetBytePtr(imageData.get());
    const size_t dataLength = CFDataGetLength(imageData.get());

    printPNG(data, dataLength, checksum);
}
Ejemplo n.º 3
0
int main(int argc, char** argv) {
    if (argc <= 1 || !*(argv[1]) || 0 == strcmp(argv[1], "-")) {
        fprintf(stderr, "usage:\n\t%s INPUT_PDF_FILE_PATH [OUTPUT_PNG_PATH]\n", argv[0]);
        return 1;
    }
    const char* output = argc > 2 ? argv[2] : nullptr;
    CGDataProviderRef data = CGDataProviderCreateWithFilename(argv[1]);
    ASSERT(data);
    CGPDFDocumentRef pdf = CGPDFDocumentCreateWithProvider(data);
    CGDataProviderRelease(data);
    ASSERT(pdf);
    CGPDFPageRef page = CGPDFDocumentGetPage(pdf, PAGE);
    ASSERT(page);
    CGRect bounds = CGPDFPageGetBoxRect(page, kCGPDFMediaBox);
    int w = (int)CGRectGetWidth(bounds);
    int h = (int)CGRectGetHeight(bounds);
    CGBitmapInfo info = kCGBitmapByteOrder32Big | kCGImageAlphaPremultipliedLast;
    CGColorSpaceRef cs = CGColorSpaceCreateDeviceRGB();
    ASSERT(cs);
    std::unique_ptr<uint32_t[]> bitmap(new uint32_t[w * h]);
    memset(bitmap.get(), 0xFF, 4 * w * h);
    CGContextRef ctx = CGBitmapContextCreate(bitmap.get(), w, h, 8, w * 4, cs, info);
    ASSERT(ctx);
    CGContextDrawPDFPage(ctx, page);
    CGPDFDocumentRelease(pdf);
    CGImageRef image = CGBitmapContextCreateImage(ctx);
    ASSERT(image);
    CGDataConsumerCallbacks procs;
    procs.putBytes = [](void* f, const void* buf, size_t s) {
        return fwrite(buf, 1, s, (FILE*)f);
    };
    procs.releaseConsumer = [](void* info) {
        fclose((FILE*)info);
    };
    FILE* ofile = (!output || !output[0] || 0 == strcmp(output, "-"))
                  ? stdout : fopen(output, "wb");
    ASSERT(ofile);
    CGDataConsumerRef consumer = CGDataConsumerCreate(ofile, &procs);
    ASSERT(consumer);
    CGImageDestinationRef dst =
        CGImageDestinationCreateWithDataConsumer(consumer, kUTTypePNG, 1, nullptr);
    CFRelease(consumer);
    ASSERT(dst);
    CGImageDestinationAddImage(dst, image, nullptr);
    ASSERT(CGImageDestinationFinalize(dst));
    CFRelease(dst);
    CGImageRelease(image);
    CGColorSpaceRelease(cs);
    CGContextRelease(ctx);
    return 0;
}
Ejemplo n.º 4
0
void BackingStore::paint(WebCore::GraphicsContext* context, const WebCore::IntRect& clipRect)
{
    // FIXME: Honor the clip rect!
    OwnPtr<GraphicsContext> sourceContext(createGraphicsContext());

    // FIXME: This creates an extra copy.
    RetainPtr<CGImageRef> image(AdoptCF, CGBitmapContextCreateImage(sourceContext->platformContext()));

    CGContextRef cgContext = context->platformContext();
    
    CGContextSaveGState(cgContext);
    CGContextDrawImage(context->platformContext(), CGRectMake(0, 0, CGImageGetWidth(image.get()), CGImageGetHeight(image.get())), image.get());
    CGContextRestoreGState(cgContext);
}
Ejemplo n.º 5
0
void CGImageLuminanceSource::init (CGImageRef cgimage, int left, int top, int width, int height) {
    data_ = 0;
    image_ = cgimage;
    left_ = left;
    top_ = top;
    width_ = width;
    height_ = height;
    dataWidth_ = (int)CGImageGetWidth(image_);
    dataHeight_ = (int)CGImageGetHeight(image_);

    if (left_ + width_ > dataWidth_ ||
        top_ + height_ > dataHeight_ ||
        top_ < 0 ||
        left_ < 0) {
        throw IllegalArgumentException("Crop rectangle does not fit within image data.");
    }

    CGColorSpaceRef space = CGImageGetColorSpace(image_);
    CGColorSpaceModel model = CGColorSpaceGetModel(space);

    if (model != kCGColorSpaceModelMonochrome || CGImageGetBitsPerComponent(image_) != 8 || CGImageGetBitsPerPixel(image_) != 8) {
        CGColorSpaceRef gray = CGColorSpaceCreateDeviceGray();
        
        CGContextRef ctx = CGBitmapContextCreate(0, width, height, 8, width, gray, kCGImageAlphaNone);
        
        CGColorSpaceRelease(gray);

        if (top || left) {
            CGContextClipToRect(ctx, CGRectMake(0, 0, width, height));
        }

        CGContextDrawImage(ctx, CGRectMake(-left, -top, width, height), image_);
    
        image_ = CGBitmapContextCreateImage(ctx);

        bytesPerRow_ = width;
        top_ = 0;
        left_ = 0;
        dataWidth_ = width;
        dataHeight_ = height;

        CGContextRelease(ctx);
    } else {
        CGImageRetain(image_);
    }

    CGDataProviderRef provider = CGImageGetDataProvider(image_);
    data_ = CGDataProviderCopyData(provider);
}
Ejemplo n.º 6
0
CGImageRef CreatePDFPageImage(CGPDFPageRef page, CGFloat scale, bool transparentBackground)
{
	CGSize pageSize = PDFPageGetSize(page, kCGPDFCropBox);
	
	size_t width = scale * floorf(pageSize.width);
	size_t height = scale * floorf(pageSize.height);
	size_t bytesPerLine = width * 4;
	uint64_t size = (uint64_t)height * (uint64_t)bytesPerLine;
	
	if ((size == 0) || (size > SIZE_MAX))
		return NULL;
	
	void *bitmapData = malloc(size);
	if (!bitmapData)
		return NULL;
	
#if TARGET_OS_IPHONE
	CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB();
#else
	CGColorSpaceRef colorSpace = CGColorSpaceCreateWithName(&kCGColorSpaceSRGB ? kCGColorSpaceSRGB : kCGColorSpaceGenericRGB);
#endif
	CGContextRef context = CGBitmapContextCreate(bitmapData, width, height, 8, bytesPerLine, colorSpace, kCGImageAlphaPremultipliedFirst);
	
	if (transparentBackground)
	{
		CGContextClearRect(context, CGRectMake(0, 0, width, height));
	}
	else
	{
		CGContextSetRGBFillColor(context, 1, 1, 1, 1); // white
		CGContextFillRect(context, CGRectMake(0, 0, width, height));
	}
	
	// CGPDFPageGetDrawingTransform unfortunately does not upscale, see http://lists.apple.com/archives/quartz-dev/2005/Mar/msg00112.html
	CGAffineTransform drawingTransform = PDFPageGetDrawingTransform(page, kCGPDFCropBox, scale);
	CGContextConcatCTM(context, drawingTransform);
	
	CGContextDrawPDFPage(context, page);
	
	CGImageRef pdfImage = CGBitmapContextCreateImage(context);
	
	CGContextRelease(context);
	CGColorSpaceRelease(colorSpace);
	free(bitmapData);
	
	return pdfImage;
}
Ejemplo n.º 7
0
PassRefPtr<Image> ImageBuffer::copyImage(BackingStoreCopy copyBehavior) const
{
    RetainPtr<CGImageRef> image;
    if (m_resolutionScale == 1)
        image = copyNativeImage(copyBehavior);
    else {
        image.adoptCF(copyNativeImage(DontCopyBackingStore));
        RetainPtr<CGContextRef> context(AdoptCF, CGBitmapContextCreate(0, logicalSize().width(), logicalSize().height(), 8, 4 * logicalSize().width(), deviceRGBColorSpaceRef(), kCGImageAlphaPremultipliedLast));
        CGContextSetBlendMode(context.get(), kCGBlendModeCopy);
        CGContextDrawImage(context.get(), CGRectMake(0, 0, logicalSize().width(), logicalSize().height()), image.get());
        image = CGBitmapContextCreateImage(context.get());
    }

    if (!image)
        return 0;

    return BitmapImage::create(image.get());
}
Ejemplo n.º 8
0
bool MCTileCacheCoreGraphicsCompositor_AllocateTile(void *p_context, int32_t p_size, const void *p_bits, uint32_t p_stride, void*& r_tile)
{
	MCTileCacheCoreGraphicsCompositorContext *self;
	self = (MCTileCacheCoreGraphicsCompositorContext *)p_context;
	
	// If the stride is exactly one tile wide, we don't need a copy.
	void *t_data;
	t_data = nil;
	if (p_stride == p_size * sizeof(uint32_t))
		t_data = (void *)p_bits;
	else if (MCMemoryAllocate(p_size * p_size * sizeof(uint32_t), t_data))
	{
		// Copy across each scanline of the tile into the buffer.
		for(int32_t y = 0; y < p_size; y++)
			memcpy((uint8_t *)t_data + y * p_size * sizeof(uint32_t), (uint8_t *)p_bits + p_stride * y, p_size * sizeof(uint32_t));
	}
	
	CGImageRef t_tile;
	t_tile = nil;
	if (t_data != nil)
	{
		// IM-2013-08-21: [[ RefactorGraphics ]] Refactor CGImage creation code to be pixel-format independent
		CGBitmapInfo t_bm_info;
		t_bm_info = MCGPixelFormatToCGBitmapInfo(kMCGPixelFormatNative, true);
		
		CGContextRef t_cgcontext;
		t_cgcontext = CGBitmapContextCreate((void *)t_data, p_size, p_size, 8, p_size * sizeof(uint32_t), self -> colorspace, t_bm_info);
		if (t_cgcontext != nil)
		{
			t_tile = CGBitmapContextCreateImage(t_cgcontext);
			CGContextRelease(t_cgcontext);
		}
	}
	
	if (t_data != p_bits)
		MCMemoryDeallocate(t_data);
		
	if (t_tile == nil)
		return false;

	r_tile = t_tile;
	
	return true;
}
Ejemplo n.º 9
0
CGImageRef Image::createAbstraction(float stylization, uint quantization)
{
	pixel4b *rgbPixels = (pixel4b *) CFDataGetMutableBytePtr(_data);
	
	// Convert from RGB to Lab colorspace to perform operations on lightness channel.
	RGBtoLab(rgbPixels, _pixels);
	
	// Initial bilateral filter.
	bilateral();
	
	// Extract edges.
	pixel3f *edges = createEdges(stylization);
	
	// Additional bilateral filtering.
	bilateral();
	bilateral();
	
	// Quantize lightness channel.
	quantize(quantization);
	 
	// Overlay edges.
	overlayEdges(edges);
	 
	// Convert back to RGB colorspace.
	LabtoRGB(_pixels, rgbPixels);
	
	// Create an image from the modified data.
	CGContextRef context = CGBitmapContextCreate(
		rgbPixels,
		_width,
		_height,
		_bitsPerComponent,
		_bytesPerRow,
		_colorSpaceRef,
		_bitmapInfo
	);
	
	CGImageRef image = CGBitmapContextCreateImage(context);
	
	delete[] edges;
	
	return image;
}
Ejemplo n.º 10
0
String ImageBuffer::toDataURL(const String& mimeType, const double* quality) const
{
    ASSERT(MIMETypeRegistry::isSupportedImageMIMETypeForEncoding(mimeType));

    RetainPtr<CGImageRef> image;
    if (!m_accelerateRendering)
        image.adoptCF(CGBitmapContextCreateImage(context()->platformContext()));
#if USE(IOSURFACE_CANVAS_BACKING_STORE)
    else
        image.adoptCF(wkIOSurfaceContextCreateImage(context()->platformContext()));
#endif

    if (!image)
        return "data:,";

    RetainPtr<CFMutableDataRef> data(AdoptCF, CFDataCreateMutable(kCFAllocatorDefault, 0));
    if (!data)
        return "data:,";

    RetainPtr<CFStringRef> uti = utiFromMIMEType(mimeType);
    ASSERT(uti);

    RetainPtr<CGImageDestinationRef> destination(AdoptCF, CGImageDestinationCreateWithData(data.get(), uti.get(), 1, 0));
    if (!destination)
        return "data:,";

    RetainPtr<CFDictionaryRef> imageProperties = 0;
    if (CFEqual(uti.get(), jpegUTI()) && quality && *quality >= 0.0 && *quality <= 1.0) {
        // Apply the compression quality to the image destination.
        RetainPtr<CFNumberRef> compressionQuality(AdoptCF, CFNumberCreate(kCFAllocatorDefault, kCFNumberDoubleType, quality));
        const void* key = kCGImageDestinationLossyCompressionQuality;
        const void* value = compressionQuality.get();
        imageProperties.adoptCF(CFDictionaryCreate(0, &key, &value, 1, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks));
    }

    CGImageDestinationAddImage(destination.get(), image.get(), imageProperties.get());
    CGImageDestinationFinalize(destination.get());

    Vector<char> out;
    base64Encode(reinterpret_cast<const char*>(CFDataGetBytePtr(data.get())), CFDataGetLength(data.get()), out);

    return makeString("data:", mimeType, ";base64,", out);
}
Ejemplo n.º 11
0
DragImageRef scaleDragImage(DragImageRef image, FloatSize scale)
{
    // FIXME: due to the way drag images are done on windows we need 
    // to preprocess the alpha channel <rdar://problem/5015946>

    if (!image)
        return 0;
    CGContextRef targetContext;
    CGContextRef srcContext;
    CGImageRef srcImage;
    IntSize srcSize = dragImageSize(image);
    IntSize dstSize(static_cast<int>(srcSize.width() * scale.width()), static_cast<int>(srcSize.height() * scale.height()));
    HBITMAP hbmp = 0;
    HDC dc = GetDC(0);
    HDC dstDC = CreateCompatibleDC(dc);
    if (!dstDC)
        goto exit;

    hbmp = allocImage(dstDC, dstSize, &targetContext);
    if (!hbmp)
        goto exit;

    srcContext = createCgContextFromBitmap(image);
    srcImage = CGBitmapContextCreateImage(srcContext);
    CGRect rect;
    rect.origin.x = 0;
    rect.origin.y = 0;
    rect.size = dstSize;
    CGContextDrawImage(targetContext, rect, srcImage);
    CGImageRelease(srcImage);
    CGContextRelease(srcContext);
    CGContextRelease(targetContext);
    ::DeleteObject(image);
    image = 0;

exit:
    if (!hbmp)
        hbmp = image;
    if (dstDC)
        DeleteDC(dstDC);
    ReleaseDC(0, dc);
    return hbmp;
}
Ejemplo n.º 12
0
String ImageBuffer::toDataURL(const String& mimeType, const double* quality, CoordinateSystem) const
{
    ASSERT(MIMETypeRegistry::isSupportedImageMIMETypeForEncoding(mimeType));

    if (context().isAcceleratedContext())
        flushContext();

    RetainPtr<CFStringRef> uti = utiFromMIMEType(mimeType);
    ASSERT(uti);

    RefPtr<Uint8ClampedArray> premultipliedData;
    RetainPtr<CGImageRef> image;

    if (CFEqual(uti.get(), jpegUTI())) {
        // JPEGs don't have an alpha channel, so we have to manually composite on top of black.
        premultipliedData = getPremultipliedImageData(IntRect(IntPoint(0, 0), logicalSize()));
        if (!premultipliedData)
            return "data:,";

        RetainPtr<CGDataProviderRef> dataProvider;
        dataProvider = adoptCF(CGDataProviderCreateWithData(0, premultipliedData->data(), 4 * logicalSize().width() * logicalSize().height(), 0));
        if (!dataProvider)
            return "data:,";

        image = adoptCF(CGImageCreate(logicalSize().width(), logicalSize().height(), 8, 32, 4 * logicalSize().width(),
                                    deviceRGBColorSpaceRef(), kCGBitmapByteOrderDefault | kCGImageAlphaNoneSkipLast,
                                    dataProvider.get(), 0, false, kCGRenderingIntentDefault));
    } else if (m_resolutionScale == 1) {
        image = copyNativeImage(CopyBackingStore);
        image = createCroppedImageIfNecessary(image.get(), internalSize());
    } else {
        image = copyNativeImage(DontCopyBackingStore);
        RetainPtr<CGContextRef> context = adoptCF(CGBitmapContextCreate(0, logicalSize().width(), logicalSize().height(), 8, 4 * logicalSize().width(), deviceRGBColorSpaceRef(), kCGImageAlphaPremultipliedLast));
        CGContextSetBlendMode(context.get(), kCGBlendModeCopy);
        CGContextClipToRect(context.get(), CGRectMake(0, 0, logicalSize().width(), logicalSize().height()));
        FloatSize imageSizeInUserSpace = scaleSizeToUserSpace(logicalSize(), m_data.backingStoreSize, internalSize());
        CGContextDrawImage(context.get(), CGRectMake(0, 0, imageSizeInUserSpace.width(), imageSizeInUserSpace.height()), image.get());
        image = adoptCF(CGBitmapContextCreateImage(context.get()));
    }

    return CGImageToDataURL(image.get(), mimeType, quality);
}
Ejemplo n.º 13
0
OSStatus GeneratePreviewForURL(void *thisInterface, QLPreviewRequestRef preview, CFURLRef url, CFStringRef contentTypeUTI, CFDictionaryRef options)
{
	CGDataProviderRef dataProvider = CGDataProviderCreateWithURL(url);
	if (!dataProvider) return -1;
	CFDataRef data = CGDataProviderCopyData(dataProvider);
	CGDataProviderRelease(dataProvider);
	if (!data) return -1;
	
	int width, height, channels;
	unsigned char* rgbadata = SOIL_load_image_from_memory(CFDataGetBytePtr(data), CFDataGetLength(data), &width, &height, &channels, SOIL_LOAD_RGBA);
	CFStringRef format=CFStringCreateWithBytes(NULL, CFDataGetBytePtr(data) + 0x54, 4, kCFStringEncodingASCII, false);
    CFRelease(data);
	if (!rgbadata) return -1;
	
	CGColorSpaceRef rgb = CGColorSpaceCreateDeviceRGB();
	CGContextRef context = CGBitmapContextCreate(rgbadata, width, height, 8, width * 4, rgb, kCGImageAlphaPremultipliedLast);
	SOIL_free_image_data(rgbadata);
	CGColorSpaceRelease(rgb);
	if (!context) return -1;

	CGImageRef image = CGBitmapContextCreateImage(context);
	CGContextRelease(context);
	if (!image) return -1;

	/* Add basic metadata to title */
	CFStringRef name = CFURLCopyLastPathComponent(url);
	CFTypeRef keys[1] = {kQLPreviewPropertyDisplayNameKey};
	CFTypeRef values[1] = {CFStringCreateWithFormat(NULL, NULL, CFSTR("%@ (%dx%d %@)"), name, width, height, format)};
 	CFDictionaryRef properties = CFDictionaryCreate(NULL, (const void**)keys, (const void**)values, 1, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks);
	CFRelease(name);

	context = QLPreviewRequestCreateContext(preview, CGSizeMake(width, height), true, properties);
	CGContextDrawImage(context, CGRectMake(0, 0, width, height), image);
	QLPreviewRequestFlushContext(preview, context);
	
	CGContextRelease(context);
	CFRelease(format);
	CFRelease(properties);
	
	return noErr;
}
Ejemplo n.º 14
0
CFX_QuartzDeviceDriver::CFX_QuartzDeviceDriver(CGContextRef context, FX_INT32 deviceClass)
{
    m_saveCount = 0;
    _context		= context;
    _deviceClass	= deviceClass;
    CGContextRetain(_context);
    CGRect r = CGContextGetClipBoundingBox(context);
    _width	= FXSYS_round(r.size.width);
    _height	= FXSYS_round(r.size.height);
    _renderCaps = FXRC_SOFT_CLIP | FXRC_BLEND_MODE |
                  FXRC_ALPHA_PATH | FXRC_ALPHA_IMAGE |
                  FXRC_BIT_MASK | FXRC_ALPHA_MASK;
    if (_deviceClass != FXDC_DISPLAY) {
    } else {
        CGImageRef image = CGBitmapContextCreateImage(_context);
        if (image) {
            _renderCaps |= FXRC_GET_BITS;
            _width = CGImageGetWidth(image);
            _height = CGImageGetHeight(image);
            CGImageAlphaInfo alphaInfo = CGImageGetAlphaInfo(image);
            if (kCGImageAlphaPremultipliedFirst == alphaInfo ||
                    kCGImageAlphaPremultipliedLast == alphaInfo ||
                    kCGImageAlphaOnly == alphaInfo) {
                _renderCaps |= FXRC_ALPHA_OUTPUT;
            }
        }
        CGImageRelease(image);
    }
    CGAffineTransform ctm = CGContextGetCTM(_context);
    CGContextSaveGState(_context);
    m_saveCount++;
    if (ctm.d >= 0) {
        CGFloat offset_x, offset_y;
        offset_x = ctm.tx;
        offset_y = ctm.ty;
        CGContextTranslateCTM(_context, -offset_x, -offset_y);
        CGContextConcatCTM(_context, CGAffineTransformMake(1, 0, 0, -1, offset_x, _height + offset_y));
    }
    _foxitDevice2User = CGAffineTransformIdentity;
    _user2FoxitDevice = CGAffineTransformInvert(_foxitDevice2User);
}
Ejemplo n.º 15
0
int main (int argc, const char * argv[])
{
    if(argc >= 2) {
        CGPDFDocumentRef doc = CGPDFDocumentCreateWithProvider(CGDataProviderCreateWithFilename(argv[1]));
        size_t pages = CGPDFDocumentGetNumberOfPages(doc);
        
        printf("%lu pages\n", pages);
        
        for(size_t i = 1; i <= pages; i++) {
            char filename[1024];
            
            snprintf(filename, 1024, "%s.%03lu.png", argv[1], i);
            
            printf("writing file: %s\n", filename);
         
            CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB();
            CGContextRef context = CGBitmapContextCreate(NULL, SIZE, SIZE, 8, 4 * SIZE, colorSpace, kCGImageAlphaPremultipliedLast);
            CGColorSpaceRelease(colorSpace);
            
            CGContextDrawPDFDocument(context, CGRectMake(0, 0, SIZE, SIZE), doc, (int)i);
            
            CGImageRef image = CGBitmapContextCreateImage(context);
            
            CGImageDestinationRef dest = CGImageDestinationCreateWithURL(CFURLCreateWithFileSystemPath(kCFAllocatorDefault, CFStringCreateWithCString(kCFAllocatorDefault, filename, kCFStringEncodingASCII), kCFURLPOSIXPathStyle, false), kUTTypePNG, 1, NULL);
            
            CGImageDestinationAddImage(dest, image, NULL);
            
            CGImageDestinationFinalize(dest);
            
            CGImageRelease(image);
            CGContextRelease(context);
        }
        
        CGPDFDocumentRelease(doc);
    } else {
        printf("pdf2png [filename]\n");
        return 1;
    }
    
    return 0;
}
Ejemplo n.º 16
0
RefPtr<Image> ImageBuffer::copyImage(BackingStoreCopy copyBehavior, ScaleBehavior scaleBehavior) const
{
    RetainPtr<CGImageRef> image;
    if (m_resolutionScale == 1 || scaleBehavior == Unscaled) {
        image = copyNativeImage(copyBehavior);
        image = createCroppedImageIfNecessary(image.get(), internalSize());
    } else {
        image = copyNativeImage(DontCopyBackingStore);
        RetainPtr<CGContextRef> context = adoptCF(CGBitmapContextCreate(0, logicalSize().width(), logicalSize().height(), 8, 4 * logicalSize().width(), deviceRGBColorSpaceRef(), kCGImageAlphaPremultipliedLast));
        CGContextSetBlendMode(context.get(), kCGBlendModeCopy);
        CGContextClipToRect(context.get(), FloatRect(FloatPoint::zero(), logicalSize()));
        FloatSize imageSizeInUserSpace = scaleSizeToUserSpace(logicalSize(), m_data.backingStoreSize, internalSize());
        CGContextDrawImage(context.get(), FloatRect(FloatPoint::zero(), imageSizeInUserSpace), image.get());
        image = adoptCF(CGBitmapContextCreateImage(context.get()));
    }

    if (!image)
        return nullptr;

    return BitmapImage::create(image.get());
}
Ejemplo n.º 17
0
DragImageRef scaleDragImage(DragImageRef imageRef, FloatSize scale)
{
    // FIXME: due to the way drag images are done on windows we need 
    // to preprocess the alpha channel <rdar://problem/5015946>
    if (!imageRef)
        return 0;

    GDIObject<HBITMAP> hbmp;
    auto image = adoptGDIObject(imageRef);

    IntSize srcSize = dragImageSize(image.get());
    IntSize dstSize(static_cast<int>(srcSize.width() * scale.width()), static_cast<int>(srcSize.height() * scale.height()));

    HWndDC dc(0);
    auto dstDC = adoptGDIObject(::CreateCompatibleDC(dc));
    if (!dstDC)
        goto exit;

    CGContextRef targetContext;
    hbmp = allocImage(dstDC.get(), dstSize, &targetContext);
    if (!hbmp)
        goto exit;

    CGContextRef srcContext = createCgContextFromBitmap(image.get());
    CGImageRef srcImage = CGBitmapContextCreateImage(srcContext);
    CGRect rect;
    rect.origin.x = 0;
    rect.origin.y = 0;
    rect.size = dstSize;
    CGContextDrawImage(targetContext, rect, srcImage);
    CGImageRelease(srcImage);
    CGContextRelease(srcContext);
    CGContextRelease(targetContext);

exit:
    if (!hbmp)
        hbmp.swap(image);
    return hbmp.leak();
}
Ejemplo n.º 18
0
PassRefPtr<BitmapImage> BitmapImage::create(HBITMAP hBitmap)
{
    DIBSECTION dibSection;
    if (!GetObject(hBitmap, sizeof(DIBSECTION), &dibSection))
        return 0;

    ASSERT(dibSection.dsBm.bmBitsPixel == 32);
    if (dibSection.dsBm.bmBitsPixel != 32)
        return 0;

    ASSERT(dibSection.dsBm.bmBits);
    if (!dibSection.dsBm.bmBits)
        return 0;

    RetainPtr<CGContextRef> bitmapContext(AdoptCF, CGBitmapContextCreate(dibSection.dsBm.bmBits, dibSection.dsBm.bmWidth, dibSection.dsBm.bmHeight, 8,
        dibSection.dsBm.bmWidthBytes, deviceRGBColorSpaceRef(), kCGBitmapByteOrder32Little | kCGImageAlphaPremultipliedFirst));

    // The BitmapImage takes ownership of this.
    CGImageRef cgImage = CGBitmapContextCreateImage(bitmapContext.get());

    return adoptRef(new BitmapImage(cgImage));
}
Ejemplo n.º 19
0
CGImageRef CGimageResize(CGImageRef image, CGSize maxSize)
{
    // calcualte size
    CGFloat ratio = MAX(CGImageGetWidth(image)/maxSize.width,CGImageGetHeight(image)/maxSize.height);
    size_t width = CGImageGetWidth(image)/ratio;
    size_t height = CGImageGetHeight(image)/ratio;
    // resize
    CGColorSpaceRef colorspace = CGColorSpaceCreateDeviceRGB();
    CGContextRef context = CGBitmapContextCreate(NULL, width, height,
                                                 8, width*4, colorspace, kCGImageAlphaPremultipliedLast);
    CGColorSpaceRelease(colorspace);
    
    if(context == NULL) return nil;
    
    // draw image to context (resizing it)
    CGContextDrawImage(context, CGRectMake(0, 0, width, height), image);
    // extract resulting image from context
    CGImageRef imgRef = CGBitmapContextCreateImage(context);
    CGContextRelease(context);
    
    return imgRef;
}
Ejemplo n.º 20
0
int main(int argc, const char * argv[])
{
    size_t width = 2000;
    size_t height = 2000;
    CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB();
    CGContextRef context = CGBitmapContextCreate(nullptr, width, height, 8, width * 4, colorSpace, kCGImageAlphaNoneSkipLast);
    CGColorSpaceRelease(colorSpace);
    const std::vector<uint8_t> fontVector = generateFont();
    std::ofstream outputFile("/Volumes/Data/home/mmaxfield/tmp/output.otf", std::ios::out | std::ios::binary);
    for (uint8_t b : fontVector)
        outputFile << b;
    outputFile.close();
    
    CFDataRef fontData = CFDataCreate(kCFAllocatorDefault, fontVector.data(), fontVector.size());
    CTFontDescriptorRef fontDescriptor = CTFontManagerCreateFontDescriptorFromData(fontData);
    CFRelease(fontData);

    CFTypeRef featureValues[] = { CFSTR("liga"), CFSTR("clig"), CFSTR("dlig"), CFSTR("hlig"), CFSTR("calt"), CFSTR("subs"), CFSTR("sups"), CFSTR("smcp"), CFSTR("c2sc"), CFSTR("pcap"), CFSTR("c2pc"), CFSTR("unic"), CFSTR("titl"), CFSTR("onum"), CFSTR("pnum"), CFSTR("tnum"), CFSTR("frac"), CFSTR("afrc"), CFSTR("ordn"), CFSTR("zero"), CFSTR("hist"), CFSTR("jp78"), CFSTR("jp83"), CFSTR("jp90"), CFSTR("jp04"), CFSTR("smpl"), CFSTR("trad"), CFSTR("fwid"), CFSTR("pwid"), CFSTR("ruby") };
    CFArrayRef features = CFArrayCreate(kCFAllocatorDefault, featureValues, 30, &kCFTypeArrayCallBacks);

    for (CFIndex i = 0; i < CFArrayGetCount(features); ++i) {
        drawTextWithFeature(context, fontDescriptor, static_cast<CFStringRef>(CFArrayGetValueAtIndex(features, i)), 1, CGPointMake(25, 1950 - 50 * i));
        drawTextWithFeature(context, fontDescriptor, static_cast<CFStringRef>(CFArrayGetValueAtIndex(features, i)), 0, CGPointMake(25, 1925 - 50 * i));
    }

    CFRelease(features);
    CFRelease(fontDescriptor);
    CGImageRef image = CGBitmapContextCreateImage(context);
    CGContextRelease(context);
    CFURLRef url = CFURLCreateWithFileSystemPath(kCFAllocatorDefault, CFSTR("/Volumes/Data/home/mmaxfield/tmp/output.png"), kCFURLPOSIXPathStyle, FALSE);
    CGImageDestinationRef imageDestination = CGImageDestinationCreateWithURL(url, kUTTypePNG, 1, nullptr);
    CFRelease(url);
    CGImageDestinationAddImage(imageDestination, image, nullptr);
    CGImageRelease(image);
    CGImageDestinationFinalize(imageDestination);
    CFRelease(imageDestination);
    return 0;
}
Ejemplo n.º 21
0
RetainPtr<CGImageRef> ImageBuffer::copyNativeImage(BackingStoreCopy copyBehavior) const
{
    RetainPtr<CGImageRef> image;
    if (!context().isAcceleratedContext()) {
        switch (copyBehavior) {
        case DontCopyBackingStore:
            image = adoptCF(CGImageCreate(m_data.backingStoreSize.width(), m_data.backingStoreSize.height(), 8, 32, m_data.bytesPerRow.unsafeGet(), m_data.colorSpace, m_data.bitmapInfo, m_data.dataProvider.get(), 0, true, kCGRenderingIntentDefault));
            break;
        case CopyBackingStore:
            image = adoptCF(CGBitmapContextCreateImage(context().platformContext()));
            break;
        default:
            ASSERT_NOT_REACHED();
            break;
        }
    }
#if USE(IOSURFACE_CANVAS_BACKING_STORE)
    else
        image = m_data.surface->createImage();
#endif

    return image;
}
Ejemplo n.º 22
0
NativeImagePtr ImageBuffer::copyNativeImage(BackingStoreCopy copyBehavior) const
{
    CGImageRef image = 0;
    if (!m_context->isAcceleratedContext()) {
        switch (copyBehavior) {
        case DontCopyBackingStore:
            image = CGImageCreate(m_size.width(), m_size.height(), 8, 32, m_data.m_bytesPerRow.unsafeGet(), m_data.m_colorSpace, m_data.m_bitmapInfo, m_data.m_dataProvider.get(), 0, true, kCGRenderingIntentDefault);
            break;
        case CopyBackingStore:
            image = CGBitmapContextCreateImage(context()->platformContext());
            break;
        default:
            ASSERT_NOT_REACHED();
            break;
        }
    }
#if USE(IOSURFACE_CANVAS_BACKING_STORE)
    else
        image = wkIOSurfaceContextCreateImage(context()->platformContext());
#endif

    return image;
}
Ejemplo n.º 23
0
void ImageBufferData::putData(Uint8ClampedArray*& source, const IntSize& sourceSize, const IntRect& sourceRect, const IntPoint& destPoint, const IntSize& size, bool accelerateRendering, bool unmultiplied, float resolutionScale)
{
    ASSERT(sourceRect.width() > 0);
    ASSERT(sourceRect.height() > 0);
    
    int originx = sourceRect.x();
    int destx = (destPoint.x() + sourceRect.x()) * resolutionScale;
    ASSERT(destx >= 0);
    ASSERT(destx < size.width());
    ASSERT(originx >= 0);
    ASSERT(originx <= sourceRect.maxX());
    
    int endx = (destPoint.x() + sourceRect.maxX()) * resolutionScale;
    ASSERT(endx <= size.width());
    
    int width = sourceRect.width();
    int destw = endx - destx;

    int originy = sourceRect.y();
    int desty = (destPoint.y() + sourceRect.y()) * resolutionScale;
    ASSERT(desty >= 0);
    ASSERT(desty < size.height());
    ASSERT(originy >= 0);
    ASSERT(originy <= sourceRect.maxY());
    
    int endy = (destPoint.y() + sourceRect.maxY()) * resolutionScale;
    ASSERT(endy <= size.height());

    int height = sourceRect.height();
    int desth = endy - desty;
    
    if (width <= 0 || height <= 0)
        return;
    
    unsigned srcBytesPerRow = 4 * sourceSize.width();
    unsigned char* srcRows = source->data() + originy * srcBytesPerRow + originx * 4;
    unsigned destBytesPerRow;
    unsigned char* destRows;
    
    if (!accelerateRendering) {
        destBytesPerRow = 4 * size.width();
        destRows = reinterpret_cast<unsigned char*>(m_data) + desty * destBytesPerRow + destx * 4;
        
#if USE(ACCELERATE)
        if (haveVImageRoundingErrorFix() && unmultiplied) {
            vImage_Buffer src;
            src.height = height;
            src.width = width;
            src.rowBytes = srcBytesPerRow;
            src.data = srcRows;
            
            vImage_Buffer dst;
            dst.height = desth;
            dst.width = destw;
            dst.rowBytes = destBytesPerRow;
            dst.data = destRows;

            if (resolutionScale != 1) {
                vImage_AffineTransform scaleTransform = { resolutionScale, 0, 0, resolutionScale, 0, 0 }; // FIXME: Add subpixel translation.
                Pixel_8888 backgroundColor;
                vImageAffineWarp_ARGB8888(&src, &dst, 0, &scaleTransform, backgroundColor, kvImageEdgeExtend);
                // The premultiplying will be done in-place.
                src = dst;
            }

            vImagePremultiplyData_RGBA8888(&src, &dst, kvImageNoFlags);
            return;
        }
#endif
        if (resolutionScale != 1) {
            RetainPtr<CGContextRef> sourceContext(AdoptCF, CGBitmapContextCreate(srcRows, width, height, 8, srcBytesPerRow, m_colorSpace, kCGImageAlphaPremultipliedLast));
            RetainPtr<CGImageRef> sourceImage(AdoptCF, CGBitmapContextCreateImage(sourceContext.get()));
            RetainPtr<CGContextRef> destinationContext(AdoptCF, CGBitmapContextCreate(destRows, destw, desth, 8, destBytesPerRow, m_colorSpace, kCGImageAlphaPremultipliedLast));
            CGContextSetBlendMode(destinationContext.get(), kCGBlendModeCopy);
            CGContextDrawImage(destinationContext.get(), CGRectMake(0, 0, width / resolutionScale, height / resolutionScale), sourceImage.get()); // FIXME: Add subpixel translation.
            if (!unmultiplied)
                return;

            srcRows = destRows;
            srcBytesPerRow = destBytesPerRow;
            width = destw;
            height = desth;
        }

        for (int y = 0; y < height; ++y) {
            for (int x = 0; x < width; x++) {
                int basex = x * 4;
                unsigned char alpha = srcRows[basex + 3];
                if (unmultiplied && alpha != 255) {
                    destRows[basex] = (srcRows[basex] * alpha + 254) / 255;
                    destRows[basex + 1] = (srcRows[basex + 1] * alpha + 254) / 255;
                    destRows[basex + 2] = (srcRows[basex + 2] * alpha + 254) / 255;
                    destRows[basex + 3] = alpha;
                } else
                    reinterpret_cast<uint32_t*>(destRows + basex)[0] = reinterpret_cast<uint32_t*>(srcRows + basex)[0];
            }
            destRows += destBytesPerRow;
            srcRows += srcBytesPerRow;
        }
    } else {
#if USE(IOSURFACE_CANVAS_BACKING_STORE)
        IOSurfaceRef surface = m_surface.get();
        IOSurfaceLock(surface, 0, 0);
        destBytesPerRow = IOSurfaceGetBytesPerRow(surface);
        destRows = (unsigned char*)(IOSurfaceGetBaseAddress(surface)) + desty * destBytesPerRow + destx * 4;

#if USE(ACCELERATE)
        vImage_Buffer src;
        src.height = height;
        src.width = width;
        src.rowBytes = srcBytesPerRow;
        src.data = srcRows;

        vImage_Buffer dest;
        dest.height = desth;
        dest.width = destw;
        dest.rowBytes = destBytesPerRow;
        dest.data = destRows;

        if (resolutionScale != 1) {
            vImage_AffineTransform scaleTransform = { resolutionScale, 0, 0, resolutionScale, 0, 0 }; // FIXME: Add subpixel translation.
            Pixel_8888 backgroundColor;
            vImageAffineWarp_ARGB8888(&src, &dest, 0, &scaleTransform, backgroundColor, kvImageEdgeExtend);
            // The unpremultiplying and channel-swapping will be done in-place.
            if (unmultiplied) {
                srcRows = destRows;
                width = destw;
                height = desth;
                srcBytesPerRow = destBytesPerRow;
            } else
                src = dest;
        }

        if (unmultiplied) {
            ScanlineData scanlineData;
            scanlineData.scanlineWidth = width;
            scanlineData.srcData = srcRows;
            scanlineData.srcRowBytes = srcBytesPerRow;
            scanlineData.destData = destRows;
            scanlineData.destRowBytes = destBytesPerRow;

            dispatch_apply_f(height, dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), &scanlineData, premultitplyScanline);
        } else {
            // Swap pixel channels from RGBA to BGRA.
            const uint8_t map[4] = { 2, 1, 0, 3 };
            vImagePermuteChannels_ARGB8888(&src, &dest, map, kvImageNoFlags);
        }
#else
        if (resolutionScale != 1) {
            RetainPtr<CGContextRef> sourceContext(AdoptCF, CGBitmapContextCreate(srcRows, width, height, 8, srcBytesPerRow, m_colorSpace, kCGImageAlphaPremultipliedLast));
            RetainPtr<CGImageRef> sourceImage(AdoptCF, CGBitmapContextCreateImage(sourceContext.get()));
            RetainPtr<CGContextRef> destinationContext(AdoptCF, CGBitmapContextCreate(destRows, destw, desth, 8, destBytesPerRow, m_colorSpace, kCGImageAlphaPremultipliedLast));
            CGContextSetBlendMode(destinationContext.get(), kCGBlendModeCopy);
            CGContextDrawImage(destinationContext.get(), CGRectMake(0, 0, width / resolutionScale, height / resolutionScale), sourceImage.get()); // FIXME: Add subpixel translation.

            srcRows = destRows;
            srcBytesPerRow = destBytesPerRow;
            width = destw;
            height = desth;
        }

        for (int y = 0; y < height; ++y) {
            for (int x = 0; x < width; x++) {
                int basex = x * 4;
                unsigned char b = srcRows[basex];
                unsigned char alpha = srcRows[basex + 3];
                if (unmultiplied && alpha != 255) {
                    destRows[basex] = (srcRows[basex + 2] * alpha + 254) / 255;
                    destRows[basex + 1] = (srcRows[basex + 1] * alpha + 254) / 255;
                    destRows[basex + 2] = (b * alpha + 254) / 255;
                    destRows[basex + 3] = alpha;
                } else {
                    destRows[basex] = srcRows[basex + 2];
                    destRows[basex + 1] = srcRows[basex + 1];
                    destRows[basex + 2] = b;
                    destRows[basex + 3] = alpha;
                }
            }
            destRows += destBytesPerRow;
            srcRows += srcBytesPerRow;
        }
#endif // USE(ACCELERATE)

        IOSurfaceUnlock(surface, 0, 0);
#else
        ASSERT_NOT_REACHED();
#endif // USE(IOSURFACE_CANVAS_BACKING_STORE)
    }
}
Ejemplo n.º 24
0
PassRefPtr<Uint8ClampedArray> ImageBufferData::getData(const IntRect& rect, const IntSize& size, bool accelerateRendering, bool unmultiplied, float resolutionScale) const
{
    float area = 4.0f * rect.width() * rect.height();
    if (area > static_cast<float>(std::numeric_limits<int>::max()))
        return 0;

    RefPtr<Uint8ClampedArray> result = Uint8ClampedArray::createUninitialized(rect.width() * rect.height() * 4);
    unsigned char* data = result->data();
    
    int endx = ceilf(rect.maxX() * resolutionScale);
    int endy = ceilf(rect.maxY() * resolutionScale);
    if (rect.x() < 0 || rect.y() < 0 || endx > size.width() || endy > size.height())
        result->zeroFill();
    
    int originx = rect.x();
    int destx = 0;
    int destw = rect.width();
    if (originx < 0) {
        destw += originx;
        destx = -originx;
        originx = 0;
    }
    destw = min<int>(destw, ceilf(size.width() / resolutionScale) - originx);
    originx *= resolutionScale;
    if (endx > size.width())
        endx = size.width();
    int width = endx - originx;
    
    int originy = rect.y();
    int desty = 0;
    int desth = rect.height();
    if (originy < 0) {
        desth += originy;
        desty = -originy;
        originy = 0;
    }
    desth = min<int>(desth, ceilf(size.height() / resolutionScale) - originy);
    originy *= resolutionScale;
    if (endy > size.height())
        endy = size.height();
    int height = endy - originy;
    
    if (width <= 0 || height <= 0)
        return result.release();
    
    unsigned destBytesPerRow = 4 * rect.width();
    unsigned char* destRows = data + desty * destBytesPerRow + destx * 4;
    
    unsigned srcBytesPerRow;
    unsigned char* srcRows;
    
    if (!accelerateRendering) {
        srcBytesPerRow = 4 * size.width();
        srcRows = reinterpret_cast<unsigned char*>(m_data) + originy * srcBytesPerRow + originx * 4;
        
#if USE(ACCELERATE)
        if (unmultiplied && haveVImageRoundingErrorFix()) {
            vImage_Buffer src;
            src.height = height;
            src.width = width;
            src.rowBytes = srcBytesPerRow;
            src.data = srcRows;
            
            vImage_Buffer dst;
            dst.height = desth;
            dst.width = destw;
            dst.rowBytes = destBytesPerRow;
            dst.data = destRows;

            if (resolutionScale != 1) {
                vImage_AffineTransform scaleTransform = { 1 / resolutionScale, 0, 0, 1 / resolutionScale, 0, 0 }; // FIXME: Add subpixel translation.
                Pixel_8888 backgroundColor;
                vImageAffineWarp_ARGB8888(&src, &dst, 0, &scaleTransform, backgroundColor, kvImageEdgeExtend);
                // The unpremultiplying will be done in-place.
                src = dst;
            }

            vImageUnpremultiplyData_RGBA8888(&src, &dst, kvImageNoFlags);
            return result.release();
        }
#endif
        if (resolutionScale != 1) {
            RetainPtr<CGContextRef> sourceContext(AdoptCF, CGBitmapContextCreate(srcRows, width, height, 8, srcBytesPerRow, m_colorSpace, kCGImageAlphaPremultipliedLast));
            RetainPtr<CGImageRef> sourceImage(AdoptCF, CGBitmapContextCreateImage(sourceContext.get()));
            RetainPtr<CGContextRef> destinationContext(AdoptCF, CGBitmapContextCreate(destRows, destw, desth, 8, destBytesPerRow, m_colorSpace, kCGImageAlphaPremultipliedLast));
            CGContextSetBlendMode(destinationContext.get(), kCGBlendModeCopy);
            CGContextDrawImage(destinationContext.get(), CGRectMake(0, 0, width / resolutionScale, height / resolutionScale), sourceImage.get()); // FIXME: Add subpixel translation.
            if (!unmultiplied)
                return result.release();

            srcRows = destRows;
            srcBytesPerRow = destBytesPerRow;
            width = destw;
            height = desth;
        }
        if (unmultiplied) {
            for (int y = 0; y < height; ++y) {
                for (int x = 0; x < width; x++) {
                    int basex = x * 4;
                    unsigned char alpha = srcRows[basex + 3];
                    if (alpha) {
                        destRows[basex] = (srcRows[basex] * 255) / alpha;
                        destRows[basex + 1] = (srcRows[basex + 1] * 255) / alpha;
                        destRows[basex + 2] = (srcRows[basex + 2] * 255) / alpha;
                        destRows[basex + 3] = alpha;
                    } else
                        reinterpret_cast<uint32_t*>(destRows + basex)[0] = reinterpret_cast<uint32_t*>(srcRows + basex)[0];
                }
                srcRows += srcBytesPerRow;
                destRows += destBytesPerRow;
            }
        } else {
            for (int y = 0; y < height; ++y) {
                for (int x = 0; x < width * 4; x += 4)
                    reinterpret_cast<uint32_t*>(destRows + x)[0] = reinterpret_cast<uint32_t*>(srcRows + x)[0];
                srcRows += srcBytesPerRow;
                destRows += destBytesPerRow;
            }
        }
    } else {
#if USE(IOSURFACE_CANVAS_BACKING_STORE)
        IOSurfaceRef surface = m_surface.get();
        IOSurfaceLock(surface, kIOSurfaceLockReadOnly, 0);
        srcBytesPerRow = IOSurfaceGetBytesPerRow(surface);
        srcRows = (unsigned char*)(IOSurfaceGetBaseAddress(surface)) + originy * srcBytesPerRow + originx * 4;

#if USE(ACCELERATE)
        vImage_Buffer src;
        src.height = height;
        src.width = width;
        src.rowBytes = srcBytesPerRow;
        src.data = srcRows;

        vImage_Buffer dest;
        dest.height = desth;
        dest.width = destw;
        dest.rowBytes = destBytesPerRow;
        dest.data = destRows;

        if (resolutionScale != 1) {
            vImage_AffineTransform scaleTransform = { 1 / resolutionScale, 0, 0, 1 / resolutionScale, 0, 0 }; // FIXME: Add subpixel translation.
            Pixel_8888 backgroundColor;
            vImageAffineWarp_ARGB8888(&src, &dest, 0, &scaleTransform, backgroundColor, kvImageEdgeExtend);
            // The unpremultiplying and channel-swapping will be done in-place.
            if (unmultiplied) {
                srcRows = destRows;
                width = destw;
                height = desth;
                srcBytesPerRow = destBytesPerRow;
            } else
                src = dest;
        }

        if (unmultiplied) {
            ScanlineData scanlineData;
            scanlineData.scanlineWidth = width;
            scanlineData.srcData = srcRows;
            scanlineData.srcRowBytes = srcBytesPerRow;
            scanlineData.destData = destRows;
            scanlineData.destRowBytes = destBytesPerRow;

            dispatch_apply_f(height, dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), &scanlineData, unpremultitplyScanline);
        } else {
            // Swap pixel channels from BGRA to RGBA.
            const uint8_t map[4] = { 2, 1, 0, 3 };
            vImagePermuteChannels_ARGB8888(&src, &dest, map, kvImageNoFlags);
        }
#else
        if (resolutionScale != 1) {
            RetainPtr<CGContextRef> sourceContext(AdoptCF, CGBitmapContextCreate(srcRows, width, height, 8, srcBytesPerRow, m_colorSpace, kCGImageAlphaPremultipliedLast));
            RetainPtr<CGImageRef> sourceImage(AdoptCF, CGBitmapContextCreateImage(sourceContext.get()));
            RetainPtr<CGContextRef> destinationContext(AdoptCF, CGBitmapContextCreate(destRows, destw, desth, 8, destBytesPerRow, m_colorSpace, kCGImageAlphaPremultipliedLast));
            CGContextSetBlendMode(destinationContext.get(), kCGBlendModeCopy);
            CGContextDrawImage(destinationContext.get(), CGRectMake(0, 0, width / resolutionScale, height / resolutionScale), sourceImage.get()); // FIXME: Add subpixel translation.

            srcRows = destRows;
            srcBytesPerRow = destBytesPerRow;
            width = destw;
            height = desth;
        }

        if (unmultiplied) {
            for (int y = 0; y < height; ++y) {
                for (int x = 0; x < width; x++) {
                    int basex = x * 4;
                    unsigned char b = srcRows[basex];
                    unsigned char alpha = srcRows[basex + 3];
                    if (alpha) {
                        destRows[basex] = (srcRows[basex + 2] * 255) / alpha;
                        destRows[basex + 1] = (srcRows[basex + 1] * 255) / alpha;
                        destRows[basex + 2] = (b * 255) / alpha;
                        destRows[basex + 3] = alpha;
                    } else {
                        destRows[basex] = srcRows[basex + 2];
                        destRows[basex + 1] = srcRows[basex + 1];
                        destRows[basex + 2] = b;
                        destRows[basex + 3] = srcRows[basex + 3];
                    }
                }
                srcRows += srcBytesPerRow;
                destRows += destBytesPerRow;
            }
        } else {
            for (int y = 0; y < height; ++y) {
                for (int x = 0; x < width; x++) {
                    int basex = x * 4;
                    unsigned char b = srcRows[basex];
                    destRows[basex] = srcRows[basex + 2];
                    destRows[basex + 1] = srcRows[basex + 1];
                    destRows[basex + 2] = b;
                    destRows[basex + 3] = srcRows[basex + 3];
                }
                srcRows += srcBytesPerRow;
                destRows += destBytesPerRow;
            }
        }
#endif // USE(ACCELERATE)
        IOSurfaceUnlock(surface, kIOSurfaceLockReadOnly, 0);
#else
        ASSERT_NOT_REACHED();
#endif // USE(IOSURFACE_CANVAS_BACKING_STORE)
    }
    
    return result.release();
}
Ejemplo n.º 25
0
void QRasterWindowSurface::flush(QWidget *widget, const QRegion &rgn, const QPoint &offset)
{
    Q_D(QRasterWindowSurface);

    // Not ready for painting yet, bail out. This can happen in
    // QWidget::create_sys()
    if (!d->image || rgn.rectCount() == 0)
        return;

#ifdef Q_WS_WIN
    QRect br = rgn.boundingRect();

    if (!qt_widget_private(window())->isOpaque
        && window()->testAttribute(Qt::WA_TranslucentBackground)
        && (qt_widget_private(window())->data.window_flags & Qt::FramelessWindowHint))
    {
        QRect r = window()->frameGeometry();
        QPoint frameOffset = qt_widget_private(window())->frameStrut().topLeft();
        QRect dirtyRect = br.translated(offset + frameOffset);

        SIZE size = {r.width(), r.height()};
        POINT ptDst = {r.x(), r.y()};
        POINT ptSrc = {0, 0};
        BLENDFUNCTION blend = {AC_SRC_OVER, 0, (BYTE)(255.0 * window()->windowOpacity()), Q_AC_SRC_ALPHA};
        RECT dirty = {dirtyRect.x(), dirtyRect.y(),
            dirtyRect.x() + dirtyRect.width(), dirtyRect.y() + dirtyRect.height()};
        Q_UPDATELAYEREDWINDOWINFO info = {sizeof(info), NULL, &ptDst, &size, d->image->hdc, &ptSrc, 0, &blend, Q_ULW_ALPHA, &dirty};
        ptrUpdateLayeredWindowIndirect(window()->internalWinId(), &info);
    } else

    {
        QPoint wOffset = qt_qwidget_data(widget)->wrect.topLeft();

        HDC widget_dc = widget->getDC();

        QRect wbr = br.translated(-wOffset);
        BitBlt(widget_dc, wbr.x(), wbr.y(), wbr.width(), wbr.height(),
               d->image->hdc, br.x() + offset.x(), br.y() + offset.y(), SRCCOPY);
        widget->releaseDC(widget_dc);
    }

#ifndef QT_NO_DEBUG
    static bool flush = !qgetenv("QT_FLUSH_WINDOWSURFACE").isEmpty();
    if (flush) {
        SelectObject(qt_win_display_dc(), GetStockObject(BLACK_BRUSH));
        Rectangle(qt_win_display_dc(), 0, 0, d->image->width() + 2, d->image->height() + 2);
        BitBlt(qt_win_display_dc(), 1, 1, d->image->width(), d->image->height(),
               d->image->hdc, 0, 0, SRCCOPY);
    }
#endif

#endif

#ifdef Q_WS_X11
    extern void *qt_getClipRects(const QRegion &r, int &num); // in qpaintengine_x11.cpp
    extern QWidgetData* qt_widget_data(QWidget *);
    QPoint wOffset = qt_qwidget_data(widget)->wrect.topLeft();

    if (widget->window() != window()) {
        XFreeGC(X11->display, d_ptr->gc);
        d_ptr->gc = XCreateGC(X11->display, widget->handle(), 0, 0);
    }

    QRegion wrgn(rgn);
    if (!wOffset.isNull())
        wrgn.translate(-wOffset);

    if (wrgn.rectCount() != 1) {
        int num;
        XRectangle *rects = (XRectangle *)qt_getClipRects(wrgn, num);
        XSetClipRectangles(X11->display, d_ptr->gc, 0, 0, rects, num, YXBanded);
    }

    QPoint widgetOffset = offset + wOffset;
    QRect clipRect = widget->rect().translated(widgetOffset).intersected(d_ptr->image->image.rect());

    QRect br = rgn.boundingRect().translated(offset).intersected(clipRect);
    QPoint wpos = br.topLeft() - widgetOffset;

#ifndef QT_NO_MITSHM
    if (d_ptr->image->xshmpm) {
        XCopyArea(X11->display, d_ptr->image->xshmpm, widget->handle(), d_ptr->gc,
                  br.x(), br.y(), br.width(), br.height(), wpos.x(), wpos.y());
        d_ptr->needsSync = true;
    } else if (d_ptr->image->xshmimg) {
        XShmPutImage(X11->display, widget->handle(), d_ptr->gc, d_ptr->image->xshmimg,
                     br.x(), br.y(), wpos.x(), wpos.y(), br.width(), br.height(), False);
        d_ptr->needsSync = true;
    } else
#endif
    {
        int depth = widget->x11Info().depth();
        const QImage &src = d->image->image;
        if (src.format() != QImage::Format_RGB32 || depth < 24 || X11->bppForDepth.value(depth) != 32) {
            Q_ASSERT(src.depth() >= 16);
            const QImage sub_src(src.scanLine(br.y()) + br.x() * (uint(src.depth()) / 8),
                                 br.width(), br.height(), src.bytesPerLine(), src.format());
            QX11PixmapData *data = new QX11PixmapData(QPixmapData::PixmapType);
            data->xinfo = widget->x11Info();
            data->fromImage(sub_src, Qt::NoOpaqueDetection);
            QPixmap pm = QPixmap(data);
            XCopyArea(X11->display, pm.handle(), widget->handle(), d_ptr->gc, 0 , 0 , br.width(), br.height(), wpos.x(), wpos.y());
        } else {
            // qpaintengine_x11.cpp
            extern void qt_x11_drawImage(const QRect &rect, const QPoint &pos, const QImage &image, Drawable hd, GC gc, Display *dpy, Visual *visual, int depth);
            qt_x11_drawImage(br, wpos, src, widget->handle(), d_ptr->gc, X11->display, (Visual *)widget->x11Info().visual(), depth);
        }
    }

    if (wrgn.rectCount() != 1)
        XSetClipMask(X11->display, d_ptr->gc, XNone);
#endif // FALCON

#ifdef Q_WS_MAC

    Q_UNUSED(offset);

    // This is mainly done for native components like native "open file" dialog.
    if (widget->testAttribute(Qt::WA_DontShowOnScreen)) {
        return;
    }

#ifdef QT_MAC_USE_COCOA

    this->needsFlush = true;
    this->regionToFlush += rgn;

    // The actual flushing will be processed in [view drawRect:rect]
    qt_mac_setNeedsDisplay(widget);

#else
    // Get a context for the widget.
    CGContextRef context;
    CGrafPtr port = GetWindowPort(qt_mac_window_for(widget));
    QDBeginCGContext(port, &context);
    CGContextRetain(context);
    CGContextSaveGState(context);

    // Flip context.
    CGContextTranslateCTM(context, 0, widget->height());
    CGContextScaleCTM(context, 1, -1);

    // Clip to region.
    const QVector<QRect> &rects = rgn.rects();
    for (int i = 0; i < rects.size(); ++i) {
        const QRect &rect = rects.at(i);
        CGContextAddRect(context, CGRectMake(rect.x(), rect.y(), rect.width(), rect.height()));
    }
    CGContextClip(context);

    QRect r = rgn.boundingRect().intersected(d->image->image.rect());
    const CGRect area = CGRectMake(r.x(), r.y(), r.width(), r.height());
    CGImageRef image = CGBitmapContextCreateImage(d->image->cg);
    CGImageRef subImage = CGImageCreateWithImageInRect(image, area);

    qt_mac_drawCGImage(context, &area, subImage);

    CGImageRelease(subImage);
    CGImageRelease(image);

    QDEndCGContext(port, &context);

    // Restore context.
    CGContextRestoreGState(context);
    CGContextRelease(context);
#endif // QT_MAC_USE_COCOA

#endif // Q_WS_MAC

}
Ejemplo n.º 26
0
static void _GraphicsScreen_cellArrayOrImage (GraphicsScreen me, double **z_float, double_rgbt **z_rgbt, unsigned char **z_byte,
	long ix1, long ix2, long x1DC, long x2DC,
	long iy1, long iy2, long y1DC, long y2DC,
	double minimum, double maximum,
	long clipx1, long clipx2, long clipy1, long clipy2, int interpolate)
{
	/*long t=clock();*/
	long nx = ix2 - ix1 + 1;   /* The number of cells along the horizontal axis. */
	long ny = iy2 - iy1 + 1;   /* The number of cells along the vertical axis. */
	double dx = (double) (x2DC - x1DC) / (double) nx;   /* Horizontal pixels per cell. Positive. */
	double dy = (double) (y2DC - y1DC) / (double) ny;   /* Vertical pixels per cell. Negative. */
	double scale = 255.0 / (maximum - minimum), offset = 255.0 + minimum * scale;
	if (x2DC <= x1DC || y1DC <= y2DC) return;
	trace ("scale %f", scale);
	/* Clip by the intersection of the world window and the outline of the cells. */
	//Melder_casual ("clipy1 %ld clipy2 %ld", clipy1, clipy2);
	if (clipx1 < x1DC) clipx1 = x1DC;
	if (clipx2 > x2DC) clipx2 = x2DC;
	if (clipy1 > y1DC) clipy1 = y1DC;
	if (clipy2 < y2DC) clipy2 = y2DC;
	/*
	 * The first decision is whether we are going to use the standard rectangle drawing
	 * (cellArray only), or whether we are going to write into a bitmap.
	 * The standard drawing is best for small numbers of cells,
	 * provided that some cells are larger than a pixel.
	 */
	if (! interpolate && nx * ny < 3000 && (dx > 1.0 || dy < -1.0)) {
		try {
			/*unsigned int cellWidth = (unsigned int) dx + 1;*/
			unsigned int cellHeight = (unsigned int) (- (int) dy) + 1;
			long ix, iy;
			#if cairo
				cairo_pattern_t *grey [256];
				for (int igrey = 0; igrey < sizeof (grey) / sizeof (*grey); igrey ++) {
					double v = igrey / ((double) (sizeof (grey) / sizeof (*grey)) - 1.0);
					grey [igrey] = cairo_pattern_create_rgb (v, v, v);
				}
			#elif win
				static HBRUSH greyBrush [256];
				RECT rect;
				if (! greyBrush [0])
					for (int igrey = 0; igrey <= 255; igrey ++)
						greyBrush [igrey] = CreateSolidBrush (RGB (igrey, igrey, igrey));   // once
			#elif mac
				GraphicsQuartz_initDraw (me);
				CGContextSetAlpha (my d_macGraphicsContext, 1.0);
				CGContextSetBlendMode (my d_macGraphicsContext, kCGBlendModeNormal);
			#endif
			autoNUMvector <long> lefts (ix1, ix2 + 1);
			for (ix = ix1; ix <= ix2 + 1; ix ++)
				lefts [ix] = x1DC + (long) ((ix - ix1) * dx);
			for (iy = iy1; iy <= iy2; iy ++) {
				long bottom = y1DC + (long) ((iy - iy1) * dy), top = bottom - cellHeight;
				if (top > clipy1 || bottom < clipy2) continue;
				if (top < clipy2) top = clipy2;
				if (bottom > clipy1) bottom = clipy1;
				#if win
					rect. bottom = bottom; rect. top = top;
				#endif
				for (ix = ix1; ix <= ix2; ix ++) {
					long left = lefts [ix], right = lefts [ix + 1];
					if (right < clipx1 || left > clipx2) continue;
					if (left < clipx1) left = clipx1;
					if (right > clipx2) right = clipx2;
					if (z_rgbt) {
						#if cairo
							// NYI
						#elif win
							// NYI
						#elif mac
							double red          = z_rgbt [iy] [ix]. red;
							double green        = z_rgbt [iy] [ix]. green;
							double blue         = z_rgbt [iy] [ix]. blue;
							double transparency = z_rgbt [iy] [ix]. transparency;
							red =   ( red   <= 0.0 ? 0.0 : red   >= 1.0 ? 1.0 : red   );
							green = ( green <= 0.0 ? 0.0 : green >= 1.0 ? 1.0 : green );
							blue =  ( blue  <= 0.0 ? 0.0 : blue  >= 1.0 ? 1.0 : blue  );
							CGContextSetRGBFillColor (my d_macGraphicsContext, red, green, blue, 1.0 - transparency);
							CGContextFillRect (my d_macGraphicsContext, CGRectMake (left, top, right - left, bottom - top));
						#endif
					} else {
						#if cairo
							long value = offset - scale * ( z_float ? z_float [iy] [ix] : z_byte [iy] [ix] );
							cairo_set_source (my d_cairoGraphicsContext, grey [value <= 0 ? 0 : value >= sizeof (grey) / sizeof (*grey) ? sizeof (grey) / sizeof (*grey) : value]);
							cairo_rectangle (my d_cairoGraphicsContext, left, top, right - left, bottom - top);
							cairo_fill (my d_cairoGraphicsContext);
						#elif win
							long value = offset - scale * ( z_float ? z_float [iy] [ix] : z_byte [iy] [ix] );
							rect. left = left; rect. right = right;
							FillRect (my d_gdiGraphicsContext, & rect, greyBrush [value <= 0 ? 0 : value >= 255 ? 255 : value]);
						#elif mac
							double value = offset - scale * ( z_float ? z_float [iy] [ix] : z_byte [iy] [ix] );
							double igrey = ( value <= 0 ? 0 : value >= 255 ? 255 : value ) / 255.0;
							CGContextSetRGBFillColor (my d_macGraphicsContext, igrey, igrey, igrey, 1.0);
							CGContextFillRect (my d_macGraphicsContext, CGRectMake (left, top, right - left, bottom - top));
						#endif
					}
				}
			}
			
			#if cairo
				for (int igrey = 0; igrey < sizeof (grey) / sizeof (*grey); igrey ++)
					cairo_pattern_destroy (grey [igrey]);
			#elif mac
				CGContextSetRGBFillColor (my d_macGraphicsContext, 0.0, 0.0, 0.0, 1.0);
				GraphicsQuartz_exitDraw (me);
			#endif
		} catch (MelderError) { }
	} else {
		long xDC, yDC;
		long undersampling = 1;
		/*
		 * Prepare for off-screen bitmap drawing.
		 */
		#if cairo
			long arrayWidth = clipx2 - clipx1;
			long arrayHeight = clipy1 - clipy2;
			trace ("arrayWidth %f, arrayHeight %f", (double) arrayWidth, (double) arrayHeight);
			cairo_surface_t *sfc = cairo_image_surface_create (CAIRO_FORMAT_RGB24, arrayWidth, arrayHeight);
			unsigned char *bits = cairo_image_surface_get_data (sfc);
			int scanLineLength = cairo_image_surface_get_stride (sfc);
			unsigned char grey [256];
			trace ("image surface address %p, bits address %p, scanLineLength %d, numberOfGreys %d", sfc, bits, scanLineLength, sizeof(grey)/sizeof(*grey));
			for (int igrey = 0; igrey < sizeof (grey) / sizeof (*grey); igrey++)
				grey [igrey] = 255 - (unsigned char) (igrey * 255.0 / (sizeof (grey) / sizeof (*grey) - 1));
		#elif win
			long bitmapWidth = clipx2 - clipx1, bitmapHeight = clipy1 - clipy2;
			int igrey;
			/*
			 * Create a device-independent bitmap, 32 bits deep.
			 */
			struct { BITMAPINFOHEADER header; } bitmapInfo;
			long scanLineLength = bitmapWidth * 4;   // for 24 bits: (bitmapWidth * 3 + 3) & ~3L;
			HBITMAP bitmap;
			unsigned char *bits;   // a pointer to memory allocated by VirtualAlloc or by CreateDIBSection ()
			bitmapInfo. header.biSize = sizeof (BITMAPINFOHEADER);
			bitmapInfo. header.biWidth = bitmapWidth;   // scanLineLength;
			bitmapInfo. header.biHeight = bitmapHeight;
			bitmapInfo. header.biPlanes = 1;
			bitmapInfo. header.biBitCount = 32;
			bitmapInfo. header.biCompression = 0;
			bitmapInfo. header.biSizeImage = 0;
			bitmapInfo. header.biXPelsPerMeter = 0;
			bitmapInfo. header.biYPelsPerMeter = 0;
			bitmapInfo. header.biClrUsed = 0;
			bitmapInfo. header.biClrImportant = 0;
			bitmap = CreateDIBSection (my d_gdiGraphicsContext /* ignored */, (CONST BITMAPINFO *) & bitmapInfo,
				DIB_RGB_COLORS, (VOID **) & bits, NULL, 0);
		#elif mac
			long bytesPerRow = (clipx2 - clipx1) * 4;
			Melder_assert (bytesPerRow > 0);
			long numberOfRows = clipy1 - clipy2;
			Melder_assert (numberOfRows > 0);
			unsigned char *imageData = Melder_malloc_f (unsigned char, bytesPerRow * numberOfRows);
		#endif
		/*
		 * Draw into the bitmap.
		 */
		#if cairo
			#define ROW_START_ADDRESS  (bits + (clipy1 - 1 - yDC) * scanLineLength)
			#define PUT_PIXEL \
				if (1) { \
					unsigned char kar = value <= 0 ? 0 : value >= 255 ? 255 : (int) value; \
					*pixelAddress ++ = kar; \
					*pixelAddress ++ = kar; \
					*pixelAddress ++ = kar; \
					*pixelAddress ++ = 0; \
				}
		#elif win
			#define ROW_START_ADDRESS  (bits + (clipy1 - 1 - yDC) * scanLineLength)
			#define PUT_PIXEL \
				if (1) { \
					unsigned char kar = value <= 0 ? 0 : value >= 255 ? 255 : (int) value; \
					*pixelAddress ++ = kar; \
					*pixelAddress ++ = kar; \
					*pixelAddress ++ = kar; \
					*pixelAddress ++ = 0; \
				}
		#elif mac
			#define ROW_START_ADDRESS  (imageData + (clipy1 - 1 - yDC) * bytesPerRow)
			#define PUT_PIXEL \
				if (my colourScale == kGraphics_colourScale_GREY) { \
					unsigned char kar = value <= 0 ? 0 : value >= 255 ? 255 : (int) value; \
					*pixelAddress ++ = kar; \
					*pixelAddress ++ = kar; \
					*pixelAddress ++ = kar; \
					*pixelAddress ++ = 0; \
				} else if (my colourScale == kGraphics_colourScale_BLUE_TO_RED) { \
					if (value < 0.0) { \
						*pixelAddress ++ = 0; \
						*pixelAddress ++ = 0; \
						*pixelAddress ++ = 63; \
						*pixelAddress ++ = 0; \
					} else if (value < 64.0) { \
						*pixelAddress ++ = 0; \
						*pixelAddress ++ = 0; \
						*pixelAddress ++ = (int) (value * 3 + 63.999); \
						*pixelAddress ++ = 0; \
					} else if (value < 128.0) { \
						*pixelAddress ++ = (int) (value * 4 - 256.0); \
						*pixelAddress ++ = (int) (value * 4 - 256.0); \
						*pixelAddress ++ = 255; \
						*pixelAddress ++ = 0; \
					} else if (value < 192.0) { \
						*pixelAddress ++ = 255; \
						*pixelAddress ++ = (int) ((256.0 - value) * 4 - 256.0); \
						*pixelAddress ++ = (int) ((256.0 - value) * 4 - 256.0); \
						*pixelAddress ++ = 0; \
					} else if (value < 256.0) { \
						*pixelAddress ++ = (int) ((256.0 - value) * 3 + 63.999); \
						*pixelAddress ++ = 0; \
						*pixelAddress ++ = 0; \
						*pixelAddress ++ = 0; \
					} else { \
						*pixelAddress ++ = 63; \
						*pixelAddress ++ = 0; \
						*pixelAddress ++ = 0; \
						*pixelAddress ++ = 0; \
					} \
				}
		#else
			#define ROW_START_ADDRESS  NULL
			#define PUT_PIXEL
		#endif
		if (interpolate) {
			try {
				autoNUMvector <long> ileft (clipx1, clipx2);
				autoNUMvector <long> iright (clipx1, clipx2);
				autoNUMvector <double> rightWeight (clipx1, clipx2);
				autoNUMvector <double> leftWeight (clipx1, clipx2);
				for (xDC = clipx1; xDC < clipx2; xDC += undersampling) {
					double ix_real = ix1 - 0.5 + ((double) nx * (xDC - x1DC)) / (x2DC - x1DC);
					ileft [xDC] = floor (ix_real), iright [xDC] = ileft [xDC] + 1;
					rightWeight [xDC] = ix_real - ileft [xDC], leftWeight [xDC] = 1.0 - rightWeight [xDC];
					if (ileft [xDC] < ix1) ileft [xDC] = ix1;
					if (iright [xDC] > ix2) iright [xDC] = ix2;
				}
				for (yDC = clipy2; yDC < clipy1; yDC += undersampling) {
					double iy_real = iy2 + 0.5 - ((double) ny * (yDC - y2DC)) / (y1DC - y2DC);
					long itop = ceil (iy_real), ibottom = itop - 1;
					double bottomWeight = itop - iy_real, topWeight = 1.0 - bottomWeight;
					unsigned char *pixelAddress = ROW_START_ADDRESS;
					if (itop > iy2) itop = iy2;
					if (ibottom < iy1) ibottom = iy1;
					if (z_float) {
						double *ztop = z_float [itop], *zbottom = z_float [ibottom];
						for (xDC = clipx1; xDC < clipx2; xDC += undersampling) {
							double interpol =
								rightWeight [xDC] *
									(topWeight * ztop [iright [xDC]] + bottomWeight * zbottom [iright [xDC]]) +
								leftWeight [xDC] *
									(topWeight * ztop [ileft [xDC]] + bottomWeight * zbottom [ileft [xDC]]);
							double value = offset - scale * interpol;
							PUT_PIXEL
						}
					} else if (z_rgbt) {
						double_rgbt *ztop = z_rgbt [itop], *zbottom = z_rgbt [ibottom];
						for (xDC = clipx1; xDC < clipx2; xDC += undersampling) {
							double red =
								rightWeight [xDC] * (topWeight * ztop [iright [xDC]]. red + bottomWeight * zbottom [iright [xDC]]. red) +
								leftWeight  [xDC] * (topWeight * ztop [ileft  [xDC]]. red + bottomWeight * zbottom [ileft  [xDC]]. red);
							double green =
								rightWeight [xDC] * (topWeight * ztop [iright [xDC]]. green + bottomWeight * zbottom [iright [xDC]]. green) +
								leftWeight  [xDC] * (topWeight * ztop [ileft  [xDC]]. green + bottomWeight * zbottom [ileft  [xDC]]. green);
							double blue =
								rightWeight [xDC] * (topWeight * ztop [iright [xDC]]. blue + bottomWeight * zbottom [iright [xDC]]. blue) +
								leftWeight  [xDC] * (topWeight * ztop [ileft  [xDC]]. blue + bottomWeight * zbottom [ileft  [xDC]]. blue);
							double transparency =
								rightWeight [xDC] * (topWeight * ztop [iright [xDC]]. transparency + bottomWeight * zbottom [iright [xDC]]. transparency) +
								leftWeight  [xDC] * (topWeight * ztop [ileft  [xDC]]. transparency + bottomWeight * zbottom [ileft  [xDC]]. transparency);
							if (red          < 0.0) red          = 0.0; else if (red          > 1.0) red          = 1.0;
							if (green        < 0.0) green        = 0.0; else if (green        > 1.0) green        = 1.0;
							if (blue         < 0.0) blue         = 0.0; else if (blue         > 1.0) blue         = 1.0;
							if (transparency < 0.0) transparency = 0.0; else if (transparency > 1.0) transparency = 1.0;
							#if win
								*pixelAddress ++ = blue         * 255.0;
								*pixelAddress ++ = green        * 255.0;
								*pixelAddress ++ = red          * 255.0;
								*pixelAddress ++ = 0;
							#elif mac
								*pixelAddress ++ = red          * 255.0;
								*pixelAddress ++ = green        * 255.0;
								*pixelAddress ++ = blue         * 255.0;
								*pixelAddress ++ = transparency * 255.0;
							#elif cairo
								*pixelAddress ++ = blue         * 255.0;
								*pixelAddress ++ = green        * 255.0;
								*pixelAddress ++ = red          * 255.0;
								*pixelAddress ++ = transparency * 255.0;
							#endif
						}
					} else {
						unsigned char *ztop = z_byte [itop], *zbottom = z_byte [ibottom];
						for (xDC = clipx1; xDC < clipx2; xDC += undersampling) {
							double interpol =
								rightWeight [xDC] *
									(topWeight * ztop [iright [xDC]] + bottomWeight * zbottom [iright [xDC]]) +
								leftWeight [xDC] *
									(topWeight * ztop [ileft [xDC]] + bottomWeight * zbottom [ileft [xDC]]);
							double value = offset - scale * interpol;
							PUT_PIXEL
						}
					}
				}
			} catch (MelderError) { Melder_clearError (); }
		} else {
			try {
				autoNUMvector <long> ix (clipx1, clipx2);
				for (xDC = clipx1; xDC < clipx2; xDC += undersampling)
					ix [xDC] = floor (ix1 + (nx * (xDC - x1DC)) / (x2DC - x1DC));
				for (yDC = clipy2; yDC < clipy1; yDC += undersampling) {
					long iy = ceil (iy2 - (ny * (yDC - y2DC)) / (y1DC - y2DC));
					unsigned char *pixelAddress = ROW_START_ADDRESS;
					Melder_assert (iy >= iy1 && iy <= iy2);
					if (z_float) {
						double *ziy = z_float [iy];
						for (xDC = clipx1; xDC < clipx2; xDC += undersampling) {
							double value = offset - scale * ziy [ix [xDC]];
							PUT_PIXEL
						}
					} else {
						unsigned char *ziy = z_byte [iy];
						for (xDC = clipx1; xDC < clipx2; xDC += undersampling) {
							double value = offset - scale * ziy [ix [xDC]];
							PUT_PIXEL
						}
					}
				}
			} catch (MelderError) { Melder_clearError (); }
		}
		/*
		 * Copy the bitmap to the screen.
		 */
		#if cairo
			cairo_matrix_t clip_trans;
			cairo_matrix_init_identity (& clip_trans);
			cairo_matrix_scale (& clip_trans, 1, -1);		// we painted in the reverse y-direction
			cairo_matrix_translate (& clip_trans, - clipx1, - clipy1);
			cairo_pattern_t *bitmap_pattern = cairo_pattern_create_for_surface (sfc);
			trace ("bitmap pattern %p", bitmap_pattern);
			if (cairo_status_t status = cairo_pattern_status (bitmap_pattern)) {
				Melder_casual ("bitmap pattern status: %s", cairo_status_to_string (status));
			} else {
				cairo_pattern_set_matrix (bitmap_pattern, & clip_trans);
				cairo_save (my d_cairoGraphicsContext);
				cairo_set_source (my d_cairoGraphicsContext, bitmap_pattern);
				cairo_paint (my d_cairoGraphicsContext);
				cairo_restore (my d_cairoGraphicsContext);
			}
			cairo_pattern_destroy (bitmap_pattern);
		#elif win
			SetDIBitsToDevice (my d_gdiGraphicsContext, clipx1, clipy2, bitmapWidth, bitmapHeight, 0, 0, 0, bitmapHeight,
				bits, (CONST BITMAPINFO *) & bitmapInfo, DIB_RGB_COLORS);
			//StretchDIBits (my d_gdiGraphicsContext, clipx1, clipy2, bitmapWidth, bitmapHeight, 0, 0, 0, bitmapHeight,
			//	bits, (CONST BITMAPINFO *) & bitmapInfo, DIB_RGB_COLORS, SRCCOPY);
		#elif mac
			CGImageRef image;
			static CGColorSpaceRef colourSpace = NULL;
			if (colourSpace == NULL) {
				colourSpace = CGColorSpaceCreateWithName (kCGColorSpaceGenericRGB);   // used to be kCGColorSpaceUserRGB
				Melder_assert (colourSpace != NULL);
			}
			if (1) {
				CGDataProviderRef dataProvider = CGDataProviderCreateWithData (NULL,
					imageData,
					bytesPerRow * numberOfRows,
					_mac_releaseDataCallback   // we need this because we cannot release the image data immediately after drawing,
						// because in PDF files the imageData has to stay available through EndPage
				);
				Melder_assert (dataProvider != NULL);
				image = CGImageCreate (clipx2 - clipx1, numberOfRows,
					8, 32, bytesPerRow, colourSpace, kCGImageAlphaNone, dataProvider, NULL, false, kCGRenderingIntentDefault);
				CGDataProviderRelease (dataProvider);
			} else if (0) {
				Melder_assert (CGBitmapContextCreate != NULL);
				CGContextRef bitmaptest = CGBitmapContextCreate (imageData, 100, 100,
					8, 800, colourSpace, 0);
				Melder_assert (bitmaptest != NULL);
				CGContextRef bitmap = CGBitmapContextCreate (NULL/*imageData*/, clipx2 - clipx1, numberOfRows,
					8, bytesPerRow, colourSpace, kCGImageAlphaLast);
				Melder_assert (bitmap != NULL);
				image = CGBitmapContextCreateImage (bitmap);
				// release bitmap?
			}
			Melder_assert (image != NULL);
			GraphicsQuartz_initDraw (me);
			CGContextDrawImage (my d_macGraphicsContext, CGRectMake (clipx1, clipy2, clipx2 - clipx1, clipy1 - clipy2), image);
			GraphicsQuartz_exitDraw (me);
			//CGColorSpaceRelease (colourSpace);
			CGImageRelease (image);
		#endif
		/*
		 * Clean up.
		 */
		#if cairo
			cairo_surface_destroy (sfc);
		#elif win
			DeleteBitmap (bitmap);
		#endif
	}
Ejemplo n.º 27
0
/* Create a CGImageRef from osg::Image.
 * Code adapted from
 * http://developer.apple.com/samplecode/OpenGLScreenSnapshot/listing2.html
 */
CGImageRef CreateCGImageFromOSGData(const osg::Image& osg_image)
{
    size_t image_width = osg_image.s();
    size_t image_height = osg_image.t();
    /* From Apple's header for CGBitmapContextCreate()
     * Each row of the bitmap consists of `bytesPerRow' bytes, which must be at
     * least `(width * bitsPerComponent * number of components + 7)/8' bytes.
     */
    size_t target_bytes_per_row;

    CGColorSpaceRef color_space;
    CGBitmapInfo bitmap_info;
    /* From what I can figure out so far...
     * We need to create a CGContext connected to the data we want to save
     * and then call CGBitmapContextCreateImage() on that context to get
     * a CGImageRef.
     * However, OS X only allows 4-component image formats (e.g. RGBA) and not
     * just RGB for the RGB-based CGContext. So for a 24-bit image coming in,
     * we need to expand the data to 32-bit.
     * The easiest and fastest way to do that is through the vImage framework
     * which is part of the Accelerate framework.
     * Also, the osg::Image data coming in is inverted from what we want, so
     * we need to invert the image too. Since the osg::Image is const,
     * we don't want to touch the data, so again we turn to the vImage framework
     * and invert the data.
     */
    vImage_Buffer vimage_buffer_in =
    {
        (void*)osg_image.data(), // need to override const, but we don't modify the data so it's safe
        image_height,
        image_width,
        osg_image.getRowSizeInBytes()
    };

    void* out_image_data;
    vImage_Buffer vimage_buffer_out =
    {
        NULL, // will fill-in in switch
        image_height,
        image_width,
        0 // will fill-in in switch
    };
    vImage_Error vimage_error_flag;

    // FIXME: Do I want to use format, type, or internalFormat?
    switch(osg_image.getPixelFormat())
    {
        case GL_LUMINANCE:
        {
            bitmap_info = kCGImageAlphaNone;
            target_bytes_per_row = (image_width * 8 + 7)/8;
            //color_space = CGColorSpaceCreateWithName(kCGColorSpaceGenericGray);
            color_space = CGColorSpaceCreateDeviceGray();
            if(NULL == color_space)
            {
                return NULL;
            }

            //    out_image_data = calloc(target_bytes_per_row, image_height);
            out_image_data = malloc(target_bytes_per_row * image_height);
            if(NULL == out_image_data)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, malloc failed" << std::endl;
                CGColorSpaceRelease(color_space);
                return NULL;
            }

            vimage_buffer_out.data = out_image_data;
            vimage_buffer_out.rowBytes = target_bytes_per_row;

            // Now invert the image
            vimage_error_flag = vImageVerticalReflect_Planar8(
                &vimage_buffer_in, // since the osg_image is const...
                &vimage_buffer_out, // don't reuse the buffer
                kvImageNoFlags
            );
            if(vimage_error_flag != kvImageNoError)
            {
                OSG_WARN << "In CreateCGImageFromOSGData for GL_LUMINANCE, vImageVerticalReflect_Planar8 failed with vImage Error Code: " << vimage_error_flag << std::endl;
                free(out_image_data);
                CGColorSpaceRelease(color_space);
                return NULL;
            }


            break;
        }
        case GL_ALPHA:
        {
            bitmap_info = kCGImageAlphaOnly;
            target_bytes_per_row = (image_width * 8 + 7)/8;
            // According to:
            // http://developer.apple.com/qa/qa2001/qa1037.html
            // colorSpace=NULL is for alpha only
            color_space = NULL;

            //    out_image_data = calloc(target_bytes_per_row, image_height);
            out_image_data = malloc(target_bytes_per_row * image_height);
            if(NULL == out_image_data)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, malloc failed" << std::endl;
                return NULL;
            }

            vimage_buffer_out.data = out_image_data;
            vimage_buffer_out.rowBytes = target_bytes_per_row;

            // Now invert the image
            vimage_error_flag = vImageVerticalReflect_Planar8(
                &vimage_buffer_in, // since the osg_image is const...
                &vimage_buffer_out, // don't reuse the buffer
                kvImageNoFlags
            );
            if(vimage_error_flag != kvImageNoError)
            {
                OSG_WARN << "In CreateCGImageFromOSGData for GL_ALPHA, vImageVerticalReflect_Planar8 failed with vImage Error Code: " << vimage_error_flag << std::endl;
                free(out_image_data);
                return NULL;
            }


            break;
        }
/*
        case GL_LUMINANCE_ALPHA:
        {
            // I don't know if we can support this.
            // The qa1037 doesn't show both gray+alpha.
            break;
        }
*/
        case GL_RGB:
        {
            bitmap_info = kCGImageAlphaNoneSkipFirst;
            target_bytes_per_row = (image_width * 8 * 4 + 7)/8;
            //color_space = CGColorSpaceCreateWithName(kCGColorSpaceGenericRGB);
            color_space = CGColorSpaceCreateDeviceRGB();
             if(NULL == color_space)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, CGColorSpaceCreateWithName failed" << std::endl;
                return NULL;
            }

            //    out_image_data = calloc(target_bytes_per_row, image_height);
            out_image_data = malloc(target_bytes_per_row * image_height);
            if(NULL == out_image_data)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, malloc failed" << std::endl;
                CGColorSpaceRelease(color_space);
                return NULL;
            }

            // Use vImage to get an RGB buffer into ARGB.
            vimage_buffer_out.data = out_image_data;
            vimage_buffer_out.rowBytes = target_bytes_per_row;
            vimage_error_flag = vImageConvert_RGB888toARGB8888(
                &vimage_buffer_in,
                NULL, // we don't have a buffer containing alpha values
                255, // The alpha value we want given to all pixels since we don't have a buffer
                &vimage_buffer_out,
                0, // premultiply?
                kvImageNoFlags // Only responds to kvImageDoNotTile, but I think we want tiling/threading
            );
            if(vimage_error_flag != kvImageNoError)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, vImageConvert_RGB888toARGB8888 failed with vImage Error Code: " << vimage_error_flag << std::endl;
                free(out_image_data);
                CGColorSpaceRelease(color_space);
                return NULL;
            }
            // Now invert the image
            vimage_error_flag = vImageVerticalReflect_ARGB8888(
                &vimage_buffer_out,
                &vimage_buffer_out, // reuse the same buffer
                kvImageNoFlags
            );
            if(vimage_error_flag != kvImageNoError)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, vImageAffineWarp_ARGB8888 failed with vImage Error Code: " << vimage_error_flag << std::endl;
                free(out_image_data);
                CGColorSpaceRelease(color_space);
                return NULL;
            }

            break;
        }
        case GL_RGBA:
        {
            bitmap_info = kCGImageAlphaPremultipliedLast;
            target_bytes_per_row = osg_image.getRowSizeInBytes();
            //color_space = CGColorSpaceCreateWithName(kCGColorSpaceGenericRGB);
            color_space = CGColorSpaceCreateDeviceRGB();
            if(NULL == color_space)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, CGColorSpaceCreateWithName failed" << std::endl;
                return NULL;
            }
            //    out_image_data = calloc(target_bytes_per_row, image_height);
            out_image_data = malloc(target_bytes_per_row * image_height);
            if(NULL == out_image_data)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, malloc failed" << std::endl;
                CGColorSpaceRelease(color_space);
                return NULL;
            }
            vimage_buffer_out.data = out_image_data;
            vimage_buffer_out.rowBytes = target_bytes_per_row;
            // Invert the image
            vimage_error_flag = vImageVerticalReflect_ARGB8888(
                &vimage_buffer_in, // since the osg_image is const...
                &vimage_buffer_out, // don't reuse the buffer
                kvImageNoFlags
            );
            if(vimage_error_flag != kvImageNoError)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, vImageAffineWarp_ARGB8888 failed with vImage Error Code: " << vimage_error_flag << std::endl;
                free(out_image_data);
                CGColorSpaceRelease(color_space);
                return NULL;
            }
            break;
        }
        case GL_BGRA:
        {
            if(GL_UNSIGNED_INT_8_8_8_8_REV == osg_image.getDataType())
            {
#if __BIG_ENDIAN__
                bitmap_info = kCGImageAlphaPremultipliedFirst | kCGBitmapByteOrder32Big; /* XRGB Big Endian */
#else
                bitmap_info = kCGImageAlphaPremultipliedFirst | kCGBitmapByteOrder32Little; /* XRGB Little Endian */
#endif
            }
            else
            {
                // FIXME: Don't know how to handle this case
                bitmap_info = kCGImageAlphaPremultipliedLast;
            }

            target_bytes_per_row = osg_image.getRowSizeInBytes();
            //color_space = CGColorSpaceCreateWithName(kCGColorSpaceGenericRGB);
            color_space = CGColorSpaceCreateDeviceRGB();
            if(NULL == color_space)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, CGColorSpaceCreateWithName failed" << std::endl;
                return NULL;
            }
            //    out_image_data = calloc(target_bytes_per_row, image_height);
            out_image_data = malloc(target_bytes_per_row * image_height);
            if(NULL == out_image_data)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, malloc failed" << std::endl;
                CGColorSpaceRelease(color_space);
                return NULL;
            }
            vimage_buffer_out.data = out_image_data;
            vimage_buffer_out.rowBytes = target_bytes_per_row;
            // Invert the image
            vimage_error_flag = vImageVerticalReflect_ARGB8888(
                                                               &vimage_buffer_in, // since the osg_image is const...
                                                               &vimage_buffer_out, // don't reuse the buffer
                                                               kvImageNoFlags
                                                               );
            if(vimage_error_flag != kvImageNoError)
            {
                OSG_WARN << "In CreateCGImageFromOSGData, vImageAffineWarp_ARGB8888 failed with vImage Error Code: " << vimage_error_flag << std::endl;
                free(out_image_data);
                CGColorSpaceRelease(color_space);
                return NULL;
            }
            break;
        }
        // FIXME: Handle other cases.
        // Use vImagePermuteChannels_ARGB8888 to swizzle bytes
        default:
        {
            OSG_WARN << "In CreateCGImageFromOSGData: Sorry support for this format is not implemented." << std::endl;
            return NULL;
            break;
        }
    }

    CGContextRef bitmap_context = CGBitmapContextCreate(
        vimage_buffer_out.data,
        vimage_buffer_out.width,
        vimage_buffer_out.height,
        8,
        vimage_buffer_out.rowBytes,
        color_space,
        bitmap_info
    );
    /* Done with color space */
    CGColorSpaceRelease(color_space);

    if(NULL == bitmap_context)
    {
        free(out_image_data);
        return NULL;
    }


    /* Make an image out of our bitmap; does a cheap vm_copy of the bitmap */
    CGImageRef image_ref = CGBitmapContextCreateImage(bitmap_context);

    /* Done with data */
    free(out_image_data);

    /* Done with bitmap_context */
    CGContextRelease(bitmap_context);

    return image_ref;
}
bool  ImageIOEncoder::write( const Mat& img, const vector<int>& params )
{
    int width = img.cols, height = img.rows;
    int _channels = img.channels();
    const uchar* data = img.data;
    int step = img.step;
    
    // Determine the appropriate UTI based on the filename extension
    CFStringRef imageUTI = FilenameToUTI( m_filename.c_str() );

    // Determine the Bytes Per Pixel
    int bpp = (_channels == 1) ? 1 : 4;

    // Write the data into a bitmap context
    CGContextRef context;
    CGColorSpaceRef colorSpace;
    uchar* bitmapData = NULL;

    if( bpp == 1 )
        colorSpace = CGColorSpaceCreateWithName( kCGColorSpaceGenericGray );
    else if( bpp == 4 )
        colorSpace = CGColorSpaceCreateWithName( kCGColorSpaceGenericRGBLinear );
    if( !colorSpace )
        return false;

    bitmapData = (uchar*)malloc( bpp * height * width );
    if( !bitmapData )
    {
        CGColorSpaceRelease( colorSpace );
        return false;
    }

    context = CGBitmapContextCreate( bitmapData,
                                     width,
                                     height,
                                     8,
                                     bpp * width,
                                     colorSpace,
                                     (bpp == 1) ? kCGImageAlphaNone :
                                     kCGImageAlphaNoneSkipLast );
    CGColorSpaceRelease( colorSpace );
    if( !context )
    {
        free( bitmapData );
        return false;
    }

    // Copy pixel information from data into bitmapData
    if (bpp == 4)
    {
        int           bitmapIndex = 0;
		const uchar * base        = data;

		for (int y = 0; y < height; y++)
		{
			const uchar * line = base + y * step;

		    for (int x = 0; x < width; x++)
		    {
				// Blue channel
                bitmapData[bitmapIndex + 2] = line[0];
				// Green channel
				bitmapData[bitmapIndex + 1] = line[1];
				// Red channel
				bitmapData[bitmapIndex + 0] = line[2];

				line        += 3;
				bitmapIndex += bpp;
			}
		}
    }
    else if (bpp == 1)
    {
		for (int y = 0; y < height; y++)
			memcpy (bitmapData + y * width, data + y * step, width);
    }

    // Turn the bitmap context into an imageRef
    CGImageRef imageRef = CGBitmapContextCreateImage( context );
    CGContextRelease( context );
    if( !imageRef )
    {
        free( bitmapData );
        return false;
    }

    // Write the imageRef to a file based on the UTI
    CFURLRef imageURLRef = CFURLCreateFromFileSystemRepresentation( NULL,
        (const UInt8*)m_filename.c_str(), m_filename.size(), false );
    if( !imageURLRef )
    {
        CGImageRelease( imageRef );
        free( bitmapData );
        return false;
    }

    CGImageDestinationRef destRef = CGImageDestinationCreateWithURL( imageURLRef,
                                                                     imageUTI,
                                                                     1,
                                                                     NULL);
    CFRelease( imageURLRef );
    if( !destRef )
    {
        CGImageRelease( imageRef );
        free( bitmapData );
        fprintf(stderr, "!destRef\n");
        return false;
    }

    CGImageDestinationAddImage(destRef, imageRef, NULL);
    if( !CGImageDestinationFinalize(destRef) )
    {
        fprintf(stderr, "Finalize failed\n");
        return false;
    }

    CFRelease( destRef );
    CGImageRelease( imageRef );
    free( bitmapData );

    return true;
}
Ejemplo n.º 29
0
void x_async_refresh(CGContextRef myContext,CGRect myBoundingBox)
{
	
#ifdef ENABLEQD
	CEmulatorMac* pEmu = (CEmulatorMac*)CEmulator::theEmulator;
	if (!pEmu) return ;
#endif
    
#ifndef DRIVER_IOS
	x_vbl_count++;
#endif
	
	addFrameRate(0);

	CHANGE_BORDER(1,0xFF);
	
	// OG
	if (macUsingCoreGraphics)
	{
		if(r_sim65816.is_emulator_offscreen_available() && g_kimage_offscreen.dev_handle)
		{
	
            /*
			void addConsoleWindow(Kimage* _dst);
			addConsoleWindow(&g_kimage_offscreen);
	*/
            
			CGContextSaveGState(myContext);
			
#ifndef DRIVER_IOS
		//	CGContextTranslateCTM(myContext,0.0, X_A2_WINDOW_HEIGHT);
        	CGContextTranslateCTM(myContext,0.0, myBoundingBox.size.height);    
			CGContextScaleCTM(myContext,1.0,-1.0);
#endif
			
			
			CGImageRef myImage = CGBitmapContextCreateImage((CGContextRef)g_kimage_offscreen.dev_handle);
            
            
            
			CGContextDrawImage(myContext, myBoundingBox, myImage);// 6
	
#ifndef VIDEO_SINGLEVLINE
			if (r_sim65816.get_video_fx() == VIDEOFX_CRT)
			{
                

				CGContextSetRGBFillColor(myContext,0,0,0,0.5);
				for(int h=0;h<g_kimage_offscreen.height;h+=2)
				{
					CGRect r = CGRectMake(0,h,g_kimage_offscreen.width_act,1);
					CGContextFillRect(myContext,r);
				}
                
			}            
           
#endif
            
			CGImageRelease(myImage);
		
			CGContextRestoreGState(myContext);
#ifndef DRIVER_IOS
			if (!messageLine.IsEmpty())
			{
				CGContextSaveGState(myContext);
				CGContextSetTextMatrix(myContext,CGAffineTransformIdentity);
				CGContextTranslateCTM(myContext,0.0, X_A2_WINDOW_HEIGHT);
				CGContextScaleCTM(myContext,1.0,-1.0);

				CGContextSelectFont(myContext, "Courier", 14.0, kCGEncodingMacRoman);
				CGContextSetTextDrawingMode(myContext, kCGTextFill);
				CGContextSetRGBFillColor (myContext, 1,1, 1, 1);
				CGContextSetShouldAntialias(myContext, true);
#define SHADOW 4.0
                

                CGFloat           myColorValues[] = {0.5, 0.5, 0.5, 1.0};
                
               
                CGColorSpaceRef  myColorSpace = CGColorSpaceCreateDeviceRGB ();// 9
                 CGColorRef  myColor = CGColorCreate (myColorSpace, myColorValues);
				CGContextSetShadowWithColor(myContext, CGSizeMake(SHADOW, -SHADOW), 4,
                                            myColor
                                            //CGColorCreateGenericGray(0.5,1.0)
                    
                                            );
				CGContextShowTextAtPoint(myContext, 20.0, X_A2_WINDOW_HEIGHT-20.0, messageLine.c_str(), messageLine.GetLength());
			
				CGContextRestoreGState(myContext);
				messageLineVBL--;
				if (messageLineVBL<0)
					messageLine.Empty();
				else 
					x_refresh_video();

			}
#endif
			
		}
		else
		{
			CGContextSaveGState(myContext);
#if defined(DRIVER_IOS)
            // efface en noir si l'émulateur n'avait pas encore démarré (le cas sur 3GS)
			CGContextSetRGBFillColor (myContext, 0, 0, 0, 1);
#else
            CGContextSetRGBFillColor (myContext, 0, 0, 1, 1);
#endif
			CGContextFillRect (myContext, CGRectMake (0, 0, X_A2_WINDOW_WIDTH, X_A2_WINDOW_HEIGHT));

			CGContextRestoreGState(myContext);

		}
		
	}
	else
	{
#ifdef ENABLEQD
		CGrafPtr window_port = pEmu->window_port;
		Rect src_rect;
		Rect dest_rect;
		SetRect(&src_rect,0,0,704,462);
		SetRect(&dest_rect,0,0,704,462);
		
		if (pixmap_backbuffer)
			CopyBits( (BitMap *)(*pixmap_backbuffer),
					 GetPortBitMapForCopyBits(window_port), &src_rect, &dest_rect,
					 srcCopy, NULL);
		
#endif
	}
	
	
	CHANGE_BORDER(1,0);
    
    if (r_sim65816.is_emulator_offscreen_available() && g_driver.x_handle_state_on_paint)
        g_driver.x_handle_state_on_paint(myBoundingBox.size.width,myBoundingBox.size.height);

}
Ejemplo n.º 30
0
RetainPtr<CGImageRef> ShareableBitmap::makeCGImageCopy()
{
    auto graphicsContext = createGraphicsContext();
    RetainPtr<CGImageRef> image = adoptCF(CGBitmapContextCreateImage(graphicsContext->platformContext()));
    return image;
}