bool HtmlFormatter::EmitImage(ImageData *img)
{
    CrashIf(!img->data);
    Size imgSize = BitmapSizeFromData(img->data, img->len);
    if (imgSize.Empty())
        return false;

    SizeF newSize((REAL)imgSize.Width, (REAL)imgSize.Height);
    // move overly large images to a new line (if they don't fit entirely)
    if (!IsCurrLineEmpty() && (currX + newSize.Width > pageDx || currY + newSize.Height > pageDy))
        FlushCurrLine(false);
    // move overly large images to a new page
    // (if they don't fit even when scaled down to 75%)
    REAL scalePage = min((pageDx - currX) / newSize.Width, pageDy / newSize.Height);
    if (currY > 0 && currY + newSize.Height * min(scalePage, 0.75f) > pageDy)
        ForceNewPage();
    // if image is bigger than the available space, scale it down
    if (newSize.Width > pageDx - currX || newSize.Height > pageDy - currY) {
        REAL scale = min(scalePage, (pageDy - currY) / newSize.Height);
        // scale down images that follow right after a line
        // containing a single image as little as possible,
        // as they might be intended to be of the same size
        if (scale < scalePage && HasPreviousLineSingleImage(currPage->instructions)) {
            ForceNewPage();
            scale = scalePage;
        }
        if (scale < 1) {
            newSize.Width = min(newSize.Width * scale, pageDx - currX);
            newSize.Height = min(newSize.Height * scale, pageDy - currY);
        }
    }

    RectF bbox(PointF(currX, 0), newSize);
    AppendInstr(DrawInstr::Image(img->data, img->len, bbox));
    currX += bbox.Width;

    return true;
}
示例#2
0
// adapted from http://cpansearch.perl.org/src/RJRAY/Image-Size-3.230/lib/Image/Size.pm
Size BitmapSizeFromData(const char *data, size_t len)
{
    Size result;
    ByteReader r(data, len);
    switch (GfxFormatFromData(data, len)) {
    case Img_BMP:
        if (len >= sizeof(BITMAPFILEHEADER) + sizeof(BITMAPINFOHEADER)) {
            BITMAPINFOHEADER bmi;
            bool ok = r.UnpackLE(&bmi, sizeof(bmi), "3d2w6d", sizeof(BITMAPFILEHEADER));
            CrashIf(!ok);
            result.Width = bmi.biWidth;
            result.Height = bmi.biHeight;
        }
        break;
    case Img_GIF:
        if (len >= 13) {
            // find the first image's actual size instead of using the
            // "logical screen" size which is sometimes too large
            size_t ix = 13;
            // skip the global color table
            if ((r.Byte(10) & 0x80))
                ix += 3 * (1 << ((r.Byte(10) & 0x07) + 1));
            while (ix + 8 < len) {
                if (r.Byte(ix) == 0x2C) {
                    result.Width = r.WordLE(ix + 5);
                    result.Height = r.WordLE(ix + 7);
                    break;
                }
                else if (r.Byte(ix) == 0x21 && r.Byte(ix + 1) == 0xF9)
                    ix += 8;
                else if (r.Byte(ix) == 0x21 && r.Byte(ix + 1) == 0xFE) {
                    const char *commentEnd = r.Find(ix + 2, 0x00);
                    ix = commentEnd ? commentEnd - data + 1 : len;
                }
                else if (r.Byte(ix) == 0x21 && r.Byte(ix + 1) == 0x01 && ix + 15 < len) {
                    const char *textDataEnd = r.Find(ix + 15, 0x00);
                    ix = textDataEnd ? textDataEnd - data + 1 : len;
                }
                else if (r.Byte(ix) == 0x21 && r.Byte(ix + 1) == 0xFF && ix + 14 < len) {
                    const char *applicationDataEnd = r.Find(ix + 14, 0x00);
                    ix = applicationDataEnd ? applicationDataEnd - data + 1 : len;
                }
                else
                    break;
            }
        }
        break;
    case Img_JPEG:
        // find the last start of frame marker for non-differential Huffman/arithmetic coding
        for (size_t ix = 2; ix + 9 < len && r.Byte(ix) == 0xFF; ) {
            if (0xC0 <= r.Byte(ix + 1) && r.Byte(ix + 1) <= 0xC3 ||
                0xC9 <= r.Byte(ix + 1) && r.Byte(ix + 1) <= 0xCB) {
                result.Width = r.WordBE(ix + 7);
                result.Height = r.WordBE(ix + 5);
            }
            ix += r.WordBE(ix + 2) + 2;
        }
        break;
    case Img_JXR:
    case Img_TIFF:
        if (len >= 10) {
            bool isBE = r.Byte(0) == 'M', isJXR = r.Byte(2) == 0xBC;
            CrashIf(!isBE && r.Byte(0) != 'I' || isJXR && isBE);
            const WORD WIDTH = isJXR ? 0xBC80 : 0x0100, HEIGHT = isJXR ? 0xBC81 : 0x0101;
            size_t idx = r.DWord(4, isBE);
            WORD count = idx <= len - 2 ? r.Word(idx, isBE) : 0;
            for (idx += 2; count > 0 && idx <= len - 12; count--, idx += 12) {
                WORD tag = r.Word(idx, isBE), type = r.Word(idx + 2, isBE);
                if (r.DWord(idx + 4, isBE) != 1)
                    continue;
                else if (WIDTH == tag && 4 == type)
                    result.Width = r.DWord(idx + 8, isBE);
                else if (WIDTH == tag && 3 == type)
                    result.Width = r.Word(idx + 8, isBE);
                else if (WIDTH == tag && 1 == type)
                    result.Width = r.Byte(idx + 8);
                else if (HEIGHT == tag && 4 == type)
                    result.Height = r.DWord(idx + 8, isBE);
                else if (HEIGHT == tag && 3 == type)
                    result.Height = r.Word(idx + 8, isBE);
                else if (HEIGHT == tag && 1 == type)
                    result.Height = r.Byte(idx + 8);
            }
        }
        break;
    case Img_PNG:
        if (len >= 24 && str::StartsWith(data + 12, "IHDR")) {
            result.Width = r.DWordBE(16);
            result.Height = r.DWordBE(20);
        }
        break;
    case Img_TGA:
        if (len >= 16) {
            result.Width = r.WordLE(12);
            result.Height = r.WordLE(14);
        }
        break;
    case Img_WebP:
        if (len >= 30 && str::StartsWith(data + 12, "VP8 ")) {
            result.Width = r.WordLE(26) & 0x3fff;
            result.Height = r.WordLE(28) & 0x3fff;
        }
        else {
            result = webp::SizeFromData(data, len);
        }
        break;
    case Img_JP2:
        if (len >= 32) {
            size_t ix = 0;
            while (ix < len - 32) {
                uint32_t lbox = r.DWordBE(ix);
                uint32_t tbox = r.DWordBE(ix + 4);
                if (0x6A703268 /* jp2h */ == tbox) {
                    ix += 8;
                    if (r.DWordBE(ix) == 24 && r.DWordBE(ix + 4) == 0x69686472 /* ihdr */) {
                        result.Width = r.DWordBE(ix + 16);
                        result.Height = r.DWordBE(ix + 12);
                    }
                    break;
                }
                else if (lbox != 0 && ix < UINT32_MAX - lbox) {
                    ix += lbox;
                }
                else {
                    break;
                }
            }
        }
        break;
    }

    if (result.Empty()) {
        // let GDI+ extract the image size if we've failed
        // (currently happens for animated GIF)
        Bitmap *bmp = BitmapFromData(data, len);
        if (bmp)
            result = Size(bmp->GetWidth(), bmp->GetHeight());
        delete bmp;
    }

    return result;
}
示例#3
0
// adapted from http://cpansearch.perl.org/src/RJRAY/Image-Size-3.230/lib/Image/Size.pm
Size BitmapSizeFromData(const char *data, size_t len)
{
    Size result;
    ByteReader r(data, len);
    switch (GfxFormatFromData(data, len)) {
    case Img_BMP:
        if (len >= sizeof(BITMAPFILEHEADER) + sizeof(BITMAPINFOHEADER)) {
            BITMAPINFOHEADER bmi;
            bool ok = r.UnpackLE(&bmi, sizeof(bmi), "3d2w6d", sizeof(BITMAPFILEHEADER));
            CrashIf(!ok);
            result.Width = bmi.biWidth;
            result.Height = bmi.biHeight;
        }
        break;
    case Img_GIF:
        if (len >= 13) {
            // find the first image's actual size instead of using the
            // "logical screen" size which is sometimes too large
            size_t ix = 13;
            // skip the global color table
            if ((r.Byte(10) & 0x80))
                ix += 3 * (1 << ((r.Byte(10) & 0x07) + 1));
            while (ix + 8 < len) {
                if (r.Byte(ix) == 0x2C) {
                    result.Width = r.WordLE(ix + 5);
                    result.Height = r.WordLE(ix + 7);
                    break;
                }
                else if (r.Byte(ix) == 0x21 && r.Byte(ix + 1) == 0xF9)
                    ix += 8;
                else if (r.Byte(ix) == 0x21 && r.Byte(ix + 1) == 0xFE) {
                    const char *commentEnd = r.Find(ix + 2, 0x00);
                    ix = commentEnd ? commentEnd - data + 1 : len;
                }
                else if (r.Byte(ix) == 0x21 && r.Byte(ix + 1) == 0x01 && ix + 15 < len) {
                    const char *textDataEnd = r.Find(ix + 15, 0x00);
                    ix = textDataEnd ? textDataEnd - data + 1 : len;
                }
                else if (r.Byte(ix) == 0x21 && r.Byte(ix + 1) == 0xFF && ix + 14 < len) {
                    const char *applicationDataEnd = r.Find(ix + 14, 0x00);
                    ix = applicationDataEnd ? applicationDataEnd - data + 1 : len;
                }
                else
                    break;
            }
        }
        break;
    case Img_JPEG:
        // find the last start of frame marker for non-differential Huffman coding
        for (size_t ix = 2; ix + 9 < len && r.Byte(ix) == 0xFF; ) {
            if (0xC0 <= r.Byte(ix + 1) && r.Byte(ix + 1) <= 0xC3) {
                result.Width = r.WordBE(ix + 7);
                result.Height = r.WordBE(ix + 5);
            }
            ix += r.WordBE(ix + 2) + 2;
        }
        break;
    case Img_JXR:
        if (len >= 10 && r.DWordLE(4) == 8) {
            WORD ifdLen = r.WordLE(8);
            for (size_t i = 0; i < ifdLen && 10 + (i + 1) * 12 < len; i++) {
                size_t idx = 10 + i * 12;
                if (r.WordLE(idx + 0) == 0xBC80 && r.WordLE(idx + 2) == 4 && r.DWordLE(idx + 4) == 1)
                    result.Width = r.DWordLE(idx + 8);
                if (r.WordLE(idx + 0) == 0xBC80 && r.WordLE(idx + 2) == 3 && r.DWordLE(idx + 4) == 1)
                    result.Width = r.WordLE(idx + 8);
                if (r.WordLE(idx + 0) == 0xBC80 && r.WordLE(idx + 2) == 1 && r.DWordLE(idx + 4) == 1)
                    result.Width = r.Byte(idx + 8);
                if (r.WordLE(idx + 0) == 0xBC81 && r.WordLE(idx + 2) == 4 && r.DWordLE(idx + 4) == 1)
                    result.Height = r.DWordLE(idx + 8);
                if (r.WordLE(idx + 0) == 0xBC81 && r.WordLE(idx + 2) == 3 && r.DWordLE(idx + 4) == 1)
                    result.Height = r.WordLE(idx + 8);
                if (r.WordLE(idx + 0) == 0xBC81 && r.WordLE(idx + 2) == 1 && r.DWordLE(idx + 4) == 1)
                    result.Height = r.Byte(idx + 8);
            }
        }
        break;
    case Img_PNG:
        if (len >= 24 && str::StartsWith(data + 12, "IHDR")) {
            result.Width = r.DWordBE(16);
            result.Height = r.DWordBE(20);
        }
        break;
    case Img_TGA:
        if (len >= 16) {
            result.Width = r.WordLE(12);
            result.Height = r.WordLE(14);
        }
        break;
    case Img_TIFF:
        // TODO: speed this up (if necessary)
        break;
    }

    if (result.Empty()) {
        // let GDI+ extract the image size if we've failed
        // (currently happens for animated GIFs and for all TIFFs)
        Bitmap *bmp = BitmapFromData(data, len);
        if (bmp)
            result = Size(bmp->GetWidth(), bmp->GetHeight());
        delete bmp;
    }

    return result;
}