.skp file on a web page in Chromium.mskp file on a web page in ChromiumTaking a subset of a bitmap is effectively free - no pixels are copied or memory is allocated. This allows Skia to offer an API that typically operates on entire bitmaps; clients who want to operate on a subset of a bitmap can use the following pattern, here being used to magnify a portion of an image with drawBitmapNine():
SkBitmap subset; bitmap.extractSubset(&subset, rect); canvas->drawBitmapNine(subset, ...);
.skp file on a web page in ChromiumUse the script experimental/tools/web_to_skp , or do the following:
--no-sandbox --enable-gpu-benchmarkingchrome.gpuBenchmarking.printToSkPicture('/tmp') This returns “undefined” on success.Open the resulting file in the Skia Debugger, rasterize it with dm, or use Skia's viewer to view it:
out/Release/dm --src skp --skps /tmp/layer_0.skp -w /tmp \
--config 8888 gpu pdf --verbose
ls -l /tmp/*/skp/layer_0.skp.*
out/Release/viewer --skps /tmp --slide layer_0.skp
.mskp file on a web page in ChromiumMultipage Skia Picture files capture the commands sent to produce PDFs and printed documents.
Use the script experimental/tools/web_to_mskp , or do the following:
--no-sandbox --enable-gpu-benchmarkingchrome.gpuBenchmarking.printPagesToSkPictures('/tmp/filename.mskp') This returns “undefined” on success.Open the resulting file in the Skia Debugger or process it with dm.
experimental/tools/mskp_parser.py /tmp/filename.mskp /tmp/filename.mskp.skp
ls -l /tmp/filename.mskp.skp
# open filename.mskp.skp in the debugger.
out/Release/dm --src mskp --mskps /tmp/filename.mskp -w /tmp \
--config pdf --verbose
ls -l /tmp/pdf/mskp/filename.mskp.pdf
There are two ways Skia takes advantage of specific hardware.
Custom bottleneck routines
There are sets of bottleneck routines inside the blits of Skia that can be replace on a platform in order to take advantage of specific CPU features. One such example is the NEON SIMD instructions on ARM v7 devices. See src/opts/
Skia has a built-in font cache, but it does not know how to actually render font files like TrueType into its cache. For that it relies on the platform to supply an instance of SkScalerContext. This is Skia's abstract interface for communicating with a font scaler engine. In src/ports you can see support files for FreeType, macOS, and Windows GDI font engines. Other font engines can easily be supported in a like manner.
Shaping is the process that translates a span of Unicode text into a span of positioned glyphs with the apropriate typefaces.
Skia does not shape text. Skia provides interfaces to draw glyphs, but does not implement a text shaper. Skia‘s client’s often use HarfBuzz to generate the glyphs and their positions, including kerning.
Here is an example of how to use Skia and HarfBuzz together. In the example, a SkTypeface and a hb_face_t are created using the same mmap()ed .ttf font file. The HarfBuzz face is used to shape unicode text into a sequence of glyphs and positions, and the SkTypeface can then be used to draw those glyphs.
void draw(SkCanvas* canvas) {
const SkScalar sigma = 1.65f;
const SkScalar xDrop = 2.0f;
const SkScalar yDrop = 2.0f;
const SkScalar x = 8.0f;
const SkScalar y = 52.0f;
const SkScalar textSize = 48.0f;
const uint8_t blurAlpha = 127;
auto blob = SkTextBlob::MakeFromString("Skia", SkFont(nullptr, textSize));
SkPaint paint;
paint.setAntiAlias(true);
SkPaint blur(paint);
blur.setAlpha(blurAlpha);
blur.setMaskFilter(SkMaskFilter::MakeBlur(kNormal_SkBlurStyle, sigma, 0));
canvas->drawColor(SK_ColorWHITE);
canvas->drawTextBlob(blob.get(), x + xDrop, y + yDrop, blur);
canvas->drawTextBlob(blob.get(), x, y, paint);
}