/* * Copyright 2017 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "include/core/SkCanvas.h" #include "include/core/SkPicture.h" #include "include/core/SkPictureRecorder.h" #include "include/core/SkSerialProcs.h" #include "include/core/SkSurface.h" #include "tests/Test.h" #include "tools/Resources.h" #include "tools/ToolUtils.h" static sk_sp picture_to_image(sk_sp pic) { SkIRect r = pic->cullRect().round(); auto surf = SkSurface::MakeRasterN32Premul(r.width(), r.height()); surf->getCanvas()->drawPicture(pic); return surf->makeImageSnapshot(); } struct State { const char* fStr; SkImage* fImg; }; DEF_TEST(serial_procs_image, reporter) { auto src_img = GetResourceAsImage("images/mandrill_128.png"); const char magic_str[] = "magic signature"; const SkSerialImageProc sprocs[] = { [](SkImage* img, void* ctx) -> sk_sp { return nullptr; }, [](SkImage* img, void* ctx) { return img->encodeToData(); }, [](SkImage* img, void* ctx) { return SkData::MakeWithCString(((State*)ctx)->fStr); }, }; const SkDeserialImageProc dprocs[] = { [](const void* data, size_t length, void*) -> sk_sp { return nullptr; }, [](const void* data, size_t length, void*) { return SkImage::MakeFromEncoded(SkData::MakeWithCopy(data, length)); }, [](const void* data, size_t length, void* ctx) -> sk_sp { State* state = (State*)ctx; if (length != strlen(state->fStr)+1 || 0 != memcmp(data, state->fStr, length)) { return nullptr; } return sk_ref_sp(state->fImg); }, }; sk_sp pic; { SkPictureRecorder rec; SkCanvas* canvas = rec.beginRecording(128, 128); canvas->drawImage(src_img, 0, 0, nullptr); pic = rec.finishRecordingAsPicture(); } State state = { magic_str, src_img.get() }; SkSerialProcs sproc; sproc.fImageCtx = &state; SkDeserialProcs dproc; dproc.fImageCtx = &state; for (size_t i = 0; i < SK_ARRAY_COUNT(sprocs); ++i) { sproc.fImageProc = sprocs[i]; auto data = pic->serialize(&sproc); REPORTER_ASSERT(reporter, data); dproc.fImageProc = dprocs[i]; auto new_pic = SkPicture::MakeFromData(data.get(), &dproc); REPORTER_ASSERT(reporter, data); auto dst_img = picture_to_image(new_pic); REPORTER_ASSERT(reporter, ToolUtils::equal_pixels(src_img.get(), dst_img.get())); } } /////////////////////////////////////////////////////////////////////////////////////////////////// static sk_sp make_pic(const std::function& drawer) { SkPictureRecorder rec; drawer(rec.beginRecording(128, 128)); return rec.finishRecordingAsPicture(); } static SkSerialProcs makes(SkSerialPictureProc proc, void* ctx = nullptr) { SkSerialProcs procs; procs.fPictureProc = proc; procs.fPictureCtx = ctx; return procs; } static SkDeserialProcs maked(SkDeserialPictureProc proc, const void* ctx = nullptr) { SkDeserialProcs procs; procs.fPictureProc = proc; procs.fPictureCtx = const_cast(ctx); return procs; } // packages the picture's point in the skdata, and records it in the ctx as an array struct Context { SkTDArray fArray; SkPicture* fSkipMe = nullptr; }; static sk_sp array_serial_proc(SkPicture* pic, void* ctx) { Context* c = (Context*)ctx; if (c->fSkipMe == pic) { return nullptr; } *c->fArray.append() = pic; return SkData::MakeWithCopy(&pic, sizeof(pic)); } static sk_sp array_deserial_proc(const void* data, size_t size, void* ctx) { SkASSERT(sizeof(SkPicture*) == size); Context* c = (Context*)ctx; SkPicture* pic; memcpy(&pic, data, size); int index = c->fArray.find(pic); SkASSERT(index >= 0); c->fArray.removeShuffle(index); return sk_ref_sp(pic); } static void test_pictures(skiatest::Reporter* reporter, sk_sp p0, int count, bool skipRoot) { Context ctx; if (skipRoot) { ctx.fSkipMe = p0.get(); } SkSerialProcs sprocs = makes(array_serial_proc, &ctx); auto d0 = p0->serialize(&sprocs); REPORTER_ASSERT(reporter, ctx.fArray.count() == count); SkDeserialProcs dprocs = maked(array_deserial_proc, &ctx); p0 = SkPicture::MakeFromData(d0.get(), &dprocs); REPORTER_ASSERT(reporter, ctx.fArray.count() == 0); } DEF_TEST(serial_procs_picture, reporter) { auto p1 = make_pic([](SkCanvas* c) { // need to be large enough that drawPictures doesn't "unroll" us for (int i = 0; i < 20; ++i) { c->drawColor(SK_ColorRED); } }); // now use custom serialization auto p0 = make_pic([](SkCanvas* c) { c->drawColor(SK_ColorBLUE); }); test_pictures(reporter, p0, 1, false); // test inside effect p0 = make_pic([p1](SkCanvas* c) { SkPaint paint; SkTileMode tm = SkTileMode::kClamp; paint.setShader(p1->makeShader(tm, tm)); c->drawPaint(paint); }); test_pictures(reporter, p0, 1, true); // test nested picture p0 = make_pic([p1](SkCanvas* c) { c->drawColor(SK_ColorRED); c->drawPicture(p1); c->drawColor(SK_ColorBLUE); }); test_pictures(reporter, p0, 1, true); } static sk_sp make_picture(sk_sp tf0, sk_sp tf1) { SkPictureRecorder rec; SkCanvas* canvas = rec.beginRecording(100, 100); SkPaint paint; SkFont font; font.setTypeface(tf0); canvas->drawString("hello", 0, 0, font, paint); font.setTypeface(tf1); canvas->drawString("hello", 0, 0, font, paint); font.setTypeface(tf0); canvas->drawString("hello", 0, 0, font, paint); font.setTypeface(tf1); canvas->drawString("hello", 0, 0, font, paint); return rec.finishRecordingAsPicture(); } DEF_TEST(serial_typeface, reporter) { auto tf0 = MakeResourceAsTypeface("fonts/hintgasp.ttf"); auto tf1 = MakeResourceAsTypeface("fonts/Roboto2-Regular_NoEmbed.ttf"); if (!tf0 || !tf1 || tf0.get() == tf1.get()) { return; // need two different typefaces for this test to make sense. } auto pic = make_picture(tf0, tf1); int counter = 0; SkSerialProcs procs; procs.fTypefaceProc = [](SkTypeface* tf, void* ctx) -> sk_sp { *(int*)ctx += 1; return nullptr; }; procs.fTypefaceCtx = &counter; auto data = pic->serialize(&procs); // The picture has 2 references to each typeface, but we want the serialized picture to // only have written the data 1 time per typeface. REPORTER_ASSERT(reporter, counter == 2); }