/* * Copyright 2015 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkBitmap.h" #include "SkCanvas.h" #include "SkData.h" #include "SkImage.h" #include "SkImageShader.h" #include "SkParse.h" #include "SkShader.h" #include "SkStream.h" #include "SkTo.h" #include "Test.h" #include #ifdef SK_XML #include "SkDOM.h" #include "SkSVGCanvas.h" #include "SkXMLWriter.h" #if 0 Using the new system where devices only gets glyphs causes this to fail because the font has no glyph to unichar data. namespace { void check_text_node(skiatest::Reporter* reporter, const SkDOM& dom, const SkDOM::Node* root, const SkPoint& offset, unsigned scalarsPerPos, const char* expected) { if (root == nullptr) { ERRORF(reporter, "root element not found."); return; } const SkDOM::Node* textElem = dom.getFirstChild(root, "text"); if (textElem == nullptr) { ERRORF(reporter, " element not found."); return; } REPORTER_ASSERT(reporter, dom.getType(textElem) == SkDOM::kElement_Type); const SkDOM::Node* textNode= dom.getFirstChild(textElem); REPORTER_ASSERT(reporter, textNode != nullptr); if (textNode != nullptr) { REPORTER_ASSERT(reporter, dom.getType(textNode) == SkDOM::kText_Type); if (strcmp(expected, dom.getName(textNode)) != 0) { SkDebugf("string fail %s == %s\n", expected, dom.getName(textNode)); } REPORTER_ASSERT(reporter, strcmp(expected, dom.getName(textNode)) == 0); } int textLen = SkToInt(strlen(expected)); const char* x = dom.findAttr(textElem, "x"); REPORTER_ASSERT(reporter, x != nullptr); if (x != nullptr) { int xposCount = (scalarsPerPos < 1) ? 1 : textLen; REPORTER_ASSERT(reporter, SkParse::Count(x) == xposCount); SkAutoTMalloc xpos(xposCount); SkParse::FindScalars(x, xpos.get(), xposCount); if (scalarsPerPos < 1) { REPORTER_ASSERT(reporter, xpos[0] == offset.x()); } else { for (int i = 0; i < xposCount; ++i) { if (xpos[i] != SkIntToScalar(expected[i])) { SkDebugf("Bad xs %g == %g\n", xpos[i], SkIntToScalar(expected[i])); } REPORTER_ASSERT(reporter, xpos[i] == SkIntToScalar(expected[i])); } } } const char* y = dom.findAttr(textElem, "y"); REPORTER_ASSERT(reporter, y != nullptr); if (y != nullptr) { int yposCount = (scalarsPerPos < 2) ? 1 : textLen; REPORTER_ASSERT(reporter, SkParse::Count(y) == yposCount); SkAutoTMalloc ypos(yposCount); SkParse::FindScalars(y, ypos.get(), yposCount); if (scalarsPerPos < 2) { REPORTER_ASSERT(reporter, ypos[0] == offset.y()); } else { for (int i = 0; i < yposCount; ++i) { REPORTER_ASSERT(reporter, ypos[i] == -SkIntToScalar(expected[i])); } } } } void test_whitespace_pos(skiatest::Reporter* reporter, const char* txt, const char* expected) { size_t len = strlen(txt); SkDOM dom; SkPaint paint; SkPoint offset = SkPoint::Make(10, 20); { SkXMLParserWriter writer(dom.beginParsing()); std::unique_ptr svgCanvas = SkSVGCanvas::Make(SkRect::MakeWH(100, 100), &writer); svgCanvas->drawText(txt, len, offset.x(), offset.y(), paint); } check_text_node(reporter, dom, dom.finishParsing(), offset, 2, expected); { SkAutoTMalloc xpos(len); for (int i = 0; i < SkToInt(len); ++i) { xpos[i] = SkIntToScalar(txt[i]); } SkXMLParserWriter writer(dom.beginParsing()); std::unique_ptr svgCanvas = SkSVGCanvas::Make(SkRect::MakeWH(100, 100), &writer); svgCanvas->drawPosTextH(txt, len, xpos, offset.y(), paint); } check_text_node(reporter, dom, dom.finishParsing(), offset, 2, expected); { SkAutoTMalloc pos(len); for (int i = 0; i < SkToInt(len); ++i) { pos[i] = SkPoint::Make(SkIntToScalar(txt[i]), -SkIntToScalar(txt[i])); } SkXMLParserWriter writer(dom.beginParsing()); std::unique_ptr svgCanvas = SkSVGCanvas::Make(SkRect::MakeWH(100, 100), &writer); svgCanvas->drawPosText(txt, len, pos, paint); } check_text_node(reporter, dom, dom.finishParsing(), offset, 2, expected); } } DEF_TEST(SVGDevice_whitespace_pos, reporter) { static const struct { const char* tst_in; const char* tst_out; } tests[] = { { "abcd" , "abcd" }, { "ab cd" , "ab cd" }, { "ab \t\t cd", "ab cd" }, { " abcd" , "abcd" }, { " abcd" , "abcd" }, { " \t\t abcd", "abcd" }, { "abcd " , "abcd " }, // we allow one trailing whitespace char { "abcd " , "abcd " }, // because it makes no difference and { "abcd\t " , "abcd\t" }, // simplifies the implementation { "\t\t \t ab \t\t \t cd \t\t \t ", "ab cd " }, }; for (unsigned i = 0; i < SK_ARRAY_COUNT(tests); ++i) { test_whitespace_pos(reporter, tests[i].tst_in, tests[i].tst_out); } } #endif void SetImageShader(SkPaint* paint, int imageWidth, int imageHeight, SkShader::TileMode xTile, SkShader::TileMode yTile) { auto surface = SkSurface::MakeRasterN32Premul(imageWidth, imageHeight); paint->setShader(SkImageShader::Make(surface->makeImageSnapshot(), xTile, yTile, nullptr)); } // Attempt to find the three nodes on which we have expectations: // the pattern node, the image within that pattern, and the rect which // uses the pattern as a fill. // returns false if not all nodes are found. bool FindImageShaderNodes(skiatest::Reporter* reporter, const SkDOM* dom, const SkDOM::Node* root, const SkDOM::Node** patternOut, const SkDOM::Node** imageOut, const SkDOM::Node** rectOut) { if (root == nullptr || dom == nullptr) { ERRORF(reporter, "root element not found"); return false; } const SkDOM::Node* rect = dom->getFirstChild(root, "rect"); if (rect == nullptr) { ERRORF(reporter, "rect not found"); return false; } *rectOut = rect; const SkDOM::Node* defs = dom->getFirstChild(root, "defs"); if (defs == nullptr) { ERRORF(reporter, "defs not found"); return false; } const SkDOM::Node* pattern = dom->getFirstChild(defs, "pattern"); if (pattern == nullptr) { ERRORF(reporter, "pattern not found"); return false; } *patternOut = pattern; const SkDOM::Node* image = dom->getFirstChild(pattern, "image"); if (image == nullptr) { ERRORF(reporter, "image not found"); return false; } *imageOut = image; return true; } void ImageShaderTestSetup(SkDOM* dom, SkPaint* paint, int imageWidth, int imageHeight, int rectWidth, int rectHeight, SkShader::TileMode xTile, SkShader::TileMode yTile) { SetImageShader(paint, imageWidth, imageHeight, xTile, yTile); SkXMLParserWriter writer(dom->beginParsing()); std::unique_ptr svgCanvas = SkSVGCanvas::Make(SkRect::MakeWH(100, 100), &writer); SkRect bounds{0, 0, SkIntToScalar(rectWidth), SkIntToScalar(rectHeight)}; svgCanvas->drawRect(bounds, *paint); } DEF_TEST(SVGDevice_image_shader_norepeat, reporter) { SkDOM dom; SkPaint paint; int imageWidth = 3, imageHeight = 3; int rectWidth = 10, rectHeight = 10; ImageShaderTestSetup(&dom, &paint, imageWidth, imageHeight, rectWidth, rectHeight, SkShader::kClamp_TileMode, SkShader::kClamp_TileMode); const SkDOM::Node* root = dom.finishParsing(); const SkDOM::Node *patternNode, *imageNode, *rectNode; bool structureAppropriate = FindImageShaderNodes(reporter, &dom, root, &patternNode, &imageNode, &rectNode); REPORTER_ASSERT(reporter, structureAppropriate); // the image should always maintain its size. REPORTER_ASSERT(reporter, atoi(dom.findAttr(imageNode, "width")) == imageWidth); REPORTER_ASSERT(reporter, atoi(dom.findAttr(imageNode, "height")) == imageHeight); // making the pattern as large as the container prevents // it from repeating. REPORTER_ASSERT(reporter, strcmp(dom.findAttr(patternNode, "width"), "100%") == 0); REPORTER_ASSERT(reporter, strcmp(dom.findAttr(patternNode, "height"), "100%") == 0); } DEF_TEST(SVGDevice_image_shader_tilex, reporter) { SkDOM dom; SkPaint paint; int imageWidth = 3, imageHeight = 3; int rectWidth = 10, rectHeight = 10; ImageShaderTestSetup(&dom, &paint, imageWidth, imageHeight, rectWidth, rectHeight, SkShader::kRepeat_TileMode, SkShader::kClamp_TileMode); const SkDOM::Node* root = dom.finishParsing(); const SkDOM::Node* innerSvg = dom.getFirstChild(root, "svg"); if (innerSvg == nullptr) { ERRORF(reporter, "inner svg element not found"); return; } const SkDOM::Node *patternNode, *imageNode, *rectNode; bool structureAppropriate = FindImageShaderNodes(reporter, &dom, innerSvg, &patternNode, &imageNode, &rectNode); REPORTER_ASSERT(reporter, structureAppropriate); // the imageNode should always maintain its size. REPORTER_ASSERT(reporter, atoi(dom.findAttr(imageNode, "width")) == imageWidth); REPORTER_ASSERT(reporter, atoi(dom.findAttr(imageNode, "height")) == imageHeight); // if the patternNode width matches the imageNode width, // it will repeat in along the x axis. REPORTER_ASSERT(reporter, atoi(dom.findAttr(patternNode, "width")) == imageWidth); REPORTER_ASSERT(reporter, strcmp(dom.findAttr(patternNode, "height"), "100%") == 0); } DEF_TEST(SVGDevice_image_shader_tiley, reporter) { SkDOM dom; SkPaint paint; int imageNodeWidth = 3, imageNodeHeight = 3; int rectNodeWidth = 10, rectNodeHeight = 10; ImageShaderTestSetup(&dom, &paint, imageNodeWidth, imageNodeHeight, rectNodeWidth, rectNodeHeight, SkShader::kClamp_TileMode, SkShader::kRepeat_TileMode); const SkDOM::Node* root = dom.finishParsing(); const SkDOM::Node* innerSvg = dom.getFirstChild(root, "svg"); if (innerSvg == nullptr) { ERRORF(reporter, "inner svg element not found"); return; } const SkDOM::Node *patternNode, *imageNode, *rectNode; bool structureAppropriate = FindImageShaderNodes(reporter, &dom, innerSvg, &patternNode, &imageNode, &rectNode); REPORTER_ASSERT(reporter, structureAppropriate); // the imageNode should always maintain its size. REPORTER_ASSERT(reporter, atoi(dom.findAttr(imageNode, "width")) == imageNodeWidth); REPORTER_ASSERT(reporter, atoi(dom.findAttr(imageNode, "height")) == imageNodeHeight); // making the patternNode as large as the container prevents // it from repeating. REPORTER_ASSERT(reporter, strcmp(dom.findAttr(patternNode, "width"), "100%") == 0); REPORTER_ASSERT(reporter, atoi(dom.findAttr(patternNode, "height")) == imageNodeHeight); } DEF_TEST(SVGDevice_image_shader_tileboth, reporter) { SkDOM dom; SkPaint paint; int imageWidth = 3, imageHeight = 3; int rectWidth = 10, rectHeight = 10; ImageShaderTestSetup(&dom, &paint, imageWidth, imageHeight, rectWidth, rectHeight, SkShader::kRepeat_TileMode, SkShader::kRepeat_TileMode); const SkDOM::Node* root = dom.finishParsing(); const SkDOM::Node *patternNode, *imageNode, *rectNode; const SkDOM::Node* innerSvg = dom.getFirstChild(root, "svg"); if (innerSvg == nullptr) { ERRORF(reporter, "inner svg element not found"); return; } bool structureAppropriate = FindImageShaderNodes(reporter, &dom, innerSvg, &patternNode, &imageNode, &rectNode); REPORTER_ASSERT(reporter, structureAppropriate); // the imageNode should always maintain its size. REPORTER_ASSERT(reporter, atoi(dom.findAttr(imageNode, "width")) == imageWidth); REPORTER_ASSERT(reporter, atoi(dom.findAttr(imageNode, "height")) == imageHeight); REPORTER_ASSERT(reporter, atoi(dom.findAttr(patternNode, "width")) == imageWidth); REPORTER_ASSERT(reporter, atoi(dom.findAttr(patternNode, "height")) == imageHeight); } #endif