/* This file is part of Magnum. Copyright © 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019 Vladimír Vondruš Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include #include #include #include #include #include #include "Magnum/FileCallback.h" #include "Magnum/Math/Vector2.h" #include "Magnum/Text/AbstractFont.h" #include "Magnum/Text/AbstractGlyphCache.h" #include "configure.h" namespace Magnum { namespace Text { namespace Test { namespace { struct AbstractFontTest: TestSuite::Tester { explicit AbstractFontTest(); void construct(); void openData(); void openFileAsData(); void openFileAsDataNotFound(); void openFileNotImplemented(); void openDataNotSupported(); void openDataNotImplemented(); #ifdef MAGNUM_BUILD_DEPRECATED void openSingleDataDeprecated(); void openMultiDataDeprecated(); #endif void setFileCallback(); void setFileCallbackTemplate(); void setFileCallbackTemplateNull(); void setFileCallbackTemplateConst(); void setFileCallbackFileOpened(); void setFileCallbackNotImplemented(); void setFileCallbackNotSupported(); void setFileCallbackOpenFileDirectly(); void setFileCallbackOpenFileThroughBaseImplementation(); void setFileCallbackOpenFileThroughBaseImplementationFailed(); void setFileCallbackOpenFileAsData(); void setFileCallbackOpenFileAsDataFailed(); void properties(); void propertiesNoFont(); void glyphId(); void glyphIdNoFont(); void glyphAdvance(); void glyphAdvanceNoFont(); void layout(); void layoutNoFont(); void fillGlyphCache(); void fillGlyphCacheNotSupported(); void fillGlyphCacheNotImplemented(); void fillGlyphCacheNoFont(); void createGlyphCache(); void createGlyphCacheNotSupported(); void createGlyphCacheNotImplemented(); void createGlyphCacheNoFont(); void debugFeature(); void debugFeatures(); }; AbstractFontTest::AbstractFontTest() { addTests({&AbstractFontTest::construct, &AbstractFontTest::openData, &AbstractFontTest::openFileAsData, &AbstractFontTest::openFileAsDataNotFound, &AbstractFontTest::openFileNotImplemented, &AbstractFontTest::openDataNotSupported, &AbstractFontTest::openDataNotImplemented, #ifdef MAGNUM_BUILD_DEPRECATED &AbstractFontTest::openSingleDataDeprecated, &AbstractFontTest::openMultiDataDeprecated, #endif &AbstractFontTest::setFileCallback, &AbstractFontTest::setFileCallbackTemplate, &AbstractFontTest::setFileCallbackTemplateNull, &AbstractFontTest::setFileCallbackTemplateConst, &AbstractFontTest::setFileCallbackFileOpened, &AbstractFontTest::setFileCallbackNotImplemented, &AbstractFontTest::setFileCallbackNotSupported, &AbstractFontTest::setFileCallbackOpenFileDirectly, &AbstractFontTest::setFileCallbackOpenFileThroughBaseImplementation, &AbstractFontTest::setFileCallbackOpenFileThroughBaseImplementationFailed, &AbstractFontTest::setFileCallbackOpenFileAsData, &AbstractFontTest::setFileCallbackOpenFileAsDataFailed, &AbstractFontTest::properties, &AbstractFontTest::propertiesNoFont, &AbstractFontTest::glyphId, &AbstractFontTest::glyphIdNoFont, &AbstractFontTest::glyphAdvance, &AbstractFontTest::glyphAdvanceNoFont, &AbstractFontTest::layout, &AbstractFontTest::layoutNoFont, &AbstractFontTest::fillGlyphCache, &AbstractFontTest::fillGlyphCacheNotSupported, &AbstractFontTest::fillGlyphCacheNotImplemented, &AbstractFontTest::fillGlyphCacheNoFont, &AbstractFontTest::createGlyphCache, &AbstractFontTest::createGlyphCacheNotSupported, &AbstractFontTest::createGlyphCacheNotImplemented, &AbstractFontTest::createGlyphCacheNoFont, &AbstractFontTest::debugFeature, &AbstractFontTest::debugFeatures}); } void AbstractFontTest::construct() { struct: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; CORRADE_COMPARE(font.features(), AbstractFont::Features{}); CORRADE_VERIFY(!font.isOpened()); font.close(); CORRADE_VERIFY(!font.isOpened()); } void AbstractFontTest::openData() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData; } bool doIsOpened() const override { return _opened; } void doClose() override {} Metrics doOpenData(const Containers::ArrayView data, Float size) override { _opened = (data.size() == 1 && data[0] == '\xa5'); return {size, 1.0f, 2.0f, 3.0f}; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool _opened = false; } font; CORRADE_VERIFY(!font.isOpened()); const char a5 = '\xa5'; font.openData({&a5, 1}, 13.0f); CORRADE_VERIFY(font.isOpened()); CORRADE_COMPARE(font.size(), 13.0f); CORRADE_COMPARE(font.ascent(), 1.0f); CORRADE_COMPARE(font.descent(), 2.0f); CORRADE_COMPARE(font.lineHeight(), 3.0f); } void AbstractFontTest::openFileAsData() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData; } bool doIsOpened() const override { return _opened; } void doClose() override {} Metrics doOpenData(const Containers::ArrayView data, Float size) override { _opened = (data.size() == 1 && data[0] == '\xa5'); return {size, 1.0f, 2.0f, 3.0f}; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool _opened = false; } font; /* doOpenFile() should call doOpenData() */ CORRADE_VERIFY(!font.isOpened()); font.openFile(Utility::Directory::join(TEXT_TEST_DIR, "data.bin"), 13.0f); CORRADE_VERIFY(font.isOpened()); CORRADE_COMPARE(font.size(), 13.0f); CORRADE_COMPARE(font.ascent(), 1.0f); CORRADE_COMPARE(font.descent(), 2.0f); CORRADE_COMPARE(font.lineHeight(), 3.0f); } void AbstractFontTest::openFileAsDataNotFound() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; CORRADE_VERIFY(!font.openFile("nonexistent.foo", 12.0f)); CORRADE_COMPARE(out.str(), "Text::AbstractFont::openFile(): cannot open file nonexistent.foo\n"); } void AbstractFontTest::openFileNotImplemented() { struct: AbstractFont { /* Supports neither file nor data opening */ Features doFeatures() const override { return {}; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; font.openFile("file.foo", 34.0f); CORRADE_COMPARE(out.str(), "Text::AbstractFont::openFile(): not implemented\n"); } void AbstractFontTest::openDataNotSupported() { struct: AbstractFont { /* Supports neither file nor data opening */ Features doFeatures() const override { return {}; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; font.openData(nullptr, 34.0f); CORRADE_COMPARE(out.str(), "Text::AbstractFont::openData(): feature not supported\n"); } void AbstractFontTest::openDataNotImplemented() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; font.openData(nullptr, 34.0f); CORRADE_COMPARE(out.str(), "Text::AbstractFont::openData(): feature advertised but not implemented\n"); } #ifdef MAGNUM_BUILD_DEPRECATED void AbstractFontTest::openSingleDataDeprecated() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData; } bool doIsOpened() const override { return _opened; } void doClose() override {} Metrics doOpenData(const Containers::ArrayView data, Float size) override { _opened = (data.size() == 1 && data[0] == '\xa5'); return {size, 1.0f, 2.0f, 3.0f}; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool _opened = false; } font; CORRADE_VERIFY(!font.isOpened()); const char a5 = '\xa5'; CORRADE_IGNORE_DEPRECATED_PUSH font.openSingleData({&a5, 1}, 13.0f); CORRADE_IGNORE_DEPRECATED_POP CORRADE_VERIFY(font.isOpened()); CORRADE_COMPARE(font.size(), 13.0f); CORRADE_COMPARE(font.ascent(), 1.0f); CORRADE_COMPARE(font.descent(), 2.0f); CORRADE_COMPARE(font.lineHeight(), 3.0f); } void AbstractFontTest::openMultiDataDeprecated() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData; } bool doIsOpened() const override { return _opened; } void doClose() override {} Metrics doOpenData(const Containers::ArrayView data, Float size) override { if(!fileCallback()) return {}; Containers::Optional> dataExt = fileCallback()("data.ext", InputFileCallbackPolicy::LoadPermanent, fileCallbackUserData()); _opened = (data.size() == 1 && data[0] == '\xa5' && dataExt && dataExt->size() == 2 && (*dataExt)[1] == '\xee'); return {size, 1.0f, 2.0f, 3.0f}; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool _opened = false; } font; CORRADE_VERIFY(!font.isOpened()); const char a5 = '\xa5'; const char ee[] = { '\xff', '\xee' }; CORRADE_IGNORE_DEPRECATED_PUSH font.openData({{"data.bin", {&a5, 1}}, {"data.ext", ee}}, 13.0f); CORRADE_IGNORE_DEPRECATED_POP CORRADE_VERIFY(font.isOpened()); CORRADE_COMPARE(font.size(), 13.0f); CORRADE_COMPARE(font.ascent(), 1.0f); CORRADE_COMPARE(font.descent(), 2.0f); CORRADE_COMPARE(font.lineHeight(), 3.0f); } #endif void AbstractFontTest::setFileCallback() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData|Feature::FileCallback; } bool doIsOpened() const override { return false; } void doClose() override {} void doSetFileCallback(Containers::Optional>(*)(const std::string&, InputFileCallbackPolicy, void*), void* userData) override { *static_cast(userData) = 1337; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; int a = 0; auto lambda = [](const std::string&, InputFileCallbackPolicy, void*) { return Containers::Optional>{}; }; font.setFileCallback(lambda, &a); CORRADE_COMPARE(font.fileCallback(), lambda); CORRADE_COMPARE(font.fileCallbackUserData(), &a); CORRADE_COMPARE(a, 1337); } void AbstractFontTest::setFileCallbackTemplate() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData|Feature::FileCallback; } bool doIsOpened() const override { return false; } void doClose() override {} void doSetFileCallback(Containers::Optional>(*)(const std::string&, InputFileCallbackPolicy, void*), void*) override { called = true; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool called = false; } font; int a = 0; auto lambda = [](const std::string&, InputFileCallbackPolicy, int&) { return Containers::Optional>{}; }; font.setFileCallback(lambda, a); CORRADE_VERIFY(font.fileCallback()); CORRADE_VERIFY(font.fileCallbackUserData()); CORRADE_VERIFY(font.called); /* The data pointers should be wrapped, thus not the same */ CORRADE_VERIFY(reinterpret_cast(font.fileCallback()) != reinterpret_cast(static_cast>(*)(const std::string&, InputFileCallbackPolicy, int&)>(lambda))); CORRADE_VERIFY(font.fileCallbackUserData() != &a); } void AbstractFontTest::setFileCallbackTemplateNull() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData|Feature::FileCallback; } bool doIsOpened() const override { return false; } void doClose() override {} void doSetFileCallback(Containers::Optional>(*callback)(const std::string&, InputFileCallbackPolicy, void*), void* userData) override { called = !callback && !userData; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool called = false; } font; int a = 0; font.setFileCallback(static_cast>(*)(const std::string&, InputFileCallbackPolicy, int&)>(nullptr), a); CORRADE_VERIFY(!font.fileCallback()); CORRADE_VERIFY(!font.fileCallbackUserData()); CORRADE_VERIFY(font.called); } void AbstractFontTest::setFileCallbackTemplateConst() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData|Feature::FileCallback; } bool doIsOpened() const override { return false; } void doClose() override {} void doSetFileCallback(Containers::Optional>(*)(const std::string&, InputFileCallbackPolicy, void*), void*) override { called = true; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool called = false; } font; const int a = 0; auto lambda = [](const std::string&, InputFileCallbackPolicy, const int&) { return Containers::Optional>{}; }; font.setFileCallback(lambda, a); CORRADE_VERIFY(font.fileCallback()); CORRADE_VERIFY(font.fileCallbackUserData()); CORRADE_VERIFY(font.called); } void AbstractFontTest::setFileCallbackFileOpened() { struct: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return true; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; font.setFileCallback([](const std::string&, InputFileCallbackPolicy, void*) { return Containers::Optional>{}; }); CORRADE_COMPARE(out.str(), "Text::AbstractFont::setFileCallback(): can't be set while a font is opened\n"); } void AbstractFontTest::setFileCallbackNotImplemented() { struct: AbstractFont { Features doFeatures() const override { return Feature::FileCallback; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; int a; auto lambda = [](const std::string&, InputFileCallbackPolicy, void*) { return Containers::Optional>{}; }; font.setFileCallback(lambda, &a); CORRADE_COMPARE(font.fileCallback(), lambda); CORRADE_COMPARE(font.fileCallbackUserData(), &a); /* Should just work, no need to implement the function */ } void AbstractFontTest::setFileCallbackNotSupported() { struct: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; int a; font.setFileCallback([](const std::string&, InputFileCallbackPolicy, void*) { return Containers::Optional>{}; }, &a); CORRADE_COMPARE(out.str(), "Text::AbstractFont::setFileCallback(): font plugin supports neither loading from data nor via callbacks, callbacks can't be used\n"); } void AbstractFontTest::setFileCallbackOpenFileDirectly() { struct: AbstractFont { Features doFeatures() const override { return Feature::FileCallback|Feature::OpenData; } bool doIsOpened() const override { return _opened; } void doClose() override { _opened = false; } Metrics doOpenFile(const std::string& filename, Float size) override { /* Called because FileCallback is supported */ _opened = filename == "file.dat" && fileCallback() && fileCallbackUserData(); return {size, 1.0f, 2.0f, 3.0f}; } Metrics doOpenData(Containers::ArrayView, Float) override { /* Shouldn't be called because FileCallback is supported */ openDataCalledNotSureWhy = true; return {}; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool _opened = false; bool openDataCalledNotSureWhy = false; } font; bool calledNotSureWhy = false; font.setFileCallback([](const std::string&, InputFileCallbackPolicy, bool& calledNotSureWhy) -> Containers::Optional> { calledNotSureWhy = true; return {}; }, calledNotSureWhy); CORRADE_VERIFY(font.openFile("file.dat", 42.0f)); CORRADE_VERIFY(!calledNotSureWhy); CORRADE_VERIFY(!font.openDataCalledNotSureWhy); CORRADE_COMPARE(font.size(), 42.0f); CORRADE_COMPARE(font.ascent(), 1.0f); CORRADE_COMPARE(font.descent(), 2.0f); CORRADE_COMPARE(font.lineHeight(), 3.0f); } void AbstractFontTest::setFileCallbackOpenFileThroughBaseImplementation() { struct: AbstractFont { Features doFeatures() const override { return Feature::FileCallback|Feature::OpenData; } bool doIsOpened() const override { return _opened; } void doClose() override { _opened = false; } Metrics doOpenFile(const std::string& filename, Float size) override { openFileCalled = filename == "file.dat" && fileCallback() && fileCallbackUserData(); return AbstractFont::doOpenFile(filename, size); } Metrics doOpenData(Containers::ArrayView data, Float size) override { _opened = (data.size() == 1 && data[0] == '\xb0'); return {size, 1.0f, 2.0f, 3.0f}; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool _opened = false; bool openFileCalled = false; } font; struct State { const char data = '\xb0'; bool loaded = false; bool closed = false; bool calledNotSureWhy = false; } state; font.setFileCallback([](const std::string& filename, InputFileCallbackPolicy policy, State& state) -> Containers::Optional> { if(filename == "file.dat" && policy == InputFileCallbackPolicy::LoadTemporary) { state.loaded = true; return Containers::arrayView(&state.data, 1); } if(filename == "file.dat" && policy == InputFileCallbackPolicy::Close) { state.closed = true; return {}; } state.calledNotSureWhy = true; return {}; }, state); CORRADE_VERIFY(font.openFile("file.dat", 42.0f)); CORRADE_VERIFY(font.openFileCalled); CORRADE_VERIFY(state.loaded); CORRADE_VERIFY(state.closed); CORRADE_VERIFY(!state.calledNotSureWhy); CORRADE_COMPARE(font.size(), 42.0f); CORRADE_COMPARE(font.ascent(), 1.0f); CORRADE_COMPARE(font.descent(), 2.0f); CORRADE_COMPARE(font.lineHeight(), 3.0f); } void AbstractFontTest::setFileCallbackOpenFileThroughBaseImplementationFailed() { struct: AbstractFont { Features doFeatures() const override { return Feature::FileCallback|Feature::OpenData; } bool doIsOpened() const override { return false; } void doClose() override {} Metrics doOpenFile(const std::string& filename, Float size) override { openFileCalled = true; return AbstractFont::doOpenFile(filename, size); } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool openFileCalled = false; } font; font.setFileCallback([](const std::string&, InputFileCallbackPolicy, void*) -> Containers::Optional> { return {}; }); std::ostringstream out; Error redirectError{&out}; CORRADE_VERIFY(!font.openFile("file.dat", 42.0f)); CORRADE_VERIFY(font.openFileCalled); CORRADE_COMPARE(out.str(), "Text::AbstractFont::openFile(): cannot open file file.dat\n"); } void AbstractFontTest::setFileCallbackOpenFileAsData() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData; } bool doIsOpened() const override { return _opened; } void doClose() override { _opened = false; } Metrics doOpenFile(const std::string&, Float) override { openFileCalled = true; return {}; } Metrics doOpenData(Containers::ArrayView data, Float size) override { _opened = (data.size() == 1 && data[0] == '\xb0'); return {size, 1.0f, 2.0f, 3.0f}; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool _opened = false; bool openFileCalled = false; } font; struct State { const char data = '\xb0'; bool loaded = false; bool closed = false; bool calledNotSureWhy = false; } state; font.setFileCallback([](const std::string& filename, InputFileCallbackPolicy policy, State& state) -> Containers::Optional> { if(filename == "file.dat" && policy == InputFileCallbackPolicy::LoadTemporary) { state.loaded = true; return Containers::arrayView(&state.data, 1); } if(filename == "file.dat" && policy == InputFileCallbackPolicy::Close) { state.closed = true; return {}; } state.calledNotSureWhy = true; return {}; }, state); CORRADE_VERIFY(font.openFile("file.dat", 13.0f)); CORRADE_VERIFY(!font.openFileCalled); CORRADE_VERIFY(state.loaded); CORRADE_VERIFY(state.closed); CORRADE_VERIFY(!state.calledNotSureWhy); CORRADE_COMPARE(font.size(), 13.0f); CORRADE_COMPARE(font.ascent(), 1.0f); CORRADE_COMPARE(font.descent(), 2.0f); CORRADE_COMPARE(font.lineHeight(), 3.0f); } void AbstractFontTest::setFileCallbackOpenFileAsDataFailed() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData; } bool doIsOpened() const override { return false; } void doClose() override {} Metrics doOpenFile(const std::string&, Float) override { openFileCalled = true; return {}; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool openFileCalled = false; } font; font.setFileCallback([](const std::string&, InputFileCallbackPolicy, void*) { return Containers::Optional>{}; }); std::ostringstream out; Error redirectError{&out}; CORRADE_VERIFY(!font.openFile("file.dat", 132.0f)); CORRADE_VERIFY(!font.openFileCalled); CORRADE_COMPARE(out.str(), "Text::AbstractFont::openFile(): cannot open file file.dat\n"); } void AbstractFontTest::properties() { struct: AbstractFont { Features doFeatures() const override { return Feature::OpenData; } bool doIsOpened() const override { return _opened; } void doClose() override {} Metrics doOpenData(const Containers::ArrayView, Float size) override { _opened = true; return {size, 1.0f, 2.0f, 3.0f}; } UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } bool _opened = false; } font; CORRADE_VERIFY(font.openData(nullptr, 13.0f)); CORRADE_COMPARE(font.size(), 13.0f); CORRADE_COMPARE(font.ascent(), 1.0f); CORRADE_COMPARE(font.descent(), 2.0f); CORRADE_COMPARE(font.lineHeight(), 3.0f); } void AbstractFontTest::propertiesNoFont() { struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; font.size(); font.ascent(); font.descent(); font.lineHeight(); CORRADE_COMPARE(out.str(), "Text::AbstractFont::size(): no font opened\n" "Text::AbstractFont::ascent(): no font opened\n" "Text::AbstractFont::descent(): no font opened\n" "Text::AbstractFont::lineHeight(): no font opened\n"); } void AbstractFontTest::glyphId() { struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return true; } void doClose() override {} UnsignedInt doGlyphId(char32_t a) override { return a*10; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; CORRADE_COMPARE(font.glyphId(U'a'), 970); } void AbstractFontTest::glyphIdNoFont() { struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; font.glyphId('a'); CORRADE_COMPARE(out.str(), "Text::AbstractFont::glyphId(): no font opened\n"); } void AbstractFontTest::glyphAdvance() { struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return true; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt a) override { return {a*10.0f, -Float(a)/10.0f}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; CORRADE_COMPARE(font.glyphAdvance(97), (Vector2{970.0f, -9.7f})); } void AbstractFontTest::glyphAdvanceNoFont() { struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; font.glyphAdvance(97); CORRADE_COMPARE(out.str(), "Text::AbstractFont::glyphAdvance(): no font opened\n"); } struct DummyGlyphCache: AbstractGlyphCache { using AbstractGlyphCache::AbstractGlyphCache; GlyphCacheFeatures doFeatures() const override { return {}; } void doSetImage(const Vector2i&, const ImageView2D&) override {} }; void AbstractFontTest::layout() { struct Layouter: AbstractLayouter { explicit Layouter(UnsignedInt count): AbstractLayouter{count} {} std::tuple doRenderGlyph(UnsignedInt) override { return {}; } }; struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return true; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache& cache, Float size, const std::string& str) override { return Containers::pointer(UnsignedInt(cache.textureSize().x()*str.size()*size)); } } font; DummyGlyphCache cache{{100, 200}}; Containers::Pointer layouter = font.layout(cache, 0.25f, "hello"); CORRADE_COMPARE(layouter->glyphCount(), 100*5/4); } void AbstractFontTest::layoutNoFont() { struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; DummyGlyphCache cache{{100, 200}}; font.layout(cache, 0.25f, "hello"); CORRADE_COMPARE(out.str(), "Text::AbstractFont::layout(): no font opened\n"); } void AbstractFontTest::fillGlyphCache() { struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return true; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } void doFillGlyphCache(AbstractGlyphCache& cache, const std::u32string& characters) override { for(char a: characters) cache.insert(a*10, {a/2, a*2}, {}); } } font; DummyGlyphCache cache{{100, 100}}; CORRADE_COMPARE(cache.glyphCount(), 1); font.fillGlyphCache(cache, "helo"); CORRADE_COMPARE(cache.glyphCount(), 5); CORRADE_COMPARE(cache['h'*10], (std::pair{{52, 208}, {}})); CORRADE_COMPARE(cache['e'*10], (std::pair{{50, 202}, {}})); CORRADE_COMPARE(cache['l'*10], (std::pair{{54, 216}, {}})); CORRADE_COMPARE(cache['o'*10], (std::pair{{55, 222}, {}})); } void AbstractFontTest::fillGlyphCacheNotSupported() { struct MyFont: AbstractFont { Features doFeatures() const override { return Feature::PreparedGlyphCache; } bool doIsOpened() const override { return true; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; DummyGlyphCache cache{{100, 100}}; font.fillGlyphCache(cache, "hello"); CORRADE_COMPARE(out.str(), "Text::AbstractFont::fillGlyphCache(): feature not supported\n"); } void AbstractFontTest::fillGlyphCacheNotImplemented() { struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return true; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; DummyGlyphCache cache{{100, 100}}; font.fillGlyphCache(cache, "hello"); CORRADE_COMPARE(out.str(), "Text::AbstractFont::fillGlyphCache(): feature advertised but not implemented\n"); } void AbstractFontTest::fillGlyphCacheNoFont() { struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; DummyGlyphCache cache{{100, 100}}; font.fillGlyphCache(cache, "hello"); CORRADE_COMPARE(out.str(), "Text::AbstractFont::fillGlyphCache(): no font opened\n"); } void AbstractFontTest::createGlyphCache() { struct MyFont: AbstractFont { Features doFeatures() const override { return Feature::PreparedGlyphCache; } bool doIsOpened() const override { return true; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } Containers::Pointer doCreateGlyphCache() override { Containers::Pointer cache{new DummyGlyphCache{{100, 100}}}; for(char a: std::string{"helo"}) cache->insert(a*10, {a/2, a*2}, {}); return cache; } } font; Containers::Pointer cache = font.createGlyphCache(); CORRADE_COMPARE(cache->glyphCount(), 5); CORRADE_COMPARE((*cache)['h'*10], (std::pair{{52, 208}, {}})); CORRADE_COMPARE((*cache)['e'*10], (std::pair{{50, 202}, {}})); CORRADE_COMPARE((*cache)['l'*10], (std::pair{{54, 216}, {}})); CORRADE_COMPARE((*cache)['o'*10], (std::pair{{55, 222}, {}})); } void AbstractFontTest::createGlyphCacheNotSupported() { struct MyFont: AbstractFont { Features doFeatures() const override { return {}; } bool doIsOpened() const override { return true; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; font.createGlyphCache(); CORRADE_COMPARE(out.str(), "Text::AbstractFont::createGlyphCache(): feature not supported\n"); } void AbstractFontTest::createGlyphCacheNotImplemented() { struct MyFont: AbstractFont { Features doFeatures() const override { return Feature::PreparedGlyphCache; } bool doIsOpened() const override { return true; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; font.createGlyphCache(); CORRADE_COMPARE(out.str(), "Text::AbstractFont::createGlyphCache(): feature advertised but not implemented\n"); } void AbstractFontTest::createGlyphCacheNoFont() { struct MyFont: AbstractFont { Features doFeatures() const override { return Feature::PreparedGlyphCache; } bool doIsOpened() const override { return false; } void doClose() override {} UnsignedInt doGlyphId(char32_t) override { return {}; } Vector2 doGlyphAdvance(UnsignedInt) override { return {}; } Containers::Pointer doLayout(const AbstractGlyphCache&, Float, const std::string&) override { return nullptr; } } font; std::ostringstream out; Error redirectError{&out}; font.createGlyphCache(); CORRADE_COMPARE(out.str(), "Text::AbstractFont::createGlyphCache(): no font opened\n"); } void AbstractFontTest::debugFeature() { std::ostringstream out; Debug{&out} << AbstractFont::Feature::OpenData << AbstractFont::Feature(0xf0); CORRADE_COMPARE(out.str(), "Text::AbstractFont::Feature::OpenData Text::AbstractFont::Feature(0xf0)\n"); } void AbstractFontTest::debugFeatures() { std::ostringstream out; Debug{&out} << (AbstractFont::Feature::OpenData|AbstractFont::Feature::PreparedGlyphCache) << AbstractFont::Features{}; CORRADE_COMPARE(out.str(), "Text::AbstractFont::Feature::OpenData|Text::AbstractFont::Feature::PreparedGlyphCache Text::AbstractFont::Features{}\n"); } }}}} CORRADE_TEST_MAIN(Magnum::Text::Test::AbstractFontTest)