/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "minikin/Layout.h" #include #include "minikin/FontCollection.h" #include "minikin/LayoutPieces.h" #include "FontTestUtils.h" #include "UnicodeUtils.h" namespace minikin { static void expectAdvances(const std::vector& expected, const std::vector& advances) { EXPECT_LE(expected.size(), advances.size()); for (size_t i = 0; i < expected.size(); ++i) { EXPECT_EQ(expected[i], advances[i]) << i << "th element is different. Expected: " << expected[i] << ", Actual: " << advances[i]; } } class LayoutTest : public testing::Test { protected: LayoutTest() : mCollection(nullptr) {} virtual ~LayoutTest() {} virtual void SetUp() override { mCollection = buildFontCollection("Ascii.ttf"); } virtual void TearDown() override {} std::shared_ptr mCollection; }; TEST_F(LayoutTest, doLayoutTest) { MinikinPaint paint(mCollection); paint.size = 10.0f; // make 1em = 10px MinikinRect rect; std::vector expectedValues; std::vector text; // The mock implementation returns 10.0f advance and 0,0-10x10 bounds for all glyph. { SCOPED_TRACE("one word"); text = utf8ToUtf16("oneword"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(70.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(70.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectAdvances(expectedValues, layout.getAdvances()); } { SCOPED_TRACE("two words"); text = utf8ToUtf16("two words"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(90.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(90.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectAdvances(expectedValues, layout.getAdvances()); } { SCOPED_TRACE("three words"); text = utf8ToUtf16("three words test"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(160.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(160.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectAdvances(expectedValues, layout.getAdvances()); } { SCOPED_TRACE("two spaces"); text = utf8ToUtf16("two spaces"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(110.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(110.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectAdvances(expectedValues, layout.getAdvances()); } } TEST_F(LayoutTest, doLayoutTest_wordSpacing) { MinikinPaint paint(mCollection); paint.size = 10.0f; // make 1em = 10px MinikinRect rect; std::vector expectedValues; std::vector text; paint.wordSpacing = 5.0f; // The mock implementation returns 10.0f advance and 0,0-10x10 bounds for all glyph. { SCOPED_TRACE("one word"); text = utf8ToUtf16("oneword"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(70.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(70.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectAdvances(expectedValues, layout.getAdvances()); } { SCOPED_TRACE("two words"); text = utf8ToUtf16("two words"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(95.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(95.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectedValues[3] = 15.0f; expectAdvances(expectedValues, layout.getAdvances()); } { SCOPED_TRACE("three words test"); text = utf8ToUtf16("three words test"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(170.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(170.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectedValues[5] = 15.0f; expectedValues[11] = 15.0f; expectAdvances(expectedValues, layout.getAdvances()); } { SCOPED_TRACE("two spaces"); text = utf8ToUtf16("two spaces"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(120.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(120.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectedValues[3] = 15.0f; expectedValues[4] = 15.0f; expectAdvances(expectedValues, layout.getAdvances()); } } TEST_F(LayoutTest, doLayoutTest_negativeWordSpacing) { MinikinPaint paint(mCollection); paint.size = 10.0f; // make 1em = 10px MinikinRect rect; std::vector expectedValues; std::vector text; // Negative word spacing also should work. paint.wordSpacing = -5.0f; { SCOPED_TRACE("one word"); text = utf8ToUtf16("oneword"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(70.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(70.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectAdvances(expectedValues, layout.getAdvances()); } { SCOPED_TRACE("two words"); text = utf8ToUtf16("two words"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(85.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(85.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectedValues[3] = 5.0f; expectAdvances(expectedValues, layout.getAdvances()); } { SCOPED_TRACE("three words"); text = utf8ToUtf16("three word test"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(140.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(140.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectedValues[5] = 5.0f; expectedValues[10] = 5.0f; expectAdvances(expectedValues, layout.getAdvances()); } { SCOPED_TRACE("two spaces"); text = utf8ToUtf16("two spaces"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(100.0f, layout.getAdvance()); layout.getBounds(&rect); EXPECT_EQ(0.0f, rect.mLeft); EXPECT_EQ(10.0f, rect.mTop); EXPECT_EQ(100.0f, rect.mRight); EXPECT_EQ(0.0f, rect.mBottom); expectedValues.resize(text.size()); for (size_t i = 0; i < expectedValues.size(); ++i) { expectedValues[i] = 10.0f; } expectedValues[3] = 5.0f; expectedValues[4] = 5.0f; expectAdvances(expectedValues, layout.getAdvances()); } } // Test that a forced-RTL layout correctly mirros a forced-LTR layout. TEST_F(LayoutTest, doLayoutTest_rtlTest) { MinikinPaint paint(mCollection); std::vector text = parseUnicodeString("'a' 'b' U+3042 U+3043 'c' 'd'"); Range range(0, text.size()); Layout ltrLayout(text, range, Bidi::FORCE_LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); Layout rtlLayout(text, range, Bidi::FORCE_RTL, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); ASSERT_EQ(ltrLayout.nGlyphs(), rtlLayout.nGlyphs()); ASSERT_EQ(6u, ltrLayout.nGlyphs()); size_t nGlyphs = ltrLayout.nGlyphs(); for (size_t i = 0; i < nGlyphs; ++i) { EXPECT_EQ(ltrLayout.getFont(i), rtlLayout.getFont(nGlyphs - i - 1)); EXPECT_EQ(ltrLayout.getGlyphId(i), rtlLayout.getGlyphId(nGlyphs - i - 1)); } } // Test that single-run RTL layouts of LTR-only text is laid out identical to an LTR layout. TEST_F(LayoutTest, singleRunBidiTest) { MinikinPaint paint(mCollection); std::vector text = parseUnicodeString("'1' '2' '3'"); Range range(0, text.size()); Layout ltrLayout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); Layout rtlLayout(text, range, Bidi::RTL, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); Layout defaultRtlLayout(text, range, Bidi::DEFAULT_RTL, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); const size_t nGlyphs = ltrLayout.nGlyphs(); ASSERT_EQ(3u, nGlyphs); ASSERT_EQ(nGlyphs, rtlLayout.nGlyphs()); ASSERT_EQ(nGlyphs, defaultRtlLayout.nGlyphs()); for (size_t i = 0; i < nGlyphs; ++i) { EXPECT_EQ(ltrLayout.getFont(i), rtlLayout.getFont(i)); EXPECT_EQ(ltrLayout.getGlyphId(i), rtlLayout.getGlyphId(i)); EXPECT_EQ(ltrLayout.getFont(i), defaultRtlLayout.getFont(i)); EXPECT_EQ(ltrLayout.getGlyphId(i), defaultRtlLayout.getGlyphId(i)); } } TEST_F(LayoutTest, hyphenationTest) { MinikinPaint paint(mCollection); paint.size = 10.0f; // make 1em = 10px std::vector text; // The mock implementation returns 10.0f advance for all glyphs. { SCOPED_TRACE("one word with no hyphen edit"); text = utf8ToUtf16("oneword"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT); EXPECT_EQ(70.0f, layout.getAdvance()); } { SCOPED_TRACE("one word with hyphen insertion at the end"); text = utf8ToUtf16("oneword"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::INSERT_HYPHEN); EXPECT_EQ(80.0f, layout.getAdvance()); } { SCOPED_TRACE("one word with hyphen replacement at the end"); text = utf8ToUtf16("oneword"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::REPLACE_WITH_HYPHEN); EXPECT_EQ(70.0f, layout.getAdvance()); } { SCOPED_TRACE("one word with hyphen insertion at the start"); text = utf8ToUtf16("oneword"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::INSERT_HYPHEN, EndHyphenEdit::NO_EDIT); EXPECT_EQ(80.0f, layout.getAdvance()); } { SCOPED_TRACE("one word with hyphen insertion at the both ends"); text = utf8ToUtf16("oneword"); Range range(0, text.size()); Layout layout(text, range, Bidi::LTR, paint, StartHyphenEdit::INSERT_HYPHEN, EndHyphenEdit::INSERT_HYPHEN); EXPECT_EQ(90.0f, layout.getAdvance()); } } TEST_F(LayoutTest, measuredTextTest) { // The test font has following coverage and width. // U+0020: 10em // U+002E (.): 10em // U+0043 (C): 100em // U+0049 (I): 1em // U+004C (L): 50em // U+0056 (V): 5em // U+0058 (X): 10em // U+005F (_): 0em // U+FFFD (invalid surrogate will be replaced to this): 7em // U+10331 (\uD800\uDF31): 10em auto fc = buildFontCollection("LayoutTestFont.ttf"); { MinikinPaint paint(fc); std::vector text = utf8ToUtf16("I"); std::vector advances(text.size()); Range range(0, text.size()); EXPECT_EQ(1.0f, Layout::measureText(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT, advances.data())); ASSERT_EQ(1u, advances.size()); EXPECT_EQ(1.0f, advances[0]); } { MinikinPaint paint(fc); std::vector text = utf8ToUtf16("IV"); std::vector advances(text.size()); Range range(0, text.size()); EXPECT_EQ(6.0f, Layout::measureText(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT, advances.data())); ASSERT_EQ(2u, advances.size()); EXPECT_EQ(1.0f, advances[0]); EXPECT_EQ(5.0f, advances[1]); } { MinikinPaint paint(fc); std::vector text = utf8ToUtf16("IVX"); std::vector advances(text.size()); Range range(0, text.size()); EXPECT_EQ(16.0f, Layout::measureText(text, range, Bidi::LTR, paint, StartHyphenEdit::NO_EDIT, EndHyphenEdit::NO_EDIT, advances.data())); ASSERT_EQ(3u, advances.size()); EXPECT_EQ(1.0f, advances[0]); EXPECT_EQ(5.0f, advances[1]); EXPECT_EQ(10.0f, advances[2]); } } // TODO: Add more test cases, e.g. measure text, letter spacing. } // namespace minikin