/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include #include #include #include #include #include #include #include #include #include "mock-visitor.hxx" #include typedef tools::SvRef SmDocShellRef; using namespace ::com::sun::star; namespace { class Test : public test::BootstrapFixture { public: // init virtual void setUp() override; virtual void tearDown() override; // tests void SimpleUnaryOp(); void SimpleBinaryOp(); void SimpleRelationalOp(); void SimpleSetOp(); void SimpleFunctions(); void SimpleOperators(); void SimpleAttributes(); void SimpleMisc(); void SimpleBrackets(); void SimpleFormats(); void SimpleGreekChars(); void SimpleSpecialChars(); void testBinomInBinHor(); void testBinVerInUnary(); void testBinHorInSubSup(); void testUnaryInMixedNumberAsNumerator(); void testMiscEquivalent(); void testParser(); CPPUNIT_TEST_SUITE(Test); CPPUNIT_TEST(SimpleUnaryOp); CPPUNIT_TEST(SimpleBinaryOp); CPPUNIT_TEST(SimpleRelationalOp); CPPUNIT_TEST(SimpleSetOp); CPPUNIT_TEST(SimpleFunctions); CPPUNIT_TEST(SimpleOperators); CPPUNIT_TEST(SimpleAttributes); CPPUNIT_TEST(SimpleMisc); CPPUNIT_TEST(SimpleBrackets); CPPUNIT_TEST(SimpleFormats); CPPUNIT_TEST(SimpleGreekChars); CPPUNIT_TEST(SimpleSpecialChars); CPPUNIT_TEST(testBinomInBinHor); CPPUNIT_TEST(testBinVerInUnary); CPPUNIT_TEST(testBinHorInSubSup); CPPUNIT_TEST(testUnaryInMixedNumberAsNumerator); CPPUNIT_TEST(testMiscEquivalent); CPPUNIT_TEST(testParser); CPPUNIT_TEST_SUITE_END(); private: SmDocShellRef xDocShRef; void parseandparseagain(const char* input, const char* test_name); void ParseAndCheck(const char* input, const char* expected, const char* test_name); void ParseAndCompare(const char* formula1, const char* formula2, const char* test_name); }; void Test::setUp() { BootstrapFixture::setUp(); SmGlobals::ensure(); xDocShRef = new SmDocShell(SfxModelFlags::EMBEDDED_OBJECT); xDocShRef->DoInitNew(); } void Test::tearDown() { xDocShRef->DoClose(); xDocShRef.clear(); BootstrapFixture::tearDown(); } /* * Most of the formula commands in this file came from: * http://wiki.openoffice.org/wiki/Template:Math_commands_reference * which was licensed with a * Creative Common Attribution 3.0 license and written by: * Jeanweber, Weegreenblobbie, Jdpipe, TJFrazier, Ysangkok, B michaelsen, Spellbreaker */ void Test::SimpleUnaryOp() { parseandparseagain("+1", "Positive (plus)"); parseandparseagain("-2", "Negative (minus)"); parseandparseagain("+-3", "Plus/minus"); parseandparseagain("-+4", "Minus/plus"); parseandparseagain("neg a", "Boolean 'not'"); parseandparseagain("fact a", "Factorial"); parseandparseagain("- { 1 over 2 }", "BinVer in Unary 1"); ParseAndCheck("- { 1 over 2 }", "- { 1 over 2 }", "BinVer in Unary 1"); parseandparseagain("{- { 1 over 2 } }", "BinVer in Unary 2"); parseandparseagain("- 1 over 2", "Unary in BinVer as numerator 1"); parseandparseagain("{ - 1 } over 2", "Unary in BinVer as numerator 2"); parseandparseagain("1 over - 2", "Unary in BinVer as denominator 1"); parseandparseagain("1 over { - 2 }", "Unary in BinVer as denominator 2"); parseandparseagain("2 { - 1 over 2 }", "Mixed number with Unary in denominator 1"); parseandparseagain("2 { - 1 } over 2", "Mixed number with Unary in denominator 2"); parseandparseagain("- 1 + 2", "Unary in BinHor"); } void Test::SimpleBinaryOp() { parseandparseagain("a + b", "Addition"); parseandparseagain("a cdot b", "Dot product"); parseandparseagain("a times b", "Cross product"); parseandparseagain("a * b", "Multiplication (asterisk)"); parseandparseagain("a and b", "Boolean 'and'"); parseandparseagain("a - b", "Subtraction"); parseandparseagain("a over b", "Division (as a fraction)"); parseandparseagain("a div b", "Division (as an operator)"); parseandparseagain("a / b", "Division (with a slash)"); parseandparseagain("a or b", "Boolean 'or'"); parseandparseagain("a circ b", "Concatenation"); } void Test::SimpleRelationalOp() { parseandparseagain("a = b", "Is equal"); parseandparseagain("a <> b", "Is not equal"); parseandparseagain("a approx 2", "Approximately"); parseandparseagain("a divides b", "Divides"); parseandparseagain("a ndivides b", "Does not divide"); parseandparseagain("a < 2", "Less than"); parseandparseagain("a > 2", "Greater than"); parseandparseagain("a simeq b", "Similar to or equal"); parseandparseagain("a parallel b", "Parallel"); parseandparseagain("a ortho b", "Orthogonal to"); parseandparseagain("a leslant b", "Less than or equal to"); parseandparseagain("a geslant b", "Greater than or equal to"); parseandparseagain("a sim b", "Similar to"); parseandparseagain("a equiv b", "Congruent"); parseandparseagain("a <= b", "Less than or equal to"); parseandparseagain("a >= b", "Greater than or equal to"); parseandparseagain("a prop b", "Proportional"); parseandparseagain("a toward b", "Toward"); parseandparseagain("a dlarrow b", "Arrow left"); parseandparseagain("a dlrarrow b", "Double arrow left and right"); parseandparseagain("drarrow b", "Arrow right"); } void Test::SimpleSetOp() { parseandparseagain("a in B", "Is in"); parseandparseagain("a notin B", "Is not in"); parseandparseagain("A owns b", "Owns"); parseandparseagain("emptyset", "Empty set"); parseandparseagain("A intersection B", "Intersection"); parseandparseagain("A union B", "Union"); parseandparseagain("A setminus B", "Difference"); parseandparseagain("A slash B", "Quotient"); parseandparseagain("aleph", "Aleph"); parseandparseagain("A subset B", "Subset"); parseandparseagain("A subseteq B", "Subset or equal to"); parseandparseagain("A supset B", "Superset"); parseandparseagain("A supseteq B", "Superset or equal to"); parseandparseagain("A nsubset B", "Not subset"); parseandparseagain("A nsubseteq B", "Not subset or equal"); parseandparseagain("A nsupset B", "Not superset"); parseandparseagain("A nsupseteq B", "Not superset or equal"); parseandparseagain("setN", "Set of natural numbers"); parseandparseagain("setZ", "Set of integers"); parseandparseagain("setQ", "Set of rational numbers"); parseandparseagain("setR", "Set of real numbers"); parseandparseagain("setC", "Set of complex numbers"); } void Test::SimpleFunctions() { parseandparseagain("func e^{a}", "Exponential"); parseandparseagain("ln(a)", "Natural logarithm"); parseandparseagain("exp(a)", "Exponential function"); parseandparseagain("log(a)", "Logarithm"); parseandparseagain("a^{b}", "Power"); parseandparseagain("sin(a)", "Sine"); parseandparseagain("cos(a)", "Cosine"); parseandparseagain("tan(a)", "Tangent"); parseandparseagain("cot(a)", "Cotangent"); parseandparseagain("sqrt{a}", "Square root"); parseandparseagain("arcsin(a)", "Arcsine"); parseandparseagain("arccos(a)", "Arccosine"); parseandparseagain("arctan(a)", "Arctangent"); parseandparseagain("arccot(a)", "Arc cotangent"); parseandparseagain("nroot{a}{b}", "nth root"); parseandparseagain("sinh(a)", "Hyperbolic sine"); parseandparseagain("cosh(a)", "Hyperbolic cosine"); parseandparseagain("tanh(a)", "Hyperbolic tangent"); parseandparseagain("coth(a)", "Hyperbolic cotangent"); parseandparseagain("abs{a}", "Absolute value"); parseandparseagain("arsinh(a)", "Arc hyperbolic sine"); parseandparseagain("arcosh(a)", "Arc hyperbolic cosine"); parseandparseagain("artanh(a)", "Arc hyperbolic tangent"); parseandparseagain("arcoth(a)", "Arc hyperbolic cotangent"); } void Test::SimpleOperators() { parseandparseagain("lim{a}", "Limit"); parseandparseagain("sum{a}", "Sum"); parseandparseagain("prod{a}", "Product"); parseandparseagain("coprod{a}", "Coproduct"); parseandparseagain("int from {r_0} to {r_t} a", "Upper and lower bounds shown with integral (from & to)"); ParseAndCheck("int csup {r_0} csub {r_t} a", "int csup { r _ 0 } csub { r _ t } a", "Upper and lower bounds shown with integral (csub & csup)"); ParseAndCheck("sum csup { size 8 { x - 1 } } csub { size 8 a } b", "sum csup { size 8 { x - 1 } } csub { size 8 a } b", "Sum with sized upper and lower bounds"); parseandparseagain("int{a}", "Integral"); parseandparseagain("intd_{1}^{2}{x dx}", "Dynamically-sized integral"); parseandparseagain("iint{a}", "Double integral"); parseandparseagain("iiint{a}", "Triple integral"); parseandparseagain("sum from{3}b", "Lower bound shown with summation symbol"); parseandparseagain("lint a", "Contour integral"); parseandparseagain("llint a", "Double curved integral"); parseandparseagain("lllint a", "Triple curved integral"); parseandparseagain("prod from {i=1} to {n} {(i+1)}", "Product with range"); ParseAndCheck("%Ux2135", "%Ux2135", "fdo#77831"); } void Test::SimpleAttributes() { parseandparseagain("acute a", "Acute accent"); parseandparseagain("grave a", "Grave accent"); parseandparseagain("check a", "Reverse circumflex"); parseandparseagain("breve a", "Breve"); parseandparseagain("circle a", "Circle"); parseandparseagain("vec a", "Vector arrow"); parseandparseagain("harpoon a", "Harpoon"); parseandparseagain("tilde a", "Tilde"); parseandparseagain("hat a", "Circumflex"); parseandparseagain("bar a", "Line above"); parseandparseagain("dot a", "Dot"); parseandparseagain("widevec abc", "Wide vector arrow"); parseandparseagain("wideharpoon abc", "Wide harpoon"); parseandparseagain("widetilde abc", "Wide tilde"); parseandparseagain("widehat abc", "Wide circumflex"); parseandparseagain("ddot a", "Double dot"); parseandparseagain("overline abc", "Line over"); parseandparseagain("underline abc", "Line under"); parseandparseagain("overstrike abc", "Line through"); parseandparseagain("dddot a", "Triple dot"); parseandparseagain("phantom a", "Transparent (useful to get a placeholder of a given size)"); parseandparseagain("bold a", "Bold font"); parseandparseagain("ital a", "Italic font"); parseandparseagain("nitalic a", "Roman (non-italic) font 1"); parseandparseagain("\"a\"", "Roman (non-italic) font 2"); parseandparseagain("size 16 qv", "Resize font"); parseandparseagain("font sans qv", "Sans serif font"); parseandparseagain("font serif qv", "Serif font"); parseandparseagain("font fixed qv", "Fixed font"); parseandparseagain("color cyan qv", "Cyan color"); parseandparseagain("color yellow qv", "Yellow color"); parseandparseagain("color white qv", "White color"); parseandparseagain("color green qv", "Green color"); parseandparseagain("color blue qv", "Blue color"); parseandparseagain("color red qv", "Red color"); parseandparseagain("color green X qv", "Green color changes back"); parseandparseagain("color green {X qv}", "Green color, more than one item"); } void Test::SimpleMisc() { parseandparseagain("infinity", "Infinity"); parseandparseagain("partial", "Partial"); parseandparseagain("nabla", "Nabla"); parseandparseagain("exists", "There exists"); parseandparseagain("notexists", "There not exists"); parseandparseagain("forall", "For all"); parseandparseagain("hbar", "H bar"); parseandparseagain("lambdabar", "Lambda bar"); parseandparseagain("re", "Real part"); parseandparseagain("im", "Imaginary part"); parseandparseagain("wp", "Weierstrass p"); parseandparseagain("leftarrow", "Left arrow"); parseandparseagain("rightarrow", "Right arrow"); parseandparseagain("uparrow", "Up arrow"); parseandparseagain("downarrow", "Down arrow"); parseandparseagain("dotslow", "Dots at bottom"); parseandparseagain("dotsaxis", "Dots at middle"); parseandparseagain("dotsvert", "Dots vertical"); parseandparseagain("dotsup", "Dots diagonal upward"); parseandparseagain("dotsdown", "Dots diagonal downward"); } void Test::SimpleBrackets() { parseandparseagain("(a)", "Round Brackets"); parseandparseagain("[b]", "Square Brackets"); parseandparseagain("ldbracket c rdbracket", "Double Square Brackets"); parseandparseagain("lline a rline", "Single line or absolute"); parseandparseagain("abs a", "Single line or absolute 2"); parseandparseagain("ldline a rdline", "Double line"); parseandparseagain("lbrace w rbrace", "Braces"); parseandparseagain("left lbrace stack{0, n <> 0 # 1, n = 1} right none", "Single left brace"); parseandparseagain("langle d rangle", "Angle Brackets"); parseandparseagain("langle a mline b rangle", "Operator Brackets"); parseandparseagain("{a}", "Group brackets (used for program control)"); parseandparseagain("left ( stack{a # b # z} right )", "Round brackets scalable"); parseandparseagain("left [ stack{x # y} right ]", "Square brackets scalable"); parseandparseagain("left ldbracket c right rdbracket", "Double square brackets scalable"); parseandparseagain("left lline a right rline", "Line scalable"); parseandparseagain("left ldline d right rdline", "Double line scalable"); parseandparseagain("left lbrace e right rbrace", "Brace scalable"); parseandparseagain("left langle f right rangle", "Angle bracket scalable"); parseandparseagain("left langle g mline h right rangle", "Operator brackets scalable"); parseandparseagain("{a} overbrace b", "Over brace scalable"); parseandparseagain("{b} underbrace a", "Under brace scalable"); } void Test::SimpleFormats() { parseandparseagain("a lsup{b}", "Left superscript"); parseandparseagain("a csup{b}", "Center superscript"); parseandparseagain("a^{b}", "Right superscript"); parseandparseagain("a lsub{b}", "Left subscript"); parseandparseagain("a csub{b}", "Center subscript"); parseandparseagain("a_{b}", "Right subscript"); parseandparseagain("stack { Hello world # alignl (a) }", "Align character to left"); parseandparseagain("stack{Hello world # alignc(a)}", "Align character to center"); parseandparseagain("stack { Hello world # alignr(a)}", "Align character to right"); parseandparseagain("binom{a}{b}", "Vertical stack of 2"); parseandparseagain("stack{a # b # z}", "Vertical stack, more than 2"); parseandparseagain("matrix{a # b ## c # d}", "Matrix"); parseandparseagain("matrix{a # \"=\" # alignl{b} ## {} # \"=\" # alignl{c+1}}", "Equations aligned at '=' (using 'matrix') "); parseandparseagain("stack{alignl{a} = b # alignl{phantom{a} = c+1}}", "Equations aligned at '=' (using 'phantom') "); parseandparseagain("asldkfjo newline sadkfj", "New line"); parseandparseagain("stuff `stuff", "Small gap (grave)"); parseandparseagain("stuff~stuff", "Large gap (tilde)"); } void Test::SimpleGreekChars() { parseandparseagain("%ALPHA", "Capital alpha"); parseandparseagain("%BETA", "Capital beta"); parseandparseagain("%CHI", "Capital chi"); parseandparseagain("%DELTA", "Capital delta"); parseandparseagain("%EPSILON", "Capital epsilon"); parseandparseagain("%ETA", "Capital eta"); parseandparseagain("%GAMMA", "Capital gamma"); parseandparseagain("%IOTA", "Capital iota"); parseandparseagain("%LAMBDA", "Capital lambda"); parseandparseagain("%MU", "Capital mu"); parseandparseagain("%NU", "Capital nu"); parseandparseagain("%OMEGA", "Capital omega"); parseandparseagain("%OMICRON", "Capital omicron"); parseandparseagain("%PHI", "Capital phi"); parseandparseagain("%PI", "Capital pi"); parseandparseagain("%PSI", "Capital psi"); parseandparseagain("%RHO", "Capital rho"); parseandparseagain("%SIGMA", "Capital sigma"); parseandparseagain("%TAU", "Capital tau"); parseandparseagain("%THETA", "Capital theta"); parseandparseagain("%UPSILON", "Capital upsilon"); parseandparseagain("%XI", "Capital xi"); parseandparseagain("%ZETA", "Capital zeta"); parseandparseagain("%alpha", "lowercase alpha"); parseandparseagain("%beta", "lowercase beta"); parseandparseagain("%chi", "lowercase chi"); parseandparseagain("%delta", "lowercase delta"); parseandparseagain("%epsilon", "lowercase epsilon"); parseandparseagain("%eta", "lowercase eta"); parseandparseagain("%gamma", "lowercase gamma"); parseandparseagain("%iota", "lowercase iota"); parseandparseagain("%kappa", "lowercase kappa"); parseandparseagain("%lambda", "lowercase lambda"); parseandparseagain("%mu", "lowercase mu"); parseandparseagain("%nu", "lowercase nu"); parseandparseagain("%omega", "lowercase omega"); parseandparseagain("%omicron", "lowercase omicron"); parseandparseagain("%phi", "lowercase phi"); parseandparseagain("%pi", "lowercase pi"); parseandparseagain("%psi", "lowercase psi"); parseandparseagain("%rho", "lowercase rho"); parseandparseagain("%sigma", "lowercase sigma"); parseandparseagain("%tau", "lowercase tau"); parseandparseagain("%theta", "lowercase theta"); parseandparseagain("%upsilon", "lowercase upsilon"); parseandparseagain("%varepsilon", "Varepsilon"); parseandparseagain("%varphi", "Varphi"); parseandparseagain("%varpi", "Varpi"); parseandparseagain("%varrho", "Varrho"); parseandparseagain("%varsigma", "Varsigma"); parseandparseagain("%vartheta", "Vartheta"); parseandparseagain("%xi", "lowercase xi"); parseandparseagain("%zeta", "lowercase zeta"); } void Test::SimpleSpecialChars() { parseandparseagain("%and", "And"); parseandparseagain("%angle", "Angle"); parseandparseagain("%element", "Element"); parseandparseagain("%identical", "Identical"); parseandparseagain("%infinite", "Infinite"); parseandparseagain("%noelement", "No element"); parseandparseagain("%notequal", "Not equal"); parseandparseagain("%or", "Or"); parseandparseagain("%perthousand", "Per thousand"); parseandparseagain("%strictlygreaterthan", "Strictly greater than"); parseandparseagain("%strictlylessthan", "Strictly less than"); parseandparseagain("%tendto", "Tend to"); } /* This test takes a formula command, parses it, converts the node to text, * parses it again, converts it to text again, and compares the values. * Doing this doesn't prove that it is correct, but it should prove that the * meaning of the original command is not being changed. */ void Test::parseandparseagain(const char* formula, const char* test_name) { OUString output1, output2; // parse 1 OUString input = OUString::createFromAscii(formula); auto pNode1 = SmParser5().ParseExpression(input); pNode1->Prepare(xDocShRef->GetFormat(), *xDocShRef, 0); SmNodeToTextVisitor(pNode1.get(), output1); // parse 2 auto pNode2 = SmParser5().ParseExpression(output1); pNode2->Prepare(xDocShRef->GetFormat(), *xDocShRef, 0); SmNodeToTextVisitor(pNode2.get(), output2); // compare CPPUNIT_ASSERT_EQUAL_MESSAGE(test_name, output1, output2); // auxiliary test for Accept() std::unique_ptr mv(new MockVisitor); pNode1->Accept(mv.get()); pNode2->Accept(mv.get()); } void Test::ParseAndCheck(const char* formula, const char* expected, const char* test_name) { OUString sOutput; // parse OUString sInput = OUString::createFromAscii(formula); auto pNode = SmParser5().ParseExpression(sInput); pNode->Prepare(xDocShRef->GetFormat(), *xDocShRef, 0); SmNodeToTextVisitor(pNode.get(), sOutput); // compare OUString sExpected = OUString::createFromAscii(expected); CPPUNIT_ASSERT_EQUAL_MESSAGE(test_name, sExpected, sOutput); // auxiliary test for Accept() std::unique_ptr mv(new MockVisitor); pNode->Accept(mv.get()); } // Parse two formula commands and verify that they give the same output void Test::ParseAndCompare(const char* formula1, const char* formula2, const char* test_name) { OUString sOutput1, sOutput2; // parse formula1 OUString sInput1(formula1, strlen(formula1), RTL_TEXTENCODING_UTF8); auto pNode1 = SmParser5().ParseExpression(sInput1); pNode1->Prepare(xDocShRef->GetFormat(), *xDocShRef, 0); SmNodeToTextVisitor(pNode1.get(), sOutput1); // parse formula2 OUString sInput2(formula2, strlen(formula2), RTL_TEXTENCODING_UTF8); auto pNode2 = SmParser5().ParseExpression(sInput2); pNode2->Prepare(xDocShRef->GetFormat(), *xDocShRef, 0); SmNodeToTextVisitor(pNode2.get(), sOutput2); CPPUNIT_ASSERT_EQUAL_MESSAGE(test_name, sOutput1, sOutput2); // auxiliary test for Accept() std::unique_ptr mv(new MockVisitor); pNode1->Accept(mv.get()); pNode2->Accept(mv.get()); } void Test::testBinomInBinHor() { OUString sInput, sExpected; // set up a binom (table) node sInput += "binom a b + c"; auto pTree = SmParser5().Parse(sInput); pTree->Prepare(xDocShRef->GetFormat(), *xDocShRef, 0); SmCursor aCursor(pTree.get(), xDocShRef.get()); ScopedVclPtrInstance pOutputDevice; // move forward (more than) enough places to be at the end int i; for (i = 0; i < 8; ++i) aCursor.Move(pOutputDevice, MoveRight); // tack +d on the end, which will put the binom into an SmBinHorNode aCursor.InsertElement(PlusElement); aCursor.InsertText("d"); sExpected += "{ { binom a { b + c } } + d }"; CPPUNIT_ASSERT_EQUAL_MESSAGE("Binom Node in BinHor Node", sExpected, xDocShRef->GetText()); } void Test::testBinVerInUnary() { OUString sInput, sExpected; // set up a unary operator with operand sInput += "- 1"; auto pTree = SmParser5().Parse(sInput); pTree->Prepare(xDocShRef->GetFormat(), *xDocShRef, 0); SmCursor aCursor(pTree.get(), xDocShRef.get()); ScopedVclPtrInstance pOutputDevice; // move forward (more than) enough places to be at the end int i; for (i = 0; i < 3; ++i) aCursor.Move(pOutputDevice, MoveRight); // select the operand aCursor.Move(pOutputDevice, MoveLeft, false); // set up a fraction aCursor.InsertFraction(); aCursor.Move(pOutputDevice, MoveDown); aCursor.InsertText("2"); sExpected += "- { 1 over 2 }"; CPPUNIT_ASSERT_EQUAL_MESSAGE("Binary Vertical in Unary Operator", sExpected, xDocShRef->GetText()); } void Test::testBinHorInSubSup() { // set up a blank formula auto pTree = SmParser5().Parse(OUString()); pTree->Prepare(xDocShRef->GetFormat(), *xDocShRef, 0); SmCursor aCursor(pTree.get(), xDocShRef.get()); ScopedVclPtrInstance pOutputDevice; // Insert an RSup expression with a BinHor for the exponent aCursor.InsertText("a"); aCursor.InsertSubSup(RSUP); aCursor.InsertText("b"); aCursor.InsertElement(PlusElement); aCursor.InsertText("c"); // Move to the end and add d to the expression aCursor.Move(pOutputDevice, MoveRight); aCursor.InsertElement(PlusElement); aCursor.InsertText("d"); CPPUNIT_ASSERT_EQUAL_MESSAGE("BinHor in SubSup", OUString("{ a ^ { b + c } + d }"), xDocShRef->GetText()); } void Test::testUnaryInMixedNumberAsNumerator() { // set up a unary operator auto pTree = SmParser5().Parse("- 1"); pTree->Prepare(xDocShRef->GetFormat(), *xDocShRef, 0); SmCursor aCursor(pTree.get(), xDocShRef.get()); ScopedVclPtrInstance pOutputDevice; // move forward (more than) enough places to be at the end for (size_t i = 0; i < 3; ++i) aCursor.Move(pOutputDevice, MoveRight); // Select the whole Unary Horizontal Node aCursor.Move(pOutputDevice, MoveLeft, false); aCursor.Move(pOutputDevice, MoveLeft, false); // Set up a fraction aCursor.InsertFraction(); aCursor.Move(pOutputDevice, MoveDown); aCursor.InsertText("2"); // Move left and turn this into a mixed number // (bad form, but this could happen right?) aCursor.Move(pOutputDevice, MoveLeft); aCursor.Move(pOutputDevice, MoveLeft); aCursor.InsertText("2"); // move forward (more than) enough places to be at the end for (size_t i = 0; i < 8; ++i) aCursor.Move(pOutputDevice, MoveRight); // add 4 to the end aCursor.InsertElement(PlusElement); aCursor.InsertText("4"); CPPUNIT_ASSERT_EQUAL_MESSAGE("Unary in mixed number as Numerator", OUString("{ 2 { { - 1 over 2 } + 4 } }"), xDocShRef->GetText()); } void Test::testMiscEquivalent() { // fdo#55853 ParseAndCompare("2x", "2 x", "Number times variable"); ParseAndCompare("3x^2", "3 x^2", "Number times power"); // i#11752 and fdo#55853 ParseAndCompare("x_2n", "x_{2 n}", "Number times variable in subscript"); ParseAndCompare("x^2n", "x^{2 n}", "Number times variable in supscript"); // fdo#66081 ParseAndCompare("{x}", "x", "Variable in brace"); ParseAndCompare("{{x+{{y}}}}", "x+y", "Nested braces"); // check non-BMP Unicode char ParseAndCompare("{\xf0\x9d\x91\x8e}", "\xf0\x9d\x91\x8e", "non-BMP variable in brace"); ParseAndCompare("{ \xf0\x9d\x91\x8e }", "\xf0\x9d\x91\x8e", "non-BMP variable in brace"); // tdf#88320 ParseAndCompare("A_1,B_2", "A_{1},B_2", "Comma between a digit and non-digit delimits subscript"); //tdf#97164 ParseAndCompare("100 %", "100\"%\"", "Percent symbol at the end"); } void Test::testParser() { OUString sOutput; auto pNode = SmParser5().ParseExpression(u"{ \U0001D44E }"_ustr); // non-BMP Unicode pNode->Prepare(xDocShRef->GetFormat(), *xDocShRef, 0); SmNodeToTextVisitor(pNode.get(), sOutput); CPPUNIT_ASSERT_EQUAL(u"\U0001D44E"_ustr, sOutput); } CPPUNIT_TEST_SUITE_REGISTRATION(Test); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */