# -*- coding: utf-8 -*- """ test_domain_cpp ~~~~~~~~~~~~~~~ Tests the C++ Domain :copyright: Copyright 2007-2018 by the Sphinx team, see AUTHORS. :license: BSD, see LICENSE for details. """ import re import sys import pytest from six import text_type import sphinx.domains.cpp as cppDomain from sphinx import addnodes from sphinx.domains.cpp import DefinitionParser, DefinitionError, NoOldIdError from sphinx.domains.cpp import Symbol, _max_id, _id_prefix def parse(name, string): class Config: cpp_id_attributes = ["id_attr"] cpp_paren_attributes = ["paren_attr"] parser = DefinitionParser(string, None, Config()) parser.allowFallbackExpressionParsing = False ast = parser.parse_declaration(name) parser.assert_end() # The scopedness would usually have been set by CPPEnumObject if name == "enum": ast.scoped = None # simulate unscoped enum return ast def check(name, input, idDict, output=None): # first a simple check of the AST if output is None: output = input ast = parse(name, input) res = text_type(ast) if res != output: print("") print("Input: ", text_type(input)) print("Result: ", res) print("Expected: ", output) raise DefinitionError("") rootSymbol = Symbol(None, None, None, None, None, None) symbol = rootSymbol.add_declaration(ast, docname="TestDoc") parentNode = addnodes.desc() signode = addnodes.desc_signature(input, '') parentNode += signode ast.describe_signature(signode, 'lastIsName', symbol, options={}) idExpected = [None] for i in range(1, _max_id + 1): if i in idDict: idExpected.append(idDict[i]) else: idExpected.append(idExpected[i - 1]) idActual = [None] for i in range(1, _max_id + 1): try: id = ast.get_id(version=i) assert id is not None idActual.append(id[len(_id_prefix[i]):]) except NoOldIdError: idActual.append(None) res = [True] for i in range(1, _max_id + 1): res.append(idExpected[i] == idActual[i]) if not all(res): print("input: %s" % text_type(input).rjust(20)) for i in range(1, _max_id + 1): if res[i]: continue print("Error in id version %d." % i) print("result: %s" % str(idActual[i])) print("expected: %s" % str(idExpected[i])) print(rootSymbol.dump(0)) raise DefinitionError("") def test_fundamental_types(): # see https://en.cppreference.com/w/cpp/language/types for t, id_v2 in cppDomain._id_fundamental_v2.items(): def makeIdV1(): if t == 'decltype(auto)': return None id = t.replace(" ", "-").replace("long", "l").replace("int", "i") id = id.replace("bool", "b").replace("char", "c") id = id.replace("wc_t", "wchar_t").replace("c16_t", "char16_t") id = id.replace("c32_t", "char32_t") return "f__%s" % id def makeIdV2(): id = id_v2 if t == "std::nullptr_t": id = "NSt9nullptr_tE" return "1f%s" % id check("function", "void f(%s arg)" % t, {1: makeIdV1(), 2: makeIdV2()}) def test_expressions(): def exprCheck(expr, id): ids = 'IE1CIA%s_1aE' check('class', 'template<> C' % expr, {2: ids % expr, 3: ids % id}) # primary exprCheck('nullptr', 'LDnE') exprCheck('true', 'L1E') exprCheck('false', 'L0E') ints = ['5', '0', '075', '0xF', '0XF', '0b1', '0B1'] unsignedSuffix = ['', 'u', 'U'] longSuffix = ['', 'l', 'L', 'll', 'LL'] for i in ints: for u in unsignedSuffix: for l in longSuffix: expr = i + u + l exprCheck(expr, 'L' + expr + 'E') expr = i + l + u exprCheck(expr, 'L' + expr + 'E') for suffix in ['', 'f', 'F', 'l', 'L']: expr = '5.0' + suffix exprCheck(expr, 'L' + expr + 'E') exprCheck('"abc\\"cba"', 'LA8_KcE') # string exprCheck('this', 'fpT') # character literals for p, t in [('', 'c'), ('u8', 'c'), ('u', 'Ds'), ('U', 'Di'), ('L', 'w')]: exprCheck(p + "'a'", t + "97") exprCheck(p + "'\\n'", t + "10") exprCheck(p + "'\\012'", t + "10") exprCheck(p + "'\\0'", t + "0") exprCheck(p + "'\\x0a'", t + "10") exprCheck(p + "'\\x0A'", t + "10") exprCheck(p + "'\\u0a42'", t + "2626") exprCheck(p + "'\\u0A42'", t + "2626") if sys.maxunicode > 65535: exprCheck(p + "'\\U0001f34c'", t + "127820") exprCheck(p + "'\\U0001F34C'", t + "127820") # TODO: user-defined lit exprCheck('(... + Ns)', '(... + Ns)') exprCheck('(5)', 'L5E') exprCheck('C', '1C') # postfix exprCheck('A(2)', 'cl1AL2EE') exprCheck('A[2]', 'ix1AL2E') exprCheck('a.b.c', 'dtdt1a1b1c') exprCheck('a->b->c', 'ptpt1a1b1c') exprCheck('i++', 'pp1i') exprCheck('i--', 'mm1i') exprCheck('dynamic_cast(i)++', 'ppdcR1T1i') exprCheck('static_cast(i)++', 'ppscR1T1i') exprCheck('reinterpret_cast(i)++', 'pprcR1T1i') exprCheck('const_cast(i)++', 'ppccR1T1i') exprCheck('typeid(T).name', 'dtti1T4name') exprCheck('typeid(a + b).name', 'dttepl1a1b4name') # unary exprCheck('++5', 'pp_L5E') exprCheck('--5', 'mm_L5E') exprCheck('*5', 'deL5E') exprCheck('&5', 'adL5E') exprCheck('+5', 'psL5E') exprCheck('-5', 'ngL5E') exprCheck('!5', 'ntL5E') exprCheck('~5', 'coL5E') exprCheck('sizeof...(a)', 'sZ1a') exprCheck('sizeof(T)', 'st1T') exprCheck('sizeof -42', 'szngL42E') exprCheck('alignof(T)', 'at1T') exprCheck('noexcept(-42)', 'nxngL42E') # new-expression exprCheck('new int', 'nw_iE') exprCheck('new volatile int', 'nw_ViE') exprCheck('new int[42]', 'nw_AL42E_iE') exprCheck('new int()', 'nw_ipiE') exprCheck('new int(5, 42)', 'nw_ipiL5EL42EE') # delete-expression exprCheck('delete p', 'dl1p') exprCheck('delete [] p', 'da1p') exprCheck('::delete p', 'dl1p') exprCheck('::delete [] p', 'da1p') # cast exprCheck('(int)2', 'cviL2E') # binary op exprCheck('5 || 42', 'ooL5EL42E') exprCheck('5 && 42', 'aaL5EL42E') exprCheck('5 | 42', 'orL5EL42E') exprCheck('5 ^ 42', 'eoL5EL42E') exprCheck('5 & 42', 'anL5EL42E') # ['==', '!='] exprCheck('5 == 42', 'eqL5EL42E') exprCheck('5 != 42', 'neL5EL42E') # ['<=', '>=', '<', '>'] exprCheck('5 <= 42', 'leL5EL42E') exprCheck('5 >= 42', 'geL5EL42E') exprCheck('5 < 42', 'ltL5EL42E') exprCheck('5 > 42', 'gtL5EL42E') # ['<<', '>>'] exprCheck('5 << 42', 'lsL5EL42E') exprCheck('5 >> 42', 'rsL5EL42E') # ['+', '-'] exprCheck('5 + 42', 'plL5EL42E') exprCheck('5 - 42', 'miL5EL42E') # ['*', '/', '%'] exprCheck('5 * 42', 'mlL5EL42E') exprCheck('5 / 42', 'dvL5EL42E') exprCheck('5 % 42', 'rmL5EL42E') # ['.*', '->*'] exprCheck('5 .* 42', 'dsL5EL42E') exprCheck('5 ->* 42', 'pmL5EL42E') # conditional # TODO # assignment exprCheck('a = 5', 'aS1aL5E') exprCheck('a *= 5', 'mL1aL5E') exprCheck('a /= 5', 'dV1aL5E') exprCheck('a %= 5', 'rM1aL5E') exprCheck('a += 5', 'pL1aL5E') exprCheck('a -= 5', 'mI1aL5E') exprCheck('a >>= 5', 'rS1aL5E') exprCheck('a <<= 5', 'lS1aL5E') exprCheck('a &= 5', 'aN1aL5E') exprCheck('a ^= 5', 'eO1aL5E') exprCheck('a |= 5', 'oR1aL5E') # Additional tests # a < expression that starts with something that could be a template exprCheck('A < 42', 'lt1AL42E') check('function', 'template<> void f(A &v)', {2: "IE1fR1AI1BX2EE", 3: "IE1fR1AI1BXL2EEE"}) exprCheck('A<1>::value', 'N1AIXL1EEE5valueE') check('class', "template A", {2: "I_iE1A"}) check('enumerator', 'A = std::numeric_limits::max()', {2: "1A"}) exprCheck('operator()()', 'clclE') exprCheck('operator()()', 'clclIiEE') # pack expansion exprCheck('a(b(c, 1 + d...)..., e(f..., g))', 'cl1aspcl1b1cspplL1E1dEcl1esp1f1gEE') def test_type_definitions(): check("type", "public bool b", {1: "b", 2: "1b"}, "bool b") check("type", "bool A::b", {1: "A::b", 2: "N1A1bE"}) check("type", "bool *b", {1: "b", 2: "1b"}) check("type", "bool *const b", {1: "b", 2: "1b"}) check("type", "bool *volatile const b", {1: "b", 2: "1b"}) check("type", "bool *volatile const b", {1: "b", 2: "1b"}) check("type", "bool *volatile const *b", {1: "b", 2: "1b"}) check("type", "bool &b", {1: "b", 2: "1b"}) check("type", "bool b[]", {1: "b", 2: "1b"}) check("type", "std::pair coord", {1: "coord", 2: "5coord"}) check("type", "long long int foo", {1: "foo", 2: "3foo"}) check("type", 'std::vector> module::blah', {1: "module::blah", 2: "N6module4blahE"}) check("type", "std::function F", {1: "F", 2: "1F"}) check("type", "std::function F", {1: "F", 2: "1F"}) check("type", "std::function F", {1: "F", 2: "1F"}) check("type", "std::function F", {1: "F", 2: "1F"}) check("type", "MyContainer::const_iterator", {1: "MyContainer::const_iterator", 2: "N11MyContainer14const_iteratorE"}) check("type", "public MyContainer::const_iterator", {1: "MyContainer::const_iterator", 2: "N11MyContainer14const_iteratorE"}, output="MyContainer::const_iterator") # test decl specs on right check("type", "bool const b", {1: "b", 2: "1b"}) # test name in global scope check("type", "bool ::B::b", {1: "B::b", 2: "N1B1bE"}) check('type', 'A = B', {2: '1A'}) check('type', 'A = decltype(b)', {2: '1A'}) # from breathe#267 (named function parameters for function pointers check('type', 'void (*gpio_callback_t)(struct device *port, uint32_t pin)', {1: 'gpio_callback_t', 2: '15gpio_callback_t'}) check('type', 'void (*f)(std::function g)', {1: 'f', 2: '1f'}) check('type', 'T = A::template B::template C', {2: '1T'}) check('type', 'T = Q', {2: '1T'}) check('type', 'T = Q>', {2: '1T'}) check('type', 'T = Q', {2: '1T'}) def test_concept_definitions(): check('concept', 'template A::B::Concept', {2: 'I0EN1A1B7ConceptE'}) check('concept', 'template Foo', {2: 'I00DpE3Foo'}) with pytest.raises(DefinitionError): parse('concept', 'Foo') with pytest.raises(DefinitionError): parse('concept', 'template template Foo') def test_member_definitions(): check('member', ' const std::string & name = 42', {1: "name__ssCR", 2: "4name"}, output='const std::string &name = 42') check('member', ' const std::string & name', {1: "name__ssCR", 2: "4name"}, output='const std::string &name') check('member', ' const std::string & name [ n ]', {1: "name__ssCRA", 2: "4name"}, output='const std::string &name[n]') check('member', 'const std::vector< unsigned int, long> &name', {1: "name__std::vector:unsigned-i.l:CR", 2: "4name"}, output='const std::vector &name') check('member', 'module::myclass foo[n]', {1: "foo__module::myclassA", 2: "3foo"}) check('member', 'int *const p', {1: 'p__iPC', 2: '1p'}) check('member', 'extern int myInt', {1: 'myInt__i', 2: '5myInt'}) check('member', 'thread_local int myInt', {1: 'myInt__i', 2: '5myInt'}) check('member', 'extern thread_local int myInt', {1: 'myInt__i', 2: '5myInt'}) check('member', 'thread_local extern int myInt', {1: 'myInt__i', 2: '5myInt'}, 'extern thread_local int myInt') def test_function_definitions(): check('function', 'operator bool() const', {1: "castto-b-operatorC", 2: "NKcvbEv"}) check('function', 'A::operator bool() const', {1: "A::castto-b-operatorC", 2: "NK1AcvbEv"}) check('function', 'A::operator bool() volatile const &', {1: "A::castto-b-operatorVCR", 2: "NVKR1AcvbEv"}) check('function', 'A::operator bool() volatile const &&', {1: "A::castto-b-operatorVCO", 2: "NVKO1AcvbEv"}) check('function', 'bool namespaced::theclass::method(arg1, arg2)', {1: "namespaced::theclass::method__arg1.arg2", 2: "N10namespaced8theclass6methodE4arg14arg2"}) x = 'std::vector> &module::test(register int ' \ 'foo, bar, std::string baz = "foobar, blah, bleh") const = 0' check('function', x, {1: "module::test__i.bar.ssC", 2: "NK6module4testEi3barNSt6stringE"}) check('function', 'void f(std::pair)', {1: "f__std::pair:A.B:", 2: "1fNSt4pairI1A1BEE"}) check('function', 'explicit module::myclass::foo::foo()', {1: "module::myclass::foo::foo", 2: "N6module7myclass3foo3fooEv"}) check('function', 'module::myclass::foo::~foo()', {1: "module::myclass::foo::~foo", 2: "N6module7myclass3fooD0Ev"}) check('function', 'int printf(const char *fmt, ...)', {1: "printf__cCP.z", 2: "6printfPKcz"}) check('function', 'int foo(const unsigned int j)', {1: "foo__unsigned-iC", 2: "3fooKj"}) check('function', 'int foo(const int *const ptr)', {1: "foo__iCPC", 2: "3fooPCKi"}) check('function', 'module::myclass::operator std::vector()', {1: "module::myclass::castto-std::vector:ss:-operator", 2: "N6module7myclasscvNSt6vectorINSt6stringEEEEv"}) check('function', 'void operator()(const boost::array &v) const', {1: "call-operator__boost::array:VertexID.2:CRC", 2: "NKclERKN5boost5arrayI8VertexIDX2EEE", 3: "NKclERKN5boost5arrayI8VertexIDXL2EEEE"}) check('function', 'void operator()(const boost::array &v) const', {1: 'call-operator__boost::array:VertexID.2."foo,--bar":CRC', 2: 'NKclERKN5boost5arrayI8VertexIDX2EX"foo, bar"EEE', 3: 'NKclERKN5boost5arrayI8VertexIDXL2EEXLA9_KcEEEE'}) check('function', 'MyClass::MyClass(MyClass::MyClass&&)', {1: "MyClass::MyClass__MyClass::MyClassRR", 2: "N7MyClass7MyClassERRN7MyClass7MyClassE"}) check('function', 'constexpr int get_value()', {1: "get_valueCE", 2: "9get_valuev"}) check('function', 'static constexpr int get_value()', {1: "get_valueCE", 2: "9get_valuev"}) check('function', 'int get_value() const noexcept', {1: "get_valueC", 2: "NK9get_valueEv"}) check('function', 'int get_value() const noexcept = delete', {1: "get_valueC", 2: "NK9get_valueEv"}) check('function', 'int get_value() volatile const', {1: "get_valueVC", 2: "NVK9get_valueEv"}) check('function', 'MyClass::MyClass(MyClass::MyClass&&) = default', {1: "MyClass::MyClass__MyClass::MyClassRR", 2: "N7MyClass7MyClassERRN7MyClass7MyClassE"}) check('function', 'virtual MyClass::a_virtual_function() const override', {1: "MyClass::a_virtual_functionC", 2: "NK7MyClass18a_virtual_functionEv"}) check('function', 'A B() override', {1: "B", 2: "1Bv"}) check('function', 'A B() final', {1: "B", 2: "1Bv"}) check('function', 'A B() final override', {1: "B", 2: "1Bv"}) check('function', 'A B() override final', {1: "B", 2: "1Bv"}, output='A B() final override') check('function', 'MyClass::a_member_function() volatile', {1: "MyClass::a_member_functionV", 2: "NV7MyClass17a_member_functionEv"}) check('function', 'MyClass::a_member_function() volatile const', {1: "MyClass::a_member_functionVC", 2: "NVK7MyClass17a_member_functionEv"}) check('function', 'MyClass::a_member_function() &&', {1: "MyClass::a_member_functionO", 2: "NO7MyClass17a_member_functionEv"}) check('function', 'MyClass::a_member_function() &', {1: "MyClass::a_member_functionR", 2: "NR7MyClass17a_member_functionEv"}) check('function', 'MyClass::a_member_function() const &', {1: "MyClass::a_member_functionCR", 2: "NKR7MyClass17a_member_functionEv"}) check('function', 'int main(int argc, char *argv[])', {1: "main__i.cPA", 2: "4mainiA_Pc"}) check('function', 'MyClass &MyClass::operator++()', {1: "MyClass::inc-operator", 2: "N7MyClassppEv"}) check('function', 'MyClass::pointer MyClass::operator->()', {1: "MyClass::pointer-operator", 2: "N7MyClassptEv"}) x = 'std::vector> &module::test(register int ' \ 'foo, bar[n], std::string baz = "foobar, blah, bleh") const = 0' check('function', x, {1: "module::test__i.barA.ssC", 2: "NK6module4testEiAn_3barNSt6stringE", 3: "NK6module4testEiA1n_3barNSt6stringE"}) check('function', 'int foo(Foo f = Foo(double(), std::make_pair(int(2), double(3.4))))', {1: "foo__Foo", 2: "3foo3Foo"}) check('function', 'int foo(A a = x(a))', {1: "foo__A", 2: "3foo1A"}) with pytest.raises(DefinitionError): parse('function', 'int foo(B b=x(a)') with pytest.raises(DefinitionError): parse('function', 'int foo)C c=x(a))') with pytest.raises(DefinitionError): parse('function', 'int foo(D d=x(a') check('function', 'int foo(const A&... a)', {1: "foo__ACRDp", 2: "3fooDpRK1A"}) check('function', 'virtual void f()', {1: "f", 2: "1fv"}) # test for ::nestedName, from issue 1738 check("function", "result(int val, ::std::error_category const &cat)", {1: "result__i.std::error_categoryCR", 2: "6resultiRNSt14error_categoryE"}) check("function", "int *f()", {1: "f", 2: "1fv"}) # tests derived from issue #1753 (skip to keep sanity) check("function", "f(int (&array)[10])", {2: "1fRA10_i", 3: "1fRAL10E_i"}) check("function", "void f(int (&array)[10])", {2: "1fRA10_i", 3: "1fRAL10E_i"}) check("function", "void f(float *q(double))", {2: "1fFPfdE"}) check("function", "void f(float *(*q)(double))", {2: "1fPFPfdE"}) check("function", "void f(float (*q)(double))", {2: "1fPFfdE"}) check("function", "int (*f(double d))(float)", {1: "f__double", 2: "1fd"}) check("function", "int (*f(bool b))[5]", {1: "f__b", 2: "1fb"}) check("function", "int (*A::f(double d) const)(float)", {1: "A::f__doubleC", 2: "NK1A1fEd"}) check("function", "void f(std::shared_ptr ptr)", {2: "1fNSt10shared_ptrIFidEEE"}) check("function", "void f(int *const p)", {1: "f__iPC", 2: "1fPCi"}) check("function", "void f(int *volatile const p)", {1: "f__iPVC", 2: "1fPVCi"}) check('function', 'extern int f()', {1: 'f', 2: '1fv'}) check('function', 'decltype(auto) f()', {1: 'f', 2: "1fv"}) # TODO: make tests for functions in a template, e.g., Test # such that the id generation for function type types is correct. check('function', 'friend std::ostream &f(std::ostream &s, int i)', {1: 'f__osR.i', 2: '1fRNSt7ostreamEi'}) # from breathe#223 check('function', 'void f(struct E e)', {1: 'f__E', 2: '1f1E'}) check('function', 'void f(class E e)', {1: 'f__E', 2: '1f1E'}) check('function', 'void f(typename E e)', {1: 'f__E', 2: '1f1E'}) check('function', 'void f(enum E e)', {1: 'f__E', 2: '1f1E'}) check('function', 'void f(union E e)', {1: 'f__E', 2: '1f1E'}) # pointer to member (function) check('function', 'void f(int C::*)', {2: '1fM1Ci'}) check('function', 'void f(int C::* p)', {2: '1fM1Ci'}) check('function', 'void f(int ::C::* p)', {2: '1fM1Ci'}) check('function', 'void f(int C::* const)', {2: '1fKM1Ci'}) check('function', 'void f(int C::* const&)', {2: '1fRKM1Ci'}) check('function', 'void f(int C::* volatile)', {2: '1fVM1Ci'}) check('function', 'void f(int C::* const volatile)', {2: '1fVKM1Ci'}, output='void f(int C::* volatile const)') check('function', 'void f(int C::* volatile const)', {2: '1fVKM1Ci'}) check('function', 'void f(int (C::*)(float, double))', {2: '1fM1CFifdE'}) check('function', 'void f(int (C::* p)(float, double))', {2: '1fM1CFifdE'}) check('function', 'void f(int (::C::* p)(float, double))', {2: '1fM1CFifdE'}) check('function', 'void f(void (C::*)() const &)', {2: '1fM1CKRFvvE'}) check('function', 'int C::* f(int, double)', {2: '1fid'}) check('function', 'void f(int C::* *)', {2: '1fPM1Ci'}) def test_operators(): check('function', 'void operator new [ ] ()', {1: "new-array-operator", 2: "nav"}, output='void operator new[]()') check('function', 'void operator delete ()', {1: "delete-operator", 2: "dlv"}, output='void operator delete()') check('function', 'operator bool() const', {1: "castto-b-operatorC", 2: "NKcvbEv"}, output='operator bool() const') check('function', 'void operator * ()', {1: "mul-operator", 2: "mlv"}, output='void operator*()') check('function', 'void operator - ()', {1: "sub-operator", 2: "miv"}, output='void operator-()') check('function', 'void operator + ()', {1: "add-operator", 2: "plv"}, output='void operator+()') check('function', 'void operator = ()', {1: "assign-operator", 2: "aSv"}, output='void operator=()') check('function', 'void operator / ()', {1: "div-operator", 2: "dvv"}, output='void operator/()') check('function', 'void operator % ()', {1: "mod-operator", 2: "rmv"}, output='void operator%()') check('function', 'void operator ! ()', {1: "not-operator", 2: "ntv"}, output='void operator!()') check('function', 'void operator "" _udl()', {2: 'li4_udlv'}, output='void operator""_udl()') def test_class_definitions(): check('class', 'public A', {1: "A", 2: "1A"}, output='A') check('class', 'private A', {1: "A", 2: "1A"}) check('class', 'A final', {1: 'A', 2: '1A'}) # test bases check('class', 'A', {1: "A", 2: "1A"}) check('class', 'A::B::C', {1: "A::B::C", 2: "N1A1B1CE"}) check('class', 'A : B', {1: "A", 2: "1A"}) check('class', 'A : private B', {1: "A", 2: "1A"}, output='A : B') check('class', 'A : public B', {1: "A", 2: "1A"}) check('class', 'A : B, C', {1: "A", 2: "1A"}) check('class', 'A : B, protected C, D', {1: "A", 2: "1A"}) check('class', 'A : virtual private B', {1: 'A', 2: '1A'}, output='A : virtual B') check('class', 'A : B, virtual C', {1: 'A', 2: '1A'}) check('class', 'A : public virtual B', {1: 'A', 2: '1A'}) check('class', 'A : B, C...', {1: 'A', 2: '1A'}) check('class', 'A : B..., C', {1: 'A', 2: '1A'}) # from #4094 check('class', 'template> has_var', {2: 'I00E7has_var'}) check('class', 'template has_var>', {2: 'I0E7has_varI1TNSt6void_tIDTadN1T3varEEEEE'}) def test_union_definitions(): check('union', 'A', {2: "1A"}) def test_enum_definitions(): check('enum', 'A', {2: "1A"}) check('enum', 'A : std::underlying_type::type', {2: "1A"}) check('enum', 'A : unsigned int', {2: "1A"}) check('enum', 'public A', {2: "1A"}, output='A') check('enum', 'private A', {2: "1A"}) check('enumerator', 'A', {2: "1A"}) check('enumerator', 'A = std::numeric_limits::max()', {2: "1A"}) def test_anon_definitions(): check('class', '@a', {3: "Ut1_a"}) check('union', '@a', {3: "Ut1_a"}) check('enum', '@a', {3: "Ut1_a"}) check('class', '@1', {3: "Ut1_1"}) def test_templates(): check('class', "A", {2: "IE1AI1TE"}, output="template<> A") # first just check which objects support templating check('class', "template<> A", {2: "IE1A"}) check('function', "template<> void A()", {2: "IE1Av"}) check('member', "template<> A a", {2: "IE1a"}) check('type', "template<> a = A", {2: "IE1a"}) with pytest.raises(DefinitionError): parse('enum', "template<> A") with pytest.raises(DefinitionError): parse('enumerator', "template<> A") # then all the real tests check('class', "template A", {2: "I00E1A"}) check('type', "template<> a", {2: "IE1a"}) check('class', "template A", {2: "I0E1A"}) check('class', "template A", {2: "I0E1A"}) check('class', "template A", {2: "IDpE1A"}) check('class', "template A", {2: "IDpE1A"}) check('class', "template A", {2: "I0E1A"}) check('class', "template A", {2: "I0E1A"}) check('class', "template typename T> A", {2: "II0E0E1A"}) check('class', "template typename> A", {2: "II0E0E1A"}) check('class', "template typename ...T> A", {2: "II0EDpE1A"}) check('class', "template typename...> A", {2: "II0EDpE1A"}) check('class', "template A", {2: "I_iE1A"}) check('class', "template A", {2: "I_iE1A"}) check('class', "template A", {2: "I_DpiE1A"}) check('class', "template A", {2: "I_iE1A"}) check('class', "template A", {2: "I_iE1A"}) check('class', "template<> A>", {2: "IE1AIN2NS1BIEEE"}) # from #2058 check('function', "template " "inline std::basic_ostream &operator<<(" "std::basic_ostream &os, " "const c_string_view_base &str)", {2: "I00ElsRNSt13basic_ostreamI4Char6TraitsEE" "RK18c_string_view_baseIK4Char6TraitsE"}) # template introductions with pytest.raises(DefinitionError): parse('enum', 'abc::ns::foo{id_0, id_1, id_2} A') with pytest.raises(DefinitionError): parse('enumerator', 'abc::ns::foo{id_0, id_1, id_2} A') check('class', 'abc::ns::foo{id_0, id_1, id_2} xyz::bar', {2: 'I000EXN3abc2ns3fooEI4id_04id_14id_2EEN3xyz3barE'}) check('class', 'abc::ns::foo{id_0, id_1, ...id_2} xyz::bar', {2: 'I00DpEXN3abc2ns3fooEI4id_04id_1sp4id_2EEN3xyz3barE'}) check('class', 'abc::ns::foo{id_0, id_1, id_2} xyz::bar', {2: 'I000EXN3abc2ns3fooEI4id_04id_14id_2EEN3xyz3barI4id_04id_14id_2EE'}) check('class', 'abc::ns::foo{id_0, id_1, ...id_2} xyz::bar', {2: 'I00DpEXN3abc2ns3fooEI4id_04id_1sp4id_2EEN3xyz3barI4id_04id_1Dp4id_2EE'}) check('class', 'template<> Concept{U} A::B', {2: 'IEI0EX7ConceptI1UEEN1AIiE1BE'}) check('type', 'abc::ns::foo{id_0, id_1, id_2} xyz::bar = ghi::qux', {2: 'I000EXN3abc2ns3fooEI4id_04id_14id_2EEN3xyz3barE'}) check('type', 'abc::ns::foo{id_0, id_1, ...id_2} xyz::bar = ghi::qux', {2: 'I00DpEXN3abc2ns3fooEI4id_04id_1sp4id_2EEN3xyz3barE'}) check('function', 'abc::ns::foo{id_0, id_1, id_2} void xyz::bar()', {2: 'I000EXN3abc2ns3fooEI4id_04id_14id_2EEN3xyz3barEv'}) check('function', 'abc::ns::foo{id_0, id_1, ...id_2} void xyz::bar()', {2: 'I00DpEXN3abc2ns3fooEI4id_04id_1sp4id_2EEN3xyz3barEv'}) check('member', 'abc::ns::foo{id_0, id_1, id_2} ghi::qux xyz::bar', {2: 'I000EXN3abc2ns3fooEI4id_04id_14id_2EEN3xyz3barE'}) check('member', 'abc::ns::foo{id_0, id_1, ...id_2} ghi::qux xyz::bar', {2: 'I00DpEXN3abc2ns3fooEI4id_04id_1sp4id_2EEN3xyz3barE'}) check('concept', 'Iterator{T, U} Another', {2: 'I00EX8IteratorI1T1UEE7Another'}) check('concept', 'template Numerics = (... && Numeric)', {2: 'IDpE8Numerics'}) # explicit specializations of members check('member', 'template<> int A::a', {2: 'IEN1AIiE1aE'}) check('member', 'template int A::a', {2: 'IEN1AIiE1aE'}, output='template<> int A::a') # same as above check('member', 'template<> template<> int A::B::b', {2: 'IEIEN1AIiE1BIiE1bE'}) check('member', 'template int A::B::b', {2: 'IEIEN1AIiE1BIiE1bE'}, output='template<> template<> int A::B::b') # same as above # defaulted constrained type parameters check('type', 'template A', {2: 'I_1CE1A'}) def test_template_args(): # from breathe#218 check('function', "template " "void allow(F *f, typename func::type tt)", {2: "I0E5allowP1FN4funcI1F1BXG != 1EE4typeE", 3: "I0E5allowP1FN4funcI1F1BXne1GL1EEE4typeE"}) # from #3542 check('type', "template " "enable_if_not_array_t = std::enable_if_t::value, int>", {2: "I0E21enable_if_not_array_t"}) def test_attributes(): # style: C++ check('member', '[[]] int f', {1: 'f__i', 2: '1f'}) check('member', '[ [ ] ] int f', {1: 'f__i', 2: '1f'}, # this will fail when the proper grammar is implemented output='[[ ]] int f') check('member', '[[a]] int f', {1: 'f__i', 2: '1f'}) # style: GNU check('member', '__attribute__(()) int f', {1: 'f__i', 2: '1f'}) check('member', '__attribute__((a)) int f', {1: 'f__i', 2: '1f'}) check('member', '__attribute__((a, b)) int f', {1: 'f__i', 2: '1f'}) # style: user-defined id check('member', 'id_attr int f', {1: 'f__i', 2: '1f'}) # style: user-defined paren check('member', 'paren_attr() int f', {1: 'f__i', 2: '1f'}) check('member', 'paren_attr(a) int f', {1: 'f__i', 2: '1f'}) check('member', 'paren_attr("") int f', {1: 'f__i', 2: '1f'}) check('member', 'paren_attr(()[{}][]{}) int f', {1: 'f__i', 2: '1f'}) with pytest.raises(DefinitionError): parse('member', 'paren_attr(() int f') with pytest.raises(DefinitionError): parse('member', 'paren_attr([) int f') with pytest.raises(DefinitionError): parse('member', 'paren_attr({) int f') with pytest.raises(DefinitionError): parse('member', 'paren_attr([)]) int f') with pytest.raises(DefinitionError): parse('member', 'paren_attr((])) int f') with pytest.raises(DefinitionError): parse('member', 'paren_attr({]}) int f') # position: decl specs check('function', 'static inline __attribute__(()) void f()', {1: 'f', 2: '1fv'}, output='__attribute__(()) static inline void f()') # position: declarator check('member', 'int *[[attr]] i', {1: 'i__iP', 2:'1i'}) check('member', 'int *const [[attr]] volatile i', {1: 'i__iPVC', 2: '1i'}, output='int *[[attr]] volatile const i') check('member', 'int &[[attr]] i', {1: 'i__iR', 2: '1i'}) check('member', 'int *[[attr]] *i', {1: 'i__iPP', 2: '1i'}) # def test_print(): # # used for getting all the ids out for checking # for a in ids: # print(a) # raise DefinitionError("") @pytest.mark.sphinx(testroot='domain-cpp') def test_build_domain_cpp_misuse_of_roles(app, status, warning): app.builder.build_all() # TODO: properly check for the warnings we expect @pytest.mark.sphinx(testroot='domain-cpp', confoverrides={'add_function_parentheses': True}) def test_build_domain_cpp_with_add_function_parentheses_is_True(app, status, warning): app.builder.build_all() def check(spec, text, file): pattern = '
  • %s%s
    • ' % spec res = re.search(pattern, text) if not res: print("Pattern\n\t%s\nnot found in %s" % (pattern, file)) assert False rolePatterns = [ ('', 'Sphinx'), ('', 'Sphinx::version'), ('', 'version'), ('', 'List'), ('', 'MyEnum') ] parenPatterns = [ ('ref function without parens ', r'paren_1\(\)'), ('ref function with parens ', r'paren_2\(\)'), ('ref function without parens, explicit title ', 'paren_3_title'), ('ref function with parens, explicit title ', 'paren_4_title'), ('ref op call without parens ', r'paren_5::operator\(\)\(\)'), ('ref op call with parens ', r'paren_6::operator\(\)\(\)'), ('ref op call without parens, explicit title ', 'paren_7_title'), ('ref op call with parens, explicit title ', 'paren_8_title') ] f = 'roles.html' t = (app.outdir / f).text() for s in rolePatterns: check(s, t, f) for s in parenPatterns: check(s, t, f) f = 'any-role.html' t = (app.outdir / f).text() for s in parenPatterns: check(s, t, f) @pytest.mark.sphinx(testroot='domain-cpp', confoverrides={ 'add_function_parentheses': False}) def test_build_domain_cpp_with_add_function_parentheses_is_False(app, status, warning): app.builder.build_all() def check(spec, text, file): pattern = '
  • %s%s
    • ' % spec res = re.search(pattern, text) if not res: print("Pattern\n\t%s\nnot found in %s" % (pattern, file)) assert False rolePatterns = [ ('', 'Sphinx'), ('', 'Sphinx::version'), ('', 'version'), ('', 'List'), ('', 'MyEnum') ] parenPatterns = [ ('ref function without parens ', 'paren_1'), ('ref function with parens ', 'paren_2'), ('ref function without parens, explicit title ', 'paren_3_title'), ('ref function with parens, explicit title ', 'paren_4_title'), ('ref op call without parens ', r'paren_5::operator\(\)'), ('ref op call with parens ', r'paren_6::operator\(\)'), ('ref op call without parens, explicit title ', 'paren_7_title'), ('ref op call with parens, explicit title ', 'paren_8_title') ] f = 'roles.html' t = (app.outdir / f).text() for s in rolePatterns: check(s, t, f) for s in parenPatterns: check(s, t, f) f = 'any-role.html' t = (app.outdir / f).text() for s in parenPatterns: check(s, t, f) @pytest.mark.sphinx(testroot='domain-cpp') def test_xref_consistency(app, status, warning): app.builder.build_all() test = 'xref_consistency.html' output = (app.outdir / test).text() def classes(role, tag): pattern = (r'{role}-role:.*?' r'<(?P{tag}) .*?class=["\'](?P.*?)["\'].*?>' r'.*' r'').format(role=role, tag=tag) result = re.search(pattern, output) expect = '''\ Pattern for role `{role}` with tag `{tag}` \t{pattern} not found in `{test}` '''.format(role=role, tag=tag, pattern=pattern, test=test) assert result, expect return set(result.group('classes').split()) class RoleClasses: """Collect the classes from the layout that was generated for a given role.""" def __init__(self, role, root, contents): self.name = role self.classes = classes(role, root) self.content_classes = dict() for tag in contents: self.content_classes[tag] = classes(role, tag) # not actually used as a reference point # code_role = RoleClasses('code', 'code', []) any_role = RoleClasses('any', 'a', ['code']) cpp_any_role = RoleClasses('cpp-any', 'a', ['code']) # NYI: consistent looks # texpr_role = RoleClasses('cpp-texpr', 'span', ['a', 'code']) expr_role = RoleClasses('cpp-expr', 'code', ['a']) texpr_role = RoleClasses('cpp-texpr', 'span', ['a', 'span']) # XRefRole-style classes # any and cpp:any do not put these classes at the root # n.b. the generic any machinery finds the specific 'cpp-class' object type expect = 'any uses XRefRole classes' assert {'xref', 'any', 'cpp', 'cpp-class'} <= any_role.content_classes['code'], expect expect = 'cpp:any uses XRefRole classes' assert {'xref', 'cpp-any', 'cpp'} <= cpp_any_role.content_classes['code'], expect for role in (expr_role, texpr_role): name = role.name expect = '`{name}` puts the domain and role classes at its root'.format(name=name) # NYI: xref should go in the references assert {'xref', 'cpp', name} <= role.classes, expect # reference classes expect = 'the xref roles use the same reference classes' assert any_role.classes == cpp_any_role.classes, expect assert any_role.classes == expr_role.content_classes['a'], expect assert any_role.classes == texpr_role.content_classes['a'], expect