"{{{ycm Execute (error completed_item): let completed_item = {} let result = cm_parser#cpp#parameters(completed_item) AssertEqual [], result Execute (error completed_item, kind: t): let completed_item = {'kind': 't'} let result = cm_parser#cpp#parameters(completed_item) AssertEqual [], result Execute (error completed_item, word empty): let completed_item = {'kind': 'f', 'word': ''} let result = cm_parser#cpp#parameters(completed_item) AssertEqual [], result Execute (error completed_item, word info): let completed_item = {'kind': 'f', 'word': 'empty'} let result = cm_parser#cpp#parameters(completed_item) AssertEqual [], result Execute (vector::empty()): let completed_item = {'kind': 'f', 'word': 'empty', 'info': "bool empty() const\n"} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['()'], result Execute (vector::operator=): let completed_item = {'kind': 'f', 'word': 'operator=', 'info': "std::vector > & operator=( const std::vector > &__x )"} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['(__x)'], result Execute (vector::vector): let completed_item = {'kind': 'f', 'word': 'vector', 'info': "void vector( _InputIterator __first, typename enable_if<__is_input_iterator<_InputIterator>::value && !__is_forward_iterator<_InputIterator>::value && is_constructible::reference>::value, _InputIterator>::type __last )\nvoid vector( _InputIterator __first, _InputIterator __last, const allocator_type &__a, typename enable_if<__is_input_iterator<_InputIterator>::value && !__is_forward_iterator<_InputIterator>::value && is_constructible::reference>::value>::type * )"} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['(__first, __last)', '(__first, __last, __a, *)'], result Execute (ctime::time): let completed_item = {'kind':'f', 'word': 'time', 'info': 'time_t time( time_t * )'} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['(*)'], result Execute (vector, kind: c): let completed_item = {'kind': 'c', 'word': 'vector', 'info': "vector\n"} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['<_Tp, _Alloc>'], result Execute (std::error_code, kind: c): let completed_item = {'kind': 'c', 'word': 'error_code', 'info': "error_code"} let result = cm_parser#cpp#parameters(completed_item) AssertEqual [], result Execute (std:: error_code, kind: c): let completed_item = {'kind': 'c', 'word': 'error_code', 'info': " error_code"} let result = cm_parser#cpp#parameters(completed_item) AssertEqual [], result Execute (CMP, kind: m): let completed_item = {'word': 'CMP', 'menu': '', 'info': ' CMP( a, b )^@', 'kind': 'm', 'abbr': 'CMP( a, b )'} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['(a, b)'], result Execute (include default func value): let completed_item = {'word': 'test', 'menu': 'void', 'info': 'void test(int a, int b = func() )', 'kind': 'f', 'abbr': 'test( int a, int b = func() )'} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['(a, b)'], result Execute (include default value): let completed_item = {'word': 'test1', 'menu': 'void', 'info': 'void test1( int a, int b = 1 )', 'kind': 'f', 'abbr': 'test1( int a, int b = 1 )'} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['(a, b)'], result "}}} "{{{deoplete Execute (error completed_item, word empty): let completed_item = {'kind': 'f void', 'word': ''} let result = cm_parser#cpp#parameters(completed_item) AssertEqual [], result Execute (error completed_item, word info): let completed_item = {'kind': 'f void', 'word': 'empty'} let result = cm_parser#cpp#parameters(completed_item) AssertEqual [], result Execute (vector::empty()): let completed_item = {'kind': 'f bool', 'word': 'empty', 'info': "bool empty() const", 'menu': '[clang] '} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['()'], result Execute (vector::operator=): let completed_item = {'kind': 'f std::vector > &', 'word': 'operator=', 'info': "std::vector > & operator=( const std::vector > &__x )", 'menu': '[clang] '} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['(__x)'], result Execute (vector::vector): let completed_item = {'kind': 'f', 'word': 'vector', 'info': "void vector( _InputIterator __first, typename enable_if<__is_input_iterator<_InputIterator>::value && !__is_forward_iterator<_InputIterator>::value && is_constructible::reference>::value, _InputIterator>::type __last )\nvoid vector( _InputIterator __first, _InputIterator __last, const allocator_type &__a, typename enable_if<__is_input_iterator<_InputIterator>::value && !__is_forward_iterator<_InputIterator>::value && is_constructible::reference>::value>::type * )", 'menu': '[clang] '} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['(__first, __last)', '(__first, __last, __a, *)'], result Execute (ctime::time): let completed_item = {'kind':'f time_t', 'word': 'time', 'info': 'time_t time( time_t * )', 'menu': '[clang] '} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['(*)'], result Execute (vector, kind: p): let completed_item = {'kind': 'p ', 'word': 'vector', 'info': "vector\n", 'menu': '[clang] '} let result = cm_parser#cpp#parameters(completed_item) AssertEqual ['<_Tp, _Alloc>'], result Execute (std::error_code, kind: p): let completed_item = {'kind': 'p ', 'word': 'error_code', 'info': "error_code", 'menu': '[clang] '} let result = cm_parser#cpp#parameters(completed_item) AssertEqual [], result Execute (std:: error_code, kind: p): let completed_item = {'kind': 'p ', 'word': 'error_code', 'info': " error_code", 'menu': '[clang] '} let result = cm_parser#cpp#parameters(completed_item) AssertEqual [], result "}}}