//===- unittests/AST/CommentParser.cpp ------ Comment parser tests --------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "clang/AST/CommentParser.h" #include "clang/AST/Comment.h" #include "clang/AST/CommentCommandTraits.h" #include "clang/AST/CommentLexer.h" #include "clang/AST/CommentSema.h" #include "clang/Basic/CommentOptions.h" #include "clang/Basic/Diagnostic.h" #include "clang/Basic/DiagnosticOptions.h" #include "clang/Basic/FileManager.h" #include "clang/Basic/SourceManager.h" #include "llvm/ADT/STLExtras.h" #include "llvm/Support/Allocator.h" #include "gtest/gtest.h" #include <vector> using namespace llvm; using namespace clang; namespace clang { namespace comments { namespace { const bool DEBUG = true; class CommentParserTest : public ::testing::Test { protected: CommentParserTest() : FileMgr(FileMgrOpts), DiagID(new DiagnosticIDs()), Diags(DiagID, new DiagnosticOptions, new IgnoringDiagConsumer()), SourceMgr(Diags, FileMgr), Traits(Allocator, CommentOptions()) { } FileSystemOptions FileMgrOpts; FileManager FileMgr; IntrusiveRefCntPtr<DiagnosticIDs> DiagID; DiagnosticsEngine Diags; SourceManager SourceMgr; llvm::BumpPtrAllocator Allocator; CommandTraits Traits; FullComment *parseString(const char *Source); }; FullComment *CommentParserTest::parseString(const char *Source) { MemoryBuffer *Buf = MemoryBuffer::getMemBuffer(Source); FileID File = SourceMgr.createFileIDForMemBuffer(Buf); SourceLocation Begin = SourceMgr.getLocForStartOfFile(File); Lexer L(Allocator, Diags, Traits, Begin, Source, Source + strlen(Source)); Sema S(Allocator, SourceMgr, Diags, Traits, /*PP=*/ NULL); Parser P(L, S, Allocator, SourceMgr, Diags, Traits); FullComment *FC = P.parseFullComment(); if (DEBUG) { llvm::errs() << "=== Source:\n" << Source << "\n=== AST:\n"; FC->dump(llvm::errs(), &Traits, &SourceMgr); } Token Tok; L.lex(Tok); if (Tok.is(tok::eof)) return FC; else return NULL; } ::testing::AssertionResult HasChildCount(const Comment *C, size_t Count) { if (!C) return ::testing::AssertionFailure() << "Comment is NULL"; if (Count != C->child_count()) return ::testing::AssertionFailure() << "Count = " << Count << ", child_count = " << C->child_count(); return ::testing::AssertionSuccess(); } template <typename T> ::testing::AssertionResult GetChildAt(const Comment *C, size_t Idx, T *&Child) { if (!C) return ::testing::AssertionFailure() << "Comment is NULL"; if (Idx >= C->child_count()) return ::testing::AssertionFailure() << "Idx out of range. Idx = " << Idx << ", child_count = " << C->child_count(); Comment::child_iterator I = C->child_begin() + Idx; Comment *CommentChild = *I; if (!CommentChild) return ::testing::AssertionFailure() << "Child is NULL"; Child = dyn_cast<T>(CommentChild); if (!Child) return ::testing::AssertionFailure() << "Child is not of requested type, but a " << CommentChild->getCommentKindName(); return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasTextAt(const Comment *C, size_t Idx, StringRef Text) { TextComment *TC; ::testing::AssertionResult AR = GetChildAt(C, Idx, TC); if (!AR) return AR; StringRef ActualText = TC->getText(); if (ActualText != Text) return ::testing::AssertionFailure() << "TextComment has text \"" << ActualText.str() << "\", " "expected \"" << Text.str() << "\""; if (TC->hasTrailingNewline()) return ::testing::AssertionFailure() << "TextComment has a trailing newline"; return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasTextWithNewlineAt(const Comment *C, size_t Idx, StringRef Text) { TextComment *TC; ::testing::AssertionResult AR = GetChildAt(C, Idx, TC); if (!AR) return AR; StringRef ActualText = TC->getText(); if (ActualText != Text) return ::testing::AssertionFailure() << "TextComment has text \"" << ActualText.str() << "\", " "expected \"" << Text.str() << "\""; if (!TC->hasTrailingNewline()) return ::testing::AssertionFailure() << "TextComment has no trailing newline"; return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasBlockCommandAt(const Comment *C, const CommandTraits &Traits, size_t Idx, BlockCommandComment *&BCC, StringRef Name, ParagraphComment *&Paragraph) { ::testing::AssertionResult AR = GetChildAt(C, Idx, BCC); if (!AR) return AR; StringRef ActualName = BCC->getCommandName(Traits); if (ActualName != Name) return ::testing::AssertionFailure() << "BlockCommandComment has name \"" << ActualName.str() << "\", " "expected \"" << Name.str() << "\""; Paragraph = BCC->getParagraph(); return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasParamCommandAt( const Comment *C, const CommandTraits &Traits, size_t Idx, ParamCommandComment *&PCC, StringRef CommandName, ParamCommandComment::PassDirection Direction, bool IsDirectionExplicit, StringRef ParamName, ParagraphComment *&Paragraph) { ::testing::AssertionResult AR = GetChildAt(C, Idx, PCC); if (!AR) return AR; StringRef ActualCommandName = PCC->getCommandName(Traits); if (ActualCommandName != CommandName) return ::testing::AssertionFailure() << "ParamCommandComment has name \"" << ActualCommandName.str() << "\", " "expected \"" << CommandName.str() << "\""; if (PCC->getDirection() != Direction) return ::testing::AssertionFailure() << "ParamCommandComment has direction " << PCC->getDirection() << ", " "expected " << Direction; if (PCC->isDirectionExplicit() != IsDirectionExplicit) return ::testing::AssertionFailure() << "ParamCommandComment has " << (PCC->isDirectionExplicit() ? "explicit" : "implicit") << " direction, " "expected " << (IsDirectionExplicit ? "explicit" : "implicit"); if (!ParamName.empty() && !PCC->hasParamName()) return ::testing::AssertionFailure() << "ParamCommandComment has no parameter name"; StringRef ActualParamName = PCC->hasParamName() ? PCC->getParamNameAsWritten() : ""; if (ActualParamName != ParamName) return ::testing::AssertionFailure() << "ParamCommandComment has parameter name \"" << ActualParamName.str() << "\", " "expected \"" << ParamName.str() << "\""; Paragraph = PCC->getParagraph(); return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasTParamCommandAt( const Comment *C, const CommandTraits &Traits, size_t Idx, TParamCommandComment *&TPCC, StringRef CommandName, StringRef ParamName, ParagraphComment *&Paragraph) { ::testing::AssertionResult AR = GetChildAt(C, Idx, TPCC); if (!AR) return AR; StringRef ActualCommandName = TPCC->getCommandName(Traits); if (ActualCommandName != CommandName) return ::testing::AssertionFailure() << "TParamCommandComment has name \"" << ActualCommandName.str() << "\", " "expected \"" << CommandName.str() << "\""; if (!ParamName.empty() && !TPCC->hasParamName()) return ::testing::AssertionFailure() << "TParamCommandComment has no parameter name"; StringRef ActualParamName = TPCC->hasParamName() ? TPCC->getParamNameAsWritten() : ""; if (ActualParamName != ParamName) return ::testing::AssertionFailure() << "TParamCommandComment has parameter name \"" << ActualParamName.str() << "\", " "expected \"" << ParamName.str() << "\""; Paragraph = TPCC->getParagraph(); return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasInlineCommandAt(const Comment *C, const CommandTraits &Traits, size_t Idx, InlineCommandComment *&ICC, StringRef Name) { ::testing::AssertionResult AR = GetChildAt(C, Idx, ICC); if (!AR) return AR; StringRef ActualName = ICC->getCommandName(Traits); if (ActualName != Name) return ::testing::AssertionFailure() << "InlineCommandComment has name \"" << ActualName.str() << "\", " "expected \"" << Name.str() << "\""; return ::testing::AssertionSuccess(); } struct NoArgs {}; ::testing::AssertionResult HasInlineCommandAt(const Comment *C, const CommandTraits &Traits, size_t Idx, InlineCommandComment *&ICC, StringRef Name, NoArgs) { ::testing::AssertionResult AR = HasInlineCommandAt(C, Traits, Idx, ICC, Name); if (!AR) return AR; if (ICC->getNumArgs() != 0) return ::testing::AssertionFailure() << "InlineCommandComment has " << ICC->getNumArgs() << " arg(s), " "expected 0"; return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasInlineCommandAt(const Comment *C, const CommandTraits &Traits, size_t Idx, InlineCommandComment *&ICC, StringRef Name, StringRef Arg) { ::testing::AssertionResult AR = HasInlineCommandAt(C, Traits, Idx, ICC, Name); if (!AR) return AR; if (ICC->getNumArgs() != 1) return ::testing::AssertionFailure() << "InlineCommandComment has " << ICC->getNumArgs() << " arg(s), " "expected 1"; StringRef ActualArg = ICC->getArgText(0); if (ActualArg != Arg) return ::testing::AssertionFailure() << "InlineCommandComment has argument \"" << ActualArg.str() << "\", " "expected \"" << Arg.str() << "\""; return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasHTMLStartTagAt(const Comment *C, size_t Idx, HTMLStartTagComment *&HST, StringRef TagName) { ::testing::AssertionResult AR = GetChildAt(C, Idx, HST); if (!AR) return AR; StringRef ActualTagName = HST->getTagName(); if (ActualTagName != TagName) return ::testing::AssertionFailure() << "HTMLStartTagComment has name \"" << ActualTagName.str() << "\", " "expected \"" << TagName.str() << "\""; return ::testing::AssertionSuccess(); } struct SelfClosing {}; ::testing::AssertionResult HasHTMLStartTagAt(const Comment *C, size_t Idx, HTMLStartTagComment *&HST, StringRef TagName, SelfClosing) { ::testing::AssertionResult AR = HasHTMLStartTagAt(C, Idx, HST, TagName); if (!AR) return AR; if (!HST->isSelfClosing()) return ::testing::AssertionFailure() << "HTMLStartTagComment is not self-closing"; return ::testing::AssertionSuccess(); } struct NoAttrs {}; ::testing::AssertionResult HasHTMLStartTagAt(const Comment *C, size_t Idx, HTMLStartTagComment *&HST, StringRef TagName, NoAttrs) { ::testing::AssertionResult AR = HasHTMLStartTagAt(C, Idx, HST, TagName); if (!AR) return AR; if (HST->isSelfClosing()) return ::testing::AssertionFailure() << "HTMLStartTagComment is self-closing"; if (HST->getNumAttrs() != 0) return ::testing::AssertionFailure() << "HTMLStartTagComment has " << HST->getNumAttrs() << " attr(s), " "expected 0"; return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasHTMLStartTagAt(const Comment *C, size_t Idx, HTMLStartTagComment *&HST, StringRef TagName, StringRef AttrName, StringRef AttrValue) { ::testing::AssertionResult AR = HasHTMLStartTagAt(C, Idx, HST, TagName); if (!AR) return AR; if (HST->isSelfClosing()) return ::testing::AssertionFailure() << "HTMLStartTagComment is self-closing"; if (HST->getNumAttrs() != 1) return ::testing::AssertionFailure() << "HTMLStartTagComment has " << HST->getNumAttrs() << " attr(s), " "expected 1"; StringRef ActualName = HST->getAttr(0).Name; if (ActualName != AttrName) return ::testing::AssertionFailure() << "HTMLStartTagComment has attr \"" << ActualName.str() << "\", " "expected \"" << AttrName.str() << "\""; StringRef ActualValue = HST->getAttr(0).Value; if (ActualValue != AttrValue) return ::testing::AssertionFailure() << "HTMLStartTagComment has attr value \"" << ActualValue.str() << "\", " "expected \"" << AttrValue.str() << "\""; return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasHTMLEndTagAt(const Comment *C, size_t Idx, HTMLEndTagComment *&HET, StringRef TagName) { ::testing::AssertionResult AR = GetChildAt(C, Idx, HET); if (!AR) return AR; StringRef ActualTagName = HET->getTagName(); if (ActualTagName != TagName) return ::testing::AssertionFailure() << "HTMLEndTagComment has name \"" << ActualTagName.str() << "\", " "expected \"" << TagName.str() << "\""; return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasParagraphCommentAt(const Comment *C, size_t Idx, StringRef Text) { ParagraphComment *PC; { ::testing::AssertionResult AR = GetChildAt(C, Idx, PC); if (!AR) return AR; } { ::testing::AssertionResult AR = HasChildCount(PC, 1); if (!AR) return AR; } { ::testing::AssertionResult AR = HasTextAt(PC, 0, Text); if (!AR) return AR; } return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasVerbatimBlockAt(const Comment *C, const CommandTraits &Traits, size_t Idx, VerbatimBlockComment *&VBC, StringRef Name, StringRef CloseName) { ::testing::AssertionResult AR = GetChildAt(C, Idx, VBC); if (!AR) return AR; StringRef ActualName = VBC->getCommandName(Traits); if (ActualName != Name) return ::testing::AssertionFailure() << "VerbatimBlockComment has name \"" << ActualName.str() << "\", " "expected \"" << Name.str() << "\""; StringRef ActualCloseName = VBC->getCloseName(); if (ActualCloseName != CloseName) return ::testing::AssertionFailure() << "VerbatimBlockComment has closing command name \"" << ActualCloseName.str() << "\", " "expected \"" << CloseName.str() << "\""; return ::testing::AssertionSuccess(); } struct NoLines {}; struct Lines {}; ::testing::AssertionResult HasVerbatimBlockAt(const Comment *C, const CommandTraits &Traits, size_t Idx, VerbatimBlockComment *&VBC, StringRef Name, StringRef CloseName, NoLines) { ::testing::AssertionResult AR = HasVerbatimBlockAt(C, Traits, Idx, VBC, Name, CloseName); if (!AR) return AR; if (VBC->getNumLines() != 0) return ::testing::AssertionFailure() << "VerbatimBlockComment has " << VBC->getNumLines() << " lines(s), " "expected 0"; return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasVerbatimBlockAt(const Comment *C, const CommandTraits &Traits, size_t Idx, VerbatimBlockComment *&VBC, StringRef Name, StringRef CloseName, Lines, StringRef Line0) { ::testing::AssertionResult AR = HasVerbatimBlockAt(C, Traits, Idx, VBC, Name, CloseName); if (!AR) return AR; if (VBC->getNumLines() != 1) return ::testing::AssertionFailure() << "VerbatimBlockComment has " << VBC->getNumLines() << " lines(s), " "expected 1"; StringRef ActualLine0 = VBC->getText(0); if (ActualLine0 != Line0) return ::testing::AssertionFailure() << "VerbatimBlockComment has lines[0] \"" << ActualLine0.str() << "\", " "expected \"" << Line0.str() << "\""; return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasVerbatimBlockAt(const Comment *C, const CommandTraits &Traits, size_t Idx, VerbatimBlockComment *&VBC, StringRef Name, StringRef CloseName, Lines, StringRef Line0, StringRef Line1) { ::testing::AssertionResult AR = HasVerbatimBlockAt(C, Traits, Idx, VBC, Name, CloseName); if (!AR) return AR; if (VBC->getNumLines() != 2) return ::testing::AssertionFailure() << "VerbatimBlockComment has " << VBC->getNumLines() << " lines(s), " "expected 2"; StringRef ActualLine0 = VBC->getText(0); if (ActualLine0 != Line0) return ::testing::AssertionFailure() << "VerbatimBlockComment has lines[0] \"" << ActualLine0.str() << "\", " "expected \"" << Line0.str() << "\""; StringRef ActualLine1 = VBC->getText(1); if (ActualLine1 != Line1) return ::testing::AssertionFailure() << "VerbatimBlockComment has lines[1] \"" << ActualLine1.str() << "\", " "expected \"" << Line1.str() << "\""; return ::testing::AssertionSuccess(); } ::testing::AssertionResult HasVerbatimLineAt(const Comment *C, const CommandTraits &Traits, size_t Idx, VerbatimLineComment *&VLC, StringRef Name, StringRef Text) { ::testing::AssertionResult AR = GetChildAt(C, Idx, VLC); if (!AR) return AR; StringRef ActualName = VLC->getCommandName(Traits); if (ActualName != Name) return ::testing::AssertionFailure() << "VerbatimLineComment has name \"" << ActualName.str() << "\", " "expected \"" << Name.str() << "\""; StringRef ActualText = VLC->getText(); if (ActualText != Text) return ::testing::AssertionFailure() << "VerbatimLineComment has text \"" << ActualText.str() << "\", " "expected \"" << Text.str() << "\""; return ::testing::AssertionSuccess(); } TEST_F(CommentParserTest, Basic1) { const char *Source = "//"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 0)); } TEST_F(CommentParserTest, Basic2) { const char *Source = "// Meow"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 1)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " Meow")); } TEST_F(CommentParserTest, Basic3) { const char *Source = "// Aaa\n" "// Bbb"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 2)); ASSERT_TRUE(HasTextWithNewlineAt(PC, 0, " Aaa")); ASSERT_TRUE(HasTextAt(PC, 1, " Bbb")); } } TEST_F(CommentParserTest, Paragraph1) { const char *Sources[] = { "// Aaa\n" "//\n" "// Bbb", "// Aaa\n" "//\n" "//\n" "// Bbb", }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " Aaa")); ASSERT_TRUE(HasParagraphCommentAt(FC, 1, " Bbb")); } } TEST_F(CommentParserTest, Paragraph2) { const char *Source = "// \\brief Aaa\n" "//\n" "// Bbb"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 3)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { BlockCommandComment *BCC; ParagraphComment *PC; ASSERT_TRUE(HasBlockCommandAt(FC, Traits, 1, BCC, "brief", PC)); ASSERT_TRUE(HasParagraphCommentAt(BCC, 0, " Aaa")); } ASSERT_TRUE(HasParagraphCommentAt(FC, 2, " Bbb")); } TEST_F(CommentParserTest, Paragraph3) { const char *Source = "// \\brief \\author"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 3)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { BlockCommandComment *BCC; ParagraphComment *PC; ASSERT_TRUE(HasBlockCommandAt(FC, Traits, 1, BCC, "brief", PC)); ASSERT_TRUE(HasParagraphCommentAt(BCC, 0, " ")); } { BlockCommandComment *BCC; ParagraphComment *PC; ASSERT_TRUE(HasBlockCommandAt(FC, Traits, 2, BCC, "author", PC)); ASSERT_TRUE(GetChildAt(BCC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 0)); } } TEST_F(CommentParserTest, Paragraph4) { const char *Source = "// \\brief Aaa\n" "// Bbb \\author\n" "// Ccc"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 3)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { BlockCommandComment *BCC; ParagraphComment *PC; ASSERT_TRUE(HasBlockCommandAt(FC, Traits, 1, BCC, "brief", PC)); ASSERT_TRUE(GetChildAt(BCC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 2)); ASSERT_TRUE(HasTextWithNewlineAt(PC, 0, " Aaa")); ASSERT_TRUE(HasTextAt(PC, 1, " Bbb ")); } { BlockCommandComment *BCC; ParagraphComment *PC; ASSERT_TRUE(HasBlockCommandAt(FC, Traits, 2, BCC, "author", PC)); ASSERT_TRUE(HasParagraphCommentAt(BCC, 0, " Ccc")); } } TEST_F(CommentParserTest, ParamCommand1) { const char *Source = "// \\param aaa"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { ParamCommandComment *PCC; ParagraphComment *PC; ASSERT_TRUE(HasParamCommandAt(FC, Traits, 1, PCC, "param", ParamCommandComment::In, /* IsDirectionExplicit = */ false, "aaa", PC)); ASSERT_TRUE(HasChildCount(PCC, 1)); ASSERT_TRUE(HasChildCount(PC, 0)); } } TEST_F(CommentParserTest, ParamCommand2) { const char *Source = "// \\param\\brief"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 3)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { ParamCommandComment *PCC; ParagraphComment *PC; ASSERT_TRUE(HasParamCommandAt(FC, Traits, 1, PCC, "param", ParamCommandComment::In, /* IsDirectionExplicit = */ false, "", PC)); ASSERT_TRUE(HasChildCount(PCC, 1)); ASSERT_TRUE(HasChildCount(PC, 0)); } { BlockCommandComment *BCC; ParagraphComment *PC; ASSERT_TRUE(HasBlockCommandAt(FC, Traits, 2, BCC, "brief", PC)); ASSERT_TRUE(HasChildCount(PC, 0)); } } TEST_F(CommentParserTest, ParamCommand3) { const char *Sources[] = { "// \\param aaa Bbb\n", "// \\param\n" "// aaa Bbb\n", "// \\param \n" "// aaa Bbb\n", "// \\param aaa\n" "// Bbb\n" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { ParamCommandComment *PCC; ParagraphComment *PC; ASSERT_TRUE(HasParamCommandAt(FC, Traits, 1, PCC, "param", ParamCommandComment::In, /* IsDirectionExplicit = */ false, "aaa", PC)); ASSERT_TRUE(HasChildCount(PCC, 1)); ASSERT_TRUE(HasParagraphCommentAt(PCC, 0, " Bbb")); } } } TEST_F(CommentParserTest, ParamCommand4) { const char *Sources[] = { "// \\param [in] aaa Bbb\n", "// \\param[in] aaa Bbb\n", "// \\param\n" "// [in] aaa Bbb\n", "// \\param [in]\n" "// aaa Bbb\n", "// \\param [in] aaa\n" "// Bbb\n", }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { ParamCommandComment *PCC; ParagraphComment *PC; ASSERT_TRUE(HasParamCommandAt(FC, Traits, 1, PCC, "param", ParamCommandComment::In, /* IsDirectionExplicit = */ true, "aaa", PC)); ASSERT_TRUE(HasChildCount(PCC, 1)); ASSERT_TRUE(HasParagraphCommentAt(PCC, 0, " Bbb")); } } } TEST_F(CommentParserTest, ParamCommand5) { const char *Sources[] = { "// \\param [out] aaa Bbb\n", "// \\param[out] aaa Bbb\n", "// \\param\n" "// [out] aaa Bbb\n", "// \\param [out]\n" "// aaa Bbb\n", "// \\param [out] aaa\n" "// Bbb\n", }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { ParamCommandComment *PCC; ParagraphComment *PC; ASSERT_TRUE(HasParamCommandAt(FC, Traits, 1, PCC, "param", ParamCommandComment::Out, /* IsDirectionExplicit = */ true, "aaa", PC)); ASSERT_TRUE(HasChildCount(PCC, 1)); ASSERT_TRUE(HasParagraphCommentAt(PCC, 0, " Bbb")); } } } TEST_F(CommentParserTest, ParamCommand6) { const char *Sources[] = { "// \\param [in,out] aaa Bbb\n", "// \\param[in,out] aaa Bbb\n", "// \\param [in, out] aaa Bbb\n", "// \\param [in,\n" "// out] aaa Bbb\n", "// \\param [in,out]\n" "// aaa Bbb\n", "// \\param [in,out] aaa\n" "// Bbb\n" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { ParamCommandComment *PCC; ParagraphComment *PC; ASSERT_TRUE(HasParamCommandAt(FC, Traits, 1, PCC, "param", ParamCommandComment::InOut, /* IsDirectionExplicit = */ true, "aaa", PC)); ASSERT_TRUE(HasChildCount(PCC, 1)); ASSERT_TRUE(HasParagraphCommentAt(PCC, 0, " Bbb")); } } } TEST_F(CommentParserTest, ParamCommand7) { const char *Source = "// \\param aaa \\% Bbb \\$ ccc\n"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { ParamCommandComment *PCC; ParagraphComment *PC; ASSERT_TRUE(HasParamCommandAt(FC, Traits, 1, PCC, "param", ParamCommandComment::In, /* IsDirectionExplicit = */ false, "aaa", PC)); ASSERT_TRUE(HasChildCount(PCC, 1)); ASSERT_TRUE(HasChildCount(PC, 5)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasTextAt(PC, 1, "%")); ASSERT_TRUE(HasTextAt(PC, 2, " Bbb ")); ASSERT_TRUE(HasTextAt(PC, 3, "$")); ASSERT_TRUE(HasTextAt(PC, 4, " ccc")); } } TEST_F(CommentParserTest, TParamCommand1) { const char *Sources[] = { "// \\tparam aaa Bbb\n", "// \\tparam\n" "// aaa Bbb\n", "// \\tparam \n" "// aaa Bbb\n", "// \\tparam aaa\n" "// Bbb\n" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { TParamCommandComment *TPCC; ParagraphComment *PC; ASSERT_TRUE(HasTParamCommandAt(FC, Traits, 1, TPCC, "tparam", "aaa", PC)); ASSERT_TRUE(HasChildCount(TPCC, 1)); ASSERT_TRUE(HasParagraphCommentAt(TPCC, 0, " Bbb")); } } } TEST_F(CommentParserTest, TParamCommand2) { const char *Source = "// \\tparam\\brief"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 3)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { TParamCommandComment *TPCC; ParagraphComment *PC; ASSERT_TRUE(HasTParamCommandAt(FC, Traits, 1, TPCC, "tparam", "", PC)); ASSERT_TRUE(HasChildCount(TPCC, 1)); ASSERT_TRUE(HasChildCount(PC, 0)); } { BlockCommandComment *BCC; ParagraphComment *PC; ASSERT_TRUE(HasBlockCommandAt(FC, Traits, 2, BCC, "brief", PC)); ASSERT_TRUE(HasChildCount(PC, 0)); } } TEST_F(CommentParserTest, InlineCommand1) { const char *Source = "// \\c"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; InlineCommandComment *ICC; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 2)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasInlineCommandAt(PC, Traits, 1, ICC, "c", NoArgs())); } } TEST_F(CommentParserTest, InlineCommand2) { const char *Source = "// \\c "; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; InlineCommandComment *ICC; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 3)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasInlineCommandAt(PC, Traits, 1, ICC, "c", NoArgs())); ASSERT_TRUE(HasTextAt(PC, 2, " ")); } } TEST_F(CommentParserTest, InlineCommand3) { const char *Source = "// \\c aaa\n"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; InlineCommandComment *ICC; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 2)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasInlineCommandAt(PC, Traits, 1, ICC, "c", "aaa")); } } TEST_F(CommentParserTest, InlineCommand4) { const char *Source = "// \\c aaa bbb"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; InlineCommandComment *ICC; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 3)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasInlineCommandAt(PC, Traits, 1, ICC, "c", "aaa")); ASSERT_TRUE(HasTextAt(PC, 2, " bbb")); } } TEST_F(CommentParserTest, InlineCommand5) { const char *Source = "// \\unknown aaa\n"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; InlineCommandComment *ICC; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 3)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasInlineCommandAt(PC, Traits, 1, ICC, "unknown", NoArgs())); ASSERT_TRUE(HasTextAt(PC, 2, " aaa")); } } TEST_F(CommentParserTest, HTML1) { const char *Sources[] = { "// <a", "// <a>", "// <a >" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; HTMLStartTagComment *HST; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 2)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasHTMLStartTagAt(PC, 1, HST, "a", NoAttrs())); } } } TEST_F(CommentParserTest, HTML2) { const char *Sources[] = { "// <br/>", "// <br />" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; HTMLStartTagComment *HST; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 2)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasHTMLStartTagAt(PC, 1, HST, "br", SelfClosing())); } } } TEST_F(CommentParserTest, HTML3) { const char *Sources[] = { "// <a href", "// <a href ", "// <a href>", "// <a href >", }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; HTMLStartTagComment *HST; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 2)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasHTMLStartTagAt(PC, 1, HST, "a", "href", "")); } } } TEST_F(CommentParserTest, HTML4) { const char *Sources[] = { "// <a href=\"bbb\"", "// <a href=\"bbb\">", }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; HTMLStartTagComment *HST; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 2)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasHTMLStartTagAt(PC, 1, HST, "a", "href", "bbb")); } } } TEST_F(CommentParserTest, HTML5) { const char *Sources[] = { "// </a", "// </a>", "// </a >" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; HTMLEndTagComment *HET; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 2)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasHTMLEndTagAt(PC, 1, HET, "a")); } } } TEST_F(CommentParserTest, HTML6) { const char *Source = "// <pre>\n" "// Aaa\n" "// Bbb\n" "// </pre>\n"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 1)); { ParagraphComment *PC; HTMLStartTagComment *HST; HTMLEndTagComment *HET; ASSERT_TRUE(GetChildAt(FC, 0, PC)); ASSERT_TRUE(HasChildCount(PC, 6)); ASSERT_TRUE(HasTextAt(PC, 0, " ")); ASSERT_TRUE(HasHTMLStartTagAt(PC, 1, HST, "pre", NoAttrs())); ASSERT_TRUE(HasTextWithNewlineAt(PC, 2, " Aaa")); ASSERT_TRUE(HasTextWithNewlineAt(PC, 3, " Bbb")); ASSERT_TRUE(HasTextAt(PC, 4, " ")); ASSERT_TRUE(HasHTMLEndTagAt(PC, 5, HET, "pre")); } } TEST_F(CommentParserTest, VerbatimBlock1) { const char *Source = "// \\verbatim\\endverbatim\n"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { VerbatimBlockComment *VCC; ASSERT_TRUE(HasVerbatimBlockAt(FC, Traits, 1, VCC, "verbatim", "endverbatim", NoLines())); } } TEST_F(CommentParserTest, VerbatimBlock2) { const char *Source = "// \\verbatim Aaa \\endverbatim\n"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { VerbatimBlockComment *VBC; ASSERT_TRUE(HasVerbatimBlockAt(FC, Traits, 1, VBC, "verbatim", "endverbatim", Lines(), " Aaa ")); } } TEST_F(CommentParserTest, VerbatimBlock3) { const char *Source = "// \\verbatim Aaa\n"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { VerbatimBlockComment *VBC; ASSERT_TRUE(HasVerbatimBlockAt(FC, Traits, 1, VBC, "verbatim", "", Lines(), " Aaa")); } } TEST_F(CommentParserTest, VerbatimBlock4) { const char *Source = "//\\verbatim\n" "//\\endverbatim\n"; FullComment *FC = parseString(Source); ASSERT_TRUE(HasChildCount(FC, 1)); { VerbatimBlockComment *VBC; ASSERT_TRUE(HasVerbatimBlockAt(FC, Traits, 0, VBC, "verbatim", "endverbatim", NoLines())); } } TEST_F(CommentParserTest, VerbatimBlock5) { const char *Sources[] = { "//\\verbatim\n" "// Aaa\n" "//\\endverbatim\n", "/*\\verbatim\n" " * Aaa\n" " *\\endverbatim*/" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 1)); { VerbatimBlockComment *VBC; ASSERT_TRUE(HasVerbatimBlockAt(FC, Traits, 0, VBC, "verbatim", "endverbatim", Lines(), " Aaa")); } } } TEST_F(CommentParserTest, VerbatimBlock6) { const char *Sources[] = { "// \\verbatim\n" "// Aaa\n" "// \\endverbatim\n", "/* \\verbatim\n" " * Aaa\n" " * \\endverbatim*/" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { VerbatimBlockComment *VBC; ASSERT_TRUE(HasVerbatimBlockAt(FC, Traits, 1, VBC, "verbatim", "endverbatim", Lines(), " Aaa")); } } } TEST_F(CommentParserTest, VerbatimBlock7) { const char *Sources[] = { "// \\verbatim\n" "// Aaa\n" "// Bbb\n" "// \\endverbatim\n", "/* \\verbatim\n" " * Aaa\n" " * Bbb\n" " * \\endverbatim*/" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { VerbatimBlockComment *VBC; ASSERT_TRUE(HasVerbatimBlockAt(FC, Traits, 1, VBC, "verbatim", "endverbatim", Lines(), " Aaa", " Bbb")); } } } TEST_F(CommentParserTest, VerbatimBlock8) { const char *Sources[] = { "// \\verbatim\n" "// Aaa\n" "//\n" "// Bbb\n" "// \\endverbatim\n", "/* \\verbatim\n" " * Aaa\n" " *\n" " * Bbb\n" " * \\endverbatim*/" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { VerbatimBlockComment *VBC; ASSERT_TRUE(HasVerbatimBlockAt(FC, Traits, 1, VBC, "verbatim", "endverbatim")); ASSERT_EQ(3U, VBC->getNumLines()); ASSERT_EQ(" Aaa", VBC->getText(0)); ASSERT_EQ("", VBC->getText(1)); ASSERT_EQ(" Bbb", VBC->getText(2)); } } } TEST_F(CommentParserTest, VerbatimLine1) { const char *Sources[] = { "// \\fn", "// \\fn\n" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { VerbatimLineComment *VLC; ASSERT_TRUE(HasVerbatimLineAt(FC, Traits, 1, VLC, "fn", "")); } } } TEST_F(CommentParserTest, VerbatimLine2) { const char *Sources[] = { "/// \\fn void *foo(const char *zzz = \"\\$\");\n//", "/** \\fn void *foo(const char *zzz = \"\\$\");*/" }; for (size_t i = 0, e = array_lengthof(Sources); i != e; i++) { FullComment *FC = parseString(Sources[i]); ASSERT_TRUE(HasChildCount(FC, 2)); ASSERT_TRUE(HasParagraphCommentAt(FC, 0, " ")); { VerbatimLineComment *VLC; ASSERT_TRUE(HasVerbatimLineAt(FC, Traits, 1, VLC, "fn", " void *foo(const char *zzz = \"\\$\");")); } } } } // unnamed namespace } // end namespace comments } // end namespace clang