forked from OSchip/llvm-project
231 lines
8.2 KiB
C++
231 lines
8.2 KiB
C++
//===- unittest/Tooling/SourceCodeBuildersTest.cpp ------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "clang/Tooling/Transformer/SourceCodeBuilders.h"
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#include "clang/ASTMatchers/ASTMatchFinder.h"
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#include "clang/ASTMatchers/ASTMatchers.h"
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#include "clang/Tooling/Tooling.h"
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#include "llvm/Testing/Support/SupportHelpers.h"
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#include "gmock/gmock.h"
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#include "gtest/gtest.h"
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using namespace clang;
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using namespace tooling;
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using namespace ast_matchers;
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namespace {
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using MatchResult = MatchFinder::MatchResult;
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using llvm::ValueIs;
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// Create a valid translation unit from a statement.
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static std::string wrapSnippet(StringRef StatementCode) {
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return ("struct S { S(); S(int); int field; };\n"
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"S operator+(const S &a, const S &b);\n"
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"auto test_snippet = []{" +
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StatementCode + "};")
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.str();
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}
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static DeclarationMatcher wrapMatcher(const StatementMatcher &Matcher) {
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return varDecl(hasName("test_snippet"),
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hasDescendant(compoundStmt(hasAnySubstatement(Matcher))));
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}
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struct TestMatch {
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// The AST unit from which `result` is built. We bundle it because it backs
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// the result. Users are not expected to access it.
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std::unique_ptr<ASTUnit> AstUnit;
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// The result to use in the test. References `ast_unit`.
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MatchResult Result;
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};
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// Matches `Matcher` against the statement `StatementCode` and returns the
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// result. Handles putting the statement inside a function and modifying the
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// matcher correspondingly. `Matcher` should match one of the statements in
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// `StatementCode` exactly -- that is, produce exactly one match. However,
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// `StatementCode` may contain other statements not described by `Matcher`.
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static llvm::Optional<TestMatch> matchStmt(StringRef StatementCode,
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StatementMatcher Matcher) {
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auto AstUnit = buildASTFromCode(wrapSnippet(StatementCode));
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if (AstUnit == nullptr) {
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ADD_FAILURE() << "AST construction failed";
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return llvm::None;
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}
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ASTContext &Context = AstUnit->getASTContext();
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auto Matches = ast_matchers::match(wrapMatcher(Matcher), Context);
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// We expect a single, exact match for the statement.
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if (Matches.size() != 1) {
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ADD_FAILURE() << "Wrong number of matches: " << Matches.size();
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return llvm::None;
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}
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return TestMatch{std::move(AstUnit), MatchResult(Matches[0], &Context)};
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}
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static void testPredicate(bool (*Pred)(const Expr &), StringRef Snippet,
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bool Expected) {
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auto StmtMatch = matchStmt(Snippet, expr().bind("expr"));
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ASSERT_TRUE(StmtMatch) << "Snippet: " << Snippet;
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EXPECT_EQ(Expected, Pred(*StmtMatch->Result.Nodes.getNodeAs<Expr>("expr")))
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<< "Snippet: " << Snippet;
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}
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// Tests the predicate on the call argument, assuming `Snippet` is a function
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// call.
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static void testPredicateOnArg(bool (*Pred)(const Expr &), StringRef Snippet,
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bool Expected) {
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auto StmtMatch = matchStmt(
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Snippet, expr(ignoringImplicit(callExpr(hasArgument(
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0, ignoringElidableConstructorCall(expr().bind("arg")))))));
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ASSERT_TRUE(StmtMatch) << "Snippet: " << Snippet;
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EXPECT_EQ(Expected, Pred(*StmtMatch->Result.Nodes.getNodeAs<Expr>("arg")))
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<< "Snippet: " << Snippet;
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}
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TEST(SourceCodeBuildersTest, needParensAfterUnaryOperator) {
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testPredicate(needParensAfterUnaryOperator, "3 + 5;", true);
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testPredicate(needParensAfterUnaryOperator, "true ? 3 : 5;", true);
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testPredicate(needParensAfterUnaryOperator, "S(3) + S(5);", true);
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testPredicate(needParensAfterUnaryOperator, "int x; x;", false);
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testPredicate(needParensAfterUnaryOperator, "int(3.0);", false);
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testPredicate(needParensAfterUnaryOperator, "void f(); f();", false);
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testPredicate(needParensAfterUnaryOperator, "int a[3]; a[0];", false);
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testPredicate(needParensAfterUnaryOperator, "S x; x.field;", false);
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testPredicate(needParensAfterUnaryOperator, "int x = 1; --x;", false);
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testPredicate(needParensAfterUnaryOperator, "int x = 1; -x;", false);
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}
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TEST(SourceCodeBuildersTest, needParensAfterUnaryOperatorInImplicitConversion) {
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// The binary operation will be embedded in various implicit
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// expressions. Verify they are ignored.
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testPredicateOnArg(needParensAfterUnaryOperator, "void f(S); f(3 + 5);",
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true);
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}
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TEST(SourceCodeBuildersTest, mayEverNeedParens) {
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testPredicate(mayEverNeedParens, "3 + 5;", true);
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testPredicate(mayEverNeedParens, "true ? 3 : 5;", true);
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testPredicate(mayEverNeedParens, "int x = 1; --x;", true);
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testPredicate(mayEverNeedParens, "int x = 1; -x;", true);
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testPredicate(mayEverNeedParens, "int x; x;", false);
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testPredicate(mayEverNeedParens, "int(3.0);", false);
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testPredicate(mayEverNeedParens, "void f(); f();", false);
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testPredicate(mayEverNeedParens, "int a[3]; a[0];", false);
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testPredicate(mayEverNeedParens, "S x; x.field;", false);
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}
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TEST(SourceCodeBuildersTest, mayEverNeedParensInImplictConversion) {
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// The binary operation will be embedded in various implicit
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// expressions. Verify they are ignored.
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testPredicateOnArg(mayEverNeedParens, "void f(S); f(3 + 5);", true);
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}
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static void testBuilder(
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llvm::Optional<std::string> (*Builder)(const Expr &, const ASTContext &),
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StringRef Snippet, StringRef Expected) {
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auto StmtMatch = matchStmt(Snippet, expr().bind("expr"));
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ASSERT_TRUE(StmtMatch);
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EXPECT_THAT(Builder(*StmtMatch->Result.Nodes.getNodeAs<Expr>("expr"),
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*StmtMatch->Result.Context),
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ValueIs(std::string(Expected)));
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}
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TEST(SourceCodeBuildersTest, BuildParensUnaryOp) {
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testBuilder(buildParens, "-4;", "(-4)");
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}
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TEST(SourceCodeBuildersTest, BuildParensBinOp) {
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testBuilder(buildParens, "4 + 4;", "(4 + 4)");
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}
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TEST(SourceCodeBuildersTest, BuildParensValue) {
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testBuilder(buildParens, "4;", "4");
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}
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TEST(SourceCodeBuildersTest, BuildParensSubscript) {
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testBuilder(buildParens, "int a[3]; a[0];", "a[0]");
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}
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TEST(SourceCodeBuildersTest, BuildParensCall) {
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testBuilder(buildParens, "int f(int); f(4);", "f(4)");
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}
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TEST(SourceCodeBuildersTest, BuildAddressOfValue) {
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testBuilder(buildAddressOf, "S x; x;", "&x");
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}
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TEST(SourceCodeBuildersTest, BuildAddressOfPointerDereference) {
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testBuilder(buildAddressOf, "S *x; *x;", "x");
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}
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TEST(SourceCodeBuildersTest, BuildAddressOfPointerDereferenceIgnoresParens) {
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testBuilder(buildAddressOf, "S *x; *(x);", "x");
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}
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TEST(SourceCodeBuildersTest, BuildAddressOfBinaryOperation) {
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testBuilder(buildAddressOf, "S x; x + x;", "&(x + x)");
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}
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TEST(SourceCodeBuildersTest, BuildDereferencePointer) {
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testBuilder(buildDereference, "S *x; x;", "*x");
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}
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TEST(SourceCodeBuildersTest, BuildDereferenceValueAddress) {
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testBuilder(buildDereference, "S x; &x;", "x");
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}
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TEST(SourceCodeBuildersTest, BuildDereferenceValueAddressIgnoresParens) {
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testBuilder(buildDereference, "S x; &(x);", "x");
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}
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TEST(SourceCodeBuildersTest, BuildDereferenceBinaryOperation) {
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testBuilder(buildDereference, "S *x; x + 1;", "*(x + 1)");
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}
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TEST(SourceCodeBuildersTest, BuildDotValue) {
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testBuilder(buildDot, "S x; x;", "x.");
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}
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TEST(SourceCodeBuildersTest, BuildDotPointerDereference) {
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testBuilder(buildDot, "S *x; *x;", "x->");
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}
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TEST(SourceCodeBuildersTest, BuildDotPointerDereferenceIgnoresParens) {
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testBuilder(buildDot, "S *x; *(x);", "x->");
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}
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TEST(SourceCodeBuildersTest, BuildDotBinaryOperation) {
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testBuilder(buildDot, "S x; x + x;", "(x + x).");
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}
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TEST(SourceCodeBuildersTest, BuildDotPointerDereferenceExprWithParens) {
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testBuilder(buildDot, "S *x; *(x + 1);", "(x + 1)->");
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}
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TEST(SourceCodeBuildersTest, BuildArrowPointer) {
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testBuilder(buildArrow, "S *x; x;", "x->");
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}
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TEST(SourceCodeBuildersTest, BuildArrowValueAddress) {
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testBuilder(buildArrow, "S x; &x;", "x.");
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}
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TEST(SourceCodeBuildersTest, BuildArrowValueAddressIgnoresParens) {
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testBuilder(buildArrow, "S x; &(x);", "x.");
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}
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TEST(SourceCodeBuildersTest, BuildArrowBinaryOperation) {
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testBuilder(buildArrow, "S *x; x + 1;", "(x + 1)->");
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}
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TEST(SourceCodeBuildersTest, BuildArrowValueAddressWithParens) {
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testBuilder(buildArrow, "S x; &(true ? x : x);", "(true ? x : x).");
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}
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} // namespace
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