kc3-lang/angle/src/tests/preprocessor_tests/location_test.cpp

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• Author : Victor Costan
  Date : 2019-02-20 10:45:24
  Hash : ffd39978
  Message : test: Replace _TEST_CASE_ with _TEST_SUITE_. Googletest is (at last) converging with industry-standard terminology [1]. We previously called test suites "test cases", which was rather confusing for folks coming from any other testing framework. Chrome now has a googletest version that supports _TEST_SUITE_ macros instead of _TEST_CASE_, so this CL cleans up some of the outdated usage. [1] https://github.com/google/googletest/blob/master/googletest/docs/primer.md#beware-of-the-nomenclature Bug: chromium:925652 Change-Id: Ia0deec0bc4216ef1adabc33985a7cbda89682608 Reviewed-on: https://chromium-review.googlesource.com/c/1477418 Reviewed-by: Geoff Lang <geofflang@chromium.org> Commit-Queue: Victor Costan <pwnall@chromium.org>

• src/tests/preprocessor_tests/location_test.cpp

• //
  // Copyright (c) 2012 The ANGLE Project Authors. All rights reserved.
  // Use of this source code is governed by a BSD-style license that can be
  // found in the LICENSE file.
  //
  
  #include "PreprocessorTest.h"
  #include "compiler/preprocessor/Token.h"
  
  namespace angle
  {
  
  class LocationTest : public PreprocessorTest
  {
    protected:
      LocationTest() : PreprocessorTest(SH_GLES2_SPEC) {}
  
      void expectLocation(int count,
                          const char *const string[],
                          const int length[],
                          const pp::SourceLocation &location)
      {
          ASSERT_TRUE(mPreprocessor.init(count, string, length));
  
          pp::Token token;
          mPreprocessor.lex(&token);
          EXPECT_EQ(pp::Token::IDENTIFIER, token.type);
          EXPECT_EQ("foo", token.text);
  
          EXPECT_EQ(location.file, token.location.file);
          EXPECT_EQ(location.line, token.location.line);
      }
  };
  
  TEST_F(LocationTest, String0_Line1)
  {
      const char *str = "foo";
      pp::SourceLocation loc(0, 1);
  
      SCOPED_TRACE("String0_Line1");
      expectLocation(1, &str, nullptr, loc);
  }
  
  TEST_F(LocationTest, String0_Line2)
  {
      const char *str = "\nfoo";
      pp::SourceLocation loc(0, 2);
  
      SCOPED_TRACE("String0_Line2");
      expectLocation(1, &str, nullptr, loc);
  }
  
  TEST_F(LocationTest, String1_Line1)
  {
      const char *const str[] = {"\n\n", "foo"};
      pp::SourceLocation loc(1, 1);
  
      SCOPED_TRACE("String1_Line1");
      expectLocation(2, str, nullptr, loc);
  }
  
  TEST_F(LocationTest, String1_Line2)
  {
      const char *const str[] = {"\n\n", "\nfoo"};
      pp::SourceLocation loc(1, 2);
  
      SCOPED_TRACE("String1_Line2");
      expectLocation(2, str, nullptr, loc);
  }
  
  TEST_F(LocationTest, NewlineInsideCommentCounted)
  {
      const char *str = "/*\n\n*/foo";
      pp::SourceLocation loc(0, 3);
  
      SCOPED_TRACE("NewlineInsideCommentCounted");
      expectLocation(1, &str, nullptr, loc);
  }
  
  TEST_F(LocationTest, ErrorLocationAfterComment)
  {
      const char *str = "/*\n\n*/@";
  
      ASSERT_TRUE(mPreprocessor.init(1, &str, nullptr));
      EXPECT_CALL(mDiagnostics,
                  print(pp::Diagnostics::PP_INVALID_CHARACTER, pp::SourceLocation(0, 3), "@"));
  
      pp::Token token;
      mPreprocessor.lex(&token);
  }
  
  // The location of a token straddling two or more strings is that of the
  // first character of the token.
  
  TEST_F(LocationTest, TokenStraddlingTwoStrings)
  {
      const char *const str[] = {"f", "oo"};
      pp::SourceLocation loc(0, 1);
  
      SCOPED_TRACE("TokenStraddlingTwoStrings");
      expectLocation(2, str, nullptr, loc);
  }
  
  TEST_F(LocationTest, TokenStraddlingThreeStrings)
  {
      const char *const str[] = {"f", "o", "o"};
      pp::SourceLocation loc(0, 1);
  
      SCOPED_TRACE("TokenStraddlingThreeStrings");
      expectLocation(3, str, nullptr, loc);
  }
  
  TEST_F(LocationTest, EndOfFileWithoutNewline)
  {
      const char *const str[] = {"foo"};
      ASSERT_TRUE(mPreprocessor.init(1, str, nullptr));
  
      pp::Token token;
      mPreprocessor.lex(&token);
      EXPECT_EQ(pp::Token::IDENTIFIER, token.type);
      EXPECT_EQ("foo", token.text);
      EXPECT_EQ(0, token.location.file);
      EXPECT_EQ(1, token.location.line);
  
      mPreprocessor.lex(&token);
      EXPECT_EQ(pp::Token::LAST, token.type);
      EXPECT_EQ(0, token.location.file);
      EXPECT_EQ(1, token.location.line);
  }
  
  TEST_F(LocationTest, EndOfFileAfterNewline)
  {
      const char *const str[] = {"foo\n"};
      ASSERT_TRUE(mPreprocessor.init(1, str, nullptr));
  
      pp::Token token;
      mPreprocessor.lex(&token);
      EXPECT_EQ(pp::Token::IDENTIFIER, token.type);
      EXPECT_EQ("foo", token.text);
      EXPECT_EQ(0, token.location.file);
      EXPECT_EQ(1, token.location.line);
  
      mPreprocessor.lex(&token);
      EXPECT_EQ(pp::Token::LAST, token.type);
      EXPECT_EQ(0, token.location.file);
      EXPECT_EQ(2, token.location.line);
  }
  
  TEST_F(LocationTest, EndOfFileAfterEmptyString)
  {
      const char *const str[] = {"foo\n", "\n", ""};
      ASSERT_TRUE(mPreprocessor.init(3, str, nullptr));
  
      pp::Token token;
      mPreprocessor.lex(&token);
      EXPECT_EQ(pp::Token::IDENTIFIER, token.type);
      EXPECT_EQ("foo", token.text);
      EXPECT_EQ(0, token.location.file);
      EXPECT_EQ(1, token.location.line);
  
      mPreprocessor.lex(&token);
      EXPECT_EQ(pp::Token::LAST, token.type);
      EXPECT_EQ(2, token.location.file);
      EXPECT_EQ(1, token.location.line);
  }
  
  TEST_F(LocationTest, ValidLineDirective1)
  {
      const char *str =
          "#line 10\n"
          "foo";
      pp::SourceLocation loc(0, 10);
  
      SCOPED_TRACE("ValidLineDirective1");
      expectLocation(1, &str, nullptr, loc);
  }
  
  TEST_F(LocationTest, ValidLineDirective2)
  {
      const char *str =
          "#line 10 20\n"
          "foo";
      pp::SourceLocation loc(20, 10);
  
      SCOPED_TRACE("ValidLineDirective2");
      expectLocation(1, &str, nullptr, loc);
  }
  
  TEST_F(LocationTest, LineDirectiveCommentsIgnored)
  {
      const char *str =
          "/* bar */"
          "#"
          "/* bar */"
          "line"
          "/* bar */"
          "10"
          "/* bar */"
          "20"
          "/* bar */"
          "// bar   "
          "\n"
          "foo";
      pp::SourceLocation loc(20, 10);
  
      SCOPED_TRACE("LineDirectiveCommentsIgnored");
      expectLocation(1, &str, nullptr, loc);
  }
  
  TEST_F(LocationTest, LineDirectiveWithMacro1)
  {
      const char *str =
          "#define L 10\n"
          "#define F(x) x\n"
          "#line L F(20)\n"
          "foo";
      pp::SourceLocation loc(20, 10);
  
      SCOPED_TRACE("LineDirectiveWithMacro1");
      expectLocation(1, &str, nullptr, loc);
  }
  
  TEST_F(LocationTest, LineDirectiveWithMacro2)
  {
      const char *str =
          "#define LOC 10 20\n"
          "#line LOC\n"
          "foo";
      pp::SourceLocation loc(20, 10);
  
      SCOPED_TRACE("LineDirectiveWithMacro2");
      expectLocation(1, &str, nullptr, loc);
  }
  
  TEST_F(LocationTest, LineDirectiveWithPredefinedMacro)
  {
      const char *str =
          "#line __LINE__ __FILE__\n"
          "foo";
      pp::SourceLocation loc(0, 1);
  
      SCOPED_TRACE("LineDirectiveWithMacro");
      expectLocation(1, &str, nullptr, loc);
  }
  
  TEST_F(LocationTest, LineDirectiveNewlineBeforeStringBreak)
  {
      const char *const str[] = {"#line 10 20\n", "foo"};
      // String number is incremented after it is set by the line directive.
      // Also notice that line number is reset after the string break.
      pp::SourceLocation loc(21, 1);
  
      SCOPED_TRACE("LineDirectiveNewlineBeforeStringBreak");
      expectLocation(2, str, nullptr, loc);
  }
  
  TEST_F(LocationTest, LineDirectiveNewlineAfterStringBreak)
  {
      const char *const str[] = {"#line 10 20", "\nfoo"};
      // String number is incremented before it is set by the line directive.
      pp::SourceLocation loc(20, 10);
  
      SCOPED_TRACE("LineDirectiveNewlineAfterStringBreak");
      expectLocation(2, str, nullptr, loc);
  }
  
  TEST_F(LocationTest, LineDirectiveMissingNewline)
  {
      const char *str = "#line 10";
      ASSERT_TRUE(mPreprocessor.init(1, &str, nullptr));
  
      using testing::_;
      // Error reported about EOF.
      EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_EOF_IN_DIRECTIVE, _, _));
  
      pp::Token token;
      mPreprocessor.lex(&token);
  }
  
  // Test for an error being generated when the line number overflows - regular version
  TEST_F(LocationTest, LineOverflowRegular)
  {
      const char *str = "#line 0x7FFFFFFF\n\n";
  
      ASSERT_TRUE(mPreprocessor.init(1, &str, nullptr));
  
      using testing::_;
      // Error reported about EOF.
      EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_TOKENIZER_ERROR, _, _));
  
      pp::Token token;
      mPreprocessor.lex(&token);
  }
  
  // Test for an error being generated when the line number overflows - inside /* */ comment version
  TEST_F(LocationTest, LineOverflowInComment)
  {
      const char *str = "#line 0x7FFFFFFF\n/*\n*/";
  
      ASSERT_TRUE(mPreprocessor.init(1, &str, nullptr));
  
      using testing::_;
      // Error reported about EOF.
      EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_TOKENIZER_ERROR, _, _));
  
      pp::Token token;
      mPreprocessor.lex(&token);
  }
  
  // Test for an error being generated when the line number overflows - inside \n continuation
  // version
  TEST_F(LocationTest, LineOverflowInContinuationN)
  {
      const char *str = "#line 0x7FFFFFFF\n \\\n\n";
  
      ASSERT_TRUE(mPreprocessor.init(1, &str, nullptr));
  
      using testing::_;
      // Error reported about EOF.
      EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_TOKENIZER_ERROR, _, _));
  
      pp::Token token;
      mPreprocessor.lex(&token);
  }
  
  // Test for an error being generated when the line number overflows - inside \r\n continuation
  // version
  TEST_F(LocationTest, LineOverflowInContinuationRN)
  {
      const char *str = "#line 0x7FFFFFFF\n \\\r\n\n";
  
      ASSERT_TRUE(mPreprocessor.init(1, &str, nullptr));
  
      using testing::_;
      // Error reported about EOF.
      EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_TOKENIZER_ERROR, _, _));
  
      pp::Token token;
      mPreprocessor.lex(&token);
  }
  
  struct LineTestParam
  {
      const char *str;
      pp::Diagnostics::ID id;
  };
  
  class InvalidLineTest : public LocationTest, public testing::WithParamInterface<LineTestParam>
  {};
  
  TEST_P(InvalidLineTest, Identified)
  {
      LineTestParam param = GetParam();
      ASSERT_TRUE(mPreprocessor.init(1, &param.str, nullptr));
  
      using testing::_;
      // Invalid line directive call.
      EXPECT_CALL(mDiagnostics, print(param.id, pp::SourceLocation(0, 1), _));
  
      pp::Token token;
      mPreprocessor.lex(&token);
  }
  
  static const LineTestParam kParams[] = {
      {"#line\n", pp::Diagnostics::PP_INVALID_LINE_DIRECTIVE},
      {"#line foo\n", pp::Diagnostics::PP_INVALID_LINE_NUMBER},
      {"#line defined(foo)\n", pp::Diagnostics::PP_INVALID_LINE_NUMBER},
      {"#line 10 foo\n", pp::Diagnostics::PP_INVALID_FILE_NUMBER},
      {"#line 10 20 foo\n", pp::Diagnostics::PP_UNEXPECTED_TOKEN},
      {"#line 0xffffffff\n", pp::Diagnostics::PP_INTEGER_OVERFLOW},
      {"#line 10 0xffffffff\n", pp::Diagnostics::PP_INTEGER_OVERFLOW}};
  
  INSTANTIATE_TEST_SUITE_P(All, InvalidLineTest, testing::ValuesIn(kParams));
  
  struct LineExpressionTestParam
  {
      const char *expression;
      int expectedLine;
  };
  
  class LineExpressionTest : public LocationTest,
                             public testing::WithParamInterface<LineExpressionTestParam>
  {};
  
  TEST_P(LineExpressionTest, ExpressionEvaluation)
  {
      LineExpressionTestParam param = GetParam();
      const char *strs[3]           = {"#line ", param.expression, "\nfoo"};
  
      pp::SourceLocation loc(2, param.expectedLine);
  
      expectLocation(3, strs, nullptr, loc);
  }
  
  static const LineExpressionTestParam kParamsLineExpressionTest[] = {
      {"1 + 2", 3},  {"5 - 3", 2},        {"7 * 11", 77},  {"20 / 10", 2},  {"10 % 5", 0},
      {"7 && 3", 1}, {"7 || 0", 1},       {"11 == 11", 1}, {"11 != 11", 0}, {"11 > 7", 1},
      {"11 < 7", 0}, {"11 >= 7", 1},      {"11 <= 7", 0},  {"!11", 0},      {"-1", -1},
      {"+9", 9},     {"(1 + 2) * 4", 12}, {"3 | 5", 7},    {"3 ^ 5", 6},    {"3 & 5", 1},
      {"~5", ~5},    {"2 << 3", 16},      {"16 >> 2", 4}};
  
  INSTANTIATE_TEST_SUITE_P(All, LineExpressionTest, testing::ValuesIn(kParamsLineExpressionTest));
  
  }  // namespace angle