1 | // Copyright 2007, Google Inc. |
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2 | // All rights reserved. |
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3 | // |
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4 | // Redistribution and use in source and binary forms, with or without |
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5 | // modification, are permitted provided that the following conditions are |
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6 | // met: |
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7 | // |
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8 | // * Redistributions of source code must retain the above copyright |
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9 | // notice, this list of conditions and the following disclaimer. |
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10 | // * Redistributions in binary form must reproduce the above |
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11 | // copyright notice, this list of conditions and the following disclaimer |
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12 | // in the documentation and/or other materials provided with the |
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13 | // distribution. |
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14 | // * Neither the name of Google Inc. nor the names of its |
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15 | // contributors may be used to endorse or promote products derived from |
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16 | // this software without specific prior written permission. |
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17 | // |
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18 | // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS |
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19 | // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT |
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20 | // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR |
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21 | // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT |
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22 | // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
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23 | // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
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24 | // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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25 | // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
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26 | // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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27 | // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
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28 | // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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29 | // |
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30 | // Author: wan@google.com (Zhanyong Wan) |
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31 | |
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32 | // Google Mock - a framework for writing C++ mock classes. |
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33 | // |
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34 | // This file implements some commonly used argument matchers. More |
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35 | // matchers can be defined by the user implementing the |
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36 | // MatcherInterface<T> interface if necessary. |
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37 | |
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38 | #ifndef GMOCK_INCLUDE_GMOCK_GMOCK_MATCHERS_H_ |
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39 | #define GMOCK_INCLUDE_GMOCK_GMOCK_MATCHERS_H_ |
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40 | |
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41 | #include <algorithm> |
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42 | #include <limits> |
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43 | #include <ostream> // NOLINT |
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44 | #include <sstream> |
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45 | #include <string> |
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46 | #include <utility> |
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47 | #include <vector> |
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48 | |
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49 | #include "gmock/internal/gmock-internal-utils.h" |
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50 | #include "gmock/internal/gmock-port.h" |
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51 | #include "gtest/gtest.h" |
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52 | |
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53 | namespace testing { |
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54 | |
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55 | // To implement a matcher Foo for type T, define: |
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56 | // 1. a class FooMatcherImpl that implements the |
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57 | // MatcherInterface<T> interface, and |
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58 | // 2. a factory function that creates a Matcher<T> object from a |
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59 | // FooMatcherImpl*. |
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60 | // |
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61 | // The two-level delegation design makes it possible to allow a user |
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62 | // to write "v" instead of "Eq(v)" where a Matcher is expected, which |
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63 | // is impossible if we pass matchers by pointers. It also eases |
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64 | // ownership management as Matcher objects can now be copied like |
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65 | // plain values. |
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66 | |
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67 | // MatchResultListener is an abstract class. Its << operator can be |
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68 | // used by a matcher to explain why a value matches or doesn't match. |
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69 | // |
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70 | // TODO(wan@google.com): add method |
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71 | // bool InterestedInWhy(bool result) const; |
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72 | // to indicate whether the listener is interested in why the match |
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73 | // result is 'result'. |
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74 | class MatchResultListener { |
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75 | public: |
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76 | // Creates a listener object with the given underlying ostream. The |
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77 | // listener does not own the ostream. |
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78 | explicit MatchResultListener(::std::ostream* os) : stream_(os) {} |
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79 | virtual ~MatchResultListener() = 0; // Makes this class abstract. |
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80 | |
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81 | // Streams x to the underlying ostream; does nothing if the ostream |
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82 | // is NULL. |
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83 | template <typename T> |
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84 | MatchResultListener& operator<<(const T& x) { |
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85 | if (stream_ != NULL) |
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86 | *stream_ << x; |
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87 | return *this; |
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88 | } |
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89 | |
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90 | // Returns the underlying ostream. |
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91 | ::std::ostream* stream() { return stream_; } |
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92 | |
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93 | // Returns true iff the listener is interested in an explanation of |
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94 | // the match result. A matcher's MatchAndExplain() method can use |
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95 | // this information to avoid generating the explanation when no one |
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96 | // intends to hear it. |
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97 | bool IsInterested() const { return stream_ != NULL; } |
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98 | |
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99 | private: |
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100 | ::std::ostream* const stream_; |
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101 | |
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102 | GTEST_DISALLOW_COPY_AND_ASSIGN_(MatchResultListener); |
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103 | }; |
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104 | |
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105 | inline MatchResultListener::~MatchResultListener() { |
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106 | } |
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107 | |
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108 | // The implementation of a matcher. |
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109 | template <typename T> |
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110 | class MatcherInterface { |
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111 | public: |
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112 | virtual ~MatcherInterface() {} |
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113 | |
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114 | // Returns true iff the matcher matches x; also explains the match |
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115 | // result to 'listener', in the form of a non-restrictive relative |
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116 | // clause ("which ...", "whose ...", etc) that describes x. For |
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117 | // example, the MatchAndExplain() method of the Pointee(...) matcher |
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118 | // should generate an explanation like "which points to ...". |
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119 | // |
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120 | // You should override this method when defining a new matcher. |
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121 | // |
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122 | // It's the responsibility of the caller (Google Mock) to guarantee |
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123 | // that 'listener' is not NULL. This helps to simplify a matcher's |
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124 | // implementation when it doesn't care about the performance, as it |
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125 | // can talk to 'listener' without checking its validity first. |
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126 | // However, in order to implement dummy listeners efficiently, |
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127 | // listener->stream() may be NULL. |
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128 | virtual bool MatchAndExplain(T x, MatchResultListener* listener) const = 0; |
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129 | |
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130 | // Describes this matcher to an ostream. The function should print |
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131 | // a verb phrase that describes the property a value matching this |
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132 | // matcher should have. The subject of the verb phrase is the value |
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133 | // being matched. For example, the DescribeTo() method of the Gt(7) |
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134 | // matcher prints "is greater than 7". |
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135 | virtual void DescribeTo(::std::ostream* os) const = 0; |
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136 | |
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137 | // Describes the negation of this matcher to an ostream. For |
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138 | // example, if the description of this matcher is "is greater than |
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139 | // 7", the negated description could be "is not greater than 7". |
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140 | // You are not required to override this when implementing |
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141 | // MatcherInterface, but it is highly advised so that your matcher |
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142 | // can produce good error messages. |
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143 | virtual void DescribeNegationTo(::std::ostream* os) const { |
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144 | *os << "not ("; |
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145 | DescribeTo(os); |
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146 | *os << ")"; |
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147 | } |
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148 | }; |
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149 | |
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150 | namespace internal { |
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151 | |
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152 | // A match result listener that ignores the explanation. |
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153 | class DummyMatchResultListener : public MatchResultListener { |
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154 | public: |
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155 | DummyMatchResultListener() : MatchResultListener(NULL) {} |
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156 | |
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157 | private: |
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158 | GTEST_DISALLOW_COPY_AND_ASSIGN_(DummyMatchResultListener); |
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159 | }; |
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160 | |
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161 | // A match result listener that forwards the explanation to a given |
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162 | // ostream. The difference between this and MatchResultListener is |
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163 | // that the former is concrete. |
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164 | class StreamMatchResultListener : public MatchResultListener { |
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165 | public: |
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166 | explicit StreamMatchResultListener(::std::ostream* os) |
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167 | : MatchResultListener(os) {} |
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168 | |
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169 | private: |
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170 | GTEST_DISALLOW_COPY_AND_ASSIGN_(StreamMatchResultListener); |
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171 | }; |
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172 | |
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173 | // A match result listener that stores the explanation in a string. |
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174 | class StringMatchResultListener : public MatchResultListener { |
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175 | public: |
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176 | StringMatchResultListener() : MatchResultListener(&ss_) {} |
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177 | |
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178 | // Returns the explanation heard so far. |
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179 | internal::string str() const { return ss_.str(); } |
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180 | |
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181 | private: |
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182 | ::std::stringstream ss_; |
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183 | |
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184 | GTEST_DISALLOW_COPY_AND_ASSIGN_(StringMatchResultListener); |
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185 | }; |
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186 | |
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187 | // An internal class for implementing Matcher<T>, which will derive |
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188 | // from it. We put functionalities common to all Matcher<T> |
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189 | // specializations here to avoid code duplication. |
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190 | template <typename T> |
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191 | class MatcherBase { |
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192 | public: |
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193 | // Returns true iff the matcher matches x; also explains the match |
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194 | // result to 'listener'. |
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195 | bool MatchAndExplain(T x, MatchResultListener* listener) const { |
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196 | return impl_->MatchAndExplain(x, listener); |
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197 | } |
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198 | |
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199 | // Returns true iff this matcher matches x. |
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200 | bool Matches(T x) const { |
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201 | DummyMatchResultListener dummy; |
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202 | return MatchAndExplain(x, &dummy); |
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203 | } |
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204 | |
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205 | // Describes this matcher to an ostream. |
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206 | void DescribeTo(::std::ostream* os) const { impl_->DescribeTo(os); } |
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207 | |
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208 | // Describes the negation of this matcher to an ostream. |
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209 | void DescribeNegationTo(::std::ostream* os) const { |
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210 | impl_->DescribeNegationTo(os); |
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211 | } |
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212 | |
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213 | // Explains why x matches, or doesn't match, the matcher. |
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214 | void ExplainMatchResultTo(T x, ::std::ostream* os) const { |
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215 | StreamMatchResultListener listener(os); |
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216 | MatchAndExplain(x, &listener); |
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217 | } |
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218 | |
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219 | protected: |
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220 | MatcherBase() {} |
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221 | |
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222 | // Constructs a matcher from its implementation. |
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223 | explicit MatcherBase(const MatcherInterface<T>* impl) |
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224 | : impl_(impl) {} |
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225 | |
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226 | virtual ~MatcherBase() {} |
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227 | |
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228 | private: |
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229 | // shared_ptr (util/gtl/shared_ptr.h) and linked_ptr have similar |
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230 | // interfaces. The former dynamically allocates a chunk of memory |
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231 | // to hold the reference count, while the latter tracks all |
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232 | // references using a circular linked list without allocating |
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233 | // memory. It has been observed that linked_ptr performs better in |
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234 | // typical scenarios. However, shared_ptr can out-perform |
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235 | // linked_ptr when there are many more uses of the copy constructor |
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236 | // than the default constructor. |
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237 | // |
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238 | // If performance becomes a problem, we should see if using |
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239 | // shared_ptr helps. |
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240 | ::testing::internal::linked_ptr<const MatcherInterface<T> > impl_; |
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241 | }; |
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242 | |
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243 | } // namespace internal |
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244 | |
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245 | // A Matcher<T> is a copyable and IMMUTABLE (except by assignment) |
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246 | // object that can check whether a value of type T matches. The |
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247 | // implementation of Matcher<T> is just a linked_ptr to const |
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248 | // MatcherInterface<T>, so copying is fairly cheap. Don't inherit |
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249 | // from Matcher! |
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250 | template <typename T> |
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251 | class Matcher : public internal::MatcherBase<T> { |
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252 | public: |
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253 | // Constructs a null matcher. Needed for storing Matcher objects in STL |
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254 | // containers. A default-constructed matcher is not yet initialized. You |
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255 | // cannot use it until a valid value has been assigned to it. |
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256 | Matcher() {} |
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257 | |
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258 | // Constructs a matcher from its implementation. |
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259 | explicit Matcher(const MatcherInterface<T>* impl) |
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260 | : internal::MatcherBase<T>(impl) {} |
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261 | |
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262 | // Implicit constructor here allows people to write |
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263 | // EXPECT_CALL(foo, Bar(5)) instead of EXPECT_CALL(foo, Bar(Eq(5))) sometimes |
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264 | Matcher(T value); // NOLINT |
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265 | }; |
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266 | |
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267 | // The following two specializations allow the user to write str |
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268 | // instead of Eq(str) and "foo" instead of Eq("foo") when a string |
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269 | // matcher is expected. |
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270 | template <> |
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271 | class Matcher<const internal::string&> |
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272 | : public internal::MatcherBase<const internal::string&> { |
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273 | public: |
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274 | Matcher() {} |
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275 | |
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276 | explicit Matcher(const MatcherInterface<const internal::string&>* impl) |
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277 | : internal::MatcherBase<const internal::string&>(impl) {} |
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278 | |
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279 | // Allows the user to write str instead of Eq(str) sometimes, where |
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280 | // str is a string object. |
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281 | Matcher(const internal::string& s); // NOLINT |
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282 | |
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283 | // Allows the user to write "foo" instead of Eq("foo") sometimes. |
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284 | Matcher(const char* s); // NOLINT |
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285 | }; |
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286 | |
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287 | template <> |
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288 | class Matcher<internal::string> |
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289 | : public internal::MatcherBase<internal::string> { |
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290 | public: |
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291 | Matcher() {} |
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292 | |
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293 | explicit Matcher(const MatcherInterface<internal::string>* impl) |
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294 | : internal::MatcherBase<internal::string>(impl) {} |
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295 | |
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296 | // Allows the user to write str instead of Eq(str) sometimes, where |
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297 | // str is a string object. |
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298 | Matcher(const internal::string& s); // NOLINT |
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299 | |
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300 | // Allows the user to write "foo" instead of Eq("foo") sometimes. |
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301 | Matcher(const char* s); // NOLINT |
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302 | }; |
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303 | |
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304 | // The PolymorphicMatcher class template makes it easy to implement a |
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305 | // polymorphic matcher (i.e. a matcher that can match values of more |
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306 | // than one type, e.g. Eq(n) and NotNull()). |
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307 | // |
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308 | // To define a polymorphic matcher, a user should provide an Impl |
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309 | // class that has a DescribeTo() method and a DescribeNegationTo() |
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310 | // method, and define a member function (or member function template) |
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311 | // |
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312 | // bool MatchAndExplain(const Value& value, |
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313 | // MatchResultListener* listener) const; |
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314 | // |
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315 | // See the definition of NotNull() for a complete example. |
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316 | template <class Impl> |
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317 | class PolymorphicMatcher { |
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318 | public: |
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319 | explicit PolymorphicMatcher(const Impl& an_impl) : impl_(an_impl) {} |
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320 | |
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321 | // Returns a mutable reference to the underlying matcher |
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322 | // implementation object. |
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323 | Impl& mutable_impl() { return impl_; } |
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324 | |
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325 | // Returns an immutable reference to the underlying matcher |
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326 | // implementation object. |
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327 | const Impl& impl() const { return impl_; } |
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328 | |
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329 | template <typename T> |
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330 | operator Matcher<T>() const { |
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331 | return Matcher<T>(new MonomorphicImpl<T>(impl_)); |
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332 | } |
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333 | |
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334 | private: |
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335 | template <typename T> |
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336 | class MonomorphicImpl : public MatcherInterface<T> { |
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337 | public: |
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338 | explicit MonomorphicImpl(const Impl& impl) : impl_(impl) {} |
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339 | |
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340 | virtual void DescribeTo(::std::ostream* os) const { |
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341 | impl_.DescribeTo(os); |
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342 | } |
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343 | |
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344 | virtual void DescribeNegationTo(::std::ostream* os) const { |
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345 | impl_.DescribeNegationTo(os); |
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346 | } |
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347 | |
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348 | virtual bool MatchAndExplain(T x, MatchResultListener* listener) const { |
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349 | return impl_.MatchAndExplain(x, listener); |
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350 | } |
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351 | |
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352 | private: |
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353 | const Impl impl_; |
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354 | |
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355 | GTEST_DISALLOW_ASSIGN_(MonomorphicImpl); |
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356 | }; |
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357 | |
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358 | Impl impl_; |
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359 | |
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360 | GTEST_DISALLOW_ASSIGN_(PolymorphicMatcher); |
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361 | }; |
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362 | |
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363 | // Creates a matcher from its implementation. This is easier to use |
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364 | // than the Matcher<T> constructor as it doesn't require you to |
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365 | // explicitly write the template argument, e.g. |
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366 | // |
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367 | // MakeMatcher(foo); |
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368 | // vs |
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369 | // Matcher<const string&>(foo); |
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370 | template <typename T> |
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371 | inline Matcher<T> MakeMatcher(const MatcherInterface<T>* impl) { |
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372 | return Matcher<T>(impl); |
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373 | }; |
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374 | |
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375 | // Creates a polymorphic matcher from its implementation. This is |
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376 | // easier to use than the PolymorphicMatcher<Impl> constructor as it |
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377 | // doesn't require you to explicitly write the template argument, e.g. |
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378 | // |
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379 | // MakePolymorphicMatcher(foo); |
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380 | // vs |
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381 | // PolymorphicMatcher<TypeOfFoo>(foo); |
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382 | template <class Impl> |
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383 | inline PolymorphicMatcher<Impl> MakePolymorphicMatcher(const Impl& impl) { |
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384 | return PolymorphicMatcher<Impl>(impl); |
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385 | } |
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386 | |
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387 | // In order to be safe and clear, casting between different matcher |
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388 | // types is done explicitly via MatcherCast<T>(m), which takes a |
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389 | // matcher m and returns a Matcher<T>. It compiles only when T can be |
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390 | // statically converted to the argument type of m. |
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391 | template <typename T, typename M> |
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392 | Matcher<T> MatcherCast(M m); |
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393 | |
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394 | // Implements SafeMatcherCast(). |
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395 | // |
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396 | // We use an intermediate class to do the actual safe casting as Nokia's |
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397 | // Symbian compiler cannot decide between |
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398 | // template <T, M> ... (M) and |
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399 | // template <T, U> ... (const Matcher<U>&) |
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400 | // for function templates but can for member function templates. |
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401 | template <typename T> |
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402 | class SafeMatcherCastImpl { |
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403 | public: |
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404 | // This overload handles polymorphic matchers only since monomorphic |
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405 | // matchers are handled by the next one. |
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406 | template <typename M> |
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407 | static inline Matcher<T> Cast(M polymorphic_matcher) { |
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408 | return Matcher<T>(polymorphic_matcher); |
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409 | } |
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410 | |
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411 | // This overload handles monomorphic matchers. |
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412 | // |
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413 | // In general, if type T can be implicitly converted to type U, we can |
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414 | // safely convert a Matcher<U> to a Matcher<T> (i.e. Matcher is |
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415 | // contravariant): just keep a copy of the original Matcher<U>, convert the |
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416 | // argument from type T to U, and then pass it to the underlying Matcher<U>. |
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417 | // The only exception is when U is a reference and T is not, as the |
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418 | // underlying Matcher<U> may be interested in the argument's address, which |
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419 | // is not preserved in the conversion from T to U. |
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420 | template <typename U> |
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421 | static inline Matcher<T> Cast(const Matcher<U>& matcher) { |
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422 | // Enforce that T can be implicitly converted to U. |
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423 | GTEST_COMPILE_ASSERT_((internal::ImplicitlyConvertible<T, U>::value), |
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424 | T_must_be_implicitly_convertible_to_U); |
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425 | // Enforce that we are not converting a non-reference type T to a reference |
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426 | // type U. |
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427 | GTEST_COMPILE_ASSERT_( |
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428 | internal::is_reference<T>::value || !internal::is_reference<U>::value, |
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429 | cannot_convert_non_referentce_arg_to_reference); |
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430 | // In case both T and U are arithmetic types, enforce that the |
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431 | // conversion is not lossy. |
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432 | typedef GTEST_REMOVE_REFERENCE_AND_CONST_(T) RawT; |
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433 | typedef GTEST_REMOVE_REFERENCE_AND_CONST_(U) RawU; |
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434 | const bool kTIsOther = GMOCK_KIND_OF_(RawT) == internal::kOther; |
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435 | const bool kUIsOther = GMOCK_KIND_OF_(RawU) == internal::kOther; |
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436 | GTEST_COMPILE_ASSERT_( |
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437 | kTIsOther || kUIsOther || |
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438 | (internal::LosslessArithmeticConvertible<RawT, RawU>::value), |
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439 | conversion_of_arithmetic_types_must_be_lossless); |
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440 | return MatcherCast<T>(matcher); |
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441 | } |
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442 | }; |
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443 | |
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444 | template <typename T, typename M> |
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445 | inline Matcher<T> SafeMatcherCast(const M& polymorphic_matcher) { |
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446 | return SafeMatcherCastImpl<T>::Cast(polymorphic_matcher); |
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447 | } |
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448 | |
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449 | // A<T>() returns a matcher that matches any value of type T. |
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450 | template <typename T> |
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451 | Matcher<T> A(); |
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452 | |
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453 | // Anything inside the 'internal' namespace IS INTERNAL IMPLEMENTATION |
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454 | // and MUST NOT BE USED IN USER CODE!!! |
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455 | namespace internal { |
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456 | |
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457 | // If the explanation is not empty, prints it to the ostream. |
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458 | inline void PrintIfNotEmpty(const internal::string& explanation, |
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459 | std::ostream* os) { |
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460 | if (explanation != "" && os != NULL) { |
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461 | *os << ", " << explanation; |
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462 | } |
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463 | } |
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464 | |
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465 | // Returns true if the given type name is easy to read by a human. |
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466 | // This is used to decide whether printing the type of a value might |
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467 | // be helpful. |
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468 | inline bool IsReadableTypeName(const string& type_name) { |
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469 | // We consider a type name readable if it's short or doesn't contain |
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470 | // a template or function type. |
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471 | return (type_name.length() <= 20 || |
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472 | type_name.find_first_of("<(") == string::npos); |
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473 | } |
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474 | |
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475 | // Matches the value against the given matcher, prints the value and explains |
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476 | // the match result to the listener. Returns the match result. |
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477 | // 'listener' must not be NULL. |
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478 | // Value cannot be passed by const reference, because some matchers take a |
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479 | // non-const argument. |
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480 | template <typename Value, typename T> |
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481 | bool MatchPrintAndExplain(Value& value, const Matcher<T>& matcher, |
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482 | MatchResultListener* listener) { |
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483 | if (!listener->IsInterested()) { |
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484 | // If the listener is not interested, we do not need to construct the |
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485 | // inner explanation. |
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486 | return matcher.Matches(value); |
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487 | } |
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488 | |
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489 | StringMatchResultListener inner_listener; |
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490 | const bool match = matcher.MatchAndExplain(value, &inner_listener); |
---|
491 | |
---|
492 | UniversalPrint(value, listener->stream()); |
---|
493 | #if GTEST_HAS_RTTI |
---|
494 | const string& type_name = GetTypeName<Value>(); |
---|
495 | if (IsReadableTypeName(type_name)) |
---|
496 | *listener->stream() << " (of type " << type_name << ")"; |
---|
497 | #endif |
---|
498 | PrintIfNotEmpty(inner_listener.str(), listener->stream()); |
---|
499 | |
---|
500 | return match; |
---|
501 | } |
---|
502 | |
---|
503 | // An internal helper class for doing compile-time loop on a tuple's |
---|
504 | // fields. |
---|
505 | template <size_t N> |
---|
506 | class TuplePrefix { |
---|
507 | public: |
---|
508 | // TuplePrefix<N>::Matches(matcher_tuple, value_tuple) returns true |
---|
509 | // iff the first N fields of matcher_tuple matches the first N |
---|
510 | // fields of value_tuple, respectively. |
---|
511 | template <typename MatcherTuple, typename ValueTuple> |
---|
512 | static bool Matches(const MatcherTuple& matcher_tuple, |
---|
513 | const ValueTuple& value_tuple) { |
---|
514 | using ::std::tr1::get; |
---|
515 | return TuplePrefix<N - 1>::Matches(matcher_tuple, value_tuple) |
---|
516 | && get<N - 1>(matcher_tuple).Matches(get<N - 1>(value_tuple)); |
---|
517 | } |
---|
518 | |
---|
519 | // TuplePrefix<N>::ExplainMatchFailuresTo(matchers, values, os) |
---|
520 | // describes failures in matching the first N fields of matchers |
---|
521 | // against the first N fields of values. If there is no failure, |
---|
522 | // nothing will be streamed to os. |
---|
523 | template <typename MatcherTuple, typename ValueTuple> |
---|
524 | static void ExplainMatchFailuresTo(const MatcherTuple& matchers, |
---|
525 | const ValueTuple& values, |
---|
526 | ::std::ostream* os) { |
---|
527 | using ::std::tr1::tuple_element; |
---|
528 | using ::std::tr1::get; |
---|
529 | |
---|
530 | // First, describes failures in the first N - 1 fields. |
---|
531 | TuplePrefix<N - 1>::ExplainMatchFailuresTo(matchers, values, os); |
---|
532 | |
---|
533 | // Then describes the failure (if any) in the (N - 1)-th (0-based) |
---|
534 | // field. |
---|
535 | typename tuple_element<N - 1, MatcherTuple>::type matcher = |
---|
536 | get<N - 1>(matchers); |
---|
537 | typedef typename tuple_element<N - 1, ValueTuple>::type Value; |
---|
538 | Value value = get<N - 1>(values); |
---|
539 | StringMatchResultListener listener; |
---|
540 | if (!matcher.MatchAndExplain(value, &listener)) { |
---|
541 | // TODO(wan): include in the message the name of the parameter |
---|
542 | // as used in MOCK_METHOD*() when possible. |
---|
543 | *os << " Expected arg #" << N - 1 << ": "; |
---|
544 | get<N - 1>(matchers).DescribeTo(os); |
---|
545 | *os << "\n Actual: "; |
---|
546 | // We remove the reference in type Value to prevent the |
---|
547 | // universal printer from printing the address of value, which |
---|
548 | // isn't interesting to the user most of the time. The |
---|
549 | // matcher's MatchAndExplain() method handles the case when |
---|
550 | // the address is interesting. |
---|
551 | internal::UniversalPrint(value, os); |
---|
552 | PrintIfNotEmpty(listener.str(), os); |
---|
553 | *os << "\n"; |
---|
554 | } |
---|
555 | } |
---|
556 | }; |
---|
557 | |
---|
558 | // The base case. |
---|
559 | template <> |
---|
560 | class TuplePrefix<0> { |
---|
561 | public: |
---|
562 | template <typename MatcherTuple, typename ValueTuple> |
---|
563 | static bool Matches(const MatcherTuple& /* matcher_tuple */, |
---|
564 | const ValueTuple& /* value_tuple */) { |
---|
565 | return true; |
---|
566 | } |
---|
567 | |
---|
568 | template <typename MatcherTuple, typename ValueTuple> |
---|
569 | static void ExplainMatchFailuresTo(const MatcherTuple& /* matchers */, |
---|
570 | const ValueTuple& /* values */, |
---|
571 | ::std::ostream* /* os */) {} |
---|
572 | }; |
---|
573 | |
---|
574 | // TupleMatches(matcher_tuple, value_tuple) returns true iff all |
---|
575 | // matchers in matcher_tuple match the corresponding fields in |
---|
576 | // value_tuple. It is a compiler error if matcher_tuple and |
---|
577 | // value_tuple have different number of fields or incompatible field |
---|
578 | // types. |
---|
579 | template <typename MatcherTuple, typename ValueTuple> |
---|
580 | bool TupleMatches(const MatcherTuple& matcher_tuple, |
---|
581 | const ValueTuple& value_tuple) { |
---|
582 | using ::std::tr1::tuple_size; |
---|
583 | // Makes sure that matcher_tuple and value_tuple have the same |
---|
584 | // number of fields. |
---|
585 | GTEST_COMPILE_ASSERT_(tuple_size<MatcherTuple>::value == |
---|
586 | tuple_size<ValueTuple>::value, |
---|
587 | matcher_and_value_have_different_numbers_of_fields); |
---|
588 | return TuplePrefix<tuple_size<ValueTuple>::value>:: |
---|
589 | Matches(matcher_tuple, value_tuple); |
---|
590 | } |
---|
591 | |
---|
592 | // Describes failures in matching matchers against values. If there |
---|
593 | // is no failure, nothing will be streamed to os. |
---|
594 | template <typename MatcherTuple, typename ValueTuple> |
---|
595 | void ExplainMatchFailureTupleTo(const MatcherTuple& matchers, |
---|
596 | const ValueTuple& values, |
---|
597 | ::std::ostream* os) { |
---|
598 | using ::std::tr1::tuple_size; |
---|
599 | TuplePrefix<tuple_size<MatcherTuple>::value>::ExplainMatchFailuresTo( |
---|
600 | matchers, values, os); |
---|
601 | } |
---|
602 | |
---|
603 | // The MatcherCastImpl class template is a helper for implementing |
---|
604 | // MatcherCast(). We need this helper in order to partially |
---|
605 | // specialize the implementation of MatcherCast() (C++ allows |
---|
606 | // class/struct templates to be partially specialized, but not |
---|
607 | // function templates.). |
---|
608 | |
---|
609 | // This general version is used when MatcherCast()'s argument is a |
---|
610 | // polymorphic matcher (i.e. something that can be converted to a |
---|
611 | // Matcher but is not one yet; for example, Eq(value)). |
---|
612 | template <typename T, typename M> |
---|
613 | class MatcherCastImpl { |
---|
614 | public: |
---|
615 | static Matcher<T> Cast(M polymorphic_matcher) { |
---|
616 | return Matcher<T>(polymorphic_matcher); |
---|
617 | } |
---|
618 | }; |
---|
619 | |
---|
620 | // This more specialized version is used when MatcherCast()'s argument |
---|
621 | // is already a Matcher. This only compiles when type T can be |
---|
622 | // statically converted to type U. |
---|
623 | template <typename T, typename U> |
---|
624 | class MatcherCastImpl<T, Matcher<U> > { |
---|
625 | public: |
---|
626 | static Matcher<T> Cast(const Matcher<U>& source_matcher) { |
---|
627 | return Matcher<T>(new Impl(source_matcher)); |
---|
628 | } |
---|
629 | |
---|
630 | private: |
---|
631 | class Impl : public MatcherInterface<T> { |
---|
632 | public: |
---|
633 | explicit Impl(const Matcher<U>& source_matcher) |
---|
634 | : source_matcher_(source_matcher) {} |
---|
635 | |
---|
636 | // We delegate the matching logic to the source matcher. |
---|
637 | virtual bool MatchAndExplain(T x, MatchResultListener* listener) const { |
---|
638 | return source_matcher_.MatchAndExplain(static_cast<U>(x), listener); |
---|
639 | } |
---|
640 | |
---|
641 | virtual void DescribeTo(::std::ostream* os) const { |
---|
642 | source_matcher_.DescribeTo(os); |
---|
643 | } |
---|
644 | |
---|
645 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
646 | source_matcher_.DescribeNegationTo(os); |
---|
647 | } |
---|
648 | |
---|
649 | private: |
---|
650 | const Matcher<U> source_matcher_; |
---|
651 | |
---|
652 | GTEST_DISALLOW_ASSIGN_(Impl); |
---|
653 | }; |
---|
654 | }; |
---|
655 | |
---|
656 | // This even more specialized version is used for efficiently casting |
---|
657 | // a matcher to its own type. |
---|
658 | template <typename T> |
---|
659 | class MatcherCastImpl<T, Matcher<T> > { |
---|
660 | public: |
---|
661 | static Matcher<T> Cast(const Matcher<T>& matcher) { return matcher; } |
---|
662 | }; |
---|
663 | |
---|
664 | // Implements A<T>(). |
---|
665 | template <typename T> |
---|
666 | class AnyMatcherImpl : public MatcherInterface<T> { |
---|
667 | public: |
---|
668 | virtual bool MatchAndExplain( |
---|
669 | T /* x */, MatchResultListener* /* listener */) const { return true; } |
---|
670 | virtual void DescribeTo(::std::ostream* os) const { *os << "is anything"; } |
---|
671 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
672 | // This is mostly for completeness' safe, as it's not very useful |
---|
673 | // to write Not(A<bool>()). However we cannot completely rule out |
---|
674 | // such a possibility, and it doesn't hurt to be prepared. |
---|
675 | *os << "never matches"; |
---|
676 | } |
---|
677 | }; |
---|
678 | |
---|
679 | // Implements _, a matcher that matches any value of any |
---|
680 | // type. This is a polymorphic matcher, so we need a template type |
---|
681 | // conversion operator to make it appearing as a Matcher<T> for any |
---|
682 | // type T. |
---|
683 | class AnythingMatcher { |
---|
684 | public: |
---|
685 | template <typename T> |
---|
686 | operator Matcher<T>() const { return A<T>(); } |
---|
687 | }; |
---|
688 | |
---|
689 | // Implements a matcher that compares a given value with a |
---|
690 | // pre-supplied value using one of the ==, <=, <, etc, operators. The |
---|
691 | // two values being compared don't have to have the same type. |
---|
692 | // |
---|
693 | // The matcher defined here is polymorphic (for example, Eq(5) can be |
---|
694 | // used to match an int, a short, a double, etc). Therefore we use |
---|
695 | // a template type conversion operator in the implementation. |
---|
696 | // |
---|
697 | // We define this as a macro in order to eliminate duplicated source |
---|
698 | // code. |
---|
699 | // |
---|
700 | // The following template definition assumes that the Rhs parameter is |
---|
701 | // a "bare" type (i.e. neither 'const T' nor 'T&'). |
---|
702 | #define GMOCK_IMPLEMENT_COMPARISON_MATCHER_( \ |
---|
703 | name, op, relation, negated_relation) \ |
---|
704 | template <typename Rhs> class name##Matcher { \ |
---|
705 | public: \ |
---|
706 | explicit name##Matcher(const Rhs& rhs) : rhs_(rhs) {} \ |
---|
707 | template <typename Lhs> \ |
---|
708 | operator Matcher<Lhs>() const { \ |
---|
709 | return MakeMatcher(new Impl<Lhs>(rhs_)); \ |
---|
710 | } \ |
---|
711 | private: \ |
---|
712 | template <typename Lhs> \ |
---|
713 | class Impl : public MatcherInterface<Lhs> { \ |
---|
714 | public: \ |
---|
715 | explicit Impl(const Rhs& rhs) : rhs_(rhs) {} \ |
---|
716 | virtual bool MatchAndExplain(\ |
---|
717 | Lhs lhs, MatchResultListener* /* listener */) const { \ |
---|
718 | return lhs op rhs_; \ |
---|
719 | } \ |
---|
720 | virtual void DescribeTo(::std::ostream* os) const { \ |
---|
721 | *os << relation " "; \ |
---|
722 | UniversalPrint(rhs_, os); \ |
---|
723 | } \ |
---|
724 | virtual void DescribeNegationTo(::std::ostream* os) const { \ |
---|
725 | *os << negated_relation " "; \ |
---|
726 | UniversalPrint(rhs_, os); \ |
---|
727 | } \ |
---|
728 | private: \ |
---|
729 | Rhs rhs_; \ |
---|
730 | GTEST_DISALLOW_ASSIGN_(Impl); \ |
---|
731 | }; \ |
---|
732 | Rhs rhs_; \ |
---|
733 | GTEST_DISALLOW_ASSIGN_(name##Matcher); \ |
---|
734 | } |
---|
735 | |
---|
736 | // Implements Eq(v), Ge(v), Gt(v), Le(v), Lt(v), and Ne(v) |
---|
737 | // respectively. |
---|
738 | GMOCK_IMPLEMENT_COMPARISON_MATCHER_(Eq, ==, "is equal to", "isn't equal to"); |
---|
739 | GMOCK_IMPLEMENT_COMPARISON_MATCHER_(Ge, >=, "is >=", "isn't >="); |
---|
740 | GMOCK_IMPLEMENT_COMPARISON_MATCHER_(Gt, >, "is >", "isn't >"); |
---|
741 | GMOCK_IMPLEMENT_COMPARISON_MATCHER_(Le, <=, "is <=", "isn't <="); |
---|
742 | GMOCK_IMPLEMENT_COMPARISON_MATCHER_(Lt, <, "is <", "isn't <"); |
---|
743 | GMOCK_IMPLEMENT_COMPARISON_MATCHER_(Ne, !=, "isn't equal to", "is equal to"); |
---|
744 | |
---|
745 | #undef GMOCK_IMPLEMENT_COMPARISON_MATCHER_ |
---|
746 | |
---|
747 | // Implements the polymorphic IsNull() matcher, which matches any raw or smart |
---|
748 | // pointer that is NULL. |
---|
749 | class IsNullMatcher { |
---|
750 | public: |
---|
751 | template <typename Pointer> |
---|
752 | bool MatchAndExplain(const Pointer& p, |
---|
753 | MatchResultListener* /* listener */) const { |
---|
754 | return GetRawPointer(p) == NULL; |
---|
755 | } |
---|
756 | |
---|
757 | void DescribeTo(::std::ostream* os) const { *os << "is NULL"; } |
---|
758 | void DescribeNegationTo(::std::ostream* os) const { |
---|
759 | *os << "isn't NULL"; |
---|
760 | } |
---|
761 | }; |
---|
762 | |
---|
763 | // Implements the polymorphic NotNull() matcher, which matches any raw or smart |
---|
764 | // pointer that is not NULL. |
---|
765 | class NotNullMatcher { |
---|
766 | public: |
---|
767 | template <typename Pointer> |
---|
768 | bool MatchAndExplain(const Pointer& p, |
---|
769 | MatchResultListener* /* listener */) const { |
---|
770 | return GetRawPointer(p) != NULL; |
---|
771 | } |
---|
772 | |
---|
773 | void DescribeTo(::std::ostream* os) const { *os << "isn't NULL"; } |
---|
774 | void DescribeNegationTo(::std::ostream* os) const { |
---|
775 | *os << "is NULL"; |
---|
776 | } |
---|
777 | }; |
---|
778 | |
---|
779 | // Ref(variable) matches any argument that is a reference to |
---|
780 | // 'variable'. This matcher is polymorphic as it can match any |
---|
781 | // super type of the type of 'variable'. |
---|
782 | // |
---|
783 | // The RefMatcher template class implements Ref(variable). It can |
---|
784 | // only be instantiated with a reference type. This prevents a user |
---|
785 | // from mistakenly using Ref(x) to match a non-reference function |
---|
786 | // argument. For example, the following will righteously cause a |
---|
787 | // compiler error: |
---|
788 | // |
---|
789 | // int n; |
---|
790 | // Matcher<int> m1 = Ref(n); // This won't compile. |
---|
791 | // Matcher<int&> m2 = Ref(n); // This will compile. |
---|
792 | template <typename T> |
---|
793 | class RefMatcher; |
---|
794 | |
---|
795 | template <typename T> |
---|
796 | class RefMatcher<T&> { |
---|
797 | // Google Mock is a generic framework and thus needs to support |
---|
798 | // mocking any function types, including those that take non-const |
---|
799 | // reference arguments. Therefore the template parameter T (and |
---|
800 | // Super below) can be instantiated to either a const type or a |
---|
801 | // non-const type. |
---|
802 | public: |
---|
803 | // RefMatcher() takes a T& instead of const T&, as we want the |
---|
804 | // compiler to catch using Ref(const_value) as a matcher for a |
---|
805 | // non-const reference. |
---|
806 | explicit RefMatcher(T& x) : object_(x) {} // NOLINT |
---|
807 | |
---|
808 | template <typename Super> |
---|
809 | operator Matcher<Super&>() const { |
---|
810 | // By passing object_ (type T&) to Impl(), which expects a Super&, |
---|
811 | // we make sure that Super is a super type of T. In particular, |
---|
812 | // this catches using Ref(const_value) as a matcher for a |
---|
813 | // non-const reference, as you cannot implicitly convert a const |
---|
814 | // reference to a non-const reference. |
---|
815 | return MakeMatcher(new Impl<Super>(object_)); |
---|
816 | } |
---|
817 | |
---|
818 | private: |
---|
819 | template <typename Super> |
---|
820 | class Impl : public MatcherInterface<Super&> { |
---|
821 | public: |
---|
822 | explicit Impl(Super& x) : object_(x) {} // NOLINT |
---|
823 | |
---|
824 | // MatchAndExplain() takes a Super& (as opposed to const Super&) |
---|
825 | // in order to match the interface MatcherInterface<Super&>. |
---|
826 | virtual bool MatchAndExplain( |
---|
827 | Super& x, MatchResultListener* listener) const { |
---|
828 | *listener << "which is located @" << static_cast<const void*>(&x); |
---|
829 | return &x == &object_; |
---|
830 | } |
---|
831 | |
---|
832 | virtual void DescribeTo(::std::ostream* os) const { |
---|
833 | *os << "references the variable "; |
---|
834 | UniversalPrinter<Super&>::Print(object_, os); |
---|
835 | } |
---|
836 | |
---|
837 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
838 | *os << "does not reference the variable "; |
---|
839 | UniversalPrinter<Super&>::Print(object_, os); |
---|
840 | } |
---|
841 | |
---|
842 | private: |
---|
843 | const Super& object_; |
---|
844 | |
---|
845 | GTEST_DISALLOW_ASSIGN_(Impl); |
---|
846 | }; |
---|
847 | |
---|
848 | T& object_; |
---|
849 | |
---|
850 | GTEST_DISALLOW_ASSIGN_(RefMatcher); |
---|
851 | }; |
---|
852 | |
---|
853 | // Polymorphic helper functions for narrow and wide string matchers. |
---|
854 | inline bool CaseInsensitiveCStringEquals(const char* lhs, const char* rhs) { |
---|
855 | return String::CaseInsensitiveCStringEquals(lhs, rhs); |
---|
856 | } |
---|
857 | |
---|
858 | inline bool CaseInsensitiveCStringEquals(const wchar_t* lhs, |
---|
859 | const wchar_t* rhs) { |
---|
860 | return String::CaseInsensitiveWideCStringEquals(lhs, rhs); |
---|
861 | } |
---|
862 | |
---|
863 | // String comparison for narrow or wide strings that can have embedded NUL |
---|
864 | // characters. |
---|
865 | template <typename StringType> |
---|
866 | bool CaseInsensitiveStringEquals(const StringType& s1, |
---|
867 | const StringType& s2) { |
---|
868 | // Are the heads equal? |
---|
869 | if (!CaseInsensitiveCStringEquals(s1.c_str(), s2.c_str())) { |
---|
870 | return false; |
---|
871 | } |
---|
872 | |
---|
873 | // Skip the equal heads. |
---|
874 | const typename StringType::value_type nul = 0; |
---|
875 | const size_t i1 = s1.find(nul), i2 = s2.find(nul); |
---|
876 | |
---|
877 | // Are we at the end of either s1 or s2? |
---|
878 | if (i1 == StringType::npos || i2 == StringType::npos) { |
---|
879 | return i1 == i2; |
---|
880 | } |
---|
881 | |
---|
882 | // Are the tails equal? |
---|
883 | return CaseInsensitiveStringEquals(s1.substr(i1 + 1), s2.substr(i2 + 1)); |
---|
884 | } |
---|
885 | |
---|
886 | // String matchers. |
---|
887 | |
---|
888 | // Implements equality-based string matchers like StrEq, StrCaseNe, and etc. |
---|
889 | template <typename StringType> |
---|
890 | class StrEqualityMatcher { |
---|
891 | public: |
---|
892 | typedef typename StringType::const_pointer ConstCharPointer; |
---|
893 | |
---|
894 | StrEqualityMatcher(const StringType& str, bool expect_eq, |
---|
895 | bool case_sensitive) |
---|
896 | : string_(str), expect_eq_(expect_eq), case_sensitive_(case_sensitive) {} |
---|
897 | |
---|
898 | // When expect_eq_ is true, returns true iff s is equal to string_; |
---|
899 | // otherwise returns true iff s is not equal to string_. |
---|
900 | bool MatchAndExplain(ConstCharPointer s, |
---|
901 | MatchResultListener* listener) const { |
---|
902 | if (s == NULL) { |
---|
903 | return !expect_eq_; |
---|
904 | } |
---|
905 | return MatchAndExplain(StringType(s), listener); |
---|
906 | } |
---|
907 | |
---|
908 | bool MatchAndExplain(const StringType& s, |
---|
909 | MatchResultListener* /* listener */) const { |
---|
910 | const bool eq = case_sensitive_ ? s == string_ : |
---|
911 | CaseInsensitiveStringEquals(s, string_); |
---|
912 | return expect_eq_ == eq; |
---|
913 | } |
---|
914 | |
---|
915 | void DescribeTo(::std::ostream* os) const { |
---|
916 | DescribeToHelper(expect_eq_, os); |
---|
917 | } |
---|
918 | |
---|
919 | void DescribeNegationTo(::std::ostream* os) const { |
---|
920 | DescribeToHelper(!expect_eq_, os); |
---|
921 | } |
---|
922 | |
---|
923 | private: |
---|
924 | void DescribeToHelper(bool expect_eq, ::std::ostream* os) const { |
---|
925 | *os << (expect_eq ? "is " : "isn't "); |
---|
926 | *os << "equal to "; |
---|
927 | if (!case_sensitive_) { |
---|
928 | *os << "(ignoring case) "; |
---|
929 | } |
---|
930 | UniversalPrint(string_, os); |
---|
931 | } |
---|
932 | |
---|
933 | const StringType string_; |
---|
934 | const bool expect_eq_; |
---|
935 | const bool case_sensitive_; |
---|
936 | |
---|
937 | GTEST_DISALLOW_ASSIGN_(StrEqualityMatcher); |
---|
938 | }; |
---|
939 | |
---|
940 | // Implements the polymorphic HasSubstr(substring) matcher, which |
---|
941 | // can be used as a Matcher<T> as long as T can be converted to a |
---|
942 | // string. |
---|
943 | template <typename StringType> |
---|
944 | class HasSubstrMatcher { |
---|
945 | public: |
---|
946 | typedef typename StringType::const_pointer ConstCharPointer; |
---|
947 | |
---|
948 | explicit HasSubstrMatcher(const StringType& substring) |
---|
949 | : substring_(substring) {} |
---|
950 | |
---|
951 | // These overloaded methods allow HasSubstr(substring) to be used as a |
---|
952 | // Matcher<T> as long as T can be converted to string. Returns true |
---|
953 | // iff s contains substring_ as a substring. |
---|
954 | bool MatchAndExplain(ConstCharPointer s, |
---|
955 | MatchResultListener* listener) const { |
---|
956 | return s != NULL && MatchAndExplain(StringType(s), listener); |
---|
957 | } |
---|
958 | |
---|
959 | bool MatchAndExplain(const StringType& s, |
---|
960 | MatchResultListener* /* listener */) const { |
---|
961 | return s.find(substring_) != StringType::npos; |
---|
962 | } |
---|
963 | |
---|
964 | // Describes what this matcher matches. |
---|
965 | void DescribeTo(::std::ostream* os) const { |
---|
966 | *os << "has substring "; |
---|
967 | UniversalPrint(substring_, os); |
---|
968 | } |
---|
969 | |
---|
970 | void DescribeNegationTo(::std::ostream* os) const { |
---|
971 | *os << "has no substring "; |
---|
972 | UniversalPrint(substring_, os); |
---|
973 | } |
---|
974 | |
---|
975 | private: |
---|
976 | const StringType substring_; |
---|
977 | |
---|
978 | GTEST_DISALLOW_ASSIGN_(HasSubstrMatcher); |
---|
979 | }; |
---|
980 | |
---|
981 | // Implements the polymorphic StartsWith(substring) matcher, which |
---|
982 | // can be used as a Matcher<T> as long as T can be converted to a |
---|
983 | // string. |
---|
984 | template <typename StringType> |
---|
985 | class StartsWithMatcher { |
---|
986 | public: |
---|
987 | typedef typename StringType::const_pointer ConstCharPointer; |
---|
988 | |
---|
989 | explicit StartsWithMatcher(const StringType& prefix) : prefix_(prefix) { |
---|
990 | } |
---|
991 | |
---|
992 | // These overloaded methods allow StartsWith(prefix) to be used as a |
---|
993 | // Matcher<T> as long as T can be converted to string. Returns true |
---|
994 | // iff s starts with prefix_. |
---|
995 | bool MatchAndExplain(ConstCharPointer s, |
---|
996 | MatchResultListener* listener) const { |
---|
997 | return s != NULL && MatchAndExplain(StringType(s), listener); |
---|
998 | } |
---|
999 | |
---|
1000 | bool MatchAndExplain(const StringType& s, |
---|
1001 | MatchResultListener* /* listener */) const { |
---|
1002 | return s.length() >= prefix_.length() && |
---|
1003 | s.substr(0, prefix_.length()) == prefix_; |
---|
1004 | } |
---|
1005 | |
---|
1006 | void DescribeTo(::std::ostream* os) const { |
---|
1007 | *os << "starts with "; |
---|
1008 | UniversalPrint(prefix_, os); |
---|
1009 | } |
---|
1010 | |
---|
1011 | void DescribeNegationTo(::std::ostream* os) const { |
---|
1012 | *os << "doesn't start with "; |
---|
1013 | UniversalPrint(prefix_, os); |
---|
1014 | } |
---|
1015 | |
---|
1016 | private: |
---|
1017 | const StringType prefix_; |
---|
1018 | |
---|
1019 | GTEST_DISALLOW_ASSIGN_(StartsWithMatcher); |
---|
1020 | }; |
---|
1021 | |
---|
1022 | // Implements the polymorphic EndsWith(substring) matcher, which |
---|
1023 | // can be used as a Matcher<T> as long as T can be converted to a |
---|
1024 | // string. |
---|
1025 | template <typename StringType> |
---|
1026 | class EndsWithMatcher { |
---|
1027 | public: |
---|
1028 | typedef typename StringType::const_pointer ConstCharPointer; |
---|
1029 | |
---|
1030 | explicit EndsWithMatcher(const StringType& suffix) : suffix_(suffix) {} |
---|
1031 | |
---|
1032 | // These overloaded methods allow EndsWith(suffix) to be used as a |
---|
1033 | // Matcher<T> as long as T can be converted to string. Returns true |
---|
1034 | // iff s ends with suffix_. |
---|
1035 | bool MatchAndExplain(ConstCharPointer s, |
---|
1036 | MatchResultListener* listener) const { |
---|
1037 | return s != NULL && MatchAndExplain(StringType(s), listener); |
---|
1038 | } |
---|
1039 | |
---|
1040 | bool MatchAndExplain(const StringType& s, |
---|
1041 | MatchResultListener* /* listener */) const { |
---|
1042 | return s.length() >= suffix_.length() && |
---|
1043 | s.substr(s.length() - suffix_.length()) == suffix_; |
---|
1044 | } |
---|
1045 | |
---|
1046 | void DescribeTo(::std::ostream* os) const { |
---|
1047 | *os << "ends with "; |
---|
1048 | UniversalPrint(suffix_, os); |
---|
1049 | } |
---|
1050 | |
---|
1051 | void DescribeNegationTo(::std::ostream* os) const { |
---|
1052 | *os << "doesn't end with "; |
---|
1053 | UniversalPrint(suffix_, os); |
---|
1054 | } |
---|
1055 | |
---|
1056 | private: |
---|
1057 | const StringType suffix_; |
---|
1058 | |
---|
1059 | GTEST_DISALLOW_ASSIGN_(EndsWithMatcher); |
---|
1060 | }; |
---|
1061 | |
---|
1062 | // Implements polymorphic matchers MatchesRegex(regex) and |
---|
1063 | // ContainsRegex(regex), which can be used as a Matcher<T> as long as |
---|
1064 | // T can be converted to a string. |
---|
1065 | class MatchesRegexMatcher { |
---|
1066 | public: |
---|
1067 | MatchesRegexMatcher(const RE* regex, bool full_match) |
---|
1068 | : regex_(regex), full_match_(full_match) {} |
---|
1069 | |
---|
1070 | // These overloaded methods allow MatchesRegex(regex) to be used as |
---|
1071 | // a Matcher<T> as long as T can be converted to string. Returns |
---|
1072 | // true iff s matches regular expression regex. When full_match_ is |
---|
1073 | // true, a full match is done; otherwise a partial match is done. |
---|
1074 | bool MatchAndExplain(const char* s, |
---|
1075 | MatchResultListener* listener) const { |
---|
1076 | return s != NULL && MatchAndExplain(internal::string(s), listener); |
---|
1077 | } |
---|
1078 | |
---|
1079 | bool MatchAndExplain(const internal::string& s, |
---|
1080 | MatchResultListener* /* listener */) const { |
---|
1081 | return full_match_ ? RE::FullMatch(s, *regex_) : |
---|
1082 | RE::PartialMatch(s, *regex_); |
---|
1083 | } |
---|
1084 | |
---|
1085 | void DescribeTo(::std::ostream* os) const { |
---|
1086 | *os << (full_match_ ? "matches" : "contains") |
---|
1087 | << " regular expression "; |
---|
1088 | UniversalPrinter<internal::string>::Print(regex_->pattern(), os); |
---|
1089 | } |
---|
1090 | |
---|
1091 | void DescribeNegationTo(::std::ostream* os) const { |
---|
1092 | *os << "doesn't " << (full_match_ ? "match" : "contain") |
---|
1093 | << " regular expression "; |
---|
1094 | UniversalPrinter<internal::string>::Print(regex_->pattern(), os); |
---|
1095 | } |
---|
1096 | |
---|
1097 | private: |
---|
1098 | const internal::linked_ptr<const RE> regex_; |
---|
1099 | const bool full_match_; |
---|
1100 | |
---|
1101 | GTEST_DISALLOW_ASSIGN_(MatchesRegexMatcher); |
---|
1102 | }; |
---|
1103 | |
---|
1104 | // Implements a matcher that compares the two fields of a 2-tuple |
---|
1105 | // using one of the ==, <=, <, etc, operators. The two fields being |
---|
1106 | // compared don't have to have the same type. |
---|
1107 | // |
---|
1108 | // The matcher defined here is polymorphic (for example, Eq() can be |
---|
1109 | // used to match a tuple<int, short>, a tuple<const long&, double>, |
---|
1110 | // etc). Therefore we use a template type conversion operator in the |
---|
1111 | // implementation. |
---|
1112 | // |
---|
1113 | // We define this as a macro in order to eliminate duplicated source |
---|
1114 | // code. |
---|
1115 | #define GMOCK_IMPLEMENT_COMPARISON2_MATCHER_(name, op, relation) \ |
---|
1116 | class name##2Matcher { \ |
---|
1117 | public: \ |
---|
1118 | template <typename T1, typename T2> \ |
---|
1119 | operator Matcher< ::std::tr1::tuple<T1, T2> >() const { \ |
---|
1120 | return MakeMatcher(new Impl< ::std::tr1::tuple<T1, T2> >); \ |
---|
1121 | } \ |
---|
1122 | template <typename T1, typename T2> \ |
---|
1123 | operator Matcher<const ::std::tr1::tuple<T1, T2>&>() const { \ |
---|
1124 | return MakeMatcher(new Impl<const ::std::tr1::tuple<T1, T2>&>); \ |
---|
1125 | } \ |
---|
1126 | private: \ |
---|
1127 | template <typename Tuple> \ |
---|
1128 | class Impl : public MatcherInterface<Tuple> { \ |
---|
1129 | public: \ |
---|
1130 | virtual bool MatchAndExplain( \ |
---|
1131 | Tuple args, \ |
---|
1132 | MatchResultListener* /* listener */) const { \ |
---|
1133 | return ::std::tr1::get<0>(args) op ::std::tr1::get<1>(args); \ |
---|
1134 | } \ |
---|
1135 | virtual void DescribeTo(::std::ostream* os) const { \ |
---|
1136 | *os << "are " relation; \ |
---|
1137 | } \ |
---|
1138 | virtual void DescribeNegationTo(::std::ostream* os) const { \ |
---|
1139 | *os << "aren't " relation; \ |
---|
1140 | } \ |
---|
1141 | }; \ |
---|
1142 | } |
---|
1143 | |
---|
1144 | // Implements Eq(), Ge(), Gt(), Le(), Lt(), and Ne() respectively. |
---|
1145 | GMOCK_IMPLEMENT_COMPARISON2_MATCHER_(Eq, ==, "an equal pair"); |
---|
1146 | GMOCK_IMPLEMENT_COMPARISON2_MATCHER_( |
---|
1147 | Ge, >=, "a pair where the first >= the second"); |
---|
1148 | GMOCK_IMPLEMENT_COMPARISON2_MATCHER_( |
---|
1149 | Gt, >, "a pair where the first > the second"); |
---|
1150 | GMOCK_IMPLEMENT_COMPARISON2_MATCHER_( |
---|
1151 | Le, <=, "a pair where the first <= the second"); |
---|
1152 | GMOCK_IMPLEMENT_COMPARISON2_MATCHER_( |
---|
1153 | Lt, <, "a pair where the first < the second"); |
---|
1154 | GMOCK_IMPLEMENT_COMPARISON2_MATCHER_(Ne, !=, "an unequal pair"); |
---|
1155 | |
---|
1156 | #undef GMOCK_IMPLEMENT_COMPARISON2_MATCHER_ |
---|
1157 | |
---|
1158 | // Implements the Not(...) matcher for a particular argument type T. |
---|
1159 | // We do not nest it inside the NotMatcher class template, as that |
---|
1160 | // will prevent different instantiations of NotMatcher from sharing |
---|
1161 | // the same NotMatcherImpl<T> class. |
---|
1162 | template <typename T> |
---|
1163 | class NotMatcherImpl : public MatcherInterface<T> { |
---|
1164 | public: |
---|
1165 | explicit NotMatcherImpl(const Matcher<T>& matcher) |
---|
1166 | : matcher_(matcher) {} |
---|
1167 | |
---|
1168 | virtual bool MatchAndExplain(T x, MatchResultListener* listener) const { |
---|
1169 | return !matcher_.MatchAndExplain(x, listener); |
---|
1170 | } |
---|
1171 | |
---|
1172 | virtual void DescribeTo(::std::ostream* os) const { |
---|
1173 | matcher_.DescribeNegationTo(os); |
---|
1174 | } |
---|
1175 | |
---|
1176 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
1177 | matcher_.DescribeTo(os); |
---|
1178 | } |
---|
1179 | |
---|
1180 | private: |
---|
1181 | const Matcher<T> matcher_; |
---|
1182 | |
---|
1183 | GTEST_DISALLOW_ASSIGN_(NotMatcherImpl); |
---|
1184 | }; |
---|
1185 | |
---|
1186 | // Implements the Not(m) matcher, which matches a value that doesn't |
---|
1187 | // match matcher m. |
---|
1188 | template <typename InnerMatcher> |
---|
1189 | class NotMatcher { |
---|
1190 | public: |
---|
1191 | explicit NotMatcher(InnerMatcher matcher) : matcher_(matcher) {} |
---|
1192 | |
---|
1193 | // This template type conversion operator allows Not(m) to be used |
---|
1194 | // to match any type m can match. |
---|
1195 | template <typename T> |
---|
1196 | operator Matcher<T>() const { |
---|
1197 | return Matcher<T>(new NotMatcherImpl<T>(SafeMatcherCast<T>(matcher_))); |
---|
1198 | } |
---|
1199 | |
---|
1200 | private: |
---|
1201 | InnerMatcher matcher_; |
---|
1202 | |
---|
1203 | GTEST_DISALLOW_ASSIGN_(NotMatcher); |
---|
1204 | }; |
---|
1205 | |
---|
1206 | // Implements the AllOf(m1, m2) matcher for a particular argument type |
---|
1207 | // T. We do not nest it inside the BothOfMatcher class template, as |
---|
1208 | // that will prevent different instantiations of BothOfMatcher from |
---|
1209 | // sharing the same BothOfMatcherImpl<T> class. |
---|
1210 | template <typename T> |
---|
1211 | class BothOfMatcherImpl : public MatcherInterface<T> { |
---|
1212 | public: |
---|
1213 | BothOfMatcherImpl(const Matcher<T>& matcher1, const Matcher<T>& matcher2) |
---|
1214 | : matcher1_(matcher1), matcher2_(matcher2) {} |
---|
1215 | |
---|
1216 | virtual void DescribeTo(::std::ostream* os) const { |
---|
1217 | *os << "("; |
---|
1218 | matcher1_.DescribeTo(os); |
---|
1219 | *os << ") and ("; |
---|
1220 | matcher2_.DescribeTo(os); |
---|
1221 | *os << ")"; |
---|
1222 | } |
---|
1223 | |
---|
1224 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
1225 | *os << "("; |
---|
1226 | matcher1_.DescribeNegationTo(os); |
---|
1227 | *os << ") or ("; |
---|
1228 | matcher2_.DescribeNegationTo(os); |
---|
1229 | *os << ")"; |
---|
1230 | } |
---|
1231 | |
---|
1232 | virtual bool MatchAndExplain(T x, MatchResultListener* listener) const { |
---|
1233 | // If either matcher1_ or matcher2_ doesn't match x, we only need |
---|
1234 | // to explain why one of them fails. |
---|
1235 | StringMatchResultListener listener1; |
---|
1236 | if (!matcher1_.MatchAndExplain(x, &listener1)) { |
---|
1237 | *listener << listener1.str(); |
---|
1238 | return false; |
---|
1239 | } |
---|
1240 | |
---|
1241 | StringMatchResultListener listener2; |
---|
1242 | if (!matcher2_.MatchAndExplain(x, &listener2)) { |
---|
1243 | *listener << listener2.str(); |
---|
1244 | return false; |
---|
1245 | } |
---|
1246 | |
---|
1247 | // Otherwise we need to explain why *both* of them match. |
---|
1248 | const internal::string s1 = listener1.str(); |
---|
1249 | const internal::string s2 = listener2.str(); |
---|
1250 | |
---|
1251 | if (s1 == "") { |
---|
1252 | *listener << s2; |
---|
1253 | } else { |
---|
1254 | *listener << s1; |
---|
1255 | if (s2 != "") { |
---|
1256 | *listener << ", and " << s2; |
---|
1257 | } |
---|
1258 | } |
---|
1259 | return true; |
---|
1260 | } |
---|
1261 | |
---|
1262 | private: |
---|
1263 | const Matcher<T> matcher1_; |
---|
1264 | const Matcher<T> matcher2_; |
---|
1265 | |
---|
1266 | GTEST_DISALLOW_ASSIGN_(BothOfMatcherImpl); |
---|
1267 | }; |
---|
1268 | |
---|
1269 | // Used for implementing the AllOf(m_1, ..., m_n) matcher, which |
---|
1270 | // matches a value that matches all of the matchers m_1, ..., and m_n. |
---|
1271 | template <typename Matcher1, typename Matcher2> |
---|
1272 | class BothOfMatcher { |
---|
1273 | public: |
---|
1274 | BothOfMatcher(Matcher1 matcher1, Matcher2 matcher2) |
---|
1275 | : matcher1_(matcher1), matcher2_(matcher2) {} |
---|
1276 | |
---|
1277 | // This template type conversion operator allows a |
---|
1278 | // BothOfMatcher<Matcher1, Matcher2> object to match any type that |
---|
1279 | // both Matcher1 and Matcher2 can match. |
---|
1280 | template <typename T> |
---|
1281 | operator Matcher<T>() const { |
---|
1282 | return Matcher<T>(new BothOfMatcherImpl<T>(SafeMatcherCast<T>(matcher1_), |
---|
1283 | SafeMatcherCast<T>(matcher2_))); |
---|
1284 | } |
---|
1285 | |
---|
1286 | private: |
---|
1287 | Matcher1 matcher1_; |
---|
1288 | Matcher2 matcher2_; |
---|
1289 | |
---|
1290 | GTEST_DISALLOW_ASSIGN_(BothOfMatcher); |
---|
1291 | }; |
---|
1292 | |
---|
1293 | // Implements the AnyOf(m1, m2) matcher for a particular argument type |
---|
1294 | // T. We do not nest it inside the AnyOfMatcher class template, as |
---|
1295 | // that will prevent different instantiations of AnyOfMatcher from |
---|
1296 | // sharing the same EitherOfMatcherImpl<T> class. |
---|
1297 | template <typename T> |
---|
1298 | class EitherOfMatcherImpl : public MatcherInterface<T> { |
---|
1299 | public: |
---|
1300 | EitherOfMatcherImpl(const Matcher<T>& matcher1, const Matcher<T>& matcher2) |
---|
1301 | : matcher1_(matcher1), matcher2_(matcher2) {} |
---|
1302 | |
---|
1303 | virtual void DescribeTo(::std::ostream* os) const { |
---|
1304 | *os << "("; |
---|
1305 | matcher1_.DescribeTo(os); |
---|
1306 | *os << ") or ("; |
---|
1307 | matcher2_.DescribeTo(os); |
---|
1308 | *os << ")"; |
---|
1309 | } |
---|
1310 | |
---|
1311 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
1312 | *os << "("; |
---|
1313 | matcher1_.DescribeNegationTo(os); |
---|
1314 | *os << ") and ("; |
---|
1315 | matcher2_.DescribeNegationTo(os); |
---|
1316 | *os << ")"; |
---|
1317 | } |
---|
1318 | |
---|
1319 | virtual bool MatchAndExplain(T x, MatchResultListener* listener) const { |
---|
1320 | // If either matcher1_ or matcher2_ matches x, we just need to |
---|
1321 | // explain why *one* of them matches. |
---|
1322 | StringMatchResultListener listener1; |
---|
1323 | if (matcher1_.MatchAndExplain(x, &listener1)) { |
---|
1324 | *listener << listener1.str(); |
---|
1325 | return true; |
---|
1326 | } |
---|
1327 | |
---|
1328 | StringMatchResultListener listener2; |
---|
1329 | if (matcher2_.MatchAndExplain(x, &listener2)) { |
---|
1330 | *listener << listener2.str(); |
---|
1331 | return true; |
---|
1332 | } |
---|
1333 | |
---|
1334 | // Otherwise we need to explain why *both* of them fail. |
---|
1335 | const internal::string s1 = listener1.str(); |
---|
1336 | const internal::string s2 = listener2.str(); |
---|
1337 | |
---|
1338 | if (s1 == "") { |
---|
1339 | *listener << s2; |
---|
1340 | } else { |
---|
1341 | *listener << s1; |
---|
1342 | if (s2 != "") { |
---|
1343 | *listener << ", and " << s2; |
---|
1344 | } |
---|
1345 | } |
---|
1346 | return false; |
---|
1347 | } |
---|
1348 | |
---|
1349 | private: |
---|
1350 | const Matcher<T> matcher1_; |
---|
1351 | const Matcher<T> matcher2_; |
---|
1352 | |
---|
1353 | GTEST_DISALLOW_ASSIGN_(EitherOfMatcherImpl); |
---|
1354 | }; |
---|
1355 | |
---|
1356 | // Used for implementing the AnyOf(m_1, ..., m_n) matcher, which |
---|
1357 | // matches a value that matches at least one of the matchers m_1, ..., |
---|
1358 | // and m_n. |
---|
1359 | template <typename Matcher1, typename Matcher2> |
---|
1360 | class EitherOfMatcher { |
---|
1361 | public: |
---|
1362 | EitherOfMatcher(Matcher1 matcher1, Matcher2 matcher2) |
---|
1363 | : matcher1_(matcher1), matcher2_(matcher2) {} |
---|
1364 | |
---|
1365 | // This template type conversion operator allows a |
---|
1366 | // EitherOfMatcher<Matcher1, Matcher2> object to match any type that |
---|
1367 | // both Matcher1 and Matcher2 can match. |
---|
1368 | template <typename T> |
---|
1369 | operator Matcher<T>() const { |
---|
1370 | return Matcher<T>(new EitherOfMatcherImpl<T>( |
---|
1371 | SafeMatcherCast<T>(matcher1_), SafeMatcherCast<T>(matcher2_))); |
---|
1372 | } |
---|
1373 | |
---|
1374 | private: |
---|
1375 | Matcher1 matcher1_; |
---|
1376 | Matcher2 matcher2_; |
---|
1377 | |
---|
1378 | GTEST_DISALLOW_ASSIGN_(EitherOfMatcher); |
---|
1379 | }; |
---|
1380 | |
---|
1381 | // Used for implementing Truly(pred), which turns a predicate into a |
---|
1382 | // matcher. |
---|
1383 | template <typename Predicate> |
---|
1384 | class TrulyMatcher { |
---|
1385 | public: |
---|
1386 | explicit TrulyMatcher(Predicate pred) : predicate_(pred) {} |
---|
1387 | |
---|
1388 | // This method template allows Truly(pred) to be used as a matcher |
---|
1389 | // for type T where T is the argument type of predicate 'pred'. The |
---|
1390 | // argument is passed by reference as the predicate may be |
---|
1391 | // interested in the address of the argument. |
---|
1392 | template <typename T> |
---|
1393 | bool MatchAndExplain(T& x, // NOLINT |
---|
1394 | MatchResultListener* /* listener */) const { |
---|
1395 | // Without the if-statement, MSVC sometimes warns about converting |
---|
1396 | // a value to bool (warning 4800). |
---|
1397 | // |
---|
1398 | // We cannot write 'return !!predicate_(x);' as that doesn't work |
---|
1399 | // when predicate_(x) returns a class convertible to bool but |
---|
1400 | // having no operator!(). |
---|
1401 | if (predicate_(x)) |
---|
1402 | return true; |
---|
1403 | return false; |
---|
1404 | } |
---|
1405 | |
---|
1406 | void DescribeTo(::std::ostream* os) const { |
---|
1407 | *os << "satisfies the given predicate"; |
---|
1408 | } |
---|
1409 | |
---|
1410 | void DescribeNegationTo(::std::ostream* os) const { |
---|
1411 | *os << "doesn't satisfy the given predicate"; |
---|
1412 | } |
---|
1413 | |
---|
1414 | private: |
---|
1415 | Predicate predicate_; |
---|
1416 | |
---|
1417 | GTEST_DISALLOW_ASSIGN_(TrulyMatcher); |
---|
1418 | }; |
---|
1419 | |
---|
1420 | // Used for implementing Matches(matcher), which turns a matcher into |
---|
1421 | // a predicate. |
---|
1422 | template <typename M> |
---|
1423 | class MatcherAsPredicate { |
---|
1424 | public: |
---|
1425 | explicit MatcherAsPredicate(M matcher) : matcher_(matcher) {} |
---|
1426 | |
---|
1427 | // This template operator() allows Matches(m) to be used as a |
---|
1428 | // predicate on type T where m is a matcher on type T. |
---|
1429 | // |
---|
1430 | // The argument x is passed by reference instead of by value, as |
---|
1431 | // some matcher may be interested in its address (e.g. as in |
---|
1432 | // Matches(Ref(n))(x)). |
---|
1433 | template <typename T> |
---|
1434 | bool operator()(const T& x) const { |
---|
1435 | // We let matcher_ commit to a particular type here instead of |
---|
1436 | // when the MatcherAsPredicate object was constructed. This |
---|
1437 | // allows us to write Matches(m) where m is a polymorphic matcher |
---|
1438 | // (e.g. Eq(5)). |
---|
1439 | // |
---|
1440 | // If we write Matcher<T>(matcher_).Matches(x) here, it won't |
---|
1441 | // compile when matcher_ has type Matcher<const T&>; if we write |
---|
1442 | // Matcher<const T&>(matcher_).Matches(x) here, it won't compile |
---|
1443 | // when matcher_ has type Matcher<T>; if we just write |
---|
1444 | // matcher_.Matches(x), it won't compile when matcher_ is |
---|
1445 | // polymorphic, e.g. Eq(5). |
---|
1446 | // |
---|
1447 | // MatcherCast<const T&>() is necessary for making the code work |
---|
1448 | // in all of the above situations. |
---|
1449 | return MatcherCast<const T&>(matcher_).Matches(x); |
---|
1450 | } |
---|
1451 | |
---|
1452 | private: |
---|
1453 | M matcher_; |
---|
1454 | |
---|
1455 | GTEST_DISALLOW_ASSIGN_(MatcherAsPredicate); |
---|
1456 | }; |
---|
1457 | |
---|
1458 | // For implementing ASSERT_THAT() and EXPECT_THAT(). The template |
---|
1459 | // argument M must be a type that can be converted to a matcher. |
---|
1460 | template <typename M> |
---|
1461 | class PredicateFormatterFromMatcher { |
---|
1462 | public: |
---|
1463 | explicit PredicateFormatterFromMatcher(const M& m) : matcher_(m) {} |
---|
1464 | |
---|
1465 | // This template () operator allows a PredicateFormatterFromMatcher |
---|
1466 | // object to act as a predicate-formatter suitable for using with |
---|
1467 | // Google Test's EXPECT_PRED_FORMAT1() macro. |
---|
1468 | template <typename T> |
---|
1469 | AssertionResult operator()(const char* value_text, const T& x) const { |
---|
1470 | // We convert matcher_ to a Matcher<const T&> *now* instead of |
---|
1471 | // when the PredicateFormatterFromMatcher object was constructed, |
---|
1472 | // as matcher_ may be polymorphic (e.g. NotNull()) and we won't |
---|
1473 | // know which type to instantiate it to until we actually see the |
---|
1474 | // type of x here. |
---|
1475 | // |
---|
1476 | // We write MatcherCast<const T&>(matcher_) instead of |
---|
1477 | // Matcher<const T&>(matcher_), as the latter won't compile when |
---|
1478 | // matcher_ has type Matcher<T> (e.g. An<int>()). |
---|
1479 | const Matcher<const T&> matcher = MatcherCast<const T&>(matcher_); |
---|
1480 | StringMatchResultListener listener; |
---|
1481 | if (MatchPrintAndExplain(x, matcher, &listener)) |
---|
1482 | return AssertionSuccess(); |
---|
1483 | |
---|
1484 | ::std::stringstream ss; |
---|
1485 | ss << "Value of: " << value_text << "\n" |
---|
1486 | << "Expected: "; |
---|
1487 | matcher.DescribeTo(&ss); |
---|
1488 | ss << "\n Actual: " << listener.str(); |
---|
1489 | return AssertionFailure() << ss.str(); |
---|
1490 | } |
---|
1491 | |
---|
1492 | private: |
---|
1493 | const M matcher_; |
---|
1494 | |
---|
1495 | GTEST_DISALLOW_ASSIGN_(PredicateFormatterFromMatcher); |
---|
1496 | }; |
---|
1497 | |
---|
1498 | // A helper function for converting a matcher to a predicate-formatter |
---|
1499 | // without the user needing to explicitly write the type. This is |
---|
1500 | // used for implementing ASSERT_THAT() and EXPECT_THAT(). |
---|
1501 | template <typename M> |
---|
1502 | inline PredicateFormatterFromMatcher<M> |
---|
1503 | MakePredicateFormatterFromMatcher(const M& matcher) { |
---|
1504 | return PredicateFormatterFromMatcher<M>(matcher); |
---|
1505 | } |
---|
1506 | |
---|
1507 | // Implements the polymorphic floating point equality matcher, which |
---|
1508 | // matches two float values using ULP-based approximation. The |
---|
1509 | // template is meant to be instantiated with FloatType being either |
---|
1510 | // float or double. |
---|
1511 | template <typename FloatType> |
---|
1512 | class FloatingEqMatcher { |
---|
1513 | public: |
---|
1514 | // Constructor for FloatingEqMatcher. |
---|
1515 | // The matcher's input will be compared with rhs. The matcher treats two |
---|
1516 | // NANs as equal if nan_eq_nan is true. Otherwise, under IEEE standards, |
---|
1517 | // equality comparisons between NANs will always return false. |
---|
1518 | FloatingEqMatcher(FloatType rhs, bool nan_eq_nan) : |
---|
1519 | rhs_(rhs), nan_eq_nan_(nan_eq_nan) {} |
---|
1520 | |
---|
1521 | // Implements floating point equality matcher as a Matcher<T>. |
---|
1522 | template <typename T> |
---|
1523 | class Impl : public MatcherInterface<T> { |
---|
1524 | public: |
---|
1525 | Impl(FloatType rhs, bool nan_eq_nan) : |
---|
1526 | rhs_(rhs), nan_eq_nan_(nan_eq_nan) {} |
---|
1527 | |
---|
1528 | virtual bool MatchAndExplain(T value, |
---|
1529 | MatchResultListener* /* listener */) const { |
---|
1530 | const FloatingPoint<FloatType> lhs(value), rhs(rhs_); |
---|
1531 | |
---|
1532 | // Compares NaNs first, if nan_eq_nan_ is true. |
---|
1533 | if (nan_eq_nan_ && lhs.is_nan()) { |
---|
1534 | return rhs.is_nan(); |
---|
1535 | } |
---|
1536 | |
---|
1537 | return lhs.AlmostEquals(rhs); |
---|
1538 | } |
---|
1539 | |
---|
1540 | virtual void DescribeTo(::std::ostream* os) const { |
---|
1541 | // os->precision() returns the previously set precision, which we |
---|
1542 | // store to restore the ostream to its original configuration |
---|
1543 | // after outputting. |
---|
1544 | const ::std::streamsize old_precision = os->precision( |
---|
1545 | ::std::numeric_limits<FloatType>::digits10 + 2); |
---|
1546 | if (FloatingPoint<FloatType>(rhs_).is_nan()) { |
---|
1547 | if (nan_eq_nan_) { |
---|
1548 | *os << "is NaN"; |
---|
1549 | } else { |
---|
1550 | *os << "never matches"; |
---|
1551 | } |
---|
1552 | } else { |
---|
1553 | *os << "is approximately " << rhs_; |
---|
1554 | } |
---|
1555 | os->precision(old_precision); |
---|
1556 | } |
---|
1557 | |
---|
1558 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
1559 | // As before, get original precision. |
---|
1560 | const ::std::streamsize old_precision = os->precision( |
---|
1561 | ::std::numeric_limits<FloatType>::digits10 + 2); |
---|
1562 | if (FloatingPoint<FloatType>(rhs_).is_nan()) { |
---|
1563 | if (nan_eq_nan_) { |
---|
1564 | *os << "isn't NaN"; |
---|
1565 | } else { |
---|
1566 | *os << "is anything"; |
---|
1567 | } |
---|
1568 | } else { |
---|
1569 | *os << "isn't approximately " << rhs_; |
---|
1570 | } |
---|
1571 | // Restore original precision. |
---|
1572 | os->precision(old_precision); |
---|
1573 | } |
---|
1574 | |
---|
1575 | private: |
---|
1576 | const FloatType rhs_; |
---|
1577 | const bool nan_eq_nan_; |
---|
1578 | |
---|
1579 | GTEST_DISALLOW_ASSIGN_(Impl); |
---|
1580 | }; |
---|
1581 | |
---|
1582 | // The following 3 type conversion operators allow FloatEq(rhs) and |
---|
1583 | // NanSensitiveFloatEq(rhs) to be used as a Matcher<float>, a |
---|
1584 | // Matcher<const float&>, or a Matcher<float&>, but nothing else. |
---|
1585 | // (While Google's C++ coding style doesn't allow arguments passed |
---|
1586 | // by non-const reference, we may see them in code not conforming to |
---|
1587 | // the style. Therefore Google Mock needs to support them.) |
---|
1588 | operator Matcher<FloatType>() const { |
---|
1589 | return MakeMatcher(new Impl<FloatType>(rhs_, nan_eq_nan_)); |
---|
1590 | } |
---|
1591 | |
---|
1592 | operator Matcher<const FloatType&>() const { |
---|
1593 | return MakeMatcher(new Impl<const FloatType&>(rhs_, nan_eq_nan_)); |
---|
1594 | } |
---|
1595 | |
---|
1596 | operator Matcher<FloatType&>() const { |
---|
1597 | return MakeMatcher(new Impl<FloatType&>(rhs_, nan_eq_nan_)); |
---|
1598 | } |
---|
1599 | private: |
---|
1600 | const FloatType rhs_; |
---|
1601 | const bool nan_eq_nan_; |
---|
1602 | |
---|
1603 | GTEST_DISALLOW_ASSIGN_(FloatingEqMatcher); |
---|
1604 | }; |
---|
1605 | |
---|
1606 | // Implements the Pointee(m) matcher for matching a pointer whose |
---|
1607 | // pointee matches matcher m. The pointer can be either raw or smart. |
---|
1608 | template <typename InnerMatcher> |
---|
1609 | class PointeeMatcher { |
---|
1610 | public: |
---|
1611 | explicit PointeeMatcher(const InnerMatcher& matcher) : matcher_(matcher) {} |
---|
1612 | |
---|
1613 | // This type conversion operator template allows Pointee(m) to be |
---|
1614 | // used as a matcher for any pointer type whose pointee type is |
---|
1615 | // compatible with the inner matcher, where type Pointer can be |
---|
1616 | // either a raw pointer or a smart pointer. |
---|
1617 | // |
---|
1618 | // The reason we do this instead of relying on |
---|
1619 | // MakePolymorphicMatcher() is that the latter is not flexible |
---|
1620 | // enough for implementing the DescribeTo() method of Pointee(). |
---|
1621 | template <typename Pointer> |
---|
1622 | operator Matcher<Pointer>() const { |
---|
1623 | return MakeMatcher(new Impl<Pointer>(matcher_)); |
---|
1624 | } |
---|
1625 | |
---|
1626 | private: |
---|
1627 | // The monomorphic implementation that works for a particular pointer type. |
---|
1628 | template <typename Pointer> |
---|
1629 | class Impl : public MatcherInterface<Pointer> { |
---|
1630 | public: |
---|
1631 | typedef typename PointeeOf<GTEST_REMOVE_CONST_( // NOLINT |
---|
1632 | GTEST_REMOVE_REFERENCE_(Pointer))>::type Pointee; |
---|
1633 | |
---|
1634 | explicit Impl(const InnerMatcher& matcher) |
---|
1635 | : matcher_(MatcherCast<const Pointee&>(matcher)) {} |
---|
1636 | |
---|
1637 | virtual void DescribeTo(::std::ostream* os) const { |
---|
1638 | *os << "points to a value that "; |
---|
1639 | matcher_.DescribeTo(os); |
---|
1640 | } |
---|
1641 | |
---|
1642 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
1643 | *os << "does not point to a value that "; |
---|
1644 | matcher_.DescribeTo(os); |
---|
1645 | } |
---|
1646 | |
---|
1647 | virtual bool MatchAndExplain(Pointer pointer, |
---|
1648 | MatchResultListener* listener) const { |
---|
1649 | if (GetRawPointer(pointer) == NULL) |
---|
1650 | return false; |
---|
1651 | |
---|
1652 | *listener << "which points to "; |
---|
1653 | return MatchPrintAndExplain(*pointer, matcher_, listener); |
---|
1654 | } |
---|
1655 | |
---|
1656 | private: |
---|
1657 | const Matcher<const Pointee&> matcher_; |
---|
1658 | |
---|
1659 | GTEST_DISALLOW_ASSIGN_(Impl); |
---|
1660 | }; |
---|
1661 | |
---|
1662 | const InnerMatcher matcher_; |
---|
1663 | |
---|
1664 | GTEST_DISALLOW_ASSIGN_(PointeeMatcher); |
---|
1665 | }; |
---|
1666 | |
---|
1667 | // Implements the Field() matcher for matching a field (i.e. member |
---|
1668 | // variable) of an object. |
---|
1669 | template <typename Class, typename FieldType> |
---|
1670 | class FieldMatcher { |
---|
1671 | public: |
---|
1672 | FieldMatcher(FieldType Class::*field, |
---|
1673 | const Matcher<const FieldType&>& matcher) |
---|
1674 | : field_(field), matcher_(matcher) {} |
---|
1675 | |
---|
1676 | void DescribeTo(::std::ostream* os) const { |
---|
1677 | *os << "is an object whose given field "; |
---|
1678 | matcher_.DescribeTo(os); |
---|
1679 | } |
---|
1680 | |
---|
1681 | void DescribeNegationTo(::std::ostream* os) const { |
---|
1682 | *os << "is an object whose given field "; |
---|
1683 | matcher_.DescribeNegationTo(os); |
---|
1684 | } |
---|
1685 | |
---|
1686 | template <typename T> |
---|
1687 | bool MatchAndExplain(const T& value, MatchResultListener* listener) const { |
---|
1688 | return MatchAndExplainImpl( |
---|
1689 | typename ::testing::internal:: |
---|
1690 | is_pointer<GTEST_REMOVE_CONST_(T)>::type(), |
---|
1691 | value, listener); |
---|
1692 | } |
---|
1693 | |
---|
1694 | private: |
---|
1695 | // The first argument of MatchAndExplainImpl() is needed to help |
---|
1696 | // Symbian's C++ compiler choose which overload to use. Its type is |
---|
1697 | // true_type iff the Field() matcher is used to match a pointer. |
---|
1698 | bool MatchAndExplainImpl(false_type /* is_not_pointer */, const Class& obj, |
---|
1699 | MatchResultListener* listener) const { |
---|
1700 | *listener << "whose given field is "; |
---|
1701 | return MatchPrintAndExplain(obj.*field_, matcher_, listener); |
---|
1702 | } |
---|
1703 | |
---|
1704 | bool MatchAndExplainImpl(true_type /* is_pointer */, const Class* p, |
---|
1705 | MatchResultListener* listener) const { |
---|
1706 | if (p == NULL) |
---|
1707 | return false; |
---|
1708 | |
---|
1709 | *listener << "which points to an object "; |
---|
1710 | // Since *p has a field, it must be a class/struct/union type and |
---|
1711 | // thus cannot be a pointer. Therefore we pass false_type() as |
---|
1712 | // the first argument. |
---|
1713 | return MatchAndExplainImpl(false_type(), *p, listener); |
---|
1714 | } |
---|
1715 | |
---|
1716 | const FieldType Class::*field_; |
---|
1717 | const Matcher<const FieldType&> matcher_; |
---|
1718 | |
---|
1719 | GTEST_DISALLOW_ASSIGN_(FieldMatcher); |
---|
1720 | }; |
---|
1721 | |
---|
1722 | // Implements the Property() matcher for matching a property |
---|
1723 | // (i.e. return value of a getter method) of an object. |
---|
1724 | template <typename Class, typename PropertyType> |
---|
1725 | class PropertyMatcher { |
---|
1726 | public: |
---|
1727 | // The property may have a reference type, so 'const PropertyType&' |
---|
1728 | // may cause double references and fail to compile. That's why we |
---|
1729 | // need GTEST_REFERENCE_TO_CONST, which works regardless of |
---|
1730 | // PropertyType being a reference or not. |
---|
1731 | typedef GTEST_REFERENCE_TO_CONST_(PropertyType) RefToConstProperty; |
---|
1732 | |
---|
1733 | PropertyMatcher(PropertyType (Class::*property)() const, |
---|
1734 | const Matcher<RefToConstProperty>& matcher) |
---|
1735 | : property_(property), matcher_(matcher) {} |
---|
1736 | |
---|
1737 | void DescribeTo(::std::ostream* os) const { |
---|
1738 | *os << "is an object whose given property "; |
---|
1739 | matcher_.DescribeTo(os); |
---|
1740 | } |
---|
1741 | |
---|
1742 | void DescribeNegationTo(::std::ostream* os) const { |
---|
1743 | *os << "is an object whose given property "; |
---|
1744 | matcher_.DescribeNegationTo(os); |
---|
1745 | } |
---|
1746 | |
---|
1747 | template <typename T> |
---|
1748 | bool MatchAndExplain(const T&value, MatchResultListener* listener) const { |
---|
1749 | return MatchAndExplainImpl( |
---|
1750 | typename ::testing::internal:: |
---|
1751 | is_pointer<GTEST_REMOVE_CONST_(T)>::type(), |
---|
1752 | value, listener); |
---|
1753 | } |
---|
1754 | |
---|
1755 | private: |
---|
1756 | // The first argument of MatchAndExplainImpl() is needed to help |
---|
1757 | // Symbian's C++ compiler choose which overload to use. Its type is |
---|
1758 | // true_type iff the Property() matcher is used to match a pointer. |
---|
1759 | bool MatchAndExplainImpl(false_type /* is_not_pointer */, const Class& obj, |
---|
1760 | MatchResultListener* listener) const { |
---|
1761 | *listener << "whose given property is "; |
---|
1762 | // Cannot pass the return value (for example, int) to MatchPrintAndExplain, |
---|
1763 | // which takes a non-const reference as argument. |
---|
1764 | RefToConstProperty result = (obj.*property_)(); |
---|
1765 | return MatchPrintAndExplain(result, matcher_, listener); |
---|
1766 | } |
---|
1767 | |
---|
1768 | bool MatchAndExplainImpl(true_type /* is_pointer */, const Class* p, |
---|
1769 | MatchResultListener* listener) const { |
---|
1770 | if (p == NULL) |
---|
1771 | return false; |
---|
1772 | |
---|
1773 | *listener << "which points to an object "; |
---|
1774 | // Since *p has a property method, it must be a class/struct/union |
---|
1775 | // type and thus cannot be a pointer. Therefore we pass |
---|
1776 | // false_type() as the first argument. |
---|
1777 | return MatchAndExplainImpl(false_type(), *p, listener); |
---|
1778 | } |
---|
1779 | |
---|
1780 | PropertyType (Class::*property_)() const; |
---|
1781 | const Matcher<RefToConstProperty> matcher_; |
---|
1782 | |
---|
1783 | GTEST_DISALLOW_ASSIGN_(PropertyMatcher); |
---|
1784 | }; |
---|
1785 | |
---|
1786 | // Type traits specifying various features of different functors for ResultOf. |
---|
1787 | // The default template specifies features for functor objects. |
---|
1788 | // Functor classes have to typedef argument_type and result_type |
---|
1789 | // to be compatible with ResultOf. |
---|
1790 | template <typename Functor> |
---|
1791 | struct CallableTraits { |
---|
1792 | typedef typename Functor::result_type ResultType; |
---|
1793 | typedef Functor StorageType; |
---|
1794 | |
---|
1795 | static void CheckIsValid(Functor /* functor */) {} |
---|
1796 | template <typename T> |
---|
1797 | static ResultType Invoke(Functor f, T arg) { return f(arg); } |
---|
1798 | }; |
---|
1799 | |
---|
1800 | // Specialization for function pointers. |
---|
1801 | template <typename ArgType, typename ResType> |
---|
1802 | struct CallableTraits<ResType(*)(ArgType)> { |
---|
1803 | typedef ResType ResultType; |
---|
1804 | typedef ResType(*StorageType)(ArgType); |
---|
1805 | |
---|
1806 | static void CheckIsValid(ResType(*f)(ArgType)) { |
---|
1807 | GTEST_CHECK_(f != NULL) |
---|
1808 | << "NULL function pointer is passed into ResultOf()."; |
---|
1809 | } |
---|
1810 | template <typename T> |
---|
1811 | static ResType Invoke(ResType(*f)(ArgType), T arg) { |
---|
1812 | return (*f)(arg); |
---|
1813 | } |
---|
1814 | }; |
---|
1815 | |
---|
1816 | // Implements the ResultOf() matcher for matching a return value of a |
---|
1817 | // unary function of an object. |
---|
1818 | template <typename Callable> |
---|
1819 | class ResultOfMatcher { |
---|
1820 | public: |
---|
1821 | typedef typename CallableTraits<Callable>::ResultType ResultType; |
---|
1822 | |
---|
1823 | ResultOfMatcher(Callable callable, const Matcher<ResultType>& matcher) |
---|
1824 | : callable_(callable), matcher_(matcher) { |
---|
1825 | CallableTraits<Callable>::CheckIsValid(callable_); |
---|
1826 | } |
---|
1827 | |
---|
1828 | template <typename T> |
---|
1829 | operator Matcher<T>() const { |
---|
1830 | return Matcher<T>(new Impl<T>(callable_, matcher_)); |
---|
1831 | } |
---|
1832 | |
---|
1833 | private: |
---|
1834 | typedef typename CallableTraits<Callable>::StorageType CallableStorageType; |
---|
1835 | |
---|
1836 | template <typename T> |
---|
1837 | class Impl : public MatcherInterface<T> { |
---|
1838 | public: |
---|
1839 | Impl(CallableStorageType callable, const Matcher<ResultType>& matcher) |
---|
1840 | : callable_(callable), matcher_(matcher) {} |
---|
1841 | |
---|
1842 | virtual void DescribeTo(::std::ostream* os) const { |
---|
1843 | *os << "is mapped by the given callable to a value that "; |
---|
1844 | matcher_.DescribeTo(os); |
---|
1845 | } |
---|
1846 | |
---|
1847 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
1848 | *os << "is mapped by the given callable to a value that "; |
---|
1849 | matcher_.DescribeNegationTo(os); |
---|
1850 | } |
---|
1851 | |
---|
1852 | virtual bool MatchAndExplain(T obj, MatchResultListener* listener) const { |
---|
1853 | *listener << "which is mapped by the given callable to "; |
---|
1854 | // Cannot pass the return value (for example, int) to |
---|
1855 | // MatchPrintAndExplain, which takes a non-const reference as argument. |
---|
1856 | ResultType result = |
---|
1857 | CallableTraits<Callable>::template Invoke<T>(callable_, obj); |
---|
1858 | return MatchPrintAndExplain(result, matcher_, listener); |
---|
1859 | } |
---|
1860 | |
---|
1861 | private: |
---|
1862 | // Functors often define operator() as non-const method even though |
---|
1863 | // they are actualy stateless. But we need to use them even when |
---|
1864 | // 'this' is a const pointer. It's the user's responsibility not to |
---|
1865 | // use stateful callables with ResultOf(), which does't guarantee |
---|
1866 | // how many times the callable will be invoked. |
---|
1867 | mutable CallableStorageType callable_; |
---|
1868 | const Matcher<ResultType> matcher_; |
---|
1869 | |
---|
1870 | GTEST_DISALLOW_ASSIGN_(Impl); |
---|
1871 | }; // class Impl |
---|
1872 | |
---|
1873 | const CallableStorageType callable_; |
---|
1874 | const Matcher<ResultType> matcher_; |
---|
1875 | |
---|
1876 | GTEST_DISALLOW_ASSIGN_(ResultOfMatcher); |
---|
1877 | }; |
---|
1878 | |
---|
1879 | // Implements an equality matcher for any STL-style container whose elements |
---|
1880 | // support ==. This matcher is like Eq(), but its failure explanations provide |
---|
1881 | // more detailed information that is useful when the container is used as a set. |
---|
1882 | // The failure message reports elements that are in one of the operands but not |
---|
1883 | // the other. The failure messages do not report duplicate or out-of-order |
---|
1884 | // elements in the containers (which don't properly matter to sets, but can |
---|
1885 | // occur if the containers are vectors or lists, for example). |
---|
1886 | // |
---|
1887 | // Uses the container's const_iterator, value_type, operator ==, |
---|
1888 | // begin(), and end(). |
---|
1889 | template <typename Container> |
---|
1890 | class ContainerEqMatcher { |
---|
1891 | public: |
---|
1892 | typedef internal::StlContainerView<Container> View; |
---|
1893 | typedef typename View::type StlContainer; |
---|
1894 | typedef typename View::const_reference StlContainerReference; |
---|
1895 | |
---|
1896 | // We make a copy of rhs in case the elements in it are modified |
---|
1897 | // after this matcher is created. |
---|
1898 | explicit ContainerEqMatcher(const Container& rhs) : rhs_(View::Copy(rhs)) { |
---|
1899 | // Makes sure the user doesn't instantiate this class template |
---|
1900 | // with a const or reference type. |
---|
1901 | (void)testing::StaticAssertTypeEq<Container, |
---|
1902 | GTEST_REMOVE_REFERENCE_AND_CONST_(Container)>(); |
---|
1903 | } |
---|
1904 | |
---|
1905 | void DescribeTo(::std::ostream* os) const { |
---|
1906 | *os << "equals "; |
---|
1907 | UniversalPrint(rhs_, os); |
---|
1908 | } |
---|
1909 | void DescribeNegationTo(::std::ostream* os) const { |
---|
1910 | *os << "does not equal "; |
---|
1911 | UniversalPrint(rhs_, os); |
---|
1912 | } |
---|
1913 | |
---|
1914 | template <typename LhsContainer> |
---|
1915 | bool MatchAndExplain(const LhsContainer& lhs, |
---|
1916 | MatchResultListener* listener) const { |
---|
1917 | // GTEST_REMOVE_CONST_() is needed to work around an MSVC 8.0 bug |
---|
1918 | // that causes LhsContainer to be a const type sometimes. |
---|
1919 | typedef internal::StlContainerView<GTEST_REMOVE_CONST_(LhsContainer)> |
---|
1920 | LhsView; |
---|
1921 | typedef typename LhsView::type LhsStlContainer; |
---|
1922 | StlContainerReference lhs_stl_container = LhsView::ConstReference(lhs); |
---|
1923 | if (lhs_stl_container == rhs_) |
---|
1924 | return true; |
---|
1925 | |
---|
1926 | ::std::ostream* const os = listener->stream(); |
---|
1927 | if (os != NULL) { |
---|
1928 | // Something is different. Check for extra values first. |
---|
1929 | bool printed_header = false; |
---|
1930 | for (typename LhsStlContainer::const_iterator it = |
---|
1931 | lhs_stl_container.begin(); |
---|
1932 | it != lhs_stl_container.end(); ++it) { |
---|
1933 | if (internal::ArrayAwareFind(rhs_.begin(), rhs_.end(), *it) == |
---|
1934 | rhs_.end()) { |
---|
1935 | if (printed_header) { |
---|
1936 | *os << ", "; |
---|
1937 | } else { |
---|
1938 | *os << "which has these unexpected elements: "; |
---|
1939 | printed_header = true; |
---|
1940 | } |
---|
1941 | UniversalPrint(*it, os); |
---|
1942 | } |
---|
1943 | } |
---|
1944 | |
---|
1945 | // Now check for missing values. |
---|
1946 | bool printed_header2 = false; |
---|
1947 | for (typename StlContainer::const_iterator it = rhs_.begin(); |
---|
1948 | it != rhs_.end(); ++it) { |
---|
1949 | if (internal::ArrayAwareFind( |
---|
1950 | lhs_stl_container.begin(), lhs_stl_container.end(), *it) == |
---|
1951 | lhs_stl_container.end()) { |
---|
1952 | if (printed_header2) { |
---|
1953 | *os << ", "; |
---|
1954 | } else { |
---|
1955 | *os << (printed_header ? ",\nand" : "which") |
---|
1956 | << " doesn't have these expected elements: "; |
---|
1957 | printed_header2 = true; |
---|
1958 | } |
---|
1959 | UniversalPrint(*it, os); |
---|
1960 | } |
---|
1961 | } |
---|
1962 | } |
---|
1963 | |
---|
1964 | return false; |
---|
1965 | } |
---|
1966 | |
---|
1967 | private: |
---|
1968 | const StlContainer rhs_; |
---|
1969 | |
---|
1970 | GTEST_DISALLOW_ASSIGN_(ContainerEqMatcher); |
---|
1971 | }; |
---|
1972 | |
---|
1973 | // Implements Pointwise(tuple_matcher, rhs_container). tuple_matcher |
---|
1974 | // must be able to be safely cast to Matcher<tuple<const T1&, const |
---|
1975 | // T2&> >, where T1 and T2 are the types of elements in the LHS |
---|
1976 | // container and the RHS container respectively. |
---|
1977 | template <typename TupleMatcher, typename RhsContainer> |
---|
1978 | class PointwiseMatcher { |
---|
1979 | public: |
---|
1980 | typedef internal::StlContainerView<RhsContainer> RhsView; |
---|
1981 | typedef typename RhsView::type RhsStlContainer; |
---|
1982 | typedef typename RhsStlContainer::value_type RhsValue; |
---|
1983 | |
---|
1984 | // Like ContainerEq, we make a copy of rhs in case the elements in |
---|
1985 | // it are modified after this matcher is created. |
---|
1986 | PointwiseMatcher(const TupleMatcher& tuple_matcher, const RhsContainer& rhs) |
---|
1987 | : tuple_matcher_(tuple_matcher), rhs_(RhsView::Copy(rhs)) { |
---|
1988 | // Makes sure the user doesn't instantiate this class template |
---|
1989 | // with a const or reference type. |
---|
1990 | (void)testing::StaticAssertTypeEq<RhsContainer, |
---|
1991 | GTEST_REMOVE_REFERENCE_AND_CONST_(RhsContainer)>(); |
---|
1992 | } |
---|
1993 | |
---|
1994 | template <typename LhsContainer> |
---|
1995 | operator Matcher<LhsContainer>() const { |
---|
1996 | return MakeMatcher(new Impl<LhsContainer>(tuple_matcher_, rhs_)); |
---|
1997 | } |
---|
1998 | |
---|
1999 | template <typename LhsContainer> |
---|
2000 | class Impl : public MatcherInterface<LhsContainer> { |
---|
2001 | public: |
---|
2002 | typedef internal::StlContainerView< |
---|
2003 | GTEST_REMOVE_REFERENCE_AND_CONST_(LhsContainer)> LhsView; |
---|
2004 | typedef typename LhsView::type LhsStlContainer; |
---|
2005 | typedef typename LhsView::const_reference LhsStlContainerReference; |
---|
2006 | typedef typename LhsStlContainer::value_type LhsValue; |
---|
2007 | // We pass the LHS value and the RHS value to the inner matcher by |
---|
2008 | // reference, as they may be expensive to copy. We must use tuple |
---|
2009 | // instead of pair here, as a pair cannot hold references (C++ 98, |
---|
2010 | // 20.2.2 [lib.pairs]). |
---|
2011 | typedef std::tr1::tuple<const LhsValue&, const RhsValue&> InnerMatcherArg; |
---|
2012 | |
---|
2013 | Impl(const TupleMatcher& tuple_matcher, const RhsStlContainer& rhs) |
---|
2014 | // mono_tuple_matcher_ holds a monomorphic version of the tuple matcher. |
---|
2015 | : mono_tuple_matcher_(SafeMatcherCast<InnerMatcherArg>(tuple_matcher)), |
---|
2016 | rhs_(rhs) {} |
---|
2017 | |
---|
2018 | virtual void DescribeTo(::std::ostream* os) const { |
---|
2019 | *os << "contains " << rhs_.size() |
---|
2020 | << " values, where each value and its corresponding value in "; |
---|
2021 | UniversalPrinter<RhsStlContainer>::Print(rhs_, os); |
---|
2022 | *os << " "; |
---|
2023 | mono_tuple_matcher_.DescribeTo(os); |
---|
2024 | } |
---|
2025 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
2026 | *os << "doesn't contain exactly " << rhs_.size() |
---|
2027 | << " values, or contains a value x at some index i" |
---|
2028 | << " where x and the i-th value of "; |
---|
2029 | UniversalPrint(rhs_, os); |
---|
2030 | *os << " "; |
---|
2031 | mono_tuple_matcher_.DescribeNegationTo(os); |
---|
2032 | } |
---|
2033 | |
---|
2034 | virtual bool MatchAndExplain(LhsContainer lhs, |
---|
2035 | MatchResultListener* listener) const { |
---|
2036 | LhsStlContainerReference lhs_stl_container = LhsView::ConstReference(lhs); |
---|
2037 | const size_t actual_size = lhs_stl_container.size(); |
---|
2038 | if (actual_size != rhs_.size()) { |
---|
2039 | *listener << "which contains " << actual_size << " values"; |
---|
2040 | return false; |
---|
2041 | } |
---|
2042 | |
---|
2043 | typename LhsStlContainer::const_iterator left = lhs_stl_container.begin(); |
---|
2044 | typename RhsStlContainer::const_iterator right = rhs_.begin(); |
---|
2045 | for (size_t i = 0; i != actual_size; ++i, ++left, ++right) { |
---|
2046 | const InnerMatcherArg value_pair(*left, *right); |
---|
2047 | |
---|
2048 | if (listener->IsInterested()) { |
---|
2049 | StringMatchResultListener inner_listener; |
---|
2050 | if (!mono_tuple_matcher_.MatchAndExplain( |
---|
2051 | value_pair, &inner_listener)) { |
---|
2052 | *listener << "where the value pair ("; |
---|
2053 | UniversalPrint(*left, listener->stream()); |
---|
2054 | *listener << ", "; |
---|
2055 | UniversalPrint(*right, listener->stream()); |
---|
2056 | *listener << ") at index #" << i << " don't match"; |
---|
2057 | PrintIfNotEmpty(inner_listener.str(), listener->stream()); |
---|
2058 | return false; |
---|
2059 | } |
---|
2060 | } else { |
---|
2061 | if (!mono_tuple_matcher_.Matches(value_pair)) |
---|
2062 | return false; |
---|
2063 | } |
---|
2064 | } |
---|
2065 | |
---|
2066 | return true; |
---|
2067 | } |
---|
2068 | |
---|
2069 | private: |
---|
2070 | const Matcher<InnerMatcherArg> mono_tuple_matcher_; |
---|
2071 | const RhsStlContainer rhs_; |
---|
2072 | |
---|
2073 | GTEST_DISALLOW_ASSIGN_(Impl); |
---|
2074 | }; |
---|
2075 | |
---|
2076 | private: |
---|
2077 | const TupleMatcher tuple_matcher_; |
---|
2078 | const RhsStlContainer rhs_; |
---|
2079 | |
---|
2080 | GTEST_DISALLOW_ASSIGN_(PointwiseMatcher); |
---|
2081 | }; |
---|
2082 | |
---|
2083 | // Holds the logic common to ContainsMatcherImpl and EachMatcherImpl. |
---|
2084 | template <typename Container> |
---|
2085 | class QuantifierMatcherImpl : public MatcherInterface<Container> { |
---|
2086 | public: |
---|
2087 | typedef GTEST_REMOVE_REFERENCE_AND_CONST_(Container) RawContainer; |
---|
2088 | typedef StlContainerView<RawContainer> View; |
---|
2089 | typedef typename View::type StlContainer; |
---|
2090 | typedef typename View::const_reference StlContainerReference; |
---|
2091 | typedef typename StlContainer::value_type Element; |
---|
2092 | |
---|
2093 | template <typename InnerMatcher> |
---|
2094 | explicit QuantifierMatcherImpl(InnerMatcher inner_matcher) |
---|
2095 | : inner_matcher_( |
---|
2096 | testing::SafeMatcherCast<const Element&>(inner_matcher)) {} |
---|
2097 | |
---|
2098 | // Checks whether: |
---|
2099 | // * All elements in the container match, if all_elements_should_match. |
---|
2100 | // * Any element in the container matches, if !all_elements_should_match. |
---|
2101 | bool MatchAndExplainImpl(bool all_elements_should_match, |
---|
2102 | Container container, |
---|
2103 | MatchResultListener* listener) const { |
---|
2104 | StlContainerReference stl_container = View::ConstReference(container); |
---|
2105 | size_t i = 0; |
---|
2106 | for (typename StlContainer::const_iterator it = stl_container.begin(); |
---|
2107 | it != stl_container.end(); ++it, ++i) { |
---|
2108 | StringMatchResultListener inner_listener; |
---|
2109 | const bool matches = inner_matcher_.MatchAndExplain(*it, &inner_listener); |
---|
2110 | |
---|
2111 | if (matches != all_elements_should_match) { |
---|
2112 | *listener << "whose element #" << i |
---|
2113 | << (matches ? " matches" : " doesn't match"); |
---|
2114 | PrintIfNotEmpty(inner_listener.str(), listener->stream()); |
---|
2115 | return !all_elements_should_match; |
---|
2116 | } |
---|
2117 | } |
---|
2118 | return all_elements_should_match; |
---|
2119 | } |
---|
2120 | |
---|
2121 | protected: |
---|
2122 | const Matcher<const Element&> inner_matcher_; |
---|
2123 | |
---|
2124 | GTEST_DISALLOW_ASSIGN_(QuantifierMatcherImpl); |
---|
2125 | }; |
---|
2126 | |
---|
2127 | // Implements Contains(element_matcher) for the given argument type Container. |
---|
2128 | // Symmetric to EachMatcherImpl. |
---|
2129 | template <typename Container> |
---|
2130 | class ContainsMatcherImpl : public QuantifierMatcherImpl<Container> { |
---|
2131 | public: |
---|
2132 | template <typename InnerMatcher> |
---|
2133 | explicit ContainsMatcherImpl(InnerMatcher inner_matcher) |
---|
2134 | : QuantifierMatcherImpl<Container>(inner_matcher) {} |
---|
2135 | |
---|
2136 | // Describes what this matcher does. |
---|
2137 | virtual void DescribeTo(::std::ostream* os) const { |
---|
2138 | *os << "contains at least one element that "; |
---|
2139 | this->inner_matcher_.DescribeTo(os); |
---|
2140 | } |
---|
2141 | |
---|
2142 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
2143 | *os << "doesn't contain any element that "; |
---|
2144 | this->inner_matcher_.DescribeTo(os); |
---|
2145 | } |
---|
2146 | |
---|
2147 | virtual bool MatchAndExplain(Container container, |
---|
2148 | MatchResultListener* listener) const { |
---|
2149 | return this->MatchAndExplainImpl(false, container, listener); |
---|
2150 | } |
---|
2151 | |
---|
2152 | private: |
---|
2153 | GTEST_DISALLOW_ASSIGN_(ContainsMatcherImpl); |
---|
2154 | }; |
---|
2155 | |
---|
2156 | // Implements Each(element_matcher) for the given argument type Container. |
---|
2157 | // Symmetric to ContainsMatcherImpl. |
---|
2158 | template <typename Container> |
---|
2159 | class EachMatcherImpl : public QuantifierMatcherImpl<Container> { |
---|
2160 | public: |
---|
2161 | template <typename InnerMatcher> |
---|
2162 | explicit EachMatcherImpl(InnerMatcher inner_matcher) |
---|
2163 | : QuantifierMatcherImpl<Container>(inner_matcher) {} |
---|
2164 | |
---|
2165 | // Describes what this matcher does. |
---|
2166 | virtual void DescribeTo(::std::ostream* os) const { |
---|
2167 | *os << "only contains elements that "; |
---|
2168 | this->inner_matcher_.DescribeTo(os); |
---|
2169 | } |
---|
2170 | |
---|
2171 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
2172 | *os << "contains some element that "; |
---|
2173 | this->inner_matcher_.DescribeNegationTo(os); |
---|
2174 | } |
---|
2175 | |
---|
2176 | virtual bool MatchAndExplain(Container container, |
---|
2177 | MatchResultListener* listener) const { |
---|
2178 | return this->MatchAndExplainImpl(true, container, listener); |
---|
2179 | } |
---|
2180 | |
---|
2181 | private: |
---|
2182 | GTEST_DISALLOW_ASSIGN_(EachMatcherImpl); |
---|
2183 | }; |
---|
2184 | |
---|
2185 | // Implements polymorphic Contains(element_matcher). |
---|
2186 | template <typename M> |
---|
2187 | class ContainsMatcher { |
---|
2188 | public: |
---|
2189 | explicit ContainsMatcher(M m) : inner_matcher_(m) {} |
---|
2190 | |
---|
2191 | template <typename Container> |
---|
2192 | operator Matcher<Container>() const { |
---|
2193 | return MakeMatcher(new ContainsMatcherImpl<Container>(inner_matcher_)); |
---|
2194 | } |
---|
2195 | |
---|
2196 | private: |
---|
2197 | const M inner_matcher_; |
---|
2198 | |
---|
2199 | GTEST_DISALLOW_ASSIGN_(ContainsMatcher); |
---|
2200 | }; |
---|
2201 | |
---|
2202 | // Implements polymorphic Each(element_matcher). |
---|
2203 | template <typename M> |
---|
2204 | class EachMatcher { |
---|
2205 | public: |
---|
2206 | explicit EachMatcher(M m) : inner_matcher_(m) {} |
---|
2207 | |
---|
2208 | template <typename Container> |
---|
2209 | operator Matcher<Container>() const { |
---|
2210 | return MakeMatcher(new EachMatcherImpl<Container>(inner_matcher_)); |
---|
2211 | } |
---|
2212 | |
---|
2213 | private: |
---|
2214 | const M inner_matcher_; |
---|
2215 | |
---|
2216 | GTEST_DISALLOW_ASSIGN_(EachMatcher); |
---|
2217 | }; |
---|
2218 | |
---|
2219 | // Implements Key(inner_matcher) for the given argument pair type. |
---|
2220 | // Key(inner_matcher) matches an std::pair whose 'first' field matches |
---|
2221 | // inner_matcher. For example, Contains(Key(Ge(5))) can be used to match an |
---|
2222 | // std::map that contains at least one element whose key is >= 5. |
---|
2223 | template <typename PairType> |
---|
2224 | class KeyMatcherImpl : public MatcherInterface<PairType> { |
---|
2225 | public: |
---|
2226 | typedef GTEST_REMOVE_REFERENCE_AND_CONST_(PairType) RawPairType; |
---|
2227 | typedef typename RawPairType::first_type KeyType; |
---|
2228 | |
---|
2229 | template <typename InnerMatcher> |
---|
2230 | explicit KeyMatcherImpl(InnerMatcher inner_matcher) |
---|
2231 | : inner_matcher_( |
---|
2232 | testing::SafeMatcherCast<const KeyType&>(inner_matcher)) { |
---|
2233 | } |
---|
2234 | |
---|
2235 | // Returns true iff 'key_value.first' (the key) matches the inner matcher. |
---|
2236 | virtual bool MatchAndExplain(PairType key_value, |
---|
2237 | MatchResultListener* listener) const { |
---|
2238 | StringMatchResultListener inner_listener; |
---|
2239 | const bool match = inner_matcher_.MatchAndExplain(key_value.first, |
---|
2240 | &inner_listener); |
---|
2241 | const internal::string explanation = inner_listener.str(); |
---|
2242 | if (explanation != "") { |
---|
2243 | *listener << "whose first field is a value " << explanation; |
---|
2244 | } |
---|
2245 | return match; |
---|
2246 | } |
---|
2247 | |
---|
2248 | // Describes what this matcher does. |
---|
2249 | virtual void DescribeTo(::std::ostream* os) const { |
---|
2250 | *os << "has a key that "; |
---|
2251 | inner_matcher_.DescribeTo(os); |
---|
2252 | } |
---|
2253 | |
---|
2254 | // Describes what the negation of this matcher does. |
---|
2255 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
2256 | *os << "doesn't have a key that "; |
---|
2257 | inner_matcher_.DescribeTo(os); |
---|
2258 | } |
---|
2259 | |
---|
2260 | private: |
---|
2261 | const Matcher<const KeyType&> inner_matcher_; |
---|
2262 | |
---|
2263 | GTEST_DISALLOW_ASSIGN_(KeyMatcherImpl); |
---|
2264 | }; |
---|
2265 | |
---|
2266 | // Implements polymorphic Key(matcher_for_key). |
---|
2267 | template <typename M> |
---|
2268 | class KeyMatcher { |
---|
2269 | public: |
---|
2270 | explicit KeyMatcher(M m) : matcher_for_key_(m) {} |
---|
2271 | |
---|
2272 | template <typename PairType> |
---|
2273 | operator Matcher<PairType>() const { |
---|
2274 | return MakeMatcher(new KeyMatcherImpl<PairType>(matcher_for_key_)); |
---|
2275 | } |
---|
2276 | |
---|
2277 | private: |
---|
2278 | const M matcher_for_key_; |
---|
2279 | |
---|
2280 | GTEST_DISALLOW_ASSIGN_(KeyMatcher); |
---|
2281 | }; |
---|
2282 | |
---|
2283 | // Implements Pair(first_matcher, second_matcher) for the given argument pair |
---|
2284 | // type with its two matchers. See Pair() function below. |
---|
2285 | template <typename PairType> |
---|
2286 | class PairMatcherImpl : public MatcherInterface<PairType> { |
---|
2287 | public: |
---|
2288 | typedef GTEST_REMOVE_REFERENCE_AND_CONST_(PairType) RawPairType; |
---|
2289 | typedef typename RawPairType::first_type FirstType; |
---|
2290 | typedef typename RawPairType::second_type SecondType; |
---|
2291 | |
---|
2292 | template <typename FirstMatcher, typename SecondMatcher> |
---|
2293 | PairMatcherImpl(FirstMatcher first_matcher, SecondMatcher second_matcher) |
---|
2294 | : first_matcher_( |
---|
2295 | testing::SafeMatcherCast<const FirstType&>(first_matcher)), |
---|
2296 | second_matcher_( |
---|
2297 | testing::SafeMatcherCast<const SecondType&>(second_matcher)) { |
---|
2298 | } |
---|
2299 | |
---|
2300 | // Describes what this matcher does. |
---|
2301 | virtual void DescribeTo(::std::ostream* os) const { |
---|
2302 | *os << "has a first field that "; |
---|
2303 | first_matcher_.DescribeTo(os); |
---|
2304 | *os << ", and has a second field that "; |
---|
2305 | second_matcher_.DescribeTo(os); |
---|
2306 | } |
---|
2307 | |
---|
2308 | // Describes what the negation of this matcher does. |
---|
2309 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
2310 | *os << "has a first field that "; |
---|
2311 | first_matcher_.DescribeNegationTo(os); |
---|
2312 | *os << ", or has a second field that "; |
---|
2313 | second_matcher_.DescribeNegationTo(os); |
---|
2314 | } |
---|
2315 | |
---|
2316 | // Returns true iff 'a_pair.first' matches first_matcher and 'a_pair.second' |
---|
2317 | // matches second_matcher. |
---|
2318 | virtual bool MatchAndExplain(PairType a_pair, |
---|
2319 | MatchResultListener* listener) const { |
---|
2320 | if (!listener->IsInterested()) { |
---|
2321 | // If the listener is not interested, we don't need to construct the |
---|
2322 | // explanation. |
---|
2323 | return first_matcher_.Matches(a_pair.first) && |
---|
2324 | second_matcher_.Matches(a_pair.second); |
---|
2325 | } |
---|
2326 | StringMatchResultListener first_inner_listener; |
---|
2327 | if (!first_matcher_.MatchAndExplain(a_pair.first, |
---|
2328 | &first_inner_listener)) { |
---|
2329 | *listener << "whose first field does not match"; |
---|
2330 | PrintIfNotEmpty(first_inner_listener.str(), listener->stream()); |
---|
2331 | return false; |
---|
2332 | } |
---|
2333 | StringMatchResultListener second_inner_listener; |
---|
2334 | if (!second_matcher_.MatchAndExplain(a_pair.second, |
---|
2335 | &second_inner_listener)) { |
---|
2336 | *listener << "whose second field does not match"; |
---|
2337 | PrintIfNotEmpty(second_inner_listener.str(), listener->stream()); |
---|
2338 | return false; |
---|
2339 | } |
---|
2340 | ExplainSuccess(first_inner_listener.str(), second_inner_listener.str(), |
---|
2341 | listener); |
---|
2342 | return true; |
---|
2343 | } |
---|
2344 | |
---|
2345 | private: |
---|
2346 | void ExplainSuccess(const internal::string& first_explanation, |
---|
2347 | const internal::string& second_explanation, |
---|
2348 | MatchResultListener* listener) const { |
---|
2349 | *listener << "whose both fields match"; |
---|
2350 | if (first_explanation != "") { |
---|
2351 | *listener << ", where the first field is a value " << first_explanation; |
---|
2352 | } |
---|
2353 | if (second_explanation != "") { |
---|
2354 | *listener << ", "; |
---|
2355 | if (first_explanation != "") { |
---|
2356 | *listener << "and "; |
---|
2357 | } else { |
---|
2358 | *listener << "where "; |
---|
2359 | } |
---|
2360 | *listener << "the second field is a value " << second_explanation; |
---|
2361 | } |
---|
2362 | } |
---|
2363 | |
---|
2364 | const Matcher<const FirstType&> first_matcher_; |
---|
2365 | const Matcher<const SecondType&> second_matcher_; |
---|
2366 | |
---|
2367 | GTEST_DISALLOW_ASSIGN_(PairMatcherImpl); |
---|
2368 | }; |
---|
2369 | |
---|
2370 | // Implements polymorphic Pair(first_matcher, second_matcher). |
---|
2371 | template <typename FirstMatcher, typename SecondMatcher> |
---|
2372 | class PairMatcher { |
---|
2373 | public: |
---|
2374 | PairMatcher(FirstMatcher first_matcher, SecondMatcher second_matcher) |
---|
2375 | : first_matcher_(first_matcher), second_matcher_(second_matcher) {} |
---|
2376 | |
---|
2377 | template <typename PairType> |
---|
2378 | operator Matcher<PairType> () const { |
---|
2379 | return MakeMatcher( |
---|
2380 | new PairMatcherImpl<PairType>( |
---|
2381 | first_matcher_, second_matcher_)); |
---|
2382 | } |
---|
2383 | |
---|
2384 | private: |
---|
2385 | const FirstMatcher first_matcher_; |
---|
2386 | const SecondMatcher second_matcher_; |
---|
2387 | |
---|
2388 | GTEST_DISALLOW_ASSIGN_(PairMatcher); |
---|
2389 | }; |
---|
2390 | |
---|
2391 | // Implements ElementsAre() and ElementsAreArray(). |
---|
2392 | template <typename Container> |
---|
2393 | class ElementsAreMatcherImpl : public MatcherInterface<Container> { |
---|
2394 | public: |
---|
2395 | typedef GTEST_REMOVE_REFERENCE_AND_CONST_(Container) RawContainer; |
---|
2396 | typedef internal::StlContainerView<RawContainer> View; |
---|
2397 | typedef typename View::type StlContainer; |
---|
2398 | typedef typename View::const_reference StlContainerReference; |
---|
2399 | typedef typename StlContainer::value_type Element; |
---|
2400 | |
---|
2401 | // Constructs the matcher from a sequence of element values or |
---|
2402 | // element matchers. |
---|
2403 | template <typename InputIter> |
---|
2404 | ElementsAreMatcherImpl(InputIter first, size_t a_count) { |
---|
2405 | matchers_.reserve(a_count); |
---|
2406 | InputIter it = first; |
---|
2407 | for (size_t i = 0; i != a_count; ++i, ++it) { |
---|
2408 | matchers_.push_back(MatcherCast<const Element&>(*it)); |
---|
2409 | } |
---|
2410 | } |
---|
2411 | |
---|
2412 | // Describes what this matcher does. |
---|
2413 | virtual void DescribeTo(::std::ostream* os) const { |
---|
2414 | if (count() == 0) { |
---|
2415 | *os << "is empty"; |
---|
2416 | } else if (count() == 1) { |
---|
2417 | *os << "has 1 element that "; |
---|
2418 | matchers_[0].DescribeTo(os); |
---|
2419 | } else { |
---|
2420 | *os << "has " << Elements(count()) << " where\n"; |
---|
2421 | for (size_t i = 0; i != count(); ++i) { |
---|
2422 | *os << "element #" << i << " "; |
---|
2423 | matchers_[i].DescribeTo(os); |
---|
2424 | if (i + 1 < count()) { |
---|
2425 | *os << ",\n"; |
---|
2426 | } |
---|
2427 | } |
---|
2428 | } |
---|
2429 | } |
---|
2430 | |
---|
2431 | // Describes what the negation of this matcher does. |
---|
2432 | virtual void DescribeNegationTo(::std::ostream* os) const { |
---|
2433 | if (count() == 0) { |
---|
2434 | *os << "isn't empty"; |
---|
2435 | return; |
---|
2436 | } |
---|
2437 | |
---|
2438 | *os << "doesn't have " << Elements(count()) << ", or\n"; |
---|
2439 | for (size_t i = 0; i != count(); ++i) { |
---|
2440 | *os << "element #" << i << " "; |
---|
2441 | matchers_[i].DescribeNegationTo(os); |
---|
2442 | if (i + 1 < count()) { |
---|
2443 | *os << ", or\n"; |
---|
2444 | } |
---|
2445 | } |
---|
2446 | } |
---|
2447 | |
---|
2448 | virtual bool MatchAndExplain(Container container, |
---|
2449 | MatchResultListener* listener) const { |
---|
2450 | StlContainerReference stl_container = View::ConstReference(container); |
---|
2451 | const size_t actual_count = stl_container.size(); |
---|
2452 | if (actual_count != count()) { |
---|
2453 | // The element count doesn't match. If the container is empty, |
---|
2454 | // there's no need to explain anything as Google Mock already |
---|
2455 | // prints the empty container. Otherwise we just need to show |
---|
2456 | // how many elements there actually are. |
---|
2457 | if (actual_count != 0) { |
---|
2458 | *listener << "which has " << Elements(actual_count); |
---|
2459 | } |
---|
2460 | return false; |
---|
2461 | } |
---|
2462 | |
---|
2463 | typename StlContainer::const_iterator it = stl_container.begin(); |
---|
2464 | // explanations[i] is the explanation of the element at index i. |
---|
2465 | std::vector<internal::string> explanations(count()); |
---|
2466 | for (size_t i = 0; i != count(); ++it, ++i) { |
---|
2467 | StringMatchResultListener s; |
---|
2468 | if (matchers_[i].MatchAndExplain(*it, &s)) { |
---|
2469 | explanations[i] = s.str(); |
---|
2470 | } else { |
---|
2471 | // The container has the right size but the i-th element |
---|
2472 | // doesn't match its expectation. |
---|
2473 | *listener << "whose element #" << i << " doesn't match"; |
---|
2474 | PrintIfNotEmpty(s.str(), listener->stream()); |
---|
2475 | return false; |
---|
2476 | } |
---|
2477 | } |
---|
2478 | |
---|
2479 | // Every element matches its expectation. We need to explain why |
---|
2480 | // (the obvious ones can be skipped). |
---|
2481 | bool reason_printed = false; |
---|
2482 | for (size_t i = 0; i != count(); ++i) { |
---|
2483 | const internal::string& s = explanations[i]; |
---|
2484 | if (!s.empty()) { |
---|
2485 | if (reason_printed) { |
---|
2486 | *listener << ",\nand "; |
---|
2487 | } |
---|
2488 | *listener << "whose element #" << i << " matches, " << s; |
---|
2489 | reason_printed = true; |
---|
2490 | } |
---|
2491 | } |
---|
2492 | |
---|
2493 | return true; |
---|
2494 | } |
---|
2495 | |
---|
2496 | private: |
---|
2497 | static Message Elements(size_t count) { |
---|
2498 | return Message() << count << (count == 1 ? " element" : " elements"); |
---|
2499 | } |
---|
2500 | |
---|
2501 | size_t count() const { return matchers_.size(); } |
---|
2502 | std::vector<Matcher<const Element&> > matchers_; |
---|
2503 | |
---|
2504 | GTEST_DISALLOW_ASSIGN_(ElementsAreMatcherImpl); |
---|
2505 | }; |
---|
2506 | |
---|
2507 | // Implements ElementsAre() of 0 arguments. |
---|
2508 | class ElementsAreMatcher0 { |
---|
2509 | public: |
---|
2510 | ElementsAreMatcher0() {} |
---|
2511 | |
---|
2512 | template <typename Container> |
---|
2513 | operator Matcher<Container>() const { |
---|
2514 | typedef GTEST_REMOVE_REFERENCE_AND_CONST_(Container) RawContainer; |
---|
2515 | typedef typename internal::StlContainerView<RawContainer>::type::value_type |
---|
2516 | Element; |
---|
2517 | |
---|
2518 | const Matcher<const Element&>* const matchers = NULL; |
---|
2519 | return MakeMatcher(new ElementsAreMatcherImpl<Container>(matchers, 0)); |
---|
2520 | } |
---|
2521 | }; |
---|
2522 | |
---|
2523 | // Implements ElementsAreArray(). |
---|
2524 | template <typename T> |
---|
2525 | class ElementsAreArrayMatcher { |
---|
2526 | public: |
---|
2527 | ElementsAreArrayMatcher(const T* first, size_t count) : |
---|
2528 | first_(first), count_(count) {} |
---|
2529 | |
---|
2530 | template <typename Container> |
---|
2531 | operator Matcher<Container>() const { |
---|
2532 | typedef GTEST_REMOVE_REFERENCE_AND_CONST_(Container) RawContainer; |
---|
2533 | typedef typename internal::StlContainerView<RawContainer>::type::value_type |
---|
2534 | Element; |
---|
2535 | |
---|
2536 | return MakeMatcher(new ElementsAreMatcherImpl<Container>(first_, count_)); |
---|
2537 | } |
---|
2538 | |
---|
2539 | private: |
---|
2540 | const T* const first_; |
---|
2541 | const size_t count_; |
---|
2542 | |
---|
2543 | GTEST_DISALLOW_ASSIGN_(ElementsAreArrayMatcher); |
---|
2544 | }; |
---|
2545 | |
---|
2546 | // Returns the description for a matcher defined using the MATCHER*() |
---|
2547 | // macro where the user-supplied description string is "", if |
---|
2548 | // 'negation' is false; otherwise returns the description of the |
---|
2549 | // negation of the matcher. 'param_values' contains a list of strings |
---|
2550 | // that are the print-out of the matcher's parameters. |
---|
2551 | string FormatMatcherDescription(bool negation, const char* matcher_name, |
---|
2552 | const Strings& param_values); |
---|
2553 | |
---|
2554 | } // namespace internal |
---|
2555 | |
---|
2556 | // Implements MatcherCast(). |
---|
2557 | template <typename T, typename M> |
---|
2558 | inline Matcher<T> MatcherCast(M matcher) { |
---|
2559 | return internal::MatcherCastImpl<T, M>::Cast(matcher); |
---|
2560 | } |
---|
2561 | |
---|
2562 | // _ is a matcher that matches anything of any type. |
---|
2563 | // |
---|
2564 | // This definition is fine as: |
---|
2565 | // |
---|
2566 | // 1. The C++ standard permits using the name _ in a namespace that |
---|
2567 | // is not the global namespace or ::std. |
---|
2568 | // 2. The AnythingMatcher class has no data member or constructor, |
---|
2569 | // so it's OK to create global variables of this type. |
---|
2570 | // 3. c-style has approved of using _ in this case. |
---|
2571 | const internal::AnythingMatcher _ = {}; |
---|
2572 | // Creates a matcher that matches any value of the given type T. |
---|
2573 | template <typename T> |
---|
2574 | inline Matcher<T> A() { return MakeMatcher(new internal::AnyMatcherImpl<T>()); } |
---|
2575 | |
---|
2576 | // Creates a matcher that matches any value of the given type T. |
---|
2577 | template <typename T> |
---|
2578 | inline Matcher<T> An() { return A<T>(); } |
---|
2579 | |
---|
2580 | // Creates a polymorphic matcher that matches anything equal to x. |
---|
2581 | // Note: if the parameter of Eq() were declared as const T&, Eq("foo") |
---|
2582 | // wouldn't compile. |
---|
2583 | template <typename T> |
---|
2584 | inline internal::EqMatcher<T> Eq(T x) { return internal::EqMatcher<T>(x); } |
---|
2585 | |
---|
2586 | // Constructs a Matcher<T> from a 'value' of type T. The constructed |
---|
2587 | // matcher matches any value that's equal to 'value'. |
---|
2588 | template <typename T> |
---|
2589 | Matcher<T>::Matcher(T value) { *this = Eq(value); } |
---|
2590 | |
---|
2591 | // Creates a monomorphic matcher that matches anything with type Lhs |
---|
2592 | // and equal to rhs. A user may need to use this instead of Eq(...) |
---|
2593 | // in order to resolve an overloading ambiguity. |
---|
2594 | // |
---|
2595 | // TypedEq<T>(x) is just a convenient short-hand for Matcher<T>(Eq(x)) |
---|
2596 | // or Matcher<T>(x), but more readable than the latter. |
---|
2597 | // |
---|
2598 | // We could define similar monomorphic matchers for other comparison |
---|
2599 | // operations (e.g. TypedLt, TypedGe, and etc), but decided not to do |
---|
2600 | // it yet as those are used much less than Eq() in practice. A user |
---|
2601 | // can always write Matcher<T>(Lt(5)) to be explicit about the type, |
---|
2602 | // for example. |
---|
2603 | template <typename Lhs, typename Rhs> |
---|
2604 | inline Matcher<Lhs> TypedEq(const Rhs& rhs) { return Eq(rhs); } |
---|
2605 | |
---|
2606 | // Creates a polymorphic matcher that matches anything >= x. |
---|
2607 | template <typename Rhs> |
---|
2608 | inline internal::GeMatcher<Rhs> Ge(Rhs x) { |
---|
2609 | return internal::GeMatcher<Rhs>(x); |
---|
2610 | } |
---|
2611 | |
---|
2612 | // Creates a polymorphic matcher that matches anything > x. |
---|
2613 | template <typename Rhs> |
---|
2614 | inline internal::GtMatcher<Rhs> Gt(Rhs x) { |
---|
2615 | return internal::GtMatcher<Rhs>(x); |
---|
2616 | } |
---|
2617 | |
---|
2618 | // Creates a polymorphic matcher that matches anything <= x. |
---|
2619 | template <typename Rhs> |
---|
2620 | inline internal::LeMatcher<Rhs> Le(Rhs x) { |
---|
2621 | return internal::LeMatcher<Rhs>(x); |
---|
2622 | } |
---|
2623 | |
---|
2624 | // Creates a polymorphic matcher that matches anything < x. |
---|
2625 | template <typename Rhs> |
---|
2626 | inline internal::LtMatcher<Rhs> Lt(Rhs x) { |
---|
2627 | return internal::LtMatcher<Rhs>(x); |
---|
2628 | } |
---|
2629 | |
---|
2630 | // Creates a polymorphic matcher that matches anything != x. |
---|
2631 | template <typename Rhs> |
---|
2632 | inline internal::NeMatcher<Rhs> Ne(Rhs x) { |
---|
2633 | return internal::NeMatcher<Rhs>(x); |
---|
2634 | } |
---|
2635 | |
---|
2636 | // Creates a polymorphic matcher that matches any NULL pointer. |
---|
2637 | inline PolymorphicMatcher<internal::IsNullMatcher > IsNull() { |
---|
2638 | return MakePolymorphicMatcher(internal::IsNullMatcher()); |
---|
2639 | } |
---|
2640 | |
---|
2641 | // Creates a polymorphic matcher that matches any non-NULL pointer. |
---|
2642 | // This is convenient as Not(NULL) doesn't compile (the compiler |
---|
2643 | // thinks that that expression is comparing a pointer with an integer). |
---|
2644 | inline PolymorphicMatcher<internal::NotNullMatcher > NotNull() { |
---|
2645 | return MakePolymorphicMatcher(internal::NotNullMatcher()); |
---|
2646 | } |
---|
2647 | |
---|
2648 | // Creates a polymorphic matcher that matches any argument that |
---|
2649 | // references variable x. |
---|
2650 | template <typename T> |
---|
2651 | inline internal::RefMatcher<T&> Ref(T& x) { // NOLINT |
---|
2652 | return internal::RefMatcher<T&>(x); |
---|
2653 | } |
---|
2654 | |
---|
2655 | // Creates a matcher that matches any double argument approximately |
---|
2656 | // equal to rhs, where two NANs are considered unequal. |
---|
2657 | inline internal::FloatingEqMatcher<double> DoubleEq(double rhs) { |
---|
2658 | return internal::FloatingEqMatcher<double>(rhs, false); |
---|
2659 | } |
---|
2660 | |
---|
2661 | // Creates a matcher that matches any double argument approximately |
---|
2662 | // equal to rhs, including NaN values when rhs is NaN. |
---|
2663 | inline internal::FloatingEqMatcher<double> NanSensitiveDoubleEq(double rhs) { |
---|
2664 | return internal::FloatingEqMatcher<double>(rhs, true); |
---|
2665 | } |
---|
2666 | |
---|
2667 | // Creates a matcher that matches any float argument approximately |
---|
2668 | // equal to rhs, where two NANs are considered unequal. |
---|
2669 | inline internal::FloatingEqMatcher<float> FloatEq(float rhs) { |
---|
2670 | return internal::FloatingEqMatcher<float>(rhs, false); |
---|
2671 | } |
---|
2672 | |
---|
2673 | // Creates a matcher that matches any double argument approximately |
---|
2674 | // equal to rhs, including NaN values when rhs is NaN. |
---|
2675 | inline internal::FloatingEqMatcher<float> NanSensitiveFloatEq(float rhs) { |
---|
2676 | return internal::FloatingEqMatcher<float>(rhs, true); |
---|
2677 | } |
---|
2678 | |
---|
2679 | // Creates a matcher that matches a pointer (raw or smart) that points |
---|
2680 | // to a value that matches inner_matcher. |
---|
2681 | template <typename InnerMatcher> |
---|
2682 | inline internal::PointeeMatcher<InnerMatcher> Pointee( |
---|
2683 | const InnerMatcher& inner_matcher) { |
---|
2684 | return internal::PointeeMatcher<InnerMatcher>(inner_matcher); |
---|
2685 | } |
---|
2686 | |
---|
2687 | // Creates a matcher that matches an object whose given field matches |
---|
2688 | // 'matcher'. For example, |
---|
2689 | // Field(&Foo::number, Ge(5)) |
---|
2690 | // matches a Foo object x iff x.number >= 5. |
---|
2691 | template <typename Class, typename FieldType, typename FieldMatcher> |
---|
2692 | inline PolymorphicMatcher< |
---|
2693 | internal::FieldMatcher<Class, FieldType> > Field( |
---|
2694 | FieldType Class::*field, const FieldMatcher& matcher) { |
---|
2695 | return MakePolymorphicMatcher( |
---|
2696 | internal::FieldMatcher<Class, FieldType>( |
---|
2697 | field, MatcherCast<const FieldType&>(matcher))); |
---|
2698 | // The call to MatcherCast() is required for supporting inner |
---|
2699 | // matchers of compatible types. For example, it allows |
---|
2700 | // Field(&Foo::bar, m) |
---|
2701 | // to compile where bar is an int32 and m is a matcher for int64. |
---|
2702 | } |
---|
2703 | |
---|
2704 | // Creates a matcher that matches an object whose given property |
---|
2705 | // matches 'matcher'. For example, |
---|
2706 | // Property(&Foo::str, StartsWith("hi")) |
---|
2707 | // matches a Foo object x iff x.str() starts with "hi". |
---|
2708 | template <typename Class, typename PropertyType, typename PropertyMatcher> |
---|
2709 | inline PolymorphicMatcher< |
---|
2710 | internal::PropertyMatcher<Class, PropertyType> > Property( |
---|
2711 | PropertyType (Class::*property)() const, const PropertyMatcher& matcher) { |
---|
2712 | return MakePolymorphicMatcher( |
---|
2713 | internal::PropertyMatcher<Class, PropertyType>( |
---|
2714 | property, |
---|
2715 | MatcherCast<GTEST_REFERENCE_TO_CONST_(PropertyType)>(matcher))); |
---|
2716 | // The call to MatcherCast() is required for supporting inner |
---|
2717 | // matchers of compatible types. For example, it allows |
---|
2718 | // Property(&Foo::bar, m) |
---|
2719 | // to compile where bar() returns an int32 and m is a matcher for int64. |
---|
2720 | } |
---|
2721 | |
---|
2722 | // Creates a matcher that matches an object iff the result of applying |
---|
2723 | // a callable to x matches 'matcher'. |
---|
2724 | // For example, |
---|
2725 | // ResultOf(f, StartsWith("hi")) |
---|
2726 | // matches a Foo object x iff f(x) starts with "hi". |
---|
2727 | // callable parameter can be a function, function pointer, or a functor. |
---|
2728 | // Callable has to satisfy the following conditions: |
---|
2729 | // * It is required to keep no state affecting the results of |
---|
2730 | // the calls on it and make no assumptions about how many calls |
---|
2731 | // will be made. Any state it keeps must be protected from the |
---|
2732 | // concurrent access. |
---|
2733 | // * If it is a function object, it has to define type result_type. |
---|
2734 | // We recommend deriving your functor classes from std::unary_function. |
---|
2735 | template <typename Callable, typename ResultOfMatcher> |
---|
2736 | internal::ResultOfMatcher<Callable> ResultOf( |
---|
2737 | Callable callable, const ResultOfMatcher& matcher) { |
---|
2738 | return internal::ResultOfMatcher<Callable>( |
---|
2739 | callable, |
---|
2740 | MatcherCast<typename internal::CallableTraits<Callable>::ResultType>( |
---|
2741 | matcher)); |
---|
2742 | // The call to MatcherCast() is required for supporting inner |
---|
2743 | // matchers of compatible types. For example, it allows |
---|
2744 | // ResultOf(Function, m) |
---|
2745 | // to compile where Function() returns an int32 and m is a matcher for int64. |
---|
2746 | } |
---|
2747 | |
---|
2748 | // String matchers. |
---|
2749 | |
---|
2750 | // Matches a string equal to str. |
---|
2751 | inline PolymorphicMatcher<internal::StrEqualityMatcher<internal::string> > |
---|
2752 | StrEq(const internal::string& str) { |
---|
2753 | return MakePolymorphicMatcher(internal::StrEqualityMatcher<internal::string>( |
---|
2754 | str, true, true)); |
---|
2755 | } |
---|
2756 | |
---|
2757 | // Matches a string not equal to str. |
---|
2758 | inline PolymorphicMatcher<internal::StrEqualityMatcher<internal::string> > |
---|
2759 | StrNe(const internal::string& str) { |
---|
2760 | return MakePolymorphicMatcher(internal::StrEqualityMatcher<internal::string>( |
---|
2761 | str, false, true)); |
---|
2762 | } |
---|
2763 | |
---|
2764 | // Matches a string equal to str, ignoring case. |
---|
2765 | inline PolymorphicMatcher<internal::StrEqualityMatcher<internal::string> > |
---|
2766 | StrCaseEq(const internal::string& str) { |
---|
2767 | return MakePolymorphicMatcher(internal::StrEqualityMatcher<internal::string>( |
---|
2768 | str, true, false)); |
---|
2769 | } |
---|
2770 | |
---|
2771 | // Matches a string not equal to str, ignoring case. |
---|
2772 | inline PolymorphicMatcher<internal::StrEqualityMatcher<internal::string> > |
---|
2773 | StrCaseNe(const internal::string& str) { |
---|
2774 | return MakePolymorphicMatcher(internal::StrEqualityMatcher<internal::string>( |
---|
2775 | str, false, false)); |
---|
2776 | } |
---|
2777 | |
---|
2778 | // Creates a matcher that matches any string, std::string, or C string |
---|
2779 | // that contains the given substring. |
---|
2780 | inline PolymorphicMatcher<internal::HasSubstrMatcher<internal::string> > |
---|
2781 | HasSubstr(const internal::string& substring) { |
---|
2782 | return MakePolymorphicMatcher(internal::HasSubstrMatcher<internal::string>( |
---|
2783 | substring)); |
---|
2784 | } |
---|
2785 | |
---|
2786 | // Matches a string that starts with 'prefix' (case-sensitive). |
---|
2787 | inline PolymorphicMatcher<internal::StartsWithMatcher<internal::string> > |
---|
2788 | StartsWith(const internal::string& prefix) { |
---|
2789 | return MakePolymorphicMatcher(internal::StartsWithMatcher<internal::string>( |
---|
2790 | prefix)); |
---|
2791 | } |
---|
2792 | |
---|
2793 | // Matches a string that ends with 'suffix' (case-sensitive). |
---|
2794 | inline PolymorphicMatcher<internal::EndsWithMatcher<internal::string> > |
---|
2795 | EndsWith(const internal::string& suffix) { |
---|
2796 | return MakePolymorphicMatcher(internal::EndsWithMatcher<internal::string>( |
---|
2797 | suffix)); |
---|
2798 | } |
---|
2799 | |
---|
2800 | // Matches a string that fully matches regular expression 'regex'. |
---|
2801 | // The matcher takes ownership of 'regex'. |
---|
2802 | inline PolymorphicMatcher<internal::MatchesRegexMatcher> MatchesRegex( |
---|
2803 | const internal::RE* regex) { |
---|
2804 | return MakePolymorphicMatcher(internal::MatchesRegexMatcher(regex, true)); |
---|
2805 | } |
---|
2806 | inline PolymorphicMatcher<internal::MatchesRegexMatcher> MatchesRegex( |
---|
2807 | const internal::string& regex) { |
---|
2808 | return MatchesRegex(new internal::RE(regex)); |
---|
2809 | } |
---|
2810 | |
---|
2811 | // Matches a string that contains regular expression 'regex'. |
---|
2812 | // The matcher takes ownership of 'regex'. |
---|
2813 | inline PolymorphicMatcher<internal::MatchesRegexMatcher> ContainsRegex( |
---|
2814 | const internal::RE* regex) { |
---|
2815 | return MakePolymorphicMatcher(internal::MatchesRegexMatcher(regex, false)); |
---|
2816 | } |
---|
2817 | inline PolymorphicMatcher<internal::MatchesRegexMatcher> ContainsRegex( |
---|
2818 | const internal::string& regex) { |
---|
2819 | return ContainsRegex(new internal::RE(regex)); |
---|
2820 | } |
---|
2821 | |
---|
2822 | #if GTEST_HAS_GLOBAL_WSTRING || GTEST_HAS_STD_WSTRING |
---|
2823 | // Wide string matchers. |
---|
2824 | |
---|
2825 | // Matches a string equal to str. |
---|
2826 | inline PolymorphicMatcher<internal::StrEqualityMatcher<internal::wstring> > |
---|
2827 | StrEq(const internal::wstring& str) { |
---|
2828 | return MakePolymorphicMatcher(internal::StrEqualityMatcher<internal::wstring>( |
---|
2829 | str, true, true)); |
---|
2830 | } |
---|
2831 | |
---|
2832 | // Matches a string not equal to str. |
---|
2833 | inline PolymorphicMatcher<internal::StrEqualityMatcher<internal::wstring> > |
---|
2834 | StrNe(const internal::wstring& str) { |
---|
2835 | return MakePolymorphicMatcher(internal::StrEqualityMatcher<internal::wstring>( |
---|
2836 | str, false, true)); |
---|
2837 | } |
---|
2838 | |
---|
2839 | // Matches a string equal to str, ignoring case. |
---|
2840 | inline PolymorphicMatcher<internal::StrEqualityMatcher<internal::wstring> > |
---|
2841 | StrCaseEq(const internal::wstring& str) { |
---|
2842 | return MakePolymorphicMatcher(internal::StrEqualityMatcher<internal::wstring>( |
---|
2843 | str, true, false)); |
---|
2844 | } |
---|
2845 | |
---|
2846 | // Matches a string not equal to str, ignoring case. |
---|
2847 | inline PolymorphicMatcher<internal::StrEqualityMatcher<internal::wstring> > |
---|
2848 | StrCaseNe(const internal::wstring& str) { |
---|
2849 | return MakePolymorphicMatcher(internal::StrEqualityMatcher<internal::wstring>( |
---|
2850 | str, false, false)); |
---|
2851 | } |
---|
2852 | |
---|
2853 | // Creates a matcher that matches any wstring, std::wstring, or C wide string |
---|
2854 | // that contains the given substring. |
---|
2855 | inline PolymorphicMatcher<internal::HasSubstrMatcher<internal::wstring> > |
---|
2856 | HasSubstr(const internal::wstring& substring) { |
---|
2857 | return MakePolymorphicMatcher(internal::HasSubstrMatcher<internal::wstring>( |
---|
2858 | substring)); |
---|
2859 | } |
---|
2860 | |
---|
2861 | // Matches a string that starts with 'prefix' (case-sensitive). |
---|
2862 | inline PolymorphicMatcher<internal::StartsWithMatcher<internal::wstring> > |
---|
2863 | StartsWith(const internal::wstring& prefix) { |
---|
2864 | return MakePolymorphicMatcher(internal::StartsWithMatcher<internal::wstring>( |
---|
2865 | prefix)); |
---|
2866 | } |
---|
2867 | |
---|
2868 | // Matches a string that ends with 'suffix' (case-sensitive). |
---|
2869 | inline PolymorphicMatcher<internal::EndsWithMatcher<internal::wstring> > |
---|
2870 | EndsWith(const internal::wstring& suffix) { |
---|
2871 | return MakePolymorphicMatcher(internal::EndsWithMatcher<internal::wstring>( |
---|
2872 | suffix)); |
---|
2873 | } |
---|
2874 | |
---|
2875 | #endif // GTEST_HAS_GLOBAL_WSTRING || GTEST_HAS_STD_WSTRING |
---|
2876 | |
---|
2877 | // Creates a polymorphic matcher that matches a 2-tuple where the |
---|
2878 | // first field == the second field. |
---|
2879 | inline internal::Eq2Matcher Eq() { return internal::Eq2Matcher(); } |
---|
2880 | |
---|
2881 | // Creates a polymorphic matcher that matches a 2-tuple where the |
---|
2882 | // first field >= the second field. |
---|
2883 | inline internal::Ge2Matcher Ge() { return internal::Ge2Matcher(); } |
---|
2884 | |
---|
2885 | // Creates a polymorphic matcher that matches a 2-tuple where the |
---|
2886 | // first field > the second field. |
---|
2887 | inline internal::Gt2Matcher Gt() { return internal::Gt2Matcher(); } |
---|
2888 | |
---|
2889 | // Creates a polymorphic matcher that matches a 2-tuple where the |
---|
2890 | // first field <= the second field. |
---|
2891 | inline internal::Le2Matcher Le() { return internal::Le2Matcher(); } |
---|
2892 | |
---|
2893 | // Creates a polymorphic matcher that matches a 2-tuple where the |
---|
2894 | // first field < the second field. |
---|
2895 | inline internal::Lt2Matcher Lt() { return internal::Lt2Matcher(); } |
---|
2896 | |
---|
2897 | // Creates a polymorphic matcher that matches a 2-tuple where the |
---|
2898 | // first field != the second field. |
---|
2899 | inline internal::Ne2Matcher Ne() { return internal::Ne2Matcher(); } |
---|
2900 | |
---|
2901 | // Creates a matcher that matches any value of type T that m doesn't |
---|
2902 | // match. |
---|
2903 | template <typename InnerMatcher> |
---|
2904 | inline internal::NotMatcher<InnerMatcher> Not(InnerMatcher m) { |
---|
2905 | return internal::NotMatcher<InnerMatcher>(m); |
---|
2906 | } |
---|
2907 | |
---|
2908 | // Returns a matcher that matches anything that satisfies the given |
---|
2909 | // predicate. The predicate can be any unary function or functor |
---|
2910 | // whose return type can be implicitly converted to bool. |
---|
2911 | template <typename Predicate> |
---|
2912 | inline PolymorphicMatcher<internal::TrulyMatcher<Predicate> > |
---|
2913 | Truly(Predicate pred) { |
---|
2914 | return MakePolymorphicMatcher(internal::TrulyMatcher<Predicate>(pred)); |
---|
2915 | } |
---|
2916 | |
---|
2917 | // Returns a matcher that matches an equal container. |
---|
2918 | // This matcher behaves like Eq(), but in the event of mismatch lists the |
---|
2919 | // values that are included in one container but not the other. (Duplicate |
---|
2920 | // values and order differences are not explained.) |
---|
2921 | template <typename Container> |
---|
2922 | inline PolymorphicMatcher<internal::ContainerEqMatcher< // NOLINT |
---|
2923 | GTEST_REMOVE_CONST_(Container)> > |
---|
2924 | ContainerEq(const Container& rhs) { |
---|
2925 | // This following line is for working around a bug in MSVC 8.0, |
---|
2926 | // which causes Container to be a const type sometimes. |
---|
2927 | typedef GTEST_REMOVE_CONST_(Container) RawContainer; |
---|
2928 | return MakePolymorphicMatcher( |
---|
2929 | internal::ContainerEqMatcher<RawContainer>(rhs)); |
---|
2930 | } |
---|
2931 | |
---|
2932 | // Matches an STL-style container or a native array that contains the |
---|
2933 | // same number of elements as in rhs, where its i-th element and rhs's |
---|
2934 | // i-th element (as a pair) satisfy the given pair matcher, for all i. |
---|
2935 | // TupleMatcher must be able to be safely cast to Matcher<tuple<const |
---|
2936 | // T1&, const T2&> >, where T1 and T2 are the types of elements in the |
---|
2937 | // LHS container and the RHS container respectively. |
---|
2938 | template <typename TupleMatcher, typename Container> |
---|
2939 | inline internal::PointwiseMatcher<TupleMatcher, |
---|
2940 | GTEST_REMOVE_CONST_(Container)> |
---|
2941 | Pointwise(const TupleMatcher& tuple_matcher, const Container& rhs) { |
---|
2942 | // This following line is for working around a bug in MSVC 8.0, |
---|
2943 | // which causes Container to be a const type sometimes. |
---|
2944 | typedef GTEST_REMOVE_CONST_(Container) RawContainer; |
---|
2945 | return internal::PointwiseMatcher<TupleMatcher, RawContainer>( |
---|
2946 | tuple_matcher, rhs); |
---|
2947 | } |
---|
2948 | |
---|
2949 | // Matches an STL-style container or a native array that contains at |
---|
2950 | // least one element matching the given value or matcher. |
---|
2951 | // |
---|
2952 | // Examples: |
---|
2953 | // ::std::set<int> page_ids; |
---|
2954 | // page_ids.insert(3); |
---|
2955 | // page_ids.insert(1); |
---|
2956 | // EXPECT_THAT(page_ids, Contains(1)); |
---|
2957 | // EXPECT_THAT(page_ids, Contains(Gt(2))); |
---|
2958 | // EXPECT_THAT(page_ids, Not(Contains(4))); |
---|
2959 | // |
---|
2960 | // ::std::map<int, size_t> page_lengths; |
---|
2961 | // page_lengths[1] = 100; |
---|
2962 | // EXPECT_THAT(page_lengths, |
---|
2963 | // Contains(::std::pair<const int, size_t>(1, 100))); |
---|
2964 | // |
---|
2965 | // const char* user_ids[] = { "joe", "mike", "tom" }; |
---|
2966 | // EXPECT_THAT(user_ids, Contains(Eq(::std::string("tom")))); |
---|
2967 | template <typename M> |
---|
2968 | inline internal::ContainsMatcher<M> Contains(M matcher) { |
---|
2969 | return internal::ContainsMatcher<M>(matcher); |
---|
2970 | } |
---|
2971 | |
---|
2972 | // Matches an STL-style container or a native array that contains only |
---|
2973 | // elements matching the given value or matcher. |
---|
2974 | // |
---|
2975 | // Each(m) is semantically equivalent to Not(Contains(Not(m))). Only |
---|
2976 | // the messages are different. |
---|
2977 | // |
---|
2978 | // Examples: |
---|
2979 | // ::std::set<int> page_ids; |
---|
2980 | // // Each(m) matches an empty container, regardless of what m is. |
---|
2981 | // EXPECT_THAT(page_ids, Each(Eq(1))); |
---|
2982 | // EXPECT_THAT(page_ids, Each(Eq(77))); |
---|
2983 | // |
---|
2984 | // page_ids.insert(3); |
---|
2985 | // EXPECT_THAT(page_ids, Each(Gt(0))); |
---|
2986 | // EXPECT_THAT(page_ids, Not(Each(Gt(4)))); |
---|
2987 | // page_ids.insert(1); |
---|
2988 | // EXPECT_THAT(page_ids, Not(Each(Lt(2)))); |
---|
2989 | // |
---|
2990 | // ::std::map<int, size_t> page_lengths; |
---|
2991 | // page_lengths[1] = 100; |
---|
2992 | // page_lengths[2] = 200; |
---|
2993 | // page_lengths[3] = 300; |
---|
2994 | // EXPECT_THAT(page_lengths, Not(Each(Pair(1, 100)))); |
---|
2995 | // EXPECT_THAT(page_lengths, Each(Key(Le(3)))); |
---|
2996 | // |
---|
2997 | // const char* user_ids[] = { "joe", "mike", "tom" }; |
---|
2998 | // EXPECT_THAT(user_ids, Not(Each(Eq(::std::string("tom"))))); |
---|
2999 | template <typename M> |
---|
3000 | inline internal::EachMatcher<M> Each(M matcher) { |
---|
3001 | return internal::EachMatcher<M>(matcher); |
---|
3002 | } |
---|
3003 | |
---|
3004 | // Key(inner_matcher) matches an std::pair whose 'first' field matches |
---|
3005 | // inner_matcher. For example, Contains(Key(Ge(5))) can be used to match an |
---|
3006 | // std::map that contains at least one element whose key is >= 5. |
---|
3007 | template <typename M> |
---|
3008 | inline internal::KeyMatcher<M> Key(M inner_matcher) { |
---|
3009 | return internal::KeyMatcher<M>(inner_matcher); |
---|
3010 | } |
---|
3011 | |
---|
3012 | // Pair(first_matcher, second_matcher) matches a std::pair whose 'first' field |
---|
3013 | // matches first_matcher and whose 'second' field matches second_matcher. For |
---|
3014 | // example, EXPECT_THAT(map_type, ElementsAre(Pair(Ge(5), "foo"))) can be used |
---|
3015 | // to match a std::map<int, string> that contains exactly one element whose key |
---|
3016 | // is >= 5 and whose value equals "foo". |
---|
3017 | template <typename FirstMatcher, typename SecondMatcher> |
---|
3018 | inline internal::PairMatcher<FirstMatcher, SecondMatcher> |
---|
3019 | Pair(FirstMatcher first_matcher, SecondMatcher second_matcher) { |
---|
3020 | return internal::PairMatcher<FirstMatcher, SecondMatcher>( |
---|
3021 | first_matcher, second_matcher); |
---|
3022 | } |
---|
3023 | |
---|
3024 | // Returns a predicate that is satisfied by anything that matches the |
---|
3025 | // given matcher. |
---|
3026 | template <typename M> |
---|
3027 | inline internal::MatcherAsPredicate<M> Matches(M matcher) { |
---|
3028 | return internal::MatcherAsPredicate<M>(matcher); |
---|
3029 | } |
---|
3030 | |
---|
3031 | // Returns true iff the value matches the matcher. |
---|
3032 | template <typename T, typename M> |
---|
3033 | inline bool Value(const T& value, M matcher) { |
---|
3034 | return testing::Matches(matcher)(value); |
---|
3035 | } |
---|
3036 | |
---|
3037 | // Matches the value against the given matcher and explains the match |
---|
3038 | // result to listener. |
---|
3039 | template <typename T, typename M> |
---|
3040 | inline bool ExplainMatchResult( |
---|
3041 | M matcher, const T& value, MatchResultListener* listener) { |
---|
3042 | return SafeMatcherCast<const T&>(matcher).MatchAndExplain(value, listener); |
---|
3043 | } |
---|
3044 | |
---|
3045 | // AllArgs(m) is a synonym of m. This is useful in |
---|
3046 | // |
---|
3047 | // EXPECT_CALL(foo, Bar(_, _)).With(AllArgs(Eq())); |
---|
3048 | // |
---|
3049 | // which is easier to read than |
---|
3050 | // |
---|
3051 | // EXPECT_CALL(foo, Bar(_, _)).With(Eq()); |
---|
3052 | template <typename InnerMatcher> |
---|
3053 | inline InnerMatcher AllArgs(const InnerMatcher& matcher) { return matcher; } |
---|
3054 | |
---|
3055 | // These macros allow using matchers to check values in Google Test |
---|
3056 | // tests. ASSERT_THAT(value, matcher) and EXPECT_THAT(value, matcher) |
---|
3057 | // succeed iff the value matches the matcher. If the assertion fails, |
---|
3058 | // the value and the description of the matcher will be printed. |
---|
3059 | #define ASSERT_THAT(value, matcher) ASSERT_PRED_FORMAT1(\ |
---|
3060 | ::testing::internal::MakePredicateFormatterFromMatcher(matcher), value) |
---|
3061 | #define EXPECT_THAT(value, matcher) EXPECT_PRED_FORMAT1(\ |
---|
3062 | ::testing::internal::MakePredicateFormatterFromMatcher(matcher), value) |
---|
3063 | |
---|
3064 | } // namespace testing |
---|
3065 | |
---|
3066 | #endif // GMOCK_INCLUDE_GMOCK_GMOCK_MATCHERS_H_ |
---|