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Create implementation macroses for matchers to move variadic parameters to the end of parameters list. To save backward compatibility, old macroses will be still taking `description` parameter as the last one. But they will use INTERNAL macro that takes `description` as the second parameter. PiperOrigin-RevId: 291724469
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@ -47,220 +47,7 @@
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#include <vector>
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#include "gmock/gmock-matchers.h"
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// The MATCHER* family of macros can be used in a namespace scope to
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// define custom matchers easily.
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//
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// Basic Usage
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// ===========
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//
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// The syntax
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//
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// MATCHER(name, description_string) { statements; }
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//
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// defines a matcher with the given name that executes the statements,
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// which must return a bool to indicate if the match succeeds. Inside
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// the statements, you can refer to the value being matched by 'arg',
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// and refer to its type by 'arg_type'.
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//
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// The description string documents what the matcher does, and is used
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// to generate the failure message when the match fails. Since a
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// MATCHER() is usually defined in a header file shared by multiple
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// C++ source files, we require the description to be a C-string
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// literal to avoid possible side effects. It can be empty, in which
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// case we'll use the sequence of words in the matcher name as the
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// description.
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//
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// For example:
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//
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// MATCHER(IsEven, "") { return (arg % 2) == 0; }
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//
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// allows you to write
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//
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// // Expects mock_foo.Bar(n) to be called where n is even.
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// EXPECT_CALL(mock_foo, Bar(IsEven()));
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//
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// or,
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//
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// // Verifies that the value of some_expression is even.
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// EXPECT_THAT(some_expression, IsEven());
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//
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// If the above assertion fails, it will print something like:
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//
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// Value of: some_expression
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// Expected: is even
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// Actual: 7
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//
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// where the description "is even" is automatically calculated from the
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// matcher name IsEven.
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//
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// Argument Type
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// =============
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//
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// Note that the type of the value being matched (arg_type) is
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// determined by the context in which you use the matcher and is
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// supplied to you by the compiler, so you don't need to worry about
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// declaring it (nor can you). This allows the matcher to be
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// polymorphic. For example, IsEven() can be used to match any type
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// where the value of "(arg % 2) == 0" can be implicitly converted to
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// a bool. In the "Bar(IsEven())" example above, if method Bar()
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// takes an int, 'arg_type' will be int; if it takes an unsigned long,
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// 'arg_type' will be unsigned long; and so on.
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//
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// Parameterizing Matchers
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// =======================
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//
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// Sometimes you'll want to parameterize the matcher. For that you
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// can use another macro:
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//
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// MATCHER_P(name, param_name, description_string) { statements; }
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//
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// For example:
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//
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// MATCHER_P(HasAbsoluteValue, value, "") { return abs(arg) == value; }
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//
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// will allow you to write:
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//
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// EXPECT_THAT(Blah("a"), HasAbsoluteValue(n));
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//
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// which may lead to this message (assuming n is 10):
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//
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// Value of: Blah("a")
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// Expected: has absolute value 10
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// Actual: -9
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//
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// Note that both the matcher description and its parameter are
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// printed, making the message human-friendly.
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//
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// In the matcher definition body, you can write 'foo_type' to
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// reference the type of a parameter named 'foo'. For example, in the
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// body of MATCHER_P(HasAbsoluteValue, value) above, you can write
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// 'value_type' to refer to the type of 'value'.
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//
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// We also provide MATCHER_P2, MATCHER_P3, ..., up to MATCHER_P10 to
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// support multi-parameter matchers.
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//
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// Describing Parameterized Matchers
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// =================================
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//
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// The last argument to MATCHER*() is a string-typed expression. The
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// expression can reference all of the matcher's parameters and a
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// special bool-typed variable named 'negation'. When 'negation' is
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// false, the expression should evaluate to the matcher's description;
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// otherwise it should evaluate to the description of the negation of
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// the matcher. For example,
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//
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// using testing::PrintToString;
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//
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// MATCHER_P2(InClosedRange, low, hi,
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// std::string(negation ? "is not" : "is") + " in range [" +
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// PrintToString(low) + ", " + PrintToString(hi) + "]") {
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// return low <= arg && arg <= hi;
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// }
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// ...
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// EXPECT_THAT(3, InClosedRange(4, 6));
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// EXPECT_THAT(3, Not(InClosedRange(2, 4)));
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//
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// would generate two failures that contain the text:
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//
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// Expected: is in range [4, 6]
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// ...
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// Expected: is not in range [2, 4]
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//
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// If you specify "" as the description, the failure message will
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// contain the sequence of words in the matcher name followed by the
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// parameter values printed as a tuple. For example,
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//
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// MATCHER_P2(InClosedRange, low, hi, "") { ... }
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// ...
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// EXPECT_THAT(3, InClosedRange(4, 6));
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// EXPECT_THAT(3, Not(InClosedRange(2, 4)));
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//
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// would generate two failures that contain the text:
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//
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// Expected: in closed range (4, 6)
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// ...
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// Expected: not (in closed range (2, 4))
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//
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// Types of Matcher Parameters
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// ===========================
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//
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// For the purpose of typing, you can view
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//
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// MATCHER_Pk(Foo, p1, ..., pk, description_string) { ... }
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//
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// as shorthand for
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//
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// template <typename p1_type, ..., typename pk_type>
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// FooMatcherPk<p1_type, ..., pk_type>
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// Foo(p1_type p1, ..., pk_type pk) { ... }
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//
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// When you write Foo(v1, ..., vk), the compiler infers the types of
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// the parameters v1, ..., and vk for you. If you are not happy with
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// the result of the type inference, you can specify the types by
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// explicitly instantiating the template, as in Foo<long, bool>(5,
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// false). As said earlier, you don't get to (or need to) specify
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// 'arg_type' as that's determined by the context in which the matcher
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// is used. You can assign the result of expression Foo(p1, ..., pk)
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// to a variable of type FooMatcherPk<p1_type, ..., pk_type>. This
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// can be useful when composing matchers.
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//
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// While you can instantiate a matcher template with reference types,
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// passing the parameters by pointer usually makes your code more
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// readable. If, however, you still want to pass a parameter by
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// reference, be aware that in the failure message generated by the
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// matcher you will see the value of the referenced object but not its
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// address.
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//
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// Explaining Match Results
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// ========================
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//
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// Sometimes the matcher description alone isn't enough to explain why
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// the match has failed or succeeded. For example, when expecting a
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// long string, it can be very helpful to also print the diff between
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// the expected string and the actual one. To achieve that, you can
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// optionally stream additional information to a special variable
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// named result_listener, whose type is a pointer to class
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// MatchResultListener:
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//
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// MATCHER_P(EqualsLongString, str, "") {
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// if (arg == str) return true;
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//
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// *result_listener << "the difference: "
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/// << DiffStrings(str, arg);
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// return false;
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// }
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//
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// Overloading Matchers
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// ====================
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//
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// You can overload matchers with different numbers of parameters:
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//
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// MATCHER_P(Blah, a, description_string1) { ... }
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// MATCHER_P2(Blah, a, b, description_string2) { ... }
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//
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// Caveats
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// =======
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//
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// When defining a new matcher, you should also consider implementing
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// MatcherInterface or using MakePolymorphicMatcher(). These
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// approaches require more work than the MATCHER* macros, but also
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// give you more control on the types of the value being matched and
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// the matcher parameters, which may leads to better compiler error
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// messages when the matcher is used wrong. They also allow
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// overloading matchers based on parameter types (as opposed to just
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// based on the number of parameters).
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//
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// MATCHER*() can only be used in a namespace scope as templates cannot be
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// declared inside of a local class.
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//
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// More Information
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// ================
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//
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// To learn more about using these macros, please search for 'MATCHER'
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// on
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// https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md
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#define MATCHER(name, description)\
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#define GMOCK_INTERNAL_MATCHER(name, description)\
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class name##Matcher : public \
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::testing::internal::MatcherBaseImpl<name##Matcher> {\
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using __internal_base_type = \
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@ -304,7 +91,7 @@
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::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
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const
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#define MATCHER_P(name, p0, description)\
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#define GMOCK_INTERNAL_MATCHER_P(name, description, p0)\
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template <typename p0##_type>\
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class name##MatcherP : public \
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::testing::internal::MatcherBaseImpl<name##MatcherP<p0##_type>> {\
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@ -352,7 +139,7 @@
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::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
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const
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#define MATCHER_P2(name, p0, p1, description)\
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#define GMOCK_INTERNAL_MATCHER_P2(name, description, p0, p1)\
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template <typename p0##_type, typename p1##_type>\
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class name##MatcherP2 : public \
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::testing::internal::MatcherBaseImpl<name##MatcherP2<p0##_type, \
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@ -404,7 +191,7 @@
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::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
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const
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#define MATCHER_P3(name, p0, p1, p2, description)\
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#define GMOCK_INTERNAL_MATCHER_P3(name, description, p0, p1, p2)\
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template <typename p0##_type, typename p1##_type, typename p2##_type>\
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class name##MatcherP3 : public \
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::testing::internal::MatcherBaseImpl<name##MatcherP3<p0##_type, \
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@ -458,7 +245,7 @@
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::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
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const
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#define MATCHER_P4(name, p0, p1, p2, p3, description)\
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#define GMOCK_INTERNAL_MATCHER_P4(name, description, p0, p1, p2, p3)\
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template <typename p0##_type, typename p1##_type, typename p2##_type, \
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typename p3##_type>\
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class name##MatcherP4 : public \
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@ -520,7 +307,7 @@
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::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
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const
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#define MATCHER_P5(name, p0, p1, p2, p3, p4, description)\
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#define GMOCK_INTERNAL_MATCHER_P5(name, description, p0, p1, p2, p3, p4)\
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template <typename p0##_type, typename p1##_type, typename p2##_type, \
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typename p3##_type, typename p4##_type>\
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class name##MatcherP5 : public \
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@ -584,7 +371,7 @@
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::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
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const
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#define MATCHER_P6(name, p0, p1, p2, p3, p4, p5, description)\
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#define GMOCK_INTERNAL_MATCHER_P6(name, description, p0, p1, p2, p3, p4, p5)\
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template <typename p0##_type, typename p1##_type, typename p2##_type, \
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typename p3##_type, typename p4##_type, typename p5##_type>\
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class name##MatcherP6 : public \
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@ -649,7 +436,8 @@
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::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
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const
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#define MATCHER_P7(name, p0, p1, p2, p3, p4, p5, p6, description)\
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#define GMOCK_INTERNAL_MATCHER_P7(name, description, p0, p1, p2, p3, p4, p5, \
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p6)\
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template <typename p0##_type, typename p1##_type, typename p2##_type, \
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typename p3##_type, typename p4##_type, typename p5##_type, \
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typename p6##_type>\
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@ -722,7 +510,8 @@
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::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
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const
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#define MATCHER_P8(name, p0, p1, p2, p3, p4, p5, p6, p7, description)\
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#define GMOCK_INTERNAL_MATCHER_P8(name, description, p0, p1, p2, p3, p4, p5, \
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p6, p7)\
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template <typename p0##_type, typename p1##_type, typename p2##_type, \
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typename p3##_type, typename p4##_type, typename p5##_type, \
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typename p6##_type, typename p7##_type>\
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@ -799,7 +588,8 @@
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::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
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const
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#define MATCHER_P9(name, p0, p1, p2, p3, p4, p5, p6, p7, p8, description)\
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#define GMOCK_INTERNAL_MATCHER_P9(name, description, p0, p1, p2, p3, p4, p5, \
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p6, p7, p8)\
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template <typename p0##_type, typename p1##_type, typename p2##_type, \
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typename p3##_type, typename p4##_type, typename p5##_type, \
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typename p6##_type, typename p7##_type, typename p8##_type>\
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@ -879,7 +669,8 @@
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::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
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const
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#define MATCHER_P10(name, p0, p1, p2, p3, p4, p5, p6, p7, p8, p9, description)\
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#define GMOCK_INTERNAL_MATCHER_P10(name, description, p0, p1, p2, p3, p4, p5, \
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p6, p7, p8, p9)\
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template <typename p0##_type, typename p1##_type, typename p2##_type, \
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typename p3##_type, typename p4##_type, typename p5##_type, \
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typename p6##_type, typename p7##_type, typename p8##_type, \
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@ -49,225 +49,12 @@ $$ }} This line fixes auto-indentation of the following code in Emacs.
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#include <vector>
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#include "gmock/gmock-matchers.h"
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// The MATCHER* family of macros can be used in a namespace scope to
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// define custom matchers easily.
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//
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// Basic Usage
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// ===========
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//
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// The syntax
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//
|
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// MATCHER(name, description_string) { statements; }
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//
|
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// defines a matcher with the given name that executes the statements,
|
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// which must return a bool to indicate if the match succeeds. Inside
|
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// the statements, you can refer to the value being matched by 'arg',
|
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// and refer to its type by 'arg_type'.
|
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//
|
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// The description string documents what the matcher does, and is used
|
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// to generate the failure message when the match fails. Since a
|
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// MATCHER() is usually defined in a header file shared by multiple
|
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// C++ source files, we require the description to be a C-string
|
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// literal to avoid possible side effects. It can be empty, in which
|
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// case we'll use the sequence of words in the matcher name as the
|
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// description.
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//
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// For example:
|
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//
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// MATCHER(IsEven, "") { return (arg % 2) == 0; }
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//
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// allows you to write
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//
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// // Expects mock_foo.Bar(n) to be called where n is even.
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// EXPECT_CALL(mock_foo, Bar(IsEven()));
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//
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// or,
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//
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// // Verifies that the value of some_expression is even.
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// EXPECT_THAT(some_expression, IsEven());
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//
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// If the above assertion fails, it will print something like:
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//
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// Value of: some_expression
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// Expected: is even
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// Actual: 7
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//
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// where the description "is even" is automatically calculated from the
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// matcher name IsEven.
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//
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// Argument Type
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// =============
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//
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// Note that the type of the value being matched (arg_type) is
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// determined by the context in which you use the matcher and is
|
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// supplied to you by the compiler, so you don't need to worry about
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// declaring it (nor can you). This allows the matcher to be
|
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// polymorphic. For example, IsEven() can be used to match any type
|
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// where the value of "(arg % 2) == 0" can be implicitly converted to
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// a bool. In the "Bar(IsEven())" example above, if method Bar()
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// takes an int, 'arg_type' will be int; if it takes an unsigned long,
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// 'arg_type' will be unsigned long; and so on.
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//
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// Parameterizing Matchers
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// =======================
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//
|
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// Sometimes you'll want to parameterize the matcher. For that you
|
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// can use another macro:
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//
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// MATCHER_P(name, param_name, description_string) { statements; }
|
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//
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// For example:
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//
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// MATCHER_P(HasAbsoluteValue, value, "") { return abs(arg) == value; }
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//
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// will allow you to write:
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//
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// EXPECT_THAT(Blah("a"), HasAbsoluteValue(n));
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//
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// which may lead to this message (assuming n is 10):
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//
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// Value of: Blah("a")
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// Expected: has absolute value 10
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// Actual: -9
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//
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// Note that both the matcher description and its parameter are
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// printed, making the message human-friendly.
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//
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// In the matcher definition body, you can write 'foo_type' to
|
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// reference the type of a parameter named 'foo'. For example, in the
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// body of MATCHER_P(HasAbsoluteValue, value) above, you can write
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// 'value_type' to refer to the type of 'value'.
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//
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// We also provide MATCHER_P2, MATCHER_P3, ..., up to MATCHER_P$n to
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// support multi-parameter matchers.
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//
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// Describing Parameterized Matchers
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// =================================
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//
|
||||
// The last argument to MATCHER*() is a string-typed expression. The
|
||||
// expression can reference all of the matcher's parameters and a
|
||||
// special bool-typed variable named 'negation'. When 'negation' is
|
||||
// false, the expression should evaluate to the matcher's description;
|
||||
// otherwise it should evaluate to the description of the negation of
|
||||
// the matcher. For example,
|
||||
//
|
||||
// using testing::PrintToString;
|
||||
//
|
||||
// MATCHER_P2(InClosedRange, low, hi,
|
||||
// std::string(negation ? "is not" : "is") + " in range [" +
|
||||
// PrintToString(low) + ", " + PrintToString(hi) + "]") {
|
||||
// return low <= arg && arg <= hi;
|
||||
// }
|
||||
// ...
|
||||
// EXPECT_THAT(3, InClosedRange(4, 6));
|
||||
// EXPECT_THAT(3, Not(InClosedRange(2, 4)));
|
||||
//
|
||||
// would generate two failures that contain the text:
|
||||
//
|
||||
// Expected: is in range [4, 6]
|
||||
// ...
|
||||
// Expected: is not in range [2, 4]
|
||||
//
|
||||
// If you specify "" as the description, the failure message will
|
||||
// contain the sequence of words in the matcher name followed by the
|
||||
// parameter values printed as a tuple. For example,
|
||||
//
|
||||
// MATCHER_P2(InClosedRange, low, hi, "") { ... }
|
||||
// ...
|
||||
// EXPECT_THAT(3, InClosedRange(4, 6));
|
||||
// EXPECT_THAT(3, Not(InClosedRange(2, 4)));
|
||||
//
|
||||
// would generate two failures that contain the text:
|
||||
//
|
||||
// Expected: in closed range (4, 6)
|
||||
// ...
|
||||
// Expected: not (in closed range (2, 4))
|
||||
//
|
||||
// Types of Matcher Parameters
|
||||
// ===========================
|
||||
//
|
||||
// For the purpose of typing, you can view
|
||||
//
|
||||
// MATCHER_Pk(Foo, p1, ..., pk, description_string) { ... }
|
||||
//
|
||||
// as shorthand for
|
||||
//
|
||||
// template <typename p1_type, ..., typename pk_type>
|
||||
// FooMatcherPk<p1_type, ..., pk_type>
|
||||
// Foo(p1_type p1, ..., pk_type pk) { ... }
|
||||
//
|
||||
// When you write Foo(v1, ..., vk), the compiler infers the types of
|
||||
// the parameters v1, ..., and vk for you. If you are not happy with
|
||||
// the result of the type inference, you can specify the types by
|
||||
// explicitly instantiating the template, as in Foo<long, bool>(5,
|
||||
// false). As said earlier, you don't get to (or need to) specify
|
||||
// 'arg_type' as that's determined by the context in which the matcher
|
||||
// is used. You can assign the result of expression Foo(p1, ..., pk)
|
||||
// to a variable of type FooMatcherPk<p1_type, ..., pk_type>. This
|
||||
// can be useful when composing matchers.
|
||||
//
|
||||
// While you can instantiate a matcher template with reference types,
|
||||
// passing the parameters by pointer usually makes your code more
|
||||
// readable. If, however, you still want to pass a parameter by
|
||||
// reference, be aware that in the failure message generated by the
|
||||
// matcher you will see the value of the referenced object but not its
|
||||
// address.
|
||||
//
|
||||
// Explaining Match Results
|
||||
// ========================
|
||||
//
|
||||
// Sometimes the matcher description alone isn't enough to explain why
|
||||
// the match has failed or succeeded. For example, when expecting a
|
||||
// long string, it can be very helpful to also print the diff between
|
||||
// the expected string and the actual one. To achieve that, you can
|
||||
// optionally stream additional information to a special variable
|
||||
// named result_listener, whose type is a pointer to class
|
||||
// MatchResultListener:
|
||||
//
|
||||
// MATCHER_P(EqualsLongString, str, "") {
|
||||
// if (arg == str) return true;
|
||||
//
|
||||
// *result_listener << "the difference: "
|
||||
/// << DiffStrings(str, arg);
|
||||
// return false;
|
||||
// }
|
||||
//
|
||||
// Overloading Matchers
|
||||
// ====================
|
||||
//
|
||||
// You can overload matchers with different numbers of parameters:
|
||||
//
|
||||
// MATCHER_P(Blah, a, description_string1) { ... }
|
||||
// MATCHER_P2(Blah, a, b, description_string2) { ... }
|
||||
//
|
||||
// Caveats
|
||||
// =======
|
||||
//
|
||||
// When defining a new matcher, you should also consider implementing
|
||||
// MatcherInterface or using MakePolymorphicMatcher(). These
|
||||
// approaches require more work than the MATCHER* macros, but also
|
||||
// give you more control on the types of the value being matched and
|
||||
// the matcher parameters, which may leads to better compiler error
|
||||
// messages when the matcher is used wrong. They also allow
|
||||
// overloading matchers based on parameter types (as opposed to just
|
||||
// based on the number of parameters).
|
||||
//
|
||||
// MATCHER*() can only be used in a namespace scope as templates cannot be
|
||||
// declared inside of a local class.
|
||||
//
|
||||
// More Information
|
||||
// ================
|
||||
//
|
||||
// To learn more about using these macros, please search for 'MATCHER'
|
||||
// on
|
||||
// https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md
|
||||
|
||||
$range i 0..n
|
||||
$for i
|
||||
|
||||
[[
|
||||
$var macro_name = [[$if i==0 [[MATCHER]] $elif i==1 [[MATCHER_P]]
|
||||
$else [[MATCHER_P$i]]]]
|
||||
$var macro_name = [[$if i==0 [[GMOCK_INTERNAL_MATCHER]] $elif i==1 [[GMOCK_INTERNAL_MATCHER_P]]
|
||||
$else [[GMOCK_INTERNAL_MATCHER_P$i]]]]
|
||||
$var class_name = [[name##Matcher[[$if i==0 [[]] $elif i==1 [[P]]
|
||||
$else [[P$i]]]]]]
|
||||
$range j 0..i-1
|
||||
@ -291,7 +78,7 @@ $var param_field_decls2 = [[$for j
|
||||
p$j##_type const p$j;\
|
||||
]]]]
|
||||
|
||||
#define $macro_name(name$for j [[, p$j]], description)\$template
|
||||
#define $macro_name(name, description$for j [[, p$j]])\$template
|
||||
class $class_name : public ::testing::internal::MatcherBaseImpl<$class_name$param_types> {\
|
||||
using __internal_base_type = ::testing::internal::MatcherBaseImpl<$class_name>;\
|
||||
public:\
|
||||
|
@ -30,7 +30,220 @@
|
||||
|
||||
// Google Mock - a framework for writing C++ mock classes.
|
||||
//
|
||||
// This file implements some commonly used argument matchers. More
|
||||
// The MATCHER* family of macros can be used in a namespace scope to
|
||||
// define custom matchers easily.
|
||||
//
|
||||
// Basic Usage
|
||||
// ===========
|
||||
//
|
||||
// The syntax
|
||||
//
|
||||
// MATCHER(name, description_string) { statements; }
|
||||
//
|
||||
// defines a matcher with the given name that executes the statements,
|
||||
// which must return a bool to indicate if the match succeeds. Inside
|
||||
// the statements, you can refer to the value being matched by 'arg',
|
||||
// and refer to its type by 'arg_type'.
|
||||
//
|
||||
// The description string documents what the matcher does, and is used
|
||||
// to generate the failure message when the match fails. Since a
|
||||
// MATCHER() is usually defined in a header file shared by multiple
|
||||
// C++ source files, we require the description to be a C-string
|
||||
// literal to avoid possible side effects. It can be empty, in which
|
||||
// case we'll use the sequence of words in the matcher name as the
|
||||
// description.
|
||||
//
|
||||
// For example:
|
||||
//
|
||||
// MATCHER(IsEven, "") { return (arg % 2) == 0; }
|
||||
//
|
||||
// allows you to write
|
||||
//
|
||||
// // Expects mock_foo.Bar(n) to be called where n is even.
|
||||
// EXPECT_CALL(mock_foo, Bar(IsEven()));
|
||||
//
|
||||
// or,
|
||||
//
|
||||
// // Verifies that the value of some_expression is even.
|
||||
// EXPECT_THAT(some_expression, IsEven());
|
||||
//
|
||||
// If the above assertion fails, it will print something like:
|
||||
//
|
||||
// Value of: some_expression
|
||||
// Expected: is even
|
||||
// Actual: 7
|
||||
//
|
||||
// where the description "is even" is automatically calculated from the
|
||||
// matcher name IsEven.
|
||||
//
|
||||
// Argument Type
|
||||
// =============
|
||||
//
|
||||
// Note that the type of the value being matched (arg_type) is
|
||||
// determined by the context in which you use the matcher and is
|
||||
// supplied to you by the compiler, so you don't need to worry about
|
||||
// declaring it (nor can you). This allows the matcher to be
|
||||
// polymorphic. For example, IsEven() can be used to match any type
|
||||
// where the value of "(arg % 2) == 0" can be implicitly converted to
|
||||
// a bool. In the "Bar(IsEven())" example above, if method Bar()
|
||||
// takes an int, 'arg_type' will be int; if it takes an unsigned long,
|
||||
// 'arg_type' will be unsigned long; and so on.
|
||||
//
|
||||
// Parameterizing Matchers
|
||||
// =======================
|
||||
//
|
||||
// Sometimes you'll want to parameterize the matcher. For that you
|
||||
// can use another macro:
|
||||
//
|
||||
// MATCHER_P(name, param_name, description_string) { statements; }
|
||||
//
|
||||
// For example:
|
||||
//
|
||||
// MATCHER_P(HasAbsoluteValue, value, "") { return abs(arg) == value; }
|
||||
//
|
||||
// will allow you to write:
|
||||
//
|
||||
// EXPECT_THAT(Blah("a"), HasAbsoluteValue(n));
|
||||
//
|
||||
// which may lead to this message (assuming n is 10):
|
||||
//
|
||||
// Value of: Blah("a")
|
||||
// Expected: has absolute value 10
|
||||
// Actual: -9
|
||||
//
|
||||
// Note that both the matcher description and its parameter are
|
||||
// printed, making the message human-friendly.
|
||||
//
|
||||
// In the matcher definition body, you can write 'foo_type' to
|
||||
// reference the type of a parameter named 'foo'. For example, in the
|
||||
// body of MATCHER_P(HasAbsoluteValue, value) above, you can write
|
||||
// 'value_type' to refer to the type of 'value'.
|
||||
//
|
||||
// We also provide MATCHER_P2, MATCHER_P3, ..., up to MATCHER_P$n to
|
||||
// support multi-parameter matchers.
|
||||
//
|
||||
// Describing Parameterized Matchers
|
||||
// =================================
|
||||
//
|
||||
// The last argument to MATCHER*() is a string-typed expression. The
|
||||
// expression can reference all of the matcher's parameters and a
|
||||
// special bool-typed variable named 'negation'. When 'negation' is
|
||||
// false, the expression should evaluate to the matcher's description;
|
||||
// otherwise it should evaluate to the description of the negation of
|
||||
// the matcher. For example,
|
||||
//
|
||||
// using testing::PrintToString;
|
||||
//
|
||||
// MATCHER_P2(InClosedRange, low, hi,
|
||||
// std::string(negation ? "is not" : "is") + " in range [" +
|
||||
// PrintToString(low) + ", " + PrintToString(hi) + "]") {
|
||||
// return low <= arg && arg <= hi;
|
||||
// }
|
||||
// ...
|
||||
// EXPECT_THAT(3, InClosedRange(4, 6));
|
||||
// EXPECT_THAT(3, Not(InClosedRange(2, 4)));
|
||||
//
|
||||
// would generate two failures that contain the text:
|
||||
//
|
||||
// Expected: is in range [4, 6]
|
||||
// ...
|
||||
// Expected: is not in range [2, 4]
|
||||
//
|
||||
// If you specify "" as the description, the failure message will
|
||||
// contain the sequence of words in the matcher name followed by the
|
||||
// parameter values printed as a tuple. For example,
|
||||
//
|
||||
// MATCHER_P2(InClosedRange, low, hi, "") { ... }
|
||||
// ...
|
||||
// EXPECT_THAT(3, InClosedRange(4, 6));
|
||||
// EXPECT_THAT(3, Not(InClosedRange(2, 4)));
|
||||
//
|
||||
// would generate two failures that contain the text:
|
||||
//
|
||||
// Expected: in closed range (4, 6)
|
||||
// ...
|
||||
// Expected: not (in closed range (2, 4))
|
||||
//
|
||||
// Types of Matcher Parameters
|
||||
// ===========================
|
||||
//
|
||||
// For the purpose of typing, you can view
|
||||
//
|
||||
// MATCHER_Pk(Foo, p1, ..., pk, description_string) { ... }
|
||||
//
|
||||
// as shorthand for
|
||||
//
|
||||
// template <typename p1_type, ..., typename pk_type>
|
||||
// FooMatcherPk<p1_type, ..., pk_type>
|
||||
// Foo(p1_type p1, ..., pk_type pk) { ... }
|
||||
//
|
||||
// When you write Foo(v1, ..., vk), the compiler infers the types of
|
||||
// the parameters v1, ..., and vk for you. If you are not happy with
|
||||
// the result of the type inference, you can specify the types by
|
||||
// explicitly instantiating the template, as in Foo<long, bool>(5,
|
||||
// false). As said earlier, you don't get to (or need to) specify
|
||||
// 'arg_type' as that's determined by the context in which the matcher
|
||||
// is used. You can assign the result of expression Foo(p1, ..., pk)
|
||||
// to a variable of type FooMatcherPk<p1_type, ..., pk_type>. This
|
||||
// can be useful when composing matchers.
|
||||
//
|
||||
// While you can instantiate a matcher template with reference types,
|
||||
// passing the parameters by pointer usually makes your code more
|
||||
// readable. If, however, you still want to pass a parameter by
|
||||
// reference, be aware that in the failure message generated by the
|
||||
// matcher you will see the value of the referenced object but not its
|
||||
// address.
|
||||
//
|
||||
// Explaining Match Results
|
||||
// ========================
|
||||
//
|
||||
// Sometimes the matcher description alone isn't enough to explain why
|
||||
// the match has failed or succeeded. For example, when expecting a
|
||||
// long string, it can be very helpful to also print the diff between
|
||||
// the expected string and the actual one. To achieve that, you can
|
||||
// optionally stream additional information to a special variable
|
||||
// named result_listener, whose type is a pointer to class
|
||||
// MatchResultListener:
|
||||
//
|
||||
// MATCHER_P(EqualsLongString, str, "") {
|
||||
// if (arg == str) return true;
|
||||
//
|
||||
// *result_listener << "the difference: "
|
||||
/// << DiffStrings(str, arg);
|
||||
// return false;
|
||||
// }
|
||||
//
|
||||
// Overloading Matchers
|
||||
// ====================
|
||||
//
|
||||
// You can overload matchers with different numbers of parameters:
|
||||
//
|
||||
// MATCHER_P(Blah, a, description_string1) { ... }
|
||||
// MATCHER_P2(Blah, a, b, description_string2) { ... }
|
||||
//
|
||||
// Caveats
|
||||
// =======
|
||||
//
|
||||
// When defining a new matcher, you should also consider implementing
|
||||
// MatcherInterface or using MakePolymorphicMatcher(). These
|
||||
// approaches require more work than the MATCHER* macros, but also
|
||||
// give you more control on the types of the value being matched and
|
||||
// the matcher parameters, which may leads to better compiler error
|
||||
// messages when the matcher is used wrong. They also allow
|
||||
// overloading matchers based on parameter types (as opposed to just
|
||||
// based on the number of parameters).
|
||||
//
|
||||
// MATCHER*() can only be used in a namespace scope as templates cannot be
|
||||
// declared inside of a local class.
|
||||
//
|
||||
// More Information
|
||||
// ================
|
||||
//
|
||||
// To learn more about using these macros, please search for 'MATCHER'
|
||||
// on
|
||||
// https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md
|
||||
//
|
||||
// This file also implements some commonly used argument matchers. More
|
||||
// matchers can be defined by the user implementing the
|
||||
// MatcherInterface<T> interface if necessary.
|
||||
//
|
||||
@ -4607,6 +4820,31 @@ PolymorphicMatcher<internal::variant_matcher::VariantMatcher<T> > VariantWith(
|
||||
#define EXPECT_THAT(value, matcher) EXPECT_PRED_FORMAT1(\
|
||||
::testing::internal::MakePredicateFormatterFromMatcher(matcher), value)
|
||||
|
||||
// MATCHER* macroses itself are listed below.
|
||||
#define MATCHER(name, description) GMOCK_INTERNAL_MATCHER(name, description)
|
||||
#define MATCHER_P(name, p0, description) \
|
||||
GMOCK_INTERNAL_MATCHER_P(name, description, p0)
|
||||
#define MATCHER_P2(name, p0, p1, description) \
|
||||
GMOCK_INTERNAL_MATCHER_P2(name, description, p0, p1)
|
||||
#define MATCHER_P3(name, p0, p1, p2, description) \
|
||||
GMOCK_INTERNAL_MATCHER_P3(name, description, p0, p1, p2)
|
||||
#define MATCHER_P4(name, p0, p1, p2, p3, description) \
|
||||
GMOCK_INTERNAL_MATCHER_P4(name, description, p0, p1, p2, p3)
|
||||
#define MATCHER_P5(name, p0, p1, p2, p3, p4, description) \
|
||||
GMOCK_INTERNAL_MATCHER_P5(name, description, p0, p1, p2, p3, p4)
|
||||
#define MATCHER_P6(name, p0, p1, p2, p3, p4, p5, description) \
|
||||
GMOCK_INTERNAL_MATCHER_P6(name, description, p0, p1, p2, p3, p4, p5)
|
||||
#define MATCHER_P7(name, p0, p1, p2, p3, p4, p5, p6, description) \
|
||||
GMOCK_INTERNAL_MATCHER_P7(name, description, p0, p1, p2, p3, p4, p5, p6)
|
||||
#define MATCHER_P8(name, p0, p1, p2, p3, p4, p5, p6, p7, description) \
|
||||
GMOCK_INTERNAL_MATCHER_P8(name, description, p0, p1, p2, p3, p4, p5, p6, p7)
|
||||
#define MATCHER_P9(name, p0, p1, p2, p3, p4, p5, p6, p7, p8, description) \
|
||||
GMOCK_INTERNAL_MATCHER_P9(name, description, p0, p1, p2, p3, p4, p5, p6, p7, \
|
||||
p8)
|
||||
#define MATCHER_P10(name, p0, p1, p2, p3, p4, p5, p6, p7, p8, p9, description) \
|
||||
GMOCK_INTERNAL_MATCHER_P10(name, description, p0, p1, p2, p3, p4, p5, p6, \
|
||||
p7, p8, p9)
|
||||
|
||||
} // namespace testing
|
||||
|
||||
GTEST_DISABLE_MSC_WARNINGS_POP_() // 4251 5046
|
||||
|
Loading…
x
Reference in New Issue
Block a user