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$$ -*- mode: c++; -*-
$$ This is a Pump source file. Please use Pump to convert
$$ it to gmock-generated-matchers.h.
$$
$var n = 10  $$ The maximum arity we support.
$$ }} This line fixes auto-indentation of the following code in Emacs.
// Copyright 2008, Google Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
//     * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//     * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
//     * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

// Google Mock - a framework for writing C++ mock classes.
//
// This file implements some commonly used variadic matchers.

// GOOGLETEST_CM0002 DO NOT DELETE

#ifndef GMOCK_INCLUDE_GMOCK_GMOCK_GENERATED_MATCHERS_H_
#define GMOCK_INCLUDE_GMOCK_GMOCK_GENERATED_MATCHERS_H_

#include <iterator>
#include <sstream>
#include <string>
#include <vector>
#include "gmock/gmock-matchers.h"

namespace testing {
namespace internal {

$range i 0..n-1

// The type of the i-th (0-based) field of Tuple.
#define GMOCK_FIELD_TYPE_(Tuple, i) \
    typename ::testing::tuple_element<i, Tuple>::type

// TupleFields<Tuple, k0, ..., kn> is for selecting fields from a
// tuple of type Tuple.  It has two members:
//
//   type: a tuple type whose i-th field is the ki-th field of Tuple.
//   GetSelectedFields(t): returns fields k0, ..., and kn of t as a tuple.
//
// For example, in class TupleFields<tuple<bool, char, int>, 2, 0>, we have:
//
//   type is tuple<int, bool>, and
//   GetSelectedFields(make_tuple(true, 'a', 42)) is (42, true).

template <class Tuple$for i [[, int k$i = -1]]>
class TupleFields;

// This generic version is used when there are $n selectors.
template <class Tuple$for i [[, int k$i]]>
class TupleFields {
 public:
  typedef ::testing::tuple<$for i, [[GMOCK_FIELD_TYPE_(Tuple, k$i)]]> type;
  static type GetSelectedFields(const Tuple& t) {
    return type($for i, [[get<k$i>(t)]]);
  }
};

// The following specialization is used for 0 ~ $(n-1) selectors.

$for i [[
$$ }}}
$range j 0..i-1
$range k 0..n-1

template <class Tuple$for j [[, int k$j]]>
class TupleFields<Tuple, $for k, [[$if k < i [[k$k]] $else [[-1]]]]> {
 public:
  typedef ::testing::tuple<$for j, [[GMOCK_FIELD_TYPE_(Tuple, k$j)]]> type;
  static type GetSelectedFields(const Tuple& $if i==0 [[/* t */]] $else [[t]]) {
    return type($for j, [[get<k$j>(t)]]);
  }
};

]]

#undef GMOCK_FIELD_TYPE_

// Implements the Args() matcher.

$var ks = [[$for i, [[k$i]]]]
template <class ArgsTuple$for i [[, int k$i = -1]]>
class ArgsMatcherImpl : public MatcherInterface<ArgsTuple> {
 public:
  // ArgsTuple may have top-level const or reference modifiers.
  typedef GTEST_REMOVE_REFERENCE_AND_CONST_(ArgsTuple) RawArgsTuple;
  typedef typename internal::TupleFields<RawArgsTuple, $ks>::type SelectedArgs;
  typedef Matcher<const SelectedArgs&> MonomorphicInnerMatcher;

  template <typename InnerMatcher>
  explicit ArgsMatcherImpl(const InnerMatcher& inner_matcher)
      : inner_matcher_(SafeMatcherCast<const SelectedArgs&>(inner_matcher)) {}

  virtual bool MatchAndExplain(ArgsTuple args,
                               MatchResultListener* listener) const {
    const SelectedArgs& selected_args = GetSelectedArgs(args);
    if (!listener->IsInterested())
      return inner_matcher_.Matches(selected_args);

    PrintIndices(listener->stream());
    *listener << "are " << PrintToString(selected_args);

    StringMatchResultListener inner_listener;
    const bool match = inner_matcher_.MatchAndExplain(selected_args,
                                                      &inner_listener);
    PrintIfNotEmpty(inner_listener.str(), listener->stream());
    return match;
  }

  virtual void DescribeTo(::std::ostream* os) const {
    *os << "are a tuple ";
    PrintIndices(os);
    inner_matcher_.DescribeTo(os);
  }

  virtual void DescribeNegationTo(::std::ostream* os) const {
    *os << "are a tuple ";
    PrintIndices(os);
    inner_matcher_.DescribeNegationTo(os);
  }

 private:
  static SelectedArgs GetSelectedArgs(ArgsTuple args) {
    return TupleFields<RawArgsTuple, $ks>::GetSelectedFields(args);
  }

  // Prints the indices of the selected fields.
  static void PrintIndices(::std::ostream* os) {
    *os << "whose fields (";
    const int indices[$n] = { $ks };
    for (int i = 0; i < $n; i++) {
      if (indices[i] < 0)
        break;

      if (i >= 1)
        *os << ", ";

      *os << "#" << indices[i];
    }
    *os << ") ";
  }

  const MonomorphicInnerMatcher inner_matcher_;

  GTEST_DISALLOW_ASSIGN_(ArgsMatcherImpl);
};

template <class InnerMatcher$for i [[, int k$i = -1]]>
class ArgsMatcher {
 public:
  explicit ArgsMatcher(const InnerMatcher& inner_matcher)
      : inner_matcher_(inner_matcher) {}

  template <typename ArgsTuple>
  operator Matcher<ArgsTuple>() const {
    return MakeMatcher(new ArgsMatcherImpl<ArgsTuple, $ks>(inner_matcher_));
  }

 private:
  const InnerMatcher inner_matcher_;

  GTEST_DISALLOW_ASSIGN_(ArgsMatcher);
};

// A set of metafunctions for computing the result type of AllOf.
// AllOf(m1, ..., mN) returns
// AllOfResultN<decltype(m1), ..., decltype(mN)>::type.

// Although AllOf isn't defined for one argument, AllOfResult1 is defined
// to simplify the implementation.
template <typename M1>
struct AllOfResult1 {
  typedef M1 type;
};

$range i 1..n

$range i 2..n
$for i [[
$range j 2..i
$var m = i/2
$range k 1..m
$range t m+1..i

template <typename M1$for j [[, typename M$j]]>
struct AllOfResult$i {
  typedef BothOfMatcher<
      typename AllOfResult$m<$for k, [[M$k]]>::type,
      typename AllOfResult$(i-m)<$for t, [[M$t]]>::type
  > type;
};

]]

// A set of metafunctions for computing the result type of AnyOf.
// AnyOf(m1, ..., mN) returns
// AnyOfResultN<decltype(m1), ..., decltype(mN)>::type.

// Although AnyOf isn't defined for one argument, AnyOfResult1 is defined
// to simplify the implementation.
template <typename M1>
struct AnyOfResult1 {
  typedef M1 type;
};

$range i 1..n

$range i 2..n
$for i [[
$range j 2..i
$var m = i/2
$range k 1..m
$range t m+1..i

template <typename M1$for j [[, typename M$j]]>
struct AnyOfResult$i {
  typedef EitherOfMatcher<
      typename AnyOfResult$m<$for k, [[M$k]]>::type,
      typename AnyOfResult$(i-m)<$for t, [[M$t]]>::type
  > type;
};

]]

}  // namespace internal

// Args<N1, N2, ..., Nk>(a_matcher) matches a tuple if the selected
// fields of it matches a_matcher.  C++ doesn't support default
// arguments for function templates, so we have to overload it.

$range i 0..n
$for i [[
$range j 1..i
template <$for j [[int k$j, ]]typename InnerMatcher>
inline internal::ArgsMatcher<InnerMatcher$for j [[, k$j]]>
Args(const InnerMatcher& matcher) {
  return internal::ArgsMatcher<InnerMatcher$for j [[, k$j]]>(matcher);
}


]]
// ElementsAre(e_1, e_2, ... e_n) matches an STL-style container with
// n elements, where the i-th element in the container must
// match the i-th argument in the list.  Each argument of
// ElementsAre() can be either a value or a matcher.  We support up to
// $n arguments.
//
// The use of DecayArray in the implementation allows ElementsAre()
// to accept string literals, whose type is const char[N], but we
// want to treat them as const char*.
//
// NOTE: Since ElementsAre() cares about the order of the elements, it
// must not be used with containers whose elements's order is
// undefined (e.g. hash_map).

$range i 0..n
$for i [[

$range j 1..i

$if i>0 [[

template <$for j, [[typename T$j]]>
]]

inline internal::ElementsAreMatcher<
    ::testing::tuple<
$for j, [[

        typename internal::DecayArray<T$j[[]]>::type]]> >
ElementsAre($for j, [[const T$j& e$j]]) {
  typedef ::testing::tuple<
$for j, [[

      typename internal::DecayArray<T$j[[]]>::type]]> Args;
  return internal::ElementsAreMatcher<Args>(Args($for j, [[e$j]]));
}

]]

// UnorderedElementsAre(e_1, e_2, ..., e_n) is an ElementsAre extension
// that matches n elements in any order.  We support up to n=$n arguments.
//
// If you have >$n elements, consider UnorderedElementsAreArray() or
// UnorderedPointwise() instead.

$range i 0..n
$for i [[

$range j 1..i

$if i>0 [[

template <$for j, [[typename T$j]]>
]]

inline internal::UnorderedElementsAreMatcher<
    ::testing::tuple<
$for j, [[

        typename internal::DecayArray<T$j[[]]>::type]]> >
UnorderedElementsAre($for j, [[const T$j& e$j]]) {
  typedef ::testing::tuple<
$for j, [[

      typename internal::DecayArray<T$j[[]]>::type]]> Args;
  return internal::UnorderedElementsAreMatcher<Args>(Args($for j, [[e$j]]));
}

]]

// AllOf(m1, m2, ..., mk) matches any value that matches all of the given
// sub-matchers.  AllOf is called fully qualified to prevent ADL from firing.

$range i 2..n
$for i [[
$range j 1..i
$var m = i/2
$range k 1..m
$range t m+1..i

template <$for j, [[typename M$j]]>
inline typename internal::AllOfResult$i<$for j, [[M$j]]>::type
AllOf($for j, [[M$j m$j]]) {
  return typename internal::AllOfResult$i<$for j, [[M$j]]>::type(
      $if m == 1 [[m1]] $else [[::testing::AllOf($for k, [[m$k]])]],
      $if m+1 == i [[m$i]] $else [[::testing::AllOf($for t, [[m$t]])]]);
}

]]

// AnyOf(m1, m2, ..., mk) matches any value that matches any of the given
// sub-matchers.  AnyOf is called fully qualified to prevent ADL from firing.

$range i 2..n
$for i [[
$range j 1..i
$var m = i/2
$range k 1..m
$range t m+1..i

template <$for j, [[typename M$j]]>
inline typename internal::AnyOfResult$i<$for j, [[M$j]]>::type
AnyOf($for j, [[M$j m$j]]) {
  return typename internal::AnyOfResult$i<$for j, [[M$j]]>::type(
      $if m == 1 [[m1]] $else [[::testing::AnyOf($for k, [[m$k]])]],
      $if m+1 == i [[m$i]] $else [[::testing::AnyOf($for t, [[m$t]])]]);
}

]]

}  // namespace testing
$$ } // This Pump meta comment fixes auto-indentation in Emacs. It will not
$$   // show up in the generated code.


// 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.  The reason is
// that C++ doesn't yet allow function-local types to be used to
// instantiate templates.  The up-coming C++0x standard will fix this.
// Once that's done, we'll consider supporting using MATCHER*() inside
// a function.
//
// More Information
// ================
//
// To learn more about using these macros, please search for 'MATCHER'
// on https://github.com/google/googletest/blob/master/googlemock/docs/CookBook.md

$range i 0..n
$for i

[[
$var macro_name = [[$if i==0 [[MATCHER]] $elif i==1 [[MATCHER_P]]
                                         $else [[MATCHER_P$i]]]]
$var class_name = [[name##Matcher[[$if i==0 [[]] $elif i==1 [[P]]
                                                 $else [[P$i]]]]]]
$range j 0..i-1
$var template = [[$if i==0 [[]] $else [[

  template <$for j, [[typename p$j##_type]]>\
]]]]
$var ctor_param_list = [[$for j, [[p$j##_type gmock_p$j]]]]
$var impl_ctor_param_list = [[$for j, [[p$j##_type gmock_p$j]]]]
$var impl_inits = [[$if i==0 [[]] $else [[ : $for j, [[p$j(::testing::internal::move(gmock_p$j))]]]]]]
$var inits = [[$if i==0 [[]] $else [[ : $for j, [[p$j(::testing::internal::move(gmock_p$j))]]]]]]
$var params = [[$for j, [[p$j]]]]
$var param_types = [[$if i==0 [[]] $else [[<$for j, [[p$j##_type]]>]]]]
$var param_types_and_names = [[$for j, [[p$j##_type p$j]]]]
$var param_field_decls = [[$for j
[[

      p$j##_type const p$j;\
]]]]
$var param_field_decls2 = [[$for j
[[

    p$j##_type const p$j;\
]]]]

#define $macro_name(name$for j [[, p$j]], description)\$template
  class $class_name {\
   public:\
    template <typename arg_type>\
    class gmock_Impl : public ::testing::MatcherInterface<\
        GTEST_REFERENCE_TO_CONST_(arg_type)> {\
     public:\
      [[$if i==1 [[explicit ]]]]gmock_Impl($impl_ctor_param_list)\
          $impl_inits {}\
      virtual bool MatchAndExplain(\
          GTEST_REFERENCE_TO_CONST_(arg_type) arg,\
          ::testing::MatchResultListener* result_listener) const;\
      virtual void DescribeTo(::std::ostream* gmock_os) const {\
        *gmock_os << FormatDescription(false);\
      }\
      virtual void DescribeNegationTo(::std::ostream* gmock_os) const {\
        *gmock_os << FormatDescription(true);\
      }\$param_field_decls
     private:\
      ::std::string FormatDescription(bool negation) const {\
        ::std::string gmock_description = (description);\
        if (!gmock_description.empty())\
          return gmock_description;\
        return ::testing::internal::FormatMatcherDescription(\
            negation, #name, \
            ::testing::internal::UniversalTersePrintTupleFieldsToStrings(\
                ::testing::tuple<$for j, [[p$j##_type]]>($for j, [[p$j]])));\
      }\
    };\
    template <typename arg_type>\
    operator ::testing::Matcher<arg_type>() const {\
      return ::testing::Matcher<arg_type>(\
          new gmock_Impl<arg_type>($params));\
    }\
    [[$if i==1 [[explicit ]]]]$class_name($ctor_param_list)$inits {\
    }\$param_field_decls2
   private:\
  };\$template
  inline $class_name$param_types name($param_types_and_names) {\
    return $class_name$param_types($params);\
  }\$template
  template <typename arg_type>\
  bool $class_name$param_types::gmock_Impl<arg_type>::MatchAndExplain(\
      GTEST_REFERENCE_TO_CONST_(arg_type) arg,\
      ::testing::MatchResultListener* result_listener GTEST_ATTRIBUTE_UNUSED_)\
          const
]]


#endif  // GMOCK_INCLUDE_GMOCK_GMOCK_GENERATED_MATCHERS_H_