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Merge pull request #107 from Flamefire/clang-format

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Format code using Clang-Format 10 and enforce via CI
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Alexander Grund 2022-01-24 17:35:24 +01:00 committed by GitHub
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162
.clang-format Normal file
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@ -0,0 +1,162 @@
---
Language: Cpp
# BasedOnStyle: Mozilla
AccessModifierOffset: -4
AlignAfterOpenBracket: Align
AlignConsecutiveMacros: false
AlignConsecutiveAssignments: false
AlignConsecutiveDeclarations: false
AlignEscapedNewlines: Left
AlignOperands: true
AlignTrailingComments: true
AllowAllArgumentsOnNextLine: true
AllowAllConstructorInitializersOnNextLine: true
AllowAllParametersOfDeclarationOnNextLine: false
AllowShortBlocksOnASingleLine: Never
AllowShortCaseLabelsOnASingleLine: false
AllowShortFunctionsOnASingleLine: Inline
AllowShortLambdasOnASingleLine: All
AllowShortIfStatementsOnASingleLine: Never
AllowShortLoopsOnASingleLine: false
AlwaysBreakAfterDefinitionReturnType: None
AlwaysBreakAfterReturnType: None
AlwaysBreakBeforeMultilineStrings: false
AlwaysBreakTemplateDeclarations: Yes
BinPackArguments: false
BinPackParameters: false
BraceWrapping:
AfterCaseLabel: true
AfterClass: true
AfterControlStatement: true
AfterEnum: true
AfterFunction: true
AfterNamespace: false
AfterObjCDeclaration: true
AfterStruct: true
AfterUnion: true
AfterExternBlock: true
BeforeCatch: false
BeforeElse: false
IndentBraces: false
SplitEmptyFunction: false
SplitEmptyRecord: false
SplitEmptyNamespace: false
BreakBeforeBinaryOperators: None
BreakBeforeBraces: Custom
BreakBeforeInheritanceComma: false
BreakInheritanceList: AfterColon
BreakBeforeTernaryOperators: true
BreakConstructorInitializersBeforeComma: false
BreakConstructorInitializers: BeforeColon
BreakAfterJavaFieldAnnotations: false
BreakStringLiterals: true
ColumnLimit: 120
CommentPragmas: '^ IWYU pragma:'
CompactNamespaces: true
ConstructorInitializerAllOnOneLineOrOnePerLine: false
ConstructorInitializerIndentWidth: 4
ContinuationIndentWidth: 2
Cpp11BracedListStyle: false
DeriveLineEnding: true
DerivePointerAlignment: false
DisableFormat: false
ExperimentalAutoDetectBinPacking: false
FixNamespaceComments: true
ForEachMacros:
- foreach
- Q_FOREACH
- BOOST_FOREACH
IncludeBlocks: Preserve
IncludeCategories:
- Regex: '<turtle/'
Priority: 10
SortPriority: 0
- Regex: '<boost/'
Priority: 20
SortPriority: 0
- Regex: '^<'
Priority: 30
SortPriority: 0
- Regex: '.*'
Priority: 1
SortPriority: 0
IncludeIsMainRegex: '(Test)?$'
IncludeIsMainSourceRegex: ''
IndentCaseLabels: true
IndentGotoLabels: true
IndentPPDirectives: AfterHash
IndentWidth: 4
IndentWrappedFunctionNames: false
JavaScriptQuotes: Leave
JavaScriptWrapImports: true
KeepEmptyLinesAtTheStartOfBlocks: false
MacroBlockBegin: ''
MacroBlockEnd: ''
MaxEmptyLinesToKeep: 1
NamespaceIndentation: Inner
ObjCBinPackProtocolList: Auto
ObjCBlockIndentWidth: 2
ObjCSpaceAfterProperty: true
ObjCSpaceBeforeProtocolList: false
PenaltyBreakAssignment: 2
PenaltyBreakBeforeFirstCallParameter: 19
PenaltyBreakComment: 300
PenaltyBreakFirstLessLess: 120
PenaltyBreakString: 1000
PenaltyBreakTemplateDeclaration: 10
PenaltyExcessCharacter: 1000000
PenaltyReturnTypeOnItsOwnLine: 200
PointerAlignment: Left
ReflowComments: true
SortIncludes: true
SortUsingDeclarations: true
SpaceAfterCStyleCast: false
SpaceAfterLogicalNot: false
SpaceAfterTemplateKeyword: false
SpaceBeforeAssignmentOperators: true
SpaceBeforeCpp11BracedList: false
SpaceBeforeCtorInitializerColon: true
SpaceBeforeInheritanceColon: true
SpaceBeforeParens: Never
SpaceBeforeRangeBasedForLoopColon: true
SpaceInEmptyBlock: false
SpaceInEmptyParentheses: false
SpacesBeforeTrailingComments: 1
SpacesInAngles: false
SpacesInConditionalStatement: false
SpacesInContainerLiterals: true
SpacesInCStyleCastParentheses: false
SpacesInParentheses: false
SpacesInSquareBrackets: false
SpaceBeforeSquareBrackets: false
Standard: c++14
StatementMacros:
- MOCK_BASE_CLASS
- MOCK_CLASS
- MOCK_CONSTRUCTOR
- MOCK_CONSTRUCTOR_TPL
- MOCK_CONST_CONVERSION_OPERATOR
- MOCK_CONST_CONVERSION_OPERATOR_TPL
- MOCK_CONST_METHOD
- MOCK_CONST_METHOD_EXT
- MOCK_CONST_METHOD_EXT_TPL
- MOCK_CONST_METHOD_TPL
- MOCK_CONVERSION_OPERATOR
- MOCK_DESTRUCTOR
- MOCK_METHOD
- MOCK_METHOD_EXT
- MOCK_METHOD_EXT_TPL
- MOCK_METHOD_TPL
- MOCK_NON_CONST_CONVERSION_OPERATOR
- MOCK_NON_CONST_CONVERSION_OPERATOR_TPL
- MOCK_NON_CONST_METHOD
- MOCK_NON_CONST_METHOD_EXT
- MOCK_NON_CONST_METHOD_EXT_TPL
- MOCK_NON_CONST_METHOD_TPL
- MOCK_STATIC_METHOD
- MOCK_STATIC_METHOD_TPL
TabWidth: 4
UseCRLF: false
UseTab: Never
...

9
.github/workflows/ci.yml vendored
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@ -23,6 +23,15 @@ env:
DOCBOOK_DTD_DIR: /usr/share/xml/docbook/schema/dtd/4.2
jobs:
Formatting:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- name: Formatting
uses: DoozyX/clang-format-lint-action@v0.13
with:
clangFormatVersion: 10
posix:
defaults:
run:

7
doc/example/calculator.hpp
View file

@ -15,10 +15,11 @@
class calculator
{
view& v;
public:
calculator( view& v ): v(v){}
void add( int a, int b ){ v.display(a + b); } // the result will be sent to the view 'v'
public:
calculator(view& v) : v(v) {}
void add(int a, int b) { v.display(a + b); } // the result will be sent to the view 'v'
};
//]

139
doc/example/customization.cpp
View file

@ -15,152 +15,135 @@
#include <boost/test/unit_test.hpp>
//[ mock_stream_user_type
namespace user_namespace
{
struct user_type
{};
namespace user_namespace {
struct user_type
{};
inline mock::stream& operator<<( mock::stream& s, const user_type& )
{
inline mock::stream& operator<<(mock::stream& s, const user_type&)
{
return s << "user_type";
}
}
} // namespace user_namespace
//]
namespace custom_constraint_free_function_test
{
namespace custom_constraint_free_function_test {
//[ custom_constraint_free_function
bool custom_constraint( int actual )
bool custom_constraint(int actual)
{
return actual == 42;
}
//]
//[ custom_constraint_free_function_test
BOOST_AUTO_TEST_CASE( forty_one_plus_one_is_forty_two_free_function )
BOOST_AUTO_TEST_CASE(forty_one_plus_one_is_forty_two_free_function)
{
mock_view v;
calculator c( v );
MOCK_EXPECT( v.display ).with( &custom_constraint );
c.add( 41, 1 );
}
//]
calculator c(v);
MOCK_EXPECT(v.display).with(&custom_constraint);
c.add(41, 1);
}
//]
} // namespace custom_constraint_free_function_test
namespace custom_constraint_functor_test
{
namespace custom_constraint_functor_test {
//[ custom_constraint_functor
struct custom_constraint
{
friend bool operator==( int actual, const custom_constraint& )
{
return actual == 42;
}
friend bool operator==(int actual, const custom_constraint&) { return actual == 42; }
friend std::ostream& operator<<( std::ostream& s, const custom_constraint& )
{
return s << "_ == 42";
}
friend std::ostream& operator<<(std::ostream& s, const custom_constraint&) { return s << "_ == 42"; }
};
//]
//[ custom_constraint_functor_test
BOOST_AUTO_TEST_CASE( forty_one_plus_one_is_forty_two_custom_constraint )
BOOST_AUTO_TEST_CASE(forty_one_plus_one_is_forty_two_custom_constraint)
{
mock_view v;
calculator c( v );
MOCK_EXPECT( v.display ).with( custom_constraint() );
c.add( 41, 1 );
calculator c(v);
MOCK_EXPECT(v.display).with(custom_constraint());
c.add(41, 1);
}
//]
}
} // namespace custom_constraint_functor_test
//[ near_constraint
template< typename Expected >
template<typename Expected>
struct near_constraint
{
near_constraint( Expected expected, Expected threshold )
: expected_( expected )
, threshold_( threshold )
{}
near_constraint(Expected expected, Expected threshold) : expected_(expected), threshold_(threshold) {}
template< typename Actual >
bool operator()( Actual actual ) const
template<typename Actual>
bool operator()(Actual actual) const
{
return std::abs( actual - mock::unwrap_ref(expected_) ) <= mock::unwrap_ref(threshold_) ;
return std::abs(actual - mock::unwrap_ref(expected_)) <= mock::unwrap_ref(threshold_);
}
friend std::ostream& operator<<( std::ostream& s, const near_constraint& c )
friend std::ostream& operator<<(std::ostream& s, const near_constraint& c)
{
return s << "near( " << mock::format( c.expected_ )
<< ", " << mock::format( c.threshold_ ) << " )";
return s << "near( " << mock::format(c.expected_) << ", " << mock::format(c.threshold_) << " )";
}
Expected expected_, threshold_;
};
template< typename Expected >
mock::constraint< near_constraint< Expected > > near( Expected expected, Expected threshold )
template<typename Expected>
mock::constraint<near_constraint<Expected>> near(Expected expected, Expected threshold)
{
return near_constraint< Expected >( expected, threshold );
return near_constraint<Expected>(expected, threshold);
}
//]
namespace near_constraint_test
{
namespace near_constraint_test {
//[ near_constraint_test
BOOST_AUTO_TEST_CASE( forty_one_plus_one_is_forty_two_plus_or_minus_one_near )
BOOST_AUTO_TEST_CASE(forty_one_plus_one_is_forty_two_plus_or_minus_one_near)
{
mock_view v;
calculator c( v );
MOCK_EXPECT( v.display ).with( near( 42, 1 ) );
c.add( 41, 1 );
calculator c(v);
MOCK_EXPECT(v.display).with(near(42, 1));
c.add(41, 1);
}
//]
}
} // namespace near_constraint_test
namespace near_constraint_cref_test
{
namespace near_constraint_cref_test {
//[ near_constraint_cref_test
BOOST_AUTO_TEST_CASE( forty_one_plus_one_is_forty_two_plus_or_minus_one_near_cref )
BOOST_AUTO_TEST_CASE(forty_one_plus_one_is_forty_two_plus_or_minus_one_near_cref)
{
mock_view v;
calculator c( v );
calculator c(v);
int expected = 0, threshold = 0;
MOCK_EXPECT( v.display ).with( near( std::cref( expected ), std::cref( threshold ) ) );
MOCK_EXPECT(v.display).with(near(std::cref(expected), std::cref(threshold)));
expected = 42;
threshold = 1;
c.add( 41, 1 );
c.add(41, 1);
}
//]
// Example of a "strong type" float
struct float_wrapper{
struct float_wrapper
{
float value;
float_wrapper(float value): value(value){}
float_wrapper(float value) : value(value) {}
operator float() const { return value; }
friend std::ostream& operator<<( std::ostream& s, const float_wrapper& f)
{
return s << f.value;
}
friend std::ostream& operator<<(std::ostream& s, const float_wrapper& f) { return s << f.value; }
};
BOOST_AUTO_TEST_CASE( near_constraint_works_with_with_float_wrapper_and_cref )
BOOST_AUTO_TEST_CASE(near_constraint_works_with_with_float_wrapper_and_cref)
{
mock_view v;
calculator c( v );
calculator c(v);
float_wrapper expected = 0, threshold = 0;
// This works even without the unwrap_ref
MOCK_EXPECT( v.display ).once().with( near( expected, threshold ) );
MOCK_EXPECT(v.display).once().with(near(expected, threshold));
// This requires 2 implicit conversion: from reference_wrapper to float_wrapper, then to float
// so unwrap_ref in near is required as C++ allows only 1 implicit conversion
MOCK_EXPECT( v.display ).once().with( near( std::cref( expected ), std::cref( threshold ) ) );
MOCK_EXPECT(v.display).once().with(near(std::cref(expected), std::cref(threshold)));
expected = 42;
threshold = 1;
c.add(0, 0);
c.add(41, 1);
}
}
} // namespace near_constraint_cref_test
#undef MOCK_MAX_ARGS
//[ max_args
@ -169,12 +152,12 @@ BOOST_AUTO_TEST_CASE( near_constraint_works_with_with_float_wrapper_and_cref )
//]
#if defined(__GNUC__)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
//[ custom_policy
template< typename Result >
template<typename Result>
struct custom_policy
{
static Result abort()
@ -182,17 +165,17 @@ struct custom_policy
// Notify the test framework that an error occurs which makes it impossible to continue the test.
// This should most likely throw an exception of some kind.
}
template< typename Context >
static void fail( const char* message, const Context& context, const char* file = "unknown location", int line = 0 )
template<typename Context>
static void fail(const char* message, const Context& context, const char* file = "unknown location", int line = 0)
{
// Notify the test framework that an unexpected call has occurred.
}
template< typename Context >
static void call( const Context& context, const char* file, int line )
template<typename Context>
static void call(const Context& context, const char* file, int line)
{
// Notify the test framework that an expectation has been fulfilled.
}
static void pass( const char* file, int line )
static void pass(const char* file, int line)
{
// Notify the test framework that the test execution merely passed the given code location.
}
@ -200,7 +183,7 @@ struct custom_policy
//]
#if defined(__GNUC__)
#pragma GCC diagnostic pop
# pragma GCC diagnostic pop
#endif
#undef MOCK_ERROR_POLICY

158
doc/example/getting_started.cpp
View file

@ -7,15 +7,15 @@
// http://www.boost.org/LICENSE_1_0.txt)
#include <functional>
#include <string>
#include <sstream>
#include <string>
std::function<void()> error_handler_abort;
std::function<void(const char*, int)> error_handler_pass;
std::function<void(const std::string&, const char*, int)> error_handler_call;
std::function<void(const char* message, const std::string&, const char*, int)> error_handler_fail;
template< typename Result >
template<typename Result>
struct configurable_mock_error
{
static Result abort()
@ -24,25 +24,22 @@ struct configurable_mock_error
return Result();
}
static void pass( const char* file, int line )
{
error_handler_pass(file, line);
}
static void pass(const char* file, int line) { error_handler_pass(file, line); }
template< typename Context >
static void call( const Context& context, const char* file, int line )
template<typename Context>
static void call(const Context& context, const char* file, int line)
{
std::stringstream s;
s << context;
error_handler_call( s.str(), file, line );
error_handler_call(s.str(), file, line);
}
template< typename Context >
static void fail( const char* message, const Context& context, const char* file = "", int line = 0 )
template<typename Context>
static void fail(const char* message, const Context& context, const char* file = "", int line = 0)
{
std::stringstream s;
s << context;
error_handler_fail( message, s.str(), file, line );
error_handler_fail(message, s.str(), file, line);
}
};
@ -50,8 +47,8 @@ struct configurable_mock_error
#define MOCK_USE_BOOST_TEST
//[ prerequisite
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
//]
#include "calculator.hpp"
#include "mock_view.hpp"
@ -69,124 +66,114 @@ struct Fixture
BOOST_FIXTURE_TEST_SUITE(GettingStarted, Fixture)
namespace phases
{
namespace phases {
//[ phases
BOOST_AUTO_TEST_CASE( zero_plus_zero_is_zero )
BOOST_AUTO_TEST_CASE(zero_plus_zero_is_zero)
{
mock_view v; // create mock objects
calculator c( v ); // create object under test
MOCK_EXPECT( v.display ).once().with( 0 ); // configure mock objects
c.add( 0, 0 ); // exercise object under test
calculator c(v); // create object under test
MOCK_EXPECT(v.display).once().with(0); // configure mock objects
c.add(0, 0); // exercise object under test
} // verify mock objects
//]
}
} // namespace phases
namespace verify_reset
{
namespace verify_reset {
//[ verify_reset
BOOST_AUTO_TEST_CASE( zero_plus_zero_is_zero_reset )
BOOST_AUTO_TEST_CASE(zero_plus_zero_is_zero_reset)
{
mock_view v;
calculator c( v );
MOCK_EXPECT( v.display ).once().with( 0 );
c.add( 0, 0 );
MOCK_VERIFY( v.display ); // verify all expectations are fulfilled for the 'display' method
mock::verify( v ); // verify all expectations are fulfilled for all methods of 'v'
calculator c(v);
MOCK_EXPECT(v.display).once().with(0);
c.add(0, 0);
MOCK_VERIFY(v.display); // verify all expectations are fulfilled for the 'display' method
mock::verify(v); // verify all expectations are fulfilled for all methods of 'v'
mock::verify(); // verify all expectations are fulfilled for all existing mock objects
MOCK_RESET( v.display ); // reset all expectations for the 'display' method
mock::reset( v ); // reset all expectations for all methods of 'v'
MOCK_RESET(v.display); // reset all expectations for the 'display' method
mock::reset(v); // reset all expectations for all methods of 'v'
mock::reset(); // reset all expectations for all existing mock objects
} // automatically verify all expectations are fulfilled for all mock objects going out of scope
//]
}
} // namespace verify_reset
namespace expectations
{
namespace expectations {
//[ expectations
BOOST_AUTO_TEST_CASE( zero_plus_zero_is_zero_expect )
BOOST_AUTO_TEST_CASE(zero_plus_zero_is_zero_expect)
{
mock_view v;
calculator c( v );
MOCK_EXPECT( v.display ).once().with( 0 ); // this call must occur once (and only once)
MOCK_EXPECT( v.display ).with( 1 ); // this call can occur any number of times (including never)
c.add( 0, 0 );
calculator c(v);
MOCK_EXPECT(v.display).once().with(0); // this call must occur once (and only once)
MOCK_EXPECT(v.display).with(1); // this call can occur any number of times (including never)
c.add(0, 0);
}
//]
}
} // namespace expectations
namespace sequence
{
namespace sequence {
//[ sequence
BOOST_AUTO_TEST_CASE( zero_plus_zero_is_zero_then_1_plus_0_is_1 )
BOOST_AUTO_TEST_CASE(zero_plus_zero_is_zero_then_1_plus_0_is_1)
{
mock_view v;
calculator c( v );
calculator c(v);
mock::sequence s;
MOCK_EXPECT( v.display ).once().with( 0 ).in( s ); // add this expectation to the sequence
MOCK_EXPECT( v.display ).with( 1 ).in( s ); // add this expectation to the sequence after the previous call
c.add( 0, 0 );
c.add( 1, 0 );
MOCK_EXPECT(v.display).once().with(0).in(s); // add this expectation to the sequence
MOCK_EXPECT(v.display).with(1).in(s); // add this expectation to the sequence after the previous call
c.add(0, 0);
c.add(1, 0);
}
//]
}
} // namespace sequence
namespace several_sequences
{
namespace several_sequences {
//[ several_sequences
BOOST_AUTO_TEST_CASE( add_several_numbers_in_sequences )
BOOST_AUTO_TEST_CASE(add_several_numbers_in_sequences)
{
mock_view v;
calculator c( v );
calculator c(v);
mock::sequence s1, s2;
MOCK_EXPECT( v.display ).once().with( 0 ).in( s1 );
MOCK_EXPECT( v.display ).once().with( 1 ).in( s2 );
MOCK_EXPECT( v.display ).with( 2 ).in( s1, s2 ); // add this expectation to both sequences after the previous calls
c.add( 0, 0 );
c.add( 1, 0 );
c.add( 1, 1 );
c.add( 2, 0 );
MOCK_EXPECT(v.display).once().with(0).in(s1);
MOCK_EXPECT(v.display).once().with(1).in(s2);
MOCK_EXPECT(v.display).with(2).in(s1, s2); // add this expectation to both sequences after the previous calls
c.add(0, 0);
c.add(1, 0);
c.add(1, 1);
c.add(2, 0);
}
//]
}
} // namespace several_sequences
BOOST_AUTO_TEST_SUITE_END()
namespace action
{
namespace action {
//[ action_view
class view
{
public:
virtual bool display( int result ) = 0; // returns a boolean
virtual bool display(int result) = 0; // returns a boolean
};
//]
MOCK_BASE_CLASS( mock_view, view )
MOCK_BASE_CLASS(mock_view, view)
{
MOCK_METHOD( display, 1 )
MOCK_METHOD(display, 1)
};
class calculator
{
view& v;
public:
calculator( view& v ): v(v) {}
void add( int a, int b ){ v.display(a + b); }
public:
calculator(view& v) : v(v) {}
void add(int a, int b) { v.display(a + b); }
};
struct CatchFailureFixture: Fixture
struct CatchFailureFixture : Fixture
{
static bool aborted;
static std::string fail_msg;
static void abort()
{
aborted = true;
}
static void fail( const std::string& message, const std::string&, const char* = "", int = 0 ){
fail_msg = message;
}
static void abort() { aborted = true; }
static void fail(const std::string& message, const std::string&, const char* = "", int = 0) { fail_msg = message; }
CatchFailureFixture()
{
error_handler_abort = abort;
@ -201,22 +188,21 @@ struct CatchFailureFixture: Fixture
bool CatchFailureFixture::aborted = false;
std::string CatchFailureFixture::fail_msg;
struct AssertMissingAction: CatchFailureFixture{
void teardown(){
assert_failure("missing action");
}
struct AssertMissingAction : CatchFailureFixture
{
void teardown() { assert_failure("missing action"); }
};
BOOST_FIXTURE_TEST_SUITE( MissingReturnActionSuite, AssertMissingAction)
BOOST_FIXTURE_TEST_SUITE(MissingReturnActionSuite, AssertMissingAction)
//[ action_test
BOOST_AUTO_TEST_CASE( zero_plus_zero_is_zero_with_action )
BOOST_AUTO_TEST_CASE(zero_plus_zero_is_zero_with_action)
{
mock_view v;
calculator c( v );
MOCK_EXPECT( v.display ).once().with( 0 ); // missing returns( true )
c.add( 0, 0 );
calculator c(v);
MOCK_EXPECT(v.display).once().with(0); // missing returns( true )
c.add(0, 0);
}
//]
}
} // namespace action
BOOST_AUTO_TEST_SUITE_END()

63
doc/example/limitations_const_parameter_warning.cpp
View file

@ -6,53 +6,46 @@
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
namespace
{
namespace {
//[ limitations_const_parameter_warning_problem
class base
{
public:
virtual void method( const int ) = 0;
};
//]
}
namespace limitations_const_parameter_warning_explanation
class base
{
public:
virtual void method(const int) = 0;
};
//]
} // namespace
namespace limitations_const_parameter_warning_explanation {
//[ limitations_const_parameter_warning_explanation
class derived : public base
{
public:
virtual void method( const int );
};
void derived::method( int )
{}
//]
}
namespace
class derived : public base
{
//[ limitations_const_parameter_warning_solution
MOCK_BASE_CLASS( mock_base, base )
{
void method( const int i )
{
method_stub( i );
}
MOCK_METHOD( method_stub, 1, void( int ), method )
};
public:
virtual void method(const int);
};
void derived::method(int) {}
//]
}
} // namespace limitations_const_parameter_warning_explanation
namespace {
//[ limitations_const_parameter_warning_solution
MOCK_BASE_CLASS(mock_base, base)
{
void method(const int i) { method_stub(i); }
MOCK_METHOD(method_stub, 1, void(int), method)
};
//]
} // namespace
BOOST_AUTO_TEST_CASE(check_method_stub_is_called)
{
mock_base b;
MOCK_EXPECT(b.method).once().with(1);
// Example user code taking a base* (or smart pointer variant)
auto callMethod = [](base* bPtr){ bPtr->method(1); };
auto callMethod = [](base* bPtr) { bPtr->method(1); };
callMethod(&b);
}

45
doc/example/limitations_literal_zero.cpp
View file

@ -6,35 +6,34 @@
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
namespace
{
namespace {
//[ limitations_literal_zero_problem
class base
{
public:
virtual void method( int* i ) = 0;
};
class base
{
public:
virtual void method(int* i) = 0;
};
MOCK_BASE_CLASS( mock_base, base )
{
MOCK_METHOD( method, 1 )
};
MOCK_BASE_CLASS(mock_base, base)
{
MOCK_METHOD(method, 1)
};
//]
}
} // namespace
BOOST_AUTO_TEST_CASE( literal_zero )
BOOST_AUTO_TEST_CASE(literal_zero)
{
mock_base m;
//[ limitations_literal_zero_solution_1
MOCK_EXPECT( m.method ).with( mock::equal< int* >( 0 ) ); // this compiles
//]
//[ limitations_literal_zero_solution_2
MOCK_EXPECT( m.method ).with( mock::negate );
//]
//[ limitations_literal_zero_solution_3
MOCK_EXPECT( m.method ).with( nullptr );
//]
//[ limitations_literal_zero_solution_1
MOCK_EXPECT(m.method).with(mock::equal<int*>(0)); // this compiles
//]
//[ limitations_literal_zero_solution_2
MOCK_EXPECT(m.method).with(mock::negate);
//]
//[ limitations_literal_zero_solution_3
MOCK_EXPECT(m.method).with(nullptr);
//]
}

6
doc/example/limitations_non_virtual_method.cpp
View file

@ -6,8 +6,8 @@
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
//[ limitations_non_virtual_method_problem
class base
@ -19,9 +19,9 @@ public:
//]
//[ limitations_non_virtual_method_problem_2
MOCK_BASE_CLASS( mock_base, base )
MOCK_BASE_CLASS(mock_base, base)
{
MOCK_METHOD( method, 0 )
MOCK_METHOD(method, 0)
};
//]

35
doc/example/limitations_protected_private_method.cpp
View file

@ -6,31 +6,36 @@
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
namespace
{
namespace {
//[ limitations_protected_private_method_problem
class base
class base
{
public:
void call()
{
public:
void call(){ method_1(); method_2(); }
protected:
method_1();
method_2();
}
protected:
virtual void method_1() = 0;
private:
private:
virtual void method_2() = 0;
};
};
//]
//[ limitations_protected_private_method_solution
MOCK_BASE_CLASS( mock_base, base )
{
MOCK_METHOD( method_1, 0, void() )
MOCK_METHOD( method_2, 0, void() )
};
MOCK_BASE_CLASS(mock_base, base)
{
MOCK_METHOD(method_1, 0, void())
MOCK_METHOD(method_2, 0, void())
};
//]
}
} // namespace
BOOST_AUTO_TEST_CASE(mocked_methods_are_called)
{

27
doc/example/limitations_template_base_class_method.cpp
View file

@ -6,30 +6,29 @@
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
namespace
{
namespace {
//[ limitations_template_base_class_method_problem
template< typename T >
class base
{
public:
template<typename T>
class base
{
public:
virtual ~base() = default;
virtual void method() = 0;
};
};
//]
//[ limitations_template_base_class_method_solution
template< typename T >
MOCK_BASE_CLASS( mock_base, base< T > )
{
MOCK_METHOD( method, 0, void() )
};
template<typename T>
MOCK_BASE_CLASS(mock_base, base<T>)
{
MOCK_METHOD(method, 0, void())
};
//]
}
} // namespace
BOOST_AUTO_TEST_CASE(call_method_from_templated_class)
{

52
doc/example/limitations_template_method.cpp
View file

@ -6,32 +6,31 @@
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
namespace limitations_template_method_problem
{
namespace limitations_template_method_problem {
//[ limitations_template_method_problem
class concept_class
{
public:
template< typename T >
void method( T t );
template<typename T>
void method(T t);
};
template< typename T >
void function_under_test( T t ) // T is supposed to model the previous concept
template<typename T>
void function_under_test(T t) // T is supposed to model the previous concept
{
t.method( 42 );
t.method( "string" );
t.method(42);
t.method("string");
}
//]
//[ limitations_template_method_solution
MOCK_CLASS( mock_concept )
MOCK_CLASS(mock_concept)
{
MOCK_METHOD( method, 1, void( int ), method_int )
MOCK_METHOD( method, 1, void( const char* ), method_string )
MOCK_METHOD(method, 1, void(int), method_int)
MOCK_METHOD(method, 1, void(const char*), method_string)
};
//]
@ -42,46 +41,45 @@ BOOST_AUTO_TEST_CASE(mocked_templated_methods_are_called)
MOCK_EXPECT(b.method_string).once().with(mock::equal(std::string("string")));
function_under_test(b);
}
}
} // namespace limitations_template_method_problem
namespace limitations_template_method_problem_2
{
namespace limitations_template_method_problem_2 {
//[ limitations_template_method_problem_2
class concept_class
{
public:
template< typename T >
template<typename T>
T create()
{
return T();
}
};
template< typename T >
void function_under_test( T t ) // T is supposed to model the previous concept
template<typename T>
void function_under_test(T t) // T is supposed to model the previous concept
{
t.template create< int >();
t.template create< std::string >();
t.template create<int>();
t.template create<std::string>();
}
//]
//[ limitations_template_method_solution_2
MOCK_CLASS( mock_concept )
MOCK_CLASS(mock_concept)
{
template< typename T >
template<typename T>
T create();
MOCK_METHOD( create_int, 0, int(), create_int )
MOCK_METHOD( create_string, 0, std::string(), create_string )
MOCK_METHOD(create_int, 0, int(), create_int)
MOCK_METHOD(create_string, 0, std::string(), create_string)
};
template<>
int mock_concept::create< int >()
int mock_concept::create<int>()
{
return create_int();
}
template<>
std::string mock_concept::create< std::string >()
std::string mock_concept::create<std::string>()
{
return create_string();
}
@ -94,4 +92,4 @@ BOOST_AUTO_TEST_CASE(dispatch_methods_are_called)
MOCK_EXPECT(b.create_string).once().returns("");
function_under_test(b);
}
}
} // namespace limitations_template_method_problem_2

26
doc/example/limitations_throw_specifier.cpp
View file

@ -6,31 +6,27 @@
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
namespace
{
namespace {
//[ limitations_throw_specifier_problem
struct base_class
{
struct base_class
{
virtual ~base_class() = default;
virtual void method() throw() = 0;
};
};
//]
//[ limitations_throw_specifier_solution
MOCK_BASE_CLASS( mock_class, base_class )
{
void method() throw() override
{
method_proxy();
}
MOCK_METHOD( method_proxy, 0, void(), method )
};
MOCK_BASE_CLASS(mock_class, base_class)
{
void method() throw() override { method_proxy(); }
MOCK_METHOD(method_proxy, 0, void(), method)
};
//]
}
} // namespace
BOOST_AUTO_TEST_CASE(call_method_proxy)
{

8
doc/example/mock_view.hpp
View file

@ -9,14 +9,14 @@
#ifndef MOCK_VIEW
#define MOCK_VIEW
#include <turtle/mock.hpp>
#include "view.hpp"
#include <turtle/mock.hpp>
//[ mock_view
MOCK_BASE_CLASS( mock_view, view ) // declare a 'mock_view' class implementing 'view'
MOCK_BASE_CLASS(mock_view, view) // declare a 'mock_view' class implementing 'view'
{
MOCK_METHOD( display, 1 ) // implement the 'display' method from 'view' (taking 1 argument)
MOCK_METHOD(display, 1) // implement the 'display' method from 'view' (taking 1 argument)
};
//]
//]
#endif // MOCK_VIEW

55
doc/example/motivation.cpp
View file

@ -6,42 +6,41 @@
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include "calculator.hpp"
#include "mock_view.hpp"
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
namespace simple
{
namespace simple {
//[ simple_calculator
class calculator
{
public:
int add( int a, int b );
int add(int a, int b);
};
//]
int calculator::add( int a, int b ){ return a + b; }
int calculator::add(int a, int b)
{
return a + b;
}
//[ simple_zero_plus_zero_is_zero
BOOST_AUTO_TEST_CASE( zero_plus_zero_is_zero )
BOOST_AUTO_TEST_CASE(zero_plus_zero_is_zero)
{
calculator c;
BOOST_CHECK_EQUAL( 0, c.add( 0, 0 ) );
BOOST_CHECK_EQUAL(0, c.add(0, 0));
}
//]
}
} // namespace simple
namespace without_mock_object
{
namespace without_mock_object {
//[ my_view
class my_view : public view
{
public:
my_view()
: called( false )
{}
virtual void display( int result )
my_view() : called(false) {}
virtual void display(int result)
{
called = true;
value = result;
@ -52,26 +51,26 @@ public:
//]
//[ zero_plus_zero_is_zero_without_mock_object
BOOST_AUTO_TEST_CASE( zero_plus_zero_is_zero_without_mock_object )
BOOST_AUTO_TEST_CASE(zero_plus_zero_is_zero_without_mock_object)
{
my_view v;
calculator c( v );
c.add( 0, 0 );
BOOST_REQUIRE( v.called );
BOOST_CHECK_EQUAL( 0, v.value );
calculator c(v);
c.add(0, 0);
BOOST_REQUIRE(v.called);
BOOST_CHECK_EQUAL(0, v.value);
}
//]
}
} // namespace without_mock_object
namespace with_mock_object
{
namespace with_mock_object {
//[ zero_plus_zero_is_zero_with_mock_object
BOOST_AUTO_TEST_CASE( zero_plus_zero_is_zero_with_mock_object )
BOOST_AUTO_TEST_CASE(zero_plus_zero_is_zero_with_mock_object)
{
mock_view v;
calculator c( v );
MOCK_EXPECT( v.display ).once().with( 0 ); // expect the 'display' method to be called once (and only once) with a parameter value equal to 0
c.add( 0, 0 );
calculator c(v);
MOCK_EXPECT(v.display).once().with(
0); // expect the 'display' method to be called once (and only once) with a parameter value equal to 0
c.add(0, 0);
}
//]
}
} // namespace with_mock_object

64
doc/example/patterns_async_call.cpp
View file

@ -7,68 +7,66 @@
// http://www.boost.org/LICENSE_1_0.txt)
//[ async_call_problem
namespace mock_test
namespace mock_test {
class base_class
{
class base_class
{
public:
public:
virtual void method() = 0;
};
};
class my_class
{
class my_class
{
base_class& b;
public:
explicit my_class( base_class& );
public:
explicit my_class(base_class&);
void flush(); // repetitively calling this method will in turn call base_class::method at some point
};
}
};
} // namespace mock_test
//]
namespace mock_test
namespace mock_test {
my_class::my_class(base_class& b) : b(b) {}
void my_class::flush()
{
my_class::my_class( base_class& b): b(b){}
void my_class::flush()
{
static int counter = 7;
if(--counter == 0)
b.method();
}
}
} // namespace mock_test
//[ async_call_solution
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
#include <boost/thread.hpp>
#include <turtle/mock.hpp>
namespace mock_test
namespace mock_test {
template<typename F>
void check(bool& condition, F flush, int attempts = 100, int sleep = 100)
{
template< typename F >
void check( bool& condition, F flush, int attempts = 100, int sleep = 100 )
{
while( !condition && attempts > 0 )
while(!condition && attempts > 0)
{
--attempts;
boost::this_thread::sleep( boost::posix_time::milliseconds( sleep ) );
boost::this_thread::sleep(boost::posix_time::milliseconds(sleep));
flush();
}
}
}
MOCK_BASE_CLASS( mock_base_class, base_class )
{
MOCK_METHOD( method, 0 )
};
MOCK_BASE_CLASS(mock_base_class, base_class)
{
MOCK_METHOD(method, 0)
};
BOOST_AUTO_TEST_CASE( method_is_called )
BOOST_AUTO_TEST_CASE(method_is_called)
{
mock_base_class m;
my_class c( m );
my_class c(m);
bool done = false;
MOCK_EXPECT( m.method ).once().calls( [&done](){ done = true; } );
check( done, [&c](){ c.flush(); } ); // just wait on done, flushing from time to time
MOCK_EXPECT(m.method).once().calls([&done]() { done = true; });
check(done, [&c]() { c.flush(); }); // just wait on done, flushing from time to time
}
}
} // namespace mock_test
//]

38
doc/example/patterns_invoke_functor.cpp
View file

@ -13,14 +13,17 @@ static void someFunctor(int newValue);
//[ invoke_functor_problem
#include <functional>
class base_class
{
public:
virtual void method( const std::function< void( int ) >& functor ) = 0;
};
class base_class
{
public:
virtual void method(const std::function<void(int)>& functor) = 0;
};
// the function will call 'method' with a functor to be applied
void function(base_class& c) { c.method(someFunctor); }
// the function will call 'method' with a functor to be applied
void function(base_class& c)
{
c.method(someFunctor);
}
//]
// Some test-only code to verify what is described
@ -42,21 +45,22 @@ struct CheckReceivedValue
#define BOOST_AUTO_TEST_CASE(name) BOOST_FIXTURE_TEST_CASE(name, CheckReceivedValue)
//[ invoke_functor_solution
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
namespace
namespace {
MOCK_BASE_CLASS(mock_class, base_class)
{
MOCK_BASE_CLASS( mock_class, base_class )
{
MOCK_METHOD( method, 1 )
};
}
MOCK_METHOD(method, 1)
};
} // namespace
BOOST_AUTO_TEST_CASE( how_to_invoke_a_functor_passed_as_parameter_of_a_mock_method )
BOOST_AUTO_TEST_CASE(how_to_invoke_a_functor_passed_as_parameter_of_a_mock_method)
{
mock_class mock;
MOCK_EXPECT( mock.method ).calls( [](const auto &functor){ functor(42); } ); // whenever 'method' is called, invoke the functor with 42
function( mock );
MOCK_EXPECT(mock.method).calls([](const auto& functor) {
functor(42);
}); // whenever 'method' is called, invoke the functor with 42
function(mock);
}
//]

48
doc/example/patterns_quick_constraint.cpp
View file

@ -7,31 +7,28 @@
// http://www.boost.org/LICENSE_1_0.txt)
//[ quick_constraint_problem
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
#include <iostream>
namespace
namespace {
class my_class
{
class my_class
{
public:
explicit my_class( int data )
: data_( data )
{}
public:
explicit my_class(int data) : data_(data) {}
int data_;
};
};
std::ostream& operator<<( std::ostream& os, const my_class& c ) // my_class is serializable to an std::ostream
{
std::ostream& operator<<(std::ostream& os, const my_class& c) // my_class is serializable to an std::ostream
{
return os << "my_class( " << c.data_ << " )";
}
MOCK_CLASS( my_mock )
{
MOCK_METHOD( method, 1, void( const my_class& ) ) // how to simply write a custom constraint ?
};
}
MOCK_CLASS(my_mock)
{
MOCK_METHOD(method, 1, void(const my_class&)) // how to simply write a custom constraint ?
};
} // namespace
//]
//[ quick_constraint_solution
@ -39,18 +36,21 @@ namespace
namespace // in the same namespace as 'my_class'
{
bool operator==( const my_class& actual, const std::string& expected ) // the first part of the trick is to compare to a string
{
bool operator==(const my_class& actual,
const std::string& expected) // the first part of the trick is to compare to a string
{
std::ostringstream s;
s << actual;
return s.str() == expected;
}
} // mock
}
} // namespace
BOOST_AUTO_TEST_CASE( method_is_called )
BOOST_AUTO_TEST_CASE(method_is_called)
{
my_mock mock;
MOCK_EXPECT( mock.method ).once().with( "my_class( 42 )" ); // the second part of the trick is to express the constraint as a string
mock.method( my_class( 42 ) );
MOCK_EXPECT(mock.method)
.once()
.with("my_class( 42 )"); // the second part of the trick is to express the constraint as a string
mock.method(my_class(42));
}
//]

64
doc/example/patterns_retrieve_cref.cpp
View file

@ -7,55 +7,59 @@
// http://www.boost.org/LICENSE_1_0.txt)
//[ retrieve_cref_problem
namespace
namespace {
class base_class
{
class base_class
{
public:
virtual void method( int value ) = 0;
};
public:
virtual void method(int value) = 0;
};
class my_class
{
public:
explicit my_class( base_class& );
class my_class
{
public:
explicit my_class(base_class&);
void process(); // the processing will call 'method' two times with the same value, but we don't know what value beforehand
};
}
void process(); // the processing will call 'method' two times with the same value, but we don't know what value
// beforehand
};
} // namespace
//]
namespace
namespace {
static base_class* global_b = nullptr;
my_class::my_class(base_class& b)
{
global_b = &b;
}
void my_class::process()
{
static base_class* global_b = nullptr;
my_class::my_class( base_class& b){ global_b = &b; }
void my_class::process()
{
int secret_value = 42;
global_b->method(secret_value);
global_b->method(secret_value);
}
}
} // namespace
//[ retrieve_cref_solution
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
namespace
namespace {
MOCK_BASE_CLASS(mock_base_class, base_class)
{
MOCK_BASE_CLASS( mock_base_class, base_class )
{
MOCK_METHOD( method, 1 )
};
}
MOCK_METHOD(method, 1)
};
} // namespace
BOOST_AUTO_TEST_CASE( method_is_called_two_times_with_the_same_value )
BOOST_AUTO_TEST_CASE(method_is_called_two_times_with_the_same_value)
{
mock_base_class mock;
my_class c( mock );
my_class c(mock);
int value;
MOCK_EXPECT( mock.method ).once().with( mock::retrieve( value ) ); // on first call retrieve the value, this expectation takes precedence because it can never fail
MOCK_EXPECT( mock.method ).once().with( std::cref( value ) ); // on second call compare the previously retrieved value with the newly received one
MOCK_EXPECT(mock.method).once().with(mock::retrieve(value)); // on first call retrieve the value, this expectation
// takes precedence because it can never fail
MOCK_EXPECT(mock.method)
.once()
.with(std::cref(value)); // on second call compare the previously retrieved value with the newly received one
c.process();
}
//]

54
doc/example/patterns_static_objects.cpp
View file

@ -12,37 +12,36 @@
#define MOCK_MAKE_TEST_PASS 1
#if MOCK_MAKE_TEST_PASS
#undef BOOST_AUTO_TEST_CASE
#define BOOST_AUTO_TEST_CASE(name) BOOST_FIXTURE_TEST_CASE(name, mock::cleanup)
# undef BOOST_AUTO_TEST_CASE
# define BOOST_AUTO_TEST_CASE(name) BOOST_FIXTURE_TEST_CASE(name, mock::cleanup)
#endif
//[ static_objects_problem
#include <boost/test/unit_test.hpp>
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
#include <ostream>
namespace
namespace {
struct my_class
{
struct my_class
{
my_class( int i ) : i_( i )
{}
my_class(int i) : i_(i) {}
int i_;
};
};
std::ostream& operator<<( std::ostream& os, const my_class* c )
{
std::ostream& operator<<(std::ostream& os, const my_class* c)
{
return os << "my_class " << c->i_; // the 'c' pointer must be valid when logging
}
MOCK_FUNCTION( f, 1, void( my_class* ) ) // being static 'f' outlives the test case
}
BOOST_AUTO_TEST_CASE( static_objects_problem )
MOCK_FUNCTION(f, 1, void(my_class*)) // being static 'f' outlives the test case
} // namespace
BOOST_AUTO_TEST_CASE(static_objects_problem)
{
my_class c( 42 );
MOCK_EXPECT( f ).once().with( &c ); // the set expectation will also outlive the test case and leak into other test cases using 'f'
my_class c(42);
MOCK_EXPECT(f).once().with(
&c); // the set expectation will also outlive the test case and leak into other test cases using 'f'
} // the 'c' instance goes out of scope and the '&c' pointer becomes dangling
//]
@ -51,25 +50,28 @@ struct fixture
{
~fixture()
{
mock::reset(); // the use of a fixture ensures the reset will prevent the expectations from leaking into other test cases
mock::reset(); // the use of a fixture ensures the reset will prevent the expectations from leaking into other
// test cases
}
};
BOOST_FIXTURE_TEST_CASE( static_object_partial_solution, fixture )
BOOST_FIXTURE_TEST_CASE(static_object_partial_solution, fixture)
{
my_class c( 42 );
MOCK_EXPECT( f ).once().with( &c );
f( &c );
my_class c(42);
MOCK_EXPECT(f).once().with(&c);
f(&c);
mock::verify(); // verify the expectations before local objects are destroyed and before the fixture resets them
}
//]
//[ static_objects_solution
BOOST_FIXTURE_TEST_CASE( static_objects_solution, mock::cleanup ) // actually the library includes a ready to use fixture just like the one described
BOOST_FIXTURE_TEST_CASE(
static_objects_solution,
mock::cleanup) // actually the library includes a ready to use fixture just like the one described
{
my_class c( 42 );
MOCK_EXPECT( f ).once().with( &c );
f( &c );
my_class c(42);
MOCK_EXPECT(f).once().with(&c);
f(&c);
mock::verify();
}
//]

14
doc/example/rationale.cpp
View file

@ -6,9 +6,9 @@
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#include <turtle/mock.hpp>
#include "calculator.hpp"
#include "mock_view.hpp"
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
#include <iostream>
#include <limits>
@ -17,17 +17,19 @@
// Dummy to detect if the assertion unexpectedly succeeded to test what is explained
#undef BOOST_CHECK_THROW
#define BOOST_CHECK_THROW(expr, exc) \
try { \
try \
{ \
expr; \
} catch(const exc&) { \
} catch(const exc&) \
{ \
std::cerr << "Exception thrown but should not"; \
}
//[ overflow_throws
BOOST_AUTO_TEST_CASE( overflow_throws )
BOOST_AUTO_TEST_CASE(overflow_throws)
{
mock_view v;
calculator c( v );
BOOST_CHECK_THROW( c.add( (std::numeric_limits< int >::max)(), 1 ), std::exception );
calculator c(v);
BOOST_CHECK_THROW(c.add((std::numeric_limits<int>::max)(), 1), std::exception);
}
//]

804
doc/example/reference.cpp
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File diff suppressed because it is too large Load diff

2
doc/example/view.hpp
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@ -13,7 +13,7 @@
class view
{
public:
virtual void display( int result ) = 0;
virtual void display(int result) = 0;
};
//]

31
include/turtle/catch.hpp
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@ -11,34 +11,33 @@
#include <catch.hpp>
template< typename Result >
template<typename Result>
struct catch_mock_error_policy
{
static Result abort()
{
FAIL( "Aborted" );
throw std::runtime_error( "unreachable" );
FAIL("Aborted");
throw std::runtime_error("unreachable");
}
template< typename Context >
static void fail( const char* message, const Context& context,
const char* file = "file://unknown-location", int line = 0 )
template<typename Context>
static void fail(const char* message,
const Context& context,
const char* file = "file://unknown-location",
int line = 0)
{
CAPTURE( context );
FAIL_CHECK( message << " in: " << file << ":" << line );
CAPTURE(context);
FAIL_CHECK(message << " in: " << file << ":" << line);
}
template< typename Context >
static void call( const Context& context, const char* file, int line )
template<typename Context>
static void call(const Context& context, const char* file, int line)
{
CAPTURE( context );
INFO( file << ":" << line );
CAPTURE(context);
INFO(file << ":" << line);
}
static void pass( const char* file, int line )
{
INFO( file << ":" << line );
}
static void pass(const char* file, int line) { INFO(file << ":" << line); }
};
#define MOCK_ERROR_POLICY catch_mock_error_policy

25
include/turtle/cleanup.hpp
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@ -10,30 +10,25 @@
#define MOCK_CLEANUP_HPP_INCLUDED
#include "config.hpp"
#include "verify.hpp"
#include "reset.hpp"
#include "verify.hpp"
#ifdef MOCK_USE_BOOST_TEST
#include <boost/test/unit_test_suite.hpp>
# include <boost/test/unit_test_suite.hpp>
#endif
namespace mock
namespace mock {
struct cleanup
{
struct cleanup
{
~cleanup()
{
mock::reset();
}
};
~cleanup() { mock::reset(); }
};
#ifdef MOCK_USE_BOOST_TEST
BOOST_GLOBAL_FIXTURE( cleanup )
#if BOOST_VERSION >= 105900
BOOST_GLOBAL_FIXTURE(cleanup)
# if BOOST_VERSION >= 105900
;
#endif
# endif
#endif
} // mock
} // namespace mock
#endif // MOCK_CLEANUP_HPP_INCLUDED

3
include/turtle/config.hpp
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@ -32,8 +32,7 @@
# endif
#endif
#if defined(__cpp_lib_uncaught_exceptions) || \
defined(_MSC_VER) && (_MSC_VER >= 1900)
#if defined(__cpp_lib_uncaught_exceptions) || defined(_MSC_VER) && (_MSC_VER >= 1900)
# ifndef MOCK_NO_UNCAUGHT_EXCEPTIONS
# define MOCK_UNCAUGHT_EXCEPTIONS
# endif

329
include/turtle/constraint.hpp
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@ -12,243 +12,284 @@
#include "config.hpp"
#include "log.hpp"
#include "unwrap_reference.hpp"
#include <boost/preprocessor/stringize.hpp>
#include <boost/preprocessor/array.hpp>
#include <boost/preprocessor/control/if.hpp>
#include <boost/preprocessor/variadic/to_array.hpp>
#include <boost/preprocessor/repetition/enum.hpp>
#include <boost/preprocessor/repetition/enum_binary_params.hpp>
#include <boost/preprocessor/repetition/enum_params.hpp>
#include <boost/preprocessor/repetition/enum.hpp>
#include <boost/preprocessor/array.hpp>
#include <boost/preprocessor/stringize.hpp>
#include <boost/preprocessor/variadic/to_array.hpp>
#include <functional>
#include <type_traits>
namespace mock
namespace mock {
template<typename Constraint>
struct constraint
{
template< typename Constraint >
struct constraint
{
constraint() {}
constraint( const Constraint& c )
: c_( c )
{}
constraint(const Constraint& c) : c_(c) {}
Constraint c_;
};
};
namespace detail
{
template< typename Lhs, typename Rhs >
namespace detail {
template<typename Lhs, typename Rhs>
class and_
{
public:
and_( const Lhs& lhs, const Rhs& rhs )
: lhs_( lhs )
, rhs_( rhs )
{}
template< typename Actual >
bool operator()( const Actual& actual ) const
and_(const Lhs& lhs, const Rhs& rhs) : lhs_(lhs), rhs_(rhs) {}
template<typename Actual>
bool operator()(const Actual& actual) const
{
return lhs_( actual ) && rhs_( actual );
return lhs_(actual) && rhs_(actual);
}
friend std::ostream& operator<<( std::ostream& s, const and_& a )
friend std::ostream& operator<<(std::ostream& s, const and_& a)
{
return s << "( " << mock::format( a.lhs_ )
<< " && " << mock::format( a.rhs_ ) << " )";
return s << "( " << mock::format(a.lhs_) << " && " << mock::format(a.rhs_) << " )";
}
private:
Lhs lhs_;
Rhs rhs_;
};
template< typename Lhs, typename Rhs >
template<typename Lhs, typename Rhs>
class or_
{
public:
or_( const Lhs& lhs, const Rhs& rhs )
: lhs_( lhs )
, rhs_( rhs )
{}
template< typename Actual >
bool operator()( const Actual& actual ) const
or_(const Lhs& lhs, const Rhs& rhs) : lhs_(lhs), rhs_(rhs) {}
template<typename Actual>
bool operator()(const Actual& actual) const
{
return lhs_( actual ) || rhs_( actual );
return lhs_(actual) || rhs_(actual);
}
friend std::ostream& operator<<( std::ostream& s, const or_& o )
friend std::ostream& operator<<(std::ostream& s, const or_& o)
{
return s << "( " << mock::format( o.lhs_ )
<< " || " << mock::format( o.rhs_ )<< " )";
return s << "( " << mock::format(o.lhs_) << " || " << mock::format(o.rhs_) << " )";
}
private:
Lhs lhs_;
Rhs rhs_;
};
template< typename Constraint >
template<typename Constraint>
class not_
{
public:
explicit not_( const Constraint& c )
: c_( c )
{}
template< typename Actual >
bool operator()( const Actual& actual ) const
explicit not_(const Constraint& c) : c_(c) {}
template<typename Actual>
bool operator()(const Actual& actual) const
{
return ! c_( actual );
}
friend std::ostream& operator<<( std::ostream& s, const not_& n )
{
return s << "! " << mock::format( n.c_ );
return !c_(actual);
}
friend std::ostream& operator<<(std::ostream& s, const not_& n) { return s << "! " << mock::format(n.c_); }
private:
Constraint c_;
};
} // namespace detail
template<typename Lhs, typename Rhs>
const constraint<detail::or_<Lhs, Rhs>> operator||(const constraint<Lhs>& lhs, const constraint<Rhs>& rhs)
{
return detail::or_<Lhs, Rhs>(lhs.c_, rhs.c_);
}
template< typename Lhs, typename Rhs >
const constraint< detail::or_< Lhs, Rhs > >
operator||( const constraint< Lhs >& lhs,
const constraint< Rhs >& rhs )
{
return detail::or_< Lhs, Rhs >( lhs.c_, rhs.c_ );
}
template<typename Lhs, typename Rhs>
const constraint<detail::and_<Lhs, Rhs>> operator&&(const constraint<Lhs>& lhs, const constraint<Rhs>& rhs)
{
return detail::and_<Lhs, Rhs>(lhs.c_, rhs.c_);
}
template< typename Lhs, typename Rhs >
const constraint< detail::and_< Lhs, Rhs > >
operator&&( const constraint< Lhs >& lhs,
const constraint< Rhs >& rhs )
{
return detail::and_< Lhs, Rhs >( lhs.c_, rhs.c_ );
}
template< typename Constraint >
const constraint< detail::not_< Constraint > >
operator!( const constraint< Constraint >& c )
{
return detail::not_< Constraint >( c.c_ );
}
} // mock
template<typename Constraint>
const constraint<detail::not_<Constraint>> operator!(const constraint<Constraint>& c)
{
return detail::not_<Constraint>(c.c_);
}
} // namespace mock
#define MOCK_UNARY_CONSTRAINT(Name, n, Args, Expr) \
namespace detail \
{ \
namespace detail { \
struct Name \
{ \
template< typename Actual > \
bool operator()( const Actual& actual ) const \
template<typename Actual> \
bool operator()(const Actual& actual) const \
{ \
(void) actual; return Expr; \
} \
friend std::ostream& operator<<( std::ostream& s, const Name& ) \
{ \
return s << BOOST_STRINGIZE(Name); \
(void)actual; \
return Expr; \
} \
friend std::ostream& operator<<(std::ostream& s, const Name&) { return s << BOOST_STRINGIZE(Name); } \
}; \
} \
const mock::constraint< detail::Name > Name;
const mock::constraint<detail::Name> Name;
#define MOCK_CONSTRAINT_ASSIGN(z, n, d) \
expected##n( std::forward< T##n >(e##n) )
#define MOCK_CONSTRAINT_ASSIGN(z, n, d) expected##n(std::forward<T##n>(e##n))
#define MOCK_CONSTRAINT_UNWRAP_REF(z, n, d) \
mock::unwrap_ref( expected##n )
#define MOCK_CONSTRAINT_UNWRAP_REF(z, n, d) mock::unwrap_ref(expected##n)
#define MOCK_CONSTRAINT_FORMAT(z, n, d) \
BOOST_PP_IF(n, << ", " <<,) mock::format( c.expected##n )
#define MOCK_CONSTRAINT_FORMAT(z, n, d) BOOST_PP_IF(n, << ", " <<, ) mock::format(c.expected##n)
#define MOCK_CONSTRAINT_MEMBER(z, n, d) \
Expected_##n expected##n;
#define MOCK_CONSTRAINT_MEMBER(z, n, d) Expected_##n expected##n;
#define MOCK_CONSTRAINT_TPL_TYPE(z, n, d) \
std::decay_t< const T##n >
#define MOCK_CONSTRAINT_TPL_TYPE(z, n, d) std::decay_t<const T##n>
#define MOCK_CONSTRAINT_CREF_PARAM(z, n, Args) \
const mock::unwrap_reference_t< Expected_##n >& \
BOOST_PP_ARRAY_ELEM(n, Args)
const mock::unwrap_reference_t<Expected_##n>& BOOST_PP_ARRAY_ELEM(n, Args)
#define MOCK_CONSTRAINT_ARG(z, n, Args) \
T##n&& BOOST_PP_ARRAY_ELEM(n, Args)
#define MOCK_CONSTRAINT_ARG(z, n, Args) T##n&& BOOST_PP_ARRAY_ELEM(n, Args)
#define MOCK_CONSTRAINT_ARGS(z, n, Args) \
T##n&& e##n
#define MOCK_CONSTRAINT_ARGS(z, n, Args) T##n&& e##n
#define MOCK_CONSTRAINT_PARAM(z, n, Args) \
std::forward< T##n >( BOOST_PP_ARRAY_ELEM(n, Args) )
#define MOCK_CONSTRAINT_PARAM(z, n, Args) std::forward<T##n>(BOOST_PP_ARRAY_ELEM(n, Args))
#define MOCK_NARY_CONSTRAINT(Name, n, Args, Expr) \
namespace detail \
{ \
template< BOOST_PP_ENUM_PARAMS(n, typename Expected_) > \
namespace detail { \
template<BOOST_PP_ENUM_PARAMS(n, typename Expected_)> \
struct Name \
{ \
template< BOOST_PP_ENUM_PARAMS(n, typename T) > \
explicit Name( \
BOOST_PP_ENUM(n, MOCK_CONSTRAINT_ARGS, _) ) \
: BOOST_PP_ENUM(n, MOCK_CONSTRAINT_ASSIGN, _) \
template<BOOST_PP_ENUM_PARAMS(n, typename T)> \
explicit Name(BOOST_PP_ENUM(n, MOCK_CONSTRAINT_ARGS, _)) : BOOST_PP_ENUM(n, MOCK_CONSTRAINT_ASSIGN, _) \
{} \
template< typename Actual > \
bool operator()( const Actual& actual ) const \
template<typename Actual> \
bool operator()(const Actual& actual) const \
{ \
return test( actual, \
BOOST_PP_ENUM(n, MOCK_CONSTRAINT_UNWRAP_REF, _) ); \
return test(actual, BOOST_PP_ENUM(n, MOCK_CONSTRAINT_UNWRAP_REF, _)); \
} \
template< typename Actual > \
bool test( const Actual& actual, \
BOOST_PP_ENUM(n, \
MOCK_CONSTRAINT_CREF_PARAM, (n, Args)) ) const \
template<typename Actual> \
bool test(const Actual& actual, BOOST_PP_ENUM(n, MOCK_CONSTRAINT_CREF_PARAM, (n, Args))) const \
{ \
return Expr; \
} \
friend std::ostream& operator<<( std::ostream& s, const Name& c ) \
friend std::ostream& operator<<(std::ostream& s, const Name& c) \
{ \
return s << BOOST_STRINGIZE(Name) << "( " \
<< BOOST_PP_REPEAT(n, MOCK_CONSTRAINT_FORMAT, _) \
<< " )"; \
return s << BOOST_STRINGIZE(Name) << "( " << BOOST_PP_REPEAT(n, MOCK_CONSTRAINT_FORMAT, _) << " )"; \
} \
BOOST_PP_REPEAT(n, MOCK_CONSTRAINT_MEMBER, _) \
}; \
} \
template< BOOST_PP_ENUM_PARAMS(n, typename T) > \
mock::constraint< \
detail::Name< BOOST_PP_ENUM(n, MOCK_CONSTRAINT_TPL_TYPE, _) > \
> Name( BOOST_PP_ENUM(n, MOCK_CONSTRAINT_ARG, (n, Args)) ) \
template<BOOST_PP_ENUM_PARAMS(n, typename T)> \
mock::constraint<detail::Name<BOOST_PP_ENUM(n, MOCK_CONSTRAINT_TPL_TYPE, _)>> Name( \
BOOST_PP_ENUM(n, MOCK_CONSTRAINT_ARG, (n, Args))) \
{ \
return detail::Name< BOOST_PP_ENUM(n, MOCK_CONSTRAINT_TPL_TYPE, _) >( \
BOOST_PP_ENUM(n, MOCK_CONSTRAINT_PARAM, (n, Args)) ); \
return detail::Name<BOOST_PP_ENUM(n, MOCK_CONSTRAINT_TPL_TYPE, _)>( \
BOOST_PP_ENUM(n, MOCK_CONSTRAINT_PARAM, (n, Args))); \
}
#define MOCK_CONSTRAINT_EXT(Name, n, Args, Expr) \
BOOST_PP_IF(n, \
MOCK_NARY_CONSTRAINT, \
MOCK_UNARY_CONSTRAINT)(Name, n, Args, Expr)
BOOST_PP_IF(n, MOCK_NARY_CONSTRAINT, MOCK_UNARY_CONSTRAINT)(Name, n, Args, Expr)
#ifdef BOOST_MSVC
# define MOCK_VARIADIC_SIZE(...) \
BOOST_PP_CAT(MOCK_VARIADIC_SIZE_I(__VA_ARGS__, \
32, 31, 30, 29, 28, 27, 26, 25, 24, 23, \
22, 21, 20, 19, 18, 17, 16, 15, 14, 13, \
12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1,),)
32, \
31, \
30, \
29, \
28, \
27, \
26, \
25, \
24, \
23, \
22, \
21, \
20, \
19, \
18, \
17, \
16, \
15, \
14, \
13, \
12, \
11, \
10, \
9, \
8, \
7, \
6, \
5, \
4, \
3, \
2, \
1, ), )
#else // BOOST_MSVC
# define MOCK_VARIADIC_SIZE(...) \
MOCK_VARIADIC_SIZE_I(__VA_ARGS__, \
32, 31, 30, 29, 28, 27, 26, 25, 24, 23, \
22, 21, 20, 19, 18, 17, 16, 15, 14, 13, \
12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1,)
32, \
31, \
30, \
29, \
28, \
27, \
26, \
25, \
24, \
23, \
22, \
21, \
20, \
19, \
18, \
17, \
16, \
15, \
14, \
13, \
12, \
11, \
10, \
9, \
8, \
7, \
6, \
5, \
4, \
3, \
2, \
1, )
#endif // BOOST_MSVC
#define MOCK_VARIADIC_SIZE_I( \
e0, e1, e2, e3, e4, e5, e6, e7, e8, e9, e10, e11, e12, \
e13, e14, e15, e16, e17, e18, e19, e20, e21, e22, e23, e24, \
e25, e26, e27, e28, e29, e30, e31, size, ...) size
#define MOCK_VARIADIC_SIZE_I(e0, \
e1, \
e2, \
e3, \
e4, \
e5, \
e6, \
e7, \
e8, \
e9, \
e10, \
e11, \
e12, \
e13, \
e14, \
e15, \
e16, \
e17, \
e18, \
e19, \
e20, \
e21, \
e22, \
e23, \
e24, \
e25, \
e26, \
e27, \
e28, \
e29, \
e30, \
e31, \
size, \
...) \
size
#define MOCK_CONSTRAINT_AUX_AUX(Name, n, Array) \
MOCK_CONSTRAINT_EXT( \
Name, n, \
BOOST_PP_ARRAY_TO_TUPLE(BOOST_PP_ARRAY_POP_BACK(Array)), \
BOOST_PP_ARRAY_ELEM(n, Array))
MOCK_CONSTRAINT_EXT(Name, n, BOOST_PP_ARRAY_TO_TUPLE(BOOST_PP_ARRAY_POP_BACK(Array)), BOOST_PP_ARRAY_ELEM(n, Array))
#define MOCK_CONSTRAINT_AUX(Name, Size, Tuple) \
MOCK_CONSTRAINT_AUX_AUX(Name, BOOST_PP_DEC(Size), (Size,Tuple))
#define MOCK_CONSTRAINT_AUX(Name, Size, Tuple) MOCK_CONSTRAINT_AUX_AUX(Name, BOOST_PP_DEC(Size), (Size, Tuple))
#define MOCK_CONSTRAINT(Name, ...) \
MOCK_CONSTRAINT_AUX( \
Name, MOCK_VARIADIC_SIZE(__VA_ARGS__), (__VA_ARGS__))
#define MOCK_CONSTRAINT(Name, ...) MOCK_CONSTRAINT_AUX(Name, MOCK_VARIADIC_SIZE(__VA_ARGS__), (__VA_ARGS__))
#endif // MOCK_CONSTRAINT_HPP_INCLUDED

309
include/turtle/constraints.hpp
View file

@ -12,300 +12,243 @@
#include "config.hpp"
#include "constraint.hpp"
#include "detail/move_helper.hpp"
#include "unwrap_reference.hpp"
#include "detail/void_t.hpp"
#include "unwrap_reference.hpp"
#include <boost/version.hpp>
#if BOOST_VERSION >= 107000
#include <boost/test/tools/floating_point_comparison.hpp>
# include <boost/test/tools/floating_point_comparison.hpp>
#else
#include <boost/test/floating_point_comparison.hpp>
# include <boost/test/floating_point_comparison.hpp>
#endif
#include <functional>
#include <memory>
#include <type_traits>
namespace mock
{
MOCK_UNARY_CONSTRAINT( any, 0,, ((void)actual, true) )
MOCK_UNARY_CONSTRAINT( affirm, 0,, !! actual )
MOCK_UNARY_CONSTRAINT( negate, 0,, ! actual )
MOCK_UNARY_CONSTRAINT( evaluate, 0,, actual() )
namespace mock {
MOCK_UNARY_CONSTRAINT(any, 0, , ((void)actual, true))
MOCK_UNARY_CONSTRAINT(affirm, 0, , !!actual)
MOCK_UNARY_CONSTRAINT(negate, 0, , !actual)
MOCK_UNARY_CONSTRAINT(evaluate, 0, , actual())
MOCK_NARY_CONSTRAINT( less, 1, ( expected ), actual < expected )
MOCK_NARY_CONSTRAINT( greater, 1, ( expected ), actual > expected )
MOCK_NARY_CONSTRAINT( less_equal, 1, ( expected ), actual <= expected )
MOCK_NARY_CONSTRAINT( greater_equal, 1, ( expected ), actual >= expected )
MOCK_NARY_CONSTRAINT(less, 1, (expected), actual < expected)
MOCK_NARY_CONSTRAINT(greater, 1, (expected), actual > expected)
MOCK_NARY_CONSTRAINT(less_equal, 1, (expected), actual <= expected)
MOCK_NARY_CONSTRAINT(greater_equal, 1, (expected), actual >= expected)
#if BOOST_VERSION < 105900
# define MOCK_SMALL() \
boost::test_tools::check_is_small( actual, tolerance )
# define MOCK_SMALL() boost::test_tools::check_is_small(actual, tolerance)
# define MOCK_PERCENT_TOLERANCE() \
boost::test_tools::check_is_close( \
actual, \
expected, \
boost::test_tools::percent_tolerance( tolerance ) )
boost::test_tools::check_is_close(actual, expected, boost::test_tools::percent_tolerance(tolerance))
# define MOCK_FRACTION_TOLERANCE() \
boost::test_tools::check_is_close( \
actual, \
expected, \
boost::test_tools::fraction_tolerance( tolerance ) )
boost::test_tools::check_is_close(actual, expected, boost::test_tools::fraction_tolerance(tolerance))
#else // BOOST_VERSION < 105900
namespace detail
{
template< typename T, typename Tolerance >
bool is_small( const T& t, const Tolerance& tolerance )
namespace detail {
template<typename T, typename Tolerance>
bool is_small(const T& t, const Tolerance& tolerance)
{
return boost::math::fpc::small_with_tolerance< T >( tolerance )( t );
return boost::math::fpc::small_with_tolerance<T>(tolerance)(t);
}
template< typename T1, typename T2, typename Tolerance >
bool is_close( const T1& t1, const T2& t2, const Tolerance& tolerance )
template<typename T1, typename T2, typename Tolerance>
bool is_close(const T1& t1, const T2& t2, const Tolerance& tolerance)
{
typedef std::common_type_t< T1, T2 > common_type;
return boost::math::fpc::close_at_tolerance< common_type >(
tolerance, boost::math::fpc::FPC_STRONG )( t1, t2 );
typedef std::common_type_t<T1, T2> common_type;
return boost::math::fpc::close_at_tolerance<common_type>(tolerance, boost::math::fpc::FPC_STRONG)(t1, t2);
}
}
} // namespace detail
# define MOCK_SMALL() \
detail::is_small( actual, tolerance )
# define MOCK_PERCENT_TOLERANCE() \
detail::is_close( actual, expected, \
boost::math::fpc::percent_tolerance( tolerance ) )
# define MOCK_FRACTION_TOLERANCE() \
detail::is_close( actual, expected, tolerance )
# define MOCK_SMALL() detail::is_small(actual, tolerance)
# define MOCK_PERCENT_TOLERANCE() detail::is_close(actual, expected, boost::math::fpc::percent_tolerance(tolerance))
# define MOCK_FRACTION_TOLERANCE() detail::is_close(actual, expected, tolerance)
#endif // BOOST_VERSION < 105900
#ifdef small
# pragma push_macro( "small" )
# pragma push_macro("small")
# undef small
# define MOCK_SMALL_DEFINED
#endif
MOCK_NARY_CONSTRAINT( small, 1, ( tolerance ),
( MOCK_SMALL() ) )
MOCK_NARY_CONSTRAINT(small, 1, (tolerance), (MOCK_SMALL()))
#ifdef MOCK_SMALL_DEFINED
# pragma pop_macro( "small" )
# pragma pop_macro("small")
#endif
MOCK_NARY_CONSTRAINT( close, 2, ( expected, tolerance ),
( MOCK_PERCENT_TOLERANCE() ) )
MOCK_NARY_CONSTRAINT(close, 2, (expected, tolerance), (MOCK_PERCENT_TOLERANCE()))
MOCK_NARY_CONSTRAINT( close_fraction, 2, ( expected, tolerance ),
( MOCK_FRACTION_TOLERANCE() ) )
MOCK_NARY_CONSTRAINT(close_fraction, 2, (expected, tolerance), (MOCK_FRACTION_TOLERANCE()))
#undef MOCK_PERCENT_TOLERANCE
#undef MOCK_FRACTION_TOLERANCE
#ifdef near
# pragma push_macro( "near" )
# pragma push_macro("near")
# undef near
# define MOCK_NEAR_DEFINED
#endif
MOCK_NARY_CONSTRAINT( near, 2, ( expected, tolerance ),
std::abs( actual - expected ) <= tolerance )
MOCK_NARY_CONSTRAINT(near, 2, (expected, tolerance), std::abs(actual - expected) <= tolerance)
#ifdef MOCK_NEAR_DEFINED
# pragma pop_macro( "near" )
# pragma pop_macro("near")
#endif
namespace detail
{
namespace detail {
template<class T, class U = T, class = void>
struct has_equal_to: std::false_type
struct has_equal_to : std::false_type
{};
template<class T, class U>
struct has_equal_to<T, U, void_t<decltype(std::declval<T>() == std::declval<U>())>>: std::true_type
struct has_equal_to<T, U, void_t<decltype(std::declval<T>() == std::declval<U>())>> : std::true_type
{};
template< typename Expected >
template<typename Expected>
struct equal
{
explicit equal( Expected expected )
: expected_( expected )
{}
template< typename Actual >
bool operator()( const Actual& actual,
std::enable_if_t<
has_equal_to<
Actual,
unwrap_reference_t< Expected >
>::value
>* = 0 ) const
explicit equal(Expected expected) : expected_(expected) {}
template<typename Actual>
bool operator()(const Actual& actual,
std::enable_if_t<has_equal_to<Actual, unwrap_reference_t<Expected>>::value>* = 0) const
{
return actual == unwrap_ref( expected_ );
return actual == unwrap_ref(expected_);
}
template< typename Actual >
bool operator()( const Actual& actual,
std::enable_if_t<
!has_equal_to<
Actual,
unwrap_reference_t< Expected >
>::value
>* = 0 ) const
template<typename Actual>
bool operator()(const Actual& actual,
std::enable_if_t<!has_equal_to<Actual, unwrap_reference_t<Expected>>::value>* = 0) const
{
return actual && *actual == unwrap_ref( expected_ );
return actual && *actual == unwrap_ref(expected_);
}
friend std::ostream& operator<<( std::ostream& s, const equal& e )
friend std::ostream& operator<<(std::ostream& s, const equal& e)
{
return s << "equal( " << mock::format( e.expected_ ) << " )";
return s << "equal( " << mock::format(e.expected_) << " )";
}
Expected expected_;
};
template< typename Expected >
template<typename Expected>
struct same
{
explicit same( const Expected& expected )
: expected_( std::addressof( unwrap_ref( expected ) ) )
{}
template< typename Actual >
bool operator()( const Actual& actual ) const
explicit same(const Expected& expected) : expected_(std::addressof(unwrap_ref(expected))) {}
template<typename Actual>
bool operator()(const Actual& actual) const
{
return std::addressof( actual ) == expected_;
return std::addressof(actual) == expected_;
}
friend std::ostream& operator<<( std::ostream& os, const same& s )
friend std::ostream& operator<<(std::ostream& os, const same& s)
{
return os << "same( " << mock::format( *s.expected_ ) << " )";
return os << "same( " << mock::format(*s.expected_) << " )";
}
const unwrap_reference_t< Expected >* expected_;
const unwrap_reference_t<Expected>* expected_;
};
template< typename Expected >
template<typename Expected>
struct retrieve
{
explicit retrieve( Expected& expected )
: expected_( std::addressof( unwrap_ref( expected ) ) )
{}
template< typename Actual >
bool operator()( const Actual& actual,
std::enable_if_t<
!std::is_convertible<
const Actual*,
unwrap_reference_t< Expected >
>::value
>* = 0 ) const
explicit retrieve(Expected& expected) : expected_(std::addressof(unwrap_ref(expected))) {}
template<typename Actual>
bool operator()(
const Actual& actual,
std::enable_if_t<!std::is_convertible<const Actual*, unwrap_reference_t<Expected>>::value>* = 0) const
{
*expected_ = actual;
return true;
}
template< typename Actual >
bool operator()( Actual&& actual,
std::enable_if_t<
!std::is_convertible<
const Actual*,
unwrap_reference_t< Expected >
>::value
>* = 0 ) const
template<typename Actual>
bool operator()(
Actual&& actual,
std::enable_if_t<!std::is_convertible<const Actual*, unwrap_reference_t<Expected>>::value>* = 0) const
{
*expected_ = std::move( actual );
*expected_ = std::move(actual);
return true;
}
template< typename Actual >
bool operator()( Actual& actual,
std::enable_if_t<
std::is_convertible< Actual*,
unwrap_reference_t< Expected >
>::value
>* = 0 ) const
template<typename Actual>
bool operator()(Actual& actual,
std::enable_if_t<std::is_convertible<Actual*, unwrap_reference_t<Expected>>::value>* = 0) const
{
*expected_ = std::addressof( actual );
*expected_ = std::addressof(actual);
return true;
}
friend std::ostream& operator<<( std::ostream& s, const retrieve& r )
friend std::ostream& operator<<(std::ostream& s, const retrieve& r)
{
return s << "retrieve( " << mock::format( *r.expected_ ) << " )";
return s << "retrieve( " << mock::format(*r.expected_) << " )";
}
unwrap_reference_t< Expected >* expected_;
unwrap_reference_t<Expected>* expected_;
};
template< typename Expected >
template<typename Expected>
struct assign
{
explicit assign( const Expected& expected )
: expected_( expected )
{}
template< typename Actual >
bool operator()( Actual& actual ) const
explicit assign(const Expected& expected) : expected_(expected) {}
template<typename Actual>
bool operator()(Actual& actual) const
{
actual = unwrap_ref( expected_ );
actual = unwrap_ref(expected_);
return true;
}
template< typename Actual >
bool operator()( Actual* actual,
std::enable_if_t<
std::is_convertible<
unwrap_reference_t< Expected >,
Actual
>::value
>* = 0 ) const
template<typename Actual>
bool operator()(Actual* actual,
std::enable_if_t<std::is_convertible<unwrap_reference_t<Expected>, Actual>::value>* = 0) const
{
if( ! actual )
if(!actual)
return false;
*actual = unwrap_ref( expected_ );
*actual = unwrap_ref(expected_);
return true;
}
friend std::ostream& operator<<( std::ostream& s, const assign& a )
friend std::ostream& operator<<(std::ostream& s, const assign& a)
{
return s << "assign( " << mock::format( a.expected_ ) << " )";
return s << "assign( " << mock::format(a.expected_) << " )";
}
Expected expected_;
};
template< typename Expected >
template<typename Expected>
struct contain
{
explicit contain( const Expected& expected )
: expected_( expected )
{}
bool operator()( const std::string& actual ) const
explicit contain(const Expected& expected) : expected_(expected) {}
bool operator()(const std::string& actual) const
{
return actual.find( unwrap_ref( expected_ ) )
!= std::string::npos;
return actual.find(unwrap_ref(expected_)) != std::string::npos;
}
friend std::ostream& operator<<( std::ostream& s, const contain& n )
friend std::ostream& operator<<(std::ostream& s, const contain& n)
{
return s << "contain( " << mock::format( n.expected_ ) << " )";
return s << "contain( " << mock::format(n.expected_) << " )";
}
Expected expected_;
};
} // namespace detail
template<typename T>
constraint<detail::equal<T>> equal(T&& t)
{
return detail::equal<T>(std::forward<T>(t));
}
template< typename T >
constraint< detail::equal< T > > equal( T&& t )
{
return detail::equal< T >( std::forward< T >( t ) );
}
template<typename T>
constraint<detail::same<T>> same(T& t)
{
return detail::same<T>(t);
}
template<typename T>
constraint<detail::retrieve<T>> retrieve(T& t)
{
return detail::retrieve<T>(t);
}
template<typename T>
constraint<detail::assign<T>> assign(T t)
{
return detail::assign<T>(t);
}
template<typename T>
constraint<detail::contain<T>> contain(T t)
{
return detail::contain<T>(t);
}
template< typename T >
constraint< detail::same< T > > same( T& t )
{
return detail::same< T >( t );
}
template< typename T >
constraint< detail::retrieve< T > > retrieve( T& t )
{
return detail::retrieve< T >( t );
}
template< typename T >
constraint< detail::assign< T > > assign( T t )
{
return detail::assign< T >( t );
}
template< typename T >
constraint< detail::contain< T > > contain( T t )
{
return detail::contain< T >( t );
}
template< typename T >
constraint< T > call( T t )
{
return constraint< T >( t );
}
} // mock
template<typename T>
constraint<T> call(T t)
{
return constraint<T>(t);
}
} // namespace mock
#endif // MOCK_CONSTRAINTS_HPP_INCLUDED

104
include/turtle/detail/action.hpp
View file

@ -14,16 +14,13 @@
#include <memory>
#include <type_traits>
namespace mock
{
namespace detail
{
template< typename Result, typename Signature >
namespace mock { namespace detail {
template<typename Result, typename Signature>
class action_base
{
private:
typedef std::function< Signature > functor_type;
typedef std::function< Result() > action_type;
typedef std::function<Signature> functor_type;
typedef std::function<Result()> action_type;
protected:
// Meant to be subclassed and not be directly used
@ -33,41 +30,29 @@ namespace detail
action_base(action_base&&) = delete;
action_base& operator=(const action_base&) = delete;
action_base& operator=(action_base&&) = delete;
public:
const functor_type& functor() const { return f_; }
bool valid() const { return f_ || a_; }
Result trigger() const { return a_(); }
const functor_type& functor() const
void calls(const functor_type& f)
{
return f_;
}
bool valid() const
{
return f_ || a_;
}
Result trigger() const
{
return a_();
}
void calls( const functor_type& f )
{
if( ! f )
throw std::invalid_argument( "null functor" );
if(!f)
throw std::invalid_argument("null functor");
f_ = f;
}
template< typename Exception >
void throws( Exception e )
template<typename Exception>
void throws(Exception e)
{
a_ = [e]() -> Result { throw e; };
}
protected:
void set( const action_type& a )
{
a_ = a;
}
template< typename Y >
void set( const std::reference_wrapper< Y >& r )
void set(const action_type& a) { a_ = a; }
template<typename Y>
void set(const std::reference_wrapper<Y>& r)
{
a_ = [r]() -> Result { return r.get(); };
}
@ -77,26 +62,26 @@ namespace detail
action_type a_;
};
template< typename Result, typename Signature >
class action : public action_base< Result, Signature >
template<typename Result, typename Signature>
class action : public action_base<Result, Signature>
{
public:
template< typename Value >
void returns( const Value& v )
template<typename Value>
void returns(const Value& v)
{
this->set( std::ref( store( v ) ) );
this->set(std::ref(store(v)));
}
template< typename Y >
void returns( const std::reference_wrapper< Y >& r )
template<typename Y>
void returns(const std::reference_wrapper<Y>& r)
{
this->set( r );
this->set(r);
}
template< typename Value >
void moves( Value&& v )
template<typename Value>
void moves(Value&& v)
{
auto vRef = std::ref( store( std::move( v ) ) );
this->set([vRef](){ return std::move(vRef.get()); });
auto vRef = std::ref(store(std::move(v)));
this->set([vRef]() { return std::move(vRef.get()); });
}
private:
@ -107,44 +92,43 @@ namespace detail
value& operator=(const value&) = delete;
virtual ~value() = default;
};
template< typename T >
template<typename T>
struct value_imp : value
{
typedef std::remove_const_t<std::remove_reference_t<T>> type;
template< typename U >
value_imp( U&& t ) : t_( std::forward<U>( t ) )
template<typename U>
value_imp(U&& t) : t_(std::forward<U>(t))
{}
type t_;
};
template< typename T >
typename value_imp<T>::type& store( T&& t )
template<typename T>
typename value_imp<T>::type& store(T&& t)
{
v_ = std::make_unique< value_imp<T> >( std::forward<T>( t ) );
return static_cast< value_imp< T >& >( *v_ ).t_;
v_ = std::make_unique<value_imp<T>>(std::forward<T>(t));
return static_cast<value_imp<T>&>(*v_).t_;
}
template< typename T >
std::remove_reference_t< Result >& store( T* t )
template<typename T>
std::remove_reference_t<Result>& store(T* t)
{
v_ = std::make_unique< value_imp<Result> >( t );
return static_cast< value_imp< Result >& >( *v_ ).t_;
v_ = std::make_unique<value_imp<Result>>(t);
return static_cast<value_imp<Result>&>(*v_).t_;
}
std::unique_ptr< value > v_;
std::unique_ptr<value> v_;
};
template< typename Signature >
class action< void, Signature > : public action_base< void, Signature >
template<typename Signature>
class action<void, Signature> : public action_base<void, Signature>
{
public:
action()
{
this->set( [](){} );
this->set([]() {});
}
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_ACTION_HPP_INCLUDED

31
include/turtle/detail/child.hpp
View file

@ -10,43 +10,38 @@
#define MOCK_CHILD_HPP_INCLUDED
#include "../config.hpp"
#include "type_name.hpp"
#include "parent.hpp"
#include <boost/test/utils/basic_cstring/basic_cstring.hpp>
#include "type_name.hpp"
#include <boost/optional.hpp>
#include <boost/test/utils/basic_cstring/basic_cstring.hpp>
#include <ostream>
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
class child
{
public:
child()
: parent_( 0 )
{}
void update( parent& p,
child() : parent_(0) {}
void update(parent& p,
boost::unit_test::const_string instance,
boost::optional< type_name > type,
boost::unit_test::const_string name )
boost::optional<type_name> type,
boost::unit_test::const_string name)
{
if( instance != "?." || name_.empty() )
p = parent( instance, type );
if(instance != "?." || name_.empty())
p = parent(instance, type);
parent_ = &p;
name_ = name;
}
friend std::ostream& operator<<( std::ostream& s, const child& c )
friend std::ostream& operator<<(std::ostream& s, const child& c)
{
if( c.parent_ )
if(c.parent_)
s << *c.parent_;
return s << c.name_;
}
private:
const parent* parent_;
boost::unit_test::const_string name_;
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_CHILD_HPP_INCLUDED

22
include/turtle/detail/context.hpp
View file

@ -15,10 +15,7 @@
#include <boost/test/utils/basic_cstring/basic_cstring.hpp>
#include <ostream>
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
class verifiable;
class context
@ -30,17 +27,16 @@ namespace detail
virtual ~context() = default;
virtual void add( const void* p, verifiable& v,
virtual void add(const void* p,
verifiable& v,
boost::unit_test::const_string instance,
boost::optional< type_name > type,
boost::unit_test::const_string name ) = 0;
virtual void add( verifiable& v ) = 0;
virtual void remove( verifiable& v ) = 0;
boost::optional<type_name> type,
boost::unit_test::const_string name) = 0;
virtual void add(verifiable& v) = 0;
virtual void remove(verifiable& v) = 0;
virtual void serialize( std::ostream& s,
const verifiable& v ) const = 0;
virtual void serialize(std::ostream& s, const verifiable& v) const = 0;
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_CONTEXT_HPP_INCLUDED

243
include/turtle/detail/expectation_template.hpp
View file

@ -8,115 +8,83 @@
#include "matcher_base_template.hpp"
#define MOCK_EXPECTATION_INITIALIZE(z, n, d) \
BOOST_PP_COMMA_IF(n) c##n##_( c##n )
#define MOCK_EXPECTATION_INITIALIZE(z, n, d) BOOST_PP_COMMA_IF(n) c##n##_(c##n)
#define MOCK_EXPECTATION_MEMBER(z, n, d) \
matcher< T##n, Constraint_##n > c##n##_;
#define MOCK_EXPECTATION_MEMBER(z, n, d) matcher<T##n, Constraint_##n> c##n##_;
#define MOCK_EXPECTATION_IS_VALID(z, n, d) \
BOOST_PP_IF(n, &&,) c##n##_( std::forward< T##n >( a##n ) )
#define MOCK_EXPECTATION_IS_VALID(z, n, d) BOOST_PP_IF(n, &&, ) c##n##_(std::forward<T##n>(a##n))
#define MOCK_EXPECTATION_SERIALIZE(z, n, d) \
BOOST_PP_IF(n, << ", " <<,) c##n##_
#define MOCK_EXPECTATION_SERIALIZE(z, n, d) BOOST_PP_IF(n, << ", " <<, ) c##n##_
#define MOCK_EXPECTATION_SERIALIZE_ANY(z, n, d) \
BOOST_PP_IF(n, << ", " <<,) "any"
#define MOCK_EXPECTATION_SERIALIZE_ANY(z, n, d) BOOST_PP_IF(n, << ", " <<, ) "any"
#define MOCK_EXPECTATION_PARAM(z, n, Args) \
std::forward< T##n >( a##n )
#define MOCK_EXPECTATION_PARAM(z, n, Args) std::forward<T##n>(a##n)
#define MOCK_REF_ARG(z, n, d) \
typename ref_arg< T##n >::type a##n
#define MOCK_REF_ARG(z, n, d) typename ref_arg<T##n>::type a##n
#define MOCK_REF_ARG_T(z, n, d) \
typename ref_arg< T##n >::type
#define MOCK_REF_ARG_T(z, n, d) typename ref_arg<T##n>::type
namespace mock
{
namespace detail
{
template< typename Signature > class default_matcher;
namespace mock { namespace detail {
template<typename Signature>
class default_matcher;
template<
BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename T) >
class default_matcher< void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) ) >
: public matcher_base< void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) ) >
template<BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename T)>
class default_matcher<void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))> :
public matcher_base<void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>
{
private:
virtual bool operator()(
BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_REF_ARG_T, _) )
virtual bool operator()(BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_REF_ARG_T, _)) { return true; }
virtual void serialize(std::ostream& s) const
{
return true;
}
virtual void serialize( std::ostream& s ) const
{
s << "" BOOST_PP_REPEAT(MOCK_NUM_ARGS,
MOCK_EXPECTATION_SERIALIZE_ANY, _);
s << "" BOOST_PP_REPEAT(MOCK_NUM_ARGS, MOCK_EXPECTATION_SERIALIZE_ANY, _);
}
};
#ifndef MOCK_NUM_ARGS_0
template< typename Constraint, typename Signature > class single_matcher;
template<typename Constraint, typename Signature>
class single_matcher;
template<
BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename Constraint_),
BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename T)
>
class single_matcher<
void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, Constraint_) ),
void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) )
>
: public matcher_base< void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) ) >
template<BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename Constraint_), BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename T)>
class single_matcher<void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, Constraint_)),
void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))> :
public matcher_base<void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>
{
public:
single_matcher(
BOOST_PP_ENUM_BINARY_PARAMS(MOCK_NUM_ARGS, Constraint_, c) )
: BOOST_PP_REPEAT(MOCK_NUM_ARGS,
MOCK_EXPECTATION_INITIALIZE, _)
single_matcher(BOOST_PP_ENUM_BINARY_PARAMS(MOCK_NUM_ARGS, Constraint_, c))
: BOOST_PP_REPEAT(MOCK_NUM_ARGS, MOCK_EXPECTATION_INITIALIZE, _)
{}
private:
virtual bool operator()(
BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_REF_ARG, _) )
virtual bool operator()(BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_REF_ARG, _))
{
return BOOST_PP_REPEAT(MOCK_NUM_ARGS,
MOCK_EXPECTATION_IS_VALID, _);
return BOOST_PP_REPEAT(MOCK_NUM_ARGS, MOCK_EXPECTATION_IS_VALID, _);
}
virtual void serialize( std::ostream& s ) const
virtual void serialize(std::ostream& s) const
{
s << BOOST_PP_REPEAT(MOCK_NUM_ARGS,
MOCK_EXPECTATION_SERIALIZE, _);
s << BOOST_PP_REPEAT(MOCK_NUM_ARGS, MOCK_EXPECTATION_SERIALIZE, _);
}
private:
BOOST_PP_REPEAT(
MOCK_NUM_ARGS, MOCK_EXPECTATION_MEMBER, _)
};
BOOST_PP_REPEAT(MOCK_NUM_ARGS, MOCK_EXPECTATION_MEMBER, _)
};
template< typename F, typename Signature > class multi_matcher;
template<typename F, typename Signature>
class multi_matcher;
template< typename F,
BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename T) >
class multi_matcher< F, void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) ) >
: public matcher_base< void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) ) >
template<typename F, BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename T)>
class multi_matcher<F, void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))> :
public matcher_base<void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>
{
public:
multi_matcher( const F& f )
: f_( f )
{}
multi_matcher(const F& f) : f_(f) {}
private:
virtual bool operator()(
BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_REF_ARG, _) )
virtual bool operator()(BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_REF_ARG, _))
{
return f_( BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_EXPECTATION_PARAM, _) );
}
virtual void serialize( std::ostream& s ) const
{
s << mock::format( f_ );
return f_(BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_EXPECTATION_PARAM, _));
}
virtual void serialize(std::ostream& s) const { s << mock::format(f_); }
private:
F f_;
@ -124,125 +92,89 @@ namespace detail
#endif
template< typename Signature > class expectation;
template<typename Signature>
class expectation;
template< typename R
BOOST_PP_ENUM_TRAILING_PARAMS(MOCK_NUM_ARGS, typename T) >
class expectation< R (BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS,T)) >
: public action< R, R (BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS,T)) >
template<typename R BOOST_PP_ENUM_TRAILING_PARAMS(MOCK_NUM_ARGS, typename T)>
class expectation<R(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))> :
public action<R, R(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>
{
public:
expectation()
: invocation_( std::make_unique< unlimited >() )
, matcher_(
std::make_unique<
default_matcher<
void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) )
>
> () )
, file_( "unknown location" )
, line_( 0 )
: invocation_(std::make_unique<unlimited>()),
matcher_(std::make_unique<default_matcher<void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>>()),
file_("unknown location"), line_(0)
{}
expectation( const char* file, int line )
: invocation_( std::make_unique< unlimited >() )
, matcher_(
std::make_unique<
default_matcher<
void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) )
>
> () )
, file_( file )
, line_( line )
expectation(const char* file, int line)
: invocation_(std::make_unique<unlimited>()),
matcher_(std::make_unique<default_matcher<void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>>()), file_(file),
line_(line)
{}
expectation(expectation &&) = default;
expectation(expectation&&) = default;
expectation(expectation const&) = default;
expectation& operator=(expectation &&) = default;
expectation& operator=(expectation&&) = default;
expectation& operator=(expectation const&) = default;
~expectation()
{
for( auto& sequence: sequences_)
sequence->remove( this );
for(auto& sequence : sequences_)
sequence->remove(this);
}
void invoke( std::unique_ptr< invocation > i )
{
invocation_ = std::move(i);
}
void invoke(std::unique_ptr<invocation> i) { invocation_ = std::move(i); }
#ifndef MOCK_NUM_ARGS_0
template<
BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename Constraint_)
>
expectation& with(
BOOST_PP_ENUM_BINARY_PARAMS(MOCK_NUM_ARGS, Constraint_, c) )
template<BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename Constraint_)>
expectation& with(BOOST_PP_ENUM_BINARY_PARAMS(MOCK_NUM_ARGS, Constraint_, c))
{
matcher_ = std::make_unique<
single_matcher<
void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, Constraint_) ),
void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) )
>>( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, c) );
matcher_ = std::make_unique<single_matcher<void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, Constraint_)),
void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>>(
BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, c));
return *this;
}
#if MOCK_NUM_ARGS > 1
template< typename Constraint >
expectation& with( const Constraint& c )
# if MOCK_NUM_ARGS > 1
template<typename Constraint>
expectation& with(const Constraint& c)
{
matcher_ = std::make_unique<
multi_matcher<
Constraint,
void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) )
>>( c );
matcher_ = std::make_unique<multi_matcher<Constraint, void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>>(c);
return *this;
}
#endif
# endif
#endif
void add( sequence& s )
void add(sequence& s)
{
s.impl_->add( this );
sequences_.push_back( s.impl_ );
s.impl_->add(this);
sequences_.push_back(s.impl_);
}
bool verify() const
{
return invocation_->verify();
}
bool verify() const { return invocation_->verify(); }
bool is_valid(
BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_REF_ARG, _) ) const
bool is_valid(BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_REF_ARG, _)) const
{
return !invocation_->exhausted()
&& (*matcher_)( BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_EXPECTATION_PARAM, _) );
return !invocation_->exhausted() && (*matcher_)(BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_EXPECTATION_PARAM, _));
}
bool invoke() const
{
for( auto& sequence: sequences_)
for(auto& sequence : sequences_)
{
if( ! sequence->is_valid( this ) )
if(!sequence->is_valid(this))
return false;
}
bool result = invocation_->invoke();
for( auto& sequence: sequences_)
sequence->invalidate( this );
for(auto& sequence : sequences_)
sequence->invalidate(this);
return result;
}
const char* file() const
{
return file_;
}
int line() const
{
return line_;
}
const char* file() const { return file_; }
int line() const { return line_; }
friend std::ostream& operator<<( std::ostream& s, const expectation& e )
friend std::ostream& operator<<(std::ostream& s, const expectation& e)
{
return s << ( e.invocation_->exhausted() ? 'v' : '.' )
<< ' ' << *e.invocation_
return s << (e.invocation_->exhausted() ? 'v' : '.') << ' ' << *e.invocation_
#ifndef MOCK_NUM_ARGS_0
<< ".with( " << *e.matcher_ << " )"
#endif
@ -250,18 +182,13 @@ namespace detail
}
private:
std::unique_ptr< invocation > invocation_;
std::unique_ptr<
matcher_base<
void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) )
>
> matcher_;
std::vector< std::shared_ptr<sequence_impl> > sequences_;
std::unique_ptr<invocation> invocation_;
std::unique_ptr<matcher_base<void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>> matcher_;
std::vector<std::shared_ptr<sequence_impl>> sequences_;
const char* file_;
int line_;
};
}
} // mock
}} // namespace mock::detail
#undef MOCK_EXPECTATION_INITIALIZE
#undef MOCK_EXPECTATION_MEMBER

33
include/turtle/detail/formatter.hpp
View file

@ -13,38 +13,29 @@
#include "../stream.hpp"
#include <memory>
namespace mock
{
namespace detail
{
template< typename T >
namespace mock { namespace detail {
template<typename T>
struct formatter
{
explicit formatter( const T& t )
: t_( std::addressof( t ) )
{}
void serialize( stream& s ) const
{
detail::serialize( s, *t_ );
}
explicit formatter(const T& t) : t_(std::addressof(t)) {}
void serialize(stream& s) const { detail::serialize(s, *t_); }
const T* t_;
};
template< typename T >
stream& operator<<( stream& s, const formatter< T >& f )
template<typename T>
stream& operator<<(stream& s, const formatter<T>& f)
{
f.serialize( s );
f.serialize(s);
return s;
}
template< typename T >
std::ostream& operator<<( std::ostream& s, const formatter< T >& f )
template<typename T>
std::ostream& operator<<(std::ostream& s, const formatter<T>& f)
{
stream ss( s );
f.serialize( ss );
stream ss(s);
f.serialize(ss);
return s;
}
}
} // mock
}} // namespace mock::detail
#endif // MOCK_FORMATTER_HPP_INCLUDED

71
include/turtle/detail/function.hpp
View file

@ -10,74 +10,62 @@
#define MOCK_FUNCTION_HPP_INCLUDED
#include "../config.hpp"
#include "../constraints.hpp"
#include "../error.hpp"
#include "../log.hpp"
#include "../constraints.hpp"
#include "../sequence.hpp"
#include "../matcher.hpp"
#include "../sequence.hpp"
#include "action.hpp"
#include "verifiable.hpp"
#include "invocation.hpp"
#include "type_name.hpp"
#include "context.hpp"
#include "mutex.hpp"
#include "invocation.hpp"
#include "move_helper.hpp"
#include <boost/preprocessor/iteration/iterate.hpp>
#include <boost/preprocessor/repetition/repeat_from_to.hpp>
#include <boost/preprocessor/repetition/enum_params.hpp>
#include <boost/preprocessor/repetition/enum_binary_params.hpp>
#include "mutex.hpp"
#include "type_name.hpp"
#include "verifiable.hpp"
#include <boost/optional.hpp>
#include <boost/preprocessor/comparison/equal.hpp>
#include <boost/preprocessor/comparison/greater.hpp>
#include <boost/preprocessor/iteration/iterate.hpp>
#include <boost/preprocessor/repetition/enum_binary_params.hpp>
#include <boost/preprocessor/repetition/enum_params.hpp>
#include <boost/preprocessor/repetition/repeat_from_to.hpp>
#include <boost/test/utils/basic_cstring/basic_cstring.hpp>
#include <boost/test/utils/lazy_ostream.hpp>
#include <boost/optional.hpp>
#include <list>
#include <ostream>
#include <vector>
#include <list>
namespace mock
{
namespace detail
{
template< typename R, typename E >
namespace mock { namespace detail {
template<typename R, typename E>
struct wrapper_base
{
wrapper_base( E& e )
: e_( &e )
{}
wrapper_base(E& e) : e_(&e) {}
template< typename T >
void returns( T t )
template<typename T>
void returns(T t)
{
e_->returns( t );
e_->returns(t);
}
E* e_;
};
template< typename E >
struct wrapper_base< void, E >
template<typename E>
struct wrapper_base<void, E>
{
wrapper_base( E& e )
: e_( &e )
{}
wrapper_base(E& e) : e_(&e) {}
E* e_;
};
template< typename R, typename E >
struct wrapper_base< R*, E >
template<typename R, typename E>
struct wrapper_base<R*, E>
{
wrapper_base( E& e )
: e_( &e )
{}
wrapper_base(E& e) : e_(&e) {}
void returns( R* r )
void returns(R* r) { e_->returns(r); }
template<typename Y>
void returns(const std::reference_wrapper<Y>& r)
{
e_->returns( r );
}
template< typename Y >
void returns( const std::reference_wrapper< Y >& r )
{
e_->returns( r );
e_->returns(r);
}
E* e_;
@ -92,8 +80,7 @@ namespace detail
return std::uncaught_exception() ? 1 : 0;
#endif
}
}
} // mock
}} // namespace mock::detail
#define MOCK_NUM_ARGS 0
#define MOCK_NUM_ARGS_0

251
include/turtle/detail/function_impl_template.hpp
View file

@ -12,76 +12,62 @@
# error no error policy has been set
#endif
#define MOCK_FUNCTION_FORMAT(z, n, N) \
<< ' ' << mock::format( t##n ) \
<< BOOST_PP_IF(BOOST_PP_EQUAL(N,n), ' ', ',')
#define MOCK_FUNCTION_FORMAT(z, n, N) << ' ' << mock::format(t##n) << BOOST_PP_IF(BOOST_PP_EQUAL(N, n), ' ', ',')
#define MOCK_FUNCTION_CONTEXT \
boost::unit_test::lazy_ostream::instance() \
<< lazy_context( this ) \
<< '(' BOOST_PP_REPEAT(MOCK_NUM_ARGS, MOCK_FUNCTION_FORMAT, \
BOOST_PP_DEC(MOCK_NUM_ARGS)) \
<< ')' \
<< lazy_expectations( this )
<< lazy_context(this) << '(' BOOST_PP_REPEAT(MOCK_NUM_ARGS, MOCK_FUNCTION_FORMAT, BOOST_PP_DEC(MOCK_NUM_ARGS)) \
<< ')' << lazy_expectations(this)
#define MOCK_FORWARD(z, n, d) \
std::forward< T##n >( t##n )
#define MOCK_FORWARD(z, n, d) std::forward<T##n>(t##n)
namespace mock
{
namespace detail
{
template< typename Signature > class function_impl;
namespace mock { namespace detail {
template<typename Signature>
class function_impl;
template< typename R
BOOST_PP_ENUM_TRAILING_PARAMS(MOCK_NUM_ARGS, typename T) >
class function_impl< R ( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) ) >
: public verifiable, public std::enable_shared_from_this<
function_impl< R ( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) )> >
template<typename R BOOST_PP_ENUM_TRAILING_PARAMS(MOCK_NUM_ARGS, typename T)>
class function_impl<R(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))> :
public verifiable,
public std::enable_shared_from_this<function_impl<R(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>>
{
public:
typedef safe_error< R, MOCK_ERROR_POLICY< R > > error_type;
typedef safe_error<R, MOCK_ERROR_POLICY<R>> error_type;
public:
function_impl()
: context_( 0 )
, valid_( true )
, exceptions_( exceptions() )
, mutex_( std::make_shared< mutex >() )
{}
function_impl() : context_(0), valid_(true), exceptions_(exceptions()), mutex_(std::make_shared<mutex>()) {}
virtual ~function_impl()
{
if( valid_ && exceptions_ >= exceptions() )
if(valid_ && exceptions_ >= exceptions())
{
for( const auto& expectation: expectations_ )
for(const auto& expectation : expectations_)
{
if( ! expectation.verify() )
if(!expectation.verify())
{
error_type::fail( "untriggered expectation",
error_type::fail("untriggered expectation",
boost::unit_test::lazy_ostream::instance()
<< lazy_context( this )
<< lazy_expectations( this ),
expectation.file(), expectation.line() );
<< lazy_context(this) << lazy_expectations(this),
expectation.file(),
expectation.line());
}
}
}
if( context_ )
context_->remove( *this );
if(context_)
context_->remove(*this);
}
virtual bool verify() const
{
lock _( mutex_ );
for( const auto& expectation: expectations_ )
lock _(mutex_);
for(const auto& expectation : expectations_)
{
if( ! expectation.verify() )
if(!expectation.verify())
{
valid_ = false;
error_type::fail( "verification failed",
error_type::fail("verification failed",
boost::unit_test::lazy_ostream::instance()
<< lazy_context( this )
<< lazy_expectations( this ),
expectation.file(), expectation.line() );
<< lazy_context(this) << lazy_expectations(this),
expectation.file(),
expectation.line());
}
}
return valid_;
@ -89,115 +75,103 @@ namespace detail
virtual void reset()
{
lock _( mutex_ );
lock _(mutex_);
valid_ = true;
std::shared_ptr< function_impl > guard =
this->shared_from_this();
std::shared_ptr<function_impl> guard = this->shared_from_this();
expectations_.clear();
}
private:
typedef expectation<
R( BOOST_PP_ENUM_PARAMS( MOCK_NUM_ARGS, T ) )
> expectation_type;
typedef expectation<R(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))> expectation_type;
class wrapper : public wrapper_base< R, expectation_type >
class wrapper : public wrapper_base<R, expectation_type>
{
private:
typedef wrapper_base< R, expectation_type > base_type;
typedef wrapper_base<R, expectation_type> base_type;
public:
wrapper( const std::shared_ptr< mutex >& m, expectation_type& e )
: base_type( e )
, lock_( m )
{}
wrapper(const std::shared_ptr<mutex>& m, expectation_type& e) : base_type(e), lock_(m) {}
wrapper(const wrapper&) = delete;
wrapper( wrapper&& x ) = default;
wrapper(wrapper&& x) = default;
wrapper& operator=(const wrapper&) = delete;
wrapper& operator=( wrapper&& x ) = default;
wrapper& operator=(wrapper&& x) = default;
wrapper& once()
{
this->e_->invoke( std::make_unique< detail::once >() );
this->e_->invoke(std::make_unique<detail::once>());
return *this;
}
wrapper& never()
{
this->e_->invoke( std::make_unique< detail::never >() );
this->e_->invoke(std::make_unique<detail::never>());
return *this;
}
wrapper& exactly( std::size_t count )
wrapper& exactly(std::size_t count)
{
this->e_->invoke( std::make_unique< detail::exactly >( count ) );
this->e_->invoke(std::make_unique<detail::exactly>(count));
return *this;
}
wrapper& at_least( std::size_t min )
wrapper& at_least(std::size_t min)
{
this->e_->invoke( std::make_unique< detail::at_least >( min ) );
this->e_->invoke(std::make_unique<detail::at_least>(min));
return *this;
}
wrapper& at_most( std::size_t max )
wrapper& at_most(std::size_t max)
{
this->e_->invoke( std::make_unique< detail::at_most >( max ) );
this->e_->invoke(std::make_unique<detail::at_most>(max));
return *this;
}
wrapper& between( std::size_t min, std::size_t max )
wrapper& between(std::size_t min, std::size_t max)
{
this->e_->invoke( std::make_unique< detail::between >( min, max ) );
this->e_->invoke(std::make_unique<detail::between>(min, max));
return *this;
}
#ifndef MOCK_NUM_ARGS_0
template<
BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename Constraint_)
>
wrapper& with(
BOOST_PP_ENUM_BINARY_PARAMS(MOCK_NUM_ARGS, Constraint_, c) )
template<BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename Constraint_)>
wrapper& with(BOOST_PP_ENUM_BINARY_PARAMS(MOCK_NUM_ARGS, Constraint_, c))
{
this->e_->with(
BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, c) );
this->e_->with(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, c));
return *this;
}
#if MOCK_NUM_ARGS > 1
template< typename Constraint >
wrapper& with( const Constraint& c )
# if MOCK_NUM_ARGS > 1
template<typename Constraint>
wrapper& with(const Constraint& c)
{
this->e_->with( c );
this->e_->with(c);
return *this;
}
#endif
# endif
#endif
#define MOCK_FUNCTION_IN_ADD(z, n, d) \
this->e_->add( s##n );
#define MOCK_FUNCTION_IN_ADD(z, n, d) this->e_->add(s##n);
#define MOCK_FUNCTION_IN(z, n, d) \
wrapper& in( BOOST_PP_ENUM_PARAMS(n, sequence& s) ) \
wrapper& in(BOOST_PP_ENUM_PARAMS(n, sequence& s)) \
{ \
BOOST_PP_REPEAT(n, MOCK_FUNCTION_IN_ADD, _) \
return *this; \
}
BOOST_PP_REPEAT(MOCK_MAX_SEQUENCES,
MOCK_FUNCTION_IN, _)
BOOST_PP_REPEAT(MOCK_MAX_SEQUENCES, MOCK_FUNCTION_IN, _)
#undef MOCK_FUNCTION_IN
#undef MOCK_FUNCTION_IN_ADD
template< typename TT >
void calls( TT t )
template<typename TT>
void calls(TT t)
{
this->e_->calls( t );
this->e_->calls(t);
}
template< typename TT >
void throws( TT t )
template<typename TT>
void throws(TT t)
{
this->e_->throws( t );
this->e_->throws(t);
}
template< typename TT >
void moves( TT&& t )
template<typename TT>
void moves(TT&& t)
{
this->e_->moves( std::move( t ) );
this->e_->moves(std::move(t));
}
lock lock_;
@ -206,82 +180,78 @@ namespace detail
public:
typedef wrapper wrapper_type;
wrapper expect( const char* file, int line )
wrapper expect(const char* file, int line)
{
lock _( mutex_ );
expectations_.emplace_back( file, line );
lock _(mutex_);
expectations_.emplace_back(file, line);
valid_ = true;
return wrapper( mutex_, expectations_.back() );
return wrapper(mutex_, expectations_.back());
}
wrapper expect()
{
lock _( mutex_ );
expectations_.emplace_back( );
lock _(mutex_);
expectations_.emplace_back();
valid_ = true;
return wrapper( mutex_, expectations_.back() );
return wrapper(mutex_, expectations_.back());
}
R operator()(
BOOST_PP_ENUM_BINARY_PARAMS(MOCK_NUM_ARGS, T, t) ) const
R operator()(BOOST_PP_ENUM_BINARY_PARAMS(MOCK_NUM_ARGS, T, t)) const
{
lock _( mutex_ );
lock _(mutex_);
valid_ = false;
for( const auto& expectation: expectations_ )
for(const auto& expectation : expectations_)
{
if( expectation.is_valid(
BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_FORWARD, _) ) )
if(expectation.is_valid(BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_FORWARD, _)))
{
if( ! expectation.invoke() )
if(!expectation.invoke())
{
error_type::fail( "sequence failed",
MOCK_FUNCTION_CONTEXT, expectation.file(), expectation.line() );
error_type::fail(
"sequence failed", MOCK_FUNCTION_CONTEXT, expectation.file(), expectation.line());
return error_type::abort();
}
if( ! expectation.valid() )
if(!expectation.valid())
{
error_type::fail( "missing action",
MOCK_FUNCTION_CONTEXT, expectation.file(), expectation.line() );
error_type::fail(
"missing action", MOCK_FUNCTION_CONTEXT, expectation.file(), expectation.line());
return error_type::abort();
}
valid_ = true;
error_type::call( MOCK_FUNCTION_CONTEXT, expectation.file(), expectation.line() );
if( expectation.functor() )
return expectation.functor()(
BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_FORWARD, _) );
error_type::call(MOCK_FUNCTION_CONTEXT, expectation.file(), expectation.line());
if(expectation.functor())
return expectation.functor()(BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_FORWARD, _));
return expectation.trigger();
}
}
error_type::fail( "unexpected call", MOCK_FUNCTION_CONTEXT );
error_type::fail("unexpected call", MOCK_FUNCTION_CONTEXT);
return error_type::abort();
}
void add( context& c, const void* p,
void add(context& c,
const void* p,
boost::unit_test::const_string instance,
boost::optional< type_name > type,
boost::unit_test::const_string name )
boost::optional<type_name> type,
boost::unit_test::const_string name)
{
lock _( mutex_ );
if( ! context_ )
c.add( *this );
c.add( p, *this, instance, type, name );
lock _(mutex_);
if(!context_)
c.add(*this);
c.add(p, *this, instance, type, name);
context_ = &c;
}
friend std::ostream& operator<<( std::ostream& s, const function_impl& impl )
friend std::ostream& operator<<(std::ostream& s, const function_impl& impl)
{
lock _( impl.mutex_ );
return s << lazy_context( &impl ) << lazy_expectations( &impl );
lock _(impl.mutex_);
return s << lazy_context(&impl) << lazy_expectations(&impl);
}
struct lazy_context
{
lazy_context( const function_impl* impl )
: impl_( impl )
{}
friend std::ostream& operator<<( std::ostream& s, const lazy_context& c )
lazy_context(const function_impl* impl) : impl_(impl) {}
friend std::ostream& operator<<(std::ostream& s, const lazy_context& c)
{
if( c.impl_->context_ )
c.impl_->context_->serialize( s, *c.impl_ );
if(c.impl_->context_)
c.impl_->context_->serialize(s, *c.impl_);
else
s << '?';
return s;
@ -291,26 +261,23 @@ namespace detail
struct lazy_expectations
{
lazy_expectations( const function_impl* impl )
: impl_( impl )
{}
friend std::ostream& operator<<( std::ostream& s, const lazy_expectations& e )
lazy_expectations(const function_impl* impl) : impl_(impl) {}
friend std::ostream& operator<<(std::ostream& s, const lazy_expectations& e)
{
for( const auto& expectation: e.impl_->expectations_ )
for(const auto& expectation : e.impl_->expectations_)
s << std::endl << expectation;
return s;
}
const function_impl* impl_;
};
std::list< expectation_type > expectations_;
std::list<expectation_type> expectations_;
context* context_;
mutable bool valid_;
const int exceptions_;
const std::shared_ptr< mutex > mutex_;
const std::shared_ptr<mutex> mutex_;
};
}
} // mock
}} // namespace mock::detail
#undef MOCK_FUNCTION_FORMAT
#undef MOCK_FUNCTION_CONTEXT

84
include/turtle/detail/function_template.hpp
View file

@ -8,90 +8,68 @@
#include "function_impl_template.hpp"
#define MOCK_FORWARD(z, n, d) \
std::forward< T##n >( t##n )
#define MOCK_FORWARD(z, n, d) std::forward<T##n>(t##n)
namespace mock
{
namespace detail
{
template< typename Signature > class function;
namespace mock { namespace detail {
template<typename Signature>
class function;
template< typename R
BOOST_PP_ENUM_TRAILING_PARAMS(MOCK_NUM_ARGS, typename T) >
class function< R ( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) ) >
template<typename R BOOST_PP_ENUM_TRAILING_PARAMS(MOCK_NUM_ARGS, typename T)>
class function<R(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>
{
private:
typedef function_impl<
R ( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) )
> impl_type;
typedef function_impl<R(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))> impl_type;
typedef typename impl_type::wrapper_type expectation_type;
typedef typename impl_type::error_type error_type;
public:
function()
: impl_( std::make_shared< impl_type >() )
{}
function() : impl_(std::make_shared<impl_type>()) {}
bool verify() const
bool verify() const { return impl_->verify(); }
bool verify(const char* file, int line) const
{
error_type::pass(file, line);
return impl_->verify();
}
bool verify( const char* file, int line ) const
void reset() { impl_->reset(); }
void reset(const char* file, int line)
{
error_type::pass( file, line );
return impl_->verify();
}
void reset()
{
impl_->reset();
}
void reset( const char* file, int line )
{
error_type::pass( file, line );
error_type::pass(file, line);
impl_->reset();
}
expectation_type expect( const char* file, int line )
expectation_type expect(const char* file, int line)
{
error_type::pass( file, line );
return impl_->expect( file, line );
error_type::pass(file, line);
return impl_->expect(file, line);
}
expectation_type expect()
expectation_type expect() { return impl_->expect(); }
R operator()(BOOST_PP_ENUM_BINARY_PARAMS(MOCK_NUM_ARGS, T, t)) const
{
return impl_->expect();
return (*impl_)(BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_FORWARD, _));
}
R operator()(
BOOST_PP_ENUM_BINARY_PARAMS(MOCK_NUM_ARGS, T, t) ) const
{
return (*impl_)( BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_FORWARD, _) );
}
friend std::ostream& operator<<(std::ostream& s, const function& f) { return s << *f.impl_; }
friend std::ostream& operator<<( std::ostream& s, const function& f )
function& operator()(context& c, boost::unit_test::const_string instance)
{
return s << *f.impl_;
}
function& operator()( context& c,
boost::unit_test::const_string instance )
{
impl_->add( c, impl_.get(), instance, boost::none, "" );
impl_->add(c, impl_.get(), instance, boost::none, "");
return *this;
}
void configure( context& c, const void* p,
void configure(context& c,
const void* p,
boost::unit_test::const_string instance,
boost::optional< type_name > type,
boost::unit_test::const_string name ) const
boost::optional<type_name> type,
boost::unit_test::const_string name) const
{
impl_->add( c, p, instance, type, name );
impl_->add(c, p, instance, type, name);
}
private:
std::shared_ptr< impl_type > impl_;
std::shared_ptr<impl_type> impl_;
};
}
} // mock
}} // namespace mock::detail
#undef MOCK_FORWARD

27
include/turtle/detail/functor.hpp
View file

@ -14,39 +14,32 @@
#include "mutex.hpp"
#include "singleton.hpp"
namespace mock
{
namespace detail
{
class functor_mutex_t :
public singleton< functor_mutex_t >,
public mutex
namespace mock { namespace detail {
class functor_mutex_t : public singleton<functor_mutex_t>, public mutex
{
MOCK_SINGLETON_CONS( functor_mutex_t );
MOCK_SINGLETON_CONS(functor_mutex_t);
};
MOCK_SINGLETON_INST( functor_mutex )
MOCK_SINGLETON_INST(functor_mutex)
template< typename Signature >
struct functor : function< Signature >
template<typename Signature>
struct functor : function<Signature>
{
functor()
{
scoped_lock _( functor_mutex );
scoped_lock _(functor_mutex);
static functor* f = 0;
if( f )
if(f)
{
*this = *f;
f = 0;
functor_mutex.unlock();
}
else
} else
{
functor_mutex.lock();
f = this;
}
}
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_FUNCTOR_HPP_INCLUDED

31
include/turtle/detail/group.hpp
View file

@ -11,48 +11,39 @@
#include "../config.hpp"
#include "verifiable.hpp"
#include <functional>
#include <algorithm>
#include <functional>
#include <vector>
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
class group
{
public:
void add( verifiable& v )
void add(verifiable& v) { verifiables_.push_back(&v); }
void remove(verifiable& v)
{
verifiables_.push_back( &v );
}
void remove( verifiable& v )
{
verifiables_.erase(
std::remove( verifiables_.begin(), verifiables_.end(), &v ),
verifiables_.end() );
verifiables_.erase(std::remove(verifiables_.begin(), verifiables_.end(), &v), verifiables_.end());
}
bool verify() const
{
bool valid = true;
for( const auto* verifiable: verifiables_ )
if( ! verifiable->verify() )
for(const auto* verifiable : verifiables_)
if(!verifiable->verify())
valid = false;
return valid;
}
void reset()
{
const auto verifiables = verifiables_;
for( auto* verifiable: verifiables )
if( std::find( verifiables_.begin(), verifiables_.end(), verifiable ) != verifiables_.end() )
for(auto* verifiable : verifiables)
if(std::find(verifiables_.begin(), verifiables_.end(), verifiable) != verifiables_.end())
verifiable->reset();
}
private:
std::vector< verifiable* > verifiables_;
std::vector<verifiable*> verifiables_;
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_GROUP_HPP_INCLUDED

90
include/turtle/detail/invocation.hpp
View file

@ -10,14 +10,11 @@
#define MOCK_INVOCATION_HPP_INCLUDED
#include "../config.hpp"
#include <stdexcept>
#include <ostream>
#include <limits>
#include <ostream>
#include <stdexcept>
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
class invocation
{
public:
@ -32,66 +29,51 @@ namespace detail
virtual bool exhausted() const = 0;
friend std::ostream& operator<<( std::ostream& s, const invocation& i )
{
return i.serialize( s );
}
friend std::ostream& operator<<(std::ostream& s, const invocation& i) { return i.serialize(s); }
private:
virtual std::ostream& serialize( std::ostream& s ) const = 0;
virtual std::ostream& serialize(std::ostream& s) const = 0;
};
class between : public invocation
{
public:
between( std::size_t min, std::size_t max )
: min_( min )
, max_( max )
, count_( 0 )
between(std::size_t min, std::size_t max) : min_(min), max_(max), count_(0)
{
if( min > max )
throw std::invalid_argument( "'min' > 'max'" );
if(min > max)
throw std::invalid_argument("'min' > 'max'");
}
virtual bool invoke()
{
if( count_ == max_ )
if(count_ == max_)
return false;
++count_;
return true;
}
virtual bool exhausted() const
{
return count_ >= max_;
}
virtual bool exhausted() const { return count_ >= max_; }
virtual bool verify() const
{
return min_ <= count_ && count_ <= max_;
}
virtual bool verify() const { return min_ <= count_ && count_ <= max_; }
protected:
const std::size_t min_, max_;
std::size_t count_;
private:
virtual std::ostream& serialize( std::ostream& s ) const
virtual std::ostream& serialize(std::ostream& s) const
{
return s << "between( " << count_
<< "/[" << min_ << ',' << max_ << "] )";
return s << "between( " << count_ << "/[" << min_ << ',' << max_ << "] )";
}
};
class exactly : public between
{
public:
explicit exactly( std::size_t count )
: between( count, count )
{}
explicit exactly(std::size_t count) : between(count, count) {}
private:
virtual std::ostream& serialize( std::ostream& s ) const
virtual std::ostream& serialize(std::ostream& s) const
{
return s << "exactly( " << count_ << '/' << max_ << " )";
}
@ -100,40 +82,28 @@ namespace detail
class never : public exactly
{
public:
never()
: exactly( 0 )
{}
never() : exactly(0) {}
private:
virtual std::ostream& serialize( std::ostream& s ) const
{
return s << "never()";
}
virtual std::ostream& serialize(std::ostream& s) const { return s << "never()"; }
};
class once : public exactly
{
public:
once()
: exactly( 1 )
{}
once() : exactly(1) {}
private:
virtual std::ostream& serialize( std::ostream& s ) const
{
return s << "once()";
}
virtual std::ostream& serialize(std::ostream& s) const { return s << "once()"; }
};
class at_least : public between
{
public:
explicit at_least( std::size_t min )
: between( min, (std::numeric_limits< std::size_t >::max)() )
{}
explicit at_least(std::size_t min) : between(min, (std::numeric_limits<std::size_t>::max)()) {}
private:
virtual std::ostream& serialize( std::ostream& s ) const
virtual std::ostream& serialize(std::ostream& s) const
{
return s << "at_least( " << count_ << '/' << min_ << " )";
}
@ -142,12 +112,10 @@ namespace detail
class at_most : public between
{
public:
explicit at_most( std::size_t max )
: between( 0, max )
{}
explicit at_most(std::size_t max) : between(0, max) {}
private:
virtual std::ostream& serialize( std::ostream& s ) const
virtual std::ostream& serialize(std::ostream& s) const
{
return s << "at_most( " << count_ << '/' << max_ << " )";
}
@ -156,17 +124,11 @@ namespace detail
class unlimited : public at_least
{
public:
unlimited()
: at_least( 0 )
{}
unlimited() : at_least(0) {}
private:
virtual std::ostream& serialize( std::ostream& s ) const
{
return s << "unlimited()";
}
virtual std::ostream& serialize(std::ostream& s) const { return s << "unlimited()"; }
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_INVOCATION_HPP_INCLUDED

14
include/turtle/detail/is_functor.hpp
View file

@ -13,18 +13,14 @@
#include "void_t.hpp"
#include <type_traits>
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
/// Trait to return true if F is a functor that can be called with a single argument Arg
template< typename F, typename Arg, class = void >
template<typename F, typename Arg, class = void>
struct is_functor : std::false_type
{};
template< typename F, typename Arg >
struct is_functor< F, Arg, void_t<decltype( std::declval<F>()( std::declval<Arg>() ) )> >: std::true_type
template<typename F, typename Arg>
struct is_functor<F, Arg, void_t<decltype(std::declval<F>()(std::declval<Arg>()))>> : std::true_type
{};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_IS_FUNCTOR_HPP_INCLUDED

28
include/turtle/detail/matcher_base_template.hpp
View file

@ -6,18 +6,14 @@
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#define MOCK_REF_ARG(z, n, d) \
typename ref_arg< T##n >::type
#define MOCK_REF_ARG(z, n, d) typename ref_arg<T##n>::type
namespace mock
{
namespace detail
{
template< typename Signature > class matcher_base;
namespace mock { namespace detail {
template<typename Signature>
class matcher_base;
template<
BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename T) >
class matcher_base< void( BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T) ) >
template<BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, typename T)>
class matcher_base<void(BOOST_PP_ENUM_PARAMS(MOCK_NUM_ARGS, T))>
{
public:
matcher_base() = default;
@ -25,19 +21,17 @@ namespace detail
matcher_base& operator=(const matcher_base&) = delete;
virtual ~matcher_base() = default;
virtual bool operator()(
BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_REF_ARG, _) ) = 0;
virtual bool operator()(BOOST_PP_ENUM(MOCK_NUM_ARGS, MOCK_REF_ARG, _)) = 0;
friend std::ostream& operator<<( std::ostream& s, const matcher_base& m )
friend std::ostream& operator<<(std::ostream& s, const matcher_base& m)
{
m.serialize( s );
m.serialize(s);
return s;
}
private:
virtual void serialize( std::ostream& ) const = 0;
virtual void serialize(std::ostream&) const = 0;
};
}
} // mock
}} // namespace mock::detail
#undef MOCK_REF_ARG

16
include/turtle/detail/move_helper.hpp
View file

@ -11,17 +11,9 @@
#include <type_traits>
namespace mock
{
namespace detail
{
template< typename T >
using ref_arg = std::conditional<
std::is_reference< T >::value,
T,
std::add_rvalue_reference_t< T >
>;
}
}
namespace mock { namespace detail {
template<typename T>
using ref_arg = std::conditional<std::is_reference<T>::value, T, std::add_rvalue_reference_t<T>>;
}} // namespace mock::detail
#endif // MOCK_MOVE_HELPER_HPP_INCLUDED

123
include/turtle/detail/mutex.hpp
View file

@ -15,65 +15,52 @@
#ifdef MOCK_THREAD_SAFE
#ifdef MOCK_HDR_MUTEX
#include <mutex>
#else
#include <boost/thread/recursive_mutex.hpp>
#include <boost/thread/lock_guard.hpp>
#endif
# ifdef MOCK_HDR_MUTEX
# include <mutex>
# else
# include <boost/thread/lock_guard.hpp>
# include <boost/thread/recursive_mutex.hpp>
# endif
namespace mock
{
namespace detail
{
#ifdef MOCK_HDR_MUTEX
namespace mock { namespace detail {
# ifdef MOCK_HDR_MUTEX
typedef std::recursive_mutex mutex;
typedef std::lock_guard< mutex > scoped_lock;
#else
typedef std::lock_guard<mutex> scoped_lock;
# else
typedef boost::recursive_mutex mutex;
typedef boost::lock_guard< mutex > scoped_lock;
#endif
typedef boost::lock_guard<mutex> scoped_lock;
# endif
struct lock
{
public:
lock( const std::shared_ptr< mutex >& m )
: m_( m )
{
m_->lock();
}
lock(const std::shared_ptr<mutex>& m) : m_(m) { m_->lock(); }
~lock()
{
if( m_ )
if(m_)
m_->unlock();
}
lock( const lock& ) = delete;
lock( lock&& x ) = default;
lock& operator=( const lock& ) = delete;
lock& operator=( lock&& x ) = default;
lock(const lock&) = delete;
lock(lock&& x) = default;
lock& operator=(const lock&) = delete;
lock& operator=(lock&& x) = default;
private:
std::shared_ptr< mutex > m_;
std::shared_ptr<mutex> m_;
};
}
} // mock
}} // namespace mock::detail
#else // MOCK_THREAD_SAFE
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
struct mutex
{
mutex() = default;
mutex(const mutex&) = delete;
mutex& operator=(const mutex&) = delete;
void lock()
{}
void unlock()
{}
void lock() {}
void unlock() {}
};
// Dummy lock classes.
// Constructor + Destructor make it RAII classes for compilers and avoid unused variable warnings
@ -82,70 +69,66 @@ namespace detail
scoped_lock(const scoped_lock&) = delete;
scoped_lock& operator=(const scoped_lock&) = delete;
scoped_lock( mutex& ) {}
scoped_lock(mutex&) {}
~scoped_lock() {}
};
class lock
{
public:
lock( const std::shared_ptr< mutex >& ) {}
lock(const std::shared_ptr<mutex>&) {}
~lock() {}
lock(const lock&) = delete;
lock( lock&& ) = default;
lock& operator=( const lock& ) = delete;
lock& operator=( lock&& ) = default;
lock(lock&&) = default;
lock& operator=(const lock&) = delete;
lock& operator=(lock&&) = default;
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_THREAD_SAFE
namespace mock
{
namespace detail
{
class error_mutex_t : public singleton< error_mutex_t >,
public mutex
namespace mock { namespace detail {
class error_mutex_t : public singleton<error_mutex_t>, public mutex
{
MOCK_SINGLETON_CONS( error_mutex_t );
MOCK_SINGLETON_CONS(error_mutex_t);
};
MOCK_SINGLETON_INST( error_mutex )
MOCK_SINGLETON_INST(error_mutex)
#ifdef BOOST_MSVC
# pragma warning( push )
# pragma warning( disable: 4702 )
# pragma warning(push)
# pragma warning(disable : 4702)
#endif
template< typename Result, typename Error >
template<typename Result, typename Error>
struct safe_error
{
static Result abort()
{
scoped_lock _( error_mutex );
scoped_lock _(error_mutex);
return Error::abort();
}
template< typename Context >
static void fail( const char* message, const Context& context,
const char* file = "unknown location", int line = 0 )
template<typename Context>
static void fail(const char* message,
const Context& context,
const char* file = "unknown location",
int line = 0)
{
scoped_lock _( error_mutex );
Error::fail( message, context, file, line );
scoped_lock _(error_mutex);
Error::fail(message, context, file, line);
}
template< typename Context >
static void call( const Context& context, const char* file, int line )
template<typename Context>
static void call(const Context& context, const char* file, int line)
{
scoped_lock _( error_mutex );
Error::call( context, file, line );
scoped_lock _(error_mutex);
Error::call(context, file, line);
}
static void pass( const char* file, int line )
static void pass(const char* file, int line)
{
scoped_lock _( error_mutex );
Error::pass( file, line );
scoped_lock _(error_mutex);
Error::pass(file, line);
}
};
#ifdef BOOST_MSVC
# pragma warning( pop )
# pragma warning(pop)
#endif
}
} // mock
}} // namespace mock::detail
#endif // MOCK_MUTEX_HPP_INCLUDED

76
include/turtle/detail/object_impl.hpp
View file

@ -10,56 +10,51 @@
#define MOCK_OBJECT_IMPL_HPP_INCLUDED
#include "../config.hpp"
#include "root.hpp"
#include "parent.hpp"
#include "type_name.hpp"
#include "context.hpp"
#include "child.hpp"
#include "context.hpp"
#include "mutex.hpp"
#include <boost/test/utils/basic_cstring/basic_cstring.hpp>
#include "parent.hpp"
#include "root.hpp"
#include "type_name.hpp"
#include <boost/optional.hpp>
#include <boost/test/utils/basic_cstring/basic_cstring.hpp>
namespace mock
{
namespace detail
{
class object_impl : public context, public verifiable,
public std::enable_shared_from_this< object_impl >
namespace mock { namespace detail {
class object_impl : public context, public verifiable, public std::enable_shared_from_this<object_impl>
{
public:
object_impl()
: mutex_( std::make_shared< mutex >() )
{}
object_impl() : mutex_(std::make_shared<mutex>()) {}
virtual void add( const void* /*p*/, verifiable& v,
virtual void add(const void* /*p*/,
verifiable& v,
boost::unit_test::const_string instance,
boost::optional< type_name > type,
boost::unit_test::const_string name )
boost::optional<type_name> type,
boost::unit_test::const_string name)
{
lock _( mutex_ );
if( children_.empty() )
detail::root.add( *this );
children_[ &v ].update( parent_, instance, type, name );
lock _(mutex_);
if(children_.empty())
detail::root.add(*this);
children_[&v].update(parent_, instance, type, name);
}
virtual void add( verifiable& v )
virtual void add(verifiable& v)
{
lock _( mutex_ );
group_.add( v );
lock _(mutex_);
group_.add(v);
}
virtual void remove( verifiable& v )
virtual void remove(verifiable& v)
{
lock _( mutex_ );
group_.remove( v );
children_.erase( &v );
if( children_.empty() )
detail::root.remove( *this );
lock _(mutex_);
group_.remove(v);
children_.erase(&v);
if(children_.empty())
detail::root.remove(*this);
}
virtual void serialize( std::ostream& s, const verifiable& v ) const
virtual void serialize(std::ostream& s, const verifiable& v) const
{
lock _( mutex_ );
const auto it = children_.find( &v );
if( it != children_.end() )
lock _(mutex_);
const auto it = children_.find(&v);
if(it != children_.end())
s << it->second;
else
s << "?";
@ -67,23 +62,22 @@ namespace detail
virtual bool verify() const
{
lock _( mutex_ );
lock _(mutex_);
return group_.verify();
}
virtual void reset()
{
lock _( mutex_ );
std::shared_ptr< object_impl > guard = shared_from_this();
lock _(mutex_);
std::shared_ptr<object_impl> guard = shared_from_this();
group_.reset();
}
private:
group group_;
parent parent_;
std::map< const verifiable*, child > children_;
const std::shared_ptr< mutex > mutex_;
std::map<const verifiable*, child> children_;
const std::shared_ptr<mutex> mutex_;
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_OBJECT_IMPL_HPP_INCLUDED

40
include/turtle/detail/parameter.hpp
View file

@ -11,58 +11,55 @@
#include "../config.hpp"
namespace mock
{
namespace detail
{
template< class... >
namespace mock { namespace detail {
template<class...>
struct tuple;
template< std::size_t I, class T >
template<std::size_t I, class T>
struct tuple_element;
template< std::size_t I, class H, class... T >
struct tuple_element<I, tuple<H, T...>> : tuple_element<I-1, tuple<T...>>
template<std::size_t I, class H, class... T>
struct tuple_element<I, tuple<H, T...>> : tuple_element<I - 1, tuple<T...>>
{};
template< class H, class... T >
template<class H, class... T>
struct tuple_element<0, tuple<H, T...>>
{
using type = H;
};
template< typename Signature >
template<typename Signature>
struct result_type;
template< typename R, typename... Args >
struct result_type< R(Args...) >
template<typename R, typename... Args>
struct result_type<R(Args...)>
{
using type = R;
};
template< typename Signature >
template<typename Signature>
struct function_arity;
template< typename R, typename... Args >
struct function_arity< R(Args...) >
template<typename R, typename... Args>
struct function_arity<R(Args...)>
{
static constexpr size_t value = sizeof...(Args);
};
template< typename Signature >
template<typename Signature>
struct parameter_types;
template< typename R, typename... Args >
struct parameter_types< R(Args...) >
template<typename R, typename... Args>
struct parameter_types<R(Args...)>
{
using type = tuple<Args...>;
};
template< typename Signature, int n >
template<typename Signature, int n>
struct parameter
{
static_assert(n < function_arity<Signature>::value, "Function signature has not that many parameters");
using type = typename tuple_element< n, typename parameter_types<Signature>::type >::type;
using type = typename tuple_element<n, typename parameter_types<Signature>::type>::type;
};
template<typename T>
@ -74,7 +71,6 @@ namespace detail
};
template<typename T>
using parameter_type_t = typename parameter_type<T>::type;
}
} // mock
}} // namespace mock::detail
#endif // MOCK_PARAMETER_HPP_INCLUDED

23
include/turtle/detail/parent.hpp
View file

@ -11,35 +11,30 @@
#include "../config.hpp"
#include "type_name.hpp"
#include <boost/test/utils/basic_cstring/io.hpp>
#include <boost/optional.hpp>
#include <boost/test/utils/basic_cstring/io.hpp>
#include <ostream>
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
class parent
{
public:
parent() = default;
parent( boost::unit_test::const_string instance,
boost::optional< type_name > type )
: instance_( instance )
, type_( type )
parent(boost::unit_test::const_string instance, boost::optional<type_name> type)
: instance_(instance), type_(type)
{}
friend std::ostream& operator<<( std::ostream& s, const parent& p )
friend std::ostream& operator<<(std::ostream& s, const parent& p)
{
s << p.instance_;
if( p.type_ )
if(p.type_)
s << *p.type_ << "::";
return s;
}
private:
boost::unit_test::const_string instance_;
boost::optional< type_name > type_;
boost::optional<type_name> type_;
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_PARENT_HPP_INCLUDED

103
include/turtle/detail/root.hpp
View file

@ -10,110 +10,96 @@
#define MOCK_ROOT_HPP_INCLUDED
#include "../config.hpp"
#include "parent.hpp"
#include "group.hpp"
#include "context.hpp"
#include "child.hpp"
#include "context.hpp"
#include "group.hpp"
#include "mutex.hpp"
#include "parent.hpp"
#include "singleton.hpp"
#include <boost/optional.hpp>
#include <ostream>
#include <map>
#include <ostream>
namespace mock
{
namespace detail
{
class root_t : public singleton< root_t >, public context
namespace mock { namespace detail {
class root_t : public singleton<root_t>, public context
{
public:
virtual void add( const void* p, verifiable& v,
virtual void add(const void* p,
verifiable& v,
boost::unit_test::const_string instance,
boost::optional< type_name > type,
boost::unit_test::const_string name )
boost::optional<type_name> type,
boost::unit_test::const_string name)
{
scoped_lock _( mutex_ );
auto it = children_.lower_bound( &v );
if( it == children_.end() ||
children_.key_comp()( &v, it->first ) )
it = children_.insert( it,
std::make_pair( &v, counter_child( parents_, p ) ) );
it->second.update( instance, type, name );
scoped_lock _(mutex_);
auto it = children_.lower_bound(&v);
if(it == children_.end() || children_.key_comp()(&v, it->first))
it = children_.insert(it, std::make_pair(&v, counter_child(parents_, p)));
it->second.update(instance, type, name);
}
virtual void add( verifiable& v )
virtual void add(verifiable& v)
{
scoped_lock _( mutex_ );
group_.add( v );
scoped_lock _(mutex_);
group_.add(v);
}
virtual void remove( verifiable& v )
virtual void remove(verifiable& v)
{
scoped_lock _( mutex_ );
group_.remove( v );
children_.erase( &v );
scoped_lock _(mutex_);
group_.remove(v);
children_.erase(&v);
}
bool verify() const
{
scoped_lock _( mutex_ );
scoped_lock _(mutex_);
return group_.verify();
}
void reset()
{
scoped_lock _( mutex_ );
scoped_lock _(mutex_);
group_.reset();
}
virtual void serialize( std::ostream& s, const verifiable& v ) const
virtual void serialize(std::ostream& s, const verifiable& v) const
{
scoped_lock _( mutex_ );
const auto it = children_.find( &v );
if( it != children_.end() )
scoped_lock _(mutex_);
const auto it = children_.find(&v);
if(it != children_.end())
s << it->second;
else
s << "?";
}
private:
typedef std::map< const void*,
std::pair< parent, std::size_t > > parents_t;
typedef std::map<const void*, std::pair<parent, std::size_t>> parents_t;
class counter_child
{
public:
counter_child( parents_t& parents, const void* p )
: parents_( &parents )
, it_( parents.insert(
std::make_pair( p, parents_t::mapped_type() ) ).first )
counter_child(parents_t& parents, const void* p)
: parents_(&parents), it_(parents.insert(std::make_pair(p, parents_t::mapped_type())).first)
{
++it_->second.second;
}
counter_child( const counter_child& rhs )
: parents_( rhs.parents_ )
, it_( rhs.it_ )
, child_( rhs.child_ )
counter_child(const counter_child& rhs) : parents_(rhs.parents_), it_(rhs.it_), child_(rhs.child_)
{
++it_->second.second;
}
~counter_child()
{
if( --it_->second.second == 0 )
parents_->erase( it_ );
if(--it_->second.second == 0)
parents_->erase(it_);
}
void update( boost::unit_test::const_string instance,
boost::optional< type_name > type,
boost::unit_test::const_string name )
void update(boost::unit_test::const_string instance,
boost::optional<type_name> type,
boost::unit_test::const_string name)
{
child_.update( it_->second.first, instance, type, name );
}
friend std::ostream& operator<<( std::ostream& s,
const counter_child& c )
{
return s << c.child_;
child_.update(it_->second.first, instance, type, name);
}
friend std::ostream& operator<<(std::ostream& s, const counter_child& c) { return s << c.child_; }
private:
counter_child& operator=( const counter_child& );
counter_child& operator=(const counter_child&);
parents_t* parents_;
parents_t::iterator it_;
@ -121,14 +107,13 @@ namespace detail
};
parents_t parents_;
std::map< const verifiable*, counter_child > children_;
std::map<const verifiable*, counter_child> children_;
group group_;
mutable mutex mutex_;
MOCK_SINGLETON_CONS( root_t );
MOCK_SINGLETON_CONS(root_t);
};
MOCK_SINGLETON_INST( root )
}
} // mock
MOCK_SINGLETON_INST(root)
}} // namespace mock::detail
#endif // MOCK_ROOT_HPP_INCLUDED

46
include/turtle/detail/sequence_impl.hpp
View file

@ -15,49 +15,41 @@
#include <memory>
#include <vector>
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
class sequence_impl
{
public:
sequence_impl()
: mutex_( std::make_shared< mutex >() )
{}
sequence_impl() : mutex_(std::make_shared<mutex>()) {}
void add( void* e )
void add(void* e)
{
lock _( mutex_ );
elements_.push_back( e );
lock _(mutex_);
elements_.push_back(e);
}
void remove( void* e )
void remove(void* e)
{
lock _( mutex_ );
elements_.erase( std::remove( elements_.begin(),
elements_.end(), e ), elements_.end() );
lock _(mutex_);
elements_.erase(std::remove(elements_.begin(), elements_.end(), e), elements_.end());
}
bool is_valid( const void* e ) const
bool is_valid(const void* e) const
{
lock _( mutex_ );
return std::find( elements_.begin(), elements_.end(), e )
!= elements_.end();
lock _(mutex_);
return std::find(elements_.begin(), elements_.end(), e) != elements_.end();
}
void invalidate( const void* e )
void invalidate(const void* e)
{
lock _( mutex_ );
const auto it = std::find( elements_.begin(), elements_.end(), e );
if( it != elements_.end() )
elements_.erase( elements_.begin(), it );
lock _(mutex_);
const auto it = std::find(elements_.begin(), elements_.end(), e);
if(it != elements_.end())
elements_.erase(elements_.begin(), it);
}
private:
std::vector< void* > elements_;
const std::shared_ptr< mutex > mutex_;
std::vector<void*> elements_;
const std::shared_ptr<mutex> mutex_;
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_SEQUENCE_IMPL_HPP_INCLUDED

49
include/turtle/detail/signature.hpp
View file

@ -12,21 +12,22 @@
#include "../config.hpp"
#include <type_traits>
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
#define MOCK_NOARG
#define MOCK_STRIP_FUNCTION_QUALIFIERS(cv, ref) \
template< typename R, typename... Args > \
struct strip_function_qualifiers<R(Args...) cv ref > \
{ using type = R(Args...); }; \
template< typename R, typename... Args > \
struct strip_function_qualifiers<R(Args..., ...) cv ref > \
{ using type = R(Args..., ...); };
template<typename R, typename... Args> \
struct strip_function_qualifiers<R(Args...) cv ref> \
{ \
using type = R(Args...); \
}; \
template<typename R, typename... Args> \
struct strip_function_qualifiers<R(Args..., ...) cv ref> \
{ \
using type = R(Args..., ...); \
};
#define MOCK_STRIP_FUNCTION_QUALIFIERS_REF(cv) \
MOCK_STRIP_FUNCTION_QUALIFIERS(cv,) \
MOCK_STRIP_FUNCTION_QUALIFIERS(cv, ) \
MOCK_STRIP_FUNCTION_QUALIFIERS(cv, &) \
MOCK_STRIP_FUNCTION_QUALIFIERS(cv, &&)
@ -40,20 +41,20 @@ namespace detail
#undef MOCK_STRIP_FUNCTION_QUALIFIERS
#undef MOCK_STRIP_FUNCTION_QUALIFIERS_REF
template< typename M >
template<typename M>
struct signature;
template< typename R, typename... Args>
struct signature< R(Args...) >
template<typename R, typename... Args>
struct signature<R(Args...)>
{
using type = R(Args...);
};
template< typename Sig, typename C>
struct signature< Sig(C::*) >: signature< typename strip_function_qualifiers<Sig>::type >
template<typename Sig, typename C>
struct signature<Sig(C::*)> : signature<typename strip_function_qualifiers<Sig>::type>
{};
template< typename T >
template<typename T>
struct base
{
typedef T base_type;
@ -62,16 +63,12 @@ namespace detail
// if an error is generated by the line below it means
// the method is ambiguous : specify its signature to
// disambiguate
template< typename T >
T& ambiguous_method_requires_to_specify_signature( const T& );
}
} // mock
template<typename T>
T& ambiguous_method_requires_to_specify_signature(const T&);
}} // namespace mock::detail
#define MOCK_SIGNATURE(M) \
mock::detail::signature< \
std::remove_cv_t< std::remove_reference_t < decltype( \
mock::detail::ambiguous_method_requires_to_specify_signature( &base_type::M ) \
) > > \
>::type
mock::detail::signature<std::remove_cv_t<std::remove_reference_t<decltype( \
mock::detail::ambiguous_method_requires_to_specify_signature(&base_type::M))>>>::type
#endif // MOCK_SIGNATURE_HPP_INCLUDED

34
include/turtle/detail/singleton.hpp
View file

@ -11,36 +11,34 @@
#include <boost/config.hpp>
namespace mock {
namespace detail {
namespace mock { namespace detail {
template< typename Derived >
class singleton {
public:
template<typename Derived>
class singleton
{
public:
static Derived& instance()
{
static Derived the_inst;
return the_inst;
}
BOOST_DELETED_FUNCTION(singleton(singleton const&))
BOOST_DELETED_FUNCTION(singleton& operator=(singleton const&))
singleton(singleton const&) = delete;
singleton& operator=(singleton const&) = delete;
protected:
BOOST_DEFAULTED_FUNCTION(singleton(), {})
BOOST_DEFAULTED_FUNCTION(~singleton(), {})
};
protected:
singleton() = default;
~singleton() = default;
};
} // detail
} // mock
}} // namespace mock::detail
// Add a private ctor to the type to prevent misuse
#define MOCK_SINGLETON_CONS( type ) \
#define MOCK_SINGLETON_CONS(type) \
private: \
friend class mock::detail::singleton< type >; \
type() = default
friend class mock::detail::singleton<type>; \
type() = default
#define MOCK_SINGLETON_INST( inst ) \
static BOOST_JOIN( inst, _t )& inst = BOOST_JOIN( inst, _t )::instance();
#define MOCK_SINGLETON_INST(inst) static BOOST_JOIN(inst, _t)& inst = BOOST_JOIN(inst, _t)::instance();
#endif // MOCK_SINGLETON_HPP

100
include/turtle/detail/type_name.hpp
View file

@ -10,37 +10,33 @@
#define MOCK_TYPE_NAME_HPP_INCLUDED
#include "../config.hpp"
#include <boost/test/utils/basic_cstring/io.hpp>
#include <boost/algorithm/string/replace.hpp>
#include <boost/algorithm/string/erase.hpp>
#include <boost/algorithm/string/replace.hpp>
#include <boost/algorithm/string/trim.hpp>
#include <boost/test/utils/basic_cstring/io.hpp>
#include <boost/version.hpp>
#include <stdexcept>
#include <memory>
#include <typeinfo>
#include <ostream>
#include <stdexcept>
#include <typeinfo>
#ifdef __GNUC__
#include <cxxabi.h>
#include <cstdlib>
# include <cstdlib>
# include <cxxabi.h>
#endif
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
class type_name
{
public:
explicit type_name( const std::type_info& info )
: info_( &info )
{}
friend std::ostream& operator<<( std::ostream& s, const type_name& t )
explicit type_name(const std::type_info& info) : info_(&info) {}
friend std::ostream& operator<<(std::ostream& s, const type_name& t)
{
t.serialize( s, *t.info_ );
t.serialize(s, *t.info_);
return s;
}
private:
static void serialize( std::ostream& s, const std::type_info& info )
static void serialize(std::ostream& s, const std::type_info& info)
{
const char* name = info.name();
#ifdef __GNUC__
@ -49,60 +45,59 @@ namespace detail
{
void operator()(const void* p) { std::free(const_cast<void*>(p)); }
};
std::unique_ptr< const char, Deleter > demangled(
abi::__cxa_demangle( name, 0, 0, &status ));
if( ! status && demangled )
serialize( s, demangled.get() );
std::unique_ptr<const char, Deleter> demangled(abi::__cxa_demangle(name, 0, 0, &status));
if(!status && demangled)
serialize(s, demangled.get());
else
#endif
serialize( s, name );
serialize(s, name);
}
typedef std::string::size_type size_type;
static void serialize( std::ostream& s, std::string name )
static void serialize(std::ostream& s, std::string name)
{
const size_type nm = rfind( name, ':' ) + 1;
const size_type tpl = name.find( '<', nm );
s << clean( name.substr( nm, tpl - nm ) );
if( tpl == std::string::npos )
const size_type nm = rfind(name, ':') + 1;
const size_type tpl = name.find('<', nm);
s << clean(name.substr(nm, tpl - nm));
if(tpl == std::string::npos)
return;
s << '<';
list( s, name.substr( tpl + 1, name.rfind( '>' ) - tpl - 1 ) );
list(s, name.substr(tpl + 1, name.rfind('>') - tpl - 1));
s << '>';
}
static void list( std::ostream& s, const std::string& name )
static void list(std::ostream& s, const std::string& name)
{
const size_type comma = rfind( name, ',' );
if( comma != std::string::npos )
const size_type comma = rfind(name, ',');
if(comma != std::string::npos)
{
list( s, name.substr( 0, comma ) );
list(s, name.substr(0, comma));
s << ", ";
}
serialize( s, name.substr( comma + 1 ) );
serialize(s, name.substr(comma + 1));
}
static std::string clean( std::string name )
static std::string clean(std::string name)
{
boost::algorithm::trim( name );
boost::algorithm::erase_all( name, "class " );
boost::algorithm::erase_all( name, "struct " );
boost::algorithm::erase_all( name, "__ptr64" );
boost::algorithm::replace_all( name, " &", "&" );
boost::algorithm::replace_all( name, "& ", "&" );
boost::algorithm::replace_all( name, " *", "*" );
boost::algorithm::replace_all( name, "* ", "*" );
boost::algorithm::trim(name);
boost::algorithm::erase_all(name, "class ");
boost::algorithm::erase_all(name, "struct ");
boost::algorithm::erase_all(name, "__ptr64");
boost::algorithm::replace_all(name, " &", "&");
boost::algorithm::replace_all(name, "& ", "&");
boost::algorithm::replace_all(name, " *", "*");
boost::algorithm::replace_all(name, "* ", "*");
return name;
}
static size_type rfind( const std::string& name, char c )
static size_type rfind(const std::string& name, char c)
{
size_type count = 0;
for( size_type i = name.size() - 1; i > 0; --i )
for(size_type i = name.size() - 1; i > 0; --i)
{
if( name[ i ] == '>' )
if(name[i] == '>')
++count;
else if( name[ i ] == '<' )
else if(name[i] == '<')
--count;
if( name[ i ] == c && count == 0 )
if(name[i] == c && count == 0)
return i;
}
return std::string::npos;
@ -110,17 +105,16 @@ namespace detail
const std::type_info* info_;
};
template< typename T >
template<typename T>
type_name make_type_name()
{
return type_name( typeid(T) );
return type_name(typeid(T));
}
template< typename T >
type_name make_type_name( const T& )
template<typename T>
type_name make_type_name(const T&)
{
return type_name( typeid(T) );
return type_name(typeid(T));
}
}
} // mock
}} // namespace mock::detail
#endif // MOCK_TYPE_NAME_HPP_INCLUDED

8
include/turtle/detail/verifiable.hpp
View file

@ -11,10 +11,7 @@
#include "../config.hpp"
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
class verifiable
{
public:
@ -27,7 +24,6 @@ namespace detail
virtual void reset() = 0;
};
}
} // mock
}} // namespace mock::detail
#endif // MOCK_VERIFIABLE_HPP_INCLUDED

8
include/turtle/detail/void_t.hpp
View file

@ -9,10 +9,7 @@
#ifndef MOCK_VOID_T_HPP_INCLUDED
#define MOCK_VOID_T_HPP_INCLUDED
namespace mock
{
namespace detail
{
namespace mock { namespace detail {
template<typename...>
struct make_void
{
@ -21,7 +18,6 @@ namespace detail
/// Standard helper to implement the detection idiom. Returns always void
template<typename... Ts>
using void_t = typename make_void<Ts...>::type;
}
} // mock
}} // namespace mock::detail
#endif // MOCK_VOID_T_HPP_INCLUDED

68
include/turtle/error.hpp
View file

@ -11,69 +11,59 @@
#include "config.hpp"
#ifdef MOCK_USE_BOOST_TEST
#include "exception.hpp"
#include <boost/version.hpp>
#include <boost/test/framework.hpp>
#include <boost/test/test_tools.hpp>
#include <boost/test/unit_test_suite.hpp>
#include <boost/exception/enable_current_exception.hpp>
# include "exception.hpp"
# include <boost/exception/enable_current_exception.hpp>
# include <boost/test/framework.hpp>
# include <boost/test/test_tools.hpp>
# include <boost/test/unit_test_suite.hpp>
# include <boost/version.hpp>
namespace mock
namespace mock {
template<typename Result>
struct error
{
template< typename Result >
struct error
{
static Result abort()
{
boost::unit_test::framework::test_unit_aborted(
boost::unit_test::framework::current_test_case() );
throw boost::enable_current_exception( exception() );
boost::unit_test::framework::test_unit_aborted(boost::unit_test::framework::current_test_case());
throw boost::enable_current_exception(exception());
}
static void pass( const char* file, int line )
static void pass(const char* file, int line)
{
boost::unit_test::unit_test_log.set_checkpoint( file,
static_cast< std::size_t >( line ) );
boost::unit_test::unit_test_log.set_checkpoint(file, static_cast<std::size_t>(line));
}
template< typename Context >
static void fail( const char* message, const Context& context,
const char* file = "unknown location", int line = 0 )
template<typename Context>
static void fail(const char* message, const Context& context, const char* file = "unknown location", int line = 0)
{
boost::unit_test::framework::assertion_result(
#if BOOST_VERSION < 105900
# if BOOST_VERSION < 105900
false
#else
# else
boost::unit_test::AR_FAILED
#endif
# endif
);
boost::unit_test::unit_test_log
<< boost::unit_test::log::begin( file,
static_cast< std::size_t >( line ) )
<< boost::unit_test::log_all_errors
<< message << ": " << context
boost::unit_test::unit_test_log << boost::unit_test::log::begin(file, static_cast<std::size_t>(line))
<< boost::unit_test::log_all_errors << message << ": " << context
<< boost::unit_test::log::end();
}
template< typename Context >
static void call( const Context& context, const char* file, int line )
template<typename Context>
static void call(const Context& context, const char* file, int line)
{
boost::unit_test::framework::assertion_result(
#if BOOST_VERSION < 105900
# if BOOST_VERSION < 105900
true
#else
# else
boost::unit_test::AR_PASSED
#endif
# endif
);
boost::unit_test::unit_test_log
<< boost::unit_test::log::begin( file,
static_cast< std::size_t >( line ) )
boost::unit_test::unit_test_log << boost::unit_test::log::begin(file, static_cast<std::size_t>(line))
<< boost::unit_test::log_successful_tests
<< "mock expectation fulfilled: " << context
<< boost::unit_test::log::end();
<< "mock expectation fulfilled: " << context << boost::unit_test::log::end();
}
};
} // mock
};
} // namespace mock
#endif // MOCK_USE_BOOST_TEST

11
include/turtle/exception.hpp
View file

@ -11,13 +11,12 @@
#include "config.hpp"
#ifdef MOCK_USE_BOOST_TEST
#include <boost/test/execution_monitor.hpp>
# include <boost/test/execution_monitor.hpp>
namespace mock
{
struct exception : virtual boost::execution_aborted
{};
} // mock
namespace mock {
struct exception : virtual boost::execution_aborted
{};
} // namespace mock
#endif // MOCK_USE_BOOST_TEST

13
include/turtle/format.hpp
View file

@ -12,14 +12,13 @@
#include "config.hpp"
#include "detail/formatter.hpp"
namespace mock
namespace mock {
template<typename T>
detail::formatter<T> format(const T& t)
{
template< typename T >
detail::formatter< T > format( const T& t )
{
return detail::formatter< T >( t );
}
return detail::formatter<T>(t);
}
} // mock
} // namespace mock
#endif // MOCK_FORMAT_HPP_INCLUDED

281
include/turtle/log.hpp
View file

@ -10,190 +10,187 @@
#define MOCK_LOG_HPP_INCLUDED
#include "config.hpp"
#include "stream.hpp"
#include "format.hpp"
#include "stream.hpp"
#include <boost/detail/container_fwd.hpp>
#include <boost/none.hpp>
#include <memory>
#include <type_traits>
namespace boost
{
template< typename T > class shared_ptr;
template< typename T > class weak_ptr;
template< typename T > class reference_wrapper;
template< typename T > class optional;
namespace boost {
template<typename T>
class shared_ptr;
template<typename T>
class weak_ptr;
template<typename T>
class reference_wrapper;
template<typename T>
class optional;
namespace phoenix
{
template< typename T > struct actor;
namespace phoenix {
template<typename T>
struct actor;
}
namespace lambda
{
template< typename T > class lambda_functor;
}
namespace assign_detail
{
template< typename T > class generic_list;
namespace lambda {
template<typename T>
class lambda_functor;
}
namespace assign_detail {
template<typename T>
class generic_list;
}
} // namespace boost
namespace mock
{
namespace detail
{
template< typename T >
void serialize( stream& s, const T& begin, const T& end )
namespace mock {
namespace detail {
template<typename T>
void serialize(stream& s, const T& begin, const T& end)
{
s << '(';
for( T it = begin; it != end; ++it )
s << (it == begin ? "" : ",") << mock::format( *it );
for(T it = begin; it != end; ++it)
s << (it == begin ? "" : ",") << mock::format(*it);
s << ')';
}
template<typename T>
struct is_callable_impl: std::false_type
struct is_callable_impl : std::false_type
{};
template<typename R, typename... Args>
struct is_callable_impl<R(Args...)>: std::true_type
struct is_callable_impl<R(Args...)> : std::true_type
{};
template<typename T>
struct is_callable: is_callable_impl< std::remove_cv_t<T> >
struct is_callable : is_callable_impl<std::remove_cv_t<T>>
{};
} // namespace detail
template<typename T1, typename T2>
stream& operator<<(stream& s, const std::pair<T1, T2>& p)
{
return s << '(' << mock::format(p.first) << ',' << mock::format(p.second) << ')';
}
template< typename T1, typename T2 >
stream& operator<<( stream& s, const std::pair< T1, T2 >& p )
{
return s << '(' << mock::format( p.first )
<< ',' << mock::format( p.second ) << ')';
}
template< typename T, typename A >
stream& operator<<( stream& s, const std::deque< T, A >& t )
{
detail::serialize( s, t.begin(), t.end() );
template<typename T, typename A>
stream& operator<<(stream& s, const std::deque<T, A>& t)
{
detail::serialize(s, t.begin(), t.end());
return s;
}
template< typename T, typename A >
stream& operator<<( stream& s, const std::list< T, A >& t )
{
detail::serialize( s, t.begin(), t.end() );
}
template<typename T, typename A>
stream& operator<<(stream& s, const std::list<T, A>& t)
{
detail::serialize(s, t.begin(), t.end());
return s;
}
template< typename T, typename A >
stream& operator<<( stream& s, const std::vector< T, A >& t )
{
detail::serialize( s, t.begin(), t.end() );
}
template<typename T, typename A>
stream& operator<<(stream& s, const std::vector<T, A>& t)
{
detail::serialize(s, t.begin(), t.end());
return s;
}
template< typename K, typename T, typename C, typename A >
stream& operator<<( stream& s, const std::map< K, T, C, A >& t )
{
detail::serialize( s, t.begin(), t.end() );
}
template<typename K, typename T, typename C, typename A>
stream& operator<<(stream& s, const std::map<K, T, C, A>& t)
{
detail::serialize(s, t.begin(), t.end());
return s;
}
template< typename K, typename T, typename C, typename A >
stream& operator<<( stream& s, const std::multimap< K, T, C, A >& t )
{
detail::serialize( s, t.begin(), t.end() );
}
template<typename K, typename T, typename C, typename A>
stream& operator<<(stream& s, const std::multimap<K, T, C, A>& t)
{
detail::serialize(s, t.begin(), t.end());
return s;
}
template< typename T, typename C, typename A >
stream& operator<<( stream& s, const std::set< T, C, A >& t )
{
detail::serialize( s, t.begin(), t.end() );
}
template<typename T, typename C, typename A>
stream& operator<<(stream& s, const std::set<T, C, A>& t)
{
detail::serialize(s, t.begin(), t.end());
return s;
}
template< typename T, typename C, typename A >
stream& operator<<( stream& s, const std::multiset< T, C, A >& t )
{
detail::serialize( s, t.begin(), t.end() );
}
template<typename T, typename C, typename A>
stream& operator<<(stream& s, const std::multiset<T, C, A>& t)
{
detail::serialize(s, t.begin(), t.end());
return s;
}
template< typename T >
stream& operator<<( stream& s,
const boost::assign_detail::generic_list< T >& t )
{
detail::serialize( s, t.begin(), t.end() );
}
template<typename T>
stream& operator<<(stream& s, const boost::assign_detail::generic_list<T>& t)
{
detail::serialize(s, t.begin(), t.end());
return s;
}
template< typename T >
stream& operator<<( stream& s, const boost::reference_wrapper< T >& t )
{
return s << mock::format( t.get() );
}
template< typename T >
stream& operator<<( stream& s, const std::reference_wrapper< T >& t )
{
return s << mock::format( t.get() );
}
template< typename T >
stream& operator<<( stream& s, const boost::shared_ptr< T >& t )
{
return s << mock::format( t.get() );
}
template< typename T >
stream& operator<<( stream& s, const boost::weak_ptr< T >& t )
{
return s << mock::format( t.lock() );
}
inline stream& operator<<( stream& s, const boost::none_t& )
{
}
template<typename T>
stream& operator<<(stream& s, const boost::reference_wrapper<T>& t)
{
return s << mock::format(t.get());
}
template<typename T>
stream& operator<<(stream& s, const std::reference_wrapper<T>& t)
{
return s << mock::format(t.get());
}
template<typename T>
stream& operator<<(stream& s, const boost::shared_ptr<T>& t)
{
return s << mock::format(t.get());
}
template<typename T>
stream& operator<<(stream& s, const boost::weak_ptr<T>& t)
{
return s << mock::format(t.lock());
}
inline stream& operator<<(stream& s, const boost::none_t&)
{
return s << "none";
}
template< typename T >
stream& operator<<( stream& s, const boost::optional< T >& t )
{
if( t )
return s << mock::format( t.get() );
}
template<typename T>
stream& operator<<(stream& s, const boost::optional<T>& t)
{
if(t)
return s << mock::format(t.get());
return s << boost::none;
}
}
template< typename T >
stream& operator<<( stream& s, const std::shared_ptr< T >& t )
{
return s << mock::format( t.get() );
}
template< typename T >
stream& operator<<( stream& s, const std::weak_ptr< T >& t )
{
return s << mock::format( t.lock() );
}
template< typename T, typename D >
stream& operator<<( stream& s, const std::unique_ptr< T, D >& p )
{
return s << mock::format( p.get() );
}
template<typename T>
stream& operator<<(stream& s, const std::shared_ptr<T>& t)
{
return s << mock::format(t.get());
}
template<typename T>
stream& operator<<(stream& s, const std::weak_ptr<T>& t)
{
return s << mock::format(t.lock());
}
template<typename T, typename D>
stream& operator<<(stream& s, const std::unique_ptr<T, D>& p)
{
return s << mock::format(p.get());
}
template< typename T >
stream& operator<<( stream& s, const boost::lambda::lambda_functor< T >& )
{
template<typename T>
stream& operator<<(stream& s, const boost::lambda::lambda_functor<T>&)
{
return s << '?';
}
template< typename T >
stream& operator<<( stream& s, const boost::phoenix::actor< T >& )
{
}
template<typename T>
stream& operator<<(stream& s, const boost::phoenix::actor<T>&)
{
return s << '?';
}
}
inline stream& operator<<( stream& s, std::nullptr_t )
{
inline stream& operator<<(stream& s, std::nullptr_t)
{
return s << "nullptr";
}
}
template< typename T >
std::enable_if_t< detail::is_callable< T >::value, stream& >
operator<<( stream& s, T* )
{
template<typename T>
std::enable_if_t<detail::is_callable<T>::value, stream&> operator<<(stream& s, T*)
{
return s << '?';
}
template< typename T >
std::enable_if_t< !detail::is_callable< T >::value, stream& >
operator<<( stream& s, T* t )
{
}
template<typename T>
std::enable_if_t<!detail::is_callable<T>::value, stream&> operator<<(stream& s, T* t)
{
*s.s_ << t;
return s;
}
} // mock
}
} // namespace mock
#endif // MOCK_LOG_HPP_INCLUDED

114
include/turtle/matcher.hpp
View file

@ -10,95 +10,71 @@
#define MOCK_MATCHER_HPP_INCLUDED
#include "config.hpp"
#include "log.hpp"
#include "constraints.hpp"
#include "detail/is_functor.hpp"
#include "detail/move_helper.hpp"
#include "log.hpp"
#include <cstring>
#include <functional>
#include <type_traits>
namespace mock
namespace mock {
template<typename Actual, typename Expected, typename Enable = void>
class matcher
{
template< typename Actual, typename Expected, typename Enable = void >
class matcher
public:
explicit matcher(Expected expected) : expected_(expected) {}
bool operator()(std::add_lvalue_reference_t<const Actual> actual)
{
public:
explicit matcher( Expected expected )
: expected_( expected )
{}
bool operator()( std::add_lvalue_reference_t< const Actual > actual )
{
return mock::equal( mock::unwrap_ref( expected_ ) ).c_( actual );
return mock::equal(mock::unwrap_ref(expected_)).c_(actual);
}
friend std::ostream& operator<<( std::ostream& s, const matcher& m )
{
return s << mock::format( m.expected_ );
}
private:
friend std::ostream& operator<<(std::ostream& s, const matcher& m) { return s << mock::format(m.expected_); }
private:
Expected expected_;
};
};
template<>
class matcher< const char*, const char* >
{
public:
explicit matcher( const char* expected )
: expected_( expected )
{}
bool operator()( const char* actual )
{
return std::strcmp( actual, expected_ ) == 0;
}
friend std::ostream& operator<<( std::ostream& s, const matcher& m )
{
return s << mock::format( m.expected_ );
}
private:
template<>
class matcher<const char*, const char*>
{
public:
explicit matcher(const char* expected) : expected_(expected) {}
bool operator()(const char* actual) { return std::strcmp(actual, expected_) == 0; }
friend std::ostream& operator<<(std::ostream& s, const matcher& m) { return s << mock::format(m.expected_); }
private:
const char* expected_;
};
};
template< typename Actual, typename Constraint >
class matcher< Actual, mock::constraint< Constraint > >
template<typename Actual, typename Constraint>
class matcher<Actual, mock::constraint<Constraint>>
{
public:
explicit matcher(const constraint<Constraint>& c) : c_(c.c_) {}
bool operator()(typename detail::ref_arg<Actual>::type actual)
{
public:
explicit matcher( const constraint< Constraint >& c )
: c_( c.c_ )
{}
bool operator()( typename detail::ref_arg< Actual >::type actual )
{
return c_( std::forward< typename detail::ref_arg< Actual >::type >( actual ) );
return c_(std::forward<typename detail::ref_arg<Actual>::type>(actual));
}
friend std::ostream& operator<<( std::ostream& s, const matcher& m )
{
return s << mock::format( m.c_ );
}
private:
friend std::ostream& operator<<(std::ostream& s, const matcher& m) { return s << mock::format(m.c_); }
private:
Constraint c_;
};
};
template< typename Actual, typename Functor >
class matcher< Actual, Functor,
std::enable_if_t<
detail::is_functor< Functor, Actual >::value
>
>
template<typename Actual, typename Functor>
class matcher<Actual, Functor, std::enable_if_t<detail::is_functor<Functor, Actual>::value>>
{
public:
explicit matcher(const Functor& f) : c_(f) {}
bool operator()(typename detail::ref_arg<Actual>::type actual)
{
public:
explicit matcher( const Functor& f )
: c_( f )
{}
bool operator()( typename detail::ref_arg< Actual >::type actual )
{
return c_( std::forward< typename detail::ref_arg< Actual >::type >( actual ) );
return c_(std::forward<typename detail::ref_arg<Actual>::type>(actual));
}
friend std::ostream& operator<<( std::ostream& s, const matcher& m )
{
return s << mock::format( m.c_ );
}
private:
friend std::ostream& operator<<(std::ostream& s, const matcher& m) { return s << mock::format(m.c_); }
private:
Functor c_;
};
} // mock
};
} // namespace mock
#endif // MOCK_MATCHER_HPP_INCLUDED

154
include/turtle/mock.hpp
View file

@ -9,108 +9,92 @@
#ifndef MOCK_MOCK_HPP_INCLUDED
#define MOCK_MOCK_HPP_INCLUDED
#include "cleanup.hpp"
#include "config.hpp"
#include "detail/function.hpp"
#include "detail/functor.hpp"
#include "detail/parameter.hpp"
#include "detail/signature.hpp"
#include "detail/type_name.hpp"
#include "object.hpp"
#include "reset.hpp"
#include "verify.hpp"
#include "cleanup.hpp"
#include "detail/functor.hpp"
#include "detail/function.hpp"
#include "detail/type_name.hpp"
#include "detail/signature.hpp"
#include "detail/parameter.hpp"
#include <boost/preprocessor/repetition/repeat.hpp>
#include <boost/preprocessor/stringize.hpp>
/// MOCK_CLASS( name )
/// Define a class
#define MOCK_CLASS(T) \
struct T : mock::object
#define MOCK_CLASS(T) struct T : mock::object
/// MOCK_PROTECT_FUNCTION_SIG( signature )
/// Use this with MOCK_FUNCTION/MOCK_*_METHOD if the return type contains commas
#define MOCK_PROTECT_FUNCTION_SIG(...) \
mock::detail::parameter_type_t<void (__VA_ARGS__)>
#define MOCK_PROTECT_FUNCTION_SIG(...) mock::detail::parameter_type_t<void(__VA_ARGS__)>
/// Internal compatibility macro if function signature is passed via BOOST_IDENTITY_TYPE
/// TODO: Remove support for doing that and move remove_pointer_t to MOCK_PROTECT_FUNCTION_SIG
#define MOCK_FUNCTION_TYPE(...) \
std::remove_pointer_t< __VA_ARGS__ >
#define MOCK_FUNCTION_TYPE(...) std::remove_pointer_t<__VA_ARGS__>
/// MOCK_BASE_CLASS( name, base )
/// Define a class deriving from a base class
#define MOCK_BASE_CLASS(T, ...) \
struct T : __VA_ARGS__, mock::object, mock::detail::base< __VA_ARGS__ >
#define MOCK_BASE_CLASS(T, ...) struct T : __VA_ARGS__, mock::object, mock::detail::base<__VA_ARGS__>
/// MOCK_FUNCTOR( name, signature )
/// Define a callable variable/member
#define MOCK_FUNCTOR(f, ...) \
mock::detail::functor< MOCK_FUNCTION_TYPE(__VA_ARGS__) > f, f##_mock
#define MOCK_FUNCTOR(f, ...) mock::detail::functor<MOCK_FUNCTION_TYPE(__VA_ARGS__)> f, f##_mock
/// MOCK_FUNCTOR_TPL( name, signature )
#define MOCK_FUNCTOR_TPL(f, ...) static_assert(false, "MOCK_FUNCTOR_TPL has been replaced by MOCK_FUNCTOR")
#define MOCK_HELPER(t) \
t##_mock( mock::detail::root, BOOST_PP_STRINGIZE(t) )
#define MOCK_ANONYMOUS_HELPER(t) \
t##_mock( mock::detail::root, "?." )
#define MOCK_HELPER(t) t##_mock(mock::detail::root, BOOST_PP_STRINGIZE(t))
#define MOCK_ANONYMOUS_HELPER(t) t##_mock(mock::detail::root, "?.")
#define MOCK_METHOD_HELPER(S, t) \
mutable mock::detail::function< MOCK_FUNCTION_TYPE(S) > t##_mock_; \
mock::detail::function< MOCK_FUNCTION_TYPE(S) >& t##_mock( \
const mock::detail::context&, \
const boost::unit_test::const_string& instance ) const \
mutable mock::detail::function<MOCK_FUNCTION_TYPE(S)> t##_mock_; \
mock::detail::function<MOCK_FUNCTION_TYPE(S)>& t##_mock(const mock::detail::context&, \
const boost::unit_test::const_string& instance) const \
{ \
mock::detail::configure( *this, t##_mock_, \
instance.substr( 0, instance.rfind( BOOST_PP_STRINGIZE(t) ) ), \
mock::detail::configure(*this, \
t##_mock_, \
instance.substr(0, instance.rfind(BOOST_PP_STRINGIZE(t))), \
mock::detail::make_type_name(*this), \
BOOST_PP_STRINGIZE(t) ); \
BOOST_PP_STRINGIZE(t)); \
return t##_mock_; \
}
#define MOCK_PARAM(S, tpn) \
tpn mock::detail::parameter< MOCK_FUNCTION_TYPE(S)
#define MOCK_DECL_PARAM(z, n, d) \
BOOST_PP_COMMA_IF(n) d, n >::type p##n
#define MOCK_DECL_PARAMS(n, S, tpn) \
BOOST_PP_REPEAT(n, MOCK_DECL_PARAM, MOCK_PARAM(S, tpn))
#define MOCK_PARAM(S, tpn) tpn mock::detail::parameter < MOCK_FUNCTION_TYPE(S)
#define MOCK_DECL_PARAM(z, n, d) BOOST_PP_COMMA_IF(n) d, n > ::type p##n
#define MOCK_DECL_PARAMS(n, S, tpn) BOOST_PP_REPEAT(n, MOCK_DECL_PARAM, MOCK_PARAM(S, tpn))
#define MOCK_DECL(M, n, S, c, tpn) \
tpn mock::detail::result_type< \
MOCK_FUNCTION_TYPE(S) >::type M( \
MOCK_DECL_PARAMS(n, S, tpn) ) c
tpn mock::detail::result_type<MOCK_FUNCTION_TYPE(S)>::type M(MOCK_DECL_PARAMS(n, S, tpn)) c
#define MOCK_FORWARD_PARAM(z, n, d) \
BOOST_PP_COMMA_IF(n) d, n >::type >( p##n )
#define MOCK_FORWARD_PARAMS(n, S, tpn) \
BOOST_PP_REPEAT(n, MOCK_FORWARD_PARAM, \
std::forward< MOCK_PARAM(S, tpn))
#define MOCK_FORWARD_PARAM(z, n, d) BOOST_PP_COMMA_IF(n) d, n > ::type > (p##n)
#define MOCK_FORWARD_PARAMS(n, S, tpn) BOOST_PP_REPEAT(n, MOCK_FORWARD_PARAM, std::forward < MOCK_PARAM(S, tpn))
#define MOCK_METHOD_AUX(M, n, S, t, c, tpn) \
MOCK_DECL(M, n, S, c, tpn) \
{ \
static_assert( n == mock::detail::function_arity< MOCK_FUNCTION_TYPE(S) >::value, "Arity mismatch" ); \
return MOCK_ANONYMOUS_HELPER(t)( \
MOCK_FORWARD_PARAMS(n, S, tpn) ); \
static_assert(n == mock::detail::function_arity<MOCK_FUNCTION_TYPE(S)>::value, "Arity mismatch"); \
return MOCK_ANONYMOUS_HELPER(t)(MOCK_FORWARD_PARAMS(n, S, tpn)); \
}
#define MOCK_METHOD_EXT(M, n, S, t) \
MOCK_METHOD_AUX(M, n, S, t,,) \
MOCK_METHOD_AUX(M, n, S, t, const,) \
MOCK_METHOD_AUX(M, n, S, t, , ) \
MOCK_METHOD_AUX(M, n, S, t, const, ) \
MOCK_METHOD_HELPER(S, t)
#define MOCK_CONST_METHOD_EXT(M, n, S, t) \
MOCK_METHOD_AUX(M, n, S, t, const,) \
MOCK_METHOD_AUX(M, n, S, t, const, ) \
MOCK_METHOD_HELPER(S, t)
#define MOCK_NON_CONST_METHOD_EXT(M, n, S, t) \
MOCK_METHOD_AUX(M, n, S, t,,) \
MOCK_METHOD_AUX(M, n, S, t, , ) \
MOCK_METHOD_HELPER(S, t)
#define MOCK_METHOD_EXT_TPL(M, n, S, t) \
MOCK_METHOD_AUX(M, n, S, t,, typename) \
MOCK_METHOD_AUX(M, n, S, t, , typename) \
MOCK_METHOD_AUX(M, n, S, t, const, typename) \
MOCK_METHOD_HELPER(S, t)
#define MOCK_CONST_METHOD_EXT_TPL(M, n, S, t) \
MOCK_METHOD_AUX(M, n, S, t, const, typename) \
MOCK_METHOD_HELPER(S, t)
#define MOCK_NON_CONST_METHOD_EXT_TPL(M, n, S, t) \
MOCK_METHOD_AUX(M, n, S, t,, typename) \
MOCK_METHOD_AUX(M, n, S, t, , typename) \
MOCK_METHOD_HELPER(S, t)
/// MOCK_CONVERSION_OPERATOR( [calling convention] name, type, identifier )
@ -135,42 +119,43 @@
#define MOCK_NON_CONST_CONVERSION_OPERATOR_TPL(M, T, t) MOCK_NON_CONST_CONVERSION_OPERATOR(M, T, t)
#define MOCK_FUNCTION_HELPER(S, t, s, tpn) \
s mock::detail::function< MOCK_FUNCTION_TYPE(S) >& t##_mock( \
mock::detail::context& context, \
boost::unit_test::const_string instance ) \
s mock::detail::function<MOCK_FUNCTION_TYPE(S)>& t##_mock(mock::detail::context& context, \
boost::unit_test::const_string instance) \
{ \
static mock::detail::function< MOCK_FUNCTION_TYPE(S) > f; \
return f( context, instance ); \
static mock::detail::function<MOCK_FUNCTION_TYPE(S)> f; \
return f(context, instance); \
}
#define MOCK_CONSTRUCTOR_AUX(T, n, A, t, tpn) \
T( MOCK_DECL_PARAMS(n, void A, tpn) ) \
{ \
MOCK_HELPER(t)( MOCK_FORWARD_PARAMS(n, void A, tpn) ); \
} \
T(MOCK_DECL_PARAMS(n, void A, tpn)) { MOCK_HELPER(t)(MOCK_FORWARD_PARAMS(n, void A, tpn)); } \
MOCK_FUNCTION_HELPER(void A, t, static, tpn)
/// MOCK_CONSTRUCTOR( [calling convention] name, arity, parameters, identifier )
/// As constructors do not have a return type, the usual signature gets restricted here to just the parameters.
#define MOCK_CONSTRUCTOR(T, n, A, t) \
MOCK_CONSTRUCTOR_AUX(T, n, A, t,)
#define MOCK_CONSTRUCTOR(T, n, A, t) MOCK_CONSTRUCTOR_AUX(T, n, A, t, )
/// MOCK_CONSTRUCTOR( [calling convention] name, arity, parameters, identifier )
/// must be used if the signature uses a template parameter of the class
/// As constructors do not have a return type, the usual signature gets restricted here to just the parameters.
#define MOCK_CONSTRUCTOR_TPL(T, n, A, t) \
MOCK_CONSTRUCTOR_AUX(T, n, A, t, typename)
#define MOCK_CONSTRUCTOR_TPL(T, n, A, t) MOCK_CONSTRUCTOR_AUX(T, n, A, t, typename)
/// MOCK_DESTRUCTOR( [calling convention] ~name, identifier )
#define MOCK_DESTRUCTOR(T, t) \
T() { try { MOCK_ANONYMOUS_HELPER(t)(); } catch( ... ) {} } \
T() \
{ \
try \
{ \
MOCK_ANONYMOUS_HELPER(t)(); \
} catch(...) \
{} \
} \
MOCK_METHOD_HELPER(void(), t)
#define MOCK_FUNCTION_AUX(F, n, S, t, s, tpn) \
MOCK_FUNCTION_HELPER(S, t, s, tpn) \
s MOCK_DECL(F, n, S,,tpn) \
s MOCK_DECL(F, n, S, , tpn) \
{ \
static_assert( n == mock::detail::function_arity< MOCK_FUNCTION_TYPE(S) >::value, "Arity mismatch" ); \
return MOCK_HELPER(t)( MOCK_FORWARD_PARAMS(n, S, tpn) ); \
static_assert(n == mock::detail::function_arity<MOCK_FUNCTION_TYPE(S)>::value, "Arity mismatch"); \
return MOCK_HELPER(t)(MOCK_FORWARD_PARAMS(n, S, tpn)); \
}
#define MOCK_VARIADIC_ELEM_0(e0, ...) e0
@ -199,59 +184,44 @@
MOCK_VARIADIC_ELEM_1(__VA_ARGS__, MOCK_SIGNATURE(M), ), \
MOCK_VARIADIC_ELEM_2(__VA_ARGS__, M, M, ))
/// MOCK_METHOD_TPL( [calling convention] name, arity, signature[, identifier] )
/// must be used if the signature uses a template parameter of the class
/// generates both const and non-const methods
#define MOCK_METHOD_TPL(M, n, ...) \
MOCK_METHOD_EXT_TPL(M, n, \
MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), \
MOCK_VARIADIC_ELEM_1(__VA_ARGS__, M, ))
MOCK_METHOD_EXT_TPL(M, n, MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), MOCK_VARIADIC_ELEM_1(__VA_ARGS__, M, ))
/// MOCK_CONST_METHOD_TPL( [calling convention] name, arity, signature[, identifier] )
/// must be used if the signature uses a template parameter of the class
/// generates only the const version of the method
#define MOCK_CONST_METHOD_TPL(M, n, ...) \
MOCK_CONST_METHOD_EXT_TPL(M, n, \
MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), \
MOCK_VARIADIC_ELEM_1(__VA_ARGS__, M, ))
MOCK_CONST_METHOD_EXT_TPL(M, n, MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), MOCK_VARIADIC_ELEM_1(__VA_ARGS__, M, ))
/// MOCK_NON_CONST_METHOD_TPL( [calling convention] name, arity, signature[, identifier] )
/// must be used if the signature uses a template parameter of the class
/// generates only the non-const version of the method
#define MOCK_NON_CONST_METHOD_TPL(M, n, ...) \
MOCK_NON_CONST_METHOD_EXT_TPL(M, n, \
MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), \
MOCK_VARIADIC_ELEM_1(__VA_ARGS__, M, ))
MOCK_NON_CONST_METHOD_EXT_TPL(M, n, MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), MOCK_VARIADIC_ELEM_1(__VA_ARGS__, M, ))
/// MOCK_FUNCTION( [calling convention] name, arity, signature[, identifier] )
/// if 'identifier' is omitted it will default to 'name'
#define MOCK_FUNCTION(F, n, ...) \
MOCK_FUNCTION_AUX(F, n, \
MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), \
MOCK_VARIADIC_ELEM_1(__VA_ARGS__, F, ), \
inline,)
MOCK_FUNCTION_AUX(F, n, MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), MOCK_VARIADIC_ELEM_1(__VA_ARGS__, F, ), inline, )
/// MOCK_STATIC_METHOD( [calling convention] name, arity, signature[, identifier] )
/// if 'identifier' is omitted it will default to 'name'
#define MOCK_STATIC_METHOD(F, n, ...) \
MOCK_FUNCTION_AUX(F, n, \
MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), \
MOCK_VARIADIC_ELEM_1(__VA_ARGS__, F, ), \
static,)
MOCK_FUNCTION_AUX(F, n, MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), MOCK_VARIADIC_ELEM_1(__VA_ARGS__, F, ), static, )
/// MOCK_STATIC_METHOD_TPL( [calling convention] name, arity, signature[, identifier] )
/// must be used if the signature uses a template parameter of the class
/// if 'identifier' is omitted it will default to 'name'
#define MOCK_STATIC_METHOD_TPL(F, n, ...) \
MOCK_FUNCTION_AUX(F, n, \
MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), \
MOCK_VARIADIC_ELEM_1(__VA_ARGS__, F, ), \
static, typename)
MOCK_FUNCTION_AUX( \
F, n, MOCK_VARIADIC_ELEM_0(__VA_ARGS__, ), MOCK_VARIADIC_ELEM_1(__VA_ARGS__, F, ), static, typename)
/// MOCK_EXPECT( identifier )
#define MOCK_EXPECT(t) MOCK_HELPER(t).expect( __FILE__, __LINE__ )
#define MOCK_EXPECT(t) MOCK_HELPER(t).expect(__FILE__, __LINE__)
/// MOCK_RESET( identifier )
#define MOCK_RESET(t) MOCK_HELPER(t).reset( __FILE__, __LINE__ )
#define MOCK_RESET(t) MOCK_HELPER(t).reset(__FILE__, __LINE__)
/// MOCK_VERIFY( identifier )
#define MOCK_VERIFY(t) MOCK_HELPER(t).verify( __FILE__, __LINE__ )
#define MOCK_VERIFY(t) MOCK_HELPER(t).verify(__FILE__, __LINE__)
#endif // MOCK_MOCK_HPP_INCLUDED

74
include/turtle/object.hpp
View file

@ -10,61 +10,61 @@
#define MOCK_OBJECT_HPP_INCLUDED
#include "config.hpp"
#include "detail/object_impl.hpp"
#include "detail/root.hpp"
#include "detail/type_name.hpp"
#include "detail/object_impl.hpp"
#include <boost/test/utils/basic_cstring/basic_cstring.hpp>
#include <boost/optional.hpp>
#include <boost/test/utils/basic_cstring/basic_cstring.hpp>
#include <memory>
#include <type_traits>
namespace mock
{
class object;
namespace mock {
class object;
namespace detail
{
template< typename E >
E& configure( const object& o, E& e,
namespace detail {
template<typename E>
E& configure(const object& o,
E& e,
boost::unit_test::const_string instance,
boost::optional< type_name > type,
boost::unit_test::const_string name );
boost::optional<type_name> type,
boost::unit_test::const_string name);
template< typename T, typename E >
E& configure( const T& t, E& e,
template<typename T, typename E>
E& configure(const T& t,
E& e,
boost::unit_test::const_string instance,
boost::optional< type_name > type,
boost::optional<type_name> type,
boost::unit_test::const_string name,
std::enable_if_t< !std::is_base_of< object, T >::value >* = 0 )
std::enable_if_t<!std::is_base_of<object, T>::value>* = 0)
{
e.configure( detail::root, &t, instance, type, name );
e.configure(detail::root, &t, instance, type, name);
return e;
}
}
class object
{
public:
object()
: impl_( std::make_shared< detail::object_impl >() )
{}
protected:
~object() = default;
public:
std::shared_ptr< detail::object_impl > impl_;
};
namespace detail
} // namespace detail
class object
{
template< typename E >
E& configure( const object& o, E& e,
public:
object() : impl_(std::make_shared<detail::object_impl>()) {}
protected:
~object() = default;
public:
std::shared_ptr<detail::object_impl> impl_;
};
namespace detail {
template<typename E>
E& configure(const object& o,
E& e,
boost::unit_test::const_string instance,
boost::optional< type_name > type,
boost::unit_test::const_string name )
boost::optional<type_name> type,
boost::unit_test::const_string name)
{
e.configure( *o.impl_, o.impl_.get(), instance, type, name );
e.configure(*o.impl_, o.impl_.get(), instance, type, name);
return e;
}
}
} // mock
} // namespace detail
} // namespace mock
#endif // MOCK_OBJECT_HPP_INCLUDED

27
include/turtle/reset.hpp
View file

@ -10,25 +10,24 @@
#define MOCK_RESET_HPP_INCLUDED
#include "config.hpp"
#include "object.hpp"
#include "detail/root.hpp"
#include "detail/functor.hpp"
#include "detail/root.hpp"
#include "object.hpp"
namespace mock
namespace mock {
inline void reset()
{
inline void reset()
{
detail::root.reset();
}
inline void reset( const object& o )
{
}
inline void reset(const object& o)
{
o.impl_->reset();
}
template< typename Signature >
void reset( detail::functor< Signature >& f )
{
}
template<typename Signature>
void reset(detail::functor<Signature>& f)
{
f.reset();
}
} // mock
}
} // namespace mock
#endif // MOCK_RESET_HPP_INCLUDED

17
include/turtle/sequence.hpp
View file

@ -13,17 +13,14 @@
#include "detail/sequence_impl.hpp"
#include <memory>
namespace mock
namespace mock {
class sequence
{
class sequence
{
public:
sequence()
: impl_( std::make_shared< detail::sequence_impl >() )
{}
public:
sequence() : impl_(std::make_shared<detail::sequence_impl>()) {}
std::shared_ptr< detail::sequence_impl > impl_;
};
} // mock
std::shared_ptr<detail::sequence_impl> impl_;
};
} // namespace mock
#endif // MOCK_SEQUENCE_HPP_INCLUDED

100
include/turtle/stream.hpp
View file

@ -13,33 +13,24 @@
#include <memory>
#include <ostream>
namespace mock
namespace mock {
struct stream
{
struct stream
{
explicit stream( std::ostream& s )
: s_( &s )
{}
explicit stream(std::ostream& s) : s_(&s) {}
std::ostream* s_;
};
};
#ifdef MOCK_USE_CONVERSIONS
namespace detail
{
namespace conversion
{
namespace detail { namespace conversion {
struct sink
{
template< typename T >
sink( const T& )
template<typename T>
sink(const T&)
{}
};
inline std::ostream& operator<<( std::ostream& s, const sink& )
{
return s << '?';
}
inline std::ostream& operator<<(std::ostream& s, const sink&) { return s << '?'; }
struct holder
{
@ -48,16 +39,14 @@ namespace conversion
holder& operator=(const holder&) = delete;
virtual ~holder() = default;
virtual void serialize( std::ostream& s ) const = 0;
virtual void serialize(std::ostream& s) const = 0;
};
template< typename T >
template<typename T>
struct holder_imp : holder
{
explicit holder_imp( const T& t )
: t_( t )
{}
virtual void serialize( std::ostream& s ) const
explicit holder_imp(const T& t) : t_(t) {}
virtual void serialize(std::ostream& s) const
{
// if an error about an ambiguous conversion is generated by the
// line below the solution is to add a serialization operator to a
@ -69,72 +58,57 @@ namespace conversion
struct any
{
template< typename T >
any( const T& t ): h_( std::make_unique< holder_imp<T> >( t ) )
template<typename T>
any(const T& t) : h_(std::make_unique<holder_imp<T>>(t))
{}
std::unique_ptr<holder> h_;
};
}
}
}} // namespace detail::conversion
inline stream& operator<<( stream& s, const detail::conversion::any& d )
{
d.h_->serialize( *s.s_ );
inline stream& operator<<(stream& s, const detail::conversion::any& d)
{
d.h_->serialize(*s.s_);
return s;
}
}
#else // MOCK_USE_CONVERSIONS
namespace detail
{
namespace conversion
{
template< typename S, typename T >
S& operator<<( S &s, const T& )
namespace detail { namespace conversion {
template<typename S, typename T>
S& operator<<(S& s, const T&)
{
return s << '?';
}
}
}
}} // namespace detail::conversion
template< typename T >
stream& operator<<( stream& s, const T& t )
{
template<typename T>
stream& operator<<(stream& s, const T& t)
{
using namespace detail::conversion;
*s.s_ << t;
return s;
}
}
#endif // MOCK_USE_CONVERSIONS
namespace detail
{
template< typename T >
void serialize( stream& s, const T& t )
namespace detail {
template<typename T>
void serialize(stream& s, const T& t)
{
// if an error about an ambiguous conversion is generated by the
// line below the solution is to add a serialization operator to a
// mock::stream for T
s << t;
}
inline void serialize( stream& s, bool b )
{
s << (b ? "true" : "false");
}
template< typename C, typename T, typename A >
void serialize( stream& s, const std::basic_string< C, T, A >& str )
inline void serialize(stream& s, bool b) { s << (b ? "true" : "false"); }
template<typename C, typename T, typename A>
void serialize(stream& s, const std::basic_string<C, T, A>& str)
{
s << '"' << str << '"';
}
inline void serialize( stream& s, const char* const str )
{
s << '"' << str << '"';
}
inline void serialize( stream& s, unsigned char c )
{
s << static_cast< int >( c );
}
}
} // mock
inline void serialize(stream& s, const char* const str) { s << '"' << str << '"'; }
inline void serialize(stream& s, unsigned char c) { s << static_cast<int>(c); }
} // namespace detail
} // namespace mock
#endif // MOCK_STREAM_HPP_INCLUDED

37
include/turtle/unwrap_reference.hpp
View file

@ -12,31 +12,30 @@
#include <functional>
#include <type_traits>
namespace mock
namespace mock {
template<class T>
struct unwrap_reference
{
template<class T>
struct unwrap_reference
{
using type = T;
};
template<class T>
struct unwrap_reference<std::reference_wrapper<T>>
{
};
template<class T>
struct unwrap_reference<std::reference_wrapper<T>>
{
using type = T;
};
template<class T>
struct unwrap_reference<const std::reference_wrapper<T>>
{
};
template<class T>
struct unwrap_reference<const std::reference_wrapper<T>>
{
using type = T;
};
template<class T>
using unwrap_reference_t = typename unwrap_reference<T>::type;
};
template<class T>
using unwrap_reference_t = typename unwrap_reference<T>::type;
template<class T>
BOOST_FORCEINLINE unwrap_reference_t<T>& unwrap_ref( T& t ) noexcept
{
template<class T>
BOOST_FORCEINLINE unwrap_reference_t<T>& unwrap_ref(T& t) noexcept
{
return t;
}
}
} // namespace mock
#endif // MOCK_UNWRAP_REFERENCE_HPP_INCLUDED

27
include/turtle/verify.hpp
View file

@ -10,25 +10,24 @@
#define MOCK_VERIFY_HPP_INCLUDED
#include "config.hpp"
#include "object.hpp"
#include "detail/root.hpp"
#include "detail/functor.hpp"
#include "detail/root.hpp"
#include "object.hpp"
namespace mock
namespace mock {
inline bool verify()
{
inline bool verify()
{
return detail::root.verify();
}
inline bool verify( const object& o )
{
}
inline bool verify(const object& o)
{
return o.impl_->verify();
}
template< typename Signature >
bool verify( const detail::functor< Signature >& f )
{
}
template<typename Signature>
bool verify(const detail::functor<Signature>& f)
{
return f.verify();
}
} // mock
}
} // namespace mock
#endif // MOCK_VERIFY_HPP_INCLUDED

3043
test/bench_30_classes_30_methods_30_args_30_max_args.cpp
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2113
test/bench_30_classes_30_methods_9_args.cpp
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2113
test/bench_30_classes_30_methods_9_args_10_max_args.cpp
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2113
test/bench_30_classes_30_methods_9_args_20_max_args.cpp
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test/bench_30_classes_30_methods_9_args_30_max_args.cpp
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4
test/defined.hpp
View file

@ -10,11 +10,11 @@
#define MOCK_TEST_DEFINED_HPP_INCLUDED
#ifdef BOOST_AUTO_TEST_MAIN
#undef BOOST_AUTO_TEST_MAIN
# undef BOOST_AUTO_TEST_MAIN
#endif
#include <turtle/mock.hpp>
MOCK_FUNCTION( f, 0, void(), f )
MOCK_FUNCTION(f, 0, void(), f)
#endif // MOCK_TEST_DEFINED_HPP_INCLUDED

833
test/detail/test_function.cpp
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90
test/detail/test_invocation.cpp
View file

@ -9,68 +9,68 @@
#include <turtle/detail/invocation.hpp>
#include <boost/test/unit_test.hpp>
BOOST_AUTO_TEST_CASE( unlimited )
BOOST_AUTO_TEST_CASE(unlimited)
{
mock::detail::unlimited invocation;
BOOST_CHECK( invocation.verify() );
BOOST_CHECK( ! invocation.exhausted() );
BOOST_CHECK( invocation.invoke() );
BOOST_CHECK( invocation.verify() );
BOOST_CHECK( ! invocation.exhausted() );
BOOST_CHECK( invocation.invoke() );
BOOST_CHECK(invocation.verify());
BOOST_CHECK(!invocation.exhausted());
BOOST_CHECK(invocation.invoke());
BOOST_CHECK(invocation.verify());
BOOST_CHECK(!invocation.exhausted());
BOOST_CHECK(invocation.invoke());
}
BOOST_AUTO_TEST_CASE( once )
BOOST_AUTO_TEST_CASE(once)
{
mock::detail::once invocation;
BOOST_CHECK( ! invocation.verify() );
BOOST_CHECK( ! invocation.exhausted() );
BOOST_CHECK( invocation.invoke() );
BOOST_CHECK( invocation.verify() );
BOOST_CHECK( invocation.exhausted() );
BOOST_CHECK( ! invocation.invoke() );
BOOST_CHECK(!invocation.verify());
BOOST_CHECK(!invocation.exhausted());
BOOST_CHECK(invocation.invoke());
BOOST_CHECK(invocation.verify());
BOOST_CHECK(invocation.exhausted());
BOOST_CHECK(!invocation.invoke());
}
BOOST_AUTO_TEST_CASE( never )
BOOST_AUTO_TEST_CASE(never)
{
mock::detail::never invocation;
BOOST_CHECK( invocation.verify() );
BOOST_CHECK( invocation.exhausted() );
BOOST_CHECK( ! invocation.invoke() );
BOOST_CHECK(invocation.verify());
BOOST_CHECK(invocation.exhausted());
BOOST_CHECK(!invocation.invoke());
}
BOOST_AUTO_TEST_CASE( at_most )
BOOST_AUTO_TEST_CASE(at_most)
{
mock::detail::at_most invocation( 1 );
BOOST_CHECK( invocation.verify() );
BOOST_CHECK( ! invocation.exhausted() );
BOOST_CHECK( invocation.invoke() );
BOOST_CHECK( invocation.verify() );
BOOST_CHECK( invocation.exhausted() );
BOOST_CHECK( ! invocation.invoke() );
mock::detail::at_most invocation(1);
BOOST_CHECK(invocation.verify());
BOOST_CHECK(!invocation.exhausted());
BOOST_CHECK(invocation.invoke());
BOOST_CHECK(invocation.verify());
BOOST_CHECK(invocation.exhausted());
BOOST_CHECK(!invocation.invoke());
}
BOOST_AUTO_TEST_CASE( at_least )
BOOST_AUTO_TEST_CASE(at_least)
{
mock::detail::at_least invocation( 1 );
BOOST_CHECK( ! invocation.verify() );
BOOST_CHECK( ! invocation.exhausted() );
BOOST_CHECK( invocation.invoke() );
BOOST_CHECK( invocation.verify() );
BOOST_CHECK( ! invocation.exhausted() );
BOOST_CHECK( invocation.invoke() );
mock::detail::at_least invocation(1);
BOOST_CHECK(!invocation.verify());
BOOST_CHECK(!invocation.exhausted());
BOOST_CHECK(invocation.invoke());
BOOST_CHECK(invocation.verify());
BOOST_CHECK(!invocation.exhausted());
BOOST_CHECK(invocation.invoke());
}
BOOST_AUTO_TEST_CASE( between )
BOOST_AUTO_TEST_CASE(between)
{
mock::detail::between invocation( 1, 2 );
BOOST_CHECK( ! invocation.verify() );
BOOST_CHECK( ! invocation.exhausted() );
BOOST_CHECK( invocation.invoke() );
BOOST_CHECK( invocation.verify() );
BOOST_CHECK( ! invocation.exhausted() );
BOOST_CHECK( invocation.invoke() );
BOOST_CHECK( invocation.verify() );
BOOST_CHECK( invocation.exhausted() );
BOOST_CHECK( ! invocation.invoke() );
mock::detail::between invocation(1, 2);
BOOST_CHECK(!invocation.verify());
BOOST_CHECK(!invocation.exhausted());
BOOST_CHECK(invocation.invoke());
BOOST_CHECK(invocation.verify());
BOOST_CHECK(!invocation.exhausted());
BOOST_CHECK(invocation.invoke());
BOOST_CHECK(invocation.verify());
BOOST_CHECK(invocation.exhausted());
BOOST_CHECK(!invocation.invoke());
}

119
test/detail/test_is_functor.cpp
View file

@ -9,110 +9,115 @@
#include <turtle/detail/is_functor.hpp>
#include <boost/test/unit_test.hpp>
#ifdef BOOST_MSVC
#pragma warning( push, 0 )
# pragma warning(push, 0)
#endif
#include <boost/lambda/lambda.hpp>
#include <boost/phoenix/phoenix.hpp>
#ifdef BOOST_MSVC
#pragma warning( pop )
# pragma warning(pop)
#endif
#include <boost/function.hpp>
#include <boost/bind/bind.hpp>
#include <boost/bind/placeholders.hpp>
#include <boost/function.hpp>
#include <boost/version.hpp>
#include <functional>
namespace
namespace {
struct declared_but_not_defined;
static_assert(!mock::detail::is_functor<declared_but_not_defined, int>::value, "Should not be a functor");
template<typename T>
void is_functor(T)
{
struct declared_but_not_defined;
static_assert( !mock::detail::is_functor< declared_but_not_defined, int >::value, "Should not be a functor" );
template< typename T >
void is_functor( T )
{
static_assert( mock::detail::is_functor< T, int >::value, "Should be a functor taking an int");
}
template< typename T >
void is_not_functor( T )
{
static_assert( !mock::detail::is_functor< T, int >::value, "Should not be a functor taking an int" );
}
void f0() {}
bool f1( int ) { return false; }
bool f2( std::string, int ) { return false; }
static_assert(mock::detail::is_functor<T, int>::value, "Should be a functor taking an int");
}
template<typename T>
void is_not_functor(T)
{
static_assert(!mock::detail::is_functor<T, int>::value, "Should not be a functor taking an int");
}
BOOST_AUTO_TEST_CASE( data_is_not_functor )
void f0() {}
bool f1(int)
{
is_not_functor( 42 );
return false;
}
bool f2(std::string, int)
{
return false;
}
} // namespace
BOOST_AUTO_TEST_CASE(data_is_not_functor)
{
is_not_functor(42);
}
BOOST_AUTO_TEST_CASE( function_is_functor )
BOOST_AUTO_TEST_CASE(function_is_functor)
{
is_not_functor( f0 );
is_functor( f1 );
is_not_functor( f2 );
is_not_functor(f0);
is_functor(f1);
is_not_functor(f2);
}
BOOST_AUTO_TEST_CASE( function_pointer_is_functor )
BOOST_AUTO_TEST_CASE(function_pointer_is_functor)
{
is_not_functor( &f0 );
is_functor( &f1 );
is_not_functor( &f2 );
is_not_functor(&f0);
is_functor(&f1);
is_not_functor(&f2);
}
BOOST_AUTO_TEST_CASE( std_ptr_fun_is_functor )
BOOST_AUTO_TEST_CASE(std_ptr_fun_is_functor)
{
is_functor( std::ptr_fun( &f1 ) );
is_not_functor( std::ptr_fun( &f2 ) );
is_functor(std::ptr_fun(&f1));
is_not_functor(std::ptr_fun(&f2));
}
BOOST_AUTO_TEST_CASE( std_bind_first_is_functor )
BOOST_AUTO_TEST_CASE(std_bind_first_is_functor)
{
is_functor( std::bind1st( std::ptr_fun( &f2 ), "" ) );
is_functor(std::bind1st(std::ptr_fun(&f2), ""));
}
BOOST_AUTO_TEST_CASE( bind_is_functor )
BOOST_AUTO_TEST_CASE(bind_is_functor)
{
{
#if BOOST_VERSION >= 106000
using namespace boost::placeholders;
#endif
is_functor( boost::bind( &f0 ) );
is_functor( boost::bind( &f1, _1 ) );
is_functor( boost::bind( &f2, "", _1 ) );
is_functor(boost::bind(&f0));
is_functor(boost::bind(&f1, _1));
is_functor(boost::bind(&f2, "", _1));
}
is_functor( std::bind( &f0 ) );
is_functor( std::bind( &f1, std::placeholders::_1 ) );
is_functor( std::bind( &f2, "", std::placeholders::_1 ) );
is_functor(std::bind(&f0));
is_functor(std::bind(&f1, std::placeholders::_1));
is_functor(std::bind(&f2, "", std::placeholders::_1));
}
BOOST_AUTO_TEST_CASE( boost_lambda_is_functor )
BOOST_AUTO_TEST_CASE(boost_lambda_is_functor)
{
is_functor( boost::lambda::_1 < 42 );
is_functor(boost::lambda::_1 < 42);
}
BOOST_AUTO_TEST_CASE( boost_phoenix_is_functor )
BOOST_AUTO_TEST_CASE(boost_phoenix_is_functor)
{
is_functor( boost::phoenix::arg_names::arg1 < 42 );
is_functor( boost::phoenix::arg_names::_1 < 42 );
is_functor(boost::phoenix::arg_names::arg1 < 42);
is_functor(boost::phoenix::arg_names::_1 < 42);
}
BOOST_AUTO_TEST_CASE( boost_function_is_functor )
BOOST_AUTO_TEST_CASE(boost_function_is_functor)
{
is_functor( boost::function< void(int) >() );
is_functor(boost::function<void(int)>());
}
BOOST_AUTO_TEST_CASE( std_function_is_functor )
BOOST_AUTO_TEST_CASE(std_function_is_functor)
{
is_functor( std::function< void(int) >() );
is_functor(std::function<void(int)>());
}
BOOST_AUTO_TEST_CASE( cxx11_lambda_is_functor )
BOOST_AUTO_TEST_CASE(cxx11_lambda_is_functor)
{
is_not_functor( []() {} );
is_functor( []( int ) {} );
is_not_functor( []( const std::string&, int ) {} );
is_not_functor( []( int, const std::string& ) {} );
is_not_functor([]() {});
is_functor([](int) {});
is_not_functor([](const std::string&, int) {});
is_not_functor([](int, const std::string&) {});
}

19
test/detail/test_signature.cpp
View file

@ -10,18 +10,17 @@
#include <boost/test/unit_test.hpp>
#include <type_traits>
namespace
namespace {
struct base
{
struct base
{
void method_1();
float method_2( int ) const;
};
typedef base base_type;
}
float method_2(int) const;
};
typedef base base_type;
} // namespace
BOOST_AUTO_TEST_CASE( mock_signature_generates_signature )
BOOST_AUTO_TEST_CASE(mock_signature_generates_signature)
{
static_assert( std::is_same< void(), MOCK_SIGNATURE(method_1) >::value, "!");
static_assert( std::is_same< float( int ), MOCK_SIGNATURE(method_2) >::value, "!");
static_assert(std::is_same<void(), MOCK_SIGNATURE(method_1)>::value, "!");
static_assert(std::is_same<float(int), MOCK_SIGNATURE(method_2)>::value, "!");
}

348
test/detail/test_type_name.cpp
View file

@ -10,218 +10,216 @@
#include <boost/test/unit_test.hpp>
#include <sstream>
namespace
namespace {
template<typename T>
std::string to_string(const T& t)
{
template< typename T >
std::string to_string( const T& t)
{
std::ostringstream s;
s << mock::detail::make_type_name(t);
return s.str();
}
}
} // namespace
BOOST_AUTO_TEST_CASE( name_of_base_type_is_extracted )
BOOST_AUTO_TEST_CASE(name_of_base_type_is_extracted)
{
BOOST_CHECK_EQUAL( "char", to_string( 'a' ) );
BOOST_CHECK_EQUAL( "bool", to_string( true ) );
BOOST_CHECK_EQUAL( "int", to_string< int >( 0 ) );
BOOST_CHECK_EQUAL( "short", to_string< short >( 0 ) );
BOOST_CHECK_EQUAL( "long", to_string< long >( 0 ) );
BOOST_CHECK_EQUAL( "unsigned int", to_string< unsigned int >( 0 ) );
BOOST_CHECK_EQUAL( "unsigned short", to_string< unsigned short >( 0 ) );
BOOST_CHECK_EQUAL( "unsigned long", to_string< unsigned long >( 0 ) );
BOOST_CHECK_EQUAL("char", to_string('a'));
BOOST_CHECK_EQUAL("bool", to_string(true));
BOOST_CHECK_EQUAL("int", to_string<int>(0));
BOOST_CHECK_EQUAL("short", to_string<short>(0));
BOOST_CHECK_EQUAL("long", to_string<long>(0));
BOOST_CHECK_EQUAL("unsigned int", to_string<unsigned int>(0));
BOOST_CHECK_EQUAL("unsigned short", to_string<unsigned short>(0));
BOOST_CHECK_EQUAL("unsigned long", to_string<unsigned long>(0));
}
struct my_type_in_default_namespace
{
struct inner {};
struct inner
{};
};
BOOST_AUTO_TEST_CASE( name_of_type_in_default_namespace_is_extracted )
BOOST_AUTO_TEST_CASE(name_of_type_in_default_namespace_is_extracted)
{
BOOST_CHECK_EQUAL( "my_type_in_default_namespace", to_string( my_type_in_default_namespace() ) );
BOOST_CHECK_EQUAL("my_type_in_default_namespace", to_string(my_type_in_default_namespace()));
}
BOOST_AUTO_TEST_CASE( name_of_inner_type_from_type_in_default_namespace_is_extracted )
BOOST_AUTO_TEST_CASE(name_of_inner_type_from_type_in_default_namespace_is_extracted)
{
BOOST_CHECK_EQUAL( "inner", to_string( my_type_in_default_namespace::inner() ) );
BOOST_CHECK_EQUAL("inner", to_string(my_type_in_default_namespace::inner()));
}
template< typename T >
template<typename T>
struct my_template_type_in_default_namespace
{
struct inner {};
struct inner
{};
};
BOOST_AUTO_TEST_CASE( name_of_template_type_in_default_namespace_is_extracted )
BOOST_AUTO_TEST_CASE(name_of_template_type_in_default_namespace_is_extracted)
{
BOOST_CHECK_EQUAL( "my_template_type_in_default_namespace<int>", to_string( my_template_type_in_default_namespace<int>() ) );
BOOST_CHECK_EQUAL("my_template_type_in_default_namespace<int>",
to_string(my_template_type_in_default_namespace<int>()));
}
BOOST_AUTO_TEST_CASE( name_of_inner_type_from_template_type_in_default_namespace_is_extracted )
BOOST_AUTO_TEST_CASE(name_of_inner_type_from_template_type_in_default_namespace_is_extracted)
{
BOOST_CHECK_EQUAL( "inner", to_string( my_template_type_in_default_namespace<int>::inner() ) );
BOOST_CHECK_EQUAL("inner", to_string(my_template_type_in_default_namespace<int>::inner()));
}
namespace
namespace {
struct my_type_in_anonymous_namespace
{};
} // namespace
BOOST_AUTO_TEST_CASE(name_of_type_in_anonymous_namespace_is_extracted)
{
struct my_type_in_anonymous_namespace {};
BOOST_CHECK_EQUAL("my_type_in_anonymous_namespace", to_string(my_type_in_anonymous_namespace()));
}
BOOST_AUTO_TEST_CASE( name_of_type_in_anonymous_namespace_is_extracted )
namespace nm {
struct my_type_from_named_namespace
{};
} // namespace nm
BOOST_AUTO_TEST_CASE(name_of_type_from_named_namespace_is_extracted)
{
BOOST_CHECK_EQUAL( "my_type_in_anonymous_namespace", to_string( my_type_in_anonymous_namespace() ) );
BOOST_CHECK_EQUAL("my_type_from_named_namespace", to_string(nm::my_type_from_named_namespace()));
}
namespace nm
{
struct my_type_from_named_namespace {};
}
BOOST_AUTO_TEST_CASE( name_of_type_from_named_namespace_is_extracted )
{
BOOST_CHECK_EQUAL( "my_type_from_named_namespace", to_string( nm::my_type_from_named_namespace() ) );
}
namespace nm
{
namespace inner
{
struct my_type_in_named_inner_namespace {};
}
}
BOOST_AUTO_TEST_CASE( name_of_type_in_named_inner_namespace_is_extracted )
{
BOOST_CHECK_EQUAL( "my_type_in_named_inner_namespace", to_string( nm::inner::my_type_in_named_inner_namespace() ) );
}
namespace
{
namespace inner
{
struct my_type_in_unnamed_inner_namespace {};
}
}
BOOST_AUTO_TEST_CASE( name_of_type_in_unnamed_inner_namespace_is_extracted )
{
BOOST_CHECK_EQUAL( "my_type_in_unnamed_inner_namespace", to_string( inner::my_type_in_unnamed_inner_namespace() ) );
}
BOOST_AUTO_TEST_CASE( name_of_local_type_is_extracted )
{
struct my_local_type {};
BOOST_CHECK_EQUAL( "my_local_type", to_string( my_local_type() ) );
}
namespace
{
template< typename T >
struct my_template_type
{
struct inner {};
};
}
BOOST_AUTO_TEST_CASE( name_of_template_type_in_anonymous_namespace_is_extracted )
{
BOOST_CHECK_EQUAL( "my_template_type<int>", to_string( my_template_type< int >() ) );
BOOST_CHECK_EQUAL( "my_template_type<exception>", to_string( my_template_type< std::exception >() ) );
BOOST_CHECK_EQUAL( "my_template_type<int const&>", to_string( my_template_type< int const& >() ) );
BOOST_CHECK_EQUAL( "my_template_type<exception const&>", to_string( my_template_type< std::exception const& >() ) );
BOOST_CHECK_EQUAL( "my_template_type<int const*>", to_string( my_template_type< int const* >() ) );
BOOST_CHECK_EQUAL( "my_template_type<exception const*>", to_string( my_template_type< std::exception const* >() ) );
BOOST_CHECK_EQUAL( "my_template_type<int const*&>", to_string( my_template_type< int const*& >() ) );
BOOST_CHECK_EQUAL( "my_template_type<exception const*&>", to_string( my_template_type< std::exception const*& >() ) );
}
BOOST_AUTO_TEST_CASE( name_of_inner_type_from_template_type_in_anonymous_namespace_is_extracted )
{
BOOST_CHECK_EQUAL( "inner", to_string( my_template_type< int >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( my_template_type< std::exception >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( my_template_type< int const& >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( my_template_type< std::exception const& >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( my_template_type< int const* >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( my_template_type< std::exception const* >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( my_template_type< int const*& >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( my_template_type< std::exception const*& >::inner() ) );
}
namespace nm
{
template< typename T >
struct my_template_type
{
struct inner {};
};
}
BOOST_AUTO_TEST_CASE( name_of_template_type_in_named_namespace_is_extracted )
{
BOOST_CHECK_EQUAL( "my_template_type<int>", to_string( nm::my_template_type< int >() ) );
BOOST_CHECK_EQUAL( "my_template_type<exception>", to_string( nm::my_template_type< std::exception >() ) );
BOOST_CHECK_EQUAL( "my_template_type<int const&>", to_string( nm::my_template_type< int const& >() ) );
BOOST_CHECK_EQUAL( "my_template_type<exception const&>", to_string( nm::my_template_type< std::exception const& >() ) );
BOOST_CHECK_EQUAL( "my_template_type<int const*>", to_string( nm::my_template_type< int const* >() ) );
BOOST_CHECK_EQUAL( "my_template_type<exception const*>", to_string( nm::my_template_type< std::exception const* >() ) );
BOOST_CHECK_EQUAL( "my_template_type<int const*&>", to_string( nm::my_template_type< int const*& >() ) );
BOOST_CHECK_EQUAL( "my_template_type<exception const*&>", to_string( nm::my_template_type< std::exception const*& >() ) );
}
BOOST_AUTO_TEST_CASE( name_of_inner_type_from_template_type_in_named_namespace_is_extracted )
{
BOOST_CHECK_EQUAL( "inner", to_string( nm::my_template_type< int >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( nm::my_template_type< std::exception >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( nm::my_template_type< int const& >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( nm::my_template_type< std::exception const& >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( nm::my_template_type< int const* >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( nm::my_template_type< std::exception const* >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( nm::my_template_type< int const*& >::inner() ) );
BOOST_CHECK_EQUAL( "inner", to_string( nm::my_template_type< std::exception const*& >::inner() ) );
}
namespace nm2
{
template< typename T >
struct my_template_type
{
template< typename U >
struct inner {};
};
}
BOOST_AUTO_TEST_CASE( name_of_template_inner_type_from_template_type_in_named_namespace_is_extracted )
{
BOOST_CHECK_EQUAL( "inner<int>", to_string( nm2::my_template_type< int >::inner< int >() ) );
BOOST_CHECK_EQUAL( "inner<int>", to_string( nm2::my_template_type< std::exception >::inner< int >() ) );
BOOST_CHECK_EQUAL( "inner<int>", to_string( nm2::my_template_type< int const& >::inner< int >() ) );
BOOST_CHECK_EQUAL( "inner<int>", to_string( nm2::my_template_type< std::exception const& >::inner< int >() ) );
BOOST_CHECK_EQUAL( "inner<int>", to_string( nm2::my_template_type< int const* >::inner< int >() ) );
BOOST_CHECK_EQUAL( "inner<int>", to_string( nm2::my_template_type< std::exception const* >::inner< int >() ) );
BOOST_CHECK_EQUAL( "inner<int>", to_string( nm2::my_template_type< int const*& >::inner< int >() ) );
BOOST_CHECK_EQUAL( "inner<int>", to_string( nm2::my_template_type< std::exception const*& >::inner< int >() ) );
BOOST_CHECK_EQUAL( "inner<int const&>", to_string( nm2::my_template_type< int >::inner< int const& >() ) );
BOOST_CHECK_EQUAL( "inner<int const&>", to_string( nm2::my_template_type< std::exception >::inner< int const& >() ) );
BOOST_CHECK_EQUAL( "inner<int const*>", to_string( nm2::my_template_type< int >::inner< int const* >() ) );
BOOST_CHECK_EQUAL( "inner<int const*>", to_string( nm2::my_template_type< std::exception >::inner< int const* >() ) );
BOOST_CHECK_EQUAL( "inner<int const*&>", to_string( nm2::my_template_type< int >::inner< int const*& >() ) );
BOOST_CHECK_EQUAL( "inner<int const*&>", to_string( nm2::my_template_type< std::exception >::inner< int const*& >() ) );
}
namespace
{
template< typename T1, typename T2, typename T3 >
struct my_tpl
namespace nm { namespace inner {
struct my_type_in_named_inner_namespace
{};
}} // namespace nm::inner
BOOST_AUTO_TEST_CASE(name_of_type_in_named_inner_namespace_is_extracted)
{
BOOST_CHECK_EQUAL("my_type_in_named_inner_namespace", to_string(nm::inner::my_type_in_named_inner_namespace()));
}
BOOST_AUTO_TEST_CASE( name_of_nested_template_with_multiple_arguments_is_extracted )
namespace { namespace inner {
struct my_type_in_unnamed_inner_namespace
{};
}} // namespace ::inner
BOOST_AUTO_TEST_CASE(name_of_type_in_unnamed_inner_namespace_is_extracted)
{
BOOST_CHECK_EQUAL( "vector<int, allocator<int>>", to_string( std::vector< int >() ) );
BOOST_CHECK_EQUAL( "vector<vector<int, allocator<int>>, allocator<vector<int, allocator<int>>>>", to_string( std::vector< std::vector< int > >() ) );
BOOST_CHECK_EQUAL( "my_tpl<my_tpl<int, int, int>, my_tpl<int, int, int>, my_tpl<int, int, int>>", to_string( my_tpl< my_tpl< int, int, int >, my_tpl< int, int, int >, my_tpl< int, int, int > >() ) );
BOOST_CHECK_EQUAL("my_type_in_unnamed_inner_namespace", to_string(inner::my_type_in_unnamed_inner_namespace()));
}
BOOST_AUTO_TEST_CASE(name_of_local_type_is_extracted)
{
struct my_local_type
{};
BOOST_CHECK_EQUAL("my_local_type", to_string(my_local_type()));
}
namespace {
template<typename T>
struct my_template_type
{
struct inner
{};
};
} // namespace
BOOST_AUTO_TEST_CASE(name_of_template_type_in_anonymous_namespace_is_extracted)
{
BOOST_CHECK_EQUAL("my_template_type<int>", to_string(my_template_type<int>()));
BOOST_CHECK_EQUAL("my_template_type<exception>", to_string(my_template_type<std::exception>()));
BOOST_CHECK_EQUAL("my_template_type<int const&>", to_string(my_template_type<int const&>()));
BOOST_CHECK_EQUAL("my_template_type<exception const&>", to_string(my_template_type<std::exception const&>()));
BOOST_CHECK_EQUAL("my_template_type<int const*>", to_string(my_template_type<int const*>()));
BOOST_CHECK_EQUAL("my_template_type<exception const*>", to_string(my_template_type<std::exception const*>()));
BOOST_CHECK_EQUAL("my_template_type<int const*&>", to_string(my_template_type<int const*&>()));
BOOST_CHECK_EQUAL("my_template_type<exception const*&>", to_string(my_template_type<std::exception const*&>()));
}
BOOST_AUTO_TEST_CASE(name_of_inner_type_from_template_type_in_anonymous_namespace_is_extracted)
{
BOOST_CHECK_EQUAL("inner", to_string(my_template_type<int>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(my_template_type<std::exception>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(my_template_type<int const&>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(my_template_type<std::exception const&>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(my_template_type<int const*>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(my_template_type<std::exception const*>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(my_template_type<int const*&>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(my_template_type<std::exception const*&>::inner()));
}
namespace nm {
template<typename T>
struct my_template_type
{
struct inner
{};
};
} // namespace nm
BOOST_AUTO_TEST_CASE(name_of_template_type_in_named_namespace_is_extracted)
{
BOOST_CHECK_EQUAL("my_template_type<int>", to_string(nm::my_template_type<int>()));
BOOST_CHECK_EQUAL("my_template_type<exception>", to_string(nm::my_template_type<std::exception>()));
BOOST_CHECK_EQUAL("my_template_type<int const&>", to_string(nm::my_template_type<int const&>()));
BOOST_CHECK_EQUAL("my_template_type<exception const&>", to_string(nm::my_template_type<std::exception const&>()));
BOOST_CHECK_EQUAL("my_template_type<int const*>", to_string(nm::my_template_type<int const*>()));
BOOST_CHECK_EQUAL("my_template_type<exception const*>", to_string(nm::my_template_type<std::exception const*>()));
BOOST_CHECK_EQUAL("my_template_type<int const*&>", to_string(nm::my_template_type<int const*&>()));
BOOST_CHECK_EQUAL("my_template_type<exception const*&>", to_string(nm::my_template_type<std::exception const*&>()));
}
BOOST_AUTO_TEST_CASE(name_of_inner_type_from_template_type_in_named_namespace_is_extracted)
{
BOOST_CHECK_EQUAL("inner", to_string(nm::my_template_type<int>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(nm::my_template_type<std::exception>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(nm::my_template_type<int const&>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(nm::my_template_type<std::exception const&>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(nm::my_template_type<int const*>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(nm::my_template_type<std::exception const*>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(nm::my_template_type<int const*&>::inner()));
BOOST_CHECK_EQUAL("inner", to_string(nm::my_template_type<std::exception const*&>::inner()));
}
namespace nm2 {
template<typename T>
struct my_template_type
{
template<typename U>
struct inner
{};
};
} // namespace nm2
BOOST_AUTO_TEST_CASE(name_of_template_inner_type_from_template_type_in_named_namespace_is_extracted)
{
BOOST_CHECK_EQUAL("inner<int>", to_string(nm2::my_template_type<int>::inner<int>()));
BOOST_CHECK_EQUAL("inner<int>", to_string(nm2::my_template_type<std::exception>::inner<int>()));
BOOST_CHECK_EQUAL("inner<int>", to_string(nm2::my_template_type<int const&>::inner<int>()));
BOOST_CHECK_EQUAL("inner<int>", to_string(nm2::my_template_type<std::exception const&>::inner<int>()));
BOOST_CHECK_EQUAL("inner<int>", to_string(nm2::my_template_type<int const*>::inner<int>()));
BOOST_CHECK_EQUAL("inner<int>", to_string(nm2::my_template_type<std::exception const*>::inner<int>()));
BOOST_CHECK_EQUAL("inner<int>", to_string(nm2::my_template_type<int const*&>::inner<int>()));
BOOST_CHECK_EQUAL("inner<int>", to_string(nm2::my_template_type<std::exception const*&>::inner<int>()));
BOOST_CHECK_EQUAL("inner<int const&>", to_string(nm2::my_template_type<int>::inner<int const&>()));
BOOST_CHECK_EQUAL("inner<int const&>", to_string(nm2::my_template_type<std::exception>::inner<int const&>()));
BOOST_CHECK_EQUAL("inner<int const*>", to_string(nm2::my_template_type<int>::inner<int const*>()));
BOOST_CHECK_EQUAL("inner<int const*>", to_string(nm2::my_template_type<std::exception>::inner<int const*>()));
BOOST_CHECK_EQUAL("inner<int const*&>", to_string(nm2::my_template_type<int>::inner<int const*&>()));
BOOST_CHECK_EQUAL("inner<int const*&>", to_string(nm2::my_template_type<std::exception>::inner<int const*&>()));
}
namespace {
template<typename T1, typename T2, typename T3>
struct my_tpl
{};
} // namespace
BOOST_AUTO_TEST_CASE(name_of_nested_template_with_multiple_arguments_is_extracted)
{
BOOST_CHECK_EQUAL("vector<int, allocator<int>>", to_string(std::vector<int>()));
BOOST_CHECK_EQUAL("vector<vector<int, allocator<int>>, allocator<vector<int, allocator<int>>>>",
to_string(std::vector<std::vector<int>>()));
BOOST_CHECK_EQUAL("my_tpl<my_tpl<int, int, int>, my_tpl<int, int, int>, my_tpl<int, int, int>>",
to_string(my_tpl<my_tpl<int, int, int>, my_tpl<int, int, int>, my_tpl<int, int, int>>()));
}

19
test/fail_ambiguous_mock_method.cpp
View file

@ -8,17 +8,16 @@
#include <turtle/mock.hpp>
namespace
namespace {
struct my_base
{
struct my_base
{
virtual ~my_base() = default;
virtual void my_method() = 0;
virtual void my_method( int ) = 0;
};
virtual void my_method(int) = 0;
};
MOCK_BASE_CLASS( my_class, my_base )
{
MOCK_METHOD( my_method, 0 )
};
}
MOCK_BASE_CLASS(my_class, my_base)
{
MOCK_METHOD(my_method, 0)
};
} // namespace

5
test/fail_constraint_functor_not_compatible.cpp
View file

@ -12,7 +12,10 @@ MOCK_CLASS(my_class)
{
MOCK_METHOD_EXT(my_method, 1, void(int), my_method)
};
bool constraint(int, int) { return true; }
bool constraint(int, int)
{
return true;
}
void test_case()
{

6
test/fail_constraint_value_not_comparable.cpp
View file

@ -8,12 +8,12 @@
#include <turtle/mock.hpp>
MOCK_CLASS( my_class )
MOCK_CLASS(my_class)
{
MOCK_METHOD_EXT( my_method, 1, void( int ), my_method )
MOCK_METHOD_EXT(my_method, 1, void(int), my_method)
};
void test_case()
{
my_class c;
MOCK_EXPECT( c.my_method ).with( "42" );
MOCK_EXPECT(c.my_method).with("42");
}

6
test/fail_constraint_value_of_wrong_type_in_builtin_constraint.cpp
View file

@ -8,12 +8,12 @@
#include <turtle/mock.hpp>
MOCK_CLASS( my_class )
MOCK_CLASS(my_class)
{
MOCK_METHOD_EXT( my_method, 1, void( int ), my_method )
MOCK_METHOD_EXT(my_method, 1, void(int), my_method)
};
void test_case()
{
my_class c;
MOCK_EXPECT( c.my_method ).with( mock::equal( "42" ) );
MOCK_EXPECT(c.my_method).with(mock::equal("42"));
}

6
test/fail_mismatch_type_in_returns_int_action.cpp
View file

@ -8,12 +8,12 @@
#include <turtle/mock.hpp>
MOCK_CLASS( my_class )
MOCK_CLASS(my_class)
{
MOCK_METHOD_EXT( my_method, 0, int(), my_method )
MOCK_METHOD_EXT(my_method, 0, int(), my_method)
};
void test_case()
{
my_class c;
MOCK_EXPECT( c.my_method ).returns( std::string() );
MOCK_EXPECT(c.my_method).returns(std::string());
}

6
test/fail_mismatch_type_in_returns_string_action.cpp
View file

@ -8,12 +8,12 @@
#include <turtle/mock.hpp>
MOCK_CLASS( my_class )
MOCK_CLASS(my_class)
{
MOCK_METHOD_EXT( my_method, 0, std::string(), my_method )
MOCK_METHOD_EXT(my_method, 0, std::string(), my_method)
};
void test_case()
{
my_class c;
MOCK_EXPECT( c.my_method ).returns( 42 );
MOCK_EXPECT(c.my_method).returns(42);
}

6
test/fail_mismatch_type_in_returns_void_action.cpp
View file

@ -8,12 +8,12 @@
#include <turtle/mock.hpp>
MOCK_CLASS( my_class )
MOCK_CLASS(my_class)
{
MOCK_METHOD_EXT( my_method, 0, void(), my_method )
MOCK_METHOD_EXT(my_method, 0, void(), my_method)
};
void test_case()
{
my_class c;
MOCK_EXPECT( c.my_method ).returns( "42" );
MOCK_EXPECT(c.my_method).returns("42");
}

17
test/fail_non_existing_base_class_method_in_mock_method.cpp
View file

@ -8,15 +8,14 @@
#include <turtle/mock.hpp>
namespace
namespace {
struct my_base
{
struct my_base
{
virtual ~my_base() = default;
};
};
MOCK_BASE_CLASS( my_class, my_base )
{
MOCK_METHOD( my_method, 0 )
};
}
MOCK_BASE_CLASS(my_class, my_base)
{
MOCK_METHOD(my_method, 0)
};
} // namespace

21
test/fail_number_of_arguments_greater_than_max_constant.cpp
View file

@ -8,18 +8,17 @@
#include <turtle/mock.hpp>
BOOST_STATIC_ASSERT( MOCK_MAX_ARGS == 9 );
BOOST_STATIC_ASSERT(MOCK_MAX_ARGS == 9);
namespace
namespace {
struct my_base
{
struct my_base
{
virtual ~my_base() = default;
virtual void my_method( int, int, int, int, int, int, int, int, int, int ) = 0;
};
virtual void my_method(int, int, int, int, int, int, int, int, int, int) = 0;
};
MOCK_BASE_CLASS( my_class, my_base )
{
MOCK_METHOD( my_method, 10 )
};
}
MOCK_BASE_CLASS(my_class, my_base)
{
MOCK_METHOD(my_method, 10)
};
} // namespace

19
test/fail_too_many_arguments_in_mock_method.cpp
View file

@ -8,16 +8,15 @@
#include <turtle/mock.hpp>
namespace
namespace {
struct my_base
{
struct my_base
{
virtual ~my_base() = default;
virtual void my_method( int ) = 0;
};
virtual void my_method(int) = 0;
};
MOCK_BASE_CLASS( my_class, my_base )
{
MOCK_METHOD( my_method, 2 )
};
}
MOCK_BASE_CLASS(my_class, my_base)
{
MOCK_METHOD(my_method, 2)
};
} // namespace

6
test/fail_wrong_number_of_arguments_in_with.cpp
View file

@ -8,12 +8,12 @@
#include <turtle/mock.hpp>
MOCK_CLASS( my_class )
MOCK_CLASS(my_class)
{
MOCK_METHOD_EXT( my_method, 1, void( int ), my_method )
MOCK_METHOD_EXT(my_method, 1, void(int), my_method)
};
void test_case()
{
my_class c;
MOCK_EXPECT( c.my_method ).with( 42, 42 );
MOCK_EXPECT(c.my_method).with(42, 42);
}

68
test/mock_error.hpp
View file

@ -12,10 +12,10 @@
#define MOCK_ERROR_POLICY mock_error
#include <turtle/detail/singleton.hpp>
#include <boost/test/unit_test.hpp>
#include <stdexcept>
#include <sstream>
#include <stdexcept>
struct mock_error_data_t : mock::detail::singleton< mock_error_data_t >
struct mock_error_data_t : mock::detail::singleton<mock_error_data_t>
{
void reset()
{
@ -24,10 +24,7 @@ struct mock_error_data_t : mock::detail::singleton< mock_error_data_t >
last_message.clear();
last_context.clear();
}
bool verify()
{
return error_count == 0;
}
bool verify() { return error_count == 0; }
void call()
{
@ -35,9 +32,7 @@ struct mock_error_data_t : mock::detail::singleton< mock_error_data_t >
last_message.clear();
++call_count;
}
void fail( const std::string& message,
const std::string& context,
const char* file, int line )
void fail(const std::string& message, const std::string& context, const char* file, int line)
{
last_context = context;
last_message = message;
@ -52,59 +47,56 @@ struct mock_error_data_t : mock::detail::singleton< mock_error_data_t >
std::string last_context;
std::string last_file;
int last_line;
MOCK_SINGLETON_CONS( mock_error_data_t );
MOCK_SINGLETON_CONS(mock_error_data_t);
};
MOCK_SINGLETON_INST( mock_error_data )
MOCK_SINGLETON_INST(mock_error_data)
template< typename Result >
template<typename Result>
struct mock_error
{
static Result abort()
{
throw std::runtime_error( "aborted" );
}
static Result abort() { throw std::runtime_error("aborted"); }
static void pass( const char* /*file*/, int /*line*/ )
{}
static void pass(const char* /*file*/, int /*line*/) {}
template< typename Context >
static void call( const Context& /*context*/, const char* /*file*/, int /*line*/ )
template<typename Context>
static void call(const Context& /*context*/, const char* /*file*/, int /*line*/)
{
mock_error_data.call();
}
template< typename Context >
static void fail( const std::string& message, const Context& context, const char* file = "", int line = 0 )
template<typename Context>
static void fail(const std::string& message, const Context& context, const char* file = "", int line = 0)
{
std::ostringstream s;
s << context; // Context can be streamed
mock_error_data.fail( message, s.str(), file, line );
mock_error_data.fail(message, s.str(), file, line);
}
};
struct mock_error_fixture
{
mock_error_fixture()
{
mock_error_data.reset();
}
mock_error_fixture() { mock_error_data.reset(); }
~mock_error_fixture()
{
BOOST_CHECK( mock_error_data.verify() );
BOOST_CHECK_EQUAL( 0, mock_error_data.call_count );
BOOST_CHECK(mock_error_data.verify());
BOOST_CHECK_EQUAL(0, mock_error_data.call_count);
}
};
#define CHECK_CALLS( calls ) \
BOOST_CHECK_EQUAL( calls, mock_error_data.call_count ); \
#define CHECK_CALLS(calls) \
BOOST_CHECK_EQUAL(calls, mock_error_data.call_count); \
mock_error_data.call_count = 0;
#define CHECK_ERROR( expr, error, calls, context ) \
BOOST_CHECK( mock_error_data.verify() ); \
try { expr; } catch( ... ) {} \
BOOST_CHECK_EQUAL( 1, mock_error_data.error_count ); \
BOOST_CHECK_EQUAL( error, mock_error_data.last_message ); \
BOOST_CHECK_EQUAL( context, mock_error_data.last_context ); \
CHECK_CALLS( calls ); \
#define CHECK_ERROR(expr, error, calls, context) \
BOOST_CHECK(mock_error_data.verify()); \
try \
{ \
expr; \
} catch(...) \
{} \
BOOST_CHECK_EQUAL(1, mock_error_data.error_count); \
BOOST_CHECK_EQUAL(error, mock_error_data.last_message); \
BOOST_CHECK_EQUAL(context, mock_error_data.last_context); \
CHECK_CALLS(calls); \
mock_error_data.reset();
#endif // MOCK_TEST_MOCK_ERROR_HPP_INCLUDED

19
test/test_constraint.cpp
View file

@ -9,16 +9,15 @@
#include <turtle/constraint.hpp>
#include <boost/test/unit_test.hpp>
namespace
{
MOCK_CONSTRAINT( constraint_0, actual == 0 )
MOCK_CONSTRAINT( constraint_1, expected, actual == expected )
MOCK_CONSTRAINT( constraint_2, expected_0, expected_1, actual == expected_0 || actual == expected_1 )
}
namespace {
MOCK_CONSTRAINT(constraint_0, actual == 0)
MOCK_CONSTRAINT(constraint_1, expected, actual == expected)
MOCK_CONSTRAINT(constraint_2, expected_0, expected_1, actual == expected_0 || actual == expected_1)
} // namespace
BOOST_AUTO_TEST_CASE( mock_constraint_is_supported_by_compilers_with_variadic_macros )
BOOST_AUTO_TEST_CASE(mock_constraint_is_supported_by_compilers_with_variadic_macros)
{
BOOST_CHECK( constraint_0.c_( 0 ) );
BOOST_CHECK( constraint_1( 0 ).c_( 0 ) );
BOOST_CHECK( constraint_2( 0, 0 ).c_( 0 ) );
BOOST_CHECK(constraint_0.c_(0));
BOOST_CHECK(constraint_1(0).c_(0));
BOOST_CHECK(constraint_2(0, 0).c_(0));
}

366
test/test_constraints.cpp
View file

@ -9,386 +9,372 @@
#include <turtle/constraints.hpp>
#include <boost/test/unit_test.hpp>
BOOST_AUTO_TEST_CASE( all_comparison_constraints_can_be_instanciated )
BOOST_AUTO_TEST_CASE(all_comparison_constraints_can_be_instanciated)
{
mock::equal( 0 );
mock::less( 0 );
mock::greater( 0 );
mock::less_equal( 0 );
mock::greater_equal( 0 );
mock::equal(0);
mock::less(0);
mock::greater(0);
mock::less_equal(0);
mock::greater_equal(0);
}
BOOST_AUTO_TEST_CASE( constraints_can_be_negated_using_the_not_operator )
BOOST_AUTO_TEST_CASE(constraints_can_be_negated_using_the_not_operator)
{
! mock::any;
! mock::affirm;
! mock::negate;
! mock::evaluate;
! mock::equal( 0 );
! mock::less( 0 );
! mock::greater( 0 );
! mock::less_equal( 0 );
! mock::greater_equal( 0 );
!mock::any;
!mock::affirm;
!mock::negate;
!mock::evaluate;
!mock::equal(0);
!mock::less(0);
!mock::greater(0);
!mock::less_equal(0);
!mock::greater_equal(0);
}
BOOST_AUTO_TEST_CASE( constraints_can_be_combined_using_the_or_operator )
BOOST_AUTO_TEST_CASE(constraints_can_be_combined_using_the_or_operator)
{
mock::less( 0 ) || mock::greater( 0 );
mock::less(0) || mock::greater(0);
}
BOOST_AUTO_TEST_CASE( constraints_can_be_combined_using_the_and_operator )
BOOST_AUTO_TEST_CASE(constraints_can_be_combined_using_the_and_operator)
{
mock::less( 0 ) && mock::greater( 0 );
mock::less(0) && mock::greater(0);
}
BOOST_AUTO_TEST_CASE( equal_constraint )
BOOST_AUTO_TEST_CASE(equal_constraint)
{
BOOST_CHECK( mock::equal( std::string( "string" ) ).c_( "string" ) );
BOOST_CHECK( ! mock::equal( std::string( "string" ) ).c_( "not string" ) );
BOOST_CHECK(mock::equal(std::string("string")).c_("string"));
BOOST_CHECK(!mock::equal(std::string("string")).c_("not string"));
{
std::string s;
auto c = mock::equal( std::cref( s ) );
auto c = mock::equal(std::cref(s));
s = "string";
BOOST_CHECK( c.c_( "string" ) );
BOOST_CHECK(c.c_("string"));
}
{
std::unique_ptr< int > i;
std::unique_ptr< int > j( new int( 3 ) );
BOOST_CHECK( ! mock::equal( i ).c_( j ) );
BOOST_CHECK( ! mock::equal( j ).c_( i ) );
BOOST_CHECK( mock::equal( i ).c_( i ) );
BOOST_CHECK( mock::equal( j ).c_( j ) );
std::unique_ptr<int> i;
std::unique_ptr<int> j(new int(3));
BOOST_CHECK(!mock::equal(i).c_(j));
BOOST_CHECK(!mock::equal(j).c_(i));
BOOST_CHECK(mock::equal(i).c_(i));
BOOST_CHECK(mock::equal(j).c_(j));
}
}
BOOST_AUTO_TEST_CASE( equal_constraint_deref )
BOOST_AUTO_TEST_CASE(equal_constraint_deref)
{
{
int i = 3;
BOOST_CHECK( mock::equal( 3 ).c_( &i ) );
BOOST_CHECK( ! mock::equal( 7 ).c_( &i ) );
BOOST_CHECK(mock::equal(3).c_(&i));
BOOST_CHECK(!mock::equal(7).c_(&i));
}
{
int* i = 0;
BOOST_CHECK( ! mock::equal( 3 ).c_( i ) );
BOOST_CHECK(!mock::equal(3).c_(i));
}
{
std::unique_ptr< int > j( new int( 3 ) );
BOOST_CHECK( mock::equal( 3 ).c_( j ) );
std::unique_ptr< int > i;
BOOST_CHECK( ! mock::equal( 3 ).c_( i ) );
std::unique_ptr<int> j(new int(3));
BOOST_CHECK(mock::equal(3).c_(j));
std::unique_ptr<int> i;
BOOST_CHECK(!mock::equal(3).c_(i));
}
}
BOOST_AUTO_TEST_CASE( same_constraint )
BOOST_AUTO_TEST_CASE(same_constraint)
{
{
int i = 0;
int j = 0;
BOOST_CHECK_EQUAL( i, j );
BOOST_CHECK( ! mock::same( i ).c_( j ) );
BOOST_CHECK( mock::same( i ).c_( i ) );
BOOST_CHECK_EQUAL(i, j);
BOOST_CHECK(!mock::same(i).c_(j));
BOOST_CHECK(mock::same(i).c_(i));
}
{
int i = 0;
int j = 0;
BOOST_CHECK_EQUAL( i, j );
auto c = mock::same( i );
BOOST_CHECK( ! c.c_( j ) );
BOOST_CHECK( c.c_( i ) );
BOOST_CHECK_EQUAL(i, j);
auto c = mock::same(i);
BOOST_CHECK(!c.c_(j));
BOOST_CHECK(c.c_(i));
}
{
std::nullptr_t p;
BOOST_CHECK( mock::same( p ).c_( p ) );
BOOST_CHECK(mock::same(p).c_(p));
}
}
BOOST_AUTO_TEST_CASE( assign_constraint )
BOOST_AUTO_TEST_CASE(assign_constraint)
{
{
int i = 0;
BOOST_CHECK( mock::assign( 3 ).c_( i ) );
BOOST_CHECK_EQUAL( 3, i );
BOOST_CHECK(mock::assign(3).c_(i));
BOOST_CHECK_EQUAL(3, i);
}
{
int i = 0;
BOOST_CHECK( mock::assign( 3 ).c_( &i ) );
BOOST_CHECK_EQUAL( 3, i );
BOOST_CHECK(mock::assign(3).c_(&i));
BOOST_CHECK_EQUAL(3, i);
}
{
const int* i = 0;
const int j = 1;
BOOST_CHECK( mock::assign( &j ).c_( i ) );
BOOST_CHECK_EQUAL( &j, i );
BOOST_CHECK(mock::assign(&j).c_(i));
BOOST_CHECK_EQUAL(&j, i);
}
{
int* i = 0;
const int j = 1;
BOOST_CHECK( ! mock::assign( j ).c_( i ) );
BOOST_CHECK( ! i );
BOOST_CHECK(!mock::assign(j).c_(i));
BOOST_CHECK(!i);
}
{
int i = 0;
int j = 1;
mock::constraint<
mock::detail::assign<
std::reference_wrapper< const int >
>
> c = mock::assign( std::cref( j ) );
BOOST_CHECK( c.c_( i ) );
BOOST_CHECK_EQUAL( 1, i );
mock::constraint<mock::detail::assign<std::reference_wrapper<const int>>> c = mock::assign(std::cref(j));
BOOST_CHECK(c.c_(i));
BOOST_CHECK_EQUAL(1, i);
j = 3;
BOOST_CHECK( c.c_( i ) );
BOOST_CHECK_EQUAL( 3, i );
BOOST_CHECK(c.c_(i));
BOOST_CHECK_EQUAL(3, i);
}
{
int i = 0;
int j = 1;
auto c = mock::assign( std::cref( j ) );
BOOST_CHECK( c.c_( &i ) );
BOOST_CHECK_EQUAL( 1, i );
auto c = mock::assign(std::cref(j));
BOOST_CHECK(c.c_(&i));
BOOST_CHECK_EQUAL(1, i);
j = 3;
BOOST_CHECK( c.c_( &i ) );
BOOST_CHECK_EQUAL( 3, i );
BOOST_CHECK(c.c_(&i));
BOOST_CHECK_EQUAL(3, i);
}
{
const int* i = 0;
int k = 1;
int* j = &k;
auto c = mock::assign( std::cref( j ) );
BOOST_CHECK( c.c_( i ) );
BOOST_CHECK_EQUAL( j, i );
auto c = mock::assign(std::cref(j));
BOOST_CHECK(c.c_(i));
BOOST_CHECK_EQUAL(j, i);
j = 0;
BOOST_CHECK( c.c_( i ) );
BOOST_CHECK_EQUAL( j, i );
BOOST_CHECK(c.c_(i));
BOOST_CHECK_EQUAL(j, i);
}
}
BOOST_AUTO_TEST_CASE( retrieve_constraint )
BOOST_AUTO_TEST_CASE(retrieve_constraint)
{
{
int i = 0;
const int j = 1;
BOOST_CHECK( mock::retrieve( i ).c_( j ) );
BOOST_CHECK_EQUAL( i, j );
BOOST_CHECK(mock::retrieve(i).c_(j));
BOOST_CHECK_EQUAL(i, j);
}
{
int* i = 0;
int j = 1;
BOOST_CHECK( mock::retrieve( i ).c_( &j ) );
BOOST_CHECK_EQUAL( i, &j );
BOOST_CHECK(mock::retrieve(i).c_(&j));
BOOST_CHECK_EQUAL(i, &j);
}
{
const int* i = 0;
const int j = 1;
BOOST_CHECK( mock::retrieve( i ).c_( j ) );
BOOST_CHECK_EQUAL( i, &j );
BOOST_CHECK(mock::retrieve(i).c_(j));
BOOST_CHECK_EQUAL(i, &j);
}
{
const int* i = 0;
int j = 1;
BOOST_CHECK( mock::retrieve( i ).c_( j ) );
BOOST_CHECK_EQUAL( i, &j );
BOOST_CHECK(mock::retrieve(i).c_(j));
BOOST_CHECK_EQUAL(i, &j);
}
{
int* i = 0;
int j = 1;
BOOST_CHECK( mock::retrieve( i ).c_( j ) );
BOOST_CHECK_EQUAL( i, &j );
BOOST_CHECK(mock::retrieve(i).c_(j));
BOOST_CHECK_EQUAL(i, &j);
}
{
const int* i = 0;
const int j = 1;
BOOST_CHECK( mock::retrieve( i ).c_( j ) );
BOOST_CHECK_EQUAL( i, &j );
BOOST_CHECK(mock::retrieve(i).c_(j));
BOOST_CHECK_EQUAL(i, &j);
}
{
int** i = 0;
int* j = 0;
BOOST_CHECK( mock::retrieve( i ).c_( j ) );
BOOST_CHECK_EQUAL( i, &j );
BOOST_CHECK(mock::retrieve(i).c_(j));
BOOST_CHECK_EQUAL(i, &j);
}
{
const int** i = 0;
const int* j = 0;
BOOST_CHECK( mock::retrieve( i ).c_( j ) );
BOOST_CHECK_EQUAL( i, &j );
BOOST_CHECK(mock::retrieve(i).c_(j));
BOOST_CHECK_EQUAL(i, &j);
}
{
int i = 0;
const int j = 1;
BOOST_CHECK( mock::retrieve( i ).c_( j ) );
BOOST_CHECK_EQUAL( i, j );
BOOST_CHECK(mock::retrieve(i).c_(j));
BOOST_CHECK_EQUAL(i, j);
}
{
const int* i = 0;
const int j = 1;
BOOST_CHECK( mock::retrieve( i ).c_( j ) );
BOOST_CHECK_EQUAL( i, &j );
BOOST_CHECK(mock::retrieve(i).c_(j));
BOOST_CHECK_EQUAL(i, &j);
}
{
std::nullptr_t* i = 0;
std::nullptr_t j;
BOOST_CHECK( mock::retrieve( i ).c_( j ) );
BOOST_CHECK_EQUAL( i, &j );
BOOST_CHECK(mock::retrieve(i).c_(j));
BOOST_CHECK_EQUAL(i, &j);
}
{
std::unique_ptr< int > i;
std::unique_ptr< int > j( new int( 3 ) );
BOOST_CHECK( mock::retrieve( i ).c_( std::move( j ) ) );
BOOST_REQUIRE( i );
BOOST_CHECK_EQUAL( 3, *i );
BOOST_CHECK( !j );
std::unique_ptr<int> i;
std::unique_ptr<int> j(new int(3));
BOOST_CHECK(mock::retrieve(i).c_(std::move(j)));
BOOST_REQUIRE(i);
BOOST_CHECK_EQUAL(3, *i);
BOOST_CHECK(!j);
}
}
namespace
namespace {
struct A
{};
struct B
{
struct A
{
};
struct B
{
B& operator=( const A& )
{
return *this;
}
};
}
B& operator=(const A&) { return *this; }
};
} // namespace
BOOST_AUTO_TEST_CASE( retrieve_constraint_uses_assignment_operator )
BOOST_AUTO_TEST_CASE(retrieve_constraint_uses_assignment_operator)
{
B b;
const A a = A();
mock::retrieve( b ).c_( a );
mock::retrieve(b).c_(a);
}
BOOST_AUTO_TEST_CASE( affirm_constraint )
BOOST_AUTO_TEST_CASE(affirm_constraint)
{
{
int* i = 0;
int j;
BOOST_CHECK( ! mock::affirm.c_( i ) );
BOOST_CHECK( mock::affirm.c_( &j ) );
BOOST_CHECK(!mock::affirm.c_(i));
BOOST_CHECK(mock::affirm.c_(&j));
}
{
std::unique_ptr< int > i;
std::unique_ptr< int > j( new int( 3 ) );
BOOST_CHECK( ! mock::affirm.c_( i ) );
BOOST_CHECK( mock::affirm.c_( j ) );
std::unique_ptr<int> i;
std::unique_ptr<int> j(new int(3));
BOOST_CHECK(!mock::affirm.c_(i));
BOOST_CHECK(mock::affirm.c_(j));
}
}
BOOST_AUTO_TEST_CASE( negate_constraint )
BOOST_AUTO_TEST_CASE(negate_constraint)
{
int* i = 0;
int j;
BOOST_CHECK( mock::negate.c_( i ) );
BOOST_CHECK( ! mock::negate.c_( &j ) );
BOOST_CHECK(mock::negate.c_(i));
BOOST_CHECK(!mock::negate.c_(&j));
}
namespace
namespace {
bool return_true()
{
bool return_true()
{
return true;
}
bool return_false()
{
}
bool return_false()
{
return false;
}
}
} // namespace
BOOST_AUTO_TEST_CASE(call_constraint)
{
BOOST_CHECK(mock::call(&return_true).c_());
BOOST_CHECK(!mock::call(&return_false).c_());
}
BOOST_AUTO_TEST_CASE( call_constraint )
BOOST_AUTO_TEST_CASE(evaluate_constraint)
{
BOOST_CHECK( mock::call( &return_true ).c_() );
BOOST_CHECK( ! mock::call( &return_false ).c_() );
BOOST_CHECK(mock::evaluate.c_(&return_true));
BOOST_CHECK(!mock::evaluate.c_(&return_false));
}
BOOST_AUTO_TEST_CASE( evaluate_constraint )
BOOST_AUTO_TEST_CASE(contain_constraint_with_const_char_ptr)
{
BOOST_CHECK( mock::evaluate.c_( &return_true ) );
BOOST_CHECK( ! mock::evaluate.c_( &return_false ) );
}
BOOST_AUTO_TEST_CASE( contain_constraint_with_const_char_ptr )
{
BOOST_CHECK( mock::contain( "string" ).c_( "this is a string" ) );
BOOST_CHECK( mock::contain( "string" ).c_( std::string( "this is a string" ) ) );
BOOST_CHECK( ! mock::contain( "not found" ).c_( "this is a string" ) );
BOOST_CHECK( ! mock::contain( "not found" ).c_( std::string( "this is a string" ) ) );
BOOST_CHECK(mock::contain("string").c_("this is a string"));
BOOST_CHECK(mock::contain("string").c_(std::string("this is a string")));
BOOST_CHECK(!mock::contain("not found").c_("this is a string"));
BOOST_CHECK(!mock::contain("not found").c_(std::string("this is a string")));
{
const char* s = 0;
auto c = mock::contain( std::cref( s ) );
auto c = mock::contain(std::cref(s));
s = "string";
BOOST_CHECK( c.c_( "this is a string" ) );
BOOST_CHECK( c.c_( std::string( "this is a string" ) ) );
BOOST_CHECK(c.c_("this is a string"));
BOOST_CHECK(c.c_(std::string("this is a string")));
s = "not found";
BOOST_CHECK( ! c.c_( "this is a string" ) );
BOOST_CHECK( ! c.c_( std::string( "this is a string" ) ) );
BOOST_CHECK(!c.c_("this is a string"));
BOOST_CHECK(!c.c_(std::string("this is a string")));
}
}
BOOST_AUTO_TEST_CASE( contain_constraint_with_strings )
BOOST_AUTO_TEST_CASE(contain_constraint_with_strings)
{
BOOST_CHECK( mock::contain( std::string( "string" ) ).c_( "this is a string" ) );
BOOST_CHECK( mock::contain( std::string( "string" ) ).c_( std::string( "this is a string" ) ) );
BOOST_CHECK( ! mock::contain( std::string( "not found" ) ).c_( "this is a string" ) );
BOOST_CHECK( ! mock::contain( std::string( "not found" ) ).c_( std::string( "this is a string" ) ) );
BOOST_CHECK(mock::contain(std::string("string")).c_("this is a string"));
BOOST_CHECK(mock::contain(std::string("string")).c_(std::string("this is a string")));
BOOST_CHECK(!mock::contain(std::string("not found")).c_("this is a string"));
BOOST_CHECK(!mock::contain(std::string("not found")).c_(std::string("this is a string")));
{
std::string s;
mock::constraint<
mock::detail::contain<
std::reference_wrapper< const std::string >
>
> c = mock::contain( std::cref( s ) );
mock::constraint<mock::detail::contain<std::reference_wrapper<const std::string>>> c =
mock::contain(std::cref(s));
s = "string";
BOOST_CHECK( c.c_( "this is a string" ) );
BOOST_CHECK( c.c_( std::string( "this is a string" ) ) );
BOOST_CHECK(c.c_("this is a string"));
BOOST_CHECK(c.c_(std::string("this is a string")));
s = "not found";
BOOST_CHECK( ! c.c_( "this is a string" ) );
BOOST_CHECK( ! c.c_( std::string( "this is a string" ) ) );
BOOST_CHECK(!c.c_("this is a string"));
BOOST_CHECK(!c.c_(std::string("this is a string")));
}
}
namespace
namespace {
struct type_with_overloaded_address_operator
{
struct type_with_overloaded_address_operator
{
void operator&() {}
void operator&() const {}
};
}
};
} // namespace
BOOST_AUTO_TEST_CASE( type_with_overloaded_address_operator_can_be_used_in_constraints )
BOOST_AUTO_TEST_CASE(type_with_overloaded_address_operator_can_be_used_in_constraints)
{
type_with_overloaded_address_operator t;
mock::same( t ).c_( t );
mock::retrieve( t ).c_( t );
mock::same(t).c_(t);
mock::retrieve(t).c_(t);
type_with_overloaded_address_operator* pt;
mock::retrieve( pt ).c_( t );
mock::retrieve(pt).c_(t);
}
BOOST_AUTO_TEST_CASE( close_constraint )
BOOST_AUTO_TEST_CASE(close_constraint)
{
BOOST_CHECK( mock::close( 12.0, 0.0001 ).c_( 12 ) );
BOOST_CHECK( ! mock::close( 12.0, 0.0001 ).c_( 13 ) );
BOOST_CHECK(mock::close(12.0, 0.0001).c_(12));
BOOST_CHECK(!mock::close(12.0, 0.0001).c_(13));
}
BOOST_AUTO_TEST_CASE( close_fraction_constraint )
BOOST_AUTO_TEST_CASE(close_fraction_constraint)
{
BOOST_CHECK( mock::close_fraction( 12.0, 0.0001 ).c_( 12 ) );
BOOST_CHECK( ! mock::close_fraction( 12.0, 0.0001 ).c_( 13 ) );
BOOST_CHECK(mock::close_fraction(12.0, 0.0001).c_(12));
BOOST_CHECK(!mock::close_fraction(12.0, 0.0001).c_(13));
}
BOOST_AUTO_TEST_CASE( small_constraint )
BOOST_AUTO_TEST_CASE(small_constraint)
{
BOOST_CHECK( mock::small( 0.0001 ).c_( 0. ) );
BOOST_CHECK( ! mock::small( 0.0001 ).c_( 12. ) );
BOOST_CHECK(mock::small(0.0001).c_(0.));
BOOST_CHECK(!mock::small(0.0001).c_(12.));
}
BOOST_AUTO_TEST_CASE( near_constraint )
BOOST_AUTO_TEST_CASE(near_constraint)
{
BOOST_CHECK( mock::near( 12.0, 0.0001 ).c_( 12 ) );
BOOST_CHECK( ! mock::near( 12.0, 0.0001 ).c_( 13 ) );
BOOST_CHECK(mock::near(12.0, 0.0001).c_(12));
BOOST_CHECK(!mock::near(12.0, 0.0001).c_(13));
}

10
test/test_exception.cpp
View file

@ -10,16 +10,14 @@
#include <turtle/exception.hpp>
#include <boost/test/unit_test.hpp>
BOOST_AUTO_TEST_CASE( a_mock_exception_is_not_an_std_exception_to_not_mess_with_user_exceptions )
BOOST_AUTO_TEST_CASE(a_mock_exception_is_not_an_std_exception_to_not_mess_with_user_exceptions)
{
try
{
throw mock::exception();
}
catch( std::exception& )
} catch(std::exception&)
{
BOOST_FAIL( "mock::exception must not be an std::exception" );
}
catch( mock::exception& )
BOOST_FAIL("mock::exception must not be an std::exception");
} catch(mock::exception&)
{}
}

920
test/test_integration.cpp
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777
test/test_log.cpp
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72
test/test_matcher.cpp
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@ -9,70 +9,66 @@
#include <turtle/detail/function.hpp>
#include <boost/test/unit_test.hpp>
namespace
namespace {
template<typename Expected, typename Actual>
bool match(Expected expected, Actual actual)
{
template< typename Expected, typename Actual >
bool match( Expected expected, Actual actual )
{
return mock::matcher< Actual, Expected >( expected )( actual );
}
return mock::matcher<Actual, Expected>(expected)(actual);
}
} // namespace
BOOST_AUTO_TEST_CASE(int_and_int_can_be_compared)
{
BOOST_CHECK(match(3, 3));
BOOST_CHECK(!match(3, 4));
BOOST_CHECK(!match(4, 3));
}
BOOST_AUTO_TEST_CASE( int_and_int_can_be_compared )
{
BOOST_CHECK( match( 3, 3 ) );
BOOST_CHECK( ! match( 3, 4 ) );
BOOST_CHECK( ! match( 4, 3 ) );
}
BOOST_AUTO_TEST_CASE( ref_to_int_and_int_can_be_compared )
BOOST_AUTO_TEST_CASE(ref_to_int_and_int_can_be_compared)
{
const int i = 3;
BOOST_CHECK( match( 3, std::cref( i ) ) );
BOOST_CHECK( ! match( 4, std::cref( i ) ) );
BOOST_CHECK(match(3, std::cref(i)));
BOOST_CHECK(!match(4, std::cref(i)));
}
namespace
namespace {
struct fixture
{
struct fixture
{
fixture()
: text( "same text" )
, actual( text.c_str() )
fixture() : text("same text"), actual(text.c_str())
{
const char* static_string = "same text";
BOOST_REQUIRE( actual != static_string );
BOOST_REQUIRE( actual == std::string( static_string ) );
BOOST_REQUIRE(actual != static_string);
BOOST_REQUIRE(actual == std::string(static_string));
}
std::string text;
const char* actual;
};
}
};
} // namespace
BOOST_FIXTURE_TEST_CASE( const_char_pointer_and_const_char_pointer_can_be_compared, fixture )
BOOST_FIXTURE_TEST_CASE(const_char_pointer_and_const_char_pointer_can_be_compared, fixture)
{
const char* expected = "same text";
BOOST_CHECK( match( expected, actual ) );
BOOST_CHECK(match(expected, actual));
const char* unexpected = "different text";
BOOST_CHECK( ! match( actual, unexpected ) );
BOOST_CHECK(!match(actual, unexpected));
}
BOOST_FIXTURE_TEST_CASE( const_char_pointer_and_string_literal_can_be_compared, fixture )
BOOST_FIXTURE_TEST_CASE(const_char_pointer_and_string_literal_can_be_compared, fixture)
{
BOOST_CHECK( match( "same text", actual ) );
BOOST_CHECK( ! match( "different text", actual ) );
BOOST_CHECK(match("same text", actual));
BOOST_CHECK(!match("different text", actual));
}
BOOST_FIXTURE_TEST_CASE( const_char_pointer_and_const_char_array_can_be_compared, fixture )
BOOST_FIXTURE_TEST_CASE(const_char_pointer_and_const_char_array_can_be_compared, fixture)
{
const char expected[10] = "same text";
BOOST_CHECK( match( expected, actual ) );
BOOST_CHECK(match(expected, actual));
const char unexpected[15] = "different text";
BOOST_CHECK( ! match( unexpected, actual ) );
BOOST_CHECK(!match(unexpected, actual));
}
BOOST_FIXTURE_TEST_CASE( const_char_pointer_and_std_string_can_be_compared, fixture )
BOOST_FIXTURE_TEST_CASE(const_char_pointer_and_std_string_can_be_compared, fixture)
{
BOOST_CHECK( match( std::string( "same text" ), actual ) );
BOOST_CHECK( ! match( std::string( "different text" ), actual ) );
BOOST_CHECK(match(std::string("same text"), actual));
BOOST_CHECK(!match(std::string("different text"), actual));
}

31
test/test_max_args.cpp
View file

@ -8,32 +8,31 @@
#include "mock_error.hpp"
#include <turtle/mock.hpp>
#include <boost/test/unit_test.hpp>
#include <boost/preprocessor/repetition/enum.hpp>
#include <boost/test/unit_test.hpp>
#define IDENTITY(z, n, d) d
namespace
namespace {
struct my_custom_mock
{
struct my_custom_mock
{
MOCK_METHOD_EXT( method, MOCK_MAX_ARGS, void( BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, int) ), tag )
MOCK_METHOD_EXT( method2, MOCK_MAX_ARGS, int( BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, int) ), tag_2 )
};
}
MOCK_METHOD_EXT(method, MOCK_MAX_ARGS, void(BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, int)), tag)
MOCK_METHOD_EXT(method2, MOCK_MAX_ARGS, int(BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, int)), tag_2)
};
} // namespace
BOOST_FIXTURE_TEST_CASE( call_mock_method_with_max_number_of_args, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(call_mock_method_with_max_number_of_args, mock_error_fixture)
{
my_custom_mock m;
MOCK_EXPECT( m.tag ).once().with( BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, 0) );
m.method( BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, 0) );
CHECK_CALLS( 1 );
MOCK_EXPECT(m.tag).once().with(BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, 0));
m.method(BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, 0));
CHECK_CALLS(1);
}
BOOST_FIXTURE_TEST_CASE( call_mock_method_with_max_number_of_args_and_a_return_value, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(call_mock_method_with_max_number_of_args_and_a_return_value, mock_error_fixture)
{
my_custom_mock m;
MOCK_EXPECT( m.tag_2 ).once().with( BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, 0) ).returns( 42 );
BOOST_CHECK_EQUAL( 42, m.method2( BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, 0) ) );
CHECK_CALLS( 1 );
MOCK_EXPECT(m.tag_2).once().with(BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, 0)).returns(42);
BOOST_CHECK_EQUAL(42, m.method2(BOOST_PP_ENUM(MOCK_MAX_ARGS, IDENTITY, 0)));
CHECK_CALLS(1);
}

505
test/test_mock.cpp
View file

@ -11,378 +11,360 @@
#include <boost/test/unit_test.hpp>
#include <functional>
namespace
namespace {
template<typename T>
void my_function(T& t)
{
template< typename T >
void my_function( T& t )
{
t.my_method( "some parameter" );
}
MOCK_CLASS( mock_class )
{
MOCK_METHOD_EXT( my_method, 1, void( const std::string& ), my_tag )
};
t.my_method("some parameter");
}
MOCK_CLASS(mock_class)
{
MOCK_METHOD_EXT(my_method, 1, void(const std::string&), my_tag)
};
} // namespace
BOOST_FIXTURE_TEST_CASE( mock_object_for_static_polymorphism, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_object_for_static_polymorphism, mock_error_fixture)
{
const mock_class m;
MOCK_EXPECT( m.my_tag ).once().with( "some parameter" );
my_function( m );
CHECK_CALLS( 1 );
MOCK_EXPECT(m.my_tag).once().with("some parameter");
my_function(m);
CHECK_CALLS(1);
}
namespace
namespace {
MOCK_CLASS(mock_class_with_operator)
{
MOCK_CLASS( mock_class_with_operator )
{
MOCK_CONST_METHOD_EXT( operator+=, 1, mock_class_with_operator&( int ), addition )
};
}
MOCK_CONST_METHOD_EXT(operator+=, 1, mock_class_with_operator &(int), addition)
};
} // namespace
BOOST_FIXTURE_TEST_CASE( mock_addition_operator, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_addition_operator, mock_error_fixture)
{
mock_class_with_operator m;
MOCK_EXPECT( m.addition ).once().returns( std::ref( m ) );
MOCK_EXPECT(m.addition).once().returns(std::ref(m));
m += 1;
CHECK_CALLS( 1 );
CHECK_CALLS(1);
}
namespace
namespace {
MOCK_CLASS(mock_class_with_conversion_operator)
{
MOCK_CLASS( mock_class_with_conversion_operator )
{
MOCK_CONVERSION_OPERATOR( operator, int, conversion )
};
}
MOCK_CONVERSION_OPERATOR(operator, int, conversion)
};
} // namespace
BOOST_FIXTURE_TEST_CASE( mock_conversion_operator, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_conversion_operator, mock_error_fixture)
{
mock_class_with_conversion_operator m;
MOCK_EXPECT( m.conversion ).once().returns( 42 );
BOOST_CHECK_EQUAL( 42, static_cast< int >( m ) );
CHECK_CALLS( 1 );
MOCK_EXPECT(m.conversion).once().returns(42);
BOOST_CHECK_EQUAL(42, static_cast<int>(m));
CHECK_CALLS(1);
}
namespace
namespace {
template<typename T>
MOCK_CLASS(mock_template_class_with_conversion_operator)
{ MOCK_CONVERSION_OPERATOR_TPL(operator, T, conversion) };
} // namespace
BOOST_FIXTURE_TEST_CASE(mock_template_conversion_operator, mock_error_fixture)
{
template< typename T >
MOCK_CLASS( mock_template_class_with_conversion_operator )
{
MOCK_CONVERSION_OPERATOR_TPL( operator, T, conversion )
};
mock_template_class_with_conversion_operator<int> m;
MOCK_EXPECT(m.conversion).once().returns(42);
BOOST_CHECK_EQUAL(42, static_cast<int>(m));
CHECK_CALLS(1);
}
BOOST_FIXTURE_TEST_CASE( mock_template_conversion_operator, mock_error_fixture )
namespace {
MOCK_CLASS(mock_class_with_const_conversion_operator)
{
mock_template_class_with_conversion_operator< int > m;
MOCK_EXPECT( m.conversion ).once().returns( 42 );
BOOST_CHECK_EQUAL( 42, static_cast< int >( m ) );
CHECK_CALLS( 1 );
}
MOCK_CONST_CONVERSION_OPERATOR(operator, int, conversion)
};
} // namespace
namespace
{
MOCK_CLASS( mock_class_with_const_conversion_operator )
{
MOCK_CONST_CONVERSION_OPERATOR( operator, int, conversion )
};
}
BOOST_FIXTURE_TEST_CASE( mock_const_conversion_operator, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_const_conversion_operator, mock_error_fixture)
{
mock_class_with_const_conversion_operator m;
MOCK_EXPECT( m.conversion ).once().returns( 42 );
MOCK_EXPECT(m.conversion).once().returns(42);
int i = m;
BOOST_CHECK_EQUAL( 42, i );
CHECK_CALLS( 1 );
BOOST_CHECK_EQUAL(42, i);
CHECK_CALLS(1);
}
namespace
namespace {
MOCK_CLASS(mock_class_with_non_const_conversion_operator)
{
MOCK_CLASS( mock_class_with_non_const_conversion_operator )
{
MOCK_CONST_CONVERSION_OPERATOR( operator, int, conversion )
};
}
MOCK_CONST_CONVERSION_OPERATOR(operator, int, conversion)
};
} // namespace
BOOST_FIXTURE_TEST_CASE( mock_non_const_conversion_operator, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_non_const_conversion_operator, mock_error_fixture)
{
mock_class_with_non_const_conversion_operator m;
MOCK_EXPECT( m.conversion ).once().returns( 42 );
MOCK_EXPECT(m.conversion).once().returns(42);
int i = m;
BOOST_CHECK_EQUAL( 42, i );
CHECK_CALLS( 1 );
BOOST_CHECK_EQUAL(42, i);
CHECK_CALLS(1);
}
namespace
namespace {
template<typename T>
MOCK_CLASS(mock_template_class_with_const_conversion_operator)
{
template< typename T >
MOCK_CLASS( mock_template_class_with_const_conversion_operator )
{
MOCK_CONST_CONVERSION_OPERATOR_TPL( operator, T, conversion )
};
}
MOCK_CONST_CONVERSION_OPERATOR_TPL(operator, T, conversion)
};
} // namespace
BOOST_FIXTURE_TEST_CASE( mock_template_const_conversion_operator, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_template_const_conversion_operator, mock_error_fixture)
{
mock_template_class_with_const_conversion_operator< int > m;
MOCK_EXPECT( m.conversion ).once().returns( 42 );
BOOST_CHECK_EQUAL( 42, static_cast< int >( m ) );
CHECK_CALLS( 1 );
mock_template_class_with_const_conversion_operator<int> m;
MOCK_EXPECT(m.conversion).once().returns(42);
BOOST_CHECK_EQUAL(42, static_cast<int>(m));
CHECK_CALLS(1);
}
namespace
namespace {
template<typename T>
MOCK_CLASS(mock_template_class_with_non_const_conversion_operator)
{
template< typename T >
MOCK_CLASS( mock_template_class_with_non_const_conversion_operator )
{
MOCK_NON_CONST_CONVERSION_OPERATOR_TPL( operator, T, conversion )
};
}
MOCK_NON_CONST_CONVERSION_OPERATOR_TPL(operator, T, conversion)
};
} // namespace
BOOST_FIXTURE_TEST_CASE( mock_template_non_const_conversion_operator, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_template_non_const_conversion_operator, mock_error_fixture)
{
mock_template_class_with_non_const_conversion_operator< int > m;
MOCK_EXPECT( m.conversion ).once().returns( 42 );
BOOST_CHECK_EQUAL( 42, static_cast< int >( m ) );
CHECK_CALLS( 1 );
mock_template_class_with_non_const_conversion_operator<int> m;
MOCK_EXPECT(m.conversion).once().returns(42);
BOOST_CHECK_EQUAL(42, static_cast<int>(m));
CHECK_CALLS(1);
}
namespace
namespace {
MOCK_CLASS(my_mock)
{
MOCK_CLASS( my_mock )
{
MOCK_CONST_METHOD_EXT( my_method, 1, void( int ), my_method )
MOCK_CONST_METHOD_EXT( my_method_2, 1, void( int ), my_method_2 )
};
}
MOCK_CONST_METHOD_EXT(my_method, 1, void(int), my_method)
MOCK_CONST_METHOD_EXT(my_method_2, 1, void(int), my_method_2)
};
} // namespace
BOOST_FIXTURE_TEST_CASE( MOCK_CONST_METHOD_EXT_macro_defines_a_bindable_method, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(MOCK_CONST_METHOD_EXT_macro_defines_a_bindable_method, mock_error_fixture)
{
my_mock m;
const auto f = std::bind( &my_mock::my_method, &m, 42 );
(void) f;
const auto f = std::bind(&my_mock::my_method, &m, 42);
(void)f;
}
BOOST_FIXTURE_TEST_CASE( MOCK_VERIFY_macro, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(MOCK_VERIFY_macro, mock_error_fixture)
{
my_mock m;
MOCK_VERIFY( m.my_method );
MOCK_VERIFY(m.my_method);
}
BOOST_FIXTURE_TEST_CASE( MOCK_RESET_macro, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(MOCK_RESET_macro, mock_error_fixture)
{
my_mock m;
MOCK_RESET( m.my_method );
MOCK_RESET(m.my_method);
}
BOOST_FIXTURE_TEST_CASE( MOCK_EXPECT_macro, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(MOCK_EXPECT_macro, mock_error_fixture)
{
my_mock m;
MOCK_EXPECT( m.my_method ).once().with( 42 );
m.my_method( 42 );
CHECK_CALLS( 1 );
MOCK_EXPECT(m.my_method).once().with(42);
m.my_method(42);
CHECK_CALLS(1);
}
namespace
namespace {
template<typename T>
std::string to_string(const T& t)
{
template< typename T >
std::string to_string( const T& t )
{
std::stringstream s;
s << t;
return s.str();
}
}
} // namespace
BOOST_FIXTURE_TEST_CASE( mock_object_is_named, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_object_is_named, mock_error_fixture)
{
my_mock m;
BOOST_CHECK_EQUAL( "?.my_mock::my_method", to_string( MOCK_ANONYMOUS_HELPER( m.my_method ) ) );
BOOST_CHECK_EQUAL( "?.my_mock::my_method_2", to_string( MOCK_ANONYMOUS_HELPER( m.my_method_2 ) ) );
BOOST_CHECK_EQUAL( "m.my_mock::my_method", to_string( MOCK_HELPER( m.my_method ) ) );
BOOST_CHECK_EQUAL( "m.my_mock::my_method_2", to_string( MOCK_ANONYMOUS_HELPER( m.my_method_2 ) ) );
BOOST_CHECK_EQUAL( "m.my_mock::my_method", to_string( MOCK_ANONYMOUS_HELPER( m.my_method ) ) );
BOOST_CHECK_EQUAL( "m.my_mock::my_method", to_string( MOCK_HELPER( m.my_method ) ) );
BOOST_CHECK_EQUAL("?.my_mock::my_method", to_string(MOCK_ANONYMOUS_HELPER(m.my_method)));
BOOST_CHECK_EQUAL("?.my_mock::my_method_2", to_string(MOCK_ANONYMOUS_HELPER(m.my_method_2)));
BOOST_CHECK_EQUAL("m.my_mock::my_method", to_string(MOCK_HELPER(m.my_method)));
BOOST_CHECK_EQUAL("m.my_mock::my_method_2", to_string(MOCK_ANONYMOUS_HELPER(m.my_method_2)));
BOOST_CHECK_EQUAL("m.my_mock::my_method", to_string(MOCK_ANONYMOUS_HELPER(m.my_method)));
BOOST_CHECK_EQUAL("m.my_mock::my_method", to_string(MOCK_HELPER(m.my_method)));
}
BOOST_FIXTURE_TEST_CASE( mock_object_shared_pointer_is_named, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_object_shared_pointer_is_named, mock_error_fixture)
{
std::shared_ptr< my_mock > m( new my_mock );
BOOST_CHECK_EQUAL( "?.my_mock::my_method", to_string( MOCK_ANONYMOUS_HELPER( m->my_method ) ) );
BOOST_CHECK_EQUAL( "m->my_mock::my_method", to_string( MOCK_HELPER( m->my_method ) ) );
BOOST_CHECK_EQUAL( "m->my_mock::my_method", to_string( MOCK_ANONYMOUS_HELPER( m->my_method ) ) );
BOOST_CHECK_EQUAL( "m->my_mock::my_method", to_string( MOCK_HELPER( m->my_method ) ) );
std::shared_ptr<my_mock> m(new my_mock);
BOOST_CHECK_EQUAL("?.my_mock::my_method", to_string(MOCK_ANONYMOUS_HELPER(m->my_method)));
BOOST_CHECK_EQUAL("m->my_mock::my_method", to_string(MOCK_HELPER(m->my_method)));
BOOST_CHECK_EQUAL("m->my_mock::my_method", to_string(MOCK_ANONYMOUS_HELPER(m->my_method)));
BOOST_CHECK_EQUAL("m->my_mock::my_method", to_string(MOCK_HELPER(m->my_method)));
}
BOOST_FIXTURE_TEST_CASE( mock_object_const_shared_pointer_is_named, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_object_const_shared_pointer_is_named, mock_error_fixture)
{
const std::shared_ptr< my_mock > m( new my_mock );
BOOST_CHECK_EQUAL( "?.my_mock::my_method", to_string( MOCK_ANONYMOUS_HELPER( m->my_method ) ) );
BOOST_CHECK_EQUAL( "m->my_mock::my_method", to_string( MOCK_HELPER( m->my_method ) ) );
BOOST_CHECK_EQUAL( "m->my_mock::my_method", to_string( MOCK_ANONYMOUS_HELPER( m->my_method ) ) );
BOOST_CHECK_EQUAL( "m->my_mock::my_method", to_string( MOCK_HELPER( m->my_method ) ) );
const std::shared_ptr<my_mock> m(new my_mock);
BOOST_CHECK_EQUAL("?.my_mock::my_method", to_string(MOCK_ANONYMOUS_HELPER(m->my_method)));
BOOST_CHECK_EQUAL("m->my_mock::my_method", to_string(MOCK_HELPER(m->my_method)));
BOOST_CHECK_EQUAL("m->my_mock::my_method", to_string(MOCK_ANONYMOUS_HELPER(m->my_method)));
BOOST_CHECK_EQUAL("m->my_mock::my_method", to_string(MOCK_HELPER(m->my_method)));
}
namespace
namespace {
struct my_custom_mock
{
struct my_custom_mock
{
MOCK_METHOD_EXT( my_method, 0, void(), my_tag )
MOCK_METHOD_EXT( my_method_2, 0, void(), my_tag_2 )
};
}
MOCK_METHOD_EXT(my_method, 0, void(), my_tag)
MOCK_METHOD_EXT(my_method_2, 0, void(), my_tag_2)
};
} // namespace
BOOST_FIXTURE_TEST_CASE( custom_mock_object_without_macros_and_without_inheriting_from_object_is_named, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(custom_mock_object_without_macros_and_without_inheriting_from_object_is_named,
mock_error_fixture)
{
my_custom_mock m;
BOOST_CHECK_EQUAL( "?.my_custom_mock::my_tag", to_string( MOCK_ANONYMOUS_HELPER( m.my_tag ) ) );
BOOST_CHECK_EQUAL( "?.my_custom_mock::my_tag_2", to_string( MOCK_ANONYMOUS_HELPER( m.my_tag_2 ) ) );
BOOST_CHECK_EQUAL( "m.my_custom_mock::my_tag", to_string( MOCK_HELPER( m.my_tag ) ) );
BOOST_CHECK_EQUAL( "m.my_custom_mock::my_tag_2", to_string( MOCK_ANONYMOUS_HELPER( m.my_tag_2 ) ) );
BOOST_CHECK_EQUAL( "m.my_custom_mock::my_tag", to_string( MOCK_ANONYMOUS_HELPER( m.my_tag ) ) );
BOOST_CHECK_EQUAL( "m.my_custom_mock::my_tag", to_string( MOCK_HELPER( m.my_tag ) ) );
BOOST_CHECK_EQUAL("?.my_custom_mock::my_tag", to_string(MOCK_ANONYMOUS_HELPER(m.my_tag)));
BOOST_CHECK_EQUAL("?.my_custom_mock::my_tag_2", to_string(MOCK_ANONYMOUS_HELPER(m.my_tag_2)));
BOOST_CHECK_EQUAL("m.my_custom_mock::my_tag", to_string(MOCK_HELPER(m.my_tag)));
BOOST_CHECK_EQUAL("m.my_custom_mock::my_tag_2", to_string(MOCK_ANONYMOUS_HELPER(m.my_tag_2)));
BOOST_CHECK_EQUAL("m.my_custom_mock::my_tag", to_string(MOCK_ANONYMOUS_HELPER(m.my_tag)));
BOOST_CHECK_EQUAL("m.my_custom_mock::my_tag", to_string(MOCK_HELPER(m.my_tag)));
}
namespace
namespace {
struct my_custom_mock_object : mock::object
{
struct my_custom_mock_object : mock::object
{
MOCK_METHOD_EXT( my_method, 0, void(), my_tag )
MOCK_METHOD_EXT( my_method_2, 0, void(), my_tag_2 )
};
}
MOCK_METHOD_EXT(my_method, 0, void(), my_tag)
MOCK_METHOD_EXT(my_method_2, 0, void(), my_tag_2)
};
} // namespace
BOOST_FIXTURE_TEST_CASE( custom_mock_object_without_macros_is_named, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(custom_mock_object_without_macros_is_named, mock_error_fixture)
{
my_custom_mock_object m;
BOOST_CHECK_EQUAL( "?.my_custom_mock_object::my_tag", to_string( MOCK_ANONYMOUS_HELPER( m.my_tag ) ) );
BOOST_CHECK_EQUAL( "?.my_custom_mock_object::my_tag_2", to_string( MOCK_ANONYMOUS_HELPER( m.my_tag_2 ) ) );
BOOST_CHECK_EQUAL( "m.my_custom_mock_object::my_tag", to_string( MOCK_HELPER( m.my_tag ) ) );
BOOST_CHECK_EQUAL( "m.my_custom_mock_object::my_tag_2", to_string( MOCK_ANONYMOUS_HELPER( m.my_tag_2 ) ) );
BOOST_CHECK_EQUAL( "m.my_custom_mock_object::my_tag", to_string( MOCK_ANONYMOUS_HELPER( m.my_tag ) ) );
BOOST_CHECK_EQUAL( "m.my_custom_mock_object::my_tag", to_string( MOCK_HELPER( m.my_tag ) ) );
BOOST_CHECK_EQUAL("?.my_custom_mock_object::my_tag", to_string(MOCK_ANONYMOUS_HELPER(m.my_tag)));
BOOST_CHECK_EQUAL("?.my_custom_mock_object::my_tag_2", to_string(MOCK_ANONYMOUS_HELPER(m.my_tag_2)));
BOOST_CHECK_EQUAL("m.my_custom_mock_object::my_tag", to_string(MOCK_HELPER(m.my_tag)));
BOOST_CHECK_EQUAL("m.my_custom_mock_object::my_tag_2", to_string(MOCK_ANONYMOUS_HELPER(m.my_tag_2)));
BOOST_CHECK_EQUAL("m.my_custom_mock_object::my_tag", to_string(MOCK_ANONYMOUS_HELPER(m.my_tag)));
BOOST_CHECK_EQUAL("m.my_custom_mock_object::my_tag", to_string(MOCK_HELPER(m.my_tag)));
}
BOOST_FIXTURE_TEST_CASE( mock_functor, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_functor, mock_error_fixture)
{
MOCK_FUNCTOR( f1, void() );
MOCK_FUNCTOR( f2, int( const std::string& ) );
MOCK_FUNCTOR(f1, void());
MOCK_FUNCTOR(f2, int(const std::string&));
}
namespace
namespace {
template<typename T>
struct tpl_functor_class
{
template< typename T >
struct tpl_functor_class
{
MOCK_FUNCTOR( f, void( T ) );
};
MOCK_FUNCTOR(f, void(T));
};
} // namespace
BOOST_FIXTURE_TEST_CASE(mock_functor_reset, mock_error_fixture)
{
MOCK_FUNCTOR(f, void());
MOCK_RESET(f);
mock::reset(f);
}
BOOST_FIXTURE_TEST_CASE( mock_functor_reset, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_functor_verify, mock_error_fixture)
{
MOCK_FUNCTOR( f, void() );
MOCK_RESET( f );
mock::reset( f );
MOCK_FUNCTOR(f, void());
MOCK_VERIFY(f);
mock::verify(f);
}
BOOST_FIXTURE_TEST_CASE( mock_functor_verify, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(mock_functor_is_named, mock_error_fixture)
{
MOCK_FUNCTOR( f, void() );
MOCK_VERIFY( f );
mock::verify( f );
MOCK_FUNCTOR(f, void());
BOOST_CHECK_EQUAL("f", to_string(MOCK_HELPER(f)));
}
BOOST_FIXTURE_TEST_CASE( mock_functor_is_named, mock_error_fixture )
{
MOCK_FUNCTOR( f, void() );
BOOST_CHECK_EQUAL( "f", to_string( MOCK_HELPER( f ) ) );
namespace {
MOCK_FUNCTION(mock_function, 1, float(int), mock_function)
}
namespace
BOOST_FIXTURE_TEST_CASE(mock_function_is_named, mock_error_fixture)
{
MOCK_FUNCTION( mock_function, 1, float( int ), mock_function )
BOOST_CHECK_EQUAL("mock_function", to_string(MOCK_HELPER(mock_function)));
}
BOOST_FIXTURE_TEST_CASE( mock_function_is_named, mock_error_fixture )
namespace {
MOCK_CLASS(static_function_class)
{
BOOST_CHECK_EQUAL( "mock_function", to_string( MOCK_HELPER( mock_function ) ) );
MOCK_STATIC_METHOD(f, 1, float(int), f)
};
} // namespace
BOOST_FIXTURE_TEST_CASE(mock_static_function_is_named, mock_error_fixture)
{
BOOST_CHECK_EQUAL("static_function_class::f", to_string(MOCK_HELPER(static_function_class::f)));
}
namespace
namespace {
MOCK_CLASS(round_parenthesized_signature)
{
MOCK_CLASS( static_function_class )
{
MOCK_STATIC_METHOD( f, 1, float( int ), f )
};
}
MOCK_METHOD_EXT(m0, 0, MOCK_PROTECT_FUNCTION_SIG(std::map<int, int>()), m0)
MOCK_STATIC_METHOD(m1, 0, MOCK_PROTECT_FUNCTION_SIG(std::map<int, int>()), m1)
MOCK_FUNCTOR(f0, MOCK_PROTECT_FUNCTION_SIG(std::map<int, int>()));
};
MOCK_FUNCTION(fun0, 0, MOCK_PROTECT_FUNCTION_SIG(std::map<int, int>()), fun0)
} // namespace
BOOST_FIXTURE_TEST_CASE( mock_static_function_is_named, mock_error_fixture )
namespace {
struct base
{
BOOST_CHECK_EQUAL( "static_function_class::f", to_string( MOCK_HELPER( static_function_class::f ) ) );
}
namespace
{
MOCK_CLASS( round_parenthesized_signature )
{
MOCK_METHOD_EXT( m0, 0, MOCK_PROTECT_FUNCTION_SIG(std::map< int, int >()), m0 )
MOCK_STATIC_METHOD( m1, 0, MOCK_PROTECT_FUNCTION_SIG(std::map< int, int >()), m1 )
MOCK_FUNCTOR( f0, MOCK_PROTECT_FUNCTION_SIG(std::map< int, int >()) );
};
MOCK_FUNCTION( fun0, 0, MOCK_PROTECT_FUNCTION_SIG(std::map< int, int >()), fun0 )
}
namespace
{
struct base
{
virtual ~base() = default;
virtual void m1() = 0;
virtual void m10() const = 0;
virtual void m11() = 0;
};
};
MOCK_BASE_CLASS( variadic, base )
{
MOCK_METHOD( m1, 0 )
MOCK_METHOD( m2, 0, void() )
MOCK_METHOD( m3, 0, void(), m3 )
MOCK_CONST_METHOD( m10, 0 )
MOCK_CONST_METHOD( m4, 0, void() )
MOCK_CONST_METHOD( m5, 0, void(), m5 )
MOCK_NON_CONST_METHOD( m11, 0 )
MOCK_NON_CONST_METHOD( m6, 0, void() )
MOCK_NON_CONST_METHOD( m7, 0, void(), m7 )
MOCK_STATIC_METHOD( m8, 0, void() )
MOCK_STATIC_METHOD( m9, 0, void(), m9 )
};
MOCK_BASE_CLASS(variadic, base)
{
MOCK_METHOD(m1, 0)
MOCK_METHOD(m2, 0, void())
MOCK_METHOD(m3, 0, void(), m3)
MOCK_CONST_METHOD(m10, 0)
MOCK_CONST_METHOD(m4, 0, void())
MOCK_CONST_METHOD(m5, 0, void(), m5)
MOCK_NON_CONST_METHOD(m11, 0)
MOCK_NON_CONST_METHOD(m6, 0, void())
MOCK_NON_CONST_METHOD(m7, 0, void(), m7)
MOCK_STATIC_METHOD(m8, 0, void())
MOCK_STATIC_METHOD(m9, 0, void(), m9)
};
template< typename T >
MOCK_BASE_CLASS( variadic_tpl, base )
{
MOCK_METHOD( m1, 0, void() )
MOCK_METHOD_TPL( m2, 0, T() )
MOCK_METHOD_TPL( m3, 0, T(), m3 )
MOCK_CONST_METHOD_TPL( m4, 0, T() )
MOCK_CONST_METHOD_TPL( m5, 0, T(), m5 )
MOCK_NON_CONST_METHOD_TPL( m6, 0, T() )
MOCK_NON_CONST_METHOD_TPL( m7, 0, T(), m7 )
MOCK_STATIC_METHOD_TPL( m8, 0, T() )
MOCK_STATIC_METHOD_TPL( m9, 0, T(), m9 )
};
template<typename T>
MOCK_BASE_CLASS(variadic_tpl, base)
{
MOCK_METHOD(m1, 0, void())
MOCK_METHOD_TPL(m2, 0, T())
MOCK_METHOD_TPL(m3, 0, T(), m3)
MOCK_CONST_METHOD_TPL(m4, 0, T())
MOCK_CONST_METHOD_TPL(m5, 0, T(), m5)
MOCK_NON_CONST_METHOD_TPL(m6, 0, T())
MOCK_NON_CONST_METHOD_TPL(m7, 0, T(), m7)
MOCK_STATIC_METHOD_TPL(m8, 0, T())
MOCK_STATIC_METHOD_TPL(m9, 0, T(), m9)
};
MOCK_BASE_CLASS( comma_base, std::map< int, int > )
{};
MOCK_BASE_CLASS(comma_base, std::map<int, int>)
{};
MOCK_FUNCTION( fun1, 0, void() )
MOCK_FUNCTION( fun2, 0, void(), fun2 )
MOCK_FUNCTION( fun3, 0, MOCK_PROTECT_FUNCTION_SIG(std::map< int, int >()) )
MOCK_FUNCTION(fun1, 0, void())
MOCK_FUNCTION(fun2, 0, void(), fun2)
MOCK_FUNCTION(fun3, 0, MOCK_PROTECT_FUNCTION_SIG(std::map<int, int>()))
MOCK_FUNCTOR( f_variadic, std::map< int, int >() );
}
MOCK_FUNCTOR(f_variadic, std::map<int, int>());
} // namespace
#ifdef BOOST_MSVC
# define MOCK_STDCALL __stdcall
@ -390,25 +372,24 @@ namespace
# define MOCK_STDCALL
#endif
namespace stdcall
namespace stdcall {
struct base
{
struct base
{
virtual ~base() = default;
virtual void MOCK_STDCALL m1() = 0;
};
};
MOCK_BASE_CLASS( derived, base )
{
MOCK_CONSTRUCTOR( MOCK_STDCALL derived, 0, (), derived )
MOCK_DESTRUCTOR( MOCK_STDCALL ~derived, derived )
MOCK_CONVERSION_OPERATOR( MOCK_STDCALL operator, int, to_int )
MOCK_METHOD_EXT( MOCK_STDCALL m1, 0, void(), m1 )
MOCK_METHOD_EXT( MOCK_STDCALL m2, 0, void(), m2 )
MOCK_METHOD( MOCK_STDCALL m3, 0, void(), m3 )
MOCK_STATIC_METHOD( MOCK_STDCALL m4, 0, void(), m4 )
};
MOCK_BASE_CLASS(derived, base)
{
MOCK_CONSTRUCTOR(MOCK_STDCALL derived, 0, (), derived)
MOCK_DESTRUCTOR(MOCK_STDCALL ~derived, derived)
MOCK_CONVERSION_OPERATOR(MOCK_STDCALL operator, int, to_int)
MOCK_METHOD_EXT(MOCK_STDCALL m1, 0, void(), m1)
MOCK_METHOD_EXT(MOCK_STDCALL m2, 0, void(), m2)
MOCK_METHOD(MOCK_STDCALL m3, 0, void(), m3)
MOCK_STATIC_METHOD(MOCK_STDCALL m4, 0, void(), m4)
};
MOCK_FUNCTION( MOCK_STDCALL f, 0, void(), f )
}
MOCK_FUNCTION(MOCK_STDCALL f, 0, void(), f)
} // namespace stdcall

95
test/test_object.cpp
View file

@ -7,102 +7,81 @@
// http://www.boost.org/LICENSE_1_0.txt)
#include "mock_error.hpp"
#include <turtle/detail/function.hpp>
#include <turtle/reset.hpp>
#include <turtle/verify.hpp>
#include <turtle/detail/function.hpp>
#include <boost/test/unit_test.hpp>
#include <memory>
namespace
{
struct object : mock::object
{};
namespace {
struct object : mock::object
{};
object static_o;
}
object static_o;
} // namespace
BOOST_FIXTURE_TEST_CASE( verifying_an_empty_object_succeeds, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(verifying_an_empty_object_succeeds, mock_error_fixture)
{
object o;
BOOST_CHECK( mock::verify( o ) );
BOOST_CHECK(mock::verify(o));
}
namespace
namespace {
struct fixture : mock_error_fixture
{
struct fixture : mock_error_fixture
{
fixture()
{
mock::detail::configure( o, e, "instance", mock::detail::make_type_name(o), "name" );
}
fixture() { mock::detail::configure(o, e, "instance", mock::detail::make_type_name(o), "name"); }
object o;
mock::detail::function< void() > e;
};
}
mock::detail::function<void()> e;
};
} // namespace
BOOST_FIXTURE_TEST_CASE( verifying_an_object_containing_a_failing_expectation_fails, fixture )
BOOST_FIXTURE_TEST_CASE(verifying_an_object_containing_a_failing_expectation_fails, fixture)
{
e.expect().once();
CHECK_ERROR(
BOOST_CHECK( ! mock::verify( o ) ),
"verification failed", 0, "instanceobject::name\n. once()" );
mock::reset( o );
BOOST_CHECK( mock::verify( o ) );
CHECK_ERROR(BOOST_CHECK(!mock::verify(o)), "verification failed", 0, "instanceobject::name\n. once()");
mock::reset(o);
BOOST_CHECK(mock::verify(o));
}
BOOST_FIXTURE_TEST_CASE( verifying_all_objects_with_one_of_them_containing_a_failing_expectation_fails, fixture )
BOOST_FIXTURE_TEST_CASE(verifying_all_objects_with_one_of_them_containing_a_failing_expectation_fails, fixture)
{
e.expect().once();
CHECK_ERROR(
BOOST_CHECK( ! mock::verify() ),
"verification failed", 0, "instanceobject::name\n. once()" );
CHECK_ERROR(BOOST_CHECK(!mock::verify()), "verification failed", 0, "instanceobject::name\n. once()");
mock::reset();
BOOST_CHECK( mock::verify() );
BOOST_CHECK(mock::verify());
}
BOOST_FIXTURE_TEST_CASE( resetting_an_object_containing_a_failing_expectation_and_verifying_it_succeeds, fixture )
BOOST_FIXTURE_TEST_CASE(resetting_an_object_containing_a_failing_expectation_and_verifying_it_succeeds, fixture)
{
e.expect().once();
mock::reset( o );
BOOST_CHECK( mock::verify( o ) );
mock::reset(o);
BOOST_CHECK(mock::verify(o));
}
BOOST_FIXTURE_TEST_CASE( an_object_is_assignable_by_sharing_its_state, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(an_object_is_assignable_by_sharing_its_state, mock_error_fixture)
{
object o1;
mock::detail::function< void() > e;
mock::detail::function<void()> e;
{
object o2;
mock::detail::configure( o2, e, "instance", mock::detail::make_type_name(o2), "name" );
mock::detail::configure(o2, e, "instance", mock::detail::make_type_name(o2), "name");
e.expect().once();
o1 = o2;
CHECK_ERROR(
BOOST_CHECK( ! mock::verify( o1 ) ),
"verification failed", 0, "instanceobject::name\n. once()" );
CHECK_ERROR(
BOOST_CHECK( ! mock::verify( o2 ) ),
"verification failed", 0, "instanceobject::name\n. once()" );
CHECK_ERROR(BOOST_CHECK(!mock::verify(o1)), "verification failed", 0, "instanceobject::name\n. once()");
CHECK_ERROR(BOOST_CHECK(!mock::verify(o2)), "verification failed", 0, "instanceobject::name\n. once()");
}
CHECK_ERROR(
BOOST_CHECK( ! mock::verify( o1 ) ),
"verification failed", 0, "instanceobject::name\n. once()" );
CHECK_ERROR(BOOST_CHECK(!mock::verify(o1)), "verification failed", 0, "instanceobject::name\n. once()");
}
BOOST_FIXTURE_TEST_CASE( an_object_is_copiable_by_sharing_its_state, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(an_object_is_copiable_by_sharing_its_state, mock_error_fixture)
{
auto o2 = std::make_unique<object>();
const object o1( *o2 );
mock::detail::function< void() > e;
mock::detail::configure( *o2, e, "instance", mock::detail::make_type_name(*o2), "name" );
const object o1(*o2);
mock::detail::function<void()> e;
mock::detail::configure(*o2, e, "instance", mock::detail::make_type_name(*o2), "name");
e.expect().once();
CHECK_ERROR(
BOOST_CHECK( ! mock::verify( *o2 ) ),
"verification failed", 0, "instanceobject::name\n. once()" );
CHECK_ERROR(
BOOST_CHECK( ! mock::verify( o1 ) ),
"verification failed", 0, "instanceobject::name\n. once()" );
CHECK_ERROR(BOOST_CHECK(!mock::verify(*o2)), "verification failed", 0, "instanceobject::name\n. once()");
CHECK_ERROR(BOOST_CHECK(!mock::verify(o1)), "verification failed", 0, "instanceobject::name\n. once()");
o2.reset();
CHECK_ERROR(
BOOST_CHECK( ! mock::verify( o1 ) ),
"verification failed", 0, "instanceobject::name\n. once()" );
CHECK_ERROR(BOOST_CHECK(!mock::verify(o1)), "verification failed", 0, "instanceobject::name\n. once()");
}

130
test/test_sequence.cpp
View file

@ -7,108 +7,110 @@
// http://www.boost.org/LICENSE_1_0.txt)
#include "mock_error.hpp"
#include <turtle/sequence.hpp>
#include <turtle/detail/function.hpp>
#include <turtle/sequence.hpp>
#include <boost/test/unit_test.hpp>
BOOST_FIXTURE_TEST_CASE( registering_to_a_sequence_and_calling_out_of_order_throws, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(registering_to_a_sequence_and_calling_out_of_order_throws, mock_error_fixture)
{
mock::sequence s;
mock::detail::function< void( int ) > e;
e.expect().once().with( 1 ).in( s );
e.expect().once().with( 2 ).in( s );
BOOST_CHECK_NO_THROW( e( 2 ) );
CHECK_ERROR( e( 1 ), "sequence failed", 1, "?( 1 )\n. once().with( 1 )\nv once().with( 2 )" );
mock::detail::function<void(int)> e;
e.expect().once().with(1).in(s);
e.expect().once().with(2).in(s);
BOOST_CHECK_NO_THROW(e(2));
CHECK_ERROR(e(1), "sequence failed", 1, "?( 1 )\n. once().with( 1 )\nv once().with( 2 )");
}
BOOST_FIXTURE_TEST_CASE( registering_to_a_sequence_and_calling_out_of_order_multiple_invocations_throws, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(registering_to_a_sequence_and_calling_out_of_order_multiple_invocations_throws,
mock_error_fixture)
{
mock::sequence s;
mock::detail::function< void( int ) > e;
e.expect().with( 1 ).in( s );
e.expect().once().with( 2 ).in( s );
BOOST_CHECK_NO_THROW( e( 1 ) );
BOOST_CHECK_NO_THROW( e( 2 ) );
CHECK_ERROR( e( 1 ), "sequence failed", 2, "?( 1 )\n. unlimited().with( 1 )\nv once().with( 2 )" );
mock::detail::function<void(int)> e;
e.expect().with(1).in(s);
e.expect().once().with(2).in(s);
BOOST_CHECK_NO_THROW(e(1));
BOOST_CHECK_NO_THROW(e(2));
CHECK_ERROR(e(1), "sequence failed", 2, "?( 1 )\n. unlimited().with( 1 )\nv once().with( 2 )");
}
BOOST_FIXTURE_TEST_CASE( registering_to_a_sequence_and_calling_in_order_is_valid, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(registering_to_a_sequence_and_calling_in_order_is_valid, mock_error_fixture)
{
mock::sequence s;
mock::detail::function< void( int ) > e;
e.expect().once().with( 1 ).in( s );
e.expect().once().with( 2 ).in( s );
BOOST_CHECK_NO_THROW( e( 1 ) );
BOOST_CHECK_NO_THROW( e( 2 ) );
BOOST_CHECK( e.verify() );
CHECK_CALLS( 2 );
mock::detail::function<void(int)> e;
e.expect().once().with(1).in(s);
e.expect().once().with(2).in(s);
BOOST_CHECK_NO_THROW(e(1));
BOOST_CHECK_NO_THROW(e(2));
BOOST_CHECK(e.verify());
CHECK_CALLS(2);
}
BOOST_FIXTURE_TEST_CASE( registering_to_a_sequence_and_multiply_calling_in_order_is_valid, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(registering_to_a_sequence_and_multiply_calling_in_order_is_valid, mock_error_fixture)
{
mock::sequence s;
mock::detail::function< void( int ) > e;
e.expect().exactly( 2 ).with( 1 ).in( s );
e.expect().exactly( 2 ).with( 2 ).in( s );
BOOST_CHECK_NO_THROW( e( 1 ) );
BOOST_CHECK_NO_THROW( e( 1 ) );
BOOST_CHECK_NO_THROW( e( 2 ) );
BOOST_CHECK_NO_THROW( e( 2 ) );
BOOST_CHECK( e.verify() );
CHECK_CALLS( 4 );
mock::detail::function<void(int)> e;
e.expect().exactly(2).with(1).in(s);
e.expect().exactly(2).with(2).in(s);
BOOST_CHECK_NO_THROW(e(1));
BOOST_CHECK_NO_THROW(e(1));
BOOST_CHECK_NO_THROW(e(2));
BOOST_CHECK_NO_THROW(e(2));
BOOST_CHECK(e.verify());
CHECK_CALLS(4);
}
BOOST_FIXTURE_TEST_CASE( registering_to_a_sequence_enforces_call_order_verification_between_two_different_expectations, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(registering_to_a_sequence_enforces_call_order_verification_between_two_different_expectations,
mock_error_fixture)
{
mock::sequence s;
mock::detail::function< void() > e1, e2;
e1.expect().once().in( s );
e2.expect().once().in( s );
BOOST_CHECK_NO_THROW( e2() );
CHECK_ERROR( e1(), "sequence failed", 1, "?()\n. once()" );
mock::detail::function<void()> e1, e2;
e1.expect().once().in(s);
e2.expect().once().in(s);
BOOST_CHECK_NO_THROW(e2());
CHECK_ERROR(e1(), "sequence failed", 1, "?()\n. once()");
}
BOOST_FIXTURE_TEST_CASE( destroying_a_sequence_does_not_remove_order_call_enforcement, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(destroying_a_sequence_does_not_remove_order_call_enforcement, mock_error_fixture)
{
mock::detail::function< void() > e1, e2;
mock::detail::function<void()> e1, e2;
{
mock::sequence s;
e1.expect().once().in( s );
e2.expect().once().in( s );
e1.expect().once().in(s);
e2.expect().once().in(s);
}
BOOST_CHECK_NO_THROW( e2() );
CHECK_ERROR( e1(), "sequence failed", 1, "?()\n. once()" );
BOOST_CHECK_NO_THROW(e2());
CHECK_ERROR(e1(), "sequence failed", 1, "?()\n. once()");
}
BOOST_FIXTURE_TEST_CASE( resetting_an_expectation_removes_it_from_order_call_enforcement, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(resetting_an_expectation_removes_it_from_order_call_enforcement, mock_error_fixture)
{
mock::sequence s;
mock::detail::function< void() > e1, e2;
e1.expect().once().in( s );
e2.expect().once().in( s );
mock::detail::function<void()> e1, e2;
e1.expect().once().in(s);
e2.expect().once().in(s);
e1.reset();
BOOST_CHECK_NO_THROW( e2() );
BOOST_CHECK( e1.verify() );
BOOST_CHECK( e2.verify() );
CHECK_CALLS( 1 );
BOOST_CHECK_NO_THROW(e2());
BOOST_CHECK(e1.verify());
BOOST_CHECK(e2.verify());
CHECK_CALLS(1);
}
BOOST_FIXTURE_TEST_CASE( an_expectation_can_be_used_in_several_sequences, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(an_expectation_can_be_used_in_several_sequences, mock_error_fixture)
{
mock::sequence s1, s2;
mock::detail::function< void() > e;
e.expect().once().in( s1, s2 );
BOOST_CHECK_NO_THROW( e() );
BOOST_CHECK( e.verify() );
CHECK_CALLS( 1 );
mock::detail::function<void()> e;
e.expect().once().in(s1, s2);
BOOST_CHECK_NO_THROW(e());
BOOST_CHECK(e.verify());
CHECK_CALLS(1);
}
BOOST_FIXTURE_TEST_CASE( a_result_specification_is_set_after_a_sequence, mock_error_fixture )
BOOST_FIXTURE_TEST_CASE(a_result_specification_is_set_after_a_sequence, mock_error_fixture)
{
mock::sequence s;
mock::detail::function< int() > e;
e.expect().once().in( s ).returns( 3 );
BOOST_CHECK_EQUAL( 3, e() );
BOOST_CHECK( e.verify() );
CHECK_CALLS( 1 );
mock::detail::function<int()> e;
e.expect().once().in(s).returns(3);
BOOST_CHECK_EQUAL(3, e());
BOOST_CHECK(e.verify());
CHECK_CALLS(1);
}