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#!/usr/bin/env python
# Copyright (c) 2011 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
import string
import sys
HEADER = """\
// Copyright (c) 2011 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// This file automatically generated by testing/generate_gmock_mutant.py.
// DO NOT EDIT.
#ifndef TESTING_GMOCK_MUTANT_H_
#define TESTING_GMOCK_MUTANT_H_
// The intention of this file is to make possible using GMock actions in
// all of its syntactic beauty. Classes and helper functions can be used as
// more generic variants of Task and Callback classes (see base/task.h)
// Mutant supports both pre-bound arguments (like Task) and call-time
// arguments (like Callback) - hence the name. :-)
//
// DispatchToMethod/Function supports two sets of arguments: pre-bound (P) and
// call-time (C). The arguments as well as the return type are templatized.
// DispatchToMethod/Function will also try to call the selected method or
// function even if provided pre-bound arguments does not match exactly with
// the function signature hence the X1, X2 ... XN parameters in CreateFunctor.
// DispatchToMethod will try to invoke method that may not belong to the
// object's class itself but to the object's class base class.
//
// Additionally you can bind the object at calltime by binding a pointer to
// pointer to the object at creation time - before including this file you
// have to #define GMOCK_MUTANT_INCLUDE_LATE_OBJECT_BINDING.
//
// TODO(stoyan): It's yet not clear to me should we use T& and T&* instead
// of T* and T** when we invoke CreateFunctor to match the EXPECT_CALL style.
//
//
// Sample usage with gMock:
//
// struct Mock : public ObjectDelegate {
// MOCK_METHOD2(string, OnRequest(int n, const string& request));
// MOCK_METHOD1(void, OnQuit(int exit_code));
// MOCK_METHOD2(void, LogMessage(int level, const string& message));
//
// string HandleFlowers(const string& reply, int n, const string& request) {
// string result = SStringPrintf("In request of %d %s ", n, request);
// for (int i = 0; i < n; ++i) result.append(reply)
// return result;
// }
//
// void DoLogMessage(int level, const string& message) {
// }
//
// void QuitMessageLoop(int seconds) {
// MessageLoop* loop = MessageLoop::current();
// loop->PostDelayedTask(FROM_HERE, MessageLoop::QuitClosure(),
// 1000 * seconds);
// }
// };
//
// Mock mock;
// // Will invoke mock.HandleFlowers("orchids", n, request)
// // "orchids" is a pre-bound argument, and <n> and <request> are call-time
// // arguments - they are not known until the OnRequest mock is invoked.
// EXPECT_CALL(mock, OnRequest(Ge(5), StartsWith("flower"))
// .Times(1)
// .WillOnce(Invoke(CreateFunctor(&mock, &Mock::HandleFlowers,
// string("orchids"))));
//
//
// // No pre-bound arguments, two call-time arguments passed
// // directly to DoLogMessage
// EXPECT_CALL(mock, OnLogMessage(_, _))
// .Times(AnyNumber())
// .WillAlways(Invoke(CreateFunctor, &mock, &Mock::DoLogMessage));
//
//
// // In this case we have a single pre-bound argument - 3. We ignore
// // all of the arguments of OnQuit.
// EXCEPT_CALL(mock, OnQuit(_))
// .Times(1)
// .WillOnce(InvokeWithoutArgs(CreateFunctor(
// &mock, &Mock::QuitMessageLoop, 3)));
//
// MessageLoop loop;
// loop.Run();
//
//
// // Here is another example of how we can set an action that invokes
// // method of an object that is not yet created.
// struct Mock : public ObjectDelegate {
// MOCK_METHOD1(void, DemiurgeCreated(Demiurge*));
// MOCK_METHOD2(void, OnRequest(int count, const string&));
//
// void StoreDemiurge(Demiurge* w) {
// demiurge_ = w;
// }
//
// Demiurge* demiurge;
// }
//
// EXPECT_CALL(mock, DemiurgeCreated(_)).Times(1)
// .WillOnce(Invoke(CreateFunctor(&mock, &Mock::StoreDemiurge)));
//
// EXPECT_CALL(mock, OnRequest(_, StrEq("Moby Dick")))
// .Times(AnyNumber())
// .WillAlways(WithArgs<0>(Invoke(
// CreateFunctor(&mock->demiurge_, &Demiurge::DecreaseMonsters))));
//
#include "base/memory/linked_ptr.h"
#include "base/tuple.h" // for Tuple
namespace testing {"""
MUTANT = """\
// Interface that is exposed to the consumer, that does the actual calling
// of the method.
template <typename R, typename Params>
class MutantRunner {
public:
virtual R RunWithParams(const Params& params) = 0;
virtual ~MutantRunner() {}
};
// Mutant holds pre-bound arguments (like Task). Like Callback
// allows call-time arguments. You bind a pointer to the object
// at creation time.
template <typename R, typename T, typename Method,
typename PreBound, typename Params>
class Mutant : public MutantRunner<R, Params> {
public:
Mutant(T* obj, Method method, const PreBound& pb)
: obj_(obj), method_(method), pb_(pb) {
}
// MutantRunner implementation
virtual R RunWithParams(const Params& params) {
return DispatchToMethod<R>(this->obj_, this->method_, pb_, params);
}
T* obj_;
Method method_;
PreBound pb_;
};
template <typename R, typename Function, typename PreBound, typename Params>
class MutantFunction : public MutantRunner<R, Params> {
public:
MutantFunction(Function function, const PreBound& pb)
: function_(function), pb_(pb) {
}
// MutantRunner implementation
virtual R RunWithParams(const Params& params) {
return DispatchToFunction<R>(function_, pb_, params);
}
Function function_;
PreBound pb_;
};
#ifdef GMOCK_MUTANT_INCLUDE_LATE_OBJECT_BINDING
// MutantLateBind is like Mutant, but you bind a pointer to a pointer
// to the object. This way you can create actions for an object
// that is not yet created (has only storage for a pointer to it).
template <typename R, typename T, typename Method,
typename PreBound, typename Params>
class MutantLateObjectBind : public MutantRunner<R, Params> {
public:
MutantLateObjectBind(T** obj, Method method, const PreBound& pb)
: obj_(obj), method_(method), pb_(pb) {
}
// MutantRunner implementation.
virtual R RunWithParams(const Params& params) {
EXPECT_THAT(*this->obj_, testing::NotNull());
if (NULL == *this->obj_)
return R();
return DispatchToMethod<R>( *this->obj_, this->method_, pb_, params);
}
T** obj_;
Method method_;
PreBound pb_;
};
#endif
// Simple MutantRunner<> wrapper acting as a functor.
// Redirects operator() to MutantRunner<Params>::Run()
template <typename R, typename Params>
struct MutantFunctor {
explicit MutantFunctor(MutantRunner<R, Params>* cb) : impl_(cb) {
}
~MutantFunctor() {
}
inline R operator()() {
return impl_->RunWithParams(Tuple0());
}
template <typename Arg1>
inline R operator()(const Arg1& a) {
return impl_->RunWithParams(Params(a));
}
template <typename Arg1, typename Arg2>
inline R operator()(const Arg1& a, const Arg2& b) {
return impl_->RunWithParams(Params(a, b));
}
template <typename Arg1, typename Arg2, typename Arg3>
inline R operator()(const Arg1& a, const Arg2& b, const Arg3& c) {
return impl_->RunWithParams(Params(a, b, c));
}
template <typename Arg1, typename Arg2, typename Arg3, typename Arg4>
inline R operator()(const Arg1& a, const Arg2& b, const Arg3& c,
const Arg4& d) {
return impl_->RunWithParams(Params(a, b, c, d));
}
private:
// We need copy constructor since MutantFunctor is copied few times
// inside GMock machinery, hence no DISALLOW_EVIL_CONTRUCTORS
MutantFunctor();
linked_ptr<MutantRunner<R, Params> > impl_;
};
"""
FOOTER = """\
} // namespace testing
#endif // TESTING_GMOCK_MUTANT_H_"""
# Templates for DispatchToMethod/DispatchToFunction functions.
# template_params - typename P1, typename P2.. typename C1..
# prebound - TupleN<P1, .. PN>
# calltime - TupleN<C1, .. CN>
# args - p.a, p.b.., c.a, c.b..
DISPATCH_TO_METHOD_TEMPLATE = """\
template <typename R, typename T, typename Method, %(template_params)s>
inline R DispatchToMethod(T* obj, Method method,
const %(prebound)s& p,
const %(calltime)s& c) {
return (obj->*method)(%(args)s);
}
"""
DISPATCH_TO_FUNCTION_TEMPLATE = """\
template <typename R, typename Function, %(template_params)s>
inline R DispatchToFunction(Function function,
const %(prebound)s& p,
const %(calltime)s& c) {
return (*function)(%(args)s);
}
"""
# Templates for CreateFunctor functions.
# template_params - typename P1, typename P2.. typename C1.. typename X1..
# prebound - TupleN<P1, .. PN>
# calltime - TupleN<A1, .. AN>
# params - X1,.. , A1, ..
# args - const P1& p1 ..
# call_args - p1, p2, p3..
CREATE_METHOD_FUNCTOR_TEMPLATE = """\
template <typename R, typename T, typename U, %(template_params)s>
inline MutantFunctor<R, %(calltime)s>
CreateFunctor(T* obj, R (U::*method)(%(params)s), %(args)s) {
MutantRunner<R, %(calltime)s>* t =
new Mutant<R, T, R (U::*)(%(params)s),
%(prebound)s, %(calltime)s>
(obj, method, base::MakeTuple(%(call_args)s));
return MutantFunctor<R, %(calltime)s>(t);
}
"""
CREATE_FUNCTION_FUNCTOR_TEMPLATE = """\
template <typename R, %(template_params)s>
inline MutantFunctor<R, %(calltime)s>
CreateFunctor(R (*function)(%(params)s), %(args)s) {
MutantRunner<R, %(calltime)s>* t =
new MutantFunction<R, R (*)(%(params)s),
%(prebound)s, %(calltime)s>
(function, base::MakeTuple(%(call_args)s));
return MutantFunctor<R, %(calltime)s>(t);
}
"""
def SplitLine(line, width):
"""Splits a single line at comma, at most |width| characters long."""
if len(line) < width:
return (line, None)
n = 1 + line[:width].rfind(",")
if n == 0: # If comma cannot be found give up and return the entire line.
return (line, None)
# Assume there is a space after the comma
assert line[n] == " "
return (line[:n], line[n + 1:])
def Wrap(s, width, subsequent_offset=4):
"""Wraps a single line |s| at commas so every line is at most |width|
characters long.
"""
w = []
spaces = " " * subsequent_offset
while s:
(f, s) = SplitLine(s, width)
w.append(f)
if s:
s = spaces + s
return "\n".join(w)
def Clean(s):
"""Cleans artifacts from generated C++ code.
Our simple string formatting/concatenation may introduce extra commas.
"""
s = s.replace("<>", "")
s = s.replace(", >", ">")
s = s.replace(", )", ")")
s = s.replace(">>", "> >")
return s
def ExpandPattern(pattern, it):
"""Return list of expanded pattern strings.
Each string is created by replacing all '%' in |pattern| with element of |it|.
"""
return [pattern.replace("%", x) for x in it]
def Gen(pattern, n):
"""Expands pattern replacing '%' with sequential integers.
Expanded patterns will be joined with comma separator.
GenAlphs("X%", 3) will return "X1, X2, X3".
"""
it = string.hexdigits[1:n + 1]
return ", ".join(ExpandPattern(pattern, it))
def GenAlpha(pattern, n):
"""Expands pattern replacing '%' with sequential small ASCII letters.
Expanded patterns will be joined with comma separator.
GenAlphs("X%", 3) will return "Xa, Xb, Xc".
"""
it = string.ascii_lowercase[0:n]
return ", ".join(ExpandPattern(pattern, it))
def Merge(a):
return ", ".join(filter(len, a))
def GenTuple(pattern, n):
return Clean("Tuple%d<%s>" % (n, Gen(pattern, n)))
def FixCode(s):
lines = Clean(s).splitlines()
# Wrap sometimes very long 1st and 3rd line at 80th column.
lines[0] = Wrap(lines[0], 80, 10)
lines[2] = Wrap(lines[2], 80, 4)
return "\n".join(lines)
def GenerateDispatch(prebound, calltime):
print "\n// %d - %d" % (prebound, calltime)
args = {
"template_params": Merge([Gen("typename P%", prebound),
Gen("typename C%", calltime)]),
"prebound": GenTuple("P%", prebound),
"calltime": GenTuple("C%", calltime),
"args": Merge([GenAlpha("p.%", prebound), GenAlpha("c.%", calltime)]),
}
print FixCode(DISPATCH_TO_METHOD_TEMPLATE % args)
print FixCode(DISPATCH_TO_FUNCTION_TEMPLATE % args)
def GenerateCreateFunctor(prebound, calltime):
print "// %d - %d" % (prebound, calltime)
args = {
"calltime": GenTuple("A%", calltime),
"prebound": GenTuple("P%", prebound),
"params": Merge([Gen("X%", prebound), Gen("A%", calltime)]),
"args": Gen("const P%& p%", prebound),
"call_args": Gen("p%", prebound),
"template_params": Merge([Gen("typename P%", prebound),
Gen("typename A%", calltime),
Gen("typename X%", prebound)])
}
mutant = FixCode(CREATE_METHOD_FUNCTOR_TEMPLATE % args)
print mutant
# Slightly different version for free function call.
print "\n", FixCode(CREATE_FUNCTION_FUNCTOR_TEMPLATE % args)
# Functor with pointer to a pointer of the object.
print "\n#ifdef GMOCK_MUTANT_INCLUDE_LATE_OBJECT_BINDING"
mutant2 = mutant.replace("CreateFunctor(T* obj,", "CreateFunctor(T** obj,")
mutant2 = mutant2.replace("new Mutant", "new MutantLateObjectBind")
mutant2 = mutant2.replace(" " * 17 + "Tuple", " " * 31 + "Tuple")
print mutant2
print "#endif // GMOCK_MUTANT_INCLUDE_LATE_OBJECT_BINDING\n"
# OS_WIN specific. Same functors but with stdcall calling conventions.
# Functor for method with __stdcall calling conventions.
print "#if defined (OS_WIN)"
stdcall_method = CREATE_METHOD_FUNCTOR_TEMPLATE
stdcall_method = stdcall_method.replace("U::", "__stdcall U::")
stdcall_method = FixCode(stdcall_method % args)
print stdcall_method
# Functor for free function with __stdcall calling conventions.
stdcall_function = CREATE_FUNCTION_FUNCTOR_TEMPLATE
stdcall_function = stdcall_function.replace("R (*", "R (__stdcall *");
print "\n", FixCode(stdcall_function % args)
print "#ifdef GMOCK_MUTANT_INCLUDE_LATE_OBJECT_BINDING"
stdcall2 = stdcall_method;
stdcall2 = stdcall2.replace("CreateFunctor(T* obj,", "CreateFunctor(T** obj,")
stdcall2 = stdcall2.replace("new Mutant", "new MutantLateObjectBind")
stdcall2 = stdcall2.replace(" " * 17 + "Tuple", " " * 31 + "Tuple")
print stdcall2
print "#endif // GMOCK_MUTANT_INCLUDE_LATE_OBJECT_BINDING"
print "#endif // OS_WIN\n"
def main():
print HEADER
for prebound in xrange(0, 6 + 1):
for args in xrange(0, 6 + 1):
GenerateDispatch(prebound, args)
print MUTANT
for prebound in xrange(0, 6 + 1):
for args in xrange(0, 6 + 1):
GenerateCreateFunctor(prebound, args)
print FOOTER
return 0
if __name__ == "__main__":
sys.exit(main())
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