#ifndef BOOST_CONTRACT_MACRO_HPP_
#define BOOST_CONTRACT_MACRO_HPP_
// Copyright (C) 2008-2018 Lorenzo Caminiti
// Distributed under the Boost Software License, Version 1.0 (see accompanying
// file LICENSE_1_0.txt or a copy at http://www.boost.org/LICENSE_1_0.txt).
// See: http://www.boost.org/doc/libs/release/libs/contract/doc/html/index.html
/** @file
Allow to disable contracts to completely remove their compile-time and run-time
overhead.
This header also includes all headers file boost/contract/\*.hpp that are
necessary to use its macros.
Almost all the macros defined in this header file are variadic macros. On
compilers that do not support variadic macros, programmers can manually code
\#ifndef BOOST_CONTRACT_NO_... statements instead (see
@RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation}).
*/
// IMPORTANT: Following headers can always be #included (without any #if-guard)
// because they expand to trivial code that does not affect compile-time. These
// headers must always be #included here (without any #if-guard) because they
// define types and macros that are typically left in user code even when
// contracts are disables (these types and macros never affect run-time and
// their definitions are trivial when contracts are disabled so their impact on
// compile-time is negligible).
#include
#include
#include
#include
#include
#include
#include
#include
#ifndef BOOST_CONTRACT_NO_CONDITIONS
#include
#endif
#ifdef BOOST_CONTRACT_DETAIL_DOXYGEN
/**
Program preconditions that can be completely disabled at compile-time.
@c BOOST_CONTRACT_PRECONDITION(f) expands to code equivalent to the
following (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_PRECONDITIONS} is defined):
@code
#ifndef BOOST_CONTRACT_NO_PRECONDITIONS
.precondition(f)
#endif
@endcode
Where:
@arg f is the nullay functor called by this library to
check preconditions @c f().
Assertions within this functor are usually programmed using
@RefMacro{BOOST_CONTRACT_ASSERT}, but any exception thrown by a call
to this functor indicates a contract assertion failure (and will
result in this library calling
@RefFunc{boost::contract::precondition_failure}).
This functor should capture variables by (constant) value, or better
by (constant) reference (to avoid extra copies).
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.preconditions, Preconditions}
*/
#define BOOST_CONTRACT_PRECONDITION(...)
#elif !defined(BOOST_CONTRACT_NO_PRECONDITIONS)
#define BOOST_CONTRACT_PRECONDITION(...) .precondition(__VA_ARGS__)
#else
#define BOOST_CONTRACT_PRECONDITION(...) /* nothing */
#endif
#ifdef BOOST_CONTRACT_DETAIL_DOXYGEN
/**
Program postconditions that can be completely disabled at compile-time.
@c BOOST_CONTRACT_POSTCONDITION(f) expands to code equivalent to the
following (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_POSTCONDITIONS} is defined):
@code
#ifndef BOOST_CONTRACT_NO_POSTCONDITIONS
.postcondition(f)
#endif
@endcode
Where:
@arg f is the functor called by this library to check
postconditions f(...).
Assertions within this functor are usually programmed using
@RefMacro{BOOST_CONTRACT_ASSERT}, but any exception thrown by a call
to this functor indicates a contract assertion failure (and will
result in this library calling
@RefFunc{boost::contract::postcondition_failure}).
This functor should capture variables by (constant) references (to
access the values they will have at function exit).
This functor takes the return value (preferably by const&) as
its one single parameter but only for virtual public functions and
public functions overrides, otherwise it takes no parameter.
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.postconditions, Postconditions}
*/
#define BOOST_CONTRACT_POSTCONDITION(...)
#elif !defined(BOOST_CONTRACT_NO_POSTCONDITIONS)
#define BOOST_CONTRACT_POSTCONDITION(...) .postcondition(__VA_ARGS__)
#else
#define BOOST_CONTRACT_POSTCONDITION(...) /* nothing */
#endif
#ifdef BOOST_CONTRACT_DETAIL_DOXYGEN
/**
Program exception guarantees that can be completely disabled at
compile-time.
@c BOOST_CONTRACT_EXCEPT(f) expands to code equivalent to the following
(note that no code is generated when @RefMacro{BOOST_CONTRACT_NO_EXCEPTS}
is defined):
@code
#ifndef BOOST_CONTRACT_NO_EXCEPTS
.except(f)
#endif
@endcode
Where:
@arg f is the nullary functor called by this library to
check exception guarantees @c f().
Assertions within this functor are usually programmed using
@RefMacro{BOOST_CONTRACT_ASSERT}, but any exception thrown by a call
to this functor indicates a contract assertion failure (and will
result in this library calling
@RefFunc{boost::contract::except_failure}).
This functor should capture variables by (constant) references (to
access the values they will have at function exit).
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.exception_guarantees, Exception Guarantees}
*/
#define BOOST_CONTRACT_EXCEPT(...)
#elif !defined(BOOST_CONTRACT_NO_EXCEPTS)
#define BOOST_CONTRACT_EXCEPT(...) .except(__VA_ARGS__)
#else
#define BOOST_CONTRACT_EXCEPT(...) /* nothing */
#endif
#ifdef BOOST_CONTRACT_DETAIL_DOXYGEN
/**
Program old value copies at body that can be completely disabled at
compile-time.
@c BOOST_CONTRACT_OLD(f) expands to code equivalent to the following (note
that no code is generated when @RefMacro{BOOST_CONTRACT_NO_OLDS} is
defined):
@code
#ifndef BOOST_CONTRACT_NO_OLDS
.old(f)
#endif
@endcode
Where:
@arg f is the nullary functor called by this library
@c f() to assign old value copies just before the body is execute
but after entry invariants (when they apply) and preconditions are
checked.
Old value pointers within this functor call are usually assigned
using @RefMacro{BOOST_CONTRACT_OLDOF}.
Any exception thrown by a call to this functor will result in
this library calling @RefFunc{boost::contract::old_failure} (because
old values could not be copied to check postconditions and exception
guarantees).
This functor should capture old value pointers by references so they
can be assigned (all other variables needed to evaluate old value
expressions can be captured by (constant) value, or better by
(constant) reference to avoid extra copies).
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{advanced.old_value_copies_at_body,
Old Value Copies at Body}
*/
#define BOOST_CONTRACT_OLD(...)
/**
Program old values that can be completely disabled at compile-time and
require the old value type to be copyable.
This is used to program old value copies for copyable types:
@code
class u {
public:
void f(...) {
BOOST_CONTRACT_OLD_PTR(old_type_a)(old_var_a);
BOOST_CONTRACT_OLD_PTR(old_type_b)(old_var_b, old_expr_b);
BOOST_CONTRACT_PUBLIC_FUNCTION(this)
...
BOOST_CONTRACT_OLD([&] {
old_var_a = BOOST_CONTRACT_OLDOF(old_expr_a);
...
})
...
;
... // Function body.
}
virtual void g(..., boost::contract::virtual_* v = 0) {
BOOST_CONTRACT_OLD_PTR(old_type_a)(old_var_a);
BOOST_CONTRACT_OLD_PTR(old_type_b)(v, old_var_b, old_expr_b);
BOOST_CONTRACT_PUBLIC_FUNCTION(v, this)
...
BOOST_CONTRACT_OLD([&] {
old_var_a = BOOST_CONTRACT_OLDOF(v, old_expr_a);
...
})
...
;
... // Function body.
}
...
};
@endcode
This is an overloaded variadic macro and it can be used in the following
different ways (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_OLDS} is defined).
1\. BOOST_CONTRACT_OLD_PTR(old_type)(old_var) expands to code
equivalent to the following (this leaves the old value pointer null):
@code
#ifndef BOOST_CONTRACT_NO_OLDS
// This declaration does not need to use `v`.
boost::contract::old_ptr old_var
#endif
@endcode
2\. BOOST_CONTRACT_OLD_PTR(old_type)(old_var, old_expr) expands to
code equivalent to the following (this initializes the pointer to the
old value copy, but not to be used for virtual public functions and
public function overrides):
@code
#ifndef BOOST_CONTRACT_NO_OLDS
boost::contract::old_ptr old_var =
BOOST_CONTRACT_OLDOF(old_expr)
#endif
@endcode
3\. BOOST_CONTRACT_OLD_PTR(old_type)(v, old_var, old_expr) expands to
code equivalent to the following (this initializes the pointer to the
old value copy for virtual public functions and public function
overrides):
@code
#ifndef BOOST_CONTRACT_NO_OLDS
boost::contract::old_ptr old_var =
BOOST_CONTRACT_OLDOF(v, old_expr)
#endif
@endcode
Where:
@arg old_type is the type of the pointed old value.
This type must be copyable (i.e.,
boost::contract::is_old_value_copyable::value is
@c true), otherwise this pointer will always be null and this
library will generate a compile-time error when the pointer is
dereferenced (see @RefMacro{BOOST_CONTRACT_OLD_PTR_IF_COPYABLE}).
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@arg v is the extra parameter of type
@RefClass{boost::contract::virtual_}* and default value @c 0
from the enclosing virtual public function or public function
override declaring the contract.
(This is not a variadic macro parameter.)
@arg old_var is the name of the old value pointer variable.
(This is not a variadic macro parameter but it should never contain
commas because it is an identifier.)
@arg old_expr is the expression to be evaluated and copied
in the old value pointer.
(This is not a variadic macro parameter so any comma it might
contain must be protected by round parenthesis,
BOOST_CONTRACT_OLD_PTR(old_type)(v, old_var, (old_expr))
will always work.)
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.old_values, Old Values}
*/
#define BOOST_CONTRACT_OLD_PTR(...)
/**
Program old values that can be completely disabled at compile-time and do
not require the old value type to be copyable.
This is used to program old value copies for types that might or might not
be copyable:
@code
template // Type `T` might or not be copyable.
class u {
public:
void f(...) {
BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(old_type_a)(old_var_a);
BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(old_type_b)(old_var_b,
old_expr_b);
BOOST_CONTRACT_PUBLIC_FUNCTION(this)
...
BOOST_CONTRACT_OLD([&] {
old_var_a = BOOST_CONTRACT_OLDOF(old_expr_a);
...
})
... // In postconditions or exception guarantees:
if(old_var_a) ... // Always null for non-copyable types.
if(old_var_b) ... // Always null for non-copyable types.
...
;
... // Function body.
}
virtual void g(..., boost::contract::virtual_* v = 0) {
BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(old_type_a)(old_var_a);
BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(old_type_b)(v, old_var_b,
old_expr_b);
BOOST_CONTRACT_PUBLIC_FUNCTION(v, this)
...
BOOST_CONTRACT_OLD([&] {
old_var_a = BOOST_CONTRACT_OLDOF(v, old_expr_a);
...
})
... // In postconditions or exception guarantees:
if(old_var_a) ... // Always null for non-copyable types.
if(old_var_b) ... // Always null for non-copyable types.
...
;
... // Function body.
}
...
};
@endcode
This is an overloaded variadic macro and it can be used in the following
different ways (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_OLDS} is defined).
1\. BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(old_type)(old_var) expands to
code equivalent to the following (this leaves the old value pointer
null):
@code
#ifndef BOOST_CONTRACT_NO_OLDS
// This declaration does not need to use `v`.
boost::contract::old_ptr_if_copyable old_var
#endif
@endcode
2\. BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(old_type)(old_var, old_expr)
expands to code equivalent to the following (this initializes the
pointer to the old value copy, but not to be used for virtual public
functions and public function overrides):
@code
#ifndef BOOST_CONTRACT_NO_OLDS
boost::contract::old_ptr_if_copyable old_var =
BOOST_CONTRACT_OLDOF(old_expr)
#endif
@endcode
3\. BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(old_type)(v, old_var,
old_expr) expands to code equivalent to the following (this
initializes the pointer to the old value copy for virtual public
functions and public function overrides):
@code
#ifndef BOOST_CONTRACT_NO_OLDS
boost::contract::old_ptr_if_copyable old_var =
BOOST_CONTRACT_OLDOF(v, old_expr)
#endif
@endcode
Where:
@arg old_type is the type of the pointed old value.
If this type is not copyable (i.e.,
boost::contract::is_old_value_copyable::value is
@c false), this pointer will always be null, but this library will
not generate a compile-time error when this pointer is dereferenced
(see @RefMacro{BOOST_CONTRACT_OLD_PTR}).
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@arg v is the extra parameter of type
@RefClass{boost::contract::virtual_}* and default value @c 0
from the enclosing virtual public function or public function
override declaring the contract.
(This is not a variadic macro parameter.)
@arg old_var is the name of the old value pointer variable.
(This is not a variadic macro parameter but it should never contain
commas because it is an identifier.)
@arg old_expr is the expression to be evaluated and copied
in the old value pointer.
(This is not a variadic macro parameter so any comma it might
contain must be protected by round parenthesis,
BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(old_type)(v, old_var,
(old_expr)) will always work.)
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{extras.old_value_requirements__templates_,
Old Value Requirements}
*/
#define BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(...)
#elif !defined(BOOST_CONTRACT_NO_OLDS)
#include
#include
#include
#include
/* PRIVATE */
#define BOOST_CONTRACT_OLD_VAR_1(ptr) \
ptr
#define BOOST_CONTRACT_OLD_VAR_2(ptr, expr) \
ptr = BOOST_CONTRACT_OLDOF(expr)
#define BOOST_CONTRACT_OLD_VAR_3(v, ptr, expr) \
ptr = BOOST_CONTRACT_OLDOF(v, expr)
#define BOOST_CONTRACT_OLD_VAR_(...) \
BOOST_PP_CAT(BOOST_PP_OVERLOAD(BOOST_CONTRACT_OLD_VAR_, __VA_ARGS__) \
(__VA_ARGS__), BOOST_PP_EMPTY())
/* PUBLIC */
#define BOOST_CONTRACT_OLD(...) .old(__VA_ARGS__)
#define BOOST_CONTRACT_OLD_PTR(...) \
boost::contract::old_ptr< __VA_ARGS__ > \
BOOST_CONTRACT_OLD_VAR_
#define BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(...) \
boost::contract::old_ptr_if_copyable< __VA_ARGS__ > \
BOOST_CONTRACT_OLD_VAR_
#else
#include
#define BOOST_CONTRACT_OLD(...) /* nothing */
#define BOOST_CONTRACT_OLD_PTR(...) BOOST_PP_TUPLE_EAT(0)
#define BOOST_CONTRACT_OLD_PTR_IF_COPYABLE(...) BOOST_PP_TUPLE_EAT(0)
#endif
#ifdef BOOST_CONTRACT_DETAIL_DOXYGEN
/**
Program (constant) class invariants that can be completely disabled at
compile-time.
@c BOOST_CONTRACT_INVARIANT({ ... }) expands to code equivalent to the
following (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_INVARIANTS} is defined):
@code
#ifndef BOOST_CONTRACT_NO_INVARIANTS
void BOOST_CONTRACT_INVARIANT_FUNC() const {
...
}
#endif
@endcode
Where:
@arg { ... } is the definition of the function that checks class
invariants for public functions that are not static and not volatile
(see @RefMacro{BOOST_CONTRACT_STATIC_INVARIANT} and
@RefMacro{BOOST_CONTRACT_INVARIANT_VOLATILE}).
The curly parenthesis are mandatory.
Assertions within this function are usually programmed using
@RefMacro{BOOST_CONTRACT_ASSERT}, but any exception thrown by a call
to this function indicates a contract assertion failure (and will
result in this library calling either
@RefFunc{boost::contract::entry_invariant_failure} or
@RefFunc{boost::contract::exit_invariant_failure}).
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.class_invariants, Class Invariants}
*/
#define BOOST_CONTRACT_INVARIANT(...)
/**
Program volatile class invariants that can be completely disabled at
compile-time.
@c BOOST_CONTRACT_INVARIANT_VOLATILE({ ... }) expands to code equivalent to
the following (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_INVARIANTS} is defined):
@code
#ifndef BOOST_CONTRACT_NO_INVARIANTS
void BOOST_CONTRACT_INVARIANT_FUNC() const volatile {
...
}
#endif
@endcode
Where:
@arg { ... } is the definition of the function that checks class
invariants for volatile public functions
(see @RefMacro{BOOST_CONTRACT_INVARIANT} and
@RefMacro{BOOST_CONTRACT_STATIC_INVARIANT}).
The curly parenthesis are mandatory.
Assertions within this function are usually programmed using
@RefMacro{BOOST_CONTRACT_ASSERT}, but any exception thrown by a call
to this function indicates a contract assertion failure (and will
result in this library calling either
@RefFunc{boost::contract::entry_invariant_failure} or
@RefFunc{boost::contract::exit_invariant_failure}).
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{extras.volatile_public_functions,
Volatile Public Functions}
*/
#define BOOST_CONTRACT_INVARIANT_VOLATILE(...)
/**
Program static class invariants that can be completely disabled at
compile-time.
@c BOOST_CONTRACT_STATIC_INVARIANT({ ... }) expands to code equivalent to
the following (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_INVARIANTS} is defined):
@code
#ifndef BOOST_CONTRACT_NO_INVARIANTS
static void BOOST_CONTRACT_STATIC_INVARIANT_FUNC() {
...
}
#endif
@endcode
Where:
@arg { ... } is the definition of the function that checks class
invariants for static public functions
(see @RefMacro{BOOST_CONTRACT_INVARIANT} and
@RefMacro{BOOST_CONTRACT_INVARIANT_VOLATILE}).
The curly parenthesis are mandatory.
Assertions within this function are usually programmed using
@RefMacro{BOOST_CONTRACT_ASSERT}, but any exception thrown by a call
to this function indicates a contract assertion failure (and will
result in this library calling either
@RefFunc{boost::contract::entry_invariant_failure} or
@RefFunc{boost::contract::exit_invariant_failure}).
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.class_invariants, Class Invariants}
*/
#define BOOST_CONTRACT_STATIC_INVARIANT(...)
#elif !defined(BOOST_CONTRACT_NO_INVARIANTS)
#include
#define BOOST_CONTRACT_INVARIANT(...) \
void BOOST_CONTRACT_INVARIANT_FUNC() const __VA_ARGS__
#define BOOST_CONTRACT_INVARIANT_VOLATILE(...) \
void BOOST_CONTRACT_INVARIANT_FUNC() const volatile __VA_ARGS__
#define BOOST_CONTRACT_STATIC_INVARIANT(...) \
static void BOOST_CONTRACT_STATIC_INVARIANT_FUNC() __VA_ARGS__
#else
#define BOOST_CONTRACT_INVARIANT(...) /* nothing */
#define BOOST_CONTRACT_INVARIANT_VOLATILE(...) /* nothing */
#define BOOST_CONTRACT_STATIC_INVARIANT(...) /* nothing */
#endif
#ifdef BOOST_CONTRACT_DETAIL_DOXYGEN
/**
Program contracts that can be completely disabled at compile-time for
constructors.
This is used together with @RefMacro{BOOST_CONTRACT_POSTCONDITION},
@RefMacro{BOOST_CONTRACT_EXCEPT}, and @RefMacro{BOOST_CONTRACT_OLD} to
specify postconditions, exception guarantees, and old value copies at body
that can be completely disabled at compile-time for constructors (see
@RefMacro{BOOST_CONTRACT_CONSTRUCTOR_PRECONDITION} to specify preconditions
for constructors):
@code
class u {
friend class boost::contract::access;
BOOST_CONTRACT_INVARIANT({ // Optional (as for static and volatile).
BOOST_CONTRACT_ASSERT(...);
...
})
public:
u(...) {
BOOST_CONTRACT_OLD_PTR(old_type)(old_var);
BOOST_CONTRACT_CONSTRUCTOR(this)
// No `PRECONDITION` (use `CONSTRUCTOR_PRECONDITION` if needed).
BOOST_CONTRACT_OLD([&] { // Optional.
old_var = BOOST_CONTRACT_OLDOF(old_epxr);
...
})
BOOST_CONTRACT_POSTCONDITION([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_EXCEPT([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
;
... // Constructor body.
}
...
};
@endcode
For optimization, this can be omitted for constructors that do not have
postconditions and exception guarantees, within classes that have no
invariants.
@c BOOST_CONTRACT_CONSTRUCTOR(obj) expands to code equivalent to the
following (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_CONSTRUCTORS} is defined):
@code
#ifndef BOOST_CONTRACT_NO_CONSTRUCTORS
boost::contract::check internal_var =
boost::contract::constructor(obj)
#endif
@endcode
Where:
@arg obj is the object @c this from the scope of the
enclosing constructor declaring the contract.
Constructors check all class invariants, including static and
volatile invariants (see @RefMacro{BOOST_CONTRACT_INVARIANT},
@RefMacro{BOOST_CONTRACT_STATIC_INVARIANT}, and
@RefMacro{BOOST_CONTRACT_INVARIANT_VOLATILE}).
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@arg internal_var is a variable name internally generated
by this library (this name is unique but only on different line
numbers so this macro cannot be expanded multiple times on the same
line).
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.constructors, Constructors}
*/
#define BOOST_CONTRACT_CONSTRUCTOR(...)
#elif !defined(BOOST_CONTRACT_NO_CONSTRUCTORS)
#include
#include
#include
#define BOOST_CONTRACT_CONSTRUCTOR(...) \
boost::contract::check BOOST_CONTRACT_DETAIL_NAME2(c, __LINE__) = \
boost::contract::constructor(__VA_ARGS__)
#else
#define BOOST_CONTRACT_CONSTRUCTOR(...) /* nothing */
#endif
#ifdef BOOST_CONTRACT_DETAIL_DOXYGEN
/**
Program preconditions that can be disabled at compile-time for constructors.
This is used together with @RefMacro{BOOST_CONTRACT_CONSTRUCTOR} to specify
contracts for constructors.
Constructors that do not have preconditions do not use this macro.
When at least one of the class constructors uses this macro,
@RefClass{boost::contract::constructor_precondition} must be the first and
private base class of the class declaring the constructor for which
preconditions are programmed:
@code
class u
#define BASES private boost::contract::constructor_precondition, \
public b
: BASES
{
...
#undef BASES
public:
explicit u(unsigned x) :
BOOST_CONTRACT_CONSTRUCTOR_PRECONDITION(u)([&] {
BOOST_CONTRACT_ASSERT(x != 0);
}),
b(1.0 / float(x))
{
...
}
...
};
@endcode
BOOST_CONTRACT_CONSTRUCTOR_PRECONDITION(class_type)(f) expands
to code equivalent to the following (note that when
@RefMacro{BOOST_CONTRACT_NO_PRECONDITIONS} is defined, this macro trivially
expands to a default constructor call that is internally implemented to do
nothing so this should have minimal to no overhead):
@code
// Guarded only by NO_PRECONDITIONS (and not also by NO_CONSTRUCTORS)
// because for constructor's preconditions (not for postconditions, etc.).
#ifndef BOOST_CONTRACT_NO_PRECONDITIONS
boost::contract::constructor_precondition(f)
#else
// No-op call (likely optimized away, minimal to no overhead).
boost::contract::constructor_precondition()
#endif
@endcode
Where:
@arg class_type is the type of the class containing the
constructor for which preconditions are being programmed.
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@arg f is the nullary functor called by this library to
check constructor preconditions @c f().
Assertions within this functor call are usually programmed using
@RefMacro{BOOST_CONTRACT_ASSERT}, but any exception thrown by a call
to this functor indicates a contract failure (and will result in
this library calling
@RefFunc{boost::contract::precondition_failure}).
This functor should capture variables by (constant) value, or better
by (constant) reference to avoid extra copies.
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.constructors, Constructors}
*/
#define BOOST_CONTRACT_CONSTRUCTOR_PRECONDITION(...)
#elif !defined(BOOST_CONTRACT_NO_PRECONDITIONS) // Not NO_CONSTRUCTORS here.
// constructor_precondition.hpp already #included at top.
#define BOOST_CONTRACT_CONSTRUCTOR_PRECONDITION(...) \
boost::contract::constructor_precondition< __VA_ARGS__ >
#else
#include
// constructor_precondition.hpp always #included at top of this file.
#define BOOST_CONTRACT_CONSTRUCTOR_PRECONDITION(...) \
/* always use default ctor (i.e., do nothing) */ \
boost::contract::constructor_precondition< __VA_ARGS__ >() \
BOOST_PP_TUPLE_EAT(0)
#endif
#ifdef BOOST_CONTRACT_DETAIL_DOXYGEN
/**
Program contracts that can be completely disabled at compile-time for
destructors.
This is used together with @RefMacro{BOOST_CONTRACT_POSTCONDITION},
@RefMacro{BOOST_CONTRACT_EXCEPT}, and @RefMacro{BOOST_CONTRACT_OLD} to
specify postconditions, exception guarantees, and old value copies at body
that can be completely disabled at compile-time for destructors (destructors
cannot have preconditions, see
@RefSect{contract_programming_overview.destructor_calls, Destructor Calls}):
@code
class u {
friend class boost::contract::access;
BOOST_CONTRACT_INVARIANT({ // Optional (as for static and volatile).
BOOST_CONTRACT_ASSERT(...);
...
})
public:
~u() {
BOOST_CONTRACT_OLD_PTR(old_type)(old_var);
BOOST_CONTRACT_DESTRUCTOR(this)
// No `PRECONDITION` (destructors have no preconditions).
BOOST_CONTRACT_OLD([&] { // Optional.
old_var = BOOST_CONTRACT_OLDOF(old_expr);
...
})
BOOST_CONTRACT_POSTCONDITION([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_EXCEPT([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
;
... // Destructor body.
}
...
};
@endcode
For optimization, this can be omitted for destructors that do not have
postconditions and exception guarantees, within classes that have no
invariants.
@c BOOST_CONTRACT_DESTRUCTOR(obj) expands to code equivalent to the
following (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_DESTRUCTORS} is defined):
@code
#ifndef BOOST_CONTRACT_NO_DESTRUCTORS
boost::contract::check internal_var =
boost::contract::destructor(obj)
#endif
@endcode
Where:
@arg obj is the object @c this from the scope of the
enclosing destructor declaring the contract.
Destructors check all class invariants, including static and
volatile invariants (see @RefSect{tutorial.class_invariants,
Class Invariants} and
@RefSect{extras.volatile_public_functions,
Volatile Public Functions}).
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@arg internal_var is a variable name internally generated
by this library (this name is unique but only on different line
numbers so this macro cannot be expanded multiple times on the same
line).
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.destructors, Destructors}
*/
#define BOOST_CONTRACT_DESTRUCTOR(...)
#elif !defined(BOOST_CONTRACT_NO_DESTRUCTORS)
#include
#include
#include
#define BOOST_CONTRACT_DESTRUCTOR(...) \
boost::contract::check BOOST_CONTRACT_DETAIL_NAME2(c, __LINE__) = \
boost::contract::destructor(__VA_ARGS__)
#else
#define BOOST_CONTRACT_DESTRUCTOR(...) /* nothing */
#endif
#ifdef BOOST_CONTRACT_DETAIL_DOXYGEN
/**
Program contracts that can be completely disabled at compile-time for
(non-public) functions.
This is used together with @RefMacro{BOOST_CONTRACT_PRECONDITION},
@RefMacro{BOOST_CONTRACT_POSTCONDITION}, @RefMacro{BOOST_CONTRACT_EXCEPT},
and @RefMacro{BOOST_CONTRACT_OLD} to specify preconditions, postconditions,
exception guarantees, and old value copies at body that can be completely
disabled at compile-time for (non-public) functions:
@code
void f(...) {
BOOST_CONTRACT_OLD_PTR(old_type)(old_var);
BOOST_CONTRACT_FUNCTION()
BOOST_CONTRACT_PRECONDITION([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_OLD([&] { // Optional.
old_var = BOOST_CONTRACT_OLDOF(old_expr);
...
})
BOOST_CONTRACT_POSTCONDITION([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_EXCEPT([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
;
... // Function body.
}
@endcode
This can be used to program contracts for non-member functions but also for
private and protected functions, lambda functions, loops, arbitrary blocks
of code, etc.
For optimization, this can be omitted for code that does not have
preconditions, postconditions, and exception guarantees.
@c BOOST_CONTRACT_FUNCTION() expands to code equivalent to the following
(note that no code is generated when @RefMacro{BOOST_CONTRACT_NO_FUNCTIONS}
is defined):
@code
#ifndef BOOST_CONTRACT_NO_FUNCTIONS
boost::contract::check internal_var =
boost::contract::function()
#endif
@endcode
Where:
@arg internal_var is a variable name internally generated
by this library (this name is unique but only on different line
numbers so this macro cannot be expanded multiple times on the same
line).
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.non_member_functions, Non-Member Functions},
@RefSect{advanced.private_and_protected_functions,
Private and Protected Functions},
@RefSect{advanced.lambdas__loops__code_blocks__and__constexpr__,
Lambdas\, Loops\, Code Blocks}
*/
#define BOOST_CONTRACT_FUNCTION()
#elif !defined(BOOST_CONTRACT_NO_FUNCTIONS)
#include
#include
#include
#define BOOST_CONTRACT_FUNCTION() \
boost::contract::check BOOST_CONTRACT_DETAIL_NAME2(c, __LINE__) = \
boost::contract::function()
#else
#include
#define BOOST_CONTRACT_FUNCTION() /* nothing */
#endif
#ifdef BOOST_CONTRACT_DETAIL_DOXYGEN
/**
Program contracts that can be completely disabled at compile-time for static
public functions.
This is used together with @RefMacro{BOOST_CONTRACT_PRECONDITION},
@RefMacro{BOOST_CONTRACT_POSTCONDITION}, @RefMacro{BOOST_CONTRACT_EXCEPT},
and @RefMacro{BOOST_CONTRACT_OLD} to specify preconditions, postconditions,
exception guarantees, and old value copies at body that can be completely
disabled at compile-time for static public functions:
@code
class u {
friend class boost::contract::access;
BOOST_CONTRACT_STATIC_INVARIANT({ // Optional (as for non-static).
BOOST_CONTRACT_ASSERT(...);
...
})
public:
static void f(...) {
BOOST_CONTRACT_OLD_PTR(old_type)(old_var);
BOOST_CONTRACT_PUBLIC_FUNCTION(u)
BOOST_CONTRACT_PRECONDITION([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_OLD([&] { // Optional.
old_var = BOOST_CONTRACT_OLDOF(old_expr);
...
})
BOOST_CONTRACT_POSTCONDITION([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_EXCEPT([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
;
... // Function body.
}
...
};
@endcode
For optimization, this can be omitted for static public functions that do
not have preconditions, postconditions and exception guarantees, within
classes that have no static invariants.
@c BOOST_CONTRACT_STATIC_PUBLIC_FUNCTION(class_type) expands to code
equivalent to the following (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_PUBLIC_FUNCTIONS} is defined):
@code
#ifndef BOOST_CONTRACT_NO_PUBLIC_FUNCTIONS
boost::contract::check internal_var =
boost::contract::public_function()
#endif
@endcode
Where:
@arg class_type is the type of the class containing the
static public function declaring the contract.
(This is a variadic macro parameter so it can contain commas not
protected by round parenthesis.)
@arg internal_var is a variable name internally generated
by this library (this name is unique but only on different line
numbers so this macro cannot be expanded multiple times on the same
line).
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.static_public_functions, Static Public Functions}
*/
#define BOOST_CONTRACT_STATIC_PUBLIC_FUNCTION(...)
/**
Program contracts that can be completely disabled at compile-time for
non-static public functions that do not override.
This is used together with @RefMacro{BOOST_CONTRACT_PRECONDITION},
@RefMacro{BOOST_CONTRACT_POSTCONDITION}, @RefMacro{BOOST_CONTRACT_EXCEPT},
and @RefMacro{BOOST_CONTRACT_OLD} to specify preconditions, postconditions,
exception guarantees, and old value copies at body that can be completely
disabled at compile-time for non-static public functions (virtual or not,
void or not) that do not override:
@code
class u {
friend class boost::contract::access;
BOOST_CONTRACT_INVARIANT({ // Optional (as for static and volatile).
BOOST_CONTRACT_ASSERT(...);
...
})
public:
// Non-virtual (same if void).
t f(...) {
t result;
BOOST_CONTRACT_OLD_PTR(old_type)(old_var);
BOOST_CONTRACT_PUBLIC_FUNCTION(this)
BOOST_CONTRACT_PRECONDITION([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_OLD([&] { // Optional.
old_var = BOOST_CONTRACT_OLDOF(old_expr);
...
})
BOOST_CONTRACT_POSTCONDITION([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_EXCEPT([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
;
... // Function body (use `return result = return_expr`).
}
// Virtual and void.
virtual void g(..., boost::contract::virtual_* v = 0) {
BOOST_CONTRACT_OLD_PTR(old_type)(old_var);
BOOST_CONTRACT_PUBLIC_FUNCTION(v, this)
...
BOOST_CONTRACT_OLD([&] { // Optional.
old_var = BOOST_CONTRACT_OLDOF(v, old_expr);
...
})
...
;
... // Function body.
}
// Virtual and non-void.
virtual t h(..., boost::contract::virtual_* v = 0) {
t result;
BOOST_CONTRACT_OLD_PTR(old_type)(old_var);
BOOST_CONTRACT_PUBLIC_FUNCTION(v, result, this)
...
BOOST_CONTRACT_OLD([&] { // Optional.
old_var = BOOST_CONTRACT_OLDOF(v, old_expr);
...
})
BOOST_CONTRACT_POSTCONDITION([&] (t const& result) { // Optional
BOOST_CONTRACT_ASSERT(...);
...
})
...
;
... // Function body (use `return result = return_expr`).
}
...
};
@endcode
For optimization, this can be omitted for non-virtual public functions that
do not have preconditions, postconditions and exception guarantees, within
classes that have no invariants.
Virtual public functions should always use
@RefMacro{BOOST_CONTRACT_PUBLIC_FUNCTION} otherwise this library will not
be able to correctly use them for subcontracting.
This is an overloaded variadic macro and it can be used in the following
different ways (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_PUBLIC_FUNCTIONS} is defined).
1\. BOOST_CONTRACT_PUBLIC_FUNCTION(obj) expands to code
equivalent to the following (for non-virtual public functions that are
not static and do not override, returning void or not):
@code
#ifndef BOOST_CONTRACT_NO_PUBLIC_FUNCTIONS
boost::contract::check internal_var =
boost::contract::public_function(obj)
#endif
@endcode
2\. BOOST_CONTRACT_PUBLIC_FUNCTION(v, obj) expands to code
equivalent to the following (for virtual public functions that are
not static and do not override, returning void):
@code
#ifndef BOOST_CONTRACT_NO_PUBLIC_FUNCTIONS
boost::contract::check internal_var =
boost::contract::public_function(v, obj)
#endif
@endcode
3\. BOOST_CONTRACT_PUBLIC_FUNCTION(v, r, obj) expands to code
equivalent to the following (for virtual public functions that are
not static and do not override, not returning void):
@code
#ifndef BOOST_CONTRACT_NO_PUBLIC_FUNCTIONS
boost::contract::check internal_var =
boost::contract::public_function(v, r, obj)
#endif
@endcode
Where (these are all variadic macro parameters so they can contain commas
not protected by round parenthesis):
@arg v is the extra parameter of type
@RefClass{boost::contract::virtual_}* and default value @c 0
from the enclosing virtual public function declaring the contract.
@arg r is a reference to the return value of the enclosing
virtual public function declaring the contract.
This is usually a local variable declared by the enclosing virtual
public function just before the contract, but programmers must set
it to the actual value being returned by the function at each
@c return statement.
@arg obj is the object @c this from the scope of the
enclosing public function declaring the contract.
This object might be mutable, @c const, @c volatile, or
const volatile depending on the cv-qualifier of the enclosing
function (volatile public functions will check volatile class
invariants, see @RefSect{extras.volatile_public_functions,
Volatile Public Functions}).
@arg internal_var is a variable name internally generated
by this library (this name is unique but only on different line
numbers so this macro cannot be expanded multiple times on the same
line).
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.public_functions, Public Functions},
@RefSect{tutorial.virtual_public_functions,
Virtual Public Functions}
*/
#define BOOST_CONTRACT_PUBLIC_FUNCTION(...)
/**
Program contracts that can be completely disabled at compile-time for
public function overrides.
This is used together with @RefMacro{BOOST_CONTRACT_PRECONDITION},
@RefMacro{BOOST_CONTRACT_POSTCONDITION}, @RefMacro{BOOST_CONTRACT_EXCEPT},
and @RefMacro{BOOST_CONTRACT_OLD} to specify preconditions, postconditions,
exception guarantees, and old value copies at body that can be completely
disabled at compile-time for public function overrides (virtual or not):
@code
class u
#define BASES private boost::contract::constructor_precondition, \
public b, private w
: BASES
{
friend class boost::contract::access;
typedef BOOST_CONTRACT_BASE_TYPES(BASES) base_types;
#undef BASES
BOOST_CONTRACT_INVARIANT({ // Optional (as for static and volatile).
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_OVERRIDES(f, g)
public:
// Override from `b::f`, and void.
void f(t_1 a_1, ..., t_n a_n, boost::contract::virtual_* v = 0) {
BOOST_CONTRACT_OLD_PTR(old_type)(old_var);
BOOST_CONTRACT_PUBLIC_FUNCTION_OVERRIDE(override_f)(
v, &u::f, this, a_1, ..., a_n)
BOOST_CONTRACT_PRECONDITION([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_OLD([&] { // Optional.
old_var = BOOST_CONTRACT_OLDOF(v, old_expr);
...
})
BOOST_CONTRACT_POSTCONDITION([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
BOOST_CONTRACT_EXCEPT([&] { // Optional.
BOOST_CONTRACT_ASSERT(...);
...
})
;
... // Function body.
}
// Override from `b::g`, and void.
t g(t_1 a_1, ..., t_n a_n, boost::contract::virtual_* v = 0) {
t result;
BOOST_CONTRACT_OLD_PTR(old_type)(old_var);
BOOST_CONTRACT_PUBLIC_FUNCTION_OVERRIDE(override_g)(
v, result, &u::g, this, a_1, ..., a_n)
...
BOOST_CONTRACT_OLD([&] { // Optional.
old_var = BOOST_CONTRACT_OLDOF(v, old_expr);
...
})
BOOST_CONTRACT_POSTCONDITION([&] (t const& result) { // Optional
BOOST_CONTRACT_ASSERT(...);
...
})
...
;
... // Function body (use `return result = return_expr`).
}
...
};
@endcode
Public function overrides should always use
@RefMacro{BOOST_CONTRACT_PUBLIC_FUNCTION_OVERRIDE} otherwise this library
will not be able to correctly use it for subcontracting.
This is an overloaded variadic macro and it can be used in the following
different ways (note that no code is generated when
@RefMacro{BOOST_CONTRACT_NO_PUBLIC_FUNCTIONS} is defined).
1\. BOOST_CONTRACT_PUBLIC_FUNCTION_OVERRIDE(override_type)(v, f, obj,
...) expands to code equivalent to the following (for public
function overrides that return void):
@code
#ifndef BOOST_CONTRACT_NO_PUBLIC_FUNCTIONS
boost::contract::check internal_var = boost::contract::
public_function(v, f, obj, ...)
#endif
@endcode
2\. BOOST_CONTRACT_PUBLIC_FUNCTION_OVERRIDE(override_type)(v, r, f, obj,
...) expands to code equivalent to the following (for public
function overrides that do not return void):
@code
#ifndef BOOST_CONTRACT_NO_PUBLIC_FUNCTIONS
boost::contract::check internal_var = boost::contract::
public_function(v, r, f, obj, ...)
#endif
@endcode
Where (these are all variadic macro parameters so they can contain commas
not protected by round parenthesis):
@arg override_type is the type
override_function-name declared using the
@RefMacro{BOOST_CONTRACT_OVERRIDE} or related macros.
@arg v is the extra parameter of type
@RefClass{boost::contract::virtual_}* and default value @c 0
from the enclosing virtual public function declaring the contract.
@arg r is a reference to the return value of the enclosing
virtual public function declaring the contract.
This is usually a local variable declared by the enclosing virtual
public function just before the contract, but programmers must set
it to the actual value being returned by the function at each
@c return statement.
@arg f is a pointer to the enclosing public function
override declaring the contract.
@arg obj is the object @c this from the scope of the
enclosing public function declaring the contract.
This object might be mutable, @c const, @c volatile, or
const volatile depending on the cv-qualifier of the enclosing
function (volatile public functions will check volatile class
invariants, see @RefSect{extras.volatile_public_functions,
Volatile Public Functions}).
@arg ... is a variadic macro parameter listing all the
arguments passed to the enclosing public function override declaring
the contract (by reference and in order they appear in the enclosing
function declaration), but excluding the trailing argument @c v.
@arg internal_var is a variable name internally generated
by this library (this name is unique but only on different line
numbers so this macro cannot be expanded multiple times on the same
line).
@see @RefSect{extras.disable_contract_compilation__macro_interface_,
Disable Contract Compilation},
@RefSect{tutorial.public_function_overrides__subcontracting_,
Public Function Overrides}
*/
#define BOOST_CONTRACT_PUBLIC_FUNCTION_OVERRIDE(...)
#elif !defined(BOOST_CONTRACT_NO_PUBLIC_FUNCTIONS)
#include
#include
#include
#define BOOST_CONTRACT_STATIC_PUBLIC_FUNCTION(...) \
boost::contract::check BOOST_CONTRACT_DETAIL_NAME2(c, __LINE__) = \
boost::contract::public_function< __VA_ARGS__ >()
#define BOOST_CONTRACT_PUBLIC_FUNCTION(...) \
boost::contract::check BOOST_CONTRACT_DETAIL_NAME2(c, __LINE__) = \
boost::contract::public_function(__VA_ARGS__)
#define BOOST_CONTRACT_PUBLIC_FUNCTION_OVERRIDE(...) \
boost::contract::check BOOST_CONTRACT_DETAIL_NAME2(c, __LINE__) = \
boost::contract::public_function<__VA_ARGS__>
#else
#include
#define BOOST_CONTRACT_STATIC_PUBLIC_FUNCTION(...) /* nothing */
#define BOOST_CONTRACT_PUBLIC_FUNCTION(...) /* nothing */
#define BOOST_CONTRACT_PUBLIC_FUNCTION_OVERRIDE(...) BOOST_PP_TUPLE_EAT(0)
#endif
#endif // #include guard