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IMP Reference Guide
2.8.0
The Integrative Modeling Platform
IMP Manual
Reference Guide
Modules
Classes
Examples
include
IMP
version 2.8.0
comparison_macros.h
Go to the documentation of this file.
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/**
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* \file IMP/comparison_macros.h
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* \brief Various general useful macros for IMP.
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*
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* Copyright 2007-2017 IMP Inventors. All rights reserved.
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*
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*/
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#ifndef IMPKERNEL_COMPARISON_MACROS_H
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#define IMPKERNEL_COMPARISON_MACROS_H
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#include <IMP/kernel_config.h>
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#include "
warning_macros.h
"
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#if defined(IMP_DOXYGEN)
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/** \name Comparisons
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Helper macros for implementing comparisons in terms of
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either member variables or a member compare function.
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All of the <,>,== etc are implemented for both C++
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and Python.
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@{
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*/
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//! Implement comparison in a class using a compare function
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/** The compare function should take a const Name & and return -1, 0, 1 as
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appropriate.
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*/
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#define IMP_COMPARISONS(Name)
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//! Implement comparison in a class using field as the variable to compare
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/** \param[in] Name the name of the class
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\param[in] field the first field to compare on
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*/
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#define IMP_COMPARISONS_1(Name, field)
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//! Implement comparison in a class using field as the variable to compare
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/** \param[in] Name the name of the class
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\param[in] f0 the first field to compare on
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\param[in] f1 the second field to compare on
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*/
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#define IMP_COMPARISONS_2(Name, f0, f1)
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//! Implement comparison in a class using field as the variable to compare
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/** \param[in] Name the name of the class
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\param[in] f0 the first field to compare on
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\param[in] f1 the second field to compare on
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\param[in] f2 the third field to compare on
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*/
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#define IMP_COMPARISONS_3(Name, f0, f1, f2)
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/** @} */
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#elif defined(SWIG)
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#define IMP_SWIG_COMPARISONS(Name) \
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int __cmp__(const Name& o) const; \
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bool __eq__(const Name& o) const; \
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bool __ne__(const Name& o) const; \
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bool __lt__(const Name& o) const; \
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bool __gt__(const Name& o) const; \
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bool __ge__(const Name& o) const; \
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bool __le__(const Name& o) const
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#define IMP_COMPARISONS(Name) IMP_SWIG_COMPARISONS(Name)
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#define IMP_COMPARISONS_1(Name, field) IMP_SWIG_COMPARISONS(Name)
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#define IMP_COMPARISONS_2(Name, f0, f1) IMP_SWIG_COMPARISONS(Name)
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#define IMP_COMPARISONS_3(Name, f0, f1, f2) IMP_SWIG_COMPARISONS(Name)
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#else // not doxygen
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#define IMP_SWIG_COMPARISONS(Name) \
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IMP_HELPER_MACRO_PUSH_WARNINGS bool __eq__(const Name& o) const { \
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return operator==(o); \
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} \
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bool __ne__(const Name& o) const { return operator!=(o); } \
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bool __lt__(const Name& o) const { return operator<(o); } \
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bool __gt__(const Name& o) const { return operator>(o); } \
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bool __ge__(const Name& o) const { return operator>=(o); } \
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bool __le__(const Name& o) const { return operator<=(o); } \
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int __cmp__(const Name& o) const { return compare(o); } \
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IMP_HELPER_MACRO_POP_WARNINGS IMP_REQUIRE_SEMICOLON_CLASS(comparisons)
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#define IMP_COMPARISONS(Name) \
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IMP_SWIG_COMPARISONS(Name); \
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IMP_HELPER_MACRO_PUSH_WARNINGS bool operator==(const Name& o) const { \
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return (Name::compare(o) == 0); \
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} \
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bool operator!=(const Name& o) const { return (Name::compare(o) != 0); } \
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bool operator<(const Name& o) const { return (Name::compare(o) < 0); } \
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bool operator>(const Name& o) const { return (compare(o) > 0); } \
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bool operator>=(const Name& o) const { return !(Name::compare(o) < 0); } \
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bool operator<=(const Name& o) const { return !(Name::compare(o) > 0); } \
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IMP_HELPER_MACRO_POP_WARNINGS template <class T> \
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friend int compare(const T& a, const T& b)
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#define IMP_COMPARISONS_1(Name, field) \
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IMP_SWIG_COMPARISONS(Name); \
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IMP_HELPER_MACRO_PUSH_WARNINGS bool operator==(const Name& o) const { \
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return (field == o.field); \
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} \
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bool operator!=(const Name& o) const { return (field != o.field); } \
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bool operator<(const Name& o) const { return (field < o.field); } \
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bool operator>(const Name& o) const { return (field > o.field); } \
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bool operator>=(const Name& o) const { return (field >= o.field); } \
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bool operator<=(const Name& o) const { return (field <= o.field); } \
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int compare(const Name& o) const { \
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if (operator<(o)) \
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return -1; \
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else if (operator>(o)) \
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return 1; \
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else \
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return 0; \
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} \
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IMP_HELPER_MACRO_POP_WARNINGS
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#define IMP_COMPARISONS_2(Name, f0, f1) \
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IMP_SWIG_COMPARISONS(Name); \
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IMP_HELPER_MACRO_PUSH_WARNINGS bool operator==(const Name& o) const { \
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return (f0 == o.f0 && f1 == o.f1); \
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} \
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bool operator!=(const Name& o) const { return (f0 != o.f0 || f1 != o.f1); } \
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bool operator<(const Name& o) const { \
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if (f0 < o.f0) \
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return true; \
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else if (f0 > o.f0) \
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return false; \
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else \
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return f1 < o.f1; \
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} \
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bool operator>(const Name& o) const { \
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if (f0 > o.f0) \
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return true; \
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else if (f0 < o.f0) \
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return false; \
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else \
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return f1 > o.f1; \
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} \
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bool operator>=(const Name& o) const { return operator>(o) || operator==( \
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o); } \
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bool operator<=(const Name& o) const { return operator<(o) || operator==( \
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o); } \
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int compare(const Name& o) const { \
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if (operator<(o)) \
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return -1; \
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else if (operator>(o)) \
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return 1; \
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else \
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return 0; \
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} \
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IMP_HELPER_MACRO_POP_WARNINGS
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#define IMP_COMPARISONS_3(Name, f0, f1, f2) \
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IMP_SWIG_COMPARISONS(Name); \
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IMP_HELPER_MACRO_PUSH_WARNINGS bool operator==(const Name& o) const { \
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return (f0 == o.f0 && f1 == o.f1 && f2 == o.f2); \
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} \
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bool operator!=(const Name& o) const { \
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return (f0 != o.f0 || f1 != o.f1 || f2 != o.f2); \
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} \
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bool operator<(const Name& o) const { \
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if (f0 < o.f0) \
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return true; \
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else if (f0 > o.f0) \
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return false; \
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if (f1 < o.f1) \
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return true; \
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else if (f1 > o.f1) \
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return false; \
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else \
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return f2 < o.f2; \
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} \
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bool operator>(const Name& o) const { \
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if (f0 > o.f0) \
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return true; \
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else if (f0 < o.f0) \
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return false; \
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if (f1 > o.f1) \
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return true; \
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else if (f1 < o.f1) \
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return false; \
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else \
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return f2 > o.f2; \
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} \
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bool operator>=(const Name& o) const { return operator>(o) || operator==( \
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o); } \
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bool operator<=(const Name& o) const { return operator<(o) || operator==( \
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o); } \
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int compare(const Name& o) const { \
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if (operator<(o)) \
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return -1; \
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else if (operator>(o)) \
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return 1; \
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else \
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return 0; \
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} \
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IMP_HELPER_MACRO_POP_WARNINGS
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#endif
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#ifdef SWIG
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#define IMP_SAFE_BOOL(Name, expr)
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#else
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/** Implement the safe bool idiom in a class. The expression must
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evaluate to a boolean.
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*/
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#define IMP_SAFE_BOOL(Name, expr) \
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private: \
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typedef void (Name::*bool_type)() const; \
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void this_type_does_not_support_comparisons() const {} \
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\
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public: \
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operator bool_type() const { \
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return (expr) ? &Name::this_type_does_not_support_comparisons : 0; \
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}
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#endif
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/** Compare one value and return -1 or 1 as appropriate. If they are
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equal, control returns to the current scope.
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*/
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#define IMP_COMPARE_ONE(vara, varb) \
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if (vara < varb) \
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return -1; \
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else if (varb < vara) \
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return 1
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#endif
/* IMPKERNEL_COMPARISON_MACROS_H */
warning_macros.h
Various general useful macros for IMP.