/usr/include/GNUstep/Foundation/NSRange.h is in libgnustep-base-dev 1.22.1-4+deb7u1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* Copyright (C) 1995,1999 Free Software Foundation, Inc.
*
* Written by: Adam Fedor <fedor@boulder.colorado.edu>
* Date: 1995
*
* This file is part of the GNUstep Base Library.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02111 USA.
*/
#ifndef __NSRange_h_GNUSTEP_BASE_INCLUDE
#define __NSRange_h_GNUSTEP_BASE_INCLUDE
#import <GNUstepBase/GSVersionMacros.h>
/**** Included Headers *******************************************************/
#import <Foundation/NSObject.h>
#if defined(__cplusplus)
extern "C" {
#endif
@class NSException;
@class NXConstantString;
/**** Type, Constant, and Macro Definitions **********************************/
#ifndef MAX
#define MAX(a,b) \
({__typeof__(a) _MAX_a = (a); __typeof__(b) _MAX_b = (b); \
_MAX_a > _MAX_b ? _MAX_a : _MAX_b; })
#define GS_DEFINED_MAX
#endif
#ifndef MIN
#define MIN(a,b) \
({__typeof__(a) _MIN_a = (a); __typeof__(b) _MIN_b = (b); \
_MIN_a < _MIN_b ? _MIN_a : _MIN_b; })
#define GS_DEFINED_MIN
#endif
/**
* <example>
{
NSUInteger location;
NSUInteger length;
}</example>
* <p>
* The NSRange type is used to specify ranges of locations,
* typically items in an array, characters in a string, and bytes
* in a data object.
* </p>
* <p>
* As 'boundary' or 'fencepost' errors are a particularly common
* problem in programming, it is important that you understand
* how an NSRange works.
* </p>
* <p>
* An NSRange consists of a <em>location</em> and a <em>length</em>. The
* points that are considered to lie in a range are the integers from
* the location to the location plus the length, so the number
* of points in a range is the length of the range plus one.<br />
* However, if you consider these points like the marks on a
* ruler, you can only store information <strong>between</strong>
* points. So the number of items that can be stored in a range
* is the length of the range.
* </p>
*/
typedef struct _NSRange NSRange;
struct _NSRange
{
NSUInteger location;
NSUInteger length;
};
#if OS_API_VERSION(GS_API_MACOSX, GS_API_LATEST)
/** Pointer to an NSRange structure. */
typedef NSRange *NSRangePointer;
#endif
/**** Function Prototypes ****************************************************/
/*
* All but the most complex functions are declared static inline in this
* header file so that they are maximally efficient. In order to provide
* true functions (for code modules that don't have this header) this
* header is included in NSRange.m where the functions are no longer
* declared inline.
*/
#ifdef IN_NSRANGE_M
#define GS_RANGE_SCOPE extern
#define GS_RANGE_ATTR
#else
#define GS_RANGE_SCOPE static inline
#define GS_RANGE_ATTR __attribute__((unused))
#endif
GS_RANGE_SCOPE NSUInteger
NSMaxRange(NSRange range) GS_RANGE_ATTR;
/** Returns top end of range (location + length). */
GS_RANGE_SCOPE NSUInteger
NSMaxRange(NSRange range)
{
return range.location + range.length;
}
GS_RANGE_SCOPE BOOL
NSLocationInRange(NSUInteger location, NSRange range) GS_RANGE_ATTR;
/** Returns whether location is greater than or equal to range's location
* and less than its max.
*/
GS_RANGE_SCOPE BOOL
NSLocationInRange(NSUInteger location, NSRange range)
{
return (location >= range.location) && (location < NSMaxRange(range));
}
/** Convenience method for raising an NSRangeException. */
GS_EXPORT void _NSRangeExceptionRaise (void);
/* NB: The implementation of _NSRangeExceptionRaise is:
[NSException raise: NSRangeException
format: @"Range location + length too great"];
_NSRangeExceptionRaise is defined in NSRange.m so that this
file (NSRange.h) can be included without problems in the
implementation of the base classes themselves. */
GS_RANGE_SCOPE NSRange
NSMakeRange(NSUInteger location, NSUInteger length) GS_RANGE_ATTR;
/** Creates new range starting at location and of given length. */
GS_RANGE_SCOPE NSRange
NSMakeRange(NSUInteger location, NSUInteger length)
{
NSRange range;
NSUInteger end = location + length;
if (end < location || end < length)
{
_NSRangeExceptionRaise ();
}
range.location = location;
range.length = length;
return range;
}
GS_RANGE_SCOPE BOOL
NSEqualRanges(NSRange range1, NSRange range2) GS_RANGE_ATTR;
/** Returns whether range1 and range2 have same location and length. */
GS_RANGE_SCOPE BOOL
NSEqualRanges(NSRange range1, NSRange range2)
{
return ((range1.location == range2.location)
&& (range1.length == range2.length));
}
GS_RANGE_SCOPE NSRange
NSUnionRange(NSRange range1, NSRange range2) GS_RANGE_ATTR;
/** Returns range going from minimum of aRange's and bRange's locations to
maximum of their two max's. */
GS_RANGE_SCOPE NSRange
NSUnionRange(NSRange aRange, NSRange bRange)
{
NSRange range;
range.location = MIN(aRange.location, bRange.location);
range.length = MAX(NSMaxRange(aRange), NSMaxRange(bRange))
- range.location;
return range;
}
GS_RANGE_SCOPE NSRange
NSIntersectionRange(NSRange range1, NSRange range2) GS_RANGE_ATTR;
/** Returns range containing indices existing in both aRange and bRange. If
* the returned length is 0, the location is undefined and should be ignored.
*/
GS_RANGE_SCOPE NSRange
NSIntersectionRange (NSRange aRange, NSRange bRange)
{
NSRange range;
if (NSMaxRange(aRange) < bRange.location
|| NSMaxRange(bRange) < aRange.location)
return NSMakeRange(0, 0);
range.location = MAX(aRange.location, bRange.location);
range.length = MIN(NSMaxRange(aRange), NSMaxRange(bRange))
- range.location;
return range;
}
@class NSString;
/** Returns string of form {location=a, length=b}. */
GS_EXPORT NSString *NSStringFromRange(NSRange range);
/** Parses range from string of form {location=a, length=b}; returns range
with 0 location and length if this fails. */
GS_EXPORT NSRange NSRangeFromString(NSString *aString);
#ifdef GS_DEFINED_MAX
#undef GS_DEFINED_MAX
#undef MAX
#endif
#ifdef GS_DEFINED_MIN
#undef GS_DEFINED_MIN
#undef MIN
#endif
#if defined(__cplusplus)
}
#endif
#endif /* __NSRange_h_GNUSTEP_BASE_INCLUDE */
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