VirtualBox

source: vbox/trunk/include/iprt/cdefs.h@ 2305

Last change on this file since 2305 was 2291, checked in by vboxsync, 18 years ago

More ring-0/ring-3 type safety (callbacks and PDM symbol resolving).

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1/** @file
2 * InnoTek Portable Runtime - Common C and C++ definitions.
3 */
4
5/*
6 * Copyright (C) 2006 InnoTek Systemberatung GmbH
7 *
8 * This file is part of VirtualBox Open Source Edition (OSE), as
9 * available from http://www.virtualbox.org. This file is free software;
10 * you can redistribute it and/or modify it under the terms of the GNU
11 * General Public License as published by the Free Software Foundation,
12 * in version 2 as it comes in the "COPYING" file of the VirtualBox OSE
13 * distribution. VirtualBox OSE is distributed in the hope that it will
14 * be useful, but WITHOUT ANY WARRANTY of any kind.
15 *
16 * If you received this file as part of a commercial VirtualBox
17 * distribution, then only the terms of your commercial VirtualBox
18 * license agreement apply instead of the previous paragraph.
19 */
20
21#ifndef __iprt_cdefs_h__
22#define __iprt_cdefs_h__
23
24
25/** @defgroup grp_rt_cdefs InnoTek Portable Runtime Common Definitions and Macros
26 * @{
27 */
28
29/*
30 * Include sys/cdefs.h if present, if not define the stuff we need.
31 */
32#ifdef HAVE_SYS_CDEFS_H
33# if defined(__LINUX__) && defined(__KERNEL__)
34# error "oops"
35# endif
36# include <sys/cdefs.h>
37#else
38
39 /** @def __BEGIN_DECLS
40 * Used to start a block of function declarations which are shared
41 * between C and C++ program.
42 */
43
44 /** @def __END_DECLS
45 * Used to end a block of function declarations which are shared
46 * between C and C++ program.
47 */
48
49 #if defined(__cplusplus)
50 # define __BEGIN_DECLS extern "C" {
51 # define __END_DECLS }
52 #else
53 # define __BEGIN_DECLS
54 # define __END_DECLS
55 #endif
56
57#endif
58
59
60/*
61 * Shut up DOXYGEN warnings and guide it properly thru the code.
62 */
63#ifdef __DOXYGEN__
64#define __AMD64__
65#define __X86__
66#define IN_RING0
67#define IN_RING3
68#define IN_GC
69#define IN_RT_GC
70#define IN_RT_R0
71#define IN_RT_R3
72#define RT_STRICT
73#define Breakpoint
74#define RT_NO_DEPRECATED_MACROS
75#define ARCH_BITS
76#define HC_ARCH_BITS
77#define R3_ARCH_BITS
78#define R0_ARCH_BITS
79#define GC_ARCH_BITS
80#endif /* __DOXYGEN__ */
81
82/** @def __X86__
83 * Indicates that we're compiling for the X86 architecture.
84 */
85
86/** @def __AMD64__
87 * Indicates that we're compiling for the AMD64 architecture.
88 */
89#if !defined(__X86__) && !defined(__AMD64__)
90# if defined(__amd64__) || defined(__x86_64__) || defined(_M_X64)
91# define __AMD64__
92# elif defined(__i386__) || defined(_M_IX86)
93# define __X86__
94# else
95# error "Check what predefined stuff your compiler uses to indicate architecture."
96# endif
97#elif defined(__X86__) && defined(__AMD64__)
98# error "Both __X86__ and __AMD64__ cannot be defined at the same time!"
99#endif
100
101/** @def IN_RING0
102 * Used to indicate that we're compiling code which is running
103 * in Ring-0 Host Context.
104 */
105
106/** @def IN_RING3
107 * Used to indicate that we're compiling code which is running
108 * in Ring-3 Host Context.
109 */
110
111/** @def IN_GC
112 * Used to indicate that we're compiling code which is running
113 * in Guest Context (implies R0).
114 */
115#if !defined(IN_RING3) && !defined(IN_RING0) && !defined(IN_GC)
116# error "You must defined which context the compiled code should run in; IN_RING3, IN_RING0 or IN_GC"
117#endif
118#if (defined(IN_RING3) && (defined(IN_RING0) || defined(IN_GC)) ) \
119 || (defined(IN_RING0) && (defined(IN_RING3) || defined(IN_GC)) ) \
120 || (defined(IN_GC) && (defined(IN_RING3) || defined(IN_RING0)) )
121# error "Only one of the IN_RING3, IN_RING0, IN_GC defines should be defined."
122#endif
123
124
125/** @def ARCH_BITS
126 * Defines the bit count of the current context.
127 */
128#ifndef ARCH_BITS
129# if defined(__AMD64__)
130# define ARCH_BITS 64
131# else
132# define ARCH_BITS 32
133# endif
134#endif
135
136/** @def HC_ARCH_BITS
137 * Defines the host architechture bit count.
138 */
139#ifndef HC_ARCH_BITS
140# ifndef IN_GC
141# define HC_ARCH_BITS ARCH_BITS
142# else
143# define HC_ARCH_BITS 32
144# endif
145#endif
146
147/** @def R3_ARCH_BITS
148 * Defines the host ring-3 architechture bit count.
149 */
150#ifndef R3_ARCH_BITS
151# ifdef IN_RING3
152# define R3_ARCH_BITS ARCH_BITS
153# else
154# define R3_ARCH_BITS HC_ARCH_BITS
155# endif
156#endif
157
158/** @def R0_ARCH_BITS
159 * Defines the host ring-0 architechture bit count.
160 */
161#ifndef R0_ARCH_BITS
162# ifdef IN_RING0
163# define R0_ARCH_BITS ARCH_BITS
164# else
165# define R0_ARCH_BITS HC_ARCH_BITS
166# endif
167#endif
168
169/** @def GC_ARCH_BITS
170 * Defines the guest architechture bit count.
171 */
172#ifndef GC_ARCH_BITS
173# ifdef IN_GC
174# define GC_ARCH_BITS ARCH_BITS
175# else
176# define GC_ARCH_BITS 32
177# endif
178#endif
179
180
181/** @def CTXTYPE
182 * Declare a type differently in GC, R3 and R0.
183 *
184 * @param GCType The GC type.
185 * @param R3Type The R3 type.
186 * @param R0Type The R0 type.
187 * @remark For pointers used only in one context use GCPTRTYPE(), HCPTRTYPE(), R3PTRTYPE() or R0PTRTYPE().
188 */
189#ifdef IN_GC
190# define CTXTYPE(GCType, R3Type, R0Type) GCType
191#elif defined(IN_RING3)
192# define CTXTYPE(GCType, R3Type, R0Type) R3Type
193#else
194# define CTXTYPE(GCType, R3Type, R0Type) R0Type
195#endif
196
197/** @def GCTYPE
198 * Declare a type differently in GC and HC.
199 *
200 * @param GCType The GC type.
201 * @param HCType The HC type.
202 * @remark For pointers used only in one context use GCPTRTYPE(), HCPTRTYPE(), R3PTRTYPE() or R0PTRTYPE().
203 */
204#define GCTYPE(GCType, HCType) CTXTYPE(GCType, HCType, HCType)
205
206/** @def GCPTRTYPE
207 * Declare a pointer which is used in GC but appears in structure(s) used by
208 * both HC and GC. The main purpose is to make sure structures have the same
209 * size when built for different architectures.
210 *
211 * @param GCType The GC type.
212 */
213#define GCPTRTYPE(GCType) CTXTYPE(GCType, RTGCPTR, RTGCPTR)
214
215/** @def HCPTRTYPE
216 * Declare a pointer which is used in HC but appears in structure(s) used by
217 * both HC and GC. The main purpose is to make sure structures have the same
218 * size when built for different architectures.
219 *
220 * @param HCType The HC type.
221 */
222#define HCPTRTYPE(HCType) CTXTYPE(RTHCPTR, HCType, HCType)
223
224/** @def R3PTRTYPE
225 * Declare a pointer which is used in R3 but appears in structure(s) used by
226 * both HC and GC. The main purpose is to make sure structures have the same
227 * size when built for different architectures.
228 *
229 * @param R3Type The R3 type.
230 */
231#define R3PTRTYPE(R3Type) CTXTYPE(RTHCUINTPTR, R3Type, RTHCUINTPTR)
232
233/** @def R0PTRTYPE
234 * Declare a pointer which is used in R0 but appears in structure(s) used by
235 * both HC and GC. The main purpose is to make sure structures have the same
236 * size when built for different architectures.
237 *
238 * @param R0Type The R0 type.
239 */
240#define R0PTRTYPE(R0Type) CTXTYPE(RTHCUINTPTR, RTHCUINTPTR, R0Type)
241
242/** @def CTXSUFF
243 * Adds the suffix of the current context to the passed in
244 * identifier name. The suffix is HC or GC.
245 *
246 * This is macro should only be used in shared code to avoid a forrest of ifdefs.
247 * @param var Identifier name.
248 */
249/** @def OTHERCTXSUFF
250 * Adds the suffix of the other context to the passed in
251 * identifier name. The suffix is HC or GC.
252 *
253 * This is macro should only be used in shared code to avoid a forrest of ifdefs.
254 * @param var Identifier name.
255 */
256#ifdef IN_GC
257# define CTXSUFF(var) var##GC
258# define OTHERCTXSUFF(var) var##HC
259#else
260# define CTXSUFF(var) var##HC
261# define OTHERCTXSUFF(var) var##GC
262#endif
263
264/** @def CTXALLSUFF
265 * Adds the suffix of the current context to the passed in
266 * identifier name. The suffix is R3, R0 or GC.
267 *
268 * This is macro should only be used in shared code to avoid a forrest of ifdefs.
269 * @param var Identifier name.
270 */
271#ifdef IN_GC
272# define CTXALLSUFF(var) var##GC
273#elif defined(IN_RING0)
274# define CTXALLSUFF(var) var##R0
275#else
276# define CTXALLSUFF(var) var##R3
277#endif
278
279/** @def CTXMID
280 * Adds the current context as a middle name of an identifier name
281 * The middle name is HC or GC.
282 *
283 * This is macro should only be used in shared code to avoid a forrest of ifdefs.
284 * @param first First name.
285 * @param last Surname.
286 */
287/** @def OTHERCTXMID
288 * Adds the other context as a middle name of an identifier name
289 * The middle name is HC or GC.
290 *
291 * This is macro should only be used in shared code to avoid a forrest of ifdefs.
292 * @param first First name.
293 * @param last Surname.
294 */
295#ifdef IN_GC
296# define CTXMID(first, last) first##GC##last
297# define OTHERCTXMID(first, last) first##HC##last
298#else
299# define CTXMID(first, last) first##HC##last
300# define OTHERCTXMID(first, last) first##GC##last
301#endif
302
303/** @def CTXALLMID
304 * Adds the current context as a middle name of an identifier name
305 * The middle name is R3, R0 or GC.
306 *
307 * This is macro should only be used in shared code to avoid a forrest of ifdefs.
308 * @param first First name.
309 * @param last Surname.
310 */
311#ifdef IN_GC
312# define CTXALLMID(first, last) first##GC##last
313#elif defined(IN_RING0)
314# define CTXALLMID(first, last) first##R0##last
315#else
316# define CTXALLMID(first, last) first##R3##last
317#endif
318
319
320/** @def R3STRING
321 * A macro which in GC and R0 will return a dummy string while in R3 it will return
322 * the parameter.
323 *
324 * This is typically used to wrap description strings in structures shared
325 * between R3, R0 and/or GC. The intention is to avoid the \#ifdef IN_RING3 mess.
326 *
327 * @param pR3String The R3 string. Only referenced in R3.
328 * @see R0STRING and GCSTRING
329 */
330#ifdef IN_RING3
331# define R3STRING(pR3String) (pR3String)
332#else
333# define R3STRING(pR3String) ("<R3_STRING>")
334#endif
335
336/** @def R0STRING
337 * A macro which in GC and R3 will return a dummy string while in R0 it will return
338 * the parameter.
339 *
340 * This is typically used to wrap description strings in structures shared
341 * between R3, R0 and/or GC. The intention is to avoid the \#ifdef IN_RING0 mess.
342 *
343 * @param pR0String The R0 string. Only referenced in R0.
344 * @see R3STRING and GCSTRING
345 */
346#ifdef IN_RING0
347# define R0STRING(pR0String) (pR0String)
348#else
349# define R0STRING(pR0String) ("<R0_STRING>")
350#endif
351
352/** @def GCSTRING
353 * A macro which in R3 and R0 will return a dummy string while in GC it will return
354 * the parameter.
355 *
356 * This is typically used to wrap description strings in structures shared
357 * between R3, R0 and/or GC. The intention is to avoid the \#ifdef IN_GC mess.
358 *
359 * @param pR0String The GC string. Only referenced in GC.
360 * @see R3STRING, R0STRING
361 */
362#ifdef IN_GC
363# define GCSTRING(pR0String) (pGCString)
364#else
365# define GCSTRING(pR0String) ("<GC_STRING>")
366#endif
367
368/** @def HCSTRING
369 * Macro which in GC will return a dummy string while in HC will return
370 * the parameter.
371 *
372 * This is typically used to wrap description strings in structures shared
373 * between HC and GC. The intention is to avoid the \#ifdef IN_GC kludge.
374 *
375 * @param pHCString The HC string. Only referenced in HC.
376 * @deprecated Use R3STRING or R0STRING instead.
377 */
378#ifdef IN_GC
379# define HCSTRING(pHCString) ("<HC_STRING>")
380#else
381# define HCSTRING(pHCString) (pHCString)
382#endif
383
384
385/** @def RTCALL
386 * The standard calling convention for the Runtime interfaces.
387 */
388#ifdef _MSC_VER
389# define RTCALL __cdecl
390#elif defined(__GNUC__) && defined(IN_RING0) && !(defined(__OS2__) || defined(__AMD64__)) /* the latter is kernel/gcc */
391# define RTCALL __attribute__((cdecl,regparm(0)))
392#else
393# define RTCALL
394#endif
395
396/** @def DECLEXPORT
397 * How to declare an exported function.
398 * @param type The return type of the function declaration.
399 */
400#if defined(_MSC_VER) || defined(__OS2__)
401# define DECLEXPORT(type) __declspec(dllexport) type
402#else
403# define DECLEXPORT(type) type
404#endif
405
406/** @def DECLIMPORT
407 * How to declare an imported function.
408 * @param type The return type of the function declaration.
409 */
410#if defined(_MSC_VER) || defined(__OS2__)
411# define DECLIMPORT(type) __declspec(dllimport) type
412#else
413# define DECLIMPORT(type) type
414#endif
415
416/** @def DECLASM
417 * How to declare an internal assembly function.
418 * @param type The return type of the function declaration.
419 */
420#ifdef __cplusplus
421# ifdef _MSC_VER
422# define DECLASM(type) extern "C" type __cdecl
423# else
424# define DECLASM(type) extern "C" type
425# endif
426#else
427# ifdef _MSC_VER
428# define DECLASM(type) type __cdecl
429# else
430# define DECLASM(type) type
431# endif
432#endif
433
434/** @def DECLASMTYPE
435 * How to declare an internal assembly function type.
436 * @param type The return type of the function.
437 */
438#ifdef _MSC_VER
439# define DECLASMTYPE(type) type __cdecl
440#else
441# define DECLASMTYPE(type) type
442#endif
443
444/** @def DECLCALLBACK
445 * How to declare an call back function type.
446 * @param type The return type of the function declaration.
447 */
448#define DECLCALLBACK(type) type RTCALL
449
450/** @def DECLCALLBACKPTR
451 * How to declare an call back function pointer.
452 * @param type The return type of the function declaration.
453 * @param name The name of the variable member.
454 */
455#define DECLCALLBACKPTR(type, name) type (RTCALL * name)
456
457/** @def DECLCALLBACKMEMBER
458 * How to declare an call back function pointer member.
459 * @param type The return type of the function declaration.
460 * @param name The name of the struct/union/class member.
461 */
462#define DECLCALLBACKMEMBER(type, name) type (RTCALL * name)
463
464/** @def DECLR3CALLBACKMEMBER
465 * How to declare an call back function pointer member - R3 Ptr.
466 * @param type The return type of the function declaration.
467 * @param name The name of the struct/union/class member.
468 * @param args The argument list enclosed in parentheses.
469 */
470#ifdef IN_RING3
471# define DECLR3CALLBACKMEMBER(type, name, args) type (RTCALL * name) args
472#else
473# define DECLR3CALLBACKMEMBER(type, name, args) RTR3PTR name
474#endif
475
476/** @def DECLGCCALLBACKMEMBER
477 * How to declare an call back function pointer member - GC Ptr.
478 * @param type The return type of the function declaration.
479 * @param name The name of the struct/union/class member.
480 * @param args The argument list enclosed in parentheses.
481 */
482#ifdef IN_GC
483# define DECLGCCALLBACKMEMBER(type, name, args) type (RTCALL * name) args
484#else
485# define DECLGCCALLBACKMEMBER(type, name, args) RTGCPTR name
486#endif
487
488/** @def DECLR0CALLBACKMEMBER
489 * How to declare an call back function pointer member - R0 Ptr.
490 * @param type The return type of the function declaration.
491 * @param name The name of the struct/union/class member.
492 * @param args The argument list enclosed in parentheses.
493 */
494#ifdef IN_RING0
495# define DECLR0CALLBACKMEMBER(type, name, args) type (RTCALL * name) args
496#else
497# define DECLR0CALLBACKMEMBER(type, name, args) RTR0PTR name
498#endif
499
500/** @def DECLINLINE
501 * How to declare a function as inline.
502 * @param type The return type of the function declaration.
503 */
504#ifdef __GNUC__
505# define DECLINLINE(type) static inline type
506#elif defined(__cplusplus)
507# define DECLINLINE(type) inline type
508#elif defined(_MSC_VER)
509# define DECLINLINE(type) _inline type
510#else
511# define DECLINLINE(type) inline type
512#endif
513
514
515/** @def IN_RT_R0
516 * Used to indicate whether we're inside the same link module as
517 * the HC Ring-0 Runtime Library.
518 */
519/** @def RTR0DECL(type)
520 * Runtime Library HC Ring-0 export or import declaration.
521 * @param type The return type of the function declaration.
522 */
523#ifdef IN_RT_R0
524# define RTR0DECL(type) DECLEXPORT(type) RTCALL
525#else
526# define RTR0DECL(type) DECLIMPORT(type) RTCALL
527#endif
528
529/** @def IN_RT_R3
530 * Used to indicate whether we're inside the same link module as
531 * the HC Ring-3 Runtime Library.
532 */
533/** @def RTR3DECL(type)
534 * Runtime Library HC Ring-3 export or import declaration.
535 * @param type The return type of the function declaration.
536 */
537#ifdef IN_RT_R3
538# define RTR3DECL(type) DECLEXPORT(type) RTCALL
539#else
540# define RTR3DECL(type) DECLIMPORT(type) RTCALL
541#endif
542
543/** @def IN_RT_GC
544 * Used to indicate whether we're inside the same link module as
545 * the GC Runtime Library.
546 */
547/** @def RTGCDECL(type)
548 * Runtime Library HC Ring-3 export or import declaration.
549 * @param type The return type of the function declaration.
550 */
551#ifdef IN_RT_GC
552# define RTGCDECL(type) DECLEXPORT(type) RTCALL
553#else
554# define RTGCDECL(type) DECLIMPORT(type) RTCALL
555#endif
556
557/** @def RTDECL(type)
558 * Runtime Library export or import declaration.
559 * Functions declared using this macro exists in all contexts.
560 * @param type The return type of the function declaration.
561 */
562#if defined(IN_RT_R3) || defined(IN_RT_GC) || defined(IN_RT_R0)
563# define RTDECL(type) DECLEXPORT(type) RTCALL
564#else
565# define RTDECL(type) DECLIMPORT(type) RTCALL
566#endif
567
568/** @def RTDATADECL(type)
569 * Runtime Library export or import declaration.
570 * Data declared using this macro exists in all contexts.
571 * @param type The return type of the function declaration.
572 */
573#if defined(IN_RT_R3) || defined(IN_RT_GC) || defined(IN_RT_R0)
574# define RTDATADECL(type) DECLEXPORT(type)
575#else
576# define RTDATADECL(type) DECLIMPORT(type)
577#endif
578
579
580/** @def RT_NOCRT
581 * Symbol name wrapper for the No-CRT bits.
582 *
583 * In order to coexist in the same process as other CRTs, we need to
584 * decorate the symbols such that they don't conflict the ones in the
585 * other CRTs. The result of such conflicts / duplicate symbols can
586 * confuse the dynamic loader on unix like systems.
587 *
588 * Define RT_WITHOUT_NOCRT_WRAPPERS to drop the wrapping.
589 */
590/** @def RT_NOCRT_STR
591 * Same as RT_NOCRT only it'll return a double quoted string of the result.
592 */
593#ifndef RT_WITHOUT_NOCRT_WRAPPERS
594# define RT_NOCRT(name) nocrt_ ## name
595# define RT_NOCRT_STR(name) "nocrt_" # name
596#else
597# define RT_NOCRT(name) name
598# define RT_NOCRT_STR(name) #name
599#endif
600
601
602
603/** @def RT_LIKELY
604 * Give the compiler a hint that an expression is very likely to hold true.
605 *
606 * Some compilers support explicit branch prediction so that the CPU backend
607 * can hint the processor and also so that code blocks can be reordered such
608 * that the predicted path sees a more linear flow, thus improving cache
609 * behaviour, etc.
610 *
611 * IPRT provides the macros RT_LIKELY() and RT_UNLIKELY() as a way to utilize
612 * this compiler feature when present.
613 *
614 * A few notes about the usage:
615 *
616 * - Generally, use RT_UNLIKELY() with error condition checks (unless you
617 * have some _strong_ reason to do otherwise, in which case document it),
618 * and/or RT_LIKELY() with success condition checks, assuming you want
619 * to optimize for the success path.
620 *
621 * - Other than that, if you don't know the likelihood of a test succeeding
622 * from empirical or other 'hard' evidence, don't make predictions unless
623 * you happen to be a Dirk Gently.
624 *
625 * - These macros are meant to be used in places that get executed a lot. It
626 * is wasteful to make predictions in code that is executed seldomly (e.g.
627 * at subsystem initialization time) as the basic block reording that this
628 * affecs can often generate larger code.
629 *
630 * - Note that RT_SUCCESS() and RT_FAILURE() already makes use of RT_LIKELY()
631 * and RT_UNLIKELY(). Should you wish for prediction free status checks,
632 * use the RT_SUCCESS_NP() and RT_FAILURE_NP() macros instead.
633 *
634 *
635 * @returns the boolean result of the expression.
636 * @param expr The expression that's very likely to be true.
637 * @see RT_UNLIKELY
638 */
639/** @def RT_UNLIKELY
640 * Give the compiler a hint that an expression is highly unlikely hold true.
641 *
642 * See the usage instructions give in the RT_LIKELY() docs.
643 *
644 * @returns the boolean result of the expression.
645 * @param expr The expression that's very unlikely to be true.
646 * @see RT_LIKELY
647 */
648#if defined(__GNUC__)
649# if __GNUC__ >= 3
650# define RT_LIKELY(expr) __builtin_expect(!!(expr), 1)
651# define RT_UNLIKELY(expr) __builtin_expect(!!(expr), 0)
652# else
653# define RT_LIKELY(expr) (expr)
654# define RT_UNLIKELY(expr) (expr)
655# endif
656#else
657# define RT_LIKELY(expr) (expr)
658# define RT_UNLIKELY(expr) (expr)
659#endif
660
661
662/** @def RT_BIT
663 * Make a bitmask for one integer sized bit.
664 * @param bit Bit number.
665 */
666#define RT_BIT(bit) (1U << (bit))
667
668/** @def RT_BIT_32
669 * Make a 32-bit bitmask for one bit.
670 * @param bit Bit number.
671 */
672#define RT_BIT_32(bit) (UINT32_C(1) << (bit))
673
674/** @def RT_BIT_64
675 * Make a 64-bit bitmask for one bit.
676 * @param bit Bit number.
677 */
678#define RT_BIT_64(bit) (UINT64_C(1) << (bit))
679
680/** @def RT_ALIGN
681 * Align macro.
682 * @param u Value to align.
683 * @param uAlignment The alignment. Power of two!
684 *
685 * @remark Be extremely careful when using this macro with type which sizeof != sizeof int.
686 * When possible use any of the other RT_ALIGN_* macros. And when that's not
687 * possible, make 101% sure that uAlignment is specified with a right sized type.
688 *
689 * Specifying an unsigned 32-bit alignment constant with a 64-bit value will give
690 * you a 32-bit return value!
691 *
692 * In short: Don't use this macro. Use RT_ALIGN_T() instead.
693 */
694#define RT_ALIGN(u, uAlignment) ( ((u) + ((uAlignment) - 1)) & ~((uAlignment) - 1) )
695
696/** @def RT_ALIGN_T
697 * Align macro.
698 * @param u Value to align.
699 * @param uAlignment The alignment. Power of two!
700 * @param type Integer type to use while aligning.
701 * @remark This macro is the prefered alignment macro, it doesn't have any of the pitfalls RT_ALIGN has.
702 */
703#define RT_ALIGN_T(u, uAlignment, type) ( ((type)(u) + ((uAlignment) - 1)) & ~(type)((uAlignment) - 1) )
704
705/** @def RT_ALIGN_32
706 * Align macro for a 32-bit value.
707 * @param u32 Value to align.
708 * @param uAlignment The alignment. Power of two!
709 */
710#define RT_ALIGN_32(u32, uAlignment) RT_ALIGN_T(u32, uAlignment, uint32_t)
711
712/** @def RT_ALIGN_64
713 * Align macro for a 64-bit value.
714 * @param u64 Value to align.
715 * @param uAlignment The alignment. Power of two!
716 */
717#define RT_ALIGN_64(u64, uAlignment) RT_ALIGN_T(u64, uAlignment, uint64_t)
718
719/** @def RT_ALIGN_Z
720 * Align macro for size_t.
721 * @param cb Value to align.
722 * @param uAlignment The alignment. Power of two!
723 */
724#define RT_ALIGN_Z(cb, uAlignment) RT_ALIGN_T(cb, uAlignment, size_t)
725
726/** @def RT_ALIGN_P
727 * Align macro for pointers.
728 * @param pv Value to align.
729 * @param uAlignment The alignment. Power of two!
730 */
731#define RT_ALIGN_P(pv, uAlignment) RT_ALIGN_PT(pv, uAlignment, void *)
732
733/** @def RT_ALIGN_PT
734 * Align macro for pointers with type cast.
735 * @param u Value to align.
736 * @param uAlignment The alignment. Power of two!
737 * @param CastType The type to cast the result to.
738 */
739#define RT_ALIGN_PT(u, uAlignment, CastType) ((CastType)RT_ALIGN_T(u, uAlignment, uintptr_t))
740
741/** @def RT_ALIGN_R3PT
742 * Align macro for ring-3 pointers with type cast.
743 * @param u Value to align.
744 * @param uAlignment The alignment. Power of two!
745 * @param CastType The type to cast the result to.
746 */
747#define RT_ALIGN_R3PT(u, uAlignment, CastType) ((CastType)RT_ALIGN_T(u, uAlignment, RTR3UINTPTR))
748
749/** @def RT_ALIGN_R0PT
750 * Align macro for ring-0 pointers with type cast.
751 * @param u Value to align.
752 * @param uAlignment The alignment. Power of two!
753 * @param CastType The type to cast the result to.
754 */
755#define RT_ALIGN_R0PT(u, uAlignment, CastType) ((CastType)RT_ALIGN_T(u, uAlignment, RTR0UINTPTR))
756
757/** @def RT_ALIGN_GCPT
758 * Align macro for GC pointers with type cast.
759 * @param u Value to align.
760 * @param uAlignment The alignment. Power of two!
761 * @param CastType The type to cast the result to.
762 */
763#define RT_ALIGN_GCPT(u, uAlignment, CastType) ((CastType)RT_ALIGN_T(u, uAlignment, RTGCUINTPTR))
764
765
766/** @def RT_OFFSETOF
767 * Our own special offsetof() variant.
768 *
769 * This differs from the usual offsetof() in that it's not relying on builtin
770 * compiler stuff and thus can use variables in arrays the structure may
771 * contain. If in this usful to determin the sizes of structures ending
772 * with a variable length field.
773 *
774 * @returns offset into the structure of the specified member.
775 * @param type Structure type.
776 * @param member Member.
777 */
778#define RT_OFFSETOF(type, member) ( (int)(uintptr_t)&( ((type *)(void *)0)->member) )
779
780/** @def RT_SIZEOFMEMB
781 * Get the size of a structure member.
782 *
783 * @returns size of the structure member.
784 * @param type Structure type.
785 * @param member Member.
786 */
787#define RT_SIZEOFMEMB(type, member) ( sizeof(((type *)(void *)0)->member) )
788
789/** @def RT_ELEMENTS
790 * Calcs the number of elements in an array.
791 * @returns Element count.
792 * @param aArray Array in question.
793 */
794#define RT_ELEMENTS(aArray) ( sizeof(aArray) / sizeof((aArray)[0]) )
795
796/** @def RT_MAX
797 * Finds the maximum value.
798 * @returns The higher of the two.
799 * @param Value1 Value 1
800 * @param Value2 Value 2
801 */
802#define RT_MAX(Value1, Value2) ((Value1) >= (Value2) ? (Value1) : (Value2))
803
804/** @def RT_MIN
805 * Finds the minimum value.
806 * @returns The lower of the two.
807 * @param Value1 Value 1
808 * @param Value2 Value 2
809 */
810#define RT_MIN(Value1, Value2) ((Value1) <= (Value2) ? (Value1) : (Value2))
811
812/** @def RT_ABS
813 * Get the absolute (non-negative) value.
814 * @returns The absolute value of Value.
815 * @param Value The value.
816 */
817#define RT_ABS(Value) ((Value) >= 0 ? (Value) : -(Value))
818
819/** @def RT_LOWORD
820 * Gets the low word (=uint16_t) of something. */
821#define RT_LOWORD(a) ((a) & 0xffff)
822
823/** @def RT_HIWORD
824 * Gets the high word (=uint16_t) of a 32 bit something. */
825#define RT_HIWORD(a) ((a) >> 16)
826
827/** @def RT_LOBYTE
828 * Gets the low byte of something. */
829#define RT_LOBYTE(a) ((a) & 0xff)
830
831/** @def RT_HIBYTE
832 * Gets the low byte of a 16 bit something. */
833#define RT_HIBYTE(a) ((a) >> 8)
834
835/** @def RT_BYTE1
836 * Gets first byte of something. */
837#define RT_BYTE1(a) ((a) & 0xff)
838
839/** @def RT_BYTE2
840 * Gets second byte of something. */
841#define RT_BYTE2(a) (((a) >> 8) & 0xff)
842
843/** @def RT_BYTE3
844 * Gets second byte of something. */
845#define RT_BYTE3(a) (((a) >> 16) & 0xff)
846
847/** @def RT_BYTE4
848 * Gets fourth byte of something. */
849#define RT_BYTE4(a) (((a) >> 24) & 0xff)
850
851
852/** @def RT_MAKE_U64
853 * Constructs a uint64_t value from two uint32_t values.
854 */
855#define RT_MAKE_U64(Lo, Hi) ( (uint64_t)((uint32_t)(Hi)) << 32 | (uint32_t)(Lo) )
856
857/** @def RT_MAKE_U64_FROM_U16
858 * Constructs a uint64_t value from four uint16_t values.
859 */
860#define RT_MAKE_U64_FROM_U16(w0, w1, w2, w3) \
861 ( (uint64_t)((uint16_t)(w3)) << 48 \
862 | (uint64_t)((uint16_t)(w2)) << 32 \
863 | (uint32_t)((uint16_t)(w1)) << 16 \
864 | (uint16_t)(w0) )
865
866/** @def RT_MAKE_U64_FROM_U8
867 * Constructs a uint64_t value from eight uint8_t values.
868 */
869#define RT_MAKE_U64_FROM_U8(b0, b1, b2, b3, b4, b5, b6, b7) \
870 ( (uint64_t)((uint8_t)(b7)) << 56 \
871 | (uint64_t)((uint8_t)(b6)) << 48 \
872 | (uint64_t)((uint8_t)(b5)) << 40 \
873 | (uint64_t)((uint8_t)(b4)) << 32 \
874 | (uint32_t)((uint8_t)(b3)) << 24 \
875 | (uint32_t)((uint8_t)(b2)) << 16 \
876 | (uint16_t)((uint8_t)(b1)) << 8 \
877 | (uint8_t)(b0) )
878
879/** @def RT_MAKE_U32
880 * Constructs a uint32_t value from two uint16_t values.
881 */
882#define RT_MAKE_U32(Lo, Hi) ( (uint32_t)((uint16_t)(Hi)) << 16 | (uint16_t)(Lo) )
883
884/** @def RT_MAKE_U32_FROM_U8
885 * Constructs a uint32_t value from four uint8_t values.
886 */
887#define RT_MAKE_U32_FROM_U8(b0, b1, b2, b3) \
888 ( (uint32_t)((uint8_t)(b3)) << 24 \
889 | (uint32_t)((uint8_t)(b2)) << 16 \
890 | (uint16_t)((uint8_t)(b1)) << 8 \
891 | (uint8_t)(b0) )
892/** @todo remove this after uses in VUSBUrb.cpp has been corrected. */
893#define MAKE_U32_FROM_U8(b0,b1,b2,b3) RT_MAKE_U32_FROM_U8(b0,b1,b2,b3)
894
895/** @def RT_MAKE_U16
896 * Constructs a uint32_t value from two uint16_t values.
897 */
898#define RT_MAKE_U16(Lo, Hi) ( (uint16_t)((uint8_t)(Hi)) << 8 | (uint8_t)(Lo) )
899
900
901/** @def RT_H2LE_U32
902 * Converts uint32_t value from host to little endian byte order. */
903#define RT_H2LE_U32(u32) (u32)
904
905/** @def RT_H2LE_U16
906 * Converts uint16_t value from host to little endian byte order. */
907#define RT_H2LE_U16(u16) (u16)
908
909/** @def RT_LE2H_U32
910 * Converts uint32_t value from little endian to host byte order. */
911#define RT_LE2H_U32(u32) (u32)
912
913/** @def RT_LE2H_U16
914 * Converts uint16_t value from little endian to host byte order. */
915#define RT_LE2H_U16(u16) (u16)
916
917
918/** @def RT_H2BE_U32
919 * Converts uint32_t value from host to big endian byte order. */
920#define RT_H2BE_U32(u32) (RT_BYTE4(u32) | (RT_BYTE3(u32) << 8) | (RT_BYTE2(u32) << 16) | (RT_BYTE1(u32) << 24))
921
922/** @def RT_H2BE_U16
923 * Converts uint16_t value from host to big endian byte order. */
924#define RT_H2BE_U16(u16) (RT_HIBYTE(u16) | (RT_LOBYTE(u16) << 8))
925
926/** @def RT_BE2H_U32
927 * Converts uint32_t value from big endian to host byte order. */
928#define RT_BE2H_U32(u32) (RT_BYTE4(u32) | (RT_BYTE3(u32) << 8) | (RT_BYTE2(u32) << 16) | (RT_BYTE1(u32) << 24))
929
930/** @def RT_BE2H_U16
931 * Converts uint16_t value from big endian to host byte order. */
932#define RT_BE2H_U16(u16) (RT_HIBYTE(u16) | (RT_LOBYTE(u16) << 8))
933
934
935/** @def RT_H2N_U32
936 * Converts uint32_t value from host to network byte order. */
937#define RT_H2N_U32(u32) RT_H2BE_U32(u32)
938
939/** @def RT_H2N_U16
940 * Converts uint16_t value from host to network byte order. */
941#define RT_H2N_U16(u16) RT_H2BE_U16(u16)
942
943/** @def RT_N2H_U32
944 * Converts uint32_t value from network to host byte order. */
945#define RT_N2H_U32(u32) RT_BE2H_U32(u32)
946
947/** @def RT_N2H_U16
948 * Converts uint16_t value from network to host byte order. */
949#define RT_N2H_U16(u16) RT_BE2H_U16(u16)
950
951
952/** @def RT_NO_DEPRECATED_MACROS
953 * Define RT_NO_DEPRECATED_MACROS to not define deprecated macros.
954 */
955#ifndef RT_NO_DEPRECATED_MACROS
956/** @copydoc BIT
957 * @deprecated Use RT_BIT.
958 */
959# define BIT(bit) RT_BIT(bit)
960/** @deprecated Use RT_BIT64. */
961# define BIT64(bit) (1ULL << (bit))
962/** @copydoc RT_ALIGN_P
963 * @deprecated use RT_ALIGN_P. */
964# define ALIGNP(pv, uAlignment) RT_ALIGN_P(pv, uAlignment)
965/** @copydoc RT_SIZEOFMEMB
966 * @deprecated Use RT_SIZEOFMEMB. */
967# define SIZEOFMEMB(type, member) RT_SIZEOFMEMB(type, member)
968/** @copydoc RT_ELEMENTS
969 * @deprecated use RT_ELEMENTS. */
970# define ELEMENTS(aArray) RT_ELEMENTS(aArray)
971#endif
972
973
974/*
975 * The BSD sys/param.h + machine/param.h file is a major source of
976 * namespace pollution. Kill off some of the worse ones unless we're
977 * compiling kernel code.
978 */
979#if defined(__DARWIN__) \
980 && !defined(KERNEL) \
981 && !defined(RT_NO_BSD_PARAM_H_UNDEFING) \
982 && ( defined(_SYS_PARAM_H_) || defined(_I386_PARAM_H_) )
983/* sys/param.h: */
984# undef PSWP
985# undef PVM
986# undef PINOD
987# undef PRIBO
988# undef PVFS
989# undef PZERO
990# undef PSOCK
991# undef PWAIT
992# undef PLOCK
993# undef PPAUSE
994# undef PUSER
995# undef PRIMASK
996# undef MINBUCKET
997# undef MAXALLOCSAVE
998# undef FSHIFT
999# undef FSCALE
1000
1001/* i386/machine.h: */
1002# undef ALIGN
1003# undef ALIGNBYTES
1004# undef DELAY
1005# undef STATUS_WORD
1006# undef USERMODE
1007# undef BASEPRI
1008# undef MSIZE
1009# undef CLSIZE
1010# undef CLSIZELOG2
1011#endif
1012
1013
1014/** @def NULL
1015 * NULL pointer.
1016 */
1017#ifndef NULL
1018# ifdef __cplusplus
1019# define NULL 0
1020# else
1021# define NULL ((void*)0)
1022# endif
1023#endif
1024
1025/** @def NIL_OFFSET
1026 * NIL offset.
1027 * Whenever we use offsets instead of pointers to save space and relocation effort
1028 * NIL_OFFSET shall be used as the equivalent to NULL.
1029 */
1030#define NIL_OFFSET (~0U)
1031
1032/** @def NOREF
1033 * Keeps the compiler from bitching about an unused parameters.
1034 */
1035#define NOREF(var) (void)(var)
1036
1037/** @def Breakpoint
1038 * Emit a debug breakpoint instruction.
1039 *
1040 * Use this for instrumenting a debugging session only!
1041 * No comitted code shall use Breakpoint().
1042 */
1043#ifdef __GNUC__
1044# define Breakpoint() __asm__ __volatile__("int $3\n\t")
1045#endif
1046#ifdef _MSC_VER
1047# define Breakpoint() __asm int 3
1048#endif
1049#ifndef Breakpoint
1050# error "This compiler is not supported!"
1051#endif
1052
1053
1054/** Size Constants
1055 * (Of course, these are binary computer terms, not SI.)
1056 * @{
1057 */
1058/** 1 K (Kilo) (1 024). */
1059#define _1K 0x00000400
1060/** 4 K (Kilo) (4 096). */
1061#define _4K 0x00001000
1062/** 32 K (Kilo) (32 678). */
1063#define _32K 0x00008000
1064/** 64 K (Kilo) (65 536). */
1065#define _64K 0x00010000
1066/** 128 K (Kilo) (131 072). */
1067#define _128K 0x00020000
1068/** 256 K (Kilo) (262 144). */
1069#define _256K 0x00040000
1070/** 512 K (Kilo) (524 288). */
1071#define _512K 0x00080000
1072/** 1 M (Mega) (1 048 576). */
1073#define _1M 0x00100000
1074/** 2 M (Mega) (2 097 152). */
1075#define _2M 0x00200000
1076/** 4 M (Mega) (4 194 304). */
1077#define _4M 0x00400000
1078/** 1 G (Giga) (1 073 741 824). */
1079#define _1G 0x40000000
1080/** 2 G (Giga) (2 147 483 648). (32-bit) */
1081#define _2G32 0x80000000U
1082/** 2 G (Giga) (2 147 483 648). (64-bit) */
1083#define _2G 0x0000000080000000LL
1084/** 4 G (Giga) (4 294 967 296). */
1085#define _4G 0x0000000100000000LL
1086/** 1 T (Tera) (1 099 511 627 776). */
1087#define _1T 0x0000010000000000LL
1088/** 1 P (Peta) (1 125 899 906 842 624). */
1089#define _1P 0x0004000000000000LL
1090/** 1 E (Exa) (1 152 921 504 606 846 976). */
1091#define _1E 0x1000000000000000LL
1092/** 2 E (Exa) (2 305 843 009 213 693 952). */
1093#define _2E 0x2000000000000000ULL
1094/** @} */
1095
1096/** @def VALID_PTR
1097 * Pointer validation macro.
1098 * @param ptr
1099 */
1100#if defined(__AMD64__)
1101# ifdef IN_RING3
1102# if defined(__DARWIN__) /* first 4GB is reserved for legacy kernel. */
1103# define VALID_PTR(ptr) ( (uintptr_t)(ptr) >= _4G \
1104 && !((uintptr_t)(ptr) & 0xffff800000000000ULL) )
1105# else
1106# define VALID_PTR(ptr) ( (uintptr_t)(ptr) + 0x1000U >= 0x2000U \
1107 && !((uintptr_t)(ptr) & 0xffff800000000000ULL) )
1108# endif
1109# else /* !IN_RING3 */
1110# define VALID_PTR(ptr) ( (uintptr_t)(ptr) + 0x1000U >= 0x2000U \
1111 && ( ((uintptr_t)(ptr) & 0xffff800000000000ULL) == 0xffff800000000000ULL \
1112 || ((uintptr_t)(ptr) & 0xffff800000000000ULL) == 0) )
1113# endif /* !IN_RING3 */
1114#elif defined(__X86__)
1115# define VALID_PTR(ptr) ( (uintptr_t)(ptr) + 0x1000U >= 0x2000U )
1116#else
1117# error "Architecture identifier missing / not implemented."
1118#endif
1119
1120
1121/** @def N_
1122 * The \#define N_ is used mark a string for translation. This is usable in
1123 * any part of the code, as it is only used by the tools that create message
1124 * catalogs. This macro is a no-op as far as the compiler and code generation
1125 * is concerned.
1126 *
1127 * If you want to both mark a string for translation and translate it, use _.
1128 */
1129#define N_(s) (s)
1130
1131/** @def _
1132 * The \#define _ is used mark a string for translation and to translate it in
1133 * one step.
1134 *
1135 * If you want to only mark a string for translation, use N_.
1136 */
1137#define _(s) gettext(s)
1138
1139
1140/** @def __PRETTY_FUNCTION__
1141 * With GNU C we'd like to use the builtin __PRETTY_FUNCTION__, so define that for the other compilers.
1142 */
1143#if !defined(__GNUC__) && !defined(__PRETTY_FUNCTION__)
1144# define __PRETTY_FUNCTION__ __FUNCTION__
1145#endif
1146
1147
1148/** @def RT_STRICT
1149 * The \#define RT_STRICT controls whether or not assertions and other runtime checks
1150 * should be compiled in or not.
1151 *
1152 * If you want assertions which are not a subject to compile time options use
1153 * the AssertRelease*() flavors.
1154 */
1155#if !defined(RT_STRICT) && defined(DEBUG)
1156# define RT_STRICT
1157#endif
1158
1159/** Source position. */
1160#define RT_SRC_POS __FILE__, __LINE__, __PRETTY_FUNCTION__
1161
1162/** Source position declaration. */
1163#define RT_SRC_POS_DECL const char *pszFile, unsigned iLine, const char *pszFunction
1164
1165/** Source position arguments. */
1166#define RT_SRC_POS_ARGS pszFile, iLine, pszFunction
1167
1168/** @} */
1169
1170
1171/** @defgroup grp_rt_cdefs_cpp Special Macros for C++
1172 * @ingroup grp_rt_cdefs
1173 * @{
1174 */
1175
1176#ifdef __cplusplus
1177
1178/** @def WORKAROUND_MSVC7_ERROR_C2593_FOR_BOOL_OP
1179 * Macro to work around error C2593 of the not-so-smart MSVC 7.x ambiguity
1180 * resolver. The following snippet clearly demonstrates the code causing this
1181 * error:
1182 * @code
1183 * class A
1184 * {
1185 * public:
1186 * operator bool() const { return false; }
1187 * operator int*() const { return NULL; }
1188 * };
1189 * int main()
1190 * {
1191 * A a;
1192 * if (!a);
1193 * if (a && 0);
1194 * return 0;
1195 * }
1196 * @endcode
1197 * The code itself seems pretty valid to me and GCC thinks the same.
1198 *
1199 * This macro fixes the compiler error by explicitly overloading implicit
1200 * global operators !, && and || that take the given class instance as one of
1201 * their arguments.
1202 *
1203 * The best is to use this macro right after the class declaration.
1204 *
1205 * @note The macro expands to nothing for compilers other than MSVC.
1206 *
1207 * @param Cls Class to apply the workaround to
1208 */
1209#if defined(_MSC_VER)
1210# define WORKAROUND_MSVC7_ERROR_C2593_FOR_BOOL_OP(Cls) \
1211 inline bool operator! (const Cls &that) { return !bool (that); } \
1212 inline bool operator&& (const Cls &that, bool b) { return bool (that) && b; } \
1213 inline bool operator|| (const Cls &that, bool b) { return bool (that) || b; } \
1214 inline bool operator&& (bool b, const Cls &that) { return b && bool (that); } \
1215 inline bool operator|| (bool b, const Cls &that) { return b || bool (that); }
1216#else
1217# define WORKAROUND_MSVC7_ERROR_C2593_FOR_BOOL_OP(Cls)
1218#endif
1219
1220/** @def WORKAROUND_MSVC7_ERROR_C2593_FOR_BOOL_OP_TPL
1221 * Version of WORKAROUND_MSVC7_ERROR_C2593_FOR_BOOL_OP for template classes.
1222 *
1223 * @param Tpl Name of the template class to apply the workaround to
1224 * @param ArgsDecl arguments of the template, as declared in |<>| after the
1225 * |template| keyword, including |<>|
1226 * @param Args arguments of the template, as specified in |<>| after the
1227 * template class name when using the, including |<>|
1228 *
1229 * Example:
1230 * @code
1231 * // template class declaration
1232 * template <class C>
1233 * class Foo { ... };
1234 * // applied workaround
1235 * WORKAROUND_MSVC7_ERROR_C2593_FOR_BOOL_OP_TPL (Foo, <class C>, <C>)
1236 * @endcode
1237 */
1238#if defined(_MSC_VER)
1239# define WORKAROUND_MSVC7_ERROR_C2593_FOR_BOOL_OP_TPL(Tpl, ArgsDecl, Args) \
1240 template ArgsDecl \
1241 inline bool operator! (const Tpl Args &that) { return !bool (that); } \
1242 template ArgsDecl \
1243 inline bool operator&& (const Tpl Args &that, bool b) { return bool (that) && b; } \
1244 template ArgsDecl \
1245 inline bool operator|| (const Tpl Args &that, bool b) { return bool (that) || b; } \
1246 template ArgsDecl \
1247 inline bool operator&& (bool b, const Tpl Args &that) { return b && bool (that); } \
1248 template ArgsDecl \
1249 inline bool operator|| (bool b, const Tpl Args &that) { return b || bool (that); }
1250#else
1251# define WORKAROUND_MSVC7_ERROR_C2593_FOR_BOOL_OP_TPL(Tpl, ArgsDecl, Args)
1252#endif
1253
1254
1255/** @def DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP
1256 * Declares the copy constructor and the assignment operation as inlined no-ops
1257 * (non-existent functions) for the given class. Use this macro inside the
1258 * private section if you want to effectively disable these operations for your
1259 * class.
1260 *
1261 * @param Cls class name to declare for
1262 */
1263
1264#define DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP(Cls) \
1265 inline Cls (Cls &); \
1266 inline Cls &operator= (Cls &);
1267
1268
1269/** @def DECLARE_CLS_NEW_DELETE_NOOP
1270 * Declares the new and delete operations as no-ops (non-existent functions)
1271 * for the given class. Use this macro inside the private section if you want
1272 * to effectively limit creating class instances on the stack only.
1273 *
1274 * @note The destructor of the given class must not be virtual, otherwise a
1275 * compile time error will occur. Note that this is not a drawback: having
1276 * the virtual destructor for a stack-based class is absolutely useless
1277 * (the real class of the stack-based instance is always known to the compiler
1278 * at compile time, so it will always call the correct destructor).
1279 *
1280 * @param Cls class name to declare for
1281 */
1282#define DECLARE_CLS_NEW_DELETE_NOOP(Cls) \
1283 inline static void *operator new (size_t); \
1284 inline static void operator delete (void *);
1285
1286
1287/**
1288 * Shortcut to |const_cast<C &>()| that automatically derives the correct
1289 * type (class) for the const_cast template's argument from its own argument.
1290 * Can be used to temporarily cancel the |const| modifier on the left-hand side
1291 * of assignment expressions, like this:
1292 * @code
1293 * const Class that;
1294 * ...
1295 * unconst (that) = some_value;
1296 * @endcode
1297 */
1298template <class C>
1299inline C &unconst (const C &that) { return const_cast <C &> (that); }
1300
1301
1302/**
1303 * Shortcut to |const_cast<C *>()| that automatically derives the correct
1304 * type (class) for the const_cast template's argument from its own argument.
1305 * Can be used to temporarily cancel the |const| modifier on the left-hand side
1306 * of assignment expressions, like this:
1307 * @code
1308 * const Class *that;
1309 * ...
1310 * unconst (that) = some_value;
1311 * @endcode
1312 */
1313template <class C>
1314inline C *unconst (const C *that) { return const_cast <C *> (that); }
1315
1316#endif /* defined(__cplusplus) */
1317
1318/** @} */
1319
1320#endif
1321
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