libcm is a C development framework with an emphasis on audio signal processing applications.
Du kan inte välja fler än 25 ämnen Ämnen måste starta med en bokstav eller siffra, kan innehålla bindestreck ('-') och vara max 35 tecken långa.

cmLinkedHeap.h 4.8KB

123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293
  1. #ifndef cmLinkedHeap_h
  2. #define cmLinkedHeap_h
  3. #ifdef __cplusplus
  4. extern "C" {
  5. #endif
  6. //{
  7. //(
  8. typedef cmHandle_t cmLHeapH_t;
  9. extern cmLHeapH_t cmLHeapNullHandle;
  10. cmLHeapH_t cmLHeapCreate( unsigned dfltBlockByteCnt, cmCtx_t* ctx );
  11. void cmLHeapDestroy( cmLHeapH_t* hp );
  12. void* cmLHeapAllocate( cmLHeapH_t h, void* orgDataPtr, unsigned eleCnt, unsigned eleByteCnt, unsigned flags, const char* fileStr, const char* funcStr, unsigned fileLine );
  13. cmChar_t* cmLHeapAllocStr( cmLHeapH_t h, void* orgDataPtr, const cmChar_t* str, unsigned charCnt, unsigned flags, const char* fileStr, const char* funcStr, unsigned fileLine );
  14. // If ptr==NULL the function returns with no side effect.
  15. void cmLHeapFree( cmLHeapH_t h, void* ptr );
  16. void cmLHeapFreeDebug( cmLHeapH_t h, void* dataPtr, const char* fileName, const char* funcName, unsigned fileLine );
  17. // If *ptr==NULL the function returns with no side effect.
  18. void cmLHeapFreePtr( cmLHeapH_t h, void** ptrPtr );
  19. void cmLHeapFreePtrDebug( cmLHeapH_t h, void** dataPtrPtr, const char* fileName, const char* funcName, unsigned fileLine );
  20. bool cmLHeapIsValid( cmLHeapH_t h );
  21. // Return the values set in call to cmLHeapCreate()
  22. unsigned cmLHeapDefaultBlockByteCount( cmLHeapH_t h );
  23. unsigned cmLHeapGuardByteCount( cmLHeapH_t h );
  24. unsigned cmLHeapAlignByteCount( cmLHeapH_t h );
  25. unsigned cmLHeapInitializeFlags( cmLHeapH_t h );
  26. // If releaseFl==false then marks all internal memory blocks as empty but does not actually
  27. // release the associated memory, otherwise releases all memory blocks.
  28. void cmLHeapClear( cmLHeapH_t h, bool releaseFl );
  29. // Return true if 'ptr' points into a linked heap block.
  30. bool cmLHeapIsPtrInHeap( cmLHeapH_t h, const void* ptr );
  31. // mmFlags take the same values as the flags parameter to cmMmReport().
  32. cmMmRC_t cmLHeapReportErrors( cmLHeapH_t h, unsigned mmFlags );
  33. void cmLHeapReport( cmLHeapH_t h );
  34. void cmLHeapTest();
  35. #if cmDEBUG_FL == 0
  36. #define cmLHeapAlloc( h, byteCnt ) cmLHeapAllocate(h,NULL,1,byteCnt, kAlignMmFl, NULL,NULL,0)
  37. #define cmLHeapAllocZ(h, byteCnt ) cmLHeapAllocate(h,NULL,1,byteCnt, kAlignMmFl | kZeroMmFl, NULL,NULL,0)
  38. #define cmLhAlloc(h,t,n) ((t*)cmLHeapAllocate(h,NULL,n,sizeof(t), kAlignMmFl, NULL,NULL,0))
  39. #define cmLhAllocZ(h,t,n) ((t*)cmLHeapAllocate(h,NULL,n,sizeof(t), kAlignMmFl | kZeroMmFl, NULL,NULL,0))
  40. #define cmLhResizeN( h,t,p,n) ((t*)cmLHeapAllocate(h,p, n,sizeof(t), kAlignMmFl, NULL,NULL,0))
  41. #define cmLhResizeNZ(h,t,p,n) ((t*)cmLHeapAllocate(h,p, n,sizeof(t), kAlignMmFl | kZeroMmFl, NULL,NULL,0))
  42. #define cmLhAllocStr( h, str ) cmLHeapAllocStr( h, NULL, str, cmStringLen(str), kAlignMmFl, NULL,NULL,0 )
  43. #define cmLhAllocStrN( h, str, n ) cmLHeapAllocStr( h, NULL, str, n, kAlignMmFl, NULL,NULL,0 )
  44. #define cmLhResizeStr( h, p, str ) cmLHeapAllocStr( h, p, str, cmStringLen(str), kAlignMmFl, NULL,NULL,0 )
  45. #define cmLhResizeStrN( h, p, str, n ) cmLHeapAllocStr( h, p, str, n, kAlignMmFl, NULL,NULL,0 )
  46. #define cmLhFree( h, p ) cmLHeapFree( h, p )
  47. #define cmLhFreePtr(h, p ) cmLHeapFreePtr( h, p )
  48. #else
  49. #define cmLHeapAlloc( h, byteCnt ) cmLHeapAllocate(h,NULL,1,byteCnt, kAlignMmFl, __FILE__,__FUNCTION__,__LINE__)
  50. #define cmLHeapAllocZ(h, byteCnt ) cmLHeapAllocate(h,NULL,1,byteCnt, kAlignMmFl | kZeroMmFl, __FILE__,__FUNCTION__,__LINE__)
  51. #define cmLhAlloc(h,t,n) ((t*)cmLHeapAllocate(h,NULL,n,sizeof(t), kAlignMmFl, __FILE__,__FUNCTION__,__LINE__))
  52. #define cmLhAllocZ(h,t,n) ((t*)cmLHeapAllocate(h,NULL,n,sizeof(t), kAlignMmFl | kZeroMmFl, __FILE__,__FUNCTION__,__LINE__))
  53. #define cmLhResizeN( h,t,p,n) ((t*)cmLHeapAllocate(h,p, n,sizeof(t), kAlignMmFl, __FILE__,__FUNCTION__,__LINE__))
  54. #define cmLhResizeNZ(h,t,p,n) ((t*)cmLHeapAllocate(h,p, n,sizeof(t), kAlignMmFl | kZeroMmFl, __FILE__,__FUNCTION__,__LINE__))
  55. #define cmLhAllocStr( h, str ) cmLHeapAllocStr( h, NULL, str, cmStringLen(str), kAlignMmFl, __FILE__,__FUNCTION__,__LINE__ )
  56. #define cmLhAllocStrN( h, str, n ) cmLHeapAllocStr( h, NULL, str, n, kAlignMmFl, __FILE__,__FUNCTION__,__LINE__ )
  57. #define cmLhResizeStr( h, p, str ) cmLHeapAllocStr( h, p, str, cmStringLen(str), kAlignMmFl, __FILE__,__FUNCTION__,__LINE__ )
  58. #define cmLhResizeStrN( h, p, str, n ) cmLHeapAllocStr( h, p, str, n, kAlignMmFl, __FILE__,__FUNCTION__,__LINE__ )
  59. #define cmLhFree( h, p ) cmLHeapFreeDebug( h, p, __FILE__,__FUNCTION__,__LINE__ )
  60. #define cmLhFreePtr(h, p ) cmLHeapFreePtrDebug( h, p, __FILE__,__FUNCTION__,__LINE__ )
  61. #endif
  62. //)
  63. //}
  64. #ifdef __cplusplus
  65. }
  66. #endif
  67. #endif