/* * tkArray.h -- * * An array is a sequence of items, stored in a contiguous memory region. * Random access to any item is very fast. New items can be either appended * or prepended. An array may be traversed in the forward or backward direction. * * Copyright (c) 2018-2019 by Gregor Cramer. * * See the file "license.terms" for information on usage and redistribution of * this file, and for a DISCLAIMER OF ALL WARRANTIES. */ /* * Note that this file will not be included in header files, it is the purpose * of this file to be included in source files only. Thus we are not using the * prefix "Tk_" here for functions, because all the functions have private scope. */ /* * ------------------------------------------------------------------------------- * Use the array in the following way: * ------------------------------------------------------------------------------- * typedef struct { int key, value; } Pair; * TK_PTR_ARRAY_DEFINE(MyArray, Pair); * MyArray *arr = NULL; * if (MyArray_IsEmpty(arr)) { * MyArray_Append(&arr, MakePair(1, 2)); * MyArray_Append(&arr, MakePair(2, 3)); * for (i = 0; i < MyArray_Size(arr); ++i) { * Pair *p = MyArray_Get(arr, i); * printf("%d -> %d\n", p->key, p->value); * ckfree(p); * } * MyArray_Free(&arr); * assert(arr == NULL); * } * ------------------------------------------------------------------------------- * Or with aggregated elements: * ------------------------------------------------------------------------------- * typedef struct { int key, value; } Pair; * TK_ARRAY_DEFINE(MyArray, Pair); * Pair p1 = { 1, 2 }; * Pair p2 = { 2, 3 }; * MyArray *arr = NULL; * if (MyArray_IsEmpty(arr)) { * MyArray_Append(&arr, p1); * MyArray_Append(&arr, p2); * for (i = 0; i < MyArray_Size(arr); ++i) { * const Pair *p = MyArray_Get(arr, i); * printf("%d -> %d\n", p->key, p->value); * } * MyArray_Free(&arr); * assert(arr == NULL); * } * ------------------------------------------------------------------------------- */ /*************************************************************************/ /* * Two array types will be provided: * Use TK_ARRAY_DEFINE if your array is aggregating the elements. Use * TK_PTR_ARRAY_DEFINE if your array contains pointers to elements. But * in latter case the array is not responsible for the lifetime of the * elements. */ /*************************************************************************/ /* * Array_ElemSize: Returns the memory size for one array element. */ /*************************************************************************/ /* * Array_BufferSize: Returns the memory size for given number of elements. */ /*************************************************************************/ /* * Array_IsEmpty: Array is empty? */ /*************************************************************************/ /* * Array_Size: Number of elements in array. */ /*************************************************************************/ /* * Array_Capacity: Capacity of given array. This is the maximal number of * elements fitting into current array memory without resizing the buffer. */ /*************************************************************************/ /* * Array_SetSize: Set array size, new size must not exceed the capacity of * the array. This function has to be used with care when increasing the * array size. */ /*************************************************************************/ /* * Array_First: Returns position of first element in array. Given array * may be NULL. */ /*************************************************************************/ /* * Array_Last: Returns position after last element in array. Given array * may be empty. */ /*************************************************************************/ /* * Array_Front: Returns first element in array. Given array must not be * empty. */ /*************************************************************************/ /* * Array_Back: Returns last element in array. Given array must not be * empty. */ /*************************************************************************/ /* * Array_Resize: Resize buffer of array for given number of elements. The * array may grow or shrink. Note that this function is not initializing * the increased buffer. */ /*************************************************************************/ /* * Array_ResizeAndClear: Resize buffer of array for given number of * elements. The array may grow or shrink. The increased memory will be * filled with zeroes. */ /*************************************************************************/ /* * Array_Clear: Fill specified range with zeroes. */ /*************************************************************************/ /* * Array_Free: Resize array to size zero. This function will release the * array buffer. */ /*************************************************************************/ /* * Array_Append: Insert given element after end of array. */ /*************************************************************************/ /* * Array_PopBack: Shrink array by one element. Given array must not be * empty. */ /*************************************************************************/ /* * Array_Get: Random access to array element at given position. The given * index must not exceed current array size. */ /*************************************************************************/ /* * Array_Set: Replace array element at given position with new value. The * given index must not exceed current array size. */ /*************************************************************************/ /* * Array_Find: Return index position of element which matches given * argument. If not found then -1 will be returned. */ /*************************************************************************/ #ifndef TK_ARRAY_DEFINED #define TK_ARRAY_DEFINED #include "tkInt.h" #if defined(__GNUC__) || defined(__clang__) # define __TK_ARRAY_UNUSED __attribute__((unused)) #else # define __TK_ARRAY_UNUSED #endif #define TK_ARRAY_DEFINE(AT, ElemType) /* AT = type of array */ \ /* ------------------------------------------------------------------------- */ \ typedef struct AT { \ size_t size; \ size_t capacity; \ ElemType buf[1]; \ } AT; \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Init(AT *arr) \ { \ assert(arr); \ arr->size = 0; \ arr->capacity = 0; \ } \ \ __TK_ARRAY_UNUSED \ static size_t \ AT##_ElemSize() \ { \ return sizeof(ElemType); \ } \ \ __TK_ARRAY_UNUSED \ static size_t \ AT##_BufferSize(size_t numElems) \ { \ return numElems*sizeof(ElemType); \ } \ \ __TK_ARRAY_UNUSED \ static int \ AT##_IsEmpty(const AT *arr) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ return !arr || arr->size == 0u; \ } \ \ __TK_ARRAY_UNUSED \ static size_t \ AT##_Size(const AT *arr) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ return arr ? arr->size : 0u; \ } \ \ __TK_ARRAY_UNUSED \ static size_t \ AT##_Capacity(const AT *arr) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ return arr ? arr->capacity : 0u; \ } \ \ __TK_ARRAY_UNUSED \ static ElemType * \ AT##_First(AT *arr) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ return arr ? arr->buf : NULL; \ } \ \ __TK_ARRAY_UNUSED \ static ElemType * \ AT##_Last(AT *arr) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ return arr ? arr->buf + arr->size : NULL; \ } \ \ __TK_ARRAY_UNUSED \ static ElemType * \ AT##_Front(AT *arr) \ { \ assert(arr); \ assert(arr->size != 0xdeadbeef); \ assert(!AT##_IsEmpty(arr)); \ return &arr->buf[0]; \ } \ \ __TK_ARRAY_UNUSED \ static ElemType * \ AT##_Back(AT *arr) \ { \ assert(arr); \ assert(arr->size != 0xdeadbeef); \ assert(!AT##_IsEmpty(arr)); \ return &arr->buf[arr->size - 1]; \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Resize(AT **arrp, size_t newSize) \ { \ assert(arrp); \ assert(!*arrp || (*arrp)->size != 0xdeadbeef); \ if (newSize == 0) { \ assert(!*arrp || ((*arrp)->size = 0xdeadbeef)); \ ckfree(*arrp); \ *arrp = NULL; \ } else { \ int init = *arrp == NULL; \ size_t memSize = AT##_BufferSize(newSize - 1) + sizeof(AT); \ *arrp = (AT *)ckrealloc(*arrp, memSize); \ if (init) { \ (*arrp)->size = 0; \ } else if (newSize < (*arrp)->size) { \ (*arrp)->size = newSize; \ } \ (*arrp)->capacity = newSize; \ } \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Clear(AT *arr, size_t from, size_t to) \ { \ assert(arr); \ assert(arr->size != 0xdeadbeef); \ assert(to <= AT##_Capacity(arr)); \ assert(from <= to); \ memset(arr->buf + from, 0, AT##_BufferSize(to - from)); \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_ResizeAndClear(AT **arrp, size_t newSize) \ { \ size_t oldCapacity; \ assert(arrp); \ oldCapacity = *arrp ? (*arrp)->capacity : 0; \ AT##_Resize(arrp, newSize); \ if (newSize > oldCapacity) { \ AT##_Clear(*arrp, oldCapacity, newSize); \ } \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_SetSize(AT *arr, size_t newSize) \ { \ assert(newSize <= AT##_Capacity(arr)); \ assert(!arr || arr->size != 0xdeadbeef); \ if (arr) { \ arr->size = newSize; \ } \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Append(AT **arrp, ElemType *elem) \ { \ assert(arrp); \ if (!*arrp) { \ AT##_Resize(arrp, 1); \ } else if ((*arrp)->size == (*arrp)->capacity) { \ AT##_Resize(arrp, (*arrp)->capacity + ((*arrp)->capacity + 1)/2); \ } \ (*arrp)->buf[(*arrp)->size++] = *elem; \ } \ \ __TK_ARRAY_UNUSED \ static size_t \ AT##_PopBack(AT *arr) \ { \ assert(!AT##_IsEmpty(arr)); \ return arr->size -= 1; \ } \ \ __TK_ARRAY_UNUSED \ static ElemType * \ AT##_Get(const AT *arr, size_t at) \ { \ assert(arr); \ assert(at < AT##_Size(arr)); \ return (ElemType *) &arr->buf[at]; \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Set(AT *arr, size_t at, ElemType *elem) \ { \ assert(arr); \ assert(at < AT##_Size(arr)); \ arr->buf[at] = *elem; \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Free(AT **arrp) \ { \ AT##_Resize(arrp, 0); \ } \ \ __TK_ARRAY_UNUSED \ static int \ AT##_Find(const AT *arr, const ElemType *elem) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ if (arr) { \ const ElemType *buf = arr->buf; \ size_t i; \ for (i = 0; i < arr->size; ++i) { \ if (memcmp(&buf[i], elem, sizeof(ElemType)) == 0) { \ return (int) i; \ } \ } \ } \ return -1; \ } \ \ __TK_ARRAY_UNUSED \ static int \ AT##_Contains(const AT *arr, const ElemType *elem) \ { \ return AT##_Find(arr, elem) != -1; \ } \ /* ------------------------------------------------------------------------- */ #define TK_PTR_ARRAY_DEFINE(AT, ElemType) /* AT = type of array */ \ /* ------------------------------------------------------------------------- */ \ typedef struct AT { \ size_t size; \ size_t capacity; \ ElemType *buf[1]; \ } AT; \ \ __TK_ARRAY_UNUSED \ static size_t \ AT##_ElemSize() \ { \ return sizeof(ElemType); \ } \ \ __TK_ARRAY_UNUSED \ static size_t \ AT##_BufferSize(size_t numElems) \ { \ return numElems*sizeof(ElemType *); \ } \ \ __TK_ARRAY_UNUSED \ static int \ AT##_IsEmpty(const AT *arr) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ return !arr || arr->size == 0; \ } \ \ __TK_ARRAY_UNUSED \ static ElemType ** \ AT##_First(AT *arr) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ return arr ? arr->buf : NULL; \ } \ \ __TK_ARRAY_UNUSED \ static ElemType ** \ AT##_Last(AT *arr) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ return arr ? arr->buf + arr->size : NULL; \ } \ \ __TK_ARRAY_UNUSED \ static ElemType * \ AT##_Front(AT *arr) \ { \ assert(arr); \ assert(arr->size != 0xdeadbeef); \ assert(!AT##_IsEmpty(arr)); \ return arr->buf[0]; \ } \ \ __TK_ARRAY_UNUSED \ static ElemType * \ AT##_Back(AT *arr) \ { \ assert(arr); \ assert(arr->size != 0xdeadbeef); \ assert(!AT##_IsEmpty(arr)); \ return arr->buf[arr->size - 1]; \ } \ \ __TK_ARRAY_UNUSED \ static size_t \ AT##_Size(const AT *arr) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ return arr ? arr->size : 0; \ } \ \ __TK_ARRAY_UNUSED \ static size_t \ AT##_Capacity(const AT *arr) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ return arr ? arr->capacity : 0; \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Resize(AT **arrp, size_t newCapacity) \ { \ assert(arrp); \ assert(!*arrp || (*arrp)->size != 0xdeadbeef); \ if (newCapacity == 0) { \ assert(!*arrp || ((*arrp)->size = 0xdeadbeef)); \ ckfree(*arrp); \ *arrp = NULL; \ } else { \ int init = *arrp == NULL; \ size_t memSize = AT##_BufferSize(newCapacity - 1) + sizeof(AT); \ *arrp = (AT *)ckrealloc(*arrp, memSize); \ if (init) { \ (*arrp)->size = 0; \ } else if (newCapacity < (*arrp)->size) { \ (*arrp)->size = newCapacity; \ } \ (*arrp)->capacity = newCapacity; \ } \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Clear(AT *arr, size_t from, size_t to) \ { \ assert(arr); \ assert(arr->size != 0xdeadbeef); \ assert(to <= AT##_Capacity(arr)); \ assert(from <= to); \ memset(arr->buf + from, 0, AT##_BufferSize(to - from)); \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_ResizeAndClear(AT **arrp, size_t newCapacity) \ { \ size_t oldCapacity; \ assert(arrp); \ oldCapacity = *arrp ? (*arrp)->capacity : 0; \ AT##_Resize(arrp, newCapacity); \ if (newCapacity > oldCapacity) { \ AT##_Clear(*arrp, oldCapacity, newCapacity); \ } \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_SetSize(AT *arr, size_t newSize) \ { \ assert(arr); \ assert(newSize <= AT##_Capacity(arr)); \ arr->size = newSize; \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Append(AT **arrp, ElemType *elem) \ { \ assert(arrp); \ if (!*arrp) { \ AT##_Resize(arrp, 1); \ } else if ((*arrp)->size == (*arrp)->capacity) { \ AT##_Resize(arrp, (*arrp)->capacity + ((*arrp)->capacity + 1)/2); \ } \ (*arrp)->buf[(*arrp)->size++] = elem; \ } \ \ __TK_ARRAY_UNUSED \ static size_t \ AT##_PopBack(AT *arr) \ { \ assert(!AT##_IsEmpty(arr)); \ return arr->size -= 1; \ } \ \ __TK_ARRAY_UNUSED \ static ElemType * \ AT##_Get(const AT *arr, size_t at) \ { \ assert(arr); \ assert(at < AT##_Size(arr)); \ return arr->buf[at]; \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Set(AT *arr, size_t at, ElemType *elem) \ { \ assert(arr); \ assert(at < AT##_Size(arr)); \ arr->buf[at] = elem; \ } \ \ __TK_ARRAY_UNUSED \ static void \ AT##_Free(AT **arrp) \ { \ AT##_Resize(arrp, 0); \ } \ \ __TK_ARRAY_UNUSED \ static int \ AT##_Find(const AT *arr, const ElemType *elem) \ { \ assert(!arr || arr->size != 0xdeadbeef); \ if (arr) { \ ElemType *const *buf = arr->buf; \ size_t i; \ for (i = 0; i < arr->size; ++i) { \ if (buf[i] == elem) { \ return (int) i; \ } \ } \ } \ return -1; \ } \ \ __TK_ARRAY_UNUSED \ static int \ AT##_Contains(const AT *arr, const ElemType *elem) \ { \ return AT##_Find(arr, elem) != -1; \ } \ /* ------------------------------------------------------------------------- */ #endif /* TK_ARRAY_DEFINED */ /* * Local Variables: * mode: c * c-basic-offset: 4 * fill-column: 105 * End: * vi:set ts=8 sw=4: */