/* Copyright (C) 2000 MySQL AB This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* Handling of arrays that can grow dynamicly. */ #include "mysys_priv.h" #include "m_string.h" /* Initiate dynamic array SYNOPSIS init_dynamic_array2() array Pointer to an array element_size Size of element init_buffer Initial buffer pointer init_alloc Number of initial elements alloc_increment Increment for adding new elements DESCRIPTION init_dynamic_array() initiates array and allocate space for init_alloc eilements. Array is usable even if space allocation failed. Static buffers must begin immediately after the array structure. RETURN VALUE true my_malloc_ci() failed false Ok */ bool init_dynamic_array2(DYNAMIC_ARRAY *array, uint element_size, void *init_buffer, uint init_alloc, uint alloc_increment CALLER_INFO_PROTO) { if (!alloc_increment) { alloc_increment=max((8192-MALLOC_OVERHEAD)/element_size,16); if (init_alloc > 8 && alloc_increment > init_alloc * 2) alloc_increment=init_alloc*2; } if (!init_alloc) { init_alloc=alloc_increment; init_buffer= 0; } array->elements=0; array->max_element=init_alloc; array->alloc_increment=alloc_increment; array->size_of_element=element_size; if ((array->buffer= init_buffer)) return(false); if (!(array->buffer=(uchar*) my_malloc_ci(element_size*init_alloc, MYF(MY_WME)))) { array->max_element=0; return(true); } return(false); } bool init_dynamic_array(DYNAMIC_ARRAY *array, uint element_size, uint init_alloc, uint alloc_increment CALLER_INFO_PROTO) { /* placeholder to preserve ABI */ return my_init_dynamic_array_ci(array, element_size, init_alloc, alloc_increment); } /* Insert element at the end of array. Allocate memory if needed. SYNOPSIS insert_dynamic() array element RETURN VALUE true Insert failed false Ok */ bool insert_dynamic(DYNAMIC_ARRAY *array, uchar* element) { uchar* buffer; if (array->elements == array->max_element) { /* Call only when nessesary */ if (!(buffer=alloc_dynamic(array))) return true; } else { buffer=array->buffer+(array->elements * array->size_of_element); array->elements++; } memcpy(buffer,element,(size_t) array->size_of_element); return false; } /* Alloc space for next element(s) SYNOPSIS alloc_dynamic() array DESCRIPTION alloc_dynamic() checks if there is empty space for at least one element if not tries to allocate space for alloc_increment elements at the end of array. RETURN VALUE pointer Pointer to empty space for element 0 Error */ uchar *alloc_dynamic(DYNAMIC_ARRAY *array) { if (array->elements == array->max_element) { char *new_ptr; if (array->buffer == (uchar *)(array + 1)) { /* In this senerio, the buffer is statically preallocated, so we have to create an all-new malloc since we overflowed */ if (!(new_ptr= (char *) my_malloc((array->max_element+ array->alloc_increment) * array->size_of_element, MYF(MY_WME)))) return 0; memcpy(new_ptr, array->buffer, array->elements * array->size_of_element); } else if (!(new_ptr=(char*) my_realloc(array->buffer,(array->max_element+ array->alloc_increment)* array->size_of_element, MYF(MY_WME | MY_ALLOW_ZERO_PTR)))) return 0; array->buffer= (uchar*) new_ptr; array->max_element+=array->alloc_increment; } return array->buffer+(array->elements++ * array->size_of_element); } /* Pop last element from array. SYNOPSIS pop_dynamic() array RETURN VALUE pointer Ok 0 Array is empty */ uchar *pop_dynamic(DYNAMIC_ARRAY *array) { if (array->elements) return array->buffer+(--array->elements * array->size_of_element); return 0; } /* Replace element in array with given element and index SYNOPSIS set_dynamic() array element Element to be inserted idx Index where element is to be inserted DESCRIPTION set_dynamic() replaces element in array. If idx > max_element insert new element. Allocate memory if needed. RETURN VALUE true Idx was out of range and allocation of new memory failed false Ok */ bool set_dynamic(DYNAMIC_ARRAY *array, uchar* element, uint idx) { if (idx >= array->elements) { if (idx >= array->max_element && allocate_dynamic(array, idx)) return true; bzero((uchar*) (array->buffer+array->elements*array->size_of_element), (idx - array->elements)*array->size_of_element); array->elements=idx+1; } memcpy(array->buffer+(idx * array->size_of_element),element, (size_t) array->size_of_element); return false; } /* Ensure that dynamic array has enough elements SYNOPSIS allocate_dynamic() array max_elements Numbers of elements that is needed NOTES Any new allocated element are NOT initialized RETURN VALUE false Ok true Allocation of new memory failed */ bool allocate_dynamic(DYNAMIC_ARRAY *array, uint max_elements) { if (max_elements >= array->max_element) { uint size; uchar *new_ptr; size= (max_elements + array->alloc_increment)/array->alloc_increment; size*= array->alloc_increment; if (array->buffer == (uchar *)(array + 1)) { /* In this senerio, the buffer is statically preallocated, so we have to create an all-new malloc since we overflowed */ if (!(new_ptr= (uchar *) my_malloc(size * array->size_of_element, MYF(MY_WME)))) return 0; memcpy(new_ptr, array->buffer, array->elements * array->size_of_element); } else if (!(new_ptr= (uchar*) my_realloc(array->buffer,size* array->size_of_element, MYF(MY_WME | MY_ALLOW_ZERO_PTR)))) return true; array->buffer= new_ptr; array->max_element= size; } return false; } /* Get an element from array by given index SYNOPSIS get_dynamic() array uchar* Element to be returned. If idx > elements contain zeroes. idx Index of element wanted. */ void get_dynamic(DYNAMIC_ARRAY *array, uchar* element, uint idx) { if (idx >= array->elements) { bzero(element,array->size_of_element); return; } memcpy(element,array->buffer+idx*array->size_of_element, (size_t) array->size_of_element); } /* Empty array by freeing all memory SYNOPSIS delete_dynamic() array Array to be deleted */ void delete_dynamic(DYNAMIC_ARRAY *array) { /* Just mark as empty if we are using a static buffer */ if (array->buffer == (uchar *)(array + 1)) array->elements= 0; else if (array->buffer) { my_free(array->buffer,MYF(MY_WME)); array->buffer=0; array->elements=array->max_element=0; } } /* Delete element by given index SYNOPSIS delete_dynamic_element() array idx Index of element to be deleted */ void delete_dynamic_element(DYNAMIC_ARRAY *array, uint idx) { char *ptr= (char*) array->buffer+array->size_of_element*idx; array->elements--; memmove(ptr,ptr+array->size_of_element, (array->elements-idx)*array->size_of_element); } /* Free unused memory SYNOPSIS freeze_size() array Array to be freed */ void freeze_size(DYNAMIC_ARRAY *array) { uint elements=max(array->elements,1); /* Do nothing if we are using a static buffer */ if (array->buffer == (uchar *)(array + 1)) return; if (array->buffer && array->max_element != elements) { array->buffer=(uchar*) my_realloc(array->buffer, elements*array->size_of_element, MYF(MY_WME)); array->max_element=elements; } } /* Get the index of a dynamic element SYNOPSIS get_index_dynamic() array Array element Whose element index */ int get_index_dynamic(DYNAMIC_ARRAY *array, uchar* element) { uint ret; if (array->buffer > element) return -1; ret= (element - array->buffer) / array->size_of_element; if (ret > array->elements) return -1; return ret; }