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vector.c
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#include "vector.h"
#include <stdio.h>
int8_t u8Compare(uint8_t a, uint8_t b){
if (a<b){return -1;}
if (a > b){return 1;}
return 0;
}
int8_t u16Compare(uint16_t a, uint16_t b){
if (a<b){return -1;}
if (a > b){return 1;}
return 0;
}
int8_t u32Compare(uint32_t a, uint32_t b){
if (a<b){return -1;}
if (a > b){return 1;}
return 0;
}
int8_t u64Compare(uint64_t a, uint64_t b){
if (a<b){return -1;}
if (a > b){return 1;}
return 0;
}
int8_t i8Compare(int8_t a, uint8_t b){
if (a<b){return -1;}
if (a > b){return 1;}
return 0;
}
int8_t i16Compare(int16_t a, uint16_t b){
if (a<b){return -1;}
if (a > b){return 1;}
return 0;
}
int8_t i32Compare(int32_t a, uint32_t b){
if (a<b){return -1;}
if (a > b){return 1;}
return 0;
}
int8_t i64Compare(int64_t a, uint64_t b){
if (a<b){return -1;}
if (a > b){return 1;}
return 0;
}
Cvector CvectorInit(size_t size){
uint32_t cap = 32;
uint32_t s = 0;
uint32_t ts = size;
void* data = malloc(cap*ts);
Cvector vec = {data, cap, s, ts};
return vec;
}
CvectorIterator CvectorIteratorInit(Cvector* vec){
CvectorIterator it = {vec, 0};
return it;
}
uint8_t CvectorIteratorHasNext(CvectorIterator* it){
return it->index < it->vec->size;
}
void* CvectorIteratorNext(CvectorIterator* it){
return (uint8_t*)it->vec->data+(it->vec->typeSize*it->index++);
}
void CvectorFree(Cvector* vec){
free(vec->data);
vec->data = NULL;
vec->size = 0;
}
void CvectorResize(Cvector* vec){
void* temp = realloc(vec->data, vec->capacity*vec->typeSize*2);
vec->data = temp;
vec->capacity *= 2;
}
void CvectorPushBack(Cvector* vec, void* item){
if (vec->size >= vec->capacity){
CvectorResize(vec);
}
void* location = (uint8_t*)vec->data+(vec->typeSize*vec->size++);
memcpy(location, item, vec->typeSize);
}
void CvectorInsert(Cvector* vec, uint32_t index, void* item){
if (index >= vec->size){
CvectorPushBack(vec, item);
return;
}
if (vec->size >= vec->capacity){
CvectorResize(vec);
}
vec->size++;
uint32_t i;
for (i = vec->size;i>0;--i){
if (index == i){
void* location = (uint8_t*)vec->data+(vec->typeSize*i);
memcpy(location, item, vec->typeSize);
return;
}
void* newSpace = (uint8_t*)vec->data+(i*vec->typeSize);
void* oldSpace = (uint8_t*)vec->data+((i-1)*vec->typeSize);
memcpy(newSpace, oldSpace, vec->typeSize);
}
memcpy(vec->data, item, vec->typeSize);
}
uint32_t CvectorPushInOrder(Cvector* vec, void* item, int8_t(*comparator)(void*, void*)){
if (vec->size >= vec->capacity){
CvectorResize(vec);
}
if (++vec->size==1){
memcpy(vec->data, item, vec->typeSize);
return 0;
}
uint32_t i;
for (i = vec->size-1;i>0;--i){
void* space = (uint8_t*)vec->data+((i-1)*vec->typeSize);
if ((*comparator)(item, space) > 0){
void* location = vec->data+(vec->typeSize*i);
memcpy(location, item, vec->typeSize);
return i;
}
void* newSpace = (uint8_t*)vec->data+(i*vec->typeSize);
void* oldSpace = (uint8_t*)vec->data+((i-1)*vec->typeSize);
memcpy(newSpace, oldSpace, vec->typeSize);
}
memcpy(vec->data, item, vec->typeSize);
return 0;
}
void CvectorReserve(Cvector* vec, uint32_t places){
if (vec->capacity-vec->size < places){
uint32_t remaining = places - (vec->capacity - vec->size);
void* temp = realloc(vec->data, (vec->capacity+remaining)*vec->typeSize);
vec->data = temp;
vec->capacity += remaining;
}
}
void* CvectorGet(Cvector* vec, uint32_t index){
if (index < vec->size){
return (uint8_t*)vec->data+(index*vec->typeSize);
}
return NULL;
}
void* CvectorGetTrusted(Cvector* vec, uint32_t index){
return (uint8_t*)vec->data+(index*vec->typeSize);
}
void CvectorSet(Cvector* vec, uint32_t index, void* item){
if (index < vec->size){
void* location = vec->data+(index*vec->typeSize);
memcpy(location, item, vec->typeSize);
}
}
void CvectorSetTrusted(Cvector* vec, uint32_t index, void* item){
void* location = vec->data+(index*vec->typeSize);
memcpy(location, item, vec->typeSize);
}
void CvectorShift(Cvector* vec, uint32_t index){
uint32_t i;
for (i = index;i<vec->size;++i){
void* newSpace = (uint8_t*)vec->data+(i*vec->typeSize);
void* oldSpace = (uint8_t*)vec->data+((i+1)*vec->typeSize);
memcpy(newSpace, oldSpace, vec->typeSize);
}
}
void CvectorRemoveInOrder(Cvector* vec, uint32_t index){
if (index < vec->size){
vec->size--;
CvectorShift(vec, index);
}
}
void CvectorRemove(Cvector* vec, uint32_t index){
if (index < vec->size){
void* res = (uint8_t*)vec->data+(index*vec->typeSize);
void* shiftLoc = (uint8_t*)vec->data+(--vec->size*vec->typeSize);
memcpy(res, shiftLoc, vec->typeSize);
}
}
void* CvectorPop(Cvector* vec){
return (uint8_t*)vec->data+(--vec->size*vec->typeSize);
}
void CvectorClear(Cvector* vec){
vec->size = 0;
}