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/* Nujel - Copyright (C) 2020-2022 - Benjamin Vincent Schulenburg
* This project uses the MIT license, a copy should be included under /LICENSE */
#ifndef NUJEL_AMALGAMATION
#include "../nujel-private.h"
#endif
#include <stdlib.h>
#include <string.h>
static lVal *lnfArrLength(lClosure *c, lVal *v){
lArray *arr = requireArray(c, lCar(v));
return lValInt(arr->length);
}
static lVal *lnfArrLengthSet(lClosure *c, lVal *v){
lVal *car = lCar(v);
lArray *arr = requireArray(c, car);
const int length = requireNaturalInt(c, lCadr(v));
lVal **newData = realloc(arr->data,length * sizeof(lVal *));
if (unlikely(newData == NULL)) {
free(newData);
lExceptionThrowValClo("out-of-memory", "(array/allocate) couldn't allocate its array", v, c);
return NULL;
}
arr->data = newData;
if(length > arr->length){
memset(&arr->data[arr->length], 0, (((size_t)length) - arr->length) * sizeof(lVal *));
}
arr->length = length;
return car;
}
static lVal *lnfArrSet(lClosure *c, lVal *v){
lVal *car = lCar(v);
lArray *arr = requireMutableArray(c, car);
const int key = requireInt(c, lCadr(v));
if((key < 0) || (key >= arr->length)){
lExceptionThrowValClo("out-of-bounds","(array/set!] index provided is out of bounds", v, c);
return NULL;
}
const lVal *vt = lCddr(v);
if((vt == NULL) || (vt->type != ltPair)){
lExceptionThrowValClo("type-mismatch","(array/set!] needs a third argument", v, c);
return NULL;
}
arr->data[key] = vt->vList.car;
return car;
}
static lVal *lnfArrAllocate(lClosure *c, lVal *v){
const int len = requireNaturalInt(c, lCar(v));
lVal *r = lValAlloc(ltArray);
r->vArray = lArrayAlloc(len);
if(len && (r->vArray->data == NULL)){
lExceptionThrowValClo("out-of-memory","(array/allocate] couldn't allocate its array", v, c);
return NULL;
}
return r;
}
/* Return the length of the list V */
static int lListLength(lVal *v){
int i = 0;
for(lVal *n = v;(n != NULL) && (lCar(n) != NULL); n = lCdr(n)){i++;}
return i;
}
lVal *lnfArrNew(lClosure *c, lVal *v){
(void)c;
int length = v ? lListLength(v) : 0;
lVal *r = lValAlloc(ltArray);
r->vArray = lArrayAlloc(length);
int key = 0;
for(lVal *n = v; n && n->type == ltPair; n = n->vList.cdr){
if(key >= length){break;}
r->vArray->data[key++] = n->vList.car;
}
return r;
}
void lOperationsArray(lClosure *c){
lAddNativeFunc(c,"array/new", "args", "Create a new array from ...ARGS", lnfArrNew);
lAddNativeFunc(c,"array/allocate", "(size)", "Allocate a new array of SIZE", lnfArrAllocate);
lAddNativeFunc(c,"array/length", "(array)", "Return length of ARRAY", lnfArrLength);
lAddNativeFunc(c,"array/length!", "(array size)", "Set a new LENGTH for ARRAY", lnfArrLengthSet);
lAddNativeFunc(c,"array/set!", "(array index value)", "Set ARRAY at INDEX to &...VALUES", lnfArrSet);
}
