text/plain
•
3.29 KB
•
91 lines
/* Nujel - Copyright (C) 2020-2022 - Benjamin Vincent Schulenburg
* This project uses the MIT license, a copy should be included under /LICENSE */
#include "../operation.h"
#include "../exception.h"
#include "../collection/list.h"
#include "../type/bytecode.h"
#include "../type/native-function.h"
#include "../type-system.h"
#include <stdlib.h>
static lVal *lValBytecodeOp(lBytecodeOp v){
lVal *ret = lValAlloc(ltBytecodeOp);
ret->vBytecodeOp = v;
return ret;
}
static lVal *lnfIntBytecodeOp(lClosure *c, lVal *v){
const i64 val = castToInt(lCar(v), -1);
if((val < -128) || (val > 255)){
lExceptionThrowValClo("invalid-bc-op", "Bytecode operations have to be within the range 0-255", lCar(v), c);
return NULL;
}
return lValBytecodeOp(val);
}
static lVal *lnfBytecodeOpInt(lClosure *c, lVal *v){
lVal *car = lCar(v);
if((car == NULL) || (car->type != ltBytecodeOp)){
lExceptionThrowValClo("argument-mismatch", "Expected 1 argument of type :bytecode-op", v, c);
return NULL;
}
return lValInt(car->vBytecodeOp);
}
static lVal *lnfArrBytecodeArr(lClosure *c, lVal *v){
lVal *arr = lCar(v);
if((arr == NULL) || (arr->type != ltArray)){
lExceptionThrowValClo("argument-mismatch", "Expected 1 argument of type :array", v, c);
return NULL;
}
const int len = arr->vArray->length;
lVal *ret = lValAlloc(ltBytecodeArr);
ret->vBytecodeArr.data = malloc(len * sizeof(lBytecodeOp));
ret->vBytecodeArr.dataEnd = &ret->vBytecodeArr.data[len];
for(int i=0;i<len;i++){
const lVal *item = arr->vArray->data[i];
if((item == NULL) || (item->type != ltBytecodeOp)){
lExceptionThrowValClo("argument-mismatch", "Expected array to only contain values of type :bytecode-op", v, c);
return NULL;
}
ret->vBytecodeArr.data[i] = item->vBytecodeOp;
}
return ret;
}
static lVal *lnfBytecodeArrArr(lClosure *c, lVal *v){
lVal *arr = lCar(v);
if((arr == NULL) || (arr->type != ltBytecodeArr)){
lExceptionThrowValClo("argument-mismatch", "Expected 1 argument of type :array", v, c);
return NULL;
}
const int len = arr->vBytecodeArr.dataEnd - arr->vBytecodeArr.data;
lVal *ret = RVP(lValAlloc(ltArray));
ret->vArray = lArrayAlloc();
ret->vArray->length = len;
ret->vArray->data = malloc(len * sizeof(*ret->vArray->data));
for(int i=0;i<len;i++){
ret->vArray->data[i] = lValBytecodeOp(arr->vBytecodeArr.data[i]);
}
return ret;
}
static lVal *lnfBytecodeEval(lClosure *c, lVal *v){
lVal *opsArr = lCar(v);
if((opsArr == NULL) || (opsArr->type != ltBytecodeArr)){
lExceptionThrowValClo("argument-mismatch", "Expected first argument to be of type :bytecode-array", v, c);
return NULL;
}
return lBytecodeEval(c, lCdr(v), &opsArr->vBytecodeArr);
}
void lOperationsBytecode(lClosure *c){
lAddNativeFunc(c,"int->bytecode-op", "[a]", "Turns an integer into a bytecode operation with the same value", lnfIntBytecodeOp);
lAddNativeFunc(c,"bytecode-op->int", "[a]", "Turns a bytecode operation into an integer of the same value", lnfBytecodeOpInt);
lAddNativeFunc(c,"arr->bytecode-arr", "[a]", "Turns an array of bytecode operations into a bytecode array", lnfArrBytecodeArr);
lAddNativeFunc(c,"bytecode-arr->arr", "[a]", "Turns an bytecode array into an array of bytecode operations", lnfBytecodeArrArr);
lAddNativeFunc(c,"bytecode-eval", "[bc args]", "Evaluate a bytecode array and return the result", lnfBytecodeEval);
}
