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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 */
#include "nujel.h"
#ifndef NUJEL_AMALGAMATION
#include "nujel-private.h"
#endif
#include <ctype.h>
extern unsigned long long int bootstrap_image_len;
extern unsigned char bootstrap_image[];
lClosure *lClosureNew(lClosure *parent, closureType t) {
lClosure *c = lClosureAllocRaw();
memset(c,0,sizeof(lClosure));
c->parent = parent;
c->type = t;
return c;
}
lClosure *lClosureNewFunCall(lVal args, lVal lambda) {
lClosure *tmpc = lClosureAllocRaw();
tmpc->parent = lambda.vClosure;
tmpc->type = closureCall;
tmpc->text = lambda.vClosure->text;
tmpc->ip = tmpc->text->data;
for (lVal n = lambda.vClosure->args; ; n = n.vList->cdr) {
if (likely(n.type == ltPair)) {
if(unlikely(args.type != ltPair)){
tmpc->data = lTreeInsert(tmpc->data, n.vList->car.vSymbol, NIL);
} else {
tmpc->data = lTreeInsert(tmpc->data, n.vList->car.vSymbol, args.vList->car);
args = args.vList->cdr;
}
continue;
} else if(likely(n.type == ltSymbol)) {
tmpc->data = lTreeInsert(tmpc->data, n.vSymbol, args);
}
return tmpc;
}
return tmpc;
}
lVal lGetClosureSym(lClosure *c, const lSymbol *s){
for (const lClosure *cc = c; cc; cc = cc->parent) {
const lTree *t = cc->data;
while(t){
if(s == t->key){
return t->value;
}
t = s > t->key ? t->right : t->left;
}
}
return lValException(lSymUnboundVariable, "Can't resolve symbol", lValSymS(s));
}
/* Bind the value V to the Symbol S in the closure C, defining it if necessary */
void lDefineClosureSym(lClosure *c, const lSymbol *s, lVal v){
c->data = lTreeInsert(c->data, s, v);
}
/* Set the value bound to S in C to V, if it has already been bound */
bool lSetClosureSym(lClosure *c, const lSymbol *s, lVal v){
for (lClosure *cc = c; cc; cc = cc->parent) {
lTree *t = cc->data;
while(t){
if(t->key == s){
t->value = v;
return true;
}
t = s > t->key ? t->right : t->left;
}
}
return false;
}
/* Turn STR into a symbol, and bind VAL to it within C */
void lDefineVal(lClosure *c, const char *str, lVal val){
lDefineClosureSym(c, lSymS(str), val);
}
static lVal lAddNativeFuncRaw(const char *sym, const char *args, const char *doc, void *func, uint flags, u8 argCount){
(void)args;
lVal v = lValAlloc(ltNativeFunc, lNFuncAlloc());
lSymbol *name = lSymS(sym);
v.vNFunc->fp = func;
v.vNFunc->meta = lTreeInsert(NULL, symDocumentation, lValString(doc));
v.vNFunc->meta = lTreeInsert(v.vNFunc->meta, symArguments, lValString(args));
v.vNFunc->argCount = argCount;
v.vNFunc->name = name;
if(flags & NFUNC_FOLD){
v.vNFunc->meta = lTreeInsert(v.vNFunc->meta, symFold, lValBool(true));
}
if(flags & NFUNC_PURE){
v.vNFunc->meta = lTreeInsert(v.vNFunc->meta, symPure, lValBool(true));
}
v.vNFunc->meta = lTreeInsert(v.vNFunc->meta, symName, lValSymS(name));
return v;
}
lVal lAddNativeFunc(const char *sym, const char *args, const char *doc, lVal (*func)(), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 0);
}
lVal lAddNativeFuncC(const char *sym, const char *args, const char *doc, lVal (*func)(lClosure *), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 1);
}
lVal lAddNativeFuncV(const char *sym, const char *args, const char *doc, lVal (*func)(lVal), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 1 << 1);
}
lVal lAddNativeFuncCV(const char *sym, const char *args, const char *doc, lVal (*func)(lClosure *, lVal), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 1 | (1 << 1));
}
lVal lAddNativeFuncVV(const char *sym, const char *args, const char *doc, lVal (*func)(lVal, lVal), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 2 << 1);
}
lVal lAddNativeFuncCVV(const char *sym, const char *args, const char *doc, lVal (*func)(lClosure *, lVal, lVal), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 1 | (2 << 1));
}
lVal lAddNativeFuncVVV(const char *sym, const char *args, const char *doc, lVal (*func)(lVal, lVal, lVal), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 3 << 1);
}
lVal lAddNativeFuncCVVV(const char *sym, const char *args, const char *doc, lVal (*func)(lClosure *, lVal, lVal, lVal), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 1 | (3 << 1));
}
lVal lAddNativeFuncVVVV(const char *sym, const char *args, const char *doc, lVal (*func)(lVal, lVal, lVal, lVal), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 4 << 1);
}
lVal lAddNativeFuncCVVVV(const char *sym, const char *args, const char *doc, lVal (*func)(lClosure *, lVal, lVal, lVal, lVal), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 1 | (4 << 1));
}
lVal lAddNativeFuncR(const char *sym, const char *args, const char *doc, lVal (*func)(lVal), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 1 << 4);
}
lVal lAddNativeFuncCR(const char *sym, const char *args, const char *doc, lVal (*func)(lClosure *,lVal), uint flags){
return lAddNativeFuncRaw(sym, args, doc, func, flags, 1 | (1 << 4));
}
lClosure *findRoot (lVal v){
switch(v.type){
case ltEnvironment:
case ltMacro:
case ltLambda: {
lClosure *c = v.vClosure;
while(c->parent){
c = c->parent;
}
return c;
}
default:
return NULL;
}
}
/* Create a new root closure with the stdlib */
lClosure *lNewRoot(){
lVal imgVal = readImage(bootstrap_image, bootstrap_image_len, false);
lClosure *c = findRoot(imgVal);
lRedefineNativeFuncs(c);
return c;
}
lClosure *lRedefineNativeFuncs(lClosure *c){
for(uint i=0;i<lNFuncMax;i++){
lNFunc *t = &lNFuncList[i];
if(t == NULL){break;}
lVal nf = lValAlloc(ltNativeFunc, t);
lDefineClosureSym(c, t->name, nf);
}
lDefineTypeVars(c);
lAddPlatformVars(c);
return c;
}
/* Run fun with args */
lVal lApply(lVal fun, lVal args){
if(unlikely(fun.type != ltLambda)){
return lValException(lSymTypeError, "Can't apply to following val", fun);
}
return lBytecodeEval(lClosureNewFunCall(args, fun), fun.vClosure->text);
}
