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/*
* Wolkenwelten - Copyright (C) 2020-2021 - Benjamin Vincent Schulenburg
*
* This project uses the MIT license, a copy should be included under /LICENSE
*/
#include "nujel.h"
#include "api.h"
#include "exception.h"
#include "allocation/tree.h"
#include "operation/allocation.h"
#include "operation/arithmetic.h"
#include "operation/array.h"
#include "operation/binary.h"
#include "operation/closure.h"
#include "operation/eval.h"
#include "operation/list.h"
#include "operation/predicates.h"
#include "operation/special.h"
#include "operation/string.h"
#include "operation/time.h"
#include "operation/tree.h"
#include "operation/vec.h"
#include "type/native-function.h"
#include "type/symbol.h"
#include <stdio.h>
#include <string.h>
#include <stdarg.h>
extern u8 stdlib_no_data[];
bool lVerbose = false;
/* Initialize the allocator and symbol table, needs to be called before as
* soon as possible, since most procedures depend on it.*/
void lInit(){
lArrayInit();
lClosureInit();
lNativeFunctionsInit();
lStringInit();
lValInit();
lSymbolInit();
lTreeInit();
}
/* Evaluate the Nujel Lambda expression and return the results */
lVal *lLambda(lClosure *c,lVal *args, lVal *lambda){
const int SP = lRootsGet();
lVal *vn = args;
lClosure *tmpc = lClosureNew(lambda->vClosure);
lRootsClosurePush(tmpc);
tmpc->text = lambda->vClosure->text;
forEach(n,lambda->vClosure->args){
if(vn == NULL){break;}
lVal *car = lCar(n);
if(car == NULL){continue;}
const lSymbol *csym = lGetSymbol(car);
if(lSymVariadic(csym)){
lVal *t = (lambda->type == ltMacro) || lSymNoEval(csym) ? vn : lMap(c,vn,lEval);
lDefineClosureSym(tmpc,csym,t);
break;
}else{
lVal *t = (lambda->type == ltMacro) || lSymNoEval(csym) ? lCar(vn) : lEval(c,lCar(vn));
lDefineClosureSym(tmpc,csym,t);
if(vn != NULL){vn = lCdr(vn);}
}
}
lVal *ret = lEval(tmpc,lambda->vClosure->text);
lRootsRet(SP);
return ret;
}
/* Run fun with args, evaluating args if necessary */
lVal *lApply(lClosure *c, lVal *args, lVal *fun, lVal *funSym){
(void)funSym;
switch(fun ? fun->type : ltNoAlloc){
case ltMacro:
lExceptionThrowVal(":runtime-macro", "Can't use macros as functions", lCons(funSym,args));
case ltObject:
return lnfDo(fun->vClosure,args);
case ltLambda:
return lLambda(c,args,fun);
case ltSpecialForm:
return fun->vNFunc->fp(c,args);
case ltNativeFunc:
return fun->vNFunc->fp(c,lMap(c,args,lEval));
case ltInt:
case ltFloat:
case ltVec:
return lApply(c,lRootsValPush(lCons(fun,args)),lnfvInfix, NULL);
case ltArray:
return lApply(c,lRootsValPush(lCons(fun,args)),lnfvArrRef, NULL);
case ltString:
return lApply(c,lRootsValPush(lCons(fun,args)),lnfvCat, NULL);
case ltTree:
return lApply(c,lRootsValPush(lCons(fun,args)),lnfvTreeGet, NULL);
default:
lExceptionThrowVal(":type-error", "Can't apply to following val", fun);
return NULL;
}
}
/* Evaluate a single value, v, and return the result */
lVal *lEval(lClosure *c, lVal *v){
switch(v ? v->type : ltNoAlloc){
default:
return v;
case ltSymbol:
return lSymKeyword(v->vSymbol) ? v : lGetClosureSym(c,v->vSymbol);
case ltPair: {
lVal *car = lCar(v);
switch(car ? car->type : ltNoAlloc){
default:
lExceptionThrowVal(":type-error", "Can't use the following type as a function", lValSymS(getTypeSymbol(car)));
return v;
case ltObject:
return lnfDo(car->vClosure,lCdr(v));
case ltLambda:
return lRootsValPush(lLambda(c,lCdr(v),car));
case ltMacro:
lExceptionThrowVal(":runtime-macro", "Can't use macros as functions", v);
case ltSpecialForm:
return car->vNFunc->fp(c,lCdr(v));
case ltNativeFunc:
return car->vNFunc->fp(c,lMap(c,lCdr(v),lEval));
case ltInt:
case ltFloat:
case ltVec:
return lApply(c,v,lnfvInfix, NULL);
case ltArray:
return lApply(c,v,lnfvArrRef, NULL);
case ltString:
return lApply(c,v,lnfvCat, NULL);
case ltTree:
return lApply(c,v,lnfvTreeGet, NULL);
case ltSymbol: {
lVal *resolved;
if(lHasClosureSym(c,car->vSymbol,&resolved)){
return lApply(c,lCdr(v),resolved, car);
}else{
if(car->vSymbol && lSymKeyword(car->vSymbol)){
return v;
}
lExceptionThrowVal(":unresolved-procedure", "Can't resolve the following symbol into a procedure", car);
return NULL;
}}
case ltPair:
return lApply(c,lCdr(v),lRootsValPush(lEval(c,car)),car);
}}
}
}
/* Evaluate func for every entry in list v and return a list containing the results */
lVal *lMap(lClosure *c, lVal *v, lVal *(*func)(lClosure *,lVal *)){
if(v == NULL){return NULL;}
lVal *ret, *cc, *car = lRootsValPush(func(c,lCar(v)));
ret = cc = lRootsValPush(lCons(car,NULL));
for(lVal *t = lCdr(v); t ; t = lCdr(t)){
cc = cc->vList.cdr = lCons(NULL,NULL);
cc->vList.car = func(c,lCar(t));
}
return ret;
}
/* Add all the platform specific constants to C */
static void lAddPlatformVars(lClosure *c){
#if defined(__HAIKU__)
lDefineVal(c, "OS", lValString("Haiku"));
#elif defined(__APPLE__)
lDefineVal(c, "OS", lValString("MacOS"));
#elif defined(__EMSCRIPTEN__)
lDefineVal(c, "OS", lValString("Emscripten"));
#elif defined(__MINGW32__)
lDefineVal(c, "OS", lValString("Windows"));
#elif defined(__linux__)
#if defined(__UCLIBC__)
lDefineVal(c, "OS", lValString("uClibc/Linux"));
#elif defined(__GLIBC__)
lDefineVal(c, "OS", lValString("GNU/Linux"));
#elif defined(__BIONIC__)
lDefineVal(c, "OS", lValString("Android"));
#else
lDefineVal(c, "OS", lValString("musl?/Linux"));
#endif
#elif defined(__FreeBSD__)
lDefineVal(c, "OS", lValString("FreeBSD"));
#elif defined(__OpenBSD__)
lDefineVal(c, "OS", lValString("OpenBSD"));
#elif defined(__NetBSD__)
lDefineVal(c, "OS", lValString("NetBSD"));
#elif defined(__DragonFly__)
lDefineVal(c, "OS", lValString("DragonFlyBSD"));
#else
lDefineVal(c, "OS", lValString("Unknown"));
#endif
#if defined(__arm__)
lDefineVal(c, "ARCH", lValString("armv7l"));
#elif defined(__aarch64__)
lDefineVal(c, "ARCH", lValString("aarch64"));
#elif defined(__x86_64__) || defined(__amd64__)
lDefineVal(c, "ARCH", lValString("x86_64"));
#elif defined(__i386__)
lDefineVal(c, "ARCH", lValString("x86"));
#elif defined(__EMSCRIPTEN__)
lDefineVal(c, "ARCH", lValString("wasm"));
#else
lDefineVal(c, "ARCH", lValString("unknown"));
#endif
}
/* Add all the core native functions to c, without IO or stdlib */
static void lAddCoreFuncs(lClosure *c){
lOperationsAllocation(c);
lOperationsArithmetic(c);
lOperationsArray(c);
lOperationsBinary(c);
lOperationsClosure(c);
lOperationsEval(c);
lOperationsList(c);
lOperationsPredicate(c);
lOperationsReader(c);
lOperationsSpecial(c);
lOperationsString(c);
lOperationsTime(c);
lOperationsTree(c);
lOperationsTypeSystem(c);
lOperationsVector(c);
}
/* Evaluate BODYRAW IN C while using CATCHRAW as an exception handler */
lVal *lTry(lClosure *c, lVal *catchRaw, lVal *bodyRaw){
lVal *volatile catch = catchRaw;
lVal *volatile body = bodyRaw;
const int SP = lRootsGet();
jmp_buf oldExceptionTarget;
memcpy(oldExceptionTarget,exceptionTarget,sizeof(jmp_buf));
lVal *doRet;
int ret;
exceptionTargetDepth++;
ret = setjmp(exceptionTarget);
if(ret){
lRootsRet(SP);
memcpy(exceptionTarget,oldExceptionTarget,sizeof(jmp_buf));
exceptionTargetDepth--;
lVal *args = lRootsValPush(exceptionValue);
args = lRootsValPush(lCons(args,NULL));
doRet = lApply(c,args,catch, NULL);
return doRet;
}else{
doRet = lnfDo(c,body);
memcpy(exceptionTarget,oldExceptionTarget,sizeof(jmp_buf));
exceptionTargetDepth--;
return doRet;
}
}
/* Quote V, enabling it to be used verbatim, without being evaluated. */
lVal *lQuote(lVal *v){
lVal *ret = lRootsValPush(lCons(NULL,NULL));
ret->vList.car = lValSymS(symQuote);
ret->vList.cdr = lCons(v,NULL);
return ret;
}
/* Create a new root closure WITHTOUT loading the nujel stdlib, mostly of interest when testing a different stdlib than the one included */
lClosure *lClosureNewRootNoStdLib(){
lClosure *c = lClosureAlloc();
c->parent = NULL;
lRootsClosurePush(c);
lAddCoreFuncs(c);
lAddPlatformVars(c);
return c;
}
/* Create a new root closure with the default included stdlib */
static void *lClosureNewRootReal(void *a, void *b){
(void)a; (void)b;
lClosure *c = lClosureNewRootNoStdLib();
c->text = lRead((const char *)stdlib_no_data);
lnfDo(c,c->text);
c->text = NULL;
return c;
}
/* Create a new root closure with the default stdlib using the
* fallback exception handler */
lClosure *lClosureNewRoot(){
return lExceptionTry(lClosureNewRootReal,NULL,NULL);
}
lVal *lList(int length, ...){
lVal *ret = NULL, *l;
va_list varArgs;
va_start(varArgs,length);
for(;length;length--){
lVal *t = va_arg(varArgs, lVal *);
if(ret == NULL){
ret = l = RVP(lCons(NULL,NULL));
}else{
l = l->vList.cdr = lCons(NULL,NULL);
}
l->vList.car = t;
}
va_end(varArgs);
return ret;
}
