pebblisp/src/pebblisp.c

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#include "pebblisp.h"
#include "tokens.h"
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
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#ifndef STANDALONE
#undef printf
#define printf(...) APP_LOG(APP_LOG_LEVEL_DEBUG, __VA_ARGS__)
#endif
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/**
* Inserts a variable into the environment with a given name and value.
*
* If `argForms` (symbol) and `argForms->forward` (value) are lists of the same
* length, define each symbol element with the corresponding value element.
* I.e. `(def (a b) (5 20))` would store `a` as `5` and `b` as `20`.
*
* @param argForms The symbol(s) and value(s) to define in the environment
* @param env The environment to add the new definition to
* @return The symbol(s) defined
*/
Object evalDefArgs(const Object *symbol, const Object *value, struct Environment *env)
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{
const char *name = symbol->string;
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// Handles multi-definitions
if(symbol->type == TYPE_LIST && value->type == TYPE_LIST
&& listLength(symbol) == listLength(value)) {
FOR_POINTERS_IN_LISTS(symbol, value) {
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Object finalValue = eval(P2, env);
addToEnv(env, P1->string, finalValue);
cleanObject(&finalValue);
}
return cloneObject(*symbol);
}
Object finalValue = eval(value, env);
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addToEnv(env, name, finalValue);
cleanObject(&finalValue);
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return cloneObject(*symbol);
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}
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Object evalIfArgs(const Object *argForms, struct Environment *env)
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{
return eval(argForms, env).number ?
eval(argForms->forward, env) :
eval(argForms->forward->forward, env);
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}
Object evalLambdaArgs(const Object *argForms)
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{
return constructLambda(
argForms, // Params
argForms ? argForms->forward : NULL // Body
);
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}
Object evalMapArgs(const Object *argForms, struct Environment *env)
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{
if(!argForms)
return errorObject(NULL_MAP_ARGS);
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Object lambda = eval(argForms, env);
const Object *inputList = argForms->forward;
Object outputList = listObject();
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if(lambda.type != TYPE_LAMBDA)
return errorObject(BAD_TYPE);
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FOR_POINTER_IN_LIST(inputList) {
// Create a new list for each element,
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// since lambda evaluation looks for a list
Object tempList = startList(cloneObject(*POINTER));
Object *params = &lambda.lambda->params;
struct Environment newEnv = envForLambda(params, &tempList, env);
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// Add the lambda evaluation to the list
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Object lambda_output = eval(&lambda.lambda->body, &newEnv);
Object delisted = cloneObject(*lambda_output.list);
nf_addToList(&outputList, delisted);
deleteEnv(&newEnv);
cleanObject(&tempList);
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cleanObject(&lambda_output);
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}
cleanObject(&lambda);
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return outputList;
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}
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Object evalBuiltIns(const Object *first, const Object *rest,
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struct Environment *env)
{
if(first->type != TYPE_SYMBOL) {
return errorObject(NOT_A_SYMBOL);
}
if(strcmp(first->string, "def") == 0) {
return evalDefArgs(rest, rest->forward, env);
} else if(strcmp(first->string, "defe") == 0) {
Object symbol = eval(rest, env);
Object e = evalDefArgs(&symbol, rest->forward, env);
cleanObject(&symbol);
return e;
} else if(strcmp(first->string, "if") == 0) {
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return evalIfArgs(rest, env);
} else if(strcmp(first->string, "fn") == 0) {
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return evalLambdaArgs(rest);
} else if(strcmp(first->string, "map") == 0) {
return evalMapArgs(rest, env);
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}
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return errorObject(BUILT_IN_NOT_FOUND);
}
/**
* Bulk evaluator of Objects in a given list. Puts the results in a given array
*
* Note that `destArr` is a raw array, not an Object list, and that `start` is
* not itself a list, but the first element *in* a list to be evaluated. This
* allows more speed and flexibility in what should be evaluated.
*
* @param destArr The raw array to put the results into. Not an Object list!
* @param start The Object element to start with
* @param env The environment to use while evaluating
*/
void evalForms(Object *destArr, const Object *start, struct Environment *env)
{
int i = 0;
while(start) {
destArr[i] = eval(start, env);
start = start->forward;
i++;
}
}
/**
* Evaluates a list whose first element is a function, applying that function
*
* Tries to either apply the function to its parameters, or create a partial
* function, if not enough parameters were passed.
*
* @param list The list being evaluated
* @param function First element of the list, already evaluated to be a function
* @param length Length of `list` - 1, to exclude the already-evaluated element
* @param env The environment to evaluate in
*/
Object listEvalFunc(
const Object *list,
const Object *function,
const int length,
struct Environment *env)
{
Object rest[length];
evalForms(rest, list->list->forward, env);
Object func_result = rest[0];
if(length == 1) {
func_result = function->func(
func_result, errorObject(ONLY_ONE_ARGUMENT), env);
// Return a partial function if more parameters are required
// Otherwise, return the function result
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cleanObject(&rest[0]);
return isError(func_result, ONLY_ONE_ARGUMENT) ?
cloneObject(*list) :
func_result;
} else {
// With two args, will apply function once
// With more than two args, apply the function repeatedly
for(int i = 1; i < length; i++) {
Object toClean = func_result;
func_result = function->func(func_result, rest[i], env);
cleanObject(&toClean);
cleanObject(&rest[i]);
}
return func_result;
}
}
/**
* Evaluates a list whose first element is a lambda, applying that lambda
*
* Tries to apply the lambda to its parameters. Doesn't attempt partial
* application.
*
* @param lambda First element of the list, already evaluated to be a lambda
* @param remaining The first element after `lambda`
* @param env The environment to evaluate in
*/
Object listEvalLambda(
Object *lambda,
const Object *remaining,
struct Environment *env)
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{
struct Environment newEnv = envForLambda(
&lambda->lambda->params,
remaining,
env
);
Object ret = eval(&lambda->lambda->body, &newEnv);
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deleteEnv(&newEnv);
cleanObject(lambda);
Object *t = tail(&ret);
if(t) {
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Object o = cloneObject(*t);
cleanObject(&ret);
return o;
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}
return ret;
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}
/**
* Evaluates a given list, including the application of functions and lambdas
*
* Engages in several behaviors, depending on list contents:
* - () => ()
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* - (x y z) => (eval_x eval_y eval_z)
* - (function x y) => evaluated function(x, y)
* - (function ...) => evaluated function(...) applied to each arg
* - (function x) => functionx() partial function
* - (lambda x) => evaluated lambda(x)
*
* @param obj The list to be evaluated
* @param env The environment to evaluate in
*/
Object evalList(const Object *obj, struct Environment *env)
{
const int evalLength = listLength(obj);
if(evalLength == 0)
return cloneObject(*obj);
if(evalLength == 1) {
if(listLength(obj->list) == 0)
return cloneObject(*obj);
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return startList(cloneObject(eval(obj->list, env)));
}
Object *first_form = obj->list;
{ // Try to eval built-ins
const Object builtIn =
evalBuiltIns(first_form, first_form->forward, env);
if(!isError(builtIn, BUILT_IN_NOT_FOUND) &&
!isError(builtIn, NOT_A_SYMBOL)) {
return builtIn;
}
}
// Evaluate the list based on the first element's type
Object first_eval = eval(first_form, env);
switch(first_eval.type) {
case TYPE_FUNC:
// Passes evalLength - 1, because we skip the first form
return listEvalFunc(obj, &first_eval, evalLength - 1, env);
case TYPE_LAMBDA:
return listEvalLambda(&first_eval, first_form->forward, env);
default: { // Return list with each element evaluated
Object list = listObject();
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int i = 0;
nf_addToList(&list, first_eval);
FOR_POINTER_IN_LIST(obj) {
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if(i != 0) {
nf_addToList(&list, eval(POINTER, env));
}
i++;
}
return list;
}
}
}
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Object eval(const Object *obj, struct Environment *env)
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{
switch(obj->type) {
case TYPE_ERROR:
case TYPE_FUNC:
return *obj;
case TYPE_OTHER:
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case TYPE_NUMBER:
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case TYPE_BOOL:
case TYPE_STRING:
return cloneObject(*obj);
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case TYPE_SYMBOL:
return fetchFromEnvironment(obj->string, env);
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case TYPE_LIST:
return evalList(obj, env);
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case TYPE_LAMBDA:
return eval(&obj->lambda->body, env);
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}
return errorObject(BAD_TYPE);
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}
Object catObjects(const Object obj1, const Object obj2, struct Environment *env)
{
Object evalObj1 = eval(&obj1, env);
Object evalObj2 = eval(&obj2, env);
char str1[100] = "";
char str2[100] = "";
stringObj(str1, &evalObj1);
stringObj(str2, &evalObj2);
cleanObject(&evalObj1);
cleanObject(&evalObj2);
int length = strlen(str1) + strlen(str2) + 1;
Object o = newObject(TYPE_STRING);
o.string = calloc(sizeof(char), length);
strcat(o.string, str1);
strcat(o.string, str2);
return o;
}
Object listEquality(const Object *list1, const Object *list2)
{
FOR_POINTERS_IN_LISTS(list1, list2) {
if(P1->type != P2->type || P1->number != P2->number)
return boolObject(0);
}
return boolObject(1);
}
Object _basicOp(const Object *obj1, const Object *obj2, const char op,
struct Environment *env)
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{
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const int n1 = obj1->number;
const int n2 = obj2->number;
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switch(op){
case '+':
if(obj1->type == TYPE_STRING || obj2->type == TYPE_STRING)
return catObjects(*obj1, *obj2, env);
return numberObject(n1 + n2);
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case '-':
return numberObject(n1 - n2);
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case '*':
return numberObject(n1 * n2);
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case '/':
return numberObject(n1 / n2);
case '%':
return numberObject(n1 % n2);
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case '=':
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if(obj1->type == TYPE_STRING && obj2->type == TYPE_STRING)
return boolObject(!strcmp(obj1->string, obj2->string));
if(obj1->type == TYPE_LIST && obj2->type == TYPE_LIST)
return listEquality(obj1, obj2);
return boolObject(n1 == n2 && obj1->type == obj2->type);
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case '>':
return boolObject(n1 > n2);
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case '<':
return boolObject(n1 < n2);
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}
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return *obj1;
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}
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Object basicOp(const Object *obj1, const Object *obj2, const char op,
struct Environment *env)
{
if(isError(*obj2, ONLY_ONE_ARGUMENT))
return *obj2;
int lists = (obj1->type == TYPE_LIST) + (obj2->type == TYPE_LIST);
if(lists == 0) {
return _basicOp(obj1, obj2, op, env);
} else if(lists == 1) { // Single operand is applied to each element in list
const Object *listObj = (obj1->type == TYPE_LIST)? obj1 : obj2;
const Object *singleObj = (obj1->type == TYPE_LIST)? obj2 : obj1;
Object newList = listObject();
FOR_POINTER_IN_LIST(listObj) {
Object adding = eval(POINTER, env);
nf_addToList(&newList, _basicOp(&adding, singleObj, op, env));
}
return newList;
} else { // 2 lists with the op applied to matching indices of both lists
if(listLength(obj1) == listLength(obj2)) {
Object newList = listObject();
FOR_POINTERS_IN_LISTS(obj1, obj2) {
const Object ev1 = eval(P1, env);
const Object ev2 = eval(P2, env);
nf_addToList(&newList, _basicOp(&ev1, &ev2, op, env));
}
return newList;
} else {
return errorObject(LISTS_NOT_SAME_SIZE);
}
}
}
#define BASIC_OP(_name, _char) \
Object _name(Object obj1, Object obj2, struct Environment *env) \
{ return basicOp(&obj1, &obj2, _char, env); }
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BASIC_OP(add, '+');
BASIC_OP(sub, '-');
BASIC_OP(mul, '*');
BASIC_OP(dvi, '/');
BASIC_OP(mod, '%');
BASIC_OP(equ, '=');
BASIC_OP(gth, '>');
BASIC_OP(lth, '<');
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#undef BASIC_OP
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Object filter(Object obj1, Object obj2, struct Environment *env)
{
Object filteredList = listObject();
Object *filteringList = &obj2;
FOR_POINTER_IN_LIST(filteringList) {
Object conditional = cloneObject(obj1);
nf_addToList(&conditional, *POINTER); // cloneObject()?
Object result = eval(&conditional, env);
cleanObject(&conditional);
if(result.number == 1) {
nf_addToList(&filteredList, *POINTER);
}
}
return filteredList;
}
Object append(Object list, Object newElement, struct Environment *env)
{
Object newList = cloneObject(list);
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nf_addToList(&newList, cloneObject(newElement));
return newList;
}
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Object prepend(Object list, Object newElement, struct Environment *env)
{
Object newList = listObject();
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nf_addToList(&newList, cloneObject(newElement));
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appendList(&newList, &list);
return newList;
}
Object at(Object index, Object list, struct Environment *env)
{
return cloneObject(*itemAt(&list, index.number));
}
Object rest(Object list, Object ignore, struct Environment *env)
{
Object ret = listObject();
Object *l = &list;
FOR_POINTER_IN_LIST(l) {
if(POINTER == l->list)
continue;
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nf_addToList(&ret, cloneObject(*POINTER));
}
return ret;
}
Object reverse(Object _list, Object ignore, struct Environment *ignore2)
{
const Object *list = &_list;
Object rev = listObject();
Object *tail = NULL;
FOR_POINTER_IN_LIST(list) {
Object *oldTail = tail;
allocObject(&tail, cloneObject(*POINTER));
if(oldTail)
tail->forward = oldTail;
}
rev.list = tail;
return rev;
}
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Object isNum(Object test, Object ignore, struct Environment *ignore2)
{
return test.type == TYPE_NUMBER ?
boolObject(1) : boolObject(0);
}
Object isString(Object test, Object ignore, struct Environment *ignore2)
{
return test.type == TYPE_STRING ?
boolObject(1) : boolObject(0);
}
Object isErr(Object test, Object ignore, struct Environment *ignore2)
{
return test.type == TYPE_ERROR ?
boolObject(1) : boolObject(0);
}
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Object print(Object p, Object ignore, struct Environment *env)
{
p = cloneObject(p);
p = eval(&p, env);
_printObj(&p, 0);
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return numberObject(0);
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}
Object pChar(Object c, Object i1, struct Environment *i2)
{
if(c.type != TYPE_NUMBER) {
return errorObject(BAD_NUMBER);
}
printf("%c", c.number % 256);
return numberObject(0);
}
Object printEnvO(Object i1, Object i2, struct Environment *env) {
while(env->outer) {
env = env-> outer;
}
printEnv(env);
return numberObject(0);
}
Object parseEvalO(Object text, Object ignore, struct Environment *env)
{
if(text.type == TYPE_SYMBOL) {
Object string = eval(&text, env);
Object parsed = parseEval(string.string, env);
cleanObject(&string);
return parsed;
} else if(text.type != TYPE_STRING) {
return errorObject(CAN_ONLY_EVAL_STRINGS);
}
return parseEval(text.string, env);
}
#ifdef STANDALONE
Object takeInput(Object i1, Object i2, struct Environment *i3)
{
char input[256] = "";
fgets(input, 256, stdin);
return stringFromSlice(input, strlen(input) - 1);
}
#endif
void copySlice(char * dest, struct Slice *src)
{
if(!dest || !src)
return;
strncpy(dest, src->text, src->length);
dest[(int)src->length] = '\0';
}
void debugSlice(struct Slice *s)
{
if(!s) {
printf("NULL SLICE\n");
return;
}
printf("Debug Slice\n text:'");
for(int i = 0; i < s->length; i++) {
printf("%c", s->text[i]);
if(s->text[i] == '\0')
printf("NULLCHAR\n");
}
printf("'\n");
printf(" length: %d\n", s->length);
}
Result parse(struct Slice *slices)
{
struct Slice *token = slices;
if(token && token->text) {
struct Slice *rest = &slices[1];
if(token->text[0] == '(') {
// todo check for null rest
return readSeq(rest);
} else { // todo error on missing close paren
return (Result){parseAtom(token), rest};
}
} else {
return (Result){errorObject(NULL_PARSE), NULL};
}
}
Result readSeq(struct Slice *tokens)
{
Object res = listObject();
for(;;) {
struct Slice *next = tokens;
struct Slice *rest = next->text? &next[1] : NULL;
if(next->text[0] == ')') {
return (Result){res, rest};
}
Result r = parse(tokens);
if(r.obj.type == TYPE_ERROR)
return r;
nf_addToList(&res, cloneObject(r.obj));
tokens = r.slices;
cleanObject(&r.obj);
}
}
Object parseDecimal(struct Slice *s)
{
int num = 0;
for(int i = 0; i < s->length; i++) {
if(!isDigit(s->text[i])) {
return errorObject(BAD_NUMBER);
}
num *= 10;
num += s->text[i] - '0';
}
return numberObject(num);
}
Object parseHex(struct Slice *s)
{
int num = 0;
for(int i = 2; i < s->length; i++) {
const char c = s->text[i];
if(!isHex(c)) {
return errorObject(BAD_NUMBER);
}
num *= 16;
if(isDigit(c)) {
num += c - '0';
} else /* is hex */ {
num += c - 'a' + 10;
}
}
return numberObject(num);
}
Object parseBin(struct Slice *s)
{
int num = 0;
for(int i = 2; i < s->length; i++) {
const char c = s->text[i];
if(c != '0' && c != '1') {
return errorObject(BAD_NUMBER);
}
num *= 2;
num += c - '0';
}
return numberObject(num);
}
Object parseAtom(struct Slice *s)
{
const char c = s->text[0];
if(isDigit(c)) {
if(c != '0' || s->length == 1) {
return parseDecimal(s);
} else if(c == '0' && s->text[1] == 'x') {
return parseHex(s);
} else if(c == '0' && s->text[1] == 'b') {
return parseBin(s);
} else {
return errorObject(UNSUPPORTED_NUMBER_TYPE);
}
} else if (s->length == 1 && (c == 'T' || c == 't')) {
return boolObject(1);
} else if (s->length == 1 && (c == 'F' || c == 'f')) {
return boolObject(0);
} else if (c == '"' || c == '\'') {
return objFromSlice(s->text, s->length);
} else {
return symFromSlice(s->text, s->length);
}
}
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Object parseEval(const char *input, struct Environment *env)
{
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struct Slice *tokens = nf_tokenize(input);
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if(!tokens)
return errorObject(MISMATCHED_PARENS);
if(!tokens->text)
return symFromSlice(" ", 1);
#ifdef DEBUG
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struct Slice *debug = tokens;
printd("start slice\n");
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if(debug) {
while(debug->text) {
char tok[100];
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copySlice(tok, debug);
printd("slice: '%s'\n", tok);
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debug++;
}
}
#endif
int i = 0;
int parens = 0;
Object obj = numberObject(0);
struct Slice *tok = tokens;
while(tok[i].text != NULL) {
if(tok[i].text[0] == '(') {
parens++;
} else if(tok[i].text[0] == ')') {
parens--;
}
if(parens == 0) {
cleanObject(&obj);
Object parsed = parse(tok).obj;
if(parsed.type == TYPE_ERROR)
return parsed;
if(tok[i].text[0] == ')') {
tok = &tok[i + 1];
i = -1;
}
obj = eval(&parsed, env);
cleanObject(&parsed);
}
i++;
}
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free(tokens);
return obj;
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}
#ifdef STANDALONE
int readFile(const char *filename, struct Environment *env) {
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FILE *input = fopen(filename, "r");
if(!input) {
return 1;
}
Object r = numberObject(0);
char page[4096] = "";
const unsigned LINE_MAX = 256;
char line[LINE_MAX];
if(fgets(line, LINE_MAX, input)){
if(line[0] != '#' || line[1] != '!') {
strncat(page, line, strlen(line) - 1);
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}
}
while(fgets(line, LINE_MAX, input)) {
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int i;
for(i = 0; i < LINE_MAX; i++) {
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if(line[i] != ' ') {
if(line[i] == ';') {
break;
} else {
int j = 0;
for(j = i; j < LINE_MAX; j++) {
if(line[j] == ';' || line[j] == '\0')
break;
}
strncat(page, line, j);
strcat(page, " ");
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break;
}
}
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}
}
r = parseEval(page, env);
cleanObject(&r);
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fclose(input);
return 0;
}
void repl(struct Environment *env)
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{
readFile(SCRIPTDIR "/repl.pbl", env);
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}
int main(int argc, const char* argv[])
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{
struct Environment env = defaultEnv();
readFile(SCRIPTDIR "/lib.pbl", &env);
if(argc >= 2) {
if(readFile(argv[1], &env) != 0) {
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Object r = numberObject(0);
for(int i = 1; i < argc; i++) {
r = parseEval(argv[i], &env);
printAndClean(&r);
}
}
} else {
repl(&env);
}
deleteEnv(&env);
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}
#endif