make format

This commit is contained in:
NunoSempere 2023-05-01 21:00:20 -04:00
parent ff8b45489b
commit f9bfc8fb46

View File

@ -210,92 +210,100 @@ void print_ast(mpc_ast_t* ast, int indent_level)
// Evaluate the lispval
lispval* pop_lispval(lispval* v, int i)
{
lispval* r = v->cell[i];
/* Shift memory after the item at "i" over the top */
memmove(&v->cell[i], &v->cell[i+1],
sizeof(lispval*) * (v->count-i-1));
lispval* r = v->cell[i];
/* Shift memory after the item at "i" over the top */
memmove(&v->cell[i], &v->cell[i + 1],
sizeof(lispval*) * (v->count - i - 1));
/* Decrease the count of items in the list */
v->count--;
/* Decrease the count of items in the list */
v->count--;
/* Reallocate the memory used */
v->cell = realloc(v->cell, sizeof(lispval*) * v->count);
return r;
/* Reallocate the memory used */
v->cell = realloc(v->cell, sizeof(lispval*) * v->count);
return r;
}
lispval* take_lispval(lispval* v, int i){ // Unneeded.
lispval* x = pop_lispval(v, i);
delete_lispval(v);
return x;
lispval* take_lispval(lispval* v, int i)
{ // Unneeded.
lispval* x = pop_lispval(v, i);
delete_lispval(v);
return x;
}
lispval* builtin_op(char* op, lispval* v){
// For now, ensure all args are numbers
for(int i=0; i<v->count; i++){
if(v->cell[i]->type != LISPVAL_NUM){
return lispval_err("Error: Operating on non-numbers. This can be caused by an input like (+ 1 2 (3 * 4)). Because the (3 * 4) doesn't have the correct operation order, it isn't simplified, and then + can't sum over it.");
}
}
// Check how many elements
if(v->count == 0){
return lispval_err("Error: No numbers on which to operate!");
} else if(v->count == 1) {
if(strcmp(op, "-") == 0){
return lispval_num(-v->cell[0]->num);
}else {
return lispval_err("Error: Non minus unary operation");
}
} else if (v->count >= 2){
lispval* x = pop_lispval(v,0);
lispval* builtin_op(char* op, lispval* v)
{
// For now, ensure all args are numbers
for (int i = 0; i < v->count; i++) {
if (v->cell[i]->type != LISPVAL_NUM) {
return lispval_err("Error: Operating on non-numbers. This can be caused by an input like (+ 1 2 (3 * 4)). Because the (3 * 4) doesn't have the correct operation order, it isn't simplified, and then + can't sum over it.");
}
}
// Check how many elements
if (v->count == 0) {
return lispval_err("Error: No numbers on which to operate!");
} else if (v->count == 1) {
if (strcmp(op, "-") == 0) {
return lispval_num(-v->cell[0]->num);
} else {
return lispval_err("Error: Non minus unary operation");
}
} else if (v->count >= 2) {
lispval* x = pop_lispval(v, 0);
while(v->count > 0){
// Pop the next element
lispval* y = pop_lispval(v, 0);
while (v->count > 0) {
// Pop the next element
lispval* y = pop_lispval(v, 0);
if (strcmp(op, "+") == 0) { x->num += y->num; }
if (strcmp(op, "-") == 0) { x->num -= y->num; }
if (strcmp(op, "*") == 0) { x->num *= y->num; }
if (strcmp(op, "+") == 0) {
x->num += y->num;
}
if (strcmp(op, "-") == 0) {
x->num -= y->num;
}
if (strcmp(op, "*") == 0) {
x->num *= y->num;
}
if (strcmp(op, "/") == 0) {
if (y->num == 0) {
delete_lispval(x); delete_lispval(y);
return lispval_err("Error: Division By Zero!");
}
x->num /= y->num;
}
if (strcmp(op, "/") == 0) {
if (y->num == 0) {
delete_lispval(x);
delete_lispval(y);
return lispval_err("Error: Division By Zero!");
}
x->num /= y->num;
}
delete_lispval(y);
}
return x;
} else {
return lispval_err("Error: Incorrect number of args. Perhaps a lispval->count was wrongly initialized?");
}
delete_lispval(y);
}
return x;
} else {
return lispval_err("Error: Incorrect number of args. Perhaps a lispval->count was wrongly initialized?");
}
}
lispval* evaluate_lispval(lispval* l)
{
// Evaluate the children if needed
for(int i=0; i<l->count; i++){
if(l->cell[i]->type == LISPVAL_SEXPR){
l->cell[i] = evaluate_lispval(l->cell[i]);
}
}
// Check if any are errors.
for(int i=0; i<l->count; i++){
if(l->cell[i]->type == LISPVAL_ERR){
return pop_lispval(l, i);
}
}
// Evaluate the children if needed
for (int i = 0; i < l->count; i++) {
if (l->cell[i]->type == LISPVAL_SEXPR) {
l->cell[i] = evaluate_lispval(l->cell[i]);
}
}
// Check if any are errors.
for (int i = 0; i < l->count; i++) {
if (l->cell[i]->type == LISPVAL_ERR) {
return pop_lispval(l, i);
}
}
// Check if the first element is an operation.
if(l->count >=2 && ( (l->cell[0])->type == LISPVAL_SYM)){
lispval* op = pop_lispval(l, 0);
lispval* result = builtin_op(op->sym, l);
delete_lispval(op);
return result;
}
return l;
// Check if the first element is an operation.
if (l->count >= 2 && ((l->cell[0])->type == LISPVAL_SYM)) {
lispval* op = pop_lispval(l, 0);
lispval* result = builtin_op(op->sym, l);
delete_lispval(op);
return result;
}
return l;
}
// Main
int main(int argc, char** argv)
@ -338,27 +346,27 @@ int main(int argc, char** argv)
mpc_ast_t* ast = result.output;
// Print AST if VERBOSE
if (VERBOSE){
printf("\nPrinting AST");
if (VERBOSE) {
printf("\nPrinting AST");
print_ast(ast, 0);
}
}
// Evaluate the AST
// if(VERBOSE) printf("\n\nEvaluating the AST");
// lispval result = evaluate_ast(ast);
lispval* l = read_lispval(ast);
if (VERBOSE){
printf("\n\nPrinting initially parsed lispvalue");
if (VERBOSE) {
printf("\n\nPrinting initially parsed lispvalue");
printf("\nTree printing: ");
print_lispval_tree(l, 2);
print_lispval_tree(l, 2);
printf("\nParenthesis printing: ");
print_lispval_parenthesis(l);
}
lispval* result = evaluate_lispval(l);
{
printf("\n\nResult: ");
print_lispval_parenthesis(result);
printf("\n");
}
print_lispval_parenthesis(l);
}
lispval* result = evaluate_lispval(l);
{
printf("\n\nResult: ");
print_lispval_parenthesis(result);
printf("\n");
}
delete_lispval(l);
} else {
/* Otherwise Print the Error */