step: get more stuff working with functions.
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parent
d072f3e1f6
commit
70a9076dc7
142
src/mumble.c
142
src/mumble.c
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@ -5,7 +5,7 @@
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#include <string.h>
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#include "mpc/mpc.h"
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#define VERBOSE 0
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#define VERBOSE 2
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#define LISPVAL_ASSERT(cond, err) \
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if (!(cond)) { \
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return lispval_err(err); \
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@ -31,7 +31,7 @@ struct lispenv;
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typedef struct lispval lispval;
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typedef struct lispenv lispenv;
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typedef lispval*(*lispbuiltin)(lispenv*, lispval*);
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typedef lispval*(*lispbuiltin)(lispval*, lispenv*);
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// this defines the lispbuiltin type
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// which seems to be a pointer to a function which takes in a lispenv*
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// and a lispval* and returns a lispval*
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@ -99,13 +99,14 @@ lispval* lispval_sym(char* symbol)
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}
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lispval* lispval_func(lispbuiltin func, char* funcname){
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if(VERBOSE) printfln("Allocated sym");
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if(VERBOSE) printfln("Allocating func name:%s, pointer: %p", funcname, func);
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lispval* v = malloc(sizeof(lispval));
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v->type = LISPVAL_FUNC;
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v->count = 0;
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v->sym = malloc(strlen(funcname) + 1);
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v->funcname = malloc(strlen(funcname) + 1);
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strcpy(v->funcname, funcname);
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v->func = func;
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if(VERBOSE) printfln("Allocated func");
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return v;
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}
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@ -367,30 +368,30 @@ void print_lispval_parenthesis(lispval* v)
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{
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switch (v->type) {
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case LISPVAL_NUM:
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printfln("%f ", v->num);
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printf("%f ", v->num);
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break;
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case LISPVAL_ERR:
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printfln("%s ", v->err);
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printf("%s ", v->err);
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break;
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case LISPVAL_SYM:
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printfln("%s ", v->sym);
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printf("%s ", v->sym);
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break;
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case LISPVAL_FUNC:
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printfln("<function name: %s pointer: %p>", v->funcname, v->func);
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printf("<function name: %s, pointer: %p> ", v->funcname, v->func);
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break;
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case LISPVAL_SEXPR:
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printfln("( ");
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printf("( ");
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for (int i = 0; i < v->count; i++) {
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print_lispval_parenthesis(v->cell[i]);
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}
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printfln(") ");
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printf(") ");
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break;
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case LISPVAL_QEXPR:
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printfln("{ ");
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printf("{ ");
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for (int i = 0; i < v->count; i++) {
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print_lispval_parenthesis(v->cell[i]);
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}
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printfln("} ");
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printf("} ");
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break;
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default:
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printfln("Error: unknown lispval type\n");
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@ -458,7 +459,7 @@ lispval* clone_lispval(lispval* old)
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lispval* pop_lispval(lispval* v, int i)
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{
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LISPVAL_ASSERT(v->type == LISPVAL_QEXPR || v->type == LISPVAL_SEXPR, "Error: function pop passed too many arguments");
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LISPVAL_ASSERT(v->type == LISPVAL_QEXPR || v->type == LISPVAL_SEXPR, "Error: function pop wasn't passed a q-expression or an s-expression arguments");
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lispval* r = v->cell[i];
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/* Shift memory after the item at "i" over the top */
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memmove(&v->cell[i], &v->cell[i + 1],
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@ -482,7 +483,7 @@ lispval* take_lispval(lispval* v, int i)
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// Operations
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// Ops for q-expressions
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lispval* builtin_head(lispval* v)
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lispval* builtin_head(lispval* v, lispenv* e)
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{
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// printfln("Entering builtin_head with v->count = %d and v->cell[0]->type = %d\n", v->count, v->cell[0]->type);
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// head { 1 2 3 }
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@ -501,7 +502,7 @@ lispval* builtin_head(lispval* v)
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// Returns something that doesn't share pointers with the input: yes.
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}
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lispval* builtin_tail(lispval* v)
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lispval* builtin_tail(lispval* v, lispenv* env)
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{
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// tail { 1 2 3 }
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LISPVAL_ASSERT(v->count == 1, "Error: function tail passed too many arguments");
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@ -528,7 +529,7 @@ lispval* builtin_tail(lispval* v)
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// Returns something that doesn't share pointers with the input: yes.
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}
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lispval* builtin_list(lispval* v)
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lispval* builtin_list(lispval* v, lispenv* e)
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{
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// list ( 1 2 3 )
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LISPVAL_ASSERT(v->count == 1, "Error: function list passed too many arguments");
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@ -541,7 +542,7 @@ lispval* builtin_list(lispval* v)
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// Returns something that is independent of the input: yes.
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}
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lispval* builtin_len(lispval* v)
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lispval* builtin_len(lispval* v, lispenv* e)
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{
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// tail { 1 2 3 }
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LISPVAL_ASSERT(v->count == 1, "Error: function len passed too many arguments");
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@ -571,7 +572,7 @@ lispval* builtin_eval(lispval* v, lispenv* env)
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// Returns something that is independent of the input: depends on the output of evaluate_lispval.
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}
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lispval* builtin_join(lispval* l)
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lispval* builtin_join(lispval* l, lispenv* e)
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{
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// return lispval_err("Error: Join not ready yet.");
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// join { {1 2} {3 4} }
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@ -594,7 +595,7 @@ lispval* builtin_join(lispval* l)
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}
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// Simple math ops
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lispval* builtin_math_ops(char* op, lispval* v)
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lispval* builtin_math_ops(char* op, lispval* v, lispenv* e)
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{
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// For now, ensure all args are numbers
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for (int i = 0; i < v->count; i++) {
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@ -643,23 +644,40 @@ lispval* builtin_math_ops(char* op, lispval* v)
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// Returns something that is independent of the input: yes.
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}
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// Fit the simple math ops using the above code
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lispval* builtin_add(lispval* v, lispenv* env) {
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return builtin_math_ops("+", v, env);
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}
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lispval* builtin_substract(lispval* v, lispenv* env) {
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return builtin_math_ops("-", v, env);
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}
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lispval* builtin_multiply(lispval* v, lispenv* env) {
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return builtin_math_ops("*", v, env);
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}
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lispval* builtin_divide(lispval* v, lispenv* env) {
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return builtin_math_ops("/", v, env);
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}
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// Aggregate both math and operations over lists
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lispval* builtin_functions(char* func, lispval* v, lispenv* env)
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{
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if (strcmp("list", func) == 0) {
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return builtin_list(v);
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return builtin_list(v, env);
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} else if (strcmp("head", func) == 0) {
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return builtin_head(v);
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return builtin_head(v, env);
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} else if (strcmp("tail", func) == 0) {
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return builtin_tail(v);
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return builtin_tail(v, env);
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} else if (strcmp("join", func) == 0) {
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return builtin_join(v);
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return builtin_join(v, env);
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} else if (strcmp("eval", func) == 0) {
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return builtin_eval(v, env);
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} else if (strcmp("len", func) == 0) {
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return builtin_len(v);
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return builtin_len(v, env);
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} else if (strstr("+-/*", func)) {
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return builtin_math_ops(func, v);
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return builtin_math_ops(func, v, env);
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} else {
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return lispval_err("Unknown function");
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}
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@ -667,30 +685,61 @@ lispval* builtin_functions(char* func, lispval* v, lispenv* env)
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// Returns something that is independent of the input: depends on eval
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}
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// Add builtins to an env
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void lispenv_add_builtin(char* funcname, lispbuiltin func, lispenv* env ){
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if(VERBOSE) printfln("Adding func: name: %s, pointer: %p", funcname, func);
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lispval* f = lispval_func(func, funcname);
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if(VERBOSE) print_lispval_tree(f, 0);
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insert_in_lispenv(funcname, f,env);
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// delete_lispval(f);
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}
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void lispenv_add_builtins(lispenv* env){
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// Math functions
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lispenv_add_builtin("+", builtin_add, env);
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lispenv_add_builtin("-", builtin_substract, env);
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lispenv_add_builtin("*", builtin_multiply, env);
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lispenv_add_builtin("/", builtin_divide, env);
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//
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/* List Functions */
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lispenv_add_builtin("list", builtin_list, env);
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lispenv_add_builtin("head", builtin_head, env);
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lispenv_add_builtin("tail", builtin_tail, env);
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lispenv_add_builtin("eval", builtin_eval, env);
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lispenv_add_builtin("join", builtin_join, env);
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}
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// Evaluate the lispval
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lispval* evaluate_lispval(lispval* l, lispenv* env)
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{
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if(VERBOSE) printfln("Evaluating lispval");
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// Check if this is neither an s-expression nor a symbol; otherwise return as is.
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if(VERBOSE) printfln("");
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if (l->type != LISPVAL_SEXPR && l->type != LISPVAL_SYM)
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return l;
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// Check if this is a symbol
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if(VERBOSE) printfln("Checking if this is a symbol");
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if(l->type == LISPVAL_SYM){
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// Unclear how I want to structure this so as to not get memory errors.
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return get_from_lispenv(l->sym, env);
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}
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// Evaluate the children if needed
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if(VERBOSE) printfln("Evaluating children");
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for (int i = 0; i < l->count; i++) {
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if (l->cell[i]->type == LISPVAL_SEXPR || l->cell[i]->type == LISPVAL_SYM) {
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// l->cell[i] =
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if(VERBOSE) printfln("");
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lispval* new = evaluate_lispval(l->cell[i], env);
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// delete_lispval(l->cell[i]);
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// ^ gave me a "double free" error.
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l->cell[i] = new;
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if(VERBOSE) printfln("");
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}
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}
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// Check if any are errors.
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if(VERBOSE) printfln("Checking for errors in children");
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lispval* err = NULL;
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for (int i = 0; i < l->count; i++) {
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if (l->cell[i]->type == LISPVAL_ERR) {
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@ -703,23 +752,36 @@ lispval* evaluate_lispval(lispval* l, lispenv* env)
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delete_lispval(l->cell[i]);
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}
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*/
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if(VERBOSE) printfln("Returning error");
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return err;
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}
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// Check if the first element is an operation.
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if(VERBOSE) printfln("Checking is first element is a function");
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if (l->count >= 2 && ((l->cell[0])->type == LISPVAL_FUNC)) {
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lispval* temp = clone_lispval(l->cell[0]);
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if(VERBOSE) printfln("Passed check");
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if(VERBOSE) printfln("Operating on:");
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if(VERBOSE) print_lispval_tree(l, 4);
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lispval* temp = clone_lispval(l);
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lispval* f = pop_lispval(temp, 0);
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// pop is destructive.
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lispval* operands = temp;
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if(VERBOSE) printfln("Allocated memory");
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// lispval* operation = clone_lispval(l->cell[0]);
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// lispval* operands = lispval_sexpr();
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// for (int i = 1; i < l->count; i++) {
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// lispval_append_child(operands, l->cell[i]);
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// }
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lispval* answer = f->func(env, operands);
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if(VERBOSE) printfln("Applying function to operands");
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// lispval* answer = lispval_num(42);
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lispval* answer= f->func(operands, env);
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if(VERBOSE) printfln("Applied function to operands");
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if(VERBOSE) printfln("Cleaning up");
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// builtin_functions(operation->sym, l, env);
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delete_lispval(f);
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delete_lispval(operands);
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if(VERBOSE) printfln("Returning");
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return answer;
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}
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return l;
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@ -750,6 +812,17 @@ int main(int argc, char** argv)
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",
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Number, Symbol, Sexpr, Qexpr, Expr, Mumble);
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// Create an environment
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if(VERBOSE) printfln("Creating lispenv");
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lispenv* env = new_lispenv();
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if(VERBOSE) printfln("Created lispenv");
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if(VERBOSE) printfln("Adding builtins");
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lispenv_add_builtins(env);
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if(VERBOSE) printfln("Added builtins");
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if(VERBOSE) printfln("Environment contents: %i", env->count);
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if(VERBOSE) printfln(" env->syms[0]: %s", env->syms[0]);
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if(VERBOSE) print_lispval_tree(env->vals[0], 2);
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if(VERBOSE) printfln("\n");
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// Initialize a repl
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int loop = 1;
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while (loop) {
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@ -772,7 +845,6 @@ int main(int argc, char** argv)
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print_ast(ast, 0);
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}
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// Evaluate the AST
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if(VERBOSE) printfln("\nEvaluating the AST");
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// lispval result = evaluate_ast(ast);
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lispval* l = read_lispval(ast);
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if (VERBOSE) {
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printfln("Parenthesis printing: ");
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print_lispval_parenthesis(l);
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}
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// Create an environment
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lispenv* env = new_lispenv();
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// Eval the lispval in that environment.
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lispval* answer = evaluate_lispval(l, env);
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{
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printfln("Result: ");
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if(VERBOSE) printfln("Result: ");
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print_lispval_parenthesis(answer);
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print_lispval_tree(answer, 0);
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if(VERBOSE) print_lispval_tree(answer, 0);
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printf("\n");
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}
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// ^ I do not understand how the memory in l is freed.
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delete_lispval(answer);
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// delete_lispval(l);
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// Clean up environment
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destroy_lispenv(env);
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} else {
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/* Otherwise Print the Error */
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mpc_err_print(result.error);
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input = NULL;
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}
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// Clean up environment
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destroy_lispenv(env);
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// Clean up environment
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destroy_lispenv(env);
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/* Undefine and Delete our Parsers */
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mpc_cleanup(6, Number, Symbol, Sexpr, Qexpr, Expr, Mumble);
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