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#include <assert.h> | |
#include <stdarg.h> | |
#include <stdbool.h> | |
#include <stdio.h> | |
#include <stdlib.h> | |
#include <string.h> | |
#include <unistd.h> | |
enum type { | |
NIL, | |
BOOLEAN, | |
INTEGER, | |
RATIONAL, | |
STRING, | |
SYMBOL, | |
PRIMITIVE, | |
FUNCTION, | |
PAIR | |
}; | |
struct value; | |
typedef struct value *V; | |
struct hash; | |
typedef struct hash *H; | |
struct rational { | |
int numerator; | |
int denominator; | |
}; | |
typedef V (*P)(V); | |
struct function { | |
V args; | |
V body; | |
H env; | |
}; | |
struct pair { | |
V car; | |
V cdr; | |
}; | |
struct value { | |
enum type t; | |
union { | |
bool b; | |
int i; | |
struct rational r; | |
char *s; | |
P pr; | |
struct function f; | |
struct pair p; | |
}; | |
}; | |
struct value Qnil, Qtrue, Qfalse; | |
V Vnil, Vtrue, Vfalse; | |
void init_const() { | |
Vnil = &Qnil; | |
Vtrue = &Qtrue; | |
Vfalse = &Qfalse; | |
Vnil->t = NIL; | |
Vtrue->t = BOOLEAN; | |
Vtrue->b = true; | |
Vfalse->t = BOOLEAN; | |
Vfalse->b = false; | |
} | |
V make_integer(int i) { | |
V a = (V)malloc(sizeof(struct value)); | |
a->t = INTEGER; | |
a->i = i; | |
return a; | |
} | |
int gcd(int a, int b) { | |
while (b) { | |
int t = a % b; | |
a = b; | |
b = t; | |
} | |
return a; | |
} | |
V divide(V a, V b) { | |
assert(a->t == INTEGER); | |
assert(b->t == INTEGER); | |
int g = gcd(a->i, b->i); | |
V c = (V)malloc(sizeof(struct value)); | |
c->t = RATIONAL; | |
c->r.numerator = a->i / g; | |
c->r.denominator = b->i / g; | |
return c; | |
} | |
V make_string(char *s) { | |
V a = (V)malloc(sizeof(struct value)); | |
a->t = STRING; | |
a->s = s; | |
return a; | |
} | |
V make_symbol(char *s) { | |
V a = (V)malloc(sizeof(struct value)); | |
a->t = SYMBOL; | |
a->s = s; | |
return a; | |
} | |
V make_primitive(P pr) { | |
V a = (V)malloc(sizeof(struct value)); | |
a->t = PRIMITIVE; | |
a->pr = pr; | |
return a; | |
} | |
V make_function(V args, V body, H env) { | |
V a = (V)malloc(sizeof(struct value)); | |
a->t = FUNCTION; | |
a->f.args = args; | |
a->f.body = body; | |
a->f.env = env; | |
return a; | |
} | |
V make_pair(V a, V b) { | |
V c = (V)malloc(sizeof(struct value)); | |
c->t = PAIR; | |
c->p.car = a; | |
c->p.cdr = b; | |
return c; | |
} | |
V listv(int n, V *a) { | |
int i; | |
V b = Vnil; | |
for (i = n-1; i >= 0; i--) | |
b = make_pair(a[i], b); | |
return b; | |
} | |
V list(int n, ...) { | |
int i; | |
va_list va; | |
V *a = (V *)malloc(n*sizeof(V)); | |
va_start(va, n); | |
for (i = 0; i < n; i++) | |
a[i] = va_arg(va, V); | |
va_end(va); | |
V b = listv(n, a); | |
free(a); | |
return b; | |
} | |
struct entry { | |
char *key; | |
V value; | |
}; | |
struct hash { | |
int size; | |
int capacity; | |
struct entry *items; | |
struct hash *parent; | |
}; | |
int hash(char *s) { | |
int h = 0; | |
int c; | |
while (c = *s++) | |
h = h * 33 + c; | |
return h; | |
} | |
H make_hash(H parent) { | |
int i; | |
int n = 8; | |
H h = (H)malloc(sizeof(struct hash)); | |
h->size = 0; | |
h->capacity = n; | |
h->items = (struct entry *)malloc(n*sizeof(struct entry)); | |
for (i = 0; i < n; i++) | |
h->items[i].key = NULL; | |
h->parent = parent; | |
return h; | |
} | |
struct entry *get_entry(H h, char *key) { | |
int i; | |
char *s; | |
int n = h->capacity; | |
i = hash(key) % n; | |
while (s = h->items[i].key) { | |
if (!strcmp(s, key)) | |
break; | |
i++; | |
if (i == n) | |
i = 0; | |
} | |
return &h->items[i]; | |
} | |
V get_hash(H h, char *key) { | |
while (h) { | |
struct entry *e = get_entry(h, key); | |
if (e->key) | |
return e->value; | |
h = h->parent; | |
} | |
return NULL; | |
} | |
void grow_hash(H h); | |
void put_hash(H h, char *key, V value) { | |
struct entry *e = get_entry(h, key); | |
e->value = value; | |
if (!e->key) { | |
e->key = key; | |
h->size++; | |
grow_hash(h); | |
} | |
} | |
void replace_hash(H h, char *key, V value) { | |
while (h) { | |
struct entry *e = get_entry(h, key); | |
if (e->key) | |
e->value = value; | |
h = h->parent; | |
} | |
} | |
void grow_hash(H h) { | |
int i; | |
if (h->size < h->capacity / 2) | |
return; | |
int old_capacity = h->capacity; | |
struct entry *old_items = h->items; | |
h->capacity = old_capacity * 2; | |
h->items = (struct entry *)malloc(h->capacity*sizeof(struct entry)); | |
for (i = 0; i < h->capacity; i++) | |
h->items[i].key = NULL; | |
for (i = 0; i < old_capacity; i++) { | |
struct entry e = old_items[i]; | |
if (e.key) | |
put_hash(h, e.key, e.value); | |
} | |
free(old_items); | |
} | |
V cons(V args) { | |
V a = args->p.car; | |
V b = args->p.cdr->p.car; | |
return make_pair(a, b); | |
} | |
V car(V args) { | |
V a = args->p.car; | |
return a->p.car; | |
} | |
V cdr(V args) { | |
V a = args->p.car; | |
return a->p.cdr; | |
} | |
V add(V args) { | |
int a = args->p.car->i; | |
int b = args->p.cdr->p.car->i; | |
return make_integer(a + b); | |
} | |
#define PRIM1(name) put_hash(h, #name, make_primitive(name)) | |
#define PRIM2(name, cname) put_hash(h, name, make_primitive(cname)) | |
H init_env() { | |
H h = make_hash(NULL); | |
PRIM1(cons); | |
PRIM1(car); | |
PRIM1(cdr); | |
PRIM2("+", add); | |
return h; | |
} | |
char ch; | |
void skip_spaces(FILE *f) { | |
do ch = fgetc(f); | |
while (ch == ' '); | |
} | |
bool is_integer(char c) { | |
return '0' <= c && c <= '9'; | |
} | |
bool is_symbol(char c) { | |
if ('a' <= c && c <= 'z') return true; | |
if (strchr("+-*/", c)) return true; | |
return false; | |
} | |
V read_integer(FILE *f) { | |
int i = 0; | |
while (is_integer(ch)) { | |
i = i * 10 + ch - '0'; | |
ch = fgetc(f); | |
} | |
return make_integer(i); | |
} | |
V read_symbol(FILE *f) { | |
int n = 1; | |
int i = 0; | |
char *s = (char *)malloc(n); | |
while (is_symbol(ch)) { | |
s[i++] = ch; | |
if (i == n) { | |
n *= 2; | |
s = realloc(s, n); | |
} | |
ch = fgetc(f); | |
} | |
s[i] = '\0'; | |
return make_symbol(s); | |
} | |
V read_value(FILE *f); | |
V read_list(FILE *f) { | |
int n = 1; | |
int i = 0; | |
V *a = (V *)malloc(n*sizeof(V)); | |
skip_spaces(f); | |
while (true) { | |
if (ch == ')') | |
break; | |
a[i++] = read_value(f); | |
if (i == n) { | |
n *= 2; | |
a = realloc(a, n*sizeof(V)); | |
} | |
if (ch == ' ') | |
skip_spaces(f); | |
} | |
V b = listv(i, a); | |
free(a); | |
skip_spaces(f); | |
return b; | |
} | |
V read_value(FILE *f) { | |
if (is_integer(ch)) | |
return read_integer(f); | |
if (is_symbol(ch)) | |
return read_symbol(f); | |
if (ch == '(') | |
return read_list(f); | |
return NULL; | |
} | |
V lisp_read(FILE *f) { | |
skip_spaces(f); | |
return read_value(f); | |
} | |
V eval_seq(V a, H e); | |
V eval_map(V a, H e); | |
V apply(V a, V b); | |
V eval(V a, H e) { | |
switch (a->t) { | |
case NIL: | |
case BOOLEAN: | |
case INTEGER: | |
case RATIONAL: | |
case STRING: | |
return a; | |
case SYMBOL: | |
return get_hash(e, a->s); | |
} | |
assert(a->t == PAIR); | |
V h = a->p.car; | |
V t = a->p.cdr; | |
if (h->t == SYMBOL) { | |
if (!strcmp(h->s, "define")) | |
return (put_hash(e, t->p.car->s, eval(t->p.cdr->p.car, e)), Vnil); | |
else if (!strcmp(h->s, "lambda")) | |
return make_function(t->p.car, t->p.cdr, e); | |
else if (!strcmp(h->s, "begin")) | |
return eval_seq(t, e); | |
} | |
h = eval(h, e); | |
t = eval_map(t, e); | |
return apply(h, t); | |
} | |
V eval_seq(V a, H e) { | |
V b = Vnil; | |
while (a->t != NIL) { | |
b = eval(a->p.car, e); | |
a = a->p.cdr; | |
} | |
return b; | |
} | |
V eval_map(V a, H e) { | |
int n = 1; | |
int i = 0; | |
V *b = (V *)malloc(n*sizeof(V)); | |
while (a->t != NIL) { | |
b[i++] = eval(a->p.car, e); | |
if (i == n) { | |
n *= 2; | |
a = realloc(a, n*sizeof(V)); | |
} | |
a = a->p.cdr; | |
} | |
V c = listv(i, b); | |
free(b); | |
return c; | |
} | |
V apply(V a, V b) { | |
if (a->t == PRIMITIVE) | |
return (*a->pr)(b); | |
H e = make_hash(a->f.env); | |
V k, v; | |
for (k = a->f.args, v = b; k->t != NIL; k = k->p.cdr, v = v->p.cdr) | |
put_hash(e, k->p.car->s, v->p.car); | |
return eval_seq(a->f.body, e); | |
} | |
void lisp_write(V a, FILE *f) { | |
switch (a->t) { | |
case NIL: | |
fputs("()", f); | |
break; | |
case BOOLEAN: | |
if (a->b) fputs("#t", f); | |
else fputs("#f", f); | |
break; | |
case INTEGER: | |
fprintf(f, "%d", a->i); | |
break; | |
case RATIONAL: | |
fprintf(f, "%d", a->r.numerator); | |
fputc('/', f); | |
fprintf(f, "%d", a->r.denominator); | |
break; | |
case STRING: | |
fputc('"', f); | |
fputs(a->s, f); | |
fputc('"', f); | |
break; | |
case SYMBOL: | |
fputs(a->s, f); | |
break; | |
case FUNCTION: | |
fputs("(lambda ", f); | |
lisp_write(a->f.args, f); | |
fputc(' ', f); | |
lisp_write(a->f.body, f); | |
fputc(')', f); | |
break; | |
case PAIR: | |
fputc('(', f); | |
V b = a; | |
while (true) { | |
lisp_write(b->p.car, f); | |
b = b->p.cdr; | |
if (b->t == NIL) | |
break; | |
if (b->t != PAIR) { | |
fputs(" . ", f); | |
lisp_write(b, f); | |
break; | |
} | |
fputc(' ', f); | |
} | |
fputc(')', f); | |
break; | |
} | |
} | |
void newline(FILE *f) { | |
fputc('\n', f); | |
} | |
int main() { | |
init_const(); | |
H e = init_env(); | |
bool tty = isatty(0); | |
while (true) { | |
if (tty) | |
fputs("> ", stdout); | |
V a = lisp_read(stdin); | |
if (!a) | |
break; | |
V b = eval(a, e); | |
if (b == Vnil) | |
continue; | |
lisp_write(b, stdout); | |
newline(stdout); | |
} | |
return 0; | |
} |
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Learn more about bidirectional Unicode characters
(define zero (lambda (f) (lambda (x) x))) | |
(define one (lambda (f) (lambda (x) (f x)))) | |
(define plus (lambda (m n) (lambda (f) (lambda (x) ((n f) ((m f) x)))))) | |
(define mult (lambda (m n) (lambda (f) (lambda (x) ((n (m f)) x))))) | |
(define xp (lambda (m n) (lambda (f) (lambda (x) (((n m) f) x))))) | |
(define inc (lambda (x) (+ x 1))) | |
(define num (lambda (n) ((n inc) 0))) | |
(define two (plus one one)) | |
(define three (plus two one)) | |
(define six (mult two three)) | |
(define sixty-four (xp two six)) | |
(num sixty-four) |
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