picrin/src/macro.c

591 lines
14 KiB
C

#include <stdio.h>
#include <assert.h>
#include <string.h>
#include <math.h>
#include "picrin.h"
#include "picrin/pair.h"
#include "picrin/proc.h"
#include "picrin/macro.h"
#include "picrin/lib.h"
#include "xhash/xhash.h"
#define FALLTHROUGH ((void)0)
static pic_value macroexpand(pic_state *, pic_value, struct pic_senv *);
static pic_value macroexpand_list(pic_state *, pic_value, struct pic_senv *);
static pic_sym
new_uniq_sym(pic_state *pic, pic_sym base)
{
int s = ++pic->uniq_sym_count;
char *str;
pic_sym uniq;
str = (char *)pic_alloc(pic, strlen(pic_symbol_name(pic, base)) + (int)log10(s) + 3);
sprintf(str, "%s@%d", pic_symbol_name(pic, base), s);
uniq = pic_intern_cstr(pic, str);
pic_free(pic, str);
return uniq;
}
struct pic_senv *
pic_null_syntactic_env(pic_state *pic)
{
struct pic_senv *senv;
senv = (struct pic_senv *)pic_obj_alloc(pic, sizeof(struct pic_senv), PIC_TT_SENV);
senv->up = NULL;
senv->tbl = xh_new();
senv->stx = (struct pic_syntax **)pic_calloc(pic, PIC_MACROS_SIZE, sizeof(struct pic_syntax *));
senv->xlen = 0;
senv->xcapa = PIC_MACROS_SIZE;
return senv;
}
#define register_core_syntax(pic,senv,kind,name) do { \
senv->stx[senv->xlen] = pic_syntax_new(pic, kind, pic_intern_cstr(pic, name)); \
xh_put(senv->tbl, name, ~senv->xlen); \
senv->xlen++; \
} while (0)
struct pic_senv *
pic_minimal_syntactic_env(pic_state *pic)
{
struct pic_senv *senv = pic_null_syntactic_env(pic);
register_core_syntax(pic, senv, PIC_STX_DEFLIBRARY, "define-library");
register_core_syntax(pic, senv, PIC_STX_IMPORT, "import");
register_core_syntax(pic, senv, PIC_STX_EXPORT, "export");
return senv;
}
struct pic_senv *
pic_core_syntactic_env(pic_state *pic)
{
struct pic_senv *senv = pic_minimal_syntactic_env(pic);
register_core_syntax(pic, senv, PIC_STX_DEFINE, "define");
register_core_syntax(pic, senv, PIC_STX_SET, "set!");
register_core_syntax(pic, senv, PIC_STX_QUOTE, "quote");
register_core_syntax(pic, senv, PIC_STX_LAMBDA, "lambda");
register_core_syntax(pic, senv, PIC_STX_IF, "if");
register_core_syntax(pic, senv, PIC_STX_BEGIN, "begin");
register_core_syntax(pic, senv, PIC_STX_DEFMACRO, "define-macro");
register_core_syntax(pic, senv, PIC_STX_DEFSYNTAX, "define-syntax");
return senv;
}
#undef register_core_syntax
static struct pic_senv *
new_global_senv(pic_state *pic)
{
return pic->lib->senv;
}
static struct pic_senv *
new_local_senv(pic_state *pic, pic_value formals, struct pic_senv *up)
{
struct pic_senv *senv;
pic_value a;
pic_sym sym;
senv = (struct pic_senv *)pic_obj_alloc(pic, sizeof(struct pic_senv), PIC_TT_SENV);
senv->up = up;
senv->tbl = xh_new();
senv->stx = NULL;
senv->xlen = 0;
senv->xcapa = 0;
for (a = formals; pic_pair_p(a); a = pic_cdr(pic, a)) {
pic_value v = pic_car(pic, a);
if (! pic_symbol_p(v)) {
v = macroexpand(pic, v, up);
}
if (! pic_symbol_p(v)) {
pic_error(pic, "syntax error");
}
sym = pic_sym(v);
xh_put(senv->tbl, pic_symbol_name(pic, sym), (int)new_uniq_sym(pic, sym));
}
if (! pic_symbol_p(a)) {
a = macroexpand(pic, a, up);
}
if (pic_symbol_p(a)) {
sym = pic_sym(a);
xh_put(senv->tbl, pic_symbol_name(pic, sym), (int)new_uniq_sym(pic, sym));
}
else if (! pic_nil_p(a)) {
pic_error(pic, "syntax error");
}
return senv;
}
struct pic_syntax *
pic_syntax_new(pic_state *pic, int kind, pic_sym sym)
{
struct pic_syntax *stx;
stx = (struct pic_syntax *)pic_obj_alloc(pic, sizeof(struct pic_syntax), PIC_TT_SYNTAX);
stx->kind = kind;
stx->sym = sym;
stx->macro = NULL;
stx->senv = NULL;
return stx;
}
struct pic_syntax *
pic_syntax_new_macro(pic_state *pic, pic_sym sym, struct pic_proc *macro, struct pic_senv *mac_env)
{
struct pic_syntax *stx;
stx = (struct pic_syntax *)pic_obj_alloc(pic, sizeof(struct pic_syntax), PIC_TT_SYNTAX);
stx->kind = PIC_STX_MACRO;
stx->sym = sym;
stx->macro = macro;
stx->senv = mac_env;
return stx;
}
static struct pic_sc *
sc_new(pic_state *pic, pic_value expr, struct pic_senv *senv)
{
struct pic_sc *sc;
sc = (struct pic_sc *)pic_obj_alloc(pic, sizeof(struct pic_sc), PIC_TT_SC);
sc->expr = expr;
sc->senv = senv;
return sc;
}
static bool
pic_identifier_p(pic_value obj)
{
if (pic_symbol_p(obj)) {
return true;
}
if (pic_sc_p(obj)) {
return pic_identifier_p(pic_sc(obj)->expr);
}
return false;
}
void
pic_export(pic_state *pic, pic_sym sym)
{
pic_export_as(pic, sym, sym);
}
void
pic_export_as(pic_state *pic, pic_sym sym, pic_sym alias)
{
xh_put(pic->lib->exports, pic_symbol_name(pic, sym), (int)alias);
}
static void
pic_defsyntax(pic_state *pic, const char *name, struct pic_proc *macro, struct pic_senv *mac_env)
{
struct pic_syntax *stx;
struct pic_senv *global_senv = pic->lib->senv;
int idx;
stx = pic_syntax_new_macro(pic, pic_intern_cstr(pic, name), macro, mac_env);
idx = global_senv->xlen;
if (idx >= global_senv->xcapa) {
pic_abort(pic, "macro table overflow");
}
global_senv->stx[idx] = stx;
xh_put(global_senv->tbl, name, ~idx);
global_senv->xlen++;
}
void
pic_defmacro(pic_state *pic, const char *name, struct pic_proc *macro)
{
pic_defsyntax(pic, name, macro, NULL);
}
static pic_value
macroexpand(pic_state *pic, pic_value expr, struct pic_senv *senv)
{
int ai = pic_gc_arena_preserve(pic);
switch (pic_type(expr)) {
case PIC_TT_SC: {
struct pic_sc *sc;
sc = pic_sc(expr);
return macroexpand(pic, sc->expr, sc->senv);
}
case PIC_TT_SYMBOL: {
struct xh_entry *e;
while (senv) {
if ((e = xh_get(senv->tbl, pic_symbol_name(pic, pic_sym(expr)))) != NULL) {
if (e->val >= 0)
return pic_symbol_value((pic_sym)e->val);
else
return pic_obj_value(senv->stx[~e->val]);
}
senv = senv->up;
}
return pic_symbol_value(new_uniq_sym(pic, pic_sym(expr)));
}
case PIC_TT_PAIR: {
pic_value car, v;
car = macroexpand(pic, pic_car(pic, expr), senv);
if (pic_syntax_p(car)) {
switch (pic_syntax(car)->kind) {
case PIC_STX_DEFLIBRARY: {
pic_value program;
struct pic_lib *prev = pic->lib, *lib;
if (pic_length(pic, expr) < 2) {
pic_error(pic, "syntax error");
}
lib = pic_make_library(pic, pic_cadr(pic, expr));
/* macroexpand in new library */
pic_in_library(pic, pic_cadr(pic, expr));
{
program = macroexpand_list(pic, pic_cddr(pic, expr), lib->senv);
}
pic_in_library(pic, prev->name);
return pic_cons(pic, pic_symbol_value(pic->sBEGIN), program);
}
case PIC_STX_IMPORT: {
struct pic_lib *lib;
struct xh_iterator it;
lib = pic_find_library(pic, pic_cadr(pic, expr));
if (! lib) {
pic_error(pic, "library not found");
}
it = xh_begin(lib->exports);
while (! xh_isend(&it)) {
#if DEBUG
printf("* importing %s as %s\n", it.e->key, pic_symbol_name(pic, (pic_sym)it.e->val));
#endif
xh_put(pic->lib->senv->tbl, it.e->key, it.e->val);
xh_next(lib->exports, &it);
}
return pic_false_value();
}
case PIC_STX_EXPORT: {
pic_sym orig, ren;
pic_value v;
orig = ren = pic_sym(pic_cadr(pic, expr));
v = macroexpand(pic, pic_cadr(pic, expr), senv);
if (pic_symbol_p(v)) {
ren = pic_sym(v);
}
pic_export_as(pic, orig, ren);
return pic_false_value();
}
case PIC_STX_DEFSYNTAX: {
pic_value var, val;
struct pic_proc *proc;
if (pic_length(pic, expr) != 3) {
pic_error(pic, "syntax error");
}
var = pic_cadr(pic, expr);
if (! pic_symbol_p(var)) {
pic_error(pic, "syntax error");
}
val = pic_cadr(pic, pic_cdr(pic, expr));
proc = pic_codegen(pic, val);
if (pic->errmsg) {
printf("macroexpand error: %s\n", pic->errmsg);
abort();
}
v = pic_apply(pic, proc, pic_nil_value());
if (pic->errmsg) {
printf("macroexpand error: %s\n", pic->errmsg);
abort();
}
assert(pic_proc_p(v));
pic_defsyntax(pic, pic_symbol_name(pic, pic_sym(var)), pic_proc_ptr(v), senv);
pic_gc_arena_restore(pic, ai);
return pic_false_value();
}
case PIC_STX_DEFMACRO: {
pic_value var, val;
struct pic_proc *proc;
if (pic_length(pic, expr) < 2) {
pic_error(pic, "syntax error");
}
var = pic_car(pic, pic_cdr(pic, expr));
if (pic_pair_p(var)) {
/* FIXME: unhygienic */
val = pic_cons(pic, pic_symbol_value(pic->sLAMBDA),
pic_cons(pic, pic_cdr(pic, var),
pic_cdr(pic, pic_cdr(pic, expr))));
var = pic_car(pic, var);
}
else {
if (pic_length(pic, expr) != 3) {
pic_error(pic, "syntax_error");
}
val = pic_car(pic, pic_cdr(pic, pic_cdr(pic, expr)));
}
if (! pic_symbol_p(var)) {
pic_error(pic, "syntax error");
}
proc = pic_codegen(pic, val);
if (pic->errmsg) {
printf("macroexpand error: %s\n", pic->errmsg);
abort();
}
v = pic_apply(pic, proc, pic_nil_value());
if (pic->errmsg) {
printf("macroexpand error: %s\n", pic->errmsg);
abort();
}
assert(pic_proc_p(v));
pic_defmacro(pic, pic_symbol_name(pic, pic_sym(var)), pic_proc_ptr(v));
pic_gc_arena_restore(pic, ai);
return pic_false_value();
}
case PIC_STX_MACRO: {
if (pic_syntax(car)->senv == NULL) { /* legacy macro */
v = pic_apply(pic, pic_syntax(car)->macro, pic_cdr(pic, expr));
if (pic->errmsg) {
printf("macroexpand error: %s\n", pic->errmsg);
abort();
}
}
else {
v = pic_apply_argv(pic, pic_syntax(car)->macro, 3, expr, pic_obj_value(senv), pic_obj_value(pic_syntax(car)->senv));
if (pic->errmsg) {
printf("macroexpand error: %s\n", pic->errmsg);
abort();
}
}
pic_gc_arena_restore(pic, ai);
pic_gc_protect(pic, v);
#if DEBUG
puts("after expand-1:");
pic_debug(pic, v);
puts("");
#endif
return macroexpand(pic, v, senv);
}
case PIC_STX_LAMBDA: {
struct pic_senv *in = new_local_senv(pic, pic_cadr(pic, expr), senv);
v = pic_cons(pic, pic_symbol_value(pic_syntax(car)->sym),
pic_cons(pic,
macroexpand_list(pic, pic_cadr(pic, expr), in),
macroexpand_list(pic, pic_cddr(pic, expr), in)));
pic_gc_arena_restore(pic, ai);
pic_gc_protect(pic, v);
return v;
}
case PIC_STX_DEFINE: {
pic_sym uniq;
pic_value var;
if (pic_length(pic, expr) < 2) {
pic_error(pic, "syntax error");
}
var = pic_cadr(pic, expr);
if (pic_pair_p(var)) {
struct pic_senv *in = new_local_senv(pic, pic_cdr(pic, var), senv);
pic_value a;
pic_sym sym;
/* defined symbol */
a = pic_car(pic, var);
if (! pic_symbol_p(a)) {
pic_error(pic, "binding to non-symbol object");
}
sym = pic_sym(a);
xh_put(senv->tbl, pic_symbol_name(pic, sym), (int)new_uniq_sym(pic, sym));
/* binding value */
v = pic_cons(pic, pic_symbol_value(pic_syntax(car)->sym),
pic_cons(pic,
macroexpand_list(pic, pic_cadr(pic, expr), in),
macroexpand_list(pic, pic_cddr(pic, expr), in)));
pic_gc_arena_restore(pic, ai);
pic_gc_protect(pic, v);
return v;
}
if (! pic_symbol_p(var)) {
pic_error(pic, "binding to non-symbol object");
}
uniq = new_uniq_sym(pic, pic_sym(var));
xh_put(senv->tbl, pic_symbol_name(pic, pic_sym(var)), (int)uniq);
}
FALLTHROUGH;
case PIC_STX_SET:
case PIC_STX_IF:
case PIC_STX_BEGIN:
v = pic_cons(pic, pic_symbol_value(pic_syntax(car)->sym), macroexpand_list(pic, pic_cdr(pic, expr), senv));
pic_gc_arena_restore(pic, ai);
pic_gc_protect(pic, v);
return v;
case PIC_STX_QUOTE:
v = pic_cons(pic, pic_symbol_value(pic_syntax(car)->sym), pic_cdr(pic, expr));
pic_gc_arena_restore(pic, ai);
pic_gc_protect(pic, v);
return v;
}
}
v = pic_cons(pic, car, macroexpand_list(pic, pic_cdr(pic, expr), senv));
pic_gc_arena_restore(pic, ai);
pic_gc_protect(pic, v);
return v;
}
case PIC_TT_EOF:
case PIC_TT_NIL:
case PIC_TT_BOOL:
case PIC_TT_FLOAT:
case PIC_TT_INT:
case PIC_TT_CHAR:
case PIC_TT_STRING:
case PIC_TT_VECTOR:
case PIC_TT_BLOB: {
return expr;
}
case PIC_TT_PROC:
case PIC_TT_PORT:
case PIC_TT_ERROR:
case PIC_TT_ENV:
case PIC_TT_CONT:
case PIC_TT_UNDEF:
case PIC_TT_SENV:
case PIC_TT_SYNTAX:
case PIC_TT_LIB:
pic_error(pic, "unexpected value type");
return pic_undef_value(); /* unreachable */
}
/* suppress warnings, never be called */
abort();
}
static pic_value
macroexpand_list(pic_state *pic, pic_value list, struct pic_senv *senv)
{
pic_value v;
if (! pic_pair_p(list))
return macroexpand(pic, list, senv);
v = macroexpand(pic, pic_car(pic, list), senv);
return pic_cons(pic, v, macroexpand_list(pic, pic_cdr(pic, list), senv));
}
pic_value
pic_macroexpand(pic_state *pic, pic_value expr)
{
struct pic_senv *senv;
pic_value v;
senv = new_global_senv(pic);
#if DEBUG
puts("before expand:");
pic_debug(pic, expr);
puts("");
#endif
v = macroexpand(pic, expr, senv);
#if DEBUG
puts("after expand:");
pic_debug(pic, v);
puts("");
#endif
return v;
}
static pic_value
pic_macro_make_sc(pic_state *pic)
{
pic_value senv, free_vars, expr;
struct pic_sc *sc;
pic_get_args(pic, "ooo", &senv, &free_vars, &expr);
if (! pic_senv_p(senv))
pic_error(pic, "make-syntactic-closure: senv required");
/* just ignore free_vars for now */
sc = sc_new(pic, expr, pic_senv(senv));
return pic_obj_value(sc);
}
static pic_value
pic_macro_identifier_p(pic_state *pic)
{
pic_value obj;
pic_get_args(pic, "o", &obj);
return pic_bool_value(pic_identifier_p(obj));
}
static pic_value
pic_macro_identifier_eq_p(pic_state *pic)
{
pic_value e, x, f, y;
struct pic_senv *e1, *e2;
pic_get_args(pic, "oooo", &e, &x, &f, &y);
if (! pic_senv_p(e)) {
pic_error(pic, "unexpected type of argument 1");
}
e1 = pic_senv(e);
if (! pic_identifier_p(x)) {
pic_error(pic, "unexpected type of argument 2");
}
if (! pic_senv_p(f)) {
pic_error(pic, "unexpected type of argument 3");
}
e2 = pic_senv(f);
if (! pic_identifier_p(y)) {
pic_error(pic, "unexpected type of argument 4");
}
x = macroexpand(pic, x, e1);
y = macroexpand(pic, y, e2);
return pic_bool_value(pic_eq_p(x, y));
}
void
pic_init_macro(pic_state *pic)
{
pic_defun(pic, "make-syntactic-closure", pic_macro_make_sc);
pic_defun(pic, "identifier?", pic_macro_identifier_p);
pic_defun(pic, "identifier=?", pic_macro_identifier_eq_p);
}