/** * See Copyright Notice in picrin.h */ #include "picrin.h" #include "picrin/opcode.h" /** * macro expander */ static pic_sym * lookup(pic_state *pic, pic_value var, struct pic_env *env) { khiter_t it; pic_assert_type(pic, var, var); while (env != NULL) { it = kh_get(env, &env->map, pic_ptr(var)); if (it != kh_end(&env->map)) { return kh_val(&env->map, it); } env = env->up; } return NULL; } pic_sym * pic_resolve(pic_state *pic, pic_value var, struct pic_env *env) { pic_sym *uid; assert(env != NULL); pic_assert_type(pic, var, var); while ((uid = lookup(pic, var, env)) == NULL) { if (pic_sym_p(var)) { break; } env = pic_id_ptr(var)->env; var = pic_id_ptr(var)->var; } if (uid == NULL) { while (env->up != NULL) { env = env->up; } uid = pic_add_variable(pic, env, var); } return uid; } static void define_macro(pic_state *pic, pic_sym *uid, struct pic_proc *mac) { if (pic_reg_has(pic, pic->macros, uid)) { pic_warnf(pic, "redefining syntax variable: ~s", pic_obj_value(uid)); } pic_reg_set(pic, pic->macros, uid, pic_obj_value(mac)); } static struct pic_proc * find_macro(pic_state *pic, pic_sym *uid) { if (! pic_reg_has(pic, pic->macros, uid)) { return NULL; } return pic_proc_ptr(pic_reg_ref(pic, pic->macros, uid)); } static void shadow_macro(pic_state *pic, pic_sym *uid) { if (pic_reg_has(pic, pic->macros, uid)) { pic_reg_del(pic, pic->macros, uid); } } static pic_value expand(pic_state *, pic_value, struct pic_env *, pic_value); static pic_value expand_lambda(pic_state *, pic_value, struct pic_env *); static pic_value expand_var(pic_state *pic, pic_value var, struct pic_env *env, pic_value deferred) { struct pic_proc *mac; pic_sym *functor; functor = pic_resolve(pic, var, env); if ((mac = find_macro(pic, functor)) != NULL) { return expand(pic, pic_apply2(pic, mac, var, pic_obj_value(env)), env, deferred); } return pic_obj_value(functor); } static pic_value expand_quote(pic_state *pic, pic_value expr) { return pic_cons(pic, pic_obj_value(pic->uQUOTE), pic_cdr(pic, expr)); } static pic_value expand_list(pic_state *pic, pic_value obj, struct pic_env *env, pic_value deferred) { size_t ai = pic_gc_arena_preserve(pic); pic_value x, head, tail; if (pic_pair_p(obj)) { head = expand(pic, pic_car(pic, obj), env, deferred); tail = expand_list(pic, pic_cdr(pic, obj), env, deferred); x = pic_cons(pic, head, tail); } else { x = expand(pic, obj, env, deferred); } pic_gc_arena_restore(pic, ai); pic_gc_protect(pic, x); return x; } static pic_value expand_defer(pic_state *pic, pic_value expr, pic_value deferred) { pic_value skel = pic_cons(pic, pic_invalid_value(), pic_invalid_value()); pic_set_car(pic, deferred, pic_acons(pic, expr, skel, pic_car(pic, deferred))); return skel; } static void expand_deferred(pic_state *pic, pic_value deferred, struct pic_env *env) { pic_value defer, val, src, dst, it; deferred = pic_car(pic, deferred); pic_for_each (defer, pic_reverse(pic, deferred), it) { src = pic_car(pic, defer); dst = pic_cdr(pic, defer); val = expand_lambda(pic, src, env); /* copy */ pic_set_car(pic, dst, pic_car(pic, val)); pic_set_cdr(pic, dst, pic_cdr(pic, val)); } } static pic_value expand_lambda(pic_state *pic, pic_value expr, struct pic_env *env) { pic_value formal, body; struct pic_env *in; pic_value a, deferred; in = pic_make_env(pic, env); for (a = pic_cadr(pic, expr); pic_pair_p(a); a = pic_cdr(pic, a)) { pic_add_variable(pic, in, pic_car(pic, a)); } if (pic_var_p(a)) { pic_add_variable(pic, in, a); } deferred = pic_list1(pic, pic_nil_value()); formal = expand_list(pic, pic_list_ref(pic, expr, 1), in, deferred); body = expand(pic, pic_list_ref(pic, expr, 2), in, deferred); expand_deferred(pic, deferred, in); return pic_list3(pic, pic_obj_value(pic->uLAMBDA), formal, body); } static pic_value expand_define(pic_state *pic, pic_value expr, struct pic_env *env, pic_value deferred) { pic_sym *uid; pic_value var, val; var = pic_cadr(pic, expr); if ((uid = pic_find_variable(pic, env, var)) == NULL) { uid = pic_add_variable(pic, env, var); } else { shadow_macro(pic, uid); } val = expand(pic, pic_list_ref(pic, expr, 2), env, deferred); return pic_list3(pic, pic_obj_value(pic->uDEFINE), pic_obj_value(uid), val); } static pic_value expand_defmacro(pic_state *pic, pic_value expr, struct pic_env *env) { pic_value var, val; pic_sym *uid; var = pic_cadr(pic, expr); if ((uid = pic_find_variable(pic, env, var)) == NULL) { uid = pic_add_variable(pic, env, var); } val = pic_eval(pic, pic_list_ref(pic, expr, 2), env); if (! pic_proc_p(val)) { pic_errorf(pic, "macro definition \"~s\" evaluates to non-procedure object", var); } define_macro(pic, uid, pic_proc_ptr(val)); return pic_undef_value(); } static pic_value expand_node(pic_state *pic, pic_value expr, struct pic_env *env, pic_value deferred) { switch (pic_type(expr)) { case PIC_TT_ID: case PIC_TT_SYMBOL: { return expand_var(pic, expr, env, deferred); } case PIC_TT_PAIR: { struct pic_proc *mac; if (! pic_list_p(expr)) { pic_errorf(pic, "cannot expand improper list: ~s", expr); } if (pic_var_p(pic_car(pic, expr))) { pic_sym *functor; functor = pic_resolve(pic, pic_car(pic, expr), env); if (functor == pic->uDEFINE_MACRO) { return expand_defmacro(pic, expr, env); } else if (functor == pic->uLAMBDA) { return expand_defer(pic, expr, deferred); } else if (functor == pic->uDEFINE) { return expand_define(pic, expr, env, deferred); } else if (functor == pic->uQUOTE) { return expand_quote(pic, expr); } if ((mac = find_macro(pic, functor)) != NULL) { return expand(pic, pic_apply2(pic, mac, expr, pic_obj_value(env)), env, deferred); } } return expand_list(pic, expr, env, deferred); } default: return expr; } } static pic_value expand(pic_state *pic, pic_value expr, struct pic_env *env, pic_value deferred) { size_t ai = pic_gc_arena_preserve(pic); pic_value v; v = expand_node(pic, expr, env, deferred); pic_gc_arena_restore(pic, ai); pic_gc_protect(pic, v); return v; } pic_value pic_expand(pic_state *pic, pic_value expr, struct pic_env *env) { pic_value v, deferred; #if DEBUG puts("before expand:"); pic_debug(pic, expr); puts(""); #endif deferred = pic_list1(pic, pic_nil_value()); v = expand(pic, expr, env, deferred); expand_deferred(pic, deferred, env); #if DEBUG puts("after expand:"); pic_debug(pic, v); puts(""); #endif return v; } static pic_value optimize_beta(pic_state *pic, pic_value expr) { size_t ai = pic_gc_arena_preserve(pic); pic_value functor, formals, args, tmp, val, it, defs; if (! pic_list_p(expr)) return expr; if (pic_nil_p(expr)) return expr; if (pic_sym_p(pic_list_ref(pic, expr, 0))) { pic_sym *sym = pic_sym_ptr(pic_list_ref(pic, expr, 0)); if (sym == pic->uQUOTE) { return expr; } else if (sym == pic->uLAMBDA) { return pic_list3(pic, pic_list_ref(pic, expr, 0), pic_list_ref(pic, expr, 1), optimize_beta(pic, pic_list_ref(pic, expr, 2))); } } tmp = pic_nil_value(); pic_for_each (val, expr, it) { pic_push(pic, optimize_beta(pic, val), tmp); } expr = pic_reverse(pic, tmp); pic_gc_arena_restore(pic, ai); pic_gc_protect(pic, expr); functor = pic_list_ref(pic, expr, 0); if (pic_pair_p(functor) && pic_eq_p(pic_car(pic, functor), pic_obj_value(pic->uLAMBDA))) { formals = pic_list_ref(pic, functor, 1); if (! pic_list_p(formals)) goto exit; /* TODO: support ((lambda args x) 1 2) */ args = pic_cdr(pic, expr); if (pic_length(pic, formals) != pic_length(pic, args)) goto exit; defs = pic_nil_value(); pic_for_each (val, args, it) { pic_push(pic, pic_list3(pic, pic_obj_value(pic->uDEFINE), pic_car(pic, formals), val), defs); formals = pic_cdr(pic, formals); } expr = pic_list_ref(pic, functor, 2); pic_for_each (val, defs, it) { expr = pic_list3(pic, pic_obj_value(pic->uBEGIN), val, expr); } } exit: pic_gc_arena_restore(pic, ai); pic_gc_protect(pic, expr); return expr; } pic_value pic_optimize(pic_state *pic, pic_value expr) { return optimize_beta(pic, expr); } KHASH_DECLARE(a, pic_sym *, int) KHASH_DEFINE2(a, pic_sym *, int, 0, kh_ptr_hash_func, kh_ptr_hash_equal) /** * TODO: don't use khash_t, use kvec_t instead */ typedef struct analyze_scope { int depth; pic_sym *rest; /* Nullable */ khash_t(a) args, locals, captures; /* rest args variable is counted as a local */ pic_value defer; struct analyze_scope *up; } analyze_scope; static void analyzer_scope_init(pic_state *pic, analyze_scope *scope, pic_value formal, analyze_scope *up) { int ret; kh_init(a, &scope->args); kh_init(a, &scope->locals); kh_init(a, &scope->captures); /* analyze formal */ for (; pic_pair_p(formal); formal = pic_cdr(pic, formal)) { kh_put(a, &scope->args, pic_sym_ptr(pic_car(pic, formal)), &ret); } if (pic_nil_p(formal)) { scope->rest = NULL; } else { scope->rest = pic_sym_ptr(formal); kh_put(a, &scope->locals, pic_sym_ptr(formal), &ret); } scope->up = up; scope->depth = up ? up->depth + 1 : 0; scope->defer = pic_list1(pic, pic_nil_value()); } static void analyzer_scope_destroy(pic_state *pic, analyze_scope *scope) { kh_destroy(a, &scope->args); kh_destroy(a, &scope->locals); kh_destroy(a, &scope->captures); } static bool search_scope(analyze_scope *scope, pic_sym *sym) { return kh_get(a, &scope->args, sym) != kh_end(&scope->args) || kh_get(a, &scope->locals, sym) != kh_end(&scope->locals) || scope->depth == 0; } static int find_var(pic_state *pic, analyze_scope *scope, pic_sym *sym) { int depth = 0, ret; while (scope) { if (search_scope(scope, sym)) { if (depth > 0) { kh_put(a, &scope->captures, sym, &ret); /* capture! */ } return depth; } depth++; scope = scope->up; } PIC_UNREACHABLE(); } static void define_var(pic_state *pic, analyze_scope *scope, pic_sym *sym) { int ret; if (search_scope(scope, sym)) { if (scope->depth > 0 || (pic_reg_has(pic, pic->globals, sym) && ! pic_invalid_p(pic_box_ptr(pic_reg_ref(pic, pic->globals, sym))->value))) { pic_warnf(pic, "redefining variable: ~s", pic_obj_value(sym)); } return; } kh_put(a, &scope->locals, sym, &ret); } static pic_value analyze(pic_state *, analyze_scope *, pic_value); static pic_value analyze_lambda(pic_state *, analyze_scope *, pic_value); #define GREF pic_intern(pic, "gref") #define LREF pic_intern(pic, "lref") #define CREF pic_intern(pic, "cref") #define CALL pic_intern(pic, "call") static pic_value analyze_var(pic_state *pic, analyze_scope *scope, pic_sym *sym) { int depth; depth = find_var(pic, scope, sym); if (depth == scope->depth) { return pic_list2(pic, pic_obj_value(GREF), pic_obj_value(sym)); } else if (depth == 0) { return pic_list2(pic, pic_obj_value(LREF), pic_obj_value(sym)); } else { return pic_list3(pic, pic_obj_value(CREF), pic_int_value(depth), pic_obj_value(sym)); } } static pic_value analyze_defer(pic_state *pic, analyze_scope *scope, pic_value form) { pic_value skel = pic_cons(pic, pic_invalid_value(), pic_invalid_value()); pic_set_car(pic, scope->defer, pic_acons(pic, form, skel, pic_car(pic, scope->defer))); return skel; } static void analyze_deferred(pic_state *pic, analyze_scope *scope) { pic_value defer, val, src, dst, it; scope->defer = pic_car(pic, scope->defer); pic_for_each (defer, pic_reverse(pic, scope->defer), it) { src = pic_car(pic, defer); dst = pic_cdr(pic, defer); val = analyze_lambda(pic, scope, src); /* copy */ pic_set_car(pic, dst, pic_car(pic, val)); pic_set_cdr(pic, dst, pic_cdr(pic, val)); } } static pic_value analyze_lambda(pic_state *pic, analyze_scope *up, pic_value form) { analyze_scope s, *scope = &s; pic_value formals, body; pic_value rest = pic_undef_value(); pic_vec *args, *locals, *captures; int i, j; khiter_t it; formals = pic_list_ref(pic, form, 1); body = pic_list_ref(pic, form, 2); analyzer_scope_init(pic, scope, formals, up); /* analyze body */ body = analyze(pic, scope, body); analyze_deferred(pic, scope); args = pic_make_vec(pic, kh_size(&scope->args)); for (i = 0; pic_pair_p(formals); formals = pic_cdr(pic, formals), i++) { args->data[i] = pic_car(pic, formals); } if (scope->rest != NULL) { rest = pic_obj_value(scope->rest); } locals = pic_make_vec(pic, kh_size(&scope->locals)); j = 0; if (scope->rest != NULL) { locals->data[j++] = pic_obj_value(scope->rest); } for (it = kh_begin(&scope->locals); it < kh_end(&scope->locals); ++it) { if (kh_exist(&scope->locals, it)) { if (scope->rest != NULL && kh_key(&scope->locals, it) == scope->rest) continue; locals->data[j++] = pic_obj_value(kh_key(&scope->locals, it)); } } captures = pic_make_vec(pic, kh_size(&scope->captures)); for (it = kh_begin(&scope->captures), j = 0; it < kh_end(&scope->captures); ++it) { if (kh_exist(&scope->captures, it)) { captures->data[j++] = pic_obj_value(kh_key(&scope->captures, it)); } } analyzer_scope_destroy(pic, scope); return pic_list6(pic, pic_obj_value(pic->uLAMBDA), rest, pic_obj_value(args), pic_obj_value(locals), pic_obj_value(captures), body); } static pic_value analyze_list(pic_state *pic, analyze_scope *scope, pic_value obj) { pic_value seq = pic_nil_value(), val, it; pic_for_each (val, obj, it) { pic_push(pic, analyze(pic, scope, val), seq); } return pic_reverse(pic, seq); } static pic_value analyze_define(pic_state *pic, analyze_scope *scope, pic_value obj) { define_var(pic, scope, pic_sym_ptr(pic_list_ref(pic, obj, 1))); return pic_cons(pic, pic_car(pic, obj), analyze_list(pic, scope, pic_cdr(pic, obj))); } static pic_value analyze_call(pic_state *pic, analyze_scope *scope, pic_value obj) { return pic_cons(pic, pic_obj_value(CALL), analyze_list(pic, scope, obj)); } static pic_value analyze_node(pic_state *pic, analyze_scope *scope, pic_value obj) { switch (pic_type(obj)) { case PIC_TT_SYMBOL: { return analyze_var(pic, scope, pic_sym_ptr(obj)); } case PIC_TT_PAIR: { pic_value proc; if (! pic_list_p(obj)) { pic_errorf(pic, "invalid expression given: ~s", obj); } proc = pic_list_ref(pic, obj, 0); if (pic_sym_p(proc)) { pic_sym *sym = pic_sym_ptr(proc); if (sym == pic->uDEFINE) { return analyze_define(pic, scope, obj); } else if (sym == pic->uLAMBDA) { return analyze_defer(pic, scope, obj); } else if (sym == pic->uQUOTE) { return obj; } else if (sym == pic->uBEGIN || sym == pic->uSETBANG || sym == pic->uIF) { return pic_cons(pic, pic_car(pic, obj), analyze_list(pic, scope, pic_cdr(pic, obj))); } } return analyze_call(pic, scope, obj); } default: return pic_list2(pic, pic_obj_value(pic->uQUOTE), obj); } } static pic_value analyze(pic_state *pic, analyze_scope *scope, pic_value obj) { size_t ai = pic_gc_arena_preserve(pic); pic_value res; res = analyze_node(pic, scope, obj); pic_gc_arena_restore(pic, ai); pic_gc_protect(pic, res); return res; } pic_value pic_analyze(pic_state *pic, pic_value obj) { analyze_scope s, *scope = &s; analyzer_scope_init(pic, scope, pic_nil_value(), NULL); obj = analyze(pic, scope, obj); analyze_deferred(pic, scope); analyzer_scope_destroy(pic, scope); return obj; } typedef struct codegen_context { /* rest args variable is counted as a local */ pic_sym *rest; pic_vec *args, *locals, *captures; /* actual bit code sequence */ pic_code *code; size_t clen, ccapa; /* child ireps */ struct pic_irep **irep; size_t ilen, icapa; /* constant object pool */ pic_value *pool; size_t plen, pcapa; struct codegen_context *up; } codegen_context; static void create_activation(pic_state *, codegen_context *); static void codegen_context_init(pic_state *pic, codegen_context *cxt, codegen_context *up, pic_sym *rest, pic_vec *args, pic_vec *locals, pic_vec *captures) { cxt->up = up; cxt->rest = rest; cxt->args = args; cxt->locals = locals; cxt->captures = captures; cxt->code = pic_calloc(pic, PIC_ISEQ_SIZE, sizeof(pic_code)); cxt->clen = 0; cxt->ccapa = PIC_ISEQ_SIZE; cxt->irep = pic_calloc(pic, PIC_IREP_SIZE, sizeof(struct pic_irep *)); cxt->ilen = 0; cxt->icapa = PIC_IREP_SIZE; cxt->pool = pic_calloc(pic, PIC_POOL_SIZE, sizeof(pic_value)); cxt->plen = 0; cxt->pcapa = PIC_POOL_SIZE; create_activation(pic, cxt); } static struct pic_irep * codegen_context_destroy(pic_state *pic, codegen_context *cxt) { struct pic_irep *irep; /* create irep */ irep = (struct pic_irep *)pic_obj_alloc(pic, sizeof(struct pic_irep), PIC_TT_IREP); irep->varg = cxt->rest != NULL; irep->argc = (int)cxt->args->len + 1; irep->localc = (int)cxt->locals->len; irep->capturec = (int)cxt->captures->len; irep->code = pic_realloc(pic, cxt->code, sizeof(pic_code) * cxt->clen); irep->irep = pic_realloc(pic, cxt->irep, sizeof(struct pic_irep *) * cxt->ilen); irep->ilen = cxt->ilen; irep->pool = pic_realloc(pic, cxt->pool, sizeof(pic_value) * cxt->plen); irep->plen = cxt->plen; return irep; } #define check_size(pic, cxt, x, name, type) do { \ if (cxt->x##len >= cxt->x##capa) { \ cxt->x##capa *= 2; \ cxt->name = pic_realloc(pic, cxt->name, sizeof(type) * cxt->x##capa); \ } \ } while (0) #define check_code_size(pic, cxt) check_size(pic, cxt, c, code, pic_code) #define check_irep_size(pic, cxt) check_size(pic, cxt, i, irep, struct pic_irep *) #define check_pool_size(pic, cxt) check_size(pic, cxt, p, pool, pic_value) #define emit_n(pic, cxt, ins) do { \ check_code_size(pic, cxt); \ cxt->code[cxt->clen].insn = ins; \ cxt->clen++; \ } while (0) \ #define emit_i(pic, cxt, ins, I) do { \ check_code_size(pic, cxt); \ cxt->code[cxt->clen].insn = ins; \ cxt->code[cxt->clen].u.i = I; \ cxt->clen++; \ } while (0) \ #define emit_c(pic, cxt, ins, C) do { \ check_code_size(pic, cxt); \ cxt->code[cxt->clen].insn = ins; \ cxt->code[cxt->clen].u.c = C; \ cxt->clen++; \ } while (0) \ #define emit_r(pic, cxt, ins, D, I) do { \ check_code_size(pic, cxt); \ cxt->code[cxt->clen].insn = ins; \ cxt->code[cxt->clen].u.r.depth = D; \ cxt->code[cxt->clen].u.r.idx = I; \ cxt->clen++; \ } while (0) \ #define emit_ret(pic, cxt, tailpos) if (tailpos) emit_n(pic, cxt, OP_RET) static int index_capture(codegen_context *cxt, pic_sym *sym, int depth) { int i; while (depth-- > 0) { cxt = cxt->up; } for (i = 0; i < cxt->captures->len; ++i) { if (pic_sym_ptr(cxt->captures->data[i]) == sym) return i; } return -1; } static int index_local(codegen_context *cxt, pic_sym *sym) { int i, offset; offset = 1; for (i = 0; i < cxt->args->len; ++i) { if (pic_sym_ptr(cxt->args->data[i]) == sym) return i + offset; } offset += i; for (i = 0; i < cxt->locals->len; ++i) { if (pic_sym_ptr(cxt->locals->data[i]) == sym) return i + offset; } return -1; } static int index_global(pic_state *pic, codegen_context *cxt, pic_sym *name) { extern struct pic_box *pic_vm_gref_slot(pic_state *, pic_sym *); int pidx; struct pic_box *slot; slot = pic_vm_gref_slot(pic, name); check_pool_size(pic, cxt); pidx = (int)cxt->plen++; cxt->pool[pidx] = pic_obj_value(slot); return pidx; } static void create_activation(pic_state *pic, codegen_context *cxt) { int i, n; for (i = 0; i < cxt->captures->len; ++i) { n = index_local(cxt, pic_sym_ptr(cxt->captures->data[i])); assert(n != -1); if (n <= cxt->args->len || cxt->rest == pic_sym_ptr(cxt->captures->data[i])) { /* copy arguments to capture variable area */ emit_i(pic, cxt, OP_LREF, n); } else { /* otherwise, just extend the stack */ emit_n(pic, cxt, OP_PUSHUNDEF); } } } static void codegen(pic_state *, codegen_context *, pic_value, bool); static void codegen_ref(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos) { pic_sym *sym; sym = pic_sym_ptr(pic_car(pic, obj)); if (sym == GREF) { pic_sym *name; name = pic_sym_ptr(pic_list_ref(pic, obj, 1)); emit_i(pic, cxt, OP_GREF, index_global(pic, cxt, name)); emit_ret(pic, cxt, tailpos); } else if (sym == CREF) { pic_sym *name; int depth; depth = pic_int(pic_list_ref(pic, obj, 1)); name = pic_sym_ptr(pic_list_ref(pic, obj, 2)); emit_r(pic, cxt, OP_CREF, depth, index_capture(cxt, name, depth)); emit_ret(pic, cxt, tailpos); } else if (sym == LREF) { pic_sym *name; int i; name = pic_sym_ptr(pic_list_ref(pic, obj, 1)); if ((i = index_capture(cxt, name, 0)) != -1) { emit_i(pic, cxt, OP_LREF, i + (int)cxt->args->len + (int)cxt->locals->len + 1); emit_ret(pic, cxt, tailpos); } else { emit_i(pic, cxt, OP_LREF, index_local(cxt, name)); emit_ret(pic, cxt, tailpos); } } } static void codegen_set(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos) { pic_value var, val; pic_sym *type; val = pic_list_ref(pic, obj, 2); codegen(pic, cxt, val, false); var = pic_list_ref(pic, obj, 1); type = pic_sym_ptr(pic_list_ref(pic, var, 0)); if (type == GREF) { pic_sym *name; name = pic_sym_ptr(pic_list_ref(pic, var, 1)); emit_i(pic, cxt, OP_GSET, index_global(pic, cxt, name)); emit_ret(pic, cxt, tailpos); } else if (type == CREF) { pic_sym *name; int depth; depth = pic_int(pic_list_ref(pic, var, 1)); name = pic_sym_ptr(pic_list_ref(pic, var, 2)); emit_r(pic, cxt, OP_CSET, depth, index_capture(cxt, name, depth)); emit_ret(pic, cxt, tailpos); } else if (type == LREF) { pic_sym *name; int i; name = pic_sym_ptr(pic_list_ref(pic, var, 1)); if ((i = index_capture(cxt, name, 0)) != -1) { emit_i(pic, cxt, OP_LSET, i + (int)cxt->args->len + (int)cxt->locals->len + 1); emit_ret(pic, cxt, tailpos); } else { emit_i(pic, cxt, OP_LSET, index_local(cxt, name)); emit_ret(pic, cxt, tailpos); } } } static void codegen_lambda(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos) { codegen_context c, *inner_cxt = &c; pic_value rest_opt, body; pic_sym *rest = NULL; pic_vec *args, *locals, *captures; check_irep_size(pic, cxt); /* extract arguments */ rest_opt = pic_list_ref(pic, obj, 1); if (pic_sym_p(rest_opt)) { rest = pic_sym_ptr(rest_opt); } args = pic_vec_ptr(pic_list_ref(pic, obj, 2)); locals = pic_vec_ptr(pic_list_ref(pic, obj, 3)); captures = pic_vec_ptr(pic_list_ref(pic, obj, 4)); body = pic_list_ref(pic, obj, 5); /* emit irep */ codegen_context_init(pic, inner_cxt, cxt, rest, args, locals, captures); codegen(pic, inner_cxt, body, true); cxt->irep[cxt->ilen] = codegen_context_destroy(pic, inner_cxt); /* emit OP_LAMBDA */ emit_i(pic, cxt, OP_LAMBDA, cxt->ilen++); emit_ret(pic, cxt, tailpos); } static void codegen_if(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos) { int s, t; codegen(pic, cxt, pic_list_ref(pic, obj, 1), false); s = (int)cxt->clen; emit_n(pic, cxt, OP_JMPIF); /* if false branch */ codegen(pic, cxt, pic_list_ref(pic, obj, 3), tailpos); t = (int)cxt->clen; emit_n(pic, cxt, OP_JMP); cxt->code[s].u.i = (int)cxt->clen - s; /* if true branch */ codegen(pic, cxt, pic_list_ref(pic, obj, 2), tailpos); cxt->code[t].u.i = (int)cxt->clen - t; } static void codegen_begin(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos) { codegen(pic, cxt, pic_list_ref(pic, obj, 1), false); emit_n(pic, cxt, OP_POP); codegen(pic, cxt, pic_list_ref(pic, obj, 2), tailpos); } static void codegen_quote(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos) { int pidx; obj = pic_list_ref(pic, obj, 1); switch (pic_type(obj)) { case PIC_TT_BOOL: emit_n(pic, cxt, (pic_true_p(obj) ? OP_PUSHTRUE : OP_PUSHFALSE)); emit_ret(pic, cxt, tailpos); break; case PIC_TT_INT: emit_i(pic, cxt, OP_PUSHINT, pic_int(obj)); emit_ret(pic, cxt, tailpos); break; case PIC_TT_NIL: emit_n(pic, cxt, OP_PUSHNIL); emit_ret(pic, cxt, tailpos); break; case PIC_TT_CHAR: emit_c(pic, cxt, OP_PUSHCHAR, pic_char(obj)); emit_ret(pic, cxt, tailpos); break; default: check_pool_size(pic, cxt); pidx = (int)cxt->plen++; cxt->pool[pidx] = obj; emit_i(pic, cxt, OP_PUSHCONST, pidx); emit_ret(pic, cxt, tailpos); break; } } #define VM(uid, op) \ if (sym == uid) { \ emit_i(pic, cxt, op, len - 1); \ emit_ret(pic, cxt, tailpos); \ return; \ } static void codegen_call(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos) { int len = (int)pic_length(pic, obj); pic_value elt, it, functor; pic_for_each (elt, pic_cdr(pic, obj), it) { codegen(pic, cxt, elt, false); } functor = pic_list_ref(pic, obj, 1); if (pic_sym_ptr(pic_list_ref(pic, functor, 0)) == GREF) { pic_sym *sym; sym = pic_sym_ptr(pic_list_ref(pic, functor, 1)); VM(pic->uCONS, OP_CONS) VM(pic->uCAR, OP_CAR) VM(pic->uCDR, OP_CDR) VM(pic->uNILP, OP_NILP) VM(pic->uSYMBOLP, OP_SYMBOLP) VM(pic->uPAIRP, OP_PAIRP) VM(pic->uNOT, OP_NOT) VM(pic->uEQ, OP_EQ) VM(pic->uLT, OP_LT) VM(pic->uLE, OP_LE) VM(pic->uGT, OP_GT) VM(pic->uGE, OP_GE) VM(pic->uADD, OP_ADD) VM(pic->uSUB, OP_SUB) VM(pic->uMUL, OP_MUL) VM(pic->uDIV, OP_DIV) } emit_i(pic, cxt, (tailpos ? OP_TAILCALL : OP_CALL), len - 1); } static void codegen(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos) { pic_sym *sym; sym = pic_sym_ptr(pic_car(pic, obj)); if (sym == GREF || sym == CREF || sym == LREF) { codegen_ref(pic, cxt, obj, tailpos); } else if (sym == pic->uSETBANG || sym == pic->uDEFINE) { codegen_set(pic, cxt, obj, tailpos); } else if (sym == pic->uLAMBDA) { codegen_lambda(pic, cxt, obj, tailpos); } else if (sym == pic->uIF) { codegen_if(pic, cxt, obj, tailpos); } else if (sym == pic->uBEGIN) { codegen_begin(pic, cxt, obj, tailpos); } else if (sym == pic->uQUOTE) { codegen_quote(pic, cxt, obj, tailpos); } else if (sym == CALL) { codegen_call(pic, cxt, obj, tailpos); } else { pic_errorf(pic, "codegen: unknown AST type ~s", obj); } } struct pic_irep * pic_codegen(pic_state *pic, pic_value obj) { pic_vec *empty = pic_make_vec(pic, 0); codegen_context c, *cxt = &c; codegen_context_init(pic, cxt, NULL, NULL, empty, empty, empty); codegen(pic, cxt, obj, true); return codegen_context_destroy(pic, cxt); } #define SAVE(pic, ai, obj) pic_gc_arena_restore(pic, ai); pic_gc_protect(pic, obj) struct pic_proc * pic_compile(pic_state *pic, pic_value obj, struct pic_env *env) { struct pic_irep *irep; size_t ai = pic_gc_arena_preserve(pic); #if DEBUG fprintf(stdout, "ai = %zu\n", pic_gc_arena_preserve(pic)); fprintf(stdout, "# input expression\n"); pic_write(pic, obj); fprintf(stdout, "\n"); fprintf(stdout, "ai = %zu\n", pic_gc_arena_preserve(pic)); #endif /* expand */ obj = pic_expand(pic, obj, env); #if DEBUG fprintf(stdout, "## expand completed\n"); pic_write(pic, obj); fprintf(stdout, "\n"); fprintf(stdout, "ai = %zu\n", pic_gc_arena_preserve(pic)); #endif SAVE(pic, ai, obj); /* optimize */ obj = pic_optimize(pic, obj); #if DEBUG fprintf(stdout, "## optimize completed\n"); pic_write(pic, obj); fprintf(stdout, "\n"); fprintf(stdout, "ai = %zu\n", pic_gc_arena_preserve(pic)); #endif SAVE(pic, ai, obj); /* analyze */ obj = pic_analyze(pic, obj); #if DEBUG fprintf(stdout, "## analyzer completed\n"); pic_write(pic, obj); fprintf(stdout, "\n"); fprintf(stdout, "ai = %zu\n", pic_gc_arena_preserve(pic)); #endif SAVE(pic, ai, obj); /* codegen */ irep = pic_codegen(pic, obj); #if DEBUG fprintf(stdout, "## codegen completed\n"); pic_dump_irep(irep); #endif #if DEBUG fprintf(stdout, "# compilation finished\n"); puts(""); #endif SAVE(pic, ai, pic_obj_value(irep)); return pic_make_proc_irep(pic, irep, NULL); }