/** * See Copyright Notice in picrin.h */ #include #include #include "picrin.h" #include "picrin/pair.h" #include "picrin/irep.h" #include "picrin/proc.h" #include "picrin/lib.h" #include "picrin/macro.h" #include "xhash/xhash.h" #if PIC_NONE_IS_FALSE # define OP_PUSHNONE OP_PUSHFALSE #else # error enable PIC_NONE_IS_FALSE #endif #define FALLTHROUGH ((void)0) static struct pic_irep * new_irep(pic_state *pic) { struct pic_irep *irep; irep = (struct pic_irep *)pic_obj_alloc(pic, sizeof(struct pic_irep), PIC_TT_IREP); irep->code = NULL; irep->clen = 0; irep->argc = -1; irep->localc = -1; irep->varg = false; irep->irep = NULL; irep->pool = NULL; return irep; } static pic_sym * analyze_args(pic_state *pic, pic_value args, bool *varg, size_t *argc, size_t *localc) { pic_sym *syms = pic_alloc(pic, sizeof(pic_sym)); size_t i = 1, l = 0; pic_value v; *varg = false; for (v = args; pic_pair_p(v); v = pic_cdr(pic, v)) { pic_value sym; sym = pic_car(pic, v); if (! pic_symbol_p(sym)) { pic_free(pic, syms); return NULL; } syms = pic_realloc(pic, syms, sizeof(pic_sym) * (i + 1)); syms[i] = pic_sym(sym); i++; } if (pic_nil_p(v)) { /* pass */ } else if (pic_symbol_p(v)) { *varg = true; syms = pic_realloc(pic, syms, sizeof(pic_sym) * (i + 1)); syms[i] = pic_sym(v); l++; } else { pic_free(pic, syms); return NULL; } *argc = i; *localc = l; return syms; } static bool valid_formal(pic_state *pic, pic_value formal) { bool varg; size_t argc, localc; pic_sym *syms; syms = analyze_args(pic, formal, &varg, &argc, &localc); if (syms == NULL) { return false; } else { pic_free(pic, syms); return true; } } typedef struct analyze_scope { /* rest args variable is counted by localc */ bool varg; size_t argc, localc; /* if variable v is captured, then xh_get(var_tbl, v) == 1 */ struct xhash *var_tbl; pic_sym *vars; struct analyze_scope *up; } analyze_scope; typedef struct analyze_state { pic_state *pic; analyze_scope *scope; pic_sym rCONS, rCAR, rCDR, rNILP; pic_sym rADD, rSUB, rMUL, rDIV; pic_sym rEQ, rLT, rLE, rGT, rGE; pic_sym sCALL, sTAILCALL; pic_sym sDECLARE, sCLOSE, sREF; } analyze_state; static void push_scope(analyze_state *, pic_value); static void pop_scope(analyze_state *); #define register_symbol(pic, state, slot, name) do { \ state->slot = pic_intern_cstr(pic, name); \ } while (0) #define register_renamed_symbol(pic, state, slot, lib, name) do { \ struct xh_entry *e; \ if (! (e = xh_get(lib->senv->tbl, name))) \ pic_error(pic, "internal error! native VM procedure not found"); \ state->slot = e->val; \ } while (0) static analyze_state * new_analyze_state(pic_state *pic) { analyze_state *state; struct xhash *global_tbl; struct xh_iter it; struct pic_lib *stdlib; state = (analyze_state *)pic_alloc(pic, sizeof(analyze_state)); state->pic = pic; state->scope = NULL; stdlib = pic_find_library(pic, pic_parse(pic, "(scheme base)")); /* native VM procedures */ register_renamed_symbol(pic, state, rCONS, stdlib, "cons"); register_renamed_symbol(pic, state, rCAR, stdlib, "car"); register_renamed_symbol(pic, state, rCDR, stdlib, "cdr"); register_renamed_symbol(pic, state, rNILP, stdlib, "null?"); register_renamed_symbol(pic, state, rADD, stdlib, "+"); register_renamed_symbol(pic, state, rSUB, stdlib, "-"); register_renamed_symbol(pic, state, rMUL, stdlib, "*"); register_renamed_symbol(pic, state, rDIV, stdlib, "/"); register_renamed_symbol(pic, state, rEQ, stdlib, "="); register_renamed_symbol(pic, state, rLT, stdlib, "<"); register_renamed_symbol(pic, state, rLE, stdlib, "<="); register_renamed_symbol(pic, state, rGT, stdlib, ">"); register_renamed_symbol(pic, state, rGE, stdlib, ">="); register_symbol(pic, state, sCALL, "call"); register_symbol(pic, state, sTAILCALL, "tail-call"); register_symbol(pic, state, sDECLARE, "declare"); register_symbol(pic, state, sCLOSE, "close"); register_symbol(pic, state, sREF, "ref"); /* push initial scope */ push_scope(state, pic_nil_value()); global_tbl = pic->global_tbl; for (it = xh_begin(global_tbl); ! xh_isend(&it); xh_next(global_tbl, &it)) { xh_put(state->scope->var_tbl, it.e->key, 0); } return state; } static void destroy_analyze_state(analyze_state *state) { pop_scope(state); pic_free(state->pic, state); } static void push_scope(analyze_state *state, pic_value args) { pic_state *pic = state->pic; analyze_scope *scope; int i; scope = (analyze_scope *)pic_alloc(pic, sizeof(analyze_scope)); scope->up = state->scope; scope->var_tbl = xh_new(); scope->varg = false; scope->vars = analyze_args(pic, args, &scope->varg, &scope->argc, &scope->localc); if (scope->vars == NULL) { pic_error(pic, "logic flaw"); } for (i = 1; i < scope->argc + scope->localc; ++i) { xh_put(scope->var_tbl, pic_symbol_name(pic, scope->vars[i]), 0); } state->scope = scope; } static void pop_scope(analyze_state *state) { analyze_scope *scope; scope = state->scope; xh_destory(scope->var_tbl); pic_free(state->pic, scope->vars); scope = scope->up; pic_free(state->pic, state->scope); state->scope = scope; } static int lookup_var(analyze_state *state, pic_sym sym) { analyze_scope *scope = state->scope; struct xh_entry *e; int depth = 0; const char *key = pic_symbol_name(state->pic, sym); enter: e = xh_get(scope->var_tbl, key); if (e) { if (depth > 0) { /* mark dirty */ xh_put(scope->var_tbl, key, 1); } return depth; } if (scope->up) { scope = scope->up; ++depth; goto enter; } return -1; } static void define_var(analyze_state *state, pic_sym sym) { pic_state *pic = state->pic; analyze_scope *scope = state->scope; const char *name = pic_symbol_name(pic, sym); xh_put(state->scope->var_tbl, name, 0); scope->localc++; scope->vars = pic_realloc(pic, scope->vars, sizeof(pic_sym) * scope->argc + scope->localc); scope->vars[scope->argc + scope->localc - 1] = sym; } static pic_value new_ref(analyze_state *state, int depth, pic_sym sym) { return pic_list(state->pic, 3, pic_symbol_value(state->sREF), pic_int_value(depth), pic_symbol_value(sym)); } static pic_value analyze_node(analyze_state *, pic_value, bool); static pic_value analyze_call(analyze_state *, pic_value, bool); static pic_value analyze_lambda(analyze_state *, pic_value); static pic_value analyze(analyze_state *state, pic_value obj, bool tailpos) { int ai = pic_gc_arena_preserve(state->pic); pic_value res; res = analyze_node(state, obj, tailpos); pic_gc_arena_restore(state->pic, ai); pic_gc_protect(state->pic, res); return res; } static pic_value analyze_node(analyze_state *state, pic_value obj, bool tailpos) { pic_state *pic = state->pic; switch (pic_type(obj)) { case PIC_TT_SYMBOL: { pic_sym sym = pic_sym(obj); int depth; depth = lookup_var(state, sym); if (depth == -1) { pic_error(pic, "symbol: unbound variable"); } /* at this stage, lref/cref/gref are not distinguished */ return new_ref(state, depth, sym); } case PIC_TT_PAIR: { pic_value proc; if (! pic_list_p(pic, obj)) { pic_error(pic, "invalid expression given"); } proc = pic_list_ref(pic, obj, 0); if (pic_symbol_p(proc)) { pic_sym sym = pic_sym(proc); if (sym == pic->sDEFINE) { pic_value var, val; if (pic_length(pic, obj) < 2) { pic_error(pic, "syntax error"); } var = pic_list_ref(pic, obj, 1); if (pic_pair_p(var)) { val = pic_cons(pic, pic_symbol_value(pic->sLAMBDA), pic_cons(pic, pic_list_tail(pic, var, 1), pic_list_tail(pic, obj, 2))); var = pic_list_ref(pic, var, 0); } else { if (pic_length(pic, obj) != 3) { pic_error(pic, "syntax error"); } val = pic_list_ref(pic, obj, 2); } if (! pic_symbol_p(var)) { pic_error(pic, "syntax error"); } define_var(state, pic_sym(var)); return pic_list(pic, 3, pic_symbol_value(pic->sSETBANG), analyze(state, var, false), analyze(state, val, false)); } else if (sym == pic->sLAMBDA) { return analyze_lambda(state, obj); } else if (sym == pic->sIF) { pic_value if_true, if_false; if_false = pic_none_value(); switch (pic_length(pic, obj)) { default: pic_error(pic, "syntax error"); break; case 4: if_false = pic_list_ref(pic, obj, 3); FALLTHROUGH; case 3: if_true = pic_list_ref(pic, obj, 2); } return pic_list(pic, 4, pic_symbol_value(pic->sIF), analyze(state, pic_list_ref(pic, obj, 1), false), analyze(state, if_true, tailpos), analyze(state, if_false, tailpos)); } else if (sym == pic->sBEGIN) { pic_value seq; bool tail; /* TODO: unwrap if the number of objects is 1 or 0 */ seq = pic_list(pic, 1, pic_symbol_value(pic->sBEGIN)); for (obj = pic_cdr(pic, obj); ! pic_nil_p(obj); obj = pic_cdr(pic, obj)) { if (pic_nil_p(pic_cdr(pic, obj))) { tail = tailpos; } else { tail = false; } seq = pic_cons(pic, analyze(state, pic_car(pic, obj), tail), seq); } return pic_reverse(pic, seq); } else if (sym == pic->sSETBANG) { pic_value var, val; if (pic_length(pic, obj) != 3) { pic_error(pic, "syntax error"); } var = pic_list_ref(pic, obj, 1); if (! pic_symbol_p(var)) { pic_error(pic, "syntax error"); } val = pic_list_ref(pic, obj, 2); return pic_list(pic, 3, pic_symbol_value(pic->sSETBANG), analyze(state, var, false), analyze(state, val, false)); } else if (sym == pic->sQUOTE) { if (pic_length(pic, obj) != 2) { pic_error(pic, "syntax error"); } return obj; } #define ARGC_ASSERT(n) do { \ if (pic_length(pic, obj) != (n) + 1) { \ pic_error(pic, "wrong number of arguments"); \ } \ } while (0) #define CONSTRUCT_OP1(op) \ pic_list(pic, 2, \ pic_symbol_value(op), \ analyze(state, pic_list_ref(pic, obj, 1), false)) #define CONSTRUCT_OP2(op) \ pic_list(pic, 3, \ pic_symbol_value(op), \ analyze(state, pic_list_ref(pic, obj, 1), false), \ analyze(state, pic_list_ref(pic, obj, 2), false)) else if (sym == state->rCONS) { ARGC_ASSERT(2); return CONSTRUCT_OP2(pic->sCONS); } else if (sym == state->rCAR) { ARGC_ASSERT(1); return CONSTRUCT_OP1(pic->sCAR); } else if (sym == state->rCDR) { ARGC_ASSERT(1); return CONSTRUCT_OP1(pic->sCDR); } else if (sym == state->rNILP) { ARGC_ASSERT(1); return CONSTRUCT_OP1(pic->sNILP); } #define ARGC_ASSERT_GE(n) do { \ if (pic_length(pic, obj) < (n) + 1) { \ pic_error(pic, "wrong number of arguments"); \ } \ } while (0) #define FOLD_ARGS(sym) do { \ obj = analyze(state, pic_car(pic, args), false); \ for (args = pic_cdr(pic, obj); ! pic_nil_p(args); args = pic_cdr(pic, args)) { \ obj = pic_list(pic, 3, pic_symbol_value(sym), obj, \ analyze(state, pic_car(pic, args), false)); \ } \ } while (0) else if (sym == state->rADD) { pic_value args; ARGC_ASSERT_GE(0); switch (pic_length(pic, obj)) { case 1: return pic_int_value(0); case 2: return analyze(state, pic_car(pic, pic_cdr(pic, obj)), tailpos); default: args = pic_cdr(pic, obj); FOLD_ARGS(pic->sADD); return obj; } } else if (sym == state->rSUB) { pic_value args; ARGC_ASSERT_GE(1); switch (pic_length(pic, obj)) { case 2: return pic_list(pic, 2, pic_symbol_value(pic->sMINUS), analyze(state, pic_car(pic, pic_cdr(pic, obj)), false)); default: args = pic_cdr(pic, obj); FOLD_ARGS(pic->sSUB); return obj; } } else if (sym == state->rMUL) { pic_value args; ARGC_ASSERT_GE(0); switch (pic_length(pic, obj)) { case 1: return pic_int_value(1); case 2: return analyze(state, pic_car(pic, pic_cdr(pic, obj)), tailpos); default: args = pic_cdr(pic, obj); FOLD_ARGS(pic->sMUL); return obj; } } else if (sym == state->rDIV) { pic_value args; ARGC_ASSERT_GE(1); switch (pic_length(pic, obj)) { case 2: args = pic_cdr(pic, obj); obj = pic_list(pic, 3, proc, pic_float_value(1), pic_car(pic, args)); return analyze(state, obj, tailpos); default: args = pic_cdr(pic, obj); FOLD_ARGS(pic->sDIV); return obj; } break; } else if (sym == state->rEQ) { ARGC_ASSERT(2); return CONSTRUCT_OP2(pic->sEQ); } else if (sym == state->rLT) { ARGC_ASSERT(2); return CONSTRUCT_OP2(pic->sLT); } else if (sym == state->rLE) { ARGC_ASSERT(2); return CONSTRUCT_OP2(pic->sLE); } else if (sym == state->rGT) { ARGC_ASSERT(2); return CONSTRUCT_OP2(pic->sGT); } else if (sym == state->rGE) { ARGC_ASSERT(2); return CONSTRUCT_OP2(pic->sGE); } } return analyze_call(state, obj, tailpos); } case PIC_TT_BOOL: case PIC_TT_FLOAT: case PIC_TT_INT: case PIC_TT_NIL: case PIC_TT_CHAR: case PIC_TT_STRING: case PIC_TT_VECTOR: case PIC_TT_BLOB: { return pic_list(pic, 2, pic_symbol_value(pic->sQUOTE), obj); } case PIC_TT_CONT: case PIC_TT_ENV: case PIC_TT_PROC: case PIC_TT_UNDEF: case PIC_TT_EOF: case PIC_TT_PORT: case PIC_TT_ERROR: case PIC_TT_SENV: case PIC_TT_SYNTAX: case PIC_TT_SC: case PIC_TT_LIB: case PIC_TT_VAR: case PIC_TT_IREP: pic_error(pic, "invalid expression given"); } } static pic_value analyze_call(analyze_state *state, pic_value obj, bool tailpos) { pic_state *pic = state->pic; int ai = pic_gc_arena_preserve(pic); pic_value seq; pic_sym call; if (tailpos) { call = state->sCALL; } else { call = state->sTAILCALL; } seq = pic_list(pic, 1, pic_symbol_value(call)); for (; ! pic_nil_p(obj); obj = pic_cdr(pic, obj)) { seq = pic_cons(pic, analyze(state, pic_car(pic, obj), false), seq); } seq = pic_reverse(pic, seq); pic_gc_arena_restore(pic, ai); pic_gc_protect(pic, seq); return seq; } static pic_value analyze_lambda(analyze_state *state, pic_value obj) { pic_state *pic = state->pic; int ai = pic_gc_arena_preserve(pic); pic_value args, body, decls; if (pic_length(pic, obj) < 2) { pic_error(pic, "syntax error"); } /* formal arguments */ args = pic_car(pic, pic_cdr(pic, obj)); if (! valid_formal(pic, args)) { pic_error(pic, "syntax error"); } push_scope(state, args); { analyze_scope *scope = state->scope; int i; /* analyze body in inner environment */ body = pic_cdr(pic, pic_cdr(pic, obj)); body = pic_cons(pic, pic_symbol_value(pic->sBEGIN), body); body = analyze(state, body, true); /* declare local variables */ decls = pic_list(pic, 1, pic_symbol_value(pic->sBEGIN)); for (i = scope->varg ? 1 : 0; i < scope->localc; ++i) { pic_value decl = pic_list(pic, 2, pic_symbol_value(state->sDECLARE), pic_symbol_value(scope->vars[scope->argc + i])); decls = pic_cons(pic, decl, decls); } for (i = 1; i < scope->argc + scope->localc; ++i) { pic_sym var = scope->vars[i]; if (xh_get(scope->var_tbl, pic_symbol_name(pic, var))) { pic_value close = pic_list(pic, 2, pic_symbol_value(state->sCLOSE), pic_symbol_value(var)); decls = pic_cons(pic, close, decls); } } decls = pic_reverse(pic, decls); } pop_scope(state); obj = pic_list(pic, 4, pic_symbol_value(pic->sLAMBDA), args, decls, body); pic_gc_arena_restore(pic, ai); pic_gc_protect(pic, obj); return obj; } pic_value pic_analyze(pic_state *pic, pic_value obj) { analyze_state *state; state = new_analyze_state(pic); obj = analyze(state, obj, false); destroy_analyze_state(state); return obj; } typedef struct resolver_scope { int depth; bool varg; size_t argc, localc; struct xhash *cvs, *lvs; unsigned cv_num; struct resolver_scope *up; } resolver_scope; typedef struct resolver_state { pic_state *pic; resolver_scope *scope; pic_sym sREF, sCLOSE; pic_sym sGREF, sCREF, sLREF; } resolver_state; static void push_resolver_scope(resolver_state *, pic_value, pic_value); static void pop_resolver_scope(resolver_state *); static resolver_state * new_resolver_state(pic_state *pic) { resolver_state *state; state = (resolver_state *)pic_alloc(pic, sizeof(resolver_state)); state->pic = pic; state->scope = NULL; register_symbol(pic, state, sREF, "ref"); register_symbol(pic, state, sCLOSE, "close"); register_symbol(pic, state, sGREF, "gref"); register_symbol(pic, state, sLREF, "lref"); register_symbol(pic, state, sCREF, "cref"); push_resolver_scope(state, pic_nil_value(), pic_nil_value()); return state; } static void destroy_resolver_state(resolver_state *state) { /* TODO */ } static void push_resolver_scope(resolver_state *state, pic_value args, pic_value decls) { pic_state *pic = state->pic; resolver_scope *scope; pic_sym *vars; int i; scope = (resolver_scope *)pic_alloc(pic, sizeof(resolver_scope)); scope->up = state->scope; scope->depth = scope->up ? scope->up->depth + 1 : 0; scope->lvs = xh_new(); scope->cvs = xh_new(); vars = analyze_args(pic, args, &scope->varg, &scope->argc, &scope->localc); for (; ! pic_nil_p(decls); decls = pic_cdr(pic, decls)) { pic_value decl = pic_car(pic, decls); if (pic_sym(pic_car(pic, decl)) == state->sCLOSE) { break; } scope->localc++; vars = (pic_sym *)pic_realloc(pic, vars, sizeof(pic_sym) * (scope->argc + scope->localc)); vars[scope->argc + scope->localc - 1] = pic_sym(pic_list_ref(pic, decl, 1)); } /* local variables */ for (i = 1; i < scope->argc + scope->localc; ++i) { xh_put(scope->lvs, pic_symbol_name(pic, vars[i]), i); } /* closed variables */ scope->cv_num = 0; for (; ! pic_nil_p(decls); decls = pic_cdr(pic, decls)) { pic_value decl = pic_car(pic, decls); xh_put(scope->cvs, pic_symbol_name(pic, pic_sym(pic_list_ref(pic, decl, 1))), scope->cv_num++); } pic_free(pic, vars); state->scope = scope; } static void pop_resolver_scope(resolver_state *state) { /* FIXME */ state->scope = state->scope->up; } static bool is_closed(resolver_state *state, int depth, pic_sym sym) { resolver_scope *scope = state->scope; while (depth-- > 0) { scope = scope->up; } return xh_get(scope->cvs, pic_symbol_name(state->pic, sym)) != NULL; } static pic_value resolve_gref(resolver_state *state, pic_sym sym) { pic_state *pic = state->pic; const char *name = pic_symbol_name(pic, sym); struct xh_entry *e; int i; if ((e = xh_get(pic->global_tbl, name))) { i = e->val; } else { i = pic->glen++; if (i >= pic->gcapa) { pic_error(pic, "global table overflow"); } xh_put(pic->global_tbl, name, i); } return pic_list(pic, 2, pic_symbol_value(state->sGREF), pic_int_value(i)); } static pic_value resolve_lref(resolver_state *state, pic_sym sym) { pic_state *pic = state->pic; int i; i = xh_get(state->scope->lvs, pic_symbol_name(pic, sym))->val; return pic_list(pic, 2, pic_symbol_value(state->sLREF), pic_int_value(i)); } static pic_value resolve_cref(resolver_state *state, int depth, pic_sym sym) { pic_state *pic = state->pic; resolver_scope *scope = state->scope; int i, d; d = depth; while (d-- > 0) { scope = scope->up; } i = xh_get(scope->cvs, pic_symbol_name(pic, sym))->val; return pic_list(pic, 3, pic_symbol_value(state->sCREF), pic_int_value(depth), pic_int_value(i)); } static pic_value resolve_reference(resolver_state *state, pic_value obj) { pic_state *pic = state->pic; resolver_scope *scope = state->scope; pic_sym tag; if (! pic_pair_p(obj)) return obj; tag = pic_sym(pic_car(pic, obj)); if (tag == state->sREF) { int depth; pic_sym sym; depth = pic_int(pic_list_ref(pic, obj, 1)); sym = pic_sym(pic_list_ref(pic, obj, 2)); if (depth == scope->depth) { return resolve_gref(state, sym); } else if (depth == 0 && is_closed(state, depth, sym)) { return resolve_lref(state, sym); } else { return resolve_cref(state, depth, sym); } } else if (tag == pic->sLAMBDA) { pic_value args, decls, body; args = pic_list_ref(pic, obj, 1); decls = pic_cdr(pic, pic_list_ref(pic, obj, 2)); body = pic_list_ref(pic, obj, 3); push_resolver_scope(state, args, decls); { int localc; body = resolve_reference(state, body); /* slice decls. dropping out close declarations */ localc = scope->localc - (scope->varg ? 1 : 0); decls = pic_reverse(pic, decls); decls = pic_list_tail(pic, decls, pic_length(pic, decls) - localc); decls = pic_reverse(pic, decls); decls = pic_cons(pic, pic_symbol_value(pic->sBEGIN), decls); } pop_resolver_scope(state); return pic_list(pic, 4, pic_symbol_value(pic->sLAMBDA), args, decls, body); } else if (tag == pic->sQUOTE) { return obj; } else { pic_value seq = pic_list(pic, 1, pic_symbol_value(tag)); for (obj = pic_cdr(pic, obj); ! pic_nil_p(obj); obj = pic_cdr(pic, obj)) { seq = pic_cons(pic, resolve_reference(state, pic_car(pic, obj)), seq); } return pic_reverse(pic, seq); } } static pic_value pic_resolve(pic_state *pic, pic_value obj) { resolver_state *state; state = new_resolver_state(pic); obj = resolve_reference(state, obj); destroy_resolver_state(state); return obj; } /** * scope object */ typedef struct codegen_context { bool varg; /* rest args variable is counted by localc */ size_t argc, localc; /* closed variable table */ unsigned *cv_tbl, cv_num; /* actual bit code sequence */ struct 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; /** * global codegen state */ typedef struct codegen_state { pic_state *pic; codegen_context *cxt; pic_sym sGREF, sCREF, sLREF; pic_sym sCALL, sTAILCALL; unsigned *cv_tbl, cv_num; } codegen_state; static void push_codegen_context(codegen_state *, pic_value, pic_value); static struct pic_irep *pop_codegen_context(codegen_state *); static codegen_state * new_codegen_state(pic_state *pic) { codegen_state *state; state = (codegen_state *)pic_alloc(pic, sizeof(codegen_state)); state->pic = pic; state->cxt = NULL; register_symbol(pic, state, sCALL, "call"); register_symbol(pic, state, sTAILCALL, "tail-call"); register_symbol(pic, state, sGREF, "gref"); register_symbol(pic, state, sLREF, "lref"); register_symbol(pic, state, sCREF, "cref"); push_codegen_context(state, pic_nil_value(), pic_nil_value()); return state; } static struct pic_irep * destroy_codegen_state(codegen_state *state) { pic_state *pic = state->pic; struct pic_irep *irep; irep = pop_codegen_context(state); pic_free(pic, state); return irep; } static void push_codegen_context(codegen_state *state, pic_value args, pic_value defs) { pic_state *pic = state->pic; codegen_context *cxt; pic_sym *syms; cxt = (codegen_context *)pic_alloc(pic, sizeof(codegen_context)); cxt->up = state->cxt; syms = analyze_args(pic, args, &cxt->varg, &cxt->argc, &cxt->localc); if (! syms) { pic_error(pic, "logic flaw"); } else { pic_free(pic, syms); } cxt->localc += pic_length(pic, defs); cxt->cv_tbl = NULL; cxt->cv_num = 0; cxt->code = (struct pic_code *)pic_calloc(pic, PIC_ISEQ_SIZE, sizeof(struct pic_code)); cxt->clen = 0; cxt->ccapa = PIC_ISEQ_SIZE; cxt->irep = (struct pic_irep **)pic_calloc(pic, PIC_IREP_SIZE, sizeof(struct pic_irep *)); cxt->ilen = 0; cxt->icapa = PIC_IREP_SIZE; cxt->pool = (pic_value *)pic_calloc(pic, PIC_POOL_SIZE, sizeof(pic_value)); cxt->plen = 0; cxt->pcapa = PIC_POOL_SIZE; state->cxt = cxt; } static struct pic_irep * pop_codegen_context(codegen_state *state) { pic_state *pic = state->pic; codegen_context *cxt = state->cxt; struct pic_irep *irep; /* create irep */ irep = new_irep(pic); irep->varg = state->cxt->varg; irep->argc = state->cxt->argc; irep->localc = state->cxt->localc; irep->cv_tbl = state->cxt->cv_tbl; irep->cv_num = state->cxt->cv_num; irep->code = pic_realloc(pic, state->cxt->code, sizeof(struct pic_code) * state->cxt->clen); irep->clen = state->cxt->clen; irep->irep = pic_realloc(pic, state->cxt->irep, sizeof(struct pic_irep *) * state->cxt->ilen); irep->ilen = state->cxt->ilen; irep->pool = pic_realloc(pic, state->cxt->pool, sizeof(pic_value) * state->cxt->plen); irep->plen = state->cxt->plen; /* destroy context */ cxt = cxt->up; pic_free(pic, state->cxt); state->cxt = cxt; return irep; } static struct pic_irep *codegen_lambda(codegen_state *, pic_value); static void codegen(codegen_state *state, pic_value obj) { pic_state *pic = state->pic; codegen_context *cxt = state->cxt; pic_sym sym; printf("generating... "); pic_debug(pic, obj); puts(""); sym = pic_sym(pic_car(pic, obj)); if (sym == state->sGREF) { cxt->code[cxt->clen].insn = OP_GREF; cxt->code[cxt->clen].u.i = pic_int(pic_list_ref(pic, obj, 1)); cxt->clen++; return; } else if (sym == state->sCREF) { cxt->code[cxt->clen].insn = OP_CREF; cxt->code[cxt->clen].u.r.depth = pic_int(pic_list_ref(pic, obj, 1)); cxt->code[cxt->clen].u.r.idx = pic_int(pic_list_ref(pic, obj, 2)); cxt->clen++; return; } else if (sym == state->sLREF) { cxt->code[cxt->clen].insn = OP_LREF; cxt->code[cxt->clen].u.i = pic_int(pic_list_ref(pic, obj, 1)); cxt->clen++; return; } else if (sym == pic->sSETBANG) { pic_value var, val; pic_sym type; val = pic_list_ref(pic, obj, 2); codegen(state, val); var = pic_list_ref(pic, obj, 1); type = pic_sym(pic_list_ref(pic, var, 0)); if (type == state->sGREF) { cxt->code[cxt->clen].insn = OP_GSET; cxt->code[cxt->clen].u.i = pic_int(pic_list_ref(pic, var, 1)); cxt->clen++; cxt->code[cxt->clen].insn = OP_PUSHNONE; cxt->clen++; return; } else if (type == state->sCREF) { cxt->code[cxt->clen].insn = OP_CSET; cxt->code[cxt->clen].u.r.depth = pic_int(pic_list_ref(pic, var, 1)); cxt->code[cxt->clen].u.r.idx = pic_int(pic_list_ref(pic, var, 2)); cxt->clen++; cxt->code[cxt->clen].insn = OP_PUSHNONE; cxt->clen++; return; } else if (type == state->sLREF) { cxt->code[cxt->clen].insn = OP_CSET; cxt->code[cxt->clen].u.i = pic_int(pic_list_ref(pic, var, 1)); cxt->clen++; cxt->code[cxt->clen].insn = OP_PUSHNONE; cxt->clen++; return; } } else if (sym == pic->sLAMBDA) { int k; if (cxt->ilen >= cxt->icapa) { cxt->icapa *= 2; cxt->irep = (struct pic_irep **)pic_realloc(pic, cxt->irep, sizeof(struct pic_irep *) * cxt->icapa); } k = cxt->ilen++; cxt->code[cxt->clen].insn = OP_LAMBDA; cxt->code[cxt->clen].u.i = k; cxt->clen++; cxt->irep[k] = codegen_lambda(state, obj); return; } else if (sym == pic->sIF) { int s, t; codegen(state, pic_list_ref(pic, obj, 1)); cxt->code[cxt->clen].insn = OP_JMPIF; s = cxt->clen++; /* if false branch */ codegen(state, pic_list_ref(pic, obj, 3)); cxt->code[cxt->clen].insn = OP_JMP; t = cxt->clen++; cxt->code[s].u.i = cxt->clen - s; /* if true branch */ codegen(state, pic_list_ref(pic, obj, 2)); cxt->code[t].u.i = cxt->clen - t; return; } else if (sym == pic->sBEGIN) { for (obj = pic_cdr(pic, obj); ! pic_nil_p(obj); obj = pic_cdr(pic, obj)) { codegen(state, pic_car(pic, obj)); } return; } else if (sym == pic->sQUOTE) { int pidx; obj = pic_list_ref(pic, obj, 1); switch (pic_type(obj)) { case PIC_TT_BOOL: if (pic_true_p(obj)) { cxt->code[cxt->clen].insn = OP_PUSHTRUE; } else { cxt->code[cxt->clen].insn = OP_PUSHFALSE; } cxt->clen++; return; case PIC_TT_FLOAT: cxt->code[cxt->clen].insn = OP_PUSHFLOAT; cxt->code[cxt->clen].u.f = pic_float(obj); cxt->clen++; return; case PIC_TT_INT: cxt->code[cxt->clen].insn = OP_PUSHINT; cxt->code[cxt->clen].u.i = pic_int(obj); cxt->clen++; return; case PIC_TT_NIL: cxt->code[cxt->clen].insn = OP_PUSHNIL; cxt->clen++; return; case PIC_TT_CHAR: cxt->code[cxt->clen].insn = OP_PUSHCHAR; cxt->code[cxt->clen].u.c = pic_char(obj); cxt->clen++; return; default: if (cxt->plen >= cxt->pcapa) { cxt->pcapa *= 2; cxt->pool = (pic_value *)pic_realloc(pic, cxt->pool, sizeof(pic_value) * cxt->pcapa); } pidx = cxt->plen++; cxt->pool[pidx] = obj; cxt->code[cxt->clen].insn = OP_PUSHCONST; cxt->code[cxt->clen].u.i = pidx; cxt->clen++; return; } } else if (sym == pic->sCONS) { codegen(state, pic_list_ref(pic, obj, 1)); codegen(state, pic_list_ref(pic, obj, 2)); cxt->code[cxt->clen].insn = OP_CONS; cxt->clen++; return; } else if (sym == pic->sCAR) { codegen(state, pic_list_ref(pic, obj, 1)); cxt->code[cxt->clen].insn = OP_CAR; cxt->clen++; return; } else if (sym == pic->sCDR) { codegen(state, pic_list_ref(pic, obj, 1)); cxt->code[cxt->clen].insn = OP_CDR; cxt->clen++; return; } else if (sym == pic->sNILP) { codegen(state, pic_list_ref(pic, obj, 1)); cxt->code[cxt->clen].insn = OP_NILP; cxt->clen++; return; } else if (sym == pic->sADD) { codegen(state, pic_list_ref(pic, obj, 1)); codegen(state, pic_list_ref(pic, obj, 2)); cxt->code[cxt->clen].insn = OP_ADD; cxt->clen++; return; } else if (sym == pic->sSUB) { codegen(state, pic_list_ref(pic, obj, 1)); codegen(state, pic_list_ref(pic, obj, 2)); cxt->code[cxt->clen].insn = OP_SUB; cxt->clen++; return; } else if (sym == pic->sMUL) { codegen(state, pic_list_ref(pic, obj, 1)); codegen(state, pic_list_ref(pic, obj, 2)); cxt->code[cxt->clen].insn = OP_MUL; cxt->clen++; return; } else if (sym == pic->sDIV) { codegen(state, pic_list_ref(pic, obj, 1)); codegen(state, pic_list_ref(pic, obj, 2)); cxt->code[cxt->clen].insn = OP_DIV; cxt->clen++; return; } else if (sym == pic->sMINUS) { codegen(state, pic_list_ref(pic, obj, 1)); cxt->code[cxt->clen].insn = OP_MINUS; cxt->clen++; return; } else if (sym == pic->sEQ) { codegen(state, pic_list_ref(pic, obj, 1)); codegen(state, pic_list_ref(pic, obj, 2)); cxt->code[cxt->clen].insn = OP_EQ; cxt->clen++; return; } else if (sym == pic->sLT) { codegen(state, pic_list_ref(pic, obj, 1)); codegen(state, pic_list_ref(pic, obj, 2)); cxt->code[cxt->clen].insn = OP_LT; cxt->clen++; return; } else if (sym == pic->sLE) { codegen(state, pic_list_ref(pic, obj, 1)); codegen(state, pic_list_ref(pic, obj, 2)); cxt->code[cxt->clen].insn = OP_LE; cxt->clen++; return; } else if (sym == pic->sGT) { codegen(state, pic_list_ref(pic, obj, 2)); codegen(state, pic_list_ref(pic, obj, 1)); cxt->code[cxt->clen].insn = OP_LT; cxt->clen++; return; } else if (sym == pic->sGE) { codegen(state, pic_list_ref(pic, obj, 2)); codegen(state, pic_list_ref(pic, obj, 1)); cxt->code[cxt->clen].insn = OP_LE; cxt->clen++; return; } else if (sym == state->sCALL || sym == state->sTAILCALL) { int len = pic_length(pic, obj); for (obj = pic_cdr(pic, obj); ! pic_nil_p(obj); obj = pic_cdr(pic, obj)) { codegen(state, pic_car(pic, obj)); } cxt->code[cxt->clen].insn = (sym == state->sCALL) ? OP_CALL : OP_TAILCALL; cxt->code[cxt->clen].u.i = len - 1; cxt->clen++; return; } pic_error(pic, "codegen: unknown AST type"); } static struct pic_irep * codegen_lambda(codegen_state *state, pic_value obj) { pic_state *pic = state->pic; pic_value args, decls, body; args = pic_list_ref(pic, obj, 1); decls = pic_cdr(pic, pic_list_ref(pic, obj, 2)); body = pic_list_ref(pic, obj, 3); /* inner environment */ push_codegen_context(state, args, decls); { /* body */ codegen(state, body); state->cxt->code[state->cxt->clen].insn = OP_RET; state->cxt->clen++; } return pop_codegen_context(state); } struct pic_irep * pic_codegen(pic_state *pic, pic_value obj) { codegen_state *state; state = new_codegen_state(pic); codegen(state, obj); state->cxt->code[state->cxt->clen].insn = OP_RET; state->cxt->clen++; return destroy_codegen_state(state); } struct pic_proc * pic_compile(pic_state *pic, pic_value obj) { struct pic_proc *proc; struct pic_irep *irep; jmp_buf jmp, *prev_jmp = pic->jmp; int ai = pic_gc_arena_preserve(pic); if (setjmp(jmp) == 0) { pic->jmp = &jmp; } else { /* error occured */ proc = NULL; goto exit; } fprintf(stderr, "## input expression\n"); pic_debug(pic, obj); fprintf(stderr, "\n"); /* macroexpand */ fprintf(stderr, "## macroexpand started\n"); obj = pic_macroexpand(pic, obj); pic_debug(pic, obj); fprintf(stderr, "\n"); /* analyze */ fprintf(stderr, "## analyzer started\n"); obj = pic_analyze(pic, obj); pic_debug(pic, obj); fprintf(stderr, "\n"); /* resolution */ fprintf(stderr, "## resolver started\n"); obj = pic_resolve(pic, obj); pic_debug(pic, obj); fprintf(stderr, "\n"); /* codegen */ fprintf(stderr, "## codegen started\n"); irep = pic_codegen(pic, obj); pic_dump_irep(pic, irep); fprintf(stderr, "## compilation finished\n"); puts(""); proc = pic_proc_new_irep(pic, irep, NULL); #if VM_DEBUG pic_dump_irep(pic, proc->u.irep); #endif exit: pic->jmp = prev_jmp; pic_gc_arena_restore(pic, ai); pic_gc_protect(pic, pic_obj_value(proc)); return proc; } static int scope_global_define(pic_state *pic, const char *name) { struct xh_entry *e; if ((e = xh_get(pic->global_tbl, name))) { pic_warn(pic, "redefining global"); return e->val; } e = xh_put(pic->global_tbl, name, pic->glen++); if (pic->glen >= pic->gcapa) { pic_error(pic, "global table overflow"); } return e->val; } void pic_define(pic_state *pic, const char *name, pic_value val) { int idx; pic_sym gsym; gsym = pic_gensym(pic, pic_intern_cstr(pic, name)); /* push to the global arena */ idx = scope_global_define(pic, pic_symbol_name(pic, gsym)); pic->globals[idx] = val; /* register to the senv */ xh_put(pic->lib->senv->tbl, name, gsym); /* export! */ pic_export(pic, pic_intern_cstr(pic, name)); } static int global_ref(pic_state *pic, const char *name) { struct xh_entry *e; if (! (e = xh_get(pic->lib->senv->tbl, name))) { pic_error(pic, "symbol not defined"); } assert(e->val >= 0); if (! (e = xh_get(pic->global_tbl, pic_symbol_name(pic, (pic_sym)e->val)))) { pic_abort(pic, "logic flaw"); } return e->val; } pic_value pic_ref(pic_state *pic, const char *name) { int gid; gid = global_ref(pic, name); return pic->globals[gid]; } void pic_set(pic_state *pic, const char *name, pic_value value) { int gid; gid = global_ref(pic, name); pic->globals[gid] = value; } void print_code(pic_state *pic, struct pic_code c) { printf("[%2d] ", c.insn); switch (c.insn) { case OP_POP: puts("OP_POP"); break; case OP_PUSHNIL: puts("OP_PUSHNIL"); break; case OP_PUSHTRUE: puts("OP_PUSHTRUE"); break; case OP_PUSHFALSE: puts("OP_PUSHFALSE"); break; case OP_PUSHFLOAT: printf("OP_PUSHFLOAT\t%f\n", c.u.f); break; case OP_PUSHINT: printf("OP_PUSHINT\t%d\n", c.u.i); break; case OP_PUSHCHAR: printf("OP_PUSHCHAR\t%c\n", c.u.c); break; case OP_PUSHCONST: printf("OP_PUSHCONST\t%d\n", c.u.i); break; case OP_GREF: printf("OP_GREF\t%i\n", c.u.i); break; case OP_GSET: printf("OP_GSET\t%i\n", c.u.i); break; case OP_LREF: printf("OP_LREF\t%d\n", c.u.i); break; case OP_LSET: printf("OP_LSET\t%d\n", c.u.i); break; case OP_CREF: printf("OP_CREF\t%d\t%d\n", c.u.r.depth, c.u.r.idx); break; case OP_CSET: printf("OP_CSET\t%d\t%d\n", c.u.r.depth, c.u.r.idx); break; case OP_JMP: printf("OP_JMP\t%d\n", c.u.i); break; case OP_JMPIF: printf("OP_JMPIF\t%d\n", c.u.i); break; case OP_CALL: printf("OP_CALL\t%d\n", c.u.i); break; case OP_TAILCALL: printf("OP_TAILCALL\t%d\n", c.u.i); break; case OP_RET: puts("OP_RET"); break; case OP_LAMBDA: printf("OP_LAMBDA\t%d\n", c.u.i); break; case OP_CONS: puts("OP_CONS"); break; case OP_CAR: puts("OP_CAR"); break; case OP_NILP: puts("OP_NILP"); break; case OP_CDR: puts("OP_CDR"); break; case OP_ADD: puts("OP_ADD"); break; case OP_SUB: puts("OP_SUB"); break; case OP_MUL: puts("OP_MUL"); break; case OP_DIV: puts("OP_DIV"); break; case OP_MINUS: puts("OP_MINUS"); break; case OP_EQ: puts("OP_EQ"); break; case OP_LT: puts("OP_LT"); break; case OP_LE: puts("OP_LE"); break; case OP_STOP: puts("OP_STOP"); break; } } void pic_dump_irep(pic_state *pic, struct pic_irep *irep) { int i; printf("## irep %p\n", (void *)irep); printf("[clen = %zd, argc = %d, localc = %d]\n", irep->clen, irep->argc, irep->localc); printf(":: cv_num = %d\n", irep->cv_num); for (i = 0; i < irep->cv_num; ++i) { printf(": %d -> %d\n", irep->cv_tbl[i], i); } for (i = 0; i < irep->clen; ++i) { print_code(pic, irep->code[i]); } }