/*************************************************************************** gbc_trans_code.c (c) 2000-2017 BenoƮt Minisini This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***************************************************************************/ #define _TRANS_CODE_C #include #include #include #include "gb_common.h" #include "gb_error.h" #include "gbc_compile.h" #include "gbc_trans.h" #include "gb_code.h" #include "gb_limit.h" /*#define DEBUG*/ static FUNCTION *func; static CLASS_SYMBOL *add_local(int sym_index, TYPE type, int value, bool used) { CLASS_SYMBOL *sym; PARAM *loc; bool warnings = JOB->warnings; if (ARRAY_count(func->local) >= MAX_LOCAL_SYMBOL) THROW("Too many local variables"); loc = ARRAY_add(&func->local); loc->index = sym_index; loc->type = type; loc->value = value; if (used) JOB->warnings = FALSE; sym = CLASS_declare(JOB->class, sym_index, TK_VARIABLE, FALSE); if (used) JOB->warnings = warnings; sym->local.type = type; sym->local.value = value; sym->local_used = used; return sym; } static void create_local_from_param() { int i; JOB->line--; // For line number of declaration for (i = 0; i < func->nparam; i++) { if (TYPE_get_id(func->param[i].type) != T_VOID) add_local(func->param[i].index, func->param[i].type, (i - func->nparam), func->param[i].ignore); } JOB->line++; } static void remove_local() { int i; CLASS_SYMBOL *sym; for (i = 0; i < ARRAY_count(func->local); i++) { sym = CLASS_get_symbol(JOB->class, func->local[i].index); if (!sym->local_used) { if (sym->local.value < 0) COMPILE_print(MSG_WARNING, sym->local.line, "unused argument: &1", SYMBOL_get_name(&sym->symbol)); else COMPILE_print(MSG_WARNING, sym->local.line, "unused variable: &1", SYMBOL_get_name(&sym->symbol)); } else if (!sym->local_assigned) { if (sym->local.value >= 0) COMPILE_print(MSG_WARNING, sym->local.line, "uninitialized variable: &1", SYMBOL_get_name(&sym->symbol)); } TYPE_clear(&sym->local.type); } } static bool TRANS_local(void) { int sym_index; TRANS_DECL decl; PATTERN *pattern; CLASS_SYMBOL *sym; int f; bool no_warning; bool save_warnings; if (!TRANS_is(RS_DIM)) return FALSE; /*JOB->current++; else if (!TRANS_check_declaration()) return FALSE;*/ for(;;) { //many = FALSE; pattern = JOB->current; for(;;) { no_warning = TRANS_is(RS_LBRA); if (!PATTERN_is_identifier(*JOB->current)) THROW(E_SYNTAX); JOB->current++; if (no_warning) { if (!PATTERN_is(*JOB->current, RS_RBRA)) THROW("Missing right brace"); JOB->current++; } if (!TRANS_is(RS_COMMA)) break; //many = TRUE; } f = TT_DO_NOT_CHECK_AS | TT_CAN_ARRAY | TT_CAN_NEW; //if (!many) // f |= TT_CAN_SQUARE; if (!TRANS_type(f, &decl)) THROW(E_SYNTAX); for(;;) { if (PATTERN_is(*pattern, RS_LBRA)) { pattern++; no_warning = TRUE; save_warnings = JOB->warnings; JOB->warnings = FALSE; } else no_warning = FALSE; sym_index = PATTERN_index(*pattern); sym = add_local(sym_index, decl.type, func->nlocal, FALSE); pattern++; if (no_warning) { pattern++; JOB->warnings = save_warnings; } func->nlocal++; if (TRANS_init_var(&decl)) { CODE_pop_local(func->nlocal - 1); sym->local_assigned = TRUE; } if (JOB->verbose) printf("LOCAL %s AS %s\n", TABLE_get_symbol_name(JOB->class->table, sym_index), TYPE_get_desc(decl.type)); if (!PATTERN_is(*pattern, RS_COMMA)) break; pattern++; } /*if (!many) { if (TRANS_init_var(&decl)) CODE_pop_local(func->nlocal - 1); }*/ if (!TRANS_is(RS_COMMA)) break; } return TRUE; } void TRANS_stop(void) { if (TRANS_is(RS_EVENT)) CODE_stop_event(); else CODE_stop(); } void TRANS_statement(void) { static TRANS_STATEMENT statement[] = { { RS_EXIT, TRANS_break }, { RS_BREAK, TRANS_break }, { RS_CONTINUE, TRANS_continue }, { RS_GOTO, TRANS_goto }, { RS_RETURN, TRANS_return }, { RS_PRINT, TRANS_print }, { RS_INPUT, TRANS_input }, { RS_WRITE, TRANS_write }, { RS_READ, TRANS_read_old }, //{ RS_OPEN, TRANS_open }, { RS_CLOSE, TRANS_close }, { RS_SEEK, TRANS_seek }, { RS_FLUSH, TRANS_flush }, { RS_STOP, TRANS_stop }, { RS_QUIT, TRANS_quit }, { RS_EXEC, TRANS_exec }, { RS_SHELL, TRANS_shell }, { RS_WAIT, TRANS_wait }, { RS_SLEEP, TRANS_sleep }, { RS_KILL, TRANS_kill }, { RS_MOVE, TRANS_move }, { RS_INC, TRANS_inc }, { RS_DEC, TRANS_dec }, { RS_SWAP, TRANS_swap }, { RS_MKDIR, TRANS_mkdir }, { RS_RMDIR, TRANS_rmdir }, { RS_COPY, TRANS_copy }, { RS_RAISE, TRANS_raise }, { RS_LINK, TRANS_link }, { RS_LOCK, TRANS_lock }, { RS_UNLOCK, TRANS_unlock }, { RS_TRY, TRANS_try }, { RS_LINE, TRANS_line_input }, { RS_OUTPUT, TRANS_output_to }, { RS_DEBUG, TRANS_debug }, { RS_ERROR, TRANS_error }, //{ RS_PIPE, TRANS_pipe }, { RS_RANDOMIZE, TRANS_randomize }, { RS_CHMOD, TRANS_chmod }, { RS_CHOWN, TRANS_chown }, { RS_CHGRP, TRANS_chgrp }, { RS_GOSUB, TRANS_gosub }, { RS_ON, TRANS_on_goto_gosub }, { RS_NONE, NULL } }; PATTERN *look = JOB->current; TRANS_STATEMENT *st; COMP_INFO *info; if (PATTERN_is_reserved(look[0])) { info = &COMP_res_info[PATTERN_index(*look)]; if (!info->func) { for (st = statement; st->id; st++) { if (PATTERN_is(look[0], st->id)) { info->func = st->func; break; } } if (!info->func) info->func = TS_NO_SUBR; } if (info->func && info->func != TS_NO_SUBR) { JOB->current++; (*info->func)(); return; } } else if (PATTERN_is_subr(look[0]) && (PATTERN_index(look[0]) == SUBR_Mid || PATTERN_index(look[0]) == SUBR_MidS)) { JOB->current++; TRANS_mid(); return; } if (!TRANS_affectation(FALSE)) TRANS_expression(TRUE); } static void translate_body() { PATTERN *look; bool is_proc = (TYPE_get_id(func->type) == T_VOID); bool test_newline; //int line = JOB->line - 1; bool just_got_select = FALSE; for(;;) { test_newline = TRUE; CODE_allow_break(); FUNCTION_add_all_pos_line(); look = JOB->current; if (PATTERN_is(look[0], RS_END)) if (TRANS_is_end_function(is_proc, &look[1])) break; if (TRANS_newline()) test_newline = FALSE; else if (!TRANS_local()) break; if (test_newline) if (!PATTERN_is_newline(*JOB->current)) THROW_UNEXPECTED(JOB->current); } TRANS_control_init(); for(;;) { test_newline = TRUE; CODE_allow_break(); FUNCTION_add_all_pos_line(); look = JOB->current; if (PATTERN_is(look[0], RS_END)) if (TRANS_is_end_function(is_proc, &look[1])) break; /*if (PATTERN_is_newline(look[0])) { JOB->current++; JOB->line++; continue; }*/ if (TRANS_newline()) continue; if (just_got_select) { if (!PATTERN_is(look[0], RS_CASE) && !PATTERN_is(look[0], RS_DEFAULT)) THROW("Syntax error. CASE or DEFAULT expected after SELECT"); just_got_select = FALSE; } if (PATTERN_is_identifier(look[0]) && PATTERN_is(look[1], RS_COLON)) { TRANS_label(); } else if (PATTERN_is(look[0], RS_IF)) { JOB->current++; TRANS_if(); } else if (PATTERN_is(look[0], RS_ELSE)) { JOB->current++; TRANS_else(); } else if ((PATTERN_is(look[0], RS_END) && PATTERN_is(look[1], RS_IF)) || PATTERN_is(look[0], RS_ENDIF)) { if (PATTERN_is(look[0], RS_END)) JOB->current += 2; else JOB->current++; TRANS_endif(); } else if (PATTERN_is(look[0], RS_DO)) { JOB->current++; TRANS_do(RS_DO); } else if (PATTERN_is(look[0], RS_WHILE)) { TRANS_do(RS_WHILE); } else if (PATTERN_is(*look, RS_REPEAT)) { JOB->current++; TRANS_do(RS_REPEAT); } else if (PATTERN_is(look[0], RS_LOOP)) { JOB->current++; TRANS_loop(RS_LOOP); } else if (PATTERN_is(look[0], RS_UNTIL)) { TRANS_loop(RS_UNTIL); } else if (PATTERN_is(look[0], RS_WEND)) { JOB->current++; TRANS_loop(RS_WEND); } else if (PATTERN_is(look[0], RS_FOR)) { if (PATTERN_is(look[1], RS_EACH)) { JOB->current += 2; TRANS_for_each(); } else { JOB->current++; TRANS_for(); } } else if (PATTERN_is(look[0], RS_NEXT)) { JOB->current++; TRANS_next(); } else if (PATTERN_is(look[0], RS_SELECT)) { JOB->current++; TRANS_select(); just_got_select = TRUE; } else if (PATTERN_is(look[0], RS_CASE)) { JOB->current++; if (PATTERN_is(look[1], RS_ELSE)) { JOB->current++; TRANS_default(); } else TRANS_case(); } else if (PATTERN_is(look[0], RS_DEFAULT)) { JOB->current++; TRANS_default(); } else if (PATTERN_is(look[0], RS_END) && PATTERN_is(look[1], RS_SELECT)) { JOB->current += 2; TRANS_end_select(); } else if (PATTERN_is(look[0], RS_FINALLY)) { JOB->current++; TRANS_finally(); } else if (PATTERN_is(look[0], RS_CATCH)) { JOB->current++; TRANS_catch(); } else if (PATTERN_is(*look, RS_WITH)) { JOB->current++; TRANS_with(); } else if (PATTERN_is(look[0], RS_END) && PATTERN_is(look[1], RS_WITH)) { JOB->current += 2; TRANS_end_with(); } else if (PATTERN_is(look[0], RS_LET)) { JOB->current++; if (!TRANS_affectation(FALSE)) THROW(E_SYNTAX); } else TRANS_statement(); /* if (next_newline) { for(;;) { if (PATTERN_is_NEWLINE(*JOB->current) || PATTERN_is_END(*JOB->current)) break; JOB->current++; } } */ if (test_newline) if (!PATTERN_is_newline(*JOB->current)) THROW_UNEXPECTED(JOB->current); } TRANS_control_exit(); } static void trans_call(const char *name, int nparam) { CLASS_SYMBOL *sym; int index; if (!TABLE_find_symbol(JOB->class->table, name, strlen(name), &index)) return; sym = (CLASS_SYMBOL *)TABLE_get_symbol(JOB->class->table, index); if (TYPE_get_kind(sym->global.type) != TK_FUNCTION) return; sym->global_used = TRUE; CODE_push_global(sym->global.value, FALSE, TRUE); CODE_call(nparam); CODE_drop(); } void TRANS_code(void) { int i; for (i = 0; i < ARRAY_count(JOB->class->function); i++) { func = &JOB->class->function[i]; CODE_begin_function(func); if (JOB->verbose) printf("Compiling %s()...\n", TABLE_get_symbol_name(JOB->class->table, func->name)); /* Do not debug implicit or generated functions */ if (!func->start || func->name == NO_SYMBOL || TABLE_get_symbol_name(JOB->class->table, func->name)[0] == '@') JOB->nobreak = TRUE; else JOB->nobreak = FALSE; JOB->line = func->line; JOB->current = func->start; JOB->func = func; /* fonction implicite ? */ if (!func->start) { if ((i == FUNC_INIT_DYNAMIC) && (JOB->form != NULL)) { //CODE_event(FALSE); trans_call("@load", 0); //CODE_event(TRUE); } FUNCTION_add_last_pos_line(); CODE_op(C_RETURN, 0, 0, TRUE); if (JOB->verbose) CODE_dump(func->code, func->ncode); continue; } create_local_from_param(); translate_body(); CODE_return(2); // Return from function, ignore Gosub stack CODE_end_function(func); FUNCTION_add_last_pos_line(); func->stack = func->nlocal + func->nctrl + CODE_stack_usage; if (JOB->verbose) { CODE_dump(func->code, func->ncode); printf("%d local(s) %d control(s) ", func->nlocal, func->nctrl); printf("%d stack\n", func->stack); printf("\n"); } remove_local(); } CLASS_check_properties(JOB->class); CLASS_check_unused_global(JOB->class); JOB->func = NULL; } bool TRANS_init_var(TRANS_DECL *decl) { int i; TRANS_ARRAY *array; //PATTERN *save; if (decl->is_new) { if (TYPE_is_array(decl->type) && decl->array.ndim > 0) { array = &decl->array; if (TYPE_is_object(decl->type)) CODE_push_class(TYPE_get_value(decl->type)); else CODE_push_number(TYPE_get_id(decl->type)); for (i = 0; i < array->ndim; i++) CODE_push_number(array->dim[i]); CODE_new(array->ndim + 1, TRUE, FALSE); } else { JOB->current = decl->init; TRANS_new(); } return TRUE; } else if (decl->init) { JOB->current = decl->init; TRANS_expression(FALSE); return TRUE; } else return FALSE; } /* void TRANS_init_object() { } */ void TRANS_init_optional(TRANS_PARAM *param) { PATTERN *look = param->optional; PATTERN *save; if (look == NULL) return; save = JOB->current; if (PATTERN_is(*look, RS_COMMA) || PATTERN_is(*look, RS_RBRA)) { CODE_push_void(); } else { if (!PATTERN_is(*look, RS_EQUAL)) THROW("Syntax error. Invalid optional parameter"); look++; JOB->current = look; TRANS_expression(FALSE); if (!PATTERN_is(*JOB->current, RS_COMMA) && !PATTERN_is(*JOB->current, RS_RBRA)) THROW("Syntax error. Invalid optional parameter"); } JOB->current = save; }