%{ /* #FILENAME# #DESCRIPTION# Copyright (C) 2001 #AUTHOR# Author: #AUTHOR# Date: #DATE# 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 of the License, 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: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA */ static const char rcsid[] = "$Id$"; #include "qfcc.h" #define YYDEBUG 1 #define YYERROR_VERBOSE 1 extern char *yytext; extern int pr_source_line; void yyerror (const char *s) { error (0, "%s %s\n", yytext, s); } int yylex (void); type_t *PR_FindType (type_t *new); void PR_PrintType(type_t*); type_t *parse_params (def_t *parms); function_t *new_function (void); void build_function (function_t *f); void finish_function (function_t *f); void emit_function (function_t *f, expr_t *e); void build_scope (function_t *f, def_t *func); typedef struct { type_t *type; def_t *scope; def_t *pscope; } scope_t; %} %union { int op; scope_t scope; def_t *def; type_t *type; expr_t *expr; int integer_val; float float_val; char *string_val; float vector_val[3]; float quaternion_val[4]; function_t *function; } %right '=' ASX %right '?' ':' %left OR AND %left EQ NE LE GE LT GT %left SHL SHR %left '+' '-' %left '*' '/' '&' '|' '^' '%' //%left '!' '~' %right UNARY INCOP %right '(' %left '.' %token NAME STRING_VAL %token INT_VAL %token FLOAT_VAL %token VECTOR_VAL %token QUATERNION_VAL %token LOCAL RETURN WHILE DO IF ELSE FOR ELIPSIS %token TYPE %type type maybe_func %type param param_list def_item def_list def_name %type const opt_expr expr arg_list %type statement statements statement_block %type begin_function %expect 1 %{ type_t *current_type; def_t *current_def; def_t param_scope; function_t *current_func; expr_t *local_expr; def_t *pr_scope; // the function being parsed, or NULL string_t s_file; // filename for function definition %} %% defs : /* empty */ | defs def ';' ; def : type { current_type = $1; } def_list { } ; type : TYPE { current_type = $1; } maybe_func { $$ = $3 ? $3 : $1; } | '.' TYPE { current_type = $2; } maybe_func { type_t new; memset (&new, 0, sizeof (new)); new.type = ev_field; new.aux_type = $4 ? $4 : $2; $$ = PR_FindType (&new); } ; maybe_func : /* empty */ { $$ = 0; } | '(' { $$.scope = pr_scope; $$.type = current_type; $$.pscope = param_scope.scope_next; param_scope.scope_next = 0; pr_scope = ¶m_scope; } param_list { PR_FlushScope (¶m_scope, 1); current_type = $2.type; param_scope.scope_next = $2.pscope; pr_scope = $2.scope; } ')' { $$ = parse_params ($3); } | '(' ')' { $$ = parse_params (0); } | '(' ELIPSIS ')' { $$ = parse_params ((def_t*)1); } ; def_list : def_list ',' def_item | def_item ; def_item : def_name opt_initializer { $$ = $1; } ; def_name : NAME { $$ = PR_GetDef (current_type, $1, pr_scope, pr_scope ? &pr_scope->num_locals : &numpr_globals); current_def = $$; } ; param_list : param | param_list ',' param { if ($3->next) { error (0, "parameter redeclared: %s", $3->name); $$ = $1; } else { $3->next = $1; $$ = $3; } } ; param : type {current_type = $1;} def_item { $3->type = $1; $$ = $3; } ; opt_initializer : /*empty*/ | '=' expr { if (pr_scope) { expr_t *e = new_expr (); e->type = ex_def; e->e.def = current_def; append_expr (local_expr, binary_expr ('=', e, $2)); } else { if ($2->type >= ex_string) current_def = PR_ReuseConstant ($2, current_def); else error ($2, "non-constant expression used for initializer"); } } | '=' '#' const { if (current_type->type != ev_func) { error (0, "%s is not a function", current_def->name); } else { if ($3->type != ex_integer && $3->type != ex_float) { error (0, "invalid constant for = #"); } else { function_t *f; f = new_function (); f->builtin = $3->type == ex_integer ? $3->e.integer_val : (int)$3->e.float_val; f->def = current_def; build_function (f); finish_function (f); } } } | '=' begin_function statement_block end_function { build_function ($2); emit_function ($2, $3); finish_function ($2); } | '=' '[' const ',' { $$ = current_def; } def_name { current_def = $5; } ']' { if ($3->type == ex_integer) convert_int ($3); if ($3->type != ex_float) error ($3, "invalid type for frame number"); if ($6->type->type != ev_func) error ($3, "invalid type for think"); $$ = new_expr (); } begin_function statement_block end_function { expr_t *e = $9; build_function ($10); e->type = ex_expr; e->e.expr.op = 's'; e->e.expr.e1 = $3; e->e.expr.e2 = new_expr (); e->e.expr.e2->type = ex_def; e->e.expr.e2->e.def = $6; e->next = $11; emit_function ($10, e); finish_function ($10); } ; begin_function : /*empty*/ { $$ = current_func = new_function (); $$->def = current_def; $$->code = numstatements; if (options.debug) { pr_lineno_t *lineno = new_lineno (); $$->aux = new_auxfunction (); $$->aux->source_line = pr_source_line; $$->aux->line_info = lineno - linenos; $$->aux->local_defs = num_locals; lineno->fa.func = $$->aux - auxfunctions; } pr_scope = current_def; build_scope ($$, current_def); } ; end_function : /*empty*/ { pr_scope = 0; } ; statement_block : '{' statements '}' { $$ = $2; } ; statements : /*empty*/ { //printf("statements: /* empty */\n"); $$ = new_block_expr (); } | statements statement { //printf("statements: statements statement\n"); $$ = append_expr ($1, $2); } ; statement : ';' { $$ = 0; } | statement_block { $$ = $1; } | RETURN expr ';' { $$ = return_expr (current_func, $2); } | RETURN ';' { $$ = return_expr (current_func, 0); } | WHILE '(' expr ')' statement { expr_t *l1 = new_label_expr (); expr_t *l2 = new_label_expr (); expr_t *e; $$ = new_block_expr (); e = new_binary_expr ('n', test_expr ($3, 1), l2); e->line = $3->line; e->file = $3->file; append_expr ($$, e); append_expr ($$, l1); append_expr ($$, $5); e = new_binary_expr ('i', test_expr ($3, 1), l1); e->line = $3->line; e->file = $3->file; append_expr ($$, e); append_expr ($$, l2); } | DO statement WHILE '(' expr ')' ';' { expr_t *l1 = new_label_expr (); $$ = new_block_expr (); append_expr ($$, l1); append_expr ($$, $2); append_expr ($$, new_binary_expr ('i', test_expr ($5, 1), l1)); } | LOCAL type { current_type = $2; local_expr = new_block_expr (); } def_list ';' { $$ = local_expr; local_expr = 0; } | IF '(' expr ')' statement { expr_t *l1 = new_label_expr (); expr_t *e; $$ = new_block_expr (); e = new_binary_expr ('n', test_expr ($3, 1), l1); e->line = $3->line; e->file = $3->file; append_expr ($$, e); append_expr ($$, $5); append_expr ($$, l1); } | IF '(' expr ')' statement ELSE statement { expr_t *l1 = new_label_expr (); expr_t *l2 = new_label_expr (); expr_t *e; $$ = new_block_expr (); e = new_binary_expr ('n', test_expr ($3, 1), l1); e->line = $3->line; e->file = $3->file; append_expr ($$, e); append_expr ($$, $5); e = new_unary_expr ('g', l2); append_expr ($$, e); append_expr ($$, l1); append_expr ($$, $7); append_expr ($$, l2); } | FOR '(' opt_expr ';' opt_expr ';' opt_expr ')' statement { expr_t *l1 = new_label_expr (); expr_t *l2 = new_label_expr (); $$ = new_block_expr (); append_expr ($$, $3); if ($5) append_expr ($$, new_binary_expr ('n', test_expr ($5, 1), l2)); append_expr ($$, l1); append_expr ($$, $9); append_expr ($$, $7); if ($5) append_expr ($$, new_binary_expr ('i', test_expr ($5, 1), l1)); append_expr ($$, l2); } | expr ';' { $$ = $1; } ; opt_expr : expr | /* empty */ { $$ = 0; } expr : expr '=' expr { $$ = binary_expr ('=', $1, $3); } | expr ASX expr { $$ = asx_expr ($2, $1, $3); } | expr '?' expr ':' expr { $$ = conditional_expr ($1, $3, $5); } | expr AND expr { $$ = binary_expr (AND, $1, $3); } | expr OR expr { $$ = binary_expr (OR, $1, $3); } | expr EQ expr { $$ = binary_expr (EQ, $1, $3); } | expr NE expr { $$ = binary_expr (NE, $1, $3); } | expr LE expr { $$ = binary_expr (LE, $1, $3); } | expr GE expr { $$ = binary_expr (GE, $1, $3); } | expr LT expr { $$ = binary_expr (LT, $1, $3); } | expr GT expr { $$ = binary_expr (GT, $1, $3); } | expr SHL expr { $$ = binary_expr (SHL, $1, $3); } | expr SHR expr { $$ = binary_expr (SHR, $1, $3); } | expr '+' expr { $$ = binary_expr ('+', $1, $3); } | expr '-' expr { $$ = binary_expr ('-', $1, $3); } | expr '*' expr { $$ = binary_expr ('*', $1, $3); } | expr '/' expr { $$ = binary_expr ('/', $1, $3); } | expr '&' expr { $$ = binary_expr ('&', $1, $3); } | expr '|' expr { $$ = binary_expr ('|', $1, $3); } | expr '^' expr { $$ = binary_expr ('^', $1, $3); } | expr '%' expr { $$ = binary_expr ('%', $1, $3); } | expr '(' arg_list ')' { $$ = function_expr ($1, $3); } | expr '(' ')' { $$ = function_expr ($1, 0); } | expr '.' expr { $$ = binary_expr ('.', $1, $3); } | '+' expr %prec UNARY { $$ = $2; } | '-' expr %prec UNARY { $$ = unary_expr ('-', $2); } | '!' expr %prec UNARY { $$ = unary_expr ('!', $2); } | '~' expr %prec UNARY { $$ = unary_expr ('~', $2); } | INCOP expr { $$ = incop_expr ($1, $2, 0); } | expr INCOP { $$ = incop_expr ($2, $1, 1); } | NAME { $$ = new_expr (); $$->type = ex_def; $$->e.def = PR_GetDef (NULL, $1, pr_scope, false); if (!$$->e.def) { error (0, "Undeclared variable \"%s\".", $1); $$->e.def = &def_float; } } | const { $$ = $1; } | '(' expr ')' { $$ = $2; $$->paren = 1; } ; arg_list : expr | arg_list ',' expr { $3->next = $1; $$ = $3; } ; const : FLOAT_VAL { $$ = new_expr (); $$->type = ex_float; $$->e.float_val = $1; } | STRING_VAL { $$ = new_expr (); $$->type = ex_string; $$->e.string_val = $1; } | VECTOR_VAL { $$ = new_expr (); $$->type = ex_vector; memcpy ($$->e.vector_val, $1, sizeof ($$->e.vector_val)); } | QUATERNION_VAL { $$ = new_expr (); $$->type = ex_quaternion; memcpy ($$->e.quaternion_val, $1, sizeof ($$->e.quaternion_val)); } | INT_VAL { $$ = new_expr (); $$->type = ex_integer; $$->e.integer_val = $1; } ; %% type_t * parse_params (def_t *parms) { type_t new; def_t *p; int i; memset (&new, 0, sizeof (new)); new.type = ev_func; new.aux_type = current_type; new.num_parms = 0; if (!parms) { } else if (parms == (def_t*)1) { new.num_parms = -1; // variable args } else { for (p = parms; p; p = p->next, new.num_parms++) ; if (new.num_parms > MAX_PARMS) { error (0, "too many params"); return current_type; } i = 1; do { //puts (parms->name); strcpy (pr_parm_names[new.num_parms - i], parms->name); new.parm_types[new.num_parms - i] = parms->type; i++; parms = parms->next; } while (parms); } return PR_FindType (&new); } void build_scope (function_t *f, def_t *func) { int i; def_t *def; type_t *ftype = func->type; for (i = 0; i < ftype->num_parms; i++) { def = PR_GetDef (ftype->parm_types[i], pr_parm_names[i], func, &func->num_locals); f->parm_ofs[i] = def->ofs; if (i > 0 && f->parm_ofs[i] < f->parm_ofs[i - 1]) Error ("bad parm order"); def->used = 1; // don't warn for unused params } } function_t * new_function (void) { function_t *f; f = calloc (1, sizeof (function_t)); f->next = pr_functions; pr_functions = f; return f; } void build_function (function_t *f) { f->def->initialized = 1; G_FUNCTION (f->def->ofs) = numfunctions; } void finish_function (function_t *f) { dfunction_t *df; int i; // fill in the dfunction df = &functions[numfunctions]; numfunctions++; f->dfunc = df; if (f->builtin) df->first_statement = -f->builtin; else df->first_statement = f->code; df->s_name = ReuseString (f->def->name); df->s_file = s_file; df->numparms = f->def->type->num_parms; df->locals = f->def->num_locals; df->parm_start = 0; for (i = 0; i < df->numparms; i++) df->parm_size[i] = type_size[f->def->type->parm_types[i]->type]; if (f->aux) { def_t *def; f->aux->function = df - functions; for (def = f->def->scope_next; def; def = def->scope_next) { if (def->name) { ddef_t *d = new_local (); d->type = def->type->type; d->ofs = def->ofs; d->s_name = ReuseString (def->name); f->aux->num_locals++; } } } } void emit_function (function_t *f, expr_t *e) { //PR_PrintType (f->def->type); //printf (" %s =\n", f->def->name); if (f->aux) lineno_base = f->aux->source_line; pr_scope = f->def; while (e) { //print_expr (e); //puts(""); emit_expr (e); e = e->next; } emit_statement (pr_source_line, op_done, 0, 0, 0); PR_FlushScope (pr_scope, 0); pr_scope = 0; PR_ResetTempDefs (); //puts (""); }