/* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ /* $Header$ */ /* STATEMENT SYNTAX PARSER */ { #include #include "debug.h" #include "botch_free.h" #include "arith.h" #include "LLlex.h" #include "type.h" #include "idf.h" #include "label.h" #include "expr.h" #include "code.h" #include "stack.h" #include "def.h" extern int level; } /* Each statement construction is stacked in order to trace a statement to such a construction. Example: a case statement should be recognized as a piece of the most enclosing switch statement. */ /* 9 */ statement { } : %if (AHEAD != ':') expression_statement | label ':' statement | compound_statement | if_statement | while_statement | do_statement | for_statement | switch_statement | case_statement | default_statement | BREAK { code_break(); } ';' | CONTINUE { code_continue(); } ';' | return_statement | jump | ';' | asm_statement ; expression_statement { struct expr *expr; } : expression(&expr) ';' { #ifdef DEBUG print_expr("Full expression", expr); #endif DEBUG code_expr(expr, RVAL, FALSE, NO_LABEL, NO_LABEL); free_expression(expr); } ; label { struct idf *idf; } : identifier(&idf) { /* This allows the following absurd case: typedef int grz; main() { grz: printf("A labelled statement\n"); } */ define_label(idf); C_df_ilb((label)idf->id_def->df_address); } ; if_statement { struct expr *expr; label l_true = text_label(); label l_false = text_label(); label l_end = text_label(); } : IF '(' expression(&expr) { opnd2test(&expr, IF); if (is_cp_cst(expr)) { /* The comparison has been optimized to a 0 or 1. */ if (expr->VL_VALUE == (arith)0) { C_bra(l_false); } /* else fall through */ } else { code_expr(expr, RVAL, TRUE, l_true, l_false); C_df_ilb(l_true); } free_expression(expr); } ')' statement [%prefer ELSE { C_bra(l_end); C_df_ilb(l_false); } statement { C_df_ilb(l_end); } | empty { C_df_ilb(l_false); } ] ; while_statement { struct expr *expr; label l_break = text_label(); label l_continue = text_label(); label l_body = text_label(); } : WHILE { stack_stmt(l_break, l_continue); C_df_ilb(l_continue); } '(' expression(&expr) { opnd2test(&expr, WHILE); if (is_cp_cst(expr)) { if (expr->VL_VALUE == (arith)0) { C_bra(l_break); } } else { code_expr(expr, RVAL, TRUE, l_body, l_break); C_df_ilb(l_body); } } ')' statement { C_bra(l_continue); C_df_ilb(l_break); unstack_stmt(); free_expression(expr); } ; do_statement { struct expr *expr; label l_break = text_label(); label l_continue = text_label(); label l_body = text_label(); } : DO { C_df_ilb(l_body); stack_stmt(l_break, l_continue); } statement WHILE '(' { C_df_ilb(l_continue); } expression(&expr) { opnd2test(&expr, WHILE); if (is_cp_cst(expr)) { if (expr->VL_VALUE == (arith)1) { C_bra(l_body); } } else { code_expr(expr, RVAL, TRUE, l_body, l_break); } C_df_ilb(l_break); } ')' ';' { unstack_stmt(); free_expression(expr); } ; for_statement { struct expr *e_init = 0, *e_test = 0, *e_incr = 0; label l_break = text_label(); label l_continue = text_label(); label l_body = text_label(); label l_test = text_label(); } : FOR { stack_stmt(l_break, l_continue); } '(' [ expression(&e_init) { code_expr(e_init, RVAL, FALSE, NO_LABEL, NO_LABEL); } ]? ';' { C_df_ilb(l_test); } [ expression(&e_test) { opnd2test(&e_test, FOR); if (is_cp_cst(e_test)) { if (e_test->VL_VALUE == (arith)0) { C_bra(l_break); } } else { code_expr(e_test, RVAL, TRUE, l_body, l_break); C_df_ilb(l_body); } } ]? ';' expression(&e_incr)? ')' { } statement { C_df_ilb(l_continue); if (e_incr) code_expr(e_incr, RVAL, FALSE, NO_LABEL, NO_LABEL); C_bra(l_test); C_df_ilb(l_break); unstack_stmt(); free_expression(e_init); free_expression(e_test); free_expression(e_incr); } ; switch_statement { struct expr *expr; } : SWITCH '(' expression(&expr) { code_startswitch(&expr); } ')' statement { code_endswitch(); free_expression(expr); } ; case_statement { struct expr *expr; } : CASE constant_expression(&expr) { code_case(expr); free_expression(expr); } ':' statement ; default_statement : DEFAULT { code_default(); } ':' statement ; return_statement { struct expr *expr = 0; } : RETURN [ expression(&expr) { do_return_expr(expr); free_expression(expr); } | empty { do_return(); } ] ';' ; jump { struct idf *idf; } : GOTO identifier(&idf) ';' { apply_label(idf); C_bra((label)idf->id_def->df_address); } ; compound_statement: '{' { stack_level(); } [%while ((DOT != IDENTIFIER && AHEAD != ':') || (DOT == IDENTIFIER && AHEAD == IDENTIFIER)) /* >>> conflict on TYPE_IDENTIFIER, IDENTIFIER */ declaration ]* [%persistent statement ]* '}' { unstack_level(); } ; asm_statement { char *asm_bts; int asm_len; } : ASM '(' STRING { asm_bts = dot.tk_bts; asm_len = dot.tk_len; } ')' ';' { code_asm(asm_bts, asm_len); } ;