[uebersetzerbau-ss10.git] / codea / parser.y

%{
        #include <stdio.h>
        #include <stdlib.h>
        #include <string.h>
        #include "symtable.h"
        #include "chelper.h"
        #include "tree.h"
%}

%start Input
%token STRUCT END METHOD VAR IF THEN ELSE WHILE DO RETURN NOT OR THIS IDENT NUM ASSIGN

@macro xxputsin(xx,)
        @i xx = @Statement.sin@;
@end

@macro statinout()
        @i @Statement.sout@ = @Statement.sin@;
        /* das
         *> xxputsin(@Statement.sout@,)
         * geht nicht, weil verschachtelte macros deaktiviert sind */
@end

@autoinh s
@autosyn node imm

@attributes { char *name; } IDENT
@attributes { long val; } NUM
@attributes { struct symbol *f; int parms; } Parms
@attributes { struct symbol *f; } FeldID Structdef Program
@attributes { struct symbol *s; } Methoddef Statseq Exprs
@attributes { struct symbol *s; struct treenode *node; short imm; } Expr Minusterm Term
@attributes { struct symbol *s; struct treenode *node; } Lexpr Multerm Orterm Feld
@attributes { struct symbol *sin; struct symbol *sout; struct treenode *node; } Statement

@traversal @postorder c
@traversal @preorder reg
@traversal @postorder gen

%%
Input:
          Program
          @{
            @i @Program.f@ = tab_new();
            @gen @revorder(1) printf("\t.text\n");
          @}
        ;

Program:
          Methoddef ';' Program
          @{
            @i @Methoddef.s@ = @Program.0.f@;
            @i @Program.1.f@ = @Program.0.f@;
          @}

        | Structdef ';' Program
          @{
            @i @Program.1.f@ = tab_merge(@Program.0.f@, @Structdef.f@, 1);
          @}
        |
        ;

Methoddef:
          METHOD IDENT '(' Parms ')' Statseq END
          @{
            @i @Parms.parms@ = 1;
            @i @Statseq.s@ = tab_merge(@Methoddef.s@, @Parms.f@, 0);
            @gen @revorder(1) func_header(@IDENT.name@);
          @}
        ;

Structdef:
          STRUCT FeldID END
          @{
            @i @Structdef.f@ = @FeldID.f@;
          @}
        ;

Parms:
          /* lokale Vars werden in Statement in die tabelle eingefuegt */
          IDENT Parms
          @{
            @i @Parms.1.parms@ = @Parms.parms@ + 1;
            @i @Parms.0.f@ = tab_add_symbol(@Parms.1.f@, @IDENT.name@, S_PARM, 1, @Parms.parms@);
          @}

        |
          @{
            @i @Parms.f@ = tab_new();
          @}
        ;

FeldID:
          IDENT FeldID
          @{
            @i @FeldID.0.f@ = tab_add_symbol(@FeldID.1.f@, @IDENT.name@, S_FIELD, 1, -1);
          @}

        |
          @{
            @i @FeldID.f@ = tab_new();
          @}
        ;

Statseq:
          Statement ';' Statseq
          @{
                @i @Statement.sin@ = @Statseq.0.s@;
                @i @Statseq.1.s@ = @Statement.sout@;
                @gen burm_label(@Statement.node@); burm_reduce(@Statement.node@, 1);
          @}

        |
        ;

Statement:
          Lexpr ASSIGN Expr
          @{
                statinout()
                xxputsin(@Lexpr.s@,)
                xxputsin(@Expr.s@,)
            @i @Statement.node@ = TREENULL;
          @}

        | VAR IDENT ASSIGN Expr
          @{
                /* tab_clone ist hier noetig, vgl. folgendes statement
                 * > var x := x - 1; */
                @i @Statement.sout@ = tab_add_symbol(tab_clone(@Statement.sin@), @IDENT.name@, S_VAR, 1, -1);
                xxputsin(@Expr.s@,)
            @i @Statement.node@ = TREENULL;
          @}

        | Expr
          @{
                statinout()
                xxputsin(@Expr.s@,)
            @i @Statement.node@ = TREENULL;
          @}

        | IF Expr THEN Statseq END
          @{
                statinout()
                xxputsin(@Expr.s@,)
                xxputsin(@Statseq.s@,)
            @i @Statement.node@ = TREENULL;
          @}

        | IF Expr THEN Statseq ELSE Statseq END
          @{
                statinout()
                xxputsin(@Expr.s@,)
                xxputsin(@Statseq.0.s@,)
                xxputsin(@Statseq.1.s@,)
            @i @Statement.node@ = TREENULL;
          @}

        | WHILE Expr DO Statseq END
          @{
                statinout()
                xxputsin(@Expr.s@,)
                xxputsin(@Statseq.s@,)
            @i @Statement.node@ = TREENULL;
          @}

        | RETURN Expr
          @{
                statinout()
                xxputsin(@Expr.s@,)
                @i @Statement.node@ = new_node(O_RET, @Expr.node@, TREENULL);
                @reg @Statement.node@->reg = next_reg((char *)NULL, 0); @Expr.node@->reg = @Statement.node@->reg;
          @}
        ;

Lexpr:
          IDENT
          @{
            @i @Lexpr.node@ = TREENULL;
            @c check(@Lexpr.s@, @IDENT.name@, S_VAR|S_PARM);
          @}

        | Feld
        ;

Feld: Term '.' IDENT
          @{
            @c check(@Feld.s@, @IDENT.name@, S_FIELD);
            @i @Feld.node@ = TREENULL;
                @reg fprintf(stderr, "w00t8\n");
          @}
        ;

Expr:
          Term
          @{
            @reg @Term.node@->reg = @Expr.node@->reg;
          @}

        | NOT Term
          @{
            @i @Expr.node@ = TREENULL; fprintf(stderr, "w00t2\n");
          @}

        | Term Minusterm
          @{
            @i @Expr.node@ = new_node(O_SUB, @Minusterm.node@, @Term.node@);
                @i @Expr.imm@ = @Term.imm@ && @Minusterm.imm@;

                @reg {
                        /* TODO */
                        fprintf(stderr, "at_expr: Minusterm.imm \"%i\", Term.imm \"%i\"\n", @Minusterm.imm@, @Term.imm@);
                        #if 0
                        if(@Minusterm.imm@) {
                                @Minusterm.node@->reg = @Expr.node@->reg;
                                @Term.node@->reg = next_reg(@Minusterm.node@->reg, @Expr.node@->skip);
                                @Minusterm.node@->skip = 1;
                        } else {
                        #endif
                                @Term.node@->reg = @Expr.node@->reg;
                                @Minusterm.node@->reg = next_reg(@Term.node@->reg, @Expr.node@->skip);
                }
          @}

        | Term Multerm
          @{
            @i @Expr.node@ = TREENULL; fprintf(stderr, "w00t4\n");
          @}

        | Term Orterm
          @{
            @i @Expr.node@ = TREENULL; fprintf(stderr, "w00t5\n");
          @}

        | Term '<' Term
          @{
            @i @Expr.node@ = TREENULL; fprintf(stderr, "w00t6\n");
                /* das is bloedsinn atm */ @i @Expr.imm@ = @Term.0.imm@ && @Term.1.imm@;
          @}

        | Term '=' Term
          @{
            @i @Expr.node@ = TREENULL; fprintf(stderr, "w00t7\n");
                /* das is bloedsinn atm */ @i @Expr.imm@ = @Term.0.imm@ && @Term.1.imm@;
          @}
        ;

Minusterm:
          '-' Term Minusterm
          @{
            @i @Minusterm.node@ = new_node(O_ADD, @Minusterm.1.node@, @Term.node@);
                @i @Minusterm.imm@ = @Term.imm@ && @Minusterm.1.imm@;

            @reg {
                        @Minusterm.1.node@->reg = @Minusterm.node@->reg;
                        @Term.node@->reg = next_reg(@Minusterm.1.node@->reg, @Minusterm.node@->skip);
                }
          @}

        | '-' Term
          @{
            @reg @Term.node@->reg = @Minusterm.node@->reg;
          @}
        ;

Multerm:
          '*' Term Multerm
          @{
            @i @Multerm.node@ = TREENULL;
            @reg fprintf(stderr, "mul1\n");
          @}

        | '*' Term
          @{
            @i @Multerm.node@ = TREENULL;
            @reg fprintf(stderr, "mul2\n");
          @}
        ;

Orterm:
          OR Term Orterm
          @{
            @i @Orterm.node@ = TREENULL;
            @reg fprintf(stderr, "or1\n");
          @}
        | OR Term
          @{
            @i @Orterm.node@ = TREENULL;
            @reg fprintf(stderr, "or2\n");
          @}

        ;

Term:
          '(' Expr ')'
          @{
            @i @Term.node@ = @Expr.node@;
          @}

        | NUM
          @{
            @i @Term.node@ = new_number(@NUM.val@);
                @i @Term.imm@ = 1;
          @}

        | '-' NUM
          @{
            @i @Term.node@ = new_number(-1 * (@NUM.val@));
                @i @Term.imm@ = 1;
          @}

        | THIS
          @{
            @i @Term.node@ = new_param(O_ID, TREENULL, TREENULL, 0);
                @i @Term.imm@ = 0;
          @}

        | IDENT
          @{
            @c check(@Term.s@, @IDENT.name@, S_VAR|S_PARM);
            @i @Term.node@ = new_param(O_ID, TREENULL, TREENULL, tab_lookup(@Term.s@, @IDENT.name@, S_PARM) == SYMNULL ? -1 : tab_lookup(@Term.s@, @IDENT.name@, S_PARM)->param_index);
                @i @Term.imm@ = 0;
          @}

        | Feld
          @{
            @i @Term.node@ = TREENULL;
                @i @Term.imm@ = 0;
          @}

        | IDENT '(' Exprs ')'
          @{
            @i @Term.node@ = TREENULL;
                @i @Term.imm@ = 0;
          @}

        | Term '.' IDENT '(' Exprs ')'
          @{
            @i @Term.node@ = TREENULL;
                @i @Term.imm@ = 0;
          @}

        ;

Exprs:
          Expr ',' Exprs
        | Expr
        |
        ;
%%

extern int yylex();
extern int yylineno;

int yyerror(char *error_text)
{
        fprintf(stderr,"Zeile %i: %s\n", yylineno, error_text);
        exit(2);
}

int main(int argc, char **argv)
{
        #if 0
        yydebug=1;
        #endif
        yyparse();
        return 0;
}