下面完成一个简单的计算器通过语法树进行计算,首先定义一个语法树的结构,然后编写flex文件,解析数字或符号,对于 符号返回本身,对于数字,返回NUMBER,并对yylval的d进行赋值,yylval指向一个联合类型,接着,在语法分析器中完成语法树的节点的增加,分别对应数字和符号有不同的增加方式,最后有一个单独的C代码处理计算,以及语法树相关计算的函数。对结果的计算的方式是对语法树进行递归。
词法分析器为:
dp@dp:~/flexbison % cat myast.l
%option noyywrap nodefault yylineno
%{
#include "myast.h"
#include "myast.tab.h"
char buffer[20];
%}
EXP ([Ee][-+]?[0-9]+)
%%
"+"|"-"|"*"|"/"|"("|")"|"|" {
return yytext[0];
}
[0-9]+"."[0-9]*{EXP}?|"."?[0-9]+{EXP}? {
yylval.d=atof(yytext);
return NUMBER;
}
\n {return EOL;}
"//".*
[ \t] {}
"Q" {exit(0);}
. {sprintf(buffer,"invalid character %c\n",*yytext); yyerror(buffer);}
%%
语法分析器为:
dp@dp:~/flexbison % cat myast.y
%{
#include <stdio.h>
#include <stdlib.h>
#include "myast.h"
%}
%union{
struct myast *mya;
double d;
}
%token <d> NUMBER
%token EOL
%type <mya> exp factor term
%%
calclist:|calclist exp EOL{
printf("= %g\n",eval($2));
treefree($2);
printf("$");
}
|calclist EOL{printf("$");}
;
exp:factor|exp '+' factor {$$=newast('+',$1,$3);}
|exp '-' factor{$$=newast('-',$1,$3);}
;
factor:term
|factor '*' term {$$=newast('*',$1,$3);}
|factor '/' term {$$=newast('/',$1,$3);}
;
term:NUMBER{$$=newnum($1);}
|'|' term{$$=newast('|',$2,NULL);}
|'(' exp ')' {$$=$2;}
|'-' term {$$=newast('M',$2,NULL);}
;
%%
然后头文件 为:
dp@dp:~/flexbison % cat myast.h
extern int yylineno;
void yyerror(char *s);
struct ast{
int nodetype;
struct ast *l;
struct ast *r;
};
struct numval{
int nodetype;
double number;
};
struct ast *newast(int nodetype,struct ast *l,struct ast *r);
struct ast *newnum(double d);
double eval(struct ast *);
void treefree(struct ast *);
C代码文件的内容为:
dp@dp:~/flexbison % cat myastfunc.c
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include "myast.h"
struct ast * newast(int nodetype,struct ast *l,struct ast *r)
{
struct ast *a=malloc(sizeof(struct ast));
if (!a){
yyerror("out of space");
exit(0);
}
a->nodetype=nodetype;
a->l=l;
a->r=r;
return a;
}
struct ast * newnum(double d)
{
struct numval *a=malloc(sizeof(struct numval));
if (!a)
{
yyerror("out of space");
exit(0);
}
a->nodetype='D';
a->number=d;
return (struct ast *)a;
}
double eval(struct ast *a){
double v;
switch(a->nodetype){
case 'D':v=((struct numval *)a)->number;break;
case '+':v=eval(a->l)+eval(a->r);break;
case '-':v=eval(a->l)-eval(a->r);break;
case '*':v=eval(a->l)*eval(a->r);break;
case '/':v=eval(a->l)/eval(a->r);break;
case '|':v=eval(a->l);v=v<0?v:-v;break;
case 'M':v=-eval(a->l);break;
defaut:printf("bad node:%c\n",a->nodetype);
}
return v;
}
void treefree(struct ast*a)
{
switch(a->nodetype){
case '+':
case '-':
case '*':
case '/':
treefree(a->r);
case '|':
case 'M':
treefree(a->l);
case 'D':
free(a);
break;
default:printf("free bad node %c\n",a->nodetype);
}
}
void yyerror(char *s){
fprintf(stderr,"line %d error!:%s",yylineno,s);
}
int main()
{
printf("$ ");
return yyparse();
}
Makefile文件为:
dp@dp:~/flexbison % cat makefile myjs:myast.l myast.y myast.h bison -d myast.y flex -omyast.lex.c myast.l cc -o $@ myast.tab.c myast.lex.c myastfunc.c dp@dp:~/flexbison %
运行效果如下
dp@dp:~/flexbison % ./myjs $ 12+99 = 111 $11*(9-3)+6/3 = 68 $Q dp@dp:~/flexbison %
