自制计算器
功能介绍
- 实现+、-、*、/、( )、负数运算
涉及功能
- 自制词法分析器
- 自制语法分析器
实现情况
程序框架
代码实现
词法分析器
/*************************************************************************
> Description:自制词法分析器
************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include <ctype.h>
#include "token.h"
static char *st_line;
static int st_line_pos;
/*存储数值特征*/
typedef enum {
INITIAL_STATUS,//初始化状态
IN_INT_PART_STATUS,//遇到整数
DOT_STATUS,//遇到小数点
IN_FRAC_PART_STATUS//再遇到整数
} LexerStatus;
void get_token(Token *token) {
int out_pos = 0;
LexerStatus status = INITIAL_STATUS;
char current_char;
token->kind = BAD_TOKEN;
while (st_line[st_line_pos] != '\0') {
current_char = st_line[st_line_pos];
if ((status == IN_INT_PART_STATUS || status == IN_FRAC_PART_STATUS) && !isdigit(current_char) && current_char != '.') {
token->kind = NUMBER_TOKEN;
sscanf(token->str, "%lf", &token->value);
return;
}
if (isspace(current_char)) {
if (current_char == '\n') {
token->kind = END_OF_LINE_TOKEN;
return;
}
st_line_pos++;
continue;
}
if (out_pos >= MAX_TOKEN_SIZE - 1) {
fprintf(stderr, "token too long.\n");
exit(1);
}
token->str[out_pos] = st_line[st_line_pos];
st_line_pos++;
out_pos++;
token->str[out_pos] = '\0';
if (current_char == '+') {
token->kind = ADD_OPERATOR_TOKEN;
return;
} else if (current_char == '-') {
token->kind = SUB_OPERATOR_TOKEN;
return;
} else if (current_char == '*') {
token->kind = MUL_OPERATOR_TOKEN;
return;
} else if (current_char == '/') {
token->kind = DIV_OPERATOR_TOKEN;
return;
} else if (current_char == '(') {
token->kind = LEFT_PAREN_TOKEN;
return;
} else if (current_char == ')') {
token->kind = RIGHT_PAREN_TOKEN;
return;
} else if (isdigit(current_char)) {
if (status == INITIAL_STATUS) {
status = IN_INT_PART_STATUS;
} else if (status == DOT_STATUS) {
status = IN_FRAC_PART_STATUS;
}
} else if (current_char == '.') {
if (status == IN_INT_PART_STATUS) {
status = DOT_STATUS;
} else {
fprintf(stderr, "syntax error.\n");
exit(1);
}
}
}
}
void set_line(char *line) {
st_line = line;
st_line_pos = 0;
}
#if 0
void
parse_line(void) {
Token token;
st_line_pos = 0;
for (;;) {
get_token(&token);
if (token.kind == END_OF_LINE_TOKEN) {
break;
} else {
printf("kind..%d, str..%s\n", token.kind, token.str);
}
}
}
int main(int argc, char **argv) {
while (fgets(st_line, LINE_BUF_SIZE, stdin) != NULL) {
parse_line();
}
return 0;
}
#endif
语法分析器
/*************************************************************************
> Description:自制语法分析器
************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include "token.h"
#define LINE_BUF_SIZE (1024)
static Token st_look_ahead_token;
static int st_look_ahead_token_exists;
static void my_get_token(Token *token) {
if (st_look_ahead_token_exists) {
*token = st_look_ahead_token;
st_look_ahead_token_exists = 0;
} else {
get_token(token);
}
}
static void unget_token(Token *token) {
st_look_ahead_token = *token;
st_look_ahead_token_exists = 1;
}
double parse_expression(void);
static double parse_primary_expression() {
Token token;
double value = 0.0;
int minus_flag = 0;
my_get_token(&token);
if (token.kind == SUB_OPERATOR_TOKEN) {
minus_flag = 1;
} else {
unget_token(&token);
}
my_get_token(&token);
if (token.kind == NUMBER_TOKEN) {
value = token.value;
} else if (token.kind == LEFT_PAREN_TOKEN) {
value = parse_expression();
my_get_token(&token);
if (token.kind != RIGHT_PAREN_TOKEN) {
fprintf(stderr, "missing ')' error.\n");
exit(1);
}
} else {
unget_token(&token);
}
if (minus_flag) {
value = -value;
}
return value;
}
static double parse_term() {
double v1;
double v2;
Token token;
v1 = parse_primary_expression();
for (;;) {
my_get_token(&token);
if (token.kind != MUL_OPERATOR_TOKEN && token.kind != DIV_OPERATOR_TOKEN) {
unget_token(&token);
break;
}
v2 = parse_primary_expression();
if (token.kind == MUL_OPERATOR_TOKEN) {
v1 *= v2;
} else if (token.kind == DIV_OPERATOR_TOKEN) {
v1 /= v2;
}
}
return v1;
}
double parse_expression() {
double v1;
double v2;
Token token;
v1 = parse_term();
for (;;) {
my_get_token(&token);
if (token.kind != ADD_OPERATOR_TOKEN && token.kind != SUB_OPERATOR_TOKEN) {
unget_token(&token);
break;
}
v2 = parse_term();
if (token.kind == ADD_OPERATOR_TOKEN) {
v1 += v2;
} else if (token.kind == SUB_OPERATOR_TOKEN) {
v1 -= v2;
} else {
unget_token(&token);
}
}
return v1;
}
double parse_line(void) {
double value;
st_look_ahead_token_exists = 0;
value = parse_expression();
return value;
}
int main(int argc, char **argv) {
char line[LINE_BUF_SIZE];
double value;
while (fgets(line, LINE_BUF_SIZE, stdin) != NULL) {
set_line(line);
value = parse_line();
printf(">>%f\n", value);
}
return 0;
}
头文件
#ifndef INCLUDE_H_INCLUDED
#define INCLUDE_H_INCLUDED
//枚举记号种类状态
typedef enum {
BAD_TOKEN, //错误记号
NUMBER_TOKEN, //数字记号
ADD_OPERATOR_TOKEN, //‘+’记号
SUB_OPERATOR_TOKEN, //‘-’记号
MUL_OPERATOR_TOKEN, //‘*’记号
DIV_OPERATOR_TOKEN, //‘/’记号
LEFT_PAREN_TOKEN, //‘(’记号
RIGHT_PAREN_TOKEN, //‘)’记号
END_OF_LINE_TOKEN //结束记号
} TokenKind;
#define MAX_TOKEN_SIZE (100)
typedef struct {
TokenKind kind;//记录记号
double value;//记录数值
char str[MAX_TOKEN_SIZE];//记录运算符
} Token;
/* 将接下来要解析的行置入词法分析器中 */
void set_line(char *line);
/* 从被置入的行中,分割记号并返回
* 在行尾会返回 END_OF_LINE_TOKEN 这种特殊的记号
* 接受的入口参数为一个 Token 结构体指针
* 函数中会分割出 记号的信息装入 Token 结构体并返回*/
void get_token(Token *token);
#endif /* INCLUDE_H_INCLUDED */
makefile
CC = gcc
CFLAGS = -Wall -g -D _DEBUG
OBJS = parser.o lexer.o
.PHONY: clean
./a.out : $(OBJS)
$(CC) $(CFLAGS) $(OBJS) -o mycalc
parser.o : parser.c token.h
$(CC) -c $(CFLAGS) parser.c
lexer.o : lexer.c token.h
$(CC) -c $(CFLAGS) lexer.c
clean:
rm -rf *.o mycalc
