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- #include <stdio.h>
- #include <stdlib.h>
- // #include "interprete.h"
- #include "../paser/y.tab.c"
- // running code
- GWARF_result operation_func(statement *, var_list *);
- GWARF_result add_func(GWARF_result, GWARF_result, var_list *);
- GWARF_result sub_func(GWARF_result, GWARF_result, var_list *);
- GWARF_result mul_func(GWARF_result, GWARF_result, var_list *);
- GWARF_result div_func(GWARF_result, GWARF_result, var_list *);
- GWARF_result assigment_func(char *, GWARF_result, var_list *);
- GWARF_result equal_func(GWARF_result, GWARF_result, var_list *, int type);
- // ------------------------- var func
- var *make_var(){ // make var with base
- var *tmp;
- tmp = malloc(sizeof(var)); // get an address for base var
- tmp->name = ""; // can't get the name for the real var
- tmp->next = NULL;
- return tmp;
- }
- void append_var(char *name, GWARF_value value, var *base_var){
- int break_ = 1; // get var[2] or not[1]
- var *tmp = base_var; // iter var
- while(1){
- if (tmp->name == name){
- break_ = 2;
- break;
- }
- if (tmp->next == NULL){ // not var name *name
- break_ = 1;
- break;
- }
- tmp = tmp->next; // get the next to iter
- }
- if(break_ == 2){
- tmp->value = value;
- return;
- }
- var *new_tmp = make_var();
- tmp->next = new_tmp;
- new_tmp->name = malloc(sizeof(name));
- strcpy(new_tmp->name, name);
- new_tmp->value = value;
- }
- void free_var(var *base_var){ // free the address
- var *tmp = base_var; // iter var
- while(1){
- if (tmp->next == NULL){ // the last
- free(tmp);
- break;
- }
- var *tmp_2 = tmp;
- tmp = tmp->next;
- free(tmp_2);
- }
- }
- var *get_var(char *name, var *base_var){ // get the address
- var *tmp = base_var; // iter var
- while(1){
- if (!strcmp(tmp->name, name)){ // if tmp->name == name , strcmp will return 0, if not strcmp return not 0
- return tmp;
- }
- if (tmp->next == NULL){ // not var name *name
- return NULL;
- }
- tmp = tmp->next; // get the next to iter
- }
- }
- void del_var(char *name, var *base_var){ // free an address
- var *tmp = base_var, *last_tmp=NULL; // iter var
- while(1){
- if (tmp->name == name){
- if(last_tmp != NULL){
- last_tmp->next = tmp->next; // if tmp->next is NULL last_tmp->next is NULL too
- }
- free(tmp);
- return;
- }
- if (tmp->next == NULL){ // not var name *name
- return;
- }
- tmp = tmp->next; // get the next to iter
- last_tmp = tmp;
- }
- }
- // ------------------------- statement list
- statement *make_statement(){ // make statement
- statement *tmp;
- tmp = malloc(sizeof(statement)); // get an address for base var
- tmp->next = NULL;
- tmp->type = start;
- return tmp;
- }
- statement *append_statement(statement *base_statement, statement *new_tmp){ // make statement next
- statement *tmp = base_statement; // iter var
- while(1){
- if (tmp->next == NULL){ // not var name *name
- break;
- }
- tmp = tmp->next; // get the next to iter
- }
- tmp->next = new_tmp;
- return new_tmp;
- }
- // ------------------------- var_list
- var_list *make_var_list(){ // make a empty var_list node
- var_list *tmp;
- tmp = malloc(sizeof(var_list)); // get an address for base var
- tmp->next = NULL;
- tmp->var_base = NULL;
- return tmp;
- }
- var_list *make_var_base(var *gloabl_var){
- var_list *tmp = make_var_list();
- tmp->var_base = gloabl_var;
- return tmp;
- }
- var_list *append_var_list(var *var_base, var_list *var_list_base){ // make var_list[FILO]
- var_list *tmp = make_var_list();
- tmp->var_base = var_base;
- tmp->next = var_list_base;
- return tmp;
- }
- var *find_var(var_list *var_base,int from, char *name){ // find var by func get_var in var_list[iter to find]
- var_list *start = var_base;
- var *return_var;
- for(int i = 0;i < from;i+= 1){
- if(start->next = NULL){
- break;
- }
- start = start->next;
- }
- while (1)
- {
- return_var = get_var(name, start->var_base);
- if((return_var == NULL) && (start->next == NULL)){ // don't get the var and not next
- return NULL;
- }
- else if((return_var == NULL) && (start->next != NULL)){ // don't get the var but can next
- start = start->next;
- continue;
- }
- return return_var; //get var success can or can't next
- }
- }
- void add_var(var_list *var_base,int from, char *name, GWARF_value value){ // add var by func append_var in var_list[iter to find]
- var_list *start = var_base;
- var *return_var;
- for(int i = 0;i < from;i+= 1){
- if(start->next = NULL){
- break;
- }
- start = start->next;
- }
- append_var(name, value, start->var_base);
- }
- // ------------------------- run code
- GWARF_result read_statement_list(statement *the_statement, var_list *the_var){ // read the statement list with case to run by func
- GWARF_result return_value;
- switch (the_statement->type)
- {
- case operation: // 表达式运算
- return_value = operation_func(the_statement, the_var);
- printf("operation value = %f\n", return_value.value.value.double_value);
- break;
- case base_value:
- return_value.value = (the_statement->code).base_value.value; // code
- printf("get value = %f\n", return_value.value.value.double_value);
- break;
- case base_var:{ // because the var tmp, we should ues a {} to make a block[name space] for the tmp var;
- var *tmp = find_var(the_var, 0, (the_statement->code).base_var.var_name);
- if(tmp == NULL){
- return_value.u = wrong; // not var
- }
- else
- {
- return_value.value = tmp->value; // get_var
- printf("var value = %f\n", return_value.value.value.double_value);
- }
- break;
- }
- default:
- puts("default");
- break;
- }
- return return_value;
- }
- // -----------------operation func
- GWARF_result operation_func(statement *the_statement, var_list *the_var){ // read the statement list with case to run by func
- GWARF_result value, left_result, right_result;
- left_result = traverse((*the_statement).code.operation.left_exp, the_var, false);
- right_result = traverse((*the_statement).code.operation.right_exp, the_var, false);
- switch (the_statement->code.operation.type) // 获取运算类型
- {
- case ADD_func:
- value = add_func(left_result, right_result, the_var);
- break;
- case SUB_func:
- value = sub_func(left_result, right_result, the_var);
- break;
- case MUL_func:
- value = mul_func(left_result, right_result, the_var);
- break;
- case DIV_func:
- value = div_func(left_result, right_result, the_var);
- break;
- case ASSIGMENT_func:{ // because the var char, we should ues a {} to make a block[name space] for the tmp var;
- char *left = (the_statement->code.operation.left_exp)->code.base_var.var_name; // get var name but not value
- value = assigment_func(left, right_result, the_var);
- break;
- }
- case EQUAL_func:
- value = equal_func(left_result, right_result, the_var, 0);
- break;
- case MORE_func:
- value = equal_func(left_result, right_result, the_var, 1);
- break;
- case LESS_func:
- value = equal_func(left_result, right_result, the_var, 2);
- break;
- case MOREEQ_func:
- value = equal_func(left_result, right_result, the_var, 3);
- break;
- case LESSEQ_func:
- value = equal_func(left_result, right_result, the_var, 4);
- break;
- case NOTEQ_func:
- value = equal_func(left_result, right_result, the_var, 5);
- break;
- default:
- break;
- }
- return value;
- }
- // --------- ADD
- GWARF_result add_func(GWARF_result left_result, GWARF_result right_result, var_list *the_var){ // the func for add and call from read_statement_list
- GWARF_result return_value; // the result by call read_statement_list with left and right; value is the result for add
- if((left_result.value.type == NUMBER_value) && (right_result.value.type == NUMBER_value)){ // all is NUMBER
- return_value.u = return_def;
- return_value.value.type = NUMBER_value;
- return_value.value.value.double_value = left_result.value.value.double_value + right_result.value.value.double_value; // 数值相加运算
- }
- return return_value;
- }
- // --------- SUB
- GWARF_result sub_func(GWARF_result left_result, GWARF_result right_result, var_list *the_var){ // the func for sub and call from read_statement_list
- GWARF_result return_value; // the result by call read_statement_list with left and right; value is the result for sub
- if((left_result.value.type == NUMBER_value) && (right_result.value.type == NUMBER_value)){ // all is NUMBER
- return_value.u = return_def;
- return_value.value.type = NUMBER_value;
- return_value.value.value.double_value = left_result.value.value.double_value - right_result.value.value.double_value; // 数值相减运算
- }
- return return_value;
- }
- // --------- MUL
- GWARF_result mul_func(GWARF_result left_result, GWARF_result right_result, var_list *the_var){ // the func for mul and call from read_statement_list
- GWARF_result return_value; // the result by call read_statement_list with left and right; value is the result for mul
- if((left_result.value.type == NUMBER_value) && (right_result.value.type == NUMBER_value)){ // all is NUMBER
- return_value.u = return_def;
- return_value.value.type = NUMBER_value;
- return_value.value.value.double_value = left_result.value.value.double_value * right_result.value.value.double_value; // 数值相乘运算
- }
- return return_value;
- }
- // --------- DIV
- GWARF_result div_func(GWARF_result left_result, GWARF_result right_result, var_list *the_var){ // the func for div and call from read_statement_list
- GWARF_result return_value; // the result by call read_statement_list with left and right; value is the result for div
- if((left_result.value.type == NUMBER_value) && (right_result.value.type == NUMBER_value)){ // all is NUMBER
- return_value.u = return_def;
- return_value.value.type = NUMBER_value;
- return_value.value.value.double_value = left_result.value.value.double_value / right_result.value.value.double_value; // 数值相除运算
- }
- return return_value;
- }
- // --------- ASSIGMENT
- GWARF_result assigment_func(char *left, GWARF_result right_result, var_list *the_var){ // the func for assigment and call from read_statement_list
- add_var(the_var, 0, left, right_result.value);
- return right_result;
- }
- // --------- EQUAL
- GWARF_result equal_func(GWARF_result left_result, GWARF_result right_result, var_list *the_var, int type){ // the func for equal and call from read_statement_list
- GWARF_result return_value;
- double return_bool = 0;
- return_value.u = return_def;
- if((left_result.value.type == NUMBER_value) && (right_result.value.type == NUMBER_value)){ // all is NUMBER
- return_value.value.type = NUMBER_value;
- if ((left_result.value.value.double_value == right_result.value.value.double_value) && (type == 0)){ // 如果相等
- return_bool = 1; // 返回1 否则(默认)为0
- }
- if ((left_result.value.value.double_value > right_result.value.value.double_value) && (type == 1)){ // 如果大于
- return_bool = 1; // 返回1 否则(默认)为0
- }
- if ((left_result.value.value.double_value < right_result.value.value.double_value) && (type == 2)){ // 如果小于
- return_bool = 1; // 返回1 否则(默认)为0
- }
- if ((left_result.value.value.double_value >= right_result.value.value.double_value) && (type == 3)){ // 如果大于等于
- return_bool = 1; // 返回1 否则(默认)为0
- }
- if ((left_result.value.value.double_value <= right_result.value.value.double_value) && (type == 4)){ // 如果小于等于
- return_bool = 1; // 返回1 否则(默认)为0
- }
- if ((left_result.value.value.double_value != right_result.value.value.double_value) && (type == 5)){ // 如果不相等
- return_bool = 1; // 返回1 否则(默认)为0
- }
- return_value.value.value.double_value = return_bool; // 数值相加运算
- }
- return return_value;
- }
- // --------- traverse[iter]
- GWARF_result traverse(statement *the_statement, var_list *the_var, bool new){ // traverse the statement
- statement *tmp = the_statement;
- GWARF_result result;
- while(1){
- if(tmp == NULL){
- break; // off
- }
- result = read_statement_list(tmp, the_var);
- tmp = tmp->next;
- }
- return result;
- }
- // -------inter func
- inter *get_inter(){
- inter *tmp;
- tmp = malloc(sizeof(inter)); // get an address for base var
- tmp->global_var = make_var();
- tmp->global_code = make_statement();
- return tmp;
- }
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