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expression.c
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expression.c
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/**
* Projekt: IFJ2021
*
* @brief Syntaktická analýza zdola nahoru
*
* @author Tomáš Bártů xbartu11@stud.fit.vutbr.cz
*/
#include "expression.h"
#include <stdlib.h>
// jezdec udavajici skutecnou pozici v ctenem souboru
fpos_t last_read_pos;
// Prediktivni tabulka
static TermsAndNonTerms p_table[17][17] = {
/* $ + - * / // ( ) i # .. < > <= >= == ~= */
/* $ */ { -1, R, R, R, R, R, R,-1, R, R, R, R, R, R, R, R, R },
/* + */ { I, I, I, R, R, R, R, I, R, R, I, I, I, I, I, I, I },
/* - */ { I, I, I, R, R, R, R, I, R, R, I, I, I, I, I, I, I },
/* * */ { I, I, I, I, I, I, R, I, R, R, I, I, I, I, I, I, I },
/* / */ { I, I, I, I, I, I, R, I, R, R, I, I, I, I, I, I, I },
/* // */ { I, I, I, I, I, I, R, I, R, R, I, I, I, I, I, I, I },
/* ( */ { -1, R, R, R, R, R, R, E, R, R, R, R, R, R, R, R, R },
/* ) */ { I, I, I, I, I, I,-1, I, H,-1, I, I, I, I, I, I, I },
/* i */ { I, I, I, I, I, I,-1, I, H, R, I, I, I, I, I, I, I },
/* # */ { I, I, I, I, I, I, R, I, R,-1, I, I, I, I, I, I, I },
/* .. */ { I, R, R, R, R, R, R, I, R, R, R, I, I, I, I, I, I },
/* < */ { I, R, R, R, R, R, R, I, R, R, R, I, I, I, I, I, I },
/* > */ { I, R, R, R, R, R, R, I, R, R, R, I, I, I, I, I, I },
/* <= */ { I, R, R, R, R, R, R, I, R, R, R, I, I, I, I, I, I },
/* >= */ { I, R, R, R, R, R, R, I, R, R, R, I, I, I, I, I, I },
/* == */ { I, R, R, R, R, R, R, I, R, R, R, I, I, I, I, I, I },
/* ~= */ { I, R, R, R, R, R, R, I, R, R, R, I, I, I, I, I, I } };
// hodnota predchoziho tokenu
Token_ID prev;
// pomocna promenna kontrolujici zda bylo jiz pouzti {==, ~=, <, >, <=, >=}
int isCorrect = 1;
// pomocna promenna udavajici jaky kod vytiskneme
TermsAndNonTerms decide = USD;
int elseCounter = 0;
/**
* @brief Preskoci netisknutelne znaky
*
* @param token Struktura tokenu
* @param file Ukazatel na zdrojovy soubor
* @return Navratova chyva
*/
int skipNonPrintChar(Token *token, FILE *file) {
int error = ERROR_PASSED;
prev = token->ID;
do {
fgetpos(file, &last_read_pos);
// nacteni noveho tokenu a kontrola vysupu scanneru
if ((error = get_token(token, file)) != ERROR_PASSED)
// lexikalni nebo kompilatorova chyba
return error;
} while (token->ID != TOKEN_ID_EOF && (
token->ID == TOKEN_ID_SPACE || token->ID == TOKEN_ID_EOL ||
token->ID == TOKEN_ID_TAB || token->ID == TOKEN_ID_LCMT2 ||
token->ID == TOKEN_ID_BCMT4));
return error;
}
/**
* @brief Funkce pro prevod stringu na string podporovany jazykem IFJcode21
*
* @param input Ukazatel na pole charu
* @return Upraveny string
*/
char *converString(char *input) {
char *output = (char *)malloc(strlen(input));
int positon = 0;
int i;
for(i = 1; input[i+1] != '\0'; i++) {
if (input[i] == '\\') {
if(input[i+1] == '\\') {
output = (char *) realloc(output, strlen(input) + 30);
output[positon++] = '\\';
output[positon++] = '0';
output[positon++] = '9';
output[positon++] = '2';
} else if (input[i+1] == '"') {
output = (char *) realloc(output, strlen(input) + 30);
output[positon++] = '\\';
output[positon++] = '0';
output[positon++] = '3';
output[positon++] = '4';
} else if (input[i+1] == 'n') {
output = (char *) realloc(output, strlen(input) + 30);
output[positon++] = '\\';
output[positon++] = '0';
output[positon++] = '1';
output[positon++] = '0';
} else if (input[i+1] == 't') {
output = (char *) realloc(output, strlen(input) + 30);
output[positon++] = '\\';
output[positon++] = '0';
output[positon++] = '0';
output[positon++] = '9';
} else {
output[positon++] = input[i];
i--;
}
i+=1;
} else if(input[i] <= 32 || input[i] == 34 || input[i] == 92) {
output = (char *) realloc(output, strlen(input) + 5);
output[positon++] = '\\';
output[positon++] = (char)((int)input[i]/100+48);
output[positon++] = (char)((int)input[i]/10+48);
output[positon++] = (char)((int)input[i]%10+48);
} else {
output[positon++] = input[i];
}
}
output[positon] = '\0';
return output;
}
/**
* @brief Prevod tokenu na terminal nebo neterminal
*
* @param token Ukazatel na aktualni token
* @param typeStack Zasobnik datovych typu
* @return Terminal ci neterminal daneho tokenu
*/
TermsAndNonTerms convertTokenType_To_TermsAndNonTerms(Token *token, TypeStack *typeStack) {
switch (token->ID) {
case TOKEN_ID_ADD:
return ADD;
case TOKEN_ID_SUB:
return SUB;
case TOKEN_ID_MUL:
return MUL;
case TOKEN_ID_DIV:
return DIV;
case TOKEN_ID_DIV2:
return DIV2;
case TOKEN_ID_LT:
if(!isCorrect)
return E;
decide = LT;
isCorrect = false;
return LT;
case TOKEN_ID_LTE:
if(!isCorrect)
return E;
decide = LTE;
isCorrect = false;
return LTE;
case TOKEN_ID_GT:
if(!isCorrect)
return E;
decide = GT;
isCorrect = false;
return GT;
case TOKEN_ID_GTE:
if(!isCorrect)
return E;
decide = GTE;
isCorrect = false;
return GTE;
case TOKEN_ID_NEQ2:
if(!isCorrect)
return E;
decide = NEQ;
isCorrect = false;
return NEQ;
case TOKEN_ID_EQ:
if(!isCorrect)
return E;
decide = EQ;
isCorrect = false;
return EQ;
case TOKEN_ID_LBR:
return LBR;
case TOKEN_ID_RBR:
return RBR;
case TOKEN_ID_ID:
return ID;
case TOKEN_ID_INT0:
case TOKEN_ID_ZERO:
case TOKEN_ID_INT:
TypeStack_push(typeStack, DATA_TYPE_INTEGER);
return ID;
case TOKEN_ID_DBL2:
case TOKEN_ID_EXP3:
case TOKEN_ID_DHEX2:
case TOKEN_ID_HEXP3:
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
return ID;
case TOKEN_ID_FSTR:
TypeStack_push(typeStack, DATA_TYPE_STRING);
return ID;
case TOKEN_ID_LEN:
return LEN;
case TOKEN_ID_DDOT:
return DDOT;
default:
if (token->Value.keyword == KEYWORD_NIL) {
TypeStack_push(typeStack, DATA_TYPE_NIL);
return ID;
}
return USD;
}
}
/**
* @brief Kontrola kompatibility datoych typu
* ADD, SUB, MUL, DIV respektive v tomto poradi +, -, *
*
* @details Po zpracovani vlozi na zasobnik vysledny datovy typ
* | <firstOp> | <- topElement
* |------------|
* | <secondOp> |
* |------------|
* | ...... |
* |___BOTTOM___|
* tedy vyraz odpovida: <secondOp> {+,-,*} <firstOp>
*
* @param typeStack Zasobnik datovych typu
* @return Typ erroru generovany analyzou
*/
int checkDataTypes_ADD_SUB_MUL(TypeStack *typeStack) {
DataTypes firstOp, secondOp;
firstOp = TypeStack_pop(typeStack);
secondOp = TypeStack_pop(typeStack);
if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_INTEGER) {
TypeStack_push(typeStack, DATA_TYPE_INTEGER);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_INTEGER) {
// druhy operand je INT tak vyndej druhy ho pretypuj
make_POPSandPUSH_float();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_NUMBER) {
// prvni operand je INT tak ho pretypuj
make_INT2FLOATS();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_NUMBER) {
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else {
return ERROR_SEM_COMPAT;
}
return ERROR_PASSED;
}
/**
* @brief Kontrola kompatibility datoveho typu
* DIV respektive /
*
* @details Po zpracovani vlozi na zasobnik vysledny datovy typ
* | <firstOp> | <- topElement
* |------------|
* | <secondOp> |
* |------------|
* | ...... |
* |___BOTTOM___|
* tedy vyraz odpovida: <secondOp> {/} <firstOp>
*
* @param typeStack Zasobnik datovych typu
* @return Typ erroru generovany analyzou
*/
int checkDataTypes_DIV(TypeStack *typeStack) {
DataTypes firstOp, secondOp;
firstOp = TypeStack_pop(typeStack);
secondOp = TypeStack_pop(typeStack);
if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_INTEGER) {
// oba operandy jsou int tak je pretypuj
make_POPSandPUSH_float();
make_INT2FLOATS();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_INTEGER) {
// druhy operand je INT tak vyndej druhy ho pretypuj
make_POPSandPUSH_float();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_NUMBER) {
// prvni operand je INT tak ho pretypuj
make_INT2FLOATS();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_NUMBER) {
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else {
return ERROR_SEM_COMPAT;
}
return ERROR_PASSED;
}
/**
* @brief Kontrola kompatibility datoveho typu
* DIV2 respektive //
*
* @details Po zpracovani vlozi na zasobnik vysledny datovy typ
* | <firstOp> | <- topElement
* |------------|
* | <secondOp> |
* |------------|
* | ...... |
* |___BOTTOM___|
* tedy vyraz odpovida: <secondOp> {//} <firstOp>
*
* @param typeStack Zasobnik datovych typu
* @return Typ erroru generovany analyzou
*/
int checkDataTypes_DIV2(TypeStack *typeStack) {
DataTypes firstOP, secondOp;
firstOP = TypeStack_pop(typeStack);
secondOp = TypeStack_pop(typeStack);
if (firstOP == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_INTEGER) {
TypeStack_push(typeStack, DATA_TYPE_INTEGER);
} else {
return ERROR_SEM_COMPAT;
}
return ERROR_PASSED;
}
/**
* @brief Kontrola kompatibility datoych typu
* LT, GT respektive v tomto poradi <, >
* | <firstOp> | <- topElement
* |------------|
* | <secondOp> |
* |------------|
* | ...... |
* |___BOTTOM___|
* tedy vyraz odpovida: <secondOp> {<,>} <firstOp>
*
* @details Po zpracovani vlozi na zasobnik vysledny datovy typ
*
* @param typeStack Zasobnik datovych typu
* @return Typ erroru generovany analyzou
*/
int checkDataTypes_LT_GT(TypeStack *typeStack) {
DataTypes firstOp, secondOp;
firstOp = TypeStack_pop(typeStack);
secondOp = TypeStack_pop(typeStack);
if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_INTEGER) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_INTEGER);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_INTEGER) {
make_POPSandPUSH_float();
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_NUMBER) {
make_INT2FLOATS();
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_NUMBER) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else {
return ERROR_SEM_COMPAT;
}
return ERROR_PASSED;
}
/**
* @brief Kontrola kompatibility datoych typu
* EQ, NEQ respetive v tomto poradi ==, ~=
*
* @details Po zpracovani vlozi na zasobnik vysledny datovy typ
* | <firstOp> | <- topElement
* |------------|
* | <secondOp> |
* |------------|
* | ...... |
* |___BOTTOM___|
* tedy vyraz odpovida: <secondOp> {==, ~=} <firstOp>
*
* @param typeStack Zasobnik datovych typu
* @return Typ erroru generovany analyzou
*/
int checkDataTypes_EQ_NEQ(TypeStack *typeStack) {
DataTypes firstOp, secondOp;
firstOp = TypeStack_pop(typeStack);
secondOp = TypeStack_pop(typeStack);
if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_INTEGER) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_INTEGER);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_INTEGER) {
make_POPSandPUSH_float();
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_NUMBER) {
make_INT2FLOATS();
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_NUMBER) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_NIL && secondOp == DATA_TYPE_NIL) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NIL);
} else if (firstOp == DATA_TYPE_STRING && secondOp == DATA_TYPE_STRING) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_STRING);
} else if (firstOp == DATA_TYPE_NIL && secondOp == DATA_TYPE_STRING) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_STRING);
} else if (firstOp == DATA_TYPE_STRING && secondOp == DATA_TYPE_NIL) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_STRING);
} else if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_NIL) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NIL);
} else if (firstOp == DATA_TYPE_NIL && secondOp == DATA_TYPE_INTEGER) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NIL);
} else if (firstOp == DATA_TYPE_NIL && secondOp == DATA_TYPE_NUMBER) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NIL);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_NIL) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NIL);
} else {
return ERROR_SEM_COMPAT;
}
return ERROR_PASSED;
}
/**
* @brief Kontrola kompatibility datoych typu
* LTE, GTE respektive v tomto poradi <=, >=
*
* @details Po zpracovani vlozi na zasobnik vysledny datovy typ
* | <firstOp> | <- topElement
* |------------|
* | <secondOp> |
* |------------|
* | ...... |
* |___BOTTOM___|
* tedy vyraz odpovida: <secondOp> {<=, >=} <firstOp>
*
* @param typeStack Zasobnik datovych typu
* @return Typ erroru generovany analyzou
*/
int checkDataTypes_LTE_GTE(TypeStack *typeStack) {
DataTypes firstOp, secondOp;
firstOp = TypeStack_pop(typeStack);
secondOp = TypeStack_pop(typeStack);
if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_INTEGER) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_INTEGER);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_INTEGER) {
make_POPSandPUSH_float();
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_INTEGER && secondOp == DATA_TYPE_NUMBER) {
make_INT2FLOATS();
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_NUMBER && secondOp == DATA_TYPE_NUMBER) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (firstOp == DATA_TYPE_NIL && secondOp == DATA_TYPE_NIL) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_NIL);
} else {
return ERROR_SEM_COMPAT;
}
return ERROR_PASSED;
}
/**
* @brief Kontrola kompatibility datoveho typu DDOT
*
* @details Po zpracovani vlozi na zasobnik vysledny datovy typ
* | <firstOp> | <- topElement
* |------------|
* | <secondOp> |
* |------------|
* | ...... |
* |___BOTTOM___|
* tedy vyraz odpovida: <secondOp> .. <firstOp>
*
* @param typeStack Zasobnik datovych typu
* @return Typ erroru generovany analyzou
*/
int checkDataTypes_DDOT(TypeStack *typeStack) {
DataTypes firstOp, secondOp;
firstOp = TypeStack_pop(typeStack);
secondOp = TypeStack_pop(typeStack);
if (firstOp == DATA_TYPE_STRING && secondOp == DATA_TYPE_STRING) {
make_POPSandMOVE_tmp1();
TypeStack_push(typeStack, DATA_TYPE_STRING);
} else {
return ERROR_SEM_COMPAT;
}
return ERROR_PASSED;
}
/**
* @brief Gramaticka pravidla a nasledne volani kontroly datoveho typu
*
* @param termStack Ukazatel na strukturu jednosmerne vazaneho seznamu
* @return int Typ erroru generovany analyzou
*/
int checkRulesAndApply(TermStack *termStack, TypeStack *typeStack) {
TermStackElementPtr ptr = NULL;
TermStack_top(termStack, &ptr);
if (ptr->data == ID && ptr->previousElement->data == R) {
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == ADD &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_ADD_SUB_MUL(typeStack)) return ERROR_SEM_COMPAT;
make_ADDS();
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == SUB &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_ADD_SUB_MUL(typeStack)) return ERROR_SEM_COMPAT;
make_SUBS();
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == MUL &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_ADD_SUB_MUL(typeStack)) return ERROR_SEM_COMPAT;
make_MULS();
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == DIV &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_DIV(typeStack)) return ERROR_SEM_COMPAT;
make_DIVS();
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == DIV2 &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_DIV2(typeStack)) return ERROR_SEM_COMPAT;
make_IDIVS();
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == DDOT &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_DDOT(typeStack)) return ERROR_SEM_COMPAT;
make_CONTAT();
TermStack_applyReduce(termStack);
} else if (ptr->data == RBR && ptr->previousElement->data == EXP &&
ptr->previousElement->previousElement->data == LBR &&
ptr->previousElement->previousElement->previousElement->data == R) {
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == LT &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_LT_GT(typeStack)) return ERROR_SEM_COMPAT;
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == GT &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_LT_GT(typeStack)) return ERROR_SEM_COMPAT;
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == LTE &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_LTE_GTE(typeStack)) return ERROR_SEM_COMPAT;
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == GTE &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_LTE_GTE(typeStack)) return ERROR_SEM_COMPAT;
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == EQ &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_EQ_NEQ(typeStack)) return ERROR_SEM_COMPAT;
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == NEQ &&
ptr->previousElement->previousElement->data == EXP &&
ptr->previousElement->previousElement->previousElement->data == R) {
if (checkDataTypes_EQ_NEQ(typeStack)) return ERROR_SEM_COMPAT;
TermStack_applyReduce(termStack);
} else if (ptr->data == EXP && ptr->previousElement->data == LEN &&
ptr->previousElement->previousElement->data == R) {
DataTypes firstOp = TypeStack_pop(typeStack);
if (firstOp == DATA_TYPE_STRING) {
TypeStack_push(typeStack, DATA_TYPE_INTEGER);
} else {
return ERROR_SEM_COMPAT;
}
make_STRLEN();
TermStack_applyReduce(termStack);
} else {
return ERROR_SYNTAX;
}
return ERROR_PASSED;
}
/**
* @brief Simulace terminalu $ na vstup
*
* @param stack Ukazatel na strukturu jednosmerne vazaneho seznamu
* @return int Logickou jednicku pokud zasobnik od dna vypadata takto: {|$|E|} jinak vraci logickou nulu
*/
int SA_isOK(TermStack *stack) {
struct TermStackElement *tmp = NULL;
TermStack_top(stack, &tmp);
return (tmp->data == EXP && tmp->previousElement->data == USD && tmp->previousElement->previousElement == NULL) ? 1 : 0;
}
/**
* @brief Syntakticka kontrola vyrazu
*
* @param token Struktura tokenu
* @param file Ukazatel na zdrojovy soubor
* @param listFrame Ukazatel na tabulku symbolu
* @param retData Datovy typ do ktereho se ma vysledny vyraz priradit
* @param var Nazev promenne do ktere se ma vysledny vyraz priradit
* @param loopCounter Ukazatel na citac cyklu
* @return int Typ erroru generovany analyzou
*/
int exprSyntaxCheck(Token *token, FILE *file, SLList_Frame *listFrame, Data_type retData, char *var, int *loopCounter) {
bool isNew = true;
int error;
bst_node_t *ptr_node = NULL;
// pridelim pamet zasobniku datovych typu
TypeStack *typeStack = (TypeStack *) malloc(sizeof(TypeStack));
if (!typeStack) return ERROR_COMPILER;
TypeStack_init(typeStack);
// pridelim pamet zasobniku terminalu a neterminalu
TermStack *termStack = (TermStack *) malloc(sizeof(TermStack));
if (!termStack) return ERROR_COMPILER;
TermStack_init(termStack);
// vlozim $
TermStack_push(termStack, USD);
struct TermStackElement *top = NULL;
// zjistim si dalsi token
skipNonPrintChar(token, file);
// proslo to, tak prelozime token na terminal
TermsAndNonTerms vstup = convertTokenType_To_TermsAndNonTerms(token, typeStack);
if(vstup == E) {
freeStacks(termStack, typeStack);
return ERROR_SEM_OTHERS;
}
do {
TermStack_firstTermPtr(termStack, &top);
if ((prev == TOKEN_ID_DIV2 || prev == TOKEN_ID_DIV) && (token->ID == TOKEN_ID_ZERO || token->ID == TOKEN_ID_INT0 || token->Value.Double == 0.0)) {
freeStacks(termStack, typeStack);
return ERROR_RUNTIME_DIV_ZERO;
}
// jedna se o identifikator?
if (token->ID == TOKEN_ID_ID && p_table[(top->data - 4)][vstup - 4] != H && vstup != USD) {
SLLElementPtr_Frame *ptrFrame = (SLLElementPtr_Frame *) malloc(sizeof(SLLElementPtr_Frame));
if(!ptrFrame) return ERROR_COMPILER;
(*ptrFrame) = listFrame->TopLocalElement;
ptr_node = bst_search(listFrame->globalElement->node, token->Value.string);
bool doLoop = ptr_node == NULL;
while(doLoop) {
if ((*ptrFrame) == listFrame->globalElement) {
free(ptrFrame);
freeStacks(termStack, typeStack);
return ERROR_SEM_UNDEFINED;
}
ptr_node = bst_search((*ptrFrame)->node, token->Value.string);
if (ptr_node != NULL && (isInitVar(ptr_node) || !strcmp(var, "if") || !strcmp(var, "while"))) {
make_PUSHS_TF(token->Value.string);
if (ptr_node->varData->type == TYPE_STRING) {
TypeStack_push(typeStack, DATA_TYPE_STRING);
} else if (ptr_node->varData->type == TYPE_NUMBER) {
TypeStack_push(typeStack, DATA_TYPE_NUMBER);
} else if (ptr_node->varData->type == TYPE_INTEGER) {
TypeStack_push(typeStack, DATA_TYPE_INTEGER);
} else if (ptr_node->varData->type == TYPE_NIL) {
TypeStack_push(typeStack, DATA_TYPE_NIL);
} else {
free(ptrFrame);
freeStacks(termStack, typeStack);
return ERROR_SEM_UNDEFINED;
}
break;
}
(*ptrFrame) = (*ptrFrame)->previousElement;
}
free(ptrFrame);
}
// podle pravidla v tabulce rozhodnu co budu delat
switch (p_table[(top->data - 4)][vstup - 4]) {
// terminaly jsou si rovny
case E:
TermStack_push(termStack, vstup);
// zjistim si dalsi token
skipNonPrintChar(token, file);
// jedna se o identifikator?
if (token->ID == TOKEN_ID_ID) {
if (ptr_node != NULL) {
// pokud to neni to promenna a je inicializovane?
// muze to ale byt buldin funkce (write, readi, ...)
if (isFnc(ptr_node) || !isInitVar(ptr_node)) {
freeStacks(termStack, typeStack);
return ERROR_SEM_UNDEFINED;
}
}
}
if ((prev == TOKEN_ID_DIV2 || prev == TOKEN_ID_DIV) && (token->Value.Double == 0.0 || token->Value.Integer == 0))
return ERROR_RUNTIME_DIV_ZERO;
// proslo to, tak prelozime token na terminal
vstup = convertTokenType_To_TermsAndNonTerms(token, typeStack);
if(vstup == E) {
freeStacks(termStack, typeStack);
return ERROR_SEM_OTHERS;
}
break;
// vlozim znak redukce
case R:
if(isNew) {
if(token->ID == TOKEN_ID_INT || token->ID == TOKEN_ID_INT0 || token->ID == TOKEN_ID_ZERO )
printf("PUSHS int@%lld\n", token->Value.Integer);
if(token->ID == TOKEN_ID_DBL2 || token->ID == TOKEN_ID_EXP3 || token->ID == TOKEN_ID_DHEX2 || token->ID == TOKEN_ID_HEXP3)
printf("PUSHS float@%a\n", token->Value.Double);
if(token->ID == TOKEN_ID_FSTR) {
char *str = converString(token->Value.string->str);
printf("PUSHS string@%s\n", str);
free(str);
}
if(token->Value.keyword == KEYWORD_NIL)
make_PUSHS_nil();
}
TermStack_insertReduce(termStack, top);
TermStack_push(termStack, vstup);
// zjisitm si dalsi token
skipNonPrintChar(token, file);
isNew = true;
vstup = convertTokenType_To_TermsAndNonTerms(token, typeStack);
if(vstup == E) {
freeStacks(termStack, typeStack);
return ERROR_SEM_OTHERS;
}
break;
// zredukuju po nejblizsi znak redukce
case I:
isNew = false;
error = checkRulesAndApply(termStack, typeStack);
// neexistije pro redukci pravidlo
if (error) {
freeStacks(termStack, typeStack);
return error;
}
break;
// vyhodnotim co se jde a predam rizeni zpet top-down analyze
case H:
vstup = USD;
break;
// chybovy stav
default:
freeStacks(termStack, typeStack);
return ERROR_SYNTAX;
}
} while (vstup != USD || !SA_isOK(termStack)); // opakuji dokud vstup neni $ a dokud muzu redukovat
//kontrola vyslednych datovych typu
if(retData == TYPE_INTEGER) {
if (typeStack->topElement->data == DATA_TYPE_STRING) {
freeStacks(termStack, typeStack);
return ERROR_SEM_ASSIGN;
}
if (typeStack->topElement->data == DATA_TYPE_NUMBER)
return ERROR_SEM_ASSIGN;
} else if (retData == TYPE_NUMBER) {
if (typeStack->topElement->data == DATA_TYPE_STRING) {
freeStacks(termStack, typeStack);
return ERROR_SEM_ASSIGN;
}
if (typeStack->topElement->data == DATA_TYPE_INTEGER)
make_INT2FLOATS();
} else if (retData == TYPE_STRING) {
if (typeStack->topElement->data == DATA_TYPE_INTEGER) {
freeStacks(termStack, typeStack);
return ERROR_SEM_ASSIGN;
}
if (typeStack->topElement->data == DATA_TYPE_NUMBER) {
freeStacks(termStack, typeStack);
return ERROR_SEM_ASSIGN;
}
} else if (retData == TYPE_NIL) {
if (typeStack->topElement->data != DATA_TYPE_NIL) {
freeStacks(termStack, typeStack);
return ERROR_SEM_ASSIGN;
}
}
// neni tam rovnost nebo nerovnost
if (!isCorrect) {
make_POPSandMOVE_tmp2();
} else {
if (retData != TYPE_UNDEFINED)
make_POPS_TF(var);
else
make_POPS_GF_if();
}
// je tam rovnost nebo nerovnost
switch (decide) {
case EQ:
if (!(strcmp(var, "if")))
make_EQ(elseCounter++);
if(!(strcmp(var, "loop")))
printf("JUMPIFNEQ !endLoop%d TF@&tmp2 TF@&tmp1\n", (*loopCounter)++);
break;
case NEQ:
if (!(strcmp(var, "if")))
make_NEQ(elseCounter++);
if(!(strcmp(var, "loop"))) {
printf("JUMPIFEQ !endLoop%d TF@&tmp2 TF@&tmp1\n", (*loopCounter)++);
}
break;
case LT:
make_insertNILcompare();
if (!(strcmp(var, "if")))
make_LT_all(elseCounter++);
if(!(strcmp(var, "loop"))) {
make_LT_loop();
printf("JUMPIFNEQS !endLoop%d\n", (*loopCounter)++);
}
break;
case LTE:
make_insertNILcompare();
if (!(strcmp(var, "if")))
make_LTE_all(elseCounter++);
if(!(strcmp(var, "loop"))) {
make_LTE_loop();
printf("JUMPIFNEQS !endLoop%d\n", (*loopCounter)++);
}
break;
case GT:
make_insertNILcompare();
if (!(strcmp(var, "if")))
make_GT_all(elseCounter++);
if(!(strcmp(var, "loop"))) {
make_GT_loop();
printf("JUMPIFNEQS !endLoop%d\n", (*loopCounter)++);
}
break;
case GTE:
make_insertNILcompare();
if (!(strcmp(var, "if")))
make_GTE_all(elseCounter++);
if(!(strcmp(var, "loop"))) {
make_GTE_loop();
printf("JUMPIFNEQS !endLoop%d\n", (*loopCounter)++);
}
break;
default:
if (!(strcmp(var, "if"))) {
make_IF_nil(elseCounter++);
} else if (!(strcmp(var, "loop"))) {
}
break;
}
isCorrect = 1;
//uvolnim pamet zasobniku
freeStacks(termStack, typeStack);
decide = USD;
isCorrect = 1;
fsetpos(file, &last_read_pos);
return ERROR_PASSED;
}
/**
* @brief Uvolneni pameti zasobniku
*
* @param termStack Ukazatel na zasobnik datovych typu
* @param typeStack Ukazatel na zasobmil terminalu a neterminalu
*/
void freeStacks(TermStack *termStack, TypeStack *typeStack) {
TypeStack_dispose(typeStack);
free(typeStack);
TermStack_dispose(termStack);
free(termStack);
}
/** @endcode */