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y_project/src/ftest/ftest.h
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#ifndef __TEST_C_H__
#define __TEST_C_H__
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
//#include <time.h>
#include <pthread.h>
//#include <unistd.h>
#include "tools_t/tools_t.h"
#define DEFAULT_K "\033[0m" //Resets the text to default color
#define GREEN_K "\033[0;32m"
#define RED_K "\033[0;31m"
#ifdef HK
#define HK_EQ "[==========]"
#define HK_TR "[----------]"
#define HK_RN "[RUN ]"
#define HK_DN "[ DONE]"
#define HK_OK "[ OK ]"
#define HK_FL "[ FAILED ]"
#define HK_PS "[ PASSED ]"
#define HK_SK "[ SKIP ]"
#else
#define HK_EQ "=========="
#define HK_TR "----------"
#define HK_RN "====== RUN"
#define HK_DN "===== DONE"
#define HK_OK "======= OK"
#define HK_FL "===== FAIL"
#define HK_PS "===== PASS"
#define HK_SK "===== SKIP"
#endif /* HK */
/*
* compare symbol
*/
#define EQ ==
#define LT <
#define GT >
#define LE <=
#define GE >=
#define NE !=
extern FILE **f_ou_th;
extern bool unicolour;
extern bool ordered;
#ifndef SAVE_LOG
#define SAVE_LOG 0
#else
#ifndef ORDER_LOG
#define ORDER_LOG 1
#endif
#endif
#define PRINT_LOC(fmt, ...) \
do{ \
if(ordered){\
if(is_parallel_nb){\
size_t id_thread=id_of_thread_executed();\
if(id_thread < 0){\
fprintf(F_OUT, "%s:%d:%s(): " fmt, __FILE__, \
__LINE__, __func__, __VA_ARGS__);\
}\
else{\
fprintf(f_ou_th[id_thread], "%s:%d:%s(): " fmt, __FILE__, \
__LINE__, __func__, __VA_ARGS__);\
}\
} \
else{\
fprintf(F_OUT, "%s:%d:%s(): " fmt, __FILE__, \
__LINE__, __func__, __VA_ARGS__);\
}\
}\
else{\
fprintf(F_OUT, "%s:%d:%s(): " fmt, __FILE__, \
__LINE__, __func__, __VA_ARGS__);\
}\
}while(0)
#define PRINTF( ...) \
do{ \
if(ordered){\
if(is_parallel_nb){\
size_t id_thread=id_of_thread_executed();\
if(id_thread < 0){\
fprintf(F_OUT,__VA_ARGS__);\
}\
else{\
fprintf(f_ou_th[id_thread], __VA_ARGS__);\
}\
} \
else{\
fprintf(F_OUT, __VA_ARGS__);\
}\
}\
else{\
fprintf(F_OUT, __VA_ARGS__);\
}\
}while(0)
#define PRINT_HK_C(color,hk,...)\
do{ \
if(ordered){\
if(is_parallel_nb){\
size_t id_thread=id_of_thread_executed();\
if(id_thread < 0){\
if(!unicolour) fprintf(F_OUT, color hk DEFAULT_K __VA_ARGS__); \
else fprintf(F_OUT, hk __VA_ARGS__); \
}\
else{\
if(!unicolour) fprintf(f_ou_th[id_thread], color hk DEFAULT_K __VA_ARGS__); \
else fprintf(f_ou_th[id_thread], hk __VA_ARGS__); \
}\
} \
else{\
if(!unicolour) fprintf(F_OUT, color hk DEFAULT_K __VA_ARGS__); \
else fprintf(F_OUT, hk __VA_ARGS__); \
}\
}\
else{\
if(!unicolour) fprintf(F_OUT, color hk DEFAULT_K __VA_ARGS__); \
else fprintf(F_OUT, hk __VA_ARGS__); \
}\
}while(0)
#if 0
/*
* print [ HK_NAME ] with color
*/
#define PRINT_HK_C(color,hk,format,...)\
do{ if(!unicolour) fprintf(F_OUT, color hk DEFAULT_K format, __VA_ARGS__); \
else fprintf(F_OUT, hk format, __VA_ARGS__); } while(0) \
#endif /* 0 */
/*
* to skip the bloc test function
*/
#define SKIP(...)\
PRINT_HK_C(GREEN_K, HK_SK __VA_ARGS__);\
PRINT_LOC("%s\n\n"," Skiped"); return;
struct func {
char *name;
void (*run)(void);
struct func *next;
};
extern bool is_parallel_nb;
long int id_of_thread_executed(void);
void parse_options(int argc, char **argv);
void run_all_tests();
void execute_all(struct func *fun);
void append_func(void (*run)(void), char *name);
/*
void run_some_tests(size_t cnt, ... );
void run_all_tests_exept(size_t cnt, ... );
void run_some_tests_ordered(size_t cnt, ... );
*/
void run_all_tests_parallel(size_t parallel /*, int max_col*/);
/*
* to launch test with different parameters without re-compile it
* it can print help if need!
* */
void run_all_tests_args(int argc, char **argv);
bool expected_true_f(bool val);
bool expected_false_f(bool val);
bool expected_true_f_name(bool val, const char *name);
bool expected_false_f_name(bool val, const char *name);
#define GEN_EXPECTED_OP_TYPE_FUNC(OP,type)\
bool expected_##OP##_##type(type var1, type var2);\
bool expected_##OP##_name_##type(type var1, type var2, const char *name);
/*
* ***** generate signature of expected functions EQ ***********
*/
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_U_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_INT)
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_U_INT)
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_U_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_SIZE_T)
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_FLOAT)
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_L_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(EQ, TYPE_STRING)
/*
* ******************** end EQ generation ************************
*/
/*
* ***** generate signature of expected functions LT ***********
*/
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_U_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_INT)
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_U_INT)
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_U_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_SIZE_T)
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_FLOAT)
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_L_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(LT, TYPE_STRING)
/*
* ******************** end LT generation ************************
*/
/*
* ***** generate signature of expected functions GT ***********
*/
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_U_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_INT)
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_U_INT)
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_U_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_SIZE_T)
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_FLOAT)
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_L_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(GT, TYPE_STRING)
/*
* ******************** end GT generation ************************
*/
/*
* ***** generate signature of expected functions LE ***********
*/
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_U_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_INT)
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_U_INT)
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_U_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_SIZE_T)
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_FLOAT)
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_L_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(LE, TYPE_STRING)
/*
* ******************** end LE generation ************************
*/
/*
* ***** generate signature of expected functions GE ***********
*/
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_U_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_INT)
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_U_INT)
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_U_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_SIZE_T)
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_FLOAT)
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_L_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(GE, TYPE_STRING)
/*
* ******************** end GE generation ************************
*/
/*
* ***** generate signature of expected functions NE ***********
*/
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_U_CHAR)
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_INT)
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_U_INT)
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_U_L_INT)
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_SIZE_T)
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_FLOAT)
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_L_DOUBLE)
GEN_EXPECTED_OP_TYPE_FUNC(NE, TYPE_STRING)
/*
* ******************** end NE generation ************************
*/
/**
* is_assert : 0 for EXPECT and 1 for ASSERT
*/
#define HANDLE_OP_EXPECT_ASSERT(OP,type,var1,var2,is_assert) \
do{ \
if(is_parallel_nb == 0){\
if(expected_##OP##_##type(var1, var2)){ \
PRINT_HK_C(GREEN_K,HK_TR," 1 test passed from %s \n\n",__func__); \
} \
else{ \
/*PRINT_LOC("Failure\nExpected %s of these values:\n %s\n\tWhich is: %s\n %s\n\tWhich is: %s\n\n"\
,DESCRIPTION_##OP,#var1, type##_TO_STR(var1), #var2, type##_TO_STR(var2)); */ \
PRINT_LOC("Failure\nExpected: (%s) %s (%s) :\n Value of %s: %s \n Value of %s: %s\n\n"\
,#var1,STRFY(OP),#var2,#var1, type##_TO_STR(var1), #var2, type##_TO_STR(var2)); \
PRINT_HK_C(RED_K,HK_TR," 1 test failed from %s \n",__func__); \
if(is_assert) return; \
} \
}else { \
if(expected_##OP##_name_##type(var1, var2, __func__)){ \
PRINT_HK_C(GREEN_K,HK_TR," 1 test passed from %s \n\n",__func__); \
} \
else{ \
/*PRINT_LOC("Failure\nExpected %s of these values:\n %s\n\tWhich is: %s\n %s\n\tWhich is: %s\n\n"\
,DESCRIPTION_##OP ,#var1, type##_TO_STR(var1), #var2, type##_TO_STR(var2));*/ \
PRINT_LOC("Failure\nExpected: (%s) %s (%s) :\n Value of %s: %s \n Value of %s: %s\n\n"\
,#var1,STRFY(OP),#var2,#var1, type##_TO_STR(var1), #var2, type##_TO_STR(var2)); \
PRINT_HK_C(RED_K,HK_TR," 1 test failed from %s \n",__func__); \
if(is_assert) return; \
} \
}\
}while(0);
// *********************** begin EQ ************************
// ============== EXPECT ==============================
#define EXPECT_EQ_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_CHAR,var1, var2, 0)
#define EXPECT_EQ_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_U_CHAR,var1, var2, 0)
#define EXPECT_EQ_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_INT,var1, var2, 0)
#define EXPECT_EQ_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_U_INT,var1, var2, 0)
#define EXPECT_EQ_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_L_INT,var1, var2, 0)
#define EXPECT_EQ_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_U_L_INT,var1, var2, 0)
#define EXPECT_EQ_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_SIZE_T,var1, var2, 0)
#define EXPECT_EQ_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_FLOAT,var1, var2, 0)
#define EXPECT_EQ_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_DOUBLE,var1, var2, 0)
#define EXPECT_EQ_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_L_DOUBLE,var1, var2, 0)
#define EXPECT_EQ_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_STRING,var1, var2, 0)
#define EXPECT_EQ(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_L_INT,var1, var2, 0)
// ============== ASERT =====================
#define ASSERT_EQ_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_CHAR,var1, var2, 1)
#define ASSERT_EQ_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_U_CHAR,var1, var2, 1)
#define ASSERT_EQ_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_INT,var1, var2, 1)
#define ASSERT_EQ_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_U_INT,var1, var2, 1)
#define ASSERT_EQ_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_L_INT,var1, var2, 1)
#define ASSERT_EQ_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_U_L_INT,var1, var2, 1)
#define ASSERT_EQ_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_SIZE_T,var1, var2, 1)
#define ASSERT_EQ_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_FLOAT,var1, var2, 1)
#define ASSERT_EQ_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_DOUBLE,var1, var2, 1)
#define ASSERT_EQ_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_L_DOUBLE,var1, var2, 1)
#define ASSERT_EQ_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_STRING,var1, var2, 1)
#define ASSERT_EQ(var1, var2) HANDLE_OP_EXPECT_ASSERT(EQ, TYPE_L_INT,var1, var2, 1)
// ************************ end EQ **********************
// *********************** begin LT ************************
// ============== EXPECT ==============================
#define EXPECT_LT_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_CHAR,var1, var2, 0)
#define EXPECT_LT_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_U_CHAR,var1, var2, 0)
#define EXPECT_LT_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_INT,var1, var2, 0)
#define EXPECT_LT_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_U_INT,var1, var2, 0)
#define EXPECT_LT_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_L_INT,var1, var2, 0)
#define EXPECT_LT_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_U_L_INT,var1, var2, 0)
#define EXPECT_LT_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_SIZE_T,var1, var2, 0)
#define EXPECT_LT_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_FLOAT,var1, var2, 0)
#define EXPECT_LT_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_DOUBLE,var1, var2, 0)
#define EXPECT_LT_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_L_DOUBLE,var1, var2, 0)
#define EXPECT_LT_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_STRING,var1, var2, 0)
#define EXPECT_LT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_L_INT,var1, var2, 0)
// ============== ASERT =====================
#define ASSERT_LT_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_CHAR,var1, var2, 1)
#define ASSERT_LT_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_U_CHAR,var1, var2, 1)
#define ASSERT_LT_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_INT,var1, var2, 1)
#define ASSERT_LT_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_U_INT,var1, var2, 1)
#define ASSERT_LT_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_L_INT,var1, var2, 1)
#define ASSERT_LT_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_U_L_INT,var1, var2, 1)
#define ASSERT_LT_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_SIZE_T,var1, var2, 1)
#define ASSERT_LT_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_FLOAT,var1, var2, 1)
#define ASSERT_LT_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_DOUBLE,var1, var2, 1)
#define ASSERT_LT_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_L_DOUBLE,var1, var2, 1)
#define ASSERT_LT_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_STRING,var1, var2, 1)
#define ASSERT_LT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LT, TYPE_L_INT,var1, var2, 1)
// ************************ end LT **********************
// *********************** begin GT ************************
// ============== EXPECT ==============================
#define EXPECT_GT_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_CHAR,var1, var2, 0)
#define EXPECT_GT_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_U_CHAR,var1, var2, 0)
#define EXPECT_GT_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_INT,var1, var2, 0)
#define EXPECT_GT_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_U_INT,var1, var2, 0)
#define EXPECT_GT_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_L_INT,var1, var2, 0)
#define EXPECT_GT_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_U_L_INT,var1, var2, 0)
#define EXPECT_GT_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_SIZE_T,var1, var2, 0)
#define EXPECT_GT_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_FLOAT,var1, var2, 0)
#define EXPECT_GT_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_DOUBLE,var1, var2, 0)
#define EXPECT_GT_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_L_DOUBLE,var1, var2, 0)
#define EXPECT_GT_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_STRING,var1, var2, 0)
#define EXPECT_GT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_L_INT,var1, var2, 0)
// ============== ASERT =====================
#define ASSERT_GT_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_CHAR,var1, var2, 1)
#define ASSERT_GT_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_U_CHAR,var1, var2, 1)
#define ASSERT_GT_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_INT,var1, var2, 1)
#define ASSERT_GT_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_U_INT,var1, var2, 1)
#define ASSERT_GT_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_L_INT,var1, var2, 1)
#define ASSERT_GT_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_U_L_INT,var1, var2, 1)
#define ASSERT_GT_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_SIZE_T,var1, var2, 1)
#define ASSERT_GT_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_FLOAT,var1, var2, 1)
#define ASSERT_GT_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_DOUBLE,var1, var2, 1)
#define ASSERT_GT_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_L_DOUBLE,var1, var2, 1)
#define ASSERT_GT_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_STRING,var1, var2, 1)
#define ASSERT_GT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GT, TYPE_L_INT,var1, var2, 1)
// ************************ end GT **********************
// *********************** begin LE ************************
// ============== EXPECT ==============================
#define EXPECT_LE_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_CHAR,var1, var2, 0)
#define EXPECT_LE_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_U_CHAR,var1, var2, 0)
#define EXPECT_LE_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_INT,var1, var2, 0)
#define EXPECT_LE_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_U_INT,var1, var2, 0)
#define EXPECT_LE_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_L_INT,var1, var2, 0)
#define EXPECT_LE_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_U_L_INT,var1, var2, 0)
#define EXPECT_LE_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_SIZE_T,var1, var2, 0)
#define EXPECT_LE_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_FLOAT,var1, var2, 0)
#define EXPECT_LE_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_DOUBLE,var1, var2, 0)
#define EXPECT_LE_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_L_DOUBLE,var1, var2, 0)
#define EXPECT_LE_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_STRING,var1, var2, 0)
#define EXPECT_LE(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_L_INT,var1, var2, 0)
// ============== ASERT =====================
#define ASSERT_LE_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_CHAR,var1, var2, 1)
#define ASSERT_LE_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_U_CHAR,var1, var2, 1)
#define ASSERT_LE_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_INT,var1, var2, 1)
#define ASSERT_LE_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_U_INT,var1, var2, 1)
#define ASSERT_LE_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_L_INT,var1, var2, 1)
#define ASSERT_LE_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_U_L_INT,var1, var2, 1)
#define ASSERT_LE_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_SIZE_T,var1, var2, 1)
#define ASSERT_LE_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_FLOAT,var1, var2, 1)
#define ASSERT_LE_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_DOUBLE,var1, var2, 1)
#define ASSERT_LE_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_L_DOUBLE,var1, var2, 1)
#define ASSERT_LE_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_STRING,var1, var2, 1)
#define ASSERT_LE(var1, var2) HANDLE_OP_EXPECT_ASSERT(LE, TYPE_L_INT,var1, var2, 1)
// ************************ end LE **********************
// *********************** begin GE ************************
// ============== EXPECT ==============================
#define EXPECT_GE_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_CHAR,var1, var2, 0)
#define EXPECT_GE_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_U_CHAR,var1, var2, 0)
#define EXPECT_GE_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_INT,var1, var2, 0)
#define EXPECT_GE_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_U_INT,var1, var2, 0)
#define EXPECT_GE_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_L_INT,var1, var2, 0)
#define EXPECT_GE_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_U_L_INT,var1, var2, 0)
#define EXPECT_GE_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_SIZE_T,var1, var2, 0)
#define EXPECT_GE_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_FLOAT,var1, var2, 0)
#define EXPECT_GE_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_DOUBLE,var1, var2, 0)
#define EXPECT_GE_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_L_DOUBLE,var1, var2, 0)
#define EXPECT_GE_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_STRING,var1, var2, 0)
#define EXPECT_GE(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_L_INT,var1, var2, 0)
// ============== ASERT =====================
#define ASSERT_GE_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_CHAR,var1, var2, 1)
#define ASSERT_GE_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_U_CHAR,var1, var2, 1)
#define ASSERT_GE_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_INT,var1, var2, 1)
#define ASSERT_GE_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_U_INT,var1, var2, 1)
#define ASSERT_GE_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_L_INT,var1, var2, 1)
#define ASSERT_GE_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_U_L_INT,var1, var2, 1)
#define ASSERT_GE_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_SIZE_T,var1, var2, 1)
#define ASSERT_GE_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_FLOAT,var1, var2, 1)
#define ASSERT_GE_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_DOUBLE,var1, var2, 1)
#define ASSERT_GE_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_L_DOUBLE,var1, var2, 1)
#define ASSERT_GE_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_STRING,var1, var2, 1)
#define ASSERT_GE(var1, var2) HANDLE_OP_EXPECT_ASSERT(GE, TYPE_L_INT,var1, var2, 1)
// ************************ end GE **********************
// *********************** begin NE ************************
// ============== EXPECT ==============================
#define EXPECT_NE_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_CHAR,var1, var2, 0)
#define EXPECT_NE_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_U_CHAR,var1, var2, 0)
#define EXPECT_NE_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_INT,var1, var2, 0)
#define EXPECT_NE_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_U_INT,var1, var2, 0)
#define EXPECT_NE_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_L_INT,var1, var2, 0)
#define EXPECT_NE_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_U_L_INT,var1, var2, 0)
#define EXPECT_NE_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_SIZE_T,var1, var2, 0)
#define EXPECT_NE_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_FLOAT,var1, var2, 0)
#define EXPECT_NE_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_DOUBLE,var1, var2, 0)
#define EXPECT_NE_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_L_DOUBLE,var1, var2, 0)
#define EXPECT_NE_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_STRING,var1, var2, 0)
#define EXPECT_NE(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_L_INT,var1, var2, 0)
// ============== ASERT =====================
#define ASSERT_NE_TYPE_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_CHAR,var1, var2, 1)
#define ASSERT_NE_TYPE_U_CHAR(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_U_CHAR,var1, var2, 1)
#define ASSERT_NE_TYPE_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_INT,var1, var2, 1)
#define ASSERT_NE_TYPE_U_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_U_INT,var1, var2, 1)
#define ASSERT_NE_TYPE_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_L_INT,var1, var2, 1)
#define ASSERT_NE_TYPE_U_L_INT(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_U_L_INT,var1, var2, 1)
#define ASSERT_NE_TYPE_SIZE_T(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_SIZE_T,var1, var2, 1)
#define ASSERT_NE_TYPE_FLOAT(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_FLOAT,var1, var2, 1)
#define ASSERT_NE_TYPE_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_DOUBLE,var1, var2, 1)
#define ASSERT_NE_TYPE_L_DOUBLE(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_L_DOUBLE,var1, var2, 1)
#define ASSERT_NE_TYPE_STRING(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_STRING,var1, var2, 1)
#define ASSERT_NE(var1, var2) HANDLE_OP_EXPECT_ASSERT(NE, TYPE_L_INT,var1, var2, 1)
// ************************ end NE **********************
/*
* ============== bool ===================
*
*/
#define HANDLE_EXPECT_NOT_EXPECT_ASSERT(expect,not_expect,var1,is_assert) \
do{ \
if(is_parallel_nb==0){\
if(expected_##expect##_f(var1)){ \
PRINT_HK_C(GREEN_K,HK_TR," 1 test passed from %s \n\n",__func__); \
} \
else{ \
PRINT_LOC("Failure\nValue of: %s\nActual: %s\nExpected: %s\n\n", #var1, #not_expect, #expect);\
PRINT_HK_C(RED_K,HK_TR," 1 test failed from %s \n",__func__); \
if(is_assert) return; \
} \
}\
else{\
if(expected_##expect##_f_name(var1, __func__)){ \
PRINT_HK_C(GREEN_K,HK_TR," 1 test passed from %s \n\n",__func__); \
} \
else{ \
PRINT_LOC("Failure\nValue of: %s\nActual: %s\nExpected: %s\n\n", #var1, #not_expect, #expect);\
PRINT_HK_C(RED_K,HK_TR," 1 test failed from %s \n",__func__); \
if(is_assert) return; \
} \
}\
}while(0);
#define EXPECT_TRUE(var1) HANDLE_EXPECT_NOT_EXPECT_ASSERT(true, false, var1, 0)
#define EXPECT_FALSE(var1) HANDLE_EXPECT_NOT_EXPECT_ASSERT(false, true, var1, 0)
#define ASSERT_TRUE(var1) HANDLE_EXPECT_NOT_EXPECT_ASSERT(true, false, var1, 1)
#define ASSERT_FALSE(var1) HANDLE_EXPECT_NOT_EXPECT_ASSERT(false, true, var1, 1)
#define CONCAT(x,y) x ## y
#define STRFY(x) # x
#define test_label test
#define FTEST_(count, name_f) \
void CONCAT(test_##name_f##____,count)(void); \
__attribute__((constructor)) \
void CONCAT(append_test_##name_f,count)(void){ \
append_func(CONCAT(test_##name_f##____,count),STRFY(name_f test count)); \
} \
void CONCAT(test_##name_f##____,count)(void)
#define FTEST__(count, name_f) \
void CONCAT(TEST_##name_f##____,count)(void); \
__attribute__((constructor)) \
void CONCAT(append_test_##name_f,count)(void){ \
append_func(CONCAT(TEST_##name_f##____,count),STRFY(TEST(name_f): test N° count|)); \
} \
void CONCAT(TEST_##name_f##____,count)(void)
//#define TEST(name_f)\
FTEST_(__COUNTER__,name_f)
#define TEST(name_f) \
FTEST__(__COUNTER__,name_f)
/*
#define ASSERT_TRUE(val)\
if(expected_true_f(val,#val,__func__) == false) {error_print("%s\n\n","Failure"); return;}
#define ASSERT_FALSE(val)\
if(expected_false_f(val,#val,__func__) == false) {error_print("%s\n\n","Failure"); return;}
*/
#endif /* __TEST_C_H__ */
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