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DBG_macro.h
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179 lines (161 loc) · 9.95 KB
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#ifndef _DBG_MACRO_H_
#define _DBG_MACRO_H_
#if 1
#include <stdint.h>
#include <stdio.h>
#include <string.h>
#else
#include "CH58x_common.h"
#endif
#ifndef PRINT
#define PRINT(X...) printf(X)
#endif // !PRINT
#define DEFAULT_STRING_LEN 512
#define DBG_COLOR 1
#if DBG_COLOR
#define LOG_COLOR_BLACK "\033[30m"
#define LOG_COLOR_RED "\033[31m"
#define LOG_COLOR_GREEN "\033[32m"
#define LOG_COLOR_YELLOW "\033[33m"
#define LOG_COLOR_BLUE "\033[34m"
#define LOG_COLOR_MAGENTA "\033[35m" // 紫色或洋红
#define LOG_COLOR_CYAN "\033[36m" // 青色或蓝绿色
#define LOG_COLOR_WHITE "\033[37m"
#define LOG_COLOR_RESET "\033[0m"
#else
#define LOG_COLOR_BLACK ""
#define LOG_COLOR_RED ""
#define LOG_COLOR_GREEN ""
#define LOG_COLOR_YELLOW ""
#define LOG_COLOR_BLUE ""
#define LOG_COLOR_MAGENTA "" // 紫色或洋红
#define LOG_COLOR_CYAN "" // 青色或蓝绿色
#define LOG_COLOR_WHITE ""
#define LOG_COLOR_RESET ""
#endif
#define DEBUG_PRINT_STAND(COLOR, FMT, ...) \
do { \
char __DBG_string[DEFAULT_STRING_LEN] = {0}; \
snprintf (__DBG_string, DEFAULT_STRING_LEN, "" COLOR "[%s]:" LOG_COLOR_RESET FMT "\n", \
__func__, ##__VA_ARGS__); \
PRINT ("%s", __DBG_string); \
} while (0)
#define DEBUG_PRINT(FMT, ...) DEBUG_PRINT_STAND (LOG_COLOR_GREEN, FMT, ##__VA_ARGS__)
#define ERROR_PRINT(FMT, ...) DEBUG_PRINT_STAND (LOG_COLOR_RED, FMT, ##__VA_ARGS__)
#define DEBUG_PRINT_FUNC(FUNCTION, RET, RET_TYPE) \
do { \
RET = FUNCTION; \
DEBUG_PRINT_STAND (LOG_COLOR_GREEN, \
"callFunc[%s]->ret:[" RET_TYPE "]", \
#FUNCTION, RET); \
} while (0)
#define VAR_NAME(x) #x
#define VAR_PRINT_STAND(COLOR, VAR, FMT, ...) \
do { \
char __DBG_string[DEFAULT_STRING_LEN] = {0}; \
snprintf (__DBG_string, DEFAULT_STRING_LEN, "" COLOR "[%s]VAR(%s)" LOG_COLOR_RESET FMT "\n", \
__func__, VAR_NAME (VAR), ##__VA_ARGS__); \
PRINT ("%s", __DBG_string); \
} while (0)
#define VAR_PRINT_UD(VAR) VAR_PRINT_STAND (LOG_COLOR_YELLOW, VAR, "value(%u)", VAR)
#define VAR_PRINT_LLU(VAR) VAR_PRINT_STAND (LOG_COLOR_YELLOW, VAR, "value(%llu)", VAR)
#define VAR_PRINT_INT(VAR) VAR_PRINT_STAND (LOG_COLOR_YELLOW, VAR, "value(%d)", VAR)
#define VAR_PRINT_LL(VAR) VAR_PRINT_STAND (LOG_COLOR_YELLOW, VAR, "value(%lld)", VAR)
#define VAR_PRINT_HEX(VAR) VAR_PRINT_STAND (LOG_COLOR_YELLOW, VAR, "value(0x%x)", VAR)
#define VAR_PRINT_FLOAT(VAR) VAR_PRINT_STAND (LOG_COLOR_YELLOW, VAR, "value(%f)", VAR)
#define VAR_PRINT_CH(VAR) VAR_PRINT_STAND (LOG_COLOR_YELLOW, VAR, "CH[%c]", VAR)
#define VAR_PRINT_POS(VAR) VAR_PRINT_STAND (LOG_COLOR_YELLOW, VAR, "ADDR[0X%p]", VAR)
#define VAR_PRINT_ARR_HEX(VAR, _VAR_SIZE) \
do { \
char __DBG_string[DEFAULT_STRING_LEN] = {0}; \
const uint16_t __DBG_MaxLine = 8; \
uint16_t __DBG_len = 0x0, __DBG_varSize_lines = _VAR_SIZE / __DBG_MaxLine; \
int __DBG_pos = 0; \
snprintf (__DBG_string, DEFAULT_STRING_LEN, \
"" LOG_COLOR_YELLOW "[%s]VAR(%s)[size:%u]HEX" LOG_COLOR_RESET "", \
__func__, VAR_NAME (VAR), (unsigned int)_VAR_SIZE); \
PRINT (__DBG_string); \
__DBG_len = strlen (__DBG_string); \
__DBG_len /= 2; \
putchar ('\n'); \
__DBG_varSize_lines += (_VAR_SIZE % __DBG_MaxLine) ? 1 : 0; \
for (int __DBG_loopA = 0; __DBG_loopA < __DBG_varSize_lines; __DBG_loopA++) { \
for (int __DBG_loopB = 0; __DBG_loopB < __DBG_len; __DBG_loopB++) { \
putchar (' '); \
} \
for (int __DBG_loopC = 0; __DBG_loopC < __DBG_MaxLine; __DBG_loopC++) { \
PRINT ("[%x] ", *((VAR) + __DBG_pos++)); \
if (__DBG_pos == _VAR_SIZE) \
break; \
} \
putchar ('\n'); \
} \
} while (0)
#define __STRING__INVALID_VAR "invalid_var[NULL]"
#define VAR_PRINT_STAND_1(COLOR, VAR, FMT, ...) \
do { \
char __DBG_string[DEFAULT_STRING_LEN] = {0}; \
if (VAR == NULL) { \
snprintf (__DBG_string, DEFAULT_STRING_LEN, "" COLOR "[%s]VAR(%s)" LOG_COLOR_RESET "%s\n", \
__func__, VAR_NAME (VAR), __STRING__INVALID_VAR); \
} else { \
snprintf (__DBG_string, DEFAULT_STRING_LEN, "" COLOR "[%s]VAR(%s)" LOG_COLOR_RESET FMT "\n", \
__func__, VAR_NAME (VAR), ##__VA_ARGS__); \
} \
PRINT ("%s", __DBG_string); \
} while (0)
#define VAR_PRINT_STRING(VAR) VAR_PRINT_STAND_1 (LOG_COLOR_YELLOW, VAR, "STR{%s}", VAR)
#define MACRO_PRINT_STAND(COLOR, VAR, FMT, ...) \
do { \
char __DBG_string[DEFAULT_STRING_LEN] = {0}; \
snprintf (__DBG_string, DEFAULT_STRING_LEN, "" COLOR "[%s]MACRO(%s)" LOG_COLOR_RESET FMT "\n", \
__func__, VAR, ##__VA_ARGS__); \
PRINT ("%s", __DBG_string); \
} while (0)
#define MACRO_PRINT_STR(VAR) MACRO_PRINT_STAND (LOG_COLOR_CYAN, #VAR, "STR{%s}", VAR)
#define MACRO_PRINT_INT(VAR) MACRO_PRINT_STAND (LOG_COLOR_CYAN, #VAR, "value{%d}", VAR)
#define MACRO_PRINT_UD(VAR) MACRO_PRINT_STAND (LOG_COLOR_CYAN, #VAR, "value{%u}", VAR)
#define MACRO_PRINT_HEX(VAR) MACRO_PRINT_STAND (LOG_COLOR_CYAN, #VAR, "value{0x%x}", VAR)
#define MACRO_PRINT_FLOAT(VAR) MACRO_PRINT_STAND (LOG_COLOR_CYAN, #VAR, "value{%f}", VAR)
#define SIZE_ARRARY(ARR) sizeof (ARR) / sizeof (ARR[0])
/**
* SET_BIT - 设置指定的位为 1 (置位)
* @param REG: 要操作的寄存器或变量的地址 (指针)
* @param BIT: 要设置的位的位置 (0-based index)
*
* 原理: 使用按位或 (|) 操作。将目标位置1,其他位保持不变。
* 例如: REG = REG | (1 << BIT)
*/
#define SET_BIT(REG, BIT) ((REG) |= (1U << (BIT)))
/**
* CLEAR_BIT - 清除指定的位为 0 (清零)
* @param REG: 要操作的寄存器或变量的地址 (指针)
* @param BIT: 要清除的位的位置 (0-based index)
*
* 原理: 使用按位与 (&) 和按位取反 (~) 操作。
* 先创建一个除了目标位为0其他位都为1的掩码,然后与原值相与。
* 例如: REG = REG & ~(1 << BIT)
*/
#define CLEAR_BIT(REG, BIT) ((REG) &= ~(1U << (BIT)))
/**
* CHECK_BIT - 检查指定的位是否为 1
* @param REG: 要检查的寄存器或变量的值
* @param BIT: 要检查的位的位置 (0-based index)
* @return: 如果指定位为1,返回非零值 (真);如果为0,返回0 (假)
*
* 原理: 使用按位与 (&) 操作。将目标位提取出来,结果非零则为真。
* 例如: (REG & (1 << BIT)) != 0
*/
#define CHECK_BIT(REG, BIT) ((REG) & (1U << (BIT)))
#define DBG_SELET_CURRENT_EVENT(_EVENTS, _CURRENT_EVENT) \
do { \
const uint16_t _DBG_MaxCnt = 16; \
uint16_t _DBG_ret = 0x0, _DBG_loop = 0; \
for (; _DBG_loop < _DBG_MaxCnt; _DBG_loop++) { \
if (CHECK_BIT (_EVENTS, _DBG_MaxCnt - _DBG_loop)) \
break; \
} \
SET_BIT (_DBG_ret, _DBG_MaxCnt - _DBG_loop); \
_CURRENT_EVENT = _DBG_ret; \
} while (0)
#endif