BadPixelProc.c
21.8 KB
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#include <stdio.h>
#include "JZsdkLib.h"
#include <math.h>
#include <string.h>
#include <stdlib.h>
#define PIXEL_SAVE_DIR "/root/PixelSave"
#define RAW_BAD_PIXEL_DIR "RawBadPixel.txt"
#define GRAY_BAD_PIXEL_DIR "GrayBadPixel.txt"
#define FIRST_WINDOW_SIZE 3 // 第一窗口和第二窗口的大小(简化为3x3)
#define SECOND_WINDOW_SIZE 5 // 第一窗口和第二窗口的大小(简化为5x5)
#define RAW_VARINANCE_RANK (100000.0)
#define GRAY_VARINANCE_RANK (600.0)
/***************
*
* 计算方差值
*
*
* ****************/
static T_JZsdkReturnCode JZsdk_CalulateLocalVarinance_Int(unsigned int *array, int size, double *variance)
{
double sum = 0.0, mean = 0.0;
*variance = 0.0;
for (int i = 0; i < size; ++i)
{
sum += array[i];
}
// 计算均值
mean = sum / (double)size;
// 计算方差
for (int i = 0; i < size; ++i)
{
*variance += pow(array[i] - mean, 2);
}
*variance /= (double)(size);
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS;
}
static T_JZsdkReturnCode JZsdk_CalulateLocalVarinance_Char(unsigned char *array, int size, double *variance)
{
double sum = 0.0, mean = 0.0;
*variance = 0.0;
for (int i = 0; i < size; ++i)
{
sum += array[i];
}
// 计算均值
mean = sum / (double)size;
// 计算方差
for (int i = 0; i < size; ++i)
{
*variance += pow(array[i] - mean, 2);
}
*variance /= (double)(size);
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS;
}
/***************
*
* 判断是否为坏点
* 并记录到数组中
* ****************/
static T_JZsdkReturnCode CheckisBadPixel_U16(U16_t* image, int width, int height, unsigned int *Blind, int *Blind_num)
{
//3*3和5*5来获取点判断
memset(Blind, 0, *Blind_num);
*Blind_num = 0;
//先检查足够拥有5*5范围的
int PointX = 0;
int PointY = 0;
int Len = height*width;
int BadNum = 0;
unsigned int firstWindow[FIRST_WINDOW_SIZE*FIRST_WINDOW_SIZE];
unsigned int secondWindow[SECOND_WINDOW_SIZE*SECOND_WINDOW_SIZE];
for (int i = 0; i < Len; i++)
{
PointY = i/width;
PointX = i%width;
//检查边界
if (PointX < 2 || PointX >= (width - 2) || PointY < 2 || PointY >= (height - 2))
{
// 如果当前点不在5x5窗口的有效范围内,则跳过
continue;
}
// 写入小窗口(3x3)
int index = 0; // firstWindow的索引
for (int dy = -1; dy <= 1; dy++)
{
for (int dx = -1; dx <= 1; dx++)
{
// 计算3x3窗口中当前元素的索引
int newY = PointY + dy;
int newX = PointX + dx;
firstWindow[index++] = image[newY * width + newX]; // 假设image是二维数组的一维表示
}
}
// 写入大窗口(5x5)
index = 0; // firstWindow的索引
for (int dy = -2; dy <= 2; dy++)
{
for (int dx = -2; dx <= 2; dx++)
{
// 计算3x3窗口中当前元素的索引
int newY = PointY + dy;
int newX = PointX + dx;
secondWindow[index++] = image[newY * width + newX]; // 假设image是二维数组的一维表示
}
}
//计算方差
double first_variance;
JZsdk_CalulateLocalVarinance_Int(firstWindow, FIRST_WINDOW_SIZE*FIRST_WINDOW_SIZE, &first_variance);
double second_variance;
JZsdk_CalulateLocalVarinance_Int(secondWindow, SECOND_WINDOW_SIZE*SECOND_WINDOW_SIZE, &second_variance);
if ( (first_variance-second_variance) > RAW_VARINANCE_RANK || (first_variance-second_variance) < -RAW_VARINANCE_RANK)
{
//JZSDK_LOG_INFO("记录坏点(%d, %d)",PointX,PointY);
Blind[*Blind_num] = (PointY*width + PointX);
//JZSDK_LOG_INFO("记录坏点(%d, %d) len:%d",PointX,PointY,Blind[*Blind_num]);
(*Blind_num)++;
}
}
JZSDK_LOG_INFO("一共%d个坏点",*Blind_num);
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS;
}
/***************
*
* 判断是否为坏点
* 并记录到文件中
* ****************/
T_JZsdkReturnCode JZsdk_RawCheckisBadPixel_U16(U16_t* image, int width, int height, unsigned int *Blind, int *Blind_num)
{
T_JZsdkReturnCode ret;
//1、获取错误点
CheckisBadPixel_U16(image, width, height, Blind, Blind_num);
//2、保存
//检查文件夹
ret = JZsdk_check_directory_exists_posix(PIXEL_SAVE_DIR);
if (ret != JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS)
{
JZSDK_LOG_ERROR("不存在坏点文件夹,建立一个");
ret = JZsdk_Osal_Mkdir(PIXEL_SAVE_DIR);
if (ret == JZ_ERROR_SYSTEM_MODULE_CODE_FAILURE)
{
JZSDK_LOG_ERROR("坏点文件夹建立失败");
return JZ_ERROR_SYSTEM_MODULE_CODE_FAILURE;
}
}
//写入文件
unsigned char str[256];
snprintf(str, sizeof(str), "%s/%s",PIXEL_SAVE_DIR, RAW_BAD_PIXEL_DIR);
JZSDK_LOG_INFO("save_to%s",str);
FILE *Save_fp = fopen(str, "w");
if (Save_fp == NULL)
{
JZSDK_LOG_ERROR("坏点文件建立失败");
return JZ_ERROR_SYSTEM_MODULE_CODE_INVALID_PARAMETER;
}
// 假设Blind_num包含数组中元素的数量
for (int i = 0; i < *Blind_num; ++i) {
fprintf(Save_fp, "%u\n", Blind[i]); // 将每个元素写入文件,每行一个
}
fclose(Save_fp); // 关闭文件
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS; // 返回成功代码
}
T_JZsdkReturnCode JZsdk_RawGetBadPixel_U16(unsigned int *Blind, int *Blind_num, int max_num)
{
unsigned char str[256];
snprintf(str, sizeof(str), "%s/%s",PIXEL_SAVE_DIR, RAW_BAD_PIXEL_DIR);
JZSDK_LOG_INFO("get_to%s",str);
FILE *Save_fp = fopen(str, "r");
if (Save_fp == NULL)
{
JZSDK_LOG_ERROR("坏点文件打开失败");
return JZ_ERROR_SYSTEM_MODULE_CODE_INVALID_PARAMETER;
}
int count = 0;
unsigned int temp;
while (fscanf(Save_fp, "%u", &temp) == 1 && count < max_num)
{
// // 动态增加数组大小
// blind = realloc(blind, (count + 1) * sizeof(unsigned int));
// if (blind == NULL) {
// perror("内存分配失败");
// fclose(fp);
// return 1;
// }
Blind[count++] = temp;
}
*Blind_num = count;
fclose(Save_fp);
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS;
}
/***************
*
* 坏点纠正
* 输入参数 图像数据 图像宽高 坏点与数量 坏点界限 纠正方式
* ****************/
T_JZsdkReturnCode JZsdk_CutBadPixel_U16(U16_t *image, int width, int height, unsigned int *Blind, int Blind_num, unsigned Buildextern,int order)
{
//平均值取值法
if (order == 0)
{
for (int i = 0; i < Blind_num; i++)
{
int PointX = 0;
int PointY = 0;
unsigned int newPixel = 0;
int tempLen = Blind[i];
PointY = tempLen/width;
PointX = tempLen%width;
int index=0;
for (int dy = -1; dy <= 1; dy++)
{
for (int dx = -1; dx <= 1; dx++)
{
// 计算3x3窗口中当前元素的索引
int newY = PointY + dy;
int newX = PointX + dx;
newPixel += image[newY * width + newX]; // 假设image是二维数组的一维表示
}
}
int Avged = (newPixel-image[tempLen])/8;
if ((fabs(image[tempLen] - Avged) < Buildextern))
{
newPixel = 0;
for (int dy = -2; dy <= 2; dy++)
{
for (int dx = -2; dx <= 2; dx++)
{
// 计算5x5窗口中当前元素的索引
int newY = PointY + dy;
int newX = PointX + dx;
newPixel += image[newY * width + newX]; // 假设image是二维数组的一维表示
}
}
Avged = (newPixel-image[tempLen])/24;
}
image[tempLen] = Avged;
//JZSDK_LOG_INFO("切除位置(%d,%d) %d",PointX,PointY,Blind[Blind_num]);
}
}
//二分取值法
if (order == 1)
{
for (int i = Blind_num-1; i >= 0; i--)
{
int PointX = 0;
int PointY = 0;
unsigned int newPixel = 0;
//把盲点长度坐标转化为xy坐标
int tempLen = Blind[i];
PointY = tempLen/width;
PointX = tempLen%width;
int index=0; //索引值
int Avged=0; //平均值
int tempPixel[25];
for (int dy = -2; dy <= 2; dy++)
{
for (int dx = -2; dx <= 2; dx++)
{
// 计算5x5窗口中当前元素的索引
int newY = PointY + dy;
int newX = PointX + dx;
tempPixel[index] = image[newY * width + newX];
newPixel += tempPixel[index];
index++;
}
}
//移除中心点
newPixel -= image[tempLen];
//计算周围24个点的平均值
Avged = newPixel/24;
int MaxAvgd = 0;
int MinAvgd = 0;
int MaxNum = 0;
int MinNum = 0;
for (int i = 0; i < 25; i++)
{
if (i==12)
{
continue;
}
if (tempPixel[i] < Avged)
{
MinAvgd++;
MinNum+=tempPixel[i];
}
else
{
MaxAvgd++;
MaxNum+=tempPixel[i];
}
}
int NewAvgd = 0;
if (MaxAvgd >= MinAvgd)
{
NewAvgd = MaxNum/MaxAvgd;
}
else
{
NewAvgd = MinNum/MinAvgd;
}
image[tempLen] = NewAvgd;
//JZSDK_LOG_INFO("切除位置(%d,%d) %d",PointX,PointY,Blind[Blind_num]);
}
}
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS;
}
/**********************************************************************************************************/
/***************
*
* 判断是否为坏点
* 并记录到数组中
* ****************/
static T_JZsdkReturnCode CheckisBadPixel_U8(unsigned char* image, int width, int height, unsigned int *Blind, int *Blind_num)
{
//3*3和5*5来获取点判断
memset(Blind, 0, *Blind_num);
*Blind_num = 0;
//先检查足够拥有5*5范围的
int PointX = 0;
int PointY = 0;
int Len = height*width;
int BadNum = 0;
unsigned char firstWindow[FIRST_WINDOW_SIZE*FIRST_WINDOW_SIZE];
unsigned char secondWindow[SECOND_WINDOW_SIZE*SECOND_WINDOW_SIZE];
for (int i = 0; i < Len; i++)
{
PointY = i/width;
PointX = i%width;
//检查边界
if (PointX < 2 || PointX >= (width - 2) || PointY < 2 || PointY >= (height - 2))
{
// 如果当前点不在5x5窗口的有效范围内,则跳过
continue;
}
// 写入小窗口(3x3)
int index = 0; // firstWindow的索引
for (int dy = -1; dy <= 1; dy++)
{
for (int dx = -1; dx <= 1; dx++)
{
// 计算3x3窗口中当前元素的索引
int newY = PointY + dy;
int newX = PointX + dx;
firstWindow[index++] = image[newY * width + newX]; // 假设image是二维数组的一维表示
}
}
// 写入大窗口(5x5)
index = 0; // firstWindow的索引
for (int dy = -2; dy <= 2; dy++)
{
for (int dx = -2; dx <= 2; dx++)
{
// 计算3x3窗口中当前元素的索引
int newY = PointY + dy;
int newX = PointX + dx;
secondWindow[index++] = image[newY * width + newX]; // 假设image是二维数组的一维表示
}
}
//计算方差
double first_variance;
JZsdk_CalulateLocalVarinance_Char(firstWindow, FIRST_WINDOW_SIZE*FIRST_WINDOW_SIZE, &first_variance);
double second_variance;
JZsdk_CalulateLocalVarinance_Char(secondWindow, SECOND_WINDOW_SIZE*SECOND_WINDOW_SIZE, &second_variance);
if ( (first_variance-second_variance) > GRAY_VARINANCE_RANK || (first_variance-second_variance) < -GRAY_VARINANCE_RANK)
{
//JZSDK_LOG_INFO("记录坏点(%d, %d)",PointX,PointY);
Blind[*Blind_num] = (PointY*width + PointX);
//JZSDK_LOG_INFO("记录坏点(%d, %d) len:%d",PointX,PointY,Blind[*Blind_num]);
(*Blind_num)++;
}
}
JZSDK_LOG_INFO("一共%d个灰点",*Blind_num);
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS;
}
/***************
*
* 判断是否为坏点
* 并记录到文件中
* ****************/
T_JZsdkReturnCode JZsdk_GrayCheckisBadPixel_U8(unsigned char* image, int width, int height, unsigned int *Blind, int *Blind_num)
{
T_JZsdkReturnCode ret;
//1、获取错误点
CheckisBadPixel_U8(image, width, height, Blind, Blind_num);
//2、保存
//检查文件夹
ret = JZsdk_check_directory_exists_posix(PIXEL_SAVE_DIR);
if (ret != JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS)
{
JZSDK_LOG_ERROR("不存在坏点文件夹,建立一个");
ret = JZsdk_Osal_Mkdir(PIXEL_SAVE_DIR);
if (ret == JZ_ERROR_SYSTEM_MODULE_CODE_FAILURE)
{
JZSDK_LOG_ERROR("坏点文件夹建立失败");
return JZ_ERROR_SYSTEM_MODULE_CODE_FAILURE;
}
}
//写入文件
unsigned char str[256];
snprintf(str, sizeof(str), "%s/%s",PIXEL_SAVE_DIR, GRAY_BAD_PIXEL_DIR);
JZSDK_LOG_INFO("save_to%s",str);
FILE *Save_fp = fopen(str, "w");
if (Save_fp == NULL)
{
JZSDK_LOG_ERROR("坏点文件建立失败");
return JZ_ERROR_SYSTEM_MODULE_CODE_INVALID_PARAMETER;
}
// 假设Blind_num包含数组中元素的数量
for (int i = 0; i < *Blind_num; ++i) {
fprintf(Save_fp, "%u\n", Blind[i]); // 将每个元素写入文件,每行一个
}
fclose(Save_fp); // 关闭文件
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS; // 返回成功代码
}
T_JZsdkReturnCode JZsdk_GrayGetBadPixel_U8(unsigned int *Blind, int *Blind_num, int max_num)
{
unsigned char str[256];
snprintf(str, sizeof(str), "%s/%s",PIXEL_SAVE_DIR, GRAY_BAD_PIXEL_DIR);
JZSDK_LOG_INFO("get_to%s",str);
FILE *Save_fp = fopen(str, "r");
if (Save_fp == NULL)
{
JZSDK_LOG_ERROR("坏点文件打开失败");
return JZ_ERROR_SYSTEM_MODULE_CODE_INVALID_PARAMETER;
}
int count = 0;
unsigned int temp;
while (fscanf(Save_fp, "%u", &temp) == 1 && count < max_num)
{
// // 动态增加数组大小
// blind = realloc(blind, (count + 1) * sizeof(unsigned int));
// if (blind == NULL) {
// perror("内存分配失败");
// fclose(fp);
// return 1;
// }
Blind[count++] = temp;
}
*Blind_num = count;
fclose(Save_fp);
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS;
}
/***************
*
* 坏点纠正
* 输入参数 图像数据 图像宽高 坏点与数量 坏点界限 纠正方式
* ****************/
T_JZsdkReturnCode JZsdk_CutBadPixel_U8(U8_t *image, int width, int height, unsigned int *Blind, int Blind_num, unsigned Buildextern,int order)
{
//平均值取值法
if (order == 0)
{
for (int i = 0; i < Blind_num; i++)
{
int PointX = 0;
int PointY = 0;
unsigned int newPixel = 0;
int tempLen = Blind[i];
PointY = tempLen/width;
PointX = tempLen%width;
int index=0;
for (int dy = -1; dy <= 1; dy++)
{
for (int dx = -1; dx <= 1; dx++)
{
// 计算3x3窗口中当前元素的索引
int newY = PointY + dy;
int newX = PointX + dx;
newPixel += image[newY * width + newX]; // 假设image是二维数组的一维表示
}
}
int Avged = (newPixel-image[tempLen])/8;
if ((fabs(image[tempLen] - Avged) < Buildextern))
{
for (int dy = -2; dy <= 2; dy++)
{
for (int dx = -2; dx <= 2; dx++)
{
// 计算5x5窗口中当前元素的索引
int newY = PointY + dy;
int newX = PointX + dx;
newPixel += image[newY * width + newX]; // 假设image是二维数组的一维表示
}
}
Avged = (newPixel-image[tempLen])/24;
}
image[tempLen] = Avged;
//JZSDK_LOG_INFO("切除位置(%d,%d) %d",PointX,PointY,Blind[Blind_num]);
}
}
//二分取值法
if (order == 1)
{
for (int i = Blind_num-1; i >= 0; i--)
{
int PointX = 0;
int PointY = 0;
unsigned int newPixel = 0;
//获取xy轴坐标
int tempLen = Blind[i];
PointY = tempLen/width;
PointX = tempLen%width;
int index=0;
int Avged=0;
int tempPixel[25];
for (int dy = -2; dy <= 2; dy++)
{
for (int dx = -2; dx <= 2; dx++)
{
// 计算5x5窗口中当前元素的索引
int newY = PointY + dy;
int newX = PointX + dx;
tempPixel[index] = image[newY * width + newX];
newPixel += tempPixel[index];
index++;
}
}
Avged = (newPixel-image[tempLen])/24;
int MaxAvgd = 0;
int MinAvgd = 0;
int MaxNum = 0;
int MinNum = 0;
for (int i = 0; i < 25; i++)
{
if (i==12)
{
continue;
}
if (tempPixel[i] < Avged)
{
MinAvgd++;
MinNum+=tempPixel[i];
}
else
{
MaxAvgd++;
MaxNum+=tempPixel[i];
}
}
int NewAvgd = 0;
if (MaxAvgd >= MinAvgd)
{
NewAvgd = MaxNum/MaxAvgd;
}
else
{
NewAvgd = MinNum/MinAvgd;
}
image[tempLen] = NewAvgd;
//JZSDK_LOG_INFO("切除位置(%d,%d) %d",PointX,PointY,Blind[Blind_num]);
}
}
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS;
}
// 定义一个结构体来存储点的坐标
typedef struct BlindPoint{
int x;
int y;
} BlindPoint;
//手动盲点加载
T_JZsdkReturnCode JZsdkBadPixelProcManualLoad(unsigned int *blind, unsigned int *blindNum,int witdh)
{
FILE *fp = fopen("/root/IRC_File/BlindPixels.txt", "r"); // 假设文件已打开,并且路径正确
if (!fp) {
// 错误处理:文件打开失败
return JZ_ERROR_SYSTEM_MODULE_CODE_FAILURE;
}
BlindPoint *points = NULL; // 用于存储已读取的整数对(即点的坐标)
int count = 0; // 用于记录已读取的点的个数
int capacity = 0; // 用于记录当前分配的内存容量(以点的个数计)
// 读取数据,每两个整数表示一个点的x和y坐标
int x, y;
while (fscanf(fp, "%d %d", &x, &y) == 2) { // 确保一次读取两个整数
// 如果当前容量不足以存储新点,则增加容量
if (count >= capacity) {
capacity = (capacity == 0) ? 10 : capacity * 2; // 初始容量为10,之后每次翻倍
points = realloc(points, capacity * sizeof(BlindPoint));
if (points == NULL) {
// 如果内存分配失败,则释放已分配的内存并退出
free(points);
fclose(fp);
// 这里可以添加适当的错误日志或处理
return JZ_ERROR_SYSTEM_MODULE_CODE_INVALID_PARAMETER; // 或其他错误代码
}
}
points[count].x = x; // 存储x坐标
points[count].y = y; // 存储y坐标
count++; // 增加计数器
}
//将point数组放入dealInfo中
for (int i = 0; i < count; i++)
{
blind[i] = points[i].x + points[i].y * witdh;
}
*blindNum = count;
JZSDK_LOG_INFO("加载了%d个盲点",count);
// 释放分配的内存
free(points);
fclose(fp);
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS;
}
//手动盲点保存
T_JZsdkReturnCode JZsdkBadPixelProcManualSave(unsigned int *blind, unsigned int blindNum,int witdh)
{
return JZ_ERROR_SYSTEM_MODULE_CODE_SUCCESS;
}