0.两个txt对比精度
import numpy as np
name = "fc1x_a"
path_pytorch_txt = "/data_1/everyday/1123/img_acc/libtorch_img.txt"
path_caffe_txt = "/data_1/everyday/1123/img_acc/pytorch_img.txt"
pytorch_tensor = np.loadtxt(path_pytorch_txt)
caffe_tensor = np.loadtxt(path_caffe_txt)
diff = pytorch_tensor - caffe_tensor
max_ = np.max(np.abs(diff))
print("max=", max_)
print("none zero=",np.count_nonzero(diff))
print(np.argmax(np.abs(diff)))
1.c++与python的opencv 图像生成txt验证精度
c++
cv::Mat img = cv::imread(file);
int rowNumber = img.rows; //行数
int colNumber = img.cols*img.channels(); //列数 x 通道数=每一行元素的个数
std::ofstream out_file("/data_1/everyday/1123/img_acc/libtorch_img.txt");
//双重循环,遍历所有的像素值
for (int i = 0; i < rowNumber; i++) //行循环
{
uchar *data = img.ptr<uchar>(i); //获取第i行的首地址
for (int j = 0; j < colNumber; j++) //列循环
{
// ---------【开始处理每个像素】-------------
int pix = int(data[j]);
out_file << pix << std::endl;
}
}
out_file.close();
这里有个问题需要注意, uchar *data = img.ptr
这句话当你图像
m_stand.convertTo(m_stand, CV_32FC3);
转为float的时候需要改类型
Python
img = cv2.imread(path_img)
tmp_1 = img.reshape(-1)
np.savetxt("/data_1/everyday/1123/img_acc/pytorch_img.txt",tmp_1)
2.pytorch tensor与libtorch tensor生成txt验证精度
libtorch
bool save_tensor_txt(torch::Tensor tensor_in_,string path_txt)
{
#include "fstream"
ofstream outfile(path_txt);
torch::Tensor tensor_in = tensor_in_.clone();
tensor_in = tensor_in.view({-1,1});
tensor_in = tensor_in.to(torch::kCPU);
auto result_data = tensor_in.accessor<float, 2>();
for(int i=0;i<result_data.size(0);i++)
{
float val = result_data[i][0];
// std::cout<<"val="<<val<<std::endl;
outfile<<val<<std::endl;
}
return true;
}
pytorch
def save_tensor(tensor_in,path_save):
tensor_in = tensor_in.contiguous().view(-1,1)
np_tensor = tensor_in.cpu().numpy()
# np_tensor = np_tensor.view()
np.savetxt(path_save,np_tensor,fmt='%.12e')