| import nibabel as nib | |
| from nibabel.processing import resample_to_output | |
| from skimage.measure import marching_cubes | |
| def nifti_to_obj(path, output="prediction.obj"): | |
| # load NIFTI into numpy array | |
| image = nib.load(path) | |
| resampled = resample_to_output(image, [1, 1, 1], order=1) | |
| data = resampled.get_fdata().astype("uint8") | |
| # Create a material with a red diffuse color (RGB value) | |
| red_material = "newmtl RedMaterial\nKd 1 0 0" # Red diffuse color (RGB) | |
| # extract surface | |
| verts, faces, normals, values = marching_cubes(data, 0) | |
| faces += 1 | |
| with open(output, "w") as thefile: | |
| # Write the material definition to the OBJ file | |
| thefile.write(red_material + "\n") | |
| for item in verts: | |
| # thefile.write('usemtl RedMaterial\n') | |
| thefile.write("v {0} {1} {2}\n".format(item[0], item[1], item[2])) | |
| for item in normals: | |
| thefile.write("vn {0} {1} {2}\n".format(item[0], item[1], item[2])) | |
| for item in faces: | |
| thefile.write( | |
| "f {0}//{0} {1}//{1} {2}//{2}\n".format( | |
| item[0], item[1], item[2] | |
| ) | |
| ) | |