import os, struct import numpy as np import zlib import imageio import cv2 import png COMPRESSION_TYPE_COLOR = {-1:'unknown', 0:'raw', 1:'png', 2:'jpeg'} COMPRESSION_TYPE_DEPTH = {-1:'unknown', 0:'raw_ushort', 1:'zlib_ushort', 2:'occi_ushort'} class RGBDFrame(): def load(self, file_handle): self.camera_to_world = np.asarray(struct.unpack('f'*16, file_handle.read(16*4)), dtype=np.float32).reshape(4, 4) self.timestamp_color = struct.unpack('Q', file_handle.read(8))[0] self.timestamp_depth = struct.unpack('Q', file_handle.read(8))[0] self.color_size_bytes = struct.unpack('Q', file_handle.read(8))[0] self.depth_size_bytes = struct.unpack('Q', file_handle.read(8))[0] self.color_data = ''.join(struct.unpack('c'*self.color_size_bytes, file_handle.read(self.color_size_bytes))) self.depth_data = ''.join(struct.unpack('c'*self.depth_size_bytes, file_handle.read(self.depth_size_bytes))) def decompress_depth(self, compression_type): if compression_type == 'zlib_ushort': return self.decompress_depth_zlib() else: raise def decompress_depth_zlib(self): return zlib.decompress(self.depth_data) def decompress_color(self, compression_type): if compression_type == 'jpeg': return self.decompress_color_jpeg() else: raise def decompress_color_jpeg(self): return imageio.imread(self.color_data) class SensorData: def __init__(self, filename): self.version = 4 self.load(filename) def load(self, filename): with open(filename, 'rb') as f: version = struct.unpack('I', f.read(4))[0] assert self.version == version strlen = struct.unpack('Q', f.read(8))[0] self.sensor_name = ''.join(struct.unpack('c'*strlen, f.read(strlen))) self.intrinsic_color = np.asarray(struct.unpack('f'*16, f.read(16*4)), dtype=np.float32).reshape(4, 4) self.extrinsic_color = np.asarray(struct.unpack('f'*16, f.read(16*4)), dtype=np.float32).reshape(4, 4) self.intrinsic_depth = np.asarray(struct.unpack('f'*16, f.read(16*4)), dtype=np.float32).reshape(4, 4) self.extrinsic_depth = np.asarray(struct.unpack('f'*16, f.read(16*4)), dtype=np.float32).reshape(4, 4) self.color_compression_type = COMPRESSION_TYPE_COLOR[struct.unpack('i', f.read(4))[0]] self.depth_compression_type = COMPRESSION_TYPE_DEPTH[struct.unpack('i', f.read(4))[0]] self.color_width = struct.unpack('I', f.read(4))[0] self.color_height = struct.unpack('I', f.read(4))[0] self.depth_width = struct.unpack('I', f.read(4))[0] self.depth_height = struct.unpack('I', f.read(4))[0] self.depth_shift = struct.unpack('f', f.read(4))[0] num_frames = struct.unpack('Q', f.read(8))[0] self.frames = [] for i in range(num_frames): frame = RGBDFrame() frame.load(f) self.frames.append(frame) def export_depth_images(self, output_path, image_size=None, frame_skip=1): if not os.path.exists(output_path): os.makedirs(output_path) print 'exporting', len(self.frames)//frame_skip, ' depth frames to', output_path for f in range(0, len(self.frames), frame_skip): depth_data = self.frames[f].decompress_depth(self.depth_compression_type) depth = np.fromstring(depth_data, dtype=np.uint16).reshape(self.depth_height, self.depth_width) if image_size is not None: depth = cv2.resize(depth, (image_size[1], image_size[0]), interpolation=cv2.INTER_NEAREST) #imageio.imwrite(os.path.join(output_path, str(f) + '.png'), depth) with open(os.path.join(output_path, str(f) + '.png'), 'wb') as f: # write 16-bit writer = png.Writer(width=depth.shape[1], height=depth.shape[0], bitdepth=16) depth = depth.reshape(-1, depth.shape[1]).tolist() writer.write(f, depth) def export_color_images(self, output_path, image_size=None, frame_skip=1): if not os.path.exists(output_path): os.makedirs(output_path) print 'exporting', len(self.frames)//frame_skip, 'color frames to', output_path for f in range(0, len(self.frames), frame_skip): color = self.frames[f].decompress_color(self.color_compression_type) if image_size is not None: color = cv2.resize(color, (image_size[1], image_size[0]), interpolation=cv2.INTER_NEAREST) imageio.imwrite(os.path.join(output_path, str(f) + '.jpg'), color) def save_mat_to_file(self, matrix, filename): with open(filename, 'w') as f: for line in matrix: np.savetxt(f, line[np.newaxis], fmt='%f') def export_poses(self, output_path, frame_skip=1): if not os.path.exists(output_path): os.makedirs(output_path) print 'exporting', len(self.frames)//frame_skip, 'camera poses to', output_path for f in range(0, len(self.frames), frame_skip): self.save_mat_to_file(self.frames[f].camera_to_world, os.path.join(output_path, str(f) + '.txt')) def export_intrinsics(self, output_path): if not os.path.exists(output_path): os.makedirs(output_path) print 'exporting camera intrinsics to', output_path self.save_mat_to_file(self.intrinsic_color, os.path.join(output_path, 'intrinsic_color.txt')) self.save_mat_to_file(self.extrinsic_color, os.path.join(output_path, 'extrinsic_color.txt')) self.save_mat_to_file(self.intrinsic_depth, os.path.join(output_path, 'intrinsic_depth.txt')) self.save_mat_to_file(self.extrinsic_depth, os.path.join(output_path, 'extrinsic_depth.txt'))