| #!/usr/bin/python2 |
| # |
| # Copyright 2016 The ANGLE Project Authors. All rights reserved. |
| # Use of this source code is governed by a BSD-style license that can be |
| # found in the LICENSE file. |
| # |
| # bmp_to_nv12.py: |
| # Script to convert a simple BMP file to an NV12 format. Used to create |
| # test images for the NV12 texture stream end to end tests |
| |
| import sys |
| import struct |
| |
| if len(sys.argv) != 4: |
| print("Usage: bmp_to_nv12.py input output prefix") |
| exit(0) |
| |
| bmp_file = open(sys.argv[1], "rb") |
| |
| magic = bmp_file.read(2) |
| if (magic != "BM"): |
| print("Invalid BMP magic") |
| exit(1) |
| |
| file_size, = struct.unpack("I", bmp_file.read(4)) |
| |
| # eat reserved bytes |
| bmp_file.read(4) |
| |
| offset, = struct.unpack("I", bmp_file.read(4)) |
| |
| headersize, = struct.unpack("I", bmp_file.read(4)) |
| width, = struct.unpack("i", bmp_file.read(4)) |
| height, = struct.unpack("i", bmp_file.read(4)) |
| planes, = struct.unpack("H", bmp_file.read(2)) |
| bpp, = struct.unpack("H", bmp_file.read(2)) |
| compression, = struct.unpack("i", bmp_file.read(4)) |
| image_size, = struct.unpack("i", bmp_file.read(4)) |
| |
| if (bpp != 24 or compression != 0): |
| print("Unsupported BMP file") |
| bmp_file.close() |
| exit(1) |
| |
| bmp_file.seek(offset, 0) |
| pixels = bmp_file.read(width * height * 3) |
| bmp_file.close() |
| |
| # convert to YUV 4:4:4 |
| converted_pixels = bytearray(pixels) |
| for i in range(0, width * height): |
| R, = struct.unpack("B", pixels[i*3+2]) |
| G, = struct.unpack("B", pixels[i*3+1]) |
| B, = struct.unpack("B", pixels[i*3]) |
| converted_pixels[i*3] = ((66*R + 129*G + 25*B + 128) >> 8) + 16 |
| converted_pixels[i*3+1] = ((-38*R - 74*G + 112*B + 128) >> 8) + 128 |
| converted_pixels[i*3+2] = ((112*R - 94*G - 18*B + 128) >> 8) + 128 |
| |
| # downsample to packed UV buffer |
| uv_buffer = bytearray(width * height / 2) |
| for i in range(0, width * height / 2, 2): |
| U1 = converted_pixels[((((i / width) * 2) * width) + (i % width)) * 3 + 1] |
| U2 = converted_pixels[((((i / width) * 2) * width) + width + (i % width)) * 3 + 1] |
| V1 = converted_pixels[((((i / width) * 2) * width) + (i % width)) * 3 + 2] |
| V2 = converted_pixels[((((i / width) * 2) * width) + width + (i % width)) * 3 + 2] |
| uv_buffer[i] = (U1 + U2) / 2 |
| uv_buffer[i + 1] = (V1 + V2) / 2 |
| |
| # extract the Y buffer |
| y_buffer = bytearray(width * height) |
| for i in range(0, width * height): |
| y_buffer[i] = converted_pixels[i * 3] |
| |
| # write out the file as a C header |
| nv12_file = open(sys.argv[2], "w") |
| nv12_file.write("// Automatically generated from " + sys.argv[1] + "\n") |
| nv12_file.write("static const size_t " + sys.argv[3] + "_width = " + str(width) + ";\n") |
| nv12_file.write("static const size_t " + sys.argv[3] + "_height = " + str(height) + ";\n") |
| nv12_file.write("static const unsigned char " + sys.argv[3] + "_data[] = \n{") |
| for i in range(0, width * height): |
| if (i % 16) == 0: |
| nv12_file.write("\n ") |
| nv12_file.write(str(y_buffer[i]) + ",") |
| for i in range(0, width * height / 2): |
| if (i % 16) == 0: |
| nv12_file.write("\n ") |
| nv12_file.write(str(uv_buffer[i]) + ",") |
| nv12_file.write("\n};") |
| nv12_file.close() |