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- import os
- import glob
- import sys
- import subprocess
- import time
- success_count = 0
- fail_count = 0
- skip_count = 0
- exit_status = 0
- total_time = time.monotonic()
- build_format = '| {:23} | {:30} | {:9} | {:7} | {:6} | {:6} |'
- build_separator = '-' * 100
- # 1st Argument is Example, build all examples if not existed
- all_examples = []
- if len(sys.argv) > 1:
- all_examples.append(sys.argv[1])
- else:
- for entry in os.scandir("examples/device"):
- # Only includes example with CMakeLists.txt for esp32s
- if entry.is_dir() and os.path.exists(entry.path + "/CMakeLists.txt"):
- all_examples.append(entry.name)
- all_examples.sort()
- # 2nd Argument is Board, build all boards if not existed
- all_boards = []
- if len(sys.argv) > 2:
- all_boards.append(sys.argv[2])
- else:
- for entry in os.scandir("hw/bsp"):
- if entry.is_dir():
- with open(entry.path + '/board.mk') as mk:
- # Only includes ESP32-S2 board
- if 'CROSS_COMPILE = xtensa-esp32s2-elf-' in mk.read():
- all_boards.append(entry.name)
-
- all_boards.sort()
- def build_example(example, board):
- subprocess.run("make -C examples/device/{} BOARD={} clean".format(example, board), shell=True,
- stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
- return subprocess.run("make -j 4 -C examples/device/{} BOARD={} all".format(example, board), shell=True,
- stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
- def build_size(example, board):
- #elf_file = 'examples/device/{}/_build/build-{}/{}-firmware.elf'.format(example, board, board)
- elf_file = 'examples/device/{}/_build/build-{}/*.elf'.format(example, board)
- size_output = subprocess.run('size {}'.format(elf_file), shell=True, stdout=subprocess.PIPE).stdout.decode("utf-8")
- size_list = size_output.split('\n')[1].split('\t')
- flash_size = int(size_list[0])
- sram_size = int(size_list[1]) + int(size_list[2])
- return (flash_size, sram_size)
- def skip_example(example, board):
- return 0
- print(build_separator)
- print(build_format.format('Example', 'Board', 'Result', 'Time', 'Flash', 'SRAM'))
- print(build_separator)
- for example in all_examples:
- for board in all_boards:
- start_time = time.monotonic()
- flash_size = "-"
- sram_size = "-"
- # Check if board is skipped
- if skip_example(example, board):
- success = "\033[33mskipped\033[0m "
- skip_count += 1
- print(build_format.format(example, board, success, '-', flash_size, sram_size))
- else:
- build_result = build_example(example, board)
- if build_result.returncode == 0:
- success = "\033[32msucceeded\033[0m"
- success_count += 1
- (flash_size, sram_size) = build_size(example, board)
- else:
- exit_status = build_result.returncode
- success = "\033[31mfailed\033[0m "
- fail_count += 1
- build_duration = time.monotonic() - start_time
- print(build_format.format(example, board, success, "{:.2f}s".format(build_duration), flash_size, sram_size))
- if build_result.returncode != 0:
- print(build_result.stdout.decode("utf-8"))
- total_time = time.monotonic() - total_time
- print(build_separator)
- print("Build Sumamary: {} \033[32msucceeded\033[0m, {} \033[31mfailed\033[0m, {} \033[33mskipped\033[0m and took {:.2f}s".format(success_count, fail_count, skip_count, total_time))
- print(build_separator)
- sys.exit(exit_status)
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