def analyze_project_resources(project_root_path, main_m_file_path): subdirectory_paths = get_subdirectory_paths(project_root_path) project_classes = get_classes(subdirectory_paths) set_dependencies(tuple(project_classes)) not_referenced_classes = get_non_referenced_classes(project_classes, main_m_file_path) return project_classes, not_referenced_classes
def analyze_project_resources(project_root_path, main_m_file_path): subdirectory_paths = get_subdirectory_paths(project_root_path) project_classes = get_classes(subdirectory_paths) set_dependencies(tuple(project_classes)) not_referenced_classes = get_non_referenced_classes( project_classes, main_m_file_path) return project_classes, not_referenced_classes
def convert_images_to_jpg(project_root_path, jpg_quality, image_paths): old_size = 0 new_size = 0 for image_path in image_paths: old_size += os.path.getsize(image_path) file_name = os.path.splitext(image_path)[0] jpg_file_name = file_name + '.jpg' print('Converting %s ----> %s' % (image_path, jpg_file_name)) convert_image_to_jpg(image_path, jpg_quality, jpg_file_name) swap_image_in_pbxproj(project_root_path, image_path, jpg_file_name) os.remove(image_path) new_size += os.path.getsize(jpg_file_name) file_names = [ os.path.splitext(get_resource_name( img_path[img_path.rfind('/') + 1:]))[0] for img_path in image_paths ] sources = get_sources(get_subdirectory_paths(project_root_path)) for source in sources: print(source) source_file = open(source.get_path()) source_file_lines = source_file.readlines() source_file.close() resource_in_this_source = False for line in source_file_lines: for image_name in file_names: if image_name in line: resource_in_this_source = True break if resource_in_this_source: os.remove(source.get_path()) source_file = open(source.get_path(), 'w') for line in source_file_lines: fixed_line = line for image_name in file_names: fixed_line = fixed_line.replace('@"%s"' % image_name, '@"%s.jpg"' % image_name) fixed_line = fixed_line.replace('@"%s.png"' % image_name, '@"%s.jpg"' % image_name) fixed_line = fixed_line.replace('>%s<' % image_name, '>%s.jpg<' % image_name) fixed_line = fixed_line.replace('>%s.png<' % image_name, '>%s.jpg<' % image_name) source_file.write(fixed_line) old_size = old_size / 1024.0 / 1024.0 new_size = new_size / 1024.0 / 1024.0 if old_size != 0: print('\n') print('Old size: %f MiB' % old_size) print('New size: %f MiB' % new_size) print('Difference: %f MiB' % (old_size - new_size)) print('New size is %f%% of old size.' % (100 * new_size / old_size)) print('\n')
def convert_images_to_jpg(project_root_path, jpg_quality, image_paths): old_size = 0 new_size = 0 for image_path in image_paths: old_size += os.path.getsize(image_path) file_name = os.path.splitext(image_path)[0] jpg_file_name = file_name + '.jpg' print('Converting %s ----> %s' % (image_path, jpg_file_name)) convert_image_to_jpg(image_path, jpg_quality, jpg_file_name) swap_image_in_pbxproj(project_root_path, image_path, jpg_file_name) os.remove(image_path) new_size += os.path.getsize(jpg_file_name) file_names = [os.path.splitext(get_resource_name(img_path[img_path.rfind('/') + 1:]))[0] for img_path in image_paths] sources = get_sources(get_subdirectory_paths(project_root_path)) for source in sources: print(source) source_file = open(source.get_path()) source_file_lines = source_file.readlines() source_file.close() resource_in_this_source = False for line in source_file_lines: for image_name in file_names: if image_name in line: resource_in_this_source = True break if resource_in_this_source: os.remove(source.get_path()) source_file = open(source.get_path(), 'w') for line in source_file_lines: fixed_line = line for image_name in file_names: fixed_line = fixed_line.replace('@"%s"' % image_name, '@"%s.jpg"' % image_name) fixed_line = fixed_line.replace('@"%s.png"' % image_name, '@"%s.jpg"' % image_name) fixed_line = fixed_line.replace('>%s<' % image_name, '>%s.jpg<' % image_name) fixed_line = fixed_line.replace('>%s.png<' % image_name, '>%s.jpg<' % image_name) source_file.write(fixed_line) old_size = old_size / 1024.0 / 1024.0 new_size = new_size / 1024.0 / 1024.0 if old_size != 0: print('\n') print('Old size: %f MiB' % old_size) print('New size: %f MiB' % new_size) print('Difference: %f MiB' % (old_size - new_size)) print('New size is %f%% of old size.' % (100 * new_size / old_size)) print('\n')