#!/usr/bin/env python import fnmatch import os import sys import re import math import platform import xml.etree.ElementTree as ET ################################################################################ # Config # ################################################################################ flags = { 'c': platform.platform() != 'Windows', # Disable by default on windows, since we use ANSI escape codes 'b': False, 'g': False, 's': False, 'u': False, 'h': False, 'p': False, 'o': True, 'i': False, 'a': True, 'e': False, } flag_descriptions = { 'c': 'Toggle colors when outputting.', 'b': 'Toggle showing only not fully described classes.', 'g': 'Toggle showing only completed classes.', 's': 'Toggle showing comments about the status.', 'u': 'Toggle URLs to docs.', 'h': 'Show help and exit.', 'p': 'Toggle showing percentage as well as counts.', 'o': 'Toggle overall column.', 'i': 'Toggle collapse of class items columns.', 'a': 'Toggle showing all items.', 'e': 'Toggle hiding empty items.', } long_flags = { 'colors': 'c', 'use-colors': 'c', 'bad': 'b', 'only-bad': 'b', 'good': 'g', 'only-good': 'g', 'comments': 's', 'status': 's', 'urls': 'u', 'gen-url': 'u', 'help': 'h', 'percent': 'p', 'use-percentages': 'p', 'overall': 'o', 'use-overall': 'o', 'items': 'i', 'collapse': 'i', 'all': 'a', 'empty': 'e', } table_columns = ['name', 'brief_description', 'description', 'methods', 'constants', 'members', 'signals'] table_column_names = ['Name', 'Brief Desc.', 'Desc.', 'Methods', 'Constants', 'Members', 'Signals'] colors = { 'name': [36], # cyan 'part_big_problem': [4, 31], # underline, red 'part_problem': [31], # red 'part_mostly_good': [33], # yellow 'part_good': [32], # green 'url': [4, 34], # underline, blue 'section': [1, 4], # bold, underline 'state_off': [36], # cyan 'state_on': [1, 35], # bold, magenta/plum } overall_progress_description_weigth = 10 ################################################################################ # Utils # ################################################################################ def validate_tag(elem, tag): if elem.tag != tag: print('Tag mismatch, expected "' + tag + '", got ' + elem.tag) sys.exit(255) def color(color, string): if flags['c'] and terminal_supports_color(): color_format = '' for code in colors[color]: color_format += '\033[' + str(code) + 'm' return color_format + string + '\033[0m' else: return string ansi_escape = re.compile(r'\x1b[^m]*m') def nonescape_len(s): return len(ansi_escape.sub('', s)) def terminal_supports_color(): p = sys.platform supported_platform = p != 'Pocket PC' and (p != 'win32' or 'ANSICON' in os.environ) is_a_tty = hasattr(sys.stdout, 'isatty') and sys.stdout.isatty() if not supported_platform or not is_a_tty: return False return True ################################################################################ # Classes # ################################################################################ class ClassStatusProgress: def __init__(self, described=0, total=0): self.described = described self.total = total def __add__(self, other): return ClassStatusProgress(self.described + other.described, self.total + other.total) def increment(self, described): if described: self.described += 1 self.total += 1 def is_ok(self): return self.described >= self.total def to_configured_colored_string(self): if flags['p']: return self.to_colored_string('{percent}% ({has}/{total})', '{pad_percent}{pad_described}{s}{pad_total}') else: return self.to_colored_string() def to_colored_string(self, format='{has}/{total}', pad_format='{pad_described}{s}{pad_total}'): ratio = float(self.described) / float(self.total) if self.total != 0 else 1 percent = int(round(100 * ratio)) s = format.format(has=str(self.described), total=str(self.total), percent=str(percent)) if self.described >= self.total: s = color('part_good', s) elif self.described >= self.total / 4 * 3: s = color('part_mostly_good', s) elif self.described > 0: s = color('part_problem', s) else: s = color('part_big_problem', s) pad_size = max(len(str(self.described)), len(str(self.total))) pad_described = ''.ljust(pad_size - len(str(self.described))) pad_percent = ''.ljust(3 - len(str(percent))) pad_total = ''.ljust(pad_size - len(str(self.total))) return pad_format.format(pad_described=pad_described, pad_total=pad_total, pad_percent=pad_percent, s=s) class ClassStatus: def __init__(self, name=''): self.name = name self.has_brief_description = True self.has_description = True self.progresses = { 'methods': ClassStatusProgress(), 'constants': ClassStatusProgress(), 'members': ClassStatusProgress(), 'signals': ClassStatusProgress() } def __add__(self, other): new_status = ClassStatus() new_status.name = self.name new_status.has_brief_description = self.has_brief_description and other.has_brief_description new_status.has_description = self.has_description and other.has_description for k in self.progresses: new_status.progresses[k] = self.progresses[k] + other.progresses[k] return new_status def is_ok(self): ok = True ok = ok and self.has_brief_description ok = ok and self.has_description for k in self.progresses: ok = ok and self.progresses[k].is_ok() return ok def is_empty(self): sum = 0 for k in self.progresses: if self.progresses[k].is_ok(): continue sum += self.progresses[k].total return sum < 1 def make_output(self): output = {} output['name'] = color('name', self.name) ok_string = color('part_good', 'OK') missing_string = color('part_big_problem', 'MISSING') output['brief_description'] = ok_string if self.has_brief_description else missing_string output['description'] = ok_string if self.has_description else missing_string description_progress = ClassStatusProgress( (self.has_brief_description + self.has_description) * overall_progress_description_weigth, 2 * overall_progress_description_weigth ) items_progress = ClassStatusProgress() for k in ['methods', 'constants', 'members', 'signals']: items_progress += self.progresses[k] output[k] = self.progresses[k].to_configured_colored_string() output['items'] = items_progress.to_configured_colored_string() output['overall'] = (description_progress + items_progress).to_colored_string('{percent}%', '{pad_percent}{s}') if self.name.startswith('Total'): output['url'] = color('url', 'http://docs.godotengine.org/en/latest/classes/') if flags['s']: output['comment'] = color('part_good', 'ALL OK') else: output['url'] = color('url', 'http://docs.godotengine.org/en/latest/classes/class_{name}.html'.format(name=self.name.lower())) if flags['s'] and not flags['g'] and self.is_ok(): output['comment'] = color('part_good', 'ALL OK') return output @staticmethod def generate_for_class(c): status = ClassStatus() status.name = c.attrib['name'] # setgets do not count methods = [] for tag in list(c): if tag.tag in ['methods']: for sub_tag in list(tag): methods.append(sub_tag.attrib['name']) if tag.tag in ['members']: for sub_tag in list(tag): try: if(sub_tag.attrib['setter'].startswith('_') == False): methods.remove(sub_tag.attrib['setter']) if(sub_tag.attrib['getter'].startswith('_') == False): methods.remove(sub_tag.attrib['getter']) except: pass for tag in list(c): if tag.tag == 'brief_description': status.has_brief_description = len(tag.text.strip()) > 0 elif tag.tag == 'description': status.has_description = len(tag.text.strip()) > 0 elif tag.tag in ['methods', 'signals']: for sub_tag in list(tag): if sub_tag.attrib['name'] in methods or tag.tag == 'signals': descr = sub_tag.find('description') status.progresses[tag.tag].increment(len(descr.text.strip()) > 0) elif tag.tag in ['constants', 'members']: for sub_tag in list(tag): status.progresses[tag.tag].increment(len(sub_tag.text.strip()) > 0) elif tag.tag in ['tutorials', 'demos']: pass # Ignore those tags for now elif tag.tag in ['theme_items']: pass # Ignore those tags, since they seem to lack description at all else: print(tag.tag, tag.attrib) return status ################################################################################ # Arguments # ################################################################################ input_file_list = [] input_class_list = [] merged_file = "" for arg in sys.argv[1:]: try: if arg.startswith('--'): flags[long_flags[arg[2:]]] = not flags[long_flags[arg[2:]]] elif arg.startswith('-'): for f in arg[1:]: flags[f] = not flags[f] elif os.path.isdir(arg): for f in os.listdir(arg): if f.endswith('.xml'): input_file_list.append(os.path.join(arg, f)); else: input_class_list.append(arg) except KeyError: print("Unknown command line flag: " + arg) sys.exit(1) if flags['i']: for r in ['methods', 'constants', 'members', 'signals']: index = table_columns.index(r) del table_column_names[index] del table_columns[index] table_column_names.append('Items') table_columns.append('items') if flags['o'] == (not flags['i']): table_column_names.append('Overall') table_columns.append('overall') if flags['u']: table_column_names.append('Docs URL') table_columns.append('url') ################################################################################ # Help # ################################################################################ if len(input_file_list) < 1 or flags['h']: if not flags['h']: print(color('section', 'Invalid usage') + ': Please specify a classes directory') print(color('section', 'Usage') + ': doc_status.py [flags] [class names]') print('\t< and > signify required parameters, while [ and ] signify optional parameters.') print(color('section', 'Available flags') + ':') possible_synonym_list = list(long_flags) possible_synonym_list.sort() flag_list = list(flags) flag_list.sort() for flag in flag_list: synonyms = [color('name', '-' + flag)] for synonym in possible_synonym_list: if long_flags[synonym] == flag: synonyms.append(color('name', '--' + synonym)) print(('{synonyms} (Currently ' + color('state_' + ('on' if flags[flag] else 'off'), '{value}') + ')\n\t{description}').format( synonyms=', '.join(synonyms), value=('on' if flags[flag] else 'off'), description=flag_descriptions[flag] )) sys.exit(0) ################################################################################ # Parse class list # ################################################################################ class_names = [] classes = {} for file in input_file_list: tree = ET.parse(file) doc = tree.getroot() if 'version' not in doc.attrib: print('Version missing from "doc"') sys.exit(255) version = doc.attrib['version'] if doc.attrib['name'] in class_names: continue class_names.append(doc.attrib['name']) classes[doc.attrib['name']] = doc class_names.sort() if len(input_class_list) < 1: input_class_list = ['*'] filtered_classes = set() for pattern in input_class_list: filtered_classes |= set(fnmatch.filter(class_names, pattern)) filtered_classes = list(filtered_classes) filtered_classes.sort() ################################################################################ # Make output table # ################################################################################ table = [table_column_names] table_row_chars = '| - ' table_column_chars = '|' total_status = ClassStatus('Total') for cn in filtered_classes: c = classes[cn] validate_tag(c, 'class') status = ClassStatus.generate_for_class(c) total_status = total_status + status if (flags['b'] and status.is_ok()) or (flags['g'] and not status.is_ok()) or (not flags['a']): continue if flags['e'] and status.is_empty(): continue out = status.make_output() row = [] for column in table_columns: if column in out: row.append(out[column]) else: row.append('') if 'comment' in out and out['comment'] != '': row.append(out['comment']) table.append(row) ################################################################################ # Print output table # ################################################################################ if len(table) == 1 and flags['a']: print(color('part_big_problem', 'No classes suitable for printing!')) sys.exit(0) if len(table) > 2 or not flags['a']: total_status.name = 'Total = {0}'.format(len(table) - 1) out = total_status.make_output() row = [] for column in table_columns: if column in out: row.append(out[column]) else: row.append('') table.append(row) table_column_sizes = [] for row in table: for cell_i, cell in enumerate(row): if cell_i >= len(table_column_sizes): table_column_sizes.append(0) table_column_sizes[cell_i] = max(nonescape_len(cell), table_column_sizes[cell_i]) divider_string = table_row_chars[0] for cell_i in range(len(table[0])): divider_string += table_row_chars[1] + table_row_chars[2] * (table_column_sizes[cell_i]) + table_row_chars[1] + table_row_chars[0] print(divider_string) for row_i, row in enumerate(table): row_string = table_column_chars for cell_i, cell in enumerate(row): padding_needed = table_column_sizes[cell_i] - nonescape_len(cell) + 2 if cell_i == 0: row_string += table_row_chars[3] + cell + table_row_chars[3] * (padding_needed - 1) else: row_string += table_row_chars[3] * int(math.floor(float(padding_needed) / 2)) + cell + table_row_chars[3] * int(math.ceil(float(padding_needed) / 2)) row_string += table_column_chars print(row_string) if row_i == 0 or row_i == len(table) - 2: print(divider_string) print(divider_string) if total_status.is_ok() and not flags['g']: print('All listed classes are ' + color('part_good', 'OK') + '!')