1
0
Fork 0
fgmeta/python3-flightgear/flightgear/meta/aircraft_catalogs/catalog.py
Florent Rougon 1c2d17d869 Reorganize catalog modules
- Move the support modules inside python3-flightgear/flightgear/ and
  remove their shebang, if any.
- Accordingly adapt the import statements.
- Change shebangs from e.g. '#! /usr/bin/python' to
  '#! /usr/bin/env python3'.
- Small changes to make Python 3 happy with all scripts.

catalog/check_aircraft.py should be run under Python 3 from now on.
2020-06-19 18:15:25 +02:00

431 lines
14 KiB
Python

# -*- coding: utf-8 -*-
import argparse
import datetime
from fnmatch import fnmatch, translate
import lxml.etree as ET
import os
from os.path import exists, join, relpath
from os import F_OK, access, walk
import re
import sys
import zipfile
from flightgear.meta import sgprops
from . import catalogTags
CATALOG_VERSION = 4
quiet = False
verbose = False
# The Python version.
PY_VERSION = sys.version_info[0]
# Python 2 and 3 compatibility.
if PY_VERSION == 3:
long = int
def warning(msg):
if not quiet:
print(msg)
def log(msg):
if verbose:
print(msg)
# xml node (robust) get text helper
def get_xml_text(e):
if e != None and e.text != None:
return e.text
else:
return ''
# return all available aircraft information from the set file as a
# dict
def scan_set_file(aircraft_dir, set_file, includes):
base_file = os.path.basename(set_file)
base_id = base_file[:-8]
set_path = os.path.join(aircraft_dir, set_file)
includes.append(aircraft_dir)
root_node = sgprops.readProps(set_path, includePaths = includes)
if not root_node.hasChild("sim"):
return None
sim_node = root_node.getChild("sim")
if sim_node == None:
return None
# allow -set.xml files to specifcially exclude themselves from
# the creation process, by setting <exclude-from-catalog>true</>
if (sim_node.getValue("exclude-from-catalog", False) == True):
return None
variant = {}
name = sim_node.getValue("description", None)
if (name == None or len(name) == 0):
warning("Set file " + set_file + " is missing a <description>, skipping")
return None
variant['name'] = name
variant['status'] = sim_node.getValue("status", None)
if sim_node.hasChild('authors'):
# aircraft has structured authors data, handle that
variant['authors'] = sim_node.getChild('authors')
# can have legacy author tag alongside new strucutred data for
# backwards FG compatability
if sim_node.hasChild('author'):
variant['author'] = sim_node.getValue("author", None)
if sim_node.hasChild('maintainers'):
variant['maintainers'] = sim_node.getChild('maintainers')
if sim_node.hasChild('urls'):
variant['urls'] = sim_node.getChild('urls')
if sim_node.hasChild('long-description'):
variant['description'] = sim_node.getValue("long-description", None)
variant['id'] = base_id
# allow -set.xml files to declare themselves as primary.
# we use this avoid needing a variant-of in every other -set.xml
variant['primary-set'] = sim_node.getValue('primary-set', False)
# extract and record previews for each variant
if sim_node.hasChild('previews'):
variant['previews'] = extract_previews(sim_node.getChild('previews'), aircraft_dir)
if sim_node.hasChild('rating'):
variant['rating'] = sim_node.getChild("rating")
if sim_node.hasChild('tags'):
variant['tags'] = extract_tags(sim_node.getChild('tags'), set_file)
if sim_node.hasChild('thumbnail'):
variant['thumbnail'] = sim_node.getValue("thumbnail", None)
variant['variant-of'] = sim_node.getValue("variant-of", None)
if sim_node.hasChild('minimum-fg-version'):
variant['minimum-fg-version'] = sim_node.getValue('minimum-fg-version', None)
#print(" %s" % variant)
return variant
def extract_previews(previews_node, aircraft_dir):
result = []
for node in previews_node.getChildren("preview"):
previewType = node.getValue("type", None)
previewPath = node.getValue("path", None)
# check path exists in base-name-dir
fullPath = os.path.join(aircraft_dir, previewPath)
if not os.path.isfile(fullPath):
warning("Bad preview path, skipping:" + fullPath)
continue
result.append({'type':previewType, 'path':previewPath})
return result
def extract_tags(tags_node, set_path):
result = []
for node in tags_node.getChildren("tag"):
tag = node.value
# check tag is in the allowed list
if not catalogTags.isValidTag(tag):
warning("Unknown tag value:" + tag + " in " + set_path)
result.append(tag)
return result
# scan all the -set.xml files in an aircraft directory. Returns a
# package dict and a list of variants.
def scan_aircraft_dir(aircraft_dir, includes):
setDicts = []
primaryAircraft = []
package = None
files = os.listdir(aircraft_dir)
for file in sorted(files, key=lambda s: s.lower()):
if file.endswith('-set.xml'):
# print('trying: %s' % file)
try:
d = scan_set_file(aircraft_dir, file, includes)
if d == None:
continue
except:
print("Skipping set file since couldn't be parsed: %s %s" % os.path.join(aircraft_dir, file), sys.exc_info()[0])
continue
setDicts.append(d)
if d['primary-set']:
# ensure explicit primary-set aircraft goes first
primaryAircraft.insert(0, d)
elif d['variant-of'] == None:
primaryAircraft.append(d)
# print(setDicts)
if len(setDicts) == 0:
return None, None
# use the first one
if len(primaryAircraft) == 0:
print("Aircraft has no primary aircraft at all: %s" % aircraft_dir)
primaryAircraft = [setDicts[0]]
package = primaryAircraft[0]
if not 'thumbnail' in package:
if (os.path.exists(os.path.join(aircraft_dir, "thumbnail.jpg"))):
package['thumbnail'] = "thumbnail.jpg"
# variants is just all the set dicts except the first one
variants = setDicts
variants.remove(package)
return (package, variants)
# create an xml node with text content
def make_xml_leaf(name, text):
leaf = ET.Element(name)
if text != None:
if isinstance(text, (int, long)):
leaf.text = str(text)
else:
leaf.text = text
else:
leaf.text = ''
return leaf
def append_preview_nodes(node, variant, download_base, package_name):
if not 'previews' in variant:
return
for preview in variant['previews']:
preview_node = ET.Element('preview')
preview_url = download_base + 'previews/' + package_name + '_' + preview['path']
preview_node.append( make_xml_leaf('type', preview['type']) )
preview_node.append( make_xml_leaf('url', preview_url) )
preview_node.append( make_xml_leaf('path', preview['path']) )
node.append(preview_node)
def append_tag_nodes(node, variant):
if not 'tags' in variant:
return
for tag in variant['tags']:
node.append(make_xml_leaf('tag', tag))
def append_author_nodes(node, info):
if 'authors' in info:
node.append(info['authors']._createXMLElement())
if 'author' in info:
# traditional single author string
node.append( make_xml_leaf('author', info['author']) )
def make_aircraft_node(aircraftDirName, package, variants, downloadBase, mirrors):
#print("package: %s" % package)
#print("variants: %s" % variants)
package_node = ET.Element('package')
package_node.append( make_xml_leaf('name', package['name']) )
package_node.append( make_xml_leaf('status', package['status']) )
append_author_nodes(package_node, package)
if 'description' in package:
package_node.append( make_xml_leaf('description', package['description']) )
if 'minimum-fg-version' in package:
package_node.append( make_xml_leaf('minimum-fg-version', package['minimum-fg-version']) )
if 'rating' in package:
package_node.append(package['rating']._createXMLElement())
package_node.append( make_xml_leaf('id', package['id']) )
for variant in variants:
variant_node = ET.Element('variant')
package_node.append(variant_node)
variant_node.append( make_xml_leaf('id', variant['id']) )
variant_node.append( make_xml_leaf('name', variant['name']) )
if 'description' in variant:
variant_node.append( make_xml_leaf('description', variant['description']) )
if 'author' in variant:
variant_node.append( make_xml_leaf('author', variant['author']) )
if 'thumbnail' in variant:
# note here we prefix with the package name, since the thumbnail path
# is assumed to be unique within the package
thumbUrl = downloadBase + "thumbnails/" + aircraftDirName + '_' + variant['thumbnail']
variant_node.append(make_xml_leaf('thumbnail', thumbUrl))
variant_node.append(make_xml_leaf('thumbnail-path', variant['thumbnail']))
variantOf = variant['variant-of']
if variantOf is None:
variant_node.append(make_xml_leaf('variant-of', '_primary_'))
else:
variant_node.append(make_xml_leaf('variant-of', variantOf))
append_preview_nodes(variant_node, variant, downloadBase, aircraftDirName)
append_tag_nodes(variant_node, variant)
append_author_nodes(variant_node, variant)
package_node.append( make_xml_leaf('dir', aircraftDirName) )
# primary URL is first
download_url = downloadBase + aircraftDirName + '.zip'
package_node.append( make_xml_leaf('url', download_url) )
for m in mirrors:
mu = m + aircraftDirName + '.zip'
package_node.append( make_xml_leaf('url', mu) )
if 'thumbnail' in package:
thumbnail_url = downloadBase + 'thumbnails/' + aircraftDirName + '_' + package['thumbnail']
package_node.append( make_xml_leaf('thumbnail', thumbnail_url) )
package_node.append( make_xml_leaf('thumbnail-path', package['thumbnail']))
append_preview_nodes(package_node, package, downloadBase, aircraftDirName)
append_tag_nodes(package_node, package)
if 'maintainers' in package:
package_node.append(package['maintainers']._createXMLElement())
if 'urls' in package:
package_node.append(package['urls']._createXMLElement())
return package_node
def make_aircraft_zip(repo_path, craft_name, zip_file, global_zip_excludes, verbose=True):
"""Create a zip archive of the given aircraft."""
# Printout.
if verbose:
print("Zip file creation: %s.zip" % craft_name)
# Go to the directory of crafts to catalog.
savedir = os.getcwd()
os.chdir(repo_path)
# Clear out the old file.
if exists(zip_file):
os.remove(zip_file)
# Use the Python zipfile module to create the zip file.
zip_handle = zipfile.ZipFile(zip_file, 'w', zipfile.ZIP_DEFLATED)
# Find a per-craft exclude list.
craft_path = join(repo_path, craft_name)
exclude_file = join(craft_path, 'zip-excludes.lst')
if exists(exclude_file):
if verbose:
print("Found the craft specific exclusion list '%s'" % exclude_file)
# Otherwise use the catalog default exclusion list.
else:
exclude_file = global_zip_excludes
# Process the exclusion list and find all matching file names.
blacklist = fetch_zip_exclude_list(craft_name, craft_path, exclude_file)
# Walk over all craft files.
print_format = " %-30s '%s'"
for root, dirs, files in walk(craft_path):
# Loop over the files.
for file in files:
# The directory and relative and absolute paths.
dir = relpath(root, start=repo_path)
full_path = join(root, file)
rel_path = relpath(full_path, start=repo_path)
# Skip blacklist files or directories.
skip = False
if file == 'zip-excludes.lst':
if verbose:
print(print_format % ("Skipping the file:", join(dir, 'zip-excludes.lst')))
skip = True
if dir in blacklist:
if verbose:
print(print_format % ("Skipping the file:", join(dir, file)))
skip = True
for name in blacklist:
if fnmatch(rel_path, name):
if verbose:
print(print_format % ("Skipping the file:", rel_path))
skip = True
break
if skip:
continue
# Otherwise add the file.
zip_handle.write(rel_path)
# Clean up.
os.chdir(savedir)
zip_handle.close()
def fetch_zip_exclude_list(name, path, exclude_path):
"""Use Unix style path regular expression to find all files to exclude."""
# Init.
blacklist = []
file = open(exclude_path)
exclude_list = file.readlines()
file.close()
old_path = os.getcwd()
os.chdir(path)
# Process each exclusion path or regular expression, converting to Python RE objects.
reobj_list = []
for i in range(len(exclude_list)):
reobj_list.append(re.compile(translate(exclude_list[i].strip())))
# Recursively loop over all files, finding the ones to exclude.
for root, dirs, files in walk(path):
for file in files:
full_path = join(root, file)
rel_path = join(name, relpath(full_path, start=path))
# Skip Unix shell-style wildcard matches
for i in range(len(reobj_list)):
if reobj_list[i].match(rel_path):
blacklist.append(rel_path)
break
# Return to the original path.
os.chdir(old_path)
# Return the list.
return blacklist
def parse_config_file(parser=None, file_name=None):
"""Test and parse the catalog configuration file."""
# Check for the file.
if not access(file_name, F_OK):
print("CatalogError: The catalog configuration file '%s' cannot be found." % file_name)
sys.exit(1)
# Parse the XML and return the root node.
config = ET.parse(file_name, parser)
return config.getroot()
def parse_template_file(parser=None, file_name=None):
"""Test and parse the catalog configuration file."""
# Check for the file.
if not access(file_name, F_OK):
print("CatalogError: The catalog template file '%s' cannot be found." % file_name)
sys.exit(1)
# Parse the XML and return the template node.
template = ET.parse(file_name, parser)
template_root = template.getroot()
return template_root.find('template')