#!/usr/bin/python3 ## ## license:BSD-3-Clause ## copyright-holders:Vas Crabb import os import os.path import re import sys import xml.sax import xml.sax.saxutils import zlib class ErrorHandler: def __init__(self, **kwargs): super().__init__(**kwargs) self.errors = 0 self.warnings = 0 def error(self, exception): self.errors += 1 sys.stderr.write('error: %s' % (exception)) def fatalError(self, exception): raise exception def warning(self, exception): self.warnings += 1 sys.stderr.write('warning: %s' % (exception)) class Minifyer: def __init__(self, output, **kwargs): super().__init__(**kwargs) self.output = output self.incomplete_tag = False self.element_content = '' def setDocumentLocator(self, locator): pass def startDocument(self): self.output('') def endDocument(self): self.output('\n') def startElement(self, name, attrs): self.flushElementContent() if self.incomplete_tag: self.output('>') self.output('<%s' % (name)) for name in attrs.getNames(): self.output(' %s=%s' % (name, xml.sax.saxutils.quoteattr(attrs[name]))) self.incomplete_tag = True def endElement(self, name): self.flushElementContent() if self.incomplete_tag: self.output('/>') else: self.output('' % (name)) self.incomplete_tag = False def characters(self, content): self.element_content += content def ignorableWhitespace(self, whitespace): pass def processingInstruction(self, target, data): pass def flushElementContent(self): self.element_content = self.element_content.strip() if self.element_content: if self.incomplete_tag: self.output('>') self.incomplete_tag = False self.output(xml.sax.saxutils.escape(self.element_content)) self.element_content = '' class XmlError(Exception): pass class LayoutChecker(Minifyer): BADTAGPATTERN = re.compile('[^abcdefghijklmnopqrstuvwxyz0123456789_.:^$]') VARPATTERN = re.compile('^.*~[0-9A-Za-z_]+~.*$') FLOATCHARS = re.compile('^.*[.eE].*$') SHAPES = frozenset(('disk', 'led14seg', 'led14segsc', 'led16seg', 'led16segsc', 'led7seg', 'rect')) ORIENTATIONS = frozenset((0, 90, 180, 270)) YESNO = frozenset(('yes', 'no')) BLENDMODES = frozenset(('none', 'alpha', 'multiply', 'add')) def __init__(self, output, **kwargs): super().__init__(output=output, **kwargs) self.locator = None self.errors = 0 self.elements = { } self.groups = { } self.views = { } self.referenced_elements = { } self.referenced_groups = { } self.group_collections = { } self.current_collections = None def format_location(self): return '%s:%d:%d' % (self.locator.getSystemId(), self.locator.getLineNumber(), self.locator.getColumnNumber()) def handle_error(self, msg): self.errors += 1 sys.stderr.write('error: %s: %s\n' % (self.format_location(), msg)) def check_int_attribute(self, name, attrs, key, default): if key not in attrs: return default val = attrs[key] if self.VARPATTERN.match(val): return None base = 10 offs = 0 if (len(val) >= 1) and ('$' == val[0]): base = 16 offs = 1 elif (len(val) >= 2) and ('0' == val[0]) and (('x' == val[1]) or ('X' == val[1])): base = 16 offs = 2 elif (len(val) >= 1) and ('#' == val[0]): offs = 1 try: return int(val[offs:], base) except: self.handle_error('Element %s attribute %s "%s" is not an integer' % (name, key, val)) return None def check_float_attribute(self, name, attrs, key, default): if key not in attrs: return default val = attrs[key] if self.VARPATTERN.match(val): return None try: return float(val) except: self.handle_error('Element %s attribute %s "%s" is not a floating point number' % (name, key, val)) return None def check_numeric_attribute(self, name, attrs, key, default): if key not in attrs: return default val = attrs[key] if self.VARPATTERN.match(val): return None base = 0 offs = 0 try: if (len(val) >= 1) and ('$' == val[0]): base = 16 offs = 1 elif (len(val) >= 2) and ('0' == val[0]) and (('x' == val[1]) or ('X' == val[1])): base = 16 offs = 2 elif (len(val) >= 1) and ('#' == val[0]): base = 10 offs = 1 elif self.FLOATCHARS.match(val): return float(val) return int(val[offs:], base) except: self.handle_error('Element %s attribute %s "%s" is not a number' % (name, key, val)) return None def check_bool_attribute(self, name, attrs, key, default): if key not in attrs: return default val = attrs[key] if self.VARPATTERN.match(val): return None elif val in self.YESNO: return 'yes' == val self.handle_error('Element %s attribute %s "%s" is not "yes" or "no"' % (name, key, val)) return None def check_parameter(self, attrs): if 'name' not in attrs: self.handle_error('Element param missing attribute name') else: name = attrs['name'] self.check_numeric_attribute('param', attrs, 'increment', None) lshift = self.check_int_attribute('param', attrs, 'lshift', None) if (lshift is not None) and (0 > lshift): self.handle_error('Element param attribute lshift "%s" is negative' % (attrs['lshift'], )) rshift = self.check_int_attribute('param', attrs, 'rshift', None) if (rshift is not None) and (0 > rshift): self.handle_error('Element param attribute rshift "%s" is negative' % (attrs['rshift'], )) if self.repeat_depth and self.repeat_depth[-1]: if 'start' in attrs: if 'value' in attrs: self.handle_error('Element param has both start and value attributes') if 'name' in attrs: if name not in self.variable_scopes[-1]: self.variable_scopes[-1][name] = True elif not self.VARPATTERN.match(name): self.handle_error('Generator parameter "%s" redefined' % (name, )) else: if 'value' not in attrs: self.handle_error('Element param missing attribute value') if ('increment' in attrs) or ('lshift' in attrs) or ('rshift' in attrs): self.handle_error('Element param has increment/lshift/rshift attribute(s) without start attribute') if 'name' in attrs: if not self.variable_scopes[-1].get(name, False): self.variable_scopes[-1][name] = False elif not self.VARPATTERN.match(name): self.handle_error('Generator parameter "%s" redefined' % (name, )) else: if ('start' in attrs) or ('increment' in attrs) or ('lshift' in attrs) or ('rshift' in attrs): self.handle_error('Element param with start/increment/lshift/rshift attribute(s) not in repeat scope') if 'value' not in attrs: self.handle_error('Element param missing attribute value') if 'name' in attrs: self.variable_scopes[-1][attrs['name']] = False def check_bounds(self, attrs): left = self.check_float_attribute('bounds', attrs, 'left', 0.0) top = self.check_float_attribute('bounds', attrs, 'top', 0.0) right = self.check_float_attribute('bounds', attrs, 'right', 1.0) bottom = self.check_float_attribute('bounds', attrs, 'bottom', 1.0) self.check_float_attribute('bounds', attrs, 'x', 0.0) self.check_float_attribute('bounds', attrs, 'y', 0.0) self.check_float_attribute('bounds', attrs, 'xc', 0.0) self.check_float_attribute('bounds', attrs, 'yc', 0.0) width = self.check_float_attribute('bounds', attrs, 'width', 1.0) height = self.check_float_attribute('bounds', attrs, 'height', 1.0) if (left is not None) and (right is not None) and (left > right): self.handle_error('Element bounds attribute left "%s" is greater than attribute right "%s"' % ( attrs.get('left', 0.0), attrs.get('right', 1.0))) if (top is not None) and (bottom is not None) and (top > bottom): self.handle_error('Element bounds attribute top "%s" is greater than attribute bottom "%s"' % ( attrs.get('top', 0.0), attrs.get('bottom', 1.0))) if (width is not None) and (0.0 > width): self.handle_error('Element bounds attribute width "%s" is negative' % (attrs['width'], )) if (height is not None) and (0.0 > height): self.handle_error('Element bounds attribute height "%s" is negative' % (attrs['height'], )) if (('left' in attrs) and (('x' in attrs) or ('xc' in attrs))) or (('x' in attrs) and ('xc' in attrs)): self.handle_error('Element bounds has multiple horizontal origin attributes (left/x/xc)') if (('left' in attrs) and ('width' in attrs)) or ((('x' in attrs) or ('xc' in attrs)) and ('right' in attrs)): self.handle_error('Element bounds has both left/right and x/xc/width attributes') if (('top' in attrs) and (('y' in attrs) or ('yc' in attrs))) or (('y' in attrs) and ('yc' in attrs)): self.handle_error('Element bounds has multiple vertical origin attributes (top/y/yc)') if (('top' in attrs) and ('height' in attrs)) or ((('y' in attrs) or ('yc' in attrs)) and ('bottom' in attrs)): self.handle_error('Element bounds has both top/bottom and y/yc/height attributes') def check_orientation(self, attrs): if self.have_orientation[-1]: self.handle_error('Duplicate element orientation') else: self.have_orientation[-1] = True if self.check_int_attribute('orientation', attrs, 'rotate', 0) not in self.ORIENTATIONS: self.handle_error('Element orientation attribute rotate "%s" is unsupported' % (attrs['rotate'], )) for name in ('swapxy', 'flipx', 'flipy'): self.check_bool_attribute('orientation', attrs, name, None) def check_color(self, attrs): self.check_color_channel(attrs, 'red') self.check_color_channel(attrs, 'green') self.check_color_channel(attrs, 'blue') self.check_color_channel(attrs, 'alpha') def check_color_channel(self, attrs, name): channel = self.check_float_attribute('color', attrs, name, None) if (channel is not None) and ((0.0 > channel) or (1.0 < channel)): self.handle_error('Element color attribute %s "%s" outside valid range 0.0-1.0' % (name, attrs[name])) def check_tag(self, tag, element, attr): if '' == tag: self.handle_error('Element %s attribute %s is empty' % (element, attr)) else: if tag.find('^') >= 0: self.handle_error('Element %s attribute %s "%s" contains parent device reference' % (element, attr, tag)) if ':' == tag[-1]: self.handle_error('Element %s attribute %s "%s" ends with separator' % (element, attr, tag)) if tag.find('::') >= 0: self.handle_error('Element %s attribute %s "%s" contains double separator' % (element, attr, tag)) def check_component(self, name, attrs): statemask = self.check_int_attribute(name, attrs, 'statemask', None) stateval = self.check_int_attribute(name, attrs, 'state', None) if stateval is not None: if 0 > stateval: self.handle_error('Element %s attribute state "%s" is negative' % (name, attrs['state'])) if (statemask is not None) and (stateval & ~statemask): self.handle_error('Element %s attribute state "%s" has bits set that are clear in attribute statemask "%s"' % (name, attrs['state'], attrs['statemask'])) if 'image' == name: self.handlers.append((self.imageComponentStartHandler, self.imageComponentEndHandler)) else: self.handlers.append((self.componentStartHandler, self.componentEndHandler)) self.have_bounds.append({ }) self.have_color.append({ }) def check_view_item(self, name, attrs): if 'id' in attrs: if not attrs['id']: self.handle_error('Element %s attribute id is empty' % (name, )) elif not self.VARPATTERN.match(attrs['id']): if attrs['id'] in self.item_ids: self.handle_error('Element %s has duplicate id "%s" (previous %s)' % (name, attrs['id'], self.item_ids[attrs['id']])) else: self.item_ids[attrs['id']] = self.format_location() if self.repeat_depth[-1]: self.handle_error('Element %s attribute id "%s" in repeat contains no parameter references' % (name, attrs['id'])) if ('blend' in attrs) and (attrs['blend'] not in self.BLENDMODES) and not self.VARPATTERN.match(attrs['blend']): self.handle_error('Element %s attribute blend "%s" is unsupported' % (name, attrs['blend'])) if 'inputtag' in attrs: if 'inputmask' not in attrs: self.handle_error('Element %s has inputtag attribute without inputmask attribute' % (name, )) self.check_tag(attrs['inputtag'], name, 'inputtag') elif 'inputmask' in attrs: self.handle_error('Element %s has inputmask attribute without inputtag attribute' % (name, )) inputraw = None if 'inputraw' in attrs: if (attrs['inputraw'] not in self.YESNO) and (not self.VARPATTERN.match(attrs['inputraw'])): self.handle_error('Element %s attribute inputraw "%s" is not "yes" or "no"' % (name, attrs['inputraw'])) else: inputraw = 'yes' == attrs['inputraw'] if 'inputmask' not in attrs: self.handle_error('Element %s has inputraw attribute without inputmask attribute' % (name, )) if 'inputtag' not in attrs: self.handle_error('Element %s has inputraw attribute without inputtag attribute' % (name, )) inputmask = self.check_int_attribute(name, attrs, 'inputmask', None) if (inputmask is not None) and (not inputmask): self.handle_error('Element %s attribute inputmask "%s" is zero' % (name, attrs['inputmask'])) self.check_bool_attribute(name, attrs, 'clickthrough', None) def startViewItem(self, name): self.handlers.append((self.viewItemStartHandler, self.viewItemEndHandler)) self.have_bounds.append(None if 'group' == name else { }) self.have_orientation.append(False) self.have_color.append(None if 'group' == name else { }) self.have_xscroll.append(None if ('group' == name) or ('screen' == name) else False) self.have_yscroll.append(None if ('group' == name) or ('screen' == name) else False) def rootStartHandler(self, name, attrs): if 'mamelayout' != name: self.ignored_depth = 1 self.handle_error('Expected root element mamelayout but found %s' % (name, )) else: if 'version' not in attrs: self.handle_error('Element mamelayout missing attribute version') else: try: int(attrs['version']) except: self.handle_error('Element mamelayout attribute version "%s" is not an integer' % (attrs['version'], )) self.have_script = None self.variable_scopes.append({ }) self.repeat_depth.append(0) self.handlers.append((self.layoutStartHandler, self.layoutEndHandler)) def rootEndHandler(self, name, attrs): pass # should be unreachable def layoutStartHandler(self, name, attrs): if 'element' == name: if 'name' not in attrs: self.handle_error('Element element missing attribute name') else: generated_name = self.VARPATTERN.match(attrs['name']) if generated_name: self.generated_element_names = True if attrs['name'] not in self.elements: self.elements[attrs['name']] = self.format_location() elif not generated_name: self.handle_error('Element element has duplicate name (previous %s)' % (self.elements[attrs['name']], )) defstate = self.check_int_attribute(name, attrs, 'defstate', None) if (defstate is not None) and (0 > defstate): self.handle_error('Element element attribute defstate "%s" is negative' % (attrs['defstate'], )) self.handlers.append((self.elementStartHandler, self.elementEndHandler)) elif 'group' == name: self.current_collections = { } if 'name' not in attrs: self.handle_error('Element group missing attribute name') else: generated_name = self.VARPATTERN.match(attrs['name']) if generated_name: self.generated_group_names = True if attrs['name'] not in self.groups: self.groups[attrs['name']] = self.format_location() if not generated_name: self.group_collections[attrs['name']] = self.current_collections elif not generated_name: self.handle_error('Element group has duplicate name (previous %s)' % (self.groups[attrs['name']], )) self.handlers.append((self.groupViewStartHandler, self.groupViewEndHandler)) self.variable_scopes.append({ }) self.item_ids = { } self.repeat_depth.append(0) self.have_bounds.append(None) elif ('view' == name) and (not self.repeat_depth[-1]): self.current_collections = { } if 'name' not in attrs: self.handle_error('Element view missing attribute name') else: if attrs['name'] not in self.views: self.views[attrs['name']] = self.format_location() elif not self.VARPATTERN.match(attrs['name']): self.handle_error('Element view has duplicate name "%s" (previous %s)' % (attrs['name'], self.views[attrs['name']])) self.check_bool_attribute(name, attrs, 'showpointers', None) self.handlers.append((self.groupViewStartHandler, self.groupViewEndHandler)) self.variable_scopes.append({ }) self.item_ids = { } self.repeat_depth.append(0) self.have_bounds.append(None) elif 'repeat' == name: if 'count' not in attrs: self.handle_error('Element repeat missing attribute count') else: count = self.check_int_attribute(name, attrs, 'count', None) if (count is not None) and (0 >= count): self.handle_error('Element repeat attribute count "%s" is not positive' % (attrs['count'], )) self.variable_scopes.append({ }) self.repeat_depth[-1] += 1 elif 'param' == name: self.check_parameter(attrs) self.ignored_depth = 1 elif ('script' == name) and (not self.repeat_depth[-1]): if self.have_script is None: self.have_script = self.format_location() else: self.handle_error('Duplicate script element (previous %s)' % (self.have_script, )) self.ignored_depth = 1 else: self.handle_error('Encountered unexpected element %s' % (name, )) self.ignored_depth = 1 def layoutEndHandler(self, name): self.variable_scopes.pop() if self.repeat_depth[-1]: self.repeat_depth[-1] -= 1 else: if not self.generated_element_names: for element in self.referenced_elements: if (element not in self.elements) and (not self.VARPATTERN.match(element)): self.handle_error('Element "%s" not found (first referenced at %s)' % (element, self.referenced_elements[element])) if not self.generated_group_names: for group in self.referenced_groups: if (group not in self.groups) and (not self.VARPATTERN.match(group)): self.handle_error('Group "%s" not found (first referenced at %s)' % (group, self.referenced_groups[group])) if not self.views: self.handle_error('No view elements found') del self.have_script self.handlers.pop() def elementStartHandler(self, name, attrs): if name in self.SHAPES: self.check_component(name, attrs) elif 'text' == name: if 'string' not in attrs: self.handle_error('Element text missing attribute string') align = self.check_int_attribute(name, attrs, 'align', None) if (align is not None) and ((0 > align) or (2 < align)): self.handle_error('Element text attribute align "%s" not in valid range 0-2' % (attrs['align'], )) self.check_component(name, attrs) elif 'simplecounter' == name: maxstate = self.check_int_attribute(name, attrs, 'maxstate', None) if (maxstate is not None) and (0 > maxstate): self.handle_error('Element simplecounter attribute maxstate "%s" is negative' % (attrs['maxstate'], )) digits = self.check_int_attribute(name, attrs, 'digits', None) if (digits is not None) and (0 >= digits): self.handle_error('Element simplecounter attribute digits "%s" is not positive' % (attrs['digits'], )) align = self.check_int_attribute(name, attrs, 'align', None) if (align is not None) and ((0 > align) or (2 < align)): self.handle_error('Element simplecounter attribute align "%s" not in valid range 0-2' % (attrs['align'], )) self.check_component(name, attrs) elif 'image' == name: self.have_file = 'file' in attrs self.have_data = None self.check_component(name, attrs) elif 'reel' == name: # TODO: validate symbollist and improve validation of other attributes self.check_int_attribute(name, attrs, 'stateoffset', None) numsymbolsvisible = self.check_int_attribute(name, attrs, 'numsymbolsvisible', None) if (numsymbolsvisible is not None) and (0 >= numsymbolsvisible): self.handle_error('Element reel attribute numsymbolsvisible "%s" not positive' % (attrs['numsymbolsvisible'], )) reelreversed = self.check_int_attribute(name, attrs, 'reelreversed', None) if (reelreversed is not None) and ((0 > reelreversed) or (1 < reelreversed)): self.handle_error('Element reel attribute reelreversed "%s" not in valid range 0-1' % (attrs['reelreversed'], )) beltreel = self.check_int_attribute(name, attrs, 'beltreel', None) if (beltreel is not None) and ((0 > beltreel) or (1 < beltreel)): self.handle_error('Element reel attribute beltreel "%s" not in valid range 0-1' % (attrs['beltreel'], )) self.check_component(name, attrs) else: self.handle_error('Encountered unexpected element %s' % (name, )) self.ignored_depth = 1 def elementEndHandler(self, name): self.handlers.pop() def componentStartHandler(self, name, attrs): if 'bounds' == name: state = self.check_int_attribute(name, attrs, 'state', 0) if state is not None: if 0 > state: self.handle_error('Element bounds attribute state "%s" is negative' % (attrs['state'], )) if state in self.have_bounds[-1]: self.handle_error('Duplicate bounds for state %d (previous %s)' % (state, self.have_bounds[-1][state])) else: self.have_bounds[-1][state] = self.format_location() self.check_bounds(attrs) elif 'color' == name: state = self.check_int_attribute(name, attrs, 'state', 0) if state is not None: if 0 > state: self.handle_error('Element color attribute state "%s" is negative' % (attrs['state'], )) if state in self.have_color[-1]: self.handle_error('Duplicate color for state %d (previous %s)' % (state, self.have_color[-1][state])) else: self.have_color[-1][state] = self.format_location() self.check_color(attrs) self.ignored_depth = 1 def componentEndHandler(self, name): self.have_bounds.pop() self.have_color.pop() self.handlers.pop() def imageComponentStartHandler(self, name, attrs): if 'data' == name: if self.have_data is not None: self.handle_error('Element image has multiple data child elements (previous %s)' % (self.have_data)) else: self.have_data = self.format_location() if self.have_file: self.handle_error('Element image has attribute file and child element data') self.ignored_depth = 1 else: self.componentStartHandler(name, attrs) def imageComponentEndHandler(self, name): if (not self.have_file) and (self.have_data is None): self.handle_error('Element image missing attribute file or child element data') del self.have_file del self.have_data self.componentEndHandler(name) def groupViewStartHandler(self, name, attrs): if 'element' == name: if 'ref' not in attrs: self.handle_error('Element %s missing attribute ref' % (name, )) elif attrs['ref'] not in self.referenced_elements: self.referenced_elements[attrs['ref']] = self.format_location() self.check_view_item(name, attrs) self.startViewItem(name) elif 'screen' == name: if 'index' in attrs: index = self.check_int_attribute(name, attrs, 'index', None) if (index is not None) and (0 > index): self.handle_error('Element screen attribute index "%s" is negative' % (attrs['index'], )) if 'tag' in attrs: self.handle_error('Element screen has both index and tag attributes') if 'tag' in attrs: tag = attrs['tag'] self.check_tag(tag, name, 'tag') if self.BADTAGPATTERN.search(tag): self.handle_error('Element screen attribute tag "%s" contains invalid characters' % (tag, )) self.check_view_item(name, attrs) self.startViewItem(name) elif 'group' == name: if 'ref' not in attrs: self.handle_error('Element group missing attribute ref') else: if attrs['ref'] not in self.referenced_groups: self.referenced_groups[attrs['ref']] = self.format_location() if (not self.VARPATTERN.match(attrs['ref'])) and (attrs['ref'] in self.group_collections): for n, l in self.group_collections[attrs['ref']].items(): if n not in self.current_collections: self.current_collections[n] = l else: self.handle_error('Element group instantiates collection with duplicate name "%s" from %s (previous %s)' % (n, l, self.current_collections[n])) self.startViewItem(name) elif 'repeat' == name: if 'count' not in attrs: self.handle_error('Element repeat missing attribute count') else: count = self.check_int_attribute(name, attrs, 'count', None) if (count is not None) and (0 >= count): self.handle_error('Element repeat attribute count "%s" is negative' % (attrs['count'], )) self.variable_scopes.append({ }) self.repeat_depth[-1] += 1 elif 'collection' == name: if 'name' not in attrs: self.handle_error('Element collection missing attribute name') elif not self.VARPATTERN.match(attrs['name']): if attrs['name'] not in self.current_collections: self.current_collections[attrs['name']] = self.format_location() else: self.handle_error('Element collection has duplicate name (previous %s)' % (self.current_collections[attrs['name']], )) if attrs.get('visible', 'yes') not in self.YESNO: self.handle_error('Element collection attribute visible "%s" is not "yes" or "no"' % (attrs['visible'], )) self.variable_scopes.append({ }) self.collection_depth += 1 elif 'param' == name: self.check_parameter(attrs) self.ignored_depth = 1 elif 'bounds' == name: if self.have_bounds[-1] is not None: self.handle_error('Duplicate element bounds (previous %s)' % (self.have_bounds[-1], )) else: self.have_bounds[-1] = self.format_location() self.check_bounds(attrs) if self.repeat_depth[-1]: self.handle_error('Element bounds inside repeat') elif self.collection_depth: self.handle_error('Element bounds inside collection') self.ignored_depth = 1 else: self.handle_error('Encountered unexpected element %s' % (name, )) self.ignored_depth = 1 def groupViewEndHandler(self, name): self.variable_scopes.pop() if 'collection' == name: self.collection_depth -= 1 elif self.repeat_depth[-1]: self.repeat_depth[-1] -= 1 else: del self.item_ids self.current_collections = None self.repeat_depth.pop() self.have_bounds.pop() self.handlers.pop() def viewItemStartHandler(self, name, attrs): if 'animate' == name: if isinstance(self.have_bounds[-1], dict): if 'inputtag' in attrs: if 'name' in attrs: self.handle_error('Element animate has both attribute inputtag and attribute name') self.check_tag(attrs['inputtag'], name, 'inputtag') elif 'name' not in attrs: self.handle_error('Element animate has neither attribute inputtag nor attribute name') self.check_int_attribute(name, attrs, 'mask', None) else: self.handle_error('Encountered unexpected element %s' % (name, )) elif 'bounds' == name: if self.have_bounds[-1] is None: self.have_bounds[-1] = self.format_location() elif isinstance(self.have_bounds[-1], dict): state = self.check_int_attribute(name, attrs, 'state', 0) if state is not None: if 0 > state: self.handle_error('Element bounds attribute state "%s" is negative' % (attrs['state'], )) if state in self.have_bounds[-1]: self.handle_error('Duplicate bounds for state %d (previous %s)' % (state, self.have_bounds[-1][state])) else: self.have_bounds[-1][state] = self.format_location() else: self.handle_error('Duplicate element bounds (previous %s)' % (self.have_bounds[-1], )) self.check_bounds(attrs) elif 'orientation' == name: self.check_orientation(attrs) elif 'color' == name: if self.have_color[-1] is None: self.have_color[-1] = self.format_location() elif isinstance(self.have_color[-1], dict): state = self.check_int_attribute(name, attrs, 'state', 0) if state is not None: if 0 > state: self.handle_error('Element color attribute state "%s" is negative' % (attrs['state'], )) if state in self.have_color[-1]: self.handle_error('Duplicate color for state %d (previous %s)' % (state, self.have_color[-1][state])) else: self.have_color[-1][state] = self.format_location() else: self.handle_error('Duplicate element color (previous %s)' % (self.have_color[-1], )) self.check_color(attrs) elif ('xscroll' == name) or ('yscroll' == name): have_scroll = self.have_xscroll if 'xscroll' == name else self.have_yscroll if have_scroll[-1] is None: self.handle_error('Encountered unexpected element %s' % (name, )) elif have_scroll[-1]: self.handle_error('Duplicate element %s' % (name, )) else: have_scroll[-1] = self.format_location() self.check_float_attribute(name, attrs, 'size', 1.0) self.check_bool_attribute(name, attrs, 'wrap', False) if 'inputtag' in attrs: if 'name' in attrs: self.handle_error('Element %s has both attribute inputtag and attribute name' % (name, )) self.check_tag(attrs['inputtag'], name, 'inputtag') self.check_int_attribute(name, attrs, 'mask', None) self.check_int_attribute(name, attrs, 'min', None) self.check_int_attribute(name, attrs, 'max', None) else: self.handle_error('Encountered unexpected element %s' % (name, )) self.ignored_depth = 1 def viewItemEndHandler(self, name): self.have_bounds.pop() self.have_orientation.pop() self.have_color.pop() self.have_xscroll.pop() self.have_yscroll.pop() self.handlers.pop() def setDocumentLocator(self, locator): self.locator = locator super().setDocumentLocator(locator) def startDocument(self): self.handlers = [(self.rootStartHandler, self.rootEndHandler)] self.ignored_depth = 0 self.variable_scopes = [ ] self.repeat_depth = [ ] self.collection_depth = 0 self.have_bounds = [ ] self.have_orientation = [ ] self.have_color = [ ] self.have_xscroll = [ ] self.have_yscroll = [ ] self.generated_element_names = False self.generated_group_names = False super().startDocument() def endDocument(self): self.locator = None self.elements.clear() self.groups.clear() self.views.clear() self.referenced_elements.clear() self.referenced_groups.clear() self.group_collections.clear() self.current_collections = None del self.handlers del self.ignored_depth del self.variable_scopes del self.repeat_depth del self.collection_depth del self.have_bounds del self.have_orientation del self.have_color del self.have_xscroll del self.have_yscroll del self.generated_element_names del self.generated_group_names super().endDocument() def startElement(self, name, attrs): if 0 < self.ignored_depth: self.ignored_depth += 1 else: self.handlers[-1][0](name, attrs) super().startElement(name, attrs) def endElement(self, name): if 0 < self.ignored_depth: self.ignored_depth -= 1 else: self.handlers[-1][1](name) super().endElement(name) def compress_layout(src, dst, comp): state = [0, 0] def write(block): for octet in bytearray(block): if 0 == state[0]: dst('\t') elif 0 == (state[0] % 32): dst(',\n\t') else: dst(', ') state[0] += 1 dst('%3u' % (octet, )) def output(text): block = text.encode('UTF-8') state[1] += len(block) write(comp.compress(block)) error_handler = ErrorHandler() content_handler = LayoutChecker(output) parser = xml.sax.make_parser() parser.setErrorHandler(error_handler) parser.setContentHandler(content_handler) try: parser.parse(src) write(comp.flush()) dst('\n') except xml.sax.SAXException as exception: print('fatal error: %s' % (exception, )) raise XmlError('Fatal error parsing XML') if (content_handler.errors > 0) or (error_handler.errors > 0) or (error_handler.warnings > 0): raise XmlError('Error(s) and/or warning(s) parsing XML') return state[1], state[0] class BlackHole: def write(self, *args): pass def close(self): pass if __name__ == '__main__': if (len(sys.argv) > 4) or (len(sys.argv) < 2): print('Usage:') print(' complay [ []]') sys.exit(0 if len(sys.argv) <= 1 else 1) srcfile = sys.argv[1] dstfile = sys.argv[2] if len(sys.argv) >= 3 else None if len(sys.argv) >= 4: varname = sys.argv[3] else: varname = os.path.basename(srcfile) base, ext = os.path.splitext(varname) if ext.lower() == '.lay': varname = base varname = 'layout_' + re.sub('[^0-9A-Za-z_]', '_', varname) comp_type = 'internal_layout::compression::ZLIB' try: dst = open(dstfile,'w') if dstfile is not None else BlackHole() dst.write('static const unsigned char %s_data[] = {\n' % (varname)) byte_count, comp_size = compress_layout(srcfile, dst.write, zlib.compressobj()) dst.write('};\n\n') dst.write('const internal_layout %s = {\n' % (varname)) dst.write('\t%d, sizeof(%s_data), %s, %s_data\n' % (byte_count, varname, comp_type, varname)) dst.write('};\n') dst.close() except XmlError: dst.close() if dstfile is not None: os.remove(dstfile) sys.exit(2) except IOError: sys.stderr.write("Unable to open output file '%s'\n" % dstfile) dst.close() if dstfile is not None: os.remove(dstfile) sys.exit(3)