| import pdb |
| import re |
| from pattern import en |
| |
| class FieldNotFound(Exception): |
| def __init__(self, message): |
| super(FieldNotFound, self).__init__(message) |
| |
| def xproto_debug(**kwargs): |
| print kwargs |
| pdb.set_trace() |
| |
| def xproto_unquote(s): |
| return unquote(s) |
| |
| def unquote(s): |
| if (s.startswith('"') and s.endswith('"')): |
| return s[1:-1] |
| |
| def xproto_singularize(field): |
| try: |
| # The user has set a singular, as an exception that cannot be handled automatically |
| singular = field['options']['singular'] |
| singular = unquote(singular) |
| except KeyError: |
| singular = en.singularize(field['name']) |
| |
| return singular |
| |
| def xproto_singularize_pluralize(field): |
| try: |
| # The user has set a plural, as an exception that cannot be handled automatically |
| plural = field['options']['plural'] |
| plural = unquote(plural) |
| except KeyError: |
| plural = en.pluralize(en.singularize(field['name'])) |
| |
| return plural |
| |
| def xproto_pluralize(field): |
| try: |
| # The user has set a plural, as an exception that cannot be handled automatically |
| plural = field['options']['plural'] |
| plural = unquote(plural) |
| except KeyError: |
| plural = en.pluralize(field['name']) |
| |
| return plural |
| |
| def xproto_links_to_modeldef_relations(llst): |
| outlist = [] |
| seen = [] |
| for l in llst: |
| try: |
| t = l['link_type'] |
| except KeyError, e: |
| raise e |
| |
| if l['peer']['fqn'] not in seen and t!='manytomany': |
| outlist.append('- {model: %s, type: %s}\n'%(l['peer']['name'], l['link_type'])) |
| seen.append(l['peer']) |
| |
| return outlist |
| |
| |
| def xproto_base_def(model_name, base): |
| if (model_name=='XOSBase'): |
| return '(models.Model, PlModelMixIn)' |
| elif (not base): |
| return '' |
| else: |
| base = map(lambda s:s['name'], base) |
| return '(' + ','.join(base) + ')' |
| |
| def xproto_first_non_empty(lst): |
| for l in lst: |
| if l: return l |
| |
| def xproto_api_type(field): |
| try: |
| if (unquote(field['options']['content_type'])=='date'): |
| return 'float' |
| except KeyError: |
| pass |
| |
| return field['type'] |
| |
| |
| def xproto_base_name(n): |
| # Hack - Refactor NetworkParameter* to make this go away |
| if (n.startswith('NetworkParameter')): |
| return '_' |
| |
| expr = r'^[A-Z]+[a-z]*' |
| |
| try: |
| match = re.findall(expr, n)[0] |
| except: |
| return '_' |
| |
| return match |
| |
| def xproto_base_fields(m, table): |
| fields = [] |
| |
| for b in m['bases']: |
| option1 = b['fqn'] |
| try: |
| option2 = m['package'] + '.' + b['name'] |
| except TypeError: |
| option2 = option1 |
| |
| accessor = None |
| if option1 in table: accessor = option1 |
| elif option2 in table: accessor = option2 |
| |
| if accessor: |
| base_fields = xproto_base_fields(table[accessor], table) |
| |
| model_fields = table[accessor]['fields'] |
| fields.extend(base_fields) |
| fields.extend(model_fields) |
| |
| return fields |
| |
| def xproto_base_rlinks(m, table): |
| links = [] |
| |
| for base in m['bases']: |
| b = base['name'] |
| if b in table: |
| base_rlinks = xproto_base_rlinks(table[b], table) |
| |
| model_rlinks = table[b]['rlinks'] |
| links.extend(base_rlinks) |
| links.extend(model_rlinks) |
| |
| return links |
| |
| def xproto_base_links(m, table): |
| links = [] |
| |
| for base in m['bases']: |
| b = base['name'] |
| if b in table: |
| base_links = xproto_base_links(table[b], table) |
| |
| model_links = table[b]['links'] |
| links.extend(base_links) |
| links.extend(model_links) |
| return links |
| |
| |
| def xproto_validators(f): |
| # To be cleaned up when we formalize validation in xproto |
| validators = [] |
| |
| # bound-based validators |
| bound_validators = [('max_length','maxlength'), ('min', 'min'), ('max', 'max')] |
| |
| for v0, v1 in bound_validators: |
| try: |
| validators.append({'name':v1, 'int_value':int(f['options'][v0])}) |
| except KeyError: |
| pass |
| |
| # validators based on content_type |
| content_type_validators = ['ip', 'url', 'email'] |
| |
| for v in content_type_validators: |
| #if f['name']=='ip': pdb.set_trace() |
| try: |
| val = unquote(f['options']['content_type'])==v |
| if not val: |
| raise KeyError |
| |
| validators.append({'name':v, 'bool_value': True}) |
| except KeyError: |
| pass |
| |
| # required validator |
| try: |
| required = f['options']['blank']=='False' and f['options']['null']=='False' |
| if required: |
| validators.append({'name':'required', 'bool_value':required}) |
| except KeyError: |
| pass |
| |
| return validators |
| |
| def xproto_string_type(xptags): |
| try: |
| max_length = eval(xptags['max_length']) |
| except: |
| max_length = 1024 |
| |
| if ('varchar' not in xptags): |
| return 'string' |
| else: |
| return 'text' |
| |
| def xproto_type_to_ui_type(f): |
| try: |
| content_type = f['options']['content_type'] |
| content_type = eval(content_type) |
| except: |
| content_type = None |
| pass |
| |
| if content_type == 'date': |
| return 'date' |
| elif f['type'] == 'bool': |
| return 'boolean' |
| elif f['type'] == 'string': |
| return xproto_string_type(f['options']) |
| elif f['type'] in ['int','uint32','int32'] or 'link' in f: |
| return 'number' |
| elif f['type'] in ['double','float']: |
| return 'string' |
| |
| def xproto_tuplify(nested_list_or_set): |
| if not isinstance(nested_list_or_set, list) and not isinstance(nested_list_or_set, set): |
| return nested_list_or_set |
| else: |
| return tuple([xproto_tuplify(i) for i in nested_list_or_set]) |
| |
| def xproto_field_graph_components(fields, tag='unique_with'): |
| def find_components(graph): |
| pending = set(graph.keys()) |
| components = [] |
| |
| while pending: |
| front = { pending.pop() } |
| component = set() |
| |
| while front: |
| node = front.pop() |
| neighbours = graph[node] |
| neighbours-=component # These we have already visited |
| front |= neighbours |
| |
| pending-=neighbours |
| component |= neighbours |
| |
| components.append(component) |
| |
| return components |
| |
| field_graph = {} |
| field_names = {f['name'] for f in fields} |
| |
| for f in fields: |
| try: |
| tagged_str = unquote(f['options'][tag]) |
| tagged_fields = tagged_str.split(',') |
| |
| for uf in tagged_fields: |
| if uf not in field_names: |
| raise FieldNotFound('Field %s not found'%uf) |
| |
| field_graph.setdefault(f['name'],set()).add(uf) |
| field_graph.setdefault(uf,set()).add(f['name']) |
| except KeyError: |
| pass |
| |
| components = find_components(field_graph) |
| return components |
| |
| def xproto_api_opts(field): |
| options = [] |
| if 'max_length' in field['options'] and field['type']=='string': |
| options.append('(val).maxLength = %s'%field['options']['max_length']) |
| |
| try: |
| if field['options']['null'] == 'False': |
| options.append('(val).nonNull = true') |
| except KeyError: |
| pass |
| |
| if 'link' in field and 'model' in field['options']: |
| options.append('(foreignKey).modelName = "%s"'%field['options']['model']) |
| |
| if options: |
| options_str = '[' + ', '.join(options) + ']' |
| else: |
| options_str = '' |
| |
| return options_str |
| |
| def xproto_tosca_required(null, blank, default=None): |
| |
| if null == 'True' or blank == 'True' or default != 'False': |
| return "false" |
| return "true" |
| |
| def xproto_tosca_field_type(type): |
| """ |
| TOSCA requires fields of type 'bool' to be 'boolean' |
| """ |
| if type == "bool": |
| return "boolean" |
| else: |
| return type |