# This file is generated by IfcOpenShell ifcexpressparser bootstrap.py import os import sys import pickle import schema import mapping from pyparsing import * from nodes import * def parse(fn): cache_file = fn + ".cache.dat" if os.path.exists(cache_file) and os.path.getmtime(cache_file) >= os.path.getmtime(fn): with open(cache_file, "rb") as f: m = pickle.load(f) else: ABS = (CaselessKeyword("abs")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ABS"))("ABS") ABSTRACT = (CaselessKeyword("abstract")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ABSTRACT"))("ABSTRACT") ACOS = (CaselessKeyword("acos")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ACOS"))("ACOS") AGGREGATE = (CaselessKeyword("aggregate")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="AGGREGATE"))("AGGREGATE") ALIAS = (CaselessKeyword("alias")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ALIAS"))("ALIAS") AND = (CaselessKeyword("and")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="AND"))("AND") ANDOR = (CaselessKeyword("andor")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ANDOR"))("ANDOR") ARRAY = (CaselessKeyword("array")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ARRAY"))("ARRAY") AS = (CaselessKeyword("as")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="AS"))("AS") ASIN = (CaselessKeyword("asin")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ASIN"))("ASIN") ATAN = (CaselessKeyword("atan")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ATAN"))("ATAN") BAG = (CaselessKeyword("bag")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="BAG"))("BAG") BASED_ON = (CaselessKeyword("based_on")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="BASED_ON"))("BASED_ON") BEGIN = (CaselessKeyword("begin")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="BEGIN"))("BEGIN") BINARY = (CaselessKeyword("binary")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="BINARY"))("BINARY") BLENGTH = (CaselessKeyword("blength")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="BLENGTH"))("BLENGTH") BOOLEAN = (CaselessKeyword("boolean")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="BOOLEAN"))("BOOLEAN") BY = (CaselessKeyword("by")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="BY"))("BY") CASE = (CaselessKeyword("case")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="CASE"))("CASE") CONSTANT = (CaselessKeyword("constant")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="CONSTANT"))("CONSTANT") CONST_E = (CaselessKeyword("const_e")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="CONST_E"))("CONST_E") COS = (CaselessKeyword("cos")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="COS"))("COS") DERIVE = (CaselessKeyword("derive")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="DERIVE"))("DERIVE") DIV = (CaselessKeyword("div")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="DIV"))("DIV") ELSE = (CaselessKeyword("else")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ELSE"))("ELSE") END = (CaselessKeyword("end")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END"))("END") END_ALIAS = (CaselessKeyword("end_alias")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_ALIAS"))("END_ALIAS") END_CASE = (CaselessKeyword("end_case")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_CASE"))("END_CASE") END_CONSTANT = (CaselessKeyword("end_constant")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_CONSTANT"))("END_CONSTANT") END_ENTITY = (CaselessKeyword("end_entity")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_ENTITY"))("END_ENTITY") END_FUNCTION = (CaselessKeyword("end_function")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_FUNCTION"))("END_FUNCTION") END_IF = (CaselessKeyword("end_if")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_IF"))("END_IF") END_LOCAL = (CaselessKeyword("end_local")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_LOCAL"))("END_LOCAL") END_PROCEDURE = (CaselessKeyword("end_procedure")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_PROCEDURE"))("END_PROCEDURE") END_REPEAT = (CaselessKeyword("end_repeat")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_REPEAT"))("END_REPEAT") END_RULE = (CaselessKeyword("end_rule")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_RULE"))("END_RULE") END_SCHEMA = (CaselessKeyword("end_schema")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_SCHEMA"))("END_SCHEMA") END_SUBTYPE_CONSTRAINT = (CaselessKeyword("end_subtype_constraint")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_SUBTYPE_CONSTRAINT"))("END_SUBTYPE_CONSTRAINT") END_TYPE = (CaselessKeyword("end_type")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="END_TYPE"))("END_TYPE") ENTITY = (CaselessKeyword("entity")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ENTITY"))("ENTITY") ENUMERATION = (CaselessKeyword("enumeration")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ENUMERATION"))("ENUMERATION") ESCAPE = (CaselessKeyword("escape")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ESCAPE"))("ESCAPE") EXISTS = (CaselessKeyword("exists")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="EXISTS"))("EXISTS") EXTENSIBLE = (CaselessKeyword("extensible")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="EXTENSIBLE"))("EXTENSIBLE") EXP = (CaselessKeyword("exp")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="EXP"))("EXP") FALSE = (CaselessKeyword("false")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="FALSE"))("FALSE") FIXED = (CaselessKeyword("fixed")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="FIXED"))("FIXED") FOR = (CaselessKeyword("for")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="FOR"))("FOR") FORMAT = (CaselessKeyword("format")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="FORMAT"))("FORMAT") FROM = (CaselessKeyword("from")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="FROM"))("FROM") FUNCTION = (CaselessKeyword("function")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="FUNCTION"))("FUNCTION") GENERIC = (CaselessKeyword("generic")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="GENERIC"))("GENERIC") GENERIC_ENTITY = (CaselessKeyword("generic_entity")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="GENERIC_ENTITY"))("GENERIC_ENTITY") HIBOUND = (CaselessKeyword("hibound")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="HIBOUND"))("HIBOUND") HIINDEX = (CaselessKeyword("hiindex")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="HIINDEX"))("HIINDEX") IF = (CaselessKeyword("if")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="IF"))("IF") IN = (CaselessKeyword("in")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="IN"))("IN") INSERT = (CaselessKeyword("insert")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="INSERT"))("INSERT") INTEGER = (CaselessKeyword("integer")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="INTEGER"))("INTEGER") INVERSE = (CaselessKeyword("inverse")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="INVERSE"))("INVERSE") LENGTH = (CaselessKeyword("length")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="LENGTH"))("LENGTH") LIKE = (CaselessKeyword("like")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="LIKE"))("LIKE") LIST = (CaselessKeyword("list")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="LIST"))("LIST") LOBOUND = (CaselessKeyword("lobound")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="LOBOUND"))("LOBOUND") LOCAL = (CaselessKeyword("local")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="LOCAL"))("LOCAL") LOG = (CaselessKeyword("log")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="LOG"))("LOG") LOG10 = (CaselessKeyword("log10")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="LOG10"))("LOG10") LOG2 = (CaselessKeyword("log2")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="LOG2"))("LOG2") LOGICAL = (CaselessKeyword("logical")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="LOGICAL"))("LOGICAL") LOINDEX = (CaselessKeyword("loindex")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="LOINDEX"))("LOINDEX") MOD = (CaselessKeyword("mod")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="MOD"))("MOD") NOT = (CaselessKeyword("not")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="NOT"))("NOT") NUMBER = (CaselessKeyword("number")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="NUMBER"))("NUMBER") NVL = (CaselessKeyword("nvl")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="NVL"))("NVL") ODD = (CaselessKeyword("odd")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ODD"))("ODD") OF = (CaselessKeyword("of")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="OF"))("OF") ONEOF = (CaselessKeyword("oneof")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ONEOF"))("ONEOF") OPTIONAL = (CaselessKeyword("optional")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="OPTIONAL"))("OPTIONAL") OR = (CaselessKeyword("or")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="OR"))("OR") OTHERWISE = (CaselessKeyword("otherwise")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="OTHERWISE"))("OTHERWISE") PI = (CaselessKeyword("pi")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="PI"))("PI") PROCEDURE = (CaselessKeyword("procedure")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="PROCEDURE"))("PROCEDURE") QUERY = (CaselessKeyword("query")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="QUERY"))("QUERY") REAL = (CaselessKeyword("real")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="REAL"))("REAL") REFERENCE = (CaselessKeyword("reference")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="REFERENCE"))("REFERENCE") REMOVE = (CaselessKeyword("remove")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="REMOVE"))("REMOVE") RENAMED = (CaselessKeyword("renamed")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="RENAMED"))("RENAMED") REPEAT = (CaselessKeyword("repeat")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="REPEAT"))("REPEAT") RETURN = (CaselessKeyword("return")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="RETURN"))("RETURN") ROLESOF = (CaselessKeyword("rolesof")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="ROLESOF"))("ROLESOF") RULE = (CaselessKeyword("rule")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="RULE"))("RULE") SCHEMA = (CaselessKeyword("schema")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SCHEMA"))("SCHEMA") SELECT = (CaselessKeyword("select")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SELECT"))("SELECT") SELF = (CaselessKeyword("self")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SELF"))("SELF") SET = (CaselessKeyword("set")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SET"))("SET") SIN = (CaselessKeyword("sin")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SIN"))("SIN") SIZEOF = (CaselessKeyword("sizeof")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SIZEOF"))("SIZEOF") SKIP = (CaselessKeyword("skip")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SKIP"))("SKIP") SQRT = (CaselessKeyword("sqrt")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SQRT"))("SQRT") STRING = (CaselessKeyword("string")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="STRING"))("STRING") SUBTYPE = (CaselessKeyword("subtype")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SUBTYPE"))("SUBTYPE") SUBTYPE_CONSTRAINT = (CaselessKeyword("subtype_constraint")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SUBTYPE_CONSTRAINT"))("SUBTYPE_CONSTRAINT") SUPERTYPE = (CaselessKeyword("supertype")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="SUPERTYPE"))("SUPERTYPE") TAN = (CaselessKeyword("tan")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="TAN"))("TAN") THEN = (CaselessKeyword("then")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="THEN"))("THEN") TO = (CaselessKeyword("to")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="TO"))("TO") TOTAL_OVER = (CaselessKeyword("total_over")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="TOTAL_OVER"))("TOTAL_OVER") TRUE = (CaselessKeyword("true")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="TRUE"))("TRUE") TYPE = (CaselessKeyword("type")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="TYPE"))("TYPE") TYPEOF = (CaselessKeyword("typeof")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="TYPEOF"))("TYPEOF") UNIQUE = (CaselessKeyword("unique")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="UNIQUE"))("UNIQUE") UNKNOWN = (CaselessKeyword("unknown")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="UNKNOWN"))("UNKNOWN") UNTIL = (CaselessKeyword("until")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="UNTIL"))("UNTIL") USE = (CaselessKeyword("use")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="USE"))("USE") USEDIN = (CaselessKeyword("usedin")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="USEDIN"))("USEDIN") VALUE = (CaselessKeyword("value")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="VALUE"))("VALUE") VALUE_IN = (CaselessKeyword("value_in")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="VALUE_IN"))("VALUE_IN") VALUE_UNIQUE = (CaselessKeyword("value_unique")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="VALUE_UNIQUE"))("VALUE_UNIQUE") VAR = (CaselessKeyword("var")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="VAR"))("VAR") WHERE = (CaselessKeyword("where")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="WHERE"))("WHERE") WHILE = (CaselessKeyword("while")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="WHILE"))("WHILE") WITH = (CaselessKeyword("with")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="WITH"))("WITH") XOR = (CaselessKeyword("xor")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="XOR"))("XOR") bit = ((CaselessLiteral("0") | CaselessLiteral("1"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="bit"))("bit") digit = ((CaselessLiteral("0") | CaselessLiteral("1") | CaselessLiteral("2") | CaselessLiteral("3") | CaselessLiteral("4") | CaselessLiteral("5") | CaselessLiteral("6") | CaselessLiteral("7") | CaselessLiteral("8") | CaselessLiteral("9")))("digit") digits = ((digit + ZeroOrMore(digit)))("digits") hex_digit = ((digit | CaselessLiteral("a") | CaselessLiteral("b") | CaselessLiteral("c") | CaselessLiteral("d") | CaselessLiteral("e") | CaselessLiteral("f"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="hex_digit"))("hex_digit") letter = ((CaselessLiteral("a") | CaselessLiteral("b") | CaselessLiteral("c") | CaselessLiteral("d") | CaselessLiteral("e") | CaselessLiteral("f") | CaselessLiteral("g") | CaselessLiteral("h") | CaselessLiteral("i") | CaselessLiteral("j") | CaselessLiteral("k") | CaselessLiteral("l") | CaselessLiteral("m") | CaselessLiteral("n") | CaselessLiteral("o") | CaselessLiteral("p") | CaselessLiteral("q") | CaselessLiteral("r") | CaselessLiteral("s") | CaselessLiteral("t") | CaselessLiteral("u") | CaselessLiteral("v") | CaselessLiteral("w") | CaselessLiteral("x") | CaselessLiteral("y") | CaselessLiteral("z")))("letter") not_paren_star_quote_special = ((CaselessLiteral("!") | CaselessLiteral("#") | CaselessLiteral("$") | CaselessLiteral("%") | CaselessLiteral("&") | CaselessLiteral("+") | CaselessLiteral(",") | CaselessLiteral("-") | CaselessLiteral(".") | CaselessLiteral("/") | CaselessLiteral(":") | CaselessLiteral(";") | CaselessLiteral("<") | CaselessLiteral("=") | CaselessLiteral(">") | CaselessLiteral("?") | CaselessLiteral("@") | CaselessLiteral("[") | CaselessLiteral("\\") | CaselessLiteral("]") | CaselessLiteral("^") | CaselessLiteral("_") | CaselessLiteral("{") | CaselessLiteral("|") | CaselessLiteral("}") | CaselessLiteral("~")))("not_paren_star_quote_special") not_paren_star_special = ((not_paren_star_quote_special | CaselessLiteral("\"\""))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="not_paren_star_special"))("not_paren_star_special") not_quote = ((not_paren_star_quote_special | letter | digit | CaselessLiteral("(") | CaselessLiteral(")") | CaselessLiteral("*")))("not_quote") octet = ((hex_digit + hex_digit)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="octet"))("octet") special = ((not_paren_star_quote_special | CaselessLiteral("(") | CaselessLiteral(")") | CaselessLiteral("*") | CaselessLiteral("\"\""))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="special"))("special") binary_literal = ((CaselessLiteral("%") + bit + ZeroOrMore(bit))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="binary_literal"))("binary_literal") integer_literal = (digits)("integer_literal") simple_id = ~CaselessKeyword("bag") + ~CaselessKeyword("lobound") + ~CaselessKeyword("aggregate") + ~CaselessKeyword("reference") + ~CaselessKeyword("abstract") + ~CaselessKeyword("value_unique") + ~CaselessKeyword("if") + ~CaselessKeyword("loindex") + ~CaselessKeyword("format") + ~CaselessKeyword("true") + ~CaselessKeyword("insert") + ~CaselessKeyword("exp") + ~CaselessKeyword("end_type") + ~CaselessKeyword("end") + ~CaselessKeyword("optional") + ~CaselessKeyword("in") + ~CaselessKeyword("like") + ~CaselessKeyword("type") + ~CaselessKeyword("end_rule") + ~CaselessKeyword("repeat") + ~CaselessKeyword("nvl") + ~CaselessKeyword("otherwise") + ~CaselessKeyword("procedure") + ~CaselessKeyword("number") + ~CaselessKeyword("boolean") + ~CaselessKeyword("exists") + ~CaselessKeyword("andor") + ~CaselessKeyword("alias") + ~CaselessKeyword("entity") + ~CaselessKeyword("constant") + ~CaselessKeyword("tan") + ~CaselessKeyword("or") + ~CaselessKeyword("oneof") + ~CaselessKeyword("from") + ~CaselessKeyword("escape") + ~CaselessKeyword("typeof") + ~CaselessKeyword("extensible") + ~CaselessKeyword("div") + ~CaselessKeyword("then") + ~CaselessKeyword("by") + ~CaselessKeyword("unknown") + ~CaselessKeyword("var") + ~CaselessKeyword("pi") + ~CaselessKeyword("inverse") + ~CaselessKeyword("skip") + ~CaselessKeyword("array") + ~CaselessKeyword("end_subtype_constraint") + ~CaselessKeyword("use") + ~CaselessKeyword("self") + ~CaselessKeyword("end_alias") + ~CaselessKeyword("select") + ~CaselessKeyword("for") + ~CaselessKeyword("sizeof") + ~CaselessKeyword("fixed") + ~CaselessKeyword("local") + ~CaselessKeyword("remove") + ~CaselessKeyword("enumeration") + ~CaselessKeyword("end_local") + ~CaselessKeyword("not") + ~CaselessKeyword("function") + ~CaselessKeyword("cos") + ~CaselessKeyword("logical") + ~CaselessKeyword("query") + ~CaselessKeyword("atan") + ~CaselessKeyword("return") + ~CaselessKeyword("schema") + ~CaselessKeyword("hiindex") + ~CaselessKeyword("rolesof") + ~CaselessKeyword("log10") + ~CaselessKeyword("end_function") + ~CaselessKeyword("abs") + ~CaselessKeyword("length") + ~CaselessKeyword("renamed") + ~CaselessKeyword("acos") + ~CaselessKeyword("end_case") + ~CaselessKeyword("case") + ~CaselessKeyword("mod") + ~CaselessKeyword("end_if") + ~CaselessKeyword("list") + ~CaselessKeyword("end_repeat") + ~CaselessKeyword("generic") + ~CaselessKeyword("of") + ~CaselessKeyword("supertype") + ~CaselessKeyword("false") + ~CaselessKeyword("end_entity") + ~CaselessKeyword("odd") + ~CaselessKeyword("integer") + ~CaselessKeyword("hibound") + ~CaselessKeyword("rule") + ~CaselessKeyword("as") + ~CaselessKeyword("derive") + ~CaselessKeyword("log") + ~CaselessKeyword("set") + ~CaselessKeyword("subtype_constraint") + ~CaselessKeyword("unique") + ~CaselessKeyword("value") + ~CaselessKeyword("subtype") + ~CaselessKeyword("until") + ~CaselessKeyword("with") + ~CaselessKeyword("sqrt") + ~CaselessKeyword("where") + ~CaselessKeyword("value_in") + ~CaselessKeyword("to") + ~CaselessKeyword("xor") + ~CaselessKeyword("sin") + ~CaselessKeyword("while") + ~CaselessKeyword("string") + ~CaselessKeyword("usedin") + ~CaselessKeyword("total_over") + ~CaselessKeyword("binary") + ~CaselessKeyword("and") + ~CaselessKeyword("end_schema") + ~CaselessKeyword("generic_entity") + ~CaselessKeyword("end_constant") + ~CaselessKeyword("const_e") + ~CaselessKeyword("based_on") + ~CaselessKeyword("else") + ~CaselessKeyword("asin") + ~CaselessKeyword("blength") + ~CaselessKeyword("real") + ~CaselessKeyword("end_procedure") + ~CaselessKeyword("log2") + ~CaselessKeyword("begin") + originalTextFor(Combine((letter + ZeroOrMore((letter | digit | CaselessLiteral("_"))))))("simple_id") simple_string_literal = ((CaselessLiteral("'") + ZeroOrMore(((CaselessLiteral("'") + CaselessLiteral("'")) | not_quote)) + CaselessLiteral("'")))("simple_string_literal") abstract_entity_declaration = (ABSTRACT)("abstract_entity_declaration") abstract_supertype = ((ABSTRACT + SUPERTYPE + CaselessLiteral(";"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="abstract_supertype"))("abstract_supertype") add_like_op = ((CaselessLiteral("+") | CaselessLiteral("-") | OR | XOR)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="add_like_op"))("add_like_op") attribute_id = (simple_id)("attribute_id") boolean_type = (BOOLEAN)("boolean_type") built_in_constant = ((CONST_E | PI | SELF | CaselessLiteral("?"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="built_in_constant"))("built_in_constant") built_in_function = ((ABS | ACOS | ASIN | ATAN | BLENGTH | COS | EXISTS | EXP | FORMAT | HIBOUND | HIINDEX | LENGTH | LOBOUND | LOINDEX | LOG | LOG2 | LOG10 | NVL | ODD | ROLESOF | SIN | SIZEOF | SQRT | TAN | TYPEOF | USEDIN | VALUE | VALUE_IN | VALUE_UNIQUE)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="built_in_function"))("built_in_function") built_in_procedure = ((INSERT | REMOVE)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="built_in_procedure"))("built_in_procedure") constant_id = (simple_id)("constant_id") entity_id = (simple_id)("entity_id") enumeration_id = (simple_id)("enumeration_id") enumeration_items = ((CaselessLiteral("(") + enumeration_id + ZeroOrMore((CaselessLiteral(",") + enumeration_id)) + CaselessLiteral(")"))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="enumeration_items"))("enumeration_items") escape_stmt = ((ESCAPE + CaselessLiteral(";"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="escape_stmt"))("escape_stmt") function_id = (simple_id)("function_id") integer_type = (INTEGER)("integer_type") interval_op = ((CaselessLiteral("<=") | CaselessLiteral("<"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="interval_op"))("interval_op") logical_literal = ((FALSE | TRUE | UNKNOWN)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="logical_literal"))("logical_literal") logical_type = (LOGICAL)("logical_type") multiplication_like_op = ((CaselessLiteral("*") | CaselessLiteral("/") | DIV | MOD | AND | CaselessLiteral("||"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="multiplication_like_op"))("multiplication_like_op") null_stmt = (CaselessLiteral(";")).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="null_stmt"))("null_stmt") number_type = (NUMBER)("number_type") parameter_id = (simple_id)("parameter_id") procedure_id = (simple_id)("procedure_id") rel_op = ((CaselessLiteral("<=") | CaselessLiteral(">=") | CaselessLiteral("<>") | CaselessLiteral("=") | CaselessLiteral(":<>:") | CaselessLiteral(":=:") | CaselessLiteral("<") | CaselessLiteral(">"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="rel_op"))("rel_op") rel_op_extended = ((rel_op | IN | LIKE)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="rel_op_extended"))("rel_op_extended") rule_id = (simple_id)("rule_id") rule_label_id = (simple_id)("rule_label_id") schema_id = (simple_id)("schema_id") sign = ((CaselessLiteral("+") | CaselessLiteral("-"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="sign"))("sign") skip_stmt = ((SKIP + CaselessLiteral(";"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="skip_stmt"))("skip_stmt") subtype_constraint_id = (simple_id)("subtype_constraint_id") type_id = (simple_id)("type_id") type_label_id = (simple_id)("type_label_id") unary_op = ((CaselessLiteral("+") | CaselessLiteral("-") | NOT)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="unary_op"))("unary_op") variable_id = (simple_id)("variable_id") encoded_character = ((octet + octet + octet + octet)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="encoded_character"))("encoded_character") not_paren_star = ((letter | digit | not_paren_star_special)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="not_paren_star"))("not_paren_star") not_rparen_star = ((not_paren_star | CaselessLiteral("("))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="not_rparen_star"))("not_rparen_star") not_rparen_star_then_rparen = ((not_rparen_star + ZeroOrMore(not_rparen_star) + CaselessLiteral(")") + ZeroOrMore(CaselessLiteral(")")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="not_rparen_star_then_rparen"))("not_rparen_star_then_rparen") encoded_string_literal = ((CaselessLiteral("\"") + encoded_character + ZeroOrMore(encoded_character) + CaselessLiteral("\""))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="encoded_string_literal"))("encoded_string_literal") real_literal = (((digits + CaselessLiteral(".") + Optional(digits) + Optional((CaselessLiteral("e") + Optional(sign) + digits))) | integer_literal))("real_literal") attribute_ref = (attribute_id)("attribute_ref") constant_ref = (constant_id)("constant_ref") entity_ref = (entity_id)("entity_ref") enumeration_ref = (enumeration_id)("enumeration_ref") function_ref = (function_id)("function_ref") parameter_ref = (parameter_id)("parameter_ref") procedure_ref = (procedure_id)("procedure_ref") rule_label_ref = (rule_label_id)("rule_label_ref") rule_ref = (rule_id)("rule_ref") schema_ref = (schema_id)("schema_ref") subtype_constraint_ref = (subtype_constraint_id)("subtype_constraint_ref") type_label_ref = (type_label_id)("type_label_ref") type_ref = (type_id)("type_ref") variable_ref = (variable_id)("variable_ref") attribute_qualifier = ((CaselessLiteral(".") + attribute_ref)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="attribute_qualifier"))("attribute_qualifier") constant_factor = ((built_in_constant | constant_ref)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="constant_factor"))("constant_factor") enumeration_extension = ((BASED_ON + type_ref + Optional((WITH + enumeration_items)))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="enumeration_extension"))("enumeration_extension") enumeration_reference = ((Optional((type_ref + CaselessLiteral("."))) + enumeration_ref)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="enumeration_reference"))("enumeration_reference") enumeration_type = ((Optional(EXTENSIBLE) + ENUMERATION + Optional(((OF + enumeration_items) | enumeration_extension)))).setParseAction(EnumerationType)("enumeration_type") general_ref = ((parameter_ref | variable_ref)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="general_ref"))("general_ref") group_qualifier = ((CaselessLiteral("\\") + entity_ref)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="group_qualifier"))("group_qualifier") named_types = ((entity_ref | type_ref)).setParseAction(NamedType)("named_types") named_type_or_rename = ((named_types + Optional((AS + (entity_id | type_id))))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="named_type_or_rename"))("named_type_or_rename") population = (entity_ref)("population") qualified_attribute = ((SELF + group_qualifier + attribute_qualifier)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="qualified_attribute"))("qualified_attribute") redeclared_attribute = ((qualified_attribute + Optional((RENAMED + attribute_id)))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="redeclared_attribute"))("redeclared_attribute") referenced_attribute = ((attribute_ref | qualified_attribute)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="referenced_attribute"))("referenced_attribute") rename_id = ((constant_id | entity_id | function_id | procedure_id | type_id)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="rename_id"))("rename_id") resource_ref = ((constant_ref | entity_ref | function_ref | procedure_ref | type_ref)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="resource_ref"))("resource_ref") rule_head = ((RULE + rule_id + FOR + CaselessLiteral("(") + entity_ref + ZeroOrMore((CaselessLiteral(",") + entity_ref)) + CaselessLiteral(")") + CaselessLiteral(";"))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="rule_head"))("rule_head") select_list = ((CaselessLiteral("(") + named_types + ZeroOrMore((CaselessLiteral(",") + named_types)) + CaselessLiteral(")"))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="select_list"))("select_list") string_literal = ((simple_string_literal | encoded_string_literal))("string_literal") subtype_constraint_head = ((SUBTYPE_CONSTRAINT + subtype_constraint_id + FOR + entity_ref + CaselessLiteral(";"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="subtype_constraint_head"))("subtype_constraint_head") subtype_declaration = ((SUBTYPE + OF + CaselessLiteral("(") + entity_ref + ZeroOrMore((CaselessLiteral(",") + entity_ref)) + CaselessLiteral(")"))).setParseAction(SubTypeExpression)("subtype_declaration") total_over = ((TOTAL_OVER + CaselessLiteral("(") + entity_ref + ZeroOrMore((CaselessLiteral(",") + entity_ref)) + CaselessLiteral(")") + CaselessLiteral(";"))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="total_over"))("total_over") type_label = ((type_label_id | type_label_ref)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="type_label"))("type_label") unique_rule = ((Optional((rule_label_id + CaselessLiteral(":"))) + referenced_attribute + ZeroOrMore((CaselessLiteral(",") + referenced_attribute)))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="unique_rule"))("unique_rule") use_clause = ((USE + FROM + schema_ref + Optional((CaselessLiteral("(") + named_type_or_rename + ZeroOrMore((CaselessLiteral(",") + named_type_or_rename)) + CaselessLiteral(")"))) + CaselessLiteral(";"))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="use_clause"))("use_clause") not_lparen_star = ((not_paren_star | CaselessLiteral(")"))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="not_lparen_star"))("not_lparen_star") remark_ref = ((attribute_ref | constant_ref | entity_ref | enumeration_ref | function_ref | parameter_ref | procedure_ref | rule_label_ref | rule_ref | schema_ref | subtype_constraint_ref | type_label_ref | type_ref | variable_ref)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="remark_ref"))("remark_ref") attribute_decl = ((redeclared_attribute | attribute_id)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="attribute_decl"))("attribute_decl") generic_entity_type = ((GENERIC_ENTITY + Optional((CaselessLiteral(":") + type_label)))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="generic_entity_type"))("generic_entity_type") generic_type = ((GENERIC + Optional((CaselessLiteral(":") + type_label)))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="generic_type"))("generic_type") literal = ((binary_literal | logical_literal | real_literal | string_literal)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="literal"))("literal") resource_or_rename = ((resource_ref + Optional((AS + rename_id)))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="resource_or_rename"))("resource_or_rename") schema_version_id = (string_literal)("schema_version_id") select_extension = ((BASED_ON + type_ref + Optional((WITH + select_list)))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="select_extension"))("select_extension") select_type = ((Optional((EXTENSIBLE + Optional(GENERIC_ENTITY))) + SELECT + Optional((select_list | select_extension)))).setParseAction(SelectType)("select_type") unique_clause = ((UNIQUE + unique_rule + CaselessLiteral(";") + ZeroOrMore((unique_rule + CaselessLiteral(";"))))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="unique_clause"))("unique_clause") lparen_then_not_lparen_star = ((CaselessLiteral("(") + ZeroOrMore(CaselessLiteral("(")) + not_lparen_star + ZeroOrMore(not_lparen_star))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="lparen_then_not_lparen_star"))("lparen_then_not_lparen_star") remark_tag = ((CaselessLiteral("\"") + remark_ref + ZeroOrMore((CaselessLiteral(".") + remark_ref)) + CaselessLiteral("\""))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="remark_tag"))("remark_tag") tail_remark = ((CaselessLiteral("--") + Optional(remark_tag))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="tail_remark"))("tail_remark") constructed_types = ((enumeration_type | select_type)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="constructed_types"))("constructed_types") reference_clause = ((REFERENCE + FROM + schema_ref + Optional((CaselessLiteral("(") + resource_or_rename + ZeroOrMore((CaselessLiteral(",") + resource_or_rename)) + CaselessLiteral(")"))) + CaselessLiteral(";"))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="reference_clause"))("reference_clause") interface_specification = ((reference_clause | use_clause)).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="interface_specification"))("interface_specification") stmt = Forward()("stmt") general_aggregation_types = Forward()("general_aggregation_types") procedure_call_stmt = Forward()("procedure_call_stmt") inverse_attr = Forward()("inverse_attr") derived_attr = Forward()("derived_attr") width_spec = Forward()("width_spec") actual_parameter_list = Forward()("actual_parameter_list") type_decl = Forward()("type_decl") selector = Forward()("selector") abstract_supertype_declaration = Forward()("abstract_supertype_declaration") explicit_attr = Forward()("explicit_attr") aggregation_types = Forward()("aggregation_types") domain_rule = Forward()("domain_rule") entity_constructor = Forward()("entity_constructor") function_call = Forward()("function_call") numeric_expression = Forward()("numeric_expression") general_set_type = Forward()("general_set_type") qualifier = Forward()("qualifier") formal_parameter = Forward()("formal_parameter") index_1 = Forward()("index_1") underlying_type = Forward()("underlying_type") local_variable = Forward()("local_variable") aggregate_source = Forward()("aggregate_source") while_control = Forward()("while_control") interval_low = Forward()("interval_low") parameter = Forward()("parameter") precision_spec = Forward()("precision_spec") one_of = Forward()("one_of") subtype_constraint_body = Forward()("subtype_constraint_body") general_array_type = Forward()("general_array_type") list_type = Forward()("list_type") subtype_constraint_decl = Forward()("subtype_constraint_decl") schema_decl = Forward()("schema_decl") algorithm_head = Forward()("algorithm_head") query_expression = Forward()("query_expression") primary = Forward()("primary") repeat_control = Forward()("repeat_control") factor = Forward()("factor") procedure_head = Forward()("procedure_head") aggregate_type = Forward()("aggregate_type") repeat_stmt = Forward()("repeat_stmt") entity_body = Forward()("entity_body") interval_high = Forward()("interval_high") logical_expression = Forward()("logical_expression") simple_expression = Forward()("simple_expression") remark = Forward()("remark") simple_factor = Forward()("simple_factor") case_stmt = Forward()("case_stmt") derive_clause = Forward()("derive_clause") supertype_constraint = Forward()("supertype_constraint") assignment_stmt = Forward()("assignment_stmt") entity_head = Forward()("entity_head") set_type = Forward()("set_type") instantiable_type = Forward()("instantiable_type") declaration = Forward()("declaration") binary_type = Forward()("binary_type") interval = Forward()("interval") parameter_type = Forward()("parameter_type") term = Forward()("term") index = Forward()("index") expression = Forward()("expression") bag_type = Forward()("bag_type") schema_body = Forward()("schema_body") until_control = Forward()("until_control") simple_types = Forward()("simple_types") subsuper = Forward()("subsuper") entity_decl = Forward()("entity_decl") concrete_types = Forward()("concrete_types") element = Forward()("element") general_bag_type = Forward()("general_bag_type") interval_item = Forward()("interval_item") constant_body = Forward()("constant_body") increment = Forward()("increment") case_label = Forward()("case_label") case_action = Forward()("case_action") width = Forward()("width") procedure_decl = Forward()("procedure_decl") increment_control = Forward()("increment_control") index_qualifier = Forward()("index_qualifier") constant_decl = Forward()("constant_decl") supertype_rule = Forward()("supertype_rule") syntax = Forward()("syntax") function_head = Forward()("function_head") repetition = Forward()("repetition") if_stmt = Forward()("if_stmt") supertype_expression = Forward()("supertype_expression") inverse_clause = Forward()("inverse_clause") aggregate_initializer = Forward()("aggregate_initializer") return_stmt = Forward()("return_stmt") generalized_types = Forward()("generalized_types") bound_2 = Forward()("bound_2") real_type = Forward()("real_type") index_2 = Forward()("index_2") array_type = Forward()("array_type") local_decl = Forward()("local_decl") supertype_term = Forward()("supertype_term") where_clause = Forward()("where_clause") embedded_remark = Forward()("embedded_remark") compound_stmt = Forward()("compound_stmt") bound_1 = Forward()("bound_1") alias_stmt = Forward()("alias_stmt") subtype_constraint = Forward()("subtype_constraint") string_type = Forward()("string_type") function_decl = Forward()("function_decl") general_list_type = Forward()("general_list_type") supertype_factor = Forward()("supertype_factor") rule_decl = Forward()("rule_decl") qualifiable_factor = Forward()("qualifiable_factor") bound_spec = Forward()("bound_spec") stmt << (((alias_stmt | assignment_stmt | case_stmt | compound_stmt | escape_stmt | if_stmt | null_stmt | procedure_call_stmt | repeat_stmt | return_stmt | skip_stmt))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="stmt")) general_aggregation_types << (((general_array_type | general_bag_type | general_list_type | general_set_type))).setParseAction(AggregationType) procedure_call_stmt << ((((built_in_procedure | procedure_ref) + actual_parameter_list + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="procedure_call_stmt")) inverse_attr << (((attribute_decl + CaselessLiteral(":") + Optional(((SET | BAG) + Optional(bound_spec) + OF)) + entity_ref + FOR + Optional((entity_ref + CaselessLiteral("."))) + attribute_ref + CaselessLiteral(";")))).setParseAction(InverseAttribute) derived_attr << (((attribute_decl + CaselessLiteral(":") + parameter_type + CaselessLiteral(":=") + expression + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="derived_attr")) width_spec << (((CaselessLiteral("(") + width + CaselessLiteral(")") + Optional(FIXED)))).setParseAction(WidthSpec) actual_parameter_list << (((CaselessLiteral("(") + Optional(parameter) + ZeroOrMore((CaselessLiteral(",") + parameter)) + CaselessLiteral(")")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="actual_parameter_list")) type_decl << (((TYPE + type_id + CaselessLiteral("=") + underlying_type + CaselessLiteral(";") + Optional(where_clause) + END_TYPE + CaselessLiteral(";")))).setParseAction(TypeDeclaration) selector << (expression) abstract_supertype_declaration << (((ABSTRACT + SUPERTYPE + Optional(subtype_constraint)))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="abstract_supertype_declaration")) explicit_attr << (((attribute_decl + ZeroOrMore((CaselessLiteral(",") + attribute_decl)) + CaselessLiteral(":") + Optional(OPTIONAL) + parameter_type + CaselessLiteral(";")))).setParseAction(ExplicitAttribute) aggregation_types << (((array_type | bag_type | list_type | set_type))).setParseAction(AggregationType) domain_rule << (((Optional((rule_label_id + CaselessLiteral(":"))) + expression))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="domain_rule")) entity_constructor << (((entity_ref + CaselessLiteral("(") + Optional((expression + ZeroOrMore((CaselessLiteral(",") + expression)))) + CaselessLiteral(")")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="entity_constructor")) function_call << ((((built_in_function | function_ref) + actual_parameter_list))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="function_call")) numeric_expression << (simple_expression) general_set_type << (((SET + Optional(bound_spec) + OF + parameter_type))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="general_set_type")) qualifier << (((attribute_qualifier | group_qualifier | index_qualifier))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="qualifier")) formal_parameter << (((parameter_id + ZeroOrMore((CaselessLiteral(",") + parameter_id)) + CaselessLiteral(":") + parameter_type))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="formal_parameter")) index_1 << (index) underlying_type << (((constructed_types | concrete_types))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="underlying_type")) local_variable << (((variable_id + ZeroOrMore((CaselessLiteral(",") + variable_id)) + CaselessLiteral(":") + parameter_type + Optional((CaselessLiteral(":=") + expression)) + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="local_variable")) aggregate_source << (simple_expression) while_control << (((WHILE + logical_expression))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="while_control")) interval_low << (simple_expression) parameter << (expression) precision_spec << (numeric_expression) one_of << (((ONEOF + CaselessLiteral("(") + supertype_expression + ZeroOrMore((CaselessLiteral(",") + supertype_expression)) + CaselessLiteral(")")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="one_of")) subtype_constraint_body << (((Optional(abstract_supertype) + Optional(total_over) + Optional((supertype_expression + CaselessLiteral(";")))))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="subtype_constraint_body")) general_array_type << (((ARRAY + Optional(bound_spec) + OF + Optional(OPTIONAL) + Optional(UNIQUE) + parameter_type))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="general_array_type")) list_type << (((LIST + Optional(bound_spec) + OF + Optional(UNIQUE) + instantiable_type))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="list_type")) subtype_constraint_decl << (((subtype_constraint_head + subtype_constraint_body + END_SUBTYPE_CONSTRAINT + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="subtype_constraint_decl")) schema_decl << (((SCHEMA + schema_id + Optional(schema_version_id) + CaselessLiteral(";") + schema_body + END_SCHEMA + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="schema_decl")) algorithm_head << (((ZeroOrMore(declaration) + Optional(constant_decl) + Optional(local_decl)))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="algorithm_head")) query_expression << (((QUERY + CaselessLiteral("(") + variable_id + CaselessLiteral("<*") + aggregate_source + CaselessLiteral("|") + logical_expression + CaselessLiteral(")")))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="query_expression")) primary << (((literal | (qualifiable_factor + ZeroOrMore(qualifier))))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="primary")) repeat_control << (((Optional(increment_control) + Optional(while_control) + Optional(until_control)))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="repeat_control")) factor << (((simple_factor + Optional((CaselessLiteral("**") + simple_factor))))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="factor")) procedure_head << (((PROCEDURE + procedure_id + Optional((CaselessLiteral("(") + Optional(VAR) + formal_parameter + ZeroOrMore((CaselessLiteral(";") + Optional(VAR) + formal_parameter)) + CaselessLiteral(")"))) + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="procedure_head")) aggregate_type << (((AGGREGATE + Optional((CaselessLiteral(":") + type_label)) + OF + parameter_type))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="aggregate_type")) repeat_stmt << (((REPEAT + repeat_control + CaselessLiteral(";") + stmt + ZeroOrMore(stmt) + END_REPEAT + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="repeat_stmt")) entity_body << (((ZeroOrMore(explicit_attr) + Optional(derive_clause) + Optional(inverse_clause) + Optional(unique_clause) + Optional(where_clause)))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="entity_body")) interval_high << (simple_expression) logical_expression << (expression) simple_expression << (((term + ZeroOrMore((add_like_op + term))))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="simple_expression")) remark << (((embedded_remark | tail_remark))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="remark")) simple_factor << (((aggregate_initializer | interval | query_expression | (Optional(unary_op) + ((CaselessLiteral("(") + expression + CaselessLiteral(")")) | primary)) | entity_constructor | enumeration_reference))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="simple_factor")) case_stmt << (((CASE + selector + OF + ZeroOrMore(case_action) + Optional((OTHERWISE + CaselessLiteral(":") + stmt)) + END_CASE + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="case_stmt")) derive_clause << (((DERIVE + derived_attr + ZeroOrMore(derived_attr)))).setParseAction(AttributeList) supertype_constraint << (((abstract_supertype_declaration | abstract_entity_declaration | supertype_rule))).setParseAction(SuperTypeExpression) assignment_stmt << (((general_ref + ZeroOrMore(qualifier) + CaselessLiteral(":=") + expression + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="assignment_stmt")) entity_head << (((ENTITY + entity_id + subsuper + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="entity_head")) set_type << (((SET + Optional(bound_spec) + OF + instantiable_type))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="set_type")) instantiable_type << (((concrete_types | entity_ref))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="instantiable_type")) declaration << (((entity_decl | function_decl | procedure_decl | subtype_constraint_decl | type_decl))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="declaration")) binary_type << (((BINARY + Optional(width_spec)))).setParseAction(BinaryType) interval << (((CaselessLiteral("{") + interval_low + interval_op + interval_item + interval_op + interval_high + CaselessLiteral("}")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="interval")) parameter_type << (((generalized_types | simple_types | named_types))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="parameter_type")) term << (((factor + ZeroOrMore((multiplication_like_op + factor))))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="term")) index << (numeric_expression) expression << (((simple_expression + Optional((rel_op_extended + simple_expression))))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="expression")) bag_type << (((BAG + Optional(bound_spec) + OF + instantiable_type))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="bag_type")) schema_body << (((ZeroOrMore(interface_specification) + Optional(constant_decl) + ZeroOrMore((declaration | rule_decl))))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="schema_body")) until_control << (((UNTIL + logical_expression))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="until_control")) simple_types << (((binary_type | boolean_type | integer_type | logical_type | number_type | real_type | string_type))).setParseAction(SimpleType) subsuper << (((Optional(supertype_constraint) + Optional(subtype_declaration)))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="subsuper")) entity_decl << (((entity_head + entity_body + END_ENTITY + CaselessLiteral(";")))).setParseAction(EntityDeclaration) concrete_types << (((aggregation_types | simple_types | type_ref))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="concrete_types")) element << (((expression + Optional((CaselessLiteral(":") + repetition))))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="element")) general_bag_type << (((BAG + Optional(bound_spec) + OF + parameter_type))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="general_bag_type")) interval_item << (simple_expression) constant_body << (((constant_id + CaselessLiteral(":") + instantiable_type + CaselessLiteral(":=") + expression + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="constant_body")) increment << (numeric_expression) case_label << (expression) case_action << (((case_label + ZeroOrMore((CaselessLiteral(",") + case_label)) + CaselessLiteral(":") + stmt))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="case_action")) width << (numeric_expression) procedure_decl << (((procedure_head + algorithm_head + ZeroOrMore(stmt) + END_PROCEDURE + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="procedure_decl")) increment_control << (((variable_id + CaselessLiteral(":=") + bound_1 + TO + bound_2 + Optional((BY + increment))))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="increment_control")) index_qualifier << (((CaselessLiteral("[") + index_1 + Optional((CaselessLiteral(":") + index_2)) + CaselessLiteral("]")))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="index_qualifier")) constant_decl << (((CONSTANT + constant_body + ZeroOrMore(constant_body) + END_CONSTANT + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="constant_decl")) supertype_rule << (((SUPERTYPE + subtype_constraint))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="supertype_rule")) syntax << (((schema_decl + ZeroOrMore(schema_decl)))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="syntax")) function_head << (((FUNCTION + function_id + Optional((CaselessLiteral("(") + formal_parameter + ZeroOrMore((CaselessLiteral(";") + formal_parameter)) + CaselessLiteral(")"))) + CaselessLiteral(":") + parameter_type + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="function_head")) repetition << (numeric_expression) if_stmt << (((IF + logical_expression + THEN + stmt + ZeroOrMore(stmt) + Optional((ELSE + stmt + ZeroOrMore(stmt))) + END_IF + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="if_stmt")) supertype_expression << (((supertype_factor + ZeroOrMore((ANDOR + supertype_factor))))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="supertype_expression")) inverse_clause << (((INVERSE + inverse_attr + ZeroOrMore(inverse_attr)))).setParseAction(AttributeList) aggregate_initializer << (((CaselessLiteral("[") + Optional((element + ZeroOrMore((CaselessLiteral(",") + element)))) + CaselessLiteral("]")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="aggregate_initializer")) return_stmt << (((RETURN + Optional((CaselessLiteral("(") + expression + CaselessLiteral(")"))) + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="return_stmt")) generalized_types << (((aggregate_type | general_aggregation_types | generic_entity_type | generic_type))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="generalized_types")) bound_2 << (numeric_expression) real_type << (((REAL + Optional((CaselessLiteral("(") + precision_spec + CaselessLiteral(")")))))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="real_type")) index_2 << (index) array_type << (((ARRAY + bound_spec + OF + Optional(OPTIONAL) + Optional(UNIQUE) + instantiable_type))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="array_type")) local_decl << (((LOCAL + local_variable + ZeroOrMore(local_variable) + END_LOCAL + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="local_decl")) supertype_term << (((one_of | (CaselessLiteral("(") + supertype_expression + CaselessLiteral(")")) | entity_ref))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="supertype_term")) where_clause << (((WHERE + domain_rule + CaselessLiteral(";") + ZeroOrMore((domain_rule + CaselessLiteral(";")))))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="where_clause")) embedded_remark << (((CaselessLiteral("(*") + Optional(remark_tag) + ZeroOrMore(((not_paren_star + ZeroOrMore(not_paren_star)) | lparen_then_not_lparen_star | (CaselessLiteral("*") + ZeroOrMore(CaselessLiteral("*"))) | not_rparen_star_then_rparen | embedded_remark)) + CaselessLiteral("*)")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="embedded_remark")) compound_stmt << (((BEGIN + stmt + ZeroOrMore(stmt) + END + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="compound_stmt")) bound_1 << (numeric_expression) alias_stmt << (((ALIAS + variable_id + FOR + general_ref + ZeroOrMore(qualifier) + CaselessLiteral(";") + stmt + ZeroOrMore(stmt) + END_ALIAS + CaselessLiteral(";")))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="alias_stmt")) subtype_constraint << (((OF + CaselessLiteral("(") + supertype_expression + CaselessLiteral(")")))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="subtype_constraint")) string_type << (((STRING + Optional(width_spec)))).setParseAction(StringType) function_decl << (((function_head + algorithm_head + stmt + ZeroOrMore(stmt) + END_FUNCTION + CaselessLiteral(";")))).setParseAction(FunctionDeclaration) general_list_type << (((LIST + Optional(bound_spec) + OF + Optional(UNIQUE) + parameter_type))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="general_list_type")) supertype_factor << (((supertype_term + ZeroOrMore((AND + supertype_term))))).setParseAction(lambda s, loc, t: ListNode(s, loc, t, rule="supertype_factor")) rule_decl << (((rule_head + algorithm_head + ZeroOrMore(stmt) + where_clause + END_RULE + CaselessLiteral(";")))).setParseAction(RuleDeclaration) qualifiable_factor << (((function_call | attribute_ref | constant_factor | general_ref | population))).setParseAction(lambda s, loc, t: Node(s, loc, t, rule="qualifiable_factor")) bound_spec << (((CaselessLiteral("[") + bound_1 + CaselessLiteral(":") + bound_2 + CaselessLiteral("]")))).setParseAction(BoundSpecification) syntax.ignore("--" + restOfLine) syntax.ignore(Regex(r"\((?:\*(?:[^*]*\*+)+?\))")) ast = syntax.parseFile(fn) s = schema.Schema(ast) m = mapping.Mapping(s) with open(cache_file, "wb") as f: pickle.dump(m, f, protocol=0) return m if __name__ == "__main__": m = parse(sys.argv[1]) import importlib for output in sys.argv[2:]: mdl = importlib.import_module(output) mdl.Generator(m).emit() sys.stdout.write(m.schema.name)