from copy import deepcopy from engine.utils import defval from aquery_config import have_hge from typing import Dict, List type_table: Dict[str, "Types"] = {} class Types: def init_any(self): self.name : str = 'Any' self.sqlname : str = 'Int' self.cname : str = 'void*' self.ctype_name : str = "types::NONE" self.null_value = 0 self.priority : int= 0 self.cast_to_dict = dict() self.cast_from_dict = dict() def __init__(self, priority = 0, *, name = None, cname = None, sqlname = None, ctype_name = None, null_value = None, fp_type = None, long_type = None, is_fp = False, cast_to = None, cast_from = None ): self.is_fp = is_fp if name is None: self.init_any() else: self.name = name self.cname = defval(cname, name.lower() + '_t') self.sqlname = defval(sqlname, name.upper()) self.ctype_name = defval(ctype_name, f'types::{name.upper()}') self.null_value = defval(null_value, 0) self.cast_to_dict = defval(cast_to, dict()) self.cast_from_dict = defval(cast_from, dict()) self.priority = priority self.long_type = defval(long_type, self) self.fp_type = defval(fp_type, self) global type_table type_table[name] = self def cast_to(self, ty : "Types"): if ty in self.cast_to_dict: return self.cast_to_dict[ty.name](ty) else: raise Exception(f'Illeagal cast: from {self.name} to {ty.name}.') def cast_from(self, ty : "Types"): if ty in self.cast_from_dict: return self.cast_from_dict[ty.name](ty) else: raise Exception(f'Illeagal cast: from {ty.name} to {self.name}.') def __call__(self, args): arg_str = ', '.join([a.__str__() for a in args]) ret = deepcopy(self) ret.sqlname = self.sqlname + f'({arg_str})' return ret def __repr__(self) -> str: return self.sqlname def __str__(self) -> str: return self.sqlname @staticmethod def decode(aquery_type : str, vector_type:str = 'ColRef') -> "Types": if (aquery_type.startswith('vec')): return VectorT(Types.decode(aquery_type[3:]), vector_type) return type_table[aquery_type] class TypeCollection: def __init__(self, sz, deftype, fptype = None, utype = None, *, collection = None) -> None: self.size = sz self.type = deftype self.fptype = fptype self.utype = utype self.all_types = [deftype] if fptype is not None: self.all_types.append(fptype) if utype is not None: self.all_types.append(utype) if collection is not None: for ty in collection: self.all_types.append(ty) type_table = dict() AnyT = Types(-1) LazyT = Types(240, name = 'Lazy', cname = '', sqlname = '', ctype_name = '') LazyT = Types(200, name = 'DATE', cname = 'types::date_t', sqlname = 'DATE', ctype_name = 'types::ADATE') LazyT = Types(201, name = 'TIME', cname = 'types::time_t', sqlname = 'TIME', ctype_name = 'types::ATIME') LazyT = Types(202, name = 'TIMESTAMP', cname = 'types::timestamp_t', sqlname = 'TIMESTAMP', ctype_name = 'ATIMESTAMP') DoubleT = Types(17, name = 'double', cname='double', sqlname = 'DOUBLE', is_fp = True) LDoubleT = Types(18, name = 'long double', cname='long double', sqlname = 'LDOUBLE', is_fp = True) FloatT = Types(16, name = 'float', cname = 'float', sqlname = 'REAL', long_type = DoubleT, is_fp = True) HgeT = Types(9, name = 'int128',cname='__int128_t', sqlname = 'HUGEINT', fp_type = DoubleT) UHgeT = Types(10, name = 'uint128', cname='__uint128_t', sqlname = 'HUGEINT', fp_type = DoubleT) LongT = Types(4, name = 'int64', sqlname = 'BIGINT', fp_type = DoubleT) BoolT = Types(0, name = 'bool', sqlname = 'BOOL', long_type=LongT, fp_type=FloatT) ByteT = Types(1, name = 'int8', sqlname = 'TINYINT', long_type=LongT, fp_type=FloatT) ShortT = Types(2, name = 'int16', sqlname='SMALLINT', long_type=LongT, fp_type=FloatT) IntT = Types(3, name = 'int', cname = 'int', long_type=LongT, fp_type=FloatT) ULongT = Types(8, name = 'uint64', sqlname = 'UINT64', fp_type=DoubleT) UIntT = Types(7, name = 'uint32', sqlname = 'UINT32', long_type=ULongT, fp_type=FloatT) UShortT = Types(6, name = 'uint16', sqlname = 'UINT16', long_type=ULongT, fp_type=FloatT) UByteT = Types(5, name = 'uint8', sqlname = 'UINT8', long_type=ULongT, fp_type=FloatT) StrT = Types(200, name = 'str', cname = 'const char*', sqlname='VARCHAR', ctype_name = 'types::ASTR') VoidT = Types(200, name = 'void', cname = 'void', sqlname='Null', ctype_name = 'types::None') class VectorT(Types): def __init__(self, inner_type : Types, vector_type:str = 'ColRef'): self.inner_type = inner_type self.vector_type = vector_type @property def name(self) -> str: return f'{self.vector_type}<{self.inner_type.name}>' @property def sqlname(self) -> str: return 'BINARY' @property def cname(self) -> str: return self.name @property def fp_type(self) -> Types: return VectorT(self.inner_type.fp_type, self.vector_type) @property def long_type(self): return VectorT(self.inner_type.long_type, self.vector_type) def _ty_make_dict(fn : str, *ty : Types): return {eval(fn):t for t in ty} int_types : Dict[str, Types] = _ty_make_dict('t.sqlname.lower()', LongT, ByteT, ShortT, IntT) uint_types : Dict[str, Types] = _ty_make_dict('t.sqlname.lower()', ULongT, UByteT, UShortT, UIntT) fp_types : Dict[str, Types] = _ty_make_dict('t.sqlname.lower()', FloatT, DoubleT) builtin_types : Dict[str, Types] = {**_ty_make_dict('t.sqlname.lower()', AnyT, StrT), **int_types, **fp_types} def get_int128_support(): for t in int_types.values(): t.long_type = HgeT for t in uint_types.values(): t.long_type = UHgeT int_types['int128'] = HgeT uint_types['uint128'] = UHgeT def revert_int128_support(): for t in int_types.values(): t.long_type = LongT for t in uint_types.values(): t.long_type = ULongT int_types.pop('int128', None) uint_types.pop('uint128', None) type_bylength : Dict[int, TypeCollection] = {} type_bylength[1] = TypeCollection(1, ByteT) type_bylength[2] = TypeCollection(2, ShortT) type_bylength[4] = TypeCollection(4, IntT, FloatT) type_bylength[8] = TypeCollection(8, LongT, DoubleT, collection=[AnyT]) class OperatorBase: def extending_type(ops:Types): return ops.long_type def fraction_type (ops:Types): return ops.fp_type def __init__(self, opname, n_ops, return_fx, * , optypes = None, cname = None, sqlname = None, call = None): self.name = opname self.cname = defval(cname, opname) self.sqlname = defval(sqlname, opname.upper()) self.n_ops = n_ops self.optypes = optypes self.return_type = defval(return_fx, lambda: self.optypes[0]) self.call = defval(call, lambda _, c_code = False, *args: f'{self.cname if c_code else self.sqlname}({", ". join(args)})') def __call__(self, c_code = False, *args) -> str: return self.call(self, c_code, *args) def get_return_type(self, *inputs): return self.return_type(*inputs) def __repr__(self) -> str: return self.name def __str__(self) -> str: return self.name # TODO: Type checks, Type catagories, e.g.: value type, etc. # return type deduction def auto_extension(*args : Types) -> Types: final_type = AnyT is_fp = False for a in args: if not is_fp and a.is_fp: is_fp = True final_type = final_type.fp_type elif is_fp: a = a.fp_type final_type = a if a.priority > final_type.priority else final_type return final_type def auto_extension_int(*args : Types) -> Types: final_type = AnyT for a in args: final_type = a if a.priority > final_type.priority else final_type return final_type def ty_clamp(fn, l:int = None, r:int = None): return lambda *args : fn(*args[l: r]) def logical(*_ : Types) -> Types: return ByteT def int_return(*_ : Types) -> Types: return IntT def long_return(*_ : Types) -> Types: return LongT.long_type def lfp_return(*_ : Types) -> Types: return LongT.fp_type def as_is (t: Types) -> Types: return t def fp (fx): return lambda *args : fx(*args).fp_type def ext (fx): return lambda *args : fx(*args).long_type # operator call behavior def binary_op_behavior(op:OperatorBase, c_code, x, y): name = op.cname if c_code else op.sqlname return f'({x} {name} {y})' def unary_op_behavior(op:OperatorBase, c_code, x): name = op.cname if c_code else op.sqlname return f'({name} {x})' def fn_behavior(op:OperatorBase, c_code, *x): name = op.cname if c_code else op.sqlname return f'{name}({", ".join([f"{xx}" for xx in x])})' def windowed_fn_behavor(op: OperatorBase, c_code, *x): if not c_code: return f'{op.sqlname}({", ".join([f"{xx}" for xx in x])})' else: name = op.cname if len(x) == 1 else op.cname[:-1] + 'w' return f'{name}({", ".join([f"{xx}" for xx in x])})' # arithmetic opadd = OperatorBase('add', 2, auto_extension, cname = '+', sqlname = '+', call = binary_op_behavior) opdiv = OperatorBase('div', 2, fp(auto_extension), cname = '/', sqlname = '/', call = binary_op_behavior) opmul = OperatorBase('mul', 2, fp(auto_extension), cname = '*', sqlname = '*', call = binary_op_behavior) opsub = OperatorBase('sub', 2, auto_extension, cname = '-', sqlname = '-', call = binary_op_behavior) opmod = OperatorBase('mod', 2, auto_extension_int, cname = '%', sqlname = '%', call = binary_op_behavior) opneg = OperatorBase('neg', 1, as_is, cname = '-', sqlname = '-', call = unary_op_behavior) # logical opand = OperatorBase('and', 2, logical, cname = '&&', sqlname = ' AND ', call = binary_op_behavior) opor = OperatorBase('or', 2, logical, cname = '||', sqlname = ' OR ', call = binary_op_behavior) opxor = OperatorBase('xor', 2, logical, cname = '^', sqlname = ' XOR ', call = binary_op_behavior) opgt = OperatorBase('gt', 2, logical, cname = '>', sqlname = '>', call = binary_op_behavior) oplt = OperatorBase('lt', 2, logical, cname = '<', sqlname = '<', call = binary_op_behavior) opge = OperatorBase('gte', 2, logical, cname = '>=', sqlname = '>=', call = binary_op_behavior) oplte = OperatorBase('lte', 2, logical, cname = '<=', sqlname = '<=', call = binary_op_behavior) opneq = OperatorBase('neq', 2, logical, cname = '!=', sqlname = '!=', call = binary_op_behavior) opeq = OperatorBase('eq', 2, logical, cname = '==', sqlname = '=', call = binary_op_behavior) opnot = OperatorBase('not', 1, logical, cname = '!', sqlname = 'NOT', call = unary_op_behavior) # functional fnmax = OperatorBase('max', 1, as_is, cname = 'max', sqlname = 'MAX', call = fn_behavior) fnmin = OperatorBase('min', 1, as_is, cname = 'min', sqlname = 'MIN', call = fn_behavior) fndeltas = OperatorBase('deltas', 1, as_is, cname = 'deltas', sqlname = 'DELTAS', call = fn_behavior) fnlast = OperatorBase('last', 1, as_is, cname = 'last', sqlname = 'LAST', call = fn_behavior) #fnsum = OperatorBase('sum', 1, ext(auto_extension), cname = 'sum', sqlname = 'SUM', call = fn_behavior) #fnavg = OperatorBase('avg', 1, fp(ext(auto_extension)), cname = 'avg', sqlname = 'AVG', call = fn_behavior) fnsum = OperatorBase('sum', 1, long_return, cname = 'sum', sqlname = 'SUM', call = fn_behavior) fnavg = OperatorBase('avg', 1, lfp_return, cname = 'avg', sqlname = 'AVG', call = fn_behavior) fnmaxs = OperatorBase('maxs', [1, 2], ty_clamp(as_is, -1), cname = 'maxs', sqlname = 'MAXS', call = windowed_fn_behavor) fnmins = OperatorBase('mins', [1, 2], ty_clamp(as_is, -1), cname = 'mins', sqlname = 'MINS', call = windowed_fn_behavor) fnsums = OperatorBase('sums', [1, 2], ext(ty_clamp(auto_extension, -1)), cname = 'sums', sqlname = 'SUMS', call = windowed_fn_behavor) fnavgs = OperatorBase('avgs', [1, 2], fp(ext(ty_clamp(auto_extension, -1))), cname = 'avgs', sqlname = 'AVGS', call = windowed_fn_behavor) fncnt = OperatorBase('count', 1, int_return, cname = 'count', sqlname = 'COUNT', call = fn_behavior) # special def is_null_call_behavior(op:OperatorBase, c_code : bool, x : str): if c_code : return f'{x} == nullval>' else : return f'{x} IS NULL' spnull = OperatorBase('missing', 1, logical, cname = "", sqlname = "", call = is_null_call_behavior) # cstdlib # If in aggregation functions, using monetdb builtins. If in nested agg, inside udfs, using cstdlib. fnsqrt = OperatorBase('sqrt', 1, lambda *_ : DoubleT, cname = 'sqrt', sqlname = 'SQRT', call = fn_behavior) fnlog = OperatorBase('log', 2, lambda *_ : DoubleT, cname = 'log', sqlname = 'LOG', call = fn_behavior) fnsin = OperatorBase('sin', 1, lambda *_ : DoubleT, cname = 'sin', sqlname = 'SIN', call = fn_behavior) fncos = OperatorBase('cos', 1, lambda *_ : DoubleT, cname = 'cos', sqlname = 'COS', call = fn_behavior) fntan = OperatorBase('tan', 1, lambda *_ : DoubleT, cname = 'tan', sqlname = 'TAN', call = fn_behavior) fnpow = OperatorBase('pow', 2, lambda *_ : DoubleT, cname = 'pow', sqlname = 'POW', call = fn_behavior) # type collections def _op_make_dict(*items : OperatorBase): return { i.name: i for i in items} builtin_binary_arith = _op_make_dict(opadd, opdiv, opmul, opsub, opmod) builtin_binary_logical = _op_make_dict(opand, opor, opxor, opgt, oplt, opge, oplte, opneq, opeq) builtin_unary_logical = _op_make_dict(opnot) builtin_unary_arith = _op_make_dict(opneg) builtin_unary_special = _op_make_dict(spnull) builtin_cstdlib = _op_make_dict(fnsqrt, fnlog, fnsin, fncos, fntan, fnpow) builtin_func = _op_make_dict(fnmax, fnmin, fnsum, fnavg, fnmaxs, fnmins, fndeltas, fnlast, fnsums, fnavgs, fncnt) user_module_func = {} builtin_operators : Dict[str, OperatorBase] = {**builtin_binary_arith, **builtin_binary_logical, **builtin_unary_arith, **builtin_unary_logical, **builtin_unary_special, **builtin_func, **builtin_cstdlib, **user_module_func}