# Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. # pylint: disable=invalid-name,unused-argument """Default legalization function for unary operators.""" from tvm import te, topi from tvm.ir import Call from ...block_builder import BlockBuilder from ...expr import Expr from .common import _call_topi_without_attr, register_legalize # To avoid conflict of IRModule function name and libc function name, we add # "tir_" as the prefix of the generated PrimFunc name. register_legalize("relax.abs", _call_topi_without_attr(topi.abs, "tir_abs")) register_legalize("relax.acos", _call_topi_without_attr(topi.acos, "tir_acos")) register_legalize("relax.acosh", _call_topi_without_attr(topi.acosh, "tir_acosh")) register_legalize("relax.asin", _call_topi_without_attr(topi.asin, "tir_asin")) register_legalize("relax.asinh", _call_topi_without_attr(topi.asinh, "tir_asinh")) register_legalize("relax.atan", _call_topi_without_attr(topi.atan, "tir_atan")) register_legalize("relax.atanh", _call_topi_without_attr(topi.atanh, "tir_atanh")) register_legalize("relax.bitwise_not", _call_topi_without_attr(topi.bitwise_not, "tir_bitwise_not")) register_legalize("relax.ceil", _call_topi_without_attr(topi.ceil, "tir_ceil")) register_legalize("relax.cos", _call_topi_without_attr(topi.cos, "tir_cos")) register_legalize("relax.cosh", _call_topi_without_attr(topi.cosh, "tir_cosh")) register_legalize("relax.exp", _call_topi_without_attr(topi.exp, "tir_exp")) register_legalize("relax.floor", _call_topi_without_attr(topi.floor, "tir_floor")) register_legalize("relax.isfinite", _call_topi_without_attr(topi.isfinite, "tir_isfinite")) register_legalize("relax.isinf", _call_topi_without_attr(topi.isinf, "tir_isinf")) register_legalize("relax.isnan", _call_topi_without_attr(topi.isnan, "tir_isnan")) register_legalize("relax.log", _call_topi_without_attr(topi.log, "tir_log")) register_legalize("relax.logical_not", _call_topi_without_attr(topi.logical_not, "tir_logical_not")) register_legalize("relax.negative", _call_topi_without_attr(topi.negative, "tir_negative")) register_legalize("relax.round", _call_topi_without_attr(topi.round, "tir_round")) register_legalize("relax.rsqrt", _call_topi_without_attr(topi.rsqrt, "tir_rsqrt")) register_legalize("relax.sigmoid", _call_topi_without_attr(topi.sigmoid, "tir_sigmoid")) register_legalize("relax.sign", _call_topi_without_attr(topi.sign, "tir_sign")) register_legalize("relax.sin", _call_topi_without_attr(topi.sin, "tir_sin")) register_legalize("relax.sinh", _call_topi_without_attr(topi.sinh, "tir_sinh")) register_legalize("relax.square", _call_topi_without_attr(lambda x: x * x, "tir_square")) register_legalize("relax.sqrt", _call_topi_without_attr(topi.sqrt, "tir_sqrt")) register_legalize("relax.tan", _call_topi_without_attr(topi.tan, "tir_tan")) register_legalize("relax.tanh", _call_topi_without_attr(topi.tanh, "tir_tanh")) register_legalize("relax.trunc", _call_topi_without_attr(topi.trunc, "tir_trunc")) register_legalize("relax.clip", _call_topi_without_attr(topi.clip, "tir_clip")) @register_legalize("relax.erf") def _erf(bb: BlockBuilder, call: Call) -> Expr: def te_erf(x: te.Tensor): dtype = x.dtype if dtype == "float16": erf = topi.math.cast(topi.erf(topi.math.cast(x, "float32")), "float16") else: erf = topi.erf(x) return erf return bb.call_te(te_erf, call.args[0], primfunc_name_hint="erf")