mirror of https://github.com/llvm/torch-mlir
154 lines
5.0 KiB
TableGen
154 lines
5.0 KiB
TableGen
//===- NumpyOps.td - Core numpy dialect ops ----------------*- tablegen -*-===//
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//
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// This file is licensed under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#ifndef NPCOMP_DIALECT_NUMPY_NUMPY_OPS
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#define NPCOMP_DIALECT_NUMPY_NUMPY_OPS
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include "NumpyDialect.td"
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include "mlir/Interfaces/SideEffects.td"
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include "mlir/IR/SymbolInterfaces.td"
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//----------------------------------------------------------------------------//
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// IR casting and conversions
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//----------------------------------------------------------------------------//
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def Numpy_NarrowOp : Numpy_Op<"narrow", []> {
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let summary = "Narrows an array to a known type at boundaries.";
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let description = [{
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During tracing, specific data types are often unknown. This op generically
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narrows from an unknown to a known data type at boundaries.
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}];
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let arguments = (ins
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Numpy_AnyArray:$operand
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);
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let results = (outs
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Numpy_AnyArray:$result
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);
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let assemblyFormat = [{
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$operand attr-dict `:` functional-type($operand, $result)
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}];
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}
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//----------------------------------------------------------------------------//
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// Universal function ops (ufunc)
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// See: https://docs.scipy.org/doc/numpy/reference/ufuncs.html
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//----------------------------------------------------------------------------//
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def Numpy_BuiltinUfuncOp : Numpy_Op<"builtin_ufunc", [Symbol]> {
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let summary = "References a built-in universal function";
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let description = [{
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This module-level op binds by name to a fully-qualified numpy built-in
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ufunc (i.e. "numpy.add") and carries metadata associated with it.
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}];
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}
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def Numpy_GenericUfuncOp : Numpy_Op<"generic_ufunc", [
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IsolatedFromAbove,
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Symbol]> {
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let summary = "Defines a ufunc in terms of overloaded element-wise functions";
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let description = [{
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}];
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let arguments = (ins
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TypeArrayAttr:$overload_types);
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let regions = (region
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VariadicRegion<AnyRegion>:$overloads);
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}
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def Numpy_UfuncReturnOp : Numpy_Op<"ufunc_return", [
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Terminator,
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HasParent<"Numpy::GenericUfuncOp">]> {
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let summary = "Return a value from a generic_ufunc";
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let description = [{
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Must terminate the basic block of a generic_ufunc overload.
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}];
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let arguments = (ins
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Variadic<AnyType>:$operands
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);
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let assemblyFormat = "attr-dict ($operands^ `:` type($operands))?";
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}
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def Numpy_UfuncCallOp : Numpy_Op<"ufunc_call", []> {
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let summary = "Default operation on a func";
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let description = [{
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Invokes a ufunc with the given arguments. This variant models the __call__
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behavior of a python ufunc except that it does not model the `out`
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parameter, which indicates an in-place update.
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}];
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let arguments = (ins
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FlatSymbolRefAttr:$ufunc_ref,
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Variadic<Numpy_AnyArray>:$operands
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);
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let results = (outs
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Numpy_AnyArray:$result
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);
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let assemblyFormat = [{
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$ufunc_ref `(` operands `)` attr-dict `:` functional-type(operands, results)
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}];
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}
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//----------------------------------------------------------------------------//
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// Built-in array functions
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//
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// These are ops that mirror supported array functions in numpy or related
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// libraries. Note that there is some evolution happening on the dispatch
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// mechanism for these.
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// See: https://numpy.org/neps/nep-0018-array-function-protocol.html
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// See: https://numpy.org/neps/nep-0037-array-module.html
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//
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// Note that operators are in general free to take any arguments, but there
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// are some conventions that are mirrored here:
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//
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// - `out` arguments indicate that the operation should perform a mutation
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// of a specific array. This is not modeled at the individual op level,
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// instead producing IR constructs to map the intent.
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//----------------------------------------------------------------------------//
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def Numpy_DotOp : Numpy_Op<"dot", []> {
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let summary = "Represents the `numpy.dot` operator";
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let description = [{
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See: https://docs.scipy.org/doc/numpy/reference/generated/numpy.dot.html
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}];
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let arguments = (ins
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Numpy_AnyArray:$a,
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Numpy_AnyArray:$b
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);
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let results = (outs
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Numpy_AnyArray:$output
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);
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let assemblyFormat = [{
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operands attr-dict `:` functional-type(operands, $output)
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}];
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}
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def Numpy_TransposeOp : Numpy_Op<"transpose", []> {
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let summary = "Represents the `numpy.transpose` op with no permutation specified";
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let description = [{
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This op is equivalent to calling `numpy.transpose(arr)`, which reverses
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the axes of the array. It is separate from the explicit form because it
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is not always possible to locallly infer an appropriate axis transform
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at the point of declaration.
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See: https://docs.scipy.org/doc/numpy/reference/generated/numpy.transpose.html
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}];
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let arguments = (ins
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Numpy_AnyArray:$a
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);
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let results = (outs
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Numpy_AnyArray:$output
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);
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let assemblyFormat = [{
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operands attr-dict `:` functional-type(operands, $output)
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}];
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}
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#endif // NPCOMP_DIALECT_NUMPY_NUMPY_OPS
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