torch-mlir/include/npcomp/Dialect/Numpy/NumpyOps.td

154 lines
5.0 KiB
TableGen

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