lib/Bindings/Python/DialectLinalg.cpp - llvm-project/mlir - Git at Google

 //===- DialectLinalg.cpp - Pybind module for Linalg dialect API support --===//
 //
 // Part of the LLVM Project, 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
 //
 //===----------------------------------------------------------------------===//

 #include "mlir-c/Dialect/Linalg.h"
 #include "mlir-c/IR.h"
 #include "mlir/Bindings/Python/Nanobind.h"
 #include "mlir/Bindings/Python/NanobindAdaptors.h"

 namespace nb = nanobind;
 using namespace mlir::python::nanobind_adaptors;

 static std::optional<MlirLinalgContractionDimensions>
 InferContractionDimensions(MlirOperation op) {
   MlirLinalgContractionDimensions dims =
       mlirLinalgInferContractionDimensions(op);

   // Detect "empty" result. This occurs when `op` is not a contraction op,
   // or when `linalg::inferContractionDims` fails.
   if (mlirAttributeIsNull(dims.batch) && mlirAttributeIsNull(dims.m) &&
       mlirAttributeIsNull(dims.n) && mlirAttributeIsNull(dims.k)) {
     return std::nullopt;
   }
   return dims;
 }

 static std::optional<MlirLinalgConvolutionDimensions>
 InferConvolutionDimensions(MlirOperation op) {
   MlirLinalgConvolutionDimensions dims =
       mlirLinalgInferConvolutionDimensions(op);

   // Detect "empty" result. This occurs when `op` is not a convolution op,
   // or when `linalg::inferConvolutionDims` fails.
   if (mlirAttributeIsNull(dims.batch) &&
       mlirAttributeIsNull(dims.outputImage) &&
       mlirAttributeIsNull(dims.outputChannel) &&
       mlirAttributeIsNull(dims.filterLoop) &&
       mlirAttributeIsNull(dims.inputChannel) &&
       mlirAttributeIsNull(dims.depth) && mlirAttributeIsNull(dims.strides) &&
       mlirAttributeIsNull(dims.dilations)) {
     return std::nullopt;
   }

   return dims;
 }

 static void populateDialectLinalgSubmodule(nb::module_ m) {
   m.def(
       "fill_builtin_region",
       [](MlirOperation op) { mlirLinalgFillBuiltinNamedOpRegion(op); },
       nb::arg("op"),
       "Fill the region for `op`, which is assumed to be a builtin named Linalg "
       "op.");

   m.def("isa_contraction_op", &mlirLinalgIsAContractionOp,
         "Checks if the given operation is a Linalg contraction operation.",
         nb::arg("op"));

   nb::class_<MlirLinalgContractionDimensions>(m, "ContractionDimensions")
       .def_prop_ro("batch",
                    [](const MlirLinalgContractionDimensions &self) {
                      return self.batch;
                    })
       .def_prop_ro(
           "m",
           [](const MlirLinalgContractionDimensions &self) { return self.m; })
       .def_prop_ro(
           "n",
           [](const MlirLinalgContractionDimensions &self) { return self.n; })
       .def_prop_ro("k", [](const MlirLinalgContractionDimensions &self) {
         return self.k;
       });

   m.def("infer_contraction_dimensions", &InferContractionDimensions,
         "Infers contraction dimensions (batch/m/n/k) for a Linalg contraction "
         "op.",
         nb::arg("op"));

   m.def("isa_convolution_op", &mlirLinalgIsAConvolutionOp,
         "Checks if the given operation is a Linalg convolution operation.",
         nb::arg("op"));

   nb::class_<MlirLinalgConvolutionDimensions>(m, "ConvolutionDimensions")
       .def_prop_ro("batch",
                    [](const MlirLinalgConvolutionDimensions &self) {
                      return self.batch;
                    })
       .def_prop_ro("output_image",
                    [](const MlirLinalgConvolutionDimensions &self) {
                      return self.outputImage;
                    })
       .def_prop_ro("output_channel",
                    [](const MlirLinalgConvolutionDimensions &self) {
                      return self.outputChannel;
                    })
       .def_prop_ro("filter_loop",
                    [](const MlirLinalgConvolutionDimensions &self) {
                      return self.filterLoop;
                    })
       .def_prop_ro("input_channel",
                    [](const MlirLinalgConvolutionDimensions &self) {
                      return self.inputChannel;
                    })
       .def_prop_ro("depth",
                    [](const MlirLinalgConvolutionDimensions &self) {
                      return self.depth;
                    })
       .def_prop_ro("strides",
                    [](const MlirLinalgConvolutionDimensions &self) {
                      return self.strides;
                    })
       .def_prop_ro("dilations",
                    [](const MlirLinalgConvolutionDimensions &self) {
                      return self.dilations;
                    });

   m.def("infer_convolution_dimensions", &InferConvolutionDimensions,
         "Infers convolution dimensions", nb::arg("op"));

   m.def(
       "get_indexing_maps",
       [](MlirOperation op) -> std::optional<MlirAttribute> {
         MlirAttribute attr = mlirLinalgGetIndexingMapsAttribute(op);
         if (mlirAttributeIsNull(attr))
           return std::nullopt;
         return attr;
       },
       "Returns the indexing_maps attribute for a linalg op.");
 }

 NB_MODULE(_mlirDialectsLinalg, m) {
   m.doc() = "MLIR Linalg dialect.";

   populateDialectLinalgSubmodule(m);
 }
	//===- DialectLinalg.cpp - Pybind module for Linalg dialect API support --===//
	//
	// Part of the LLVM Project, 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
	//
	//===----------------------------------------------------------------------===//

	#include "mlir-c/Dialect/Linalg.h"
	#include "mlir-c/IR.h"
	#include "mlir/Bindings/Python/Nanobind.h"
	#include "mlir/Bindings/Python/NanobindAdaptors.h"

	namespace nb = nanobind;
	using namespace mlir::python::nanobind_adaptors;

	static std::optional<MlirLinalgContractionDimensions>
	InferContractionDimensions(MlirOperation op) {
	MlirLinalgContractionDimensions dims =
	mlirLinalgInferContractionDimensions(op);

	// Detect "empty" result. This occurs when `op` is not a contraction op,
	// or when `linalg::inferContractionDims` fails.
	if (mlirAttributeIsNull(dims.batch) && mlirAttributeIsNull(dims.m) &&
	mlirAttributeIsNull(dims.n) && mlirAttributeIsNull(dims.k)) {
	return std::nullopt;
	}
	return dims;
	}

	static std::optional<MlirLinalgConvolutionDimensions>
	InferConvolutionDimensions(MlirOperation op) {
	MlirLinalgConvolutionDimensions dims =
	mlirLinalgInferConvolutionDimensions(op);

	// Detect "empty" result. This occurs when `op` is not a convolution op,
	// or when `linalg::inferConvolutionDims` fails.
	if (mlirAttributeIsNull(dims.batch) &&
	mlirAttributeIsNull(dims.outputImage) &&
	mlirAttributeIsNull(dims.outputChannel) &&
	mlirAttributeIsNull(dims.filterLoop) &&
	mlirAttributeIsNull(dims.inputChannel) &&
	mlirAttributeIsNull(dims.depth) && mlirAttributeIsNull(dims.strides) &&
	mlirAttributeIsNull(dims.dilations)) {
	return std::nullopt;
	}

	return dims;
	}

	static void populateDialectLinalgSubmodule(nb::module_ m) {
	m.def(
	"fill_builtin_region",
	[](MlirOperation op) { mlirLinalgFillBuiltinNamedOpRegion(op); },
	nb::arg("op"),
	"Fill the region for `op`, which is assumed to be a builtin named Linalg "
	"op.");

	m.def("isa_contraction_op", &mlirLinalgIsAContractionOp,
	"Checks if the given operation is a Linalg contraction operation.",
	nb::arg("op"));

	nb::class_<MlirLinalgContractionDimensions>(m, "ContractionDimensions")
	.def_prop_ro("batch",
	[](const MlirLinalgContractionDimensions &self) {
	return self.batch;
	})
	.def_prop_ro(
	"m",
	[](const MlirLinalgContractionDimensions &self) { return self.m; })
	.def_prop_ro(
	"n",
	[](const MlirLinalgContractionDimensions &self) { return self.n; })
	.def_prop_ro("k", [](const MlirLinalgContractionDimensions &self) {
	return self.k;
	});

	m.def("infer_contraction_dimensions", &InferContractionDimensions,
	"Infers contraction dimensions (batch/m/n/k) for a Linalg contraction "
	"op.",
	nb::arg("op"));

	m.def("isa_convolution_op", &mlirLinalgIsAConvolutionOp,
	"Checks if the given operation is a Linalg convolution operation.",
	nb::arg("op"));

	nb::class_<MlirLinalgConvolutionDimensions>(m, "ConvolutionDimensions")
	.def_prop_ro("batch",
	[](const MlirLinalgConvolutionDimensions &self) {
	return self.batch;
	})
	.def_prop_ro("output_image",
	[](const MlirLinalgConvolutionDimensions &self) {
	return self.outputImage;
	})
	.def_prop_ro("output_channel",
	[](const MlirLinalgConvolutionDimensions &self) {
	return self.outputChannel;
	})
	.def_prop_ro("filter_loop",
	[](const MlirLinalgConvolutionDimensions &self) {
	return self.filterLoop;
	})
	.def_prop_ro("input_channel",
	[](const MlirLinalgConvolutionDimensions &self) {
	return self.inputChannel;
	})
	.def_prop_ro("depth",
	[](const MlirLinalgConvolutionDimensions &self) {
	return self.depth;
	})
	.def_prop_ro("strides",
	[](const MlirLinalgConvolutionDimensions &self) {
	return self.strides;
	})
	.def_prop_ro("dilations",
	[](const MlirLinalgConvolutionDimensions &self) {
	return self.dilations;
	});

	m.def("infer_convolution_dimensions", &InferConvolutionDimensions,
	"Infers convolution dimensions", nb::arg("op"));

	m.def(
	"get_indexing_maps",
	[](MlirOperation op) -> std::optional<MlirAttribute> {
	MlirAttribute attr = mlirLinalgGetIndexingMapsAttribute(op);
	if (mlirAttributeIsNull(attr))
	return std::nullopt;
	return attr;
	},
	"Returns the indexing_maps attribute for a linalg op.");
	}

	NB_MODULE(_mlirDialectsLinalg, m) {
	m.doc() = "MLIR Linalg dialect.";

	populateDialectLinalgSubmodule(m);
	}