//===- Pass.cpp - Pass Management -----------------------------------------===// // // 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 "Pass.h" #include "IRModule.h" #include "mlir-c/Bindings/Python/Interop.h" #include "mlir-c/Pass.h" namespace py = pybind11; using namespace mlir; using namespace mlir::python; namespace { /// Owning Wrapper around a PassManager. class PyPassManager { public: PyPassManager(MlirPassManager passManager) : passManager(passManager) {} PyPassManager(PyPassManager &&other) : passManager(other.passManager) { other.passManager.ptr = nullptr; } ~PyPassManager() { if (!mlirPassManagerIsNull(passManager)) mlirPassManagerDestroy(passManager); } MlirPassManager get() { return passManager; } void release() { passManager.ptr = nullptr; } pybind11::object getCapsule() { return py::reinterpret_steal( mlirPythonPassManagerToCapsule(get())); } static pybind11::object createFromCapsule(pybind11::object capsule) { MlirPassManager rawPm = mlirPythonCapsuleToPassManager(capsule.ptr()); if (mlirPassManagerIsNull(rawPm)) throw py::error_already_set(); return py::cast(PyPassManager(rawPm), py::return_value_policy::move); } private: MlirPassManager passManager; }; } // anonymous namespace /// Create the `mlir.passmanager` here. void mlir::python::populatePassManagerSubmodule(py::module &m) { //---------------------------------------------------------------------------- // Mapping of the top-level PassManager //---------------------------------------------------------------------------- py::class_(m, "PassManager") .def(py::init<>([](DefaultingPyMlirContext context) { MlirPassManager passManager = mlirPassManagerCreate(context->get()); return new PyPassManager(passManager); }), py::arg("context") = py::none(), "Create a new PassManager for the current (or provided) Context.") .def_property_readonly(MLIR_PYTHON_CAPI_PTR_ATTR, &PyPassManager::getCapsule) .def(MLIR_PYTHON_CAPI_FACTORY_ATTR, &PyPassManager::createFromCapsule) .def("_testing_release", &PyPassManager::release, "Releases (leaks) the backing pass manager (testing)") .def( "enable_ir_printing", [](PyPassManager &passManager) { mlirPassManagerEnableIRPrinting(passManager.get()); }, "Enable print-ir-after-all.") .def( "enable_verifier", [](PyPassManager &passManager, bool enable) { mlirPassManagerEnableVerifier(passManager.get(), enable); }, "Enable / disable verify-each.") .def_static( "parse", [](const std::string pipeline, DefaultingPyMlirContext context) { MlirPassManager passManager = mlirPassManagerCreate(context->get()); MlirLogicalResult status = mlirParsePassPipeline( mlirPassManagerGetAsOpPassManager(passManager), mlirStringRefCreate(pipeline.data(), pipeline.size())); if (mlirLogicalResultIsFailure(status)) throw SetPyError(PyExc_ValueError, llvm::Twine("invalid pass pipeline '") + pipeline + "'."); return new PyPassManager(passManager); }, py::arg("pipeline"), py::arg("context") = py::none(), "Parse a textual pass-pipeline and return a top-level PassManager " "that can be applied on a Module. Throw a ValueError if the pipeline " "can't be parsed") .def( "run", [](PyPassManager &passManager, PyModule &module) { MlirLogicalResult status = mlirPassManagerRun(passManager.get(), module.get()); if (mlirLogicalResultIsFailure(status)) throw SetPyError(PyExc_RuntimeError, "Failure while executing pass pipeline."); }, "Run the pass manager on the provided module, throw a RuntimeError " "on failure.") .def( "__str__", [](PyPassManager &self) { MlirPassManager passManager = self.get(); PyPrintAccumulator printAccum; mlirPrintPassPipeline( mlirPassManagerGetAsOpPassManager(passManager), printAccum.getCallback(), printAccum.getUserData()); return printAccum.join(); }, "Print the textual representation for this PassManager, suitable to " "be passed to `parse` for round-tripping."); }