| //===- IRModules.cpp - IR Submodules of pybind module ---------------------===// |
| // |
| // 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 |
| // |
| //===----------------------------------------------------------------------===// |
| |
| // clang-format off |
| #include "mlir/Bindings/Python/Globals.h" |
| #include "mlir/Bindings/Python/IRCore.h" |
| #include "mlir/Bindings/Python/NanobindUtils.h" |
| #include "mlir-c/Bindings/Python/Interop.h" // This is expected after nanobind. |
| // clang-format on |
| #include "mlir-c/BuiltinAttributes.h" |
| #include "mlir-c/Debug.h" |
| #include "mlir-c/Diagnostics.h" |
| #include "mlir-c/ExtensibleDialect.h" |
| #include "mlir-c/IR.h" |
| #include "mlir-c/Support.h" |
| |
| #include <array> |
| #include <functional> |
| #include <optional> |
| #include <string> |
| |
| namespace nb = nanobind; |
| using namespace nb::literals; |
| using namespace mlir; |
| using nanobind::detail::join; |
| |
| static const char kModuleParseDocstring[] = |
| R"(Parses a module's assembly format from a string. |
| |
| Returns a new MlirModule or raises an MLIRError if the parsing fails. |
| |
| See also: https://mlir.llvm.org/docs/LangRef/ |
| )"; |
| |
| static const char kDumpDocstring[] = |
| "Dumps a debug representation of the object to stderr."; |
| |
| static const char kValueReplaceAllUsesExceptDocstring[] = |
| R"(Replace all uses of this value with the `with` value, except for those |
| in `exceptions`. `exceptions` can be either a single operation or a list of |
| operations. |
| )"; |
| |
| //------------------------------------------------------------------------------ |
| // Utilities. |
| //------------------------------------------------------------------------------ |
| |
| /// Local helper to compute std::hash for a value. |
| template <typename T> |
| static size_t hash(const T &value) { |
| return std::hash<T>{}(value); |
| } |
| |
| static nb::object |
| createCustomDialectWrapper(const std::string &dialectNamespace, |
| nb::object dialectDescriptor) { |
| auto dialectClass = |
| python::MLIR_BINDINGS_PYTHON_DOMAIN::PyGlobals::get().lookupDialectClass( |
| dialectNamespace); |
| if (!dialectClass) { |
| // Use the base class. |
| return nb::cast(python::MLIR_BINDINGS_PYTHON_DOMAIN::PyDialect( |
| std::move(dialectDescriptor))); |
| } |
| |
| // Create the custom implementation. |
| return (*dialectClass)(std::move(dialectDescriptor)); |
| } |
| |
| namespace mlir { |
| namespace python { |
| namespace MLIR_BINDINGS_PYTHON_DOMAIN { |
| |
| MlirBlock createBlock(const nb::sequence &pyArgTypes, |
| const std::optional<nb::sequence> &pyArgLocs) { |
| std::vector<MlirType> argTypes; |
| argTypes.reserve(nb::len(pyArgTypes)); |
| for (nb::handle pyType : pyArgTypes) |
| argTypes.push_back( |
| nb::cast<python::MLIR_BINDINGS_PYTHON_DOMAIN::PyType &>(pyType)); |
| |
| std::vector<MlirLocation> argLocs; |
| if (pyArgLocs) { |
| argLocs.reserve(nb::len(*pyArgLocs)); |
| for (nb::handle pyLoc : *pyArgLocs) |
| argLocs.push_back( |
| nb::cast<python::MLIR_BINDINGS_PYTHON_DOMAIN::PyLocation &>(pyLoc)); |
| } else if (!argTypes.empty()) { |
| argLocs.assign( |
| argTypes.size(), |
| python::MLIR_BINDINGS_PYTHON_DOMAIN::DefaultingPyLocation::resolve()); |
| } |
| |
| if (argTypes.size() != argLocs.size()) |
| throw nb::value_error( |
| join("Expected ", argTypes.size(), " locations, got: ", argLocs.size()) |
| .c_str()); |
| return mlirBlockCreate(argTypes.size(), argTypes.data(), argLocs.data()); |
| } |
| |
| void PyGlobalDebugFlag::set(nb::object &o, bool enable) { |
| nb::ft_lock_guard lock(mutex); |
| mlirEnableGlobalDebug(enable); |
| } |
| |
| bool PyGlobalDebugFlag::get(const nb::object &) { |
| nb::ft_lock_guard lock(mutex); |
| return mlirIsGlobalDebugEnabled(); |
| } |
| |
| void PyGlobalDebugFlag::bind(nb::module_ &m) { |
| // Debug flags. |
| nb::class_<PyGlobalDebugFlag>(m, "_GlobalDebug") |
| .def_prop_rw_static("flag", &PyGlobalDebugFlag::get, |
| &PyGlobalDebugFlag::set, "LLVM-wide debug flag.") |
| .def_static( |
| "set_types", |
| [](const std::string &type) { |
| nb::ft_lock_guard lock(mutex); |
| mlirSetGlobalDebugType(type.c_str()); |
| }, |
| "types"_a, "Sets specific debug types to be produced by LLVM.") |
| .def_static( |
| "set_types", |
| [](const std::vector<std::string> &types) { |
| std::vector<const char *> pointers; |
| pointers.reserve(types.size()); |
| for (const std::string &str : types) |
| pointers.push_back(str.c_str()); |
| nb::ft_lock_guard lock(mutex); |
| mlirSetGlobalDebugTypes(pointers.data(), pointers.size()); |
| }, |
| "types"_a, |
| "Sets multiple specific debug types to be produced by LLVM."); |
| } |
| |
| nb::ft_mutex PyGlobalDebugFlag::mutex; |
| |
| bool PyAttrBuilderMap::dunderContains(const std::string &attributeKind) { |
| return PyGlobals::get().lookupAttributeBuilder(attributeKind).has_value(); |
| } |
| |
| nb::callable |
| PyAttrBuilderMap::dunderGetItemNamed(const std::string &attributeKind) { |
| auto builder = PyGlobals::get().lookupAttributeBuilder(attributeKind); |
| if (!builder) |
| throw nb::key_error(attributeKind.c_str()); |
| return *builder; |
| } |
| |
| void PyAttrBuilderMap::dunderSetItemNamed(const std::string &attributeKind, |
| nb::callable func, bool replace) { |
| PyGlobals::get().registerAttributeBuilder(attributeKind, std::move(func), |
| replace); |
| } |
| |
| void PyAttrBuilderMap::bind(nb::module_ &m) { |
| nb::class_<PyAttrBuilderMap>(m, "AttrBuilder") |
| .def_static("contains", &PyAttrBuilderMap::dunderContains, |
| "attribute_kind"_a, |
| "Checks whether an attribute builder is registered for the " |
| "given attribute kind.") |
| .def_static("get", &PyAttrBuilderMap::dunderGetItemNamed, |
| "attribute_kind"_a, |
| "Gets the registered attribute builder for the given " |
| "attribute kind.") |
| .def_static("insert", &PyAttrBuilderMap::dunderSetItemNamed, |
| "attribute_kind"_a, "attr_builder"_a, "replace"_a = false, |
| "Register an attribute builder for building MLIR " |
| "attributes from Python values."); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyBlock |
| //------------------------------------------------------------------------------ |
| |
| nb::object PyBlock::getCapsule() { |
| return nb::steal<nb::object>(mlirPythonBlockToCapsule(get())); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // Collections. |
| //------------------------------------------------------------------------------ |
| |
| nb::typed<nb::object, PyRegion> PyRegionIterator::dunderNext() { |
| operation->checkValid(); |
| if (nextIndex >= mlirOperationGetNumRegions(operation->get())) { |
| PyErr_SetNone(PyExc_StopIteration); |
| // python functions should return NULL after setting any exception |
| return nb::object(); |
| } |
| MlirRegion region = mlirOperationGetRegion(operation->get(), nextIndex++); |
| return nb::cast(PyRegion(operation, region)); |
| } |
| |
| void PyRegionIterator::bind(nb::module_ &m) { |
| nb::class_<PyRegionIterator>(m, "RegionIterator") |
| .def("__iter__", &PyRegionIterator::dunderIter, |
| "Returns an iterator over the regions in the operation.") |
| .def("__next__", &PyRegionIterator::dunderNext, |
| "Returns the next region in the iteration."); |
| } |
| |
| PyRegionList::PyRegionList(PyOperationRef operation, intptr_t startIndex, |
| intptr_t length, intptr_t step) |
| : Sliceable(startIndex, |
| length == -1 ? mlirOperationGetNumRegions(operation->get()) |
| : length, |
| step), |
| operation(std::move(operation)) {} |
| |
| PyRegionIterator PyRegionList::dunderIter() { |
| operation->checkValid(); |
| return PyRegionIterator(operation, startIndex); |
| } |
| |
| void PyRegionList::bindDerived(ClassTy &c) { |
| c.def("__iter__", &PyRegionList::dunderIter, |
| "Returns an iterator over the regions in the sequence."); |
| } |
| |
| intptr_t PyRegionList::getRawNumElements() { |
| operation->checkValid(); |
| return mlirOperationGetNumRegions(operation->get()); |
| } |
| |
| PyRegion PyRegionList::getRawElement(intptr_t pos) { |
| operation->checkValid(); |
| return PyRegion(operation, mlirOperationGetRegion(operation->get(), pos)); |
| } |
| |
| PyRegionList PyRegionList::slice(intptr_t startIndex, intptr_t length, |
| intptr_t step) const { |
| return PyRegionList(operation, startIndex, length, step); |
| } |
| |
| nb::typed<nb::object, PyBlock> PyBlockIterator::dunderNext() { |
| operation->checkValid(); |
| if (mlirBlockIsNull(next)) { |
| PyErr_SetNone(PyExc_StopIteration); |
| // python functions should return NULL after setting any exception |
| return nb::object(); |
| } |
| |
| PyBlock returnBlock(operation, next); |
| next = mlirBlockGetNextInRegion(next); |
| return nb::cast(returnBlock); |
| } |
| |
| void PyBlockIterator::bind(nb::module_ &m) { |
| nb::class_<PyBlockIterator>(m, "BlockIterator") |
| .def("__iter__", &PyBlockIterator::dunderIter, |
| "Returns an iterator over the blocks in the operation's region.") |
| .def("__next__", &PyBlockIterator::dunderNext, |
| "Returns the next block in the iteration."); |
| } |
| |
| PyBlockIterator PyBlockList::dunderIter() { |
| operation->checkValid(); |
| return PyBlockIterator(operation, mlirRegionGetFirstBlock(region)); |
| } |
| |
| intptr_t PyBlockList::dunderLen() { |
| operation->checkValid(); |
| intptr_t count = 0; |
| MlirBlock block = mlirRegionGetFirstBlock(region); |
| while (!mlirBlockIsNull(block)) { |
| count += 1; |
| block = mlirBlockGetNextInRegion(block); |
| } |
| return count; |
| } |
| |
| PyBlock PyBlockList::dunderGetItem(intptr_t index) { |
| operation->checkValid(); |
| if (index < 0) { |
| index += dunderLen(); |
| } |
| if (index < 0) { |
| throw nb::index_error("attempt to access out of bounds block"); |
| } |
| MlirBlock block = mlirRegionGetFirstBlock(region); |
| while (!mlirBlockIsNull(block)) { |
| if (index == 0) { |
| return PyBlock(operation, block); |
| } |
| block = mlirBlockGetNextInRegion(block); |
| index -= 1; |
| } |
| throw nb::index_error("attempt to access out of bounds block"); |
| } |
| |
| PyBlock PyBlockList::appendBlock(const nb::args &pyArgTypes, |
| const std::optional<nb::sequence> &pyArgLocs) { |
| operation->checkValid(); |
| MlirBlock block = createBlock(nb::cast<nb::sequence>(pyArgTypes), pyArgLocs); |
| mlirRegionAppendOwnedBlock(region, block); |
| return PyBlock(operation, block); |
| } |
| |
| void PyBlockList::bind(nb::module_ &m) { |
| nb::class_<PyBlockList>(m, "BlockList") |
| .def("__getitem__", &PyBlockList::dunderGetItem, |
| "Returns the block at the specified index.") |
| .def("__iter__", &PyBlockList::dunderIter, |
| "Returns an iterator over blocks in the operation's region.") |
| .def("__len__", &PyBlockList::dunderLen, |
| "Returns the number of blocks in the operation's region.") |
| .def("append", &PyBlockList::appendBlock, |
| R"( |
| Appends a new block, with argument types as positional args. |
| |
| Returns: |
| The created block. |
| )", |
| "args"_a, nb::kw_only(), "arg_locs"_a = std::nullopt); |
| } |
| |
| nb::typed<nb::object, PyOpView> PyOperationIterator::dunderNext() { |
| parentOperation->checkValid(); |
| if (mlirOperationIsNull(next)) { |
| PyErr_SetNone(PyExc_StopIteration); |
| // python functions should return NULL after setting any exception |
| return nb::object(); |
| } |
| |
| PyOperationRef returnOperation = |
| PyOperation::forOperation(parentOperation->getContext(), next); |
| next = mlirOperationGetNextInBlock(next); |
| return returnOperation->createOpView(); |
| } |
| |
| void PyOperationIterator::bind(nb::module_ &m) { |
| nb::class_<PyOperationIterator>(m, "OperationIterator") |
| .def("__iter__", &PyOperationIterator::dunderIter, |
| "Returns an iterator over the operations in an operation's block.") |
| .def("__next__", &PyOperationIterator::dunderNext, |
| "Returns the next operation in the iteration."); |
| } |
| |
| PyOperationIterator PyOperationList::dunderIter() { |
| parentOperation->checkValid(); |
| return PyOperationIterator(parentOperation, |
| mlirBlockGetFirstOperation(block)); |
| } |
| |
| intptr_t PyOperationList::dunderLen() { |
| parentOperation->checkValid(); |
| intptr_t count = 0; |
| MlirOperation childOp = mlirBlockGetFirstOperation(block); |
| while (!mlirOperationIsNull(childOp)) { |
| count += 1; |
| childOp = mlirOperationGetNextInBlock(childOp); |
| } |
| return count; |
| } |
| |
| nb::typed<nb::object, PyOpView> PyOperationList::dunderGetItem(intptr_t index) { |
| parentOperation->checkValid(); |
| if (index < 0) { |
| index += dunderLen(); |
| } |
| if (index < 0) { |
| throw nb::index_error("attempt to access out of bounds operation"); |
| } |
| MlirOperation childOp = mlirBlockGetFirstOperation(block); |
| while (!mlirOperationIsNull(childOp)) { |
| if (index == 0) { |
| return PyOperation::forOperation(parentOperation->getContext(), childOp) |
| ->createOpView(); |
| } |
| childOp = mlirOperationGetNextInBlock(childOp); |
| index -= 1; |
| } |
| throw nb::index_error("attempt to access out of bounds operation"); |
| } |
| |
| void PyOperationList::bind(nb::module_ &m) { |
| nb::class_<PyOperationList>(m, "OperationList") |
| .def("__getitem__", &PyOperationList::dunderGetItem, |
| "Returns the operation at the specified index.") |
| .def("__iter__", &PyOperationList::dunderIter, |
| "Returns an iterator over operations in the list.") |
| .def("__len__", &PyOperationList::dunderLen, |
| "Returns the number of operations in the list."); |
| } |
| |
| nb::typed<nb::object, PyOpView> PyOpOperand::getOwner() const { |
| MlirOperation owner = mlirOpOperandGetOwner(opOperand); |
| PyMlirContextRef context = |
| PyMlirContext::forContext(mlirOperationGetContext(owner)); |
| return PyOperation::forOperation(context, owner)->createOpView(); |
| } |
| |
| size_t PyOpOperand::getOperandNumber() const { |
| return mlirOpOperandGetOperandNumber(opOperand); |
| } |
| |
| void PyOpOperand::bind(nb::module_ &m) { |
| nb::class_<PyOpOperand>(m, "OpOperand") |
| .def_prop_ro("owner", &PyOpOperand::getOwner, |
| "Returns the operation that owns this operand.") |
| .def_prop_ro("operand_number", &PyOpOperand::getOperandNumber, |
| "Returns the operand number in the owning operation."); |
| } |
| |
| nb::typed<nb::object, PyOpOperand> PyOpOperandIterator::dunderNext() { |
| if (mlirOpOperandIsNull(opOperand)) { |
| PyErr_SetNone(PyExc_StopIteration); |
| // python functions should return NULL after setting any exception |
| return nb::object(); |
| } |
| |
| PyOpOperand returnOpOperand(opOperand); |
| opOperand = mlirOpOperandGetNextUse(opOperand); |
| return nb::cast(returnOpOperand); |
| } |
| |
| void PyOpOperandIterator::bind(nb::module_ &m) { |
| nb::class_<PyOpOperandIterator>(m, "OpOperandIterator") |
| .def("__iter__", &PyOpOperandIterator::dunderIter, |
| "Returns an iterator over operands.") |
| .def("__next__", &PyOpOperandIterator::dunderNext, |
| "Returns the next operand in the iteration."); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyThreadPool |
| //------------------------------------------------------------------------------ |
| |
| PyThreadPool::PyThreadPool() { threadPool = mlirLlvmThreadPoolCreate(); } |
| |
| PyThreadPool::~PyThreadPool() { |
| if (threadPool.ptr) |
| mlirLlvmThreadPoolDestroy(threadPool); |
| } |
| |
| int PyThreadPool::getMaxConcurrency() const { |
| return mlirLlvmThreadPoolGetMaxConcurrency(threadPool); |
| } |
| |
| std::string PyThreadPool::_mlir_thread_pool_ptr() const { |
| std::stringstream ss; |
| ss << threadPool.ptr; |
| return ss.str(); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyMlirContext |
| //------------------------------------------------------------------------------ |
| |
| PyMlirContext::PyMlirContext(MlirContext context) : context(context) { |
| nb::gil_scoped_acquire acquire; |
| nb::ft_lock_guard lock(live_contexts_mutex); |
| auto &liveContexts = getLiveContexts(); |
| liveContexts[context.ptr] = this; |
| } |
| |
| PyMlirContext::~PyMlirContext() { |
| // Note that the only public way to construct an instance is via the |
| // forContext method, which always puts the associated handle into |
| // liveContexts. |
| nb::gil_scoped_acquire acquire; |
| { |
| nb::ft_lock_guard lock(live_contexts_mutex); |
| getLiveContexts().erase(context.ptr); |
| } |
| mlirContextDestroy(context); |
| } |
| |
| PyMlirContextRef PyMlirContext::getRef() { |
| return PyMlirContextRef(this, nb::cast(this)); |
| } |
| |
| nb::object PyMlirContext::getCapsule() { |
| return nb::steal<nb::object>(mlirPythonContextToCapsule(get())); |
| } |
| |
| nb::object PyMlirContext::createFromCapsule(nb::object capsule) { |
| MlirContext rawContext = mlirPythonCapsuleToContext(capsule.ptr()); |
| if (mlirContextIsNull(rawContext)) |
| throw nb::python_error(); |
| return forContext(rawContext).releaseObject(); |
| } |
| |
| PyMlirContextRef PyMlirContext::forContext(MlirContext context) { |
| nb::gil_scoped_acquire acquire; |
| nb::ft_lock_guard lock(live_contexts_mutex); |
| auto &liveContexts = getLiveContexts(); |
| auto it = liveContexts.find(context.ptr); |
| if (it == liveContexts.end()) { |
| // Create. |
| PyMlirContext *unownedContextWrapper = new PyMlirContext(context); |
| nb::object pyRef = nb::cast(unownedContextWrapper); |
| assert(pyRef && "cast to nb::object failed"); |
| liveContexts[context.ptr] = unownedContextWrapper; |
| return PyMlirContextRef(unownedContextWrapper, std::move(pyRef)); |
| } |
| // Use existing. |
| nb::object pyRef = nb::cast(it->second); |
| return PyMlirContextRef(it->second, std::move(pyRef)); |
| } |
| |
| nb::ft_mutex PyMlirContext::live_contexts_mutex; |
| |
| PyMlirContext::LiveContextMap &PyMlirContext::getLiveContexts() { |
| static LiveContextMap liveContexts; |
| return liveContexts; |
| } |
| |
| size_t PyMlirContext::getLiveCount() { |
| nb::ft_lock_guard lock(live_contexts_mutex); |
| return getLiveContexts().size(); |
| } |
| |
| nb::object PyMlirContext::contextEnter(nb::object context) { |
| return PyThreadContextEntry::pushContext(context); |
| } |
| |
| void PyMlirContext::contextExit(const nb::object &excType, |
| const nb::object &excVal, |
| const nb::object &excTb) { |
| PyThreadContextEntry::popContext(*this); |
| } |
| |
| nb::object PyMlirContext::attachDiagnosticHandler(nb::object callback) { |
| // Note that ownership is transferred to the delete callback below by way of |
| // an explicit inc_ref (borrow). |
| PyDiagnosticHandler *pyHandler = |
| new PyDiagnosticHandler(get(), std::move(callback)); |
| nb::object pyHandlerObject = |
| nb::cast(pyHandler, nb::rv_policy::take_ownership); |
| (void)pyHandlerObject.inc_ref(); |
| |
| // In these C callbacks, the userData is a PyDiagnosticHandler* that is |
| // guaranteed to be known to pybind. |
| auto handlerCallback = |
| +[](MlirDiagnostic diagnostic, void *userData) -> MlirLogicalResult { |
| PyDiagnostic *pyDiagnostic = new PyDiagnostic(diagnostic); |
| nb::object pyDiagnosticObject = |
| nb::cast(pyDiagnostic, nb::rv_policy::take_ownership); |
| |
| auto *pyHandler = static_cast<PyDiagnosticHandler *>(userData); |
| bool result = false; |
| { |
| // Since this can be called from arbitrary C++ contexts, always get the |
| // gil. |
| nb::gil_scoped_acquire gil; |
| try { |
| result = nb::cast<bool>(pyHandler->callback(pyDiagnostic)); |
| } catch (std::exception &e) { |
| fprintf(stderr, "MLIR Python Diagnostic handler raised exception: %s\n", |
| e.what()); |
| pyHandler->hadError = true; |
| } |
| } |
| |
| pyDiagnostic->invalidate(); |
| return result ? mlirLogicalResultSuccess() : mlirLogicalResultFailure(); |
| }; |
| auto deleteCallback = +[](void *userData) { |
| auto *pyHandler = static_cast<PyDiagnosticHandler *>(userData); |
| assert(pyHandler->registeredID && "handler is not registered"); |
| pyHandler->registeredID.reset(); |
| |
| // Decrement reference, balancing the inc_ref() above. |
| nb::object pyHandlerObject = nb::cast(pyHandler, nb::rv_policy::reference); |
| pyHandlerObject.dec_ref(); |
| }; |
| |
| pyHandler->registeredID = mlirContextAttachDiagnosticHandler( |
| get(), handlerCallback, static_cast<void *>(pyHandler), deleteCallback); |
| return pyHandlerObject; |
| } |
| |
| MlirLogicalResult PyMlirContext::ErrorCapture::handler(MlirDiagnostic diag, |
| void *userData) { |
| auto *self = static_cast<ErrorCapture *>(userData); |
| // Check if the context requested we emit errors instead of capturing them. |
| if (self->ctx->emitErrorDiagnostics) |
| return mlirLogicalResultFailure(); |
| |
| if (mlirDiagnosticGetSeverity(diag) != |
| MlirDiagnosticSeverity::MlirDiagnosticError) |
| return mlirLogicalResultFailure(); |
| |
| self->errors.emplace_back(PyDiagnostic(diag).getInfo()); |
| return mlirLogicalResultSuccess(); |
| } |
| |
| PyMlirContext &DefaultingPyMlirContext::resolve() { |
| PyMlirContext *context = PyThreadContextEntry::getDefaultContext(); |
| if (!context) { |
| throw std::runtime_error( |
| "An MLIR function requires a Context but none was provided in the call " |
| "or from the surrounding environment. Either pass to the function with " |
| "a 'context=' argument or establish a default using 'with Context():'"); |
| } |
| return *context; |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyThreadContextEntry management |
| //------------------------------------------------------------------------------ |
| |
| std::vector<PyThreadContextEntry> &PyThreadContextEntry::getStack() { |
| static thread_local std::vector<PyThreadContextEntry> stack; |
| return stack; |
| } |
| |
| PyThreadContextEntry *PyThreadContextEntry::getTopOfStack() { |
| auto &stack = getStack(); |
| if (stack.empty()) |
| return nullptr; |
| return &stack.back(); |
| } |
| |
| void PyThreadContextEntry::push(FrameKind frameKind, nb::object context, |
| nb::object insertionPoint, |
| nb::object location) { |
| auto &stack = getStack(); |
| stack.emplace_back(frameKind, std::move(context), std::move(insertionPoint), |
| std::move(location)); |
| // If the new stack has more than one entry and the context of the new top |
| // entry matches the previous, copy the insertionPoint and location from the |
| // previous entry if missing from the new top entry. |
| if (stack.size() > 1) { |
| auto &prev = *(stack.rbegin() + 1); |
| auto ¤t = stack.back(); |
| if (current.context.is(prev.context)) { |
| // Default non-context objects from the previous entry. |
| if (!current.insertionPoint) |
| current.insertionPoint = prev.insertionPoint; |
| if (!current.location) |
| current.location = prev.location; |
| } |
| } |
| } |
| |
| PyMlirContext *PyThreadContextEntry::getContext() { |
| if (!context) |
| return nullptr; |
| return nb::cast<PyMlirContext *>(context); |
| } |
| |
| PyInsertionPoint *PyThreadContextEntry::getInsertionPoint() { |
| if (!insertionPoint) |
| return nullptr; |
| return nb::cast<PyInsertionPoint *>(insertionPoint); |
| } |
| |
| PyLocation *PyThreadContextEntry::getLocation() { |
| if (!location) |
| return nullptr; |
| return nb::cast<PyLocation *>(location); |
| } |
| |
| PyMlirContext *PyThreadContextEntry::getDefaultContext() { |
| auto *tos = getTopOfStack(); |
| return tos ? tos->getContext() : nullptr; |
| } |
| |
| PyInsertionPoint *PyThreadContextEntry::getDefaultInsertionPoint() { |
| auto *tos = getTopOfStack(); |
| return tos ? tos->getInsertionPoint() : nullptr; |
| } |
| |
| PyLocation *PyThreadContextEntry::getDefaultLocation() { |
| auto *tos = getTopOfStack(); |
| return tos ? tos->getLocation() : nullptr; |
| } |
| |
| nb::object PyThreadContextEntry::pushContext(nb::object context) { |
| push(FrameKind::Context, /*context=*/context, |
| /*insertionPoint=*/nb::object(), |
| /*location=*/nb::object()); |
| return context; |
| } |
| |
| void PyThreadContextEntry::popContext(PyMlirContext &context) { |
| auto &stack = getStack(); |
| if (stack.empty()) |
| throw std::runtime_error("Unbalanced Context enter/exit"); |
| auto &tos = stack.back(); |
| if (tos.frameKind != FrameKind::Context && tos.getContext() != &context) |
| throw std::runtime_error("Unbalanced Context enter/exit"); |
| stack.pop_back(); |
| } |
| |
| nb::object |
| PyThreadContextEntry::pushInsertionPoint(nb::object insertionPointObj) { |
| PyInsertionPoint &insertionPoint = |
| nb::cast<PyInsertionPoint &>(insertionPointObj); |
| nb::object contextObj = |
| insertionPoint.getBlock().getParentOperation()->getContext().getObject(); |
| push(FrameKind::InsertionPoint, |
| /*context=*/contextObj, |
| /*insertionPoint=*/insertionPointObj, |
| /*location=*/nb::object()); |
| return insertionPointObj; |
| } |
| |
| void PyThreadContextEntry::popInsertionPoint(PyInsertionPoint &insertionPoint) { |
| auto &stack = getStack(); |
| if (stack.empty()) |
| throw std::runtime_error("Unbalanced InsertionPoint enter/exit"); |
| auto &tos = stack.back(); |
| if (tos.frameKind != FrameKind::InsertionPoint && |
| tos.getInsertionPoint() != &insertionPoint) |
| throw std::runtime_error("Unbalanced InsertionPoint enter/exit"); |
| stack.pop_back(); |
| } |
| |
| nb::object PyThreadContextEntry::pushLocation(nb::object locationObj) { |
| PyLocation &location = nb::cast<PyLocation &>(locationObj); |
| nb::object contextObj = location.getContext().getObject(); |
| push(FrameKind::Location, /*context=*/contextObj, |
| /*insertionPoint=*/nb::object(), |
| /*location=*/locationObj); |
| return locationObj; |
| } |
| |
| void PyThreadContextEntry::popLocation(PyLocation &location) { |
| auto &stack = getStack(); |
| if (stack.empty()) |
| throw std::runtime_error("Unbalanced Location enter/exit"); |
| auto &tos = stack.back(); |
| if (tos.frameKind != FrameKind::Location && tos.getLocation() != &location) |
| throw std::runtime_error("Unbalanced Location enter/exit"); |
| stack.pop_back(); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyDiagnostic* |
| //------------------------------------------------------------------------------ |
| |
| void PyDiagnostic::invalidate() { |
| valid = false; |
| if (materializedNotes) { |
| for (nb::handle noteObject : *materializedNotes) { |
| PyDiagnostic *note = nb::cast<PyDiagnostic *>(noteObject); |
| note->invalidate(); |
| } |
| } |
| } |
| |
| PyDiagnosticHandler::PyDiagnosticHandler(MlirContext context, |
| nb::object callback) |
| : context(context), callback(std::move(callback)) {} |
| |
| PyDiagnosticHandler::~PyDiagnosticHandler() = default; |
| |
| void PyDiagnosticHandler::detach() { |
| if (!registeredID) |
| return; |
| MlirDiagnosticHandlerID localID = *registeredID; |
| mlirContextDetachDiagnosticHandler(context, localID); |
| assert(!registeredID && "should have unregistered"); |
| // Not strictly necessary but keeps stale pointers from being around to cause |
| // issues. |
| context = {nullptr}; |
| } |
| |
| void PyDiagnostic::checkValid() { |
| if (!valid) { |
| throw std::invalid_argument( |
| "Diagnostic is invalid (used outside of callback)"); |
| } |
| } |
| |
| PyDiagnosticSeverity PyDiagnostic::getSeverity() { |
| checkValid(); |
| return static_cast<PyDiagnosticSeverity>( |
| mlirDiagnosticGetSeverity(diagnostic)); |
| } |
| |
| PyLocation PyDiagnostic::getLocation() { |
| checkValid(); |
| MlirLocation loc = mlirDiagnosticGetLocation(diagnostic); |
| MlirContext context = mlirLocationGetContext(loc); |
| return PyLocation(PyMlirContext::forContext(context), loc); |
| } |
| |
| nb::str PyDiagnostic::getMessage() { |
| checkValid(); |
| nb::object fileObject = nb::module_::import_("io").attr("StringIO")(); |
| PyFileAccumulator accum(fileObject, /*binary=*/false); |
| mlirDiagnosticPrint(diagnostic, accum.getCallback(), accum.getUserData()); |
| return nb::cast<nb::str>(fileObject.attr("getvalue")()); |
| } |
| |
| nb::tuple PyDiagnostic::getNotes() { |
| checkValid(); |
| if (materializedNotes) |
| return *materializedNotes; |
| intptr_t numNotes = mlirDiagnosticGetNumNotes(diagnostic); |
| nb::tuple notes = nb::steal<nb::tuple>(PyTuple_New(numNotes)); |
| for (intptr_t i = 0; i < numNotes; ++i) { |
| MlirDiagnostic noteDiag = mlirDiagnosticGetNote(diagnostic, i); |
| nb::object diagnostic = nb::cast(PyDiagnostic(noteDiag)); |
| PyTuple_SetItem(notes.ptr(), i, diagnostic.release().ptr()); |
| } |
| materializedNotes = std::move(notes); |
| |
| return *materializedNotes; |
| } |
| |
| PyDiagnostic::DiagnosticInfo PyDiagnostic::getInfo() { |
| std::vector<DiagnosticInfo> notes; |
| for (nb::handle n : getNotes()) |
| notes.emplace_back(nb::cast<PyDiagnostic>(n).getInfo()); |
| return {getSeverity(), getLocation(), nb::cast<std::string>(getMessage()), |
| std::move(notes)}; |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyDialect, PyDialectDescriptor, PyDialects, PyDialectRegistry |
| //------------------------------------------------------------------------------ |
| |
| MlirDialect PyDialects::getDialectForKey(const std::string &key, |
| bool attrError) { |
| MlirDialect dialect = mlirContextGetOrLoadDialect(getContext()->get(), |
| {key.data(), key.size()}); |
| if (mlirDialectIsNull(dialect)) { |
| std::string msg = join("Dialect '", key, "' not found"); |
| if (attrError) |
| throw nb::attribute_error(msg.c_str()); |
| throw nb::index_error(msg.c_str()); |
| } |
| return dialect; |
| } |
| |
| nb::object PyDialectRegistry::getCapsule() { |
| return nb::steal<nb::object>(mlirPythonDialectRegistryToCapsule(*this)); |
| } |
| |
| PyDialectRegistry PyDialectRegistry::createFromCapsule(nb::object capsule) { |
| MlirDialectRegistry rawRegistry = |
| mlirPythonCapsuleToDialectRegistry(capsule.ptr()); |
| if (mlirDialectRegistryIsNull(rawRegistry)) |
| throw nb::python_error(); |
| return PyDialectRegistry(rawRegistry); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyLocation |
| //------------------------------------------------------------------------------ |
| |
| nb::object PyLocation::getCapsule() { |
| return nb::steal<nb::object>(mlirPythonLocationToCapsule(*this)); |
| } |
| |
| PyLocation PyLocation::createFromCapsule(nb::object capsule) { |
| MlirLocation rawLoc = mlirPythonCapsuleToLocation(capsule.ptr()); |
| if (mlirLocationIsNull(rawLoc)) |
| throw nb::python_error(); |
| return PyLocation(PyMlirContext::forContext(mlirLocationGetContext(rawLoc)), |
| rawLoc); |
| } |
| |
| nb::object PyLocation::contextEnter(nb::object locationObj) { |
| return PyThreadContextEntry::pushLocation(locationObj); |
| } |
| |
| void PyLocation::contextExit(const nb::object &excType, |
| const nb::object &excVal, |
| const nb::object &excTb) { |
| PyThreadContextEntry::popLocation(*this); |
| } |
| |
| PyLocation &DefaultingPyLocation::resolve() { |
| auto *location = PyThreadContextEntry::getDefaultLocation(); |
| if (!location) { |
| throw std::runtime_error( |
| "An MLIR function requires a Location but none was provided in the " |
| "call or from the surrounding environment. Either pass to the function " |
| "with a 'loc=' argument or establish a default using 'with loc:'"); |
| } |
| return *location; |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyModule |
| //------------------------------------------------------------------------------ |
| |
| PyModule::PyModule(PyMlirContextRef contextRef, MlirModule module) |
| : BaseContextObject(std::move(contextRef)), module(module) {} |
| |
| PyModule::~PyModule() { |
| nb::gil_scoped_acquire acquire; |
| auto &liveModules = getContext()->liveModules; |
| assert(liveModules.count(module.ptr) == 1 && |
| "destroying module not in live map"); |
| liveModules.erase(module.ptr); |
| mlirModuleDestroy(module); |
| } |
| |
| PyModuleRef PyModule::forModule(MlirModule module) { |
| MlirContext context = mlirModuleGetContext(module); |
| PyMlirContextRef contextRef = PyMlirContext::forContext(context); |
| |
| nb::gil_scoped_acquire acquire; |
| auto &liveModules = contextRef->liveModules; |
| auto it = liveModules.find(module.ptr); |
| if (it == liveModules.end()) { |
| // Create. |
| PyModule *unownedModule = new PyModule(std::move(contextRef), module); |
| // Note that the default return value policy on cast is automatic_reference, |
| // which does not take ownership (delete will not be called). |
| // Just be explicit. |
| nb::object pyRef = nb::cast(unownedModule, nb::rv_policy::take_ownership); |
| unownedModule->handle = pyRef; |
| liveModules[module.ptr] = |
| std::make_pair(unownedModule->handle, unownedModule); |
| return PyModuleRef(unownedModule, std::move(pyRef)); |
| } |
| // Use existing. |
| PyModule *existing = it->second.second; |
| nb::object pyRef = nb::borrow<nb::object>(it->second.first); |
| return PyModuleRef(existing, std::move(pyRef)); |
| } |
| |
| nb::object PyModule::createFromCapsule(nb::object capsule) { |
| MlirModule rawModule = mlirPythonCapsuleToModule(capsule.ptr()); |
| if (mlirModuleIsNull(rawModule)) |
| throw nb::python_error(); |
| return forModule(rawModule).releaseObject(); |
| } |
| |
| nb::object PyModule::getCapsule() { |
| return nb::steal<nb::object>(mlirPythonModuleToCapsule(get())); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyOperation |
| //------------------------------------------------------------------------------ |
| |
| PyOperation::PyOperation(PyMlirContextRef contextRef, MlirOperation operation) |
| : BaseContextObject(std::move(contextRef)), operation(operation) {} |
| |
| PyOperation::~PyOperation() { |
| // If the operation has already been invalidated there is nothing to do. |
| if (!valid) |
| return; |
| // Otherwise, invalidate the operation when it is attached. |
| if (isAttached()) |
| setInvalid(); |
| else { |
| // And destroy it when it is detached, i.e. owned by Python. |
| erase(); |
| } |
| } |
| |
| namespace { |
| |
| // Constructs a new object of type T in-place on the Python heap, returning a |
| // PyObjectRef to it, loosely analogous to std::make_shared<T>(). |
| template <typename T, class... Args> |
| PyObjectRef<T> makeObjectRef(Args &&...args) { |
| nb::handle type = nb::type<T>(); |
| nb::object instance = nb::inst_alloc(type); |
| T *ptr = nb::inst_ptr<T>(instance); |
| new (ptr) T(std::forward<Args>(args)...); |
| nb::inst_mark_ready(instance); |
| return PyObjectRef<T>(ptr, std::move(instance)); |
| } |
| |
| } // namespace |
| |
| PyOperationRef PyOperation::createInstance(PyMlirContextRef contextRef, |
| MlirOperation operation, |
| nb::object parentKeepAlive) { |
| // Create. |
| PyOperationRef unownedOperation = |
| makeObjectRef<PyOperation>(std::move(contextRef), operation); |
| unownedOperation->handle = unownedOperation.getObject(); |
| if (parentKeepAlive) { |
| unownedOperation->parentKeepAlive = std::move(parentKeepAlive); |
| } |
| return unownedOperation; |
| } |
| |
| PyOperationRef PyOperation::forOperation(PyMlirContextRef contextRef, |
| MlirOperation operation, |
| nb::object parentKeepAlive) { |
| return createInstance(std::move(contextRef), operation, |
| std::move(parentKeepAlive)); |
| } |
| |
| PyOperationRef PyOperation::createDetached(PyMlirContextRef contextRef, |
| MlirOperation operation, |
| nb::object parentKeepAlive) { |
| PyOperationRef created = createInstance(std::move(contextRef), operation, |
| std::move(parentKeepAlive)); |
| created->attached = false; |
| return created; |
| } |
| |
| PyOperationRef PyOperation::parse(PyMlirContextRef contextRef, |
| const std::string &sourceStr, |
| const std::string &sourceName) { |
| PyMlirContext::ErrorCapture errors(contextRef); |
| MlirOperation op = |
| mlirOperationCreateParse(contextRef->get(), toMlirStringRef(sourceStr), |
| toMlirStringRef(sourceName)); |
| if (mlirOperationIsNull(op)) |
| throw MLIRError("Unable to parse operation assembly", errors.take()); |
| return PyOperation::createDetached(std::move(contextRef), op); |
| } |
| |
| void PyOperation::detachFromParent() { |
| mlirOperationRemoveFromParent(getOperation()); |
| setDetached(); |
| parentKeepAlive = nb::object(); |
| } |
| |
| MlirOperation PyOperation::get() const { |
| checkValid(); |
| return operation; |
| } |
| |
| PyOperationRef PyOperation::getRef() { |
| return PyOperationRef(this, nb::borrow<nb::object>(handle)); |
| } |
| |
| void PyOperation::setAttached(const nb::object &parent) { |
| assert(!attached && "operation already attached"); |
| attached = true; |
| } |
| |
| void PyOperation::setDetached() { |
| assert(attached && "operation already detached"); |
| attached = false; |
| } |
| |
| void PyOperation::checkValid() const { |
| if (!valid) { |
| throw std::runtime_error("the operation has been invalidated"); |
| } |
| } |
| |
| void PyOperationBase::print(std::optional<int64_t> largeElementsLimit, |
| std::optional<int64_t> largeResourceLimit, |
| bool enableDebugInfo, bool prettyDebugInfo, |
| bool printGenericOpForm, bool useLocalScope, |
| bool useNameLocAsPrefix, bool assumeVerified, |
| nb::object fileObject, bool binary, |
| bool skipRegions) { |
| PyOperation &operation = getOperation(); |
| operation.checkValid(); |
| if (fileObject.is_none()) |
| fileObject = nb::module_::import_("sys").attr("stdout"); |
| |
| MlirOpPrintingFlags flags = mlirOpPrintingFlagsCreate(); |
| if (largeElementsLimit) |
| mlirOpPrintingFlagsElideLargeElementsAttrs(flags, *largeElementsLimit); |
| if (largeResourceLimit) |
| mlirOpPrintingFlagsElideLargeResourceString(flags, *largeResourceLimit); |
| if (enableDebugInfo) |
| mlirOpPrintingFlagsEnableDebugInfo(flags, /*enable=*/true, |
| /*prettyForm=*/prettyDebugInfo); |
| if (printGenericOpForm) |
| mlirOpPrintingFlagsPrintGenericOpForm(flags); |
| if (useLocalScope) |
| mlirOpPrintingFlagsUseLocalScope(flags); |
| if (assumeVerified) |
| mlirOpPrintingFlagsAssumeVerified(flags); |
| if (skipRegions) |
| mlirOpPrintingFlagsSkipRegions(flags); |
| if (useNameLocAsPrefix) |
| mlirOpPrintingFlagsPrintNameLocAsPrefix(flags); |
| |
| PyFileAccumulator accum(fileObject, binary); |
| mlirOperationPrintWithFlags(operation, flags, accum.getCallback(), |
| accum.getUserData()); |
| mlirOpPrintingFlagsDestroy(flags); |
| } |
| |
| void PyOperationBase::print(PyAsmState &state, nb::object fileObject, |
| bool binary) { |
| PyOperation &operation = getOperation(); |
| operation.checkValid(); |
| if (fileObject.is_none()) |
| fileObject = nb::module_::import_("sys").attr("stdout"); |
| PyFileAccumulator accum(fileObject, binary); |
| mlirOperationPrintWithState(operation, state.get(), accum.getCallback(), |
| accum.getUserData()); |
| } |
| |
| void PyOperationBase::writeBytecode(const nb::object &fileOrStringObject, |
| std::optional<int64_t> bytecodeVersion) { |
| PyOperation &operation = getOperation(); |
| operation.checkValid(); |
| PyFileAccumulator accum(fileOrStringObject, /*binary=*/true); |
| |
| if (!bytecodeVersion.has_value()) |
| return mlirOperationWriteBytecode(operation, accum.getCallback(), |
| accum.getUserData()); |
| |
| MlirBytecodeWriterConfig config = mlirBytecodeWriterConfigCreate(); |
| mlirBytecodeWriterConfigDesiredEmitVersion(config, *bytecodeVersion); |
| MlirLogicalResult res = mlirOperationWriteBytecodeWithConfig( |
| operation, config, accum.getCallback(), accum.getUserData()); |
| mlirBytecodeWriterConfigDestroy(config); |
| if (mlirLogicalResultIsFailure(res)) |
| throw nb::value_error( |
| join("Unable to honor desired bytecode version ", *bytecodeVersion) |
| .c_str()); |
| } |
| |
| void PyOperationBase::walk(std::function<PyWalkResult(MlirOperation)> callback, |
| PyWalkOrder walkOrder) { |
| PyOperation &operation = getOperation(); |
| operation.checkValid(); |
| struct UserData { |
| std::function<PyWalkResult(MlirOperation)> callback; |
| bool gotException; |
| std::string exceptionWhat; |
| nb::object exceptionType; |
| }; |
| UserData userData{callback, false, {}, {}}; |
| MlirOperationWalkCallback walkCallback = [](MlirOperation op, |
| void *userData) { |
| UserData *calleeUserData = static_cast<UserData *>(userData); |
| try { |
| return static_cast<MlirWalkResult>((calleeUserData->callback)(op)); |
| } catch (nb::python_error &e) { |
| calleeUserData->gotException = true; |
| calleeUserData->exceptionWhat = std::string(e.what()); |
| calleeUserData->exceptionType = nb::borrow(e.type()); |
| return MlirWalkResult::MlirWalkResultInterrupt; |
| } |
| }; |
| mlirOperationWalk(operation, walkCallback, &userData, |
| static_cast<MlirWalkOrder>(walkOrder)); |
| if (userData.gotException) { |
| std::string message("Exception raised in callback: "); |
| message.append(userData.exceptionWhat); |
| throw std::runtime_error(message); |
| } |
| } |
| |
| nb::object PyOperationBase::getAsm(bool binary, |
| std::optional<int64_t> largeElementsLimit, |
| std::optional<int64_t> largeResourceLimit, |
| bool enableDebugInfo, bool prettyDebugInfo, |
| bool printGenericOpForm, bool useLocalScope, |
| bool useNameLocAsPrefix, bool assumeVerified, |
| bool skipRegions) { |
| nb::object fileObject; |
| if (binary) { |
| fileObject = nb::module_::import_("io").attr("BytesIO")(); |
| } else { |
| fileObject = nb::module_::import_("io").attr("StringIO")(); |
| } |
| print(/*largeElementsLimit=*/largeElementsLimit, |
| /*largeResourceLimit=*/largeResourceLimit, |
| /*enableDebugInfo=*/enableDebugInfo, |
| /*prettyDebugInfo=*/prettyDebugInfo, |
| /*printGenericOpForm=*/printGenericOpForm, |
| /*useLocalScope=*/useLocalScope, |
| /*useNameLocAsPrefix=*/useNameLocAsPrefix, |
| /*assumeVerified=*/assumeVerified, |
| /*fileObject=*/fileObject, |
| /*binary=*/binary, |
| /*skipRegions=*/skipRegions); |
| |
| return fileObject.attr("getvalue")(); |
| } |
| |
| void PyOperationBase::moveAfter(PyOperationBase &other) { |
| PyOperation &operation = getOperation(); |
| PyOperation &otherOp = other.getOperation(); |
| operation.checkValid(); |
| otherOp.checkValid(); |
| mlirOperationMoveAfter(operation, otherOp); |
| operation.parentKeepAlive = otherOp.parentKeepAlive; |
| } |
| |
| void PyOperationBase::moveBefore(PyOperationBase &other) { |
| PyOperation &operation = getOperation(); |
| PyOperation &otherOp = other.getOperation(); |
| operation.checkValid(); |
| otherOp.checkValid(); |
| mlirOperationMoveBefore(operation, otherOp); |
| operation.parentKeepAlive = otherOp.parentKeepAlive; |
| } |
| |
| bool PyOperationBase::isBeforeInBlock(PyOperationBase &other) { |
| PyOperation &operation = getOperation(); |
| PyOperation &otherOp = other.getOperation(); |
| operation.checkValid(); |
| otherOp.checkValid(); |
| return mlirOperationIsBeforeInBlock(operation, otherOp); |
| } |
| |
| bool PyOperationBase::verify() { |
| PyOperation &op = getOperation(); |
| PyMlirContext::ErrorCapture errors(op.getContext()); |
| if (!mlirOperationVerify(op.get())) |
| throw MLIRError("Verification failed", errors.take()); |
| return true; |
| } |
| |
| std::optional<PyOperationRef> PyOperation::getParentOperation() { |
| checkValid(); |
| if (!isAttached()) |
| throw nb::value_error("Detached operations have no parent"); |
| MlirOperation operation = mlirOperationGetParentOperation(get()); |
| if (mlirOperationIsNull(operation)) |
| return {}; |
| return PyOperation::forOperation(getContext(), operation); |
| } |
| |
| PyBlock PyOperation::getBlock() { |
| checkValid(); |
| std::optional<PyOperationRef> parentOperation = getParentOperation(); |
| MlirBlock block = mlirOperationGetBlock(get()); |
| assert(!mlirBlockIsNull(block) && "Attached operation has null parent"); |
| assert(parentOperation && "Operation has no parent"); |
| return PyBlock{std::move(*parentOperation), block}; |
| } |
| |
| nb::object PyOperation::getCapsule() { |
| checkValid(); |
| return nb::steal<nb::object>(mlirPythonOperationToCapsule(get())); |
| } |
| |
| nb::object PyOperation::createFromCapsule(const nb::object &capsule) { |
| MlirOperation rawOperation = mlirPythonCapsuleToOperation(capsule.ptr()); |
| if (mlirOperationIsNull(rawOperation)) |
| throw nb::python_error(); |
| MlirContext rawCtxt = mlirOperationGetContext(rawOperation); |
| return forOperation(PyMlirContext::forContext(rawCtxt), rawOperation) |
| .releaseObject(); |
| } |
| |
| static void maybeInsertOperation(PyOperationRef &op, |
| const nb::object &maybeIp) { |
| // InsertPoint active? |
| if (!maybeIp.is(nb::cast(false))) { |
| PyInsertionPoint *ip; |
| if (maybeIp.is_none()) { |
| ip = PyThreadContextEntry::getDefaultInsertionPoint(); |
| } else { |
| ip = nb::cast<PyInsertionPoint *>(maybeIp); |
| } |
| if (ip) |
| ip->insert(*op.get()); |
| } |
| } |
| |
| nb::object PyOperation::create(std::string_view name, |
| std::optional<std::vector<PyType *>> results, |
| const MlirValue *operands, size_t numOperands, |
| std::optional<nb::dict> attributes, |
| std::optional<std::vector<PyBlock *>> successors, |
| int regions, PyLocation &location, |
| const nb::object &maybeIp, bool inferType) { |
| std::vector<MlirType> mlirResults; |
| std::vector<MlirBlock> mlirSuccessors; |
| std::vector<std::pair<std::string, MlirAttribute>> mlirAttributes; |
| |
| // General parameter validation. |
| if (regions < 0) |
| throw nb::value_error("number of regions must be >= 0"); |
| |
| // Unpack/validate results. |
| if (results) { |
| mlirResults.reserve(results->size()); |
| for (PyType *result : *results) { |
| // TODO: Verify result type originate from the same context. |
| if (!result) |
| throw nb::value_error("result type cannot be None"); |
| mlirResults.push_back(*result); |
| } |
| } |
| // Unpack/validate attributes. |
| if (attributes) { |
| mlirAttributes.reserve(attributes->size()); |
| for (std::pair<nb::handle, nb::handle> it : *attributes) { |
| std::string key; |
| try { |
| key = nb::cast<std::string>(it.first); |
| } catch (nb::cast_error &err) { |
| std::string msg = join("Invalid attribute key (not a string) when " |
| "attempting to create the operation \"", |
| name, "\" (", err.what(), ")"); |
| throw nb::type_error(msg.c_str()); |
| } |
| try { |
| auto &attribute = nb::cast<PyAttribute &>(it.second); |
| // TODO: Verify attribute originates from the same context. |
| mlirAttributes.emplace_back(std::move(key), attribute); |
| } catch (nb::cast_error &err) { |
| std::string msg = join("Invalid attribute value for the key \"", key, |
| "\" when attempting to create the operation \"", |
| name, "\" (", err.what(), ")"); |
| throw nb::type_error(msg.c_str()); |
| } catch (std::runtime_error &) { |
| // This exception seems thrown when the value is "None". |
| std::string msg = join( |
| "Found an invalid (`None`?) attribute value for the key \"", key, |
| "\" when attempting to create the operation \"", name, "\""); |
| throw std::runtime_error(msg); |
| } |
| } |
| } |
| // Unpack/validate successors. |
| if (successors) { |
| mlirSuccessors.reserve(successors->size()); |
| for (PyBlock *successor : *successors) { |
| // TODO: Verify successor originate from the same context. |
| if (!successor) |
| throw nb::value_error("successor block cannot be None"); |
| mlirSuccessors.push_back(successor->get()); |
| } |
| } |
| |
| // Apply unpacked/validated to the operation state. Beyond this |
| // point, exceptions cannot be thrown or else the state will leak. |
| MlirOperationState state = |
| mlirOperationStateGet(toMlirStringRef(name), location); |
| if (numOperands > 0) |
| mlirOperationStateAddOperands(&state, numOperands, operands); |
| state.enableResultTypeInference = inferType; |
| if (!mlirResults.empty()) |
| mlirOperationStateAddResults(&state, mlirResults.size(), |
| mlirResults.data()); |
| if (!mlirAttributes.empty()) { |
| // Note that the attribute names directly reference bytes in |
| // mlirAttributes, so that vector must not be changed from here |
| // on. |
| std::vector<MlirNamedAttribute> mlirNamedAttributes; |
| mlirNamedAttributes.reserve(mlirAttributes.size()); |
| for (const std::pair<std::string, MlirAttribute> &it : mlirAttributes) |
| mlirNamedAttributes.push_back(mlirNamedAttributeGet( |
| mlirIdentifierGet(mlirAttributeGetContext(it.second), |
| toMlirStringRef(it.first)), |
| it.second)); |
| mlirOperationStateAddAttributes(&state, mlirNamedAttributes.size(), |
| mlirNamedAttributes.data()); |
| } |
| if (!mlirSuccessors.empty()) |
| mlirOperationStateAddSuccessors(&state, mlirSuccessors.size(), |
| mlirSuccessors.data()); |
| if (regions) { |
| std::vector<MlirRegion> mlirRegions; |
| mlirRegions.resize(regions); |
| for (int i = 0; i < regions; ++i) |
| mlirRegions[i] = mlirRegionCreate(); |
| mlirOperationStateAddOwnedRegions(&state, mlirRegions.size(), |
| mlirRegions.data()); |
| } |
| |
| // Construct the operation. |
| PyMlirContext::ErrorCapture errors(location.getContext()); |
| MlirOperation operation = mlirOperationCreate(&state); |
| if (!operation.ptr) |
| throw MLIRError("Operation creation failed", errors.take()); |
| PyOperationRef created = |
| PyOperation::createDetached(location.getContext(), operation); |
| maybeInsertOperation(created, maybeIp); |
| |
| return created.getObject(); |
| } |
| |
| nb::object PyOperation::clone(const nb::object &maybeIp) { |
| MlirOperation clonedOperation = mlirOperationClone(operation); |
| PyOperationRef cloned = |
| PyOperation::createDetached(getContext(), clonedOperation); |
| maybeInsertOperation(cloned, maybeIp); |
| |
| return cloned->createOpView(); |
| } |
| |
| nb::object PyOperation::createOpView() { |
| checkValid(); |
| MlirIdentifier ident = mlirOperationGetName(get()); |
| MlirStringRef identStr = mlirIdentifierStr(ident); |
| auto operationCls = PyGlobals::get().lookupOperationClass( |
| std::string_view(identStr.data, identStr.length)); |
| if (operationCls) |
| return PyOpView::constructDerived(*operationCls, getRef().getObject()); |
| return nb::cast(PyOpView(getRef().getObject())); |
| } |
| |
| void PyOperation::erase() { |
| checkValid(); |
| setInvalid(); |
| mlirOperationDestroy(operation); |
| } |
| |
| void PyOpResult::bindDerived(ClassTy &c) { |
| c.def_prop_ro( |
| "owner", |
| [](PyOpResult &self) -> nb::typed<nb::object, PyOpView> { |
| assert(mlirOperationEqual(self.getParentOperation()->get(), |
| mlirOpResultGetOwner(self.get())) && |
| "expected the owner of the value in Python to match that in " |
| "the IR"); |
| return self.getParentOperation()->createOpView(); |
| }, |
| "Returns the operation that produces this result."); |
| c.def_prop_ro( |
| "result_number", |
| [](PyOpResult &self) { return mlirOpResultGetResultNumber(self.get()); }, |
| "Returns the position of this result in the operation's result list."); |
| } |
| |
| /// Returns the list of types of the values held by container. |
| template <typename Container> |
| static std::vector<nb::typed<nb::object, PyType>> |
| getValueTypes(Container &container, PyMlirContextRef &context) { |
| std::vector<nb::typed<nb::object, PyType>> result; |
| result.reserve(container.size()); |
| for (int i = 0, e = container.size(); i < e; ++i) { |
| result.push_back(PyType(context->getRef(), |
| mlirValueGetType(container.getElement(i).get())) |
| .maybeDownCast()); |
| } |
| return result; |
| } |
| |
| PyOpResultList::PyOpResultList(PyOperationRef operation, intptr_t startIndex, |
| intptr_t length, intptr_t step) |
| : Sliceable(startIndex, |
| length == -1 ? mlirOperationGetNumResults(operation->get()) |
| : length, |
| step), |
| operation(std::move(operation)) {} |
| |
| void PyOpResultList::bindDerived(ClassTy &c) { |
| c.def_prop_ro( |
| "types", |
| [](PyOpResultList &self) { |
| return getValueTypes(self, self.operation->getContext()); |
| }, |
| "Returns a list of types for all results in this result list."); |
| c.def_prop_ro( |
| "owner", |
| [](PyOpResultList &self) -> nb::typed<nb::object, PyOpView> { |
| return self.operation->createOpView(); |
| }, |
| "Returns the operation that owns this result list."); |
| } |
| |
| intptr_t PyOpResultList::getRawNumElements() { |
| operation->checkValid(); |
| return mlirOperationGetNumResults(operation->get()); |
| } |
| |
| PyOpResult PyOpResultList::getRawElement(intptr_t index) { |
| PyValue value(operation, mlirOperationGetResult(operation->get(), index)); |
| return PyOpResult(value); |
| } |
| |
| PyOpResultList PyOpResultList::slice(intptr_t startIndex, intptr_t length, |
| intptr_t step) const { |
| return PyOpResultList(operation, startIndex, length, step); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyOpView |
| //------------------------------------------------------------------------------ |
| |
| static void populateResultTypes(std::string_view name, nb::list resultTypeList, |
| const nb::object &resultSegmentSpecObj, |
| std::vector<int32_t> &resultSegmentLengths, |
| std::vector<PyType *> &resultTypes) { |
| resultTypes.reserve(resultTypeList.size()); |
| if (resultSegmentSpecObj.is_none()) { |
| // Non-variadic result unpacking. |
| size_t index = 0; |
| for (nb::handle resultType : resultTypeList) { |
| try { |
| resultTypes.push_back(nb::cast<PyType *>(resultType)); |
| if (!resultTypes.back()) |
| throw nb::cast_error(); |
| } catch (nb::cast_error &err) { |
| throw nb::value_error(join("Result ", index, " of operation \"", name, |
| "\" must be a Type (", err.what(), ")") |
| .c_str()); |
| } |
| ++index; |
| } |
| } else { |
| // Sized result unpacking. |
| auto resultSegmentSpec = nb::cast<std::vector<int>>(resultSegmentSpecObj); |
| if (resultSegmentSpec.size() != resultTypeList.size()) { |
| throw nb::value_error( |
| join("Operation \"", name, "\" requires ", resultSegmentSpec.size(), |
| " result segments but was provided ", resultTypeList.size()) |
| .c_str()); |
| } |
| resultSegmentLengths.reserve(resultTypeList.size()); |
| for (size_t i = 0, e = resultSegmentSpec.size(); i < e; ++i) { |
| int segmentSpec = resultSegmentSpec[i]; |
| if (segmentSpec == 1 || segmentSpec == 0) { |
| // Unpack unary element. |
| try { |
| auto *resultType = nb::cast<PyType *>(resultTypeList[i]); |
| if (resultType) { |
| resultTypes.push_back(resultType); |
| resultSegmentLengths.push_back(1); |
| } else if (segmentSpec == 0) { |
| // Allowed to be optional. |
| resultSegmentLengths.push_back(0); |
| } else { |
| throw nb::value_error( |
| join("Result ", i, " of operation \"", name, |
| "\" must be a Type (was None and result is not optional)") |
| .c_str()); |
| } |
| } catch (nb::cast_error &err) { |
| throw nb::value_error(join("Result ", i, " of operation \"", name, |
| "\" must be a Type (", err.what(), ")") |
| .c_str()); |
| } |
| } else if (segmentSpec == -1) { |
| // Unpack sequence by appending. |
| try { |
| if (resultTypeList[i].is_none()) { |
| // Treat it as an empty list. |
| resultSegmentLengths.push_back(0); |
| } else { |
| // Unpack the list. |
| auto segment = nb::cast<nb::sequence>(resultTypeList[i]); |
| for (nb::handle segmentItem : segment) { |
| resultTypes.push_back(nb::cast<PyType *>(segmentItem)); |
| if (!resultTypes.back()) { |
| throw nb::type_error("contained a None item"); |
| } |
| } |
| resultSegmentLengths.push_back(nb::len(segment)); |
| } |
| } catch (std::exception &err) { |
| // NOTE: Sloppy to be using a catch-all here, but there are at least |
| // three different unrelated exceptions that can be thrown in the |
| // above "casts". Just keep the scope above small and catch them all. |
| throw nb::value_error(join("Result ", i, " of operation \"", name, |
| "\" must be a Sequence of Types (", |
| err.what(), ")") |
| .c_str()); |
| } |
| } else { |
| throw nb::value_error("Unexpected segment spec"); |
| } |
| } |
| } |
| } |
| |
| MlirValue getUniqueResult(MlirOperation operation) { |
| auto numResults = mlirOperationGetNumResults(operation); |
| if (numResults != 1) { |
| auto name = mlirIdentifierStr(mlirOperationGetName(operation)); |
| throw nb::value_error( |
| join("Cannot call .result on operation ", |
| std::string_view(name.data, name.length), " which has ", |
| numResults, |
| " results (it is only valid for operations with a " |
| "single result)") |
| .c_str()); |
| } |
| return mlirOperationGetResult(operation, 0); |
| } |
| |
| static MlirValue getOpResultOrValue(nb::handle operand) { |
| if (operand.is_none()) { |
| throw nb::value_error("contained a None item"); |
| } |
| PyOperationBase *op; |
| if (nb::try_cast<PyOperationBase *>(operand, op)) { |
| return getUniqueResult(op->getOperation()); |
| } |
| PyOpResultList *opResultList; |
| if (nb::try_cast<PyOpResultList *>(operand, opResultList)) { |
| return getUniqueResult(opResultList->getOperation()->get()); |
| } |
| PyValue *value; |
| if (nb::try_cast<PyValue *>(operand, value)) { |
| return value->get(); |
| } |
| throw nb::value_error("is not a Value"); |
| } |
| |
| nb::object PyOpView::buildGeneric( |
| std::string_view name, std::tuple<int, bool> opRegionSpec, |
| nb::object operandSegmentSpecObj, nb::object resultSegmentSpecObj, |
| std::optional<nb::list> resultTypeList, nb::list operandList, |
| std::optional<nb::dict> attributes, |
| std::optional<std::vector<PyBlock *>> successors, |
| std::optional<int> regions, PyLocation &location, |
| const nb::object &maybeIp) { |
| PyMlirContextRef context = location.getContext(); |
| |
| // Class level operation construction metadata. |
| // Operand and result segment specs are either none, which does no |
| // variadic unpacking, or a list of ints with segment sizes, where each |
| // element is either a positive number (typically 1 for a scalar) or -1 to |
| // indicate that it is derived from the length of the same-indexed operand |
| // or result (implying that it is a list at that position). |
| std::vector<int32_t> operandSegmentLengths; |
| std::vector<int32_t> resultSegmentLengths; |
| |
| // Validate/determine region count. |
| int opMinRegionCount = std::get<0>(opRegionSpec); |
| bool opHasNoVariadicRegions = std::get<1>(opRegionSpec); |
| if (!regions) { |
| regions = opMinRegionCount; |
| } |
| if (*regions < opMinRegionCount) { |
| throw nb::value_error(join("Operation \"", name, |
| "\" requires a minimum of ", opMinRegionCount, |
| " regions but was built with regions=", *regions) |
| .c_str()); |
| } |
| if (opHasNoVariadicRegions && *regions > opMinRegionCount) { |
| throw nb::value_error(join("Operation \"", name, |
| "\" requires a maximum of ", opMinRegionCount, |
| " regions but was built with regions=", *regions) |
| .c_str()); |
| } |
| |
| // Unpack results. |
| std::vector<PyType *> resultTypes; |
| if (resultTypeList.has_value()) { |
| populateResultTypes(name, *resultTypeList, resultSegmentSpecObj, |
| resultSegmentLengths, resultTypes); |
| } |
| |
| // Unpack operands. |
| std::vector<MlirValue> operands; |
| operands.reserve(operands.size()); |
| size_t index = 0; |
| if (operandSegmentSpecObj.is_none()) { |
| // Non-sized operand unpacking. |
| for (nb::handle operand : operandList) { |
| try { |
| operands.push_back(getOpResultOrValue(operand)); |
| } catch (nb::builtin_exception &err) { |
| throw nb::value_error(join("Operand ", index, " of operation \"", name, |
| "\" must be a Value (", err.what(), ")") |
| .c_str()); |
| } |
| ++index; |
| } |
| } else { |
| // Sized operand unpacking. |
| auto operandSegmentSpec = nb::cast<std::vector<int>>(operandSegmentSpecObj); |
| if (operandSegmentSpec.size() != operandList.size()) { |
| throw nb::value_error( |
| join("Operation \"", name, "\" requires ", operandSegmentSpec.size(), |
| "operand segments but was provided ", operandList.size()) |
| .c_str()); |
| } |
| operandSegmentLengths.reserve(operandList.size()); |
| for (size_t i = 0, e = operandSegmentSpec.size(); i < e; ++i) { |
| int segmentSpec = operandSegmentSpec[i]; |
| if (segmentSpec == 1 || segmentSpec == 0) { |
| // Unpack unary element. |
| const nanobind::handle operand = operandList[i]; |
| if (!operand.is_none()) { |
| try { |
| operands.push_back(getOpResultOrValue(operand)); |
| } catch (nb::builtin_exception &err) { |
| throw nb::value_error(join("Operand ", i, " of operation \"", name, |
| "\" must be a Value (", err.what(), ")") |
| .c_str()); |
| } |
| |
| operandSegmentLengths.push_back(1); |
| } else if (segmentSpec == 0) { |
| // Allowed to be optional. |
| operandSegmentLengths.push_back(0); |
| } else { |
| throw nb::value_error( |
| join("Operand ", i, " of operation \"", name, |
| "\" must be a Value (was None and operand is not optional)") |
| .c_str()); |
| } |
| } else if (segmentSpec == -1) { |
| // Unpack sequence by appending. |
| try { |
| if (operandList[i].is_none()) { |
| // Treat it as an empty list. |
| operandSegmentLengths.push_back(0); |
| } else { |
| // Unpack the list. |
| auto segment = nb::cast<nb::sequence>(operandList[i]); |
| for (nb::handle segmentItem : segment) { |
| operands.push_back(getOpResultOrValue(segmentItem)); |
| } |
| operandSegmentLengths.push_back(nb::len(segment)); |
| } |
| } catch (std::exception &err) { |
| // NOTE: Sloppy to be using a catch-all here, but there are at least |
| // three different unrelated exceptions that can be thrown in the |
| // above "casts". Just keep the scope above small and catch them all. |
| throw nb::value_error(join("Operand ", i, " of operation \"", name, |
| "\" must be a Sequence of Values (", |
| err.what(), ")") |
| .c_str()); |
| } |
| } else { |
| throw nb::value_error("Unexpected segment spec"); |
| } |
| } |
| } |
| |
| // Merge operand/result segment lengths into attributes if needed. |
| if (!operandSegmentLengths.empty() || !resultSegmentLengths.empty()) { |
| // Dup. |
| if (attributes) { |
| attributes = nb::dict(*attributes); |
| } else { |
| attributes = nb::dict(); |
| } |
| if (attributes->contains("resultSegmentSizes") || |
| attributes->contains("operandSegmentSizes")) { |
| throw nb::value_error("Manually setting a 'resultSegmentSizes' or " |
| "'operandSegmentSizes' attribute is unsupported. " |
| "Use Operation.create for such low-level access."); |
| } |
| |
| // Add resultSegmentSizes attribute. |
| if (!resultSegmentLengths.empty()) { |
| MlirAttribute segmentLengthAttr = |
| mlirDenseI32ArrayGet(context->get(), resultSegmentLengths.size(), |
| resultSegmentLengths.data()); |
| (*attributes)["resultSegmentSizes"] = |
| PyAttribute(context, segmentLengthAttr); |
| } |
| |
| // Add operandSegmentSizes attribute. |
| if (!operandSegmentLengths.empty()) { |
| MlirAttribute segmentLengthAttr = |
| mlirDenseI32ArrayGet(context->get(), operandSegmentLengths.size(), |
| operandSegmentLengths.data()); |
| (*attributes)["operandSegmentSizes"] = |
| PyAttribute(context, segmentLengthAttr); |
| } |
| } |
| |
| // Delegate to create. |
| return PyOperation::create(name, |
| /*results=*/std::move(resultTypes), |
| /*operands=*/operands.data(), |
| /*numOperands=*/operands.size(), |
| /*attributes=*/std::move(attributes), |
| /*successors=*/std::move(successors), |
| /*regions=*/*regions, location, maybeIp, |
| !resultTypeList); |
| } |
| |
| nb::object PyOpView::constructDerived(const nb::object &cls, |
| const nb::object &operation) { |
| nb::handle opViewType = nb::type<PyOpView>(); |
| nb::object instance = cls.attr("__new__")(cls); |
| opViewType.attr("__init__")(instance, operation); |
| return instance; |
| } |
| |
| PyOpView::PyOpView(const nb::object &operationObject) |
| // Casting through the PyOperationBase base-class and then back to the |
| // Operation lets us accept any PyOperationBase subclass. |
| : operation(nb::cast<PyOperationBase &>(operationObject).getOperation()), |
| operationObject(operation.getRef().getObject()) {} |
| |
| //------------------------------------------------------------------------------ |
| // PyAsmState |
| //------------------------------------------------------------------------------ |
| |
| PyAsmState::PyAsmState(MlirValue value, bool useLocalScope) { |
| flags = mlirOpPrintingFlagsCreate(); |
| // The OpPrintingFlags are not exposed Python side, create locally and |
| // associate lifetime with the state. |
| if (useLocalScope) |
| mlirOpPrintingFlagsUseLocalScope(flags); |
| state = mlirAsmStateCreateForValue(value, flags); |
| } |
| |
| PyAsmState::PyAsmState(PyOperationBase &operation, bool useLocalScope) { |
| flags = mlirOpPrintingFlagsCreate(); |
| // The OpPrintingFlags are not exposed Python side, create locally and |
| // associate lifetime with the state. |
| if (useLocalScope) |
| mlirOpPrintingFlagsUseLocalScope(flags); |
| state = mlirAsmStateCreateForOperation(operation.getOperation().get(), flags); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyInsertionPoint. |
| //------------------------------------------------------------------------------ |
| |
| PyInsertionPoint::PyInsertionPoint(const PyBlock &block) : block(block) {} |
| |
| PyInsertionPoint::PyInsertionPoint(PyOperationBase &beforeOperationBase) |
| : refOperation(beforeOperationBase.getOperation().getRef()), |
| block((*refOperation)->getBlock()) {} |
| |
| PyInsertionPoint::PyInsertionPoint(PyOperationRef beforeOperationRef) |
| : refOperation(beforeOperationRef), block((*refOperation)->getBlock()) {} |
| |
| void PyInsertionPoint::insert(PyOperationBase &operationBase) { |
| PyOperation &operation = operationBase.getOperation(); |
| if (operation.isAttached()) |
| throw nb::value_error( |
| "Attempt to insert operation that is already attached"); |
| block.getParentOperation()->checkValid(); |
| MlirOperation beforeOp = {nullptr}; |
| if (refOperation) { |
| // Insert before operation. |
| (*refOperation)->checkValid(); |
| beforeOp = (*refOperation)->get(); |
| } else { |
| // Insert at end (before null) is only valid if the block does not |
| // already end in a known terminator (violating this will cause assertion |
| // failures later). |
| if (!mlirOperationIsNull(mlirBlockGetTerminator(block.get()))) { |
| throw nb::index_error("Cannot insert operation at the end of a block " |
| "that already has a terminator. Did you mean to " |
| "use 'InsertionPoint.at_block_terminator(block)' " |
| "versus 'InsertionPoint(block)'?"); |
| } |
| } |
| mlirBlockInsertOwnedOperationBefore(block.get(), beforeOp, operation); |
| operation.setAttached(); |
| } |
| |
| PyInsertionPoint PyInsertionPoint::atBlockBegin(PyBlock &block) { |
| MlirOperation firstOp = mlirBlockGetFirstOperation(block.get()); |
| if (mlirOperationIsNull(firstOp)) { |
| // Just insert at end. |
| return PyInsertionPoint(block); |
| } |
| |
| // Insert before first op. |
| PyOperationRef firstOpRef = PyOperation::forOperation( |
| block.getParentOperation()->getContext(), firstOp); |
| return PyInsertionPoint{block, std::move(firstOpRef)}; |
| } |
| |
| PyInsertionPoint PyInsertionPoint::atBlockTerminator(PyBlock &block) { |
| MlirOperation terminator = mlirBlockGetTerminator(block.get()); |
| if (mlirOperationIsNull(terminator)) |
| throw nb::value_error("Block has no terminator"); |
| PyOperationRef terminatorOpRef = PyOperation::forOperation( |
| block.getParentOperation()->getContext(), terminator); |
| return PyInsertionPoint{block, std::move(terminatorOpRef)}; |
| } |
| |
| PyInsertionPoint PyInsertionPoint::after(PyOperationBase &op) { |
| PyOperation &operation = op.getOperation(); |
| PyBlock block = operation.getBlock(); |
| MlirOperation nextOperation = mlirOperationGetNextInBlock(operation); |
| if (mlirOperationIsNull(nextOperation)) |
| return PyInsertionPoint(block); |
| PyOperationRef nextOpRef = PyOperation::forOperation( |
| block.getParentOperation()->getContext(), nextOperation); |
| return PyInsertionPoint{block, std::move(nextOpRef)}; |
| } |
| |
| size_t PyMlirContext::getLiveModuleCount() { return liveModules.size(); } |
| |
| nb::object PyInsertionPoint::contextEnter(nb::object insertPoint) { |
| return PyThreadContextEntry::pushInsertionPoint(std::move(insertPoint)); |
| } |
| |
| void PyInsertionPoint::contextExit(const nb::object &excType, |
| const nb::object &excVal, |
| const nb::object &excTb) { |
| PyThreadContextEntry::popInsertionPoint(*this); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyAttribute. |
| //------------------------------------------------------------------------------ |
| |
| bool PyAttribute::operator==(const PyAttribute &other) const { |
| return mlirAttributeEqual(attr, other.attr); |
| } |
| |
| nb::object PyAttribute::getCapsule() { |
| return nb::steal<nb::object>(mlirPythonAttributeToCapsule(*this)); |
| } |
| |
| PyAttribute PyAttribute::createFromCapsule(const nb::object &capsule) { |
| MlirAttribute rawAttr = mlirPythonCapsuleToAttribute(capsule.ptr()); |
| if (mlirAttributeIsNull(rawAttr)) |
| throw nb::python_error(); |
| return PyAttribute( |
| PyMlirContext::forContext(mlirAttributeGetContext(rawAttr)), rawAttr); |
| } |
| |
| nb::typed<nb::object, PyAttribute> PyAttribute::maybeDownCast() { |
| MlirTypeID mlirTypeID = mlirAttributeGetTypeID(this->get()); |
| assert(!mlirTypeIDIsNull(mlirTypeID) && |
| "mlirTypeID was expected to be non-null."); |
| std::optional<nb::callable> typeCaster = PyGlobals::get().lookupTypeCaster( |
| mlirTypeID, mlirAttributeGetDialect(this->get())); |
| // nb::rv_policy::move means use std::move to move the return value |
| // contents into a new instance that will be owned by Python. |
| nb::object thisObj = nb::cast(this, nb::rv_policy::move); |
| if (!typeCaster) |
| return thisObj; |
| return typeCaster.value()(thisObj); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyNamedAttribute. |
| //------------------------------------------------------------------------------ |
| |
| PyNamedAttribute::PyNamedAttribute(MlirAttribute attr, std::string ownedName) |
| : ownedName(new std::string(std::move(ownedName))) { |
| namedAttr = mlirNamedAttributeGet( |
| mlirIdentifierGet(mlirAttributeGetContext(attr), |
| toMlirStringRef(*this->ownedName)), |
| attr); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyType. |
| //------------------------------------------------------------------------------ |
| |
| bool PyType::operator==(const PyType &other) const { |
| return mlirTypeEqual(type, other.type); |
| } |
| |
| nb::object PyType::getCapsule() { |
| return nb::steal<nb::object>(mlirPythonTypeToCapsule(*this)); |
| } |
| |
| PyType PyType::createFromCapsule(nb::object capsule) { |
| MlirType rawType = mlirPythonCapsuleToType(capsule.ptr()); |
| if (mlirTypeIsNull(rawType)) |
| throw nb::python_error(); |
| return PyType(PyMlirContext::forContext(mlirTypeGetContext(rawType)), |
| rawType); |
| } |
| |
| nb::typed<nb::object, PyType> PyType::maybeDownCast() { |
| MlirTypeID mlirTypeID = mlirTypeGetTypeID(this->get()); |
| assert(!mlirTypeIDIsNull(mlirTypeID) && |
| "mlirTypeID was expected to be non-null."); |
| std::optional<nb::callable> typeCaster = PyGlobals::get().lookupTypeCaster( |
| mlirTypeID, mlirTypeGetDialect(this->get())); |
| // nb::rv_policy::move means use std::move to move the return value |
| // contents into a new instance that will be owned by Python. |
| nb::object thisObj = nb::cast(this, nb::rv_policy::move); |
| if (!typeCaster) |
| return thisObj; |
| return typeCaster.value()(thisObj); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyTypeID. |
| //------------------------------------------------------------------------------ |
| |
| nb::object PyTypeID::getCapsule() { |
| return nb::steal<nb::object>(mlirPythonTypeIDToCapsule(*this)); |
| } |
| |
| PyTypeID PyTypeID::createFromCapsule(nb::object capsule) { |
| MlirTypeID mlirTypeID = mlirPythonCapsuleToTypeID(capsule.ptr()); |
| if (mlirTypeIDIsNull(mlirTypeID)) |
| throw nb::python_error(); |
| return PyTypeID(mlirTypeID); |
| } |
| bool PyTypeID::operator==(const PyTypeID &other) const { |
| return mlirTypeIDEqual(typeID, other.typeID); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PyValue and subclasses. |
| //------------------------------------------------------------------------------ |
| |
| nb::object PyValue::getCapsule() { |
| return nb::steal<nb::object>(mlirPythonValueToCapsule(get())); |
| } |
| |
| static PyOperationRef getValueOwnerRef(MlirValue value) { |
| MlirOperation owner; |
| if (mlirValueIsAOpResult(value)) |
| owner = mlirOpResultGetOwner(value); |
| else if (mlirValueIsABlockArgument(value)) |
| owner = mlirBlockGetParentOperation(mlirBlockArgumentGetOwner(value)); |
| else |
| assert(false && "Value must be an block arg or op result."); |
| if (mlirOperationIsNull(owner)) |
| throw nb::python_error(); |
| MlirContext ctx = mlirOperationGetContext(owner); |
| return PyOperation::forOperation(PyMlirContext::forContext(ctx), owner); |
| } |
| |
| nb::typed<nb::object, std::variant<PyBlockArgument, PyOpResult, PyValue>> |
| PyValue::maybeDownCast() { |
| MlirType type = mlirValueGetType(get()); |
| MlirTypeID mlirTypeID = mlirTypeGetTypeID(type); |
| assert(!mlirTypeIDIsNull(mlirTypeID) && |
| "mlirTypeID was expected to be non-null."); |
| std::optional<nb::callable> valueCaster = |
| PyGlobals::get().lookupValueCaster(mlirTypeID, mlirTypeGetDialect(type)); |
| // nb::rv_policy::move means use std::move to move the return value |
| // contents into a new instance that will be owned by Python. |
| nb::object thisObj; |
| if (mlirValueIsAOpResult(value)) |
| thisObj = nb::cast<PyOpResult>(*this, nb::rv_policy::move); |
| else if (mlirValueIsABlockArgument(value)) |
| thisObj = nb::cast<PyBlockArgument>(*this, nb::rv_policy::move); |
| else |
| assert(false && "Value must be an block arg or op result."); |
| if (valueCaster) |
| return valueCaster.value()(thisObj); |
| return thisObj; |
| } |
| |
| PyValue PyValue::createFromCapsule(nb::object capsule) { |
| MlirValue value = mlirPythonCapsuleToValue(capsule.ptr()); |
| if (mlirValueIsNull(value)) |
| throw nb::python_error(); |
| PyOperationRef ownerRef = getValueOwnerRef(value); |
| return PyValue(ownerRef, value); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // PySymbolTable. |
| //------------------------------------------------------------------------------ |
| |
| PySymbolTable::PySymbolTable(PyOperationBase &operation) |
| : operation(operation.getOperation().getRef()) { |
| symbolTable = mlirSymbolTableCreate(operation.getOperation().get()); |
| if (mlirSymbolTableIsNull(symbolTable)) { |
| throw nb::type_error("Operation is not a Symbol Table."); |
| } |
| } |
| |
| nb::object PySymbolTable::dunderGetItem(const std::string &name) { |
| operation->checkValid(); |
| MlirOperation symbol = mlirSymbolTableLookup( |
| symbolTable, mlirStringRefCreate(name.data(), name.length())); |
| if (mlirOperationIsNull(symbol)) |
| throw nb::key_error( |
| join("Symbol '", name, "' not in the symbol table.").c_str()); |
| |
| return PyOperation::forOperation(operation->getContext(), symbol, |
| operation.getObject()) |
| ->createOpView(); |
| } |
| |
| void PySymbolTable::erase(PyOperationBase &symbol) { |
| operation->checkValid(); |
| symbol.getOperation().checkValid(); |
| mlirSymbolTableErase(symbolTable, symbol.getOperation().get()); |
| // The operation is also erased, so we must invalidate it. There may be Python |
| // references to this operation so we don't want to delete it from the list of |
| // live operations here. |
| symbol.getOperation().valid = false; |
| } |
| |
| void PySymbolTable::dunderDel(const std::string &name) { |
| nb::object operation = dunderGetItem(name); |
| erase(nb::cast<PyOperationBase &>(operation)); |
| } |
| |
| PyStringAttribute PySymbolTable::insert(PyOperationBase &symbol) { |
| operation->checkValid(); |
| symbol.getOperation().checkValid(); |
| MlirAttribute symbolAttr = mlirOperationGetAttributeByName( |
| symbol.getOperation().get(), mlirSymbolTableGetSymbolAttributeName()); |
| if (mlirAttributeIsNull(symbolAttr)) |
| throw nb::value_error("Expected operation to have a symbol name."); |
| return PyStringAttribute( |
| symbol.getOperation().getContext(), |
| mlirSymbolTableInsert(symbolTable, symbol.getOperation().get())); |
| } |
| |
| PyStringAttribute PySymbolTable::getSymbolName(PyOperationBase &symbol) { |
| // Op must already be a symbol. |
| PyOperation &operation = symbol.getOperation(); |
| operation.checkValid(); |
| MlirStringRef attrName = mlirSymbolTableGetSymbolAttributeName(); |
| MlirAttribute existingNameAttr = |
| mlirOperationGetAttributeByName(operation.get(), attrName); |
| if (mlirAttributeIsNull(existingNameAttr)) |
| throw nb::value_error("Expected operation to have a symbol name."); |
| return PyStringAttribute(symbol.getOperation().getContext(), |
| existingNameAttr); |
| } |
| |
| void PySymbolTable::setSymbolName(PyOperationBase &symbol, |
| const std::string &name) { |
| // Op must already be a symbol. |
| PyOperation &operation = symbol.getOperation(); |
| operation.checkValid(); |
| MlirStringRef attrName = mlirSymbolTableGetSymbolAttributeName(); |
| MlirAttribute existingNameAttr = |
| mlirOperationGetAttributeByName(operation.get(), attrName); |
| if (mlirAttributeIsNull(existingNameAttr)) |
| throw nb::value_error("Expected operation to have a symbol name."); |
| MlirAttribute newNameAttr = |
| mlirStringAttrGet(operation.getContext()->get(), toMlirStringRef(name)); |
| mlirOperationSetAttributeByName(operation.get(), attrName, newNameAttr); |
| } |
| |
| PyStringAttribute PySymbolTable::getVisibility(PyOperationBase &symbol) { |
| PyOperation &operation = symbol.getOperation(); |
| operation.checkValid(); |
| MlirStringRef attrName = mlirSymbolTableGetVisibilityAttributeName(); |
| MlirAttribute existingVisAttr = |
| mlirOperationGetAttributeByName(operation.get(), attrName); |
| if (mlirAttributeIsNull(existingVisAttr)) |
| throw nb::value_error("Expected operation to have a symbol visibility."); |
| return PyStringAttribute(symbol.getOperation().getContext(), existingVisAttr); |
| } |
| |
| void PySymbolTable::setVisibility(PyOperationBase &symbol, |
| const std::string &visibility) { |
| if (visibility != "public" && visibility != "private" && |
| visibility != "nested") |
| throw nb::value_error( |
| "Expected visibility to be 'public', 'private' or 'nested'"); |
| PyOperation &operation = symbol.getOperation(); |
| operation.checkValid(); |
| MlirStringRef attrName = mlirSymbolTableGetVisibilityAttributeName(); |
| MlirAttribute existingVisAttr = |
| mlirOperationGetAttributeByName(operation.get(), attrName); |
| if (mlirAttributeIsNull(existingVisAttr)) |
| throw nb::value_error("Expected operation to have a symbol visibility."); |
| MlirAttribute newVisAttr = mlirStringAttrGet(operation.getContext()->get(), |
| toMlirStringRef(visibility)); |
| mlirOperationSetAttributeByName(operation.get(), attrName, newVisAttr); |
| } |
| |
| void PySymbolTable::replaceAllSymbolUses(const std::string &oldSymbol, |
| const std::string &newSymbol, |
| PyOperationBase &from) { |
| PyOperation &fromOperation = from.getOperation(); |
| fromOperation.checkValid(); |
| if (mlirLogicalResultIsFailure(mlirSymbolTableReplaceAllSymbolUses( |
| toMlirStringRef(oldSymbol), toMlirStringRef(newSymbol), |
| from.getOperation()))) |
| |
| throw nb::value_error("Symbol rename failed"); |
| } |
| |
| void PySymbolTable::walkSymbolTables(PyOperationBase &from, |
| bool allSymUsesVisible, |
| nb::object callback) { |
| PyOperation &fromOperation = from.getOperation(); |
| fromOperation.checkValid(); |
| struct UserData { |
| PyMlirContextRef context; |
| nb::object callback; |
| bool gotException; |
| std::string exceptionWhat; |
| nb::object exceptionType; |
| }; |
| UserData userData{ |
| fromOperation.getContext(), std::move(callback), false, {}, {}}; |
| mlirSymbolTableWalkSymbolTables( |
| fromOperation.get(), allSymUsesVisible, |
| [](MlirOperation foundOp, bool isVisible, void *calleeUserDataVoid) { |
| UserData *calleeUserData = static_cast<UserData *>(calleeUserDataVoid); |
| auto pyFoundOp = |
| PyOperation::forOperation(calleeUserData->context, foundOp); |
| if (calleeUserData->gotException) |
| return; |
| try { |
| calleeUserData->callback(pyFoundOp.getObject(), isVisible); |
| } catch (nb::python_error &e) { |
| calleeUserData->gotException = true; |
| calleeUserData->exceptionWhat = e.what(); |
| calleeUserData->exceptionType = nb::borrow(e.type()); |
| } |
| }, |
| static_cast<void *>(&userData)); |
| if (userData.gotException) { |
| std::string message("Exception raised in callback: "); |
| message.append(userData.exceptionWhat); |
| throw std::runtime_error(message); |
| } |
| } |
| |
| void PyBlockArgument::bindDerived(ClassTy &c) { |
| c.def_prop_ro( |
| "owner", |
| [](PyBlockArgument &self) { |
| return PyBlock(self.getParentOperation(), |
| mlirBlockArgumentGetOwner(self.get())); |
| }, |
| "Returns the block that owns this argument."); |
| c.def_prop_ro( |
| "arg_number", |
| [](PyBlockArgument &self) { |
| return mlirBlockArgumentGetArgNumber(self.get()); |
| }, |
| "Returns the position of this argument in the block's argument list."); |
| c.def( |
| "set_type", |
| [](PyBlockArgument &self, PyType type) { |
| return mlirBlockArgumentSetType(self.get(), type); |
| }, |
| "type"_a, "Sets the type of this block argument."); |
| c.def( |
| "set_location", |
| [](PyBlockArgument &self, PyLocation loc) { |
| return mlirBlockArgumentSetLocation(self.get(), loc); |
| }, |
| "loc"_a, "Sets the location of this block argument."); |
| } |
| |
| PyBlockArgumentList::PyBlockArgumentList(PyOperationRef operation, |
| MlirBlock block, intptr_t startIndex, |
| intptr_t length, intptr_t step) |
| : Sliceable(startIndex, |
| length == -1 ? mlirBlockGetNumArguments(block) : length, step), |
| operation(std::move(operation)), block(block) {} |
| |
| void PyBlockArgumentList::bindDerived(ClassTy &c) { |
| c.def_prop_ro( |
| "types", |
| [](PyBlockArgumentList &self) { |
| return getValueTypes(self, self.operation->getContext()); |
| }, |
| "Returns a list of types for all arguments in this argument list."); |
| } |
| |
| intptr_t PyBlockArgumentList::getRawNumElements() { |
| operation->checkValid(); |
| return mlirBlockGetNumArguments(block); |
| } |
| |
| PyBlockArgument PyBlockArgumentList::getRawElement(intptr_t pos) const { |
| MlirValue argument = mlirBlockGetArgument(block, pos); |
| return PyBlockArgument(operation, argument); |
| } |
| |
| PyBlockArgumentList PyBlockArgumentList::slice(intptr_t startIndex, |
| intptr_t length, |
| intptr_t step) const { |
| return PyBlockArgumentList(operation, block, startIndex, length, step); |
| } |
| |
| PyOpOperandList::PyOpOperandList(PyOperationRef operation, intptr_t startIndex, |
| intptr_t length, intptr_t step) |
| : Sliceable(startIndex, |
| length == -1 ? mlirOperationGetNumOperands(operation->get()) |
| : length, |
| step), |
| operation(operation) {} |
| |
| void PyOpOperandList::dunderSetItem(intptr_t index, PyValue value) { |
| index = wrapIndex(index); |
| mlirOperationSetOperand(operation->get(), index, value.get()); |
| } |
| |
| void PyOpOperandList::bindDerived(ClassTy &c) { |
| c.def("__setitem__", &PyOpOperandList::dunderSetItem, "index"_a, "value"_a, |
| "Sets the operand at the specified index to a new value."); |
| } |
| |
| intptr_t PyOpOperandList::getRawNumElements() { |
| operation->checkValid(); |
| return mlirOperationGetNumOperands(operation->get()); |
| } |
| |
| PyValue PyOpOperandList::getRawElement(intptr_t pos) { |
| MlirValue operand = mlirOperationGetOperand(operation->get(), pos); |
| PyOperationRef pyOwner = getValueOwnerRef(operand); |
| return PyValue(pyOwner, operand); |
| } |
| |
| PyOpOperandList PyOpOperandList::slice(intptr_t startIndex, intptr_t length, |
| intptr_t step) const { |
| return PyOpOperandList(operation, startIndex, length, step); |
| } |
| |
| /// A list of OpOperands. Internally, these are stored as consecutive elements, |
| /// random access is cheap. The (returned) OpOperand list is associated with the |
| /// operation whose operands these are, and thus extends the lifetime of this |
| /// operation. |
| class PyOpOperands : public Sliceable<PyOpOperands, PyOpOperand> { |
| public: |
| static constexpr const char *pyClassName = "OpOperands"; |
| using SliceableT = Sliceable<PyOpOperandList, PyOpOperand>; |
| |
| PyOpOperands(PyOperationRef operation, intptr_t startIndex = 0, |
| intptr_t length = -1, intptr_t step = 1) |
| : Sliceable(startIndex, |
| length == -1 ? mlirOperationGetNumOperands(operation->get()) |
| : length, |
| step), |
| operation(operation) {} |
| |
| private: |
| /// Give the parent CRTP class access to hook implementations below. |
| friend class Sliceable<PyOpOperands, PyOpOperand>; |
| |
| intptr_t getRawNumElements() { |
| operation->checkValid(); |
| return mlirOperationGetNumOperands(operation->get()); |
| } |
| |
| PyOpOperand getRawElement(intptr_t pos) { |
| MlirOpOperand opOperand = mlirOperationGetOpOperand(operation->get(), pos); |
| return PyOpOperand(opOperand); |
| } |
| |
| PyOpOperands slice(intptr_t startIndex, intptr_t length, intptr_t step) { |
| return PyOpOperands(operation, startIndex, length, step); |
| } |
| |
| PyOperationRef operation; |
| }; |
| |
| PyOpSuccessors::PyOpSuccessors(PyOperationRef operation, intptr_t startIndex, |
| intptr_t length, intptr_t step) |
| : Sliceable(startIndex, |
| length == -1 ? mlirOperationGetNumSuccessors(operation->get()) |
| : length, |
| step), |
| operation(operation) {} |
| |
| void PyOpSuccessors::dunderSetItem(intptr_t index, PyBlock block) { |
| index = wrapIndex(index); |
| mlirOperationSetSuccessor(operation->get(), index, block.get()); |
| } |
| |
| void PyOpSuccessors::bindDerived(ClassTy &c) { |
| c.def("__setitem__", &PyOpSuccessors::dunderSetItem, "index"_a, "block"_a, |
| "Sets the successor block at the specified index."); |
| } |
| |
| intptr_t PyOpSuccessors::getRawNumElements() { |
| operation->checkValid(); |
| return mlirOperationGetNumSuccessors(operation->get()); |
| } |
| |
| PyBlock PyOpSuccessors::getRawElement(intptr_t pos) { |
| MlirBlock block = mlirOperationGetSuccessor(operation->get(), pos); |
| return PyBlock(operation, block); |
| } |
| |
| PyOpSuccessors PyOpSuccessors::slice(intptr_t startIndex, intptr_t length, |
| intptr_t step) const { |
| return PyOpSuccessors(operation, startIndex, length, step); |
| } |
| |
| PyBlockSuccessors::PyBlockSuccessors(PyBlock block, PyOperationRef operation, |
| intptr_t startIndex, intptr_t length, |
| intptr_t step) |
| : Sliceable(startIndex, |
| length == -1 ? mlirBlockGetNumSuccessors(block.get()) : length, |
| step), |
| operation(operation), block(block) {} |
| |
| intptr_t PyBlockSuccessors::getRawNumElements() { |
| block.checkValid(); |
| return mlirBlockGetNumSuccessors(block.get()); |
| } |
| |
| PyBlock PyBlockSuccessors::getRawElement(intptr_t pos) { |
| MlirBlock block = mlirBlockGetSuccessor(this->block.get(), pos); |
| return PyBlock(operation, block); |
| } |
| |
| PyBlockSuccessors PyBlockSuccessors::slice(intptr_t startIndex, intptr_t length, |
| intptr_t step) const { |
| return PyBlockSuccessors(block, operation, startIndex, length, step); |
| } |
| |
| PyBlockPredecessors::PyBlockPredecessors(PyBlock block, |
| PyOperationRef operation, |
| intptr_t startIndex, intptr_t length, |
| intptr_t step) |
| : Sliceable(startIndex, |
| length == -1 ? mlirBlockGetNumPredecessors(block.get()) |
| : length, |
| step), |
| operation(operation), block(block) {} |
| |
| intptr_t PyBlockPredecessors::getRawNumElements() { |
| block.checkValid(); |
| return mlirBlockGetNumPredecessors(block.get()); |
| } |
| |
| PyBlock PyBlockPredecessors::getRawElement(intptr_t pos) { |
| MlirBlock block = mlirBlockGetPredecessor(this->block.get(), pos); |
| return PyBlock(operation, block); |
| } |
| |
| PyBlockPredecessors PyBlockPredecessors::slice(intptr_t startIndex, |
| intptr_t length, |
| intptr_t step) const { |
| return PyBlockPredecessors(block, operation, startIndex, length, step); |
| } |
| |
| nb::typed<nb::object, PyAttribute> |
| PyOpAttributeMap::dunderGetItemNamed(const std::string &name) { |
| MlirAttribute attr = |
| mlirOperationGetAttributeByName(operation->get(), toMlirStringRef(name)); |
| if (mlirAttributeIsNull(attr)) { |
| throw nb::key_error("attempt to access a non-existent attribute"); |
| } |
| return PyAttribute(operation->getContext(), attr).maybeDownCast(); |
| } |
| |
| nb::typed<nb::object, std::optional<PyAttribute>> |
| PyOpAttributeMap::get(const std::string &key, nb::object defaultValue) { |
| MlirAttribute attr = |
| mlirOperationGetAttributeByName(operation->get(), toMlirStringRef(key)); |
| if (mlirAttributeIsNull(attr)) |
| return defaultValue; |
| return PyAttribute(operation->getContext(), attr).maybeDownCast(); |
| } |
| |
| PyNamedAttribute PyOpAttributeMap::dunderGetItemIndexed(intptr_t index) { |
| if (index < 0) { |
| index += dunderLen(); |
| } |
| if (index < 0 || index >= dunderLen()) { |
| throw nb::index_error("attempt to access out of bounds attribute"); |
| } |
| MlirNamedAttribute namedAttr = |
| mlirOperationGetAttribute(operation->get(), index); |
| return PyNamedAttribute( |
| namedAttr.attribute, |
| std::string(mlirIdentifierStr(namedAttr.name).data, |
| mlirIdentifierStr(namedAttr.name).length)); |
| } |
| |
| void PyOpAttributeMap::dunderSetItem(const std::string &name, |
| const PyAttribute &attr) { |
| mlirOperationSetAttributeByName(operation->get(), toMlirStringRef(name), |
| attr); |
| } |
| |
| void PyOpAttributeMap::dunderDelItem(const std::string &name) { |
| int removed = mlirOperationRemoveAttributeByName(operation->get(), |
| toMlirStringRef(name)); |
| if (!removed) |
| throw nb::key_error("attempt to delete a non-existent attribute"); |
| } |
| |
| intptr_t PyOpAttributeMap::dunderLen() { |
| return mlirOperationGetNumAttributes(operation->get()); |
| } |
| |
| bool PyOpAttributeMap::dunderContains(const std::string &name) { |
| return !mlirAttributeIsNull( |
| mlirOperationGetAttributeByName(operation->get(), toMlirStringRef(name))); |
| } |
| |
| void PyOpAttributeMap::forEachAttr( |
| MlirOperation op, std::function<void(MlirStringRef, MlirAttribute)> fn) { |
| intptr_t n = mlirOperationGetNumAttributes(op); |
| for (intptr_t i = 0; i < n; ++i) { |
| MlirNamedAttribute na = mlirOperationGetAttribute(op, i); |
| MlirStringRef name = mlirIdentifierStr(na.name); |
| fn(name, na.attribute); |
| } |
| } |
| |
| void PyOpAttributeMap::bind(nb::module_ &m) { |
| nb::class_<PyOpAttributeMap>(m, "OpAttributeMap") |
| .def("__contains__", &PyOpAttributeMap::dunderContains, "name"_a, |
| "Checks if an attribute with the given name exists in the map.") |
| .def("__len__", &PyOpAttributeMap::dunderLen, |
| "Returns the number of attributes in the map.") |
| .def("__getitem__", &PyOpAttributeMap::dunderGetItemNamed, "name"_a, |
| "Gets an attribute by name.") |
| .def("__getitem__", &PyOpAttributeMap::dunderGetItemIndexed, "index"_a, |
| "Gets a named attribute by index.") |
| .def("__setitem__", &PyOpAttributeMap::dunderSetItem, "name"_a, "attr"_a, |
| "Sets an attribute with the given name.") |
| .def("__delitem__", &PyOpAttributeMap::dunderDelItem, "name"_a, |
| "Deletes an attribute with the given name.") |
| .def("get", &PyOpAttributeMap::get, nb::arg("key"), |
| nb::arg("default") = nb::none(), |
| "Gets an attribute by name or the default value, if it does not " |
| "exist.") |
| .def( |
| "__iter__", |
| [](PyOpAttributeMap &self) { |
| nb::list keys; |
| PyOpAttributeMap::forEachAttr( |
| self.operation->get(), [&](MlirStringRef name, MlirAttribute) { |
| keys.append(nb::str(name.data, name.length)); |
| }); |
| return nb::iter(keys); |
| }, |
| "Iterates over attribute names.") |
| .def( |
| "keys", |
| [](PyOpAttributeMap &self) { |
| nb::list out; |
| PyOpAttributeMap::forEachAttr( |
| self.operation->get(), [&](MlirStringRef name, MlirAttribute) { |
| out.append(nb::str(name.data, name.length)); |
| }); |
| return out; |
| }, |
| "Returns a list of attribute names.") |
| .def( |
| "values", |
| [](PyOpAttributeMap &self) { |
| nb::list out; |
| PyOpAttributeMap::forEachAttr( |
| self.operation->get(), [&](MlirStringRef, MlirAttribute attr) { |
| out.append(PyAttribute(self.operation->getContext(), attr) |
| .maybeDownCast()); |
| }); |
| return out; |
| }, |
| "Returns a list of attribute values.") |
| .def( |
| "items", |
| [](PyOpAttributeMap &self) { |
| nb::list out; |
| PyOpAttributeMap::forEachAttr( |
| self.operation->get(), |
| [&](MlirStringRef name, MlirAttribute attr) { |
| out.append(nb::make_tuple( |
| nb::str(name.data, name.length), |
| PyAttribute(self.operation->getContext(), attr) |
| .maybeDownCast())); |
| }); |
| return out; |
| }, |
| "Returns a list of `(name, attribute)` tuples."); |
| } |
| |
| void PyOpAdaptor::bind(nb::module_ &m) { |
| nb::class_<PyOpAdaptor>(m, "OpAdaptor") |
| .def(nb::init<nb::list, PyOpAttributeMap>(), |
| "Creates an OpAdaptor with the given operands and attributes.", |
| "operands"_a, "attributes"_a) |
| .def(nb::init<nb::list, PyOpView &>(), |
| "Creates an OpAdaptor with the given operands and operation view.", |
| "operands"_a, "opview"_a) |
| .def_prop_ro( |
| "operands", [](PyOpAdaptor &self) { return self.operands; }, |
| "Returns the operands of the adaptor.") |
| .def_prop_ro( |
| "attributes", [](PyOpAdaptor &self) { return self.attributes; }, |
| "Returns the attributes of the adaptor."); |
| } |
| |
| static MlirLogicalResult verifyTraitByMethod(MlirOperation op, void *userData, |
| const char *methodName) { |
| nb::handle targetObj(static_cast<PyObject *>(userData)); |
| if (!nb::hasattr(targetObj, methodName)) |
| return mlirLogicalResultSuccess(); |
| PyMlirContextRef ctx = PyMlirContext::forContext(mlirOperationGetContext(op)); |
| nb::object opView = PyOperation::forOperation(ctx, op)->createOpView(); |
| bool success = nb::cast<bool>(targetObj.attr(methodName)(opView)); |
| return success ? mlirLogicalResultSuccess() : mlirLogicalResultFailure(); |
| }; |
| |
| static bool attachOpTrait(const nb::object &opName, MlirDynamicOpTrait trait, |
| PyMlirContext &context) { |
| std::string opNameStr; |
| if (opName.is_type()) { |
| opNameStr = nb::cast<std::string>(opName.attr("OPERATION_NAME")); |
| } else if (nb::isinstance<nb::str>(opName)) { |
| opNameStr = nb::cast<std::string>(opName); |
| } else { |
| throw nb::type_error("the root argument must be a type or a string"); |
| } |
| |
| return mlirDynamicOpTraitAttach( |
| trait, MlirStringRef{opNameStr.data(), opNameStr.size()}, context.get()); |
| } |
| |
| bool PyDynamicOpTrait::attach(const nb::object &opName, |
| const nb::object &target, |
| PyMlirContext &context) { |
| if (!nb::hasattr(target, "verify_invariants") && |
| !nb::hasattr(target, "verify_region_invariants")) |
| throw nb::type_error( |
| "the target object must have at least one of 'verify_invariants' or " |
| "'verify_region_invariants' methods"); |
| |
| MlirDynamicOpTraitCallbacks callbacks; |
| callbacks.construct = [](void *userData) { |
| nb::handle(static_cast<PyObject *>(userData)).inc_ref(); |
| }; |
| callbacks.destruct = [](void *userData) { |
| nb::handle(static_cast<PyObject *>(userData)).dec_ref(); |
| }; |
| |
| callbacks.verifyTrait = [](MlirOperation op, |
| void *userData) -> MlirLogicalResult { |
| return verifyTraitByMethod(op, userData, "verify_invariants"); |
| }; |
| callbacks.verifyRegionTrait = [](MlirOperation op, |
| void *userData) -> MlirLogicalResult { |
| return verifyTraitByMethod(op, userData, "verify_region_invariants"); |
| }; |
| |
| // To ensure that the same dynamic trait gets the same TypeID despite how many |
| // times `attach` is called, we store it as an attribute on the target class. |
| constexpr const char *typeIDAttr = "_TYPE_ID"; |
| if (!nb::hasattr(target, typeIDAttr)) { |
| nb::setattr(target, typeIDAttr, |
| nb::cast(PyTypeID(PyGlobals::get().allocateTypeID()))); |
| } |
| MlirDynamicOpTrait trait = mlirDynamicOpTraitCreate( |
| nb::cast<PyTypeID>(target.attr(typeIDAttr)).get(), callbacks, |
| static_cast<void *>(target.ptr())); |
| return attachOpTrait(opName, trait, context); |
| } |
| |
| void PyDynamicOpTrait::bind(nb::module_ &m) { |
| nb::class_<PyDynamicOpTrait> cls(m, "DynamicOpTrait"); |
| cls.attr("attach") = classmethod( |
| [](const nb::object &cls, const nb::object &opName, nb::object target, |
| DefaultingPyMlirContext context) { |
| if (target.is_none()) |
| target = cls; |
| return PyDynamicOpTrait::attach(opName, target, *context.get()); |
| }, |
| nb::arg("cls"), nb::arg("op_name"), nb::arg("target").none() = nb::none(), |
| nb::arg("context").none() = nb::none(), |
| "Attach the dynamic op trait subclass to the given operation name."); |
| } |
| |
| bool PyDynamicOpTraits::IsTerminator::attach(const nb::object &opName, |
| PyMlirContext &context) { |
| MlirDynamicOpTrait trait = mlirDynamicOpTraitIsTerminatorCreate(); |
| return attachOpTrait(opName, trait, context); |
| } |
| |
| void PyDynamicOpTraits::IsTerminator::bind(nb::module_ &m) { |
| nb::class_<PyDynamicOpTraits::IsTerminator, PyDynamicOpTrait> cls( |
| m, "IsTerminatorTrait"); |
| cls.attr("attach") = classmethod( |
| [](const nb::object &cls, const nb::object &opName, |
| DefaultingPyMlirContext context) { |
| return PyDynamicOpTraits::IsTerminator::attach(opName, *context.get()); |
| }, |
| "Attach IsTerminator trait to the given operation name.", nb::arg("cls"), |
| nb::arg("op_name"), nb::arg("context").none() = nb::none()); |
| } |
| |
| bool PyDynamicOpTraits::NoTerminator::attach(const nb::object &opName, |
| PyMlirContext &context) { |
| MlirDynamicOpTrait trait = mlirDynamicOpTraitNoTerminatorCreate(); |
| return attachOpTrait(opName, trait, context); |
| } |
| |
| void PyDynamicOpTraits::NoTerminator::bind(nb::module_ &m) { |
| nb::class_<PyDynamicOpTraits::NoTerminator, PyDynamicOpTrait> cls( |
| m, "NoTerminatorTrait"); |
| cls.attr("attach") = classmethod( |
| [](const nb::object &cls, const nb::object &opName, |
| DefaultingPyMlirContext context) { |
| return PyDynamicOpTraits::NoTerminator::attach(opName, *context.get()); |
| }, |
| "Attach NoTerminator trait to the given operation name.", nb::arg("cls"), |
| nb::arg("op_name"), nb::arg("context").none() = nb::none()); |
| } |
| |
| } // namespace MLIR_BINDINGS_PYTHON_DOMAIN |
| } // namespace python |
| } // namespace mlir |
| |
| namespace { |
| |
| using namespace mlir::python::MLIR_BINDINGS_PYTHON_DOMAIN; |
| |
| MlirLocation tracebackToLocation(MlirContext ctx) { |
| #if defined(Py_LIMITED_API) |
| // Frame introspection C APIs are not available under the limited API. |
| // Traceback-based auto-location is not supported; return unknown. |
| return mlirLocationUnknownGet(ctx); |
| #else |
| size_t framesLimit = |
| PyGlobals::get().getTracebackLoc().locTracebackFramesLimit(); |
| // Use a thread_local here to avoid requiring a large amount of space. |
| thread_local std::array<MlirLocation, PyGlobals::TracebackLoc::kMaxFrames> |
| frames; |
| size_t count = 0; |
| |
| nb::gil_scoped_acquire acquire; |
| |
| PyThreadState *tstate = PyThreadState_GET(); |
| PyFrameObject *next; |
| PyFrameObject *pyFrame = PyThreadState_GetFrame(tstate); |
| // In the increment expression: |
| // 1. get the next prev frame; |
| // 2. decrement the ref count on the current frame (in order that it can get |
| // gc'd, along with any objects in its closure and etc); |
| // 3. set current = next. |
| for (; pyFrame != nullptr && count < framesLimit; |
| next = PyFrame_GetBack(pyFrame), Py_XDECREF(pyFrame), pyFrame = next) { |
| PyCodeObject *code = PyFrame_GetCode(pyFrame); |
| auto fileNameStr = |
| nb::cast<std::string>(nb::borrow<nb::str>(code->co_filename)); |
| std::string_view fileName(fileNameStr); |
| if (!PyGlobals::get().getTracebackLoc().isUserTracebackFilename(fileName)) |
| continue; |
| |
| // co_qualname and PyCode_Addr2Location added in py3.11 |
| #if PY_VERSION_HEX < 0x030B00F0 |
| std::string name = |
| nb::cast<std::string>(nb::borrow<nb::str>(code->co_name)); |
| std::string_view funcName(name); |
| int startLine = PyFrame_GetLineNumber(pyFrame); |
| MlirLocation loc = mlirLocationFileLineColGet( |
| ctx, mlirStringRefCreate(fileName.data(), fileName.size()), startLine, |
| 0); |
| #else |
| std::string name = |
| nb::cast<std::string>(nb::borrow<nb::str>(code->co_qualname)); |
| std::string_view funcName(name); |
| int startLine, startCol, endLine, endCol; |
| int lasti = PyFrame_GetLasti(pyFrame); |
| if (!PyCode_Addr2Location(code, lasti, &startLine, &startCol, &endLine, |
| &endCol)) { |
| throw nb::python_error(); |
| } |
| MlirLocation loc = mlirLocationFileLineColRangeGet( |
| ctx, mlirStringRefCreate(fileName.data(), fileName.size()), startLine, |
| startCol, endLine, endCol); |
| #endif |
| |
| frames[count] = mlirLocationNameGet( |
| ctx, mlirStringRefCreate(funcName.data(), funcName.size()), loc); |
| ++count; |
| } |
| // When the loop breaks (after the last iter), current frame (if non-null) |
| // is leaked without this. |
| Py_XDECREF(pyFrame); |
| |
| if (count == 0) |
| return mlirLocationUnknownGet(ctx); |
| |
| MlirLocation callee = frames[0]; |
| assert(!mlirLocationIsNull(callee) && "expected non-null callee location"); |
| if (count == 1) |
| return callee; |
| |
| MlirLocation caller = frames[count - 1]; |
| assert(!mlirLocationIsNull(caller) && "expected non-null caller location"); |
| for (int i = count - 2; i >= 1; i--) |
| caller = mlirLocationCallSiteGet(frames[i], caller); |
| |
| return mlirLocationCallSiteGet(callee, caller); |
| #endif |
| } |
| |
| PyLocation |
| maybeGetTracebackLocation(const std::optional<PyLocation> &location) { |
| if (location.has_value()) |
| return location.value(); |
| if (!PyGlobals::get().getTracebackLoc().locTracebacksEnabled()) |
| return DefaultingPyLocation::resolve(); |
| |
| PyMlirContext &ctx = DefaultingPyMlirContext::resolve(); |
| MlirLocation mlirLoc = tracebackToLocation(ctx.get()); |
| PyMlirContextRef ref = PyMlirContext::forContext(ctx.get()); |
| return {ref, mlirLoc}; |
| } |
| } // namespace |
| |
| namespace mlir { |
| namespace python { |
| namespace MLIR_BINDINGS_PYTHON_DOMAIN { |
| |
| void populateRoot(nb::module_ &m) { |
| m.attr("T") = nb::type_var("T"); |
| m.attr("U") = nb::type_var("U"); |
| |
| nb::class_<PyGlobals>(m, "_Globals") |
| .def_prop_rw("dialect_search_modules", |
| &PyGlobals::getDialectSearchPrefixes, |
| &PyGlobals::setDialectSearchPrefixes) |
| .def("append_dialect_search_prefix", &PyGlobals::addDialectSearchPrefix, |
| "module_name"_a) |
| .def( |
| "_check_dialect_module_loaded", |
| [](PyGlobals &self, const std::string &dialectNamespace) { |
| return self.loadDialectModule(dialectNamespace); |
| }, |
| "dialect_namespace"_a) |
| .def("_register_dialect_impl", &PyGlobals::registerDialectImpl, |
| "dialect_namespace"_a, "dialect_class"_a, |
| "Testing hook for directly registering a dialect") |
| .def("_register_operation_impl", &PyGlobals::registerOperationImpl, |
| "operation_name"_a, "operation_class"_a, nb::kw_only(), |
| "replace"_a = false, |
| "Testing hook for directly registering an operation") |
| .def("loc_tracebacks_enabled", |
| [](PyGlobals &self) { |
| return self.getTracebackLoc().locTracebacksEnabled(); |
| }) |
| .def("set_loc_tracebacks_enabled", |
| [](PyGlobals &self, bool enabled) { |
| self.getTracebackLoc().setLocTracebacksEnabled(enabled); |
| }) |
| .def("loc_tracebacks_frame_limit", |
| [](PyGlobals &self) { |
| return self.getTracebackLoc().locTracebackFramesLimit(); |
| }) |
| .def("set_loc_tracebacks_frame_limit", |
| [](PyGlobals &self, std::optional<int> n) { |
| self.getTracebackLoc().setLocTracebackFramesLimit( |
| n.value_or(PyGlobals::TracebackLoc::kMaxFrames)); |
| }) |
| .def("register_traceback_file_inclusion", |
| [](PyGlobals &self, const std::string &filename) { |
| self.getTracebackLoc().registerTracebackFileInclusion(filename); |
| }) |
| .def("register_traceback_file_exclusion", |
| [](PyGlobals &self, const std::string &filename) { |
| self.getTracebackLoc().registerTracebackFileExclusion(filename); |
| }); |
| |
| // Aside from making the globals accessible to python, having python manage |
| // it is necessary to make sure it is destroyed (and releases its python |
| // resources) properly. |
| m.attr("globals") = nb::cast(new PyGlobals, nb::rv_policy::take_ownership); |
| |
| // Registration decorators. |
| m.def( |
| "register_dialect", |
| [](nb::type_object pyClass) { |
| std::string dialectNamespace = |
| nb::cast<std::string>(pyClass.attr("DIALECT_NAMESPACE")); |
| PyGlobals::get().registerDialectImpl(dialectNamespace, pyClass); |
| return pyClass; |
| }, |
| "dialect_class"_a, |
| "Class decorator for registering a custom Dialect wrapper"); |
| m.def( |
| "register_operation", |
| [](const nb::type_object &dialectClass, bool replace) -> nb::object { |
| return nb::cpp_function( |
| [dialectClass, |
| replace](nb::type_object opClass) -> nb::type_object { |
| std::string operationName = |
| nb::cast<std::string>(opClass.attr("OPERATION_NAME")); |
| PyGlobals::get().registerOperationImpl(operationName, opClass, |
| replace); |
| // Dict-stuff the new opClass by name onto the dialect class. |
| nb::object opClassName = opClass.attr("__name__"); |
| dialectClass.attr(opClassName) = opClass; |
| return opClass; |
| }); |
| }, |
| // clang-format off |
| nb::sig("def register_operation(dialect_class: type, *, replace: bool = False) " |
| "-> typing.Callable[[type[T]], type[T]]"), |
| // clang-format on |
| "dialect_class"_a, nb::kw_only(), "replace"_a = false, |
| "Produce a class decorator for registering an Operation class as part of " |
| "a dialect"); |
| m.def( |
| "register_op_adaptor", |
| [](const nb::type_object &opClass, bool replace) -> nb::object { |
| return nb::cpp_function( |
| [opClass, |
| replace](nb::type_object adaptorClass) -> nb::type_object { |
| std::string operationName = |
| nb::cast<std::string>(adaptorClass.attr("OPERATION_NAME")); |
| PyGlobals::get().registerOpAdaptorImpl(operationName, |
| adaptorClass, replace); |
| // Dict-stuff the new adaptorClass by name onto the opClass. |
| opClass.attr("Adaptor") = adaptorClass; |
| return adaptorClass; |
| }); |
| }, |
| // clang-format off |
| nb::sig("def register_op_adaptor(op_class: type, *, replace: bool = False) " |
| "-> typing.Callable[[type[T]], type[T]]"), |
| // clang-format on |
| "op_class"_a, nb::kw_only(), "replace"_a = false, |
| "Produce a class decorator for registering an OpAdaptor class for an " |
| "operation."); |
| m.def( |
| MLIR_PYTHON_CAPI_TYPE_CASTER_REGISTER_ATTR, |
| [](PyTypeID mlirTypeID, bool replace) -> nb::object { |
| return nb::cpp_function([mlirTypeID, replace]( |
| nb::callable typeCaster) -> nb::object { |
| PyGlobals::get().registerTypeCaster(mlirTypeID, typeCaster, replace); |
| return typeCaster; |
| }); |
| }, |
| // clang-format off |
| nb::sig("def register_type_caster(typeid: _mlir.ir.TypeID, *, replace: bool = False) " |
| "-> typing.Callable[[typing.Callable[[T], U]], typing.Callable[[T], U]]"), |
| // clang-format on |
| "typeid"_a, nb::kw_only(), "replace"_a = false, |
| "Register a type caster for casting MLIR types to custom user types."); |
| m.def( |
| MLIR_PYTHON_CAPI_VALUE_CASTER_REGISTER_ATTR, |
| [](PyTypeID mlirTypeID, bool replace) -> nb::object { |
| return nb::cpp_function( |
| [mlirTypeID, replace](nb::callable valueCaster) -> nb::object { |
| PyGlobals::get().registerValueCaster(mlirTypeID, valueCaster, |
| replace); |
| return valueCaster; |
| }); |
| }, |
| // clang-format off |
| nb::sig("def register_value_caster(typeid: _mlir.ir.TypeID, *, replace: bool = False) " |
| "-> typing.Callable[[typing.Callable[[T], U]], typing.Callable[[T], U]]"), |
| // clang-format on |
| "typeid"_a, nb::kw_only(), "replace"_a = false, |
| "Register a value caster for casting MLIR values to custom user values."); |
| } |
| |
| //------------------------------------------------------------------------------ |
| // Populates the core exports of the 'ir' submodule. |
| //------------------------------------------------------------------------------ |
| void populateIRCore(nb::module_ &m) { |
| //---------------------------------------------------------------------------- |
| // Enums. |
| //---------------------------------------------------------------------------- |
| nb::enum_<PyDiagnosticSeverity>(m, "DiagnosticSeverity") |
| .value("ERROR", PyDiagnosticSeverity::Error) |
| .value("WARNING", PyDiagnosticSeverity::Warning) |
| .value("NOTE", PyDiagnosticSeverity::Note) |
| .value("REMARK", PyDiagnosticSeverity::Remark); |
| |
| nb::enum_<PyWalkOrder>(m, "WalkOrder") |
| .value("PRE_ORDER", PyWalkOrder::PreOrder) |
| .value("POST_ORDER", PyWalkOrder::PostOrder); |
| nb::enum_<PyWalkResult>(m, "WalkResult") |
| .value("ADVANCE", PyWalkResult::Advance) |
| .value("INTERRUPT", PyWalkResult::Interrupt) |
| .value("SKIP", PyWalkResult::Skip); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of Diagnostics. |
| //---------------------------------------------------------------------------- |
| nb::class_<PyDiagnostic>(m, "Diagnostic") |
| .def_prop_ro("severity", &PyDiagnostic::getSeverity, |
| "Returns the severity of the diagnostic.") |
| .def_prop_ro("location", &PyDiagnostic::getLocation, |
| "Returns the location associated with the diagnostic.") |
| .def_prop_ro("message", &PyDiagnostic::getMessage, |
| "Returns the message text of the diagnostic.") |
| .def_prop_ro("notes", &PyDiagnostic::getNotes, |
| "Returns a tuple of attached note diagnostics.") |
| .def( |
| "__str__", |
| [](PyDiagnostic &self) -> nb::str { |
| if (!self.isValid()) |
| return nb::str("<Invalid Diagnostic>"); |
| return self.getMessage(); |
| }, |
| "Returns the diagnostic message as a string."); |
| |
| nb::class_<PyDiagnostic::DiagnosticInfo>(m, "DiagnosticInfo") |
| .def( |
| "__init__", |
| [](PyDiagnostic::DiagnosticInfo &self, PyDiagnostic diag) { |
| new (&self) PyDiagnostic::DiagnosticInfo(diag.getInfo()); |
| }, |
| "diag"_a, "Creates a DiagnosticInfo from a Diagnostic.") |
| .def_ro("severity", &PyDiagnostic::DiagnosticInfo::severity, |
| "The severity level of the diagnostic.") |
| .def_ro("location", &PyDiagnostic::DiagnosticInfo::location, |
| "The location associated with the diagnostic.") |
| .def_ro("message", &PyDiagnostic::DiagnosticInfo::message, |
| "The message text of the diagnostic.") |
| .def_ro("notes", &PyDiagnostic::DiagnosticInfo::notes, |
| "List of attached note diagnostics.") |
| .def( |
| "__str__", |
| [](PyDiagnostic::DiagnosticInfo &self) { return self.message; }, |
| "Returns the diagnostic message as a string."); |
| |
| nb::class_<PyDiagnosticHandler>(m, "DiagnosticHandler") |
| .def("detach", &PyDiagnosticHandler::detach, |
| "Detaches the diagnostic handler from the context.") |
| .def_prop_ro("attached", &PyDiagnosticHandler::isAttached, |
| "Returns True if the handler is attached to a context.") |
| .def_prop_ro("had_error", &PyDiagnosticHandler::getHadError, |
| "Returns True if an error was encountered during diagnostic " |
| "handling.") |
| .def("__enter__", &PyDiagnosticHandler::contextEnter, |
| "Enters the diagnostic handler as a context manager.", |
| nb::sig("def __enter__(self, /) -> DiagnosticHandler")) |
| .def("__exit__", &PyDiagnosticHandler::contextExit, "exc_type"_a.none(), |
| "exc_value"_a.none(), "traceback"_a.none(), |
| "Exits the diagnostic handler context manager."); |
| |
| // Expose DefaultThreadPool to python |
| nb::class_<PyThreadPool>(m, "ThreadPool") |
| .def( |
| "__init__", [](PyThreadPool &self) { new (&self) PyThreadPool(); }, |
| "Creates a new thread pool with default concurrency.") |
| .def("get_max_concurrency", &PyThreadPool::getMaxConcurrency, |
| "Returns the maximum number of threads in the pool.") |
| .def("_mlir_thread_pool_ptr", &PyThreadPool::_mlir_thread_pool_ptr, |
| "Returns the raw pointer to the LLVM thread pool as a string."); |
| |
| nb::class_<PyMlirContext>(m, "Context") |
| .def( |
| "__init__", |
| [](PyMlirContext &self) { |
| MlirContext context = mlirContextCreateWithThreading(false); |
| new (&self) PyMlirContext(context); |
| }, |
| R"( |
| Creates a new MLIR context. |
| |
| The context is the top-level container for all MLIR objects. It owns the storage |
| for types, attributes, locations, and other core IR objects. A context can be |
| configured to allow or disallow unregistered dialects and can have dialects |
| loaded on-demand.)") |
| .def_static("_get_live_count", &PyMlirContext::getLiveCount, |
| "Gets the number of live Context objects.") |
| .def( |
| "_get_context_again", |
| [](PyMlirContext &self) -> nb::typed<nb::object, PyMlirContext> { |
| PyMlirContextRef ref = PyMlirContext::forContext(self.get()); |
| return ref.releaseObject(); |
| }, |
| "Gets another reference to the same context.") |
| .def("_get_live_module_count", &PyMlirContext::getLiveModuleCount, |
| "Gets the number of live modules owned by this context.") |
| .def_prop_ro(MLIR_PYTHON_CAPI_PTR_ATTR, &PyMlirContext::getCapsule, |
| "Gets a capsule wrapping the MlirContext.") |
| .def_static(MLIR_PYTHON_CAPI_FACTORY_ATTR, |
| &PyMlirContext::createFromCapsule, |
| "Creates a Context from a capsule wrapping MlirContext.") |
| .def("__enter__", &PyMlirContext::contextEnter, |
| "Enters the context as a context manager.", |
| nb::sig("def __enter__(self, /) -> Context")) |
| .def("__exit__", &PyMlirContext::contextExit, "exc_type"_a.none(), |
| "exc_value"_a.none(), "traceback"_a.none(), |
| "Exits the context manager.") |
| .def_prop_ro_static( |
| "current", |
| [](nb::object & /*class*/) |
| -> std::optional<nb::typed<nb::object, PyMlirContext>> { |
| auto *context = PyThreadContextEntry::getDefaultContext(); |
| if (!context) |
| return {}; |
| return nb::cast(context); |
| }, |
| nb::sig("def current(/) -> Context | None"), |
| "Gets the Context bound to the current thread or returns None if no " |
| "context is set.") |
| .def_prop_ro( |
| "dialects", |
| [](PyMlirContext &self) { return PyDialects(self.getRef()); }, |
| "Gets a container for accessing dialects by name.") |
| .def_prop_ro( |
| "d", [](PyMlirContext &self) { return PyDialects(self.getRef()); }, |
| "Alias for `dialects`.") |
| .def( |
| "get_dialect_descriptor", |
| [=](PyMlirContext &self, std::string &name) { |
| MlirDialect dialect = mlirContextGetOrLoadDialect( |
| self.get(), {name.data(), name.size()}); |
| if (mlirDialectIsNull(dialect)) { |
| throw nb::value_error( |
| join("Dialect '", name, "' not found").c_str()); |
| } |
| return PyDialectDescriptor(self.getRef(), dialect); |
| }, |
| "dialect_name"_a, |
| "Gets or loads a dialect by name, returning its descriptor object.") |
| .def_prop_rw( |
| "allow_unregistered_dialects", |
| [](PyMlirContext &self) -> bool { |
| return mlirContextGetAllowUnregisteredDialects(self.get()); |
| }, |
| [](PyMlirContext &self, bool value) { |
| mlirContextSetAllowUnregisteredDialects(self.get(), value); |
| }, |
| "Controls whether unregistered dialects are allowed in this context.") |
| .def("attach_diagnostic_handler", &PyMlirContext::attachDiagnosticHandler, |
| "callback"_a, |
| "Attaches a diagnostic handler that will receive callbacks.") |
| .def( |
| "enable_multithreading", |
| [](PyMlirContext &self, bool enable) { |
| mlirContextEnableMultithreading(self.get(), enable); |
| }, |
| "enable"_a, |
| R"( |
| Enables or disables multi-threading support in the context. |
| |
| Args: |
| enable: Whether to enable (True) or disable (False) multi-threading. |
| )") |
| .def( |
| "set_thread_pool", |
| [](PyMlirContext &self, PyThreadPool &pool) { |
| // we should disable multi-threading first before setting |
| // new thread pool otherwise the assert in |
| // MLIRContext::setThreadPool will be raised. |
| mlirContextEnableMultithreading(self.get(), false); |
| mlirContextSetThreadPool(self.get(), pool.get()); |
| }, |
| R"( |
| Sets a custom thread pool for the context to use. |
| |
| Args: |
| pool: A ThreadPool object to use for parallel operations. |
| |
| Note: |
| Multi-threading is automatically disabled before setting the thread pool.)") |
| .def( |
| "get_num_threads", |
| [](PyMlirContext &self) { |
| return mlirContextGetNumThreads(self.get()); |
| }, |
| "Gets the number of threads in the context's thread pool.") |
| .def( |
| "_mlir_thread_pool_ptr", |
| [](PyMlirContext &self) { |
| MlirLlvmThreadPool pool = mlirContextGetThreadPool(self.get()); |
| std::stringstream ss; |
| ss << pool.ptr; |
| return ss.str(); |
| }, |
| "Gets the raw pointer to the LLVM thread pool as a string.") |
| .def( |
| "is_registered_operation", |
| [](PyMlirContext &self, std::string &name) { |
| return mlirContextIsRegisteredOperation( |
| self.get(), MlirStringRef{name.data(), name.size()}); |
| }, |
| "operation_name"_a, |
| R"( |
| Checks whether an operation with the given name is registered. |
| |
| Args: |
| operation_name: The fully qualified name of the operation (e.g., `arith.addf`). |
| |
| Returns: |
| True if the operation is registered, False otherwise.)") |
| .def( |
| "append_dialect_registry", |
| [](PyMlirContext &self, PyDialectRegistry ®istry) { |
| mlirContextAppendDialectRegistry(self.get(), registry); |
| }, |
| "registry"_a, |
| R"( |
| Appends the contents of a dialect registry to the context. |
| |
| Args: |
| registry: A DialectRegistry containing dialects to append.)") |
| .def_prop_rw("emit_error_diagnostics", |
| &PyMlirContext::getEmitErrorDiagnostics, |
| &PyMlirContext::setEmitErrorDiagnostics, |
| R"( |
| Controls whether error diagnostics are emitted to diagnostic handlers. |
| |
| By default, error diagnostics are captured and reported through MLIRError exceptions.)") |
| .def( |
| "load_all_available_dialects", |
| [](PyMlirContext &self) { |
| mlirContextLoadAllAvailableDialects(self.get()); |
| }, |
| R"( |
| Loads all dialects available in the registry into the context. |
| |
| This eagerly loads all dialects that have been registered, making them |
| immediately available for use.)"); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyDialectDescriptor |
| //---------------------------------------------------------------------------- |
| nb::class_<PyDialectDescriptor>(m, "DialectDescriptor") |
| .def_prop_ro( |
| "namespace", |
| [](PyDialectDescriptor &self) { |
| MlirStringRef ns = mlirDialectGetNamespace(self.get()); |
| return nb::str(ns.data, ns.length); |
| }, |
| "Returns the namespace of the dialect.") |
| .def( |
| "__repr__", |
| [](PyDialectDescriptor &self) { |
| MlirStringRef ns = mlirDialectGetNamespace(self.get()); |
| std::string repr("<DialectDescriptor "); |
| repr.append(ns.data, ns.length); |
| repr.append(">"); |
| return repr; |
| }, |
| nb::sig("def __repr__(self) -> str"), |
| "Returns a string representation of the dialect descriptor."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyDialects |
| //---------------------------------------------------------------------------- |
| nb::class_<PyDialects>(m, "Dialects") |
| .def( |
| "__getitem__", |
| [=](PyDialects &self, std::string keyName) { |
| MlirDialect dialect = |
| self.getDialectForKey(keyName, /*attrError=*/false); |
| nb::object descriptor = |
| nb::cast(PyDialectDescriptor{self.getContext(), dialect}); |
| return createCustomDialectWrapper(keyName, std::move(descriptor)); |
| }, |
| "Gets a dialect by name using subscript notation.") |
| .def( |
| "__getattr__", |
| [=](PyDialects &self, std::string attrName) { |
| MlirDialect dialect = |
| self.getDialectForKey(attrName, /*attrError=*/true); |
| nb::object descriptor = |
| nb::cast(PyDialectDescriptor{self.getContext(), dialect}); |
| return createCustomDialectWrapper(attrName, std::move(descriptor)); |
| }, |
| "Gets a dialect by name using attribute notation."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyDialect |
| //---------------------------------------------------------------------------- |
| nb::class_<PyDialect>(m, "Dialect") |
| .def(nb::init<nb::object>(), "descriptor"_a, |
| "Creates a Dialect from a DialectDescriptor.") |
| .def_prop_ro( |
| "descriptor", [](PyDialect &self) { return self.getDescriptor(); }, |
| "Returns the DialectDescriptor for this dialect.") |
| .def( |
| "__repr__", |
| [](const nb::object &self) { |
| auto clazz = self.attr("__class__"); |
| return nb::str("<Dialect ") + |
| self.attr("descriptor").attr("namespace") + |
| nb::str(" (class ") + clazz.attr("__module__") + |
| nb::str(".") + clazz.attr("__name__") + nb::str(")>"); |
| }, |
| nb::sig("def __repr__(self) -> str"), |
| "Returns a string representation of the dialect."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyDialectRegistry |
| //---------------------------------------------------------------------------- |
| nb::class_<PyDialectRegistry>(m, "DialectRegistry") |
| .def_prop_ro(MLIR_PYTHON_CAPI_PTR_ATTR, &PyDialectRegistry::getCapsule, |
| "Gets a capsule wrapping the MlirDialectRegistry.") |
| .def_static(MLIR_PYTHON_CAPI_FACTORY_ATTR, |
| &PyDialectRegistry::createFromCapsule, |
| "Creates a DialectRegistry from a capsule wrapping " |
| "`MlirDialectRegistry`.") |
| .def(nb::init<>(), "Creates a new empty dialect registry."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of Location |
| //---------------------------------------------------------------------------- |
| nb::class_<PyLocation>(m, "Location") |
| .def_prop_ro(MLIR_PYTHON_CAPI_PTR_ATTR, &PyLocation::getCapsule, |
| "Gets a capsule wrapping the MlirLocation.") |
| .def_static(MLIR_PYTHON_CAPI_FACTORY_ATTR, &PyLocation::createFromCapsule, |
| "Creates a Location from a capsule wrapping MlirLocation.") |
| .def("__enter__", &PyLocation::contextEnter, |
| "Enters the location as a context manager.", |
| nb::sig("def __enter__(self, /) -> Location")) |
| .def("__exit__", &PyLocation::contextExit, "exc_type"_a.none(), |
| "exc_value"_a.none(), "traceback"_a.none(), |
| "Exits the location context manager.") |
| .def( |
| "__eq__", |
| [](PyLocation &self, PyLocation &other) -> bool { |
| return mlirLocationEqual(self, other); |
| }, |
| "Compares two locations for equality.") |
| .def( |
| "__eq__", [](PyLocation &self, nb::object other) { return false; }, |
| "Compares location with non-location object (always returns False).") |
| .def_prop_ro_static( |
| "current", |
| [](nb::object & /*class*/) -> std::optional<PyLocation *> { |
| auto *loc = PyThreadContextEntry::getDefaultLocation(); |
| if (!loc) |
| return std::nullopt; |
| return loc; |
| }, |
| // clang-format off |
| nb::sig("def current(/) -> Location | None"), |
| // clang-format on |
| "Gets the Location bound to the current thread or raises ValueError.") |
| .def_static( |
| "unknown", |
| [](DefaultingPyMlirContext context) { |
| return PyLocation(context->getRef(), |
| mlirLocationUnknownGet(context->get())); |
| }, |
| "context"_a = nb::none(), |
| "Gets a Location representing an unknown location.") |
| .def_static( |
| "callsite", |
| [](PyLocation callee, const std::vector<PyLocation> &frames, |
| DefaultingPyMlirContext context) { |
| if (frames.empty()) |
| throw nb::value_error("No caller frames provided."); |
| MlirLocation caller = frames.back().get(); |
| for (size_t index = frames.size() - 1; index-- > 0;) { |
| caller = mlirLocationCallSiteGet(frames[index].get(), caller); |
| } |
| return PyLocation(context->getRef(), |
| mlirLocationCallSiteGet(callee.get(), caller)); |
| }, |
| "callee"_a, "frames"_a, "context"_a = nb::none(), |
| "Gets a Location representing a caller and callsite.") |
| .def("is_a_callsite", mlirLocationIsACallSite, |
| "Returns True if this location is a CallSiteLoc.") |
| .def_prop_ro( |
| "callee", |
| [](PyLocation &self) { |
| return PyLocation(self.getContext(), |
| mlirLocationCallSiteGetCallee(self)); |
| }, |
| "Gets the callee location from a CallSiteLoc.") |
| .def_prop_ro( |
| "caller", |
| [](PyLocation &self) { |
| return PyLocation(self.getContext(), |
| mlirLocationCallSiteGetCaller(self)); |
| }, |
| "Gets the caller location from a CallSiteLoc.") |
| .def_static( |
| "file", |
| [](std::string filename, int line, int col, |
| DefaultingPyMlirContext context) { |
| return PyLocation( |
| context->getRef(), |
| mlirLocationFileLineColGet( |
| context->get(), toMlirStringRef(filename), line, col)); |
| }, |
| "filename"_a, "line"_a, "col"_a, "context"_a = nb::none(), |
| "Gets a Location representing a file, line and column.") |
| .def_static( |
| "file", |
| [](std::string filename, int startLine, int startCol, int endLine, |
| int endCol, DefaultingPyMlirContext context) { |
| return PyLocation(context->getRef(), |
| mlirLocationFileLineColRangeGet( |
| context->get(), toMlirStringRef(filename), |
| startLine, startCol, endLine, endCol)); |
| }, |
| "filename"_a, "start_line"_a, "start_col"_a, "end_line"_a, |
| "end_col"_a, "context"_a = nb::none(), |
| "Gets a Location representing a file, line and column range.") |
| .def("is_a_file", mlirLocationIsAFileLineColRange, |
| "Returns True if this location is a FileLineColLoc.") |
| .def_prop_ro( |
| "filename", |
| [](PyLocation loc) { |
| return mlirIdentifierStr( |
| mlirLocationFileLineColRangeGetFilename(loc)); |
| }, |
| "Gets the filename from a FileLineColLoc.") |
| .def_prop_ro("start_line", mlirLocationFileLineColRangeGetStartLine, |
| "Gets the start line number from a `FileLineColLoc`.") |
| .def_prop_ro("start_col", mlirLocationFileLineColRangeGetStartColumn, |
| "Gets the start column number from a `FileLineColLoc`.") |
| .def_prop_ro("end_line", mlirLocationFileLineColRangeGetEndLine, |
| "Gets the end line number from a `FileLineColLoc`.") |
| .def_prop_ro("end_col", mlirLocationFileLineColRangeGetEndColumn, |
| "Gets the end column number from a `FileLineColLoc`.") |
| .def_static( |
| "fused", |
| [](const std::vector<PyLocation> &pyLocations, |
| std::optional<PyAttribute> metadata, |
| DefaultingPyMlirContext context) { |
| std::vector<MlirLocation> locations; |
| locations.reserve(pyLocations.size()); |
| for (const PyLocation &pyLocation : pyLocations) |
| locations.push_back(pyLocation.get()); |
| MlirLocation location = mlirLocationFusedGet( |
| context->get(), locations.size(), locations.data(), |
| metadata ? metadata->get() : MlirAttribute{0}); |
| return PyLocation(context->getRef(), location); |
| }, |
| "locations"_a, "metadata"_a = nb::none(), "context"_a = nb::none(), |
| "Gets a Location representing a fused location with optional " |
| "metadata.") |
| .def("is_a_fused", mlirLocationIsAFused, |
| "Returns True if this location is a `FusedLoc`.") |
| .def_prop_ro( |
| "locations", |
| [](PyLocation &self) { |
| unsigned numLocations = mlirLocationFusedGetNumLocations(self); |
| std::vector<MlirLocation> locations(numLocations); |
| if (numLocations) |
| mlirLocationFusedGetLocations(self, locations.data()); |
| std::vector<PyLocation> pyLocations{}; |
| pyLocations.reserve(numLocations); |
| for (unsigned i = 0; i < numLocations; ++i) |
| pyLocations.emplace_back(self.getContext(), locations[i]); |
| return pyLocations; |
| }, |
| "Gets the list of locations from a `FusedLoc`.") |
| .def_static( |
| "name", |
| [](std::string name, std::optional<PyLocation> childLoc, |
| DefaultingPyMlirContext context) { |
| return PyLocation( |
| context->getRef(), |
| mlirLocationNameGet( |
| context->get(), toMlirStringRef(name), |
| childLoc ? childLoc->get() |
| : mlirLocationUnknownGet(context->get()))); |
| }, |
| "name"_a, "childLoc"_a = nb::none(), "context"_a = nb::none(), |
| "Gets a Location representing a named location with optional child " |
| "location.") |
| .def("is_a_name", mlirLocationIsAName, |
| "Returns True if this location is a `NameLoc`.") |
| .def_prop_ro( |
| "name_str", |
| [](PyLocation loc) { |
| return mlirIdentifierStr(mlirLocationNameGetName(loc)); |
| }, |
| "Gets the name string from a `NameLoc`.") |
| .def_prop_ro( |
| "child_loc", |
| [](PyLocation &self) { |
| return PyLocation(self.getContext(), |
| mlirLocationNameGetChildLoc(self)); |
| }, |
| "Gets the child location from a `NameLoc`.") |
| .def_static( |
| "from_attr", |
| [](PyAttribute &attribute, DefaultingPyMlirContext context) { |
| return PyLocation(context->getRef(), |
| mlirLocationFromAttribute(attribute)); |
| }, |
| "attribute"_a, "context"_a = nb::none(), |
| "Gets a Location from a `LocationAttr`.") |
| .def_prop_ro( |
| "context", |
| [](PyLocation &self) -> nb::typed<nb::object, PyMlirContext> { |
| return self.getContext().getObject(); |
| }, |
| "Context that owns the `Location`.") |
| .def_prop_ro( |
| "attr", |
| [](PyLocation &self) { |
| return PyAttribute(self.getContext(), |
| mlirLocationGetAttribute(self)); |
| }, |
| "Get the underlying `LocationAttr`.") |
| .def( |
| "emit_error", |
| [](PyLocation &self, std::string message) { |
| mlirEmitError(self, message.c_str()); |
| }, |
| "message"_a, |
| R"( |
| Emits an error diagnostic at this location. |
| |
| Args: |
| message: The error message to emit.)") |
| .def( |
| "__repr__", |
| [](PyLocation &self) { |
| PyPrintAccumulator printAccum; |
| mlirLocationPrint(self, printAccum.getCallback(), |
| printAccum.getUserData()); |
| return printAccum.join(); |
| }, |
| "Returns the assembly representation of the location."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of Module |
| //---------------------------------------------------------------------------- |
| nb::class_<PyModule>(m, "Module", nb::is_weak_referenceable()) |
| .def_prop_ro(MLIR_PYTHON_CAPI_PTR_ATTR, &PyModule::getCapsule, |
| "Gets a capsule wrapping the MlirModule.") |
| .def_static(MLIR_PYTHON_CAPI_FACTORY_ATTR, &PyModule::createFromCapsule, |
| R"( |
| Creates a Module from a `MlirModule` wrapped by a capsule (i.e. `module._CAPIPtr`). |
| |
| This returns a new object **BUT** `_clear_mlir_module(module)` must be called to |
| prevent double-frees (of the underlying `mlir::Module`).)") |
| .def("_clear_mlir_module", &PyModule::clearMlirModule, |
| R"( |
| Clears the internal MLIR module reference. |
| |
| This is used internally to prevent double-free when ownership is transferred |
| via the C API capsule mechanism. Not intended for normal use.)") |
| .def_static( |
| "parse", |
| [](const std::string &moduleAsm, DefaultingPyMlirContext context) |
| -> nb::typed<nb::object, PyModule> { |
| PyMlirContext::ErrorCapture errors(context->getRef()); |
| MlirModule module = mlirModuleCreateParse( |
| context->get(), toMlirStringRef(moduleAsm)); |
| if (mlirModuleIsNull(module)) |
| throw MLIRError("Unable to parse module assembly", errors.take()); |
| return PyModule::forModule(module).releaseObject(); |
| }, |
| "asm"_a, "context"_a = nb::none(), kModuleParseDocstring) |
| .def_static( |
| "parse", |
| [](nb::bytes moduleAsm, DefaultingPyMlirContext context) |
| -> nb::typed<nb::object, PyModule> { |
| PyMlirContext::ErrorCapture errors(context->getRef()); |
| MlirModule module = mlirModuleCreateParse( |
| context->get(), toMlirStringRef(moduleAsm)); |
| if (mlirModuleIsNull(module)) |
| throw MLIRError("Unable to parse module assembly", errors.take()); |
| return PyModule::forModule(module).releaseObject(); |
| }, |
| "asm"_a, "context"_a = nb::none(), kModuleParseDocstring) |
| .def_static( |
| "parseFile", |
| [](const std::string &path, DefaultingPyMlirContext context) |
| -> nb::typed<nb::object, PyModule> { |
| PyMlirContext::ErrorCapture errors(context->getRef()); |
| MlirModule module = mlirModuleCreateParseFromFile( |
| context->get(), toMlirStringRef(path)); |
| if (mlirModuleIsNull(module)) |
| throw MLIRError("Unable to parse module assembly", errors.take()); |
| return PyModule::forModule(module).releaseObject(); |
| }, |
| "path"_a, "context"_a = nb::none(), kModuleParseDocstring) |
| .def_static( |
| "create", |
| [](const std::optional<PyLocation> &loc) |
| -> nb::typed<nb::object, PyModule> { |
| PyLocation pyLoc = maybeGetTracebackLocation(loc); |
| MlirModule module = mlirModuleCreateEmpty(pyLoc.get()); |
| return PyModule::forModule(module).releaseObject(); |
| }, |
| "loc"_a = nb::none(), "Creates an empty module.") |
| .def_prop_ro( |
| "context", |
| [](PyModule &self) -> nb::typed<nb::object, PyMlirContext> { |
| return self.getContext().getObject(); |
| }, |
| "Context that created the `Module`.") |
| .def_prop_ro( |
| "operation", |
| [](PyModule &self) -> nb::typed<nb::object, PyOperation> { |
| return PyOperation::forOperation(self.getContext(), |
| mlirModuleGetOperation(self.get()), |
| self.getRef().releaseObject()) |
| .releaseObject(); |
| }, |
| "Accesses the module as an operation.") |
| .def_prop_ro( |
| "body", |
| [](PyModule &self) { |
| PyOperationRef moduleOp = PyOperation::forOperation( |
| self.getContext(), mlirModuleGetOperation(self.get()), |
| self.getRef().releaseObject()); |
| PyBlock returnBlock(moduleOp, mlirModuleGetBody(self.get())); |
| return returnBlock; |
| }, |
| "Return the block for this module.") |
| .def( |
| "dump", |
| [](PyModule &self) { |
| mlirOperationDump(mlirModuleGetOperation(self.get())); |
| }, |
| kDumpDocstring) |
| .def( |
| "__str__", |
| [](const nb::object &self) { |
| // Defer to the operation's __str__. |
| return self.attr("operation").attr("__str__")(); |
| }, |
| nb::sig("def __str__(self) -> str"), |
| R"( |
| Gets the assembly form of the operation with default options. |
| |
| If more advanced control over the assembly formatting or I/O options is needed, |
| use the dedicated print or get_asm method, which supports keyword arguments to |
| customize behavior. |
| )") |
| .def( |
| "__eq__", |
| [](PyModule &self, PyModule &other) { |
| return mlirModuleEqual(self.get(), other.get()); |
| }, |
| "other"_a, "Compares two modules for equality.") |
| .def( |
| "__hash__", |
| [](PyModule &self) { return mlirModuleHashValue(self.get()); }, |
| "Returns the hash value of the module."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of Operation. |
| //---------------------------------------------------------------------------- |
| nb::class_<PyOperationBase>(m, "_OperationBase") |
| .def_prop_ro( |
| MLIR_PYTHON_CAPI_PTR_ATTR, |
| [](PyOperationBase &self) { |
| return self.getOperation().getCapsule(); |
| }, |
| "Gets a capsule wrapping the `MlirOperation`.") |
| .def( |
| "__eq__", |
| [](PyOperationBase &self, PyOperationBase &other) { |
| return mlirOperationEqual(self.getOperation().get(), |
| other.getOperation().get()); |
| }, |
| "Compares two operations for equality.") |
| .def( |
| "__eq__", |
| [](PyOperationBase &self, nb::object other) { return false; }, |
| "Compares operation with non-operation object (always returns " |
| "False).") |
| .def( |
| "__hash__", |
| [](PyOperationBase &self) { |
| return mlirOperationHashValue(self.getOperation().get()); |
| }, |
| "Returns the hash value of the operation.") |
| .def_prop_ro( |
| "attributes", |
| [](PyOperationBase &self) { |
| return PyOpAttributeMap(self.getOperation().getRef()); |
| }, |
| "Returns a dictionary-like map of operation attributes.") |
| .def_prop_ro( |
| "context", |
| [](PyOperationBase &self) -> nb::typed<nb::object, PyMlirContext> { |
| PyOperation &concreteOperation = self.getOperation(); |
| concreteOperation.checkValid(); |
| return concreteOperation.getContext().getObject(); |
| }, |
| "Context that owns the operation.") |
| .def_prop_ro( |
| "name", |
| [](PyOperationBase &self) { |
| auto &concreteOperation = self.getOperation(); |
| concreteOperation.checkValid(); |
| MlirOperation operation = concreteOperation.get(); |
| return mlirIdentifierStr(mlirOperationGetName(operation)); |
| }, |
| "Returns the fully qualified name of the operation.") |
| .def_prop_ro( |
| "operands", |
| [](PyOperationBase &self) { |
| return PyOpOperandList(self.getOperation().getRef()); |
| }, |
| "Returns the list of operation operands.") |
| .def_prop_ro( |
| "op_operands", |
| [](PyOperationBase &self) { |
| return PyOpOperands(self.getOperation().getRef()); |
| }, |
| "Returns the list of op operands.") |
| .def_prop_ro( |
| "regions", |
| [](PyOperationBase &self) { |
| return PyRegionList(self.getOperation().getRef()); |
| }, |
| "Returns the list of operation regions.") |
| .def_prop_ro( |
| "results", |
| [](PyOperationBase &self) { |
| return PyOpResultList(self.getOperation().getRef()); |
| }, |
| "Returns the list of Operation results.") |
| .def_prop_ro( |
| "result", |
| [](PyOperationBase &self) -> nb::typed<nb::object, PyOpResult> { |
| auto &operation = self.getOperation(); |
| return PyOpResult(operation.getRef(), getUniqueResult(operation)) |
| .maybeDownCast(); |
| }, |
| "Shortcut to get an op result if it has only one (throws an error " |
| "otherwise).") |
| .def_prop_rw( |
| "location", |
| [](PyOperationBase &self) { |
| PyOperation &operation = self.getOperation(); |
| return PyLocation(operation.getContext(), |
| mlirOperationGetLocation(operation.get())); |
| }, |
| [](PyOperationBase &self, const PyLocation &location) { |
| PyOperation &operation = self.getOperation(); |
| mlirOperationSetLocation(operation.get(), location.get()); |
| }, |
| nb::for_getter("Returns the source location the operation was " |
| "defined or derived from."), |
| nb::for_setter("Sets the source location the operation was defined " |
| "or derived from.")) |
| .def_prop_ro( |
| "parent", |
| [](PyOperationBase &self) |
| -> std::optional<nb::typed<nb::object, PyOperation>> { |
| auto parent = self.getOperation().getParentOperation(); |
| if (parent) |
| return parent->getObject(); |
| return {}; |
| }, |
| "Returns the parent operation, or `None` if at top level.") |
| .def( |
| "__str__", |
| [](PyOperationBase &self) { |
| return self.getAsm(/*binary=*/false, |
| /*largeElementsLimit=*/std::nullopt, |
| /*largeResourceLimit=*/std::nullopt, |
| /*enableDebugInfo=*/false, |
| /*prettyDebugInfo=*/false, |
| /*printGenericOpForm=*/false, |
| /*useLocalScope=*/false, |
| /*useNameLocAsPrefix=*/false, |
| /*assumeVerified=*/false, |
| /*skipRegions=*/false); |
| }, |
| nb::sig("def __str__(self) -> str"), |
| "Returns the assembly form of the operation.") |
| .def("print", |
| nb::overload_cast<PyAsmState &, nb::object, bool>( |
| &PyOperationBase::print), |
| "state"_a, "file"_a = nb::none(), "binary"_a = false, |
| R"( |
| Prints the assembly form of the operation to a file like object. |
| |
| Args: |
| state: `AsmState` capturing the operation numbering and flags. |
| file: Optional file like object to write to. Defaults to sys.stdout. |
| binary: Whether to write `bytes` (True) or `str` (False). Defaults to False.)") |
| .def("print", |
| nb::overload_cast<std::optional<int64_t>, std::optional<int64_t>, |
| bool, bool, bool, bool, bool, bool, nb::object, |
| bool, bool>(&PyOperationBase::print), |
| // Careful: Lots of arguments must match up with print method. |
| "large_elements_limit"_a = nb::none(), |
| "large_resource_limit"_a = nb::none(), "enable_debug_info"_a = false, |
| "pretty_debug_info"_a = false, "print_generic_op_form"_a = false, |
| "use_local_scope"_a = false, "use_name_loc_as_prefix"_a = false, |
| "assume_verified"_a = false, "file"_a = nb::none(), |
| "binary"_a = false, "skip_regions"_a = false, |
| R"( |
| Prints the assembly form of the operation to a file like object. |
| |
| Args: |
| large_elements_limit: Whether to elide elements attributes above this |
| number of elements. Defaults to None (no limit). |
| large_resource_limit: Whether to elide resource attributes above this |
| number of characters. Defaults to None (no limit). If large_elements_limit |
| is set and this is None, the behavior will be to use large_elements_limit |
| as large_resource_limit. |
| enable_debug_info: Whether to print debug/location information. Defaults |
| to False. |
| pretty_debug_info: Whether to format debug information for easier reading |
| by a human (warning: the result is unparseable). Defaults to False. |
| print_generic_op_form: Whether to print the generic assembly forms of all |
| ops. Defaults to False. |
| use_local_scope: Whether to print in a way that is more optimized for |
| multi-threaded access but may not be consistent with how the overall |
| module prints. |
| use_name_loc_as_prefix: Whether to use location attributes (NameLoc) as |
| prefixes for the SSA identifiers. Defaults to False. |
| assume_verified: By default, if not printing generic form, the verifier |
| will be run and if it fails, generic form will be printed with a comment |
| about failed verification. While a reasonable default for interactive use, |
| for systematic use, it is often better for the caller to verify explicitly |
| and report failures in a more robust fashion. Set this to True if doing this |
| in order to avoid running a redundant verification. If the IR is actually |
| invalid, behavior is undefined. |
| file: The file like object to write to. Defaults to sys.stdout. |
| binary: Whether to write bytes (True) or str (False). Defaults to False. |
| skip_regions: Whether to skip printing regions. Defaults to False.)") |
| .def("write_bytecode", &PyOperationBase::writeBytecode, "file"_a, |
| "desired_version"_a = nb::none(), |
| R"( |
| Write the bytecode form of the operation to a file like object. |
| |
| Args: |
| file: The file like object to write to. |
| desired_version: Optional version of bytecode to emit. |
| Returns: |
| The bytecode writer status.)") |
| .def("get_asm", &PyOperationBase::getAsm, |
| // Careful: Lots of arguments must match up with get_asm method. |
| "binary"_a = false, "large_elements_limit"_a = nb::none(), |
| "large_resource_limit"_a = nb::none(), "enable_debug_info"_a = false, |
| "pretty_debug_info"_a = false, "print_generic_op_form"_a = false, |
| "use_local_scope"_a = false, "use_name_loc_as_prefix"_a = false, |
| "assume_verified"_a = false, "skip_regions"_a = false, |
| R"( |
| Gets the assembly form of the operation with all options available. |
| |
| Args: |
| binary: Whether to return a bytes (True) or str (False) object. Defaults to |
| False. |
| ... others ...: See the print() method for common keyword arguments for |
| configuring the printout. |
| Returns: |
| Either a bytes or str object, depending on the setting of the `binary` |
| argument.)") |
| .def("verify", &PyOperationBase::verify, |
| "Verify the operation. Raises MLIRError if verification fails, and " |
| "returns true otherwise.") |
| .def("move_after", &PyOperationBase::moveAfter, "other"_a, |
| "Puts self immediately after the other operation in its parent " |
| "block.") |
| .def("move_before", &PyOperationBase::moveBefore, "other"_a, |
| "Puts self immediately before the other operation in its parent " |
| "block.") |
| .def("is_before_in_block", &PyOperationBase::isBeforeInBlock, "other"_a, |
| R"( |
| Checks if this operation is before another in the same block. |
| |
| Args: |
| other: Another operation in the same parent block. |
| |
| Returns: |
| True if this operation is before `other` in the operation list of the parent block.)") |
| .def( |
| "clone", |
| [](PyOperationBase &self, |
| const nb::object &ip) -> nb::typed<nb::object, PyOperation> { |
| return self.getOperation().clone(ip); |
| }, |
| "ip"_a = nb::none(), |
| R"( |
| Creates a deep copy of the operation. |
| |
| Args: |
| ip: Optional insertion point where the cloned operation should be inserted. |
| If None, the current insertion point is used. If False, the operation |
| remains detached. |
| |
| Returns: |
| A new Operation that is a clone of this operation.)") |
| .def( |
| "detach_from_parent", |
| [](PyOperationBase &self) -> nb::typed<nb::object, PyOpView> { |
| PyOperation &operation = self.getOperation(); |
| operation.checkValid(); |
| if (!operation.isAttached()) |
| throw nb::value_error("Detached operation has no parent."); |
| |
| operation.detachFromParent(); |
| return operation.createOpView(); |
| }, |
| "Detaches the operation from its parent block.") |
| .def_prop_ro( |
| "attached", |
| [](PyOperationBase &self) { |
| PyOperation &operation = self.getOperation(); |
| operation.checkValid(); |
| return operation.isAttached(); |
| }, |
| "Reports if the operation is attached to its parent block.") |
| .def( |
| "erase", [](PyOperationBase &self) { self.getOperation().erase(); }, |
| R"( |
| Erases the operation and frees its memory. |
| |
| Note: |
| After erasing, any Python references to the operation become invalid.)") |
| .def("walk", &PyOperationBase::walk, "callback"_a, |
| "walk_order"_a = PyWalkOrder::PostOrder, |
| // clang-format off |
| nb::sig("def walk(self, callback: Callable[[Operation], WalkResult], walk_order: WalkOrder) -> None"), |
| // clang-format on |
| R"( |
| Walks the operation tree with a callback function. |
| |
| Args: |
| callback: A callable that takes an Operation and returns a WalkResult. |
| walk_order: The order of traversal (PRE_ORDER or POST_ORDER).)"); |
| |
| nb::class_<PyOperation, PyOperationBase>(m, "Operation") |
| .def_static( |
| "create", |
| [](std::string_view name, |
| std::optional<std::vector<PyType *>> results, |
| std::optional<std::vector<PyValue *>> operands, |
| std::optional<nb::dict> attributes, |
| std::optional<std::vector<PyBlock *>> successors, int regions, |
| const std::optional<PyLocation> &location, |
| const nb::object &maybeIp, |
| bool inferType) -> nb::typed<nb::object, PyOperation> { |
| // Unpack/validate operands. |
| std::vector<MlirValue> mlirOperands; |
| if (operands) { |
| mlirOperands.reserve(operands->size()); |
| for (PyValue *operand : *operands) { |
| if (!operand) |
| throw nb::value_error("operand value cannot be None"); |
| mlirOperands.push_back(operand->get()); |
| } |
| } |
| |
| PyLocation pyLoc = maybeGetTracebackLocation(location); |
| return PyOperation::create( |
| name, results, mlirOperands.data(), mlirOperands.size(), |
| attributes, successors, regions, pyLoc, maybeIp, inferType); |
| }, |
| "name"_a, "results"_a = nb::none(), "operands"_a = nb::none(), |
| "attributes"_a = nb::none(), "successors"_a = nb::none(), |
| "regions"_a = 0, "loc"_a = nb::none(), "ip"_a = nb::none(), |
| "infer_type"_a = false, |
| R"( |
| Creates a new operation. |
| |
| Args: |
| name: Operation name (e.g. `dialect.operation`). |
| results: Optional sequence of Type representing op result types. |
| operands: Optional operands of the operation. |
| attributes: Optional Dict of {str: Attribute}. |
| successors: Optional List of Block for the operation's successors. |
| regions: Number of regions to create (default = 0). |
| location: Optional Location object (defaults to resolve from context manager). |
| ip: Optional InsertionPoint (defaults to resolve from context manager or set to False to disable insertion, even with an insertion point set in the context manager). |
| infer_type: Whether to infer result types (default = False). |
| Returns: |
| A new detached Operation object. Detached operations can be added to blocks, which causes them to become attached.)") |
| .def_static( |
| "parse", |
| [](const std::string &sourceStr, const std::string &sourceName, |
| DefaultingPyMlirContext context) |
| -> nb::typed<nb::object, PyOpView> { |
| return PyOperation::parse(context->getRef(), sourceStr, sourceName) |
| ->createOpView(); |
| }, |
| "source"_a, nb::kw_only(), "source_name"_a = "", |
| "context"_a = nb::none(), |
| "Parses an operation. Supports both text assembly format and binary " |
| "bytecode format.") |
| .def_prop_ro(MLIR_PYTHON_CAPI_PTR_ATTR, &PyOperation::getCapsule, |
| "Gets a capsule wrapping the MlirOperation.") |
| .def_static(MLIR_PYTHON_CAPI_FACTORY_ATTR, |
| &PyOperation::createFromCapsule, |
| "Creates an Operation from a capsule wrapping MlirOperation.") |
| .def_prop_ro( |
| "operation", |
| [](nb::object self) -> nb::typed<nb::object, PyOperation> { |
| return self; |
| }, |
| "Returns self (the operation).") |
| .def_prop_ro( |
| "opview", |
| [](PyOperation &self) -> nb::typed<nb::object, PyOpView> { |
| return self.createOpView(); |
| }, |
| R"( |
| Returns an OpView of this operation. |
| |
| Note: |
| If the operation has a registered and loaded dialect then this OpView will |
| be concrete wrapper class.)") |
| .def_prop_ro("block", &PyOperation::getBlock, |
| "Returns the block containing this operation.") |
| .def_prop_ro( |
| "successors", |
| [](PyOperationBase &self) { |
| return PyOpSuccessors(self.getOperation().getRef()); |
| }, |
| "Returns the list of Operation successors.") |
| .def( |
| "replace_uses_of_with", |
| [](PyOperation &self, PyValue &of, PyValue &with) { |
| mlirOperationReplaceUsesOfWith(self.get(), of.get(), with.get()); |
| }, |
| "of"_a, "with_"_a, |
| "Replaces uses of the 'of' value with the 'with' value inside the " |
| "operation.") |
| .def("_set_invalid", &PyOperation::setInvalid, |
| "Invalidate the operation."); |
| |
| auto opViewClass = |
| nb::class_<PyOpView, PyOperationBase>(m, "OpView") |
| .def(nb::init<nb::typed<nb::object, PyOperation>>(), "operation"_a) |
| .def( |
| "__init__", |
| [](PyOpView *self, std::string_view name, |
| std::tuple<int, bool> opRegionSpec, |
| nb::object operandSegmentSpecObj, |
| nb::object resultSegmentSpecObj, |
| std::optional<nb::list> resultTypeList, nb::list operandList, |
| std::optional<nb::dict> attributes, |
| std::optional<std::vector<PyBlock *>> successors, |
| std::optional<int> regions, |
| const std::optional<PyLocation> &location, |
| const nb::object &maybeIp) { |
| PyLocation pyLoc = maybeGetTracebackLocation(location); |
| new (self) PyOpView(PyOpView::buildGeneric( |
| name, opRegionSpec, operandSegmentSpecObj, |
| resultSegmentSpecObj, resultTypeList, operandList, |
| attributes, successors, regions, pyLoc, maybeIp)); |
| }, |
| "name"_a, "opRegionSpec"_a, |
| "operandSegmentSpecObj"_a = nb::none(), |
| "resultSegmentSpecObj"_a = nb::none(), "results"_a = nb::none(), |
| "operands"_a = nb::none(), "attributes"_a = nb::none(), |
| "successors"_a = nb::none(), "regions"_a = nb::none(), |
| "loc"_a = nb::none(), "ip"_a = nb::none()) |
| .def_prop_ro( |
| "operation", |
| [](PyOpView &self) -> nb::typed<nb::object, PyOperation> { |
| return self.getOperationObject(); |
| }) |
| .def_prop_ro("opview", |
| [](nb::object self) -> nb::typed<nb::object, PyOpView> { |
| return self; |
| }) |
| .def( |
| "__str__", |
| [](PyOpView &self) { return nb::str(self.getOperationObject()); }) |
| .def_prop_ro( |
| "successors", |
| [](PyOperationBase &self) { |
| return PyOpSuccessors(self.getOperation().getRef()); |
| }, |
| "Returns the list of Operation successors.") |
| .def( |
| "_set_invalid", |
| [](PyOpView &self) { self.getOperation().setInvalid(); }, |
| "Invalidate the operation."); |
| opViewClass.attr("_ODS_REGIONS") = nb::make_tuple(0, true); |
| opViewClass.attr("_ODS_OPERAND_SEGMENTS") = nb::none(); |
| opViewClass.attr("_ODS_RESULT_SEGMENTS") = nb::none(); |
| // It is faster to pass the operation_name, ods_regions, and |
| // ods_operand_segments/ods_result_segments as arguments to the constructor, |
| // rather than to access them as attributes. |
| opViewClass.attr("build_generic") = classmethod( |
| [](nb::handle cls, std::optional<nb::list> resultTypeList, |
| nb::list operandList, std::optional<nb::dict> attributes, |
| std::optional<std::vector<PyBlock *>> successors, |
| std::optional<int> regions, std::optional<PyLocation> location, |
| const nb::object &maybeIp) { |
| std::string name = nb::cast<std::string>(cls.attr("OPERATION_NAME")); |
| std::tuple<int, bool> opRegionSpec = |
| nb::cast<std::tuple<int, bool>>(cls.attr("_ODS_REGIONS")); |
| nb::object operandSegmentSpec = cls.attr("_ODS_OPERAND_SEGMENTS"); |
| nb::object resultSegmentSpec = cls.attr("_ODS_RESULT_SEGMENTS"); |
| PyLocation pyLoc = maybeGetTracebackLocation(location); |
| return PyOpView::buildGeneric(name, opRegionSpec, operandSegmentSpec, |
| resultSegmentSpec, resultTypeList, |
| operandList, attributes, successors, |
| regions, pyLoc, maybeIp); |
| }, |
| "cls"_a, "results"_a = nb::none(), "operands"_a = nb::none(), |
| "attributes"_a = nb::none(), "successors"_a = nb::none(), |
| "regions"_a = nb::none(), "loc"_a = nb::none(), "ip"_a = nb::none(), |
| "Builds a specific, generated OpView based on class level attributes."); |
| opViewClass.attr("parse") = classmethod( |
| [](const nb::object &cls, const std::string &sourceStr, |
| const std::string &sourceName, |
| DefaultingPyMlirContext context) -> nb::typed<nb::object, PyOpView> { |
| PyOperationRef parsed = |
| PyOperation::parse(context->getRef(), sourceStr, sourceName); |
| |
| // Check if the expected operation was parsed, and cast to to the |
| // appropriate `OpView` subclass if successful. |
| // NOTE: This accesses attributes that have been automatically added to |
| // `OpView` subclasses, and is not intended to be used on `OpView` |
| // directly. |
| std::string clsOpName = |
| nb::cast<std::string>(cls.attr("OPERATION_NAME")); |
| MlirStringRef identifier = |
| mlirIdentifierStr(mlirOperationGetName(*parsed.get())); |
| std::string_view parsedOpName(identifier.data, identifier.length); |
| if (clsOpName != parsedOpName) |
| throw MLIRError(join("Expected a '", clsOpName, "' op, got: '", |
| parsedOpName, "'")); |
| return PyOpView::constructDerived(cls, parsed.getObject()); |
| }, |
| "cls"_a, "source"_a, nb::kw_only(), "source_name"_a = "", |
| "context"_a = nb::none(), |
| "Parses a specific, generated OpView based on class level attributes."); |
| |
| PyOpAdaptor::bind(m); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyRegion. |
| //---------------------------------------------------------------------------- |
| nb::class_<PyRegion>(m, "Region") |
| .def_prop_ro( |
| "blocks", |
| [](PyRegion &self) { |
| return PyBlockList(self.getParentOperation(), self.get()); |
| }, |
| "Returns a forward-optimized sequence of blocks.") |
| .def_prop_ro( |
| "owner", |
| [](PyRegion &self) -> nb::typed<nb::object, PyOpView> { |
| return self.getParentOperation()->createOpView(); |
| }, |
| "Returns the operation owning this region.") |
| .def( |
| "__iter__", |
| [](PyRegion &self) { |
| self.checkValid(); |
| MlirBlock firstBlock = mlirRegionGetFirstBlock(self.get()); |
| return PyBlockIterator(self.getParentOperation(), firstBlock); |
| }, |
| "Iterates over blocks in the region.") |
| .def( |
| "__eq__", |
| [](PyRegion &self, PyRegion &other) { |
| return self.get().ptr == other.get().ptr; |
| }, |
| "Compares two regions for pointer equality.") |
| .def( |
| "__eq__", [](PyRegion &self, nb::object &other) { return false; }, |
| "Compares region with non-region object (always returns False)."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyBlock. |
| //---------------------------------------------------------------------------- |
| nb::class_<PyBlock>(m, "Block") |
| .def_prop_ro(MLIR_PYTHON_CAPI_PTR_ATTR, &PyBlock::getCapsule, |
| "Gets a capsule wrapping the MlirBlock.") |
| .def_prop_ro( |
| "owner", |
| [](PyBlock &self) -> nb::typed<nb::object, PyOpView> { |
| return self.getParentOperation()->createOpView(); |
| }, |
| "Returns the owning operation of this block.") |
| .def_prop_ro( |
| "region", |
| [](PyBlock &self) { |
| MlirRegion region = mlirBlockGetParentRegion(self.get()); |
| return PyRegion(self.getParentOperation(), region); |
| }, |
| "Returns the owning region of this block.") |
| .def_prop_ro( |
| "arguments", |
| [](PyBlock &self) { |
| return PyBlockArgumentList(self.getParentOperation(), self.get()); |
| }, |
| "Returns a list of block arguments.") |
| .def( |
| "add_argument", |
| [](PyBlock &self, const PyType &type, const PyLocation &loc) { |
| return PyBlockArgument(self.getParentOperation(), |
| mlirBlockAddArgument(self.get(), type, loc)); |
| }, |
| "type"_a, "loc"_a, |
| R"( |
| Appends an argument of the specified type to the block. |
| |
| Args: |
| type: The type of the argument to add. |
| loc: The source location for the argument. |
| |
| Returns: |
| The newly added block argument.)") |
| .def( |
| "erase_argument", |
| [](PyBlock &self, unsigned index) { |
| return mlirBlockEraseArgument(self.get(), index); |
| }, |
| "index"_a, |
| R"( |
| Erases the argument at the specified index. |
| |
| Args: |
| index: The index of the argument to erase.)") |
| .def_prop_ro( |
| "operations", |
| [](PyBlock &self) { |
| return PyOperationList(self.getParentOperation(), self.get()); |
| }, |
| "Returns a forward-optimized sequence of operations.") |
| .def_static( |
| "create_at_start", |
| [](PyRegion &parent, const nb::sequence &pyArgTypes, |
| const std::optional<nb::sequence> &pyArgLocs) { |
| parent.checkValid(); |
| MlirBlock block = createBlock(pyArgTypes, pyArgLocs); |
| mlirRegionInsertOwnedBlock(parent, 0, block); |
| return PyBlock(parent.getParentOperation(), block); |
| }, |
| "parent"_a, "arg_types"_a = nb::list(), "arg_locs"_a = std::nullopt, |
| "Creates and returns a new Block at the beginning of the given " |
| "region (with given argument types and locations).") |
| .def( |
| "append_to", |
| [](PyBlock &self, PyRegion ®ion) { |
| MlirBlock b = self.get(); |
| if (!mlirRegionIsNull(mlirBlockGetParentRegion(b))) |
| mlirBlockDetach(b); |
| mlirRegionAppendOwnedBlock(region.get(), b); |
| }, |
| "region"_a, |
| R"( |
| Appends this block to a region. |
| |
| Transfers ownership if the block is currently owned by another region. |
| |
| Args: |
| region: The region to append the block to.)") |
| .def( |
| "create_before", |
| [](PyBlock &self, const nb::args &pyArgTypes, |
| const std::optional<nb::sequence> &pyArgLocs) { |
| self.checkValid(); |
| MlirBlock block = |
| createBlock(nb::cast<nb::sequence>(pyArgTypes), pyArgLocs); |
| MlirRegion region = mlirBlockGetParentRegion(self.get()); |
| mlirRegionInsertOwnedBlockBefore(region, self.get(), block); |
| return PyBlock(self.getParentOperation(), block); |
| }, |
| "arg_types"_a, nb::kw_only(), "arg_locs"_a = std::nullopt, |
| "Creates and returns a new Block before this block " |
| "(with given argument types and locations).") |
| .def( |
| "create_after", |
| [](PyBlock &self, const nb::args &pyArgTypes, |
| const std::optional<nb::sequence> &pyArgLocs) { |
| self.checkValid(); |
| MlirBlock block = |
| createBlock(nb::cast<nb::sequence>(pyArgTypes), pyArgLocs); |
| MlirRegion region = mlirBlockGetParentRegion(self.get()); |
| mlirRegionInsertOwnedBlockAfter(region, self.get(), block); |
| return PyBlock(self.getParentOperation(), block); |
| }, |
| "arg_types"_a, nb::kw_only(), "arg_locs"_a = std::nullopt, |
| "Creates and returns a new Block after this block " |
| "(with given argument types and locations).") |
| .def( |
| "__iter__", |
| [](PyBlock &self) { |
| self.checkValid(); |
| MlirOperation firstOperation = |
| mlirBlockGetFirstOperation(self.get()); |
| return PyOperationIterator(self.getParentOperation(), |
| firstOperation); |
| }, |
| "Iterates over operations in the block.") |
| .def( |
| "__eq__", |
| [](PyBlock &self, PyBlock &other) { |
| return self.get().ptr == other.get().ptr; |
| }, |
| "Compares two blocks for pointer equality.") |
| .def( |
| "__eq__", [](PyBlock &self, nb::object &other) { return false; }, |
| "Compares block with non-block object (always returns False).") |
| .def( |
| "__hash__", [](PyBlock &self) { return hash(self.get().ptr); }, |
| "Returns the hash value of the block.") |
| .def( |
| "__str__", |
| [](PyBlock &self) { |
| self.checkValid(); |
| PyPrintAccumulator printAccum; |
| mlirBlockPrint(self.get(), printAccum.getCallback(), |
| printAccum.getUserData()); |
| return printAccum.join(); |
| }, |
| "Returns the assembly form of the block.") |
| .def( |
| "append", |
| [](PyBlock &self, PyOperationBase &operation) { |
| if (operation.getOperation().isAttached()) |
| operation.getOperation().detachFromParent(); |
| |
| MlirOperation mlirOperation = operation.getOperation().get(); |
| mlirBlockAppendOwnedOperation(self.get(), mlirOperation); |
| operation.getOperation().setAttached( |
| self.getParentOperation().getObject()); |
| }, |
| "operation"_a, |
| R"( |
| Appends an operation to this block. |
| |
| If the operation is currently in another block, it will be moved. |
| |
| Args: |
| operation: The operation to append to the block.)") |
| .def_prop_ro( |
| "successors", |
| [](PyBlock &self) { |
| return PyBlockSuccessors(self, self.getParentOperation()); |
| }, |
| "Returns the list of Block successors.") |
| .def_prop_ro( |
| "predecessors", |
| [](PyBlock &self) { |
| return PyBlockPredecessors(self, self.getParentOperation()); |
| }, |
| "Returns the list of Block predecessors."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyInsertionPoint. |
| //---------------------------------------------------------------------------- |
| |
| nb::class_<PyInsertionPoint>(m, "InsertionPoint") |
| .def(nb::init<PyBlock &>(), "block"_a, |
| "Inserts after the last operation but still inside the block.") |
| .def("__enter__", &PyInsertionPoint::contextEnter, |
| "Enters the insertion point as a context manager.", |
| nb::sig("def __enter__(self, /) -> InsertionPoint")) |
| .def("__exit__", &PyInsertionPoint::contextExit, "exc_type"_a.none(), |
| "exc_value"_a.none(), "traceback"_a.none(), |
| "Exits the insertion point context manager.") |
| .def_prop_ro_static( |
| "current", |
| [](nb::object & /*class*/) { |
| auto *ip = PyThreadContextEntry::getDefaultInsertionPoint(); |
| if (!ip) |
| throw nb::value_error("No current InsertionPoint"); |
| return ip; |
| }, |
| nb::sig("def current(/) -> InsertionPoint"), |
| "Gets the InsertionPoint bound to the current thread or raises " |
| "ValueError if none has been set.") |
| .def(nb::init<PyOperationBase &>(), "beforeOperation"_a, |
| "Inserts before a referenced operation.") |
| .def_static("at_block_begin", &PyInsertionPoint::atBlockBegin, "block"_a, |
| R"( |
| Creates an insertion point at the beginning of a block. |
| |
| Args: |
| block: The block at whose beginning operations should be inserted. |
| |
| Returns: |
| An InsertionPoint at the block's beginning.)") |
| .def_static("at_block_terminator", &PyInsertionPoint::atBlockTerminator, |
| "block"_a, |
| R"( |
| Creates an insertion point before a block's terminator. |
| |
| Args: |
| block: The block whose terminator to insert before. |
| |
| Returns: |
| An InsertionPoint before the terminator. |
| |
| Raises: |
| ValueError: If the block has no terminator.)") |
| .def_static("after", &PyInsertionPoint::after, "operation"_a, |
| R"( |
| Creates an insertion point immediately after an operation. |
| |
| Args: |
| operation: The operation after which to insert. |
| |
| Returns: |
| An InsertionPoint after the operation.)") |
| .def("insert", &PyInsertionPoint::insert, "operation"_a, |
| R"( |
| Inserts an operation at this insertion point. |
| |
| Args: |
| operation: The operation to insert.)") |
| .def_prop_ro( |
| "block", [](PyInsertionPoint &self) { return self.getBlock(); }, |
| "Returns the block that this `InsertionPoint` points to.") |
| .def_prop_ro( |
| "ref_operation", |
| [](PyInsertionPoint &self) |
| -> std::optional<nb::typed<nb::object, PyOperation>> { |
| auto refOperation = self.getRefOperation(); |
| if (refOperation) |
| return refOperation->getObject(); |
| return {}; |
| }, |
| "The reference operation before which new operations are " |
| "inserted, or None if the insertion point is at the end of " |
| "the block."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyAttribute. |
| //---------------------------------------------------------------------------- |
| nb::class_<PyAttribute>(m, "Attribute") |
| // Delegate to the PyAttribute copy constructor, which will also lifetime |
| // extend the backing context which owns the MlirAttribute. |
| .def(nb::init<PyAttribute &>(), "cast_from_type"_a, |
| "Casts the passed attribute to the generic `Attribute`.") |
| .def_prop_ro(MLIR_PYTHON_CAPI_PTR_ATTR, &PyAttribute::getCapsule, |
| "Gets a capsule wrapping the MlirAttribute.") |
| .def_static( |
| MLIR_PYTHON_CAPI_FACTORY_ATTR, &PyAttribute::createFromCapsule, |
| "Creates an Attribute from a capsule wrapping `MlirAttribute`.") |
| .def_static( |
| "parse", |
| [](const std::string &attrSpec, DefaultingPyMlirContext context) |
| -> nb::typed<nb::object, PyAttribute> { |
| PyMlirContext::ErrorCapture errors(context->getRef()); |
| MlirAttribute attr = mlirAttributeParseGet( |
| context->get(), toMlirStringRef(attrSpec)); |
| if (mlirAttributeIsNull(attr)) |
| throw MLIRError("Unable to parse attribute", errors.take()); |
| return PyAttribute(context.get()->getRef(), attr).maybeDownCast(); |
| }, |
| "asm"_a, "context"_a = nb::none(), |
| "Parses an attribute from an assembly form. Raises an `MLIRError` on " |
| "failure.") |
| .def_prop_ro( |
| "context", |
| [](PyAttribute &self) -> nb::typed<nb::object, PyMlirContext> { |
| return self.getContext().getObject(); |
| }, |
| "Context that owns the `Attribute`.") |
| .def_prop_ro( |
| "type", |
| [](PyAttribute &self) -> nb::typed<nb::object, PyType> { |
| return PyType(self.getContext(), mlirAttributeGetType(self)) |
| .maybeDownCast(); |
| }, |
| "Returns the type of the `Attribute`.") |
| .def( |
| "get_named", |
| [](PyAttribute &self, std::string name) { |
| return PyNamedAttribute(self, std::move(name)); |
| }, |
| nb::keep_alive<0, 1>(), |
| R"( |
| Binds a name to the attribute, creating a `NamedAttribute`. |
| |
| Args: |
| name: The name to bind to the `Attribute`. |
| |
| Returns: |
| A `NamedAttribute` with the given name and this attribute.)") |
| .def( |
| "__eq__", |
| [](PyAttribute &self, PyAttribute &other) { return self == other; }, |
| "Compares two attributes for equality.") |
| .def( |
| "__eq__", [](PyAttribute &self, nb::object &other) { return false; }, |
| "Compares attribute with non-attribute object (always returns " |
| "False).") |
| .def( |
| "__hash__", [](PyAttribute &self) { return hash(self.get().ptr); }, |
| "Returns the hash value of the attribute.") |
| .def( |
| "dump", [](PyAttribute &self) { mlirAttributeDump(self); }, |
| kDumpDocstring) |
| .def( |
| "__str__", |
| [](PyAttribute &self) { |
| PyPrintAccumulator printAccum; |
| mlirAttributePrint(self, printAccum.getCallback(), |
| printAccum.getUserData()); |
| return printAccum.join(); |
| }, |
| "Returns the assembly form of the Attribute.") |
| .def( |
| "__repr__", |
| [](PyAttribute &self) { |
| // Generally, assembly formats are not printed for __repr__ because |
| // this can cause exceptionally long debug output and exceptions. |
| // However, attribute values are generally considered useful and |
| // are printed. This may need to be re-evaluated if debug dumps end |
| // up being excessive. |
| PyPrintAccumulator printAccum; |
| printAccum.parts.append("Attribute("); |
| mlirAttributePrint(self, printAccum.getCallback(), |
| printAccum.getUserData()); |
| printAccum.parts.append(")"); |
| return printAccum.join(); |
| }, |
| "Returns a string representation of the attribute.") |
| .def_prop_ro( |
| "typeid", |
| [](PyAttribute &self) { |
| MlirTypeID mlirTypeID = mlirAttributeGetTypeID(self); |
| assert(!mlirTypeIDIsNull(mlirTypeID) && |
| "mlirTypeID was expected to be non-null."); |
| return PyTypeID(mlirTypeID); |
| }, |
| "Returns the `TypeID` of the attribute.") |
| .def( |
| MLIR_PYTHON_MAYBE_DOWNCAST_ATTR, |
| [](PyAttribute &self) -> nb::typed<nb::object, PyAttribute> { |
| return self.maybeDownCast(); |
| }, |
| "Downcasts the attribute to a more specific attribute if possible."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyNamedAttribute |
| //---------------------------------------------------------------------------- |
| nb::class_<PyNamedAttribute>(m, "NamedAttribute") |
| .def( |
| "__repr__", |
| [](PyNamedAttribute &self) { |
| PyPrintAccumulator printAccum; |
| printAccum.parts.append("NamedAttribute("); |
| printAccum.parts.append( |
| nb::str(mlirIdentifierStr(self.namedAttr.name).data, |
| mlirIdentifierStr(self.namedAttr.name).length)); |
| printAccum.parts.append("="); |
| mlirAttributePrint(self.namedAttr.attribute, |
| printAccum.getCallback(), |
| printAccum.getUserData()); |
| printAccum.parts.append(")"); |
| return printAccum.join(); |
| }, |
| "Returns a string representation of the named attribute.") |
| .def_prop_ro( |
| "name", |
| [](PyNamedAttribute &self) { |
| return mlirIdentifierStr(self.namedAttr.name); |
| }, |
| "The name of the `NamedAttribute` binding.") |
| .def_prop_ro( |
| "attr", |
| [](PyNamedAttribute &self) { return self.namedAttr.attribute; }, |
| nb::keep_alive<0, 1>(), nb::sig("def attr(self) -> Attribute"), |
| "The underlying generic attribute of the `NamedAttribute` binding."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyType. |
| //---------------------------------------------------------------------------- |
| nb::class_<PyType>(m, "Type") |
| // Delegate to the PyType copy constructor, which will also lifetime |
| // extend the backing context which owns the MlirType. |
| .def(nb::init<PyType &>(), "cast_from_type"_a, |
| "Casts the passed type to the generic `Type`.") |
| .def_prop_ro(MLIR_PYTHON_CAPI_PTR_ATTR, &PyType::getCapsule, |
| "Gets a capsule wrapping the `MlirType`.") |
| .def_static(MLIR_PYTHON_CAPI_FACTORY_ATTR, &PyType::createFromCapsule, |
| "Creates a Type from a capsule wrapping `MlirType`.") |
| .def_static( |
| "parse", |
| [](std::string typeSpec, |
| DefaultingPyMlirContext context) -> nb::typed<nb::object, PyType> { |
| PyMlirContext::ErrorCapture errors(context->getRef()); |
| MlirType type = |
| mlirTypeParseGet(context->get(), toMlirStringRef(typeSpec)); |
| if (mlirTypeIsNull(type)) |
| throw MLIRError("Unable to parse type", errors.take()); |
| return PyType(context.get()->getRef(), type).maybeDownCast(); |
| }, |
| "asm"_a, "context"_a = nb::none(), |
| R"( |
| Parses the assembly form of a type. |
| |
| Returns a Type object or raises an `MLIRError` if the type cannot be parsed. |
| |
| See also: https://mlir.llvm.org/docs/LangRef/#type-system)") |
| .def_prop_ro( |
| "context", |
| [](PyType &self) -> nb::typed<nb::object, PyMlirContext> { |
| return self.getContext().getObject(); |
| }, |
| "Context that owns the `Type`.") |
| .def( |
| "__eq__", [](PyType &self, PyType &other) { return self == other; }, |
| "Compares two types for equality.") |
| .def( |
| "__eq__", [](PyType &self, nb::object &other) { return false; }, |
| "other"_a.none(), |
| "Compares type with non-type object (always returns False).") |
| .def( |
| "__hash__", [](PyType &self) { return hash(self.get().ptr); }, |
| "Returns the hash value of the `Type`.") |
| .def( |
| "dump", [](PyType &self) { mlirTypeDump(self); }, kDumpDocstring) |
| .def( |
| "__str__", |
| [](PyType &self) { |
| PyPrintAccumulator printAccum; |
| mlirTypePrint(self, printAccum.getCallback(), |
| printAccum.getUserData()); |
| return printAccum.join(); |
| }, |
| "Returns the assembly form of the `Type`.") |
| .def( |
| "__repr__", |
| [](PyType &self) { |
| // Generally, assembly formats are not printed for __repr__ because |
| // this can cause exceptionally long debug output and exceptions. |
| // However, types are an exception as they typically have compact |
| // assembly forms and printing them is useful. |
| PyPrintAccumulator printAccum; |
| printAccum.parts.append("Type("); |
| mlirTypePrint(self, printAccum.getCallback(), |
| printAccum.getUserData()); |
| printAccum.parts.append(")"); |
| return printAccum.join(); |
| }, |
| "Returns a string representation of the `Type`.") |
| .def( |
| MLIR_PYTHON_MAYBE_DOWNCAST_ATTR, |
| [](PyType &self) -> nb::typed<nb::object, PyType> { |
| return self.maybeDownCast(); |
| }, |
| "Downcasts the Type to a more specific `Type` if possible.") |
| .def_prop_ro( |
| "typeid", |
| [](PyType &self) { |
| MlirTypeID mlirTypeID = mlirTypeGetTypeID(self); |
| if (!mlirTypeIDIsNull(mlirTypeID)) |
| return PyTypeID(mlirTypeID); |
| auto origRepr = nb::cast<std::string>(nb::repr(nb::cast(self))); |
| throw nb::value_error(join(origRepr, " has no typeid.").c_str()); |
| }, |
| "Returns the `TypeID` of the `Type`, or raises `ValueError` if " |
| "`Type` has no " |
| "`TypeID`."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of PyTypeID. |
| //---------------------------------------------------------------------------- |
| nb::class_<PyTypeID>(m, "TypeID") |
| .def_prop_ro(MLIR_PYTHON_CAPI_PTR_ATTR, &PyTypeID::getCapsule, |
| "Gets a capsule wrapping the `MlirTypeID`.") |
| .def_static(MLIR_PYTHON_CAPI_FACTORY_ATTR, &PyTypeID::createFromCapsule, |
| "Creates a `TypeID` from a capsule wrapping `MlirTypeID`.") |
| // Note, this tests whether the underlying TypeIDs are the same, |
| // not whether the wrapper MlirTypeIDs are the same, nor whether |
| // the Python objects are the same (i.e., PyTypeID is a value type). |
| .def( |
| "__eq__", |
| [](PyTypeID &self, PyTypeID &other) { return self == other; }, |
| "Compares two `TypeID`s for equality.") |
| .def( |
| "__eq__", |
| [](PyTypeID &self, const nb::object &other) { return false; }, |
| "Compares TypeID with non-TypeID object (always returns False).") |
| // Note, this gives the hash value of the underlying TypeID, not the |
| // hash value of the Python object, nor the hash value of the |
| // MlirTypeID wrapper. |
| .def( |
| "__hash__", |
| [](PyTypeID &self) { |
| return static_cast<size_t>(mlirTypeIDHashValue(self)); |
| }, |
| "Returns the hash value of the `TypeID`."); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of Value. |
| //---------------------------------------------------------------------------- |
| m.attr("_T") = nb::type_var("_T", "bound"_a = m.attr("Type")); |
| |
| nb::class_<PyValue>(m, "Value", nb::is_generic(), |
| nb::sig("class Value(typing.Generic[_T])")) |
| .def(nb::init<PyValue &>(), nb::keep_alive<0, 1>(), "value"_a, |
| "Creates a Value reference from another `Value`.") |
| .def_prop_ro(MLIR_PYTHON_CAPI_PTR_ATTR, &PyValue::getCapsule, |
| "Gets a capsule wrapping the `MlirValue`.") |
| .def_static(MLIR_PYTHON_CAPI_FACTORY_ATTR, &PyValue::createFromCapsule, |
| "Creates a `Value` from a capsule wrapping `MlirValue`.") |
| .def_prop_ro( |
| "context", |
| [](PyValue &self) -> nb::typed<nb::object, PyMlirContext> { |
| return self.getParentOperation()->getContext().getObject(); |
| }, |
| "Context in which the value lives.") |
| .def( |
| "dump", [](PyValue &self) { mlirValueDump(self.get()); }, |
| kDumpDocstring) |
| .def_prop_ro( |
| "owner", |
| [](PyValue &self) |
| -> nb::typed<nb::object, std::variant<PyOpView, PyBlock>> { |
| MlirValue v = self.get(); |
| if (mlirValueIsAOpResult(v)) { |
| assert(mlirOperationEqual(self.getParentOperation()->get(), |
| mlirOpResultGetOwner(self.get())) && |
| "expected the owner of the value in Python to match " |
| "that in " |
| "the IR"); |
| return self.getParentOperation()->createOpView(); |
| } |
| |
| if (mlirValueIsABlockArgument(v)) { |
| MlirBlock block = mlirBlockArgumentGetOwner(self.get()); |
| return nb::cast(PyBlock(self.getParentOperation(), block)); |
| } |
| |
| assert(false && "Value must be a block argument or an op result"); |
| return nb::none(); |
| }, |
| "Returns the owner of the value (`Operation` for results, `Block` " |
| "for " |
| "arguments).") |
| .def_prop_ro( |
| "uses", |
| [](PyValue &self) { |
| return PyOpOperandIterator(mlirValueGetFirstUse(self.get())); |
| }, |
| "Returns an iterator over uses of this value.") |
| .def( |
| "__eq__", |
| [](PyValue &self, PyValue &other) { |
| return self.get().ptr == other.get().ptr; |
| }, |
| "Compares two values for pointer equality.") |
| .def( |
| "__eq__", [](PyValue &self, nb::object other) { return false; }, |
| "Compares value with non-value object (always returns False).") |
| .def( |
| "__hash__", [](PyValue &self) { return hash(self.get().ptr); }, |
| "Returns the hash value of the value.") |
| .def( |
| "__str__", |
| [](PyValue &self) { |
| PyPrintAccumulator printAccum; |
| printAccum.parts.append("Value("); |
| mlirValuePrint(self.get(), printAccum.getCallback(), |
| printAccum.getUserData()); |
| printAccum.parts.append(")"); |
| return printAccum.join(); |
| }, |
| R"( |
| Returns the string form of the value. |
| |
| If the value is a block argument, this is the assembly form of its type and the |
| position in the argument list. If the value is an operation result, this is |
| equivalent to printing the operation that produced it. |
| )") |
| .def( |
| "get_name", |
| [](PyValue &self, bool useLocalScope, bool useNameLocAsPrefix) { |
| PyPrintAccumulator printAccum; |
| MlirOpPrintingFlags flags = mlirOpPrintingFlagsCreate(); |
| if (useLocalScope) |
| mlirOpPrintingFlagsUseLocalScope(flags); |
| if (useNameLocAsPrefix) |
| mlirOpPrintingFlagsPrintNameLocAsPrefix(flags); |
| MlirAsmState valueState = |
| mlirAsmStateCreateForValue(self.get(), flags); |
| mlirValuePrintAsOperand(self.get(), valueState, |
| printAccum.getCallback(), |
| printAccum.getUserData()); |
| mlirOpPrintingFlagsDestroy(flags); |
| mlirAsmStateDestroy(valueState); |
| return printAccum.join(); |
| }, |
| "use_local_scope"_a = false, "use_name_loc_as_prefix"_a = false, |
| R"( |
| Returns the string form of value as an operand. |
| |
| Args: |
| use_local_scope: Whether to use local scope for naming. |
| use_name_loc_as_prefix: Whether to use the location attribute (NameLoc) as prefix. |
| |
| Returns: |
| The value's name as it appears in IR (e.g., `%0`, `%arg0`).)") |
| .def( |
| "get_name", |
| [](PyValue &self, PyAsmState &state) { |
| PyPrintAccumulator printAccum; |
| MlirAsmState valueState = state.get(); |
| mlirValuePrintAsOperand(self.get(), valueState, |
| printAccum.getCallback(), |
| printAccum.getUserData()); |
| return printAccum.join(); |
| }, |
| "state"_a, |
| "Returns the string form of value as an operand (i.e., the ValueID).") |
| .def_prop_ro( |
| "type", |
| [](PyValue &self) -> nb::typed<nb::object, PyType> { |
| return PyType(self.getParentOperation()->getContext(), |
| mlirValueGetType(self.get())) |
| .maybeDownCast(); |
| }, |
| "Returns the type of the value.") |
| .def( |
| "set_type", |
| [](PyValue &self, const PyType &type) { |
| mlirValueSetType(self.get(), type); |
| }, |
| "type"_a, "Sets the type of the value.", |
| nb::sig("def set_type(self, type: _T)")) |
| .def( |
| "replace_all_uses_with", |
| [](PyValue &self, PyValue &with) { |
| mlirValueReplaceAllUsesOfWith(self.get(), with.get()); |
| }, |
| "Replace all uses of value with the new value, updating anything in " |
| "the IR that uses `self` to use the other value instead.") |
| .def( |
| "replace_all_uses_except", |
| [](PyValue &self, PyValue &with, PyOperation &exception) { |
| MlirOperation exceptedUser = exception.get(); |
| mlirValueReplaceAllUsesExcept(self, with, 1, &exceptedUser); |
| }, |
| "with_"_a, "exceptions"_a, kValueReplaceAllUsesExceptDocstring) |
| .def( |
| "replace_all_uses_except", |
| [](PyValue &self, PyValue &with, |
| std::vector<PyOperation> &exceptions) { |
| // Convert Python list to a std::vector of MlirOperations |
| std::vector<MlirOperation> exceptionOps; |
| for (PyOperation &exception : exceptions) |
| exceptionOps.push_back(exception); |
| mlirValueReplaceAllUsesExcept( |
| self, with, static_cast<intptr_t>(exceptionOps.size()), |
| exceptionOps.data()); |
| }, |
| "with_"_a, "exceptions"_a, kValueReplaceAllUsesExceptDocstring) |
| .def( |
| MLIR_PYTHON_MAYBE_DOWNCAST_ATTR, |
| [](PyValue &self) { return self.maybeDownCast(); }, |
| "Downcasts the `Value` to a more specific kind if possible.") |
| .def_prop_ro( |
| "location", |
| [](PyValue self) { |
| return PyLocation( |
| PyMlirContext::forContext(mlirValueGetContext(self)), |
| mlirValueGetLocation(self)); |
| }, |
| "Returns the source location of the value."); |
| |
| PyBlockArgument::bind(m); |
| PyOpResult::bind(m); |
| PyOpOperand::bind(m); |
| |
| nb::class_<PyAsmState>(m, "AsmState") |
| .def(nb::init<PyValue &, bool>(), "value"_a, "use_local_scope"_a = false, |
| R"( |
| Creates an `AsmState` for consistent SSA value naming. |
| |
| Args: |
| value: The value to create state for. |
| use_local_scope: Whether to use local scope for naming.)") |
| .def(nb::init<PyOperationBase &, bool>(), "op"_a, |
| "use_local_scope"_a = false, |
| R"( |
| Creates an AsmState for consistent SSA value naming. |
| |
| Args: |
| op: The operation to create state for. |
| use_local_scope: Whether to use local scope for naming.)"); |
| |
| //---------------------------------------------------------------------------- |
| // Mapping of SymbolTable. |
| //---------------------------------------------------------------------------- |
| nb::class_<PySymbolTable>(m, "SymbolTable") |
| .def(nb::init<PyOperationBase &>(), |
| R"( |
| Creates a symbol table for an operation. |
| |
| Args: |
| operation: The `Operation` that defines a symbol table (e.g., a `ModuleOp`). |
| |
| Raises: |
| TypeError: If the operation is not a symbol table.)") |
| .def( |
| "__getitem__", |
| [](PySymbolTable &self, |
| const std::string &name) -> nb::typed<nb::object, PyOpView> { |
| return self.dunderGetItem(name); |
| }, |
| R"( |
| Looks up a symbol by name in the symbol table. |
| |
| Args: |
| name: The name of the symbol to look up. |
| |
| Returns: |
| The operation defining the symbol. |
| |
| Raises: |
| KeyError: If the symbol is not found.)") |
| .def("insert", &PySymbolTable::insert, "operation"_a, |
| R"( |
| Inserts a symbol operation into the symbol table. |
| |
| Args: |
| operation: An operation with a symbol name to insert. |
| |
| Returns: |
| The symbol name attribute of the inserted operation. |
| |
| Raises: |
| ValueError: If the operation does not have a symbol name.)") |
| .def("erase", &PySymbolTable::erase, "operation"_a, |
| R"( |
| Erases a symbol operation from the symbol table. |
| |
| Args: |
| operation: The symbol operation to erase. |
| |
| Note: |
| The operation is also erased from the IR and invalidated.)") |
| .def("__delitem__", &PySymbolTable::dunderDel, |
| "Deletes a symbol by name from the symbol table.") |
| .def( |
| "__contains__", |
| [](PySymbolTable &table, const std::string &name) { |
| return !mlirOperationIsNull(mlirSymbolTableLookup( |
| table, mlirStringRefCreate(name.data(), name.length()))); |
| }, |
| "Checks if a symbol with the given name exists in the table.") |
| // Static helpers. |
| .def_static("set_symbol_name", &PySymbolTable::setSymbolName, "symbol"_a, |
| "name"_a, "Sets the symbol name for a symbol operation.") |
| .def_static("get_symbol_name", &PySymbolTable::getSymbolName, "symbol"_a, |
| "Gets the symbol name from a symbol operation.") |
| .def_static("get_visibility", &PySymbolTable::getVisibility, "symbol"_a, |
| "Gets the visibility attribute of a symbol operation.") |
| .def_static("set_visibility", &PySymbolTable::setVisibility, "symbol"_a, |
| "visibility"_a, |
| "Sets the visibility attribute of a symbol operation.") |
| .def_static("replace_all_symbol_uses", |
| &PySymbolTable::replaceAllSymbolUses, "old_symbol"_a, |
| "new_symbol"_a, "from_op"_a, |
| "Replaces all uses of a symbol with a new symbol name within " |
| "the given operation.") |
| .def_static("walk_symbol_tables", &PySymbolTable::walkSymbolTables, |
| "from_op"_a, "all_sym_uses_visible"_a, "callback"_a, |
| "Walks symbol tables starting from an operation with a " |
| "callback function."); |
| |
| // Container bindings. |
| PyBlockArgumentList::bind(m); |
| PyBlockIterator::bind(m); |
| PyBlockList::bind(m); |
| PyBlockSuccessors::bind(m); |
| PyBlockPredecessors::bind(m); |
| PyOperationIterator::bind(m); |
| PyOperationList::bind(m); |
| PyOpAttributeMap::bind(m); |
| PyOpOperandIterator::bind(m); |
| PyOpOperandList::bind(m); |
| PyOpOperands::bind(m); |
| PyOpResultList::bind(m); |
| PyOpSuccessors::bind(m); |
| PyRegionIterator::bind(m); |
| PyRegionList::bind(m); |
| |
| // Debug bindings. |
| PyGlobalDebugFlag::bind(m); |
| |
| // Attribute builder getter. |
| PyAttrBuilderMap::bind(m); |
| |
| // Extensible Dialect |
| PyDynamicOpTrait::bind(m); |
| PyDynamicOpTraits::IsTerminator::bind(m); |
| PyDynamicOpTraits::NoTerminator::bind(m); |
| } |
| } // namespace MLIR_BINDINGS_PYTHON_DOMAIN |
| } // namespace python |
| } // namespace mlir |