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llvm-project/mlir/lib/Bindings/Python/Globals.cpp
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[MLIR][Python] Support dialect conversion in python bindings (#177782) 
This PR adds dialect conversion support to the MLIR Python bindings.
Because it introduces a number of new APIs, it’s a fairly large PR. It
mainly includes the following parts:

* Add a set of types and APIs to the C API, including
`MlirConversionTarget`, `MlirConversionPattern`, `MlirTypeConverter`,
`MlirConversionPatternRewriter`, and others.
* Add the corresponding types and APIs to the Python bindings.
* Extend `mlir-tblgen` with codegen for Python adaptor classes, which
generates an adaptor class for each op.

Note that this PR only adds support for 1-to-1 conversions, 1-to-N
type/value conversions are not supported yet.

---------

Co-authored-by: Maksim Levental <maksim.levental@gmail.com>
2026-01-31 12:37:49 +08:00

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//===- IRModule.cpp - IR 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
//
//===----------------------------------------------------------------------===//
#include "mlir/Bindings/Python/IRCore.h"
#include <optional>
#include <vector>
#include "mlir/Bindings/Python/Globals.h"
// clang-format off
#include "mlir/Bindings/Python/NanobindUtils.h"
#include "mlir-c/Bindings/Python/Interop.h"
// clang-format on
#include "mlir-c/Support.h"
#include "mlir/Bindings/Python/Nanobind.h"
namespace nb = nanobind;
using namespace mlir;
// -----------------------------------------------------------------------------
// PyGlobals
// -----------------------------------------------------------------------------
namespace mlir {
namespace python {
namespace MLIR_BINDINGS_PYTHON_DOMAIN {
PyGlobals *PyGlobals::instance = nullptr;
PyGlobals::PyGlobals() {
assert(!instance && "PyGlobals already constructed");
instance = this;
// The default search path include {mlir.}dialects, where {mlir.} is the
// package prefix configured at compile time.
dialectSearchPrefixes.emplace_back(MAKE_MLIR_PYTHON_QUALNAME("dialects"));
}
PyGlobals::~PyGlobals() { instance = nullptr; }
PyGlobals &PyGlobals::get() {
assert(instance && "PyGlobals is null");
return *instance;
}
bool PyGlobals::loadDialectModule(llvm::StringRef dialectNamespace) {
{
nb::ft_lock_guard lock(mutex);
if (loadedDialectModules.contains(dialectNamespace))
return true;
}
// Since re-entrancy is possible, make a copy of the search prefixes.
std::vector<std::string> localSearchPrefixes = dialectSearchPrefixes;
nb::object loaded = nb::none();
for (std::string moduleName : localSearchPrefixes) {
moduleName.push_back('.');
moduleName.append(dialectNamespace.data(), dialectNamespace.size());
try {
loaded = nb::module_::import_(moduleName.c_str());
} catch (nb::python_error &e) {
if (e.matches(PyExc_ModuleNotFoundError)) {
continue;
}
throw;
}
break;
}
if (loaded.is_none())
return false;
// Note: Iterator cannot be shared from prior to loading, since re-entrancy
// may have occurred, which may do anything.
nb::ft_lock_guard lock(mutex);
loadedDialectModules.insert(dialectNamespace);
return true;
}
void PyGlobals::registerAttributeBuilder(const std::string &attributeKind,
nb::callable pyFunc, bool replace) {
nb::ft_lock_guard lock(mutex);
nb::object &found = attributeBuilderMap[attributeKind];
if (found && !replace) {
throw std::runtime_error((llvm::Twine("Attribute builder for '") +
attributeKind +
"' is already registered with func: " +
nb::cast<std::string>(nb::str(found)))
.str());
}
found = std::move(pyFunc);
}
void PyGlobals::registerTypeCaster(MlirTypeID mlirTypeID,
nb::callable typeCaster, bool replace) {
nb::ft_lock_guard lock(mutex);
nb::object &found = typeCasterMap[mlirTypeID];
if (found && !replace)
throw std::runtime_error("Type caster is already registered with caster: " +
nb::cast<std::string>(nb::str(found)));
found = std::move(typeCaster);
}
void PyGlobals::registerValueCaster(MlirTypeID mlirTypeID,
nb::callable valueCaster, bool replace) {
nb::ft_lock_guard lock(mutex);
nb::object &found = valueCasterMap[mlirTypeID];
if (found && !replace)
throw std::runtime_error("Value caster is already registered: " +
nb::cast<std::string>(nb::repr(found)));
found = std::move(valueCaster);
}
void PyGlobals::registerDialectImpl(const std::string &dialectNamespace,
nb::object pyClass) {
nb::ft_lock_guard lock(mutex);
nb::object &found = dialectClassMap[dialectNamespace];
if (found) {
throw std::runtime_error((llvm::Twine("Dialect namespace '") +
dialectNamespace + "' is already registered.")
.str());
}
found = std::move(pyClass);
}
void PyGlobals::registerOperationImpl(const std::string &operationName,
nb::object pyClass, bool replace) {
nb::ft_lock_guard lock(mutex);
nb::object &found = operationClassMap[operationName];
if (found && !replace) {
throw std::runtime_error((llvm::Twine("Operation '") + operationName +
"' is already registered.")
.str());
}
found = std::move(pyClass);
}
void PyGlobals::registerOpAdaptorImpl(const std::string &operationName,
nb::object pyClass, bool replace) {
nb::ft_lock_guard lock(mutex);
nb::object &found = opAdaptorClassMap[operationName];
if (found && !replace) {
throw std::runtime_error((llvm::Twine("Operation adaptor of '") +
operationName + "' is already registered.")
.str());
}
found = std::move(pyClass);
}
std::optional<nb::callable>
PyGlobals::lookupAttributeBuilder(const std::string &attributeKind) {
nb::ft_lock_guard lock(mutex);
const auto foundIt = attributeBuilderMap.find(attributeKind);
if (foundIt != attributeBuilderMap.end()) {
assert(foundIt->second && "attribute builder is defined");
return foundIt->second;
}
return std::nullopt;
}
std::optional<nb::callable> PyGlobals::lookupTypeCaster(MlirTypeID mlirTypeID,
MlirDialect dialect) {
// Try to load dialect module.
(void)loadDialectModule(unwrap(mlirDialectGetNamespace(dialect)));
nb::ft_lock_guard lock(mutex);
const auto foundIt = typeCasterMap.find(mlirTypeID);
if (foundIt != typeCasterMap.end()) {
assert(foundIt->second && "type caster is defined");
return foundIt->second;
}
return std::nullopt;
}
std::optional<nb::callable> PyGlobals::lookupValueCaster(MlirTypeID mlirTypeID,
MlirDialect dialect) {
// Try to load dialect module.
(void)loadDialectModule(unwrap(mlirDialectGetNamespace(dialect)));
nb::ft_lock_guard lock(mutex);
const auto foundIt = valueCasterMap.find(mlirTypeID);
if (foundIt != valueCasterMap.end()) {
assert(foundIt->second && "value caster is defined");
return foundIt->second;
}
return std::nullopt;
}
std::optional<nb::object>
PyGlobals::lookupDialectClass(const std::string &dialectNamespace) {
// Make sure dialect module is loaded.
if (!loadDialectModule(dialectNamespace))
return std::nullopt;
nb::ft_lock_guard lock(mutex);
const auto foundIt = dialectClassMap.find(dialectNamespace);
if (foundIt != dialectClassMap.end()) {
assert(foundIt->second && "dialect class is defined");
return foundIt->second;
}
// Not found and loading did not yield a registration.
return std::nullopt;
}
std::optional<nb::object>
PyGlobals::lookupOperationClass(llvm::StringRef operationName) {
// Make sure dialect module is loaded.
auto split = operationName.split('.');
llvm::StringRef dialectNamespace = split.first;
if (!loadDialectModule(dialectNamespace))
return std::nullopt;
nb::ft_lock_guard lock(mutex);
auto foundIt = operationClassMap.find(operationName);
if (foundIt != operationClassMap.end()) {
assert(foundIt->second && "OpView is defined");
return foundIt->second;
}
// Not found and loading did not yield a registration.
return std::nullopt;
}
std::optional<nb::object>
PyGlobals::lookupOpAdaptorClass(llvm::StringRef operationName) {
// Make sure dialect module is loaded.
auto split = operationName.split('.');
llvm::StringRef dialectNamespace = split.first;
if (!loadDialectModule(dialectNamespace))
return std::nullopt;
nb::ft_lock_guard lock(mutex);
auto foundIt = opAdaptorClassMap.find(operationName);
if (foundIt != opAdaptorClassMap.end()) {
assert(foundIt->second && "OpAdaptor is defined");
return foundIt->second;
}
// Not found and loading did not yield a registration.
return std::nullopt;
}
bool PyGlobals::TracebackLoc::locTracebacksEnabled() {
nanobind::ft_lock_guard lock(mutex);
return locTracebackEnabled_;
}
void PyGlobals::TracebackLoc::setLocTracebacksEnabled(bool value) {
nanobind::ft_lock_guard lock(mutex);
locTracebackEnabled_ = value;
}
size_t PyGlobals::TracebackLoc::locTracebackFramesLimit() {
nanobind::ft_lock_guard lock(mutex);
return locTracebackFramesLimit_;
}
void PyGlobals::TracebackLoc::setLocTracebackFramesLimit(size_t value) {
nanobind::ft_lock_guard lock(mutex);
locTracebackFramesLimit_ = std::min(value, kMaxFrames);
}
void PyGlobals::TracebackLoc::registerTracebackFileInclusion(
const std::string &file) {
nanobind::ft_lock_guard lock(mutex);
auto reg = "^" + llvm::Regex::escape(file);
if (userTracebackIncludeFiles.insert(reg).second)
rebuildUserTracebackIncludeRegex = true;
if (userTracebackExcludeFiles.count(reg)) {
if (userTracebackExcludeFiles.erase(reg))
rebuildUserTracebackExcludeRegex = true;
}
}
void PyGlobals::TracebackLoc::registerTracebackFileExclusion(
const std::string &file) {
nanobind::ft_lock_guard lock(mutex);
auto reg = "^" + llvm::Regex::escape(file);
if (userTracebackExcludeFiles.insert(reg).second)
rebuildUserTracebackExcludeRegex = true;
if (userTracebackIncludeFiles.count(reg)) {
if (userTracebackIncludeFiles.erase(reg))
rebuildUserTracebackIncludeRegex = true;
}
}
bool PyGlobals::TracebackLoc::isUserTracebackFilename(
const llvm::StringRef file) {
nanobind::ft_lock_guard lock(mutex);
if (rebuildUserTracebackIncludeRegex) {
userTracebackIncludeRegex.assign(
llvm::join(userTracebackIncludeFiles, "|"));
rebuildUserTracebackIncludeRegex = false;
isUserTracebackFilenameCache.clear();
}
if (rebuildUserTracebackExcludeRegex) {
userTracebackExcludeRegex.assign(
llvm::join(userTracebackExcludeFiles, "|"));
rebuildUserTracebackExcludeRegex = false;
isUserTracebackFilenameCache.clear();
}
if (!isUserTracebackFilenameCache.contains(file)) {
std::string fileStr = file.str();
bool include = std::regex_search(fileStr, userTracebackIncludeRegex);
bool exclude = std::regex_search(fileStr, userTracebackExcludeRegex);
isUserTracebackFilenameCache[file] = include || !exclude;
}
return isUserTracebackFilenameCache[file];
}
} // namespace MLIR_BINDINGS_PYTHON_DOMAIN
} // namespace python
} // namespace mlir
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