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chore: import upstream snapshot with attribution
2026-07-13 13:36:25 +08:00

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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
/*!
* \file tvm/tirx/block_scope.h
* \brief Definition of execution scope
*/
#ifndef TVM_TIRX_EXEC_SCOPE_H_
#define TVM_TIRX_EXEC_SCOPE_H_
#include <tvm/ffi/container/variant.h>
#include <tvm/ir/module.h>
#include <tvm/tirx/var.h>
#include <string>
#include <utility>
namespace tvm {
namespace tirx {
/*!
* \brief The target execution scope kind of a tile primitive call.
*
* Identifies the granularity at which an op executes (the per-call
* ``scope`` on a ``TilePrimitiveCall``, e.g. ``Tx.warp.copy(...)``).
* Ordered from coarsest to finest; smaller integer = wider scope, so
* ``ScopeKindHigher`` is a plain ``<``.
*/
enum class ScopeKind : int {
kCluster = 2,
kCta = 3,
kWarpgroup = 4,
kWarp = 5,
kThread = 6,
};
/*! \brief Convert a ScopeKind to its string name (e.g. kThread -> "thread"). */
TVM_DLL std::string ScopeKindToString(ScopeKind kind);
/*! \brief Parse a string name to a ScopeKind. FATAL if unknown. */
TVM_DLL ScopeKind StringToScopeKind(const ffi::String& name);
/*!
* \brief The binding between a parent scope and a child scope as used by a
* `ScopeIdDef`. The closed enum of valid (parent -> cur) pairs.
*
* Single-axis bindings (target one ActiveSet box axis -- ``laneid`` /
* ``warpid`` / ``cta_id``, possibly via a warpid factor lane):
* kKernelCta, kClusterCta -> cta_id (flat)
* kCtaWarp -> warpid (flat)
* kCtaWarpgroup -> warpid (outer factor; warpgroup index)
* kWarpgroupWarp -> warpid (inner factor; warp-within-wg index)
* kWarpThread -> laneid (flat)
* kKernelCluster -> not a filter target (cluster_id by design)
* kClusterCtaPair -> hardware CTA pair id (cluster CTA rank % 2)
*
* Multi-axis (flat-thread) bindings -- linearize across two ActiveSet
* axes; a flat ``lo <= var and var < hi`` predicate cannot narrow them as a
* contiguous box range, so they fall back to plain predicate semantics:
* kCtaThread -> threadIdx.x within a CTA (laneid * warpid)
* kWarpgroupThread -> threadIdx.x within a warpgroup (laneid * wid_in_wg)
*/
enum class ScopeBinding : int {
kKernelCluster = 0,
kKernelCta = 1,
kClusterCta = 2,
kCtaWarpgroup = 3,
kCtaWarp = 4,
kWarpgroupWarp = 5,
kWarpThread = 6,
kCtaThread = 7,
kWarpgroupThread = 8,
kClusterCtaPair = 9,
};
/*! \brief Convert a ScopeBinding to its (parent, cur) string pair. */
TVM_DLL std::pair<ffi::String, ffi::String> ScopeBindingToStringPair(ScopeBinding binding);
/*! \brief Parse a (parent, cur) string pair to a ScopeBinding. FATAL if unknown. */
TVM_DLL ScopeBinding StringPairToScopeBinding(const ffi::String& parent, const ffi::String& cur);
/******** Definition of ScopeId ********/
class ScopeIdDefNode : public ffi::Object {
public:
/*! \brief The ScopeId defined */
ffi::Array<PrimVar> def_ids;
/*!
* \brief The extents of the ScopeId.
*
* NullOpt means the extent is *deferred*: the user wrote e.g.
* ``bx = T.cta_id()`` without specifying the extent, and the value will be
* inferred from sibling ScopeIdDefs at LowerTIRx entry via the verifier's
* BFS closure. Deferred form requires ``def_ids.size() == 1`` (single axis
* only -- multi-axis defers have no well-defined recovery).
*
* Explicit (Some) form preserves the per-axis shape, e.g. ``[3, 4, 5]``
* for ``T.cta_id([3, 4, 5])``.
*/
ffi::Optional<ffi::Array<PrimExpr>> extents;
/*! \brief The (parent, cur) binding of this scope id as a closed enum. */
ScopeBinding scope;
/*!
* \brief Optional preferred extents (cluster→cta only).
* Maps to cudaLaunchAttributePreferredClusterDimension (CUDA 12.8+).
*/
ffi::Optional<ffi::Array<PrimExpr>> preferred_extents;
static void RegisterReflection() {
namespace refl = tvm::ffi::reflection;
refl::ObjectDef<ScopeIdDefNode>()
.def_ro("def_ids", &ScopeIdDefNode::def_ids, refl::AttachFieldFlag::SEqHashDefRecursive())
.def_ro("extents", &ScopeIdDefNode::extents)
.def_ro("scope", &ScopeIdDefNode::scope)
.def_ro("preferred_extents", &ScopeIdDefNode::preferred_extents);
}
static constexpr TVMFFISEqHashKind _type_s_eq_hash_kind = kTVMFFISEqHashKindTreeNode;
TVM_FFI_DECLARE_OBJECT_INFO_FINAL("tirx.ScopeIdDef", ScopeIdDefNode, ffi::Object);
};
class ScopeIdDef : public ffi::ObjectRef {
public:
TVM_DLL explicit ScopeIdDef(ffi::Array<PrimVar> def_ids,
ffi::Optional<ffi::Array<PrimExpr>> extents, ScopeBinding scope,
ffi::Optional<ffi::Array<PrimExpr>> preferred_extents =
ffi::Optional<ffi::Array<PrimExpr>>(std::nullopt));
/*! \brief Whether this def has a deferred (unknown) extent. */
bool is_deferred() const { return !get()->extents.has_value(); }
/*! \brief Product of all extent dimensions. PRECONDITION: !is_deferred(). */
PrimExpr fused_extent() const;
TVM_FFI_DEFINE_OBJECT_REF_METHODS_NULLABLE(ScopeIdDef, ffi::ObjectRef, ScopeIdDefNode);
TVM_DEFINE_OBJECT_REF_COW_METHOD(ScopeIdDefNode);
};
class ScopeIdDefVerifier {
public:
using ScopeIdSet = std::unordered_map<ScopeBinding, ScopeIdDef>;
/*!
* \brief Verification mode.
*
* - kRelaxed: tolerate deferred (extent=None) ScopeIdDefs. Used for partial
* programs in the well-formedness check at PrimFunc construction time.
* - kStrict: every original ScopeIdDef must end with a resolved extent
* (either explicit at construction, or inferred via closure). Used at
* LowerTIRx entry where downstream resolve/codegen needs concrete values.
*/
enum class Mode { kRelaxed, kStrict };
/*! \brief Verify the scope id definitions are well formed. */
bool Verify(const ffi::Array<ScopeIdDef>& defs, Mode mode = Mode::kStrict);
/*!
* \brief The resolved scope id set; ``id_set[binding]`` is the best-known
* def for that binding (extents filled in from closure when possible).
*/
ScopeIdSet id_set;
};
/*!
* \brief Static resolver for ScopeIdDef values. Replaces the former
* ScopeIdResolveTable runtime registry with a closed-enum switch.
*/
class ScopeIdResolve {
public:
using LaunchParams = std::unordered_map<ffi::String, IterVar>;
/*! \brief Resolve a ScopeIdDef for a given canonical binding + target. */
TVM_DLL static ffi::Array<PrimExpr> Resolve(ScopeBinding binding,
const ffi::Optional<ffi::Array<PrimExpr>>& extents,
int out_dim, const ffi::String& target_kind,
const LaunchParams& params);
/*! \brief Compute the warp_id_in_cta shuffle expression from threadIdx in launch params */
TVM_DLL static PrimExpr ComputeWarpIdInCta(const LaunchParams& params);
};
/*!
* \brief Strict-weak "a is wider than b" on scope kinds: ``world > kernel >
* cluster > cta > warpgroup > warp > thread``. Only used by axe-layout
* scope-chain validity (the rest of the codebase compares scope identities
* with ==).
*/
inline bool ScopeKindHigher(ScopeKind a, ScopeKind b) {
return static_cast<int>(a) < static_cast<int>(b);
}
/*! \brief String-keyed convenience over ScopeKindHigher. FATALs on bad name. */
TVM_DLL bool ScopeNameHigher(const ffi::String& a, const ffi::String& b);
/******** Definition of Execution Scope ********/
class ExecScopeNode : public ffi::Object {
public:
/*! \brief scope identity; one of the closed ScopeKind values. */
ScopeKind kind = ScopeKind::kThread;
/*! \brief Human-readable name derived from ``kind`` (for printing / errors). */
ffi::String name() const { return ScopeKindToString(kind); }
static void RegisterReflection() {
namespace refl = tvm::ffi::reflection;
refl::ObjectDef<ExecScopeNode>().def_ro("kind", &ExecScopeNode::kind);
}
static constexpr TVMFFISEqHashKind _type_s_eq_hash_kind = kTVMFFISEqHashKindTreeNode;
TVM_FFI_DECLARE_OBJECT_INFO("tirx.ExecScope", ExecScopeNode, ffi::Object);
};
class ExecScope : public ffi::ObjectRef {
public:
/*! \brief Construct from a ScopeKind (canonical). */
TVM_DLL explicit ExecScope(ScopeKind kind);
/*! \brief Construct from a name string (FATALs on unknown name). */
TVM_DLL explicit ExecScope(const ffi::String& name) : ExecScope(StringToScopeKind(name)) {}
TVM_FFI_DEFINE_OBJECT_REF_METHODS_NULLABLE(ExecScope, ffi::ObjectRef, ExecScopeNode);
};
} // namespace tirx
} // namespace tvm
#endif // TVM_TIRX_EXEC_SCOPE_H_