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442 lines
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ReStructuredText
.. _transformation-metadata:
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============================
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Code Transformation Metadata
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============================
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.. contents::
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:local:
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Overview
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========
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LLVM transformation passes can be controlled by attaching metadata to
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the code to transform. By default, transformation passes use heuristics
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to determine whether or not to perform transformations, and when doing
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so, other details of how the transformations are applied (e.g., which
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vectorization factor to select).
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Unless the optimizer is otherwise directed, transformations are applied
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conservatively. This conservatism generally allows the optimizer to
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avoid unprofitable transformations, but in practice, this results in the
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optimizer not applying transformations that would be highly profitable.
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Frontends can give additional hints to LLVM passes on which
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transformations they should apply. This can be additional knowledge that
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cannot be derived from the emitted IR, or directives passed from the
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user/programmer. OpenMP pragmas are an example of the latter.
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If any such metadata is dropped from the program, the code's semantics
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must not change.
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Metadata on Loops
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=================
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Attributes can be attached to loops as described in :ref:`llvm.loop`.
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Attributes can describe properties of the loop, disable transformations,
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force specific transformations and set transformation options.
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Because metadata nodes are immutable (with the exception of
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``MDNode::replaceOperandWith`` which is dangerous to use on uniqued
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metadata), in order to add or remove a loop attributes, a new ``MDNode``
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must be created and assigned as the new ``llvm.loop`` metadata. Any
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connection between the old ``MDNode`` and the loop is lost. The
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``llvm.loop`` node is also used as LoopID (``Loop::getLoopID()``), i.e.
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the loop effectively gets a new identifier. For instance,
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``llvm.mem.parallel_loop_access`` references the LoopID. Therefore, if
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the parallel access property is to be preserved after adding/removing
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loop attributes, any ``llvm.mem.parallel_loop_access`` reference must be
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updated to the new LoopID.
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Transformation Metadata Structure
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=================================
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Some attributes describe code transformations (unrolling, vectorizing,
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loop distribution, etc.). They can either be a hint to the optimizer
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that a transformation might be beneficial, instruction to use a specific
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option, , or convey a specific request from the user (such as
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``#pragma clang loop`` or ``#pragma omp simd``).
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If a transformation is forced but cannot be carried-out for any reason,
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an optimization-missed warning must be emitted. Semantic information
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such as a transformation being safe (e.g.
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``llvm.mem.parallel_loop_access``) can be unused by the optimizer
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without generating a warning.
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Unless explicitly disabled, any optimization pass may heuristically
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determine whether a transformation is beneficial and apply it. If
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metadata for another transformation was specified, applying a different
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transformation before it might be inadvertent due to being applied on a
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different loop or the loop not existing anymore. To avoid having to
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explicitly disable an unknown number of passes, the attribute
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``llvm.loop.disable_nonforced`` disables all optional, high-level,
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restructuring transformations.
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The following example avoids the loop being altered before being
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vectorized, for instance being unrolled.
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.. code-block:: llvm
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br i1 %exitcond, label %for.exit, label %for.header, !llvm.loop !0
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...
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!0 = distinct !{!0, !1, !2}
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!1 = !{!"llvm.loop.vectorize.enable", i1 true}
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!2 = !{!"llvm.loop.disable_nonforced"}
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After a transformation is applied, follow-up attributes are set on the
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transformed and/or new loop(s). This allows additional attributes
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including followup-transformations to be specified. Specifying multiple
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transformations in the same metadata node is possible for compatibility
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reasons, but their execution order is undefined. For instance, when
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``llvm.loop.vectorize.enable`` and ``llvm.loop.unroll.enable`` are
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specified at the same time, unrolling may occur either before or after
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vectorization.
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As an example, the following instructs a loop to be vectorized and only
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then unrolled.
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.. code-block:: llvm
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!0 = distinct !{!0, !1, !2, !3}
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!1 = !{!"llvm.loop.vectorize.enable", i1 true}
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!2 = !{!"llvm.loop.disable_nonforced"}
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!3 = !{!"llvm.loop.vectorize.followup_vectorized", !{"llvm.loop.unroll.enable"}}
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If, and only if, no followup is specified, the pass may add attributes itself.
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For instance, the vectorizer adds a ``llvm.loop.isvectorized`` attribute and
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all attributes from the original loop excluding its loop vectorizer
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attributes. To avoid this, an empty followup attribute can be used, e.g.
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.. code-block:: llvm
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!3 = !{!"llvm.loop.vectorize.followup_vectorized"}
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The followup attributes of a transformation that cannot be applied will
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never be added to a loop and are therefore effectively ignored. This means
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that any followup-transformation in such attributes requires that its
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prior transformations are applied before the followup-transformation.
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The user should receive a warning about the first transformation in the
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transformation chain that could not be applied if it a forced
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transformation. All following transformations are skipped.
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Pass-Specific Transformation Metadata
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=====================================
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Transformation options are specific to each transformation. In the
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following, we present the model for each LLVM loop optimization pass and
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the metadata to influence them.
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Loop Vectorization and Interleaving
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-----------------------------------
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Loop vectorization and interleaving is interpreted as a single
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transformation. It is interpreted as forced if
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``!{"llvm.loop.vectorize.enable", i1 true}`` is set.
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Assuming the pre-vectorization loop is
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.. code-block:: c
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for (int i = 0; i < n; i+=1) // original loop
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Stmt(i);
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then the code after vectorization will be approximately (assuming an
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SIMD width of 4):
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.. code-block:: c
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int i = 0;
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if (rtc) {
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for (; i + 3 < n; i+=4) // vectorized/interleaved loop
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Stmt(i:i+3);
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}
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for (; i < n; i+=1) // epilogue loop
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Stmt(i);
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where ``rtc`` is a generated runtime check.
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``llvm.loop.vectorize.followup_vectorized`` will set the attributes for
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the vectorized loop. If not specified, ``llvm.loop.isvectorized`` is
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combined with the original loop's attributes to avoid it being
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vectorized multiple times.
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``llvm.loop.vectorize.followup_epilogue`` will set the attributes for
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the remainder loop. If not specified, it will have the original loop's
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attributes combined with ``llvm.loop.isvectorized`` and
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``llvm.loop.unroll.runtime.disable`` (unless the original loop already
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has unroll metadata).
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The attributes specified by ``llvm.loop.vectorize.followup_all`` are
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added to both loops.
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When using a follow-up attribute, it replaces any automatically deduced
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attributes for the generated loop in question. Therefore it is
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recommended to add ``llvm.loop.isvectorized`` to
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``llvm.loop.vectorize.followup_all`` which avoids that the loop
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vectorizer tries to optimize the loops again.
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Loop Unrolling
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--------------
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Unrolling is interpreted as forced any ``!{!"llvm.loop.unroll.enable"}``
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metadata or option (``llvm.loop.unroll.count``, ``llvm.loop.unroll.full``)
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is present. Unrolling can be full unrolling, partial unrolling of a loop
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with constant trip count or runtime unrolling of a loop with a trip
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count unknown at compile-time.
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If the loop has been unrolled fully, there is no followup-loop. For
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partial/runtime unrolling, the original loop of
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.. code-block:: c
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for (int i = 0; i < n; i+=1) // original loop
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Stmt(i);
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is transformed into (using an unroll factor of 4):
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.. code-block:: c
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int i = 0;
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for (; i + 3 < n; i+=4) { // unrolled loop
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Stmt(i);
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Stmt(i+1);
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Stmt(i+2);
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Stmt(i+3);
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}
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for (; i < n; i+=1) // remainder loop
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Stmt(i);
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``llvm.loop.unroll.followup_unrolled`` will set the loop attributes of
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the unrolled loop. If not specified, the attributes of the original loop
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without the ``llvm.loop.unroll.*`` attributes are copied and
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``llvm.loop.unroll.disable`` added to it.
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``llvm.loop.unroll.followup_remainder`` defines the attributes of the
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remainder loop. If not specified the remainder loop will have no
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attributes. The remainder loop might not be present due to being fully
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unrolled in which case this attribute has no effect.
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Attributes defined in ``llvm.loop.unroll.followup_all`` are added to the
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unrolled and remainder loops.
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To avoid that the partially unrolled loop is unrolled again, it is
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recommended to add ``llvm.loop.unroll.disable`` to
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``llvm.loop.unroll.followup_all``. If no follow-up attribute specified
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for a generated loop, it is added automatically.
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Unroll-And-Jam
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--------------
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Unroll-and-jam uses the following transformation model (here with an
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unroll factor if 2). Currently, it does not support a fallback version
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when the transformation is unsafe.
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.. code-block:: c
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for (int i = 0; i < n; i+=1) { // original outer loop
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Fore(i);
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for (int j = 0; j < m; j+=1) // original inner loop
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SubLoop(i, j);
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Aft(i);
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}
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.. code-block:: c
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int i = 0;
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for (; i + 1 < n; i+=2) { // unrolled outer loop
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Fore(i);
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Fore(i+1);
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for (int j = 0; j < m; j+=1) { // unrolled inner loop
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SubLoop(i, j);
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SubLoop(i+1, j);
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}
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Aft(i);
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Aft(i+1);
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}
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for (; i < n; i+=1) { // remainder outer loop
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Fore(i);
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for (int j = 0; j < m; j+=1) // remainder inner loop
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SubLoop(i, j);
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Aft(i);
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}
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``llvm.loop.unroll_and_jam.followup_outer`` will set the loop attributes
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of the unrolled outer loop. If not specified, the attributes of the
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original outer loop without the ``llvm.loop.unroll.*`` attributes are
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copied and ``llvm.loop.unroll.disable`` added to it.
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``llvm.loop.unroll_and_jam.followup_inner`` will set the loop attributes
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of the unrolled inner loop. If not specified, the attributes of the
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original inner loop are used unchanged.
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``llvm.loop.unroll_and_jam.followup_remainder_outer`` sets the loop
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attributes of the outer remainder loop. If not specified it will not
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have any attributes. The remainder loop might not be present due to
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being fully unrolled.
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``llvm.loop.unroll_and_jam.followup_remainder_inner`` sets the loop
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attributes of the inner remainder loop. If not specified it will have
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the attributes of the original inner loop. It the outer remainder loop
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is unrolled, the inner remainder loop might be present multiple times.
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Attributes defined in ``llvm.loop.unroll_and_jam.followup_all`` are
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added to all of the aforementioned output loops.
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To avoid that the unrolled loop is unrolled again, it is
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recommended to add ``llvm.loop.unroll.disable`` to
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``llvm.loop.unroll_and_jam.followup_all``. It suppresses unroll-and-jam
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as well as an additional inner loop unrolling. If no follow-up
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attribute specified for a generated loop, it is added automatically.
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Loop Distribution
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-----------------
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The LoopDistribution pass tries to separate vectorizable parts of a loop
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from the non-vectorizable part (which otherwise would make the entire
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loop non-vectorizable). Conceptually, it transforms a loop such as
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.. code-block:: c
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for (int i = 1; i < n; i+=1) { // original loop
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A[i] = i;
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B[i] = 2 + B[i];
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C[i] = 3 + C[i - 1];
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}
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into the following code:
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.. code-block:: c
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if (rtc) {
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for (int i = 1; i < n; i+=1) // coincident loop
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A[i] = i;
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for (int i = 1; i < n; i+=1) // coincident loop
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B[i] = 2 + B[i];
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for (int i = 1; i < n; i+=1) // sequential loop
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C[i] = 3 + C[i - 1];
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} else {
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for (int i = 1; i < n; i+=1) { // fallback loop
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A[i] = i;
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B[i] = 2 + B[i];
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C[i] = 3 + C[i - 1];
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}
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}
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where ``rtc`` is a generated runtime check.
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``llvm.loop.distribute.followup_coincident`` sets the loop attributes of
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all loops without loop-carried dependencies (i.e. vectorizable loops).
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There might be more than one such loops. If not defined, the loops will
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inherit the original loop's attributes.
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``llvm.loop.distribute.followup_sequential`` sets the loop attributes of the
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loop with potentially unsafe dependencies. There should be at most one
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such loop. If not defined, the loop will inherit the original loop's
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attributes.
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``llvm.loop.distribute.followup_fallback`` defines the loop attributes
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for the fallback loop, which is a copy of the original loop for when
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loop versioning is required. If undefined, the fallback loop inherits
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all attributes from the original loop.
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Attributes defined in ``llvm.loop.distribute.followup_all`` are added to
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all of the aforementioned output loops.
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It is recommended to add ``llvm.loop.disable_nonforced`` to
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``llvm.loop.distribute.followup_fallback``. This avoids that the
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fallback version (which is likely never executed) is further optimized
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which would increase the code size.
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Versioning LICM
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---------------
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The pass hoists code out of loops that are only loop-invariant when
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dynamic conditions apply. For instance, it transforms the loop
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.. code-block:: c
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for (int i = 0; i < n; i+=1) // original loop
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A[i] = B[0];
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into:
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.. code-block:: c
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if (rtc) {
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auto b = B[0];
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for (int i = 0; i < n; i+=1) // versioned loop
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A[i] = b;
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} else {
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for (int i = 0; i < n; i+=1) // unversioned loop
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A[i] = B[0];
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}
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The runtime condition (``rtc``) checks that the array ``A`` and the
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element `B[0]` do not alias.
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Currently, this transformation does not support followup-attributes.
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Loop Interchange
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----------------
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Currently, the ``LoopInterchange`` pass does not use any metadata.
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Ambiguous Transformation Order
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==============================
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If there multiple transformations defined, the order in which they are
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executed depends on the order in LLVM's pass pipeline, which is subject
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to change. The default optimization pipeline (anything higher than
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``-O0``) has the following order.
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When using the legacy pass manager:
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- LoopInterchange (if enabled)
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- SimpleLoopUnroll/LoopFullUnroll (only performs full unrolling)
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- VersioningLICM (if enabled)
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- LoopDistribute
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- LoopVectorizer
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- LoopUnrollAndJam (if enabled)
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- LoopUnroll (partial and runtime unrolling)
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When using the legacy pass manager with LTO:
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- LoopInterchange (if enabled)
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- SimpleLoopUnroll/LoopFullUnroll (only performs full unrolling)
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- LoopVectorizer
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- LoopUnroll (partial and runtime unrolling)
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When using the new pass manager:
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- SimpleLoopUnroll/LoopFullUnroll (only performs full unrolling)
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- LoopDistribute
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- LoopVectorizer
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- LoopUnrollAndJam (if enabled)
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- LoopUnroll (partial and runtime unrolling)
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Leftover Transformations
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========================
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Forced transformations that have not been applied after the last
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transformation pass should be reported to the user. The transformation
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passes themselves cannot be responsible for this reporting because they
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might not be in the pipeline, there might be multiple passes able to
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apply a transformation (e.g. ``LoopInterchange`` and Polly) or a
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transformation attribute may be 'hidden' inside another passes' followup
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attribute.
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The pass ``-transform-warning`` (``WarnMissedTransformationsPass``)
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emits such warnings. It should be placed after the last transformation
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pass.
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The current pass pipeline has a fixed order in which transformations
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passes are executed. A transformation can be in the followup of a pass
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that is executed later and thus leftover. For instance, a loop nest
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cannot be distributed and then interchanged with the current pass
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pipeline. The loop distribution will execute, but there is no loop
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interchange pass following such that any loop interchange metadata will
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be ignored. The ``-transform-warning`` should emit a warning in this
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case.
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Future versions of LLVM may fix this by executing transformations using
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a dynamic ordering.
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