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156 lines
5.7 KiB
ReStructuredText
.. _loop-terminology:
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===========================================
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LLVM Loop Terminology (and Canonical Forms)
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===========================================
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.. contents::
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:local:
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Introduction
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============
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Loops are a core concept in any optimizer. This page spells out some
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of the common terminology used within LLVM code to describe loop
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structures.
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First, let's start with the basics. In LLVM, a Loop is a maximal set of basic
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blocks that form a strongly connected component (SCC) in the Control
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Flow Graph (CFG) where there exists a dedicated entry/header block that
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dominates all other blocks within the loop. Thus, without leaving the
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loop, one can reach every block in the loop from the header block and
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the header block from every block in the loop.
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Note that there are some important implications of this definition:
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* Not all SCCs are loops. There exist SCCs that do not meet the
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dominance requirement and such are not considered loops.
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* Loops can contain non-loop SCCs and non-loop SCCs may contain
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loops. Loops may also contain sub-loops.
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* A header block is uniquely associated with one loop. There can be
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multiple SCC within that loop, but the strongly connected component
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(SCC) formed from their union must always be unique.
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* Given the use of dominance in the definition, all loops are
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statically reachable from the entry of the function.
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* Every loop must have a header block, and some set of predecessors
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outside the loop. A loop is allowed to be statically infinite, so
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there need not be any exiting edges.
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* Any two loops are either fully disjoint (no intersecting blocks), or
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one must be a sub-loop of the other.
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A loop may have an arbitrary number of exits, both explicit (via
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control flow) and implicit (via throwing calls which transfer control
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out of the containing function). There is no special requirement on
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the form or structure of exit blocks (the block outside the loop which
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is branched to). They may have multiple predecessors, phis, etc...
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Key Terminology
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===============
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Header Block - The basic block which dominates all other blocks
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contained within the loop. As such, it is the first one executed if
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the loop executes at all. Note that a block can be the header of
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two separate loops at the same time, but only if one is a sub-loop
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of the other.
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Exiting Block - A basic block contained within a given loop which has
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at least one successor outside of the loop and one successor inside the
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loop. (The latter is a consequence of the block being contained within
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an SCC which is part of the loop.) That is, it has a successor which
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is an Exit Block.
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Exit Block - A basic block outside of the associated loop which has a
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predecessor inside the loop. That is, it has a predecessor which is
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an Exiting Block.
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Latch Block - A basic block within the loop whose successors include
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the header block of the loop. Thus, a latch is a source of backedge.
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A loop may have multiple latch blocks. A latch block may be either
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conditional or unconditional.
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Backedge(s) - The edge(s) in the CFG from latch blocks to the header
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block. Note that there can be multiple such edges, and even multiple
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such edges leaving a single latch block.
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Loop Predecessor - The predecessor blocks of the loop header which
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are not contained by the loop itself. These are the only blocks
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through which execution can enter the loop. When used in the
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singular form implies that there is only one such unique block.
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Preheader Block - A preheader is a (singular) loop predecessor which
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ends in an unconditional transfer of control to the loop header. Note
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that not all loops have such blocks.
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Backedge Taken Count - The number of times the backedge will execute
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before some interesting event happens. Commonly used without
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qualification of the event as a shorthand for when some exiting block
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branches to some exit block. May be zero, or not statically computable.
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Iteration Count - The number of times the header will execute before
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some interesting event happens. Commonly used without qualification to
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refer to the iteration count at which the loop exits. Will always be
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one greater than the backedge taken count. *Warning*: Preceding
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statement is true in the *integer domain*; if you're dealing with fixed
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width integers (such as LLVM Values or SCEVs), you need to be cautious
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of overflow when converting one to the other.
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It's important to note that the same basic block can play multiple
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roles in the same loop, or in different loops at once. For example, a
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single block can be the header for two nested loops at once, while
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also being an exiting block for the inner one only, and an exit block
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for a sibling loop. Example:
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.. code-block:: C
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while (..) {
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for (..) {}
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do {
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do {
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// <-- block of interest
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if (exit) break;
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} while (..);
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} while (..)
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}
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LoopInfo
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========
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LoopInfo is the core analysis for obtaining information about loops.
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There are few key implications of the definitions given above which
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are important for working successfully with this interface.
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* LoopInfo does not contain information about non-loop cycles. As a
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result, it is not suitable for any algorithm which requires complete
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cycle detection for correctness.
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* LoopInfo provides an interface for enumerating all top level loops
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(e.g. those not contained in any other loop). From there, you may
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walk the tree of sub-loops rooted in that top level loop.
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* Loops which become statically unreachable during optimization *must*
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be removed from LoopInfo. If this can not be done for some reason,
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then the optimization is *required* to preserve the static
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reachability of the loop.
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Loop Simplify Form
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==================
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TBD
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Loop Closed SSA (LCSSA)
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=======================
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TBD
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"More Canonical" Loops
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======================
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TBD
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