626 lines
25 KiB
Plaintext
626 lines
25 KiB
Plaintext
@c Copyright (C) 1988, 1989, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
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@c 2000, 2001, 2002, 2003 Free Software Foundation, Inc.
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@c This is part of the GCC manual.
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@c For copying conditions, see the file gcc.texi.
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@node Passes
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@chapter Passes and Files of the Compiler
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@cindex passes and files of the compiler
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@cindex files and passes of the compiler
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@cindex compiler passes and files
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@cindex top level of compiler
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The overall control structure of the compiler is in @file{toplev.c}. This
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file is responsible for initialization, decoding arguments, opening and
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closing files, and sequencing the passes. Routines for emitting
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diagnostic messages are defined in @file{diagnostic.c}. The files
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@file{pretty-print.h} and @file{pretty-print.c} provide basic support
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for language-independent pretty-printing.
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@cindex parsing pass
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The parsing pass is invoked only once, to parse the entire input. A
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high level tree representation is then generated from the input,
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one function at a time. This tree code is then transformed into RTL
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intermediate code, and processed. The files involved in transforming
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the trees into RTL are @file{expr.c}, @file{expmed.c}, and
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@file{stmt.c}.
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@c Note, the above files aren't strictly the only files involved. It's
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@c all over the place (function.c, final.c,etc). However, those are
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@c the files that are supposed to be directly involved, and have
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@c their purpose listed as such, so i've only listed them.
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The order of trees that are processed, is not
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necessarily the same order they are generated from
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the input, due to deferred inlining, and other considerations.
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@findex rest_of_compilation
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@findex rest_of_decl_compilation
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Each time the parsing pass reads a complete function definition or
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top-level declaration, it calls either the function
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@code{rest_of_compilation}, or the function
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@code{rest_of_decl_compilation} in @file{toplev.c}, which are
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responsible for all further processing necessary, ending with output of
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the assembler language. All other compiler passes run, in sequence,
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within @code{rest_of_compilation}. When that function returns from
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compiling a function definition, the storage used for that function
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definition's compilation is entirely freed, unless it is an inline
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function, or was deferred for some reason (this can occur in
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templates, for example).
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(@pxref{Inline,,An Inline Function is As Fast As a Macro,gcc,Using the
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GNU Compiler Collection (GCC)}).
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Here is a list of all the passes of the compiler and their source files.
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Also included is a description of where debugging dumps can be requested
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with @option{-d} options.
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@itemize @bullet
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@item
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Parsing. This pass reads the entire text of a function definition,
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constructing a high level tree representation. (Because of the semantic
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analysis that takes place during this pass, it does more than is
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formally considered to be parsing.)
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The tree representation does not entirely follow C syntax, because it is
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intended to support other languages as well.
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Language-specific data type analysis is also done in this pass, and every
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tree node that represents an expression has a data type attached.
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Variables are represented as declaration nodes.
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The language-independent source files for parsing are
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@file{tree.c}, @file{fold-const.c}, and @file{stor-layout.c}.
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There are also header files @file{tree.h} and @file{tree.def}
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which define the format of the tree representation.
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C preprocessing, for language front ends, that want or require it, is
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performed by cpplib, which is covered in separate documentation. In
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particular, the internals are covered in @xref{Top, ,Cpplib internals,
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cppinternals, Cpplib Internals}.
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The source files to parse C are found in the toplevel directory, and
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by convention are named @file{c-*}. Some of these are also used by
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the other C-like languages: @file{c-common.c},
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@file{c-common.def},
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@file{c-format.c},
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@file{c-opts.c},
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@file{c-pragma.c},
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@file{c-semantics.c},
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@file{c-lex.c},
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@file{c-incpath.c},
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@file{c-ppoutput.c},
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@file{c-cppbuiltin.c},
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@file{c-common.h},
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@file{c-dump.h},
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@file{c.opt},
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@file{c-incpath.h}
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and
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@file{c-pragma.h},
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Files specific to each language are in subdirectories named after the
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language in question, like @file{ada}, @file{objc}, @file{cp} (for C++).
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@cindex Tree optimization
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@item
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Tree optimization. This is the optimization of the tree
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representation, before converting into RTL code.
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@cindex inline on trees, automatic
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Currently, the main optimization performed here is tree-based
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inlining.
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This is implemented in @file{tree-inline.c} and used by both C and C++.
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Note that tree based inlining turns off rtx based inlining (since it's more
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powerful, it would be a waste of time to do rtx based inlining in
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addition).
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@cindex constant folding
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@cindex arithmetic simplifications
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@cindex simplifications, arithmetic
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Constant folding and some arithmetic simplifications are also done
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during this pass, on the tree representation.
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The routines that perform these tasks are located in @file{fold-const.c}.
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@cindex RTL generation
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@item
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RTL generation. This is the conversion of syntax tree into RTL code.
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@cindex target-parameter-dependent code
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This is where the bulk of target-parameter-dependent code is found,
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since often it is necessary for strategies to apply only when certain
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standard kinds of instructions are available. The purpose of named
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instruction patterns is to provide this information to the RTL
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generation pass.
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@cindex tail recursion optimization
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Optimization is done in this pass for @code{if}-conditions that are
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comparisons, boolean operations or conditional expressions. Tail
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recursion is detected at this time also. Decisions are made about how
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best to arrange loops and how to output @code{switch} statements.
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@c Avoiding overfull is tricky here.
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The source files for RTL generation include
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@file{stmt.c},
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@file{calls.c},
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@file{expr.c},
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@file{explow.c},
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@file{expmed.c},
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@file{function.c},
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@file{optabs.c}
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and @file{emit-rtl.c}.
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Also, the file
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@file{insn-emit.c}, generated from the machine description by the
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program @code{genemit}, is used in this pass. The header file
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@file{expr.h} is used for communication within this pass.
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@findex genflags
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@findex gencodes
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The header files @file{insn-flags.h} and @file{insn-codes.h},
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generated from the machine description by the programs @code{genflags}
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and @code{gencodes}, tell this pass which standard names are available
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for use and which patterns correspond to them.
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Aside from debugging information output, none of the following passes
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refers to the tree structure representation of the function (only
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part of which is saved).
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@cindex inline on rtx, automatic
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The decision of whether the function can and should be expanded inline
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in its subsequent callers is made at the end of rtl generation. The
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function must meet certain criteria, currently related to the size of
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the function and the types and number of parameters it has. Note that
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this function may contain loops, recursive calls to itself
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(tail-recursive functions can be inlined!), gotos, in short, all
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constructs supported by GCC@. The file @file{integrate.c} contains
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the code to save a function's rtl for later inlining and to inline that
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rtl when the function is called. The header file @file{integrate.h}
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is also used for this purpose.
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@opindex dr
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The option @option{-dr} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.rtl} to
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the input file name.
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@c Should the exception handling pass be talked about here?
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@cindex sibling call optimization
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@item
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Sibling call optimization. This pass performs tail recursion
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elimination, and tail and sibling call optimizations. The purpose of
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these optimizations is to reduce the overhead of function calls,
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whenever possible.
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The source file of this pass is @file{sibcall.c}
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@opindex di
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The option @option{-di} causes a debugging dump of the RTL code after
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this pass is run. This dump file's name is made by appending
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@samp{.sibling} to the input file name.
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@cindex jump optimization
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@cindex unreachable code
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@cindex dead code
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@item
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Jump optimization. This pass simplifies jumps to the following
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instruction, jumps across jumps, and jumps to jumps. It deletes
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unreferenced labels and unreachable code, except that unreachable code
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that contains a loop is not recognized as unreachable in this pass.
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(Such loops are deleted later in the basic block analysis.) It also
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converts some code originally written with jumps into sequences of
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instructions that directly set values from the results of comparisons,
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if the machine has such instructions.
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Jump optimization is performed two or three times. The first time is
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immediately following RTL generation. The second time is after CSE,
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but only if CSE says repeated jump optimization is needed. The
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last time is right before the final pass. That time, cross-jumping
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and deletion of no-op move instructions are done together with the
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optimizations described above.
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The source file of this pass is @file{jump.c}.
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@opindex dj
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The option @option{-dj} causes a debugging dump of the RTL code after
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this pass is run for the first time. This dump file's name is made by
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appending @samp{.jump} to the input file name.
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@cindex register use analysis
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@item
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Register scan. This pass finds the first and last use of each
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register, as a guide for common subexpression elimination. Its source
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is in @file{regclass.c}.
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@cindex jump threading
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@item
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@opindex fthread-jumps
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Jump threading. This pass detects a condition jump that branches to an
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identical or inverse test. Such jumps can be @samp{threaded} through
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the second conditional test. The source code for this pass is in
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@file{jump.c}. This optimization is only performed if
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@option{-fthread-jumps} is enabled.
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@cindex common subexpression elimination
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@cindex constant propagation
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@item
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Common subexpression elimination. This pass also does constant
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propagation. Its source files are @file{cse.c}, and @file{cselib.c}.
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If constant propagation causes conditional jumps to become
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unconditional or to become no-ops, jump optimization is run again when
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CSE is finished.
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@opindex ds
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The option @option{-ds} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.cse} to
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the input file name.
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@cindex global common subexpression elimination
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@cindex constant propagation
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@cindex copy propagation
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@item
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Global common subexpression elimination. This pass performs two
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different types of GCSE depending on whether you are optimizing for
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size or not (LCM based GCSE tends to increase code size for a gain in
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speed, while Morel-Renvoise based GCSE does not).
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When optimizing for size, GCSE is done using Morel-Renvoise Partial
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Redundancy Elimination, with the exception that it does not try to move
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invariants out of loops---that is left to the loop optimization pass.
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If MR PRE GCSE is done, code hoisting (aka unification) is also done, as
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well as load motion.
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If you are optimizing for speed, LCM (lazy code motion) based GCSE is
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done. LCM is based on the work of Knoop, Ruthing, and Steffen. LCM
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based GCSE also does loop invariant code motion. We also perform load
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and store motion when optimizing for speed.
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Regardless of which type of GCSE is used, the GCSE pass also performs
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global constant and copy propagation.
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The source file for this pass is @file{gcse.c}, and the LCM routines
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are in @file{lcm.c}.
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@opindex dG
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The option @option{-dG} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.gcse} to
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the input file name.
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@cindex loop optimization
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@cindex code motion
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@cindex strength-reduction
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@item
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Loop optimization. This pass moves constant expressions out of loops,
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and optionally does strength-reduction and loop unrolling as well.
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Its source files are @file{loop.c} and @file{unroll.c}, plus the header
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@file{loop.h} used for communication between them. Loop unrolling uses
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some functions in @file{integrate.c} and the header @file{integrate.h}.
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Loop dependency analysis routines are contained in @file{dependence.c}.
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Second loop optimization pass takes care of basic block level optimizations --
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unrolling, peeling and unswitching loops. The source files are
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@file{cfgloopanal.c} and @file{cfgloopmanip.c} containing generic loop
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analysis and manipulation code, @file{loop-init.c} with initialization and
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finalization code, @file{loop-unswitch.c} for loop unswitching and
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@file{loop-unroll.c} for loop unrolling and peeling.
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@opindex dL
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The option @option{-dL} causes a debugging dump of the RTL code after
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these passes. The dump file names are made by appending @samp{.loop} and
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@samp{.loop2} to the input file name.
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@cindex jump bypassing
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@item
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Jump bypassing. This pass is an aggressive form of GCSE that transforms
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the control flow graph of a function by propagating constants into
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conditional branch instructions.
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The source file for this pass is @file{gcse.c}.
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@opindex dG
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The option @option{-dG} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.bypass}
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to the input file name.
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@cindex web construction
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@item
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Simple optimization pass that splits independent uses of each pseudo
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increasing effect of other optimizations. This can improve effect of the
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other transformation, such as CSE or register allocation.
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Its source files are @file{web.c}.
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@opindex dZ
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The option @option{-dZ} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.web} to
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the input file name.
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@item
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@opindex frerun-cse-after-loop
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If @option{-frerun-cse-after-loop} was enabled, a second common
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subexpression elimination pass is performed after the loop optimization
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pass. Jump threading is also done again at this time if it was specified.
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@opindex dt
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The option @option{-dt} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.cse2} to
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the input file name.
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@cindex data flow analysis
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@cindex analysis, data flow
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@cindex basic blocks
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@item
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Data flow analysis (@file{flow.c}). This pass divides the program
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into basic blocks (and in the process deletes unreachable loops); then
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it computes which pseudo-registers are live at each point in the
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program, and makes the first instruction that uses a value point at
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the instruction that computed the value.
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@cindex autoincrement/decrement analysis
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This pass also deletes computations whose results are never used, and
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combines memory references with add or subtract instructions to make
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autoincrement or autodecrement addressing.
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@opindex df
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The option @option{-df} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.flow} to
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the input file name. If stupid register allocation is in use, this
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dump file reflects the full results of such allocation.
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@cindex instruction combination
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@item
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Instruction combination (@file{combine.c}). This pass attempts to
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combine groups of two or three instructions that are related by data
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flow into single instructions. It combines the RTL expressions for
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the instructions by substitution, simplifies the result using algebra,
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and then attempts to match the result against the machine description.
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@opindex dc
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The option @option{-dc} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.combine}
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to the input file name.
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@cindex if conversion
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@item
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If-conversion is a transformation that transforms control dependencies
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into data dependencies (IE it transforms conditional code into a
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single control stream).
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It is implemented in the file @file{ifcvt.c}.
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@opindex dE
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The option @option{-dE} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.ce} to
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the input file name.
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@cindex register movement
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@item
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Register movement (@file{regmove.c}). This pass looks for cases where
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matching constraints would force an instruction to need a reload, and
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this reload would be a register-to-register move. It then attempts
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to change the registers used by the instruction to avoid the move
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instruction.
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@opindex dN
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The option @option{-dN} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.regmove}
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to the input file name.
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@cindex instruction scheduling
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@cindex scheduling, instruction
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@item
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Instruction scheduling (@file{sched.c}). This pass looks for
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instructions whose output will not be available by the time that it is
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used in subsequent instructions. (Memory loads and floating point
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instructions often have this behavior on RISC machines). It re-orders
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instructions within a basic block to try to separate the definition and
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use of items that otherwise would cause pipeline stalls.
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Instruction scheduling is performed twice. The first time is immediately
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after instruction combination and the second is immediately after reload.
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@opindex dS
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The option @option{-dS} causes a debugging dump of the RTL code after this
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pass is run for the first time. The dump file's name is made by
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appending @samp{.sched} to the input file name.
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@cindex register allocation
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@item
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Register allocation. These passes make sure that all occurrences of pseudo
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registers are eliminated, either by allocating them to a hard register,
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replacing them by an equivalent expression (e.g.@: a constant) or by placing
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them on the stack. This is done in several subpasses:
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@itemize @bullet
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@cindex register class preference pass
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@item
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Register class preferencing. The RTL code is scanned to find out
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which register class is best for each pseudo register. The source
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file is @file{regclass.c}.
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@cindex local register allocation
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@item
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Local register allocation (@file{local-alloc.c}). This pass allocates
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hard registers to pseudo registers that are used only within one basic
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block. Because the basic block is linear, it can use fast and
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powerful techniques to do a very good job.
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@opindex dl
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The option @option{-dl} causes a debugging dump of the RTL code after
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this pass. This dump file's name is made by appending @samp{.lreg} to
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the input file name.
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@cindex global register allocation
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@item
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Global register allocation (@file{global.c}). This pass
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allocates hard registers for the remaining pseudo registers (those
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whose life spans are not contained in one basic block).
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@cindex graph coloring register allocation
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@opindex fnew-ra
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@opindex dl
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@item
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Graph coloring register allocator. The files @file{ra.c}, @file{ra-build.c},
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@file{ra-colorize.c}, @file{ra-debug.c}, @file{ra-rewrite.c} together with
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the header @file{ra.h} contain another register allocator, which is used
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when the option @option{-fnew-ra} is given. In that case it is run instead
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of the above mentioned local and global register allocation passes, and the
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option @option{-dl} causes a debugging dump of its work.
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@cindex reloading
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@item
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Reloading. This pass renumbers pseudo registers with the hardware
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registers numbers they were allocated. Pseudo registers that did not
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get hard registers are replaced with stack slots. Then it finds
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instructions that are invalid because a value has failed to end up in
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a register, or has ended up in a register of the wrong kind. It fixes
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up these instructions by reloading the problematical values
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temporarily into registers. Additional instructions are generated to
|
|
do the copying.
|
|
|
|
The reload pass also optionally eliminates the frame pointer and inserts
|
|
instructions to save and restore call-clobbered registers around calls.
|
|
|
|
Source files are @file{reload.c} and @file{reload1.c}, plus the header
|
|
@file{reload.h} used for communication between them.
|
|
|
|
@opindex dg
|
|
The option @option{-dg} causes a debugging dump of the RTL code after
|
|
this pass. This dump file's name is made by appending @samp{.greg} to
|
|
the input file name.
|
|
@end itemize
|
|
|
|
@cindex instruction scheduling
|
|
@cindex scheduling, instruction
|
|
@item
|
|
Instruction scheduling is repeated here to try to avoid pipeline stalls
|
|
due to memory loads generated for spilled pseudo registers.
|
|
|
|
@opindex dR
|
|
The option @option{-dR} causes a debugging dump of the RTL code after
|
|
this pass. This dump file's name is made by appending @samp{.sched2}
|
|
to the input file name.
|
|
|
|
@cindex basic block reordering
|
|
@cindex reordering, block
|
|
@item
|
|
Basic block reordering. This pass implements profile guided code
|
|
positioning. If profile information is not available, various types of
|
|
static analysis are performed to make the predictions normally coming
|
|
from the profile feedback (IE execution frequency, branch probability,
|
|
etc). It is implemented in the file @file{bb-reorder.c}, and the
|
|
various prediction routines are in @file{predict.c}.
|
|
|
|
@opindex dB
|
|
The option @option{-dB} causes a debugging dump of the RTL code after
|
|
this pass. This dump file's name is made by appending @samp{.bbro} to
|
|
the input file name.
|
|
|
|
@cindex delayed branch scheduling
|
|
@cindex scheduling, delayed branch
|
|
@item
|
|
Delayed branch scheduling. This optional pass attempts to find
|
|
instructions that can go into the delay slots of other instructions,
|
|
usually jumps and calls. The source file name is @file{reorg.c}.
|
|
|
|
@opindex dd
|
|
The option @option{-dd} causes a debugging dump of the RTL code after
|
|
this pass. This dump file's name is made by appending @samp{.dbr}
|
|
to the input file name.
|
|
|
|
@cindex branch shortening
|
|
@item
|
|
Branch shortening. On many RISC machines, branch instructions have a
|
|
limited range. Thus, longer sequences of instructions must be used for
|
|
long branches. In this pass, the compiler figures out what how far each
|
|
instruction will be from each other instruction, and therefore whether
|
|
the usual instructions, or the longer sequences, must be used for each
|
|
branch.
|
|
|
|
@cindex register-to-stack conversion
|
|
@item
|
|
Conversion from usage of some hard registers to usage of a register
|
|
stack may be done at this point. Currently, this is supported only
|
|
for the floating-point registers of the Intel 80387 coprocessor. The
|
|
source file name is @file{reg-stack.c}.
|
|
|
|
@opindex dk
|
|
The options @option{-dk} causes a debugging dump of the RTL code after
|
|
this pass. This dump file's name is made by appending @samp{.stack}
|
|
to the input file name.
|
|
|
|
@cindex final pass
|
|
@cindex peephole optimization
|
|
@item
|
|
Final. This pass outputs the assembler code for the function. It is
|
|
also responsible for identifying spurious test and compare
|
|
instructions. Machine-specific peephole optimizations are performed
|
|
at the same time. The function entry and exit sequences are generated
|
|
directly as assembler code in this pass; they never exist as RTL@.
|
|
|
|
The source files are @file{final.c} plus @file{insn-output.c}; the
|
|
latter is generated automatically from the machine description by the
|
|
tool @file{genoutput}. The header file @file{conditions.h} is used
|
|
for communication between these files.
|
|
|
|
@cindex debugging information generation
|
|
@item
|
|
Debugging information output. This is run after final because it must
|
|
output the stack slot offsets for pseudo registers that did not get
|
|
hard registers. Source files are @file{dbxout.c} for DBX symbol table
|
|
format, @file{sdbout.c} for SDB symbol table format, @file{dwarfout.c}
|
|
for DWARF symbol table format, files @file{dwarf2out.c} and
|
|
@file{dwarf2asm.c} for DWARF2 symbol table format, and @file{vmsdbgout.c}
|
|
for VMS debug symbol table format.
|
|
@end itemize
|
|
|
|
Some additional files are used by all or many passes:
|
|
|
|
@itemize @bullet
|
|
@item
|
|
Every pass uses @file{machmode.def} and @file{machmode.h} which define
|
|
the machine modes.
|
|
|
|
@item
|
|
Several passes use @file{real.h}, which defines the default
|
|
representation of floating point constants and how to operate on them.
|
|
|
|
@item
|
|
All the passes that work with RTL use the header files @file{rtl.h}
|
|
and @file{rtl.def}, and subroutines in file @file{rtl.c}. The tools
|
|
@code{gen*} also use these files to read and work with the machine
|
|
description RTL@.
|
|
|
|
@item
|
|
All the tools that read the machine description use support routines
|
|
found in @file{gensupport.c}, @file{errors.c}, and @file{read-rtl.c}.
|
|
|
|
@findex genconfig
|
|
@item
|
|
Several passes refer to the header file @file{insn-config.h} which
|
|
contains a few parameters (C macro definitions) generated
|
|
automatically from the machine description RTL by the tool
|
|
@code{genconfig}.
|
|
|
|
@cindex instruction recognizer
|
|
@item
|
|
Several passes use the instruction recognizer, which consists of
|
|
@file{recog.c} and @file{recog.h}, plus the files @file{insn-recog.c}
|
|
and @file{insn-extract.c} that are generated automatically from the
|
|
machine description by the tools @file{genrecog} and
|
|
@file{genextract}.
|
|
|
|
@item
|
|
Several passes use the header files @file{regs.h} which defines the
|
|
information recorded about pseudo register usage, and @file{basic-block.h}
|
|
which defines the information recorded about basic blocks.
|
|
|
|
@item
|
|
@file{hard-reg-set.h} defines the type @code{HARD_REG_SET}, a bit-vector
|
|
with a bit for each hard register, and some macros to manipulate it.
|
|
This type is just @code{int} if the machine has few enough hard registers;
|
|
otherwise it is an array of @code{int} and some of the macros expand
|
|
into loops.
|
|
|
|
@item
|
|
Several passes use instruction attributes. A definition of the
|
|
attributes defined for a particular machine is in file
|
|
@file{insn-attr.h}, which is generated from the machine description by
|
|
the program @file{genattr}. The file @file{insn-attrtab.c} contains
|
|
subroutines to obtain the attribute values for insns and information
|
|
about processor pipeline characteristics for the instruction
|
|
scheduler. It is generated from the machine description by the
|
|
program @file{genattrtab}.
|
|
@end itemize
|