1f51a89d39
These were ignored by git accidentally. We want ALL OF THEM since they all came in the llvm/clang source distribution.
533 lines
25 KiB
HTML
533 lines
25 KiB
HTML
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN"
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"http://www.w3.org/TR/html4/strict.dtd">
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<html>
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<head>
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<title>Precompiled Headers (PCH)</title>
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<link type="text/css" rel="stylesheet" href="../menu.css">
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<link type="text/css" rel="stylesheet" href="../content.css">
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<style type="text/css">
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td {
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vertical-align: top;
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}
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</style>
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</head>
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<body>
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<!--#include virtual="../menu.html.incl"-->
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<div id="content">
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<h1>Precompiled Headers</h1>
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<p>This document describes the design and implementation of Clang's
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precompiled headers (PCH). If you are interested in the end-user
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view, please see the <a
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href="UsersManual.html#precompiledheaders">User's Manual</a>.</p>
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<p><b>Table of Contents</b></p>
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<ul>
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<li><a href="#usage">Using Precompiled Headers with
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<tt>clang</tt></a></li>
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<li><a href="#philosophy">Design Philosophy</a></li>
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<li><a href="#contents">Precompiled Header Contents</a>
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<ul>
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<li><a href="#metadata">Metadata Block</a></li>
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<li><a href="#sourcemgr">Source Manager Block</a></li>
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<li><a href="#preprocessor">Preprocessor Block</a></li>
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<li><a href="#types">Types Block</a></li>
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<li><a href="#decls">Declarations Block</a></li>
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<li><a href="#stmt">Statements and Expressions</a></li>
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<li><a href="#idtable">Identifier Table Block</a></li>
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<li><a href="#method-pool">Method Pool Block</a></li>
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</ul>
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</li>
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<li><a href="#tendrils">Precompiled Header Integration
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Points</a></li>
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</ul>
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<h2 id="usage">Using Precompiled Headers with <tt>clang</tt></h2>
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<p>The Clang compiler frontend, <tt>clang -cc1</tt>, supports two command line
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options for generating and using PCH files.<p>
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<p>To generate PCH files using <tt>clang -cc1</tt>, use the option
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<b><tt>-emit-pch</tt></b>:
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<pre> $ clang -cc1 test.h -emit-pch -o test.h.pch </pre>
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<p>This option is transparently used by <tt>clang</tt> when generating
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PCH files. The resulting PCH file contains the serialized form of the
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compiler's internal representation after it has completed parsing and
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semantic analysis. The PCH file can then be used as a prefix header
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with the <b><tt>-include-pch</tt></b> option:</p>
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<pre>
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$ clang -cc1 -include-pch test.h.pch test.c -o test.s
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</pre>
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<h2 id="philosophy">Design Philosophy</h2>
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<p>Precompiled headers are meant to improve overall compile times for
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projects, so the design of precompiled headers is entirely driven by
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performance concerns. The use case for precompiled headers is
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relatively simple: when there is a common set of headers that is
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included in nearly every source file in the project, we
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<i>precompile</i> that bundle of headers into a single precompiled
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header (PCH file). Then, when compiling the source files in the
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project, we load the PCH file first (as a prefix header), which acts
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as a stand-in for that bundle of headers.</p>
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<p>A precompiled header implementation improves performance when:</p>
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<ul>
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<li>Loading the PCH file is significantly faster than re-parsing the
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bundle of headers stored within the PCH file. Thus, a precompiled
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header design attempts to minimize the cost of reading the PCH
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file. Ideally, this cost should not vary with the size of the
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precompiled header file.</li>
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<li>The cost of generating the PCH file initially is not so large
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that it counters the per-source-file performance improvement due to
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eliminating the need to parse the bundled headers in the first
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place. This is particularly important on multi-core systems, because
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PCH file generation serializes the build when all compilations
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require the PCH file to be up-to-date.</li>
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</ul>
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<p>Clang's precompiled headers are designed with a compact on-disk
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representation, which minimizes both PCH creation time and the time
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required to initially load the PCH file. The PCH file itself contains
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a serialized representation of Clang's abstract syntax trees and
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supporting data structures, stored using the same compressed bitstream
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as <a href="http://llvm.org/docs/BitCodeFormat.html">LLVM's bitcode
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file format</a>.</p>
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<p>Clang's precompiled headers are loaded "lazily" from disk. When a
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PCH file is initially loaded, Clang reads only a small amount of data
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from the PCH file to establish where certain important data structures
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are stored. The amount of data read in this initial load is
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independent of the size of the PCH file, such that a larger PCH file
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does not lead to longer PCH load times. The actual header data in the
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PCH file--macros, functions, variables, types, etc.--is loaded only
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when it is referenced from the user's code, at which point only that
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entity (and those entities it depends on) are deserialized from the
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PCH file. With this approach, the cost of using a precompiled header
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for a translation unit is proportional to the amount of code actually
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used from the header, rather than being proportional to the size of
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the header itself.</p>
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<p>When given the <code>-print-stats</code> option, Clang produces
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statistics describing how much of the precompiled header was actually
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loaded from disk. For a simple "Hello, World!" program that includes
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the Apple <code>Cocoa.h</code> header (which is built as a precompiled
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header), this option illustrates how little of the actual precompiled
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header is required:</p>
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<pre>
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*** PCH Statistics:
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933 stat cache hits
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4 stat cache misses
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895/39981 source location entries read (2.238563%)
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19/15315 types read (0.124061%)
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20/82685 declarations read (0.024188%)
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154/58070 identifiers read (0.265197%)
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0/7260 selectors read (0.000000%)
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0/30842 statements read (0.000000%)
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4/8400 macros read (0.047619%)
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1/4995 lexical declcontexts read (0.020020%)
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0/4413 visible declcontexts read (0.000000%)
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0/7230 method pool entries read (0.000000%)
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0 method pool misses
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</pre>
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<p>For this small program, only a tiny fraction of the source
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locations, types, declarations, identifiers, and macros were actually
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deserialized from the precompiled header. These statistics can be
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useful to determine whether the precompiled header implementation can
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be improved by making more of the implementation lazy.</p>
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<p>Precompiled headers can be chained. When you create a PCH while
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including an existing PCH, Clang can create the new PCH by referencing
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the original file and only writing the new data to the new file. For
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example, you could create a PCH out of all the headers that are very
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commonly used throughout your project, and then create a PCH for every
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single source file in the project that includes the code that is
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specific to that file, so that recompiling the file itself is very fast,
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without duplicating the data from the common headers for every file.</p>
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<h2 id="contents">Precompiled Header Contents</h2>
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<img src="PCHLayout.png" style="float:right" alt="Precompiled header layout">
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<p>Clang's precompiled headers are organized into several different
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blocks, each of which contains the serialized representation of a part
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of Clang's internal representation. Each of the blocks corresponds to
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either a block or a record within <a
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href="http://llvm.org/docs/BitCodeFormat.html">LLVM's bitstream
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format</a>. The contents of each of these logical blocks are described
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below.</p>
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<p>For a given precompiled header, the <a
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href="http://llvm.org/cmds/llvm-bcanalyzer.html"><code>llvm-bcanalyzer</code></a>
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utility can be used to examine the actual structure of the bitstream
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for the precompiled header. This information can be used both to help
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understand the structure of the precompiled header and to isolate
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areas where precompiled headers can still be optimized, e.g., through
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the introduction of abbreviations.</p>
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<h3 id="metadata">Metadata Block</h3>
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<p>The metadata block contains several records that provide
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information about how the precompiled header was built. This metadata
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is primarily used to validate the use of a precompiled header. For
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example, a precompiled header built for a 32-bit x86 target cannot be used
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when compiling for a 64-bit x86 target. The metadata block contains
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information about:</p>
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<dl>
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<dt>Language options</dt>
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<dd>Describes the particular language dialect used to compile the
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PCH file, including major options (e.g., Objective-C support) and more
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minor options (e.g., support for "//" comments). The contents of this
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record correspond to the <code>LangOptions</code> class.</dd>
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<dt>Target architecture</dt>
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<dd>The target triple that describes the architecture, platform, and
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ABI for which the PCH file was generated, e.g.,
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<code>i386-apple-darwin9</code>.</dd>
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<dt>PCH version</dt>
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<dd>The major and minor version numbers of the precompiled header
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format. Changes in the minor version number should not affect backward
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compatibility, while changes in the major version number imply that a
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newer compiler cannot read an older precompiled header (and
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vice-versa).</dd>
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<dt>Original file name</dt>
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<dd>The full path of the header that was used to generate the
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precompiled header.</dd>
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<dt>Predefines buffer</dt>
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<dd>Although not explicitly stored as part of the metadata, the
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predefines buffer is used in the validation of the precompiled header.
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The predefines buffer itself contains code generated by the compiler
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to initialize the preprocessor state according to the current target,
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platform, and command-line options. For example, the predefines buffer
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will contain "<code>#define __STDC__ 1</code>" when we are compiling C
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without Microsoft extensions. The predefines buffer itself is stored
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within the <a href="#sourcemgr">source manager block</a>, but its
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contents are verified along with the rest of the metadata.</dd>
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</dl>
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<p>A chained PCH file (that is, one that references another PCH) has
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a slightly different metadata block, which contains the following
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information:</p>
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<dl>
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<dt>Referenced file</dt>
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<dd>The name of the referenced PCH file. It is looked up like a file
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specified using -include-pch.</dd>
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<dt>PCH version</dt>
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<dd>This is the same as in normal PCH files.</dd>
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<dt>Original file name</dt>
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<dd>The full path of the header that was used to generate this
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precompiled header.</dd>
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</dl>
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<p>The language options, target architecture and predefines buffer data
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is taken from the end of the chain, since they have to match anyway.</p>
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<h3 id="sourcemgr">Source Manager Block</h3>
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<p>The source manager block contains the serialized representation of
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Clang's <a
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href="InternalsManual.html#SourceLocation">SourceManager</a> class,
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which handles the mapping from source locations (as represented in
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Clang's abstract syntax tree) into actual column/line positions within
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a source file or macro instantiation. The precompiled header's
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representation of the source manager also includes information about
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all of the headers that were (transitively) included when building the
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precompiled header.</p>
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<p>The bulk of the source manager block is dedicated to information
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about the various files, buffers, and macro instantiations into which
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a source location can refer. Each of these is referenced by a numeric
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"file ID", which is a unique number (allocated starting at 1) stored
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in the source location. Clang serializes the information for each kind
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of file ID, along with an index that maps file IDs to the position
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within the PCH file where the information about that file ID is
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stored. The data associated with a file ID is loaded only when
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required by the front end, e.g., to emit a diagnostic that includes a
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macro instantiation history inside the header itself.</p>
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<p>The source manager block also contains information about all of the
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headers that were included when building the precompiled header. This
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includes information about the controlling macro for the header (e.g.,
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when the preprocessor identified that the contents of the header
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dependent on a macro like <code>LLVM_CLANG_SOURCEMANAGER_H</code>)
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along with a cached version of the results of the <code>stat()</code>
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system calls performed when building the precompiled header. The
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latter is particularly useful in reducing system time when searching
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for include files.</p>
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<h3 id="preprocessor">Preprocessor Block</h3>
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<p>The preprocessor block contains the serialized representation of
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the preprocessor. Specifically, it contains all of the macros that
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have been defined by the end of the header used to build the
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precompiled header, along with the token sequences that comprise each
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macro. The macro definitions are only read from the PCH file when the
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name of the macro first occurs in the program. This lazy loading of
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macro definitions is triggered by lookups into the <a
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href="#idtable">identifier table</a>.</p>
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<h3 id="types">Types Block</h3>
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<p>The types block contains the serialized representation of all of
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the types referenced in the translation unit. Each Clang type node
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(<code>PointerType</code>, <code>FunctionProtoType</code>, etc.) has a
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corresponding record type in the PCH file. When types are deserialized
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from the precompiled header, the data within the record is used to
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reconstruct the appropriate type node using the AST context.</p>
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<p>Each type has a unique type ID, which is an integer that uniquely
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identifies that type. Type ID 0 represents the NULL type, type IDs
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less than <code>NUM_PREDEF_TYPE_IDS</code> represent predefined types
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(<code>void</code>, <code>float</code>, etc.), while other
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"user-defined" type IDs are assigned consecutively from
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<code>NUM_PREDEF_TYPE_IDS</code> upward as the types are encountered.
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The PCH file has an associated mapping from the user-defined types
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block to the location within the types block where the serialized
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representation of that type resides, enabling lazy deserialization of
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types. When a type is referenced from within the PCH file, that
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reference is encoded using the type ID shifted left by 3 bits. The
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lower three bits are used to represent the <code>const</code>,
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<code>volatile</code>, and <code>restrict</code> qualifiers, as in
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Clang's <a
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href="http://clang.llvm.org/docs/InternalsManual.html#Type">QualType</a>
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class.</p>
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<h3 id="decls">Declarations Block</h3>
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<p>The declarations block contains the serialized representation of
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all of the declarations referenced in the translation unit. Each Clang
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declaration node (<code>VarDecl</code>, <code>FunctionDecl</code>,
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etc.) has a corresponding record type in the PCH file. When
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declarations are deserialized from the precompiled header, the data
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within the record is used to build and populate a new instance of the
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corresponding <code>Decl</code> node. As with types, each declaration
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node has a numeric ID that is used to refer to that declaration within
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the PCH file. In addition, a lookup table provides a mapping from that
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numeric ID to the offset within the precompiled header where that
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declaration is described.</p>
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<p>Declarations in Clang's abstract syntax trees are stored
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hierarchically. At the top of the hierarchy is the translation unit
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(<code>TranslationUnitDecl</code>), which contains all of the
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declarations in the translation unit. These declarations (such as
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functions or struct types) may also contain other declarations inside
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them, and so on. Within Clang, each declaration is stored within a <a
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href="http://clang.llvm.org/docs/InternalsManual.html#DeclContext">declaration
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context</a>, as represented by the <code>DeclContext</code> class.
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Declaration contexts provide the mechanism to perform name lookup
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within a given declaration (e.g., find the member named <code>x</code>
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in a structure) and iterate over the declarations stored within a
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context (e.g., iterate over all of the fields of a structure for
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structure layout).</p>
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<p>In Clang's precompiled header format, deserializing a declaration
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that is a <code>DeclContext</code> is a separate operation from
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deserializing all of the declarations stored within that declaration
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context. Therefore, Clang will deserialize the translation unit
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declaration without deserializing the declarations within that
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translation unit. When required, the declarations stored within a
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declaration context will be deserialized. There are two representations
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of the declarations within a declaration context, which correspond to
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the name-lookup and iteration behavior described above:</p>
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<ul>
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<li>When the front end performs name lookup to find a name
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<code>x</code> within a given declaration context (for example,
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during semantic analysis of the expression <code>p->x</code>,
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where <code>p</code>'s type is defined in the precompiled header),
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Clang deserializes a hash table mapping from the names within that
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declaration context to the declaration IDs that represent each
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visible declaration with that name. The entire hash table is
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deserialized at this point (into the <code>llvm::DenseMap</code>
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stored within each <code>DeclContext</code> object), but the actual
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declarations are not yet deserialized. In a second step, those
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declarations with the name <code>x</code> will be deserialized and
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will be used as the result of name lookup.</li>
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<li>When the front end performs iteration over all of the
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declarations within a declaration context, all of those declarations
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are immediately de-serialized. For large declaration contexts (e.g.,
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the translation unit), this operation is expensive; however, large
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declaration contexts are not traversed in normal compilation, since
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such a traversal is unnecessary. However, it is common for the code
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generator and semantic analysis to traverse declaration contexts for
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structs, classes, unions, and enumerations, although those contexts
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contain relatively few declarations in the common case.</li>
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</ul>
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<h3 id="stmt">Statements and Expressions</h3>
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<p>Statements and expressions are stored in the precompiled header in
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both the <a href="#types">types</a> and the <a
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href="#decls">declarations</a> blocks, because every statement or
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expression will be associated with either a type or declaration. The
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actual statement and expression records are stored immediately
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following the declaration or type that owns the statement or
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expression. For example, the statement representing the body of a
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function will be stored directly following the declaration of the
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function.</p>
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<p>As with types and declarations, each statement and expression kind
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in Clang's abstract syntax tree (<code>ForStmt</code>,
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<code>CallExpr</code>, etc.) has a corresponding record type in the
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precompiled header, which contains the serialized representation of
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that statement or expression. Each substatement or subexpression
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within an expression is stored as a separate record (which keeps most
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records to a fixed size). Within the precompiled header, the
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subexpressions of an expression are stored, in reverse order, prior to the expression
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that owns those expression, using a form of <a
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href="http://en.wikipedia.org/wiki/Reverse_Polish_notation">Reverse
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Polish Notation</a>. For example, an expression <code>3 - 4 + 5</code>
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would be represented as follows:</p>
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<table border="1">
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<tr><td><code>IntegerLiteral(5)</code></td></tr>
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<tr><td><code>IntegerLiteral(4)</code></td></tr>
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<tr><td><code>IntegerLiteral(3)</code></td></tr>
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<tr><td><code>BinaryOperator(-)</code></td></tr>
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<tr><td><code>BinaryOperator(+)</code></td></tr>
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<tr><td>STOP</td></tr>
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</table>
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<p>When reading this representation, Clang evaluates each expression
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record it encounters, builds the appropriate abstract syntax tree node,
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and then pushes that expression on to a stack. When a record contains <i>N</i>
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subexpressions--<code>BinaryOperator</code> has two of them--those
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expressions are popped from the top of the stack. The special STOP
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code indicates that we have reached the end of a serialized expression
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or statement; other expression or statement records may follow, but
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they are part of a different expression.</p>
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<h3 id="idtable">Identifier Table Block</h3>
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<p>The identifier table block contains an on-disk hash table that maps
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each identifier mentioned within the precompiled header to the
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serialized representation of the identifier's information (e.g, the
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<code>IdentifierInfo</code> structure). The serialized representation
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contains:</p>
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<ul>
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<li>The actual identifier string.</li>
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<li>Flags that describe whether this identifier is the name of a
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built-in, a poisoned identifier, an extension token, or a
|
|
macro.</li>
|
|
<li>If the identifier names a macro, the offset of the macro
|
|
definition within the <a href="#preprocessor">preprocessor
|
|
block</a>.</li>
|
|
<li>If the identifier names one or more declarations visible from
|
|
translation unit scope, the <a href="#decls">declaration IDs</a> of these
|
|
declarations.</li>
|
|
</ul>
|
|
|
|
<p>When a precompiled header is loaded, the precompiled header
|
|
mechanism introduces itself into the identifier table as an external
|
|
lookup source. Thus, when the user program refers to an identifier
|
|
that has not yet been seen, Clang will perform a lookup into the
|
|
identifier table. If an identifier is found, its contents (macro
|
|
definitions, flags, top-level declarations, etc.) will be deserialized, at which point the corresponding <code>IdentifierInfo</code> structure will have the same contents it would have after parsing the headers in the precompiled header.</p>
|
|
|
|
<p>Within the PCH file, the identifiers used to name declarations are represented with an integral value. A separate table provides a mapping from this integral value (the identifier ID) to the location within the on-disk
|
|
hash table where that identifier is stored. This mapping is used when
|
|
deserializing the name of a declaration, the identifier of a token, or
|
|
any other construct in the PCH file that refers to a name.</p>
|
|
|
|
<h3 id="method-pool">Method Pool Block</h3>
|
|
|
|
<p>The method pool block is represented as an on-disk hash table that
|
|
serves two purposes: it provides a mapping from the names of
|
|
Objective-C selectors to the set of Objective-C instance and class
|
|
methods that have that particular selector (which is required for
|
|
semantic analysis in Objective-C) and also stores all of the selectors
|
|
used by entities within the precompiled header. The design of the
|
|
method pool is similar to that of the <a href="#idtable">identifier
|
|
table</a>: the first time a particular selector is formed during the
|
|
compilation of the program, Clang will search in the on-disk hash
|
|
table of selectors; if found, Clang will read the Objective-C methods
|
|
associated with that selector into the appropriate front-end data
|
|
structure (<code>Sema::InstanceMethodPool</code> and
|
|
<code>Sema::FactoryMethodPool</code> for instance and class methods,
|
|
respectively).</p>
|
|
|
|
<p>As with identifiers, selectors are represented by numeric values
|
|
within the PCH file. A separate index maps these numeric selector
|
|
values to the offset of the selector within the on-disk hash table,
|
|
and will be used when de-serializing an Objective-C method declaration
|
|
(or other Objective-C construct) that refers to the selector.</p>
|
|
|
|
<h2 id="tendrils">Precompiled Header Integration Points</h2>
|
|
|
|
<p>The "lazy" deserialization behavior of precompiled headers requires
|
|
their integration into several completely different submodules of
|
|
Clang. For example, lazily deserializing the declarations during name
|
|
lookup requires that the name-lookup routines be able to query the
|
|
precompiled header to find entities within the PCH file.</p>
|
|
|
|
<p>For each Clang data structure that requires direct interaction with
|
|
the precompiled header logic, there is an abstract class that provides
|
|
the interface between the two modules. The <code>PCHReader</code>
|
|
class, which handles the loading of a precompiled header, inherits
|
|
from all of these abstract classes to provide lazy deserialization of
|
|
Clang's data structures. <code>PCHReader</code> implements the
|
|
following abstract classes:</p>
|
|
|
|
<dl>
|
|
<dt><code>StatSysCallCache</code></dt>
|
|
<dd>This abstract interface is associated with the
|
|
<code>FileManager</code> class, and is used whenever the file
|
|
manager is going to perform a <code>stat()</code> system call.</dd>
|
|
|
|
<dt><code>ExternalSLocEntrySource</code></dt>
|
|
<dd>This abstract interface is associated with the
|
|
<code>SourceManager</code> class, and is used whenever the
|
|
<a href="#sourcemgr">source manager</a> needs to load the details
|
|
of a file, buffer, or macro instantiation.</dd>
|
|
|
|
<dt><code>IdentifierInfoLookup</code></dt>
|
|
<dd>This abstract interface is associated with the
|
|
<code>IdentifierTable</code> class, and is used whenever the
|
|
program source refers to an identifier that has not yet been seen.
|
|
In this case, the precompiled header implementation searches for
|
|
this identifier within its <a href="#idtable">identifier table</a>
|
|
to load any top-level declarations or macros associated with that
|
|
identifier.</dd>
|
|
|
|
<dt><code>ExternalASTSource</code></dt>
|
|
<dd>This abstract interface is associated with the
|
|
<code>ASTContext</code> class, and is used whenever the abstract
|
|
syntax tree nodes need to loaded from the precompiled header. It
|
|
provides the ability to de-serialize declarations and types
|
|
identified by their numeric values, read the bodies of functions
|
|
when required, and read the declarations stored within a
|
|
declaration context (either for iteration or for name lookup).</dd>
|
|
|
|
<dt><code>ExternalSemaSource</code></dt>
|
|
<dd>This abstract interface is associated with the <code>Sema</code>
|
|
class, and is used whenever semantic analysis needs to read
|
|
information from the <a href="#methodpool">global method
|
|
pool</a>.</dd>
|
|
</dl>
|
|
|
|
</div>
|
|
|
|
</body>
|
|
</html>
|