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Fix a few typos, spellos, grammaros.
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@14043 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -68,12 +68,12 @@ The LLVM target-independent code generator consists of five main components:</p>
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<ol>
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<li><a href="#targetdesc">Abstract target description</a> interfaces which
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capture improtant properties about various aspects of the machine independently
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capture important properties about various aspects of the machine, independently
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of how they will be used. These interfaces are defined in
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<tt>include/llvm/Target/</tt>.</li>
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<li>Classes used to represent the <a href="#codegendesc">machine code</a> being
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generator for a target. These classes are intended to be abstract enough to
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generated for a target. These classes are intended to be abstract enough to
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represent the machine code for <i>any</i> target machine. These classes are
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defined in <tt>include/llvm/CodeGen/</tt>.</li>
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@ -99,8 +99,8 @@ Depending on which part of the code generator you are interested in working on,
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different pieces of this will be useful to you. In any case, you should be
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familiar with the <a href="#targetdesc">target description</a> and <a
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href="#codegendesc">machine code representation</a> classes. If you want to add
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a backend for a new target, you will need <a href="#targetimpls">implement the
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targe description</a> classes for your new target and understand the <a
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a backend for a new target, you will need to <a href="#targetimpls">implement the
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target description</a> classes for your new target and understand the <a
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href="LangRef.html">LLVM code representation</a>. If you are interested in
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implementing a new <a href="#codegenalgs">code generation algorithm</a>, it
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should only depend on the target-description and machine code representation
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@ -133,7 +133,7 @@ implements these two interfaces, and does its own thing. Another example of a
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code generator like this is a (purely hypothetical) backend that converts LLVM
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to the GCC RTL form and uses GCC to emit machine code for a target.</p>
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<p>The other implication of this design is that it is possible to design and
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<p>This design also implies that it is possible to design and
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implement radically different code generators in the LLVM system that do not
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make use of any of the built-in components. Doing so is not recommended at all,
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but could be required for radically different targets that do not fit into the
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@ -164,9 +164,9 @@ quality code generation for standard register-based microprocessors. Code
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generation in this model is divided into the following stages:</p>
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<ol>
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<li><b>Instruction Selection</b> - Determining a efficient implementation of the
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<li><b>Instruction Selection</b> - Determining an efficient implementation of the
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input LLVM code in the target instruction set. This stage produces the initial
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code for the program in the target instruction set the makes use of virtual
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code for the program in the target instruction set, then makes use of virtual
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registers in SSA form and physical registers that represent any required
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register assignments due to target constraints or calling conventions.</li>
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@ -191,7 +191,7 @@ elimination and stack packing.</li>
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"final" machine code can go here, such as spill code scheduling and peephole
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optimizations.</li>
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<li><b>Code Emission</b> - The final stage actually outputs the machine code for
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<li><b>Code Emission</b> - The final stage actually outputs the code for
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the current function, either in the target assembler format or in machine
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code.</li>
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@ -200,11 +200,13 @@ code.</li>
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<p>
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The code generator is based on the assumption that the instruction selector will
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use an optimal pattern matching selector to create high-quality sequences of
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native code. Alternative code generator designs based on pattern expansion and
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aggressive iterative peephole optimization are much slower. This design is
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designed to permit efficient compilation (important for JIT environments) and
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aggressive optimization (used when generate code offline) by allowing components
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of varying levels of sophisication to be used for any step of compilation.</p>
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native instructions. Alternative code generator designs based on pattern
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expansion and
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aggressive iterative peephole optimization are much slower. This design
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permits efficient compilation (important for JIT environments) and
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aggressive optimization (used when generating code offline) by allowing
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components of varying levels of sophisication to be used for any step of
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compilation.</p>
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<p>
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In addition to these stages, target implementations can insert arbitrary
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@ -253,7 +255,7 @@ as inputs or other algorithm-specific data structures).</p>
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<p>All of the target description classes (except the <tt><a
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href="#targetdata">TargetData</a></tt> class) are designed to be subclassed by
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the concrete target implementation, and have virtual methods implemented. To
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get to these implementations, <tt><a
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get to these implementations, the <tt><a
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href="#targetmachine">TargetMachine</a></tt> class provides accessors that
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should be implemented by the target.</p>
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@ -269,7 +271,7 @@ should be implemented by the target.</p>
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<p>The <tt>TargetMachine</tt> class provides virtual methods that are used to
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access the target-specific implementations of the various target description
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classes (with the <tt>getInstrInfo</tt>, <tt>getRegisterInfo</tt>,
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<tt>getFrameInfo</tt>, ... methods). This class is designed to be subclassed by
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<tt>getFrameInfo</tt>, ... methods). This class is designed to be specialized by
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a concrete target implementation (e.g., <tt>X86TargetMachine</tt>) which
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implements the various virtual methods. The only required target description
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class is the <a href="#targetdata"><tt>TargetData</tt></a> class, but if the
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