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view doc/compiler.rst @ 368:d2ddfe134c48
Remove yield from for python < 3.3
author | Windel Bouwman |
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date | Fri, 21 Mar 2014 11:21:50 +0100 |
parents | 39bf68bf1891 |
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.. toctree:: ir Compiler ======== This chapter describes the design of the compiler. The compiler consists a frontend, mid-end and back-end. The frontend deals with source file parsing and semantics checking. The mid-end performs optimizations. This is optional. The back-end generates machine code. The front-end produces intermediate code. This is a simple representation of the source. The back-end can accept this kind of representation. .. graphviz:: digraph x { rankdir="LR" 1 [label="c3 source file"] 10 [label="c3 front end" ] 11 [label="language X front end" ] 20 [label="mid end" ] 30 [label="back end for X86" ] 31 [label="back end for ARM" ] 40 [label="object file"] 1 -> 10 10 -> 20 [label="IR-code"] 11 -> 20 [label="IR-code"] 20 -> 30 [label="IR-code"] 20 -> 31 [label="IR-code"] 30 -> 40 } IR-code ------- The intermediate representation (IR) of a program de-couples the front end from the backend of the compiler. See :doc:`ir` for details about all the available instructions. C3 Front-end ------------ For the front-end a recursive descent parser is created for the c3 language. This is a subset of the C language with some additional features. .. graphviz:: digraph c3 { rankdir="LR" 1 [label="source text"] 10 [label="lexer" ] 20 [label="parser" ] 40 [label="code generation"] 99 [label="IR-code object"] 1 -> 10 10 -> 20 20 -> 40 40 -> 99 } .. autoclass:: ppci.c3.Lexer .. autoclass:: ppci.c3.Parser .. autoclass:: ppci.c3.CodeGenerator .. autoclass:: ppci.c3.Builder Back-end -------- The back-end is more complicated. There are several steps to be taken here. 1. Canonicalization 2. Tree creation 3. Instruction selection 4. register allocation 5. Instruction emission 6. TODO: Peep hole optimization? .. automodule:: ppci.codegen :members: Canonicalize ~~~~~~~~~~~~ During this phase, the IR-code is made simpler. Function calls are pulled pulled to top level and the frame pointer is introduced. Tree building ~~~~~~~~~~~~~ From IR-code a tree is generated which can be used to select instructions. Instruction selection ~~~~~~~~~~~~~~~~~~~~~ The instruction selection phase takes care of scheduling and instruction selection. The output of this phase is a one frame per function with a flat list of abstract machine instructions. // .. autoclass:: ppci.irmach.Frame // .. autoclass:: ppci.irmach.AbstractInstruction To select instruction, a tree rewrite system is used. This is also called bottom up rewrite generator (BURG). See pyburg. Register allocation ~~~~~~~~~~~~~~~~~~~ The selected instructions are used to select correct registers. code emission ~~~~~~~~~~~~~ Code is emitted using the outputstream class. The assembler and compiler use this class to emit instructions to. The stream can output to object file or to a logger. .. autoclass:: ppci.outstream.OutputStream