Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456 Using SPIM with Modern Compiler Implementation
SPIM
is a simulator for the MIPS instruction set. MIPS is a
simple, clean, and efficient RISC computer architecture;
Silicon Graphics workstations
and Nintendo 64
use MIPS processors.
Why use SPIM?
A valuable part of the learning experience for students of compiler
design is the implementation of a real compiler and code generator.
I recommend that students build a code generator for a RISC architecture
(such as MIPS, Sparc, PowerPC, or Alpha) because
RISC code generators are much simpler than code generators for
machines such as the Pentium, and
using a RISC instruction set gives the student better
insight into current issues in computer architecture.
But many people do not have access to a RISC-based workstation.
The SPIM simulator allows MIPS assembly-language to be assembled
and run on a Pentium PC running Microsoft Windows (or on a Unix
workstation of almost any type).
But on the other hand...
There is a great satisfaction to be had in writing a compiler that
generates real native code that runs on the bare machine.
If you have a Pentium and you want this satisfaction,
Section 9.2 of Modern Compiler Implementation shows
how to handle Complex Instruction Set Computers (CISC).
Where is SPIM?
SPIM is available
from the University of Wisconsin; it
can be freely used and distributed for non-commercial purposes.
The documentation for SPIM also includes a detailed summary
of the MIPS instruction set and assembly language.
How can I use SPIM in my Tiger compiler?
I have found that MIPS assembly language generated by my Tiger
compiler runs under SPIM with very few modifications.
A normal Tiger compiler takes a file myprog.tig and
produces a file myprog.s, which is then assembled
and linked with a runtime.o object file derived from
a runtime.c.
SPIM has no link-loader, and its system calls are incompatible
with those assumed by runtime.c. A new version of the
runtime is necessary: the file runtime.s.
Warning: This file is not fully tested!
Only main, initArray, and print are
tested.
Instead of link-loading, it is necessary to concatenate the
Tiger-compiler output file myprog.s with runtime.s
(either one can go first) and load the combined file into the SPIM simulator.
Unlike a real MIPS assembler,
SPIM has no support for string literals in the text segment,
so it is necessary to use a .data directive
before emitting string literals, and a .text directive
afterwards.
In procedure-entry prologues,
my Tiger compiler for MIPS generated
the lines
L12_framesize=60
addiu $sp,$sp,-L12_framesize
and then within the function L12
it generates offsets such as
sw $25,-24+L12_framesize($sp)
The SPIM assembler seems unable to handle negated labels in
expressions, so I had to modify the prologue to read as,
L12_framesize=60
addiu $sp,$sp,-60
However, the offset expressions such as -24+L12_framesize($sp)
work just fine.
The not function in runtime.s has been renamed
to _not because opcode-names in SPIM are not legal labels.
Miraculously, no other changes were necessary to my Tiger compiler
to make the output runnable under PC-SPIM.