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131 lines
5.5 KiB
Plaintext
131 lines
5.5 KiB
Plaintext
This file describes the implementation notes of the GNU C Compiler for
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the National Semiconductor 32032 chip (and 32000 family).
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The 32032 machine description and configuration file for this compiler
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is, for NS32000 family machine, primarily machine independent.
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However, since this release still depends on vendor-supplied
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assemblers and linkers, the compiler must obey the existing
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conventions of the actual machine to which this compiler is targeted.
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In this case, the actual machine which this compiler was targeted to
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is a Sequent Balance 8000, running DYNIX 2.1.
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The assembler for DYNIX 2.1 (and DYNIX 3.0, alas) does not cope with
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the full generality of the addressing mode REGISTER RELATIVE.
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Specifically, it generates incorrect code for operands of the
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following form:
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sym(rn)
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Where `rn' is one of the general registers. Correct code is generated
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for operands of the form
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sym(pn)
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where `pn' is one of the special processor registers (sb, fp, or sp).
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An equivalent operand can be generated by the form
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sym[rn:b]
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although this addressing mode is about twice as slow on the 32032.
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The more efficient addressing mode is controlled by defining the
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constant SEQUENT_ADDRESS_BUG to 0. It is currently defined to be 1.
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Another bug in the assembler makes it impossible to compute with
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explicit addresses. In order to compute with a symbolic address, it
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is necessary to load that address into a register using the "addr"
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instruction. For example, it is not possible to say
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cmpd _p,@_x
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Rather one must say
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addr _x,rn
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cmpd _p,rn
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The ns32032 chip has a number of known bugs. Any attempt to make the
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compiler unaware of these deficiencies will surely bring disaster.
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The current list of know bugs are as follows (list provided by Richard
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Stallman):
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1) instructions with two overlapping operands in memory
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(unlikely in C code, perhaps impossible).
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2) floating point conversion instructions with constant
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operands (these may never happen, but I'm not certain).
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3) operands crossing a page boundary. These can be prevented
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by setting the flag in tm.h that requires strict alignment.
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4) Scaled indexing in an insn following an insn that has a read-write
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operand in memory. This can be prevented by placing a no-op in
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between. I, Michael Tiemann, do not understand what exactly is meant
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by `read-write operand in memory'. If this is referring to the special
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TOS mode, for example "addd 5,tos" then one need not fear, since this
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will never be generated. However, is this includes "addd 5,-4(fp)"
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then there is room for disaster. The Sequent compiler does not insert
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a no-op for code involving the latter, and I have been informed that
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Sequent is aware of this list of bugs, so I must assume that it is not
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a problem.
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5) The 32032 cannot shift by 32 bits. It shifts modulo the word size
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of the operand. Therefore, for 32-bit operations, 32-bit shifts are
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interpreted as zero bit shifts. 32-bit shifts have been removed from
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the compiler, but future hackers must be careful not to reintroduce
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them.
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6) The ns32032 is a very slow chip; however, some instructions are
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still very much slower than one might expect. For example, it is
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almost always faster to double a quantity by adding it to itself than
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by shifting it by one, even if that quantity is deep in memory. The
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MOVM instruction has a 20-cycle setup time, after which it moves data
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at about the speed that normal moves would. It is also faster to use
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address generation instructions than shift instructions for left
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shifts less than 4. I do not claim that I generate optimal code for all
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given patterns, but where I did escape from National's "clean
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architecture", I did so because the timing specification from the data
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book says that I will win if I do. I suppose this is called the
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"performance gap".
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Signed bitfield extraction has not been implemented. It is not
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provided by the NS32032, and while it is most certainly possible to do
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better than the standard shift-left/shift-right sequence, it is also
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quite hairy. Also, since signed bitfields do not yet exist in C, this
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omission seems relatively harmless.
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Zero extractions could be better implemented if it were possible in
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GCC to provide sized zero extractions: i.e. a byte zero extraction
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would be allowed to yield a byte result. The current implementation
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of GCC manifests 68000-ist thinking, where bitfields are extracted
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into a register, and automatically sign/zero extended to fill the
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register. See comments in ns32k.md around the "extzv" insn for more
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details.
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It should be noted that while the NS32000 family was designed to
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provide odd-aligned addressing capability for multi-byte data (also
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provided by the 68020, but not by the 68000 or 68010), many machines
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do not opt to take advantage of this. For example, on the sequent,
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although there is no advantage to long-word aligning word data, shorts
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must be int-aligned in structs. This is an example of another
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machine-specific machine dependency.
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Because the ns32032 is has a coherent byte-order/bit-order
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architecture, many instructions which would be different for
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68000-style machines, fold into the same instruction for the 32032.
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The classic case is push effective address, where it does not matter
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whether one is pushing a long, word, or byte address. They all will
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push the same address.
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The macro FUNCTION_VALUE_REGNO_P is probably not sufficient, what is
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needed is FUNCTION_VALUE_P, which also takes a MODE parameter. In
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this way it will be possible to determine more exactly whether a
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register is really a function value register, or just one that happens
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to look right.
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