Commit graph

28 commits

Author SHA1 Message Date
George Koehler 64b50b3a45 Shrink .cfu8
With my PowerBook G4, a program that converts values from 1.0 to
4000000.0 runs in about 0.32s with the old .cfu8 and 0.29s with this
shrunken .cfu8

Leave a comment about other ways to implement .cfu8
2018-01-07 16:03:55 -05:00
George Koehler 26de4c1ab1 Add test for EM _rck_. Fix traps in PowerPC ncg.
The new test rck_e.e segfaults on PowerPC unless I make some changes.
The inline code for _rck_ was wrong because it didn't allow the trap
handler to return.  _sig_ forgot to push the old trap handler.

Move plat/linuxppc/libsys/trap.s to mach/powerpc/libem/trp.s and
rewrite it with simplified/extended mnemonics.  Remove .trap alias for
.trp procedure.  Add a missing `mtspr lr, r0` so we can return from
the trap handler.  Call write() and _exit() so trp.s works with both
linuxppc and osxppc.  Before, Mac OS X was wrongly using the trap.s
for Linux.

In powerpc/libem, simplify .aar4; teach .csa and .csb to raise the
trap if the default target is zero.

C programs don't need these changes.  You may relink your C programs
with the changed .csa and .csb, but C code doesn't raise the trap.
Modula-2 code can raise traps, so you may want to relink your Modula-2
programs with the changed libem, but you might keep your old .o files
from Modula-2.  You may need to recompile your Pascal programs (delete
old .o files from Pascal) because the Pascal compiler might use _rck_.
2017-12-24 22:37:52 -05:00
George Koehler 504d2aa34e Revise stack shuffles and integer conversions in PowerPC ncg.
Allow asp 4, exg 4 to shuffle tokens without coercing them into
registers; but comment why dup 4, dup 8 coerce tokens into registers.

Allow dup, dus, exg with larger sizes; and add tests dup_e.e and
exg_e.e to check that dup 20, dus, exg 20 work as well in powerpc as
in i80 and i86.

Then powerpc failed to compile loc 2 loc 4 cuu in dup_e.e.  Revise the
integer conversions, so powerpc can compile and pass the test.
2017-12-09 18:57:10 -05:00
George Koehler 459a9b5949 Use lwzu, stwu to tighten more loops.
Because lwzu or stwu moves the pointer, I can remove an addi
instruction from the loop, so the loop is slightly faster.

I wrote a benchmark in Modula-2 that exercises some of these loops.  I
measured its time on my old PowerPC Mac.  Its user time decreases from
8.401s to 8.217s with the tighter loops.
2017-10-18 12:12:42 -04:00
George Koehler 47bd0ef7a7 Stop inlining code to convert integers to floats.
Do the conversion by calling .cif8 or .cuf8 in libem, as it was done
before my commit 1de1e8f.  I used the inline conversion to experiment
with the register allocator, which was too slow until c5bb3be.

Now that libem has the only copy of the code, move some comments and
code changes there.
2017-10-17 17:00:28 -04:00
George Koehler 736c45453c Remove .ret from libem and inline the code.
This removes a wrong-way dependency of libsys on libem.  The C
functions in libsys called .ret, but libsys is after libem in the
linker arguments, so the linker didn't find .ret unless something else
had called .ret.  Almost everything called .ret, but I got a linker
error when I wrote an assembly program using the EM runtime, because
my assembly program didn't call .ret.

Add a dummy comment to build.lua, so git checkout touches that file,
the build system reconfigures itself, and the *.s glob sees that ret.s
has gone.
2017-02-16 21:18:39 -05:00
George Koehler dc05cb2dc8 Add pat cms !defined($1)
Switch .cms to pass inputs and outputs on the real stack, not in
registers; like we do with .and, .or (81c677d) and .xor (c578c49).

At this point, nearly all functions in libem use the real stack, not
registers, for passing inputs and outputs.  This simplifies the ncg
table (which needs fewer lists of specific registers) but slows calls
to libem.

For example, after ba9b021, each call to .aar4 is about 10
instructions slower.  I moved 3 inputs and 1 output from registers to
the real stack.  A program would take 4 instructions to move registers
to stack, 4 to move stack to registers, and perhaps 2 to adjust the
stack pointer.
2017-02-13 16:52:32 -05:00
George Koehler ba9b021253 Use .los4 in lar 4 and .sts4 in sar 4.
Our libem had two implementations of loading a block from a stack, one
for lar 4 and one for los 4.  Now lar 4 and los 4 share the code in
.los4.  Likewise, sar 4 and sts 4 share the code in .sts4.

Rename .los to .los4 and .sts to .sts4, because they implement los 4
and sts 4.  Remove the special case for loading or storing 4 bytes,
because we can do it with 1 iteration of the loop.  Remove the lines
to "align size" where the size must already be a multiple of 4.

Fix the upper bound check in .aar4.

Change .aar4, .lar4, .los4, .sar4, .sts4 to pass all operands on the
real stack, except that .los4 and .sts4 take the size in register r3.
Have .aar4 set r3 to the size of the array element.  So lar 4 is just
.aar4 then .los4, and sar 4 is just .aar4 then .sts4.

ncg no longer calls .lar4 and .sar4 in libem, because it inlines the
code; but I keep .lar4 and .sar4 in libem, because mcg references
them.  They might or might not work in mcg.
2017-02-13 15:22:00 -05:00
George Koehler 54949f713f Change .fef8 and .fif8 to pass values on the stack.
Reorder the code in .fef8 and .fif8 so that in the usual case, we fall
through to the blr without taking any branches.  The usual case, by my
guess, is .fef8 with normalized numbers or .fif8 with small integers.

I change .fef8 and .fif8 to pass values on the real stack, not in
specific registers.  This simplifies the ncg table, and might help me
experiment with changes to the ncg table.

This change might or might not help mcg.  Seems that mcg always uses
the stack to pass values to libem, but I have not tested .fef8 or
.fif8 with mcg.
2017-02-12 16:44:37 -05:00
George Koehler c578c495bb Edit PowerPC assembly for .and, .cms, .ior, .xor, .zer
Remove one addi instruction from some loops.  These loops had
increased 2 pointers, they now increase 1 index.  I must initialize
the index, so I add "li r6, 0" before each loop.

Change .zer to use subf instead of neg, add.

Change .xor to take the size on the real stack, as .and and .or have
done since 81c677d.
2017-02-11 18:00:56 -05:00
George Koehler 8c8f291a07 In PowerPC libem, remove tge.s and powerpc.h
Nothing uses the tables in tge.s, after I changed the ncg table.
There are no *.e files in libem, so don't try to build them.
2017-01-26 12:39:16 -05:00
George Koehler 032bcffef6 In PowerPC libem, use the new features of our assembler.
The new features are the hi16/lo16 and ha16/lo16 syntax for
relocations, and the extended mnemonics like "blr".

Use ha16/lo16 to load some double floats with 2 instructions (lis/lfd)
instead of 3 (lis/ori/lfd).

Use the extended names for branches, comparisons, and bit rotations,
so I can more easily read the code.  The new names often encode the
same machine instructions as the old names, except in a few places
where I changed the instructions.

Stop using andi. when we don't need to set cr0.  In inn.s, I change
andi. to extrwi to extract the same bits.  In los.s and sts.s, I
change "andi. r3, r3, ~3" to "clrrwi r3, r3, 2".  This avoids setting
cr0 and also stops clearing the high 16 bits of r3.

In csa.s, los.s, sts.s, I change some comparisons and right shifts
from signed to unsigned (cmplw, cmplwi, srwi), because the sizes are
unsigned.  In inn.s, the right shift can be signed (sraw) or unsigned
(srw), but I use srw because we don't need the carry bit.

In fef8.s, I save an instruction by using rlwinm instead of addis/andc
to rlwinm to clear a field.  The code no longer kills r7.  In both
fef8.s and fif8.s, I remove the list of killed registers.

Also remove some whitespace from ends of lines.
2017-01-23 17:16:39 -05:00
David Given 81c677d218 Add a bunch more set operations to the PowerPC backends, and the Pascal test
for the same.
2017-01-17 22:31:38 +01:00
David Given e7e29d34ff Add a test (currently failing) to check that Pascal char sets can store all 256
possible values. Add the PowerPC ncg and mcg backend support to let the test
actually run, including modifying a bunch of PowrePC libem functions so that
they can be called from both ncg and mcg.
2017-01-15 22:28:14 +01:00
George Koehler 8605a2fcfc Add Modula-2 set operations to PowerPC ncg.
This provides and, ior, xor, com, zer, set, cms when defined($1) and
ior, set when !defined($1).  I don't provide the other operations
!defined($1) because our Modula-2 compiler hasn't used them.

I wrote a Modula-2 example in
https://gist.github.com/kernigh/add79662bb3c63ffb7c46d01dc8ae788

Put a dummy comment in mach/powerpc/libem/build.lua so git checkout
will touch that file.  Without the touch, the build system doesn't see
the new *.s files.
2016-12-10 12:23:07 -05:00
David Given 55e24e1f24 inn was assuming that bitfields were arrays of bytes, when actually they're
arrays of words (which makes the LSB move on big-endian systems).
2016-12-06 21:45:20 +01:00
David Given 953c08839f inn works now; add a helper for it. 2016-11-20 12:53:44 +01:00
David Given d31bc6a3f9 Made csa and csb work with mcg; adjust the libem functions and the
corresponding invocation in the ncg table so the same helpers can be used for
both mcg and ncg. Add a new IR opcode, FARJUMP, which jumps to a helper
function but saves volatile registers.
2016-11-19 10:55:41 +01:00
David Given 8c3670483f Get top working with the PowerPC; use it to eliminate useless branches and
moves.
2016-10-29 23:37:11 +02:00
George Koehler f33b30ed3c Rewrite .fif8 to avoid powerpc64 fctid
This fixes the SIGILL (illegal instruction) in startrek when firing
phasers.  The 32-bit processors in my PowerPC Mac and in QEMU don't
have fctid, a 64-bit instruction.

I got the idea from mach/proto/fp/fif8.c to extract the exponent,
clear some bits to get an integer, then subtract the integer from
the original value to get the fraction.
2016-10-17 00:39:59 -04:00
George Koehler 6ae415d48b Rewrite fef 8 in powerpc assembly.
In EM, fef splits a float into exponent and fraction.  The old C code,
given an infinite float, got stuck in an infinite loop.  The new
assembly code doesn't loop; it extracts the IEEE exponent.
2016-09-29 15:52:54 -04:00
George Koehler 5b69777647 Rename our pseudo-opcode 'la' to 'li32'.
GNU as has "la %r4,8(%r3)" as an alias for "addi %r4,%r3,8", meaning
to load the address of the thing at 8(%r3).  Our 'la', now 'li32',
makes an addis/ori pair to load an immediate 32-bit value.  For
example, "li32 r4,23456789" loads a big number.
2016-09-18 17:03:23 -04:00
George Koehler 03b067e1d5 Add the missing .lar4 and .sar4 for powerpc.
Inspired by the sparc code (mach/sparc/libem/lar.s).  My powerpc code
might still have bugs, but it's enough for examples/hilo.mod to work.

May need to 'make clean' or touch a build.lua file, so ackbuilder can
notice the new lar4.s and sar4.s files and build them.
2016-09-17 23:55:55 -04:00
David Given 80cb6ba927 Eliminate the RELOH2 relocation, as it never worked --- the address would be
calculated incorrectly because of overflow errors.

Replace it with an extended RELOPPC relocation which understands addis/ori
pairs; add an la pseudoop to the assembler which generates these and the
appropriate relocation. Make good.

--HG--
branch : dtrg-experimental-powerpc-branch
2016-09-17 12:43:15 +02:00
David Given 45a950571d Mostly add support for the experimental and largely broken linuxppc platform.
(Doesn't quite build.)

--HG--
branch : dtrg-experimental-powerpc-branch
2016-09-15 23:12:03 +02:00
David Given f67c98e239 Distributions are a pain --- let's not bother any more. Instead, we just tag
the repository and download a complete snapshot, old and ancient stuff and all.
2016-09-02 23:00:38 +02:00
David Given 88bd7ce126 Remove defunct pmfiles.
--HG--
branch : default-branch
2016-06-03 13:56:50 +02:00
dtrg 4dd1ff6d80 Archival checkin (semi-working code). 2007-11-02 18:56:58 +00:00