Commit Graph

468 Commits

Author SHA1 Message Date
Hal Finkel 2b7b2f373b PPC: Map frin to round() not nearbyint() and rint()
Making use of the recently-added ISD::FROUND, which allows for custom lowering
of round(), the PPC backend will now map frin to round(). Previously, we had
been using frin to lower nearbyint() (and rint() via some custom lowering to
handle the extra fenv flags requirements), but only in fast-math mode because
frin does not tie-to-even. Several users had complained about this behavior,
and this new mapping of frin to round is certainly more appropriate (and does
not require fast-math mode).

In effect, this reverts r178362 (and part of r178337, replacing the nearbyint
mapping with the round mapping).

llvm-svn: 187960
2013-08-08 04:31:34 +00:00
Hal Finkel 40f76d5830 PPC: Add CTR-register clobber to builtin setjmp
Because the builtin longjmp implementation uses a CTR-based indirect jump, when
the control flow arrives at the builtin setjmp call, the CTR register has
necessarily been clobbered. Correspondingly, this adds CTR to the list of
implicit definitions of the builtin setjmp pseudo instruction.

We don't need to add CTR to the implicit definitions of builtin longjmp
because, even though it does clobber the CTR register, the control flow cannot
return to inside the loop unless there is also a builtin setjmp call.

llvm-svn: 186488
2013-07-17 05:35:44 +00:00
Ulrich Weigand e840ee2ca2 [PowerPC] Support time base instructions
This adds support for the old-style time base instructions;
while new programs are supposed to use mfspr, the mftb instructions
are still supported and in use by existing assembler files.

llvm-svn: 185829
2013-07-08 15:20:38 +00:00
Ulrich Weigand c0944b50fe [PowerPC] Support basic compare mnemonics
This adds support for the basic mnemoics (with the L operand) for the
fixed-point compare instructions.  These are defined as aliases for the
already existing CMPW/CMPD patterns, depending on the value of L.

This requires use of InstAlias patterns with immediate literal operands.
To make this work, we need two further changes:

 - define a RegisterPrefix, because otherwise literals 0 and 1 would
   be parsed as literal register names

 - provide a PPCAsmParser::validateTargetOperandClass routine to
   recognize immediate literals (like ARM does)

llvm-svn: 185826
2013-07-08 14:49:37 +00:00
Ulrich Weigand 56b0e7b011 [PowerPC] Add all trap mnemonics
This adds support for all basic and extended variants
of the trap instructions to the asm parser.

llvm-svn: 185638
2013-07-04 14:40:12 +00:00
Ulrich Weigand b86cb7d04b [PowerPC] Add asm parser support for CR expressions
This adds support for specifying condition registers and
condition register fields via expressions using the symbols
defined by the PowerISA, like "4*cr2+eq".

llvm-svn: 185633
2013-07-04 14:24:00 +00:00
Ulrich Weigand 2542b3b17f [PowerPC] Support lmw/stmw in the asm parser
This adds support for the load/store multiple instructions,
currently used by the asm parser only.

llvm-svn: 185564
2013-07-03 18:29:47 +00:00
Ulrich Weigand 49f487e6cd [PowerPC] Use mtocrf when available
Just as with mfocrf, it is also preferable to use mtocrf instead of
mtcrf when only a single CR register is to be written.

Current code however always emits mtcrf.  This probably does not matter
when using an external assembler, since the GNU assembler will in fact
automatically replace mtcrf with mtocrf when possible.  It does create
inefficient code with the integrated assembler, however.

To fix this, this patch adds MTOCRF/MTOCRF8 instruction patterns and
uses those instead of MTCRF/MTCRF8 everything.  Just as done in the
MFOCRF patch committed as 185556, these patterns will be converted
back to MTCRF if MTOCRF is not available on the machine.

As a side effect, this allows to modify the MTCRF pattern to accept
the full range of mask operands for the benefit of the asm parser.

llvm-svn: 185561
2013-07-03 17:59:07 +00:00
Ulrich Weigand d5ebc626d5 [PowerPC] Always use mfocrf if available
When accessing just a single CR register, it is always preferable to
use mfocrf instead of mfcr, if the former is available on the CPU.

Current code makes that distinction in many, but not all places
where a single CR register value is retrieved.  One missing
location is PPCRegisterInfo::lowerCRSpilling.

To fix this and make this simpler in the future, this patch changes
the bulk of the back-end to always assume mfocrf is available and
simply generate it when needed.

On machines that actually do not support mfocrf, the instruction
is replaced by mfcr at the very end, in EmitInstruction.

This has the additional benefit that we no longer need the
MFCRpseud hack, since before EmitInstruction we always have
a MFOCRF instruction pattern, which already models data flow
as required.

The patch also adds the MFOCRF8 version of the instruction,
which was missing so far.

Except for the PPCRegisterInfo::lowerCRSpilling case, no change
in generated code intended.

llvm-svn: 185556
2013-07-03 17:05:42 +00:00
Ulrich Weigand ae9cf5828c [PowerPC] Support mtspr/mfspr in the asm parser
This adds support for the generic forms of mtspr/mfspr
for the asm parser.  The compiler will continue to use
the specialized patters for mtlr etc. since those are
needed to correctly describe data flow.

llvm-svn: 185532
2013-07-03 12:32:41 +00:00
Ulrich Weigand 85c6f7f7a7 [PowerPC] Support all condition register logical instructions
This adds support for all missing condition register logical
instructions and extended mnemonics to the asm parser.

llvm-svn: 185387
2013-07-01 21:40:54 +00:00
Ulrich Weigand f7152a8596 [PowerPC] Also add "msync" alias
This adds an alias for "msync" (which is used on Book E
systems instead of "sync").

llvm-svn: 185375
2013-07-01 20:39:50 +00:00
Ulrich Weigand 7a9fcdf6fb [PowerPC] Add "wait" instruction
This adds the "wait" instruction and its extended mnemonics.

llvm-svn: 185350
2013-07-01 17:21:23 +00:00
Ulrich Weigand 98fcc7b6bc [PowerPC] Support "eieio" instruction
This adds support for the "eieio" instruction to
the asm parser.

llvm-svn: 185349
2013-07-01 17:06:26 +00:00
Ulrich Weigand 797f1a3f5b [PowerPC] Add variants of "sync" instruction
This adds support for the "sync $L" instruction with operand,
and provides aliases for "lwsync" and "ptesync".

llvm-svn: 185344
2013-07-01 16:37:52 +00:00
Ulrich Weigand 5a02a02b41 [PowerPC] Accept 17-bit signed immediates for addis
The assembler currently strictly verifies that immediates for
s16imm operands are in range (-32768 ... 32767).  This matches
the behaviour of the GNU assembler, with one exception: gas
allows, as a special case, operands in an extended range
(-65536 .. 65535) for the addis instruction only (and its
extended mnemonic lis).

The main reason for this seems to be to allow using unsigned
16-bit operands for lis, e.g. like lis %r1, 0xfedc.

Since this has been supported by gas for a long time, and
assembler source code seen "in the wild" actually exploits
this feature, this patch adds equivalent support to LLVM
for compatibility reasons.

llvm-svn: 184946
2013-06-26 13:49:53 +00:00
Ulrich Weigand fd3ad693e8 [PowerPC] Support symbolic u16imm operands
Currently, all instructions taking s16imm operands support symbolic
operands.  However, for u16imm operands, we only support actual
immediate integers.  This causes the assembler to reject code like

  ori %r5, %r5, symbol@l

This patch changes the u16imm operand definition to likewise
accept symbolic operands.  In fact, s16imm and u16imm can
share the same encoding routine, now renamed to getImm16Encoding.

llvm-svn: 184944
2013-06-26 13:49:15 +00:00
Ulrich Weigand ad873cdb2b [PowerPC] Add extended rotate/shift mnemonics
This adds all missing extended rotate/shift mnemonics to the asm parser.

llvm-svn: 184834
2013-06-25 13:17:41 +00:00
Ulrich Weigand 4069e24bd3 [PowerPC] Add extended subtract mnemonics
This adds support for the extended subtract mnemonics to the asm parser:
   subi
   subis
   subic
   subic.
   sub
   sub.
   subc
   subc.
 

llvm-svn: 184832
2013-06-25 13:16:48 +00:00
Ulrich Weigand 6ca71579db [PowerPC] Support some miscellaneous mnemonics in the asm parser
This adds support for the following extended mnemonics:
  xnop
  mr.
  not
  not.
  la

llvm-svn: 184767
2013-06-24 18:08:03 +00:00
Ulrich Weigand 86247b6e27 [PowerPC] Add predicted forms of branches
This adds support for the predicted forms of branches (+/-).
There are three cases to consider:
- Branches using a PPC::Predicate code
  For these, I've added new PPC::Predicate codes corresponding
  to the BO values for predicted branch forms, and updated insn
  printing to print them correctly.  I've also added new aliases
  for the asm parser matching the new forms.
- bt/bf
  I've added new aliases matching to gBC etc.
- bd(n)z variants
  I've added new instruction patterns for the predicted forms.

In all cases, the new patterns are used for the asm parser only.
(The new infrastructure ought to be sufficient to allow use by
the compiler too at some point.)

llvm-svn: 184754
2013-06-24 16:52:04 +00:00
Ulrich Weigand fedd5a756e [PowerPC] Add t/f branch mnemonics to asm parser
This adds the bt/bf/bd(n)zt/bd(n)zf mnemonics as aliases for the
asm parser, resolving to the generic conditional patterns.

llvm-svn: 184725
2013-06-24 12:49:20 +00:00
Ulrich Weigand 824b7d8dfd [PowerPC] Support generic conditional branches in asm parser
This adds instruction patterns to cover the generic forms of
the conditional branch instructions.  This allows the assembler
to support the generic mnemonics.

The compiler will still generate the various specific forms
of the instruction that were already supported.

llvm-svn: 184722
2013-06-24 11:55:21 +00:00
Ulrich Weigand b6a30d159e [PowerPC] Support absolute branches
There is currently only limited support for the "absolute" variants
of branch instructions.  This patch adds support for the absolute
variants of all branches that are currently otherwise supported.

This requires adding new fixup types so that the correct variant
of relocation type can be selected by the object writer.

While the compiler will continue to usually choose the relative
branch variants, this will allow the asm parser to fully support
the absolute branches, with either immediate (numerical) or
symbolic target addresses.

No change in code generation intended.

llvm-svn: 184721
2013-06-24 11:03:33 +00:00
Ulrich Weigand 5b9d591ad1 [PowerPC] Support bd(n)zl and bd(n)zlrl
This adds support for the bd(n)zl and bd(n)zlrl instructions.
The patterns are currently used for the asm parser only.

llvm-svn: 184720
2013-06-24 11:02:38 +00:00
Ulrich Weigand d20e91edad [PowerPC] Support b(cond)l in the asm parser
This patch adds support for the conditional variants of bl.
The pattern is currently used by the asm parser only.

llvm-svn: 184719
2013-06-24 11:02:19 +00:00
Ulrich Weigand 1847bb811e [PowerPC] Support blrl and variants in the asm parser
This patch adds support for blrl and its conditional variants.
The patterns are (currently) used for the asm parser only.

llvm-svn: 184718
2013-06-24 11:01:55 +00:00
Ulrich Weigand 865a1efc13 [PowerPC] Support compare mnemonics with implied CR0
Just like for branch mnemonics (where support was recently added), the
assembler is supposed to support extended mnemonics for the compare
instructions where no condition register is specified explicitly
(and CR0 is assumed implicitly).

This patch adds support for those extended compare mnemonics.


Index: llvm-head/test/MC/PowerPC/ppc64-encoding-ext.s
===================================================================
--- llvm-head.orig/test/MC/PowerPC/ppc64-encoding-ext.s
+++ llvm-head/test/MC/PowerPC/ppc64-encoding-ext.s
@@ -449,21 +449,37 @@
 
 # CHECK: cmpdi 2, 3, 128                 # encoding: [0x2d,0x23,0x00,0x80]
          cmpdi 2, 3, 128
+# CHECK: cmpdi 0, 3, 128                 # encoding: [0x2c,0x23,0x00,0x80]
+         cmpdi 3, 128
 # CHECK: cmpd 2, 3, 4                    # encoding: [0x7d,0x23,0x20,0x00]
          cmpd 2, 3, 4
+# CHECK: cmpd 0, 3, 4                    # encoding: [0x7c,0x23,0x20,0x00]
+         cmpd 3, 4
 # CHECK: cmpldi 2, 3, 128                # encoding: [0x29,0x23,0x00,0x80]
          cmpldi 2, 3, 128
+# CHECK: cmpldi 0, 3, 128                # encoding: [0x28,0x23,0x00,0x80]
+         cmpldi 3, 128
 # CHECK: cmpld 2, 3, 4                   # encoding: [0x7d,0x23,0x20,0x40]
          cmpld 2, 3, 4
+# CHECK: cmpld 0, 3, 4                   # encoding: [0x7c,0x23,0x20,0x40]
+         cmpld 3, 4
 
 # CHECK: cmpwi 2, 3, 128                 # encoding: [0x2d,0x03,0x00,0x80]
          cmpwi 2, 3, 128
+# CHECK: cmpwi 0, 3, 128                 # encoding: [0x2c,0x03,0x00,0x80]
+         cmpwi 3, 128
 # CHECK: cmpw 2, 3, 4                    # encoding: [0x7d,0x03,0x20,0x00]
          cmpw 2, 3, 4
+# CHECK: cmpw 0, 3, 4                    # encoding: [0x7c,0x03,0x20,0x00]
+         cmpw 3, 4
 # CHECK: cmplwi 2, 3, 128                # encoding: [0x29,0x03,0x00,0x80]
          cmplwi 2, 3, 128
+# CHECK: cmplwi 0, 3, 128                # encoding: [0x28,0x03,0x00,0x80]
+         cmplwi 3, 128
 # CHECK: cmplw 2, 3, 4                   # encoding: [0x7d,0x03,0x20,0x40]
          cmplw 2, 3, 4
+# CHECK: cmplw 0, 3, 4                   # encoding: [0x7c,0x03,0x20,0x40]
+         cmplw 3, 4
 
 # FIXME: Trap mnemonics
 
Index: llvm-head/lib/Target/PowerPC/PPCInstrInfo.td
===================================================================
--- llvm-head.orig/lib/Target/PowerPC/PPCInstrInfo.td
+++ llvm-head/lib/Target/PowerPC/PPCInstrInfo.td
@@ -2201,3 +2201,12 @@ defm : BranchExtendedMnemonic<"ne", 68>;
 defm : BranchExtendedMnemonic<"nu", 100>;
 defm : BranchExtendedMnemonic<"ns", 100>;
 
+def : InstAlias<"cmpwi $rA, $imm", (CMPWI CR0, gprc:$rA, s16imm:$imm)>;
+def : InstAlias<"cmpw $rA, $rB", (CMPW CR0, gprc:$rA, gprc:$rB)>;
+def : InstAlias<"cmplwi $rA, $imm", (CMPLWI CR0, gprc:$rA, u16imm:$imm)>;
+def : InstAlias<"cmplw $rA, $rB", (CMPLW CR0, gprc:$rA, gprc:$rB)>;
+def : InstAlias<"cmpdi $rA, $imm", (CMPDI CR0, g8rc:$rA, s16imm:$imm)>;
+def : InstAlias<"cmpd $rA, $rB", (CMPD CR0, g8rc:$rA, g8rc:$rB)>;
+def : InstAlias<"cmpldi $rA, $imm", (CMPLDI CR0, g8rc:$rA, u16imm:$imm)>;
+def : InstAlias<"cmpld $rA, $rB", (CMPLD CR0, g8rc:$rA, g8rc:$rB)>;
+

llvm-svn: 184435
2013-06-20 16:15:12 +00:00
Ulrich Weigand 4c44032aa1 [PowerPC] Support extended sc mnemonic
A plain "sc" without argument is supposed to be treated like "sc 0"
by the assembler.  This patch adds a corresponding alias.

Problem reported by Joerg Sonnenberger.

llvm-svn: 183687
2013-06-10 17:19:43 +00:00
Ulrich Weigand aa4a2d71aa [PowerPC] Support branch mnemonics with implied CR0
The extended branch mnemonics are supposed to use an implied CR0
if there is no explicit condition register specified.  This patch
adds extra variants of the mnemonics to this effect.

Problem reported by Joerg Sonnenberger.

llvm-svn: 183686
2013-06-10 17:19:15 +00:00
Ulrich Weigand 397406259e [PowerPC] Use multiclass to generate extended branch mnemonics
This patch removes some redundancy by generating the extended branch
mnemonics via a multiclass.

No change in behaviour expected.

llvm-svn: 183685
2013-06-10 17:18:29 +00:00
Ulrich Weigand 9948546923 [PowerPC] Remove symbolLo/symbolHi instruction operand types
Now that there is no longer any distinction between symbolLo
and symbolHi operands in either printing, encoding, or parsing,
the operand types can be removed in favor of simply using
s16imm.

This completes the patch series to decouple lo/hi operand part
processing from the particular instruction whose operand it is.

No change in code generation expected from this patch.

llvm-svn: 182618
2013-05-23 22:48:06 +00:00
Ulrich Weigand 41789de165 [PowerPC] Clean up generation of ha16() / lo16() markers
When targeting the Darwin assembler, we need to generate markers ha16() and
lo16() to designate the high and low parts of a (symbolic) immediate.  This
is necessary not just for plain symbols, but also for certain symbolic
expression, typically along the lines of ha16(A - B).  The latter doesn't
work when simply using VariantKind flags on the symbol reference.
This is why the current back-end uses hacks (explicitly called out as such
via multiple FIXMEs) in the symbolLo/symbolHi print methods.

This patch uses target-defined MCExpr codes to represent the Darwin
ha16/lo16 constructs, following along the lines of the equivalent solution
used by the ARM back end to handle their :upper16: / :lower16: markers.
This allows us to get rid of special handling both in the symbolLo/symbolHi
print method and in the common code MCExpr::print routine.  Instead, the
ha16 / lo16 markers are printed simply in a custom print routine for the
target MCExpr types.  (As a result, the symbolLo/symbolHi print methods
can now replaced by a single printS16ImmOperand routine that also handles
symbolic operands.)

The patch also provides a EvaluateAsRelocatableImpl routine to handle
ha16/lo16 constructs.  This is not actually used at the moment by any
in-tree code, but is provided as it makes merging into David Fang's
out-of-tree Mach-O object writer simpler.

Since there is no longer any need to treat VK_PPC_GAS_HA16 and
VK_PPC_DARWIN_HA16 differently, they are merged into a single
VK_PPC_ADDR16_HA (and likewise for the _LO16 types).

llvm-svn: 182616
2013-05-23 22:26:41 +00:00
Bill Schmidt f88571e027 Change some PowerPC PatLeaf definitions to ImmLeaf for fast-isel.
Using PatLeaf rather than ImmLeaf when defining immediate predicates
prevents simple patterns using those predicates from being recognized
for fast instruction selection.  This patch replaces the immSExt16
PatLeaf predicate with two ImmLeaf predicates, imm32SExt16 and
imm64SExt16, allowing a few more patterns to be recognized (ADDI,
ADDIC, MULLI, ADDI8, and ADDIC8).  Using the new predicates does not
help for LI, LI8, SUBFIC, and SUBFIC8 because these are rejected for
other reasons, but I see no reason to retain the PatLeaf predicate.

No functional change intended, and thus no test cases yet.  This is
preliminary work for enabling fast-isel support for PowerPC.  When
that support is ready, we'll be able to test this function.

llvm-svn: 182510
2013-05-22 20:09:24 +00:00
Hal Finkel 0859ef29d5 Rename PPC MTCTRse to MTCTRloop
As the pairing of this instruction form with the bdnz/bdz branches is now
enforced by the verification pass, make it clear from the name that these
are used only for counter-based loops.

No functionality change intended.

llvm-svn: 182296
2013-05-20 16:08:37 +00:00
Ulrich Weigand 2dbe06a987 [PowerPC] Fix hi/lo encoding in old-style code emitter
This patch implements the equivalent change to r182091/r182092
in the old-style code emitter.  Instead of having two separate
16-bit immediate encoding routines depending on the instruction,
this patch introduces a single encoder that checks the machine
operand flags to decide whether the low or high half of a
symbol address is required.

Since now both encoders make no further distinction between
"symbolLo" and "symbolHi", the .td operand can now use a
single getS16ImmEncoding method.

Tested by running the old-style JIT tests on 32-bit Linux.

llvm-svn: 182097
2013-05-17 14:14:12 +00:00
Ulrich Weigand 9d980cbdb9 [PowerPC] Use true offset value in "memrix" machine operands
This is the second part of the change to always return "true"
offset values from getPreIndexedAddressParts, tackling the
case of "memrix" type operands.

This is about instructions like LD/STD that only have a 14-bit
field to encode immediate offsets, which are implicitly extended
by two zero bits by the machine, so that in effect we can access
16-bit offsets as long as they are a multiple of 4.

The PowerPC back end currently handles such instructions by
carrying the 14-bit value (as it will get encoded into the
actual machine instructions) in the machine operand fields
for such instructions.  This means that those values are
in fact not the true offset, but rather the offset divided
by 4 (and then truncated to an unsigned 14-bit value).

Like in the case fixed in r182012, this makes common code
operations on such offset values not work as expected.
Furthermore, there doesn't really appear to be any strong
reason why we should encode machine operands this way.

This patch therefore changes the encoding of "memrix" type
machine operands to simply contain the "true" offset value
as a signed immediate value, while enforcing the rules that
it must fit in a 16-bit signed value and must also be a
multiple of 4.

This change must be made simultaneously in all places that
access machine operands of this type.  However, just about
all those changes make the code simpler; in many cases we
can now just share the same code for memri and memrix
operands.

llvm-svn: 182032
2013-05-16 17:58:02 +00:00
Hal Finkel 25c1992bc7 Implement PPC counter loops as a late IR-level pass
The old PPCCTRLoops pass, like the Hexagon pass version from which it was
derived, could only handle some simple loops in canonical form. We cannot
directly adapt the new Hexagon hardware loops pass, however, because the
Hexagon pass contains a fundamental assumption that non-constant-trip-count
loops will contain a guard, and this is not always true (the result being that
incorrect negative counts can be generated). With this commit, we replace the
pass with a late IR-level pass which makes use of SE to calculate the
backedge-taken counts and safely generate the loop-count expressions (including
any necessary max() parts). This IR level pass inserts custom intrinsics that
are lowered into the desired decrement-and-branch instructions.

The most fragile part of this new implementation is that interfering uses of
the counter register must be detected on the IR level (and, on PPC, this also
includes any indirect branches in addition to function calls). Also, to make
all of this work, we need a variant of the mtctr instruction that is marked
as having side effects. Without this, machine-code level CSE, DCE, etc.
illegally transform the resulting code. Hopefully, this can be improved
in the future.

This new pass is smaller than the original (and much smaller than the new
Hexagon hardware loops pass), and can handle many additional cases correctly.
In addition, the preheader-creation code has been copied from LoopSimplify, and
after we decide on where it belongs, this code will be refactored so that it
can be explicitly shared (making this implementation even smaller).

The new test-case files ctrloop-{le,lt,ne}.ll have been adapted from tests for
the new Hexagon pass. There are a few classes of loops that this pass does not
transform (noted by FIXMEs in the files), but these deficiencies can be
addressed within the SE infrastructure (thus helping many other passes as well).

llvm-svn: 181927
2013-05-15 21:37:41 +00:00
Bill Schmidt a87a7e2620 Implement the PowerPC system call (sc) instruction.
Instruction added at request of Roman Divacky.  Tested via asm-parser.

llvm-svn: 181821
2013-05-14 19:35:45 +00:00
Ulrich Weigand 300b6875fb [PowerPC] Add some Book II instructions to AsmParser
This patch adds a couple of Book II instructions (isync, icbi) to the
PowerPC assembler parser.  These are needed when bootstrapping clang
with the integrated assembler forced on, because they are used in
inline asm statements in the code base.

The test case adds the full list of Book II storage control instructions,
including associated extended mnemonics.  Again, those that are not yet
supported as marked as FIXME.

llvm-svn: 181052
2013-05-03 19:51:09 +00:00
Ulrich Weigand d839490f16 [PowerPC] Support extended mnemonics in AsmParser
This patch adds infrastructure to support extended mnemonics in the
PowerPC assembler parser.  It adds support specifically for those
extended mnemonics that LLVM will itself generate.

The test case lists *all* extended mnemonics according to the
PowerPC ISA v2.06 Book I, but marks those not yet supported
as FIXME.

llvm-svn: 181051
2013-05-03 19:50:27 +00:00
Ulrich Weigand 640192daa8 [PowerPC] Add assembler parser
This adds assembler parser support to the PowerPC back end.

The parser will run for any powerpc-*-* and powerpc64-*-* triples,
but was tested only on 64-bit Linux.  The supported syntax is
intended to be compatible with the GNU assembler.

The parser does not yet support all PowerPC instructions, but
it does support anything that is generated by LLVM itself.
There is no support for testing restricted instruction sets yet,
i.e. the parser will always accept any instructions it knows,
no matter what feature flags are given.

Instruction operands will be checked for validity and errors
generated.  (Error handling in general could still be improved.)

The patch adds a number of test cases to verify instruction
and operand encodings.  The tests currently cover all instructions
from the following PowerPC ISA v2.06 Book I facilities:
Branch, Fixed-point, Floating-Point, and Vector. 
Note that a number of these instructions are not yet supported
by the back end; they are marked with FIXME.

A number of follow-on check-ins will add extra features.  When
they are all included, LLVM passes all tests (including bootstrap)
when using clang -cc1as as the system assembler.

llvm-svn: 181050
2013-05-03 19:49:39 +00:00
Ulrich Weigand 136ac22eaa PowerPC: Use RegisterOperand instead of RegisterClass operands
In the default PowerPC assembler syntax, registers are specified simply
by number, so they cannot be distinguished from immediate values (without
looking at the opcode).  This means that the default operand matching logic
for the asm parser does not work, and we need to specify custom matchers.
Since those can only be specified with RegisterOperand classes and not
directly on the RegisterClass, all instructions patterns used by the asm
parser need to use a RegisterOperand (instead of a RegisterClass) for
all their register operands.

This patch adds one RegisterOperand for each RegisterClass, using the
same name as the class, just in lower case, and updates all instruction
patterns to use RegisterOperand instead of RegisterClass operands.

llvm-svn: 180611
2013-04-26 16:53:15 +00:00
Ulrich Weigand 48b949b650 PowerPC: Fix encoding of stfsu and stfdu instructions
When testing the asm parser, I noticed wrong encodings for the
above instructions (wrong sub-opcodes).  Note that apparently
the compiler currently never generates pre-inc instructions
for floating point types for some reason ...

Tests will be added together with the asm parser.

llvm-svn: 180607
2013-04-26 15:39:40 +00:00
Ulrich Weigand fa451ba1b9 PowerPC: Fix encoding of rldimi and rldcl instructions
When testing the asm parser, I noticed wrong encodings for the
above instructions (wrong operand name in rldimi, wrong form
and sub-opcode for rldcl).

Tests will be added together with the asm parser.

llvm-svn: 180606
2013-04-26 15:39:12 +00:00
Tim Northover a2b533906a Remove unused MEMBARRIER DAG node; it's been replaced by ATOMIC_FENCE.
llvm-svn: 179939
2013-04-20 12:32:17 +00:00
Ulrich Weigand d0585d8686 PowerPC: Mark some more patterns as isCodeGenOnly.
A couple of recently introduced conditional branch patterns
also need to be marked as isCodeGenOnly since they cannot
be handled by the asm parser.

No change in generated code.

llvm-svn: 179690
2013-04-17 17:19:05 +00:00
Hal Finkel 95e6ea69be Mark all PPC comparison instructions as not having side effects
Now that the CR spilling issues have been resolved, we can remove the
unmodeled-side-effect attributes from the comparison instructions (and also
mark them as isCompare). By allowing these, by default, to have unmodeled side
effects, we were hiding problems with CR spilling; but everything seems much
happier now.

llvm-svn: 179502
2013-04-15 02:37:46 +00:00
Hal Finkel 2f29391504 Mark all PPC CR registers to be spilled as live-in and tag MFCR appropriately
Leaving MFCR has having unmodeled side effects is not enough to prevent
unwanted instruction reordering post-RA. We could probably apply a stronger
barrier attribute, but there is a better way: Add all (not just the first) CR
to be spilled as live-in to the entry block, and add all CRs to the MFCR
instruction as implicitly killed.

Unfortunately, I don't have a small test case.

llvm-svn: 179465
2013-04-13 23:06:15 +00:00
Hal Finkel 1b58f335ca PPC: Remove (broken) nested implicit definition lists
TableGen will not combine nested list 'let' bindings into a single list, and
instead uses only the inner scope. As a result, several instruction definitions
were missing implicit register defs that were in outer scopes. This de-nests
these scopes and makes all instructions have only one let binding which sets
implicit register definitions.

llvm-svn: 179392
2013-04-12 18:17:57 +00:00
Hal Finkel 654d43b41a Add PPC instruction record forms and associated query functions
This is prep. work for the implementation of optimizeCompare. Many PPC
instructions have 'record' forms (in almost all cases, this means that the RC
bit is set) that cause the result of the instruction to be compared with zero,
and the result of that comparison saved in a predefined condition register. In
order to add the record forms of the instructions without too much
copy-and-paste, the relevant functions have been refactored into multiclasses
which define both the record and normal forms.

Also, two TableGen-generated mapping functions have been added which allow
querying the instruction code for the record form given the normal form (and
vice versa).

No functionality change intended.

llvm-svn: 179356
2013-04-12 02:18:09 +00:00
Hal Finkel 500b004566 PPC: Prep for if conversion of bctr[l]
This adds in-principle support for if-converting the bctr[l] instructions.
These instructions are used for indirect branching. It seems, however, that the
current if converter will never actually predicate these. To do so, it would
need the ability to hoist a few setup insts. out of the conditionally-executed
block. For example, code like this:
  void foo(int a, int (*bar)()) { if (a != 0) bar(); }
becomes:
        ...
        beq 0, .LBB0_2
        std 2, 40(1)
        mr 12, 4
        ld 3, 0(4)
        ld 11, 16(4)
        ld 2, 8(4)
        mtctr 3
        bctrl
        ld 2, 40(1)
.LBB0_2:
        ...
and it would be safe to do all of this unconditionally with a predicated
beqctrl instruction.

llvm-svn: 179156
2013-04-10 06:42:34 +00:00
Hal Finkel 5711eca19c Allow PPC B and BLR to be if-converted into some predicated forms
This enables us to form predicated branches (which are the same conditional
branches we had before) and also a larger set of predicated returns (including
instructions like bdnzlr which is a conditional return and loop-counter
decrement all in one).

At the moment, if conversion does not capture all possible opportunities. A
simple example is provided in early-ret2.ll, where if conversion forms one
predicated return, and then the PPCEarlyReturn pass picks up the other one. So,
at least for now, we'll keep both mechanisms.

llvm-svn: 179134
2013-04-09 22:58:37 +00:00
Hal Finkel b5aa7e54d9 Generate PPC early conditional returns
PowerPC has a conditional branch to the link register (return) instruction: BCLR.
This should be used any time when we'd otherwise have a conditional branch to a
return. This adds a small pass, PPCEarlyReturn, which runs just prior to the
branch selection pass (and, importantly, after block placement) to generate
these conditional returns when possible. It will also eliminate unconditional
branches to returns (these happen rarely; most of the time these have already
been tail duplicated by the time PPCEarlyReturn is invoked). This is a nice
optimization for small functions that do not maintain a stack frame.

llvm-svn: 179026
2013-04-08 16:24:03 +00:00
Hal Finkel 7795e47b5e PPC rotate instructions don't have unmodeled side effcts
llvm-svn: 178982
2013-04-07 15:06:53 +00:00
Hal Finkel b47a69acde Most PPC M[TF]CR instructions do not have side effects
llvm-svn: 178978
2013-04-07 14:33:13 +00:00
Hal Finkel 6efd45e902 PPC pre-increment load instructions do not have side effects
llvm-svn: 178972
2013-04-07 05:46:58 +00:00
Hal Finkel 933e8f037d PPC MCRF instruction does not have side effects
llvm-svn: 178971
2013-04-07 05:16:57 +00:00
Hal Finkel 94072b98eb PPC FMR instruction does not have side effects
llvm-svn: 178970
2013-04-07 04:56:16 +00:00
Hal Finkel 8fc33e5d95 PPC ISEL is a select and never has side effects
llvm-svn: 178960
2013-04-06 19:30:28 +00:00
Hal Finkel e5680b3c36 Rename the current PPC BCL definition to BCLalways
BCL is normally a conditional branch-and-link instruction, but has
an unconditional form (which is used in the SjLj code, for example).
To make clear that this BCL instruction definition is specifically
the special unconditional form (which does not meaningfully take
a condition-register input), rename it to BCLalways.

No functionality change intended.

llvm-svn: 178803
2013-04-04 22:55:54 +00:00
Hal Finkel 2e10331057 Use PPC reciprocal estimates with Newton iteration in fast-math mode
When unsafe FP math operations are enabled, we can use the fre[s] and
frsqrte[s] instructions, which generate reciprocal (sqrt) estimates, together
with some Newton iteration, in order to quickly generate floating-point
division and sqrt results. All of these instructions are separately optional,
and so each has its own feature flag (except for the Altivec instructions,
which are covered under the existing Altivec flag). Doing this is not only
faster than using the IEEE-compliant fdiv/fsqrt instructions, but allows these
computations to be pipelined with other computations in order to hide their
overall latency.

I've also added a couple of missing fnmsub patterns which turned out to be
missing (but are necessary for good code generation of the Newton iterations).
Altivec needs a similar fix, but that will probably be more complicated because
fneg is expanded for Altivec's v4f32.

llvm-svn: 178617
2013-04-03 04:01:11 +00:00
Hal Finkel f6d45f2379 Add more PPC floating-point conversion instructions
The P7 and A2 have additional floating-point conversion instructions which
allow a direct two-instruction sequence (plus load/store) to convert from all
combinations (signed/unsigned i32/i64) <--> (float/double) (on previous cores,
only some combinations were directly available).

llvm-svn: 178480
2013-04-01 17:52:07 +00:00
Hal Finkel beb296bea1 Add the PPC lfiwax instruction
This instruction is available on modern PPC64 CPUs, and is now used
to improve the SINT_TO_FP lowering (by eliminating the need for the
separate sign extension instruction and decreasing the amount of
needed stack space).

llvm-svn: 178446
2013-03-31 10:12:51 +00:00
Hal Finkel e53429a13e Cleanup PPC(64) i32 -> float/double conversion
The existing SINT_TO_FP code for i32 -> float/double conversion was disabled
because it relied on broken EXTSW_32/STD_32 instruction definitions. The
original intent had been to enable these 64-bit instructions to be used on CPUs
that support them even in 32-bit mode.  Unfortunately, this form of lying to
the infrastructure was buggy (as explained in the FIXME comment) and had
therefore been disabled.

This re-enables this functionality, using regular DAG nodes, but only when
compiling in 64-bit mode. The old STD_32/EXTSW_32 definitions (which were dead)
are removed.

llvm-svn: 178438
2013-03-31 01:58:02 +00:00
Hal Finkel f8ac57e289 Implement FRINT lowering on PPC using frin
Like nearbyint, rint can be implemented on PPC using the frin instruction. The
complication comes from the fact that rint needs to set the FE_INEXACT flag
when the result does not equal the input value (and frin does not do that). As
a result, we use a custom inserter which, after the rounding, compares the
rounded value with the original, and if they differ, explicitly sets the XX bit
in the FPSCR register (which corresponds to FE_INEXACT).

Once LLVM has better modeling of the floating-point environment we should be
able to (often) eliminate this extra complexity.

llvm-svn: 178362
2013-03-29 19:41:55 +00:00
Hal Finkel c20a08d25b Add PPC FP rounding instructions fri[mnpz]
These instructions are available on the P5x (and later) and on the A2. They
implement the standard floating-point rounding operations (floor, trunc, etc.).
One caveat: frin (round to nearest) does not implement "ties to even", and so
is only enabled in fast-math mode.

llvm-svn: 178337
2013-03-29 08:57:48 +00:00
Hal Finkel 31d2956510 Add the PPC64 ldbrx/stdbrx instructions
These are 64-bit load/store with byte-swap, and available on the P7 and the A2.
Like the similar instructions for 16- and 32-bit words, these are matched in the
target DAG-combine phase against load/store-bswap pairs.

llvm-svn: 178276
2013-03-28 19:25:55 +00:00
Hal Finkel 3fa362a51a Apply the no-r0 register class to the PPC SELECT_CC_I[4|8] pseudos
Either operand of these pseudo instructions can be transformed into the first
operand of an isel instruction (and this operand cannot be r0).

This is not yet testable because we don't yet allocate r0 (and even when we do,
any test would be very fragile).

llvm-svn: 178119
2013-03-27 05:57:58 +00:00
Ulrich Weigand bbfb0c55c8 PowerPC: Mark patterns as isCodeGenOnly.
There remain a number of patterns that cannot (and should not)
be handled by the asm parser, in particular all the Pseudo patterns.

This commit marks those patterns as isCodeGenOnly.

No change in generated code.

llvm-svn: 178008
2013-03-26 10:57:16 +00:00
Ulrich Weigand 874fc628df PowerPC: Simplify FADD in round-to-zero mode.
As part of the the sequence generated to implement long double -> int
conversions, we need to perform an FADD in round-to-zero mode.  This is
problematical since the FPSCR is not at all modeled at the SelectionDAG
level, and thus there is a risk of getting floating point instructions
generated out of sequence with the instructions to modify FPSCR.

The current code handles this by somewhat "special" patterns that in part
have dummy operands, and/or duplicate existing instructions, making them
awkward to handle in the asm parser.

This commit changes this by leaving the "FADD in round-to-zero mode"
as an atomic operation on the SelectionDAG level, and only split it up into
real instructions at the MI level (via custom inserter).  Since at *this*
level the FPSCR *is* modeled (via the "RM" hard register), much of the
"special" stuff can just go away, and the resulting patterns can be used by
the asm parser.

No significant change in generated code expected.

llvm-svn: 178006
2013-03-26 10:56:22 +00:00
Ulrich Weigand 4a0838863b PowerPC: Remove LDrs pattern.
The LDrs pattern is a duplicate of LD, except that it accepts memory
addresses where the displacement is a symbolLo64.  An operand type
"memrs" is defined for just that purpose.

However, this wouldn't be necessary if the default "memrix" operand
type were to simply accept 64-bit symbolic addresses directly.
The only problem with that is that it uses "symbolLo", which is
hardcoded to 32-bit.

To fix this, this commit changes "memri" and "memrix" to use new
operand types for the memory displacement, which allow iPTR
instead of i32.  This will also make address parsing easier to
implment in the asm parser.

No change in generated code.

llvm-svn: 178005
2013-03-26 10:55:45 +00:00
Ulrich Weigand 35f9fdfdfd PowerPC: Remove ADDIL patterns.
The ADDI/ADDI8 patterns are currently duplicated into ADDIL/ADDI8L,
which describe the same instruction, except that they accept a
symbolLo[64] operand instead of a s16imm[64] operand.

This duplication confuses the asm parser, and it actually not really
needed, since symbolLo[64] already accepts immediate operands anyway.
So this commit removes the duplicate patterns.

No change in generated code.

llvm-svn: 178004
2013-03-26 10:55:20 +00:00
Ulrich Weigand 4749b1ecd8 PowerPC: Use CCBITRC operand for ISEL patterns.
This commit changes the ISEL patterns to use a CCBITRC operand
instead of a "pred" operand.  This matches the actual instruction
text more directly, and simplifies use of ISEL with the asm parser.
In addition, this change allows some simplification of handling
the "pred" operand, as this is now only used by BCC.

No change in generated code.

llvm-svn: 178003
2013-03-26 10:54:54 +00:00
Ulrich Weigand 63aa852a84 PowerPC: Simplify BLR pattern.
The BLR pattern cannot be recognized by the asm parser in its current form.
This complexity is due to an apparent attempt to enable conditional BLR
variants.  However, none of those can ever be generated by current code;
the pattern is only ever created using the default "pred" operand.

To simplify the pattern and allow it to be recognized by the parser,
this commit removes those attempts at conditional BLR support.

When we later come back to actually add real conditional BLR, this
should probably be done via a fully generic conditional branch pattern.

No change in generated code.

llvm-svn: 178002
2013-03-26 10:53:27 +00:00
Ulrich Weigand c8868106e6 Use direct types in PowerPC instruction patterns.
This commit updates the PowerPC back-end (PPCInstrInfo.td and
PPCInstr64Bit.td) to use types instead of register classes in
instruction patterns, along the lines of Jakob Stoklund Olesen's
changes in r177835 for Sparc.
 

llvm-svn: 177890
2013-03-25 19:05:30 +00:00
Ulrich Weigand ec6e2cd124 Use direct types in PowerPC Pat patterns.
This commit updates the PowerPC back-end (PPCInstrInfo.td and
PPCInstr64Bit.td) to use types instead of register classes in
Pat patterns, along the lines of Jakob Stoklund Olesen's
changes in r177829 for Sparc.

llvm-svn: 177889
2013-03-25 19:04:58 +00:00
Ulrich Weigand f62e83f415 Remove ABI-duplicated call instruction patterns.
We currently have a duplicated set of call instruction patterns depending
on the ABI to be followed (Darwin vs. Linux).  This is a bit odd; while the
different ABIs will result in different instruction sequences, the actual
instructions themselves ought to be independent of the ABI.  And in fact it
turns out that the only nontrivial difference between the two sets of
patterns is that in the PPC64 Linux ABI, the instruction used for indirect
calls is marked to take X11 as extra input register (which is indeed used
only with that ABI to hold an incoming environment pointer for nested
functions).  However, this does not need to be hard-coded at the .td
pattern level; instead, the C++ code expanding calls can simply add that
use, just like it adds uses for argument registers anyway.

No change in generated code expected.

llvm-svn: 177735
2013-03-22 15:24:13 +00:00
Ulrich Weigand 1df06d8b58 Rename memrr ptrreg and offreg components.
Currently, the sub-operand of a memrr address that corresponds to what
hardware considers the base register is called "offreg", while the
sub-operand that corresponds to the offset is called "ptrreg".

To avoid confusion, this patch simply swaps the named of those two
sub-operands and updates all uses.  No functional change is intended.

llvm-svn: 177734
2013-03-22 14:59:13 +00:00
Ulrich Weigand e90b022468 Fix swapped BasePtr and Offset in pre-inc memory addresses.
PPCTargetLowering::getPreIndexedAddressParts currently provides
the base part of a memory address in the offset result, and the
offset part in the base result.  That swap is then undone again
when an MI instruction is generated (in PPCDAGToDAGISel::Select
for loads, and using .md Pat patterns for stores).

This patch reverts this double swap, to make common code and
back-end be in sync as to which part of the address is base
and which is offset.

To avoid performance regressions in certain cases, target code
now checks whether the choice of base register would be rejected
for pre-inc accesses by common code, and attempts to swap base
and offset again in such cases.  (Overall, this means that now
pre-ice accesses are generated *more* frequently than before.)

llvm-svn: 177733
2013-03-22 14:58:48 +00:00
Ulrich Weigand e448badbb1 Remove the xaddroff ComplexPattern.
The xaddroff pattern is currently (mistakenly) used to recognize
the *base* register in pre-inc store patterns.  This patch replaces
those uses by ptr_rc_nor0 (as is elsewhere done to match the base
register of an address), and removes the now unused ComplexPattern.

llvm-svn: 177731
2013-03-22 14:57:48 +00:00
Hal Finkel 756810fe36 Implement builtin_{setjmp/longjmp} on PPC
This implements SJLJ lowering on PPC, making the Clang functions
__builtin_{setjmp/longjmp} functional on PPC platforms. The implementation
strategy is similar to that on X86, with the exception that a branch-and-link
variant is used to get the right jump address. Credit goes to Bill Schmidt for
suggesting the use of the unconditional bcl form (instead of the regular bl
instruction) to limit return-address-cache pollution.

Benchmarking the speed at -O3 of:

static jmp_buf env_sigill;

void foo() {
                __builtin_longjmp(env_sigill,1);
}

main() {
	...

        for (int i = 0; i < c; ++i) {
                if (__builtin_setjmp(env_sigill)) {
                        goto done;
                } else {
                        foo();
                }

done:;
        }

	...
}

vs. the same code using the libc setjmp/longjmp functions on a P7 shows that
this builtin implementation is ~4x faster with Altivec enabled and ~7.25x
faster with Altivec disabled. This comparison is somewhat unfair because the
libc version must also save/restore the VSX registers which we don't yet
support.

llvm-svn: 177666
2013-03-21 21:37:52 +00:00
Hal Finkel a1431df540 Add support for spilling VRSAVE on PPC
Although there is only one Altivec VRSAVE register, it is a member of
a register class, and we need the ability to spill it. Because this
register is normally callee-preserved and handled by special code this
has never before been necessary. However, this capability will be required by
a forthcoming commit adding SjLj support.

llvm-svn: 177654
2013-03-21 19:03:21 +00:00
Ulrich Weigand d850167a19 Rewrite pre-increment store patterns to use standard memory operands.
Currently, pre-increment store patterns are written to use two separate
operands to represent address base and displacement:

  stwu $rS, $ptroff($ptrreg)

This causes problems when implementing the assembler parser, so this
commit changes the patterns to use standard (complex) memory operands
like in all other memory access instruction patterns:

  stwu $rS, $dst

To still match those instructions against the appropriate pre_store
SelectionDAG nodes, the patch uses the new feature that allows a Pat
to match multiple DAG operands against a single (complex) instruction
operand.

Approved by Hal Finkel.

llvm-svn: 177429
2013-03-19 19:52:04 +00:00
Hal Finkel 638a9fa43e Prepare to make r0 an allocatable register on PPC
Currently the PPC r0 register is unconditionally reserved. There are two reasons
for this:

 1. r0 is treated specially (as the constant 0) by certain instructions, and so
    cannot be used with those instructions as a regular register.

 2. r0 is used as a temporary register in the CR-register spilling process
    (where, under some circumstances, we require two GPRs).

This change addresses the first reason by introducing a restricted register
class (without r0) for use by those instructions that treat r0 specially. These
register classes have a new pseudo-register, ZERO, which represents the r0-as-0
use. This has the side benefit of making the existing target code simpler (and
easier to understand), and will make it clear to the register allocator that
uses of r0 as 0 don't conflict will real uses of the r0 register.

Once the CR spilling code is improved, we'll be able to allocate r0.

Adding these extra register classes, for some reason unclear to me, causes
requests to the target to copy 32-bit registers to 64-bit registers. The
resulting code seems correct (and causes no test-suite failures), and the new
test case covers this new kind of asymmetric copy.

As r0 is still reserved, no functionality change intended.

llvm-svn: 177423
2013-03-19 18:51:05 +00:00
Hal Finkel b09680b0f7 Fix PPC unaligned 64-bit loads and stores
PPC64 supports unaligned loads and stores of 64-bit values, but
in order to use the r+i forms, the offset must be a multiple of 4.
Unfortunately, this cannot always be determined by examining the
immediate itself because it might be available only via a TOC entry.

In order to get around this issue, we additionally predicate the
selection of the r+i form on the alignment of the load or store
(forcing it to be at least 4 in order to select the r+i form).

llvm-svn: 177338
2013-03-18 23:00:58 +00:00
Bill Schmidt 27917785ae Large code model support for PowerPC.
Large code model is identical to medium code model except that the
addis/addi sequence for "local" accesses is never used.  All accesses
use the addis/ld sequence.

The coding changes are straightforward; most of the patch is taken up
with creating variants of the medium model tests for large model.

llvm-svn: 175767
2013-02-21 17:12:27 +00:00
Bill Schmidt 3822ef2c0c Relocation enablement for PPC DAG postprocessing pass
llvm-svn: 175693
2013-02-21 00:05:29 +00:00
Bill Schmidt 9f0b4ec0f5 This patch improves the 64-bit PowerPC InitialExec TLS support by providing
for a wider range of GOT entries that can hold thread-relative offsets.
This matches the behavior of GCC, which was not documented in the PPC64 TLS
ABI.  The ABI will be updated with the new code sequence.

Former sequence:

  ld 9,x@got@tprel(2)
  add 9,9,x@tls

New sequence:

  addis 9,2,x@got@tprel@ha
  ld 9,x@got@tprel@l(9)
  add 9,9,x@tls

Note that a linker optimization exists to transform the new sequence into
the shorter sequence when appropriate, by replacing the addis with a nop
and modifying the base register and relocation type of the ld.

llvm-svn: 170209
2012-12-14 17:02:38 +00:00
Bill Schmidt 24b8dd6eb7 This patch implements local-dynamic TLS model support for the 64-bit
PowerPC target.  This is the last of the four models, so we now have 
full TLS support.

This is mostly a straightforward extension of the general dynamic model.
I had to use an additional Chain operand to tie ADDIS_DTPREL_HA to the
register copy following ADDI_TLSLD_L; otherwise everything above the
ADDIS_DTPREL_HA appeared dead and was removed.

As before, there are new test cases to test the assembly generation, and
the relocations output during integrated assembly.  The expected code
gen sequence can be read in test/CodeGen/PowerPC/tls-ld.ll.

There are a couple of things I think can be done more efficiently in the
overall TLS code, so there will likely be a clean-up patch forthcoming;
but for now I want to be sure the functionality is in place.

Bill

llvm-svn: 170003
2012-12-12 19:29:35 +00:00
Bill Schmidt c56f1d34bc This patch implements the general dynamic TLS model for 64-bit PowerPC.
Given a thread-local symbol x with global-dynamic access, the generated
code to obtain x's address is:

     Instruction                            Relocation            Symbol
  addis ra,r2,x@got@tlsgd@ha           R_PPC64_GOT_TLSGD16_HA       x
  addi  r3,ra,x@got@tlsgd@l            R_PPC64_GOT_TLSGD16_L        x
  bl __tls_get_addr(x@tlsgd)           R_PPC64_TLSGD                x
                                       R_PPC64_REL24           __tls_get_addr
  nop
  <use address in r3>

The implementation borrows from the medium code model work for introducing
special forms of ADDIS and ADDI into the DAG representation.  This is made
slightly more complicated by having to introduce a call to the external
function __tls_get_addr.  Using the full call machinery is overkill and,
more importantly, makes it difficult to add a special relocation.  So I've
introduced another opcode GET_TLS_ADDR to represent the function call, and
surrounded it with register copies to set up the parameter and return value.

Most of the code is pretty straightforward.  I ran into one peculiarity
when I introduced a new PPC opcode BL8_NOP_ELF_TLSGD, which is just like
BL8_NOP_ELF except that it takes another parameter to represent the symbol
("x" above) that requires a relocation on the call.  Something in the 
TblGen machinery causes BL8_NOP_ELF and BL8_NOP_ELF_TLSGD to be treated
identically during the emit phase, so this second operand was never
visited to generate relocations.  This is the reason for the slightly
messy workaround in PPCMCCodeEmitter.cpp:getDirectBrEncoding().

Two new tests are included to demonstrate correct external assembly and
correct generation of relocations using the integrated assembler.

Comments welcome!

Thanks,
Bill

llvm-svn: 169910
2012-12-11 20:30:11 +00:00
Bill Schmidt ca4a0c9dbd This patch introduces initial-exec model support for thread-local storage
on 64-bit PowerPC ELF.

The patch includes code to handle external assembly and MC output with the
integrated assembler.  It intentionally does not support the "old" JIT.

For the initial-exec TLS model, the ABI requires the following to calculate
the address of external thread-local variable x:

 Code sequence            Relocation                  Symbol
  ld 9,x@got@tprel(2)      R_PPC64_GOT_TPREL16_DS      x
  add 9,9,x@tls            R_PPC64_TLS                 x

The register 9 is arbitrary here.  The linker will replace x@got@tprel
with the offset relative to the thread pointer to the generated GOT
entry for symbol x.  It will replace x@tls with the thread-pointer
register (13).

The two test cases verify correct assembly output and relocation output
as just described.

PowerPC-specific selection node variants are added for the two
instructions above:  LD_GOT_TPREL and ADD_TLS.  These are inserted
when an initial-exec global variable is encountered by
PPCTargetLowering::LowerGlobalTLSAddress(), and later lowered to
machine instructions LDgotTPREL and ADD8TLS.  LDgotTPREL is a pseudo
that uses the same LDrs support added for medium code model's LDtocL,
with a different relocation type.

The rest of the processing is straightforward.

llvm-svn: 169281
2012-12-04 16:18:08 +00:00
Bill Schmidt 34627e3434 This patch implements medium code model support for 64-bit PowerPC.
The default for 64-bit PowerPC is small code model, in which TOC entries
must be addressable using a 16-bit offset from the TOC pointer.  Additionally,
only TOC entries are addressed via the TOC pointer.

With medium code model, TOC entries and data sections can all be addressed
via the TOC pointer using a 32-bit offset.  Cooperation with the linker
allows 16-bit offsets to be used when these are sufficient, reducing the
number of extra instructions that need to be executed.  Medium code model
also does not generate explicit TOC entries in ".section toc" for variables
that are wholly internal to the compilation unit.

Consider a load of an external 4-byte integer.  With small code model, the
compiler generates:

	ld 3, .LC1@toc(2)
	lwz 4, 0(3)

	.section	.toc,"aw",@progbits
.LC1:
	.tc ei[TC],ei

With medium model, it instead generates:

	addis 3, 2, .LC1@toc@ha
	ld 3, .LC1@toc@l(3)
	lwz 4, 0(3)

	.section	.toc,"aw",@progbits
.LC1:
	.tc ei[TC],ei

Here .LC1@toc@ha is a relocation requesting the upper 16 bits of the
32-bit offset of ei's TOC entry from the TOC base pointer.  Similarly,
.LC1@toc@l is a relocation requesting the lower 16 bits.  Note that if
the linker determines that ei's TOC entry is within a 16-bit offset of
the TOC base pointer, it will replace the "addis" with a "nop", and
replace the "ld" with the identical "ld" instruction from the small
code model example.

Consider next a load of a function-scope static integer.  For small code
model, the compiler generates:

	ld 3, .LC1@toc(2)
	lwz 4, 0(3)

	.section	.toc,"aw",@progbits
.LC1:
	.tc test_fn_static.si[TC],test_fn_static.si
	.type	test_fn_static.si,@object
	.local	test_fn_static.si
	.comm	test_fn_static.si,4,4

For medium code model, the compiler generates:

	addis 3, 2, test_fn_static.si@toc@ha
	addi 3, 3, test_fn_static.si@toc@l
	lwz 4, 0(3)

	.type	test_fn_static.si,@object
	.local	test_fn_static.si
	.comm	test_fn_static.si,4,4

Again, the linker may replace the "addis" with a "nop", calculating only
a 16-bit offset when this is sufficient.

Note that it would be more efficient for the compiler to generate:

	addis 3, 2, test_fn_static.si@toc@ha
        lwz 4, test_fn_static.si@toc@l(3)

The current patch does not perform this optimization yet.  This will be
addressed as a peephole optimization in a later patch.

For the moment, the default code model for 64-bit PowerPC will remain the
small code model.  We plan to eventually change the default to medium code
model, which matches current upstream GCC behavior.  Note that the different
code models are ABI-compatible, so code compiled with different models will
be linked and execute correctly.

I've tested the regression suite and the application/benchmark test suite in
two ways:  Once with the patch as submitted here, and once with additional
logic to force medium code model as the default.  The tests all compile
cleanly, with one exception.  The mandel-2 application test fails due to an
unrelated ABI compatibility with passing complex numbers.  It just so happens
that small code model was incredibly lucky, in that temporary values in 
floating-point registers held the expected values needed by the external
library routine that was called incorrectly.  My current thought is to correct
the ABI problems with _Complex before making medium code model the default,
to avoid introducing this "regression."

Here are a few comments on how the patch works, since the selection code
can be difficult to follow:

The existing logic for small code model defines three pseudo-instructions:
LDtoc for most uses, LDtocJTI for jump table addresses, and LDtocCPT for
constant pool addresses.  These are expanded by SelectCodeCommon().  The
pseudo-instruction approach doesn't work for medium code model, because
we need to generate two instructions when we match the same pattern.
Instead, new logic in PPCDAGToDAGISel::Select() intercepts the TOC_ENTRY
node for medium code model, and generates an ADDIStocHA followed by either
a LDtocL or an ADDItocL.  These new node types correspond naturally to
the sequences described above.

The addis/ld sequence is generated for the following cases:
 * Jump table addresses
 * Function addresses
 * External global variables
 * Tentative definitions of global variables (common linkage)

The addis/addi sequence is generated for the following cases:
 * Constant pool entries
 * File-scope static global variables
 * Function-scope static variables

Expanding to the two-instruction sequences at select time exposes the
instructions to subsequent optimization, particularly scheduling.

The rest of the processing occurs at assembly time, in
PPCAsmPrinter::EmitInstruction.  Each of the instructions is converted to
a "real" PowerPC instruction.  When a TOC entry needs to be created, this
is done here in the same manner as for the existing LDtoc, LDtocJTI, and
LDtocCPT pseudo-instructions (I factored out a new routine to handle this).

I had originally thought that if a TOC entry was needed for LDtocL or
ADDItocL, it would already have been generated for the previous ADDIStocHA.
However, at higher optimization levels, the ADDIStocHA may appear in a 
different block, which may be assembled textually following the block
containing the LDtocL or ADDItocL.  So it is necessary to include the
possibility of creating a new TOC entry for those two instructions.

Note that for LDtocL, we generate a new form of LD called LDrs.  This
allows specifying the @toc@l relocation for the offset field of the LD
instruction (i.e., the offset is replaced by a SymbolLo relocation).
When the peephole optimization described above is added, we will need
to do similar things for all immediate-form load and store operations.

The seven "mcm-n.ll" test cases are kept separate because otherwise the
intermingling of various TOC entries and so forth makes the tests fragile
and hard to understand.

The above assumes use of an external assembler.  For use of the
integrated assembler, new relocations are added and used by
PPCELFObjectWriter.  Testing is done with "mcm-obj.ll", which tests for
proper generation of the various relocations for the same sequences
tested with the external assembler.

llvm-svn: 168708
2012-11-27 17:35:46 +00:00
Ulrich Weigand 0f79500af5 Fix wrong PowerPC instruction opcodes for:
- lwaux
 - lhzux
 - stbu

llvm-svn: 167863
2012-11-13 19:21:31 +00:00
Ulrich Weigand a82389b3d0 Fix wrong PowerPC instruction encodings due to
operand field name mismatches in:
 - AForm_3  (fmul, fmuls)
 - XFXForm_5 (mtcrf)
 - XFLForm (mtfsf)

llvm-svn: 167862
2012-11-13 19:19:46 +00:00
Ulrich Weigand 0117718580 Fix instruction encoding for "bd(n)z" on PowerPC,
by using a new instruction format BForm_1.

llvm-svn: 167861
2012-11-13 19:15:52 +00:00
Ulrich Weigand 84ee76acfe Fix instruction encoding for "isel" on PowerPC,
using a new instruction format AForm_4.

llvm-svn: 167860
2012-11-13 19:14:19 +00:00
Will Schmidt 314c6c4c2b - Mark the BCC and BLR defs as isCodeGenOnly per error output from
llvm-tblgen -gen-asm-matcher.

 PPCInstrInfo.td |   11 ++++++-----
 1 file changed, 6 insertions(+), 5 deletions(-)

llvm-svn: 165315
2012-10-05 15:16:11 +00:00
Will Schmidt 4a67f2e2a7 - add tokens to PPCInstrInfo.td and PPCInstr64Bit.td to resolve
"Instruction 'foo' has no tokens" errors during llvm-tblgen
-gen-asm-matcher attempts.  At this time, the added
tokens are "#comment" style rather than the actual mnemonic.  This will
be revisited once the rest of the base asmparser bits get straightened
out for ppc64-elf-linux.

llvm-svn: 165237
2012-10-04 18:14:28 +00:00
Hal Finkel efe4a44106 Move the PPC TOC defs into the PPC64 InstrInfo file.
Since TOC is just defined for PPC64, move its definition to PPC64 td file.

Patch by Adhemerval Zanella.

llvm-svn: 163234
2012-09-05 19:22:27 +00:00
Hal Finkel 679c73cb33 Split several PPC instruction classes.
Slight reorganisation of PPC instruction classes for scheduling. No
functionality change for existing subtargets.
 - Clearly separate load/store-with-update instructions from regular loads and stores.
 - Split IntRotateD -> IntRotateD and IntRotateDI
 - Split out fsub and fadd from FPGeneral -> FPAddSub
 - Update existing itineraries

Patch by Tobias von Koch.

llvm-svn: 162729
2012-08-28 02:49:14 +00:00
Hal Finkel 686f2ee226 Allow remat of LI on PPC.
Allow load-immediates to be rematerialised in the register coalescer for
PPC. This makes test/CodeGen/PowerPC/big-endian-formal-args.ll fail,
because it relies on a register move getting emitted. The immediate load is
equivalent, so change this test case.

Patch by Tobias von Koch.

llvm-svn: 162727
2012-08-28 02:10:33 +00:00
Hal Finkel 5ab378037f Eliminate redundant CR moves on PPC32.
The 32-bit ABI requires CR bit 6 to be set if the call has fp arguments and
unset if it doesn't. The solution up to now was to insert a MachineNode to
set/unset the CR bit, which produces a CR vreg. This vreg was then copied
into CR bit 6. When the register allocator saw a bunch of these in the same
function, it allocated the set/unset CR bit in some random CR register (1
extra instruction) and then emitted CR moves before every vararg function
call, rather than just setting and unsetting CR bit 6 directly before every
vararg function call. This patch instead inserts a PPCcrset/PPCcrunset
instruction which are then matched by a dedicated instruction pattern.

Patch by Tobias von Koch.

llvm-svn: 162725
2012-08-28 02:10:27 +00:00
Jakob Stoklund Olesen a954e92053 Add missing SDNPSideEffect flags.
llvm-svn: 162557
2012-08-24 14:43:27 +00:00
Jakob Stoklund Olesen ed6c0408fa Remove variable_ops from call instructions in most targets.
Call instructions are no longer required to be variadic, and
variable_ops should only be used for instructions that encode a variable
number of arguments, like the ARM stm/ldm instructions.

llvm-svn: 160189
2012-07-13 20:44:29 +00:00
Hal Finkel 460e94d842 Add support for the PPC isel instruction.
The isel (integer select) instruction is supported on the 440 and A2
embedded cores and on the POWER7.

llvm-svn: 159045
2012-06-22 23:10:08 +00:00
Hal Finkel 0a479ae7d1 Convert the PPC backend to use the new FMA infrastructure.
The existing contraction patterns are replaced with fma/fneg.
Overall functionality should be the same.

llvm-svn: 158955
2012-06-22 00:49:52 +00:00
Hal Finkel ca542beffe Add support for generating reg+reg (indexed) pre-inc loads on PPC.
llvm-svn: 158823
2012-06-20 15:43:03 +00:00
Lang Hames 39fb1d08dc Add DAG-combines for aggressive FMA formation.
This patch adds DAG combines to form FMAs from pairs of FADD + FMUL or
FSUB + FMUL. The combines are performed when:
(a) Either
      AllowExcessFPPrecision option (-enable-excess-fp-precision for llc)
        OR
      UnsafeFPMath option (-enable-unsafe-fp-math)
    are set, and
(b) TargetLoweringInfo::isFMAFasterThanMulAndAdd(VT) is true for the type of
    the FADD/FSUB, and
(c) The FMUL only has one user (the FADD/FSUB).

If your target has fast FMA instructions you can make use of these combines by
overriding TargetLoweringInfo::isFMAFasterThanMulAndAdd(VT) to return true for
types supported by your FMA instruction, and adding patterns to match ISD::FMA
to your FMA instructions.

llvm-svn: 158757
2012-06-19 22:51:23 +00:00
Hal Finkel 1cc27e44a4 Add support for generating reg+reg preinc stores on PPC.
PPC will now generate STWUX and friends.

llvm-svn: 158698
2012-06-19 02:34:32 +00:00
Hal Finkel 8c33dde666 Split out the PPC instruction class IntSimple from IntGeneral.
On the POWER7, adds and logical operations can also be handled
in the load/store pipelines. We'll call these IntSimple.

llvm-svn: 158366
2012-06-12 19:01:24 +00:00
Hal Finkel 2c09058f19 Emit the two-operand form of the PPC mfcr instruction as mfocrf.
This is necessary on Linux and supported on Darwin, see PR2604.

llvm-svn: 158315
2012-06-11 15:43:15 +00:00
Hal Finkel 96c2d4d945 Add the PPCCTRLoops pass: a PPC machine-code-level optimization pass to form CTR-based loop branching code.
This pass is derived from the Hexagon HardwareLoops pass. The only significant enhancement over the Hexagon
pass is that PPCCTRLoops will also attempt to delete the replaced add and compare operations if they are
no longer otherwise used. Also, invalid preheader DebugLoc is not used.

llvm-svn: 158204
2012-06-08 15:38:21 +00:00
Roman Divacky e3f15c98d1 Implement local-exec TLS on PowerPC.
llvm-svn: 157935
2012-06-04 17:36:38 +00:00
Hal Finkel 322e41a914 Enable prefetch generation on PPC64.
llvm-svn: 153851
2012-04-01 20:08:17 +00:00
Hal Finkel 59607e63cb Split the LdStGeneral PPC itin. class into LdStLoad and LdStStore.
Loads and stores can have different pipeline behavior, especially on
embedded chips. This change allows those differences to be expressed.
Except for the 440 scheduler, there are no functionality changes.
On the 440, the latency adjustment is only by one cycle, and so this
probably does not affect much. Nevertheless, it will make a larger
difference in the future and this removes a FIXME from the 440 itin.

llvm-svn: 153821
2012-04-01 04:44:16 +00:00
Hal Finkel 51861b4855 Fix dynamic linking on PPC64.
Dynamic linking on PPC64 has had problems since we had to move the top-down
hazard-detection logic post-ra. For dynamic linking to work there needs to be
a nop placed after every call. It turns out that it is really hard to guarantee
that nothing will be placed in between the call (bl) and the nop during post-ra
scheduling. Previous attempts at fixing this by placing logic inside the
hazard detector only partially worked.

This is now fixed in a different way: call+nop codegen-only instructions. As far
as CodeGen is concerned the pair is now a single instruction and cannot be split.
This solution works much better than previous attempts.

The scoreboard hazard detector is also renamed to be more generic, there is currently
no cpu-specific logic in it.

llvm-svn: 153816
2012-03-31 14:45:15 +00:00
Roman Divacky ef21be2cda Convert PowerPC to register mask operands.
llvm-svn: 152122
2012-03-06 16:41:49 +00:00
Jia Liu b22310fda6 Emacs-tag and some comment fix for all ARM, CellSPU, Hexagon, MBlaze, MSP430, PPC, PTX, Sparc, X86, XCore.
llvm-svn: 150878
2012-02-18 12:03:15 +00:00
Hal Finkel ac9df3d411 make CR spill and restore 64-bit clean (no functional change), and fix some other problems found with -verify-machineinstrs
llvm-svn: 146024
2011-12-07 06:34:06 +00:00
Hal Finkel abbc2529c1 set mayStore and mayLoad on CR pseudos
llvm-svn: 146022
2011-12-07 06:33:57 +00:00
Hal Finkel bde7f8ffe2 add RESTORE_CR and support CR unspills
llvm-svn: 145961
2011-12-06 20:55:36 +00:00
Nick Lewycky 50f02cb21b Move global variables in TargetMachine into new TargetOptions class. As an API
change, now you need a TargetOptions object to create a TargetMachine. Clang
patch to follow.

One small functionality change in PTX. PTX had commented out the machine
verifier parts in their copy of printAndVerify. That now calls the version in
LLVMTargetMachine. Users of PTX who need verification disabled should rely on
not passing the command-line flag to enable it.

llvm-svn: 145714
2011-12-02 22:16:29 +00:00
Hal Finkel 6fa5697af0 Add PPC 440 scheduler and some associated tests
llvm-svn: 142170
2011-10-17 04:03:49 +00:00
Roman Divacky 71038e7021 Set CR1EQ only when lowering vararg floating arguments (not any vararg
arguments as before), unset CR1EQ otherwise.

llvm-svn: 138802
2011-08-30 17:04:16 +00:00
Eli Friedman 26a484852e Code generation for 'fence' instruction.
llvm-svn: 136283
2011-07-27 22:21:52 +00:00
Cameron Zwarich dadd73390f Fix PR8828 by removing the explicit def in MovePCToLR as well as the pointless
piclabel operand. The operand in the tablegen definition doesn't actually turn
into an MI operand, so it just confuses anything checking the TargetInstrDesc
for the number of operands. It suffices to just have an implicit def of LR.

llvm-svn: 131626
2011-05-19 02:56:28 +00:00
Jakob Stoklund Olesen 86e1a65ce5 PowerPC atomic pseudos clobber CR0, they don't read it.
llvm-svn: 128829
2011-04-04 17:07:09 +00:00
Chris Lattner 2a0a3b43d7 Flag -> Glue, the ongoing saga
llvm-svn: 122513
2010-12-23 18:28:41 +00:00
Chris Lattner cfedba706c Fix a bug I introduced in the ppc refactoring, which caused long
branches to be emitted as:

 	bne cr0, 2
instead of:
 	bne cr0, $+8

llvm-svn: 119317
2010-11-16 01:45:05 +00:00
Chris Lattner efacb9ee42 split out an encoder for memri operands, allowing a relocation to be plopped
into the immediate field.  This allows us to encode stuff like this:

        lbz r3, lo16(__ZL4init)(r4)     ; globalopt.cpp:5
                                        ; encoding: [0x88,0x64,A,A]
                                        ;   fixup A - offset: 0, value: lo16(__ZL4init), kind: fixup_ppc_lo16

        stw r3, lo16(__ZL1s)(r5)        ; globalopt.cpp:6
                                        ; encoding: [0x90,0x65,A,A]
                                        ;   fixup A - offset: 0, value: lo16(__ZL1s), kind: fixup_ppc_lo16

With this, we should have a completely function MCCodeEmitter for PPC, wewt.

llvm-svn: 119134
2010-11-15 08:22:03 +00:00
Chris Lattner 8f4444d003 add support for encoding the lo14 forms used for a few PPC64 addressing
modes.  For example, we now get:

	ld r3, lo16(_G)(r3)             ; encoding: [0xe8,0x63,A,0bAAAAAA00]
                                        ;   fixup A - offset: 0, value: lo16(_G), kind: fixup_ppc_lo14

llvm-svn: 119133
2010-11-15 08:02:41 +00:00
Chris Lattner 6566112e9c implement the start of support for lo16 and ha16, allowing us to get stuff like:
lis r4, ha16(__ZL4init)         ; encoding: [0x3c,0x80,A,A]
                                        ;   fixup A - offset: 0, value: ha16(__ZL4init), kind: fixup_ppc_ha16

llvm-svn: 119127
2010-11-15 06:33:39 +00:00
Chris Lattner 0e3461e417 change direct branches to encode with the same encoding method
as direct calls.  Change conditional branches to encode with
their own method, simplifying the JIT encoder and making room
for adding an mc fixup.

llvm-svn: 119125
2010-11-15 06:09:35 +00:00
Chris Lattner 7064198397 eliminate a now-unneeded operand printer.
llvm-svn: 119124
2010-11-15 06:01:10 +00:00
Chris Lattner 79fa37152a split call operands out to their own encoding class, simplifying
code in the JIT.  Use this to form the first fixup for the PPC backend,
giving us stuff like this:

	bl L_foo$stub ; encoding: [0b010010AA,A,A,0bAAAAAA01]
                                        ;   fixup A - offset: 0, value: L_foo$stub, kind: fixup_ppc_br24

llvm-svn: 119123
2010-11-15 05:57:53 +00:00
Chris Lattner d6a07ccd10 add proper encoding for MTCRF instead of using a hack.
llvm-svn: 119121
2010-11-15 05:19:25 +00:00
Chris Lattner c877d8f44c add basic encoding support for immediates and registers, allowing us
to encode all of these instructions correctly (for example):

        mflr r0                         ; encoding: [0x7c,0x08,0x02,0xa6]
        stw r0, 8(r1)                   ; encoding: [0x90,0x01,0x00,0x08]
        stwu r1, -64(r1)                ; encoding: [0x94,0x21,0xff,0xc0]

llvm-svn: 119118
2010-11-15 04:51:55 +00:00
Chris Lattner aa4d03d1f5 remove asmstrings (which can never be printed) from pseudo
instructions, allowing is to eliminate some dead operand 
printing methods from the instprinter.

llvm-svn: 119113
2010-11-15 03:48:58 +00:00
Chris Lattner 2f9f63af0b lower PPC::MFCRpseud when transforming to MC, avoiding calling
the aborting printSpecial() method.  This gets us to 8 failures.

llvm-svn: 119084
2010-11-14 22:03:15 +00:00
Jakob Stoklund Olesen 44629eb81b Emit COPY instead of FMR/FMSD instructions for floating point conversion on
PowerPC.

llvm-svn: 108555
2010-07-16 21:03:52 +00:00
Dale Johannesen d7d6638e3e The PPC MFCR instruction implicitly uses all 8 of the CR
registers.  Currently it is not so marked, which leads to
VCMPEQ instructions that feed into it getting deleted.
If it is so marked, local RA complains about this sequence:
 vreg = MCRF  CR0
 MFCR  <kill of whatever preg got assigned to vreg>
All current uses of this instruction are only interested in
one of the 8 CR registers, so redefine MFCR to be a normal
unary instruction with a CR input (which is emitted only as
a comment).  That avoids all problems.  7739628.

llvm-svn: 104238
2010-05-20 17:48:26 +00:00
Dan Gohman 30e3db2ba3 Set isTerminator on TRAP instructions.
llvm-svn: 103778
2010-05-14 16:46:02 +00:00
Dan Gohman c56ca22616 Don't use isBarrier for the PowerPC sync instruction. isBarrier is for
control barriers, not memory ordering barriers.

llvm-svn: 103777
2010-05-14 16:42:16 +00:00
Chris Lattner 0433699ef0 set SDNPVariadic on nodes throughout the rest of the targets that
need them.

llvm-svn: 98937
2010-03-19 05:33:51 +00:00
Jakob Stoklund Olesen 17d54920d7 Merge PPC instructions FMRS and FMRD into a single FMR instruction.
This is possible because F8RC is a subclass of F4RC. We keep FMRSD around so
fextend has a pattern.

Also allow folding of memory operands on FMRSD.

llvm-svn: 97275
2010-02-26 21:53:24 +00:00
Chris Lattner d17089231a remove a bunch of dead named arguments in input patterns,
though some look dubious afaict, these are all ok.

llvm-svn: 96899
2010-02-23 06:54:29 +00:00
Chris Lattner 986ab3fb1d Eliminate some uses of immAllOnes, just use -1, it does
the same thing and is more efficient for the matcher.

llvm-svn: 96712
2010-02-21 03:12:16 +00:00
Jakob Stoklund Olesen aee326860c Don't specify CR sub-registers as implicit defs of BL instructions.
It is enough to give the super registers CR0, CR1, ..., and specifying the
sub-registers as well causes confusion in the liveness computations.

llvm-svn: 92778
2010-01-05 21:38:37 +00:00
Tilmann Scheller 79fef9349c Add support for calls through function pointers in the 64-bit PowerPC SVR4 ABI.
Patch contributed by Ken Werner of IBM!

llvm-svn: 91680
2009-12-18 13:00:15 +00:00