FailedISel MachineFunction property is part of the CodeGen pipeline
state as much as every other property, notably, Legalized,
RegBankSelected, and Selected. Let's make that part of the state also
serializable / de-serializable, so if GlobalISel aborts on some of the
functions of a large module, but not the others, it could be easily seen
and the state of the pipeline could be maintained through llc's
invocations with -stop-after / -start-after.
To make MIR printable and generally to not to break it too much too
soon, this patch also defers cleaning up the vreg -> LLT map until
ResetMachineFunctionPass.
To make MIR with FailedISel: true also machine verifiable, machine
verifier is changed so it treats a MIR-module as non-regbankselected and
non-selected if there is FailedISel property set.
Reviewers: qcolombet, ab
Reviewed By: dsanders
Subscribers: javed.absar, rovka, kristof.beyls, llvm-commits
Differential Revision: https://reviews.llvm.org/D42877
llvm-svn: 326343
Emulated TLS is enabled by llc flag -emulated-tls,
which is passed by clang driver.
When llc is called explicitly or from other drivers like LTO,
missing -emulated-tls flag would generate wrong TLS code for targets
that supports only this mode.
Now use useEmulatedTLS() instead of Options.EmulatedTLS to decide whether
emulated TLS code should be generated.
Unit tests are modified to run with and without the -emulated-tls flag.
Differential Revision: https://reviews.llvm.org/D42999
llvm-svn: 326341
Summary:
Expressions of the form x < 0 ? 0 : x; and x < -1 ? -1 : x can be lowered using bit-operations instead of branching or conditional moves
In thumb-mode this results in a two-instruction sequence, a shift followed by a bic or or while in ARM/thumb2 mode that has flexible second operand the shift can be folded into a single bic/or instructions. In most cases this results in smaller code and possibly less branches, and in no case larger than before.
Patch by Martin Svanfeldt
Reviewers: fhahn, pbarrio, rogfer01
Reviewed By: pbarrio, rogfer01
Subscribers: chrib, yroux, eugenis, efriedma, rogfer01, aemerson, javed.absar, kristof.beyls, llvm-commits
Differential Revision: https://reviews.llvm.org/D42574
llvm-svn: 326333
Also, rename 'foldOpWithConstantIntoOperand' because that's annoyingly
vague. The constant check is redundant in some cases, but it allows
removing duplication for most of the calls.
llvm-svn: 326329
Summary:
Some targets does not support labels inside debug sections, but support
references in form `section +|- offset`. Patch adds initial support
for this. Also, this patch disables emission of all additional debug
sections that may have labels inside of it (like pub sections and
string tables).
Reviewers: probinson, echristo
Subscribers: JDevlieghere, llvm-commits
Differential Revision: https://reviews.llvm.org/D43627
llvm-svn: 326328
The MIPS backend has inconsistent usage of instruction predicates
for assembly and code generation. The issue arises from supporting three
encodings, two (MIPS and microMIPS) of which have a near 1:1 instruction
mapping across ISA revisions and a third encoding with a more restricted
set of instructions (MIPS16e).
To enforce consistent usage, each of the ISA_* adjectives has (or will
have) the relevant encoding attached to it along the relevant ISA revision
where the instruction is defined.
Each instruction, pattern or alias will then have the correct ISA adjective
attached to it, and the base instruction description classes will have any
predicates relating to ISA encoding or revision removed.
Pseudo instructions will also be guarded for the encoding or ABI that they are
supported in.
Finally, the hasStandardEncoding() / inMicroMipsMode() / inMips16Mode() methods
of MipsSubtarget will be changed such that only one can be true at any one time.
The result of this is that code generation and assembly will produce the
correct encoding up front, while code generated from pseudo instructions
and other inserted sequences of instructions will be able to rely on the mapping
tables to produce the correct encoding. This should fix numerous bugs where
the result 'happens' to be correct but has edge cases where microMIPS and MIPS
have subtle differences (e.g. microMIPSR6 using 'j', 'jal' instructions.)
This patch starts the process by changing most of the ISA adjectives to make
use of the EncodingPredicate member of PredicateControl. Follow on patches
will annotate instructions with their correct ISA adjective and eliminate
the usage of "let Predicates = [..]", "let AdditionalPredicates = [..]" and
"isCodeGenOnly = 1" in the cases where it was used to control instruction
availability.
Contributions from Nitesh Jain.
Reviewers: atanasyan
Differential Revision: https://reviews.llvm.org/D41434
llvm-svn: 326322
Summary:
Fix a bug in MergeICmp that can lead to a BCECmp block being processed more than once and eventually lead to a broken LLVM module.
The problem is that if the non-constant value is not produced by the last block, the producer will be processed once when the its parent block
is processed and second time when the last block is processed.
We end up having 2 same BCECmpBlock in the merge queue. And eventually lead to a broken LLVM module.
Reviewers: courbet, davide
Reviewed By: courbet
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D43825
llvm-svn: 326318
There are many instruction ctors that call the setName method of the Value base class, which can throw a bad_alloc exception in OOM situations.
In such situations special User delete operators are called which are not implemented yet.
Example:
Lets look at the construction of a CallInst instruction during IR generation:
static CallInst *Create(FunctionType *Ty, Value *Func, ArrayRef<Value *> Args, .. ){
...
return new (TotalOps, DescriptorBytes) CallInst(Ty, Func, Args, Bundles, NameStr, InsertBefore);
}
CallInst::CalInst(Value* Func, ...) {
...
Op<-1>() = Func;
....
setName(name); // throws
...
}
Op<-1>() returns a reference to a Use object of the CallInst instruction and the operator= inserts this use object into the UseList of Func.
The same object is removed from that UseList by calling the User::operator delete If the CallInst object is deleted.
Since setName can throw a bad_alloc exception (if LLVM_ENABLE_EXCEPTIONS is switched on), the unwind chain runs into assertions ("Constructor throws?") in
special User::operator deletes operators:
operator delete(void* Usr, unsigned)
operator delete(void* Usr, unsigned, bool)
This situation can be fixed by simlpy calling the User::operator delete(void*) in these unimplemented methods.
To ensure that this additional call succeeds all information that is necessary to calculate the storage pointer from the Usr address
must be restored in the special case that a sublass has changed this information, e.g. GlobalVariable can change the NumberOfOperands.
Reviewd by: rnk
Differential Revision: https://reviews.llvm.org/D42731
llvm-svn: 326316
Removes verifyDomTree, using assert(verify()) everywhere instead, and
changes verify a little to always run IsSameAsFreshTree first in order
to print good output when we find errors. Also adds verifyAnalysis for
PostDomTrees, which will allow checking of PostDomTrees it the same way
we check DomTrees and MachineDomTrees.
Differential Revision: https://reviews.llvm.org/D41298
llvm-svn: 326315
An extract_element where the result type is larger than the scalar element type is semantically an any_extend of from the scalar element type to the result type. If we expect zeroes in the upper bits of the i8/i32 we need to mae sure those zeroes are explicit in the DAG.
For these cases the best way to accomplish this is use an insert_subvector to pad zeroes to the upper bits of the v1i1 first. We extend to either v16i1(for i32) or v8i1(for i8). Then bitcast that to a scalar and finish with a zero_extend up to i32 if necessary. We can't extend past v16i1 because that's the largest mask size on KNL. But isel is smarter enough to know that a zext of a bitcast from v16i1 to i16 can use a KMOVW instruction. The insert_subvectors will be dropped during isel because we can determine that the producing instruction already zeroed the upper bits of the k-register.
llvm-svn: 326308
While the description for the instruction does mention OR, its talking about how the individual classification test results are ORed together.
The incoming mask is used as a zeroing write mask. If the bit is 1 the classification is written to the output. The bit is 0 the output is 0. This equivalent to an AND.
Here is pseudocode from the intrinsics guide
FOR j := 0 to 1
i := j*64
IF k1[j]
k[j] := CheckFPClass_FP64(a[i+63:i], imm8[7:0])
ELSE
k[j] := 0
FI
ENDFOR
k[MAX:2] := 0
llvm-svn: 326306
Some of the update_*_test_checks regexes have been moved into a
library, so we might as well use them in update_mir_test_checks.
Also includes minor bugfixes to the regexes that are there so we
don't regress update_mir_test_checks
llvm-svn: 326288
Since vregs are printed in the instruction stream now, checking the
vreg block is always redundant. Remove the temporary feature that
allowed us to do that.
This reverts r316134
llvm-svn: 326284
Neither the linker nor the runtime need this information
anymore. We were originally using this to model BSS size
but the plan is now to use the segment metadata to allow
for BSS segments.
Differential Revision: https://reviews.llvm.org/D41366
llvm-svn: 326267
Absence of memory operands is treated as "aliasing everything", so
dropping them is sufficient.
Recommit r326256 with a fixed testcase.
llvm-svn: 326262
Qualifiers on a pointer or reference type may apply to either the
pointee or the pointer itself. Consider 'const char *' and 'char *
const'. In the first example, the pointee data may not be modified
without casts, and in the second example, the pointer may not be updated
to point to new data.
In the general case, qualifiers are applied to types with LF_MODIFIER
records, which support the usual const and volatile qualifiers as well
as the __unaligned extension qualifier.
However, LF_POINTER records, which are used for pointers, references,
and member pointers, have flags for qualifiers applying to the
*pointer*. In fact, this is the only way to represent the restrict
qualifier, which can only apply to pointers, and cannot qualify regular
data types.
This patch causes LLVM to correctly fold 'const' and 'volatile' pointer
qualifiers into the pointer record, as well as adding support for
'__restrict' qualifiers in the same place.
Based on a patch from Aaron Smith
Differential Revision: https://reviews.llvm.org/D43060
llvm-svn: 326260
When attempting to compile the following Objective-C++ code with
CodeView debug info:
void (^b)(void) = []() {};
The generated debug metadata contains a structure like the following:
!43 = !DICompositeType(tag: DW_TAG_structure_type, name: "__block_literal_1", scope: !6, file: !6, line: 1, size: 168, elements: !44)
!44 = !{!45, !46, !47, !48, !49, !52}
...
!52 = !DIDerivedType(tag: DW_TAG_member, scope: !6, file: !6, line: 1, baseType: !53, size: 8, offset: 160, flags: DIFlagPublic)
!53 = !DIDerivedType(tag: DW_TAG_const_type, baseType: !54)
!54 = !DICompositeType(tag: DW_TAG_class_type, file: !6, line: 1, flags: DIFlagFwdDecl)
Note that the member node (!52) is unnamed, but rather than pointing to
a DICompositeType directly, it points to a DIDerivedType with tag
DW_TAG_const_type, which then points to the DICompositeType. However,
the CodeView assembly printer currently assumes that the base type for
an unnamed member will always be a DICompositeType, and attempts to
perform that cast, which triggers an assertion failure, since in this
case the base type is actually a DIDerivedType, not a DICompositeType
(and we would have to get the base type of the DIDerivedType to reach
the DICompositeType). I think the debug metadata being generated by the
frontend is correct (or at least plausible), and the CodeView printer
needs to handle this case.
This patch teaches the CodeView printer to unwrap any qualifier types.
The qualifiers are just dropped for now. Ideally, they would be applied
to the added indirect members instead, but this occurs infrequently
enough that adding the logic to handle the qualifiers correctly isn't
worth it for now. A FIXME is added to note this.
Additionally, Reid pointed out that the underlying assumption that an
unnamed member must be a composite type is itself incorrect and may not
hold for all frontends. Therefore, after all qualifiers have been
stripped, check if the resulting type is in fact a DICompositeType and
just return if it isn't, rather than assuming the type and crashing if
that assumption is violated.
Differential Revision: https://reviews.llvm.org/D43803
llvm-svn: 326255
This is similar to what's done in computeKnownBits and computeSignBits. Don't do anything fancy just collect information valid for any element.
Differential Revision: https://reviews.llvm.org/D43789
llvm-svn: 326237
We were always setting the block alignment to 2 bytes in Thumb mode
and 4-bytes in ARM mode (r325754, and r325012), but this could cause
reducing the block alignment when it already had been aligned (e.g.
in Thumb mode when the block is a CPE that was already 4-byte aligned).
Patch by Momchil Velikov, I've only added a test.
Differential Revision: https://reviews.llvm.org/D43777
llvm-svn: 326232
Following DW_AT_sibling attributes completely defeats the pruning pass.
Although clang doesn't generate the DW_AT_sibling attribute we should
still handle it correctly.
Differential revision: https://reviews.llvm.org/D43439
llvm-svn: 326231
These tables add 3000 lines to X86InstrInfo.cpp. And if we ever manage to auto generate them they'll be a separate file anyway.
Differential Revision: https://reviews.llvm.org/D43806
llvm-svn: 326225
This is a slight reduction of one of the benchmarks
that suffered with D43079. Cost model changes should
not cause this test to remain scalarized.
llvm-svn: 326221
This is a slight reduction of one of the benchmarks
that suffered with D43079. Cost model changes should
not cause this test to remain scalarized.
llvm-svn: 326217
Currently when abort is enabled, we get a diagnostic saying "Fallback
path used .... " and the program terminates. To actually figure out what
the reason is, we need to run again with another verbose argument
"-pass-remarks-missed=gisel". Instead, when we are going to abort,
we might as well print expensive remarks.
https://reviews.llvm.org/D43796
llvm-svn: 326215
Re-enable commit r323991 now that r325931 has been committed to make
MachineOperand::isRenamable() check more conservative w.r.t. code
changes and opt-in on a per-target basis.
llvm-svn: 326208
Summary:
Since r325479 the DataLayout includes a program address space. However, it
is not possible to use `call %foo` if foo is a `i8(...) addrspace(200)` and
the DataLayout specifies address space 200 as the address space for functions.
With this change the IR parser will still accept variables in the program
address space as well as address space 0 for call and invoke functions.
Reviewers: pcc, arsenm, bjope, dylanmckay, theraven
Reviewed By: dylanmckay
Subscribers: wdng, llvm-commits
Differential Revision: https://reviews.llvm.org/D43645
llvm-svn: 326188