This helps us select W instructions in more cases. Most of the
affected tests have had the sign_extend_inreg or AND folded into
sextload/zextload.
Differential Revision: https://reviews.llvm.org/D104079
The loads end up becoming sextload/zextload which prevent our
isel patterns from finding the sign_extend_inreg or AND instruction
we need.
The easiest way to fix this is to use computeKnownBits or
ComputeNumSignBits in our isel matching to catch this.
Add PromoteIntOp_FP_TO_XINT_SAT to type legalize the bit width
operand from i32 to i64 for RV64.
Add test cases for the saturating intrinsics for half/float/double
and i32/i64. CodeGen is definitely not optimal. We can probably
make use of the native behavior of fcvt instructions in many cases.
Fixes PR50083
The patterns that use this really want to know if the operand has at
least 32 sign/zero bits.
This increases opportunities to use W instructions when the original
source used i8/i16. Not sure how much this matters for performance,
but it makes i8/i16 code more consistent with i32.
Regenerated using:
./llvm/utils/update_llc_test_checks.py -u llvm/test/CodeGen/RISCV/*.ll
This has added comments to spill-related instructions and added @plt to
some symbols.
Differential Revision: https://reviews.llvm.org/D92841
Most of the test changes are trivial instruction reorderings and differing
register allocations, without any obvious performance impact.
Differential Revision: https://reviews.llvm.org/D66973
llvm-svn: 372106
This requires a little extra work due tothe fact i32 is not a legal type. When
call lowering happens post-legalisation (e.g. when an intrinsic was inserted
during legalisation). A bitcast from f32 to i32 can't be introduced. This is
similar to the challenges with RV32D. To handle this, we introduce
target-specific DAG nodes that perform bitcast+anyext for f32->i64 and
trunc+bitcast for i64->f32.
Differential Revision: https://reviews.llvm.org/D53235
llvm-svn: 352807
Craig Topper