18 Commits

Author SHA1 Message Date
Timm Baeder
63e4b8c641
[clang][bytecode][NFC] Remove unused Integral range functions (#169508) 2025-11-26 11:41:19 +01:00
Timm Baeder
8396d4c10e
[clang][bytecode][NFC] Clean up Integral::from() functions (#169513) 2025-11-26 06:34:26 +01:00
Timm Baeder
773e6c3a35
[clang][bytecode] Support remaining add_sat like X86 builtins (#155358) 2025-08-26 13:51:30 +02:00
Timm Baeder
32fc625a3f
Reapply "Reapply "[clang][bytecode] Allocate IntegralAP and Floating … (#145014)
…types usi… (#144676)"

This reverts commit 68471d29eed2c49f9b439e505b3f24d387d54f97.

IntegralAP contains a union:
  union {
    uint64_t *Memory = nullptr;
    uint64_t Val;
  };

On 64bit systems, both Memory and Val have the same size. However, on 32
bit system, Val is 64bit and Memory only 32bit. Which means the default
initializer for Memory will only zero half of Val. We fixed this by
zero-initializing Val explicitly in the IntegralAP(unsigned BitWidth)
constructor.


See also the discussion in
https://github.com/llvm/llvm-project/pull/144246
2025-06-20 18:06:01 +02:00
Timm Bäder
68471d29ee Revert "Reapply "[clang][bytecode] Allocate IntegralAP and Floating types usi… (#144676)"
This reverts commit 7c15edb306932e41c159f3d69c161ed0d89d47b7.

This still breaks clang-armv8-quick:
https://lab.llvm.org/buildbot/#/builders/154/builds/17587
2025-06-18 15:17:53 +02:00
Timm Baeder
7c15edb306
Reapply "[clang][bytecode] Allocate IntegralAP and Floating types usi… (#144676)
…ng an allocator (#144246)"

This reverts commit 57828fec760f086b334ce0cb1c465fc559dcaea4.
2025-06-18 14:37:29 +02:00
Timm Bäder
57828fec76 Revert "[clang][bytecode] Allocate IntegralAP and Floating types using an allocator (#144246)"
This reverts commit c66be289901b3f035187d391e80e3610d7d6232e.

This breaks the armv8-quick builder:
https://lab.llvm.org/buildbot/#/builders/154/builds/17549
2025-06-17 21:08:23 +02:00
Timm Baeder
c66be28990
[clang][bytecode] Allocate IntegralAP and Floating types using an allocator (#144246)
Both `APInt` and `APFloat` will heap-allocate memory themselves using
the system allocator when the size of their data exceeds 64 bits.

This is why clang has `APNumericStorage`, which allocates its memory
using an allocator (via `ASTContext`) instead. Calling `getValue()` on
an ast node like that will then create a new `APInt`/`APFloat` , which
will copy the data (in the `APFloat` case, we even copy it twice).
That's sad but whatever.

In the bytecode interpreter, we have a similar problem. Large integers
and floating-point values are placement-new allocated into the
`InterpStack` (or into the bytecode, which is a `vector<std::byte>`).
When we then later interrupt interpretation, we don't run the destructor
for all items on the stack, which means we leak the memory the
`APInt`/`APFloat` (which backs the `IntegralAP`/`Floating` the
interpreter uses).

Fix this by using an approach similar to the one used in the AST. Add an
allocator to `InterpState`, which is used for temporaries and local
values. Those values will be freed at the end of interpretation. For
global variables, we need to promote the values to global lifetime,
which we do via `InitGlobal` and `FinishInitGlobal` ops.

Interestingly, this results in a slight _improvement_ in compile times:
https://llvm-compile-time-tracker.com/compare.php?from=6bfcdda9b1ddf0900f82f7e30cb5e3253a791d50&to=88d1d899127b408f0fb0f385c2c58e6283195049&stat=instructions:u
(but don't ask me why).

Fixes https://github.com/llvm/llvm-project/issues/139012
2025-06-17 18:31:06 +02:00
Timm Bäder
2503a66596 Reapply "[clang][bytecode] Fix some shift edge cases (#119895)"
This reverts commit a6636ce4d124176856c3913d4bf6c3ceff1f5a1f.

This original commit failed on hosts with signed wchar_t. Care for
this in the test.
2024-12-16 10:01:46 +01:00
Timm Bäder
a6636ce4d1 Revert "[clang][bytecode] Fix some shift edge cases (#119895)"
This reverts commit 49c2207f21c0922aedb6c70471f8ea068977eb30.

This breaks on big-endian, again:
https://lab.llvm.org/buildbot/#/builders/154/builds/9018
2024-12-14 06:28:12 +01:00
Timm Baeder
49c2207f21
[clang][bytecode] Fix some shift edge cases (#119895)
Around shifting negative values.
2024-12-14 06:15:56 +01:00
Timm Bäder
12ca72ba7f Reapply "[clang][bytecode] Handle bitcasts involving bitfields (#116843)"
This reverts commit 54db16221c92eb52efbea90ad5b5d2a1d00cda3e.

Check for existence of __SIZOEF_INT128__ so we don't run those
tests on targets that don't have int128.
2024-12-04 11:53:37 +01:00
Timm Bäder
54db16221c Revert "[clang][bytecode] Handle bitcasts involving bitfields (#116843)"
This reverts commit 4b5e7fa4de54e00df007ae5e2675393fd046aa59.

This breaks builders:
https://lab.llvm.org/buildbot/#/builders/154/builds/8464

I guess some more testing on 32 bit hosts is needed.
2024-12-04 11:43:43 +01:00
Timm Baeder
4b5e7fa4de
[clang][bytecode] Handle bitcasts involving bitfields (#116843)
Copy the data one bit at a time, leaving optimizations for future work.
Adds a BitcastBuffer that takes care of pushing the bits in the right
order.
2024-12-04 11:25:04 +01:00
Timm Baeder
c1dcf75a7c
[clang][bytecode] Implement __builtin_reduce_mul (#118287) 2024-12-02 14:03:53 +01:00
Timm Baeder
ef2a104c94
[clang][bytecode] Start implementing __builtin_bit_cast (#112126)
This is a subset of #68288, with hopefully narrower scope. It does not
support bitcasting to non-integral types yet.
Bitfields are supported, but only if they result in a full byte-sized
final buffer. It does not support casting from null-pointers yet or
casting from indeterminate bits.


The tests are from #68288 and partially from #74775.

The `BitcastBuffer` struct is currently always working in single bits,
but I plan to (try to) optimize this for the common full-byte case.
2024-10-31 18:09:40 +01:00
Timm Baeder
5b4071c755
[clang][bytecode] Explicitly truncate in IntegralAP::from() (#112683)
Add Integral::toAPInt(), which truncates to the given BitWidth, similar
to the toAPSInt() we already have.
2024-10-17 12:26:44 +02:00
Timm Baeder
a07aba5d44
[clang] Rename all AST/Interp stuff to AST/ByteCode (#104552)
"Interp" clashes with the clang interpreter and people often confuse
this.
2024-08-16 17:13:12 +02:00