Commit Graph

10 Commits

Author SHA1 Message Date
Ryan Houdek 4f02132f93 Make our architecture defines less stupid.
Our defines were never clear between what meant 64bit or x86_64
This makes a clear cut between bitness and architecture.
This commit also has the side effect of bringing up aarch64 compiling support.
2014-03-04 09:36:59 -06:00
Pierre Bourdon 311caef094 Merge pull request #25 from Tilka/ppc_fp
Fix non-IEEE mode
2014-02-23 04:15:37 +01:00
Pierre Bourdon 83b7bb64aa Make Common/ mostly IWYU clean (and fix errors in rest of the project detected by this change). 2014-02-22 23:37:29 +01:00
Lioncash 2afe215271 Convert all includes to relative paths. 2014-02-18 02:19:10 -05:00
Scott Mansell cf5938c4df x64Emitter: Fix the PSUBQ instruction's opcode 2014-02-12 23:12:17 +01:00
Scott Mansell 1eb8168488 x64Emitter: Add the xmm, xmm form of PSRLQ instruction. 2014-02-12 23:12:16 +01:00
Tillmann Karras db196d8c5b Jit64[IL]: fix float conversions
Floating-point is complicated...

Some background: Denormals are floats that are too close to zero to be
stored in a normalized way (their exponent would need more bits). Since
they are stored unnormalized, they are hard to work with, even in
hardware.  That's why both PowerPC and SSE can be configured to operate
in faster but non-standard-conpliant modes in which these numbers are
simply rounded ('flushed') to zero.

Internally, we do the same as the PowerPC CPU and store all floats in
double format. This means that for loading and storing singles we need a
conversion. The PowerPC CPU does this in hardware. We previously did
this using CVTSS2SD/CVTSD2SS. Unfortunately, these instructions are
considered arithmetic and therefore flush denormals to zero if non-IEEE
mode is active. This normally wouldn't be a problem since the next
arithmetic floating-point instruction would do the same anyway but as it
turns out some games actually use floating-point instructions for
copying arbitrary data.

My idea for fixing this problem was to use x87 instructions since the
x87 FPU never supported flush-to-zero and thus doesn't mangle denormals.
However, there is one more problem to deal with: SNaNs are automatically
converted to QNaNs (by setting the most-significant bit of the
fraction). I opted to fix this by manually resetting the QNaN bit of all
values with all-1s exponent.
2014-02-12 23:12:15 +01:00
Tillmann Karras c25c4a6e20 x64: add support for some x87 instructions 2014-02-12 22:45:01 +01:00
Tillmann Karras b34fe2b8f1 x64: fix parameter names of WriteModRM() 2014-01-25 17:36:09 +01:00
Jasper St. Pierre 34692ab826 Remove unnecessary Src/ folders 2013-12-31 14:03:19 -05:00