diff options
| author | Tom Stellard <[email protected]> | 2012-01-06 17:38:37 -0500 |
|---|---|---|
| committer | Tom Stellard <[email protected]> | 2012-04-13 10:32:06 -0400 |
| commit | a75c6163e605f35b14f26930dd9227e4f337ec9e (patch) | |
| tree | 0263219cbab9282896f874060bb03d445c4de891 /src/gallium/drivers/radeon/AMDILMultiClass.td | |
| parent | e55cf4854d594eae9ac3f6abd24f4e616eea894f (diff) | |
radeonsi: initial WIP SI code
This commit adds initial support for acceleration
on SI chips. egltri is starting to work.
The SI/R600 llvm backend is currently included in mesa
but that may change in the future.
The plan is to write a single gallium driver and
use gallium to support X acceleration.
This commit contains patches from:
Tom Stellard <[email protected]>
Michel Dänzer <[email protected]>
Alex Deucher <[email protected]>
Vadim Girlin <[email protected]>
Signed-off-by: Alex Deucher <[email protected]>
The following commits were squashed in:
======================================================================
radeonsi: Remove unused winsys pointer
This was removed from r600g in commit:
commit 96d882939d612fcc8332f107befec470ed4359de
Author: Marek Olšák <[email protected]>
Date: Fri Feb 17 01:49:49 2012 +0100
gallium: remove unused winsys pointers in pipe_screen and pipe_context
A winsys is already a private object of a driver.
======================================================================
radeonsi: Copy color clamping CAPs from r600
Not sure if the values of these CAPS are correct for radeonsi, but the
same changed were made to r600g in commit:
commit bc1c8369384b5e16547c5bf9728aa78f8dfd66cc
Author: Marek Olšák <[email protected]>
Date: Mon Jan 23 03:11:17 2012 +0100
st/mesa: do vertex and fragment color clamping in shaders
For ARB_color_buffer_float. Most hardware can't do it and st/mesa is
the perfect place for a fallback.
The exceptions are:
- r500 (vertex clamp only)
- nv50 (both)
- nvc0 (both)
- softpipe (both)
We also have to take into account that r300 can do CLAMPED vertex colors only,
while r600 can do UNCLAMPED vertex colors only. The difference can be expressed
with the two new CAPs.
======================================================================
radeonsi: Remove PIPE_CAP_OUTPUT_READ
This CAP was dropped in commit:
commit 04e324008759282728a95a1394bac2c4c2a1a3f9
Author: Marek Olšák <[email protected]>
Date: Thu Feb 23 23:44:36 2012 +0100
gallium: remove PIPE_SHADER_CAP_OUTPUT_READ
r600g is the only driver which has made use of it. The reason the CAP was
added was to fix some piglit tests when the GLSL pass lower_output_reads
didn't exist.
However, not removing output reads breaks the fallback for glClampColorARB,
which assumes outputs are not readable. The fix would be non-trivial
and my personal preference is to remove the CAP, considering that reading
outputs is uncommon and that we can now use lower_output_reads to fix
the issue that the CAP was supposed to workaround in the first place.
======================================================================
radeonsi: Add missing parameters to rws->buffer_get_tiling() call
This was changed in commit:
commit c0c979eebc076b95cc8d18a013ce2968fe6311ad
Author: Jerome Glisse <[email protected]>
Date: Mon Jan 30 17:22:13 2012 -0500
r600g: add support for common surface allocator for tiling v13
Tiled surface have all kind of alignment constraint that needs to
be met. Instead of having all this code duplicated btw ddx and
mesa use common code in libdrm_radeon this also ensure that both
ddx and mesa compute those alignment in the same way.
v2 fix evergreen
v3 fix compressed texture and workaround cube texture issue by
disabling 2D array mode for cubemap (need to check if r7xx and
newer are also affected by the issue)
v4 fix texture array
v5 fix evergreen and newer, split surface values computation from
mipmap tree generation so that we can get them directly from the
ddx
v6 final fix to evergreen tile split value
v7 fix mipmap offset to avoid to use random value, use color view
depth view to address different layer as hardware is doing some
magic rotation depending on the layer
v8 fix COLOR_VIEW on r6xx for linear array mode, use COLOR_VIEW on
evergreen, align bytes per pixel to a multiple of a dword
v9 fix handling of stencil on evergreen, half fix for compressed
texture
v10 fix evergreen compressed texture proper support for stencil
tile split. Fix stencil issue when array mode was clear by
the kernel, always program stencil bo. On evergreen depth
buffer bo need to be big enough to hold depth buffer + stencil
buffer as even with stencil disabled things get written there.
v11 rebase on top of mesa, fix pitch issue with 1d surface on evergreen,
old ddx overestimate those. Fix linear case when pitch*height < 64.
Fix r300g.
v12 Fix linear case when pitch*height < 64 for old path, adapt to
libdrm API change
v13 add libdrm check
Signed-off-by: Jerome Glisse <[email protected]>
======================================================================
radeonsi: Remove PIPE_TRANSFER_MAP_PERMANENTLY
This was removed in commit:
commit 62f44f670bb0162e89fd4786af877f8da9ff607c
Author: Marek Olšák <[email protected]>
Date: Mon Mar 5 13:45:00 2012 +0100
Revert "gallium: add flag PIPE_TRANSFER_MAP_PERMANENTLY"
This reverts commit 0950086376b1c8b7fb89eda81ed7f2f06dee58bc.
It was decided to refactor the transfer API instead of adding workarounds
to address the performance issues.
======================================================================
radeonsi: Handle PIPE_VIDEO_CAP_PREFERED_FORMAT.
Reintroduced in commit 9d9afcb5bac2931d4b8e6d1aa571e941c5110c90.
======================================================================
radeonsi: nuke the fallback for vertex and fragment color clamping
Ported from r600g commit c2b800cf38b299c1ab1c53dc0e4ea00c7acef853.
======================================================================
radeonsi: don't expose transform_feedback2 without kernel support
Ported from r600g commit 15146fd1bcbb08e44a1cbb984440ee1a5de63d48.
======================================================================
radeonsi: Handle PIPE_CAP_GLSL_FEATURE_LEVEL.
Ported from r600g part of commit 171be755223d99f8cc5cc1bdaf8bd7b4caa04b4f.
======================================================================
radeonsi: set minimum point size to 1.0 for non-sprite non-aa points.
Ported from r600g commit f183cc9ce3ad1d043bdf8b38fd519e8f437714fc.
======================================================================
radeonsi: rework and consolidate stencilref state setting.
Ported from r600g commit a2361946e782b57f0c63587841ca41c0ea707070.
======================================================================
radeonsi: cleanup setting DB_SHADER_CONTROL.
Ported from r600g commit 3d061caaed13b646ff40754f8ebe73f3d4983c5b.
======================================================================
radeonsi: Get rid of register masks.
Ported from r600g commits
3d061caaed13b646ff40754f8ebe73f3d4983c5b..9344ab382a1765c1a7c2560e771485edf4954fe2.
======================================================================
radeonsi: get rid of r600_context_reg.
Ported from r600g commits
9344ab382a1765c1a7c2560e771485edf4954fe2..bed20f02a771f43e1c5092254705701c228cfa7f.
======================================================================
radeonsi: Fix regression from 'Get rid of register masks'.
======================================================================
radeonsi: optimize r600_resource_va.
Ported from r600g commit 669d8766ff3403938794eb80d7769347b6e52174.
======================================================================
radeonsi: remove u8,u16,u32,u64 types.
Ported from r600g commit 78293b99b23268e6698f1267aaf40647c17d95a5.
======================================================================
radeonsi: merge r600_context with r600_pipe_context.
Ported from r600g commit e4340c1908a6a3b09e1a15d5195f6da7d00494d0.
======================================================================
radeonsi: Miscellaneous context cleanups.
Ported from r600g commits
e4340c1908a6a3b09e1a15d5195f6da7d00494d0..621e0db71c5ddcb379171064a4f720c9cf01e888.
======================================================================
radeonsi: add a new simple API for state emission.
Ported from r600g commits
621e0db71c5ddcb379171064a4f720c9cf01e888..f661405637bba32c2cfbeecf6e2e56e414e9521e.
======================================================================
radeonsi: Also remove sbu_flags member of struct r600_reg.
Requires using sid.h instead of r600d.h for the new CP_COHER_CNTL definitions,
so some code needs to be disabled for now.
======================================================================
radeonsi: Miscellaneous simplifications.
Ported from r600g commits 38bf2763482b4f1b6d95cd51aecec75601d8b90f and
b0337b679ad4c2feae59215104cfa60b58a619d5.
======================================================================
radeonsi: Handle PIPE_CAP_QUADS_FOLLOW_PROVOKING_VERTEX_CONVENTION.
Ported from commit 8b4f7b0672d663273310fffa9490ad996f5b914a.
======================================================================
radeonsi: Use a fake reloc to sleep for fences.
Ported from r600g commit 8cd03b933cf868ff867e2db4a0937005a02fd0e4.
======================================================================
radeonsi: adapt to get_query_result interface change.
Ported from r600g commit 4445e170bee23a3607ece0e010adef7058ac6a11.
Diffstat (limited to 'src/gallium/drivers/radeon/AMDILMultiClass.td')
| -rw-r--r-- | src/gallium/drivers/radeon/AMDILMultiClass.td | 1440 |
1 files changed, 1440 insertions, 0 deletions
diff --git a/src/gallium/drivers/radeon/AMDILMultiClass.td b/src/gallium/drivers/radeon/AMDILMultiClass.td new file mode 100644 index 00000000000..92691db52fd --- /dev/null +++ b/src/gallium/drivers/radeon/AMDILMultiClass.td @@ -0,0 +1,1440 @@ +//===-- AMDILMultiClass.td - TODO: Add brief description -------===// +// +// The LLVM Compiler Infrastructure +// +// This file is distributed under the University of Illinois Open Source +// License. See LICENSE.TXT for details. +// +//==-----------------------------------------------------------------------===// +// Multiclass that handles branch instructions +multiclass BranchConditional<SDNode Op> { + def _i8 : ILFormat<IL_OP_IFC, (outs), + (ins brtarget:$target, GPRI8:$src0), + "; i32 Pseudo branch instruction", + [(Op bb:$target, GPRI8:$src0)]>; + def _i16 : ILFormat<IL_OP_IFC, (outs), + (ins brtarget:$target, GPRI16:$src0), + "; i32 Pseudo branch instruction", + [(Op bb:$target, GPRI16:$src0)]>; + def _i32 : ILFormat<IL_OP_IFC, (outs), + (ins brtarget:$target, GPRI32:$src0), + "; i32 Pseudo branch instruction", + [(Op bb:$target, GPRI32:$src0)]>; + def _f32 : ILFormat<IL_OP_IFC, (outs), + (ins brtarget:$target, GPRF32:$src0), + "; f32 Pseudo branch instruction", + [(Op bb:$target, GPRF32:$src0)]>; + def _i64 : ILFormat<IL_OP_IFC, (outs), + (ins brtarget:$target, GPRI64:$src0), + "; f64 Pseudo branch instruction", + [(Op bb:$target, (i64 GPRI64:$src0))]>; + def _f64 : ILFormat<IL_OP_IFC, (outs), + (ins brtarget:$target, GPRF64:$src0), + "; f64 Pseudo branch instruction", + [(Op bb:$target, (f64 GPRF64:$src0))]>; +} +// Multiclass that handles compare instructions +// When a definition is added here, a corrosponding defition +// needs to be added at: +// AMDILISelLowering.cpp@EmitInstrWithCustomInserter +multiclass Compare<string asm> { + def _i8 : ILFormat<IL_OP_CMP, (outs GPRI8:$dst), + (ins i32imm:$cc, GPRI8:$src0, GPRI8:$src1), + !strconcat("; i8 ", asm), + [(set GPRI8:$dst, (IL_cmp imm:$cc, GPRI8:$src0, GPRI8:$src1))]>; + def _i16 : ILFormat<IL_OP_CMP, (outs GPRI16:$dst), + (ins i32imm:$cc, GPRI16:$src0, GPRI16:$src1), + !strconcat("; i16 ", asm), + [(set GPRI16:$dst, (IL_cmp imm:$cc, GPRI16:$src0, GPRI16:$src1))]>; + def _i32 : ILFormat<IL_OP_CMP, (outs GPRI32:$dst), + (ins i32imm:$cc, GPRI32:$src0, GPRI32:$src1), + !strconcat("; i32 ", asm), + [(set GPRI32:$dst, (IL_cmp imm:$cc, GPRI32:$src0, GPRI32:$src1))]>; + def _i64 : ILFormat<IL_OP_CMP, (outs GPRI64:$dst), + (ins i32imm:$cc, GPRI64:$src0, GPRI64:$src1), + !strconcat("; i64 ", asm), + [(set GPRI64:$dst, (IL_cmp imm:$cc, GPRI64:$src0, GPRI64:$src1))]>; + def _f32 : ILFormat<IL_OP_CMP, (outs GPRF32:$dst), + (ins i32imm:$cc, GPRF32:$src0, GPRF32:$src1), + !strconcat("; f32 ", asm), + [(set GPRF32:$dst, (IL_cmp imm:$cc, GPRF32:$src0, GPRF32:$src1))]>; + def _f64 : ILFormat<IL_OP_CMP, (outs GPRF64:$dst), + (ins i32imm:$cc, GPRF64:$src0, GPRF64:$src1), + !strconcat("; f64 ", asm), + [(set GPRF64:$dst, (IL_cmp imm:$cc, GPRF64:$src0, GPRF64:$src1))]>; + def _v2i8 : ILFormat<IL_OP_CMP, (outs GPRV2I8:$dst), + (ins i32imm:$cc, GPRV2I8:$src0, GPRV2I8:$src1), + !strconcat("; i8 ", asm), + [(set GPRV2I8:$dst, (IL_cmp imm:$cc, GPRV2I8:$src0, GPRV2I8:$src1))]>; + def _v2i16 : ILFormat<IL_OP_CMP, (outs GPRV2I16:$dst), + (ins i32imm:$cc, GPRV2I16:$src0, GPRV2I16:$src1), + !strconcat("; i16 ", asm), + [(set GPRV2I16:$dst, (IL_cmp imm:$cc, GPRV2I16:$src0, GPRV2I16:$src1))]>; + def _v2i32 : ILFormat<IL_OP_CMP, (outs GPRV2I32:$dst), + (ins i32imm:$cc, GPRV2I32:$src0, GPRV2I32:$src1), + !strconcat("; i32 ", asm), + [(set GPRV2I32:$dst, (IL_cmp imm:$cc, GPRV2I32:$src0, GPRV2I32:$src1))]>; + def _v2i64 : ILFormat<IL_OP_CMP, (outs GPRV2I64:$dst), + (ins i32imm:$cc, GPRV2I64:$src0, GPRV2I64:$src1), + !strconcat("; i64 ", asm), + [(set GPRV2I64:$dst, (IL_cmp imm:$cc, GPRV2I64:$src0, GPRV2I64:$src1))]>; + def _v2f32 : ILFormat<IL_OP_CMP, (outs GPRV2F32:$dst), + (ins i32imm:$cc, GPRV2F32:$src0, GPRV2F32:$src1), + !strconcat("; f32 ", asm), + [(set GPRV2F32:$dst, (IL_cmp imm:$cc, GPRV2F32:$src0, GPRV2F32:$src1))]>; + def _v2f64 : ILFormat<IL_OP_CMP, (outs GPRV2F64:$dst), + (ins i32imm:$cc, GPRV2F64:$src0, GPRV2F64:$src1), + !strconcat("; f64 ", asm), + [(set GPRV2F64:$dst, (IL_cmp imm:$cc, GPRV2F64:$src0, GPRV2F64:$src1))]>; + def _v4i8 : ILFormat<IL_OP_CMP, (outs GPRV4I8:$dst), + (ins i32imm:$cc, GPRV4I8:$src0, GPRV4I8:$src1), + !strconcat("; i8 ", asm), + [(set GPRV4I8:$dst, (IL_cmp imm:$cc, GPRV4I8:$src0, GPRV4I8:$src1))]>; + def _v4i16 : ILFormat<IL_OP_CMP, (outs GPRV4I16:$dst), + (ins i32imm:$cc, GPRV4I16:$src0, GPRV4I16:$src1), + !strconcat("; i16 ", asm), + [(set GPRV4I16:$dst, (IL_cmp imm:$cc, GPRV4I16:$src0, GPRV4I16:$src1))]>; + def _v4i32 : ILFormat<IL_OP_CMP, (outs GPRV4I32:$dst), + (ins i32imm:$cc, GPRV4I32:$src0, GPRV4I32:$src1), + !strconcat("; i32 ", asm), + [(set GPRV4I32:$dst, (IL_cmp imm:$cc, GPRV4I32:$src0, GPRV4I32:$src1))]>; + def _v4f32 : ILFormat<IL_OP_CMP, (outs GPRV4F32:$dst), + (ins i32imm:$cc, GPRV4F32:$src0, GPRV4F32:$src1), + !strconcat("; f32 ", asm), + [(set GPRV4F32:$dst, (IL_cmp imm:$cc, GPRV4F32:$src0, GPRV4F32:$src1))]>; +} + +// Multiclass that handles constant values +multiclass ILConstant<string asm> { + def _i8 : ILFormat<IL_OP_MOV, (outs GPRI8:$dst), + (ins i8imm:$val), + asm, [(set GPRI8:$dst, imm:$val)]>; + + // def _v2i8 : ILFormat<IL_OP_MOV, (outs GPRV2I8:$dst), + // (ins i8imm:$val), + // asm, [(set GPRV2I8:$dst, GPRV2I8:$val)]>; + + //def _v4i8 : ILFormat<IL_OP_MOV, (outs GPRV4I8:$dst), + //(ins i8imm:$val), + //asm, [(set GPRV4I8:$dst, GPRV4I8:$val)]>; + + def _i16 : ILFormat<IL_OP_MOV, (outs GPRI16:$dst), + (ins i16imm:$val), + asm, [(set GPRI16:$dst, imm:$val)]>; + + // def _v2i16 : ILFormat<IL_OP_MOV, (outs GPRV2I16:$dst), + // (ins i16imm:$val), + // asm, [(set GPRV2I16:$dst, GPRV2I16:$val)]>; + + // def _v4i16 : ILFormat<IL_OP_MOV, (outs GPRV4I16:$dst), + // (ins i16imm:$val), + // asm, [(set GPRV4I16:$dst, GPRV4I16:$val)]>; + + def _i32 : ILFormat<IL_OP_MOV, (outs GPRI32:$dst), + (ins i32imm:$val), + asm, [(set GPRI32:$dst, imm:$val)]>; + + // def _v2i32 : ILFormat<IL_OP_MOV, (outs GPRV2I32:$dst), + // (ins i32imm:$val), + // asm, [(set GPRV2I32:$dst, GPRV2I32:$val)]>; + + // def _v4i32 : ILFormat<IL_OP_MOV, (outs GPRV4I32:$dst), + // (ins GPRV4I32:$val), + // asm, [(set GPRV4I32:$dst, GPRV4I32:$val)]>; + + def _i64 : ILFormat<IL_OP_MOV, (outs GPRI64:$dst), + (ins i64imm:$val), + asm, [(set GPRI64:$dst, imm:$val)]>; + + // def _v2i64 : ILFormat<IL_OP_MOV, (outs GPRV2I64:$dst), + // (ins i64imm:$val), + // asm, [(set GPRV2I64:$dst, GPRV2I64:$val)]>; + + def _f32 : ILFormat<IL_OP_MOV, (outs GPRF32:$dst), + (ins f32imm:$val), + asm, [(set GPRF32:$dst, fpimm:$val)]>; + + // def _v2f32 : ILFormat<IL_OP_MOV, (outs GPRV2F32:$dst), + // (ins f32imm:$val), + // asm, [(set GPRV2F32:$dst, GPRV2F32:$val)]>; + + // def _v4f32 : ILFormat<IL_OP_MOV, (outs GPRV4F32:$dst), + // (ins f32imm:$val), + // asm, [(set GPRV4F32:$dst, GPRV4F32:$val)]>; + + def _f64 : ILFormat<IL_OP_MOV, (outs GPRF64:$dst), + (ins f64imm:$val), + asm, [(set GPRF64:$dst, fpimm:$val)]>; + + // def _v2f64 : ILFormat<IL_OP_MOV, (outs GPRV2F64:$dst), + // (ins f64imm:$val), + // asm, [(set GPRV2F64:$dst, GPRV2F64:$val)]>; + +} + +// Multiclass that handles memory store operations +multiclass GTRUNCSTORE<string asm> { + def _i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i8trunc_store GPRI16:$val, ADDR:$ptr)]>; + def _i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i8trunc_store GPRI32:$val, ADDR:$ptr)]>; + def _i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i8trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i16trunc_store GPRI32:$val, ADDR:$ptr)]>; + def _i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i16trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i32trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_f32trunc_store GPRF64:$val, ADDR:$ptr)]>; + def _v2i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i8trunc_store GPRV2I32:$val, ADDR:$ptr)]>; + def _v4i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v4i8trunc_store GPRV4I32:$val, ADDR:$ptr)]>; + def _v2i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i8trunc_store GPRV2I16:$val, ADDR:$ptr)]>; + def _v4i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v4i8trunc_store GPRV4I16:$val, ADDR:$ptr)]>; + def _v2i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i16trunc_store GPRV2I32:$val, ADDR:$ptr)]>; + def _v4i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v4i16trunc_store GPRV4I32:$val, ADDR:$ptr)]>; + def _v2f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2f32trunc_store GPRV2F64:$val, ADDR:$ptr)]>; + def _v2i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i8trunc_store GPRV2I64:$val, ADDR:$ptr)]>; + def _v2i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i16trunc_store GPRV2I64:$val, ADDR:$ptr)]>; + def _v2i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i32trunc_store GPRV2I64:$val, ADDR:$ptr)]>; +} + +// Multiclass that handles memory store operations +multiclass LTRUNCSTORE<string asm> { + def _i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i8trunc_store GPRI16:$val, ADDR:$ptr)]>; + def _i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i8trunc_store GPRI32:$val, ADDR:$ptr)]>; + def _i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i8trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i16trunc_store GPRI32:$val, ADDR:$ptr)]>; + def _i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i16trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i32trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_f32trunc_store GPRF64:$val, ADDR:$ptr)]>; + def _v2i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i8trunc_store GPRV2I32:$val, ADDR:$ptr)]>; + def _v4i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v4i8trunc_store GPRV4I32:$val, ADDR:$ptr)]>; + def _v2i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i8trunc_store GPRV2I16:$val, ADDR:$ptr)]>; + def _v4i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v4i8trunc_store GPRV4I16:$val, ADDR:$ptr)]>; + def _v2i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i16trunc_store GPRV2I32:$val, ADDR:$ptr)]>; + def _v4i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v4i16trunc_store GPRV4I32:$val, ADDR:$ptr)]>; + def _v2f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2f32trunc_store GPRV2F64:$val, ADDR:$ptr)]>; + def _v2i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i8trunc_store GPRV2I64:$val, ADDR:$ptr)]>; + def _v2i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i16trunc_store GPRV2I64:$val, ADDR:$ptr)]>; + def _v2i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i32trunc_store GPRV2I64:$val, ADDR:$ptr)]>; +} + +// Multiclass that handles memory store operations +multiclass PTRUNCSTORE<string asm> { + def _i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i8trunc_store GPRI16:$val, ADDR:$ptr)]>; + def _i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i8trunc_store GPRI32:$val, ADDR:$ptr)]>; + def _i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i8trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i16trunc_store GPRI32:$val, ADDR:$ptr)]>; + def _i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i16trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i32trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_f32trunc_store GPRF64:$val, ADDR:$ptr)]>; + def _v2i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i8trunc_store GPRV2I32:$val, ADDR:$ptr)]>; + def _v4i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v4i8trunc_store GPRV4I32:$val, ADDR:$ptr)]>; + def _v2i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i8trunc_store GPRV2I16:$val, ADDR:$ptr)]>; + def _v4i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v4i8trunc_store GPRV4I16:$val, ADDR:$ptr)]>; + def _v2i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i16trunc_store GPRV2I32:$val, ADDR:$ptr)]>; + def _v4i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v4i16trunc_store GPRV4I32:$val, ADDR:$ptr)]>; + def _v2f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2f32trunc_store GPRV2F64:$val, ADDR:$ptr)]>; + def _v2i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i8trunc_store GPRV2I64:$val, ADDR:$ptr)]>; + def _v2i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i16trunc_store GPRV2I64:$val, ADDR:$ptr)]>; + def _v2i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i32trunc_store GPRV2I64:$val, ADDR:$ptr)]>; +} + +// Multiclass that handles memory store operations +multiclass RTRUNCSTORE<string asm> { + def _i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i8trunc_store GPRI16:$val, ADDR:$ptr)]>; + def _i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i8trunc_store GPRI32:$val, ADDR:$ptr)]>; + def _i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i8trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i16trunc_store GPRI32:$val, ADDR:$ptr)]>; + def _i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i16trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i32trunc_store GPRI64:$val, ADDR:$ptr)]>; + def _f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_f32trunc_store GPRF64:$val, ADDR:$ptr)]>; + def _v2i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i8trunc_store GPRV2I32:$val, ADDR:$ptr)]>; + def _v4i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v4i8trunc_store GPRV4I32:$val, ADDR:$ptr)]>; + def _v2i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i8trunc_store GPRV2I16:$val, ADDR:$ptr)]>; + def _v4i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v4i8trunc_store GPRV4I16:$val, ADDR:$ptr)]>; + def _v2i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i16trunc_store GPRV2I32:$val, ADDR:$ptr)]>; + def _v4i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v4i16trunc_store GPRV4I32:$val, ADDR:$ptr)]>; + def _v2f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2f32trunc_store GPRV2F64:$val, ADDR:$ptr)]>; + def _v2i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i8trunc_store GPRV2I64:$val, ADDR:$ptr)]>; + def _v2i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i16trunc_store GPRV2I64:$val, ADDR:$ptr)]>; + def _v2i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i32trunc_store GPRV2I64:$val, ADDR:$ptr)]>; +} + + +// Multiclass that handles memory store operations +multiclass STORE<string asm, PatFrag OpNode> { + def _i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI8:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRI8:$val, ADDR:$ptr)]>; + def _i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRI16:$val, ADDR:$ptr)]>; + def _i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRI32:$val, ADDR:$ptr)]>; + def _f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRF32:$val, ADDR:$ptr)]>; + def _i64 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRI64:$val, ADDR:$ptr)]>; + def _f64 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRF64:$val, ADDR:$ptr)]>; + def _v4f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4F32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV4F32:$val, ADDR:$ptr)]>; + def _v2f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2F32:$val, ADDR:$ptr)]>; + def _v4i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV4I32:$val, ADDR:$ptr)]>; + def _v2i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I8:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2I8:$val, ADDR:$ptr)]>; + def _v2i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2I16:$val, ADDR:$ptr)]>; + def _v4i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I8:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV4I8:$val, ADDR:$ptr)]>; + def _v4i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I16:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV4I16:$val, ADDR:$ptr)]>; + def _v2i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2I32:$val, ADDR:$ptr)]>; + def _v2f64 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2F64:$val, ADDR:$ptr)]>; + def _v2i64 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI32:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2I64:$val, ADDR:$ptr)]>; +} + +// Multiclass that handles load operations +multiclass LOAD<string asm, PatFrag OpNode> { + def _i8 : OneInOneOut<IL_OP_MOV, (outs GPRI8:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRI8:$dst, (OpNode ADDR:$ptr))]>; + def _i16 : OneInOneOut<IL_OP_MOV, (outs GPRI16:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRI16:$dst, (OpNode ADDR:$ptr))]>; + def _i32 : OneInOneOut<IL_OP_MOV, (outs GPRI32:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRI32:$dst, (OpNode ADDR:$ptr))]>; + def _f32 : OneInOneOut<IL_OP_MOV, (outs GPRF32:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRF32:$dst, (OpNode ADDR:$ptr))]>; + def _i64 : OneInOneOut<IL_OP_MOV, (outs GPRI64:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRI64:$dst, (OpNode ADDR:$ptr))]>; + def _f64 : OneInOneOut<IL_OP_MOV, (outs GPRF64:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRF64:$dst, (OpNode ADDR:$ptr))]>; + def _v4f32 : OneInOneOut<IL_OP_MOV, (outs GPRV4F32:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV4F32:$dst, (OpNode ADDR:$ptr))]>; + def _v2f32 : OneInOneOut<IL_OP_MOV, (outs GPRV2F32:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2F32:$dst, (OpNode ADDR:$ptr))]>; + def _v2f64 : OneInOneOut<IL_OP_MOV, (outs GPRV2F64:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2F64:$dst, (OpNode ADDR:$ptr))]>; + def _v4i32 : OneInOneOut<IL_OP_MOV, (outs GPRV4I32:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV4I32:$dst, (OpNode ADDR:$ptr))]>; + def _v2i8 : OneInOneOut<IL_OP_MOV, (outs GPRV2I8:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2I8:$dst, (OpNode ADDR:$ptr))]>; + def _v2i16 : OneInOneOut<IL_OP_MOV, (outs GPRV2I16:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2I16:$dst, (OpNode ADDR:$ptr))]>; + def _v4i8 : OneInOneOut<IL_OP_MOV, (outs GPRV4I8:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV4I8:$dst, (OpNode ADDR:$ptr))]>; + def _v4i16 : OneInOneOut<IL_OP_MOV, (outs GPRV4I16:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV4I16:$dst, (OpNode ADDR:$ptr))]>; + def _v2i32 : OneInOneOut<IL_OP_MOV, (outs GPRV2I32:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2I32:$dst, (OpNode ADDR:$ptr))]>; + def _v2i64 : OneInOneOut<IL_OP_MOV, (outs GPRV2I64:$dst), (ins MEMI32:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2I64:$dst, (OpNode ADDR:$ptr))]>; +} + +// Multiclass that handles memory store operations +multiclass GTRUNCSTORE64<string asm> { + def _i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i8trunc_store GPRI16:$val, ADDR64:$ptr)]>; + def _i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i8trunc_store GPRI32:$val, ADDR64:$ptr)]>; + def _i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i8trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i16trunc_store GPRI32:$val, ADDR64:$ptr)]>; + def _i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i16trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_i32trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_f32trunc_store GPRF64:$val, ADDR64:$ptr)]>; + def _v2i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i8trunc_store GPRV2I32:$val, ADDR64:$ptr)]>; + def _v4i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v4i8trunc_store GPRV4I32:$val, ADDR64:$ptr)]>; + def _v2i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i8trunc_store GPRV2I16:$val, ADDR64:$ptr)]>; + def _v4i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v4i8trunc_store GPRV4I16:$val, ADDR64:$ptr)]>; + def _v2i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i16trunc_store GPRV2I32:$val, ADDR64:$ptr)]>; + def _v4i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v4i16trunc_store GPRV4I32:$val, ADDR64:$ptr)]>; + def _v2f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2f32trunc_store GPRV2F64:$val, ADDR64:$ptr)]>; + def _v2i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i8trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; + def _v2i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i16trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; + def _v2i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(global_v2i32trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; +} + +// Multiclass that handles memory store operations +multiclass LTRUNCSTORE64<string asm> { + def _i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i8trunc_store GPRI16:$val, ADDR64:$ptr)]>; + def _i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i8trunc_store GPRI32:$val, ADDR64:$ptr)]>; + def _i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i8trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i16trunc_store GPRI32:$val, ADDR64:$ptr)]>; + def _i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i16trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_i32trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_f32trunc_store GPRF64:$val, ADDR64:$ptr)]>; + def _v2i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i8trunc_store GPRV2I32:$val, ADDR64:$ptr)]>; + def _v4i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v4i8trunc_store GPRV4I32:$val, ADDR64:$ptr)]>; + def _v2i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i8trunc_store GPRV2I16:$val, ADDR64:$ptr)]>; + def _v4i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v4i8trunc_store GPRV4I16:$val, ADDR64:$ptr)]>; + def _v2i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i16trunc_store GPRV2I32:$val, ADDR64:$ptr)]>; + def _v4i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v4i16trunc_store GPRV4I32:$val, ADDR64:$ptr)]>; + def _v2f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2f32trunc_store GPRV2F64:$val, ADDR64:$ptr)]>; + def _v2i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i8trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; + def _v2i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i16trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; + def _v2i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(local_v2i32trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; +} + +// Multiclass that handles memory store operations +multiclass PTRUNCSTORE64<string asm> { + def _i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i8trunc_store GPRI16:$val, ADDR64:$ptr)]>; + def _i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i8trunc_store GPRI32:$val, ADDR64:$ptr)]>; + def _i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i8trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i16trunc_store GPRI32:$val, ADDR64:$ptr)]>; + def _i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i16trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_i32trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_f32trunc_store GPRF64:$val, ADDR64:$ptr)]>; + def _v2i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i8trunc_store GPRV2I32:$val, ADDR64:$ptr)]>; + def _v4i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v4i8trunc_store GPRV4I32:$val, ADDR64:$ptr)]>; + def _v2i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i8trunc_store GPRV2I16:$val, ADDR64:$ptr)]>; + def _v4i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v4i8trunc_store GPRV4I16:$val, ADDR64:$ptr)]>; + def _v2i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i16trunc_store GPRV2I32:$val, ADDR64:$ptr)]>; + def _v4i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v4i16trunc_store GPRV4I32:$val, ADDR64:$ptr)]>; + def _v2f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2f32trunc_store GPRV2F64:$val, ADDR64:$ptr)]>; + def _v2i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i8trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; + def _v2i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i16trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; + def _v2i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(private_v2i32trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; +} + +// Multiclass that handles memory store operations +multiclass RTRUNCSTORE64<string asm> { + def _i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i8trunc_store GPRI16:$val, ADDR64:$ptr)]>; + def _i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i8trunc_store GPRI32:$val, ADDR64:$ptr)]>; + def _i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i8trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i16trunc_store GPRI32:$val, ADDR64:$ptr)]>; + def _i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i16trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_i32trunc_store GPRI64:$val, ADDR64:$ptr)]>; + def _f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_f32trunc_store GPRF64:$val, ADDR64:$ptr)]>; + def _v2i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i8trunc_store GPRV2I32:$val, ADDR64:$ptr)]>; + def _v4i32i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v4i8trunc_store GPRV4I32:$val, ADDR64:$ptr)]>; + def _v2i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i8trunc_store GPRV2I16:$val, ADDR64:$ptr)]>; + def _v4i16i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v4i8trunc_store GPRV4I16:$val, ADDR64:$ptr)]>; + def _v2i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i16trunc_store GPRV2I32:$val, ADDR64:$ptr)]>; + def _v4i32i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v4i16trunc_store GPRV4I32:$val, ADDR64:$ptr)]>; + def _v2f64f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2f32trunc_store GPRV2F64:$val, ADDR64:$ptr)]>; + def _v2i64i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i8trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; + def _v2i64i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i16trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; + def _v2i64i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(region_v2i32trunc_store GPRV2I64:$val, ADDR64:$ptr)]>; +} + + +// Multiclass that handles memory store operations +multiclass STORE64<string asm, PatFrag OpNode> { + def _i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI8:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRI8:$val, ADDR64:$ptr)]>; + def _i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRI16:$val, ADDR64:$ptr)]>; + def _i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRI32:$val, ADDR64:$ptr)]>; + def _f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRF32:$val, ADDR64:$ptr)]>; + def _i64 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRI64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRI64:$val, ADDR64:$ptr)]>; + def _f64 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRF64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRF64:$val, ADDR64:$ptr)]>; + def _v4f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4F32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV4F32:$val, ADDR64:$ptr)]>; + def _v2f32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2F32:$val, ADDR64:$ptr)]>; + def _v4i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV4I32:$val, ADDR64:$ptr)]>; + def _v2i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I8:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2I8:$val, ADDR64:$ptr)]>; + def _v2i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2I16:$val, ADDR64:$ptr)]>; + def _v4i8 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I8:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV4I8:$val, ADDR64:$ptr)]>; + def _v4i16 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV4I16:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV4I16:$val, ADDR64:$ptr)]>; + def _v2i32 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I32:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2I32:$val, ADDR64:$ptr)]>; + def _v2f64 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2F64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2F64:$val, ADDR64:$ptr)]>; + def _v2i64 : OneInOneOut<IL_OP_MOV, (outs), (ins GPRV2I64:$val, MEMI64:$ptr), + !strconcat(asm, " $val $ptr"), + [(OpNode GPRV2I64:$val, ADDR64:$ptr)]>; +} + +// Multiclass that handles load operations +multiclass LOAD64<string asm, PatFrag OpNode> { + def _i8 : OneInOneOut<IL_OP_MOV, (outs GPRI8:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRI8:$dst, (OpNode ADDR64:$ptr))]>; + def _i16 : OneInOneOut<IL_OP_MOV, (outs GPRI16:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRI16:$dst, (OpNode ADDR64:$ptr))]>; + def _i32 : OneInOneOut<IL_OP_MOV, (outs GPRI32:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRI32:$dst, (OpNode ADDR64:$ptr))]>; + def _f32 : OneInOneOut<IL_OP_MOV, (outs GPRF32:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRF32:$dst, (OpNode ADDR64:$ptr))]>; + def _i64 : OneInOneOut<IL_OP_MOV, (outs GPRI64:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRI64:$dst, (OpNode ADDR64:$ptr))]>; + def _f64 : OneInOneOut<IL_OP_MOV, (outs GPRF64:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRF64:$dst, (OpNode ADDR64:$ptr))]>; + def _v4f32 : OneInOneOut<IL_OP_MOV, (outs GPRV4F32:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV4F32:$dst, (OpNode ADDR64:$ptr))]>; + def _v2f32 : OneInOneOut<IL_OP_MOV, (outs GPRV2F32:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2F32:$dst, (OpNode ADDR64:$ptr))]>; + def _v2f64 : OneInOneOut<IL_OP_MOV, (outs GPRV2F64:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2F64:$dst, (OpNode ADDR64:$ptr))]>; + def _v4i32 : OneInOneOut<IL_OP_MOV, (outs GPRV4I32:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV4I32:$dst, (OpNode ADDR64:$ptr))]>; + def _v2i8 : OneInOneOut<IL_OP_MOV, (outs GPRV2I8:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2I8:$dst, (OpNode ADDR64:$ptr))]>; + def _v2i16 : OneInOneOut<IL_OP_MOV, (outs GPRV2I16:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2I16:$dst, (OpNode ADDR64:$ptr))]>; + def _v4i8 : OneInOneOut<IL_OP_MOV, (outs GPRV4I8:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV4I8:$dst, (OpNode ADDR64:$ptr))]>; + def _v4i16 : OneInOneOut<IL_OP_MOV, (outs GPRV4I16:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV4I16:$dst, (OpNode ADDR64:$ptr))]>; + def _v2i32 : OneInOneOut<IL_OP_MOV, (outs GPRV2I32:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2I32:$dst, (OpNode ADDR64:$ptr))]>; + def _v2i64 : OneInOneOut<IL_OP_MOV, (outs GPRV2I64:$dst), (ins MEMI64:$ptr), + !strconcat(asm, " $dst $ptr"), + [(set GPRV2I64:$dst, (OpNode ADDR64:$ptr))]>; +} + +// Only scalar types should generate flow control +multiclass BranchInstr<ILOpCode opc> { + def _i8 : UnaryOpNoRet<opc, (outs), (ins GPRI8:$src), + !strconcat(opc.Text, " $src"), []>; + def _i16 : UnaryOpNoRet<opc, (outs), (ins GPRI16:$src), + !strconcat(opc.Text, " $src"), []>; + def _i32 : UnaryOpNoRet<opc, (outs), (ins GPRI32:$src), + !strconcat(opc.Text, " $src"), []>; + def _i64 : UnaryOpNoRet<opc, (outs), (ins GPRI64:$src), + !strconcat(opc.Text, " $src"), []>; + def _f32 : UnaryOpNoRet<opc, (outs), (ins GPRF32:$src), + !strconcat(opc.Text, " $src"), []>; + def _f64 : UnaryOpNoRet<opc, (outs), (ins GPRF64:$src), + !strconcat(opc.Text, " $src"), []>; +} +// Only scalar types should generate flow control +multiclass BranchInstr2<ILOpCode opc> { + def _i8 : BinaryOpNoRet<opc, (outs), (ins GPRI8:$src0, GPRI8:$src1), + !strconcat(opc.Text, " $src0, $src1"), []>; + def _i16 : BinaryOpNoRet<opc, (outs), (ins GPRI16:$src0, GPRI16:$src1), + !strconcat(opc.Text, " $src0, $src1"), []>; + def _i32 : BinaryOpNoRet<opc, (outs), (ins GPRI32:$src0, GPRI32:$src1), + !strconcat(opc.Text, " $src0, $src1"), []>; + def _i64 : BinaryOpNoRet<opc, (outs), (ins GPRI64:$src0, GPRI64:$src1), + !strconcat(opc.Text, " $src0, $src1"), []>; + def _f32 : BinaryOpNoRet<opc, (outs), (ins GPRF32:$src0, GPRF32:$src1), + !strconcat(opc.Text, " $src0, $src1"), []>; + def _f64 : BinaryOpNoRet<opc, (outs), (ins GPRF64:$src0, GPRF64:$src1), + !strconcat(opc.Text, " $src0, $src1"), []>; +} + +// Class that handles the various vector extract patterns +multiclass VectorExtract<SDNode OpNode> { + def _v2f64 : ExtractVectorClass<GPRF64, GPRV2F64, OpNode>; + def _v4f32: ExtractVectorClass<GPRF32, GPRV4F32, OpNode>; + def _v2f32 : ExtractVectorClass<GPRF32, GPRV2F32, OpNode>; + def _v2i64 : ExtractVectorClass<GPRI64, GPRV2I64, OpNode>; + def _v4i8 : ExtractVectorClass<GPRI8, GPRV4I8, OpNode>; + def _v4i16 : ExtractVectorClass<GPRI16, GPRV4I16, OpNode>; + def _v4i32 : ExtractVectorClass<GPRI32, GPRV4I32, OpNode>; + def _v2i8 : ExtractVectorClass<GPRI8, GPRV2I8, OpNode>; + def _v2i16 : ExtractVectorClass<GPRI16, GPRV2I16, OpNode>; + def _v2i32 : ExtractVectorClass<GPRI32, GPRV2I32, OpNode>; +} + +multiclass VectorConcat<SDNode OpNode> { + def _v2f64 : VectorConcatClass<GPRV2F64, GPRF64, OpNode>; + def _v2i64 : VectorConcatClass<GPRV2F64, GPRI64, OpNode>; + def _v4f32 : VectorConcatClass<GPRV4F32, GPRV2F32, OpNode>; + def _v4i32 : VectorConcatClass<GPRV4I32, GPRV2I32, OpNode>; + def _v4i16 : VectorConcatClass<GPRV4I16, GPRV2I16, OpNode>; + def _v4i8 : VectorConcatClass<GPRV4I8, GPRV2I8, OpNode>; + def _v2f32 : VectorConcatClass<GPRV2F32, GPRF32, OpNode>; + def _v2i32 : VectorConcatClass<GPRV2I32, GPRI32, OpNode>; + def _v2i16 : VectorConcatClass<GPRV2I16, GPRI16, OpNode>; + def _v2i8 : VectorConcatClass<GPRV2I8, GPRI8, OpNode>; +} + +// Class that handles the various vector insert patterns +multiclass VectorInsert<SDNode OpNode> { + def _v2f64 : InsertVectorClass<IL_OP_I_ADD, GPRV2F64, + GPRF64, OpNode, "iadd">; + def _v4f32: InsertVectorClass<IL_OP_I_ADD, GPRV4F32, + GPRF32, OpNode, "iadd">; + def _v2f32 : InsertVectorClass<IL_OP_I_ADD, GPRV2F32, + GPRF32, OpNode, "iadd">; + def _v2i64 : InsertVectorClass<IL_OP_I_ADD, GPRV2I64, + GPRI64, OpNode, "iadd">; + def _v4i8 : InsertVectorClass<IL_OP_I_ADD, GPRV4I8, + GPRI8, OpNode, "iadd">; + def _v4i16 : InsertVectorClass<IL_OP_I_ADD, GPRV4I16, + GPRI16, OpNode, "iadd">; + def _v4i32 : InsertVectorClass<IL_OP_I_ADD, GPRV4I32, + GPRI32, OpNode, "iadd">; + def _v2i8 : InsertVectorClass<IL_OP_I_ADD, GPRV2I8, + GPRI8, OpNode, "iadd">; + def _v2i16 : InsertVectorClass<IL_OP_I_ADD, GPRV2I16, + GPRI16, OpNode, "iadd">; + def _v2i32 : InsertVectorClass<IL_OP_I_ADD, GPRV2I32, + GPRI32, OpNode, "iadd">; +} + +// generic class that handles math instruction for OneInOneOut instruction +// patterns +multiclass UnaryOpMC<ILOpCode OpCode, SDNode OpNode> { + def _i8 : UnaryOp<OpCode, OpNode, GPRI8, GPRI8>; + def _i16 : UnaryOp<OpCode, OpNode, GPRI16, GPRI16>; + def _i32 : UnaryOp<OpCode, OpNode, GPRI32, GPRI32>; + def _f32 : UnaryOp<OpCode, OpNode, GPRF32, GPRF32>; + def _f64 : UnaryOp<OpCode, OpNode, GPRF64, GPRF64>; + def _i64 : UnaryOp<OpCode, OpNode, GPRI64, GPRI64>; + def _v4f32: UnaryOp<OpCode, OpNode, GPRV4F32, GPRV4F32>; + def _v4i16 : UnaryOp<OpCode, OpNode, GPRV4I16, GPRV4I16>; + def _v4i8 : UnaryOp<OpCode, OpNode, GPRV4I8, GPRV4I8>; + def _v4i32 : UnaryOp<OpCode, OpNode, GPRV4I32, GPRV4I32>; + def _v2f32 : UnaryOp<OpCode, OpNode, GPRV2F32, GPRV2F32>; + def _v2i16 : UnaryOp<OpCode, OpNode, GPRV2I16, GPRV2I16>; + def _v2i8 : UnaryOp<OpCode, OpNode, GPRV2I8, GPRV2I8>; + def _v2i32 : UnaryOp<OpCode, OpNode, GPRV2I32, GPRV2I32>; + def _v2f64 : UnaryOp<OpCode, OpNode, GPRV2F64, GPRV2F64>; + def _v2i64 : UnaryOp<OpCode, OpNode, GPRV2I64, GPRV2I64>; +} +multiclass UnaryOpMCVec<ILOpCode OpCode, SDNode OpNode> { + def _v4f32: UnaryOp<OpCode, OpNode, GPRV4F32, GPRF32>; + def _v4i16 : UnaryOp<OpCode, OpNode, GPRV4I16, GPRI16>; + def _v4i8 : UnaryOp<OpCode, OpNode, GPRV4I8, GPRI8>; + def _v4i32 : UnaryOp<OpCode, OpNode, GPRV4I32, GPRI32>; + def _v2f32 : UnaryOp<OpCode, OpNode, GPRV2F32, GPRF32>; + def _v2i16 : UnaryOp<OpCode, OpNode, GPRV2I16, GPRI16>; + def _v2i8 : UnaryOp<OpCode, OpNode, GPRV2I8, GPRI8>; + def _v2i32 : UnaryOp<OpCode, OpNode, GPRV2I32, GPRI32>; + def _v2f64 : UnaryOp<OpCode, OpNode, GPRV2F64, GPRF64>; + def _v2i64 : UnaryOp<OpCode, OpNode, GPRV2I64, GPRI64>; +} + +multiclass UnaryOpMCf32< +ILOpCode f32OpCode, + SDNode OpNode> { + def _f32 : UnaryOp<f32OpCode, OpNode, GPRF32, GPRF32>; + def _v4f32: UnaryOp<f32OpCode, OpNode, GPRV4F32, GPRV4F32>; + def _v2f32 : UnaryOp<f32OpCode, OpNode, GPRV2F32, GPRV2F32>; + } + +multiclass UnaryOpMCi32< +ILOpCode i32OpCode, + SDNode OpNode> { + def _i8 : UnaryOp<i32OpCode, OpNode, GPRI8, GPRI8>; + def _i16 : UnaryOp<i32OpCode, OpNode, GPRI16, GPRI16>; + def _i32 : UnaryOp<i32OpCode, OpNode, GPRI32, GPRI32>; + def _v4i16 : UnaryOp<i32OpCode, OpNode, GPRV4I16, GPRV4I16>; + def _v4i8 : UnaryOp<i32OpCode, OpNode, GPRV4I8, GPRV4I8>; + def _v4i32 : UnaryOp<i32OpCode, OpNode, GPRV4I32, GPRV4I32>; + def _v2i16 : UnaryOp<i32OpCode, OpNode, GPRV2I16, GPRV2I16>; + def _v2i8 : UnaryOp<i32OpCode, OpNode, GPRV2I8, GPRV2I8>; + def _v2i32 : UnaryOp<i32OpCode, OpNode, GPRV2I32, GPRV2I32>; + } + + +multiclass BinaryOpMC<ILOpCode OpCode, SDNode OpNode> { + def _i8 : BinaryOp<OpCode, OpNode, GPRI8, GPRI8, GPRI8>; + + def _i16 : BinaryOp<OpCode, OpNode, GPRI16, GPRI16, GPRI16>; + def _i32 : BinaryOp<OpCode, OpNode, GPRI32, GPRI32, GPRI32>; + def _f32 : BinaryOp<OpCode, OpNode, GPRF32, GPRF32, GPRF32>; + def _f64 : BinaryOp<OpCode, OpNode, GPRF64, GPRF64, GPRF64>; + def _i64 : BinaryOp<OpCode, OpNode, GPRI64, GPRI64, GPRI64>; + def _v4f32: BinaryOp<OpCode, OpNode, GPRV4F32, GPRV4F32, GPRV4F32>; + def _v4i16 : BinaryOp<OpCode, OpNode, GPRV4I16, GPRV4I16, GPRV4I16>; + def _v4i8 : BinaryOp<OpCode, OpNode, GPRV4I8, GPRV4I8, GPRV4I8>; + def _v4i32 : BinaryOp<OpCode, OpNode, GPRV4I32, GPRV4I32, GPRV4I32>; + def _v2f32 : BinaryOp<OpCode, OpNode, GPRV2F32, GPRV2F32, GPRV2F32>; + def _v2i16 : BinaryOp<OpCode, OpNode, GPRV2I16, GPRV2I16, GPRV2I16>; + def _v2i8 : BinaryOp<OpCode, OpNode, GPRV2I8, GPRV2I8, GPRV2I8>; + def _v2i32 : BinaryOp<OpCode, OpNode, GPRV2I32, GPRV2I32, GPRV2I32>; + def _v2f64 : BinaryOp<OpCode, OpNode, GPRV2F64, GPRV2F64, GPRV2F64>; + def _v2i64 : BinaryOp<OpCode, OpNode, GPRV2I64, GPRV2I64, GPRV2I64>; +} + +multiclass BinaryOpMCInt<ILOpCode OpCode, SDNode OpNode> { + def _i8 : BinaryOp<OpCode, OpNode, GPRI8, GPRI8, GPRI8>; + + def _i16 : BinaryOp<OpCode, OpNode, GPRI16, GPRI16, GPRI16>; + def _i32 : BinaryOp<OpCode, OpNode, GPRI32, GPRI32, GPRI32>; + def _i64 : BinaryOp<OpCode, OpNode, GPRI64, GPRI64, GPRI64>; + def _v4i16 : BinaryOp<OpCode, OpNode, GPRV4I16, GPRV4I16, GPRV4I16>; + def _v4i8 : BinaryOp<OpCode, OpNode, GPRV4I8, GPRV4I8, GPRV4I8>; + def _v4i32 : BinaryOp<OpCode, OpNode, GPRV4I32, GPRV4I32, GPRV4I32>; + def _v2i16 : BinaryOp<OpCode, OpNode, GPRV2I16, GPRV2I16, GPRV2I16>; + def _v2i8 : BinaryOp<OpCode, OpNode, GPRV2I8, GPRV2I8, GPRV2I8>; + def _v2i32 : BinaryOp<OpCode, OpNode, GPRV2I32, GPRV2I32, GPRV2I32>; + def _v2i64 : BinaryOp<OpCode, OpNode, GPRV2I64, GPRV2I64, GPRV2I64>; +} + +// generic class that handles math instruction for ThreeInOneOut +// instruction patterns +multiclass TernaryOpMC<ILOpCode OpCode, SDNode OpNode> { + def _i8 : TernaryOp<OpCode, OpNode, GPRI8, GPRI8, GPRI8, GPRI8>; + def _i16 : TernaryOp<OpCode, OpNode, GPRI16, GPRI16, GPRI16, GPRI16>; + def _i32 : TernaryOp<OpCode, OpNode, GPRI32, GPRI32, GPRI32, GPRI32>; + def _f32 : TernaryOp<OpCode, OpNode, GPRF32, GPRF32, GPRF32, GPRF32>; + def _f64 : TernaryOp<OpCode, OpNode, GPRF64, GPRF64, GPRF64, GPRF64>; + def _i64 : TernaryOp<OpCode, OpNode, GPRI64, GPRI64, GPRI64, GPRI64>; + def _v4f32: TernaryOp<OpCode, OpNode, GPRV4F32, GPRV4F32, + GPRV4F32, GPRV4F32>; + def _v4i8 : TernaryOp<OpCode, OpNode, GPRV4I8, GPRV4I8, + GPRV4I8, GPRV4I8>; + def _v4i16 : TernaryOp<OpCode, OpNode, GPRV4I16, GPRV4I16, + GPRV4I16, GPRV4I16>; + def _v4i32 : TernaryOp<OpCode, OpNode, GPRV4I32, GPRV4I32, + GPRV4I32, GPRV4I32>; + def _v2f32 : TernaryOp<OpCode, OpNode, GPRV2F32, GPRV2F32, + GPRV2F32, GPRV2F32>; + def _v2i8 : TernaryOp<OpCode, OpNode, GPRV2I8, GPRV2I8, + GPRV2I8, GPRV2I8>; + def _v2i16 : TernaryOp<OpCode, OpNode, GPRV2I16, GPRV2I16, + GPRV2I16, GPRV2I16>; + def _v2i32 : TernaryOp<OpCode, OpNode, GPRV2I32, GPRV2I32, + GPRV2I32, GPRV2I32>; + def _v2f64 : TernaryOp<OpCode, OpNode, GPRV2F64, GPRV2F64, + GPRV2F64, GPRV2F64>; + def _v2i64 : TernaryOp<OpCode, OpNode, GPRV2I64, GPRV2I64, + GPRV2I64, GPRV2I64>; +} +multiclass BinaryOpMCi32<ILOpCode i32OpCode, SDNode OpNode> { + def _i8 : BinaryOp<i32OpCode, OpNode, GPRI8, GPRI8, GPRI8>; + def _i16 : BinaryOp<i32OpCode, OpNode, GPRI16, GPRI16, GPRI16>; + def _i32 : BinaryOp<i32OpCode, OpNode, GPRI32, GPRI32, GPRI32>; + def _v4i16 : BinaryOp<i32OpCode, OpNode, GPRV4I16, + GPRV4I16, GPRV4I16>; + def _v4i8 : BinaryOp<i32OpCode, OpNode, GPRV4I8, + GPRV4I8, GPRV4I8>; + def _v4i32 : BinaryOp<i32OpCode, OpNode, GPRV4I32, + GPRV4I32, GPRV4I32>; + def _v2i16 : BinaryOp<i32OpCode, OpNode, GPRV2I16, + GPRV2I16, GPRV2I16>; + def _v2i8 : BinaryOp<i32OpCode, OpNode, GPRV2I8, + GPRV2I8, GPRV2I8>; + def _v2i32 : BinaryOp<i32OpCode, OpNode, GPRV2I32, + GPRV2I32, GPRV2I32>; +} +multiclass BinaryOpMCi64<ILOpCode i64OpCode, SDNode OpNode> { + def _i64 : BinaryOp<i64OpCode, OpNode, GPRI64, GPRI64, GPRI64>; + def _v2i64 : BinaryOp<i64OpCode, OpNode, GPRV2I64, + GPRV2I64, GPRV2I64>; +} +multiclass BinaryOpMCi32Const<ILOpCode i32OpCode, SDNode OpNode> { + def _i8 : BinaryOp<i32OpCode, OpNode, GPRI8, GPRI8, GPRI32>; + def _i16 : BinaryOp<i32OpCode, OpNode, GPRI16, GPRI16, GPRI32>; + def _i32 : BinaryOp<i32OpCode, OpNode, GPRI32, GPRI32, GPRI32>; + def _v4i16 : BinaryOp<i32OpCode, OpNode, GPRV4I32, + GPRV4I32, GPRI32>; + def _v4i8 : BinaryOp<i32OpCode, OpNode, GPRV4I32, + GPRV4I32, GPRI32>; + def _v4i32 : BinaryOp<i32OpCode, OpNode, GPRV4I32, + GPRV4I32, GPRI32>; + def _v2i16 : BinaryOp<i32OpCode, OpNode, GPRV2I32, + GPRV2I32, GPRI32>; + def _v2i8 : BinaryOp<i32OpCode, OpNode, GPRV2I32, + GPRV2I32, GPRI32>; + def _v2i32 : BinaryOp<i32OpCode, OpNode, GPRV2I32, + GPRV2I32, GPRI32>; +} +multiclass BinaryOpMCf32<ILOpCode f32OpCode, SDNode OpNode> { + def _f32 : BinaryOp<f32OpCode, OpNode, GPRF32, + GPRF32, GPRF32>; + def _v4f32: BinaryOp<f32OpCode, OpNode, GPRV4F32, + GPRV4F32, GPRV4F32>; + def _v2f32 : BinaryOp<f32OpCode, OpNode, GPRV2F32, + GPRV2F32, GPRV2F32>; +} + +multiclass TernaryOpMCf64<ILOpCode f64OpCode, SDNode OpNode> { + def _f64 : TernaryOp<f64OpCode, OpNode, GPRF64, + GPRF64, GPRF64, GPRF64>; +} + +multiclass TernaryOpMCf32<ILOpCode f32OpCode, SDNode OpNode> { + def _f32 : TernaryOp<f32OpCode, OpNode, GPRF32, + GPRF32, GPRF32, GPRF32>; + def _v4f32: TernaryOp<f32OpCode, OpNode, GPRV4F32, + GPRV4F32, GPRV4F32, GPRV4F32>; + def _v2f32 : TernaryOp<f32OpCode, OpNode, GPRV2F32, + GPRV2F32, GPRV2F32, GPRV2F32>; +} +multiclass BinaryOpMCFloat<ILOpCode f32OpCode, ILOpCode f64OpCode, + SDNode OpNode> { + def _f64 : BinaryOp<f64OpCode, OpNode, GPRF64, + GPRF64, GPRF64>; + def _v2f64 : BinaryOp<f64OpCode, OpNode, GPRV2F64, + GPRV2F64, GPRV2F64>; + def _f32 : BinaryOp<f32OpCode, OpNode, GPRF32, + GPRF32, GPRF32>; + def _v2f32 : BinaryOp<f32OpCode, OpNode, GPRV2F32, + GPRV2F32, GPRV2F32>; + def _v4f32: BinaryOp<f32OpCode, OpNode, GPRV4F32, + GPRV4F32, GPRV4F32>; + } + +multiclass TernaryOpMCScalar<ILOpCode opcode, SDNode node> +{ + def _i8: TernaryOp<opcode, node, GPRI8, GPRI8, GPRI8, GPRI8>; + def _i16: TernaryOp<opcode, node, GPRI16, GPRI8, GPRI16, GPRI16>; + def _i32: TernaryOp<opcode, node, GPRI32, GPRI8, GPRI32, GPRI32>; + def _i64: TernaryOp<opcode, node, GPRI64, GPRI8, GPRI64, GPRI64>; + def _f32: TernaryOp<opcode, node, GPRF32, GPRI8, GPRF32, GPRF32>; + def _f64: TernaryOp<opcode, node, GPRF64, GPRI8, GPRF64, GPRF64>; +} + + +multiclass BitConversion<ILOpCode opcode, RegisterClass Regs, SDNode OpNode> +{ + def _i8 : UnaryOp<opcode, OpNode, Regs, GPRI8>; + def _i16 : UnaryOp<opcode, OpNode, Regs, GPRI16>; + def _i32 : UnaryOp<opcode, OpNode, Regs, GPRI32>; + def _f32 : UnaryOp<opcode, OpNode, Regs, GPRF32>; + def _i64 : UnaryOp<opcode, OpNode, Regs, GPRI64>; + def _f64 : UnaryOp<opcode, OpNode, Regs, GPRF64>; + def _v2i8 : UnaryOp<opcode, OpNode, Regs, GPRV2I8>; + def _v2i16 : UnaryOp<opcode, OpNode, Regs, GPRV2I16>; + def _v2i32 : UnaryOp<opcode, OpNode, Regs, GPRV2I32>; + def _v2f32 : UnaryOp<opcode, OpNode, Regs, GPRV2F32>; + def _v2i64 : UnaryOp<opcode, OpNode, Regs, GPRV2I64>; + def _v2f64 : UnaryOp<opcode, OpNode, Regs, GPRV2F64>; + def _v4i8 : UnaryOp<opcode, OpNode, Regs, GPRV4I8>; + def _v4i16 : UnaryOp<opcode, OpNode, Regs, GPRV4I16>; + def _v4i32 : UnaryOp<opcode, OpNode, Regs, GPRV4I32>; + def _v4f32 : UnaryOp<opcode, OpNode, Regs, GPRV4F32>; +} + + +multiclass UnaryIntrinsicInt<ILOpCode opcode, Intrinsic intr> +{ +def _i32 : OneInOneOut<opcode, (outs GPRI32:$dst), + (ins GPRI32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRI32:$dst, (intr GPRI32:$src))]>; +def _v2i32 : OneInOneOut<opcode, (outs GPRV2I32:$dst), + (ins GPRV2I32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV2I32:$dst, (intr GPRV2I32:$src))]>; +def _v4i32 : OneInOneOut<opcode, (outs GPRV4I32:$dst), + (ins GPRV4I32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV4I32:$dst, (intr GPRV4I32:$src))]>; +} + +multiclass IntrConvertF32TOF16<ILOpCode opcode, Intrinsic intr> +{ +def _i16 : OneInOneOut<opcode, (outs GPRI16:$dst), + (ins GPRF32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRI16:$dst, (intr GPRF32:$src))]>; +def _v2i16 : OneInOneOut<opcode, (outs GPRV2I16:$dst), + (ins GPRV2F32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV2I16:$dst, (intr GPRV2F32:$src))]>; +def _v4i16 : OneInOneOut<opcode, (outs GPRV4I16:$dst), + (ins GPRV4F32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV4I16:$dst, (intr GPRV4F32:$src))]>; +} + + +multiclass IntrConvertF32TOI32<ILOpCode opcode, Intrinsic intr> +{ +def _i32 : OneInOneOut<opcode, (outs GPRI32:$dst), + (ins GPRF32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRI32:$dst, (intr GPRF32:$src))]>; +def _v2i32 : OneInOneOut<opcode, (outs GPRV2I32:$dst), + (ins GPRV2F32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV2I32:$dst, (intr GPRV2F32:$src))]>; +def _v4i32 : OneInOneOut<opcode, (outs GPRV4I32:$dst), + (ins GPRV4F32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV4I32:$dst, (intr GPRV4F32:$src))]>; +} + +multiclass IntrConvertF64TOI32<ILOpCode opcode, Intrinsic intr> +{ +def _i32 : OneInOneOut<opcode, (outs GPRI32:$dst), + (ins GPRF64:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRI32:$dst, (intr GPRF64:$src))]>; +def _v2i32 : OneInOneOut<opcode, (outs GPRV2I32:$dst), + (ins GPRV2F64:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV2I32:$dst, (intr GPRV2F64:$src))]>; +} + +multiclass IntrConvertF16TOF32<ILOpCode opcode, Intrinsic intr> +{ +def _f32 : OneInOneOut<opcode, (outs GPRF32:$dst), + (ins GPRI16:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRF32:$dst, (intr GPRI16:$src))]>; +def _v2f32 : OneInOneOut<opcode, (outs GPRV2F32:$dst), + (ins GPRV2I16:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV2F32:$dst, (intr GPRV2I16:$src))]>; +def _v4f32 : OneInOneOut<opcode, (outs GPRV4F32:$dst), + (ins GPRV4I16:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV4F32:$dst, (intr GPRV4I16:$src))]>; +} + + +multiclass IntrConvertI32TOF32<ILOpCode opcode, Intrinsic intr> +{ +def _f32 : OneInOneOut<opcode, (outs GPRF32:$dst), + (ins GPRI32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRF32:$dst, (intr GPRI32:$src))]>; +def _v2f32 : OneInOneOut<opcode, (outs GPRV2F32:$dst), + (ins GPRV2I32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV2F32:$dst, (intr GPRV2I32:$src))]>; +def _v4f32 : OneInOneOut<opcode, (outs GPRV4F32:$dst), + (ins GPRV4I32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV4F32:$dst, (intr GPRV4I32:$src))]>; +} + +multiclass BinaryIntrinsicLong<ILOpCode opcode, Intrinsic intr> +{ +def _i64 : TwoInOneOut<opcode, (outs GPRI64:$dst), + (ins GPRI64:$src, GPRI64:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRI64:$dst, + (intr GPRI64:$src, GPRI64:$src2))]>; +} + + +multiclass BinaryIntrinsicInt<ILOpCode opcode, Intrinsic intr> +{ +def _i32 : TwoInOneOut<opcode, (outs GPRI32:$dst), + (ins GPRI32:$src, GPRI32:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRI32:$dst, + (intr GPRI32:$src, GPRI32:$src2))]>; +def _v2i32 : TwoInOneOut<opcode, (outs GPRV2I32:$dst), + (ins GPRV2I32:$src, GPRV2I32:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRV2I32:$dst, + (intr GPRV2I32:$src, GPRV2I32:$src2))]>; +def _v4i32 : TwoInOneOut<opcode, (outs GPRV4I32:$dst), + (ins GPRV4I32:$src, GPRV4I32:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRV4I32:$dst, + (intr GPRV4I32:$src, GPRV4I32:$src2))]>; +} + +multiclass TernaryIntrinsicInt<ILOpCode opcode, Intrinsic intr> +{ +def _i32 : ThreeInOneOut<opcode, (outs GPRI32:$dst), + (ins GPRI32:$src, GPRI32:$src2, GPRI32:$src3), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3"), + [(set GPRI32:$dst, + (intr GPRI32:$src, GPRI32:$src2, GPRI32:$src3))]>; +def _v2i32 : ThreeInOneOut<opcode, (outs GPRV2I32:$dst), + (ins GPRV2I32:$src, GPRV2I32:$src2, GPRV2I32:$src3), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3"), + [(set GPRV2I32:$dst, + (intr GPRV2I32:$src, GPRV2I32:$src2, GPRV2I32:$src3))]>; +def _v4i32 : ThreeInOneOut<opcode, (outs GPRV4I32:$dst), + (ins GPRV4I32:$src, GPRV4I32:$src2, GPRV4I32:$src3), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3"), + [(set GPRV4I32:$dst, + (intr GPRV4I32:$src, GPRV4I32:$src2, GPRV4I32:$src3))]>; +} + +multiclass TernaryIntrinsicFloat<ILOpCode opcode, Intrinsic intr> +{ +def _f32 : ThreeInOneOut<opcode, (outs GPRF32:$dst), + (ins GPRF32:$src, GPRF32:$src2, GPRF32:$src3), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3"), + [(set GPRF32:$dst, + (intr GPRF32:$src, GPRF32:$src2, GPRF32:$src3))]>; +def _v2f32 : ThreeInOneOut<opcode, (outs GPRV2F32:$dst), + (ins GPRV2F32:$src, GPRV2F32:$src2, GPRV2F32:$src3), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3"), + [(set GPRV2F32:$dst, + (intr GPRV2F32:$src, GPRV2F32:$src2, GPRV2F32:$src3))]>; +def _v4f32 : ThreeInOneOut<opcode, (outs GPRV4F32:$dst), + (ins GPRV4F32:$src, GPRV4F32:$src2, GPRV4F32:$src3), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3"), + [(set GPRV4F32:$dst, + (intr GPRV4F32:$src, GPRV4F32:$src2, GPRV4F32:$src3))]>; +} + +multiclass BinaryIntrinsicDoubleScalar<ILOpCode opcode, Intrinsic intr> +{ +def _f64 : ThreeInOneOut<opcode, (outs GPRF64:$dst), + (ins GPRF64:$src, GPRF64:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRF64:$dst, + (intr GPRF64:$src, GPRF64:$src2))]>; +} + +multiclass TernaryIntrinsicDoubleScalar<ILOpCode opcode, Intrinsic intr> +{ +def _f64 : ThreeInOneOut<opcode, (outs GPRF64:$dst), + (ins GPRF64:$src, GPRF64:$src2, GPRF64:$src3), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3"), + [(set GPRF64:$dst, + (intr GPRF64:$src, GPRF64:$src2, GPRF64:$src3))]>; +} + + +multiclass TernaryIntrinsicLongScalar<ILOpCode opcode, Intrinsic intr> +{ +def _i64 : ThreeInOneOut<opcode, (outs GPRI64:$dst), + (ins GPRI64:$src, GPRI64:$src2, GPRI64:$src3), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3"), + [(set GPRI64:$dst, + (intr GPRI64:$src, GPRI64:$src2, GPRI64:$src3))]>; +} + +multiclass QuaternaryIntrinsicInt<ILOpCode opcode, Intrinsic intr> +{ +def _i32 : FourInOneOut<opcode, (outs GPRI32:$dst), + (ins GPRI32:$src, GPRI32:$src2, GPRI32:$src3, GPRI32:$src4), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3, $src4"), + [(set GPRI32:$dst, + (intr GPRI32:$src, GPRI32:$src2, GPRI32:$src3, GPRI32:$src4))]>; +def _v2i32 : FourInOneOut<opcode, (outs GPRV2I32:$dst), + (ins GPRV2I32:$src, GPRV2I32:$src2, GPRV2I32:$src3, GPRV2I32:$src4), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3, $src4"), + [(set GPRV2I32:$dst, + (intr GPRV2I32:$src, GPRV2I32:$src2, GPRV2I32:$src3, GPRV2I32:$src4))]>; +def _v4i32 : FourInOneOut<opcode, (outs GPRV4I32:$dst), + (ins GPRV4I32:$src, GPRV4I32:$src2, GPRV4I32:$src3, GPRV4I32:$src4), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3, $src4"), + [(set GPRV4I32:$dst, + (intr GPRV4I32:$src, GPRV4I32:$src2, GPRV4I32:$src3, GPRV4I32:$src4))]>; +} + +multiclass UnaryIntrinsicFloatScalar<ILOpCode opcode, Intrinsic intr> +{ +def _f32 : OneInOneOut<opcode, (outs GPRF32:$dst), + (ins GPRF32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRF32:$dst, (intr GPRF32:$src))]>; +} + +multiclass UnaryIntrinsicFloat<ILOpCode opcode, Intrinsic intr> +{ +def _f32 : OneInOneOut<opcode, (outs GPRF32:$dst), + (ins GPRF32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRF32:$dst, (intr GPRF32:$src))]>; +def _v2f32 : OneInOneOut<opcode, (outs GPRV2F32:$dst), + (ins GPRV2F32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV2F32:$dst, (intr GPRV2F32:$src))]>; +def _v4f32 : OneInOneOut<opcode, (outs GPRV4F32:$dst), + (ins GPRV4F32:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV4F32:$dst, (intr GPRV4F32:$src))]>; +} + +multiclass BinaryIntrinsicFloatScalar<ILOpCode opcode, Intrinsic intr> +{ +def _f32 : TwoInOneOut<opcode, (outs GPRF32:$dst), + (ins GPRF32:$src, GPRF32:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRF32:$dst, + (intr GPRF32:$src, GPRF32:$src2))]>; +} +multiclass BinaryIntrinsicFloat<ILOpCode opcode, Intrinsic intr> +{ +def _f32 : TwoInOneOut<opcode, (outs GPRF32:$dst), + (ins GPRF32:$src, GPRF32:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRF32:$dst, + (intr GPRF32:$src, GPRF32:$src2))]>; +def _v2f32 : TwoInOneOut<opcode, (outs GPRV2F32:$dst), + (ins GPRV2F32:$src, GPRV2F32:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRV2F32:$dst, + (intr GPRV2F32:$src, GPRV2F32:$src2))]>; +def _v4f32 : TwoInOneOut<opcode, (outs GPRV4F32:$dst), + (ins GPRV4F32:$src, GPRV4F32:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRV4F32:$dst, + (intr GPRV4F32:$src, GPRV4F32:$src2))]>; +} + +multiclass UnaryIntrinsicDoubleScalar<ILOpCode opcode, Intrinsic intr> +{ +def _f64 : OneInOneOut<opcode, (outs GPRF64:$dst), + (ins GPRF64:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRF64:$dst, (intr GPRF64:$src))]>; +} + +multiclass UnaryIntrinsicDouble<ILOpCode opcode, Intrinsic intr> +{ +def _f64 : OneInOneOut<opcode, (outs GPRF64:$dst), + (ins GPRF64:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRF64:$dst, (intr GPRF64:$src))]>; +def _v2f64 : OneInOneOut<opcode, (outs GPRV2F64:$dst), + (ins GPRV2F64:$src), + !strconcat(opcode.Text, " $dst, $src"), + [(set GPRV2F64:$dst, (intr GPRV2F64:$src))]>; +} + +multiclass BinaryIntrinsicDouble<ILOpCode opcode, Intrinsic intr> +{ +def _f64 : TwoInOneOut<opcode, (outs GPRF64:$dst), + (ins GPRF64:$src, GPRF64:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRF64:$dst, + (intr GPRF64:$src, GPRF64:$src2))]>; +def _v2f64 : TwoInOneOut<opcode, (outs GPRV2F64:$dst), + (ins GPRV2F64:$src, GPRV2F64:$src2), + !strconcat(opcode.Text, " $dst, $src, $src2"), + [(set GPRV2F64:$dst, + (intr GPRV2F64:$src, GPRV2F64:$src2))]>; +} + +multiclass TernaryIntrinsicDouble<ILOpCode opcode, Intrinsic intr> +{ +def _f64 : TwoInOneOut<opcode, (outs GPRF64:$dst), + (ins GPRF64:$src, GPRF64:$src2, GPRF64:$src3), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3"), + [(set GPRF64:$dst, + (intr GPRF64:$src, GPRF64:$src2, GPRF64:$src3))]>; +def _v2f64 : TwoInOneOut<opcode, (outs GPRV2F64:$dst), + (ins GPRV2F64:$src, GPRV2F64:$src2, GPRV2F64:$src3), + !strconcat(opcode.Text, " $dst, $src, $src2, $src3"), + [(set GPRV2F64:$dst, + (intr GPRV2F64:$src, GPRV2F64:$src2, GPRV2F64:$src3))]>; +} |