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; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py
; RUN: llc -mtriple=amdgcn-amd-amdhsa -mcpu=gfx900 -verify-machineinstrs < %s | FileCheck -check-prefix=GCN %s
; SelectionDAG builder was using the IR value kind to decide how to
; split the types for copyToRegs/copyFromRegs in all contexts. This
; was incorrect if the ABI-like value such as a call was used outside
; of the block. The value in that case is not used directly, but
; through another set of copies to potentially different register
; types in the parent block.
; This would then end up producing inconsistent pairs of copies with
; the wrong sizes when the vector type result from the call was split
; into multiple pieces, but expected to be a single register in the
; cross-block copy.
;
; This isn't exactly ideal for AMDGPU, since in reality the
; intermediate vector register type is undesirable anyway, but it
; requires more work to be able to split all vector copies in all
; contexts.
;
; This was only an issue if the value was used directly in another
; block. If there was an intermediate operation or a phi it was fine,
; since that didn't look like an ABI copy.
define float @call_split_type_used_outside_block_v2f32() #0 {
; GCN-LABEL: call_split_type_used_outside_block_v2f32:
; GCN: ; %bb.0: ; %bb0
; GCN-NEXT: s_waitcnt vmcnt(0) expcnt(0) lgkmcnt(0)
; GCN-NEXT: s_or_saveexec_b64 s[4:5], -1
; GCN-NEXT: buffer_store_dword v40, off, s[0:3], s32 ; 4-byte Folded Spill
; GCN-NEXT: s_mov_b64 exec, s[4:5]
; GCN-NEXT: v_writelane_b32 v40, s33, 2
; GCN-NEXT: v_writelane_b32 v40, s30, 0
; GCN-NEXT: s_mov_b32 s33, s32
; GCN-NEXT: s_add_u32 s32, s32, 0x400
; GCN-NEXT: s_getpc_b64 s[4:5]
; GCN-NEXT: s_add_u32 s4, s4, func_v2f32@rel32@lo+4
; GCN-NEXT: s_addc_u32 s5, s5, func_v2f32@rel32@hi+12
; GCN-NEXT: v_writelane_b32 v40, s31, 1
; GCN-NEXT: s_swappc_b64 s[30:31], s[4:5]
; GCN-NEXT: v_readlane_b32 s4, v40, 0
; GCN-NEXT: v_readlane_b32 s5, v40, 1
; GCN-NEXT: s_sub_u32 s32, s32, 0x400
; GCN-NEXT: v_readlane_b32 s33, v40, 2
; GCN-NEXT: s_or_saveexec_b64 s[6:7], -1
; GCN-NEXT: buffer_load_dword v40, off, s[0:3], s32 ; 4-byte Folded Reload
; GCN-NEXT: s_mov_b64 exec, s[6:7]
; GCN-NEXT: s_waitcnt vmcnt(0)
; GCN-NEXT: s_setpc_b64 s[4:5]
bb0:
%split.ret.type = call <2 x float> @func_v2f32()
br label %bb1
bb1:
%extract = extractelement <2 x float> %split.ret.type, i32 0
ret float %extract
}
define float @call_split_type_used_outside_block_v3f32() #0 {
; GCN-LABEL: call_split_type_used_outside_block_v3f32:
; GCN: ; %bb.0: ; %bb0
; GCN-NEXT: s_waitcnt vmcnt(0) expcnt(0) lgkmcnt(0)
; GCN-NEXT: s_or_saveexec_b64 s[4:5], -1
; GCN-NEXT: buffer_store_dword v40, off, s[0:3], s32 ; 4-byte Folded Spill
; GCN-NEXT: s_mov_b64 exec, s[4:5]
; GCN-NEXT: v_writelane_b32 v40, s33, 2
; GCN-NEXT: v_writelane_b32 v40, s30, 0
; GCN-NEXT: s_mov_b32 s33, s32
; GCN-NEXT: s_add_u32 s32, s32, 0x400
; GCN-NEXT: s_getpc_b64 s[4:5]
; GCN-NEXT: s_add_u32 s4, s4, func_v3f32@rel32@lo+4
; GCN-NEXT: s_addc_u32 s5, s5, func_v3f32@rel32@hi+12
; GCN-NEXT: v_writelane_b32 v40, s31, 1
; GCN-NEXT: s_swappc_b64 s[30:31], s[4:5]
; GCN-NEXT: v_readlane_b32 s4, v40, 0
; GCN-NEXT: v_readlane_b32 s5, v40, 1
; GCN-NEXT: s_sub_u32 s32, s32, 0x400
; GCN-NEXT: v_readlane_b32 s33, v40, 2
; GCN-NEXT: s_or_saveexec_b64 s[6:7], -1
; GCN-NEXT: buffer_load_dword v40, off, s[0:3], s32 ; 4-byte Folded Reload
; GCN-NEXT: s_mov_b64 exec, s[6:7]
; GCN-NEXT: s_waitcnt vmcnt(0)
; GCN-NEXT: s_setpc_b64 s[4:5]
bb0:
%split.ret.type = call <3 x float> @func_v3f32()
br label %bb1
bb1:
%extract = extractelement <3 x float> %split.ret.type, i32 0
ret float %extract
}
define half @call_split_type_used_outside_block_v4f16() #0 {
; GCN-LABEL: call_split_type_used_outside_block_v4f16:
; GCN: ; %bb.0: ; %bb0
; GCN-NEXT: s_waitcnt vmcnt(0) expcnt(0) lgkmcnt(0)
; GCN-NEXT: s_or_saveexec_b64 s[4:5], -1
; GCN-NEXT: buffer_store_dword v40, off, s[0:3], s32 ; 4-byte Folded Spill
; GCN-NEXT: s_mov_b64 exec, s[4:5]
; GCN-NEXT: v_writelane_b32 v40, s33, 2
; GCN-NEXT: v_writelane_b32 v40, s30, 0
; GCN-NEXT: s_mov_b32 s33, s32
; GCN-NEXT: s_add_u32 s32, s32, 0x400
; GCN-NEXT: s_getpc_b64 s[4:5]
; GCN-NEXT: s_add_u32 s4, s4, func_v4f16@rel32@lo+4
; GCN-NEXT: s_addc_u32 s5, s5, func_v4f16@rel32@hi+12
; GCN-NEXT: v_writelane_b32 v40, s31, 1
; GCN-NEXT: s_swappc_b64 s[30:31], s[4:5]
; GCN-NEXT: v_readlane_b32 s4, v40, 0
; GCN-NEXT: v_readlane_b32 s5, v40, 1
; GCN-NEXT: s_sub_u32 s32, s32, 0x400
; GCN-NEXT: v_readlane_b32 s33, v40, 2
; GCN-NEXT: s_or_saveexec_b64 s[6:7], -1
; GCN-NEXT: buffer_load_dword v40, off, s[0:3], s32 ; 4-byte Folded Reload
; GCN-NEXT: s_mov_b64 exec, s[6:7]
; GCN-NEXT: s_waitcnt vmcnt(0)
; GCN-NEXT: s_setpc_b64 s[4:5]
bb0:
%split.ret.type = call <4 x half> @func_v4f16()
br label %bb1
bb1:
%extract = extractelement <4 x half> %split.ret.type, i32 0
ret half %extract
}
define { i32, half } @call_split_type_used_outside_block_struct() #0 {
; GCN-LABEL: call_split_type_used_outside_block_struct:
; GCN: ; %bb.0: ; %bb0
; GCN-NEXT: s_waitcnt vmcnt(0) expcnt(0) lgkmcnt(0)
; GCN-NEXT: s_or_saveexec_b64 s[4:5], -1
; GCN-NEXT: buffer_store_dword v40, off, s[0:3], s32 ; 4-byte Folded Spill
; GCN-NEXT: s_mov_b64 exec, s[4:5]
; GCN-NEXT: v_writelane_b32 v40, s33, 2
; GCN-NEXT: v_writelane_b32 v40, s30, 0
; GCN-NEXT: s_mov_b32 s33, s32
; GCN-NEXT: s_add_u32 s32, s32, 0x400
; GCN-NEXT: s_getpc_b64 s[4:5]
; GCN-NEXT: s_add_u32 s4, s4, func_struct@rel32@lo+4
; GCN-NEXT: s_addc_u32 s5, s5, func_struct@rel32@hi+12
; GCN-NEXT: v_writelane_b32 v40, s31, 1
; GCN-NEXT: s_swappc_b64 s[30:31], s[4:5]
; GCN-NEXT: v_readlane_b32 s4, v40, 0
; GCN-NEXT: v_mov_b32_e32 v1, v4
; GCN-NEXT: v_readlane_b32 s5, v40, 1
; GCN-NEXT: s_sub_u32 s32, s32, 0x400
; GCN-NEXT: v_readlane_b32 s33, v40, 2
; GCN-NEXT: s_or_saveexec_b64 s[6:7], -1
; GCN-NEXT: buffer_load_dword v40, off, s[0:3], s32 ; 4-byte Folded Reload
; GCN-NEXT: s_mov_b64 exec, s[6:7]
; GCN-NEXT: s_waitcnt vmcnt(0)
; GCN-NEXT: s_setpc_b64 s[4:5]
bb0:
%split.ret.type = call { <4 x i32>, <4 x half> } @func_struct()
br label %bb1
bb1:
%val0 = extractvalue { <4 x i32>, <4 x half> } %split.ret.type, 0
%val1 = extractvalue { <4 x i32>, <4 x half> } %split.ret.type, 1
%extract0 = extractelement <4 x i32> %val0, i32 0
%extract1 = extractelement <4 x half> %val1, i32 0
%ins0 = insertvalue { i32, half } undef, i32 %extract0, 0
%ins1 = insertvalue { i32, half } %ins0, half %extract1, 1
ret { i32, half } %ins1
}
define amdgpu_kernel void @v3i16_registers(i1 %cond) #0 {
; GCN-LABEL: v3i16_registers:
; GCN: ; %bb.0: ; %entry
; GCN-NEXT: s_load_dword s4, s[4:5], 0x0
; GCN-NEXT: s_add_u32 flat_scratch_lo, s6, s9
; GCN-NEXT: s_addc_u32 flat_scratch_hi, s7, 0
; GCN-NEXT: s_add_u32 s0, s0, s9
; GCN-NEXT: s_addc_u32 s1, s1, 0
; GCN-NEXT: s_waitcnt lgkmcnt(0)
; GCN-NEXT: s_and_b32 s4, 1, s4
; GCN-NEXT: v_cmp_eq_u32_e64 s[4:5], s4, 1
; GCN-NEXT: s_and_b64 vcc, exec, s[4:5]
; GCN-NEXT: s_mov_b32 s32, 0
; GCN-NEXT: s_cbranch_vccnz BB4_2
; GCN-NEXT: ; %bb.1: ; %if.else
; GCN-NEXT: s_getpc_b64 s[4:5]
; GCN-NEXT: s_add_u32 s4, s4, func_v3i16@rel32@lo+4
; GCN-NEXT: s_addc_u32 s5, s5, func_v3i16@rel32@hi+12
; GCN-NEXT: s_swappc_b64 s[30:31], s[4:5]
; GCN-NEXT: s_branch BB4_3
; GCN-NEXT: BB4_2:
; GCN-NEXT: s_mov_b32 s4, 0
; GCN-NEXT: s_mov_b32 s5, s4
; GCN-NEXT: v_mov_b32_e32 v0, s4
; GCN-NEXT: v_mov_b32_e32 v1, s5
; GCN-NEXT: BB4_3: ; %if.end
; GCN-NEXT: global_store_short v[0:1], v1, off
; GCN-NEXT: global_store_dword v[0:1], v0, off
; GCN-NEXT: s_endpgm
entry:
br i1 %cond, label %if.then, label %if.else
if.then: ; preds = %entry
br label %if.end
if.else: ; preds = %entry
%call6 = tail call <3 x i16> @func_v3i16() #0
br label %if.end
if.end: ; preds = %if.else, %if.then
%call6.sink = phi <3 x i16> [ %call6, %if.else ], [ undef, %if.then ]
store <3 x i16> %call6.sink, <3 x i16> addrspace(1)* undef
ret void
}
define amdgpu_kernel void @v3f16_registers(i1 %cond) #0 {
; GCN-LABEL: v3f16_registers:
; GCN: ; %bb.0: ; %entry
; GCN-NEXT: s_load_dword s4, s[4:5], 0x0
; GCN-NEXT: s_add_u32 flat_scratch_lo, s6, s9
; GCN-NEXT: s_addc_u32 flat_scratch_hi, s7, 0
; GCN-NEXT: s_add_u32 s0, s0, s9
; GCN-NEXT: s_addc_u32 s1, s1, 0
; GCN-NEXT: s_waitcnt lgkmcnt(0)
; GCN-NEXT: s_and_b32 s4, 1, s4
; GCN-NEXT: v_cmp_eq_u32_e64 s[4:5], s4, 1
; GCN-NEXT: s_and_b64 vcc, exec, s[4:5]
; GCN-NEXT: s_mov_b32 s32, 0
; GCN-NEXT: s_cbranch_vccnz BB5_2
; GCN-NEXT: ; %bb.1: ; %if.else
; GCN-NEXT: s_getpc_b64 s[4:5]
; GCN-NEXT: s_add_u32 s4, s4, func_v3f16@rel32@lo+4
; GCN-NEXT: s_addc_u32 s5, s5, func_v3f16@rel32@hi+12
; GCN-NEXT: s_swappc_b64 s[30:31], s[4:5]
; GCN-NEXT: s_branch BB5_3
; GCN-NEXT: BB5_2:
; GCN-NEXT: s_mov_b32 s4, 0
; GCN-NEXT: s_mov_b32 s5, s4
; GCN-NEXT: v_mov_b32_e32 v0, s4
; GCN-NEXT: v_mov_b32_e32 v1, s5
; GCN-NEXT: BB5_3: ; %if.end
; GCN-NEXT: global_store_short v[0:1], v1, off
; GCN-NEXT: global_store_dword v[0:1], v0, off
; GCN-NEXT: s_endpgm
entry:
br i1 %cond, label %if.then, label %if.else
if.then: ; preds = %entry
br label %if.end
if.else: ; preds = %entry
%call6 = tail call <3 x half> @func_v3f16() #0
br label %if.end
if.end: ; preds = %if.else, %if.then
%call6.sink = phi <3 x half> [ %call6, %if.else ], [ undef, %if.then ]
store <3 x half> %call6.sink, <3 x half> addrspace(1)* undef
ret void
}
declare hidden <2 x float> @func_v2f32() #0
declare hidden <3 x float> @func_v3f32() #0
declare hidden <4 x float> @func_v4f32() #0
declare hidden <4 x half> @func_v4f16() #0
declare hidden <3 x i16> @func_v3i16()
declare hidden <3 x half> @func_v3f16()
declare hidden { <4 x i32>, <4 x half> } @func_struct() #0
attributes #0 = { nounwind}