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llvm-6502/test/CodeGen/R600/shl_add_ptr.ll
Matt Arsenault 31b1bdbd95 Add DAG combine for shl + add of constants. 
Do
 (shl (add x, c1), c2) -> (add (shl x, c2), c1 << c2)

This is already done for multiplies, but since multiplies
by powers of two are turned into shifts, we also need
to handle it here.

This might want checks for isLegalAddImmediate to avoid
transforming an add of a legal immediate with one that isn't.

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@217610 91177308-0d34-0410-b5e6-96231b3b80d8
2014-09-11 17:34:19 +00:00

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; RUN: llc -march=r600 -mcpu=bonaire -verify-machineinstrs < %s | FileCheck -check-prefix=SI %s
; Test that doing a shift of a pointer with a constant add will be
; folded into the constant offset addressing mode even if the add has
; multiple uses. This is relevant to accessing 2 separate, adjacent
; LDS globals.
declare i32 @llvm.r600.read.tidig.x() #1
@lds0 = addrspace(3) global [512 x float] zeroinitializer, align 4
@lds1 = addrspace(3) global [512 x float] zeroinitializer, align 4
; Make sure the (add tid, 2) << 2 gets folded into the ds's offset as (tid << 2) + 8
; SI-LABEL: @load_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_READ_B32 {{v[0-9]+}}, [[PTR]], 0x8, [M0]
; SI: S_ENDPGM
define void @load_shl_base_lds_0(float addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x float] addrspace(3)* @lds0, i32 0, i32 %idx.0
%val0 = load float addrspace(3)* %arrayidx0, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
store float %val0, float addrspace(1)* %out
ret void
}
; Make sure once the first use is folded into the addressing mode, the
; remaining add use goes through the normal shl + add constant fold.
; SI-LABEL: @load_shl_base_lds_1
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_READ_B32 [[RESULT:v[0-9]+]], [[PTR]], 0x8, [M0]
; SI: V_ADD_I32_e32 [[ADDUSE:v[0-9]+]], 8, v{{[0-9]+}}
; SI-DAG: BUFFER_STORE_DWORD [[RESULT]]
; SI-DAG: BUFFER_STORE_DWORD [[ADDUSE]]
; SI: S_ENDPGM
define void @load_shl_base_lds_1(float addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x float] addrspace(3)* @lds0, i32 0, i32 %idx.0
%val0 = load float addrspace(3)* %arrayidx0, align 4
%shl_add_use = shl i32 %idx.0, 2
store i32 %shl_add_use, i32 addrspace(1)* %add_use, align 4
store float %val0, float addrspace(1)* %out
ret void
}
@maxlds = addrspace(3) global [65536 x i8] zeroinitializer, align 4
; SI-LABEL: @load_shl_base_lds_max_offset
; SI: DS_READ_U8 v{{[0-9]+}}, v{{[0-9]+}}, 0xffff
; SI: S_ENDPGM
define void @load_shl_base_lds_max_offset(i8 addrspace(1)* %out, i8 addrspace(3)* %lds, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 65535
%arrayidx0 = getelementptr inbounds [65536 x i8] addrspace(3)* @maxlds, i32 0, i32 %idx.0
%val0 = load i8 addrspace(3)* %arrayidx0
store i32 %idx.0, i32 addrspace(1)* %add_use
store i8 %val0, i8 addrspace(1)* %out
ret void
}
; The two globals are placed adjacent in memory, so the same base
; pointer can be used with an offset into the second one.
; SI-LABEL: @load_shl_base_lds_2
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI-NEXT: DS_READ_B32 {{v[0-9]+}}, [[PTR]], 0x100, [M0]
; SI-NEXT: DS_READ_B32 {{v[0-9]+}}, [[PTR]], 0x900, [M0]
; SI: S_ENDPGM
define void @load_shl_base_lds_2(float addrspace(1)* %out) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 64
%arrayidx0 = getelementptr inbounds [512 x float] addrspace(3)* @lds0, i32 0, i32 %idx.0
%val0 = load float addrspace(3)* %arrayidx0, align 4
%arrayidx1 = getelementptr inbounds [512 x float] addrspace(3)* @lds1, i32 0, i32 %idx.0
%val1 = load float addrspace(3)* %arrayidx1, align 4
%sum = fadd float %val0, %val1
store float %sum, float addrspace(1)* %out, align 4
ret void
}
; SI-LABEL: @store_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_WRITE_B32 [[PTR]], {{v[0-9]+}}, 0x8 [M0]
; SI: S_ENDPGM
define void @store_shl_base_lds_0(float addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x float] addrspace(3)* @lds0, i32 0, i32 %idx.0
store float 1.0, float addrspace(3)* %arrayidx0, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; --------------------------------------------------------------------------------
; Atomics.
@lds2 = addrspace(3) global [512 x i32] zeroinitializer, align 4
; define void @atomic_load_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
; %tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
; %idx.0 = add nsw i32 %tid.x, 2
; %arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
; %val = load atomic i32 addrspace(3)* %arrayidx0 seq_cst, align 4
; store i32 %val, i32 addrspace(1)* %out, align 4
; store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
; ret void
; }
; SI-LABEL: @atomic_cmpxchg_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_CMPST_RTN_B32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_cmpxchg_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use, i32 %swap) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%pair = cmpxchg i32 addrspace(3)* %arrayidx0, i32 7, i32 %swap seq_cst monotonic
%result = extractvalue { i32, i1 } %pair, 0
store i32 %result, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; SI-LABEL: @atomic_swap_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_WRXCHG_RTN_B32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_swap_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%val = atomicrmw xchg i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
store i32 %val, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; SI-LABEL: @atomic_add_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_ADD_RTN_U32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_add_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%val = atomicrmw add i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
store i32 %val, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; SI-LABEL: @atomic_sub_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_SUB_RTN_U32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_sub_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%val = atomicrmw sub i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
store i32 %val, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; SI-LABEL: @atomic_and_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_AND_RTN_B32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_and_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%val = atomicrmw and i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
store i32 %val, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; SI-LABEL: @atomic_or_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_OR_RTN_B32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_or_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%val = atomicrmw or i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
store i32 %val, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; SI-LABEL: @atomic_xor_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_XOR_RTN_B32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_xor_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%val = atomicrmw xor i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
store i32 %val, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; define void @atomic_nand_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
; %tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
; %idx.0 = add nsw i32 %tid.x, 2
; %arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
; %val = atomicrmw nand i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
; store i32 %val, i32 addrspace(1)* %out, align 4
; store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
; ret void
; }
; SI-LABEL: @atomic_min_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_MIN_RTN_I32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_min_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%val = atomicrmw min i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
store i32 %val, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; SI-LABEL: @atomic_max_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_MAX_RTN_I32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_max_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%val = atomicrmw max i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
store i32 %val, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; SI-LABEL: @atomic_umin_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_MIN_RTN_U32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_umin_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%val = atomicrmw umin i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
store i32 %val, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
; SI-LABEL: @atomic_umax_shl_base_lds_0
; SI: V_LSHLREV_B32_e32 [[PTR:v[0-9]+]], 2, {{v[0-9]+}}
; SI: DS_MAX_RTN_U32 {{v[0-9]+}}, [[PTR]], {{v[0-9]+}}, 0x8
; SI: S_ENDPGM
define void @atomic_umax_shl_base_lds_0(i32 addrspace(1)* %out, i32 addrspace(1)* %add_use) #0 {
%tid.x = tail call i32 @llvm.r600.read.tidig.x() #1
%idx.0 = add nsw i32 %tid.x, 2
%arrayidx0 = getelementptr inbounds [512 x i32] addrspace(3)* @lds2, i32 0, i32 %idx.0
%val = atomicrmw umax i32 addrspace(3)* %arrayidx0, i32 3 seq_cst
store i32 %val, i32 addrspace(1)* %out, align 4
store i32 %idx.0, i32 addrspace(1)* %add_use, align 4
ret void
}
attributes #0 = { nounwind }
attributes #1 = { nounwind readnone }
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