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; RUN: llc < %s -march=nvptx -mcpu=sm_20 | FileCheck %s --check-prefix PTX
; RUN: llc < %s -march=nvptx64 -mcpu=sm_20 | FileCheck %s --check-prefix PTX
; RUN: llc < %s -march=nvptx64 -mcpu=sm_20 -nvptx-use-infer-addrspace | FileCheck %s --check-prefix PTX
; RUN: opt < %s -S -nvptx-favor-non-generic -dce | FileCheck %s --check-prefix IR
; RUN: opt < %s -S -nvptx-infer-addrspace | FileCheck %s --check-prefix IR --check-prefix IR-WITH-LOOP
@array = internal addrspace(3) global [10 x float] zeroinitializer, align 4
@scalar = internal addrspace(3) global float 0.000000e+00, align 4
@generic_scalar = internal global float 0.000000e+00, align 4
define float @ld_from_shared() {
%1 = addrspacecast float* @generic_scalar to float addrspace(3)*
%2 = load float, float addrspace(3)* %1
ret float %2
}
; Verifies nvptx-favor-non-generic correctly optimizes generic address space
; usage to non-generic address space usage for the patterns we claim to handle:
; 1. load cast
; 2. store cast
; 3. load gep cast
; 4. store gep cast
; gep and cast can be an instruction or a constant expression. This function
; tries all possible combinations.
define void @ld_st_shared_f32(i32 %i, float %v) {
; IR-LABEL: @ld_st_shared_f32
; IR-NOT: addrspacecast
; PTX-LABEL: ld_st_shared_f32(
; load cast
%1 = load float, float* addrspacecast (float addrspace(3)* @scalar to float*), align 4
call void @use(float %1)
; PTX: ld.shared.f32 %f{{[0-9]+}}, [scalar];
; store cast
store float %v, float* addrspacecast (float addrspace(3)* @scalar to float*), align 4
; PTX: st.shared.f32 [scalar], %f{{[0-9]+}};
; use syncthreads to disable optimizations across components
call void @llvm.nvvm.barrier0()
; PTX: bar.sync 0;
; cast; load
%2 = addrspacecast float addrspace(3)* @scalar to float*
%3 = load float, float* %2, align 4
call void @use(float %3)
; PTX: ld.shared.f32 %f{{[0-9]+}}, [scalar];
; cast; store
store float %v, float* %2, align 4
; PTX: st.shared.f32 [scalar], %f{{[0-9]+}};
call void @llvm.nvvm.barrier0()
; PTX: bar.sync 0;
; load gep cast
%4 = load float, float* getelementptr inbounds ([10 x float], [10 x float]* addrspacecast ([10 x float] addrspace(3)* @array to [10 x float]*), i32 0, i32 5), align 4
call void @use(float %4)
; PTX: ld.shared.f32 %f{{[0-9]+}}, [array+20];
; store gep cast
store float %v, float* getelementptr inbounds ([10 x float], [10 x float]* addrspacecast ([10 x float] addrspace(3)* @array to [10 x float]*), i32 0, i32 5), align 4
; PTX: st.shared.f32 [array+20], %f{{[0-9]+}};
call void @llvm.nvvm.barrier0()
; PTX: bar.sync 0;
; gep cast; load
%5 = getelementptr inbounds [10 x float], [10 x float]* addrspacecast ([10 x float] addrspace(3)* @array to [10 x float]*), i32 0, i32 5
%6 = load float, float* %5, align 4
call void @use(float %6)
; PTX: ld.shared.f32 %f{{[0-9]+}}, [array+20];
; gep cast; store
store float %v, float* %5, align 4
; PTX: st.shared.f32 [array+20], %f{{[0-9]+}};
call void @llvm.nvvm.barrier0()
; PTX: bar.sync 0;
; cast; gep; load
%7 = addrspacecast [10 x float] addrspace(3)* @array to [10 x float]*
%8 = getelementptr inbounds [10 x float], [10 x float]* %7, i32 0, i32 %i
%9 = load float, float* %8, align 4
call void @use(float %9)
; PTX: ld.shared.f32 %f{{[0-9]+}}, [%{{(r|rl|rd)[0-9]+}}];
; cast; gep; store
store float %v, float* %8, align 4
; PTX: st.shared.f32 [%{{(r|rl|rd)[0-9]+}}], %f{{[0-9]+}};
call void @llvm.nvvm.barrier0()
; PTX: bar.sync 0;
ret void
}
; When hoisting an addrspacecast between different pointer types, replace the
; addrspacecast with a bitcast.
define i32 @ld_int_from_float() {
; IR-LABEL: @ld_int_from_float
; IR: load i32, i32 addrspace(3)* bitcast (float addrspace(3)* @scalar to i32 addrspace(3)*)
; PTX-LABEL: ld_int_from_float(
; PTX: ld.shared.u{{(32|64)}}
%1 = load i32, i32* addrspacecast(float addrspace(3)* @scalar to i32*), align 4
ret i32 %1
}
define i32 @ld_int_from_global_float(float addrspace(1)* %input, i32 %i, i32 %j) {
; IR-LABEL: @ld_int_from_global_float(
; PTX-LABEL: ld_int_from_global_float(
%1 = addrspacecast float addrspace(1)* %input to float*
%2 = getelementptr float, float* %1, i32 %i
; IR-NEXT: getelementptr float, float addrspace(1)* %input, i32 %i
%3 = getelementptr float, float* %2, i32 %j
; IR-NEXT: getelementptr float, float addrspace(1)* {{%[^,]+}}, i32 %j
%4 = bitcast float* %3 to i32*
; IR-NEXT: bitcast float addrspace(1)* {{%[^ ]+}} to i32 addrspace(1)*
%5 = load i32, i32* %4
; IR-NEXT: load i32, i32 addrspace(1)* {{%.+}}
; PTX-LABEL: ld.global
ret i32 %5
}
define void @nested_const_expr() {
; PTX-LABEL: nested_const_expr(
; store 1 to bitcast(gep(addrspacecast(array), 0, 1))
store i32 1, i32* bitcast (float* getelementptr ([10 x float], [10 x float]* addrspacecast ([10 x float] addrspace(3)* @array to [10 x float]*), i64 0, i64 1) to i32*), align 4
; PTX: mov.u32 %r1, 1;
; PTX-NEXT: st.shared.u32 [array+4], %r1;
ret void
}
define void @rauw(float addrspace(1)* %input) {
%generic_input = addrspacecast float addrspace(1)* %input to float*
%addr = getelementptr float, float* %generic_input, i64 10
%v = load float, float* %addr
store float %v, float* %addr
ret void
; IR-LABEL: @rauw(
; IR-NEXT: %addr = getelementptr float, float addrspace(1)* %input, i64 10
; IR-NEXT: %v = load float, float addrspace(1)* %addr
; IR-NEXT: store float %v, float addrspace(1)* %addr
; IR-NEXT: ret void
}
define void @loop() {
; IR-WITH-LOOP-LABEL: @loop(
entry:
%p = addrspacecast [10 x float] addrspace(3)* @array to float*
%end = getelementptr float, float* %p, i64 10
br label %loop
loop:
%i = phi float* [ %p, %entry ], [ %i2, %loop ]
; IR-WITH-LOOP: phi float addrspace(3)* [ %p, %entry ], [ %i2, %loop ]
%v = load float, float* %i
; IR-WITH-LOOP: %v = load float, float addrspace(3)* %i
call void @use(float %v)
%i2 = getelementptr float, float* %i, i64 1
; IR-WITH-LOOP: %i2 = getelementptr float, float addrspace(3)* %i, i64 1
%exit_cond = icmp eq float* %i2, %end
br i1 %exit_cond, label %exit, label %loop
exit:
ret void
}
@generic_end = external global float*
define void @loop_with_generic_bound() {
; IR-WITH-LOOP-LABEL: @loop_with_generic_bound(
entry:
%p = addrspacecast [10 x float] addrspace(3)* @array to float*
%end = load float*, float** @generic_end
br label %loop
loop:
%i = phi float* [ %p, %entry ], [ %i2, %loop ]
; IR-WITH-LOOP: phi float addrspace(3)* [ %p, %entry ], [ %i2, %loop ]
%v = load float, float* %i
; IR-WITH-LOOP: %v = load float, float addrspace(3)* %i
call void @use(float %v)
%i2 = getelementptr float, float* %i, i64 1
; IR-WITH-LOOP: %i2 = getelementptr float, float addrspace(3)* %i, i64 1
%exit_cond = icmp eq float* %i2, %end
; IR-WITH-LOOP: addrspacecast float addrspace(3)* %i2 to float*
; IR-WITH-LOOP: icmp eq float* %{{[0-9]+}}, %end
br i1 %exit_cond, label %exit, label %loop
exit:
ret void
}
declare void @llvm.nvvm.barrier0() #3
declare void @use(float)
attributes #3 = { noduplicate nounwind }