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; NOTE: Assertions have been autogenerated by utils/update_test_checks.py
; RUN: opt < %s -memcpyopt -S -enable-memcpyopt-memoryssa=0 | FileCheck %s --check-prefix=NO_MSSA
; RUN: opt < %s -memcpyopt -S -enable-memcpyopt-memoryssa=1 -verify-memoryssa | FileCheck %s --check-prefix=MSSA
; Test whether memcpy-memcpy dependence is optimized across
; basic blocks (conditional branches and invokes).
; TODO: This is not supported yet.
%struct.s = type { i32, i32 }
@s_foo = private unnamed_addr constant %struct.s { i32 1, i32 2 }, align 4
@s_baz = private unnamed_addr constant %struct.s { i32 1, i32 2 }, align 4
@i = external constant i8*
declare void @qux()
declare void @llvm.memcpy.p0i8.p0i8.i64(i8* nocapture writeonly, i8* nocapture readonly, i64, i1)
declare void @__cxa_throw(i8*, i8*, i8*)
declare i32 @__gxx_personality_v0(...)
declare i8* @__cxa_begin_catch(i8*)
; A simple partial redundancy. Test that the second memcpy is optimized
; to copy directly from the original source rather than from the temporary.
define void @wobble(i8* noalias %dst, i8* %src, i1 %some_condition) {
; NO_MSSA-LABEL: @wobble(
; NO_MSSA-NEXT: bb:
; NO_MSSA-NEXT: [[TEMP:%.*]] = alloca i8, i32 64, align 1
; NO_MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 8 [[TEMP]], i8* nonnull align 8 [[SRC:%.*]], i64 64, i1 false)
; NO_MSSA-NEXT: br i1 [[SOME_CONDITION:%.*]], label [[MORE:%.*]], label [[OUT:%.*]]
; NO_MSSA: out:
; NO_MSSA-NEXT: call void @qux()
; NO_MSSA-NEXT: unreachable
; NO_MSSA: more:
; NO_MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 8 [[DST:%.*]], i8* align 8 [[TEMP]], i64 64, i1 false)
; NO_MSSA-NEXT: ret void
;
; MSSA-LABEL: @wobble(
; MSSA-NEXT: bb:
; MSSA-NEXT: [[TEMP:%.*]] = alloca i8, i32 64, align 1
; MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 8 [[TEMP]], i8* nonnull align 8 [[SRC:%.*]], i64 64, i1 false)
; MSSA-NEXT: br i1 [[SOME_CONDITION:%.*]], label [[MORE:%.*]], label [[OUT:%.*]]
; MSSA: out:
; MSSA-NEXT: call void @qux()
; MSSA-NEXT: unreachable
; MSSA: more:
; MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 8 [[DST:%.*]], i8* align 8 [[SRC]], i64 64, i1 false)
; MSSA-NEXT: ret void
;
bb:
%temp = alloca i8, i32 64
call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 8 %temp, i8* nonnull align 8%src, i64 64, i1 false)
br i1 %some_condition, label %more, label %out
out:
call void @qux()
unreachable
more:
call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 8 %dst, i8* align 8 %temp, i64 64, i1 false)
ret void
}
; A CFG triangle with a partial redundancy targeting an alloca. Test that the
; memcpy inside the triangle is optimized to copy directly from the original
; source rather than from the temporary.
define i32 @foo(i1 %t3) {
; NO_MSSA-LABEL: @foo(
; NO_MSSA-NEXT: bb:
; NO_MSSA-NEXT: [[S:%.*]] = alloca [[STRUCT_S:%.*]], align 4
; NO_MSSA-NEXT: [[T:%.*]] = alloca [[STRUCT_S]], align 4
; NO_MSSA-NEXT: [[S1:%.*]] = bitcast %struct.s* [[S]] to i8*
; NO_MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 [[S1]], i8* align 4 bitcast (%struct.s* @s_foo to i8*), i64 8, i1 false)
; NO_MSSA-NEXT: br i1 [[T3:%.*]], label [[BB4:%.*]], label [[BB7:%.*]]
; NO_MSSA: bb4:
; NO_MSSA-NEXT: [[T5:%.*]] = bitcast %struct.s* [[T]] to i8*
; NO_MSSA-NEXT: [[S6:%.*]] = bitcast %struct.s* [[S]] to i8*
; NO_MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 [[T5]], i8* align 4 [[S6]], i64 8, i1 false)
; NO_MSSA-NEXT: br label [[BB7]]
; NO_MSSA: bb7:
; NO_MSSA-NEXT: [[T8:%.*]] = getelementptr [[STRUCT_S]], %struct.s* [[T]], i32 0, i32 0
; NO_MSSA-NEXT: [[T9:%.*]] = load i32, i32* [[T8]], align 4
; NO_MSSA-NEXT: [[T10:%.*]] = getelementptr [[STRUCT_S]], %struct.s* [[T]], i32 0, i32 1
; NO_MSSA-NEXT: [[T11:%.*]] = load i32, i32* [[T10]], align 4
; NO_MSSA-NEXT: [[T12:%.*]] = add i32 [[T9]], [[T11]]
; NO_MSSA-NEXT: ret i32 [[T12]]
;
; MSSA-LABEL: @foo(
; MSSA-NEXT: bb:
; MSSA-NEXT: [[S:%.*]] = alloca [[STRUCT_S:%.*]], align 4
; MSSA-NEXT: [[T:%.*]] = alloca [[STRUCT_S]], align 4
; MSSA-NEXT: [[S1:%.*]] = bitcast %struct.s* [[S]] to i8*
; MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 [[S1]], i8* align 4 bitcast (%struct.s* @s_foo to i8*), i64 8, i1 false)
; MSSA-NEXT: br i1 [[T3:%.*]], label [[BB4:%.*]], label [[BB7:%.*]]
; MSSA: bb4:
; MSSA-NEXT: [[T5:%.*]] = bitcast %struct.s* [[T]] to i8*
; MSSA-NEXT: [[S6:%.*]] = bitcast %struct.s* [[S]] to i8*
; MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 [[T5]], i8* align 4 bitcast (%struct.s* @s_foo to i8*), i64 8, i1 false)
; MSSA-NEXT: br label [[BB7]]
; MSSA: bb7:
; MSSA-NEXT: [[T8:%.*]] = getelementptr [[STRUCT_S]], %struct.s* [[T]], i32 0, i32 0
; MSSA-NEXT: [[T9:%.*]] = load i32, i32* [[T8]], align 4
; MSSA-NEXT: [[T10:%.*]] = getelementptr [[STRUCT_S]], %struct.s* [[T]], i32 0, i32 1
; MSSA-NEXT: [[T11:%.*]] = load i32, i32* [[T10]], align 4
; MSSA-NEXT: [[T12:%.*]] = add i32 [[T9]], [[T11]]
; MSSA-NEXT: ret i32 [[T12]]
;
bb:
%s = alloca %struct.s, align 4
%t = alloca %struct.s, align 4
%s1 = bitcast %struct.s* %s to i8*
call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 %s1, i8* align 4 bitcast (%struct.s* @s_foo to i8*), i64 8, i1 false)
br i1 %t3, label %bb4, label %bb7
bb4: ; preds = %bb
%t5 = bitcast %struct.s* %t to i8*
%s6 = bitcast %struct.s* %s to i8*
call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 %t5, i8* align 4 %s6, i64 8, i1 false)
br label %bb7
bb7: ; preds = %bb4, %bb
%t8 = getelementptr %struct.s, %struct.s* %t, i32 0, i32 0
%t9 = load i32, i32* %t8, align 4
%t10 = getelementptr %struct.s, %struct.s* %t, i32 0, i32 1
%t11 = load i32, i32* %t10, align 4
%t12 = add i32 %t9, %t11
ret i32 %t12
}
; A CFG diamond with an invoke on one side, and a partially redundant memcpy
; into an alloca on the other. Test that the memcpy inside the diamond is
; optimized to copy ; directly from the original source rather than from the
; temporary. This more complex test represents a relatively common usage
; pattern.
define i32 @baz(i1 %t5) personality i8* bitcast (i32 (...)* @__gxx_personality_v0 to i8*) {
; NO_MSSA-LABEL: @baz(
; NO_MSSA-NEXT: bb:
; NO_MSSA-NEXT: [[S:%.*]] = alloca [[STRUCT_S:%.*]], align 4
; NO_MSSA-NEXT: [[T:%.*]] = alloca [[STRUCT_S]], align 4
; NO_MSSA-NEXT: [[S3:%.*]] = bitcast %struct.s* [[S]] to i8*
; NO_MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 [[S3]], i8* align 4 bitcast (%struct.s* @s_baz to i8*), i64 8, i1 false)
; NO_MSSA-NEXT: br i1 [[T5:%.*]], label [[BB6:%.*]], label [[BB22:%.*]]
; NO_MSSA: bb6:
; NO_MSSA-NEXT: invoke void @__cxa_throw(i8* null, i8* bitcast (i8** @i to i8*), i8* null)
; NO_MSSA-NEXT: to label [[BB25:%.*]] unwind label [[BB9:%.*]]
; NO_MSSA: bb9:
; NO_MSSA-NEXT: [[T10:%.*]] = landingpad { i8*, i32 }
; NO_MSSA-NEXT: catch i8* null
; NO_MSSA-NEXT: br label [[BB13:%.*]]
; NO_MSSA: bb13:
; NO_MSSA-NEXT: [[T15:%.*]] = call i8* @__cxa_begin_catch(i8* null)
; NO_MSSA-NEXT: br label [[BB23:%.*]]
; NO_MSSA: bb22:
; NO_MSSA-NEXT: [[T23:%.*]] = bitcast %struct.s* [[T]] to i8*
; NO_MSSA-NEXT: [[S24:%.*]] = bitcast %struct.s* [[S]] to i8*
; NO_MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 [[T23]], i8* align 4 [[S24]], i64 8, i1 false)
; NO_MSSA-NEXT: br label [[BB23]]
; NO_MSSA: bb23:
; NO_MSSA-NEXT: [[T17:%.*]] = getelementptr inbounds [[STRUCT_S]], %struct.s* [[T]], i32 0, i32 0
; NO_MSSA-NEXT: [[T18:%.*]] = load i32, i32* [[T17]], align 4
; NO_MSSA-NEXT: [[T19:%.*]] = getelementptr inbounds [[STRUCT_S]], %struct.s* [[T]], i32 0, i32 1
; NO_MSSA-NEXT: [[T20:%.*]] = load i32, i32* [[T19]], align 4
; NO_MSSA-NEXT: [[T21:%.*]] = add nsw i32 [[T18]], [[T20]]
; NO_MSSA-NEXT: ret i32 [[T21]]
; NO_MSSA: bb25:
; NO_MSSA-NEXT: unreachable
;
; MSSA-LABEL: @baz(
; MSSA-NEXT: bb:
; MSSA-NEXT: [[S:%.*]] = alloca [[STRUCT_S:%.*]], align 4
; MSSA-NEXT: [[T:%.*]] = alloca [[STRUCT_S]], align 4
; MSSA-NEXT: [[S3:%.*]] = bitcast %struct.s* [[S]] to i8*
; MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 [[S3]], i8* align 4 bitcast (%struct.s* @s_baz to i8*), i64 8, i1 false)
; MSSA-NEXT: br i1 [[T5:%.*]], label [[BB6:%.*]], label [[BB22:%.*]]
; MSSA: bb6:
; MSSA-NEXT: invoke void @__cxa_throw(i8* null, i8* bitcast (i8** @i to i8*), i8* null)
; MSSA-NEXT: to label [[BB25:%.*]] unwind label [[BB9:%.*]]
; MSSA: bb9:
; MSSA-NEXT: [[T10:%.*]] = landingpad { i8*, i32 }
; MSSA-NEXT: catch i8* null
; MSSA-NEXT: br label [[BB13:%.*]]
; MSSA: bb13:
; MSSA-NEXT: [[T15:%.*]] = call i8* @__cxa_begin_catch(i8* null)
; MSSA-NEXT: br label [[BB23:%.*]]
; MSSA: bb22:
; MSSA-NEXT: [[T23:%.*]] = bitcast %struct.s* [[T]] to i8*
; MSSA-NEXT: [[S24:%.*]] = bitcast %struct.s* [[S]] to i8*
; MSSA-NEXT: call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 [[T23]], i8* align 4 bitcast (%struct.s* @s_baz to i8*), i64 8, i1 false)
; MSSA-NEXT: br label [[BB23]]
; MSSA: bb23:
; MSSA-NEXT: [[T17:%.*]] = getelementptr inbounds [[STRUCT_S]], %struct.s* [[T]], i32 0, i32 0
; MSSA-NEXT: [[T18:%.*]] = load i32, i32* [[T17]], align 4
; MSSA-NEXT: [[T19:%.*]] = getelementptr inbounds [[STRUCT_S]], %struct.s* [[T]], i32 0, i32 1
; MSSA-NEXT: [[T20:%.*]] = load i32, i32* [[T19]], align 4
; MSSA-NEXT: [[T21:%.*]] = add nsw i32 [[T18]], [[T20]]
; MSSA-NEXT: ret i32 [[T21]]
; MSSA: bb25:
; MSSA-NEXT: unreachable
;
bb:
%s = alloca %struct.s, align 4
%t = alloca %struct.s, align 4
%s3 = bitcast %struct.s* %s to i8*
call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 %s3, i8* align 4 bitcast (%struct.s* @s_baz to i8*), i64 8, i1 false)
br i1 %t5, label %bb6, label %bb22
bb6: ; preds = %bb
invoke void @__cxa_throw(i8* null, i8* bitcast (i8** @i to i8*), i8* null)
to label %bb25 unwind label %bb9
bb9: ; preds = %bb6
%t10 = landingpad { i8*, i32 }
catch i8* null
br label %bb13
bb13: ; preds = %bb9
%t15 = call i8* @__cxa_begin_catch(i8* null)
br label %bb23
bb22: ; preds = %bb
%t23 = bitcast %struct.s* %t to i8*
%s24 = bitcast %struct.s* %s to i8*
call void @llvm.memcpy.p0i8.p0i8.i64(i8* align 4 %t23, i8* align 4 %s24, i64 8, i1 false)
br label %bb23
bb23: ; preds = %bb22, %bb13
%t17 = getelementptr inbounds %struct.s, %struct.s* %t, i32 0, i32 0
%t18 = load i32, i32* %t17, align 4
%t19 = getelementptr inbounds %struct.s, %struct.s* %t, i32 0, i32 1
%t20 = load i32, i32* %t19, align 4
%t21 = add nsw i32 %t18, %t20
ret i32 %t21
bb25: ; preds = %bb6
unreachable
}