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llvm-mirror/test/Other/cgscc-devirt-iteration.ll
Arthur Eubanks 73f501c86d [CGSCC] Add -abort-on-max-devirt-iterations-reached option
Aborts if we hit the max devirtualization iteration.
Will be useful for testing that changes to devirtualization don't cause
devirtualization to repeat passes more times than necessary.

Reviewed By: rnk

Differential Revision: https://reviews.llvm.org/D89519
2020-10-16 12:34:52 -07:00

135 lines
5.7 KiB
LLVM

; The CGSCC pass manager includes an SCC iteration utility that tracks indirect
; calls that are turned into direct calls (devirtualization) and re-visits the
; SCC to expose those calls to the SCC-based IPO passes. We trigger
; devirtualization here with GVN which forwards a store through a load and to
; an indirect call.
;
; RUN: opt -aa-pipeline=basic-aa -passes='cgscc(function-attrs,function(gvn,instcombine))' -S < %s | FileCheck %s --check-prefix=CHECK --check-prefix=BEFORE
; RUN: opt -aa-pipeline=basic-aa -passes='cgscc(devirt<1>(function-attrs,function(gvn,instcombine)))' -S < %s | FileCheck %s --check-prefix=CHECK --check-prefix=AFTER --check-prefix=AFTER1
; RUN: opt -aa-pipeline=basic-aa -passes='cgscc(devirt<2>(function-attrs,function(gvn,instcombine)))' -S < %s | FileCheck %s --check-prefix=CHECK --check-prefix=AFTER --check-prefix=AFTER2
;
; RUN: not --crash opt -abort-on-max-devirt-iterations-reached -aa-pipeline=basic-aa -passes='cgscc(devirt<1>(function-attrs,function(gvn,instcombine)))' -S < %s
; RUN: opt -abort-on-max-devirt-iterations-reached -aa-pipeline=basic-aa -passes='cgscc(devirt<2>(function-attrs,function(gvn,instcombine)))' -S < %s
;
; We also verify that the real O2 pipeline catches these cases.
; RUN: opt -aa-pipeline=basic-aa -passes='default<O2>' -S < %s | FileCheck %s --check-prefix=CHECK --check-prefix=AFTER --check-prefix=AFTER2
declare void @readnone() readnone
; CHECK: Function Attrs: readnone
; CHECK-NEXT: declare void @readnone()
declare void @unknown()
; CHECK-NOT: Function Attrs
; CHECK-LABEL: declare void @unknown(){{ *$}}
; The @test1 function checks that when we refine an indirect call to a direct
; call we revisit the SCC passes to reflect the more precise information. This
; is the basic functionality.
define void @test1() {
; BEFORE-NOT: Function Attrs
; AFTER: Function Attrs: readnone
; CHECK-LABEL: define void @test1()
entry:
%fptr = alloca void ()*
store void ()* @readnone, void ()** %fptr
%f = load void ()*, void ()** %fptr
call void %f()
ret void
}
; The @test2_* functions check that when we need multiple (in this case 2)
; repetitions to compute some state that is incrementally exposed with each
; one, the limit on repetitions is enforced. So we make progress with
; one repetition but not as much as with three.
;
; This is somewhat awkward to test because we have to contrive to have a state
; repetition triggered and observed with very few passes. The technique here
; is to have one indirect call that can only be resolved when the entire SCC is
; deduced as readonly, and mark that indirect call at the call site as readonly
; to make that possible. This forces us to first deduce readonly, then
; devirtualize again, and then deduce readnone.
declare void @readnone_with_arg(void ()**) readnone
; CHECK: Function Attrs: readnone
; CHECK-LABEL: declare void @readnone_with_arg(void ()**)
define void @test2_a(void ()** %ignore) {
; BEFORE-NOT: Function Attrs
; AFTER1: Function Attrs: readonly
; AFTER2: Function Attrs: readnone
; BEFORE: define void @test2_a(void ()** %ignore)
; AFTER: define void @test2_a(void ()** readnone %ignore)
entry:
%f1ptr = alloca void (void ()**)*
store void (void ()**)* @readnone_with_arg, void (void ()**)** %f1ptr
%f1 = load void (void ()**)*, void (void ()**)** %f1ptr
; This indirect call is the first to be resolved, allowing us to deduce
; readonly but not (yet) readnone.
call void %f1(void ()** %ignore)
; CHECK: call void @readnone_with_arg(void ()** %ignore)
; Bogus call to test2_b to make this a cycle.
call void @test2_b()
ret void
}
define void @test2_b() {
; BEFORE-NOT: Function Attrs
; AFTER1: Function Attrs: readonly
; AFTER2: Function Attrs: readnone
; CHECK-LABEL: define void @test2_b()
entry:
%f2ptr = alloca void ()*
store void ()* @readnone, void ()** %f2ptr
; Call the other function here to prevent forwarding until the SCC has had
; function attrs deduced.
call void @test2_a(void ()** %f2ptr)
%f2 = load void ()*, void ()** %f2ptr
; This is the second indirect call to be resolved, and can only be resolved
; after we deduce 'readonly' for the rest of the SCC. Once it is
; devirtualized, we can deduce readnone for the SCC.
call void %f2() readonly
; BEFORE: call void %f2()
; AFTER: call void @readnone()
ret void
}
declare i8* @memcpy(i8*, i8*, i64)
; CHECK-LABEL: i8* @memcpy(
; The @test3 function checks that when we refine an indirect call to an
; intrinsic we still revisit the SCC pass. This also covers cases where the
; value handle itself doesn't persist due to the nature of how instcombine
; creates the memcpy intrinsic call, and we rely on the count of indirect calls
; decreasing and the count of direct calls increasing.
; Adding 'noinline' attribute to force attributes for improved matching.
define void @test3(i8* %src, i8* %dest, i64 %size) noinline {
; CHECK: Function Attrs
; CHECK-NOT: read
; CHECK-SAME: noinline
; BEFORE-LABEL: define void @test3(i8* %src, i8* %dest, i64 %size)
; AFTER-LABEL: define void @test3(i8* nocapture readonly %src, i8* nocapture %dest, i64 %size)
%fptr = alloca i8* (i8*, i8*, i64)*
store i8* (i8*, i8*, i64)* @memcpy, i8* (i8*, i8*, i64)** %fptr
%f = load i8* (i8*, i8*, i64)*, i8* (i8*, i8*, i64)** %fptr
call i8* %f(i8* %dest, i8* %src, i64 %size)
; CHECK: call void @llvm.memcpy
ret void
}
; A boring function that just keeps our declarations around.
define void @keep(i8** %sink) {
; CHECK-NOT: Function Attrs
; CHECK-LABEL: define void @keep(
entry:
store volatile i8* bitcast (void ()* @readnone to i8*), i8** %sink
store volatile i8* bitcast (void ()* @unknown to i8*), i8** %sink
store volatile i8* bitcast (i8* (i8*, i8*, i64)* @memcpy to i8*), i8** %sink
call void @unknown()
ret void
}