llvm-project/llvm/test/Transforms/WholeProgramDevirt/vcp-too-wide-ints.ll

; RUN: opt -S -wholeprogramdevirt %s | FileCheck %s

target datalayout = "e-p:64:64"
target triple = "x86_64-unknown-linux-gnu"

@vt1 = constant [1 x i8*] [i8* bitcast (i64 (i8*, i128)* @vf1 to i8*)], !type !0
@vt2 = constant [1 x i8*] [i8* bitcast (i64 (i8*, i128)* @vf2 to i8*)], !type !0
@vt3 = constant [1 x i8*] [i8* bitcast (i128 (i8*, i64)* @vf3 to i8*)], !type !1
@vt4 = constant [1 x i8*] [i8* bitcast (i128 (i8*, i64)* @vf4 to i8*)], !type !1

define i64 @vf1(i8* %this, i128 %arg) readnone {
  %argtrunc = trunc i128 %arg to i64
  ret i64 %argtrunc
}

define i64 @vf2(i8* %this, i128 %arg) readnone {
  %argtrunc = trunc i128 %arg to i64
  ret i64 %argtrunc
}

define i128 @vf3(i8* %this, i64 %arg) readnone {
  %argzext = zext i64 %arg to i128
  ret i128 %argzext
}

define i128 @vf4(i8* %this, i64 %arg) readnone {
  %argzext = zext i64 %arg to i128
  ret i128 %argzext
}

; CHECK: define i64 @call1
define i64 @call1(i8* %obj) {
  %vtableptr = bitcast i8* %obj to [1 x i8*]**
  %vtable = load [1 x i8*]*, [1 x i8*]** %vtableptr
  %vtablei8 = bitcast [1 x i8*]* %vtable to i8*
  %p = call i1 @llvm.type.test(i8* %vtablei8, metadata !"typeid1")
  call void @llvm.assume(i1 %p)
  %fptrptr = getelementptr [1 x i8*], [1 x i8*]* %vtable, i32 0, i32 0
  %fptr = load i8*, i8** %fptrptr
  %fptr_casted = bitcast i8* %fptr to i64 (i8*, i128)*
  ; CHECK: call i64 %
  %result = call i64 %fptr_casted(i8* %obj, i128 1)
  ret i64 %result
}

; CHECK: define i128 @call2
define i128 @call2(i8* %obj) {
  %vtableptr = bitcast i8* %obj to [1 x i8*]**
  %vtable = load [1 x i8*]*, [1 x i8*]** %vtableptr
  %vtablei8 = bitcast [1 x i8*]* %vtable to i8*
  %p = call i1 @llvm.type.test(i8* %vtablei8, metadata !"typeid2")
  call void @llvm.assume(i1 %p)
  %fptrptr = getelementptr [1 x i8*], [1 x i8*]* %vtable, i32 0, i32 0
  %fptr = load i8*, i8** %fptrptr
  %fptr_casted = bitcast i8* %fptr to i128 (i8*, i64)*
  ; CHECK: call i128 %
  %result = call i128 %fptr_casted(i8* %obj, i64 1)
  ret i128 %result
}

declare i1 @llvm.type.test(i8*, metadata)
declare void @llvm.assume(i1)

!0 = !{i32 0, !"typeid1"}
!1 = !{i32 0, !"typeid2"}
WholeProgramDevirt: introduce. This pass implements whole program optimization of virtual calls in cases where we know (via bitset information) that the list of callees is fixed. This includes the following: - Single implementation devirtualization: if a virtual call has a single possible callee, replace all calls with a direct call to that callee. - Virtual constant propagation: if the virtual function's return type is an integer <=64 bits and all possible callees are readnone, for each class and each list of constant arguments: evaluate the function, store the return value alongside the virtual table, and rewrite each virtual call as a load from the virtual table. - Uniform return value optimization: if the conditions for virtual constant propagation hold and each function returns the same constant value, replace each virtual call with that constant. - Unique return value optimization for i1 return values: if the conditions for virtual constant propagation hold and a single vtable's function returns 0, or a single vtable's function returns 1, replace each virtual call with a comparison of the vptr against that vtable's address. Differential Revision: http://reviews.llvm.org/D16795 llvm-svn: 260312 2016-02-10 06:50:34 +08:00			`; RUN: opt -S -wholeprogramdevirt %s \| FileCheck %s`

			`target datalayout = "e-p:64:64"`
			`target triple = "x86_64-unknown-linux-gnu"`

Re-apply r295110 and r295144 with a fix for the ASan issue. llvm-svn: 295241 2017-02-16 05:56:51 +08:00			`@vt1 = constant [1 x i8] [i8 bitcast (i64 (i8, i128) @vf1 to i8*)], !type !0`
			`@vt2 = constant [1 x i8] [i8 bitcast (i64 (i8, i128) @vf2 to i8*)], !type !0`
			`@vt3 = constant [1 x i8] [i8 bitcast (i128 (i8, i64) @vf3 to i8*)], !type !1`
			`@vt4 = constant [1 x i8] [i8 bitcast (i128 (i8, i64) @vf4 to i8*)], !type !1`
WholeProgramDevirt: introduce. This pass implements whole program optimization of virtual calls in cases where we know (via bitset information) that the list of callees is fixed. This includes the following: - Single implementation devirtualization: if a virtual call has a single possible callee, replace all calls with a direct call to that callee. - Virtual constant propagation: if the virtual function's return type is an integer <=64 bits and all possible callees are readnone, for each class and each list of constant arguments: evaluate the function, store the return value alongside the virtual table, and rewrite each virtual call as a load from the virtual table. - Uniform return value optimization: if the conditions for virtual constant propagation hold and each function returns the same constant value, replace each virtual call with that constant. - Unique return value optimization for i1 return values: if the conditions for virtual constant propagation hold and a single vtable's function returns 0, or a single vtable's function returns 1, replace each virtual call with a comparison of the vptr against that vtable's address. Differential Revision: http://reviews.llvm.org/D16795 llvm-svn: 260312 2016-02-10 06:50:34 +08:00
Re-apply r295110 and r295144 with a fix for the ASan issue. llvm-svn: 295241 2017-02-16 05:56:51 +08:00			`define i64 @vf1(i8* %this, i128 %arg) readnone {`
			`%argtrunc = trunc i128 %arg to i64`
			`ret i64 %argtrunc`
WholeProgramDevirt: introduce. This pass implements whole program optimization of virtual calls in cases where we know (via bitset information) that the list of callees is fixed. This includes the following: - Single implementation devirtualization: if a virtual call has a single possible callee, replace all calls with a direct call to that callee. - Virtual constant propagation: if the virtual function's return type is an integer <=64 bits and all possible callees are readnone, for each class and each list of constant arguments: evaluate the function, store the return value alongside the virtual table, and rewrite each virtual call as a load from the virtual table. - Uniform return value optimization: if the conditions for virtual constant propagation hold and each function returns the same constant value, replace each virtual call with that constant. - Unique return value optimization for i1 return values: if the conditions for virtual constant propagation hold and a single vtable's function returns 0, or a single vtable's function returns 1, replace each virtual call with a comparison of the vptr against that vtable's address. Differential Revision: http://reviews.llvm.org/D16795 llvm-svn: 260312 2016-02-10 06:50:34 +08:00			`}`

Re-apply r295110 and r295144 with a fix for the ASan issue. llvm-svn: 295241 2017-02-16 05:56:51 +08:00			`define i64 @vf2(i8* %this, i128 %arg) readnone {`
			`%argtrunc = trunc i128 %arg to i64`
			`ret i64 %argtrunc`
WholeProgramDevirt: introduce. This pass implements whole program optimization of virtual calls in cases where we know (via bitset information) that the list of callees is fixed. This includes the following: - Single implementation devirtualization: if a virtual call has a single possible callee, replace all calls with a direct call to that callee. - Virtual constant propagation: if the virtual function's return type is an integer <=64 bits and all possible callees are readnone, for each class and each list of constant arguments: evaluate the function, store the return value alongside the virtual table, and rewrite each virtual call as a load from the virtual table. - Uniform return value optimization: if the conditions for virtual constant propagation hold and each function returns the same constant value, replace each virtual call with that constant. - Unique return value optimization for i1 return values: if the conditions for virtual constant propagation hold and a single vtable's function returns 0, or a single vtable's function returns 1, replace each virtual call with a comparison of the vptr against that vtable's address. Differential Revision: http://reviews.llvm.org/D16795 llvm-svn: 260312 2016-02-10 06:50:34 +08:00			`}`

Re-apply r295110 and r295144 with a fix for the ASan issue. llvm-svn: 295241 2017-02-16 05:56:51 +08:00			`define i128 @vf3(i8* %this, i64 %arg) readnone {`
			`%argzext = zext i64 %arg to i128`
			`ret i128 %argzext`
			`}`

			`define i128 @vf4(i8* %this, i64 %arg) readnone {`
			`%argzext = zext i64 %arg to i128`
			`ret i128 %argzext`
			`}`

			`; CHECK: define i64 @call1`
			`define i64 @call1(i8* %obj) {`
			`%vtableptr = bitcast i8* %obj to [1 x i8]*`
			`%vtable = load [1 x i8], [1 x i8]* %vtableptr`
			`%vtablei8 = bitcast [1 x i8] %vtable to i8*`
			`%p = call i1 @llvm.type.test(i8* %vtablei8, metadata !"typeid1")`
			`call void @llvm.assume(i1 %p)`
			`%fptrptr = getelementptr [1 x i8], [1 x i8]* %vtable, i32 0, i32 0`
			`%fptr = load i8, i8* %fptrptr`
			`%fptr_casted = bitcast i8* %fptr to i64 (i8, i128)`
			`; CHECK: call i64 %`
			`%result = call i64 %fptr_casted(i8* %obj, i128 1)`
			`ret i64 %result`
			`}`

			`; CHECK: define i128 @call2`
			`define i128 @call2(i8* %obj) {`
WholeProgramDevirt: introduce. This pass implements whole program optimization of virtual calls in cases where we know (via bitset information) that the list of callees is fixed. This includes the following: - Single implementation devirtualization: if a virtual call has a single possible callee, replace all calls with a direct call to that callee. - Virtual constant propagation: if the virtual function's return type is an integer <=64 bits and all possible callees are readnone, for each class and each list of constant arguments: evaluate the function, store the return value alongside the virtual table, and rewrite each virtual call as a load from the virtual table. - Uniform return value optimization: if the conditions for virtual constant propagation hold and each function returns the same constant value, replace each virtual call with that constant. - Unique return value optimization for i1 return values: if the conditions for virtual constant propagation hold and a single vtable's function returns 0, or a single vtable's function returns 1, replace each virtual call with a comparison of the vptr against that vtable's address. Differential Revision: http://reviews.llvm.org/D16795 llvm-svn: 260312 2016-02-10 06:50:34 +08:00			`%vtableptr = bitcast i8* %obj to [1 x i8]*`
			`%vtable = load [1 x i8], [1 x i8]* %vtableptr`
			`%vtablei8 = bitcast [1 x i8] %vtable to i8*`
Re-apply r295110 and r295144 with a fix for the ASan issue. llvm-svn: 295241 2017-02-16 05:56:51 +08:00			`%p = call i1 @llvm.type.test(i8* %vtablei8, metadata !"typeid2")`
WholeProgramDevirt: introduce. This pass implements whole program optimization of virtual calls in cases where we know (via bitset information) that the list of callees is fixed. This includes the following: - Single implementation devirtualization: if a virtual call has a single possible callee, replace all calls with a direct call to that callee. - Virtual constant propagation: if the virtual function's return type is an integer <=64 bits and all possible callees are readnone, for each class and each list of constant arguments: evaluate the function, store the return value alongside the virtual table, and rewrite each virtual call as a load from the virtual table. - Uniform return value optimization: if the conditions for virtual constant propagation hold and each function returns the same constant value, replace each virtual call with that constant. - Unique return value optimization for i1 return values: if the conditions for virtual constant propagation hold and a single vtable's function returns 0, or a single vtable's function returns 1, replace each virtual call with a comparison of the vptr against that vtable's address. Differential Revision: http://reviews.llvm.org/D16795 llvm-svn: 260312 2016-02-10 06:50:34 +08:00			`call void @llvm.assume(i1 %p)`
			`%fptrptr = getelementptr [1 x i8], [1 x i8]* %vtable, i32 0, i32 0`
			`%fptr = load i8, i8* %fptrptr`
Re-apply r295110 and r295144 with a fix for the ASan issue. llvm-svn: 295241 2017-02-16 05:56:51 +08:00			`%fptr_casted = bitcast i8* %fptr to i128 (i8, i64)`
WholeProgramDevirt: introduce. This pass implements whole program optimization of virtual calls in cases where we know (via bitset information) that the list of callees is fixed. This includes the following: - Single implementation devirtualization: if a virtual call has a single possible callee, replace all calls with a direct call to that callee. - Virtual constant propagation: if the virtual function's return type is an integer <=64 bits and all possible callees are readnone, for each class and each list of constant arguments: evaluate the function, store the return value alongside the virtual table, and rewrite each virtual call as a load from the virtual table. - Uniform return value optimization: if the conditions for virtual constant propagation hold and each function returns the same constant value, replace each virtual call with that constant. - Unique return value optimization for i1 return values: if the conditions for virtual constant propagation hold and a single vtable's function returns 0, or a single vtable's function returns 1, replace each virtual call with a comparison of the vptr against that vtable's address. Differential Revision: http://reviews.llvm.org/D16795 llvm-svn: 260312 2016-02-10 06:50:34 +08:00			`; CHECK: call i128 %`
Re-apply r295110 and r295144 with a fix for the ASan issue. llvm-svn: 295241 2017-02-16 05:56:51 +08:00			`%result = call i128 %fptr_casted(i8* %obj, i64 1)`
WholeProgramDevirt: introduce. This pass implements whole program optimization of virtual calls in cases where we know (via bitset information) that the list of callees is fixed. This includes the following: - Single implementation devirtualization: if a virtual call has a single possible callee, replace all calls with a direct call to that callee. - Virtual constant propagation: if the virtual function's return type is an integer <=64 bits and all possible callees are readnone, for each class and each list of constant arguments: evaluate the function, store the return value alongside the virtual table, and rewrite each virtual call as a load from the virtual table. - Uniform return value optimization: if the conditions for virtual constant propagation hold and each function returns the same constant value, replace each virtual call with that constant. - Unique return value optimization for i1 return values: if the conditions for virtual constant propagation hold and a single vtable's function returns 0, or a single vtable's function returns 1, replace each virtual call with a comparison of the vptr against that vtable's address. Differential Revision: http://reviews.llvm.org/D16795 llvm-svn: 260312 2016-02-10 06:50:34 +08:00			`ret i128 %result`
			`}`

IR: New representation for CFI and virtual call optimization pass metadata. The bitset metadata currently used in LLVM has a few problems: 1. It has the wrong name. The name "bitset" refers to an implementation detail of one use of the metadata (i.e. its original use case, CFI). This makes it harder to understand, as the name makes no sense in the context of virtual call optimization. 2. It is represented using a global named metadata node, rather than being directly associated with a global. This makes it harder to manipulate the metadata when rebuilding global variables, summarise it as part of ThinLTO and drop unused metadata when associated globals are dropped. For this reason, CFI does not currently work correctly when both CFI and vcall opt are enabled, as vcall opt needs to rebuild vtable globals, and fails to associate metadata with the rebuilt globals. As I understand it, the same problem could also affect ASan, which rebuilds globals with a red zone. This patch solves both of those problems in the following way: 1. Rename the metadata to "type metadata". This new name reflects how the metadata is currently being used (i.e. to represent type information for CFI and vtable opt). The new name is reflected in the name for the associated intrinsic (llvm.type.test) and pass (LowerTypeTests). 2. Attach metadata directly to the globals that it pertains to, rather than using the "llvm.bitsets" global metadata node as we are doing now. This is done using the newly introduced capability to attach metadata to global variables (r271348 and r271358). See also: http://lists.llvm.org/pipermail/llvm-dev/2016-June/100462.html Differential Revision: http://reviews.llvm.org/D21053 llvm-svn: 273729 2016-06-25 05:21:32 +08:00			`declare i1 @llvm.type.test(i8*, metadata)`
WholeProgramDevirt: introduce. This pass implements whole program optimization of virtual calls in cases where we know (via bitset information) that the list of callees is fixed. This includes the following: - Single implementation devirtualization: if a virtual call has a single possible callee, replace all calls with a direct call to that callee. - Virtual constant propagation: if the virtual function's return type is an integer <=64 bits and all possible callees are readnone, for each class and each list of constant arguments: evaluate the function, store the return value alongside the virtual table, and rewrite each virtual call as a load from the virtual table. - Uniform return value optimization: if the conditions for virtual constant propagation hold and each function returns the same constant value, replace each virtual call with that constant. - Unique return value optimization for i1 return values: if the conditions for virtual constant propagation hold and a single vtable's function returns 0, or a single vtable's function returns 1, replace each virtual call with a comparison of the vptr against that vtable's address. Differential Revision: http://reviews.llvm.org/D16795 llvm-svn: 260312 2016-02-10 06:50:34 +08:00			`declare void @llvm.assume(i1)`

Re-apply r295110 and r295144 with a fix for the ASan issue. llvm-svn: 295241 2017-02-16 05:56:51 +08:00			`!0 = !{i32 0, !"typeid1"}`
			`!1 = !{i32 0, !"typeid2"}`