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3ea2df7c7b
Similar to gep (r230786) and load (r230794) changes. Similar migration script can be used to update test cases, which successfully migrated all of LLVM and Polly, but about 4 test cases needed manually changes in Clang. (this script will read the contents of stdin and massage it into stdout - wrap it in the 'apply.sh' script shown in previous commits + xargs to apply it over a large set of test cases) import fileinput import sys import re rep = re.compile(r"(getelementptr(?:\s+inbounds)?\s*\()((<\d*\s+x\s+)?([^@]*?)(|\s*addrspace\(\d+\))\s*\*(?(3)>)\s*)(?=$|%|@|null|undef|blockaddress|getelementptr|addrspacecast|bitcast|inttoptr|zeroinitializer|<|\[\[[a-zA-Z]|\{\{)", re.MULTILINE | re.DOTALL) def conv(match): line = match.group(1) line += match.group(4) line += ", " line += match.group(2) return line line = sys.stdin.read() off = 0 for match in re.finditer(rep, line): sys.stdout.write(line[off:match.start()]) sys.stdout.write(conv(match)) off = match.end() sys.stdout.write(line[off:]) llvm-svn: 232184
236 lines
14 KiB
LLVM
236 lines
14 KiB
LLVM
; "PLAIN" - No optimizations. This tests the target-independent
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; constant folder.
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; RUN: opt -S -o - %s | FileCheck --check-prefix=PLAIN %s
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target datalayout = "e-p:128:128:128-p1:32:32:32-p2:8:8:8-p3:16:16:16-p4:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:32:32"
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; The automatic constant folder in opt does not have targetdata access, so
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; it can't fold gep arithmetic, in general. However, the constant folder run
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; from instcombine and global opt can use targetdata.
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; PLAIN: @G8 = global i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* inttoptr (i32 1 to i8 addrspace(1)*), i32 -1)
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@G8 = global i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* inttoptr (i32 1 to i8 addrspace(1)*), i32 -1)
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; PLAIN: @G1 = global i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* inttoptr (i8 1 to i1 addrspace(2)*), i8 -1)
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@G1 = global i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* inttoptr (i8 1 to i1 addrspace(2)*), i8 -1)
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; PLAIN: @F8 = global i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* inttoptr (i32 1 to i8 addrspace(1)*), i32 -2)
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@F8 = global i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* inttoptr (i32 1 to i8 addrspace(1)*), i32 -2)
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; PLAIN: @F1 = global i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* inttoptr (i8 1 to i1 addrspace(2)*), i8 -2)
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@F1 = global i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* inttoptr (i8 1 to i1 addrspace(2)*), i8 -2)
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; PLAIN: @H8 = global i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* null, i32 -1)
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@H8 = global i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* inttoptr (i32 0 to i8 addrspace(1)*), i32 -1)
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; PLAIN: @H1 = global i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* null, i8 -1)
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@H1 = global i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* inttoptr (i8 0 to i1 addrspace(2)*), i8 -1)
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; The target-independent folder should be able to do some clever
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; simplifications on sizeof, alignof, and offsetof expressions. The
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; target-dependent folder should fold these down to constants.
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; PLAIN-X: @a = constant i64 mul (i64 ptrtoint (double addrspace(4)* getelementptr (double, double addrspace(4)* null, i32 1) to i64), i64 2310)
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@a = constant i64 mul (i64 3, i64 mul (i64 ptrtoint ({[7 x double], [7 x double]} addrspace(4)* getelementptr ({[7 x double], [7 x double]}, {[7 x double], [7 x double]} addrspace(4)* null, i64 11) to i64), i64 5))
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; PLAIN-X: @b = constant i64 ptrtoint (double addrspace(4)* getelementptr ({ i1, double }, { i1, double }* null, i64 0, i32 1) to i64)
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@b = constant i64 ptrtoint ([13 x double] addrspace(4)* getelementptr ({i1, [13 x double]}, {i1, [13 x double]} addrspace(4)* null, i64 0, i32 1) to i64)
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; PLAIN-X: @c = constant i64 mul nuw (i64 ptrtoint (double addrspace(4)* getelementptr (double, double addrspace(4)* null, i32 1) to i64), i64 2)
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@c = constant i64 ptrtoint (double addrspace(4)* getelementptr ({double, double, double, double}, {double, double, double, double} addrspace(4)* null, i64 0, i32 2) to i64)
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; PLAIN-X: @d = constant i64 mul nuw (i64 ptrtoint (double addrspace(4)* getelementptr (double, double addrspace(4)* null, i32 1) to i64), i64 11)
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@d = constant i64 ptrtoint (double addrspace(4)* getelementptr ([13 x double], [13 x double] addrspace(4)* null, i64 0, i32 11) to i64)
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; PLAIN-X: @e = constant i64 ptrtoint (double addrspace(4)* getelementptr ({ double, float, double, double }, { double, float, double, double }* null, i64 0, i32 2) to i64)
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@e = constant i64 ptrtoint (double addrspace(4)* getelementptr ({double, float, double, double}, {double, float, double, double} addrspace(4)* null, i64 0, i32 2) to i64)
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; PLAIN-X: @f = constant i64 1
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@f = constant i64 ptrtoint (<{ i16, i128 }> addrspace(4)* getelementptr ({i1, <{ i16, i128 }>}, {i1, <{ i16, i128 }>} addrspace(4)* null, i64 0, i32 1) to i64)
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; PLAIN-X: @g = constant i64 ptrtoint (double addrspace(4)* getelementptr ({ i1, double }, { i1, double }* null, i64 0, i32 1) to i64)
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@g = constant i64 ptrtoint ({double, double} addrspace(4)* getelementptr ({i1, {double, double}}, {i1, {double, double}} addrspace(4)* null, i64 0, i32 1) to i64)
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; PLAIN-X: @h = constant i64 ptrtoint (i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* null, i32 1) to i64)
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@h = constant i64 ptrtoint (double addrspace(4)* getelementptr (double, double addrspace(4)* null, i64 1) to i64)
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; PLAIN-X: @i = constant i64 ptrtoint (i1 addrspace(2)* getelementptr ({ i1, i1 addrspace(2)* }, { i1, i1 addrspace(2)* }* null, i64 0, i32 1) to i64)
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@i = constant i64 ptrtoint (double addrspace(4)* getelementptr ({i1, double}, {i1, double} addrspace(4)* null, i64 0, i32 1) to i64)
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; The target-dependent folder should cast GEP indices to integer-sized pointers.
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; PLAIN: @M = constant i64 addrspace(4)* getelementptr (i64, i64 addrspace(4)* null, i32 1)
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; PLAIN: @N = constant i64 addrspace(4)* getelementptr ({ i64, i64 }, { i64, i64 } addrspace(4)* null, i32 0, i32 1)
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; PLAIN: @O = constant i64 addrspace(4)* getelementptr ([2 x i64], [2 x i64] addrspace(4)* null, i32 0, i32 1)
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@M = constant i64 addrspace(4)* getelementptr (i64, i64 addrspace(4)* null, i32 1)
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@N = constant i64 addrspace(4)* getelementptr ({ i64, i64 }, { i64, i64 } addrspace(4)* null, i32 0, i32 1)
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@O = constant i64 addrspace(4)* getelementptr ([2 x i64], [2 x i64] addrspace(4)* null, i32 0, i32 1)
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; Fold GEP of a GEP. Very simple cases are folded.
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; PLAIN-X: @Y = global [3 x { i32, i32 }]addrspace(3)* getelementptr inbounds ([3 x { i32, i32 }], [3 x { i32, i32 }]addrspace(3)* @ext, i64 2)
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@ext = external addrspace(3) global [3 x { i32, i32 }]
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@Y = global [3 x { i32, i32 }]addrspace(3)* getelementptr inbounds ([3 x { i32, i32 }], [3 x { i32, i32 }]addrspace(3)* getelementptr inbounds ([3 x { i32, i32 }], [3 x { i32, i32 }]addrspace(3)* @ext, i64 1), i64 1)
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; PLAIN-X: @Z = global i32addrspace(3)* getelementptr inbounds (i32, i32addrspace(3)* getelementptr inbounds ([3 x { i32, i32 }], [3 x { i32, i32 }]addrspace(3)* @ext, i64 0, i64 1, i32 0), i64 1)
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@Z = global i32addrspace(3)* getelementptr inbounds (i32, i32addrspace(3)* getelementptr inbounds ([3 x { i32, i32 }], [3 x { i32, i32 }]addrspace(3)* @ext, i64 0, i64 1, i32 0), i64 1)
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; Duplicate all of the above as function return values rather than
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; global initializers.
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; PLAIN: define i8 addrspace(1)* @goo8() #0 {
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; PLAIN: %t = bitcast i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* inttoptr (i32 1 to i8 addrspace(1)*), i32 -1) to i8 addrspace(1)*
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; PLAIN: ret i8 addrspace(1)* %t
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; PLAIN: }
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; PLAIN: define i1 addrspace(2)* @goo1() #0 {
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; PLAIN: %t = bitcast i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* inttoptr (i32 1 to i1 addrspace(2)*), i32 -1) to i1 addrspace(2)*
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; PLAIN: ret i1 addrspace(2)* %t
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; PLAIN: }
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; PLAIN: define i8 addrspace(1)* @foo8() #0 {
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; PLAIN: %t = bitcast i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* inttoptr (i32 1 to i8 addrspace(1)*), i32 -2) to i8 addrspace(1)*
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; PLAIN: ret i8 addrspace(1)* %t
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; PLAIN: }
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; PLAIN: define i1 addrspace(2)* @foo1() #0 {
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; PLAIN: %t = bitcast i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* inttoptr (i32 1 to i1 addrspace(2)*), i32 -2) to i1 addrspace(2)*
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; PLAIN: ret i1 addrspace(2)* %t
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; PLAIN: }
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; PLAIN: define i8 addrspace(1)* @hoo8() #0 {
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; PLAIN: %t = bitcast i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* null, i32 -1) to i8 addrspace(1)*
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; PLAIN: ret i8 addrspace(1)* %t
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; PLAIN: }
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; PLAIN: define i1 addrspace(2)* @hoo1() #0 {
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; PLAIN: %t = bitcast i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* null, i32 -1) to i1 addrspace(2)*
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; PLAIN: ret i1 addrspace(2)* %t
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; PLAIN: }
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define i8 addrspace(1)* @goo8() #0 {
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%t = bitcast i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* inttoptr (i32 1 to i8 addrspace(1)*), i32 -1) to i8 addrspace(1)*
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ret i8 addrspace(1)* %t
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}
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define i1 addrspace(2)* @goo1() #0 {
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%t = bitcast i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* inttoptr (i32 1 to i1 addrspace(2)*), i32 -1) to i1 addrspace(2)*
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ret i1 addrspace(2)* %t
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}
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define i8 addrspace(1)* @foo8() #0 {
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%t = bitcast i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* inttoptr (i32 1 to i8 addrspace(1)*), i32 -2) to i8 addrspace(1)*
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ret i8 addrspace(1)* %t
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}
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define i1 addrspace(2)* @foo1() #0 {
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%t = bitcast i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* inttoptr (i32 1 to i1 addrspace(2)*), i32 -2) to i1 addrspace(2)*
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ret i1 addrspace(2)* %t
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}
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define i8 addrspace(1)* @hoo8() #0 {
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%t = bitcast i8 addrspace(1)* getelementptr (i8, i8 addrspace(1)* inttoptr (i32 0 to i8 addrspace(1)*), i32 -1) to i8 addrspace(1)*
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ret i8 addrspace(1)* %t
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}
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define i1 addrspace(2)* @hoo1() #0 {
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%t = bitcast i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* inttoptr (i32 0 to i1 addrspace(2)*), i32 -1) to i1 addrspace(2)*
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ret i1 addrspace(2)* %t
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}
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; PLAIN-X: define i64 @fa() #0 {
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; PLAIN-X: %t = bitcast i64 mul (i64 ptrtoint (double addrspace(4)* getelementptr (double, double addrspace(4)* null, i32 1) to i64), i64 2310) to i64
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; PLAIN-X: ret i64 %t
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; PLAIN-X: }
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; PLAIN-X: define i64 @fb() #0 {
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; PLAIN-X: %t = bitcast i64 ptrtoint (double addrspace(4)* getelementptr ({ i1, double }, { i1, double }* null, i64 0, i32 1) to i64) to i64
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; PLAIN-X: ret i64 %t
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; PLAIN-X: }
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; PLAIN-X: define i64 @fc() #0 {
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; PLAIN-X: %t = bitcast i64 mul nuw (i64 ptrtoint (double addrspace(4)* getelementptr (double, double addrspace(4)* null, i32 1) to i64), i64 2) to i64
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; PLAIN-X: ret i64 %t
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; PLAIN-X: }
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; PLAIN-X: define i64 @fd() #0 {
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; PLAIN-X: %t = bitcast i64 mul nuw (i64 ptrtoint (double addrspace(4)* getelementptr (double, double addrspace(4)* null, i32 1) to i64), i64 11) to i64
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; PLAIN-X: ret i64 %t
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; PLAIN-X: }
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; PLAIN-X: define i64 @fe() #0 {
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; PLAIN-X: %t = bitcast i64 ptrtoint (double addrspace(4)* getelementptr ({ double, float, double, double }, { double, float, double, double }* null, i64 0, i32 2) to i64) to i64
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; PLAIN-X: ret i64 %t
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; PLAIN-X: }
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; PLAIN-X: define i64 @ff() #0 {
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; PLAIN-X: %t = bitcast i64 1 to i64
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; PLAIN-X: ret i64 %t
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; PLAIN-X: }
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; PLAIN-X: define i64 @fg() #0 {
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; PLAIN-X: %t = bitcast i64 ptrtoint (double addrspace(4)* getelementptr ({ i1, double }, { i1, double }* null, i64 0, i32 1) to i64) to i64
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; PLAIN-X: ret i64 %t
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; PLAIN-X: }
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; PLAIN-X: define i64 @fh() #0 {
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; PLAIN-X: %t = bitcast i64 ptrtoint (i1 addrspace(2)* getelementptr (i1, i1 addrspace(2)* null, i32 1) to i64) to i64
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; PLAIN-X: ret i64 %t
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; PLAIN-X: }
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; PLAIN-X: define i64 @fi() #0 {
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; PLAIN-X: %t = bitcast i64 ptrtoint (i1 addrspace(2)* getelementptr ({ i1, i1 addrspace(2)* }, { i1, i1 addrspace(2)* }* null, i64 0, i32 1) to i64) to i64
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; PLAIN-X: ret i64 %t
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; PLAIN-X: }
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define i64 @fa() #0 {
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%t = bitcast i64 mul (i64 3, i64 mul (i64 ptrtoint ({[7 x double], [7 x double]}* getelementptr ({[7 x double], [7 x double]}, {[7 x double], [7 x double]}* null, i64 11) to i64), i64 5)) to i64
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ret i64 %t
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}
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define i64 @fb() #0 {
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%t = bitcast i64 ptrtoint ([13 x double] addrspace(4)* getelementptr ({i1, [13 x double]}, {i1, [13 x double]} addrspace(4)* null, i64 0, i32 1) to i64) to i64
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ret i64 %t
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}
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define i64 @fc() #0 {
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%t = bitcast i64 ptrtoint (double addrspace(4)* getelementptr ({double, double, double, double}, {double, double, double, double} addrspace(4)* null, i64 0, i32 2) to i64) to i64
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ret i64 %t
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}
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define i64 @fd() #0 {
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%t = bitcast i64 ptrtoint (double addrspace(4)* getelementptr ([13 x double], [13 x double] addrspace(4)* null, i64 0, i32 11) to i64) to i64
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ret i64 %t
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}
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define i64 @fe() #0 {
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%t = bitcast i64 ptrtoint (double addrspace(4)* getelementptr ({double, float, double, double}, {double, float, double, double} addrspace(4)* null, i64 0, i32 2) to i64) to i64
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ret i64 %t
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}
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define i64 @ff() #0 {
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%t = bitcast i64 ptrtoint (<{ i16, i128 }> addrspace(4)* getelementptr ({i1, <{ i16, i128 }>}, {i1, <{ i16, i128 }>} addrspace(4)* null, i64 0, i32 1) to i64) to i64
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ret i64 %t
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}
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define i64 @fg() #0 {
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%t = bitcast i64 ptrtoint ({double, double} addrspace(4)* getelementptr ({i1, {double, double}}, {i1, {double, double}} addrspace(4)* null, i64 0, i32 1) to i64) to i64
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ret i64 %t
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}
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define i64 @fh() #0 {
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%t = bitcast i64 ptrtoint (double addrspace(4)* getelementptr (double, double addrspace(4)* null, i32 1) to i64) to i64
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ret i64 %t
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}
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define i64 @fi() #0 {
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%t = bitcast i64 ptrtoint (double addrspace(4)* getelementptr ({i1, double}, {i1, double}addrspace(4)* null, i64 0, i32 1) to i64) to i64
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ret i64 %t
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}
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; PLAIN: define i64* @fM() #0 {
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; PLAIN: %t = bitcast i64* getelementptr (i64, i64* null, i32 1) to i64*
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; PLAIN: ret i64* %t
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; PLAIN: }
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; PLAIN: define i64* @fN() #0 {
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; PLAIN: %t = bitcast i64* getelementptr ({ i64, i64 }, { i64, i64 }* null, i32 0, i32 1) to i64*
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; PLAIN: ret i64* %t
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; PLAIN: }
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; PLAIN: define i64* @fO() #0 {
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; PLAIN: %t = bitcast i64* getelementptr ([2 x i64], [2 x i64]* null, i32 0, i32 1) to i64*
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; PLAIN: ret i64* %t
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; PLAIN: }
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define i64* @fM() #0 {
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%t = bitcast i64* getelementptr (i64, i64* null, i32 1) to i64*
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ret i64* %t
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}
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define i64* @fN() #0 {
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%t = bitcast i64* getelementptr ({ i64, i64 }, { i64, i64 }* null, i32 0, i32 1) to i64*
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ret i64* %t
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}
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define i64* @fO() #0 {
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%t = bitcast i64* getelementptr ([2 x i64], [2 x i64]* null, i32 0, i32 1) to i64*
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ret i64* %t
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}
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; PLAIN: define i32 addrspace(1)* @fZ() #0 {
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; PLAIN: %t = bitcast i32 addrspace(1)* getelementptr inbounds (i32, i32 addrspace(1)* getelementptr inbounds ([3 x { i32, i32 }], [3 x { i32, i32 }] addrspace(1)* @ext2, i64 0, i64 1, i32 0), i64 1) to i32 addrspace(1)*
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; PLAIN: ret i32 addrspace(1)* %t
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; PLAIN: }
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@ext2 = external addrspace(1) global [3 x { i32, i32 }]
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define i32 addrspace(1)* @fZ() #0 {
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%t = bitcast i32 addrspace(1)* getelementptr inbounds (i32, i32 addrspace(1)* getelementptr inbounds ([3 x { i32, i32 }], [3 x { i32, i32 }] addrspace(1)* @ext2, i64 0, i64 1, i32 0), i64 1) to i32 addrspace(1)*
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ret i32 addrspace(1)* %t
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}
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attributes #0 = { nounwind }
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