; Tests if we handle global variables with relocation initializers.
; REQUIRES: allow_dump
; Test that we handle it in the ICE converter.
; RUN: %lc2i -i %s --args -verbose inst -threads=0 \
; RUN: | %iflc FileCheck %s
; RUN: %lc2i -i %s --args -verbose inst,global_init -threads=0 \
; RUN: | %iflc FileCheck --check-prefix=DUMP %s
; Test that we handle it using Subzero's bitcode reader.
; RUN: %p2i -i %s --args -verbose inst -threads=0 \
; RUN: | FileCheck %s
; RUN: %p2i -i %s --args -verbose inst,global_init -threads=0 \
; RUN: | FileCheck --check-prefix=DUMP %s
@bytes = internal global [7 x i8] c"abcdefg"
; DUMP: @bytes = internal global [7 x i8] c"abcdefg"
; CHECK: .type bytes,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:bytes:
; CHECK: .byte 97
; CHECK: .byte 98
; CHECK: .byte 99
; CHECK: .byte 100
; CHECK: .byte 101
; CHECK: .byte 102
; CHECK: .byte 103
; CHECK: .size bytes, 7
@const_bytes = internal constant [7 x i8] c"abcdefg"
; DUMP: @const_bytes = internal constant [7 x i8] c"abcdefg"
; CHECK: .type const_bytes,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_bytes:
; CHECK: .byte 97
; CHECK: .byte 98
; CHECK: .byte 99
; CHECK: .byte 100
; CHECK: .byte 101
; CHECK: .byte 102
; CHECK: .byte 103
; CHECK: .size const_bytes, 7
@ptr_to_ptr = internal global i32 ptrtoint (i32* @ptr to i32)
; DUMP: @ptr_to_ptr = internal global i32 ptrtoint (i32* @ptr to i32)
; CHECK: .type ptr_to_ptr,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:ptr_to_ptr:
; CHECK: .long ptr
; CHECK: .size ptr_to_ptr, 4
@const_ptr_to_ptr = internal constant i32 ptrtoint (i32* @ptr to i32)
; DUMP: @const_ptr_to_ptr = internal constant i32 ptrtoint (i32* @ptr to i32)
; CHECK: .type const_ptr_to_ptr,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_ptr_to_ptr:
; CHECK: .long ptr
; CHECK: .size const_ptr_to_ptr, 4
@ptr_to_func = internal global i32 ptrtoint (void ()* @func to i32)
; DUMP: @ptr_to_func = internal global i32 ptrtoint (void ()* @func to i32)
; CHECK: .type ptr_to_func,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:ptr_to_func:
; CHECK: .long func
; CHECK: .size ptr_to_func, 4
@const_ptr_to_func = internal constant i32 ptrtoint (void ()* @func to i32)
; DUMP: @const_ptr_to_func = internal constant i32 ptrtoint (void ()* @func to i32)
; CHECK: .type const_ptr_to_func,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_ptr_to_func:
; CHECK: .long func
; CHECK: .size const_ptr_to_func, 4
@compound = internal global <{ [3 x i8], i32 }> <{ [3 x i8] c"foo", i32 ptrtoint (void ()* @func to i32) }>
; DUMP: @compound = internal global <{ [3 x i8], i32 }> <{ [3 x i8] c"foo", i32 ptrtoint (void ()* @func to i32) }>
; CHECK: .type compound,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:compound:
; CHECK: .byte 102
; CHECK: .byte 111
; CHECK: .byte 111
; CHECK: .long func
; CHECK: .size compound, 7
@const_compound = internal constant <{ [3 x i8], i32 }> <{ [3 x i8] c"foo", i32 ptrtoint (void ()* @func to i32) }>
; DUMP: @const_compound = internal constant <{ [3 x i8], i32 }> <{ [3 x i8] c"foo", i32 ptrtoint (void ()* @func to i32) }>
; CHECK: .type const_compound,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_compound:
; CHECK: .byte 102
; CHECK: .byte 111
; CHECK: .byte 111
; CHECK: .long func
; CHECK: .size const_compound, 7
@ptr = internal global i32 ptrtoint ([7 x i8]* @bytes to i32)
; DUMP: @ptr = internal global i32 ptrtoint ([7 x i8]* @bytes to i32)
; CHECK: .type ptr,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:ptr:
; CHECK: .long bytes
; CHECK: .size ptr, 4
@const_ptr = internal constant i32 ptrtoint ([7 x i8]* @bytes to i32)
; DUMP: @const_ptr = internal constant i32 ptrtoint ([7 x i8]* @bytes to i32)
; CHECK: .type const_ptr,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_ptr:
; CHECK: .long bytes
; CHECK: .size const_ptr, 4
@addend_ptr = internal global i32 add (i32 ptrtoint (i32* @ptr to i32), i32 1)
; DUMP: @addend_ptr = internal global i32 add (i32 ptrtoint (i32* @ptr to i32), i32 1)
; CHECK: .type addend_ptr,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:addend_ptr:
; CHECK: .long ptr + 1
; CHECK: .size addend_ptr, 4
@const_addend_ptr = internal constant i32 add (i32 ptrtoint (i32* @ptr to i32), i32 1)
; DUMP: @const_addend_ptr = internal constant i32 add (i32 ptrtoint (i32* @ptr to i32), i32 1)
; CHECK: .type const_addend_ptr,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_addend_ptr:
; CHECK: .long ptr + 1
; CHECK: .size const_addend_ptr, 4
@addend_negative = internal global i32 add (i32 ptrtoint (i32* @ptr to i32), i32 -1)
; DUMP: @addend_negative = internal global i32 add (i32 ptrtoint (i32* @ptr to i32), i32 -1)
; CHECK: .type addend_negative,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:addend_negative:
; CHECK: .long ptr - 1
; CHECK: .size addend_negative, 4
@const_addend_negative = internal constant i32 add (i32 ptrtoint (i32* @ptr to i32), i32 -1)
; DUMP: @const_addend_negative = internal constant i32 add (i32 ptrtoint (i32* @ptr to i32), i32 -1)
; CHECK: .type const_addend_negative,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_addend_negative:
; CHECK: .long ptr - 1
; CHECK: .size const_addend_negative, 4
@addend_array1 = internal global i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 1)
; DUMP: @addend_array1 = internal global i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 1)
; CHECK: .type addend_array1,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:addend_array1:
; CHECK: .long bytes + 1
; CHECK: .size addend_array1, 4
@const_addend_array1 = internal constant i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 1)
; DUMP: @const_addend_array1 = internal constant i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 1)
; CHECK: .type const_addend_array1,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_addend_array1:
; CHECK: .long bytes + 1
; CHECK: .size const_addend_array1, 4
@addend_array2 = internal global i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 7)
; DUMP: @addend_array2 = internal global i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 7)
; CHECK: .type addend_array2,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:addend_array2:
; CHECK: .long bytes + 7
; CHECK: .size addend_array2, 4
@const_addend_array2 = internal constant i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 7)
; DUMP: @const_addend_array2 = internal constant i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 7)
; CHECK: .type const_addend_array2,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_addend_array2:
; CHECK: .long bytes + 7
; CHECK: .size const_addend_array2, 4
@addend_array3 = internal global i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 9)
; DUMP: @addend_array3 = internal global i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 9)
; CHECK: .type addend_array3,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:addend_array3:
; CHECK: .long bytes + 9
; CHECK: .size addend_array3, 4
@const_addend_array3 = internal constant i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 9)
; DUMP: @const_addend_array3 = internal constant i32 add (i32 ptrtoint ([7 x i8]* @bytes to i32), i32 9)
; CHECK: .type const_addend_array3,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_addend_array3:
; CHECK: .long bytes + 9
; CHECK: .size const_addend_array3, 4
@addend_struct1 = internal global i32 add (i32 ptrtoint (<{ [3 x i8], i32 }>* @compound to i32), i32 1)
; DUMP: @addend_struct1 = internal global i32 add (i32 ptrtoint (<{ [3 x i8], i32 }>* @compound to i32), i32 1)
; CHECK: .type addend_struct1,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:addend_struct1:
; CHECK: .long compound + 1
; CHECK: .size addend_struct1, 4
@const_addend_struct1 = internal constant i32 add (i32 ptrtoint (<{ [3 x i8], i32 }>* @compound to i32), i32 1)
; DUMP: @const_addend_struct1 = internal constant i32 add (i32 ptrtoint (<{ [3 x i8], i32 }>* @compound to i32), i32 1)
; CHECK: .type const_addend_struct1,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_addend_struct1:
; CHECK: .long compound + 1
; CHECK: .size const_addend_struct1, 4
@addend_struct2 = internal global i32 add (i32 ptrtoint (<{ [3 x i8], i32 }>* @compound to i32), i32 4)
; DUMP: @addend_struct2 = internal global i32 add (i32 ptrtoint (<{ [3 x i8], i32 }>* @compound to i32), i32 4)
; CHECK: .type addend_struct2,%object
; CHECK: .section .data,"aw",%progbits
; CHECK:addend_struct2:
; CHECK: .long compound + 4
; CHECK: .size addend_struct2, 4
@const_addend_struct2 = internal constant i32 add (i32 ptrtoint (<{ [3 x i8], i32 }>* @compound to i32), i32 4)
; DUMP: @const_addend_struct2 = internal constant i32 add (i32 ptrtoint (<{ [3 x i8], i32 }>* @compound to i32), i32 4)
; CHECK: .type const_addend_struct2,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:const_addend_struct2:
; CHECK: .long compound + 4
; CHECK: .size const_addend_struct2, 4
@ptr_to_func_align = internal global i32 ptrtoint (void ()* @func to i32), align 8
; DUMP: @ptr_to_func_align = internal global i32 ptrtoint (void ()* @func to i32), align 8
; CHECK: .type ptr_to_func_align,%object
; CHECK: .section .data,"aw",%progbits
; CHECK: .p2align 3
; CHECK:ptr_to_func_align:
; CHECK: .long func
; CHECK: .size ptr_to_func_align, 4
@const_ptr_to_func_align = internal constant i32 ptrtoint (void ()* @func to i32), align 8
; DUMP: @const_ptr_to_func_align = internal constant i32 ptrtoint (void ()* @func to i32), align 8
; CHECK: .type const_ptr_to_func_align,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK: .p2align 3
; CHECK:const_ptr_to_func_align:
; CHECK: .long func
; CHECK: .size const_ptr_to_func_align, 4
@char = internal constant [1 x i8] c"0"
; DUMP: @char = internal constant [1 x i8] c"0"
; CHECK: .type char,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:char:
; CHECK: .byte 48
; CHECK: .size char, 1
@short = internal constant [2 x i8] zeroinitializer
; DUMP: @short = internal constant [2 x i8] zeroinitializer
; CHECK: .type short,%object
; CHECK: .section .rodata,"a",%progbits
; CHECK:short:
; CHECK: .zero 2
; CHECK: .size short, 2
define internal void @func() {
ret void
}
; DUMP: define internal void @func() {