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7f725ae6fe
Print the high order register of a double word register operand. In 32 bit mode, a 64 bit double word integer will be represented by 2 32 bit registers. This modifier causes the high order register to be used in the asm expression. It is useful if you are using doubles in assembler and continue to control register to variable relationships. This patch also fixes a related bug in a previous patch: case 'D': // Second part of a double word register operand case 'L': // Low order register of a double word register operand case 'M': // High order register of a double word register operand I got 'D' and 'M' confused. The second part of a double word operand will only match 'M' for one of the endianesses. I had 'L' and 'D' be the opposite twins when 'L' and 'M' are. llvm-svn: 160429
154 lines
5.4 KiB
LLVM
154 lines
5.4 KiB
LLVM
; Positive test for inline register constraints
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;
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; RUN: llc -march=mipsel < %s | FileCheck -check-prefix=CHECK_LITTLE_32 %s
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; RUN: llc -march=mips < %s | FileCheck -check-prefix=CHECK_BIG_32 %s
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%union.u_tag = type { i64 }
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%struct.anon = type { i32, i32 }
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@uval = common global %union.u_tag zeroinitializer, align 8
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; X with -3
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define i32 @constraint_X() nounwind {
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entry:
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;CHECK_LITTLE_32: constraint_X:
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;CHECK_LITTLE_32: #APP
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;CHECK_LITTLE_32: addi ${{[0-9]+}},${{[0-9]+}},0xfffffffffffffffd
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;CHECK_LITTLE_32: #NO_APP
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tail call i32 asm sideeffect "addi $0,$1,${2:X}", "=r,r,I"(i32 7, i32 -3) ;
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ret i32 0
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}
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; x with -3
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define i32 @constraint_x() nounwind {
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entry:
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;CHECK_LITTLE_32: constraint_x:
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;CHECK_LITTLE_32: #APP
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;CHECK_LITTLE_32: addi ${{[0-9]+}},${{[0-9]+}},0xfffd
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;CHECK_LITTLE_32: #NO_APP
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tail call i32 asm sideeffect "addi $0,$1,${2:x}", "=r,r,I"(i32 7, i32 -3) ;
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ret i32 0
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}
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; d with -3
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define i32 @constraint_d() nounwind {
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entry:
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;CHECK_LITTLE_32: constraint_d:
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;CHECK_LITTLE_32: #APP
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;CHECK_LITTLE_32: addi ${{[0-9]+}},${{[0-9]+}},-3
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;CHECK_LITTLE_32: #NO_APP
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tail call i32 asm sideeffect "addi $0,$1,${2:d}", "=r,r,I"(i32 7, i32 -3) ;
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ret i32 0
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}
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; m with -3
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define i32 @constraint_m() nounwind {
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entry:
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;CHECK_LITTLE_32: constraint_m:
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;CHECK_LITTLE_32: #APP
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;CHECK_LITTLE_32: addi ${{[0-9]+}},${{[0-9]+}},-4
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;CHECK_LITTLE_32: #NO_APP
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tail call i32 asm sideeffect "addi $0,$1,${2:m}", "=r,r,I"(i32 7, i32 -3) ;
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ret i32 0
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}
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; z with -3
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define i32 @constraint_z() nounwind {
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entry:
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;CHECK_LITTLE_32: constraint_z:
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;CHECK_LITTLE_32: #APP
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;CHECK_LITTLE_32: addi ${{[0-9]+}},${{[0-9]+}},-3
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;CHECK_LITTLE_32: #NO_APP
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tail call i32 asm sideeffect "addi $0,$1,${2:z}", "=r,r,I"(i32 7, i32 -3) ;
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; z with 0
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;CHECK_LITTLE_32: #APP
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;CHECK_LITTLE_32: addi ${{[0-9]+}},${{[0-9]+}},$0
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;CHECK_LITTLE_32: #NO_APP
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tail call i32 asm sideeffect "addi $0,$1,${2:z}", "=r,r,I"(i32 7, i32 0) nounwind
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ret i32 0
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}
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; a long long in 32 bit mode (use to assert)
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define i32 @constraint_longlong() nounwind {
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entry:
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;CHECK_LITTLE_32: constraint_longlong:
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;CHECK_LITTLE_32: #APP
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;CHECK_LITTLE_32: addi ${{[0-9]+}},${{[0-9]+}},3
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;CHECK_LITTLE_32: #NO_APP
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tail call i64 asm sideeffect "addi $0,$1,$2 \0A\09", "=r,r,X"(i64 1229801703532086340, i64 3) nounwind
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ret i32 0
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}
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; D, in little endian the source reg will be 4 bytes into the long long
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define i32 @constraint_D() nounwind {
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entry:
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;CHECK_LITTLE_32: constraint_D:
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;CHECK_LITTLE_32: lw ${{[0-9]+}}, %got(uval)(${{[0-9,a-z]+}})
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;CHECK_LITTLE_32: lw $[[SECOND:[0-9]+]], 4(${{[0-9]+}})
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;CHECK_LITTLE_32: lw $[[FIRST:[0-9]+]], 0(${{[0-9]+}})
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;CHECK_LITTLE_32: #APP
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;CHECK_LITTLE_32: or ${{[0-9]+}},$[[SECOND]],${{[0-9]+}}
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;CHECK_LITTLE_32: #NO_APP
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; D, in big endian the source reg will also be 4 bytes into the long long
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;CHECK_BIG_32: constraint_D:
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;CHECK_BIG_32: lw ${{[0-9]+}}, %got(uval)(${{[0-9,a-z]+}})
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;CHECK_BIG_32: lw $[[SECOND:[0-9]+]], 4(${{[0-9]+}})
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;CHECK_BIG_32: lw $[[FIRST:[0-9]+]], 0(${{[0-9]+}})
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;CHECK_BIG_32: #APP
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;CHECK_BIG_32: or ${{[0-9]+}},$[[SECOND]],${{[0-9]+}}
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;CHECK_BIG_32: #NO_APP
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%bosco = load i64* getelementptr inbounds (%union.u_tag* @uval, i32 0, i32 0), align 8
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%trunc1 = trunc i64 %bosco to i32
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tail call i32 asm sideeffect "or $0,${1:D},$2", "=r,r,r"(i64 %bosco, i32 %trunc1) nounwind
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ret i32 0
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}
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; L, in little endian the source reg will be 0 bytes into the long long
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define i32 @constraint_L() nounwind {
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entry:
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;CHECK_LITTLE_32: constraint_L:
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;CHECK_LITTLE_32: lw ${{[0-9]+}}, %got(uval)(${{[0-9,a-z]+}})
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;CHECK_LITTLE_32: lw $[[SECOND:[0-9]+]], 4(${{[0-9]+}})
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;CHECK_LITTLE_32: lw $[[FIRST:[0-9]+]], 0(${{[0-9]+}})
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;CHECK_LITTLE_32: #APP
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;CHECK_LITTLE_32: or ${{[0-9]+}},$[[FIRST]],${{[0-9]+}}
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;CHECK_LITTLE_32: #NO_APP
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; L, in big endian the source reg will be 4 bytes into the long long
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;CHECK_BIG_32: constraint_L:
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;CHECK_BIG_32: lw ${{[0-9]+}}, %got(uval)(${{[0-9,a-z]+}})
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;CHECK_BIG_32: lw $[[SECOND:[0-9]+]], 4(${{[0-9]+}})
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;CHECK_BIG_32: lw $[[FIRST:[0-9]+]], 0(${{[0-9]+}})
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;CHECK_BIG_32: #APP
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;CHECK_BIG_32: or ${{[0-9]+}},$[[SECOND]],${{[0-9]+}}
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;CHECK_BIG_32: #NO_APP
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%bosco = load i64* getelementptr inbounds (%union.u_tag* @uval, i32 0, i32 0), align 8
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%trunc1 = trunc i64 %bosco to i32
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tail call i32 asm sideeffect "or $0,${1:L},$2", "=r,r,r"(i64 %bosco, i32 %trunc1) nounwind
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ret i32 0
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}
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; M, in little endian the source reg will be 4 bytes into the long long
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define i32 @constraint_M() nounwind {
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entry:
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;CHECK_LITTLE_32: constraint_M:
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;CHECK_LITTLE_32: lw ${{[0-9]+}}, %got(uval)(${{[0-9,a-z]+}})
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;CHECK_LITTLE_32: lw $[[SECOND:[0-9]+]], 4(${{[0-9]+}})
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;CHECK_LITTLE_32: lw $[[FIRST:[0-9]+]], 0(${{[0-9]+}})
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;CHECK_LITTLE_32: #APP
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;CHECK_LITTLE_32: or ${{[0-9]+}},$[[SECOND]],${{[0-9]+}}
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;CHECK_LITTLE_32: #NO_APP
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; M, in big endian the source reg will be 0 bytes into the long long
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;CHECK_BIG_32: constraint_M:
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;CHECK_BIG_32: lw ${{[0-9]+}}, %got(uval)(${{[0-9,a-z]+}})
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;CHECK_BIG_32: lw $[[SECOND:[0-9]+]], 4(${{[0-9]+}})
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;CHECK_BIG_32: lw $[[FIRST:[0-9]+]], 0(${{[0-9]+}})
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;CHECK_BIG_32: #APP
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;CHECK_BIG_32: or ${{[0-9]+}},$[[FIRST]],${{[0-9]+}}
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;CHECK_BIG_32: #NO_APP
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%bosco = load i64* getelementptr inbounds (%union.u_tag* @uval, i32 0, i32 0), align 8
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%trunc1 = trunc i64 %bosco to i32
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tail call i32 asm sideeffect "or $0,${1:M},$2", "=r,r,r"(i64 %bosco, i32 %trunc1) nounwind
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ret i32 0
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}
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