; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py ; RUN: llc < %s -mtriple=i686-unknown-unknown | FileCheck %s --check-prefix=X86 ; RUN: llc < %s -mtriple=x86_64-unknown-unknown | FileCheck %s --check-prefix=X64 ; Check that under certain conditions we can factor out a rotate ; from the following idioms: ; (a*c0) >> s1 | (a*c1) ; (a/c0) << s1 | (a/c1) ; This targets cases where instcombine has folded a shl/srl/mul/udiv ; with one of the shifts from the rotate idiom define i64 @rolq_extract_shl(i64 %i) nounwind { ; X86-LABEL: rolq_extract_shl: ; X86: # %bb.0: ; X86-NEXT: movl {{[0-9]+}}(%esp), %ecx ; X86-NEXT: movl {{[0-9]+}}(%esp), %edx ; X86-NEXT: leal (,%edx,8), %eax ; X86-NEXT: shldl $10, %ecx, %edx ; X86-NEXT: shll $10, %ecx ; X86-NEXT: shrl $25, %eax ; X86-NEXT: orl %ecx, %eax ; X86-NEXT: retl ; ; X64-LABEL: rolq_extract_shl: ; X64: # %bb.0: ; X64-NEXT: leaq (,%rdi,8), %rax ; X64-NEXT: rolq $7, %rax ; X64-NEXT: retq %lhs_mul = shl i64 %i, 3 %rhs_mul = shl i64 %i, 10 %lhs_shift = lshr i64 %lhs_mul, 57 %out = or i64 %lhs_shift, %rhs_mul ret i64 %out } define i16 @rolw_extract_shrl(i16 %i) nounwind { ; X86-LABEL: rolw_extract_shrl: ; X86: # %bb.0: ; X86-NEXT: movzwl {{[0-9]+}}(%esp), %eax ; X86-NEXT: shrl $3, %eax ; X86-NEXT: rolw $12, %ax ; X86-NEXT: # kill: def $ax killed $ax killed $eax ; X86-NEXT: retl ; ; X64-LABEL: rolw_extract_shrl: ; X64: # %bb.0: ; X64-NEXT: movzwl %di, %eax ; X64-NEXT: shrl $3, %eax ; X64-NEXT: rolw $12, %ax ; X64-NEXT: # kill: def $ax killed $ax killed $eax ; X64-NEXT: retq %lhs_div = lshr i16 %i, 7 %rhs_div = lshr i16 %i, 3 %rhs_shift = shl i16 %rhs_div, 12 %out = or i16 %lhs_div, %rhs_shift ret i16 %out } define i32 @roll_extract_mul(i32 %i) nounwind { ; X86-LABEL: roll_extract_mul: ; X86: # %bb.0: ; X86-NEXT: movl {{[0-9]+}}(%esp), %eax ; X86-NEXT: leal (%eax,%eax,8), %eax ; X86-NEXT: roll $7, %eax ; X86-NEXT: retl ; ; X64-LABEL: roll_extract_mul: ; X64: # %bb.0: ; X64-NEXT: # kill: def $edi killed $edi def $rdi ; X64-NEXT: leal (%rdi,%rdi,8), %eax ; X64-NEXT: roll $7, %eax ; X64-NEXT: retq %lhs_mul = mul i32 %i, 9 %rhs_mul = mul i32 %i, 1152 %lhs_shift = lshr i32 %lhs_mul, 25 %out = or i32 %lhs_shift, %rhs_mul ret i32 %out } define i8 @rolb_extract_udiv(i8 %i) nounwind { ; X86-LABEL: rolb_extract_udiv: ; X86: # %bb.0: ; X86-NEXT: movzbl {{[0-9]+}}(%esp), %eax ; X86-NEXT: imull $171, %eax, %eax ; X86-NEXT: shrl $9, %eax ; X86-NEXT: rolb $4, %al ; X86-NEXT: # kill: def $al killed $al killed $eax ; X86-NEXT: retl ; ; X64-LABEL: rolb_extract_udiv: ; X64: # %bb.0: ; X64-NEXT: movzbl %dil, %eax ; X64-NEXT: imull $171, %eax, %eax ; X64-NEXT: shrl $9, %eax ; X64-NEXT: rolb $4, %al ; X64-NEXT: # kill: def $al killed $al killed $eax ; X64-NEXT: retq %lhs_div = udiv i8 %i, 3 %rhs_div = udiv i8 %i, 48 %lhs_shift = shl i8 %lhs_div, 4 %out = or i8 %lhs_shift, %rhs_div ret i8 %out } define i64 @rolq_extract_mul_with_mask(i64 %i) nounwind { ; X86-LABEL: rolq_extract_mul_with_mask: ; X86: # %bb.0: ; X86-NEXT: pushl %esi ; X86-NEXT: movl {{[0-9]+}}(%esp), %eax ; X86-NEXT: movl {{[0-9]+}}(%esp), %esi ; X86-NEXT: movl %eax, %ecx ; X86-NEXT: shll $7, %ecx ; X86-NEXT: leal (%ecx,%ecx,8), %ecx ; X86-NEXT: movl $9, %edx ; X86-NEXT: mull %edx ; X86-NEXT: leal (%esi,%esi,8), %eax ; X86-NEXT: addl %edx, %eax ; X86-NEXT: movzbl %cl, %ecx ; X86-NEXT: shrl $25, %eax ; X86-NEXT: orl %ecx, %eax ; X86-NEXT: xorl %edx, %edx ; X86-NEXT: popl %esi ; X86-NEXT: retl ; ; X64-LABEL: rolq_extract_mul_with_mask: ; X64: # %bb.0: ; X64-NEXT: leaq (%rdi,%rdi,8), %rax ; X64-NEXT: rolq $7, %rax ; X64-NEXT: movzbl %al, %eax ; X64-NEXT: retq %lhs_mul = mul i64 %i, 1152 %rhs_mul = mul i64 %i, 9 %lhs_and = and i64 %lhs_mul, 160 %rhs_shift = lshr i64 %rhs_mul, 57 %out = or i64 %lhs_and, %rhs_shift ret i64 %out } ; Result would undershift define i64 @no_extract_shl(i64 %i) nounwind { ; X86-LABEL: no_extract_shl: ; X86: # %bb.0: ; X86-NEXT: movl {{[0-9]+}}(%esp), %ecx ; X86-NEXT: movl {{[0-9]+}}(%esp), %edx ; X86-NEXT: movl %edx, %eax ; X86-NEXT: shll $5, %eax ; X86-NEXT: shldl $10, %ecx, %edx ; X86-NEXT: shll $10, %ecx ; X86-NEXT: shrl $25, %eax ; X86-NEXT: orl %ecx, %eax ; X86-NEXT: retl ; ; X64-LABEL: no_extract_shl: ; X64: # %bb.0: ; X64-NEXT: movq %rdi, %rax ; X64-NEXT: shlq $5, %rax ; X64-NEXT: shlq $10, %rdi ; X64-NEXT: shrq $57, %rax ; X64-NEXT: addq %rdi, %rax ; X64-NEXT: retq %lhs_mul = shl i64 %i, 5 %rhs_mul = shl i64 %i, 10 %lhs_shift = lshr i64 %lhs_mul, 57 %out = or i64 %lhs_shift, %rhs_mul ret i64 %out } ; Result would overshift define i32 @no_extract_shrl(i32 %i) nounwind { ; X86-LABEL: no_extract_shrl: ; X86: # %bb.0: ; X86-NEXT: movl {{[0-9]+}}(%esp), %eax ; X86-NEXT: movl %eax, %ecx ; X86-NEXT: andl $-8, %ecx ; X86-NEXT: shll $25, %ecx ; X86-NEXT: shrl $9, %eax ; X86-NEXT: orl %ecx, %eax ; X86-NEXT: retl ; ; X64-LABEL: no_extract_shrl: ; X64: # %bb.0: ; X64-NEXT: # kill: def $edi killed $edi def $rdi ; X64-NEXT: movl %edi, %eax ; X64-NEXT: andl $-8, %eax ; X64-NEXT: shll $25, %eax ; X64-NEXT: shrl $9, %edi ; X64-NEXT: addl %edi, %eax ; X64-NEXT: retq %lhs_div = lshr i32 %i, 3 %rhs_div = lshr i32 %i, 9 %lhs_shift = shl i32 %lhs_div, 28 %out = or i32 %lhs_shift, %rhs_div ret i32 %out } ; Can factor 128 from 2304, but result is 18 instead of 9 define i16 @no_extract_mul(i16 %i) nounwind { ; X86-LABEL: no_extract_mul: ; X86: # %bb.0: ; X86-NEXT: movl {{[0-9]+}}(%esp), %eax ; X86-NEXT: leal (%eax,%eax,8), %ecx ; X86-NEXT: shll $8, %eax ; X86-NEXT: leal (%eax,%eax,8), %edx ; X86-NEXT: movzwl %cx, %eax ; X86-NEXT: shrl $9, %eax ; X86-NEXT: orl %edx, %eax ; X86-NEXT: # kill: def $ax killed $ax killed $eax ; X86-NEXT: retl ; ; X64-LABEL: no_extract_mul: ; X64: # %bb.0: ; X64-NEXT: # kill: def $edi killed $edi def $rdi ; X64-NEXT: leal (%rdi,%rdi,8), %eax ; X64-NEXT: # kill: def $edi killed $edi killed $rdi def $rdi ; X64-NEXT: shll $8, %edi ; X64-NEXT: leal (%rdi,%rdi,8), %ecx ; X64-NEXT: movzwl %ax, %eax ; X64-NEXT: shrl $9, %eax ; X64-NEXT: orl %ecx, %eax ; X64-NEXT: # kill: def $ax killed $ax killed $eax ; X64-NEXT: retq %lhs_mul = mul i16 %i, 2304 %rhs_mul = mul i16 %i, 9 %rhs_shift = lshr i16 %rhs_mul, 9 %out = or i16 %lhs_mul, %rhs_shift ret i16 %out } ; Can't evenly factor 16 from 49 define i8 @no_extract_udiv(i8 %i) nounwind { ; X86-LABEL: no_extract_udiv: ; X86: # %bb.0: ; X86-NEXT: movzbl {{[0-9]+}}(%esp), %eax ; X86-NEXT: imull $171, %eax, %ecx ; X86-NEXT: imull $79, %eax, %edx ; X86-NEXT: subb %dh, %al ; X86-NEXT: shrb %al ; X86-NEXT: addb %dh, %al ; X86-NEXT: shrb $5, %al ; X86-NEXT: shlb $3, %ch ; X86-NEXT: orb %al, %ch ; X86-NEXT: andb $-9, %ch ; X86-NEXT: movb %ch, %al ; X86-NEXT: retl ; ; X64-LABEL: no_extract_udiv: ; X64: # %bb.0: ; X64-NEXT: movzbl %dil, %ecx ; X64-NEXT: imull $171, %ecx, %eax ; X64-NEXT: shrl $8, %eax ; X64-NEXT: imull $79, %ecx, %edx ; X64-NEXT: shrl $8, %edx ; X64-NEXT: subb %dl, %cl ; X64-NEXT: shrb %cl ; X64-NEXT: addb %dl, %cl ; X64-NEXT: shrb $5, %cl ; X64-NEXT: shlb $3, %al ; X64-NEXT: orb %cl, %al ; X64-NEXT: andb $-9, %al ; X64-NEXT: # kill: def $al killed $al killed $eax ; X64-NEXT: retq %lhs_div = udiv i8 %i, 3 %rhs_div = udiv i8 %i, 49 %lhs_shift = shl i8 %lhs_div,4 %out = or i8 %lhs_shift, %rhs_div ret i8 %out } ; DAGCombiner transforms shl X, 1 into add X, X. define i32 @extract_add_1(i32 %i) nounwind { ; X86-LABEL: extract_add_1: ; X86: # %bb.0: ; X86-NEXT: movl {{[0-9]+}}(%esp), %eax ; X86-NEXT: roll %eax ; X86-NEXT: retl ; ; X64-LABEL: extract_add_1: ; X64: # %bb.0: ; X64-NEXT: movl %edi, %eax ; X64-NEXT: roll %eax ; X64-NEXT: retq %ii = add i32 %i, %i %rhs = lshr i32 %i, 31 %out = or i32 %ii, %rhs ret i32 %out } define i32 @extract_add_1_comut(i32 %i) nounwind { ; X86-LABEL: extract_add_1_comut: ; X86: # %bb.0: ; X86-NEXT: movl {{[0-9]+}}(%esp), %eax ; X86-NEXT: roll %eax ; X86-NEXT: retl ; ; X64-LABEL: extract_add_1_comut: ; X64: # %bb.0: ; X64-NEXT: movl %edi, %eax ; X64-NEXT: roll %eax ; X64-NEXT: retq %ii = add i32 %i, %i %lhs = lshr i32 %i, 31 %out = or i32 %lhs, %ii ret i32 %out } define i32 @no_extract_add_1(i32 %i) nounwind { ; X86-LABEL: no_extract_add_1: ; X86: # %bb.0: ; X86-NEXT: movl {{[0-9]+}}(%esp), %eax ; X86-NEXT: leal (%eax,%eax), %ecx ; X86-NEXT: shrl $27, %eax ; X86-NEXT: orl %ecx, %eax ; X86-NEXT: retl ; ; X64-LABEL: no_extract_add_1: ; X64: # %bb.0: ; X64-NEXT: # kill: def $edi killed $edi def $rdi ; X64-NEXT: leal (%rdi,%rdi), %eax ; X64-NEXT: shrl $27, %edi ; X64-NEXT: orl %edi, %eax ; X64-NEXT: retq %ii = add i32 %i, %i %rhs = lshr i32 %i, 27 %out = or i32 %ii, %rhs ret i32 %out }