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gcc/gcc13-pr110792.patch

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PR target/110792: Early clobber issues with rot32di2_doubleword on i386.
This patch is a conservative fix for PR target/110792, a wrong-code
regression affecting doubleword rotations by BITS_PER_WORD, which
effectively swaps the highpart and lowpart words, when the source to be
rotated resides in memory. The issue is that if the register used to
hold the lowpart of the destination is mentioned in the address of
the memory operand, the current define_insn_and_split unintentionally
clobbers it before reading the highpart.
Hence, for the testcase, the incorrectly generated code looks like:
salq $4, %rdi // calculate address
movq WHIRL_S+8(%rdi), %rdi // accidentally clobber addr
movq WHIRL_S(%rdi), %rbp // load (wrong) lowpart
Traditionally, the textbook way to fix this would be to add an
explicit early clobber to the instruction's constraints.
(define_insn_and_split "<insn>32di2_doubleword"
- [(set (match_operand:DI 0 "register_operand" "=r,r,r")
+ [(set (match_operand:DI 0 "register_operand" "=r,r,&r")
(any_rotate:DI (match_operand:DI 1 "nonimmediate_operand" "0,r,o")
(const_int 32)))]
but unfortunately this currently generates significantly worse code,
due to a strange choice of reloads (effectively memcpy), which ends up
looking like:
salq $4, %rdi // calculate address
movdqa WHIRL_S(%rdi), %xmm0 // load the double word in SSE reg.
movaps %xmm0, -16(%rsp) // store the SSE reg back to the stack
movq -8(%rsp), %rdi // load highpart
movq -16(%rsp), %rbp // load lowpart
Note that reload's "&" doesn't distinguish between the memory being
early clobbered, vs the registers used in an addressing mode being
early clobbered.
The fix proposed in this patch is to remove the third alternative, that
allowed offsetable memory as an operand, forcing reload to place the
operand into a register before the rotation. This results in:
salq $4, %rdi
movq WHIRL_S(%rdi), %rax
movq WHIRL_S+8(%rdi), %rdi
movq %rax, %rbp
I believe there's a more advanced solution, by swapping the order of
the loads (if first destination register is mentioned in the address),
or inserting a lea insn (if both destination registers are mentioned
in the address), but this fix is a minimal "safe" solution, that
should hopefully be suitable for backporting.
2023-08-06 Roger Sayle <roger@nextmovesoftware.com>
gcc/testsuite/ChangeLog
PR target/110792
* gcc.target/i386/pr110792.c: Remove dg-final scan-assembler-not.
2023-08-03 Roger Sayle <roger@nextmovesoftware.com>
gcc/ChangeLog
PR target/110792
* config/i386/i386.md (<any_rotate>ti3): For rotations by 64 bits
place operand in a register before gen_<insn>64ti2_doubleword.
(<any_rotate>di3): Likewise, for rotations by 32 bits, place
operand in a register before gen_<insn>32di2_doubleword.
(<any_rotate>32di2_doubleword): Constrain operand to be in register.
(<any_rotate>64ti2_doubleword): Likewise.
gcc/testsuite/ChangeLog
PR target/110792
* g++.target/i386/pr110792.C: New 32-bit C++ test case.
* gcc.target/i386/pr110792.c: New 64-bit C test case.
--- gcc/config/i386/i386.md
+++ gcc/config/i386/i386.md
@@ -15341,7 +15341,10 @@ (define_expand "<insn>ti3"
emit_insn (gen_ix86_<insn>ti3_doubleword
(operands[0], operands[1], operands[2]));
else if (CONST_INT_P (operands[2]) && INTVAL (operands[2]) == 64)
- emit_insn (gen_<insn>64ti2_doubleword (operands[0], operands[1]));
+ {
+ operands[1] = force_reg (TImode, operands[1]);
+ emit_insn (gen_<insn>64ti2_doubleword (operands[0], operands[1]));
+ }
else
{
rtx amount = force_reg (QImode, operands[2]);
@@ -15376,7 +15379,10 @@ (define_expand "<insn>di3"
emit_insn (gen_ix86_<insn>di3_doubleword
(operands[0], operands[1], operands[2]));
else if (CONST_INT_P (operands[2]) && INTVAL (operands[2]) == 32)
- emit_insn (gen_<insn>32di2_doubleword (operands[0], operands[1]));
+ {
+ operands[1] = force_reg (DImode, operands[1]);
+ emit_insn (gen_<insn>32di2_doubleword (operands[0], operands[1]));
+ }
else
FAIL;
@@ -15544,8 +15550,8 @@ (define_insn_and_split "ix86_rotr<dwi>3_doubleword"
})
(define_insn_and_split "<insn>32di2_doubleword"
- [(set (match_operand:DI 0 "register_operand" "=r,r,r")
- (any_rotate:DI (match_operand:DI 1 "nonimmediate_operand" "0,r,o")
+ [(set (match_operand:DI 0 "register_operand" "=r,r")
+ (any_rotate:DI (match_operand:DI 1 "register_operand" "0,r")
(const_int 32)))]
"!TARGET_64BIT"
"#"
@@ -15562,8 +15568,8 @@ (define_insn_and_split "<insn>32di2_doubleword"
})
(define_insn_and_split "<insn>64ti2_doubleword"
- [(set (match_operand:TI 0 "register_operand" "=r,r,r")
- (any_rotate:TI (match_operand:TI 1 "nonimmediate_operand" "0,r,o")
+ [(set (match_operand:TI 0 "register_operand" "=r,r")
+ (any_rotate:TI (match_operand:TI 1 "register_operand" "0,r")
(const_int 64)))]
"TARGET_64BIT"
"#"
--- gcc/testsuite/g++.target/i386/pr110792.C
+++ gcc/testsuite/g++.target/i386/pr110792.C
@@ -0,0 +1,16 @@
+/* { dg-do compile { target ia32 } } */
+/* { dg-options "-O2" } */
+
+template <int ROT, typename T>
+inline T rotr(T input)
+{
+ return static_cast<T>((input >> ROT) | (input << (8 * sizeof(T) - ROT)));
+}
+
+unsigned long long WHIRL_S[256] = {0x18186018C07830D8};
+unsigned long long whirl(unsigned char x0)
+{
+ const unsigned long long s4 = WHIRL_S[x0&0xFF];
+ return rotr<32>(s4);
+}
+/* { dg-final { scan-assembler-not "movl\tWHIRL_S\\+4\\(,%eax,8\\), %eax" } } */
--- gcc/testsuite/gcc.target/i386/pr110792.c
+++ gcc/testsuite/gcc.target/i386/pr110792.c
@@ -0,0 +1,17 @@
+/* { dg-do compile { target int128 } } */
+/* { dg-options "-O2" } */
+
+static inline unsigned __int128 rotr(unsigned __int128 input)
+{
+ return ((input >> 64) | (input << (64)));
+}
+
+unsigned __int128 WHIRL_S[256] = {((__int128)0x18186018C07830D8) << 64 |0x18186018C07830D8};
+unsigned __int128 whirl(unsigned char x0)
+{
+ register int t __asm("rdi") = x0&0xFF;
+ const unsigned __int128 s4 = WHIRL_S[t];
+ register unsigned __int128 tt __asm("rdi") = rotr(s4);
+ asm("":::"memory");
+ return tt;
+}
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