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Luis Felipe Strano Moraes! git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@129558 91177308-0d34-0410-b5e6-96231b3b80d8
230 lines
7.4 KiB
Plaintext
230 lines
7.4 KiB
Plaintext
//===- README_X86_64.txt - Notes for X86-64 code gen ----------------------===//
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AMD64 Optimization Manual 8.2 has some nice information about optimizing integer
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multiplication by a constant. How much of it applies to Intel's X86-64
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implementation? There are definite trade-offs to consider: latency vs. register
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pressure vs. code size.
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//===---------------------------------------------------------------------===//
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Are we better off using branches instead of cmove to implement FP to
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unsigned i64?
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_conv:
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ucomiss LC0(%rip), %xmm0
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cvttss2siq %xmm0, %rdx
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jb L3
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subss LC0(%rip), %xmm0
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movabsq $-9223372036854775808, %rax
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cvttss2siq %xmm0, %rdx
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xorq %rax, %rdx
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L3:
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movq %rdx, %rax
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ret
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instead of
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_conv:
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movss LCPI1_0(%rip), %xmm1
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cvttss2siq %xmm0, %rcx
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movaps %xmm0, %xmm2
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subss %xmm1, %xmm2
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cvttss2siq %xmm2, %rax
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movabsq $-9223372036854775808, %rdx
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xorq %rdx, %rax
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ucomiss %xmm1, %xmm0
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cmovb %rcx, %rax
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ret
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Seems like the jb branch has high likelihood of being taken. It would have
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saved a few instructions.
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//===---------------------------------------------------------------------===//
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It's not possible to reference AH, BH, CH, and DH registers in an instruction
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requiring REX prefix. However, divb and mulb both produce results in AH. If isel
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emits a CopyFromReg which gets turned into a movb and that can be allocated a
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r8b - r15b.
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To get around this, isel emits a CopyFromReg from AX and then right shift it
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down by 8 and truncate it. It's not pretty but it works. We need some register
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allocation magic to make the hack go away (e.g. putting additional constraints
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on the result of the movb).
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//===---------------------------------------------------------------------===//
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The x86-64 ABI for hidden-argument struct returns requires that the
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incoming value of %rdi be copied into %rax by the callee upon return.
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The idea is that it saves callers from having to remember this value,
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which would often require a callee-saved register. Callees usually
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need to keep this value live for most of their body anyway, so it
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doesn't add a significant burden on them.
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We currently implement this in codegen, however this is suboptimal
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because it means that it would be quite awkward to implement the
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optimization for callers.
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A better implementation would be to relax the LLVM IR rules for sret
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arguments to allow a function with an sret argument to have a non-void
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return type, and to have the front-end to set up the sret argument value
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as the return value of the function. The front-end could more easily
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emit uses of the returned struct value to be in terms of the function's
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lowered return value, and it would free non-C frontends from a
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complication only required by a C-based ABI.
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//===---------------------------------------------------------------------===//
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We get a redundant zero extension for code like this:
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int mask[1000];
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int foo(unsigned x) {
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if (x < 10)
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x = x * 45;
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else
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x = x * 78;
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return mask[x];
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}
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_foo:
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LBB1_0: ## entry
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cmpl $9, %edi
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jbe LBB1_3 ## bb
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LBB1_1: ## bb1
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imull $78, %edi, %eax
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LBB1_2: ## bb2
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movl %eax, %eax <----
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movq _mask@GOTPCREL(%rip), %rcx
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movl (%rcx,%rax,4), %eax
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ret
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LBB1_3: ## bb
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imull $45, %edi, %eax
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jmp LBB1_2 ## bb2
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Before regalloc, we have:
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%reg1025<def> = IMUL32rri8 %reg1024, 45, %EFLAGS<imp-def>
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JMP mbb<bb2,0x203afb0>
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Successors according to CFG: 0x203afb0 (#3)
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bb1: 0x203af60, LLVM BB @0x1e02310, ID#2:
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Predecessors according to CFG: 0x203aec0 (#0)
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%reg1026<def> = IMUL32rri8 %reg1024, 78, %EFLAGS<imp-def>
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Successors according to CFG: 0x203afb0 (#3)
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bb2: 0x203afb0, LLVM BB @0x1e02340, ID#3:
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Predecessors according to CFG: 0x203af10 (#1) 0x203af60 (#2)
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%reg1027<def> = PHI %reg1025, mbb<bb,0x203af10>,
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%reg1026, mbb<bb1,0x203af60>
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%reg1029<def> = MOVZX64rr32 %reg1027
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so we'd have to know that IMUL32rri8 leaves the high word zero extended and to
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be able to recognize the zero extend. This could also presumably be implemented
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if we have whole-function selectiondags.
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//===---------------------------------------------------------------------===//
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Take the following C code
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(from http://gcc.gnu.org/bugzilla/show_bug.cgi?id=43640):
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struct u1
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{
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float x;
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float y;
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};
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float foo(struct u1 u)
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{
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return u.x + u.y;
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}
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Optimizes to the following IR:
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define float @foo(double %u.0) nounwind readnone {
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entry:
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%tmp8 = bitcast double %u.0 to i64 ; <i64> [#uses=2]
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%tmp6 = trunc i64 %tmp8 to i32 ; <i32> [#uses=1]
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%tmp7 = bitcast i32 %tmp6 to float ; <float> [#uses=1]
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%tmp2 = lshr i64 %tmp8, 32 ; <i64> [#uses=1]
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%tmp3 = trunc i64 %tmp2 to i32 ; <i32> [#uses=1]
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%tmp4 = bitcast i32 %tmp3 to float ; <float> [#uses=1]
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%0 = fadd float %tmp7, %tmp4 ; <float> [#uses=1]
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ret float %0
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}
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And current llvm-gcc/clang output:
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movd %xmm0, %rax
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movd %eax, %xmm1
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shrq $32, %rax
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movd %eax, %xmm0
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addss %xmm1, %xmm0
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ret
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We really shouldn't move the floats to RAX, only to immediately move them
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straight back to the XMM registers.
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There really isn't any good way to handle this purely in IR optimizers; it
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could possibly be handled by changing the output of the fronted, though. It
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would also be feasible to add a x86-specific DAGCombine to optimize the
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bitcast+trunc+(lshr+)bitcast combination.
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//===---------------------------------------------------------------------===//
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Take the following code
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(from http://gcc.gnu.org/bugzilla/show_bug.cgi?id=34653):
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extern unsigned long table[];
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unsigned long foo(unsigned char *p) {
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unsigned long tag = *p;
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return table[tag >> 4] + table[tag & 0xf];
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}
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Current code generated:
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movzbl (%rdi), %eax
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movq %rax, %rcx
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andq $240, %rcx
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shrq %rcx
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andq $15, %rax
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movq table(,%rax,8), %rax
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addq table(%rcx), %rax
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ret
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Issues:
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1. First movq should be movl; saves a byte.
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2. Both andq's should be andl; saves another two bytes. I think this was
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implemented at one point, but subsequently regressed.
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3. shrq should be shrl; saves another byte.
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4. The first andq can be completely eliminated by using a slightly more
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expensive addressing mode.
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//===---------------------------------------------------------------------===//
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Consider the following (contrived testcase, but contains common factors):
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#include <stdarg.h>
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int test(int x, ...) {
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int sum, i;
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va_list l;
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va_start(l, x);
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for (i = 0; i < x; i++)
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sum += va_arg(l, int);
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va_end(l);
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return sum;
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}
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Testcase given in C because fixing it will likely involve changing the IR
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generated for it. The primary issue with the result is that it doesn't do any
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of the optimizations which are possible if we know the address of a va_list
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in the current function is never taken:
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1. We shouldn't spill the XMM registers because we only call va_arg with "int".
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2. It would be nice if we could scalarrepl the va_list.
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3. Probably overkill, but it'd be cool if we could peel off the first five
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iterations of the loop.
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Other optimizations involving functions which use va_arg on floats which don't
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have the address of a va_list taken:
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1. Conversely to the above, we shouldn't spill general registers if we only
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call va_arg on "double".
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2. If we know nothing more than 64 bits wide is read from the XMM registers,
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we can change the spilling code to reduce the amount of stack used by half.
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//===---------------------------------------------------------------------===//
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