/usr/share/picolisp/src64/arch/x86-64.l is in picolisp 3.1.5.2-2.
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# (c) Software Lab. Alexander Burger
# Byte order
(on *LittleEndian)
(off *AlignedCode)
# Register assignments
(de *Registers
(A . "%rax") (C . "%rdx") (E . "%rbx")
(B . "%al") (D "%rax" . "%rdx")
(X . "%r13") (Y . "%r14") (Z . "%r15")
(L . "%rbp") (S . "%rsp")
(F . T) )
# NULL: %r12
# Temporary: %r10 %r11
# Block operations: %rcx %rsi %rdi
# C arguments: %rdi %rsi %rdx %rcx %r8 %r9
# Addressing modes
(de byteReg (Reg)
(cdr
(assoc Reg
(quote
("%rax" . "%al")
("%al" . "%al")
("%rdx" . "%dl")
("%rbx" . "%bl")
("%r12" . "%r12b")
("%r13" . "%r13b")
("%r14" . "%r14b")
("%r15" . "%r15b")
("%rbp" . "%bpl")
("%rsp" . "%spl") ) ) ) )
(de byteVal (Adr)
(if (= "%r12" Adr)
"$0" # %r12b needs 3 bytes
(or
(byteReg Adr) # Register
Adr ) ) ) # Byte address
(de lowByte (Adr)
(or
(byteReg Adr) # Register
Adr ) ) # Word address
(de highWord (S)
(cond
((= `(char "(") (char S))
(pack "8" S) )
((>= `(char "9") (char S) `(char "0"))
(pack "8+" S) )
(T (pack S "+8")) ) )
(de immediate (Src)
(setq Src (chop Src))
(when (= "$" (pop 'Src))
(and (= "~" (car Src)) (pop 'Src))
(format Src) ) )
(de target (Adr F)
(if
(or
(not *FPic)
(= `(char ".") (char Adr)) # Local label ".1"
(let A (split (chop Adr) "_") # Local jump "foo_22"
(and
(cdr A)
(= *Label (pack (glue "_" (head -1 A))))
(format (last A)) ) ) )
Adr
(ifn F
(pack Adr "@plt")
(prinst "mov" (pack Adr "@GOTPCREL(%rip)") "%r10")
"(%r10)") ) )
(de src (Src S)
(cond
((=0 S) (if (= "0" Src) "%r12" (pack "$" Src))) # Immediate
((not S) Src) # Register
((=T S) # Direct
(if (and *FPic (not (pre? "(" Src)))
(pack Src "@GOTPCREL(%rip)")
(pack "$" Src) ) )
((not (car S))
(ifn (and *FPic (=T (cdr S)))
(pack (cdr Src) "(" (car Src) ")")
(prinst "add" (pack (cdr Src) "@GOTPCREL(%rip)") (car Src))
(pack "(" (car Src) ")") ) )
((=T (car S))
(ifn *FPic
(if (cdr S)
(pack (car Src) "+" (cdr Src))
(car Src) )
(prinst "mov" (pack (car Src) "@GOTPCREL(%rip)") "%r10")
(pack (cdr Src) "(%r10)") ) )
(T
(prinst "mov" (src (car Src) (car S)) "%r10")
(ifn (and *FPic (=T (cdr S)))
(pack (cdr Src) "(%r10)")
(prinst "add" (pack (cdr Src) "@GOTPCREL(%rip)") "%r10")
"(%r10)" ) ) ) )
(de lea (Src S Reg)
(cond
((not S) (prinst "mov" Src Reg)) # Register
((=T S) (prinst "mov" (src Src T) Reg)) # Direct
((not (car S))
(cond
((and *FPic (=T (cdr S)))
(prinst "add" (pack (cdr Src) "@GOTPCREL(%rip)") (car Src))
(prinst "mov" (pack "(" (car Src) ")") Reg) )
((cdr Src)
(prinst "lea" (pack (cdr Src) "(" (car Src) ")") Reg) )
(T (prinst "mov" (car Src) Reg)) ) )
((=T (car S))
(ifn *FPic
(prinst "lea"
(if (cdr S)
(pack (car Src) "+" (cdr Src))
(car Src) )
Reg )
(prinst "mov" (pack (car Src) "@GOTPCREL(%rip)") Reg)
(prinst "lea" (pack (cdr Src) "(%r10)") Reg) ) )
(T
(if (cdr S)
(prinst "lea" (src Src S) Reg)
(prinst "mov" (src (car Src) (car S)) Reg) ) ) ) )
(de dst (Dst D)
(cond
((not D) Dst) # Register
((not (car D))
(ifn (and *FPic (=T (cdr D)))
(pack (cdr Dst) "(" (car Dst) ")")
(prinst "add" (pack (cdr Dst) "@GOTPCREL(%rip)") (car Dst))
(pack "(" (car Dst) ")") ) )
((=T (car D))
(ifn *FPic
(if (cdr D)
(pack (car Dst) "+" (cdr Dst))
(car Dst) )
(prinst "mov" (pack (car Dst) "@GOTPCREL(%rip)") "%r11")
(pack (cdr Dst) "(%r11)") ) )
(T
(prinst "mov" (dst (car Dst) (car D)) "%r11")
(ifn (and *FPic (=T (cdr D)))
(pack (cdr Dst) "(%r11)")
(prinst "add" (pack (cdr Dst) "@GOTPCREL(%rip)") "%r11")
"(%r11)" ) ) ) )
(de dstSrc (Cmd Dst Src)
(cond
((= "%al" Dst)
(prinst Cmd (byteVal Src) "%al") )
((= "%al" Src)
(prinst Cmd "%al" (byteVal Dst)) )
((and (immediate Src) (not (>= 2147483647 @ -2147483648)))
(prinst "mov" Src "%r10")
(prinst Cmd "%r10" Dst) )
((or (pre? "%" Src) (pre? "%" Dst))
(prinst Cmd Src Dst) )
((pre? "$" Src)
(prinst (pack Cmd "q") Src Dst) )
(T
(prinst "mov" Src "%r10")
(prinst Cmd "%r10" Dst) ) ) )
(de dstSrcByte (Cmd Dst Src)
(if (>= 255 (immediate Src) 0)
(prinst (pack Cmd "b") Src (lowByte Dst))
(dstSrc Cmd Dst Src) ) )
(de dstDst (Cmd Dst Dst2)
(cond
((= "%al" Dst)
(prinst Cmd (byteVal Dst2) "%al") )
((= "%al" Dst2)
(prinst Cmd "%al" (byteVal Dst)) )
((or (pre? "%" Dst) (pre? "%" Dst2))
(prinst Cmd Dst2 Dst) )
((sub? "%r10" Dst2)
(prinst "mov" Dst "%r11")
(prinst Cmd "%r11" Dst2)
(prinst "mov" "%r11" Dst) )
(T
(prinst "mov" Dst "%r10")
(prinst Cmd "%r10" Dst2)
(prinst "mov" "%r10" Dst) ) ) )
(de dstShift (Cmd Dst Src)
(if (pre? "$" Src)
(prinst (pack Cmd (unless (pre? "%" Dst) "q")) Src Dst)
(prinst "mov" (byteVal Src) "%cl")
(prinst (pack Cmd (unless (pre? "%" Dst) "q")) "%cl" Dst) ) )
### Instruction set ###
(de alignSection (Align)
(prinst ".balign" 16)
((; 'skip asm) Align) )
(asm nop ()
(prinst "nop") )
(asm align (N)
(prinst ".balign" N) )
(asm skip (N)
(if (== 'data *Section)
(or (=0 N) (prinst ".space" N))
(do N (prinst "nop")) ) )
# Move data
(asm ld (Dst D Src S)
(setq Dst (dst Dst D) Src (src Src S))
(cond
((= "%al" Dst)
(prinst "mov" (byteVal Src) "%al") )
((= "%al" Src)
(prinst "mov" "%al" (byteVal Dst)) )
((pair Dst)
(prinst "mov" Src (car Dst))
(prinst "mov" (if (=0 S) "%r12" (highWord Src)) (cdr Dst)) )
((pair Src)
(prinst "mov" (car Src) Dst)
(prinst "mov" (cdr Src) (highWord Dst)) )
((or (pre? "%" Src) (pre? "%" Dst))
(prinst "mov" Src Dst) )
((pre? "$" Src)
(prinst "movq" Src Dst) )
(T
(prinst "mov" Src "%r10")
(prinst "mov" "%r10" Dst) ) ) )
(asm ld2 (Src S)
(prinst "movzwq" (src Src S) "%rax") )
(asm ld4 (Src S)
(prinst "mov" (src Src S) "%eax") ) # Clears upper word of %rax
(de _cmov (Cmd Jmp)
(setq Dst (dst Dst D) Src (src Src S))
(when (pre? "$" Src)
(prinst "mov" Src "%r10")
(setq Src "%r10") )
(if (pre? "%" Dst)
(prinst Cmd Src Dst)
(warn "Using suboptimal emulation code")
(prinst Jmp "1f")
(if (pre? "%" Src)
(prinst "mov" Src Dst)
(prinst "mov" Src "%r10")
(prinst "mov" "%r10" Dst) )
(prinl "1:") ) )
(asm ldc (Dst D Src S)
(_cmov "cmovcq" "jnc") )
(asm ldnc (Dst D Src S)
(_cmov "cmovncq" "jc") )
(asm ldz (Dst D Src S)
(_cmov "cmovzq" "jnz") )
(asm ldnz (Dst D Src S)
(_cmov "cmovnzq" "jz") )
(asm lea (Dst D Src S)
(setq Dst (dst Dst D) Src (src Src S))
(if (pre? "%" Dst)
(prinst "lea" Src Dst)
(prinst "lea" Src "%r10")
(prinst "mov" "%r10" Dst) ) )
(asm st2 (Dst D)
(prinst "mov" "%ax" (dst Dst D)) )
(asm st4 (Dst D)
(prinst "mov" "%eax" (dst Dst D)) )
(asm xchg (Dst D Dst2 D2)
(dstDst "xchg" (dst Dst D) (src Dst2 D2)) )
(asm movn (Dst D Src S Cnt C)
(lea Dst D "%rdi")
(lea Src S "%rsi")
(prinst "mov" (src Cnt C) "%rcx")
(prinst "cld")
(prinst "rep movsb") )
(asm mset (Dst D Cnt C)
(setq Dst (dst Dst D))
(prinst (if (pre? "%" Dst) "mov" "lea") Dst "%rdi")
(prinst "mov" (src Cnt C) "%rcx")
(prinst "cld")
(prinst "rep stosb") )
(asm movm (Dst D Src S End E)
(lea Dst D "%rdi")
(lea Src S "%rsi")
(lea End E "%rcx")
(prinst "sub" "%rsi" "%rcx")
(prinst "shr" "$3" "%rcx")
(prinst "cld")
(prinst "rep movsq") )
(asm save (Src S End E Dst D)
(lea Src S "%rsi")
(lea End E "%rcx")
(lea Dst D "%rdi")
(prinst "sub" "%rsi" "%rcx")
(prinst "shr" "$3" "%rcx")
(prinst "cld")
(prinst "rep movsq") )
(asm load (Dst D End E Src S)
(lea Dst D "%rdi")
(lea End E "%rcx")
(lea Src S "%rsi")
(prinst "sub" "%rdi" "%rcx")
(prinst "shr" "$3" "%rcx")
(prinst "cld")
(prinst "rep movsq") )
# Arithmetics
(asm add (Dst D Src S)
(setq Dst (dst Dst D) Src (src Src S))
(ifn (pair Dst)
(dstSrc "add" Dst Src)
(prinst "add" Src (car Dst))
(prinst "adc" "%r12" (cdr Dst)) ) )
(asm addc (Dst D Src S)
(setq Dst (dst Dst D) Src (src Src S))
(ifn (pair Dst)
(dstSrc "adc" Dst Src)
(prinst "adc" Src (car Dst))
(prinst "adc" "%r12" (cdr Dst)) ) )
(asm sub (Dst D Src S)
(setq Dst (dst Dst D) Src (src Src S))
(ifn (pair Dst)
(dstSrc "sub" Dst Src)
(prinst "sub" Src (car Dst))
(prinst "sbb" "%r12" (cdr Dst)) ) )
(asm subc (Dst D Src S)
(setq Dst (dst Dst D) Src (src Src S))
(ifn (pair Dst)
(dstSrc "sbb" Dst Src)
(prinst "sbb" Src (car Dst))
(prinst "sbb" "%r12" (cdr Dst)) ) )
(asm inc (Dst D)
(if (pre? "%" (setq Dst (dst Dst D)))
(prinst "inc" Dst)
(prinst "incq" Dst) ) )
(asm dec (Dst D)
(if (pre? "%" (setq Dst (dst Dst D)))
(prinst "dec" Dst)
(prinst "decq" Dst) ) )
(asm not (Dst D)
(if (pre? "%" (setq Dst (dst Dst D)))
(prinst "not" Dst)
(prinst "notq" Dst) ) )
(asm neg (Dst D)
(if (pre? "%" (setq Dst (dst Dst D)))
(prinst "neg" Dst)
(prinst "negq" Dst) ) )
(asm and (Dst D Src S)
(dstSrc "and" (dst Dst D) (src Src S)) )
(asm or (Dst D Src S)
(dstSrcByte "or" (dst Dst D) (src Src S)) )
(asm xor (Dst D Src S)
(dstSrcByte "xor" (dst Dst D) (src Src S)) )
(asm off (Dst D Src S)
(dstSrcByte "and" (dst Dst D) (src Src S)) )
(asm test (Dst D Src S)
(dstSrcByte "test" (dst Dst D) (src Src S)) )
(asm shl (Dst D Src S)
(dstShift "shl" (dst Dst D) (src Src S)) )
(asm shr (Dst D Src S)
(dstShift "shr" (dst Dst D) (src Src S)) )
(asm rol (Dst D Src S)
(dstShift "rol" (dst Dst D) (src Src S)) )
(asm ror (Dst D Src S)
(dstShift "ror" (dst Dst D) (src Src S)) )
(asm rcl (Dst D Src S)
(dstShift "rcl" (dst Dst D) (src Src S)) )
(asm rcr (Dst D Src S)
(dstShift "rcr" (dst Dst D) (src Src S)) )
(asm mul (Src S)
(ifn (pre? "$" (setq Src (src Src S)))
(prinst "mulq" Src)
(prinst "mov" Src "%r10")
(prinst "mul" "%r10") ) )
(asm div (Src S)
(ifn (pre? "$" (setq Src (src Src S)))
(prinst "divq" Src)
(prinst "mov" Src "%r10")
(prinst "div" "%r10") ) )
(asm zxt () # 8 bit -> 64 bit
(prinst "movzx" "%al" "%rax") )
(asm setz ()
(prinst "or" "%r12" "%r12") )
(asm clrz ()
(prinst "cmp" "%rsp" "%r12") )
(asm setc ()
(prinst "stc") )
(asm clrc ()
(prinst "clc") )
# Comparisons
(asm cmp (Dst D Src S)
(dstSrc "cmp" (dst Dst D) (src Src S)) )
(asm cmpn (Dst D Src S Cnt C)
(setq Dst (dst Dst D))
(prinst (if (pre? "%" Dst) "mov" "lea") Dst "%rsi")
(lea Src S "%rdi")
(prinst "mov" (src Cnt C) "%rcx")
(prinst "cld")
(prinst "repnz cmpsb") )
(asm slen (Dst D Src S)
(setq Dst (dst Dst D))
(prinst "cld")
(prinst "xor" "%rcx" "%rcx")
(prinst "not" "%rcx")
(lea Src S "%rdi")
(prinst "xchg" "%al" "%r12b")
(prinst "repnz scasb")
(prinst "xchg" "%al" "%r12b")
(prinst "not" "%rcx")
(prinst "dec" "%rcx")
(prinst "mov" "%rcx" Dst) )
(asm memb (Src S Cnt C)
(prinst "cld")
(lea Src S "%rdi")
(setq Cnt (src Cnt C))
(prinst "mov" Cnt "%rcx")
(prinst "repnz scasb")
(unless S (prinst "cmovzq" "%rdi" Src))
(unless C (prinst "cmovzq" "%rcx" Cnt)) )
(asm null (Src S)
(prinst "cmp" "%r12" (src Src S)) )
(asm nulp (Src S)
(prinst "cmp" "%r12" (src Src S)) )
(asm nul4 ()
(prinst "cmp" "%r12d" "%eax") )
# Byte addressing
(asm set (Dst D Src S)
(setq Dst (dst Dst D) Src (src Src S))
(cond
((= "%r12" Src)
(prinst "mov" "%r12b" (lowByte Dst)) )
((or (pre? "$" Src) (pre? "%" Src) (pre? "%" Dst))
(prinst "movb" Src Dst) )
(T
(prinst "mov" Src "%r10b")
(prinst "mov" "%r10b" Dst) ) ) )
(asm nul (Src S)
(prinst "cmp" "%r12b" (src Src S)) )
# Types
(asm cnt (Src S)
(prinst "testb" "$0x02" (lowByte (src Src S))) )
(asm big (Src S)
(prinst "testb" "$0x04" (lowByte (src Src S))) )
(asm num (Src S)
(prinst "testb" "$0x06" (lowByte (src Src S))) )
(asm sym (Src S)
(prinst "testb" "$0x08" (lowByte (src Src S))) )
(asm atom (Src S)
(prinst "testb" "$0x0E" (lowByte (src Src S))) )
# Flow Control
(asm call (Adr A)
(nond
(A # Absolute
(prinst "call" (target Adr)) )
((=T A) # Ignore SUBR
(prinst "call" (pack "*" Adr)) )
(NIL # Indirect
(prinst "mov" (target Adr T) "%r10")
(prinst "call" "*%r10") ) ) )
(asm jmp (Adr A)
(nond
(A (prinst "jmp" (target Adr)))
((=T A) # Ignore SUBR
(prinst "jmp" (pack "*" Adr)) )
(NIL
(prinst "mov" (target Adr T) "%r10")
(prinst "jmp" "*%r10") ) ) )
(de _jmp (Opc Opc2)
(ifn A
(prinst Opc (target Adr))
(prinst Opc2 "1f")
(ifn (=T A) # Ignore SUBR
(prinst "jmp" (pack "*" Adr))
(prinst "mov" (target Adr T) "%r10")
(prinst "jmp" "*%r10") )
(prinl "1:") ) )
(asm jz (Adr A)
(_jmp "jz" "jnz") )
(asm jeq (Adr A)
(_jmp "jz" "jnz") )
(asm jnz (Adr A)
(_jmp "jnz" "jz") )
(asm jne (Adr A)
(_jmp "jnz" "jz") )
(asm js (Adr A)
(_jmp "js" "jns") )
(asm jns (Adr A)
(_jmp "jns" "js") )
(asm jsz (Adr A)
(_jmp "jle" "jg") )
(asm jnsz (Adr A)
(_jmp "jg" "jle") )
(asm jc (Adr A)
(_jmp "jc" "jnc") )
(asm jlt (Adr A)
(_jmp "jc" "jnc") )
(asm jnc (Adr A)
(_jmp "jnc" "jc") )
(asm jge (Adr A)
(_jmp "jnc" "jc") )
(asm jcz (Adr A)
(_jmp "jbe" "ja") )
(asm jle (Adr A)
(_jmp "jbe" "ja") )
(asm jncz (Adr A)
(_jmp "ja" "jbe") )
(asm jgt (Adr A)
(_jmp "ja" "jbe") )
(asm ret ()
(unless
(and
(seek '((L) (== (cadr L) *Statement)) *Program)
(not (memq (caar @) '`(cons ': (cdr *Transfers)))) )
(prinst "rep") )
(prinst "ret") )
# Floating point
(asm ldd ()
(prinst "movsd" "(%rdx)" "%xmm0") )
(asm ldf ()
(prinst "movss" "(%rdx)" "%xmm0") )
(asm fixnum ()
(prinst "shr" "$4" "%rbx") # Normalize scale
(prinst "jc" "1f") # Jump if negative
(prinst "cvtsi2sd" "%rbx" "%xmm7") # Mulitply double with scale
(prinst "mulsd" "%xmm7" "%xmm0")
(prinst "cvtsd2si" "%xmm0" "%rbx") # Convert to integer
(prinst "jmp" "2f")
(prinl "1:")
(prinst "cvtsi2ss" "%rbx" "%xmm7") # Mulitply float with scale
(prinst "mulss" "%xmm7" "%xmm0")
(prinst "cvtss2si" "%xmm0" "%rbx") # Convert to integer
(prinl "2:")
(prinst "or" "%rbx" "%rbx") # Negative?
(prinst "js" "3f") # Yes: Skip
(prinst "shl" "$4" "%rbx") # Make positive short
(prinst "orb" "$2" "%bl")
(prinst "jmp" "5f")
(prinl "3:")
(prinst "neg" "%rbx") # Negate
(prinst "js" "4f") # Still negative: Overflow
(prinst "shl" "$4" "%rbx") # Make negative short
(prinst "orb" "$10" "%bl")
(prinst "jmp" "5f")
(prinl "4:") # Infinite/NaN
(prinst "mov" "$Nil" "%rbx") # Preload NIL
(prinst "xorpd" "%xmm7" "%xmm7") # Float value negative?
(prinst "ucomisd" "%xmm7" "%xmm0")
(prinst "jc" "5f") # Yes: Skip
(prinst "mov" "$TSym" "%rbx") # Load T
(prinl "5:") )
(asm float ()
(prinst "mov" "%rax" "%r10") # Normalize scale
(prinst "shr" "$4" "%r10") # Negative?
(prinst "jc" "3f") # Yes: Skip
(prinst "testb" "$0x02" "(%r13)") # Short fixnum?
(prinst "jz" "2f") # No: Skip
(prinst "cvtsi2sd" "%r10" "%xmm7") # Convert scale
(prinst "mov" "(%r13)" "%r10") # Normalize fixnum
(prinst "shr" "$4" "%r10") # Negative?
(prinst "jnc" "1f") # No: Skip
(prinst "neg" "%r10") # Else negate
(prinl "1:")
(prinst "cvtsi2sd" "%r10" "%xmm0") # Convert fixnum to double
(prinst "divsd" "%xmm7" "%xmm0") # Divide by scale
(prinst "jmp" "4f") # Done
(prinl "2:")
(prinst "cmpq" "$Nil" "(%r13)") # Minus infinite?
(prinst "mov" "$0x7FF0000000000000" "%r10")
(prinst "jnz" "1f") # No: Skip
(prinst "mov" "$0xFFF0000000000000" "%r10")
(prinl "1:")
(prinst "push" "%r10")
(prinst "movsd" "(%rsp)" "%xmm0")
(prinst "add" "$8" "%rsp")
(prinst "jmp" "4f") # Done
(prinl "3:")
(prinst "testb" "$0x02" "(%r13)") # Short fixnum?
(prinst "jz" "2f") # No: Skip
(prinst "cvtsi2ss" "%r10" "%xmm7") # Convert scale
(prinst "mov" "(%r13)" "%r10") # Normalize fixnum
(prinst "shr" "$4" "%r10") # Negative?
(prinst "jnc" "1f") # No: Skip
(prinst "neg" "%r10") # Else negate
(prinl "1:")
(prinst "cvtsi2ss" "%r10" "%xmm0") # Convert fixnum to float
(prinst "divss" "%xmm7" "%xmm0") # Divide by scale
(prinst "jmp" "4f") # Done
(prinl "2:")
(prinst "cmpq" "$Nil" "(%r13)") # Minus infinite?
(prinst "mov" "$0x7F800000" "%r10")
(prinst "jnz" "1f")
(prinst "mov" "$0xFF800000" "%r10")
(prinl "1:")
(prinst "push" "%r10")
(prinst "movss" "(%rsp)" "%xmm0")
(prinst "add" "$8" "%rsp")
(prinl "4:") )
(asm std ()
(prinst "movsd" "%xmm0" "(%r15)") )
(asm stf ()
(prinst "movss" "%xmm0" "(%r15)") )
# C-Calls
(asm cc (Adr A Arg M)
(unless (== 'cc (caar (seek '((L) (== (cadr L) *Statement)) *Program)))
(prinst "mov" "%rdx" "%r12") )
(let Reg '("%rdi" "%rsi" "%rdx" "%rcx" "%r8" "%r9")
(if (lst? Arg)
(let Lea NIL
(mapc
'((Src S)
(if (== '& Src)
(on Lea)
(unless (and (=0 S) (= "0" Src)) # Keep for 'xor' later
(setq Src
(src
(recur (Src)
(cond
((= "%rdx" Src) "%r12")
((atom Src) Src)
(T (cons (recurse (car Src)) (recurse (cdr Src)))) ) )
S ) ) )
(cond
((and (=0 S) (= "0" Src))
(prinst "xor" (car Reg) (pop 'Reg)) )
((= "$pop" Src)
(prinst "pop" (pop 'Reg)) )
(T (prinst (if Lea "lea" "mov") Src (pop 'Reg))) )
(off Lea) ) )
(head 6 Arg)
(head 6 M) )
(prinst "push" "%rbp")
(prinst "mov" "%rsp" "%rbp")
(when (nth Arg 7) # Maximally 6 args in registers
(prinst "sub" (pack "$" (* 8 (length @))) "%rsp") )
(prinst "andb" "$~15" "%spl") # Align stack
(let Ofs 0
(mapc # 'Src' not lea or stack-relative here!
'((Src S)
(unless (and (=0 S) (= "0" Src)) # Keep for 'xor' later
(setq Src
(src
(recur (Src)
(cond
((= "%rdx" Src) "%r12")
((atom Src) Src)
(T (cons (recurse (car Src)) (recurse (cdr Src)))) ) )
S ) ) )
(ifn (and (=0 S) (= "0" Src))
(prinst "movq" Src (pack Ofs "(%rsp)"))
(prinst "xor" "%rax" "%rax")
(prinst "movq" "%rax" (pack Ofs "(%rsp)")) )
(inc 'Ofs 8) )
(nth Arg 7)
(nth M 7) ) )
# Don't use SSE registers in varargs for static calls
(when (member Adr '("printf" "fprintf" "snprintf" "open" "fcntl"))
(prinst "xor" "%al" "%al") ) )
(prinst "mov" "%rsp" "%rax") # A on arguments
(prinst "push" "%rbp") # Link
(prinst "mov" "%rsp" "%rbp")
(prinst "mov" Arg "%rbx")
(prinst "sub" "%rax" "%rbx") # Size of arguments
(prinst "sub" "%rbx" "%rsp") # Allocate space
(prinst "andb" "$~15" "%spl") # Align stack
(prinst "mov" "%rsp" "%rbx") # E on stack space
(prinst "lea" "5f(%rip)" "%r11")
(mapc
'((R X)
(prinl "1:")
(prinst "cmp" "%rax" Arg)
(prinst "jz" "9f")
(prinst "mov" "(%rax)" "%r10")
(prinst "add" "$16" "%rax")
(prinst "or" "%r10" "%r10")
(prinst "jz" "7f")
(prinst "call" "*%r11")
(prinst "jmp" "1b")
(prinl "5:")
(unless (= R "%r9")
(prinst "lea" "(5f-5b)(%r11)" "%r11") )
(prinst "shr" "$4" "%r10")
(prinst "jc" "3f")
(prinst "testb" "$0x02" "-8(%rax)")
(prinst "jz" "2f")
(prinst "cvtsi2sd" "%r10" "%xmm7")
(prinst "mov" "-8(%rax)" "%r10")
(prinst "shr" "$4" "%r10")
(prinst "jnc" "1f")
(prinst "neg" "%r10")
(prinl "1:")
(prinst "cvtsi2sd" "%r10" X)
(prinst "divsd" "%xmm7" X)
(prinst "ret")
(prinl "2:")
(prinst "cmpq" "$Nil" "-8(%rax)")
(prinst "mov" "$0x7FF0000000000000" "%r10")
(prinst "jnz" "1f")
(prinst "mov" "$0xFFF0000000000000" "%r10")
(prinl "1:")
(prinst "mov" "%r10" "-8(%rax)")
(prinst "movsd" "-8(%rax)" X)
(prinst "ret")
(prinl "3:")
(prinst "testb" "$0x02" "-8(%rax)")
(prinst "jz" "2f")
(prinst "cvtsi2ss" "%r10" "%xmm7")
(prinst "mov" "-8(%rax)" "%r10")
(prinst "shr" "$4" "%r10")
(prinst "jnc" "1f")
(prinst "neg" "%r10")
(prinl "1:")
(prinst "cvtsi2ss" "%r10" X)
(prinst "divss" "%xmm7" X)
(prinst "ret")
(prinl "2:")
(prinst "cmpq" "$Nil" "-8(%rax)")
(prinst "mov" "$0x7F800000" "%r10")
(prinst "jnz" "1f")
(prinst "mov" "$0xFF800000" "%r10")
(prinl "1:")
(prinst "mov" "%r10" "-8(%rax)")
(prinst "movss" "-8(%rax)" X)
(prinst "ret")
(prinl "7:")
(prinst "mov" "-8(%rax)" R) )
Reg
'("%xmm0" "%xmm1" "%xmm2" "%xmm3" "%xmm4" "%xmm5") )
(prinl "1:")
(prinst "cmp" "%rax" Arg)
(prinst "jz" "9f")
(prinst "mov" "8(%rax)" "%r10")
(prinst "add" "$16" "%rax")
(prinst "mov" "%r10" "(%rbx)")
(prinst "add" "$8" "%rbx")
(prinst "jmp 1b")
(prinl "9:")
# Maximally 6 SSE registers in varargs for dynamic calls
(prinst "mov" "$6" "%al") ) )
((get 'call 'asm) Adr A)
(prinst "mov" "%rbp" "%rsp")
(prinst "pop" "%rbp")
(unless (== 'cc (caadr (memq *Statement *Program)))
(prinst "mov" "%r12" "%rdx")
(prinst "xor" "%r12" "%r12") ) )
(asm func ())
(asm begin ()
(prinst "call" "begin") )
(asm return ()
(prinst "jmp" "return") )
# Stack Manipulations
(asm push (Src S)
(setq Src (src Src S))
(cond
((=T Src) (prinst "pushf"))
((pre? "%" Src) (prinst "push" Src))
(T (prinst "pushq" Src)) ) )
(asm pop (Dst D)
(setq Dst (dst Dst D))
(cond
((=T Dst) (prinst "popf"))
((pre? "%" Dst) (prinst "pop" Dst))
(T (prinst "popq" Dst)) ) )
(asm link ()
(prinst "push" "%rbp")
(prinst "mov" "%rsp" "%rbp") )
(asm tuck (Src S)
(setq Src (src Src S))
(prinst "mov" "(%rsp)" "%rbp")
(if (or (pre? "$" Src) (pre? "%" Src))
(prinst "movq" Src "(%rsp)")
(prinst "mov" Src "%r10")
(prinst "mov" "%r10" "(%rsp)") ) )
(asm drop ()
(prinst "mov" "(%rbp)" "%rsp")
(prinst "pop" "%rbp") )
# Evaluation
(asm eval ()
(prinst "test" "$0x06" "%bl") # Number?
(prinst "jnz" "1f") # Yes: Skip
(prinst "test" "$0x08" "%bl") # Symbol?
(prinst "cmovnzq" "(%rbx)" "%rbx") # Yes: Get value
(prinst "jnz" "1f") # and skip
(prinst "call" (target 'evListE_E)) # Else evaluate list
(prinl "1:") )
(asm eval+ ()
(prinst "test" "$0x06" "%bl") # Number?
(prinst "jnz" "1f") # Yes: Skip
(prinst "test" "$0x08" "%bl") # Symbol?
(prinst "cmovnzq" "(%rbx)" "%rbx") # Yes: Get value
(prinst "jnz" "1f") # and skip
(prinst "push" "%rbp") # Else 'link'
(prinst "mov" "%rsp" "%rbp")
(prinst "call" (target 'evListE_E)) # Evaluate list
(prinst "pop" "%rbp")
(prinl "1:") )
(asm eval/ret ()
(prinst "test" "$0x06" "%bl") # Number?
(prinst "jnz" "ret") # Yes: Return
(prinst "test" "$0x08" "%bl") # Symbol?
(prinst "jz" 'evListE_E) # No: Evaluate list
(prinst "mov" "(%rbx)" "%rbx") # Get value
(prinst "ret") )
(asm exec (Reg)
(prinl "1:") # do
(prinst "mov" # ld E (R)
(pack "(" Reg ")")
"%rbx" )
(prinst "test" "$0x0E" "%bl") # atom E
(prinst "jnz" "2f")
(prinst "call" (target 'evListE_E)) # evList
(prinl "2:")
(prinst "mov" # ld R (R CDR)
(pack "8(" Reg ")")
Reg )
(prinst "testb" # atom R
"$0x0E"
(byteReg Reg) )
(prinst "jz" "1b") ) # until nz
(asm prog (Reg)
(prinl "1:") # do
(prinst "mov" # ld E (R)
(pack "(" Reg ")")
"%rbx" )
(prinst "test" "$0x06" "%bl") # eval
(prinst "jnz" "2f")
(prinst "test" "$0x08" "%bl")
(prinst "cmovnzq" "(%rbx)" "%rbx")
(prinst "jnz" "2f")
(prinst "call" (target 'evListE_E))
(prinl "2:")
(prinst "mov" # ld R (R CDR)
(pack "8(" Reg ")")
Reg )
(prinst "testb" # atom R
"$0x0E"
(byteReg Reg) )
(prinst "jz" "1b") ) # until nz
# System
(asm initData ())
(asm initCode ()
(unless *FPic
(label "begin")
(prinst "pop" "%r10") # Get return address
(prinst "push" "%r15") # Z
(prinst "mov" "%r9" "%r15")
(prinst "push" "%r14") # Y
(prinst "mov" "%r8" "%r14")
(prinst "push" "%r13") # X
(prinst "mov" "%rcx" "%r13")
(prinst "push" "%r12")
(prinst "xor" "%r12" "%r12") # NULL register
(prinst "push" "%rbx")
(prinst "mov" "%rdx" "%rbx") # E
(prinst "mov" "%rsi" "%rdx") # C
(prinst "mov" "%rdi" "%rax") # A
(prinst "jmp" "*%r10") # Return
(prinl)
(label "return")
(prinst "pop" "%rbx")
(prinst "pop" "%r12")
(prinst "pop" "%r13")
(prinst "pop" "%r14")
(prinst "pop" "%r15")
(prinst "ret") ) )
(asm initMain ()
(prinst "xor" "%r12" "%r12") # Init NULL register
(prinst "mov" "(%rsi)" "%r13") # Get command in X
(prinst "lea" "8(%rsi)" "%r14") # argument vector in Y
(prinst "lea" "-8(%rsi,%rdi,8)" "%r15") ) # pointer to last argument in Z
(asm initLib ())
### Optimizer ###
# Replace the the next 'cnt' elements with 'lst'
(de optimize (Lst)) #> (cnt . lst)
### Decoration ###
(de prolog (File))
(de epilog (File))
# vi:et:ts=3:sw=3
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