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Diffstat (limited to 'powerpc/PrintAsm.ml')
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diff --git a/powerpc/PrintAsm.ml b/powerpc/PrintAsm.ml new file mode 100644 index 00000000..0e45c848 --- /dev/null +++ b/powerpc/PrintAsm.ml @@ -0,0 +1,532 @@ +(* *********************************************************************) +(* *) +(* The Compcert verified compiler *) +(* *) +(* Xavier Leroy, INRIA Paris-Rocquencourt *) +(* *) +(* Copyright Institut National de Recherche en Informatique et en *) +(* Automatique. All rights reserved. This file is distributed *) +(* under the terms of the INRIA Non-Commercial License Agreement. *) +(* *) +(* *********************************************************************) + +(* Printing PPC assembly code in asm syntax *) + +open Printf +open Datatypes +open CList +open Camlcoq +open AST +open Asm + +(* On-the-fly label renaming *) + +let next_label = ref 100 + +let new_label() = + let lbl = !next_label in incr next_label; lbl + +let current_function_labels = (Hashtbl.create 39 : (label, int) Hashtbl.t) + +let label_for_label lbl = + try + Hashtbl.find current_function_labels lbl + with Not_found -> + let lbl' = new_label() in + Hashtbl.add current_function_labels lbl lbl'; + lbl' + +(* Record identifiers of external functions *) + +module IdentSet = Set.Make(struct type t = ident let compare = compare end) + +let extfuns = ref IdentSet.empty + +let record_extfun (Coq_pair(name, defn)) = + match defn with + | Internal _ -> () + | External _ -> extfuns := IdentSet.add name !extfuns + +(* Basic printing functions *) + +let print_symb oc symb = + if IdentSet.mem symb !extfuns + then fprintf oc "L%s$stub" (extern_atom symb) + else fprintf oc "_%s" (extern_atom symb) + +let print_label oc lbl = + fprintf oc "L%d" (label_for_label lbl) + +let print_symb_ofs oc (symb, ofs) = + print_symb oc symb; + if ofs <> 0l then fprintf oc " + %ld" ofs + +let print_constant oc = function + | Cint n -> + fprintf oc "%ld" (camlint_of_coqint n) + | Csymbol_low(s, n) -> + fprintf oc "lo16(%a)" print_symb_ofs (s, camlint_of_coqint n) + | Csymbol_high(s, n) -> + fprintf oc "ha16(%a)" print_symb_ofs (s, camlint_of_coqint n) + +let num_crbit = function + | CRbit_0 -> 0 + | CRbit_1 -> 1 + | CRbit_2 -> 2 + | CRbit_3 -> 3 + +let print_crbit oc bit = + fprintf oc "%d" (num_crbit bit) + +let print_coqint oc n = + fprintf oc "%ld" (camlint_of_coqint n) + +let int_reg_name = function + | GPR0 -> "r0" | GPR1 -> "r1" | GPR2 -> "r2" | GPR3 -> "r3" + | GPR4 -> "r4" | GPR5 -> "r5" | GPR6 -> "r6" | GPR7 -> "r7" + | GPR8 -> "r8" | GPR9 -> "r9" | GPR10 -> "r10" | GPR11 -> "r11" + | GPR12 -> "r12" | GPR13 -> "r13" | GPR14 -> "r14" | GPR15 -> "r15" + | GPR16 -> "r16" | GPR17 -> "r17" | GPR18 -> "r18" | GPR19 -> "r19" + | GPR20 -> "r20" | GPR21 -> "r21" | GPR22 -> "r22" | GPR23 -> "r23" + | GPR24 -> "r24" | GPR25 -> "r25" | GPR26 -> "r26" | GPR27 -> "r27" + | GPR28 -> "r28" | GPR29 -> "r29" | GPR30 -> "r30" | GPR31 -> "r31" + +let float_reg_name = function + | FPR0 -> "f0" | FPR1 -> "f1" | FPR2 -> "f2" | FPR3 -> "f3" + | FPR4 -> "f4" | FPR5 -> "f5" | FPR6 -> "f6" | FPR7 -> "f7" + | FPR8 -> "f8" | FPR9 -> "f9" | FPR10 -> "f10" | FPR11 -> "f11" + | FPR12 -> "f12" | FPR13 -> "f13" | FPR14 -> "f14" | FPR15 -> "f15" + | FPR16 -> "f16" | FPR17 -> "f17" | FPR18 -> "f18" | FPR19 -> "f19" + | FPR20 -> "f20" | FPR21 -> "f21" | FPR22 -> "f22" | FPR23 -> "f23" + | FPR24 -> "f24" | FPR25 -> "f25" | FPR26 -> "f26" | FPR27 -> "f27" + | FPR28 -> "f28" | FPR29 -> "f29" | FPR30 -> "f30" | FPR31 -> "f31" + +let ireg oc r = output_string oc (int_reg_name r) +let ireg_or_zero oc r = if r = GPR0 then output_string oc "0" else ireg oc r +let freg oc r = output_string oc (float_reg_name r) + +(* Printing of instructions *) + +module Labelset = Set.Make(struct type t = label let compare = compare end) + +let print_instruction oc labels = function + | Padd(r1, r2, r3) -> + fprintf oc " add %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Paddi(r1, r2, c) -> + fprintf oc " addi %a, %a, %a\n" ireg r1 ireg_or_zero r2 print_constant c + | Paddis(r1, r2, c) -> + fprintf oc " addis %a, %a, %a\n" ireg r1 ireg_or_zero r2 print_constant c + | Paddze(r1, r2) -> + fprintf oc " addze %a, %a\n" ireg r1 ireg r2 + | Pallocblock -> + fprintf oc " bl _compcert_alloc\n" + | Pallocframe(lo, hi, ofs) -> + let lo = camlint_of_coqint lo + and hi = camlint_of_coqint hi + and ofs = camlint_of_coqint ofs in + let sz = Int32.sub hi lo in + (* Keep stack 16-aligned *) + let sz16 = Int32.logand (Int32.add sz 15l) 0xFFFF_FFF0l in + assert (ofs = 0l); + fprintf oc " stwu r1, %ld(r1)\n" (Int32.neg sz16) + | Pand_(r1, r2, r3) -> + fprintf oc " and. %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pandc(r1, r2, r3) -> + fprintf oc " andc %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pandi_(r1, r2, c) -> + fprintf oc " andi. %a, %a, %a\n" ireg r1 ireg r2 print_constant c + | Pandis_(r1, r2, c) -> + fprintf oc " andis. %a, %a, %a\n" ireg r1 ireg r2 print_constant c + | Pb lbl -> + fprintf oc " b %a\n" print_label lbl + | Pbctr -> + fprintf oc " bctr\n" + | Pbctrl -> + fprintf oc " bctrl\n" + | Pbf(bit, lbl) -> + fprintf oc " bf %a, %a\n" print_crbit bit print_label lbl + | Pbl s -> + fprintf oc " bl %a\n" print_symb s + | Pbs s -> + fprintf oc " b %a\n" print_symb s + | Pblr -> + fprintf oc " blr\n" + | Pbt(bit, lbl) -> + fprintf oc " bt %a, %a\n" print_crbit bit print_label lbl + | Pcmplw(r1, r2) -> + fprintf oc " cmplw cr0, %a, %a\n" ireg r1 ireg r2 + | Pcmplwi(r1, c) -> + fprintf oc " cmplwi cr0, %a, %a\n" ireg r1 print_constant c + | Pcmpw(r1, r2) -> + fprintf oc " cmpw cr0, %a, %a\n" ireg r1 ireg r2 + | Pcmpwi(r1, c) -> + fprintf oc " cmpwi cr0, %a, %a\n" ireg r1 print_constant c + | Pcror(c1, c2, c3) -> + fprintf oc " cror %a, %a, %a\n" print_crbit c1 print_crbit c2 print_crbit c3 + | Pdivw(r1, r2, r3) -> + fprintf oc " divw %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pdivwu(r1, r2, r3) -> + fprintf oc " divwu %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Peqv(r1, r2, r3) -> + fprintf oc " eqv %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pextsb(r1, r2) -> + fprintf oc " extsb %a, %a\n" ireg r1 ireg r2 + | Pextsh(r1, r2) -> + fprintf oc " extsh %a, %a\n" ireg r1 ireg r2 + | Pfreeframe ofs -> + fprintf oc " lwz r1, %ld(r1)\n" (camlint_of_coqint ofs) + | Pfabs(r1, r2) -> + fprintf oc " fabs %a, %a\n" freg r1 freg r2 + | Pfadd(r1, r2, r3) -> + fprintf oc " fadd %a, %a, %a\n" freg r1 freg r2 freg r3 + | Pfcmpu(r1, r2) -> + fprintf oc " fcmpu cr0, %a, %a\n" freg r1 freg r2 + | Pfcti(r1, r2) -> + fprintf oc " fctiwz f13, %a\n" freg r2; + fprintf oc " stfd f13, -8(r1)\n"; + fprintf oc " lwz %a, -4(r1)\n" ireg r1 + | Pfctiu(r1, r2) -> + let lbl1 = new_label() in + let lbl2 = new_label() in + let lbl3 = new_label() in + fprintf oc " addis r12, 0, ha16(L%d)\n" lbl1; + fprintf oc " lfd f13, lo16(L%d)(r12)\n" lbl1; + fprintf oc " fcmpu cr7, %a, f13\n" freg r2; + fprintf oc " cror 30, 29, 30\n"; + fprintf oc " beq cr7, L%d\n" lbl2; + fprintf oc " fctiwz f13, %a\n" freg r2; + fprintf oc " stfdu f13, -8(r1)\n"; + fprintf oc " lwz %a, 4(r1)\n" ireg r1; + fprintf oc " b L%d\n" lbl3; + fprintf oc "L%d: fsub f13, %a, f13\n" lbl2 freg r2; + fprintf oc " fctiwz f13, f13\n"; + fprintf oc " stfdu f13, -8(r1)\n"; + fprintf oc " lwz %a, 4(r1)\n" ireg r1; + fprintf oc " addis %a, %a, 0x8000\n" ireg r1 ireg r1; + fprintf oc "L%d: addi r1, r1, 8\n" lbl3; + fprintf oc " .const_data\n"; + fprintf oc "L%d: .long 0x41e00000, 0x00000000\n" lbl1; + fprintf oc " .text\n" + | Pfdiv(r1, r2, r3) -> + fprintf oc " fdiv %a, %a, %a\n" freg r1 freg r2 freg r3 + | Pfmadd(r1, r2, r3, r4) -> + fprintf oc " fmadd %a, %a, %a, %a\n" freg r1 freg r2 freg r3 freg r4 + | Pfmr(r1, r2) -> + fprintf oc " fmr %a, %a\n" freg r1 freg r2 + | Pfmsub(r1, r2, r3, r4) -> + fprintf oc " fmsub %a, %a, %a, %a\n" freg r1 freg r2 freg r3 freg r4 + | Pfmul(r1, r2, r3) -> + fprintf oc " fmul %a, %a, %a\n" freg r1 freg r2 freg r3 + | Pfneg(r1, r2) -> + fprintf oc " fneg %a, %a\n" freg r1 freg r2 + | Pfrsp(r1, r2) -> + fprintf oc " frsp %a, %a\n" freg r1 freg r2 + | Pfsub(r1, r2, r3) -> + fprintf oc " fsub %a, %a, %a\n" freg r1 freg r2 freg r3 + | Pictf(r1, r2) -> + let lbl = new_label() in + fprintf oc " addis r12, 0, 0x4330\n"; + fprintf oc " stw r12, -8(r1)\n"; + fprintf oc " addis r12, %a, 0x8000\n" ireg r2; + fprintf oc " stw r12, -4(r1)\n"; + fprintf oc " addis r12, 0, ha16(L%d)\n" lbl; + fprintf oc " lfd f13, lo16(L%d)(r12)\n" lbl; + fprintf oc " lfd %a, -8(r1)\n" freg r1; + fprintf oc " fsub %a, %a, f13\n" freg r1 freg r1; + fprintf oc " .const_data\n"; + fprintf oc "L%d: .long 0x43300000, 0x80000000\n" lbl; + fprintf oc " .text\n" + | Piuctf(r1, r2) -> + let lbl = new_label() in + fprintf oc " addis r12, 0, 0x4330\n"; + fprintf oc " stw r12, -8(r1)\n"; + fprintf oc " stw %a, -4(r1)\n" ireg r2; + fprintf oc " addis r12, 0, ha16(L%d)\n" lbl; + fprintf oc " lfd f13, lo16(L%d)(r12)\n" lbl; + fprintf oc " lfd %a, -8(r1)\n" freg r1; + fprintf oc " fsub %a, %a, f13\n" freg r1 freg r1; + fprintf oc " .const_data\n"; + fprintf oc "L%d: .long 0x43300000, 0x00000000\n" lbl; + fprintf oc " .text\n" + | Plbz(r1, c, r2) -> + fprintf oc " lbz %a, %a(%a)\n" ireg r1 print_constant c ireg r2 + | Plbzx(r1, r2, r3) -> + fprintf oc " lbzx %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Plfd(r1, c, r2) -> + fprintf oc " lfd %a, %a(%a)\n" freg r1 print_constant c ireg r2 + | Plfdx(r1, r2, r3) -> + fprintf oc " lfdx %a, %a, %a\n" freg r1 ireg r2 ireg r3 + | Plfi(r1, c) -> + let lbl = new_label() in + fprintf oc " addis r12, 0, ha16(L%d)\n" lbl; + fprintf oc " lfd %a, lo16(L%d)(r12)\n" freg r1 lbl; + fprintf oc " .const_data\n"; + let n = Int64.bits_of_float c in + let nlo = Int64.to_int32 n + and nhi = Int64.to_int32(Int64.shift_right_logical n 32) in + fprintf oc "L%d: .long 0x%lx, 0x%lx ; %f\n" lbl nhi nlo c; + fprintf oc " .text\n" + | Plfs(r1, c, r2) -> + fprintf oc " lfs %a, %a(%a)\n" freg r1 print_constant c ireg r2 + | Plfsx(r1, r2, r3) -> + fprintf oc " lfsx %a, %a, %a\n" freg r1 ireg r2 ireg r3 + | Plha(r1, c, r2) -> + fprintf oc " lha %a, %a(%a)\n" ireg r1 print_constant c ireg r2 + | Plhax(r1, r2, r3) -> + fprintf oc " lhax %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Plhz(r1, c, r2) -> + fprintf oc " lhz %a, %a(%a)\n" ireg r1 print_constant c ireg r2 + | Plhzx(r1, r2, r3) -> + fprintf oc " lhzx %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Plwz(r1, c, r2) -> + fprintf oc " lwz %a, %a(%a)\n" ireg r1 print_constant c ireg r2 + | Plwzx(r1, r2, r3) -> + fprintf oc " lwzx %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pmfcrbit(r1, bit) -> + fprintf oc " mfcr r2\n"; + fprintf oc " rlwinm %a, r2, %d, 1\n" ireg r1 (1 + num_crbit bit) + | Pmflr(r1) -> + fprintf oc " mflr %a\n" ireg r1 + | Pmr(r1, r2) -> + fprintf oc " mr %a, %a\n" ireg r1 ireg r2 + | Pmtctr(r1) -> + fprintf oc " mtctr %a\n" ireg r1 + | Pmtlr(r1) -> + fprintf oc " mtlr %a\n" ireg r1 + | Pmulli(r1, r2, c) -> + fprintf oc " mulli %a, %a, %a\n" ireg r1 ireg r2 print_constant c + | Pmullw(r1, r2, r3) -> + fprintf oc " mullw %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pnand(r1, r2, r3) -> + fprintf oc " nand %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pnor(r1, r2, r3) -> + fprintf oc " nor %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Por(r1, r2, r3) -> + fprintf oc " or %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Porc(r1, r2, r3) -> + fprintf oc " orc %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pori(r1, r2, c) -> + fprintf oc " ori %a, %a, %a\n" ireg r1 ireg r2 print_constant c + | Poris(r1, r2, c) -> + fprintf oc " oris %a, %a, %a\n" ireg r1 ireg r2 print_constant c + | Prlwinm(r1, r2, c1, c2) -> + fprintf oc " rlwinm %a, %a, %ld, 0x%lx\n" + ireg r1 ireg r2 (camlint_of_coqint c1) (camlint_of_coqint c2) + | Pslw(r1, r2, r3) -> + fprintf oc " slw %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Psraw(r1, r2, r3) -> + fprintf oc " sraw %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Psrawi(r1, r2, c) -> + fprintf oc " srawi %a, %a, %ld\n" ireg r1 ireg r2 (camlint_of_coqint c) + | Psrw(r1, r2, r3) -> + fprintf oc " srw %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pstb(r1, c, r2) -> + fprintf oc " stb %a, %a(%a)\n" ireg r1 print_constant c ireg r2 + | Pstbx(r1, r2, r3) -> + fprintf oc " stbx %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pstfd(r1, c, r2) -> + fprintf oc " stfd %a, %a(%a)\n" freg r1 print_constant c ireg r2 + | Pstfdx(r1, r2, r3) -> + fprintf oc " stfdx %a, %a, %a\n" freg r1 ireg r2 ireg r3 + | Pstfs(r1, c, r2) -> + fprintf oc " stfs %a, %a(%a)\n" freg r1 print_constant c ireg r2 + | Pstfsx(r1, r2, r3) -> + fprintf oc " stfsx %a, %a, %a\n" freg r1 ireg r2 ireg r3 + | Psth(r1, c, r2) -> + fprintf oc " sth %a, %a(%a)\n" ireg r1 print_constant c ireg r2 + | Psthx(r1, r2, r3) -> + fprintf oc " sthx %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pstw(r1, c, r2) -> + fprintf oc " stw %a, %a(%a)\n" ireg r1 print_constant c ireg r2 + | Pstwx(r1, r2, r3) -> + fprintf oc " stwx %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Psubfc(r1, r2, r3) -> + fprintf oc " subfc %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Psubfic(r1, r2, c) -> + fprintf oc " subfic %a, %a, %a\n" ireg r1 ireg r2 print_constant c + | Pxor(r1, r2, r3) -> + fprintf oc " xor %a, %a, %a\n" ireg r1 ireg r2 ireg r3 + | Pxori(r1, r2, c) -> + fprintf oc " xori %a, %a, %a\n" ireg r1 ireg r2 print_constant c + | Pxoris(r1, r2, c) -> + fprintf oc " xoris %a, %a, %a\n" ireg r1 ireg r2 print_constant c + | Plabel lbl -> + if Labelset.mem lbl labels then fprintf oc "%a:\n" print_label lbl + +let rec labels_of_code = function + | [] -> Labelset.empty + | (Pb lbl | Pbf(_, lbl) | Pbt(_, lbl)) :: c -> + Labelset.add lbl (labels_of_code c) + | _ :: c -> labels_of_code c + +let print_function oc name code = + Hashtbl.clear current_function_labels; + fprintf oc " .text\n"; + fprintf oc " .align 2\n"; + fprintf oc " .globl %a\n" print_symb name; + fprintf oc "%a:\n" print_symb name; + List.iter (print_instruction oc (labels_of_code code)) code + +(* Generation of stub code for variadic functions, e.g. printf. + Calling conventions for variadic functions are: + - always reserve 8 stack words (offsets 24 to 52) so that the + variadic function can save there the integer registers parameters + r3 ... r10 + - treat float arguments as pairs of integers, i.e. if we + must pass them in registers, use a pair of integer registers + for this purpose. + The code we generate is: + - allocate large enough stack frame + - save return address + - copy our arguments (registers and stack) to the stack frame, + starting at offset 24 + - load relevant integer parameter registers r3...r10 from the + stack frame, limited by the actual number of arguments + - call the variadic thing + - deallocate stack frame and return +*) + +let variadic_stub oc stub_name fun_name ty_args = + (* Compute total size of arguments *) + let arg_size = + CList.fold_left + (fun sz ty -> match ty with Tint -> sz + 4 | Tfloat -> sz + 8) + ty_args 0 in + (* Stack size is linkage area + argument size, with a minimum of 56 bytes *) + let frame_size = max 56 (24 + arg_size) in + fprintf oc " mflr r0\n"; + fprintf oc " stwu r1, %d(r1)\n" (-frame_size); + fprintf oc " stw r0, %d(r1)\n" (frame_size + 4); + (* Copy our parameters to our stack frame. + As an optimization, don't copy parameters that are already in + integer registers, since these stay in place. *) + let rec copy gpr fpr src_ofs dst_ofs = function + | [] -> () + | Tint :: rem -> + if gpr > 10 then begin + fprintf oc " lwz r0, %d(r1)\n" src_ofs; + fprintf oc " stw r0, %d(r1)\n" dst_ofs + end; + copy (gpr + 1) fpr (src_ofs + 4) (dst_ofs + 4) rem + | Tfloat :: rem -> + if fpr <= 10 then begin + fprintf oc " stfd f%d, %d(r1)\n" fpr dst_ofs + end else begin + fprintf oc " lfd f0, %d(r1)\n" src_ofs; + fprintf oc " stfd f0, %d(r1)\n" dst_ofs + end; + copy (gpr + 2) (fpr + 1) (src_ofs + 8) (dst_ofs + 8) rem + in copy 3 1 (frame_size + 24) 24 ty_args; + (* Load the first parameters into integer registers. + As an optimization, don't load parameters that are already + in the correct integer registers. *) + let rec load gpr ofs = function + | [] -> () + | Tint :: rem -> + load (gpr + 1) (ofs + 4) rem + | Tfloat :: rem -> + if gpr <= 10 then + fprintf oc " lwz r%d, %d(r1)\n" gpr ofs; + if gpr + 1 <= 10 then + fprintf oc " lwz r%d, %d(r1)\n" (gpr + 1) (ofs + 4); + load (gpr + 2) (ofs + 8) rem + in load 3 24 ty_args; + (* Call the function *) + fprintf oc " addis r11, 0, ha16(L%s$ptr)\n" stub_name; + fprintf oc " lwz r11, lo16(L%s$ptr)(r11)\n" stub_name; + fprintf oc " mtctr r11\n"; + fprintf oc " bctrl\n"; + (* Free our frame and return *) + fprintf oc " lwz r0, %d(r1)\n" (frame_size + 4); + fprintf oc " mtlr r0\n"; + fprintf oc " addi r1, r1, %d\n" frame_size; + fprintf oc " blr\n"; + (* The function pointer *) + fprintf oc " .non_lazy_symbol_pointer\n"; + fprintf oc "L%s$ptr:\n" stub_name; + fprintf oc " .indirect_symbol _%s\n" fun_name; + fprintf oc " .long 0\n" + +(* Stubs for fixed-type functions are much simpler *) + +let non_variadic_stub oc name = + fprintf oc " addis r11, 0, ha16(L%s$ptr)\n" name; + fprintf oc " lwz r11, lo16(L%s$ptr)(r11)\n" name; + fprintf oc " mtctr r11\n"; + fprintf oc " bctr\n"; + fprintf oc " .non_lazy_symbol_pointer\n"; + fprintf oc "L%s$ptr:\n" name; + fprintf oc " .indirect_symbol _%s\n" name; + fprintf oc " .long 0\n" + +let re_variadic_stub = Str.regexp "\\(.*\\)\\$[if]*$" + +let print_external_function oc name ef = + let name = extern_atom name in + fprintf oc " .text\n"; + fprintf oc " .align 2\n"; + fprintf oc "L%s$stub:\n" name; + if Str.string_match re_variadic_stub name 0 + then variadic_stub oc name (Str.matched_group 1 name) ef.ef_sig.sig_args + else non_variadic_stub oc name + +let print_fundef oc (Coq_pair(name, defn)) = + match defn with + | Internal code -> print_function oc name code + | External ef -> print_external_function oc name ef + +let init_data_queue = ref [] + +let print_init oc = function + | Init_int8 n -> + fprintf oc " .byte %ld\n" (camlint_of_coqint n) + | Init_int16 n -> + fprintf oc " .short %ld\n" (camlint_of_coqint n) + | Init_int32 n -> + fprintf oc " .long %ld\n" (camlint_of_coqint n) + | Init_float32 n -> + fprintf oc " .long %ld ; %g \n" (Int32.bits_of_float n) n + | Init_float64 n -> + (* .quad not working on all versions of the MacOSX assembler *) + let b = Int64.bits_of_float n in + fprintf oc " .long %Ld, %Ld ; %g \n" + (Int64.shift_right_logical b 32) + (Int64.logand b 0xFFFFFFFFL) + n + | Init_space n -> + let n = camlint_of_z n in + if n > 0l then fprintf oc " .space %ld\n" n + | Init_pointer id -> + let lbl = new_label() in + fprintf oc " .long L%d\n" lbl; + init_data_queue := (lbl, id) :: !init_data_queue + +let print_init_data oc id = + init_data_queue := []; + List.iter (print_init oc) id; + let rec print_remainder () = + match !init_data_queue with + | [] -> () + | (lbl, id) :: rem -> + init_data_queue := rem; + fprintf oc "L%d:\n" lbl; + List.iter (print_init oc) id; + print_remainder() + in print_remainder() + +let print_var oc (Coq_pair(Coq_pair(name, init_data), _)) = + match init_data with + | [] -> () + | _ -> + fprintf oc " .data\n"; + fprintf oc " .align 3\n"; + fprintf oc " .globl %a\n" print_symb name; + fprintf oc "%a:\n" print_symb name; + print_init_data oc init_data + +let print_program oc p = + extfuns := IdentSet.empty; + List.iter record_extfun p.prog_funct; + List.iter (print_var oc) p.prog_vars; + List.iter (print_fundef oc) p.prog_funct + |