(* *********************************************************************) (* *) (* The Compcert verified compiler *) (* *) (* Xavier Leroy, INRIA Paris-Rocquencourt *) (* Prashanth Mundkur, SRI International *) (* *) (* 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. *) (* *) (* The contributions by Prashanth Mundkur are reused and adapted *) (* under the terms of a Contributor License Agreement between *) (* SRI International and INRIA. *) (* *) (* *********************************************************************) (** Pretty-printing of operators, conditions, addressing modes *) open Printf open Camlcoq open Integers open Op let comparison_name = function | Ceq -> "==" | Cne -> "!=" | Clt -> "<" | Cle -> "<=" | Cgt -> ">" | Cge -> ">=" let print_condition reg pp = function | (Ccomp c, [r1;r2]) -> fprintf pp "%a %ss %a" reg r1 (comparison_name c) reg r2 | (Ccompu c, [r1;r2]) -> fprintf pp "%a %su %a" reg r1 (comparison_name c) reg r2 | (Ccompimm(c, n), [r1]) -> fprintf pp "%a %ss %ld" reg r1 (comparison_name c) (camlint_of_coqint n) | (Ccompuimm(c, n), [r1]) -> fprintf pp "%a %su %ld" reg r1 (comparison_name c) (camlint_of_coqint n) | (Ccompf c, [r1;r2]) -> fprintf pp "%a %sf %a" reg r1 (comparison_name c) reg r2 | (Ccompl c, [r1;r2]) -> fprintf pp "%a %sls %a" reg r1 (comparison_name c) reg r2 | (Ccomplu c, [r1;r2]) -> fprintf pp "%a %slu %a" reg r1 (comparison_name c) reg r2 | (Ccomplimm(c, n), [r1]) -> fprintf pp "%a %sls %Ld" reg r1 (comparison_name c) (camlint64_of_coqint n) | (Ccompluimm(c, n), [r1]) -> fprintf pp "%a %slu %Lu" reg r1 (comparison_name c) (camlint64_of_coqint n) | (Cnotcompf c, [r1;r2]) -> fprintf pp "%a not(%sf) %a" reg r1 (comparison_name c) reg r2 | (Ccompfs c, [r1;r2]) -> fprintf pp "%a %sfs %a" reg r1 (comparison_name c) reg r2 | (Cnotcompfs c, [r1;r2]) -> fprintf pp "%a not(%sfs) %a" reg r1 (comparison_name c) reg r2 | _ -> fprintf pp "" let print_operation reg pp = function | Omove, [r1] -> reg pp r1 | Ointconst n, [] -> fprintf pp "%ld" (camlint_of_coqint n) | Olongconst n, [] -> fprintf pp "%LdL" (camlint64_of_coqint n) | Ofloatconst n, [] -> fprintf pp "%F" (camlfloat_of_coqfloat n) | Osingleconst n, [] -> fprintf pp "%Ff" (camlfloat_of_coqfloat32 n) | Oaddrsymbol(id, ofs), [] -> fprintf pp "\"%s\" + %Ld" (extern_atom id) (camlint64_of_ptrofs ofs) | Oaddrstack ofs, [] -> fprintf pp "stack(%Ld)" (camlint64_of_ptrofs ofs) | Ocast8signed, [r1] -> fprintf pp "int8signed(%a)" reg r1 | Ocast16signed, [r1] -> fprintf pp "int16signed(%a)" reg r1 | Oadd, [r1;r2] -> fprintf pp "%a + %a" reg r1 reg r2 | Oaddimm n, [r1] -> fprintf pp "%a + %ld" reg r1 (camlint_of_coqint n) | Oneg, [r1] -> fprintf pp "-(%a)" reg r1 | Osub, [r1;r2] -> fprintf pp "%a - %a" reg r1 reg r2 | Omul, [r1;r2] -> fprintf pp "%a * %a" reg r1 reg r2 | Omulhs, [r1;r2] -> fprintf pp "%a *hs %a" reg r1 reg r2 | Omulhu, [r1;r2] -> fprintf pp "%a *hu %a" reg r1 reg r2 | Odiv, [r1;r2] -> fprintf pp "%a /s %a" reg r1 reg r2 | Odivu, [r1;r2] -> fprintf pp "%a /u %a" reg r1 reg r2 | Omod, [r1;r2] -> fprintf pp "%a %%s %a" reg r1 reg r2 | Omodu, [r1;r2] -> fprintf pp "%a %%u %a" reg r1 reg r2 | Oand, [r1;r2] -> fprintf pp "%a & %a" reg r1 reg r2 | Oandimm n, [r1] -> fprintf pp "%a & %ld" reg r1 (camlint_of_coqint n) | Oor, [r1;r2] -> fprintf pp "%a | %a" reg r1 reg r2 | Oorimm n, [r1] -> fprintf pp "%a | %ld" reg r1 (camlint_of_coqint n) | Oxor, [r1;r2] -> fprintf pp "%a ^ %a" reg r1 reg r2 | Oxorimm n, [r1] -> fprintf pp "%a ^ %ld" reg r1 (camlint_of_coqint n) | Oshl, [r1;r2] -> fprintf pp "%a << %a" reg r1 reg r2 | Oshlimm n, [r1] -> fprintf pp "%a << %ld" reg r1 (camlint_of_coqint n) | Oshr, [r1;r2] -> fprintf pp "%a >>s %a" reg r1 reg r2 | Oshrimm n, [r1] -> fprintf pp "%a >>s %ld" reg r1 (camlint_of_coqint n) | Oshru, [r1;r2] -> fprintf pp "%a >>u %a" reg r1 reg r2 | Oshruimm n, [r1] -> fprintf pp "%a >>u %ld" reg r1 (camlint_of_coqint n) | Oshrximm n, [r1] -> fprintf pp "%a >>x %ld" reg r1 (camlint_of_coqint n) | Omakelong, [r1;r2] -> fprintf pp "makelong(%a,%a)" reg r1 reg r2 | Olowlong, [r1] -> fprintf pp "lowlong(%a)" reg r1 | Ohighlong, [r1] -> fprintf pp "highlong(%a)" reg r1 | Ocast32signed, [r1] -> fprintf pp "long32signed(%a)" reg r1 | Ocast32unsigned, [r1] -> fprintf pp "long32unsigned(%a)" reg r1 | Oaddl, [r1;r2] -> fprintf pp "%a +l %a" reg r1 reg r2 | Oaddlimm n, [r1] -> fprintf pp "%a +l %Ld" reg r1 (camlint64_of_coqint n) | Onegl, [r1] -> fprintf pp "-l (%a)" reg r1 | Osubl, [r1;r2] -> fprintf pp "%a -l %a" reg r1 reg r2 | Omull, [r1;r2] -> fprintf pp "%a *l %a" reg r1 reg r2 | Omullhs, [r1;r2] -> fprintf pp "%a *lhs %a" reg r1 reg r2 | Omullhu, [r1;r2] -> fprintf pp "%a *lhu %a" reg r1 reg r2 | Odivl, [r1;r2] -> fprintf pp "%a /ls %a" reg r1 reg r2 | Odivlu, [r1;r2] -> fprintf pp "%a /lu %a" reg r1 reg r2 | Omodl, [r1;r2] -> fprintf pp "%a %%ls %a" reg r1 reg r2 | Omodlu, [r1;r2] -> fprintf pp "%a %%lu %a" reg r1 reg r2 | Oandl, [r1;r2] -> fprintf pp "%a &l %a" reg r1 reg r2 | Oandlimm n, [r1] -> fprintf pp "%a &l %Ld" reg r1 (camlint64_of_coqint n) | Oorl, [r1;r2] -> fprintf pp "%a |l %a" reg r1 reg r2 | Oorlimm n, [r1] -> fprintf pp "%a |l %Ld" reg r1 (camlint64_of_coqint n) | Oxorl, [r1;r2] -> fprintf pp "%a ^l %a" reg r1 reg r2 | Oxorlimm n, [r1] -> fprintf pp "%a ^l %Ld" reg r1 (camlint64_of_coqint n) | Oshll, [r1;r2] -> fprintf pp "%a < fprintf pp "%a < fprintf pp "%a >>ls %a" reg r1 reg r2 | Oshrlimm n, [r1] -> fprintf pp "%a >>ls %ld" reg r1 (camlint_of_coqint n) | Oshrlu, [r1;r2] -> fprintf pp "%a >>lu %a" reg r1 reg r2 | Oshrluimm n, [r1] -> fprintf pp "%a >>lu %ld" reg r1 (camlint_of_coqint n) | Oshrxlimm n, [r1] -> fprintf pp "%a >>lx %ld" reg r1 (camlint_of_coqint n) | Onegf, [r1] -> fprintf pp "negf(%a)" reg r1 | Oabsf, [r1] -> fprintf pp "absf(%a)" reg r1 | Oaddf, [r1;r2] -> fprintf pp "%a +f %a" reg r1 reg r2 | Osubf, [r1;r2] -> fprintf pp "%a -f %a" reg r1 reg r2 | Omulf, [r1;r2] -> fprintf pp "%a *f %a" reg r1 reg r2 | Odivf, [r1;r2] -> fprintf pp "%a /f %a" reg r1 reg r2 | Onegfs, [r1] -> fprintf pp "negfs(%a)" reg r1 | Oabsfs, [r1] -> fprintf pp "absfs(%a)" reg r1 | Oaddfs, [r1;r2] -> fprintf pp "%a +fs %a" reg r1 reg r2 | Osubfs, [r1;r2] -> fprintf pp "%a -fs %a" reg r1 reg r2 | Omulfs, [r1;r2] -> fprintf pp "%a *fs %a" reg r1 reg r2 | Odivfs, [r1;r2] -> fprintf pp "%a /fs %a" reg r1 reg r2 | Osingleoffloat, [r1] -> fprintf pp "singleoffloat(%a)" reg r1 | Ofloatofsingle, [r1] -> fprintf pp "floatofsingle(%a)" reg r1 | Ointoffloat, [r1] -> fprintf pp "intoffloat(%a)" reg r1 | Ointuoffloat, [r1] -> fprintf pp "intuoffloat(%a)" reg r1 | Ofloatofint, [r1] -> fprintf pp "floatofint(%a)" reg r1 | Ofloatofintu, [r1] -> fprintf pp "floatofintu(%a)" reg r1 | Olongoffloat, [r1] -> fprintf pp "longoffloat(%a)" reg r1 | Olonguoffloat, [r1] -> fprintf pp "longuoffloat(%a)" reg r1 | Ofloatoflong, [r1] -> fprintf pp "floatoflong(%a)" reg r1 | Ofloatoflongu, [r1] -> fprintf pp "floatoflongu(%a)" reg r1 | Ointofsingle, [r1] -> fprintf pp "intofsingle(%a)" reg r1 | Ointuofsingle, [r1] -> fprintf pp "intuofsingle(%a)" reg r1 | Osingleofint, [r1] -> fprintf pp "singleofint(%a)" reg r1 | Osingleofintu, [r1] -> fprintf pp "singleofintu(%a)" reg r1 | Olongofsingle, [r1] -> fprintf pp "longofsingle(%a)" reg r1 | Olonguofsingle, [r1] -> fprintf pp "longuofsingle(%a)" reg r1 | Osingleoflong, [r1] -> fprintf pp "singleoflong(%a)" reg r1 | Osingleoflongu, [r1] -> fprintf pp "singleoflongu(%a)" reg r1 | Ocmp c, args -> print_condition reg pp (c, args) | _ -> fprintf pp "" let print_addressing reg pp = function | Aindexed n, [r1] -> fprintf pp "%a + %Ld" reg r1 (camlint64_of_ptrofs n) | Aglobal(id, ofs), [] -> fprintf pp "\"%s\" + %Ld" (extern_atom id) (camlint64_of_ptrofs ofs) | Ainstack ofs, [] -> fprintf pp "stack(%Ld)" (camlint64_of_ptrofs ofs) | _ -> fprintf pp ""