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|
(**************************************************************************)
(* *)
(* OCaml *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1996 Institut National de Recherche en Informatique et *)
(* en Automatique. *)
(* *)
(* All rights reserved. This file is distributed under the terms of *)
(* the GNU Lesser General Public License version 2.1, with the *)
(* special exception on linking described in the file LICENSE. *)
(* *)
(**************************************************************************)
(* From lambda to assembly code *)
[@@@ocaml.warning "+a-4-9-40-41-42"]
open Format
open Config
open Clflags
open Misc
open Cmm
type error = Assembler_error of string
exception Error of error
let liveness ppf phrase =
Liveness.fundecl ppf phrase; phrase
let dump_if ppf flag message phrase =
if !flag then Printmach.phase message ppf phrase
let pass_dump_if ppf flag message phrase =
dump_if ppf flag message phrase; phrase
let pass_dump_linear_if ppf flag message phrase =
if !flag then fprintf ppf "*** %s@.%a@." message Printlinear.fundecl phrase;
phrase
let flambda_raw_clambda_dump_if ppf
({ Flambda_to_clambda. expr = ulambda; preallocated_blocks = _;
structured_constants; exported = _; } as input) =
if !dump_rawclambda then
begin
Format.fprintf ppf "@.clambda (before Un_anf):@.";
Printclambda.clambda ppf ulambda;
Symbol.Map.iter (fun sym cst ->
Format.fprintf ppf "%a:@ %a@."
Symbol.print sym
Printclambda.structured_constant cst)
structured_constants
end;
if !dump_cmm then Format.fprintf ppf "@.cmm:@.";
input
type clambda_and_constants =
Clambda.ulambda *
Clambda.preallocated_block list *
Clambda.preallocated_constant list
let raw_clambda_dump_if ppf
((ulambda, _, structured_constants):clambda_and_constants) =
if !dump_rawclambda then
begin
Format.fprintf ppf "@.clambda (before Un_anf):@.";
Printclambda.clambda ppf ulambda;
List.iter (fun {Clambda.symbol; definition} ->
Format.fprintf ppf "%s:@ %a@."
symbol
Printclambda.structured_constant definition)
structured_constants
end;
if !dump_cmm then Format.fprintf ppf "@.cmm:@."
let rec regalloc ppf round fd =
if round > 50 then
fatal_error(fd.Mach.fun_name ^
": function too complex, cannot complete register allocation");
dump_if ppf dump_live "Liveness analysis" fd;
Interf.build_graph fd;
if !dump_interf then Printmach.interferences ppf ();
if !dump_prefer then Printmach.preferences ppf ();
Coloring.allocate_registers();
dump_if ppf dump_regalloc "After register allocation" fd;
let (newfd, redo_regalloc) = Reload.fundecl fd in
dump_if ppf dump_reload "After insertion of reloading code" newfd;
if redo_regalloc then begin
Reg.reinit(); Liveness.fundecl ppf newfd; regalloc ppf (round + 1) newfd
end else newfd
let (++) x f = f x
let compile_fundecl (ppf : formatter) fd_cmm =
Proc.init ();
Reg.reset();
let build = Compilenv.current_build () in
fd_cmm
++ Timings.(accumulate_time (Selection build)) Selection.fundecl
++ pass_dump_if ppf dump_selection "After instruction selection"
++ Timings.(accumulate_time (Comballoc build)) Comballoc.fundecl
++ pass_dump_if ppf dump_combine "After allocation combining"
++ Timings.(accumulate_time (CSE build)) CSE.fundecl
++ pass_dump_if ppf dump_cse "After CSE"
++ Timings.(accumulate_time (Liveness build)) (liveness ppf)
++ Timings.(accumulate_time (Deadcode build)) Deadcode.fundecl
++ pass_dump_if ppf dump_live "Liveness analysis"
++ Timings.(accumulate_time (Spill build)) Spill.fundecl
++ Timings.(accumulate_time (Liveness build)) (liveness ppf)
++ pass_dump_if ppf dump_spill "After spilling"
++ Timings.(accumulate_time (Split build)) Split.fundecl
++ pass_dump_if ppf dump_split "After live range splitting"
++ Timings.(accumulate_time (Liveness build)) (liveness ppf)
++ Timings.(accumulate_time (Regalloc build)) (regalloc ppf 1)
++ Timings.(accumulate_time (Linearize build)) Linearize.fundecl
++ pass_dump_linear_if ppf dump_linear "Linearized code"
++ Timings.(accumulate_time (Scheduling build)) Scheduling.fundecl
++ pass_dump_linear_if ppf dump_scheduling "After instruction scheduling"
++ Timings.(accumulate_time (Emit build)) Emit.fundecl
let compile_phrase ppf p =
if !dump_cmm then fprintf ppf "%a@." Printcmm.phrase p;
match p with
| Cfunction fd -> compile_fundecl ppf fd
| Cdata dl -> Emit.data dl
(* For the native toplevel: generates generic functions unless
they are already available in the process *)
let compile_genfuns ppf f =
List.iter
(function
| (Cfunction {fun_name = name}) as ph when f name ->
compile_phrase ppf ph
| _ -> ())
(Cmmgen.generic_functions true [Compilenv.current_unit_infos ()])
let compile_unit ~source_provenance _output_prefix asm_filename keep_asm
obj_filename gen =
let create_asm = keep_asm || not !Emitaux.binary_backend_available in
Emitaux.create_asm_file := create_asm;
try
if create_asm then Emitaux.output_channel := open_out asm_filename;
begin try
gen ();
if create_asm then close_out !Emitaux.output_channel;
with exn when create_asm ->
close_out !Emitaux.output_channel;
if not keep_asm then remove_file asm_filename;
raise exn
end;
let assemble_result =
Timings.(time (Assemble source_provenance))
(Proc.assemble_file asm_filename) obj_filename
in
if assemble_result <> 0
then raise(Error(Assembler_error asm_filename));
if create_asm && not keep_asm then remove_file asm_filename
with exn ->
remove_file obj_filename;
raise exn
let set_export_info (ulambda, prealloc, structured_constants, export) =
Compilenv.set_export_info export;
(ulambda, prealloc, structured_constants)
let end_gen_implementation ?toplevel ~source_provenance ppf
(clambda:clambda_and_constants) =
Emit.begin_assembly ();
clambda
++ Timings.(time (Cmm source_provenance)) Cmmgen.compunit
++ Timings.(time (Compile_phrases source_provenance))
(List.iter (compile_phrase ppf))
++ (fun () -> ());
(match toplevel with None -> () | Some f -> compile_genfuns ppf f);
(* We add explicit references to external primitive symbols. This
is to ensure that the object files that define these symbols,
when part of a C library, won't be discarded by the linker.
This is important if a module that uses such a symbol is later
dynlinked. *)
compile_phrase ppf
(Cmmgen.reference_symbols
(List.filter (fun s -> s <> "" && s.[0] <> '%')
(List.map Primitive.native_name !Translmod.primitive_declarations))
);
Emit.end_assembly ()
let flambda_gen_implementation ?toplevel ~source_provenance ~backend ppf
(program:Flambda.program) =
let export = Build_export_info.build_export_info ~backend program in
let (clambda, preallocated, constants) =
Timings.time (Flambda_pass ("backend", source_provenance)) (fun () ->
(program, export)
++ Flambda_to_clambda.convert
++ flambda_raw_clambda_dump_if ppf
++ (fun { Flambda_to_clambda. expr; preallocated_blocks;
structured_constants; exported; } ->
(* "init_code" following the name used in
[Cmmgen.compunit_and_constants]. *)
Un_anf.apply expr ~what:"init_code", preallocated_blocks,
structured_constants, exported)
++ set_export_info) ()
in
let constants =
List.map (fun (symbol, definition) ->
{ Clambda.symbol = Linkage_name.to_string (Symbol.label symbol);
exported = true;
definition })
(Symbol.Map.bindings constants)
in
end_gen_implementation ?toplevel ~source_provenance ppf
(clambda, preallocated, constants)
let lambda_gen_implementation ?toplevel ~source_provenance ppf
(lambda:Lambda.program) =
let clambda = Closure.intro lambda.main_module_block_size lambda.code in
let preallocated_block =
Clambda.{
symbol = Compilenv.make_symbol None;
exported = true;
tag = 0;
size = lambda.main_module_block_size;
}
in
let clambda_and_constants =
clambda, [preallocated_block], []
in
raw_clambda_dump_if ppf clambda_and_constants;
end_gen_implementation ?toplevel ~source_provenance ppf clambda_and_constants
let compile_implementation_gen ?toplevel ~source_provenance prefixname
ppf gen_implementation program =
let asmfile =
if !keep_asm_file || !Emitaux.binary_backend_available
then prefixname ^ ext_asm
else Filename.temp_file "camlasm" ext_asm
in
compile_unit ~source_provenance prefixname asmfile !keep_asm_file
(prefixname ^ ext_obj) (fun () ->
gen_implementation ?toplevel ~source_provenance ppf program)
let compile_implementation_clambda ?toplevel ~source_provenance prefixname
ppf (program:Lambda.program) =
compile_implementation_gen ?toplevel ~source_provenance prefixname
ppf lambda_gen_implementation program
let compile_implementation_flambda ?toplevel ~source_provenance prefixname
~backend ppf (program:Flambda.program) =
compile_implementation_gen ?toplevel ~source_provenance prefixname
ppf (flambda_gen_implementation ~backend) program
(* Error report *)
let report_error ppf = function
| Assembler_error file ->
fprintf ppf "Assembler error, input left in file %a"
Location.print_filename file
let () =
Location.register_error_of_exn
(function
| Error err -> Some (Location.error_of_printer_file report_error err)
| _ -> None
)
|
