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authorGravatar xleroy <xleroy@fca1b0fc-160b-0410-b1d3-a4f43f01ea2e>2010-05-08 14:32:58 +0000
committerGravatar xleroy <xleroy@fca1b0fc-160b-0410-b1d3-a4f43f01ea2e>2010-05-08 14:32:58 +0000
commit913c1bcc4b2204afd447edd723e06b905fd1f47f (patch)
tree1e249677ea91df1955e424aeaadda0806111cc60 /powerpc
parent9f04b74314034f8d7cedea9251e5b340ed2bbdd4 (diff)
Cleaned up handling of linker sections.
Minor updates on ARM code generator. git-svn-id: https://yquem.inria.fr/compcert/svn/compcert/trunk@1339 fca1b0fc-160b-0410-b1d3-a4f43f01ea2e
Diffstat (limited to 'powerpc')
-rw-r--r--powerpc/PrintAsm.ml140
-rw-r--r--powerpc/eabi/CPragmas.ml154
-rw-r--r--powerpc/extractionMachdep.v2
-rw-r--r--powerpc/macosx/CPragmas.ml7
4 files changed, 99 insertions, 204 deletions
diff --git a/powerpc/PrintAsm.ml b/powerpc/PrintAsm.ml
index 8dab7ae..1fdb1a9 100644
--- a/powerpc/PrintAsm.ml
+++ b/powerpc/PrintAsm.ml
@@ -15,6 +15,7 @@
open Printf
open Datatypes
open Camlcoq
+open Sections
open AST
open Asm
@@ -177,28 +178,58 @@ let creg oc r =
| MacOS|Diab -> fprintf oc "cr%d" r
| Linux -> fprintf oc "%d" r
-let section oc name =
- fprintf oc " %s\n" name
-
(* Names of sections *)
-let (text, data, const_data, float_literal) =
+let name_of_section_MacOS = function
+ | Section_text -> ".text"
+ | Section_data _ -> ".data"
+ | Section_small_data _ -> ".data"
+ | Section_const -> ".const"
+ | Section_small_const -> ".const"
+ | Section_string -> ".const"
+ | Section_literal -> ".const_data"
+ | Section_jumptable -> ".text"
+ | Section_user _ -> assert false
+
+let name_of_section_Linux = function
+ | Section_text -> ".text"
+ | Section_data i -> if i then ".data" else ".bss"
+ | Section_small_data i -> if i then ".sdata" else ".sbss"
+ | Section_const -> ".rodata"
+ | Section_small_const -> ".sdata2"
+ | Section_string -> ".rodata"
+ | Section_literal -> ".section .rodata.cst8,\"aM\",@progbits,8"
+ | Section_jumptable -> ".text"
+ | Section_user(s, wr, ex) ->
+ sprintf ".section %s,\"a%s%s\",@progbits"
+ s (if wr then "w" else "") (if ex then "x" else "")
+
+let name_of_section_Diab = function
+ | Section_text -> ".text"
+ | Section_data i -> if i then ".data" else ".bss"
+ | Section_small_data i -> if i then ".sdata" else ".sbss"
+ | Section_const -> ".text"
+ | Section_small_const -> ".sdata2"
+ | Section_string -> ".text"
+ | Section_literal -> ".text"
+ | Section_jumptable -> ".text"
+ | Section_user(s, wr, ex) ->
+ sprintf ".section %s,,%c"
+ s
+ (match wr, ex with
+ | true, true -> 'm' (* text+data *)
+ | true, false -> 'd' (* data *)
+ | false, true -> 'c' (* text *)
+ | false, false -> 'r') (* const *)
+
+let name_of_section =
match target with
- | MacOS ->
- (".text",
- ".data",
- ".const",
- ".const_data")
- | Linux ->
- (".text",
- ".data",
- ".rodata",
- ".section .rodata.cst8,\"aM\",@progbits,8")
- | Diab ->
- (".text",
- ".data",
- ".text",
- ".text")
+ | MacOS -> name_of_section_MacOS
+ | Linux -> name_of_section_Linux
+ | Diab -> name_of_section_Diab
+
+let section oc sec =
+ fprintf oc " %s\n" (name_of_section sec)
(* Encoding masks for rlwinm instructions *)
@@ -353,6 +384,9 @@ let print_builtin_function oc s =
module Labelset = Set.Make(struct type t = label let compare = compare end)
+let float_literals : (int * int64) list ref = ref []
+let jumptables : (int * label list) list ref = ref []
+
let print_instruction oc labels = function
| Padd(r1, r2, r3) ->
fprintf oc " add %a, %a, %a\n" ireg r1 ireg r2 ireg r3
@@ -410,10 +444,7 @@ let print_instruction oc labels = function
fprintf oc " lwz %a, %a(%a)\n" ireg GPR12 label_low lbl ireg GPR12;
fprintf oc " mtctr %a\n" ireg GPR12;
fprintf oc " bctr\n";
- fprintf oc "%a:" label lbl;
- List.iter
- (fun l -> fprintf oc " .long %a\n" label (transl_label l))
- tbl;
+ jumptables := (lbl, tbl) :: !jumptables;
fprintf oc "%s end pseudoinstr btbl\n" comment
| Pcmplw(r1, r2) ->
fprintf oc " cmplw %a, %a, %a\n" creg 0 ireg r1 ireg r2
@@ -471,9 +502,7 @@ let print_instruction oc labels = function
fprintf oc " lwz %a, 4(%a)\n" ireg r1 ireg GPR1;
fprintf oc " addis %a, %a, 0x8000\n" ireg r1 ireg r1;
fprintf oc "%a: addi %a, %a, 8\n" label lbl3 ireg GPR1 ireg GPR1;
- section oc float_literal;
- fprintf oc "%a: .long 0x41e00000, 0x00000000\n" label lbl1;
- section oc text;
+ float_literals := (lbl1, 0x41e00000_00000000L) :: !float_literals;
fprintf oc "%s end pseudoinstr fctiu\n" comment
| Pfdiv(r1, r2, r3) ->
fprintf oc " fdiv %a, %a, %a\n" freg r1 freg r2 freg r3
@@ -503,9 +532,7 @@ let print_instruction oc labels = function
fprintf oc " lfd %a, 0(%a)\n" freg r1 ireg GPR1;
fprintf oc " addi %a, %a, 8\n" ireg GPR1 ireg GPR1;
fprintf oc " fsub %a, %a, %a\n" freg r1 freg r1 freg FPR13;
- section oc float_literal;
- fprintf oc "%a: .long 0x43300000, 0x80000000\n" label lbl;
- section oc text;
+ float_literals := (lbl, 0x43300000_80000000L) :: !float_literals;
fprintf oc "%s end pseudoinstr ictf\n" comment
| Piuctf(r1, r2) ->
let lbl = new_label() in
@@ -518,9 +545,7 @@ let print_instruction oc labels = function
fprintf oc " lfd %a, 0(%a)\n" freg r1 ireg GPR1;
fprintf oc " addi %a, %a, 8\n" ireg GPR1 ireg GPR1;
fprintf oc " fsub %a, %a, %a\n" freg r1 freg r1 freg FPR13;
- section oc float_literal;
- fprintf oc "%a: .long 0x43300000, 0x00000000\n" label lbl;
- section oc text;
+ float_literals := (lbl, 0x43300000_00000000L) :: !float_literals;
fprintf oc "%s end pseudoinstr ictf\n" comment
| Plbz(r1, c, r2) ->
fprintf oc " lbz %a, %a(%a)\n" ireg r1 constant c ireg r2
@@ -533,14 +558,8 @@ let print_instruction oc labels = function
| Plfi(r1, c) ->
let lbl = new_label() in
fprintf oc " addis %a, 0, %a\n" ireg GPR12 label_high lbl;
- fprintf oc " lfd %a, %a(%a)\n" freg r1 label_low lbl ireg GPR12;
- section oc float_literal;
- 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 "%a: .long 0x%lx, 0x%lx %s %.18g\n"
- label lbl nhi nlo comment c;
- section oc text
+ fprintf oc " lfd %a, %a(%a) %s %.18g\n" freg r1 label_low lbl ireg GPR12 comment c;
+ float_literals := (lbl, Int64.bits_of_float c) :: !float_literals;
| Plfs(r1, c, r2) ->
fprintf oc " lfs %a, %a(%a)\n" freg r1 constant c ireg r2
| Plfsx(r1, r2, r3) ->
@@ -633,6 +652,17 @@ let print_instruction oc labels = function
if Labelset.mem lbl labels then
fprintf oc "%a:\n" label (transl_label lbl)
+let print_literal oc (lbl, n) =
+ let nlo = Int64.to_int32 n
+ and nhi = Int64.to_int32(Int64.shift_right_logical n 32) in
+ fprintf oc "%a: .long 0x%lx, 0x%lx\n" label lbl nhi nlo
+
+let print_jumptable oc (lbl, tbl) =
+ fprintf oc "%a:" label lbl;
+ List.iter
+ (fun l -> fprintf oc " .long %a\n" label (transl_label l))
+ tbl
+
let rec labels_of_code accu = function
| [] ->
accu
@@ -645,10 +675,10 @@ let rec labels_of_code accu = function
let print_function oc name code =
Hashtbl.clear current_function_labels;
- section oc
- (match CPragmas.section_for_atom name true with
- | Some s -> s
- | None -> text);
+ float_literals := [];
+ jumptables := [];
+ let (text, lit, jmptbl) = sections_for_function name in
+ section oc text;
fprintf oc " .align 2\n";
if not (C2Clight.atom_is_static name) then
fprintf oc " .globl %a\n" symbol name;
@@ -657,6 +687,16 @@ let print_function oc name code =
if target <> MacOS then begin
fprintf oc " .type %a, @function\n" symbol name;
fprintf oc " .size %a, . - %a\n" symbol name symbol name
+ end;
+ if !float_literals <> [] then begin
+ section oc lit;
+ List.iter (print_literal oc) !float_literals;
+ float_literals := []
+ end;
+ if !jumptables <> [] then begin
+ section oc jmptbl;
+ List.iter (print_jumptable oc) !jumptables;
+ jumptables := []
end
(* Generation of stub functions *)
@@ -761,7 +801,7 @@ let non_variadic_stub oc name =
let stub_function oc name ef =
let name = extern_atom name in
- fprintf oc " .text\n";
+ section oc Section_text;
fprintf oc " .align 2\n";
fprintf oc "L%s$stub:\n" name;
if Str.string_match re_variadic_stub name 0
@@ -777,7 +817,7 @@ end
module Stubs_EABI = struct
let variadic_stub oc stub_name fun_name args =
- fprintf oc " .text\n";
+ section oc Section_text;
fprintf oc " .align 2\n";
fprintf oc ".L%s$stub:\n" stub_name;
(* bit 6 must be set if at least one argument is a float; clear otherwise *)
@@ -829,7 +869,6 @@ let print_init oc = function
| Init_float32 n ->
fprintf oc " .long %ld %s %.18g\n" (Int32.bits_of_float n) comment 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 %s %.18g\n"
(Int64.shift_right_logical b 32)
@@ -857,12 +896,7 @@ let print_var oc (Coq_pair(Coq_pair(name, init_data), _)) =
let init =
match init_data with [Init_space _] -> false | _ -> true in
let sec =
- match CPragmas.section_for_atom name init with
- | Some s -> s
- | None ->
- if C2Clight.atom_is_readonly name
- then const_data
- else data
+ Sections.section_for_variable name init
and align =
match C2Clight.atom_alignof name with
| Some a -> log2 a
diff --git a/powerpc/eabi/CPragmas.ml b/powerpc/eabi/CPragmas.ml
index 3104cc8..7dbc215 100644
--- a/powerpc/eabi/CPragmas.ml
+++ b/powerpc/eabi/CPragmas.ml
@@ -19,111 +19,23 @@ open Printf
open Camlcoq
open Cparser
-type section_info = {
- sec_name_init: string;
- sec_name_uninit: string;
- sec_acc_mode: string;
- sec_near_access: bool
-}
-
-let default_section_info = {
- sec_name_init = ".data";
- sec_name_uninit = ".data"; (* COMM? *)
- sec_acc_mode = "RW";
- sec_near_access = false
-}
-
-let section_table : (string, section_info) Hashtbl.t =
- Hashtbl.create 17
-
-(* Built-in sections *)
-
-let _ =
- let rodata =
- if Configuration.system = "linux" then ".rodata" else ".text" in
- List.iter (fun (n, si) -> Hashtbl.add section_table n si) [
- "CODE", {sec_name_init = ".text";
- sec_name_uninit = ".text";
- sec_acc_mode = "RX";
- sec_near_access = false};
- "DATA", {sec_name_init = ".data";
- sec_name_uninit = ".data"; (* COMM? *)
- sec_acc_mode = "RW";
- sec_near_access = false};
- "SDATA", {sec_name_init = ".sdata";
- sec_name_uninit = ".sbss";
- sec_acc_mode = "RW";
- sec_near_access = true};
- "CONST", {sec_name_init = rodata;
- sec_name_uninit = rodata;
- sec_acc_mode = "R";
- sec_near_access = false};
- "SCONST",{sec_name_init = ".sdata2";
- sec_name_uninit = ".sdata2";
- sec_acc_mode = "R";
- sec_near_access = true};
- "STRING",{sec_name_init = rodata;
- sec_name_uninit = rodata;
- sec_acc_mode = "R";
- sec_near_access = false}
- ]
-
(* #pragma section *)
let process_section_pragma classname istring ustring addrmode accmode =
- let old_si =
- try Hashtbl.find section_table classname
- with Not_found -> default_section_info in
- let si =
- { sec_name_init =
- if istring = "" then old_si.sec_name_init else istring;
- sec_name_uninit =
- if ustring = "" then old_si.sec_name_uninit else ustring;
- sec_acc_mode =
- if accmode = "" then old_si.sec_acc_mode else accmode;
- sec_near_access =
- if addrmode = ""
- then old_si.sec_near_access
- else (addrmode = "near-code") || (addrmode = "near-data") } in
- Hashtbl.add section_table classname si
+ Sections.define_section classname
+ ?iname: (if istring = "" then None else Some istring)
+ ?uname: (if ustring = "" then None else Some ustring)
+ ?writable: (if accmode = "" then None else Some(String.contains accmode 'W'))
+ ?executable: (if accmode = "" then None else Some(String.contains accmode 'X'))
+ ?near: (if addrmode = "" then None
+ else Some(addrmode = "near-code" || addrmode = "near-data"))
+ ()
(* #pragma use_section *)
-let use_section_table : (AST.ident, section_info) Hashtbl.t =
- Hashtbl.create 51
-
let process_use_section_pragma classname id =
- try
- let info = Hashtbl.find section_table classname in
- Hashtbl.add use_section_table (intern_string id) info
- with Not_found ->
- C2Clight.error (sprintf "unknown section name `%s'" classname)
-
-let default_use_section id classname =
- if not (Hashtbl.mem use_section_table id) then begin
- let info =
- try Hashtbl.find section_table classname
- with Not_found -> assert false in
- Hashtbl.add use_section_table id info
- end
-
-let define_function id d =
- default_use_section id "CODE"
-
-let define_stringlit id =
- default_use_section id "STRING"
-
-let define_variable id d =
- let is_small limit =
- match C2Clight.atom_sizeof id with
- | None -> false
- | Some sz -> sz <= limit in
- let sect =
- if C2Clight.atom_is_readonly id then
- if is_small !Clflags.option_small_const then "SCONST" else "CONST"
- else
- if is_small !Clflags.option_small_data then "SDATA" else "DATA" in
- default_use_section id sect
+ if not (Sections.use_section_for (intern_string id) classname)
+ then C2Clight.error (sprintf "unknown section name `%s'" classname)
(* #pragma reserve_register *)
@@ -193,48 +105,4 @@ let process_pragma name =
false
let initialize () =
- C2Clight.process_pragma_hook := process_pragma;
- C2Clight.define_variable_hook := define_variable;
- C2Clight.define_function_hook := define_function;
- C2Clight.define_stringlit_hook := define_stringlit
-
-(* PowerPC-specific: say if an atom is in a small data area *)
-
-let atom_is_small_data a ofs =
- match C2Clight.atom_sizeof a with
- | None -> false
- | Some sz ->
- let ofs = camlint_of_coqint ofs in
- if ofs >= 0l && ofs < Int32.of_int sz then begin
- try
- (Hashtbl.find use_section_table a).sec_near_access
- with Not_found ->
- if C2Clight.atom_is_readonly a
- then sz <= !Clflags.option_small_const
- else sz <= !Clflags.option_small_data
- end else
- false
-
-(* PowerPC-specific: determine section to use for a particular symbol *)
-
-let section_for_atom a init =
- try
- let sinfo = Hashtbl.find use_section_table a in
- let sname =
- if init then sinfo.sec_name_init else sinfo.sec_name_uninit in
- if not (String.contains sname '\"') then
- Some sname
- else begin
- (* The following is Diab-specific... *)
- let accmode = sinfo.sec_acc_mode in
- let is_writable = String.contains accmode 'W'
- and is_executable = String.contains accmode 'X' in
- let stype =
- match is_writable, is_executable with
- | true, true -> 'm' (* text+data *)
- | true, false -> 'd' (* data *)
- | false, true -> 'c' (* text *)
- | false, false -> 'r' (* const *)
- in Some(sprintf ".section\t%s,,%c" sname stype)
- end
- with Not_found -> None
+ C2Clight.process_pragma_hook := process_pragma
diff --git a/powerpc/extractionMachdep.v b/powerpc/extractionMachdep.v
index 83fda76..a315e8f 100644
--- a/powerpc/extractionMachdep.v
+++ b/powerpc/extractionMachdep.v
@@ -18,7 +18,7 @@ Extract Constant SelectOp.use_fused_mul => "(fun () -> !Clflags.option_fmadd)".
(* Asm *)
Extract Constant Asm.low_half => "fun _ -> assert false".
Extract Constant Asm.high_half => "fun _ -> assert false".
-Extract Constant Asm.symbol_is_small_data => "CPragmas.atom_is_small_data".
+Extract Constant Asm.symbol_is_small_data => "Sections.atom_is_small_data".
Extract Constant Asm.small_data_area_offset => "fun _ _ _ -> assert false".
(* Suppression of stupidly big equality functions *)
diff --git a/powerpc/macosx/CPragmas.ml b/powerpc/macosx/CPragmas.ml
index f48064c..ede2f38 100644
--- a/powerpc/macosx/CPragmas.ml
+++ b/powerpc/macosx/CPragmas.ml
@@ -19,10 +19,3 @@
let initialize () = ()
-(* PowerPC-specific: say if an atom is in a small data area *)
-
-let atom_is_small_data a ofs = false
-
-(* PowerPC-specific: determine section to use for a particular symbol *)
-
-let section_for_atom a init = None