paweld/fpc
1
0
Fork 0
mirror of https://gitlab.com/freepascal.org/fpc/source.git synced 2025-04-13 17:19:26 +02:00
Code Issues Packages Projects Releases Wiki Activity
790a4fe2d3
fpc/compiler/aggas.pas
fpc 790a4fe2d3 * log and id tags removed 
git-svn-id: trunk@42 -
2005-05-21 09:42:41 +00:00

986 lines
31 KiB
ObjectPascal
Raw Blame History

{
Copyright (c) 1998-2004 by the Free Pascal team
This unit implements generic GNU assembler (v2.8 or later)
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
****************************************************************************
}
{ Base unit for writing GNU assembler output.
}
unit aggas;
{$i fpcdefs.inc}
interface
uses
{$IFDEF USE_SYSUTILS}
SysUtils,
{$ELSE USE_SYSUTILS}
dos,
{$ENDIF USE_SYSUTILS}
cclasses,
globals,
aasmbase,aasmtai,aasmcpu,
assemble;
type
{# This is a derived class which is used to write
GAS styled assembler.
The WriteInstruction() method must be overriden
to write a single instruction to the assembler
file.
}
TGNUAssembler=class(texternalassembler)
protected
function sectionname(atype:tasmsectiontype;const aname:string):string;virtual;
procedure WriteSection(atype:tasmsectiontype;const aname:string);
procedure WriteExtraHeader;virtual;
{$ifdef GDB}
procedure WriteFileLineInfo(var fileinfo : tfileposinfo);
procedure WriteFileEndInfo;
{$endif}
procedure WriteInstruction(hp: tai); virtual; abstract;
public
procedure WriteTree(p:TAAsmoutput);override;
procedure WriteAsmList;override;
end;
const
regname_count=45;
regname_count_bsstart=32; { Largest power of 2 out of regname_count. }
implementation
uses
cutils,globtype,systems,
fmodule,finput,verbose,
itcpugas
{$ifdef GDB}
{$IFDEF USE_SYSUTILS}
{$ELSE USE_SYSUTILS}
,strings
{$ENDIF USE_SYSUTILS}
,gdb
{$endif GDB}
;
const
line_length = 70;
var
{$ifdef GDB}
n_line : byte; { different types of source lines }
linecount,
includecount : longint;
funcname : pchar;
stabslastfileinfo : tfileposinfo;
{$endif}
lasTSecType : TAsmSectionType; { last section type written }
lastfileinfo : tfileposinfo;
infile,
lastinfile : tinputfile;
symendcount : longint;
type
{$ifdef cpuextended}
t80bitarray = array[0..9] of byte;
{$endif cpuextended}
t64bitarray = array[0..7] of byte;
t32bitarray = array[0..3] of byte;
{****************************************************************************}
{ Support routines }
{****************************************************************************}
function fixline(s:string):string;
{
return s with all leading and ending spaces and tabs removed
}
var
i,j,k : integer;
begin
i:=length(s);
while (i>0) and (s[i] in [#9,' ']) do
dec(i);
j:=1;
while (j<i) and (s[j] in [#9,' ']) do
inc(j);
for k:=j to i do
if s[k] in [#0..#31,#127..#255] then
s[k]:='.';
fixline:=Copy(s,j,i-j+1);
end;
function single2str(d : single) : string;
var
hs : string;
begin
str(d,hs);
{ replace space with + }
if hs[1]=' ' then
hs[1]:='+';
single2str:='0d'+hs
end;
function double2str(d : double) : string;
var
hs : string;
begin
str(d,hs);
{ replace space with + }
if hs[1]=' ' then
hs[1]:='+';
double2str:='0d'+hs
end;
function extended2str(e : extended) : string;
var
hs : string;
begin
str(e,hs);
{ replace space with + }
if hs[1]=' ' then
hs[1]:='+';
extended2str:='0d'+hs
end;
{ convert floating point values }
{ to correct endian }
procedure swap64bitarray(var t: t64bitarray);
var
b: byte;
begin
b:= t[7];
t[7] := t[0];
t[0] := b;
b := t[6];
t[6] := t[1];
t[1] := b;
b:= t[5];
t[5] := t[2];
t[2] := b;
b:= t[4];
t[4] := t[3];
t[3] := b;
end;
procedure swap32bitarray(var t: t32bitarray);
var
b: byte;
begin
b:= t[1];
t[1]:= t[2];
t[2]:= b;
b:= t[0];
t[0]:= t[3];
t[3]:= b;
end;
const
ait_const2str : array[ait_const_128bit..ait_const_indirect_symbol] of string[20]=(
#9'.fixme128'#9,#9'.quad'#9,#9'.long'#9,#9'.short'#9,#9'.byte'#9,
#9'.sleb128'#9,#9'.uleb128'#9,
#9'.rva'#9,#9'.indirect_symbol'#9
);
{****************************************************************************}
{ GNU Assembler writer }
{****************************************************************************}
{$ifdef GDB}
procedure TGNUAssembler.WriteFileLineInfo(var fileinfo : tfileposinfo);
var
curr_n : byte;
begin
if not ((cs_debuginfo in aktmoduleswitches) or
(cs_gdb_lineinfo in aktglobalswitches)) then
exit;
{ file changed ? (must be before line info) }
if (fileinfo.fileindex<>0) and
(stabslastfileinfo.fileindex<>fileinfo.fileindex) then
begin
infile:=current_module.sourcefiles.get_file(fileinfo.fileindex);
if assigned(infile) then
begin
if includecount=0 then
curr_n:=n_sourcefile
else
curr_n:=n_includefile;
if (infile.path^<>'') then
begin
AsmWriteLn(#9'.stabs "'+BsToSlash(FixPath(infile.path^,false))+'",'+
tostr(curr_n)+',0,0,'+target_asm.labelprefix+'text'+ToStr(IncludeCount));
end;
AsmWriteLn(#9'.stabs "'+FixFileName(infile.name^)+'",'+
tostr(curr_n)+',0,0,'+target_asm.labelprefix+'text'+ToStr(IncludeCount));
AsmWriteLn(target_asm.labelprefix+'text'+ToStr(IncludeCount)+':');
inc(includecount);
{ force new line info }
stabslastfileinfo.line:=-1;
end;
end;
{ line changed ? }
if (stabslastfileinfo.line<>fileinfo.line) and (fileinfo.line<>0) then
begin
if (n_line=n_textline) and assigned(funcname) and
(target_info.use_function_relative_addresses) then
begin
AsmWriteLn(target_asm.labelprefix+'l'+tostr(linecount)+':');
AsmWrite(#9'.stabn '+tostr(n_line)+',0,'+tostr(fileinfo.line)+','+
target_asm.labelprefix+'l'+tostr(linecount)+' - ');
AsmWritePChar(FuncName);
AsmLn;
inc(linecount);
end
else
AsmWriteLn(#9'.stabd'#9+tostr(n_line)+',0,'+tostr(fileinfo.line));
end;
stabslastfileinfo:=fileinfo;
end;
procedure TGNUAssembler.WriteFileEndInfo;
begin
if not ((cs_debuginfo in aktmoduleswitches) or
(cs_gdb_lineinfo in aktglobalswitches)) then
exit;
WriteSection(sec_code,'');
AsmWriteLn(#9'.stabs "",'+tostr(n_sourcefile)+',0,0,'+target_asm.labelprefix+'etext');
AsmWriteLn(target_asm.labelprefix+'etext:');
end;
{$endif GDB}
function TGNUAssembler.sectionname(atype:tasmsectiontype;const aname:string):string;
const
secnames : array[tasmsectiontype] of string[12] = ('',
{$warning TODO .rodata not yet working}
'.text','.data','.data','.bss',
'common',
'.note',
'.stab','.stabstr',
'.idata$2','.idata$4','.idata$5','.idata$6','.idata$7','.edata',
'.eh_frame',
'.debug_frame'
);
begin
if (target_info.system = system_powerpc_darwin) and
(atype = sec_bss) then
atype := sec_code;
if use_smartlink_section and
(atype<>sec_bss) and
(aname<>'') then
result:='.gnu.linkonce'+copy(secnames[atype],1,2)+'.'+aname
else
result:=secnames[atype];
end;
procedure TGNUAssembler.WriteSection(atype:tasmsectiontype;const aname:string);
var
s : string;
begin
AsmLn;
case target_info.system of
system_powerpc_darwin, system_i386_OS2, system_i386_EMX: ;
else
AsmWrite('.section ');
end;
s:=sectionname(atype,aname);
AsmWrite(s);
if copy(s,1,4)='.gnu' then
begin
case atype of
sec_rodata,
sec_data :
AsmWrite(',""');
sec_code :
AsmWrite(',"x"');
end;
end;
AsmLn;
{$ifdef GDB}
{ this is needed for line info in data }
funcname:=nil;
case atype of
sec_code :
n_line:=n_textline;
sec_rodata,
sec_data :
n_line:=n_dataline;
sec_bss :
n_line:=n_bssline;
else
n_line:=n_dataline;
end;
{$endif GDB}
LasTSecType:=atype;
end;
procedure TGNUAssembler.WriteTree(p:TAAsmoutput);
const
regallocstr : array[tregalloctype] of string[10]=(' allocated',' released',' sync',' resized');
tempallocstr : array[boolean] of string[10]=(' released',' allocated');
var
ch : char;
hp : tai;
hp1 : tailineinfo;
consttyp : taitype;
s : string;
i,pos,l : longint;
InlineLevel : longint;
last_align : longint;
co : comp;
sin : single;
d : double;
{$ifdef cpuextended}
e : extended;
{$endif cpuextended}
do_line : boolean;
begin
if not assigned(p) then
exit;
last_align := 2;
InlineLevel:=0;
{ lineinfo is only needed for codesegment (PFV) }
do_line:=(cs_asm_source in aktglobalswitches) or
((cs_lineinfo in aktmoduleswitches)
and (p=codesegment));
hp:=tai(p.first);
while assigned(hp) do
begin
if not(hp.typ in SkipLineInfo) then
begin
hp1 := hp as tailineinfo;
aktfilepos:=hp1.fileinfo;
{$ifdef GDB}
{ write stabs }
if (cs_debuginfo in aktmoduleswitches) or
(cs_gdb_lineinfo in aktglobalswitches) then
WriteFileLineInfo(hp1.fileinfo);
{$endif GDB}
{ no line info for inlined code }
if do_line and (inlinelevel=0) then
begin
{ load infile }
if lastfileinfo.fileindex<>hp1.fileinfo.fileindex then
begin
infile:=current_module.sourcefiles.get_file(hp1.fileinfo.fileindex);
if assigned(infile) then
begin
{ open only if needed !! }
if (cs_asm_source in aktglobalswitches) then
infile.open;
end;
{ avoid unnecessary reopens of the same file !! }
lastfileinfo.fileindex:=hp1.fileinfo.fileindex;
{ be sure to change line !! }
lastfileinfo.line:=-1;
end;
{ write source }
if (cs_asm_source in aktglobalswitches) and
assigned(infile) then
begin
if (infile<>lastinfile) then
begin
AsmWriteLn(target_asm.comment+'['+infile.name^+']');
if assigned(lastinfile) then
lastinfile.close;
end;
if (hp1.fileinfo.line<>lastfileinfo.line) and
((hp1.fileinfo.line<infile.maxlinebuf) or (InlineLevel>0)) then
begin
if (hp1.fileinfo.line<>0) and
((infile.linebuf^[hp1.fileinfo.line]>=0) or (InlineLevel>0)) then
AsmWriteLn(target_asm.comment+'['+tostr(hp1.fileinfo.line)+'] '+
fixline(infile.GetLineStr(hp1.fileinfo.line)));
{ set it to a negative value !
to make that is has been read already !! PM }
if (infile.linebuf^[hp1.fileinfo.line]>=0) then
infile.linebuf^[hp1.fileinfo.line]:=-infile.linebuf^[hp1.fileinfo.line]-1;
end;
end;
lastfileinfo:=hp1.fileinfo;
lastinfile:=infile;
end;
end;
case hp.typ of
ait_comment :
Begin
AsmWrite(target_asm.comment);
AsmWritePChar(tai_comment(hp).str);
AsmLn;
End;
ait_regalloc :
begin
if (cs_asm_regalloc in aktglobalswitches) then
begin
AsmWrite(#9+target_asm.comment+'Register ');
repeat
AsmWrite(gas_regname(Tai_regalloc(hp).reg));
if (hp.next=nil) or
(tai(hp.next).typ<>ait_regalloc) or
(tai_regalloc(hp.next).ratype<>tai_regalloc(hp).ratype) then
break;
hp:=tai(hp.next);
AsmWrite(',');
until false;
AsmWriteLn(regallocstr[tai_regalloc(hp).ratype]);
end;
end;
ait_tempalloc :
begin
if (cs_asm_tempalloc in aktglobalswitches) then
begin
{$ifdef EXTDEBUG}
if assigned(tai_tempalloc(hp).problem) then
AsmWriteLn(target_asm.comment+'Temp '+tostr(tai_tempalloc(hp).temppos)+','+
tostr(tai_tempalloc(hp).tempsize)+' '+tai_tempalloc(hp).problem^)
else
{$endif EXTDEBUG}
AsmWriteLn(target_asm.comment+'Temp '+tostr(tai_tempalloc(hp).temppos)+','+
tostr(tai_tempalloc(hp).tempsize)+tempallocstr[tai_tempalloc(hp).allocation]);
end;
end;
ait_align :
begin
if tai_align(hp).aligntype>1 then
begin
if target_info.system <> system_powerpc_darwin then
begin
AsmWrite(#9'.balign '+tostr(tai_align(hp).aligntype));
if tai_align(hp).use_op then
AsmWrite(','+tostr(tai_align(hp).fillop))
end
else
begin
{ darwin as only supports .align }
if not ispowerof2(tai_align(hp).aligntype,i) then
internalerror(2003010305);
AsmWrite(#9'.align '+tostr(i));
last_align := i;
end;
AsmLn;
end;
end;
ait_section :
begin
if tai_section(hp).sectype<>sec_none then
begin
WriteSection(tai_section(hp).sectype,tai_section(hp).name^);
{$ifdef GDB}
lastfileinfo.line:=-1;
{$endif GDB}
end
else
begin
{$ifdef EXTDEBUG}
AsmWrite(target_asm.comment);
AsmWriteln(' sec_none');
{$endif EXTDEBUG}
end;
end;
ait_datablock :
begin
if tai_datablock(hp).is_global then
AsmWrite(#9'.comm'#9)
else
AsmWrite(#9'.lcomm'#9);
AsmWrite(tai_datablock(hp).sym.name);
AsmWrite(','+tostr(tai_datablock(hp).size));
if (target_info.system = system_powerpc_darwin) and
not(tai_datablock(hp).is_global) then
AsmWrite(','+tostr(last_align));
AsmWriteln('');
end;
{$ifndef cpu64bit}
ait_const_128bit :
begin
internalerror(200404291);
end;
ait_const_64bit :
begin
if assigned(tai_const(hp).sym) then
internalerror(200404292);
AsmWrite(ait_const2str[ait_const_32bit]);
if target_info.endian = endian_little then
begin
AsmWrite(tostr(longint(lo(tai_const(hp).value))));
AsmWrite(',');
AsmWrite(tostr(longint(hi(tai_const(hp).value))));
end
else
begin
AsmWrite(tostr(longint(hi(tai_const(hp).value))));
AsmWrite(',');
AsmWrite(tostr(longint(lo(tai_const(hp).value))));
end;
AsmLn;
end;
{$endif cpu64bit}
ait_const_uleb128bit,
ait_const_sleb128bit,
{$ifdef cpu64bit}
ait_const_128bit,
ait_const_64bit,
{$endif cpu64bit}
ait_const_32bit,
ait_const_16bit,
ait_const_8bit,
ait_const_rva_symbol,
ait_const_indirect_symbol :
begin
AsmWrite(ait_const2str[hp.typ]);
consttyp:=hp.typ;
l:=0;
repeat
if assigned(tai_const(hp).sym) then
begin
if assigned(tai_const(hp).endsym) then
s:=tai_const(hp).endsym.name+'-'+tai_const(hp).sym.name
else
s:=tai_const(hp).sym.name;
if tai_const(hp).value<>0 then
s:=s+tostr_with_plus(tai_const(hp).value);
end
else
s:=tostr(tai_const(hp).value);
AsmWrite(s);
inc(l,length(s));
{ Values with symbols are written on a single line to improve
reading of the .s file (PFV) }
if assigned(tai_const(hp).sym) or
not(LasTSecType in [sec_data,sec_rodata]) or
(l>line_length) or
(hp.next=nil) or
(tai(hp.next).typ<>consttyp) or
assigned(tai_const(hp.next).sym) then
break;
hp:=tai(hp.next);
AsmWrite(',');
until false;
AsmLn;
end;
{$ifdef cpuextended}
ait_real_80bit :
begin
if do_line then
AsmWriteLn(target_asm.comment+'value: '+extended2str(tai_real_80bit(hp).value));
{ Make sure e is a extended type, bestreal could be
a different type (bestreal) !! (PFV) }
e:=tai_real_80bit(hp).value;
AsmWrite(#9'.byte'#9);
for i:=0 to 9 do
begin
if i<>0 then
AsmWrite(',');
AsmWrite(tostr(t80bitarray(e)[i]));
end;
AsmLn;
end;
{$endif cpuextended}
ait_real_64bit :
begin
if do_line then
AsmWriteLn(target_asm.comment+'value: '+double2str(tai_real_64bit(hp).value));
d:=tai_real_64bit(hp).value;
{ swap the values to correct endian if required }
if source_info.endian <> target_info.endian then
swap64bitarray(t64bitarray(d));
AsmWrite(#9'.byte'#9);
{$ifdef arm}
{ on a real arm cpu, it's already hi/lo swapped }
{$ifndef cpuarm}
if tai_real_64bit(hp).formatoptions=fo_hiloswapped then
begin
for i:=4 to 7 do
begin
if i<>4 then
AsmWrite(',');
AsmWrite(tostr(t64bitarray(d)[i]));
end;
for i:=0 to 3 do
begin
AsmWrite(',');
AsmWrite(tostr(t64bitarray(d)[i]));
end;
end
else
{$endif cpuarm}
{$endif arm}
begin
for i:=0 to 7 do
begin
if i<>0 then
AsmWrite(',');
AsmWrite(tostr(t64bitarray(d)[i]));
end;
end;
AsmLn;
end;
ait_real_32bit :
begin
if do_line then
AsmWriteLn(target_asm.comment+'value: '+single2str(tai_real_32bit(hp).value));
sin:=tai_real_32bit(hp).value;
{ swap the values to correct endian if required }
if source_info.endian <> target_info.endian then
swap32bitarray(t32bitarray(sin));
AsmWrite(#9'.byte'#9);
for i:=0 to 3 do
begin
if i<>0 then
AsmWrite(',');
AsmWrite(tostr(t32bitarray(sin)[i]));
end;
AsmLn;
end;
ait_comp_64bit :
begin
if do_line then
AsmWriteLn(target_asm.comment+'value: '+extended2str(tai_comp_64bit(hp).value));
AsmWrite(#9'.byte'#9);
{$ifdef FPC}
co:=comp(tai_comp_64bit(hp).value);
{$else}
co:=tai_comp_64bit(hp).value;
{$endif}
{ swap the values to correct endian if required }
if source_info.endian <> target_info.endian then
swap64bitarray(t64bitarray(co));
for i:=0 to 7 do
begin
if i<>0 then
AsmWrite(',');
AsmWrite(tostr(t64bitarray(co)[i]));
end;
AsmLn;
end;
ait_direct :
begin
AsmWritePChar(tai_direct(hp).str);
AsmLn;
{$IfDef GDB}
if strpos(tai_direct(hp).str,'.data')<>nil then
n_line:=n_dataline
else if strpos(tai_direct(hp).str,'.text')<>nil then
n_line:=n_textline
else if strpos(tai_direct(hp).str,'.bss')<>nil then
n_line:=n_bssline;
{$endif GDB}
end;
ait_string :
begin
pos:=0;
for i:=1 to tai_string(hp).len do
begin
if pos=0 then
begin
AsmWrite(#9'.ascii'#9'"');
pos:=20;
end;
ch:=tai_string(hp).str[i-1];
case ch of
#0, {This can't be done by range, because a bug in FPC}
#1..#31,
#128..#255 : s:='\'+tostr(ord(ch) shr 6)+tostr((ord(ch) and 63) shr 3)+tostr(ord(ch) and 7);
'"' : s:='\"';
'\' : s:='\\';
else
s:=ch;
end;
AsmWrite(s);
inc(pos,length(s));
if (pos>line_length) or (i=tai_string(hp).len) then
begin
AsmWriteLn('"');
pos:=0;
end;
end;
end;
ait_label :
begin
if (tai_label(hp).l.is_used) then
begin
if tai_label(hp).l.defbind=AB_GLOBAL then
begin
AsmWrite('.globl'#9);
AsmWriteLn(tai_label(hp).l.name);
end;
AsmWrite(tai_label(hp).l.name);
AsmWriteLn(':');
end;
end;
ait_symbol :
begin
if tai_symbol(hp).is_global then
begin
AsmWrite('.globl'#9);
AsmWriteLn(tai_symbol(hp).sym.name);
end;
if target_info.system in [system_i386_linux,system_i386_beos,
system_powerpc_linux,system_m68k_linux,
system_sparc_linux,system_alpha_linux,
system_x86_64_linux,system_arm_linux] then
begin
AsmWrite(#9'.type'#9);
AsmWrite(tai_symbol(hp).sym.name);
if assigned(tai(hp.next)) and
(tai(hp.next).typ in [ait_const_rva_symbol,
ait_const_32bit,ait_const_16bit,ait_const_8bit,ait_datablock,
ait_real_32bit,ait_real_64bit,ait_real_80bit,ait_comp_64bit]) then
begin
if target_info.system = system_arm_linux then
AsmWriteLn(',#object')
else
AsmWriteLn(',@object')
end
else
begin
if target_info.system = system_arm_linux then
AsmWriteLn(',#function')
else
AsmWriteLn(',@function');
end;
if tai_symbol(hp).sym.size>0 then
begin
AsmWrite(#9'.size'#9);
AsmWrite(tai_symbol(hp).sym.name);
AsmWrite(', ');
AsmWriteLn(tostr(tai_symbol(hp).sym.size));
end;
end;
AsmWrite(tai_symbol(hp).sym.name);
AsmWriteLn(':');
end;
ait_symbol_end :
begin
if tf_needs_symbol_size in target_info.flags then
begin
s:=target_asm.labelprefix+'e'+tostr(symendcount);
inc(symendcount);
AsmWriteLn(s+':');
AsmWrite(#9'.size'#9);
AsmWrite(tai_symbol_end(hp).sym.name);
AsmWrite(', '+s+' - ');
AsmWriteLn(tai_symbol_end(hp).sym.name);
end;
end;
ait_instruction :
begin
WriteInstruction(hp);
end;
{$ifdef GDB}
ait_stabs :
begin
if assigned(tai_stabs(hp).str) then
begin
AsmWrite(#9'.stabs ');
AsmWritePChar(tai_stabs(hp).str);
AsmLn;
end;
end;
ait_stabn :
begin
if assigned(tai_stabn(hp).str) then
begin
AsmWrite(#9'.stabn ');
AsmWritePChar(tai_stabn(hp).str);
AsmLn;
end;
end;
ait_force_line :
stabslastfileinfo.line:=0;
ait_stab_function_name:
funcname:=tai_stab_function_name(hp).str;
{$endif GDB}
ait_cutobject :
begin
if SmartAsm then
begin
{ only reset buffer if nothing has changed }
if AsmSize=AsmStartSize then
AsmClear
else
begin
AsmClose;
DoAssemble;
AsmCreate(tai_cutobject(hp).place);
end;
{ avoid empty files }
while assigned(hp.next) and (tai(hp.next).typ in [ait_cutobject,ait_section,ait_comment]) do
begin
if tai(hp.next).typ=ait_section then
lasTSectype:=tai_section(hp.next).sectype;
hp:=tai(hp.next);
end;
{$ifdef GDB}
{ force write of filename }
FillChar(stabslastfileinfo,sizeof(stabslastfileinfo),0);
includecount:=0;
funcname:=nil;
WriteFileLineInfo(aktfilepos);
{$endif GDB}
if lasTSectype<>sec_none then
WriteSection(lasTSectype,'');
AsmStartSize:=AsmSize;
end;
end;
ait_marker :
if tai_marker(hp).kind=InlineStart then
inc(InlineLevel)
else if tai_marker(hp).kind=InlineEnd then
dec(InlineLevel);
ait_non_lazy_symbol_pointer:
AsmWriteLn('.non_lazy_symbol_pointer');
else
internalerror(10000);
end;
hp:=tai(hp.next);
end;
end;
procedure TGNUAssembler.WriteExtraHeader;
begin
end;
procedure TGNUAssembler.WriteAsmList;
var
p:dirstr;
n:namestr;
e:extstr;
{$ifdef GDB}
fileinfo : tfileposinfo;
{$endif GDB}
begin
{$ifdef EXTDEBUG}
if assigned(current_module.mainsource) then
Comment(V_Debug,'Start writing gas-styled assembler output for '+current_module.mainsource^);
{$endif}
LasTSectype:=sec_none;
{$ifdef GDB}
FillChar(stabslastfileinfo,sizeof(stabslastfileinfo),0);
{$endif GDB}
FillChar(lastfileinfo,sizeof(lastfileinfo),0);
LastInfile:=nil;
if assigned(current_module.mainsource) then
{$IFDEF USE_SYSUTILS}
begin
p := SplitPath(current_module.mainsource^);
n := SplitName(current_module.mainsource^);
e := SplitExtension(current_module.mainsource^);
end
{$ELSE USE_SYSUTILS}
fsplit(current_module.mainsource^,p,n,e)
{$ENDIF USE_SYSUTILS}
else
begin
p:=inputdir;
n:=inputfile;
e:=inputextension;
end;
{ to get symify to work }
AsmWriteLn(#9'.file "'+FixFileName(n+e)+'"');
WriteExtraHeader;
{$ifdef GDB}
n_line:=n_bssline;
funcname:=nil;
linecount:=1;
includecount:=0;
fileinfo.fileindex:=1;
fileinfo.line:=1;
{ Write main file }
WriteFileLineInfo(fileinfo);
{$endif GDB}
AsmStartSize:=AsmSize;
symendcount:=0;
If (cs_debuginfo in aktmoduleswitches) then
WriteTree(debuglist);
WriteTree(codesegment);
WriteTree(datasegment);
WriteTree(consts);
WriteTree(rttilist);
WriteTree(picdata);
Writetree(resourcestringlist);
WriteTree(bsssegment);
Writetree(importssection);
{ exports are written by DLLTOOL
if we use it so don't insert it twice (PM) }
if not UseDeffileForExports and assigned(exportssection) then
Writetree(exportssection);
Writetree(resourcesection);
Writetree(dwarflist);
{$ifdef GDB}
WriteFileEndInfo;
{$ENDIF}
AsmLn;
{$ifdef EXTDEBUG}
if assigned(current_module.mainsource) then
Comment(V_Debug,'Done writing gas-styled assembler output for '+current_module.mainsource^);
{$endif EXTDEBUG}
end;
end.
Reference in New Issue View Git Blame Copy Permalink