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Version:
3.2.0 ▾
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{
Copyright (c) 1998-2002 by Florian Klaempfl
Routines to read/write ppu files
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.
****************************************************************************
}
unit ppu;
{$i fpcdefs.inc}
interface
uses
constexp,entfile;
{ Also write the ppu if only crc if done, this can be used with ppudump to
see the differences between the intf and implementation }
{ define INTFPPU}
{$ifdef Test_Double_checksum}
var
CRCFile : text;
const
CRC_array_Size = 200000;
type
tcrc_array = array[0..crc_array_size] of dword;
pcrc_array = ^tcrc_array;
{$endif Test_Double_checksum}
const
{ only update this version if something change in the tppuheader:
* the unit flags listed below
* the format of the header itslf
This number cannot become bigger than 255 (it's stored in a byte) }
CurrentPPUVersion = 207;
{ unit flags }
uf_init = $000001; { unit has initialization section }
uf_finalize = $000002; { unit has finalization section }
uf_big_endian = $000004;
//uf_has_browser = $000010;
uf_in_library = $000020; { is the file in another file than <ppufile>.* ? }
uf_smart_linked = $000040; { the ppu can be smartlinked }
uf_static_linked = $000080; { the ppu can be linked static }
uf_shared_linked = $000100; { the ppu can be linked shared }
//uf_local_browser = $000200;
uf_checkpointer_called = $000200; { Unit uses experimental checkpointer test code }
uf_no_link = $000400; { unit has no .o generated, but can still have external linking! }
uf_has_resourcestrings = $000800; { unit has resource string section }
uf_little_endian = $001000;
uf_release = $002000; { unit was compiled with -Ur option }
uf_threadvars = $004000; { unit has threadvars }
uf_fpu_emulation = $008000; { this unit was compiled with fpu emulation on }
uf_has_stabs_debuginfo = $010000; { this unit has stabs debuginfo generated }
uf_local_symtable = $020000; { this unit has a local symtable stored }
uf_uses_variants = $040000; { this unit uses variants }
uf_has_resourcefiles = $080000; { this unit has external resources (using $R directive)}
uf_has_exports = $100000; { this module or a used unit has exports }
uf_has_dwarf_debuginfo = $200000; { this unit has dwarf debuginfo generated }
uf_wideinits = $400000; { this unit has winlike widestring typed constants }
uf_classinits = $800000; { this unit has class constructors/destructors }
uf_resstrinits = $1000000; { this unit has string consts referencing resourcestrings }
uf_i8086_far_code = $2000000; { this unit uses an i8086 memory model with far code (i.e. medium, large or huge) }
uf_i8086_far_data = $4000000; { this unit uses an i8086 memory model with far data (i.e. compact or large) }
uf_i8086_huge_data = $8000000; { this unit uses an i8086 memory model with huge data (i.e. huge) }
uf_i8086_cs_equals_ds = $10000000; { this unit uses an i8086 memory model with CS=DS (i.e. tiny) }
uf_package_deny = $20000000; { this unit must not be part of a package }
uf_package_weak = $40000000; { this unit may be completely contained in a package }
uf_i8086_ss_equals_ds = $80000000; { this unit uses an i8086 memory model with SS=DS (i.e. tiny, small or medium) }
type
{ bestreal is defined based on the target architecture }
ppureal=bestreal;
tppuerror=(ppuentrytoobig,ppuentryerror);
tppuheader=record
common : tentryheader;
checksum : cardinal; { checksum for this ppufile }
interface_checksum : cardinal;
deflistsize,
symlistsize : longint;
indirect_checksum: cardinal;
end;
tppuentry=tentry;
tunitasmlisttype=(ualt_public,ualt_extern);
{ tppufile }
tppufile=class(tentryfile)
{$ifdef Test_Double_checksum}
public
crcindex,
crc_index,
crcindex2,
crc_index2 : cardinal;
crc_test,
crc_test2 : pcrc_array;
private
{$endif def Test_Double_checksum}
protected
procedure newheader;override;
function readheader: longint;override;
function outputallowed: boolean;override;
//procedure doputdata(const b;len:integer);override;
function getheadersize:longint;override;
function getheaderaddr:pentryheader;override;
procedure resetfile;override;
public
header : tppuheader;
{ crc for the entire unit }
crc,
{ crc for the interface definitions in this unit }
interface_crc,
{ crc of all object/class definitions in the interface of this unit, xor'ed
by the crc's of all object/class definitions in the interfaces of units
used by this unit. Reason: see mantis #13840 }
indirect_crc : cardinal;
do_crc,
do_interface_crc,
do_indirect_crc : boolean;
crc_only : boolean; { used to calculate interface_crc before implementation }
constructor Create(const fn:string);
destructor destroy;override;
function CheckPPUId:boolean;
{read}
{ nothing special currently }
{write}
function createfile:boolean;override;
procedure writeheader;override;
procedure putdata(const b;len:integer);override;
end;
implementation
uses
{$ifdef Test_Double_checksum}
comphook,
{$endif def Test_Double_checksum}
fpccrc;
function swapendian_ppureal(d:ppureal):ppureal;
type ppureal_bytes=array[0..sizeof(d)-1] of byte;
var i:0..sizeof(d)-1;
begin
for i:=low(ppureal_bytes) to high(ppureal_bytes) do
ppureal_bytes(swapendian_ppureal)[i]:=ppureal_bytes(d)[high(ppureal_bytes)-i];
end;
{*****************************************************************************
TPPUFile
*****************************************************************************}
constructor tppufile.Create(const fn:string);
begin
inherited Create(fn);
crc_only:=false;
{$ifdef Test_Double_checksum}
if not assigned(crc_test) then
new(crc_test);
if not assigned(crc_test2) then
new(crc_test2);
{$endif Test_Double_checksum}
end;
destructor tppufile.destroy;
begin
{$ifdef Test_Double_checksum}
if assigned(crc_test) then
dispose(crc_test);
crc_test:=nil;
if assigned(crc_test2) then
dispose(crc_test2);
crc_test2:=nil;
{$endif Test_Double_checksum}
inherited destroy;
end;
function tppufile.CheckPPUId:boolean;
begin
CheckPPUId:=((Header.common.Id[1]='P') and
(Header.common.Id[2]='P') and
(Header.common.Id[3]='U'));
end;
procedure tppufile.newheader;
var
s : string;
begin
fillchar(header,sizeof(tppuheader),0);
str(currentppuversion,s);
while length(s)<3 do
s:='0'+s;
with header.common do
begin
Id[1]:='P';
Id[2]:='P';
Id[3]:='U';
Ver[1]:=s[1];
Ver[2]:=s[2];
Ver[3]:=s[3];
end;
end;
function tppufile.readheader: longint;
begin
if fsize<sizeof(tppuheader) then
exit(0);
result:=f.Read(header,sizeof(tppuheader));
{ The header is always stored in little endian order }
{ therefore swap if on a big endian machine }
{$IFDEF ENDIAN_BIG}
header.common.compiler := swapendian(header.common.compiler);
header.common.cpu := swapendian(header.common.cpu);
header.common.target := swapendian(header.common.target);
header.common.flags := swapendian(header.common.flags);
header.common.size := swapendian(header.common.size);
header.checksum := swapendian(header.checksum);
header.interface_checksum := swapendian(header.interface_checksum);
header.indirect_checksum := swapendian(header.indirect_checksum);
header.deflistsize:=swapendian(header.deflistsize);
header.symlistsize:=swapendian(header.symlistsize);
{ the PPU DATA is stored in native order }
change_endian := (header.common.flags and uf_little_endian) = uf_little_endian;
{$ELSE not ENDIAN_BIG}
change_endian := (header.common.flags and uf_big_endian) = uf_big_endian;
{$ENDIF}
end;
function tppufile.outputallowed: boolean;
begin
result:=not crc_only;
end;
{*****************************************************************************
TPPUFile Reading
*****************************************************************************}
{ nothing special currently }
{*****************************************************************************
TPPUFile Writing
*****************************************************************************}
function tppufile.createfile:boolean;
begin
{$ifdef INTFPPU}
if crc_only then
begin
fname:=fname+'.intf';
crc_only:=false;
end;
{$endif}
result:=inherited createfile;
end;
procedure tppufile.writeheader;
var
opos : integer;
begin
if crc_only then
exit;
{ flush buffer }
writebuf;
{ update size (w/o header!) in the header }
header.common.size:=bufstart-sizeof(tppuheader);
{ set the endian flag }
{$ifndef FPC_BIG_ENDIAN}
header.common.flags := header.common.flags or uf_little_endian;
{$else not FPC_BIG_ENDIAN}
header.common.flags := header.common.flags or uf_big_endian;
{ Now swap the header.common in the correct endian (always little endian) }
header.common.compiler := swapendian(header.common.compiler);
header.common.cpu := swapendian(header.common.cpu);
header.common.target := swapendian(header.common.target);
header.common.flags := swapendian(header.common.flags);
header.common.size := swapendian(header.common.size);
header.checksum := swapendian(header.checksum);
header.interface_checksum := swapendian(header.interface_checksum);
header.indirect_checksum := swapendian(header.indirect_checksum);
header.deflistsize:=swapendian(header.deflistsize);
header.symlistsize:=swapendian(header.symlistsize);
{$endif not FPC_BIG_ENDIAN}
{ write header and restore filepos after it }
opos:=f.Position;
f.Position:=0;
f.Write(header,sizeof(tppuheader));
f.Position:=opos;
end;
procedure tppufile.putdata(const b;len:integer);
begin
if do_crc then
begin
crc:=UpdateCrc32(crc,b,len);
{$ifdef Test_Double_checksum}
if crc_only then
begin
crc_test2^[crc_index2]:=crc;
{$ifdef Test_Double_checksum_write}
Writeln(CRCFile,crc);
{$endif Test_Double_checksum_write}
if crc_index2<crc_array_size then
inc(crc_index2);
end
else
begin
if (crcindex2<crc_array_size) and (crcindex2<crc_index2) and
(crc_test2^[crcindex2]<>crc) then
Do_comment(V_Note,'impl CRC changed');
{$ifdef Test_Double_checksum_write}
Writeln(CRCFile,crc);
{$endif Test_Double_checksum_write}
inc(crcindex2);
end;
{$endif def Test_Double_checksum}
if do_interface_crc then
begin
interface_crc:=UpdateCrc32(interface_crc,b,len);
{$ifdef Test_Double_checksum}
if crc_only then
begin
crc_test^[crc_index]:=interface_crc;
{$ifdef Test_Double_checksum_write}
Writeln(CRCFile,interface_crc);
{$endif Test_Double_checksum_write}
if crc_index<crc_array_size then
inc(crc_index);
end
else
begin
if (crcindex<crc_array_size) and (crcindex<crc_index) and
(crc_test^[crcindex]<>interface_crc) then
Do_comment(V_Warning,'CRC changed');
{$ifdef Test_Double_checksum_write}
Writeln(CRCFile,interface_crc);
{$endif Test_Double_checksum_write}
inc(crcindex);
end;
{$endif def Test_Double_checksum}
{ indirect crc must only be calculated for the interface; changes
to a class in the implementation cannot require another unit to
be recompiled }
if do_indirect_crc then
indirect_crc:=UpdateCrc32(indirect_crc,b,len);
end;
end;
inherited putdata(b,len);
(*if not crc_only then
writedata(b,len);
inc(entryidx,len);*)
end;
function tppufile.getheadersize: longint;
begin
result:=sizeof(header);
end;
function tppufile.getheaderaddr: pentryheader;
begin
result:=@header;
end;
procedure tppufile.resetfile;
begin
crc:=0;
interface_crc:=0;
indirect_crc:=0;
do_interface_crc:=true;
do_indirect_crc:=false;
do_crc:=true;
end;
end.