{
Copyright (c) 1998-2002 by Peter Vreman and Florian Klaempfl
Convert i386reg.dat to several .inc files for usage with
the Free pascal compiler
See the file COPYING.FPC, included in this distribution,
for details about the copyright.
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.
**********************************************************************}
{$mode objfpc}
{$i+}
program mkx86reg;
const Version = '1.00';
max_regcount = 255;
var s : string;
i : longint;
line : longint;
regcount:longint;
regcount_bsstart:byte;
names,numbers,stdnames,intnames,nasmnames,attnames,stabs,dwarf16,dwarf32,dwarf64,ots,ops:
array[0..max_regcount-1] of string[63];
regnumber_index,std_regname_index,int_regname_index,att_regname_index,
nasm_regname_index:array[0..max_regcount-1] of byte;
i8086 : boolean;
x86_64 : boolean;
fileprefix : string;
function tostr(l : longint) : string;
begin
str(l,tostr);
end;
function readstr : string;
begin
result:='';
while (s[i]<>',') and (i<=length(s)) do
begin
result:=result+s[i];
inc(i);
end;
readstr:=result;
end;
procedure readcomma;
begin
if s[i]<>',' then
begin
writeln('Missing "," at line ',line);
writeln('Line: "',s,'"');
halt(1);
end;
inc(i);
end;
procedure skipspace;
begin
while (s[i] in [' ',#9]) do
inc(i);
end;
procedure openinc(out f:text;const fn:string);
begin
writeln('creating ',fn);
assign(f,fn);
rewrite(f);
writeln(f,'{ don''t edit, this file is generated from x86reg.dat }');
end;
procedure closeinc(var f:text);
begin
writeln(f);
close(f);
end;
procedure build_regnum_index;
var h,i,j,p,t:byte;
begin
{Build the registernumber2regindex index.
Step 1: Fill.}
for i:=0 to regcount-1 do
regnumber_index[i]:=i;
{Step 2: Sort. We use a Shell-Metzner sort.}
p:=regcount_bsstart;
repeat
for h:=0 to regcount-p-1 do
begin
i:=h;
repeat
j:=i+p;
if numbers[regnumber_index[j]]>=numbers[regnumber_index[i]] then
break;
t:=regnumber_index[i];
regnumber_index[i]:=regnumber_index[j];
regnumber_index[j]:=t;
if i<p then
break;
dec(i,p);
until false;
end;
p:=p shr 1;
until p=0;
end;
procedure build_std_regname_index;
var h,i,j,p,t:byte;
begin
{Build the registernumber2regindex index.
Step 1: Fill.}
for i:=0 to regcount-1 do
std_regname_index[i]:=i;
{Step 2: Sort. We use a Shell-Metzner sort.}
p:=regcount_bsstart;
repeat
for h:=0 to regcount-p-1 do
begin
i:=h;
repeat
j:=i+p;
if stdnames[std_regname_index[j]]>=stdnames[std_regname_index[i]] then
break;
t:=std_regname_index[i];
std_regname_index[i]:=std_regname_index[j];
std_regname_index[j]:=t;
if i<p then
break;
dec(i,p);
until false;
end;
p:=p shr 1;
until p=0;
end;
procedure build_int_regname_index;
var h,i,j,p,t:byte;
begin
{Build the registernumber2regindex index.
Step 1: Fill.}
for i:=0 to regcount-1 do
int_regname_index[i]:=i;
{Step 2: Sort. We use a Shell-Metzner sort.}
p:=regcount_bsstart;
repeat
for h:=0 to regcount-p-1 do
begin
i:=h;
repeat
j:=i+p;
if intnames[int_regname_index[j]]>=intnames[int_regname_index[i]] then
break;
t:=int_regname_index[i];
int_regname_index[i]:=int_regname_index[j];
int_regname_index[j]:=t;
if i<p then
break;
dec(i,p);
until false;
end;
p:=p shr 1;
until p=0;
end;
procedure build_att_regname_index;
var h,i,j,p,t:byte;
begin
{Build the registernumber2regindex index.
Step 1: Fill.}
for i:=0 to regcount-1 do
att_regname_index[i]:=i;
{Step 2: Sort. We use a Shell-Metzner sort.}
p:=regcount_bsstart;
repeat
for h:=0 to regcount-p-1 do
begin
i:=h;
repeat
j:=i+p;
if attnames[att_regname_index[j]]>=attnames[att_regname_index[i]] then
break;
t:=att_regname_index[i];
att_regname_index[i]:=att_regname_index[j];
att_regname_index[j]:=t;
if i<p then
break;
dec(i,p);
until false;
end;
p:=p shr 1;
until p=0;
end;
procedure build_nasm_regname_index;
var h,i,j,p,t:byte;
begin
{Build the registernumber2regindex index.
Step 1: Fill.}
for i:=0 to regcount-1 do
nasm_regname_index[i]:=i;
{Step 2: Sort. We use a Shell-Metzner sort.}
p:=regcount_bsstart;
repeat
for h:=0 to regcount-p-1 do
begin
i:=h;
repeat
j:=i+p;
if nasmnames[nasm_regname_index[j]]>=nasmnames[nasm_regname_index[i]] then
break;
t:=nasm_regname_index[i];
nasm_regname_index[i]:=nasm_regname_index[j];
nasm_regname_index[j]:=t;
if i<p then
break;
dec(i,p);
until false;
end;
p:=p shr 1;
until p=0;
end;
procedure read_x86reg_file;
var infile:text;
cpustr:string;
begin
{ open dat file }
assign(infile,'../x86/x86reg.dat');
reset(infile);
while not(eof(infile)) do
begin
{ handle comment }
readln(infile,s);
inc(line);
while (s[1]=' ') do
delete(s,1,1);
if (s='') or (s[1]=';') then
continue;
i:=1;
names[regcount]:=readstr;
readcomma;
numbers[regcount]:=readstr;
readcomma;
stdnames[regcount]:=readstr;
readcomma;
attnames[regcount]:=readstr;
readcomma;
intnames[regcount]:=readstr;
readcomma;
nasmnames[regcount]:=readstr;
readcomma;
stabs[regcount]:=readstr;
readcomma;
dwarf16[regcount]:=readstr;
readcomma;
dwarf32[regcount]:=readstr;
readcomma;
dwarf64[regcount]:=readstr;
readcomma;
ots[regcount]:=readstr;
readcomma;
ops[regcount]:=readstr;
if s[i]=',' then
begin
readcomma;
cpustr:=readstr;
end
else
cpustr:='';
if i<length(s) then
begin
writeln('Extra chars at end of line, at line ',line);
writeln('Line: "',s,'"');
halt(1);
end;
if (cpustr<>'64') or x86_64 then
begin
inc(regcount);
if regcount>max_regcount then
begin
writeln('Error: Too much registers, please increase maxregcount in source');
halt(2);
end;
end;
end;
close(infile);
end;
procedure write_inc_files;
var attfile,intfile,otfile,
norfile,nasmfile,stdfile,
numfile,stabfile,dwrffile,confile,
rnifile,irifile,srifile,
arifile,nrifile:text;
first:boolean;
begin
{ create inc files }
openinc(confile,fileprefix+'con.inc');
openinc(numfile,fileprefix+'num.inc');
openinc(stdfile,fileprefix+'std.inc');
openinc(attfile,fileprefix+'att.inc');
openinc(intfile,fileprefix+'int.inc');
openinc(nasmfile,fileprefix+'nasm.inc');
openinc(stabfile,fileprefix+'stab.inc');
openinc(dwrffile,fileprefix+'dwrf.inc');
openinc(otfile,fileprefix+'ot.inc');
openinc(norfile,fileprefix+'nor.inc');
openinc(rnifile,fileprefix+'rni.inc');
openinc(srifile,fileprefix+'sri.inc');
openinc(arifile,fileprefix+'ari.inc');
openinc(irifile,fileprefix+'iri.inc');
openinc(nrifile,fileprefix+'nri.inc');
first:=true;
for i:=0 to regcount-1 do
begin
if not first then
begin
writeln(numfile,',');
writeln(stdfile,',');
writeln(attfile,',');
writeln(intfile,',');
writeln(nasmfile,',');
writeln(stabfile,',');
writeln(dwrffile,',');
writeln(otfile,',');
writeln(rnifile,',');
writeln(srifile,',');
writeln(arifile,',');
writeln(irifile,',');
writeln(nrifile,',');
end
else
first:=false;
writeln(confile,names[i],' = ','tregister(',numbers[i],')',';');
write(numfile,'tregister(',numbers[i],')');
write(stdfile,'''',stdnames[i],'''');
write(attfile,'''',attnames[i],'''');
write(intfile,'''',intnames[i],'''');
write(nasmfile,'''',nasmnames[i],'''');
{ stabs uses the same register numbering as dwarf
for x86_64 CPU }
if x86_64 then
write(stabfile,dwarf64[i])
else
write(stabfile,stabs[i]);
if x86_64 then
write(dwrffile,dwarf64[i])
else if i8086 then
write(dwrffile,dwarf16[i])
else
write(dwrffile,dwarf32[i]);
write(otfile,ots[i]);
write(rnifile,regnumber_index[i]);
write(srifile,std_regname_index[i]);
write(arifile,att_regname_index[i]);
write(irifile,int_regname_index[i]);
write(nrifile,nasm_regname_index[i]);
end;
write(norfile,regcount);
close(confile);
closeinc(numfile);
closeinc(attfile);
closeinc(stdfile);
closeinc(intfile);
closeinc(nasmfile);
closeinc(stabfile);
closeinc(dwrffile);
closeinc(otfile);
closeinc(norfile);
closeinc(rnifile);
closeinc(srifile);
closeinc(arifile);
closeinc(irifile);
closeinc(nrifile);
writeln('Done!');
writeln(regcount,' registers processed');
end;
begin
writeln('Register Table Converter Version ',Version);
if paramcount=0 then
begin
i8086:=false;
x86_64:=false;
end
else
begin
i8086:=paramstr(1)='i8086';
x86_64:=paramstr(1)='x86_64';
if (paramcount<>1) or
((paramstr(1)<>'i8086') and (paramstr(1)<>'i386') and (paramstr(1)<>'x86_64')) then
begin
writeln('Usage: ',paramstr(0));
writeln('Only one optional parameter is allowed: i8086, i386 or x86_64');
halt(1);
end;
end;
if x86_64 then
begin
fileprefix:='r8664';
writeln('Processing for CPU x86_64');
end
else if i8086 then
begin
fileprefix:='r8086';
writeln('Processing for CPU i8086');
end
else
begin
fileprefix:='r386';
writeln('Processing for CPU i386');
end;
line:=0;
regcount:=0;
read_x86reg_file;
regcount_bsstart:=1;
while 2*regcount_bsstart<regcount do
regcount_bsstart:=regcount_bsstart*2;
build_regnum_index;
build_int_regname_index;
if not(x86_64) then
build_nasm_regname_index;
build_std_regname_index;
build_att_regname_index;
write_inc_files;
end.