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{
Copyright (c) 1998-2002 by Florian Klaempfl
Commandline compiler for Free Pascal
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.
****************************************************************************
}
program pp;
{
possible compiler switches:
-----------------------------------------------------------------
Supported CPUs, alphabetically sorted
-----------------------------------------------------------------
AARCH64 generate a compiler for the AARCH64 (64bit ARM)
ARM generate a compiler for the ARM
AVR generate a compiler for the AVR
I386 generate a compiler for the Intel i386+
I8086 generate a compiler for the Intel 8086+
JVM generate a compiler for the JVM (Java Virtual Machine)
M68K generate a compiler for the M68000
MIPS generate a compiler for the MIPS (Big Endian)
MIPSEL generate a compiler for the MIPSEL (Littel Endian)
POWERPC generate a compiler for the PowerPC
POWERPC64 generate a compiler for the PowerPC64 architecture
RISCV32 generate a compiler for the RiscV32 architecture
RISCV64 generate a compiler for the RiscV64 architecture
SPARC generate a compiler for SPARC
SPARC64 generate a compiler for SPARC64
WASM32 generate a compiler for WebAssembly 32-bit
X86_64 generate a compiler for the AMD x86-64 architecture
XTENSA generate a compiler for XTENSA
Z80 generate a compiler for Z80
-----------------------------------------------------------------
Other compiler switches
-----------------------------------------------------------------
CMEM use cmem unit for better memory debugging
=======
DEBUG version with debug code is generated
EXTDEBUG some extra debug code is executed
EXTERN_MSG Don't compile the msgfiles in the compiler, always
use external messagefiles, default for TP
LLVM Create an LLVM-based code generator for the selected
target architecture (not supported for all targets)
-----------------------------------------------------------------
ARM specfic switches
-----------------------------------------------------------------
FPC_ARMEL create an arm eabi compiler
FPC_ARMEB create an arm big endian compiler
FPC_OARM create an arm oabi compiler, only needed when the host
compiler is ARMEL or ARMEB
FPC_ARMHF create an armhf (eabi vfp variant) compiler
-----------------------------------------------------------------
I386 specfic switches
-----------------------------------------------------------------
SUPPORT_MMX only i386: releases the compiler switch
MMX which allows the compiler to generate
MMX instructions
-----------------------------------------------------------------
Switches automatically inside fpcdefs.inc
-----------------------------------------------------------------
cpuflags The target processor has status flags (on by default)
cpufpemu The target compiler will also support emitting software
floating point operations
cpu64bitaddr Generate code for a 64-bit address space
cpu64bitalu The target cpu has 64-bit registers and a 64 bit alu
(required for cpu64bitaddr; optional with 32 bit addr space)
-----------------------------------------------------------------
}
{$i fpcdefs.inc}
{ Require at least 2.6.0 }
{$if FPC_FULLVERSION<20600}
{$fatal At least FPC 2.6.0 is required to compile the compiler}
{$endif}
{ exactly one target CPU must be defined }
{$ifdef I8086}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif I8086}
{$ifdef I386}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif I386}
{$ifdef x86_64}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif x86_64}
{$ifdef M68K}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif M68K}
{$ifdef POWERPC}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif POWERPC}
{$ifdef POWERPC64}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif POWERPC64}
{$ifdef SPARC}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif SPARC}
{$ifdef SPARC64}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif SPARC64}
{$ifdef ARM}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif ARM}
{$ifdef MIPS}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif MIPS}
{$ifdef AVR}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif AVR}
{$ifdef JVM}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif}
{$ifdef AARCH64}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif AARCH64}
{$ifdef RISCV32}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif RISCV32}
{$ifdef RISCV64}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif RISCV64}
{$ifdef XTENSA}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif XTENSA}
{$ifdef Z80}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif Z80}
{$ifdef WASM32}
{$ifdef CPUDEFINED}
{$fatal ONLY one of the switches for the CPU type must be defined}
{$endif CPUDEFINED}
{$define CPUDEFINED}
{$endif WASM32}
{$ifndef CPUDEFINED}
{$fatal A CPU type switch must be defined}
{$endif CPUDEFINED}
{$ifdef support_mmx}
{$ifndef i386}
{$fatal I386 switch must be on for MMX support}
{$endif i386}
{$endif support_mmx}
{ Don't care about minstacksize or maxstacksize not beeing supported by current OS }
{$WARN 2077 OFF}
{$WARN 2078 OFF}
{$ifdef win32}
{ 256 MB stack }
{ under windows the stack can't grow }
{$MAXSTACKSIZE 256000000}
{$setpeflags $20}
{$else win32}
{$ifdef win64}
{ 512 MB stack }
{ under windows the stack can't grow }
{$MAXSTACKSIZE 512000000}
{$else win64}
{ 1 MB stack }
{$MINSTACKSIZE 1000000}
{$endif win64}
{$endif win32}
uses
{$ifdef heaptrc}
ppheap,
{$endif heaptrc}
{$ifdef cmem}
cmem,
{$endif cmem}
{$ifdef profile}
profile,
{$endif profile}
{$ifndef NOCATCH}
{$if defined(Unix) or defined(Go32v2) or defined(Watcom)}
catch,
{$endif}
{$endif NOCATCH}
globals,compiler;
var
oldexit : pointer;
procedure myexit;
begin
exitproc:=oldexit;
{$ifdef nocatch}
exit;
{$endif nocatch}
{ Show Runtime error if there was an error }
if (erroraddr<>nil) then
begin
case exitcode of
100:
begin
erroraddr:=nil;
writeln('Error while reading file');
end;
101:
begin
erroraddr:=nil;
writeln('Error while writing file');
end;
202:
begin
erroraddr:=nil;
writeln('Error: Stack Overflow');
end;
203:
begin
erroraddr:=nil;
writeln('Error: Out of memory');
end;
end;
{ we cannot use current_filepos.file because all memory might have been
freed already !
But we can use global parser_current_file var }
Writeln('Compilation aborted ',parser_current_file,':',current_filepos.line);
end;
end;
begin
oldexit:=exitproc;
exitproc:=@myexit;
{$ifdef EXTDEBUG}
{ Increase the maximum stack trace depth, since the default 8 is often not
enough for debugging the compiler }
Max_Frame_Dump:=50;
{$endif EXTDEBUG}
{ Call the compiler with empty command, so it will take the parameters }
Halt(compiler.Compile(''));
end.
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