#!/usr/bin/perl
$TARGETPLATFORM  = "i386-unknown-openbsd";
$TABLES_NEXT_TO_CODE  = "YES";





























































$TargetPlatform = $TARGETPLATFORM;

($Pgm = $0) =~ s|.*/||m;
$ifile = $ARGV[0];
$ofile = $ARGV[1];

if ( $TargetPlatform =~ /^i386-/m ) {
    if ($ARGV[2] eq '') {
	$StolenX86Regs = 4;
    } else {
        $StolenX86Regs = $ARGV[2];
    }
}

&mangle_asm($ifile,$ofile);

exit(0);









sub init_TARGET_STUFF {

    #--------------------------------------------------------#
    if ( $TargetPlatform =~ /^alpha-.*-.*/m ) {

    $T_STABBY	    = 0; # 1 iff .stab things (usually if a.out format)
    $T_US	    = ''; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = 'DONT THINK THIS APPLIES'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^\$L?C(\d+):$'; # regexp for what such a lbl looks like
    $T_POST_LBL	    = ':';

    $T_MOVE_DIRVS   = '^(\s*(\$.*\.\.ng:|\.align\s+\d+|\.(globl|ent)\s+\S+|\#.*|\.(file|loc)\s+\S+\s+\S+|\.text|\.r?data)\n)';
    $T_COPY_DIRVS   = '^\s*(\$.*\.\.ng:|\#|\.(file|globl|ent|loc))';

    $T_DOT_WORD	    = '\.(long|quad|byte|word)';
    $T_DOT_GLOBAL   = '^\t\.globl';
    $T_HDR_literal  = "\.rdata\n\t\.align 3\n";
    $T_HDR_misc	    = "\.text\n\t\.align 3\n";
    $T_HDR_data	    = "\.data\n\t\.align 3\n";
    $T_HDR_rodata   = "\.rdata\n\t\.align 3\n";
    $T_HDR_closure  = "\.data\n\t\.align 3\n";
    $T_HDR_info	    = "\.text\n\t\.align 3\n";
    $T_HDR_entry    = "\.text\n\t\.align 3\n";
    $T_HDR_vector   = "\.text\n\t\.align 3\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^hppa/m ) {

    $T_STABBY	    = 0; # 1 iff .stab things (usually if a.out format)
    $T_US	    = ''; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = 'DONT THINK THIS APPLIES'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^L\$C(\d+)$'; # regexp for what such a lbl looks like
    $T_POST_LBL	    = '';

    $T_MOVE_DIRVS   = '^((\s+\.(IMPORT|EXPORT|PARAM).*|\s+\.align\s+\d+|\s+\.(SPACE|SUBSPA)\s+\S+|\s*)\n)';
    $T_COPY_DIRVS   = '^\s+\.(IMPORT|EXPORT)';

    $T_DOT_WORD	    = '\.(blockz|word|half|byte)';
    $T_DOT_GLOBAL   = '^\s+\.EXPORT';
    $T_HDR_literal  = "\t.SPACE \$TEXT\$\n\t.SUBSPA \$LIT\$\n";
    $T_HDR_misc	    = "\t.SPACE \$TEXT\$\n\t.SUBSPA \$CODE\$\n\t\.align 4\n";
    $T_HDR_data	    = "\t.SPACE \$PRIVATE\$\n\t.SUBSPA \$DATA\$\n\t\.align 4\n";
    $T_HDR_rodata   = "\t.SPACE \$PRIVATE\$\n\t.SUBSPA \$DATA\$\n\t\.align 4\n";
    $T_HDR_closure  = "\t.SPACE \$PRIVATE\$\n\t.SUBSPA \$DATA\$\n\t\.align 4\n";
    $T_HDR_info	    = "\t.SPACE \$TEXT\$\n\t.SUBSPA \$CODE\$\n\t\.align 4\n";
    $T_HDR_entry    = "\t.SPACE \$TEXT\$\n\t.SUBSPA \$CODE\$\n\t\.align 4\n";
    $T_HDR_vector   = "\t.SPACE \$TEXT\$\n\t.SUBSPA \$CODE\$\n\t\.align 4\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^i386-.*-(linuxaout|freebsd2|nextstep3|cygwin32|mingw32)$/m ) {
				# NeXT added but not tested. CaS

    $T_STABBY	    = 1; # 1 iff .stab things (usually if a.out format)
    $T_US	    = '_'; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = '^#'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^LC(\d+):$';
    $T_POST_LBL	    = ':';
    $T_X86_PRE_LLBL_PAT = 'L';
    $T_X86_PRE_LLBL	    = 'L';
    $T_X86_BADJMP   = '^\tjmp [^L\*]';

    $T_MOVE_DIRVS   = '^(\s*(\.(p2)?align\s.*|\.globl\s+\S+|\.text|\.data|\.stab[^n].*|\.type\s+.*|\.size\s+.*|\.lcomm.*)\n)';
    $T_COPY_DIRVS   = '\.(globl|stab|lcomm)';
    $T_DOT_WORD	    = '\.(long|word|value|byte|space)';
    $T_DOT_GLOBAL   = '\.globl';
    $T_HDR_literal  = "\.text\n\t\.align 4\n";
    $T_HDR_misc	    = "\.text\n\t\.align 4,0x90\n";
    $T_HDR_data	    = "\.data\n\t\.align 4\n";
    $T_HDR_rodata   = "\.text\n\t\.align 4\n";
    $T_HDR_closure  = "\.data\n\t\.align 4\n";
    $T_HDR_info	    = "\.text\n\t\.align 4\n"; # NB: requires padding
    $T_HDR_entry    = "\.text\n"; # no .align so we're right next to _info (arguably wrong...?)
    $T_HDR_vector   = "\.text\n\t\.align 4\n"; # NB: requires padding

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^i386-.*-(solaris2|linux|gnu|freebsd|dragonfly|netbsd|openbsd|kfreebsdgnu)$/m ) {

    $T_STABBY	    = 0; # 1 iff .stab things (usually if a.out format)
    $T_US	    = ''; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = # regexp that says what comes before APP/NO_APP
		      ($TargetPlatform =~ /-(linux|gnu|freebsd|dragonfly|netbsd|openbsd)$/m) ? '#' : '/' ;
    $T_CONST_LBL    = '^\.LC(\d+):$'; # regexp for what such a lbl looks like
    $T_POST_LBL	    = ':';
    $T_X86_PRE_LLBL_PAT = '\.L';
    $T_X86_PRE_LLBL	    = '.L';
    $T_X86_BADJMP   = '^\tjmp\s+[^\.\*]';

    $T_MOVE_DIRVS   = '^(\s*(\.(p2)?align\s.*|\.globl\s+\S+|\.text|\.data|\.section\s+.*|\.type\s+.*|\.size\s+\S+\s*,\s*\d+|\.ident.*|\.local.*)\n)';
    if ( $TargetPlatform =~ /solaris2/m ) {
            # newer Solaris linkers are picky about .size information, so
            # omit it (see #1421)
            $T_COPY_DIRVS   = '^\s*\.(globl|local)';
    } else {
            $T_COPY_DIRVS   = '^\s*\.(globl|type|size|local)';
    }

    $T_DOT_WORD	    = '\.(long|value|word|byte|zero)';
    $T_DOT_GLOBAL   = '\.globl';
    $T_HDR_literal  = "\.section\t\.rodata\n"; # or just use .text??? (WDP 95/11)
    $T_HDR_misc	    = "\.text\n\t\.align 4\n";
    $T_HDR_data	    = "\.data\n\t\.align 4\n";
    $T_HDR_rodata   = "\.section\t\.rodata\n\t\.align 4\n";
    $T_HDR_closure  = "\.data\n\t\.align 4\n";
    $T_HDR_info	    = "\.text\n\t\.align 4\n";
    $T_HDR_entry    = "\.text\n"; # no .align so we're right next to _info (arguably wrong...?)
    $T_HDR_vector   = "\.text\n\t\.align 4\n"; # NB: requires padding

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^ia64-.*-linux$/m ) {

    $T_STABBY       = 0; # 1 iff .stab things (usually if a.out format)
    $T_US           = ''; # _ if symbols have an underscore on the front
    $T_PRE_APP      = '#';
    $T_CONST_LBL    = '^\.LC(\d+):$'; # regexp for what such a lbl looks like
    $T_POST_LBL     = ':';

    $T_MOVE_DIRVS   = '^(\s*\.(global|proc|pred\.safe_across_calls|text|data|section|subsection|align|size|type|ident)\s+.*\n)';
    $T_COPY_DIRVS   = '\.(global|proc)';

    $T_DOT_WORD     = '\.(long|value|byte|zero)';
    $T_DOT_GLOBAL   = '\.global';
    $T_HDR_literal  = "\.section\t\.rodata\n";
    $T_HDR_misc     = "\.text\n\t\.align 16\n"; # May contain code; align like 'entry'
    $T_HDR_data     = "\.data\n\t\.align 8\n";
    $T_HDR_rodata   = "\.section\t\.rodata\n\t\.align 8\n";
    $T_HDR_closure  = "\.data\n\t\.align 8\n";
    $T_HDR_info     = "\.text\n\t\.align 8\n";
    $T_HDR_entry    = "\.text\n\t\.align 16\n";
    $T_HDR_vector   = "\.text\n\t\.align 8\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^x86_64-.*-(linux|openbsd|freebsd|dragonfly|netbsd)$/m ) {

    $T_STABBY       = 0; # 1 iff .stab things (usually if a.out format)
    $T_US           = ''; # _ if symbols have an underscore on the front
    $T_PRE_APP      = '#';
    $T_CONST_LBL    = '^\.LC(\d+):$'; # regexp for what such a lbl looks like
    $T_POST_LBL     = ':';

    $T_MOVE_DIRVS   = '^(\s*\.(globl|text|data|section|align|size|type|ident|local)([ \t].*)?\n)';
    $T_COPY_DIRVS   = '\.(globl|type|size|local)';

    $T_DOT_WORD     = '\.(quad|long|value|byte|zero)';
    $T_DOT_GLOBAL   = '\.global';

    $T_HDR_literal16 = "\.section\t\.rodata.cst16\n\t.align 16\n";
    $T_HDR_literal  = "\.section\t\.rodata\n";

    $T_HDR_misc     = "\.text\n\t\.align 8\n";
    $T_HDR_data     = "\.data\n\t\.align 8\n";
    $T_HDR_rodata   = "\.section\t\.rodata\n\t\.align 8\n";

	# the assembler on x86_64/Linux refuses to generate code for
	#   .quad  x - y
	# where x is in the text section and y in the rodata section.
	# It works if y is in the text section, though.  This is probably
	# going to cause difficulties for PIC, I imagine.
        #       
        # See Note [x86-64-relative] in includes/InfoTables.h
    $T_HDR_relrodata= "\.text\n\t\.align 8\n";

    $T_HDR_closure  = "\.data\n\t\.align 8\n";
    $T_HDR_info     = "\.text\n\t\.align 8\n";
    $T_HDR_entry    = "\.text\n\t\.align 8\n";
    $T_HDR_vector   = "\.text\n\t\.align 8\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^m68k-.*-sunos4/m ) {

    $T_STABBY	    = 1; # 1 iff .stab things (usually if a.out format)
    $T_US	    = '_'; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = '^# MAY NOT APPLY'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^LC(\d+):$';
    $T_POST_LBL	    = ':';

    $T_MOVE_DIRVS   = '^(\s*(\.align\s+\d+|\.proc\s+\d+|\.const|\.cstring|\.globl\s+\S+|\.text|\.data|\.even|\.stab[^n].*)\n)';
    $T_COPY_DIRVS   = '\.(globl|proc|stab)';

    $T_DOT_WORD	    = '\.long';
    $T_DOT_GLOBAL   = '\.globl';
    $T_HDR_literal  = "\.text\n\t\.even\n";
    $T_HDR_misc	    = "\.text\n\t\.even\n";
    $T_HDR_data	    = "\.data\n\t\.even\n";
    $T_HDR_rodata   = "\.text\n\t\.even\n";
    $T_HDR_closure  = "\.data\n\t\.even\n";
    $T_HDR_info	    = "\.text\n\t\.even\n";
    $T_HDR_entry    = "\.text\n\t\.even\n";
    $T_HDR_vector   = "\.text\n\t\.even\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^mips-.*/m ) {

    $T_STABBY	    = 0; # 1 iff .stab things (usually if a.out format)
    $T_US	    = ''; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = '^\s*#'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^\$LC(\d+):$'; # regexp for what such a lbl looks like
    $T_POST_LBL	    = ':';

    $T_MOVE_DIRVS   = '^(\s*(\.align\s+\d+|\.(globl|ent)\s+\S+|\.text|\.r?data)\n)';
    $T_COPY_DIRVS   = '\.(globl|ent)';

    $T_DOT_WORD	    = '\.word';
    $T_DOT_GLOBAL   = '^\t\.globl';
    $T_HDR_literal  = "\t\.rdata\n\t\.align 2\n";
    $T_HDR_misc	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_data	    = "\t\.data\n\t\.align 2\n";
    $T_HDR_rodata   = "\t\.rdata\n\t\.align 2\n";
    $T_HDR_closure  = "\t\.data\n\t\.align 2\n";
    $T_HDR_info	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_entry    = "\t\.text\n\t\.align 2\n";
    $T_HDR_vector   = "\t\.text\n\t\.align 2\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^powerpc-apple-darwin.*/m ) {
				# Apple PowerPC Darwin/MacOS X.
    $T_STABBY	    = 0; # 1 iff .stab things (usually if a.out format)
    $T_US	    = '_'; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = 'DOESNT APPLY'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^\LC\d+:'; # regexp for what such a lbl looks like
    $T_POST_LBL	    = ':';

    $T_MOVE_DIRVS   = '^(\s*(\.(p2)?align\s.*|\.text|\.data|\.const_data|\.cstring|\.non_lazy_symbol_pointer|\.const|\.static_const|\.literal4|\.literal8|\.static_data|\.globl \S+|\.section .*|\.lcomm.*)\n)';
    $T_COPY_DIRVS   = '\.(globl|lcomm)';

    $T_DOT_WORD	    = '\.(long|short|byte|fill|space)';
    $T_DOT_GLOBAL   = '\.globl';
    $T_HDR_toc      = "\.toc\n";
    $T_HDR_literal  = "\t\.const\n\t\.align 2\n";
    $T_HDR_misc	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_data	    = "\t\.data\n\t\.align 2\n";
    $T_HDR_rodata   = "\t\.const\n\t\.align 2\n";
    $T_HDR_relrodata= "\t\.const_data\n\t\.align 2\n";
    $T_HDR_closure  = "\t\.data\n\t\.align 2\n";
    $T_HDR_info	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_entry    = "\t\.text\n\t\.align 2\n";
    $T_HDR_vector   = "\t\.text\n\t\.align 2\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^i386-apple-darwin.*/m ) {
				# Apple i386 Darwin/MacOS X.
    $T_STABBY	    = 0; # 1 iff .stab things (usually if a.out format)
    $T_US	    = '_'; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = 'DOESNT APPLY'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^\LC\d+:'; # regexp for what such a lbl looks like
    $T_POST_LBL	    = ':';
    $T_X86_PRE_LLBL_PAT = 'L';
    $T_X86_PRE_LLBL	    = 'L';
    $T_X86_BADJMP   = '^\tjmp [^L\*]';

    $T_MOVE_DIRVS   = '^(\s*(\.(p2)?align\s.*|\.text|\.data|\.const_data|\.cstring|\.non_lazy_symbol_pointer|\.const|\.static_const|\.literal4|\.literal8|\.static_data|\.globl \S+|\.section .*|\.lcomm.*)\n)';
    $T_COPY_DIRVS   = '\.(globl|lcomm)';

    $T_DOT_WORD	    = '\.(long|short|byte|fill|space)';
    $T_DOT_GLOBAL   = '\.globl';
    $T_HDR_toc      = "\.toc\n";
    $T_HDR_literal16= "\t\.literal8\n\t\.align 4\n";
    $T_HDR_literal  = "\t\.const\n\t\.align 4\n";
    $T_HDR_misc	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_data	    = "\t\.data\n\t\.align 2\n";
    $T_HDR_rodata   = "\t\.const\n\t\.align 2\n";
    $T_HDR_relrodata= "\t\.const_data\n\t\.align 2\n";
    $T_HDR_closure  = "\t\.data\n\t\.align 2\n";
    $T_HDR_info	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_entry    = "\t\.text\n\t\.align 2\n";
    $T_HDR_vector   = "\t\.text\n\t\.align 2\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^x86_64-apple-darwin.*/m ) {
				# Apple amd64 Darwin/MacOS X.
    $T_STABBY	    = 0; # 1 iff .stab things (usually if a.out format)
    $T_US	    = '_'; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = 'DOESNT APPLY'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^\LC\d+:'; # regexp for what such a lbl looks like
    $T_POST_LBL	    = ':';

    $T_MOVE_DIRVS   = '^(\s*(\.align \d+|\.text|\.data|\.const_data|\.cstring|\.non_lazy_symbol_pointer|\.const|\.static_const|\.literal4|\.literal8|\.static_data|\.globl \S+|\.section .*|\.lcomm.*)\n)';
    $T_COPY_DIRVS   = '\.(globl|lcomm)';

    $T_DOT_WORD	    = '\.(quad|long|short|byte|fill|space)';
    $T_DOT_GLOBAL   = '\.globl';
    $T_HDR_toc      = "\.toc\n";
    $T_HDR_literal16= "\t\.literal8\n\t\.align 4\n";
    $T_HDR_literal  = "\t\.const\n\t\.align 4\n";
    $T_HDR_misc	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_data	    = "\t\.data\n\t\.align 2\n";
    $T_HDR_rodata   = "\t\.const\n\t\.align 2\n";
    $T_HDR_relrodata= "\t\.const_data\n\t\.align 2\n";
    $T_HDR_closure  = "\t\.data\n\t\.align 2\n";
    $T_HDR_info	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_entry    = "\t\.text\n\t\.align 2\n";
    $T_HDR_vector   = "\t\.text\n\t\.align 2\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^powerpc-.*-linux/m ) {
				# PowerPC Linux
    $T_STABBY	    = 0; # 1 iff .stab things (usually if a.out format)
    $T_US	    = ''; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = '^#'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^\.LC\d+:'; # regexp for what such a lbl looks like
    $T_POST_LBL	    = ':';

    $T_MOVE_DIRVS   = '^(\s*(\.(p2)?align\s+\d+(,\s*0x90)?|\.globl\s+\S+|\.text|\.data|\.section\s+.*|\.type\s+.*|\.size\s+\S+\s*,\s*\d+|\.ident.*|\.local.*)\n)';
    $T_COPY_DIRVS   = '^\s*\.(globl|type|size|local)';

    $T_DOT_WORD	    = '\.(long|short|byte|fill|space)';
    $T_DOT_GLOBAL   = '\.globl';
    $T_HDR_toc      = "\.toc\n";
    $T_HDR_literal  = "\t\.section\t.rodata\n\t\.align 2\n";
    $T_HDR_misc	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_data	    = "\t\.data\n\t\.align 2\n";
    $T_HDR_rodata   = "\t\.section\t.rodata\n\t\.align 2\n";
    $T_HDR_closure  = "\t\.data\n\t\.align 2\n";
    $T_HDR_info	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_entry    = "\t\.text\n\t\.align 2\n";
    $T_HDR_vector   = "\t\.text\n\t\.align 2\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^powerpc64-.*-linux/m ) {
				# PowerPC 64 Linux
    $T_STABBY	    = 0; # 1 iff .stab things (usually if a.out format)
    $T_US	    = '\.'; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = '^#'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^\.LC\d+:'; # regexp for what such a lbl looks like
    $T_POST_LBL	    = ':';

    $T_MOVE_DIRVS   = '^(\s*(\.(p2)?align\s+\d+(,\s*0x90)?|\.globl\s+\S+|\.text|\.data|\.section\s+.*|\.type\s+.*|\.size\s+\S+\s*,\s*\d+|\.ident.*|\.local.*)\n)';
    $T_COPY_DIRVS   = '^\s*\.(globl|type|size|local)';

    $T_DOT_WORD	    = '\.(long|short|byte|fill|space)';
    $T_DOT_GLOBAL   = '\.globl';
    $T_HDR_toc      = "\.toc\n";
    $T_HDR_literal  = "\t\.section\t\".toc\",\"aw\"\n";
    $T_HDR_misc	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_data	    = "\t\.data\n\t\.align 2\n";
    $T_HDR_rodata   = "\t\.section\t.rodata\n\t\.align 2\n";
    $T_HDR_closure  = "\t\.data\n\t\.align 2\n";
    $T_HDR_info	    = "\t\.text\n\t\.align 2\n";
    $T_HDR_entry    = "\t\.text\n\t\.align 2\n";
    $T_HDR_vector   = "\t\.text\n\t\.align 2\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^sparc-.*-(solaris2|openbsd)/m ) {

    $T_STABBY	    = 0; # 1 iff .stab things (usually if a.out format)
    $T_US	    = ''; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = 'DOES NOT SEEM TO APPLY'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^\.LLC(\d+):$'; # regexp for what such a lbl looks like
    $T_POST_LBL	    = ':';

    $T_MOVE_DIRVS   =  '^((\s+\.align\s+\d+|\s+\.proc\s+\d+|\s+\.global\s+\S+|\s+\.local\s+\S+|\.text|\.data|\.stab.*|\s*\.section.*|\s+\.type.*|\s+\.size.*)\n)';
    $T_COPY_DIRVS   = '\.(global|local|proc|stab)';

    $T_DOT_WORD	    = '\.(long|word|byte|half|skip|uahalf|uaword)';
    $T_DOT_GLOBAL   = '^\t\.global';
    $T_HDR_literal  = "\.text\n\t\.align 8\n";
    $T_HDR_misc	    = "\.text\n\t\.align 4\n";
    $T_HDR_data	    = "\.data\n\t\.align 8\n";
    $T_HDR_rodata   = "\.text\n\t\.align 4\n";
    $T_HDR_closure  = "\.data\n\t\.align 4\n";
    $T_HDR_info     = "\.text\n\t\.align 4\n";
    $T_HDR_entry    = "\.text\n\t\.align 4\n";
    $T_HDR_vector   = "\.text\n\t\.align 4\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^sparc-.*-sunos4/m ) {

    $T_STABBY	    = 1; # 1 iff .stab things (usually if a.out format)
    $T_US	    = '_'; # _ if symbols have an underscore on the front
    $T_PRE_APP	    = '^# DOES NOT SEEM TO APPLY'; # regexp that says what comes before APP/NO_APP
    $T_CONST_LBL    = '^LC(\d+):$';
    $T_POST_LBL	    = ':';

    $T_MOVE_DIRVS   = '^((\s+\.align\s+\d+|\s+\.proc\s+\d+|\s+\.global\s+\S+|\.text|\.data|\.stab.*)\n)';
    $T_COPY_DIRVS   = '\.(global|proc|stab)';

    $T_DOT_WORD	    = '\.word';
    $T_DOT_GLOBAL   = '^\t\.global';
    $T_HDR_literal  = "\.text\n\t\.align 8\n";
    $T_HDR_misc	    = "\.text\n\t\.align 4\n";
    $T_HDR_data	    = "\.data\n\t\.align 8\n";
    $T_HDR_rodata   = "\.text\n\t\.align 4\n";
    $T_HDR_closure  = "\.data\n\t\.align 4\n";
    $T_HDR_info	    = "\.text\n\t\.align 4\n";
    $T_HDR_entry    = "\.text\n\t\.align 4\n";
    $T_HDR_vector   = "\.text\n\t\.align 4\n";

    #--------------------------------------------------------#
    } elsif ( $TargetPlatform =~ /^sparc-.*-linux/m ) {
    $T_STABBY       = 0; # 1 iff .stab things (usually if a.out format)
    $T_US           = ''; # _ if symbols have an underscore on the front
    $T_PRE_APP      = '#'; # regexp that says what comes before APP/NO_APP
                           # Probably doesn't apply anyway
    $T_CONST_LBL    = '^\.LLC(\d+):$'; # regexp for what such a lbl looks like
    $T_POST_LBL     = ':';

    $T_MOVE_DIRVS   = '^((\s+\.align\s+\d+|\s+\.proc\s+\d+|\s+\.global\s+\S+|\s+\.local\s+\S+|\.text|\.data|\.seg|\.stab.*|\s+?\.section.*|\s+\.type.*|\s+\.size.*)\n)';
    $T_COPY_DIRVS   = '\.(global|local|globl|proc|stab)';

    $T_DOT_WORD     = '\.(long|word|nword|xword|byte|half|short|skip|uahalf|uaword)';
    $T_DOT_GLOBAL   = '^\t\.global';
    $T_HDR_literal  = "\.text\n\t\.align 8\n";
    $T_HDR_misc     = "\.text\n\t\.align 4\n";
    $T_HDR_data     = "\.data\n\t\.align 8\n";
    $T_HDR_rodata   = "\.text\n\t\.align 4\n";
    $T_HDR_closure  = "\.data\n\t\.align 4\n";
    $T_HDR_info     = "\.text\n\t\.align 4\n";
    $T_HDR_entry    = "\.text\n\t\.align 4\n";
    $T_HDR_vector   = "\.text\n\t\.align 4\n";

    #--------------------------------------------------------#
    } else {
	print STDERR "$Pgm: don't know how to mangle assembly language for: $TargetPlatform\n";
	exit 1;
    }

    if($T_HDR_relrodata eq "") {
            # default values:
            # relrodata defaults to rodata.
        $T_HDR_relrodata = $T_HDR_rodata;
    }

if ( 0 ) {
print STDERR "T_STABBY: $T_STABBY\n";
print STDERR "T_US: $T_US\n";
print STDERR "T_PRE_APP: $T_PRE_APP\n";
print STDERR "T_CONST_LBL: $T_CONST_LBL\n";
print STDERR "T_POST_LBL: $T_POST_LBL\n";
if ( $TargetPlatform =~ /^i386-/m ) {
    print STDERR "T_X86_PRE_LLBL_PAT: $T_X86_PRE_LLBL_PAT\n";
    print STDERR "T_X86_PRE_LLBL: $T_X86_PRE_LLBL\n";
    print STDERR "T_X86_BADJMP: $T_X86_BADJMP\n";
}
print STDERR "T_MOVE_DIRVS: $T_MOVE_DIRVS\n";
print STDERR "T_COPY_DIRVS: $T_COPY_DIRVS\n";
print STDERR "T_DOT_WORD: $T_DOT_WORD\n";
print STDERR "T_HDR_literal: $T_HDR_literal\n";
print STDERR "T_HDR_misc: $T_HDR_misc\n";
print STDERR "T_HDR_data: $T_HDR_data\n";
print STDERR "T_HDR_rodata: $T_HDR_rodata\n";
print STDERR "T_HDR_closure: $T_HDR_closure\n";
print STDERR "T_HDR_info: $T_HDR_info\n";
print STDERR "T_HDR_entry: $T_HDR_entry\n";
print STDERR "T_HDR_vector: $T_HDR_vector\n";
}

}









sub mangle_asm {
    local($in_asmf, $out_asmf) = @_;
    local($i, $c);

    # ia64-specific information for code chunks
    my $ia64_locnum;
    my $ia64_outnum;

    &init_TARGET_STUFF();
    &init_FUNNY_THINGS();

    open(INASM, "< $in_asmf")
	|| &tidy_up_and_die(1,"$Pgm: failed to open `$in_asmf' (to read)\n");
    open(OUTASM,"> $out_asmf")
	|| &tidy_up_and_die(1,"$Pgm: failed to open `$out_asmf' (to write)\n");

    # read whole file, divide into "chunks":
    #	record some info about what we've found...

    @chk = ();		# contents of the chunk
    $numchks = 0;	# number of them
    @chkcat = ();	# what category of thing in each chunk
    @chksymb = ();	# what symbol(base) is defined in this chunk
    %entrychk = ();	# ditto, its entry code
    %closurechk = ();	# ditto, the (static) closure
    %srtchk = ();	# ditto, its SRT (for top-level things)
    %infochk = (); 	# given a symbol base, say what chunk its info tbl is in
    %vectorchk = ();    # ditto, return vector table
    $EXTERN_DECLS = '';	# .globl <foo> .text (MIPS only)

    $i = 0; $chkcat[0] = 'misc'; $chk[0] = '';

    while (<INASM>) {
	tr/\r//d if $TargetPlatform =~ /-mingw32$/m; # In case Perl doesn't convert line endings
	next if $T_STABBY && /^\.stab.*${T_US}__stg_split_marker/om;
	next if $T_STABBY && /^\.stab.*ghc.*c_ID/m;
	next if /^\t\.def.*endef$/m;
	next if /${T_PRE_APP}(NO_)?APP/om; 
    	next if /^;/m && $TargetPlatform =~ /^hppa/m;

	next if /(^$|^\t\.file\t|^ # )/m && $TargetPlatform =~ /(^mips-|^ia64-|-mingw32$)/m;

	if ( $TargetPlatform =~ /^mips-/m 
	  && /^\t\.(globl\S+\.text|comm\t)/m ) {
	    $EXTERN_DECLS .= $_ unless /(__DISCARD__|\b(PK_|ASSIGN_)(FLT|DBL)\b)/m;
	# Treat .comm variables as data.  These show up in two (known) places:
	#
	#    - the module_registered variable used in the __stginit fragment.
	#      even though these are declared static and initialised, gcc 3.3
	#      likes to make them .comm, presumably to save space in the
	#      object file.
	#
	#    - global variables used to pass arguments from C to STG in
	#      a foreign export.  (is this still true? --SDM)
	# 
	} elsif ( /^\t\.comm.*$/m ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'data';
	    $chksymb[$i] = '';

	# Labels ending "_str": these are literal strings.
	} elsif ( /^${T_US}([A-Za-z0-9_]+)_str${T_POST_LBL}$/m ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'relrodata';
	    $chksymb[$i] = '';
        } elsif ( $TargetPlatform =~ /-darwin/m
                && (/^\s*\.subsections_via_symbols/m
                  ||/^\s*\.no_dead_strip.*/m)) {
            # Don't allow Apple's linker to do any dead-stripping of symbols
            # in this file, because it will mess up info-tables in mangled
            # code.
            # The .no_dead_strip directives are actually put there by
            # the gcc3 "used" attribute on entry points.
        
        } elsif ( $TargetPlatform =~ /^.*-apple-darwin.*/m && ( 
		   /^\s*\.picsymbol_stub/m
		|| /^\s*\.section __TEXT,__picsymbol_stub\d,.*/m
		|| /^\s*\.section __TEXT,__picsymbolstub\d,.*/m
		|| /^\s*\.symbol_stub/m
		|| /^\s*\.section __TEXT,__symbol_stub\d,.*/m
		|| /^\s*\.section __TEXT,__symbolstub\d,.*/m
		|| /^\s*\.lazy_symbol_pointer/m
		|| /^\s*\.non_lazy_symbol_pointer/m
		|| /^\s*\.section __IMPORT.*/m))
	{
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'dyld';
	    $chksymb[$i] = '';
	    $dyld_section = $_;

	} elsif ( $TargetPlatform =~ /^.*-apple-darwin.*/m && $chkcat[$i] eq 'dyld' && /^\s*\.data/m)
	{	# non_lazy_symbol_ptrs that point to local symbols
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'dyld';
	    $chksymb[$i] = '';
	    $dyld_section = $_;
	} elsif ( $TargetPlatform =~ /^.*-apple-darwin.*/m && $chkcat[$i] eq 'dyld' && /^\s*\.align/m)
	{	# non_lazy_symbol_ptrs that point to local symbols
	    $dyld_section .= $_;
	} elsif ( $TargetPlatform =~ /^.*-apple-darwin.*/m && $chkcat[$i] eq 'dyld' && /^L_.*:$/m)
	{	# non_lazy_symbol_ptrs that point to local symbols
	    $chk[++$i]   = $dyld_section . $_;
	    $chkcat[$i]  = 'dyld';
	    $chksymb[$i] = '';

	} elsif ( /^\s+/m ) { # most common case first -- a simple line!
	    # duplicated from the bottom

	    $chk[$i] .= $_;

	} elsif ( /\.\.ng:$/m && $TargetPlatform =~ /^alpha-/m ) {
	    # Alphas: Local labels not to be confused with new chunks
	    $chk[$i] .= $_;
	# NB: all the rest start with a non-space

	} elsif ( $TargetPlatform =~ /^mips-/m
	       && /^\d+:/m ) { # a funny-looking very-local label
	    $chk[$i] .= $_;

	} elsif ( /$T_CONST_LBL/om ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'literal';
	    $chksymb[$i] = $1;

	} elsif ( /^${T_US}__stg_split_marker(\d*)${T_POST_LBL}$/om ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'splitmarker';
	    $chksymb[$i] = $1;

	} elsif ( /^${T_US}([A-Za-z0-9_]+)_info${T_POST_LBL}$/om ) {
	    $symb = $1;
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'infotbl';
	    $chksymb[$i] = $symb;

	    die "Info table already? $symb; $i\n" if defined($infochk{$symb});

	    $infochk{$symb} = $i;

	} elsif ( /^${T_US}([A-Za-z0-9_]+)_(entry|ret)${T_POST_LBL}$/om ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'entry';
	    $chksymb[$i] = $1;

	    $entrychk{$1} = $i;

	} elsif ( /^${T_US}([A-Za-z0-9_]+)_closure${T_POST_LBL}$/om ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'closure';
	    $chksymb[$i] = $1;

	    $closurechk{$1} = $i;

	} elsif ( /^${T_US}([A-Za-z0-9_]+)_srt${T_POST_LBL}$/om ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'srt';
	    $chksymb[$i] = $1;

	    $srtchk{$1} = $i;

	} elsif ( /^${T_US}([A-Za-z0-9_]+)_ct${T_POST_LBL}$/om ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'data';
	    $chksymb[$i] = '';

	} elsif ( /^${T_US}(stg_ap_stack_entries|stg_stack_save_entries|stg_arg_bitmaps)${T_POST_LBL}$/om ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'data';
	    $chksymb[$i] = '';

	} elsif ( /^(${T_US}__gnu_compiled_c|gcc2_compiled\.)${T_POST_LBL}/om ) {
	    ; # toss it

	} elsif ( /^${T_US}[A-Za-z0-9_]+\.\d+${T_POST_LBL}$/om
	       || /^${T_US}.*_CAT${T_POST_LBL}$/om 		# PROF: _entryname_CAT
	       || /^${T_US}.*_done${T_POST_LBL}$/om		# PROF: _module_done
	       || /^${T_US}_module_registered${T_POST_LBL}$/om	# PROF: _module_registered
	       ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'data';
	    $chksymb[$i] = '';

	} elsif ( /^([A-Za-z0-9_]+)\s+\.comm/m && $TargetPlatform =~ /^hppa/m ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'bss';
  	    $chksymb[$i] = '';

	} elsif ( /^${T_US}([A-Za-z0-9_]+)_cc(s)?${T_POST_LBL}$/om ) {
            # all CC_ symbols go in the data section...
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'data';
	    $chksymb[$i] = '';

        } elsif ( /^${T_US}([A-Za-z0-9_]+)_hpc${T_POST_LBL}$/om ) {
           # hpc shares tick boxes across modules
           $chk[++$i]   = $_;
           $chkcat[$i]  = 'data';
           $chksymb[$i] = '';

	} elsif ( /^${T_US}([A-Za-z0-9_]+)_(alt|dflt)${T_POST_LBL}$/om ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'misc';
	    $chksymb[$i] = '';
	} elsif ( /^${T_US}([A-Za-z0-9_]+)_vtbl${T_POST_LBL}$/om ) {
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'vector';
	    $chksymb[$i] = $1;

	    $vectorchk{$1} = $i;

	} elsif ( $TargetPlatform =~ /^i386-.*-solaris2/m
	     &&   /^[A-Za-z0-9][A-Za-z0-9_]*:/m ) {
            # Some Solaris system headers contain function definitions (as
	    # opposed to mere prototypes), which end up in the .hc file when
	    # a Haskell module foreign imports the corresponding system 
	    # functions (most notably stat()).  We put them into the text 
            # segment.  Note that this currently does not extend to function
	    # names starting with an underscore. 
	    # - chak 7/2001
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'misc';
	    $chksymb[$i] = $1;

        } elsif ( $TargetPlatform =~ /^i386-apple-darwin/m && /^(___i686\.get_pc_thunk\.[abcd]x):/om) {
                # To handle PIC on Darwin/x86, we need to appropriately pass through
                # the get_pc_thunk functions. The need to be put into a special section
                # marked as coalesced (otherwise the .weak_definition doesn't work
                # on Darwin).
            $chk[++$i]   = $_;
            $chkcat[$i]  = 'get_pc_thunk';
            $chksymb[$i] = $1;

	} elsif ( /^${T_US}[A-Za-z0-9_]/om
		&& ( $TargetPlatform !~ /^hppa/m # need to avoid local labels in this case
		   || ! /^L\$\d+$/m ) 
		&& ( $TargetPlatform !~ /^powerpc64/m # we need to avoid local labels in this case
		   || ! /^\.L\d+:$/m ) ) {
	    local($thing);
	    chop($thing = $_);
	    $thing =~ s/:$//m;
	    $chk[++$i]   = $_;
	    $chksymb[$i] = '';
	    if (
		       /^${T_US}stg_.*${T_POST_LBL}$/om          # RTS internals
		    || /^${T_US}__stg_.*${T_POST_LBL}$/om        # more RTS internals
		    || /^${T_US}__fexp_.*${T_POST_LBL}$/om       # foreign export
		    || /^${T_US}.*_slow${T_POST_LBL}$/om         # slow entry
		    || /^${T_US}__stginit.*${T_POST_LBL}$/om     # __stginit<module>
		    || /^${T_US}.*_btm${T_POST_LBL}$/om          # large bitmaps
		    || /^${T_US}.*_fast${T_POST_LBL}$/om         # primops
                    || /^_uname:/om			        # x86/Solaris2
		)
            {
	    	$chkcat[$i]  = 'misc';
            } elsif (
		       /^${T_US}.*_srtd${T_POST_LBL}$/om          # large bitmaps
		    || /^${T_US}.*_closure_tbl${T_POST_LBL}$/om  # closure tables
                )
            {
                $chkcat[$i] = 'relrodata';
            } else
            {
	        print STDERR "Warning: retaining unknown function \`$thing' in output from C compiler\n";
	    	$chkcat[$i]  = 'unknown';
	    }

	} elsif ( $TargetPlatform =~ /^powerpc-.*-linux/m && /^\.LCTOC1 = /om ) {
		# PowerPC Linux's large-model PIC (-fPIC) generates a gobal offset
		# table "by hand". Be sure to copy it over.
		# Note that this label and all entries in the table should actually
		# go into the .got2 section, but it isn't easy to distinguish them
		# from other constant literals (.LC\d+), so we just put everything
		# in .rodata.
	    $chk[++$i]   = $_;
	    $chkcat[$i]  = 'literal';
	    $chksymb[$i] = 'LCTOC1';
	} else { # simple line (duplicated at the top)

	    $chk[$i] .= $_;
	}
    }
    $numchks = $#chk + 1;
    $chk[$numchks] = ''; # We might push .note.GNU-stack into this
    $chkcat[$numchks] = 'verbatim'; # If we do, write it straight back out

    # open CHUNKS, ">/tmp/chunks1" or die "Cannot open /tmp/chunks1: $!\n";
    # for (my $i = 0; $i < @chk; ++$i) { print CHUNKS "======= $i =======\n", $chk[$i] }
    # close CHUNKS;

    # the division into chunks is imperfect;
    # we throw some things over the fence into the next
    # chunk.
    #
    # also, there are things we would like to know
    # about the whole module before we start spitting
    # output.

    local($FIRST_MANGLABLE) = ($TargetPlatform =~ /^(alpha-|hppa|mips-)/m) ? 1 : 0;
    local($FIRST_TOSSABLE ) = ($TargetPlatform =~ /^(hppa|mips-)/m) ? 1 : 0;

#   print STDERR "first chunk to mangle: $FIRST_MANGLABLE\n";

    # Alphas: NB: we start meddling at chunk 1, not chunk 0
    # The first ".rdata" is quite magical; as of GCC 2.7.x, it
    # spits a ".quad 0" in after the very first ".rdata"; we
    # detect this special case (tossing the ".quad 0")!
    local($magic_rdata_seen) = 0;
  
    # HPPAs, MIPSen: also start medding at chunk 1

    for ($i = $FIRST_TOSSABLE; $i < $numchks; $i++) {
	$c = $chk[$i]; # convenience copy

#	print STDERR "\nCHK $i (BEFORE) (",$chkcat[$i],"):\n", $c;

	# toss all prologue stuff; HPPA is pretty weird
	# (see elsewhere)
	$c = &hppa_mash_prologue($c) if $TargetPlatform =~ /^hppa-/m;

	undef $ia64_locnum;
	undef $ia64_outnum;

	# be slightly paranoid to make sure there's
	# nothing surprising in there
	if ( $c =~ /--- BEGIN ---/m ) {
	    if (($p, $r) = split(/--- BEGIN ---/m, $c)) {

		# remove junk whitespace around the split point
		$p =~ s/\t+$//m;
		$r =~ s/^\s*\n//m;

		if ($TargetPlatform =~ /^i386-/m) {
		    if ($p =~ /^\tsubl\s+\$(\d+),\s*\%esp\n/m) {
			if ($1 >= 8192) {
			    die "Error: reserved stack space exceeded!\n  Possible workarounds: compile with -fasm, or try another version of gcc.\n"
			}
		    }

		# gcc 3.4.3 puts this kind of stuff in the prologue, eg.
		# when compiling PrimOps.cmm with -optc-O2:
		#        xorl    %ecx, %ecx
		#        xorl    %edx, %edx
		#        movl    %ecx, 16(%esp)
		#        movl    %edx, 20(%esp)
		# but then the code of the function doesn't assume
		# anything about the contnets of these stack locations.
		# I think it's to do with the use of inline functions for
		# PK_Word64() and friends, where gcc is initialising the
		# contents of the struct to zero, and failing to optimise
		# away the initialisation.  Let's live dangerously and
		# discard these initalisations.

		    $p =~ s/^\tpushl\s+\%e(di|si|bx)\n//gm;
		    $p =~ s/^\txorl\s+\%e(ax|cx|dx),\s*\%e(ax|cx|dx)\n//gm;
		    $p =~ s/^\tmovl\s+\%e(ax|cx|dx|si|di),\s*\d*\(\%esp\)\n//gm;
		    $p =~ s/^\tmovl\s+\$\d+,\s*\d*\(\%esp\)\n//gm;
		    $p =~ s/^\tsubl\s+\$\d+,\s*\%esp\n//m;
                    $p =~ s/^\tmovl\s+\$\d+,\s*\%eax\n\tcall\s+__alloca\n//m if ($TargetPlatform =~ /^.*-(cygwin32|mingw32)/m);

                    if ($TargetPlatform =~ /^i386-apple-darwin/m) {
                        $pcrel_label = $p;
                        $pcrel_label =~ s/(.|\n)*^(\"?L\d+\$pb\"?):\n(.|\n)*/$2/m or $pcrel_label = "";
                        $pcrel_reg = $p;
                        $pcrel_reg =~ s/(.|\n)*.*___i686\.get_pc_thunk\.([abcd]x)\n(.|\n)*/$2/m or $pcrel_reg = "";
                        $p =~ s/^\s+call\s+___i686\.get_pc_thunk\..x//m;
                        $p =~ s/^\"?L\d+\$pb\"?:\n//m;

                        if ($pcrel_reg eq "bx") {
                            # Bad gcc. Goes and uses %ebx, our BaseReg, for PIC. Bad gcc.
                            die "Darwin/x86: -fPIC -via-C doesn't work yet, use -fasm. Aborting."
                        }
                    }

		} elsif ($TargetPlatform =~ /^x86_64-/m) {
		    $p =~ s/^\tpushq\s+\%r(bx|bp|12|13|14)\n//gm;
		    $p =~ s/^\tmovq\s+\%r(bx|bp|12|13|14),\s*\d*\(\%rsp\)\n//gm;
		    $p =~ s/^\tsubq\s+\$\d+,\s*\%rsp\n//m;

		} elsif ($TargetPlatform =~ /^ia64-/m) {
		    $p =~ s/^\t\.prologue .*\n//m;

		    # Record the number of local and out registers for register relocation later
		    $p =~ s/^\t\.save ar\.pfs, r\d+\n\talloc r\d+ = ar\.pfs, 0, (\d+), (\d+), 0\n//m;
		    $ia64_locnum = $1;
		    $ia64_outnum = $2;

		    $p =~ s/^\t\.fframe \d+\n\tadds r12 = -\d+, r12\n//m;
		    $p =~ s/^\t\.save rp, r\d+\n\tmov r\d+ = b0\n//m;

		    # Ignore save/restore of these registers; they're taken
		    # care of in StgRun()
		    $p =~ s/^\t\.save ar\.lc, r\d+\n//m;
		    $p =~ s/^\t\.save pr, r\d+\n//m;
		    $p =~ s/^\tmov r\d+ = ar\.lc\n//m;
		    $p =~ s/^\tmov r\d+ = pr\n//m;

		    # Remove .proc and .body directives
		    $p =~ s/^\t\.proc [a-zA-Z0-9_.]+#\n//m;
            	    $p =~ s/^\t\.body\n//m;

            	    # If there's a label, move it to the body
            	    if ($p =~ /^[a-zA-Z0-9.]+:\n/m) {
            	        $p = $` . $';
            	        $r = $& . $r;
            	      }

            	    # Remove floating-point spill instructions.
            	    # Only fp registers 2-5 and 16-23 are saved by the runtime.
            	    if ($p =~ s/^\tstf\.spill \[r1[4-9]\] = f([2-5]|1[6-9]|2[0-3])(, [0-9]+)?\n//gm) {
            	        # Being paranoid, only try to remove these if we saw a
			# spill operation.
                        $p =~ s/^\tmov r1[4-9] = r12\n//m;
                        $p =~ s/^\tadds r1[4-9] = -[0-9]+, r12\n//gm;
                        $p =~ s/^\t\.save\.f 0x[0-9a-fA-F]\n//gm;
                        $p =~ s/^\t\.save\.gf 0x0, 0x[0-9a-fA-F]+\n//gm;
            	    }

            	    $p =~ s/^\tnop(?:\.[mifb])?\s+\d+\n//gm; # remove nop instructions
            	    $p =~ s/^\t\.(mii|mmi|mfi)\n//gm;    # bundling is no longer sensible
		    $p =~ s/^\t;;\n//gm;		# discard stops
		    $p =~ s/^\t\/\/.*\n//gm;	# gcc inserts timings in // comments

               	    # GCC 3.3 saves r1 in the prologue, move this to the body
		    # (Does this register get restored anywhere?)
               	    if ($p =~ /^\tmov r\d+ = r1\n/m) {
               	      $p = $` . $';
               	      $r = $& . $r;
               	    }
		} elsif ($TargetPlatform =~ /^m68k-/m) {
		    $p =~ s/^\tlink a6,#-?\d.*\n//m;
 		    $p =~ s/^\tpea a6@\n\tmovel sp,a6\n//m;    
 				# The above showed up in the asm code,
 				# so I added it here.
 				# I hope it's correct.
 				# CaS
		    $p =~ s/^\tmovel d2,sp\@-\n//m;
		    $p =~ s/^\tmovel d5,sp\@-\n//m; # SMmark.* only?
		    $p =~ s/^\tmoveml \#0x[0-9a-f]+,sp\@-\n//m; # SMmark.* only?
		} elsif ($TargetPlatform =~ /^mips-/m) {
		    # the .frame/.mask/.fmask that we use is the same
		    # as that produced by GCC for miniInterpret; this
		    # gives GDB some chance of figuring out what happened
		    $FRAME = "\t.frame\t\$sp,2168,\$31\n\t.mask\t0x90000000,-4\n\t.fmask\t0x00000000,0\n";
		    $p =~ s/^\t\.(frame).*\n/__FRAME__/gm;
		    $p =~ s/^\t\.(mask|fmask).*\n//gm;
		    $p =~ s/^\t\.cprestore.*\n/\t\.cprestore 416\n/m; # 16 + 100 4-byte args
		    $p =~ s/^\tsubu\t\$sp,\$sp,\d+\n//m;
		    $p =~ s/^\tsw\t\$31,\d+\(\$sp\)\n//m;
		    $p =~ s/^\tsw\t\$fp,\d+\(\$sp\)\n//m;
		    $p =~ s/^\tsw\t\$28,\d+\(\$sp\)\n//m;
		    $p =~ s/__FRAME__/$FRAME/m;
		} elsif ($TargetPlatform =~ /^powerpc-apple-darwin.*/m) {
		    $pcrel_label = $p;
		    $pcrel_label =~ s/(.|\n)*^(\"?L\d+\$pb\"?):\n(.|\n)*/$2/m or $pcrel_label = "";

		    $p =~ s/^\tmflr r0\n//m;
 		    $p =~ s/^\tbl saveFP # f\d+\n//m;
 		    $p =~ s/^\tbl saveFP ; save f\d+-f\d+\n//m;
		    $p =~ s/^\"?L\d+\$pb\"?:\n//m;
 		    $p =~ s/^\tstmw r\d+,-\d+\(r1\)\n//m;
   		    $p =~ s/^\tstfd f\d+,-\d+\(r1\)\n//gm;
 		    $p =~ s/^\tstw r0,\d+\(r1\)\n//gm;
  		    $p =~ s/^\tstwu r1,-\d+\(r1\)\n//m; 
  		    $p =~ s/^\tstw r\d+,-\d+\(r1\)\n//gm; 
  		    $p =~ s/^\tbcl 20,31,\"?L\d+\$pb\"?\n//m;
  		    $p =~ s/^\"?L\d+\$pb\"?:\n//m;
  		    $p =~ s/^\tmflr r31\n//m;

		    # This is bad: GCC 3 seems to zero-fill some local variables in the prologue
		    # under some circumstances, only when generating position dependent code.
		    # I have no idea why, and I don't think it is necessary, so let's toss it.
		    $p =~ s/^\tli r\d+,0\n//gm;
		    $p =~ s/^\tstw r\d+,\d+\(r1\)\n//gm;
		} elsif ($TargetPlatform =~ /^powerpc-.*-linux/m) {
		    $p =~ s/^\tmflr 0\n//m;
		    $p =~ s/^\tstmw \d+,\d+\(1\)\n//m;
   		    $p =~ s/^\tstfd \d+,\d+\(1\)\n//gm;
 		    $p =~ s/^\tstw r0,8\(1\)\n//m;
  		    $p =~ s/^\tstwu 1,-\d+\(1\)\n//m; 
  		    $p =~ s/^\tstw \d+,\d+\(1\)\n//gm; 
                    
                        # GCC's "large-model" PIC (-fPIC)
		    $pcrel_label = $p;
		    $pcrel_label =~ s/(.|\n)*^.LCF(\d+):\n(.|\n)*/$2/m or $pcrel_label = "";

                    $p =~ s/^\tbcl 20,31,.LCF\d+\n//m;
                    $p =~ s/^.LCF\d+:\n//m;
                    $p =~ s/^\tmflr 30\n//m;
                    $p =~ s/^\tlwz 0,\.LCL\d+-\.LCF\d+\(30\)\n//m;
                    $p =~ s/^\tadd 30,0,30\n//m;

		    # This is bad: GCC 3 seems to zero-fill some local variables in the prologue
		    # under some circumstances, only when generating position dependent code.
		    # I have no idea why, and I don't think it is necessary, so let's toss it.
		    $p =~ s/^\tli \d+,0\n//gm;
		    $p =~ s/^\tstw \d+,\d+\(1\)\n//gm;
		} elsif ($TargetPlatform =~ /^powerpc64-.*-linux/m) {
		    $p =~ s/^\tmr 31,1\n//m;
		    $p =~ s/^\tmflr 0\n//m;
		    $p =~ s/^\tstmw \d+,\d+\(1\)\n//m;
   		    $p =~ s/^\tstfd \d+,-?\d+\(1\)\n//gm;
 		    $p =~ s/^\tstd r0,8\(1\)\n//m;
  		    $p =~ s/^\tstdu 1,-\d+\(1\)\n//m; 
  		    $p =~ s/^\tstd \d+,-?\d+\(1\)\n//gm; 
                    
		    # This is bad: GCC 3 seems to zero-fill some local variables in the prologue
		    # under some circumstances, only when generating position dependent code.
		    # I have no idea why, and I don't think it is necessary, so let's toss it.
		    $p =~ s/^\tli \d+,0\n//gm;
		    $p =~ s/^\tstd \d+,\d+\(1\)\n//gm;
		} else {
		    print STDERR "$Pgm: unknown prologue mangling? $TargetPlatform\n";
		}
		
		# HWL HACK: dont die, just print a warning
		#print stderr  "HWL: this should die! Prologue junk?: $p\n" if $p =~ /^\t[^\.]/;
		die "Prologue junk?: $p\n" if $p =~ /^\s+[^\s\.]/m;
		
                # For PIC, we want to keep part of the prologue
		if ($TargetPlatform =~ /^powerpc-apple-darwin.*/m && $pcrel_label ne "") {
		    # Darwin: load the current instruction pointer into register r31
		    $p .= "bcl 20,31,$pcrel_label\n";
		    $p .= "$pcrel_label:\n";
		    $p .= "\tmflr r31\n";
		} elsif ($TargetPlatform =~ /^powerpc-.*-linux/m && $pcrel_label ne "") {
                    # Linux: load the GOT pointer into register 30
                    $p .= "\tbcl 20,31,.LCF$pcrel_label\n";
                    $p .= ".LCF$pcrel_label:\n";
                    $p .= "\tmflr 30\n";
                    $p .= "\tlwz 0,.LCL$pcrel_label-.LCF$pcrel_label(30)\n";
                    $p .= "\tadd 30,0,30\n";
                } elsif ($TargetPlatform =~ /^i386-apple-darwin.*/m && $pcrel_label ne "") {
                    $p .= "\tcall ___i686.get_pc_thunk.$pcrel_reg\n";
                    $p .= "$pcrel_label:\n";
                }
		
		# glue together what's left
		$c = $p . $r;
	    }
	}

	if ( $TargetPlatform =~ /^mips-/m ) {
	    # MIPS: first, this basic sequence may occur "--- END ---" or not
	    $c =~ s/^\tlw\t\$31,\d+\(\$sp\)\n\taddu\t\$sp,\$sp,\d+\n\tj\t\$31\n\t\.end/\t\.end/m;
	}

	# toss all epilogue stuff; again, paranoidly
	if ( $c =~ /--- END ---/m ) {
	    # Gcc may decide to replicate the function epilogue.  We want
	    # to process all epilogues, so we split the function and then
	    # loop here.
	    @fragments = split(/--- END ---/m, $c);
	    $r = shift(@fragments);

	    # Rebuild `c'; processed fragments will be appended to `c'
	    $c = $r;

	    foreach $e (@fragments) {
                # etail holds code that is after the epilogue in the assembly-code
                # layout and should not be filtered as part of the epilogue.
                $etail = "";
		if ($TargetPlatform =~ /^i386-/m) {
		    $e =~ s/^\tret\n//m;
		    $e =~ s/^\tpopl\s+\%edi\n//m;
		    $e =~ s/^\tpopl\s+\%esi\n//m;
		    $e =~ s/^\tpopl\s+\%edx\n//m;
		    $e =~ s/^\tpopl\s+\%ecx\n//m;
		    $e =~ s/^\taddl\s+\$\d+,\s*\%esp\n//m;
		    $e =~ s/^\tsubl\s+\$-\d+,\s*\%esp\n//m;
		} elsif ($TargetPlatform =~ /^ia64-/m) {
            	    # The epilogue is first split into:
            	    #     $e,    the epilogue code (up to the return instruction)
            	    #     $etail, non-epilogue code (after the return instruction)
            	    # The return instruction is stripped in the process.
            	    if (!(($e, $etail) = split(/^\tbr\.ret\.sptk\.many b0\n/m, $e))) {
            	        die "Epilogue doesn't seem to have one return instruction: $e\n";
            	    }
		    # Remove 'endp' directive from the tail
            	    $etail =~ s/^\t\.endp [a-zA-Z0-9_.]+#\n//m;

            	    # If a return value is saved here, discard it
 		    $e =~ s/^\tmov r8 = r14\n//m;

            	    # Remove floating-point fill instructions.
            	    # Only fp registers 2-5 and 16-23 are saved by the runtime.
            	    if ($e =~ s/^\tldf\.fill f([2-5]|1[6-9]|2[0-3]) = \[r1[4-9]\](, [0-9]+)?\n//gm) {
            	        # Being paranoid, only try to remove this if we saw a fill
            	        # operation.
            	        $e =~ s/^\tadds r1[4-9] = [0-9]+, r12//gm;
            	    }

            	    $e =~ s/^\tnop(?:\.[mifb])?\s+\d+\n//gm; # remove nop instructions
	    	    $e =~ s/^\tmov ar\.pfs = r\d+\n//m;
	    	    $e =~ s/^\tmov ar\.lc = r\d+\n//m;
		    $e =~ s/^\tmov pr = r\d+, -1\n//m;
	    	    $e =~ s/^\tmov b0 = r\d+\n//m;
	    	    $e =~ s/^\t\.restore sp\n\tadds r12 = \d+, r12\n//m;
	    	    #$e =~ s/^\tbr\.ret\.sptk\.many b0\n//; # already removed
	    	    $e =~ s/^\t\.(mii|mmi|mfi|mib)\n//gm; # bundling is no longer sensible
	    	    $e =~ s/^\t;;\n//gm; # discard stops - stop at end of body is sufficient
	    	    $e =~ s/^\t\/\/.*\n//gm; # gcc inserts timings in // comments
		} elsif ($TargetPlatform =~ /^m68k-/m) {
		    $e =~ s/^\tunlk a6\n//m;
		    $e =~ s/^\trts\n//m;
		} elsif ($TargetPlatform =~ /^mips-/m) {
		    $e =~ s/^\tlw\t\$31,\d+\(\$sp\)\n//m;
		    $e =~ s/^\tlw\t\$fp,\d+\(\$sp\)\n//m;
		    $e =~ s/^\taddu\t\$sp,\$sp,\d+\n//m;
		    $e =~ s/^\tj\t\$31\n//m;
 		} elsif ($TargetPlatform =~ /^powerpc-apple-darwin.*/m) {
  		    $e =~ s/^\taddi r1,r1,\d+\n//m;
  		    $e =~ s/^\tlwz r\d+,\d+\(r1\)\n//m; 
  		    $e =~ s/^\tlmw r\d+,-\d+\(r1\)\n//m;
 		    $e =~ s/^\tmtlr r0\n//m;
  		    $e =~ s/^\tblr\n//m;
  		    $e =~ s/^\tb restFP ;.*\n//m;
 		} elsif ($TargetPlatform =~ /^powerpc64-.*-linux/m) {
		    $e =~ s/^\tmr 3,0\n//m;
		    $e =~ s/^\taddi 1,1,\d+\n//m;
		    $e =~ s/^\tld 0,16\(1\)\n//m;
		    $e =~ s/^\tmtlr 0\n//m;

		    # callee-save registers
		    $e =~ s/^\tld \d+,-?\d+\(1\)\n//gm;
		    $e =~ s/^\tlfd \d+,-?\d+\(1\)\n//gm;

		    # get rid of the debug junk along with the blr
		    $e =~ s/^\tblr\n\t.long .*\n\t.byte .*\n//m;

		    # incase we missed it with the last one get the blr alone
		    $e =~ s/^\tblr\n//m;
		} else {
		    print STDERR "$Pgm: unknown epilogue mangling? $TargetPlatform\n";
		}

		print STDERR "WARNING: Epilogue junk?: $e\n" if $e =~ /^\t\s*[^\.\s\n]/m;

		# glue together what's left
		$c .= $e . $etail;
	    }
	    $c =~ s/\n\t\n/\n/m; # junk blank line
	}
 	else {
 	    if ($TargetPlatform =~ /^ia64-/m) {
 	        # On IA64, remove an .endp directive even if no epilogue was found.
 	        # Code optimizations may have removed the "--- END ---" token.
 	        $c =~ s/^\t\.endp [a-zA-Z0-9_.]+#\n//m;
 	    }
 	}

	# On SPARCs, we don't do --- BEGIN/END ---, we just
	# toss the register-windowing save/restore/ret* instructions
	# directly unless they've been generated by function definitions in header
	# files on Solaris:
	if ( $TargetPlatform =~ /^sparc-/m ) {
	    if ( ! ( $TargetPlatform =~ /solaris2$/m && $chkcat[$i] eq 'unknown' )) {
	    	$c =~ s/^\t(save.*|restore.*|ret|retl)\n//gm;
	    }
	    # throw away PROLOGUE comments
	    $c =~ s/^\t!#PROLOGUE# 0\n\t!#PROLOGUE# 1\n//m;
	}

	# On Alphas, the prologue mangling is done a little later (below)

    	# toss all calls to __DISCARD__
	$c =~ s/^\t(call|jbsr|jal)\s+${T_US}__DISCARD__\n//gom;
	$c =~ s/^\tjsr\s+\$26\s*,\s*${T_US}__DISCARD__\n//gom if $TargetPlatform =~ /^alpha-/m;
	$c =~ s/^\tbl\s+L___DISCARD__\$stub\n//gom if $TargetPlatform =~ /^powerpc-apple-darwin.*/m;
	$c =~ s/^\tbl\s+__DISCARD__(\@plt)?\n//gom if $TargetPlatform =~ /^powerpc-.*-linux/m;
	$c =~ s/^\tbl\s+\.__DISCARD__\n\s+nop\n//gom if $TargetPlatform =~ /^powerpc64-.*-linux/m;
	$c =~ s/^\tcall\s+L___DISCARD__\$stub\n//gom if $TargetPlatform =~ /i386-apple-darwin.*/m;

	# IA64: fix register allocation; mangle tailcalls into jumps
 	if ($TargetPlatform =~ /^ia64-/m) {
	    ia64_rename_registers($ia64_locnum, $ia64_outnum) if (defined($ia64_locnum));
	    ia64_mangle_tailcalls();
	}

	# MIPS: that may leave some gratuitous asm macros around
	# (no harm done; but we get rid of them to be tidier)
	$c =~ s/^\t\.set\tnoreorder\n\t\.set\tnomacro\n\taddu\t(\S+)\n\t\.set\tmacro\n\t\.set\treorder\n/\taddu\t$1\n/m
	    if $TargetPlatform =~ /^mips-/m;

    	# toss stack adjustment after DoSparks
    	$c =~ s/^(\tjbsr _DoSparks\n)\taddqw #8,sp/$1/gm
		if $TargetPlatform =~ /^m68k-/m; # this looks old...

	if ( $TargetPlatform =~ /^alpha-/m &&
	   ! $magic_rdata_seen &&
	   $c =~ /^\s*\.rdata\n\t\.quad 0\n\t\.align \d\n/m ) {
	    $c =~ s/^\s*\.rdata\n\t\.quad 0\n\t\.align (\d)\n/\.rdata\n\t\.align $1\n/m;
	    $magic_rdata_seen = 1;
	}

	# pick some end-things and move them to the next chunk

	# pin a funny end-thing on (for easier matching):
	$c .= 'FUNNY#END#THING';

	while ( $c =~ /${T_MOVE_DIRVS}FUNNY#END#THING/om ) {

	    $to_move = $1;

	    # on x86 we try not to copy any directives into a literal
	    # chunk, rather we keep looking for the next real chunk.  This
	    # is because we get things like
	    #
	    #    .globl blah_closure
	    #    .LC32
	    #    	.string "..."
	    #    blah_closure:
	    #		...
            #
	    if ( $TargetPlatform =~ /^(i386|sparc|powerpc)/m && $to_move =~ /${T_COPY_DIRVS}/m ) {
		$j = $i + 1;
		while ( $j < $numchks  && $chk[$j] =~ /$T_CONST_LBL/m) {
			$j++;
		}
		if ( $j < $numchks ) {
			$chk[$j] = $to_move . $chk[$j];
	        }
	    }

            elsif (   (    $i < ($numchks - 1)
                       && ( $to_move =~ /${T_COPY_DIRVS}/m
                           || (   $TargetPlatform =~ /^hppa/m
                               && $to_move =~ /align/m
                               && $chkcat[$i+1] eq 'literal')
                          )
                      )
                   || ($to_move =~ /^[ \t]*\.section[ \t]+\.note\.GNU-stack,/m)
                  ) {
                $chk[$i + 1] = $to_move . $chk[$i + 1];
                # otherwise they're tossed
            }

	    $c =~ s/${T_MOVE_DIRVS}FUNNY#END#THING/FUNNY#END#THING/om;
	}

    	if ( $TargetPlatform =~ /^alpha-/m && $c =~ /^\t\.ent\s+(\S+)/m ) {
    	    $ent = $1;
	    # toss all prologue stuff, except for loading gp, and the ..ng address
	    unless ($c =~ /\.ent.*\n\$.*\.\.ng:/m) {
		if (($p, $r) = split(/^\t\.prologue/m, $c)) {
                    # use vars '$junk'; # Unused?
		    if (($keep, $junk) = split(/\.\.ng:/m, $p)) {
			$keep =~ s/^\t\.frame.*\n/\t.frame \$30,0,\$26,0\n/m;
			$keep =~ s/^\t\.(mask|fmask).*\n//gm;
			$c = $keep . "..ng:\n";
		    } else {
			print STDERR "malformed code block ($ent)?\n"
		    }
		}
		$c .= "\t.prologue" . $r;
	    }
    	}
  
	$c =~ s/FUNNY#END#THING//m;

#	print STDERR "\nCHK $i (AFTER) (",$chkcat[$i],"):\n", $c;

	$chk[$i] = $c; # update w/ convenience copy
    }

    # open CHUNKS, ">/tmp/chunks2" or die "Cannot open /tmp/chunks2: $!\n";
    # for (my $i = 0; $i < @chk; ++$i) { print CHUNKS "======= $i =======\n", $chk[$i] }
    # close CHUNKS;

    if ( $TargetPlatform =~ /^alpha-/m ) {
	# print out the header stuff first
	$chk[0] =~ s/^(\t\.file.*)"(ghc\d+\.c)"/$1"$ifile_root.hc"/m;
	print OUTASM $chk[0];

    } elsif ( $TargetPlatform =~ /^hppa/m ) {
	print OUTASM $chk[0];

    } elsif ( $TargetPlatform =~ /^mips-/m ) {
	$chk[0] = "\t\.file\t1 \"$ifile_root.hc\"\n" . $chk[0];

	# get rid of horrible "<dollar>Revision: .*$" strings
	local(@lines0) = split(/\n/m, $chk[0]);
	local($z) = 0;
	while ( $z <= $#lines0 ) {
	    if ( $lines0[$z] =~ /^\t\.byte\t0x24,0x52,0x65,0x76,0x69,0x73,0x69,0x6f$/m ) {
		undef($lines0[$z]);
		$z++;
		while ( $z <= $#lines0 ) {
		    undef($lines0[$z]);
		    last if $lines0[$z] =~ /[,\t]0x0$/m;
		    $z++;
		}
	    }
	    $z++;
	}
	$chk[0] = join("\n", @lines0);
	$chk[0] =~ s/\n\n+/\n/m;
	print OUTASM $chk[0];
    }

    # print out all the literal strings next
    for ($i = 0; $i < $numchks; $i++) {
	if ( $chkcat[$i] eq 'literal' ) {

	    # HACK: try to detect 16-byte constants and align them
	    # on a 16-byte boundary.  x86_64 sometimes needs 128-bit
	    # aligned constants, and so does Darwin/x86.
	    if ( $TargetPlatform =~ /^x86_64/m
                || $TargetPlatform =~ /^i386-apple-darwin/m ) { 
		$z = $chk[$i];
 		if ($z =~ /(\.long.*\n.*\.long.*\n.*\.long.*\n.*\.long|\.quad.*\n.*\.quad)/m) {
		    print OUTASM $T_HDR_literal16;
		} else {
		    print OUTASM $T_HDR_literal;
		}
 	    } else {
		print OUTASM $T_HDR_literal;
	    }

	    print OUTASM $chk[$i];
	    print OUTASM "; end literal\n" if $TargetPlatform =~ /^hppa/m; # for the splitter

	    $chkcat[$i] = 'DONE ALREADY';
	}
    }

    # on the HPPA, print out all the bss next
    if ( $TargetPlatform =~ /^hppa/m ) {
	for ($i = 1; $i < $numchks; $i++) {
	    if ( $chkcat[$i] eq 'bss' ) {
		print OUTASM "\t.SPACE \$PRIVATE\$\n\t.SUBSPA \$BSS\$\n\t.align 4\n";
		print OUTASM $chk[$i];

		$chkcat[$i] = 'DONE ALREADY';
	    }
	}
    }

    # $numchks + 1 as we have the extra one for .note.GNU-stack
    for ($i = $FIRST_MANGLABLE; $i < $numchks + 1; $i++) {
#	print STDERR "$i: cat $chkcat[$i], symb $chksymb[$i]\n";

	next if $chkcat[$i] eq 'DONE ALREADY';

	if ( $chkcat[$i] eq 'misc' || $chkcat[$i] eq 'unknown' ) {
	    if ($chk[$i] ne '') {
		print OUTASM $T_HDR_misc;
 		&print_doctored($chk[$i], 0);
	    }

	} elsif ( $chkcat[$i] eq 'verbatim' ) {
	    print OUTASM $chk[$i];

	} elsif ( $chkcat[$i] eq 'toss' ) {
	    print STDERR "*** NB: TOSSING code for $chksymb[$i] !!! ***\n";

	} elsif ( $chkcat[$i] eq 'data' ) {
	    if ($chk[$i] ne '') {
		print OUTASM $T_HDR_data;
		print OUTASM $chk[$i];
	    }

	} elsif ( $chkcat[$i] eq 'splitmarker' ) {
	    # we can just re-constitute this one...
	    # NB: we emit _three_ underscores no matter what,
	    # so ghc-split doesn't have to care.
	    print OUTASM "___stg_split_marker",$chksymb[$i],"${T_POST_LBL}\n";

	} elsif ( $chkcat[$i] eq 'closure'
	       || $chkcat[$i] eq 'srt'
	       || $chkcat[$i] eq 'infotbl'
	       || $chkcat[$i] eq 'entry') { # do them in that order
	    $symb = $chksymb[$i];

	    # CLOSURE
	    if ( defined($closurechk{$symb}) ) {
		print OUTASM $T_HDR_closure;
		print OUTASM $chk[$closurechk{$symb}];
		$chkcat[$closurechk{$symb}] = 'DONE ALREADY';
	    }

	    # SRT
	    if ( defined($srtchk{$symb}) ) {
		print OUTASM $T_HDR_relrodata;
		print OUTASM $chk[$srtchk{$symb}];
		$chkcat[$srtchk{$symb}] = 'DONE ALREADY';
	    }

	    # INFO TABLE
	    if ( defined($infochk{$symb}) ) {

		print OUTASM $T_HDR_info;
                print OUTASM &rev_tbl($symb, $chk[$infochk{$symb}], 1);
                
		# entry code will be put here!

		$chkcat[$infochk{$symb}] = 'DONE ALREADY';
	    }

	    # ENTRY POINT
	    if ( defined($entrychk{$symb}) ) {

		$c = $chk[$entrychk{$symb}];

		# If this is an entry point with an info table,
                # eliminate the entry symbol and all directives involving it.
		if (defined($infochk{$symb}) && $TargetPlatform !~ /^ia64-/m
				&& $TABLES_NEXT_TO_CODE eq "YES") {
			@o = ();
			foreach $l (split(/\n/m,$c)) {
			    next if $l =~ /^.*$symb_(entry|ret)${T_POST_LBL}/m;

			    # If we have .type/.size direrctives involving foo_entry,
			    # then make them refer to foo_info instead.  The information
			    # in these directives is used by the cachegrind annotator,
			    # so it is worthwhile keeping.
			    if ($l =~ /^\s*\.(type|size).*$symb_(entry|ret)/m) {
				$l =~ s/$symb(_entry|_ret)/${symb}_info/gm;
				push(@o,$l);
				next;
			    }
                            next if $l =~ /^\s*\..*$symb.*\n?/m;
			    push(@o,$l);
			}
			$c = join("\n",@o) . "\n";
		}

		print OUTASM $T_HDR_entry;

		&print_doctored($c, 1); # NB: the 1!!!

		$chkcat[$entrychk{$symb}] = 'DONE ALREADY';
	    }
	    
	} elsif ( $chkcat[$i] eq 'vector' ) {
	    $symb = $chksymb[$i];

	    # VECTOR TABLE
	    if ( defined($vectorchk{$symb}) ) {
		print OUTASM $T_HDR_vector;
		print OUTASM &rev_tbl($symb, $chk[$vectorchk{$symb}], 0);

		# direct return code will be put here!
		$chkcat[$vectorchk{$symb}] = 'DONE ALREADY';

	    } elsif ( $TargetPlatform =~ /^alpha-/m ) {
		# Alphas: the commented nop is for the splitter, to ensure
		# that no module ends with a label as the very last
		# thing.  (The linker will adjust the label to point
		# to the first code word of the next module linked in,
		# even if alignment constraints cause the label to move!)

		print OUTASM "\t# nop\n";
	    }
	    
 	} elsif ( $chkcat[$i] eq 'rodata' ) {
		print OUTASM $T_HDR_rodata;
		print OUTASM $chk[$i];
		$chkcat[$i] = 'DONE ALREADY';
 	} elsif ( $chkcat[$i] eq 'relrodata' ) {
		print OUTASM $T_HDR_relrodata;
		print OUTASM $chk[$i];
		$chkcat[$i] = 'DONE ALREADY';
 	} elsif ( $chkcat[$i] eq 'toc' ) {
            # silly optimisation to print tocs, since they come in groups...
 	    print OUTASM $T_HDR_toc;
            local($j)	= $i;
            while ($chkcat[$j] eq 'toc')
              { if (   $chk[$j] !~ /\.tc UpdatePAP\[TC\]/m # not needed: always turned into a jump.
                   ) 
                {
                  print OUTASM $chk[$j];
                }
                $chkcat[$j] = 'DONE ALREADY';
                $j++;
 	    }
 	    
 	} elsif ( $TargetPlatform =~ /^.*-apple-darwin.*/m && $chkcat[$i] eq 'dyld' ) {
	    # apple-darwin: dynamic linker stubs
	    if($chk[$i] !~ /\.indirect_symbol ___DISCARD__/m)
	    {	# print them out unchanged, but remove the stubs for __DISCARD__
		print OUTASM $chk[$i];
	    }
        } elsif ( $TargetPlatform =~ /^i386-apple-darwin.*/m && $chkcat[$i] eq 'get_pc_thunk' ) {
            # i386-apple-darwin: __i686.get_pc_thunk.[abcd]x
            print OUTASM ".section __TEXT,__textcoal_nt,coalesced,no_toc\n";
            print OUTASM $chk[$i];
	} else {
	    &tidy_up_and_die(1,"$Pgm: unknown chkcat (ghc-asm: $TargetPlatform)\n$chkcat[$i]\n$chk[$i]\n");
	}
    }

    print OUTASM $EXTERN_DECLS if $TargetPlatform =~ /^mips-/m;

    # finished
    close(OUTASM) || &tidy_up_and_die(1,"Failed writing to $out_asmf\n");
    close(INASM)  || &tidy_up_and_die(1,"Failed reading from $in_asmf\n");
}



























sub ia64_mangle_tailcalls {
    # Function input and output are in $c

    # Construct the tailcall-mangling expression the first time this function
    # is called.
    if (!defined($IA64_MATCH_TAILCALL)) {
        # One-line pattern matching constructs.  None of these
        # should bind references; all parenthesized terms
        # should be (?:) terms.
	my $stop       = q/(?:\t;;\n)/;
	my $bundle     = q/(?:\t\.(?:mii|mib|mmi|mmb|mfi|mfb|mbb|bbb)\n)/;
	my $nop        = q/(?:\tnop(?:\.[mifb])?\s+\d+\n)/;
	my $movgp      = q/(?:\tmov r1 = r\d+\n)/;
	my $postbr     = q/(?:\tbr \.L\d+\n)/;

	my $noeffect   = "(?:$stop$bundle?|$nop)*";
	my $postbundle = "(?:$bundle?$nop?$nop?$postbr)?";

	# Important parts of the pattern match.  The branch target
	# and subsequent jump label are bound to $1 and $2
	# respectively.  Sometimes there is no label.
	my $callbr    = q/^\tbr\.call\.sptk\.many b0 = (.*)\n/;
	my $label     = q/(?:^\.L([0-9]*):\n)/;
	my $tailcall  = q/\t--- TAILCALL ---\n/;

	$IA64_MATCH_TAILCALL =
	  $callbr . $label . '?' . $noeffect . $movgp . '?' . $noeffect .
	  $tailcall . $stop . '?' . '(?:' . $postbundle . ')?';
    }

    # Find and mangle tailcalls
    while ($c =~ s/$IA64_MATCH_TAILCALL/\tbr\.few $1\n/om) {
        # Eek, the gcc optimiser is getting smarter... if we see a jump to the
        # --- TAILCALL --- marker then we reapply the substitution at the source sites
        $c =~ s/^\tbr \.L$2\n/\t--- TAILCALL ---\n/gm if ($2);
    }

    # Verify that all instances of TAILCALL were processed
    if ($c =~ /^\t--- TAILCALL ---\n/m) {
        die "Unmangled TAILCALL tokens remain after mangling"
    }
}














sub ia64_rename_registers() {
    # The text to be mangled is in $c
    # Find number of registers in each stack area
    my ($loc, $out) = @_;
    my $cout;
    my $first_out_reg;
    my $regnum;
    my $fragment;

    # These are the register numbers used in the STG runtime
    my $STG_FIRST_OUT_REG = 32 + 34;
    my $STG_LAST_OUT_REG = $STG_FIRST_OUT_REG + 7;

    $first_out_reg = 32 + $loc;

    if ($first_out_reg > $STG_FIRST_OUT_REG) {
        die "Too many local registers allocated by gcc";
    }

    # Split the string into fragments containing one register name each.
    # Rename the register in each fragment and concatenate.
    $cout = "";
    foreach $fragment (split(/(?=r\d+[^a-zA-Z0-9_.])/sm, $c)) {
        if ($fragment =~ /^r(\d+)((?:[^a-zA-Z0-9_.].*)?)$/sm) {
	    $regnum = $1;

	    if ($regnum < $first_out_reg) {
	        # This is a local or fixed register

		# Local registers 32 and 33 (r64 and r65) are
	        # used to hold saved state; they shouldn't be touched
		if ($regnum == 64 || $regnum == 65) {
		   die "Reserved register $regnum is in use";
		}
	    }
	    else {
	        # This is an output register
	        $regnum = $regnum - $first_out_reg + $STG_FIRST_OUT_REG;
		if ($regnum > $STG_LAST_OUT_REG) {
		    die "Register number ($regnum) is out of expected range";
		}
	    }

	    # Update this fragment
	    $fragment = "r" . $regnum . $2;
	}
	$cout .= $fragment;
    }

    $c = $cout;
}




sub hppa_mash_prologue { # OK, epilogue, too
    local($_) = @_;

    # toss all prologue stuff
    s/^\s+\.ENTRY[^\0]*--- BEGIN ---/\t.ENTRY/m;

    # Lie about our .CALLINFO
    s/^\s+\.CALLINFO.*$/\t.CALLINFO NO_CALLS,NO_UNWIND/m;

    # Get rid of P'

    s/LP'/L'/gm;
    s/RP'/R'/gm;

    # toss all epilogue stuff
    s/^\s+--- END ---[^\0]*\.EXIT/\t.EXIT/m;

    # Sorry; we moved the _info stuff to the code segment.
    s/_info,DATA/_info,CODE/gm;

    return($_);
}



sub print_doctored {
    local($_, $need_fallthru_patch) = @_;

    if ( $TargetPlatform =~ /^x86_64-/m ) {
	    # Catch things like
	    #	
	    #    movq -4(%ebp), %rax
	    #    jmp  *%rax
	    # 
	    # and optimise:
	    #
	    s/^\tmovq\s+(-?\d*\(\%r(bx|bp|13)\)),\s*(\%r(ax|cx|dx|10|11))\n\tjmp\s+\*\3/\tjmp\t\*$1/gm;
	    s/^\tmovl\s+\$${T_US}(.*),\s*(\%e(ax|cx|si|di))\n\tjmp\s+\*\%r\3/\tjmp\t$T_US$1/gm;
    }

    if ( $TargetPlatform !~ /^i386-/m 
      || ! /^\t[a-z]/m  # no instructions in here, apparently
      || /^${T_US}__stginit_[A-Za-z0-9_]+${T_POST_LBL}/m) {
	print OUTASM $_;
	return;
    }

    # OK, must do some x86 **HACKING**

    local($entry_patch)	= '';
    local($exit_patch)	= '';

    # gotta watch out for weird instructions that
    # invisibly smash various regs:
    #   rep*	%ecx used for counting
    #   scas*	%edi used for destination index
    #   cmps*	%e[sd]i used for indices
    #   loop*	%ecx used for counting
    #
    # SIGH.

    # We cater for:
    #  * use of STG reg [ nn(%ebx) ] where no machine reg avail
    #
    #  * GCC used an "STG reg" for its own purposes
    #
    #  * some secret uses of machine reg, requiring STG reg
    #    to be saved/restored

    # The most dangerous "GCC uses" of an "STG reg" are when
    # the reg holds the target of a jmp -- it's tricky to
    # insert the patch-up code before we get to the target!
    # So here we change the jmps:

    # --------------------------------------------------------
    # it can happen that we have jumps of the form...
    #   jmp *<something involving %esp>
    # or
    #   jmp <something involving another naughty register...>
    #
    # a reasonably-common case is:
    #
    #   movl $_blah,<bad-reg>
    #   jmp  *<bad-reg>
    #
    s/^\tmovl\s+\$${T_US}(.*),\s*(\%e[acd]x)\n\tjmp\s+\*\2/\tjmp $T_US$1/gm;

    # Catch things like
    #
    #    movl -4(%ebx), %eax
    #    jmp  *%eax
    # 
    # and optimise:
    #
    s/^\tmovl\s+(-?\d*\(\%e(bx|si)\)),\s*(\%e[acd]x)\n\tjmp\s+\*\3/\tjmp\t\*$1/gm;

    if ($StolenX86Regs <= 2 ) { # YURGH! spurious uses of esi?
	s/^\tmovl\s+(.*),\s*\%esi\n\tjmp\s+\*%esi\n/\tmovl $1,\%eax\n\tjmp \*\%eax\n/gm;
	s/^\tjmp\s+\*(.*\(.*\%esi.*\))\n/\tmovl $1,\%eax\n\tjmp \*\%eax\n/gm;
	s/^\tjmp\s+\*\%esi\n/\tmovl \%esi,\%eax\n\tjmp \*\%eax\n/gm;
	die "$Pgm: (mangler) still have jump involving \%esi!\n$_"
	    if /(jmp|call)\s+.*\%esi/m;
    }
    if ($StolenX86Regs <= 3 ) { # spurious uses of edi?
	s/^\tmovl\s+(.*),\s*\%edi\n\tjmp\s+\*%edi\n/\tmovl $1,\%eax\n\tjmp \*\%eax\n/gm;
	s/^\tjmp\s+\*(.*\(.*\%edi.*\))\n/\tmovl $1,\%eax\n\tjmp \*\%eax\n/gm;
	s/^\tjmp\s+\*\%edi\n/\tmovl \%edi,\%eax\n\tjmp \*\%eax\n/gm;
	die "$Pgm: (mangler) still have jump involving \%edi!\n$_"
	    if /(jmp|call)\s+.*\%edi/m;
    }

    # OK, now we can decide what our patch-up code is going to
    # be:

    # Offsets into register table - you'd better update these magic
    # numbers should you change its contents!
    # local($OFFSET_R1)=0;  No offset for R1 in new RTS.
    local($OFFSET_Hp)=88;

	# Note funky ".=" stuff; we're *adding* to these _patch guys
    if ( $StolenX86Regs <= 2
	 && ( /[^0-9]\(\%ebx\)/m || /\%esi/m || /^\tcmps/m ) ) { # R1 (esi)
	$entry_patch .= "\tmovl \%esi,(\%ebx)\n";
	$exit_patch  .= "\tmovl (\%ebx),\%esi\n";

	# nothing for call_{entry,exit} because %esi is callee-save
    }
    if ( $StolenX86Regs <= 3
	 && ( /${OFFSET_Hp}\(\%ebx\)/m || /\%edi/m || /^\t(scas|cmps)/m ) ) { # Hp (edi)
	$entry_patch .= "\tmovl \%edi,${OFFSET_Hp}(\%ebx)\n";
	$exit_patch  .= "\tmovl ${OFFSET_Hp}(\%ebx),\%edi\n";

	# nothing for call_{entry,exit} because %edi is callee-save
    }

    # --------------------------------------------------------
    # next, here we go with non-%esp patching!
    #
    s/^(\t[a-z])/$entry_patch$1/m; # before first instruction

# Before calling GC we must set up the exit condition before the call
# and entry condition when we come back

    # fix _all_ non-local jumps:

    if ( $TargetPlatform =~ /^.*-apple-darwin.*/m ) {
        # On Darwin, we've got local-looking jumps that are
        # actually global (i.e. jumps to Lfoo$stub or via
        # Lfoo$non_lazy_ptr), so we fix those first.
        # In fact, we just fix everything that contains a dollar
        # because false positives don't hurt here.

        s/^(\tjmp\s+\*?L.*\$.*\n)/$exit_patch$1/gm;
    }

    s/^\tjmp\s+\*${T_X86_PRE_LLBL_PAT}/\tJMP___SL/gom;
    s/^\tjmp\s+${T_X86_PRE_LLBL_PAT}/\tJMP___L/gom;

    s/^(\tjmp\s+.*\n)/$exit_patch$1/gm; # here's the fix...

    s/^\tJMP___SL/\tjmp \*${T_X86_PRE_LLBL}/gom;
    s/^\tJMP___L/\tjmp ${T_X86_PRE_LLBL}/gom;

    if ($StolenX86Regs == 2 ) {
	die "ARGH! Jump uses \%esi or \%edi with -monly-2-regs:\n$_" 
	    if /^\t(jmp|call)\s+.*\%e(si|di)/m;
    } elsif ($StolenX86Regs == 3 ) {
	die "ARGH! Jump uses \%edi with -monly-3-regs:\n$_" 
	    if /^\t(jmp|call)\s+.*\%edi/m;
    }

    # --------------------------------------------------------
    # that's it -- print it
    #
    #die "Funny jumps?\n$_" if /${T_X86_BADJMP}/o; # paranoia

    print OUTASM $_;

    if ( $need_fallthru_patch ) { # exit patch for end of slow entry code
	print OUTASM $exit_patch;
	# ToDo: make it not print if there is a "jmp" at the end
    }
}



sub init_FUNNY_THINGS {
    # use vars '%KNOWN_FUNNY_THING'; # Unused?
    %KNOWN_FUNNY_THING = (
	# example
	# "${T_US}stg_.*{T_POST_LBL}", 1,  
    );
}









sub rev_tbl {
    # use vars '$discard1';   # Unused?
    local($symb, $tbl, $discard1) = @_;

    return ($tbl) if ($TargetPlatform =~ /^ia64-/m
                      || $TABLES_NEXT_TO_CODE eq "NO");

    local($before) = '';
    local($label) = '';
    local(@imports) = (); # hppa only
    local(@words) = ();
    local($after) = '';
    local(@lines) = split(/\n/m, $tbl);
    local($i, $j);

    # Deal with the header...
    for ($i = 0; $i <= $#lines && $lines[$i] !~ /^\t?${T_DOT_WORD}\s+/om; $i++) {
	$label .= $lines[$i] . "\n",
	    next if $lines[$i] =~ /^[A-Za-z0-9_]+_info${T_POST_LBL}$/om
		 || $lines[$i] =~ /${T_DOT_GLOBAL}/om
		 || $lines[$i] =~ /^${T_US}\S+_vtbl${T_POST_LBL}$/om;

	$before .= $lines[$i] . "\n"; # otherwise...
    }

    $infoname = $label;
    $infoname =~ s/(.|\n)*^([A-Za-z0-9_]+_info)${T_POST_LBL}$(.|\n)*/$2/m;
    
    # Grab the table data...
    if ( $TargetPlatform !~ /^hppa/m ) {
	for ( ; $i <= $#lines && $lines[$i] =~ /^\t?${T_DOT_WORD}\s+/om; $i++) {
	    $line = $lines[$i];
	    # Convert addresses of SRTs, slow entrypoints and large bitmaps
	    # to offsets (relative to the info label),
	    # in order to support position independent code.
            $line =~ s/$infoname/0/m
            || $line =~ s/([A-Za-z0-9_]+_srtd)$/$1 - $infoname/m
            || $line =~ s/([A-Za-z0-9_]+_srt(\+\d+)?)$/$1 - $infoname/m
            || $line =~ s/([A-Za-z0-9_]+_str)$/$1 - $infoname/m
	    || $line =~ s/([A-Za-z0-9_]+_slow)$/$1 - $infoname/m
	    || $line =~ s/([A-Za-z0-9_]+_btm)$/$1 - $infoname/m
            || $line =~ s/([A-Za-z0-9_]+_alt)$/$1 - $infoname/m
            || $line =~ s/([A-Za-z0-9_]+_dflt)$/$1 - $infoname/m
            || $line =~ s/([A-Za-z0-9_]+_ret)$/$1 - $infoname/m;
	    push(@words, $line);
	}
    } else { # hppa weirdness
	for ( ; $i <= $#lines && $lines[$i] =~ /^\s+(${T_DOT_WORD}|\.IMPORT)/m; $i++) {
            # FIXME: the RTS now expects offsets instead of addresses
            # for all labels in info tables.
	    if ($lines[$i] =~ /^\s+\.IMPORT/m) {
		push(@imports, $lines[$i]);
	    } else {
		# We don't use HP's ``function pointers''
		# We just use labels in code space, like normal people
		$lines[$i] =~ s/P%//m;
		push(@words, $lines[$i]);
	    }
	}
    }

    # Now throw away any initial zero word from the table.  This is a hack
    # that lets us reduce the size of info tables when the SRT field is not
    # needed: see comments StgFunInfoTable in InfoTables.h.
    #
    # The .zero business is for Linux/ELF.
    # The .skip business is for Sparc/Solaris/ELF.
    # The .blockz business is for HPPA.
#    if ($discard1) {
#	if ($words[0] =~ /^\t?(${T_DOT_WORD}\s+0|\.zero\s+4|\.skip\s+4|\.blockz\s+4)/) {
#		shift(@words);
#    	}
#    }

    for (; $i <= $#lines; $i++) {
	$after .= $lines[$i] . "\n";
    }

    # Alphas: If we have anonymous text (not part of a procedure), the
    # linker may complain about missing exception information.  Bleh.
    # To suppress this, we place a .ent/.end pair around the code.
    # At the same time, we have to be careful and not enclose any leading
    # .file/.loc directives.
    if ( $TargetPlatform =~ /^alpha-/m && $label =~ /^([A-Za-z0-9_]+):$/m) {
        local ($ident) = $1;
        $before =~ s/^((\s*\.(file|loc)\s+[^\n]*\n)*)/$1\t.ent $ident\n/m;
    	$after .= "\t.end $ident\n";
    }

    # Alphas: The heroic Simon Marlow found a bug in the Digital UNIX
    # assembler (!) wherein .quad constants inside .text sections are
    # first narrowed to 32 bits then sign-extended back to 64 bits.
    # This obviously screws up our 64-bit bitmaps, so we work around
    # the bug by replacing .quad with .align 3 + .long + .long [ccshan]
    if ( $TargetPlatform =~ /^alpha-/m ) {
	foreach (@words) {
	    if (/^\s*\.quad\s+([-+0-9].*\S)\s*$/m && length $1 >= 10) {
		local ($number) = $1;
		if ($number =~ /^([-+])?(0x?)?([0-9]+)$/m) {
		    local ($sign, $base, $digits) = ($1, $2, $3);
		    $base = (10, 8, 16)[length $base];
		    local ($hi, $lo) = (0, 0);
		    foreach $i (split(//, $digits)) {
			$j = $lo * $base + $i;
			$lo = $j % 4294967296;
			$hi = $hi * $base + ($j - $lo) / 4294967296;
		    }
		    ($hi, $lo) = (4294967295 - $hi, 4294967296 - $lo)
			if $sign eq "-";
		    $_ = "\t.align 3\n\t.long $lo\n\t.long $hi\n";
		    # printf STDERR "TURNING %s into 0x %08x %08x\n", $number, $hi, $lo;
		} else {
		    print STDERR "Cannot handle \".quad $number\" in info table\n";
		    exit 1;
		}
	    }
	}
    }

    if ( $TargetPlatform =~ /x86_64-apple-darwin/m ) {
        # Tack a label to the front of the info table, too.
        # For now, this just serves to work around a crash in Apple's new
        # 64-bit linker (it seems to assume that there is no data before the
        # first label in a section).
        
        # The plan for the future is to do this on all Darwin platforms, and
        # to add a reference to this label after the entry code, just as the
        # NCG does, so we can enable dead-code-stripping in the linker without
        # losing our info tables. (Hence the name _dsp, for dead-strip preventer)
        
        $before .= "\n${infoname}_dsp:\n";    
    }

    $tbl = $before
	 . (($TargetPlatform !~ /^hppa/m) ? '' : join("\n", @imports) . "\n")
	 . join("\n", @words) . "\n"
	 . $label . $after;

#   print STDERR "before=$before\n";
#   print STDERR "label=$label\n";
#   print STDERR "words=",(reverse @words),"\n";
#   print STDERR "after=$after\n";

    $tbl;
}









sub mini_mangle_asm_hppa {
    local($in_asmf, $out_asmf) = @_;

    open(INASM, "< $in_asmf")
	|| &tidy_up_and_die(1,"$Pgm: failed to open `$in_asmf' (to read)\n");
    open(OUTASM,"> $out_asmf")
	|| &tidy_up_and_die(1,"$Pgm: failed to open `$out_asmf' (to write)\n");

    while (<INASM>) {
	s/_info,DATA/_info,CODE/m;   # Move _info references to code space
	s/P%_PR/_PR/m;
	print OUTASM;
    }

    # finished:
    close(OUTASM) || &tidy_up_and_die(1,"Failed writing to $out_asmf\n");
    close(INASM)  || &tidy_up_and_die(1,"Failed reading from $in_asmf\n");
}




sub tidy_up_and_die {
    local($return_val, $msg) = @_;
    print STDERR $msg;
    exit (($return_val == 0) ? 0 : 1);
}

