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path: root/graphics/sam2p/l1zip.psm
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/*%
% l1zip.psm -- /FlateDecode image data implementation for /PSL1
% by pts@fazekas.hu at Sun Sep 22 01:01:00 CEST 2002
% formerly flatedecode.psm -- please run faltedecode_eps_helper.sh...
% by pts@fazekas.hu at Fri Sep 20 23:31:36 CEST 2002
% -- Sat Sep 21 01:11:10 CEST 2002
% doesn't work -- Sat Sep 21 02:52:36 CEST 2002
% disallow preread==8, allow preread==0 WORKS -- Sat Sep 21 20:22:07 CEST 2002
% derived from statecat.psm -- a stateful, faster minimalistic zcat (gzip -cd)
%   implementation, implemented in pure PostScript LanguageLevel1 (Run
%   through cpp (C preprocessor) to get the PostScript file
% statecat.psm by pts@fazekas.hu
% originally rcm.c
% original author: Ron McFarland <rcm@one.net>, 1996
% formally muzcat.c (at Tue Dec 25 11:07:47 CET 2001)
% based on statecat.ps.3 by pts@fazekas.hu
% rewritten, restructured and extended at Tue Dec 25 21:00:33 CET 2001
% translated to PostScript except fvWork at Tue Dec 25 23:11:31 CET 2001
% translated to PostScript altogether at Thu Dec 27 01:10:58 CET 2001
% translation works with `cat random.file.gz random.file.gz'' at Thu Dec 27 14:19:36 CET 2001
% Thu Dec 27 18:37:03 CET 2001:
%   statecat.ps: 1071960 ms user time (249.293 times slower than gunzip)
% function inlining at Thu Dec 27 21:51:45 CET 2001
% shorter keywords at Thu Dec 27 23:52:46 CET 2001
% at Sat Feb 23 17:05:43 CET 2002:
%   statecat.ps originally: 5388 bytes
%   after eliminate-NULLs trick: 5349 bytes
%   after anti-32768... trick 5229 bytes
%   5041
%*/
/*
% Imp: more efficient optimize CFG_FMT_ZLIB_ONLY
% Imp: do `F closefile', `T closefile' in %<True>
% Not: don't inline TE_read for USE_HEXD (15*5 bytes for ACSO0g is not tolerable)
% OK : verify a85_getc for really eating EOD (~>) chars
% OK : find and catalogize `|' and other one-char abbrs
% OK : shorter operator names (i.e `E' for `def', as in test_vm_eps.eps)
% OK : shorter var names (such as `preread', `past')
% Not: make global vars numbered, not named...
% OK : make constU[]-3 a string, not an array
% OK : make constW, constP, constL strings, not arrays
% Imp: inline all except fvMktree (too long), fvFree (recursive) and fvWork (too long)
% OK : verify, examine StateCatDict (45)
% OK : find unused vars (such as `moo') in StateCatDict
% OK : is constM or 1<< faster?? (decided 1<<)
% OK : anti-`/z 42 eq', ensure `eq' compares numbers (INT_EQ)
% OK : verify if/ifelse for ENDIF
% OK : verify direction of `for's
% OK : eliminate `stopped' context because it catches errors
% OK : clear stack before `exit'
% OK : verify `/name' against `name'; grep m@/@
% OK : verify that `}' is followed by correct if|ifelse|def|bind|stopped|loop|for
%
% Typical error: syntax: /^#/
% Typical error: syntax: m@/ +\w@
% Typical error: mispelling
% Typical error: missing `pop' at `dup ... eq{exit}if'
% Typical error: missing `for|if|...' after '}'
*/

#include "psmlib.psm"

#if USE_A85D
#else
  #if USE_HEXD
  #else
    #define USE_BINARY 1
  #endif
#endif

#if USE_NO_BIND
  #define BIND_DEF def
#else
  #define BIND_DEF bind def
#endif

/* --- .pin begins */

%<Head>
%!PS-Adobe-3.0`E
%%Inflater: pts@fazekas.hu l1zip.psm
%%Pages: 1
`X%%DocumentData: `B
%%LanguageLevel: 1
`I%%EndComments
%%Page: 1 1
%</Head>

%<Open>
save`s `R
%</Open>

/* 88 dict dup /TokDict exch def begin */
%<Abbr acount=26 xcount=62>
begin
%</Abbr>

%<A x "load def"/>  % best to make it first
%<A E def/>         % best to make it second

%<A + add/>
%<A , and/>
%<A - sub/>
%<A . lt/>
%<A : for/>
%<A ; getinterval/>
%<A = eq/>
%<A @ loop/>
%<A A currentfile/>
%<A H 32768/> /*!=LZW*/
%<A J 32767/> /*!=LZW*/
%<A O pop/>
%<A X exit/>
%<A a packedarray/>
%<A b bitshift/>
%<A c exch/>
%<A g get/>
%<A y copy/>
%<A i ifelse/>
%<A j if/>
%<A t put/>
%<A u dup/>
%<A ~ ne/>
#if 0 /* important in LZW, but not in Flate */
  %<A * gt/>
  %<A L length/>
  %<A r read/>
  %<A s string/>
#endif
#if USE_A85D
%<D d a85_getc/>
%<D S xS/>
%<D D xD/>
%<D C xC/>
#endif
#if USE_HEXD
%<D d .hexd.un/>
%<A S readhexstring/>
%<D D .hexd.un/>
%<D C .hexd./>
#endif
#if USE_BINARY
%<D d .binary.un/>
#if USE_PALETTE
%<A S readstring/>
#endif
%<D D .binary.un/>
%<D C .binary.un/>
#endif

#if USE_SHORT_NAMES
% Free for short names: *?\^_`| BFGIKLMNPQRTUVWYZ efhklmnopqrsvwz
% Numerical comments denote # calls or # accesses
% : B: TokSubs
%<D F Bary/> /* F must be overridden with array to avoid early TokSubs */
% : G
%<D I fxIgnore8/> % ? + 3
%<D K Sbuf/>
%<D L fvFree/> % 5
%<D M fvMktree/> % 5
%<D N .N./>
%<D P preread/>
%<D Q mQ/> % 6
%<D R fxRead8/> % 6
%<D T Gary/> /* T must be overridden with array to avoid early TokSubs */
%<D U fvFree/> % 5
%<D V fvMktree/> % 5
%<D Y fxRead16/> % 7 /* formerly: C */
%<D W oP/> % 4
%<D Z .Z./>
%<D e oO/> % 7
%<D f .f./>
%<D h .h./>
%<D k fxSkip/> % 4
%<D l constZ19/> % 3
%<D m mode/>
%<D n mF/> % 6
%<D o .o./>
%<D p .p./>
%<D q .q./>
%<D r fvRead/> % 10
%<D s past/>
%<D v .v./>
%<D w tY/> % 6
%<D z Tvar/>
/* %<D z fxIgnore8z/> % 3 */ /* not a function anymore */
%<D * fvWork/> % 1
%<D _ fxRead8EOF/> % 1
%<D ? Dvar/>
%<D | fvMain/>
#endif

%<TokSubs name=B inlining=0/>

#if USE_CURRENTFILE
  #define STDIN currentfile
#endif

%<Test>
#if USE_DEBUG2
/FP /fileposition x
#endif

#if USE_BINARY
  {mark /F currentfile/FlateDecode filter def}stopped
#endif
#if USE_A85D
  {mark /T currentfile/ASCII85Decode filter def /F T/FlateDecode filter def}stopped
#endif
#if USE_HEXD
  {mark /T currentfile/ASCIIHexDecode filter def /F T/FlateDecode filter def}stopped
#endif
/Z exch def cleartomark
/G{`i}def % image, imagemask or `false 3 colorimage`
`w `h `b[1 0 0 -1 0 `h]
#if USE_TRUE
true
#else
Z
#endif
%</Test>

%<S len=32768>
32768 string dup /Sbuf exch def
%</S>

%<True>
  fvMain
%</True>

%<False>
F G
F closefile
#if !USE_BINARY
T closefile
#endif
%</False>

#define ZZZ_ASET(aname,idx,b) aname idx b put
#define ZZZ_AREF(aname,idx) aname idx get
#define PASS
#define GLOBAL_VAR0(t,name)
#define SLOCAL_VAR0(t,name)
#define GLOBAL_VAR(t,name) /name null def
#define SLOCAL_VAR(t,name) /name null def
#define GLOBAL_ARRAY(t,name,size) /name size t def
#define LOCAL_VAR(a,b)

#if 0 /* LINE_DEBUG */
#define put (put:__LINE__) === put
#define get (get:__LINE__) === get
#endif

%<Defs>
% Imp: F closefile, T closefile
/* We must define constants and global arrays first. */

#define NULL 0
#define NODESIZE 1998 /* NODESIZE%3==0 */
/** Binary (Huffman) tree of nodes. */
GLOBAL_ARRAY(array,N,NODESIZE)
/**
 * Contains the code word lengths used for Huffman code generation in
 * fvMktree(). 320==288+32. 320 is large enough to hold both the code lengths
 * of the literal--length (288) and the distance (32) Huffman trees -- and
 * large enough to hold the auxilary Huffman tree (used for building the
 * real tree) of length 19.
 */
GLOBAL_ARRAY(array,Z,320)
GLOBAL_ARRAY(array,Bary,17)
GLOBAL_ARRAY(array,Gary,17)
#if CFG_NO_VAR_S
#else
GLOBAL_ARRAY(string,Sbuf,32768)
#endif
/constZ19 0 0 0 0 0  0 0 0 0 0  0 0 0 0 0  0 0 0 0  19 packedarray def
#if USE_HEXD
  /C(.)def
#endif

{ /* We start declaring functions inside the brace */

#define constW   { 16 17 18 0 8 7 9 6 10 5 11 4 12 3 13 2 14 1 15 }  /* 19 packedarray def */
#define constU   { 3 4 5 6 7 8 9 10 11 13 15 17 19 23 27 31 35 43 51 59 67 83 99 115 131 163 195 227 258 }  /* 29 packedarray def */
#define constP   { 0 0 0 0 0 0 0 0 1 1 1 1 2 2 2 2 3 3 3 3 4 4 4 4 5 5 5 5 0 }  /* 29 packedarray def */
#define constQ   { 1 2 3 4 5 7 9 13 17 25 33 49 65 97 129 193 257 385 513 769 1025 1537 2049 3073 4097 6145 8193 12289 16385 24577 }  /* 30 packedarray def */
#define constL   { 0 0 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 }  /* 30 packedarray def */
#if 0
#define constM   { 0 1 3 7 15 31 63 127 255 511 1023 2047 4095 8191 }  /* 14 packedarray def */
#endif

#if USE_A85D
  GLOBAL_VAR0(SINT32,xS) /* Variable `xS' was formerly called: `sx' */
  GLOBAL_VAR0(SINT32,xD) /* Variable `xD' was formerly called: `dx' */
  GLOBAL_VAR0(SINT32,xC) /* Variable `xC' was formerly called: `c0' */
  /** - a85_getc <0..255|511>
   * Reads a char from `currentfile' as /ASCII85Decode
   */
  /a85_getc{ % Simple getchar() of ASCII85Decode filter :-)), formerly /d
    PSM_A85_GETC
  }BIND_DEF
#endif

#if USE_NO_EOF
  #define my_getchar() TE_read( )
  #define my_ignorechar() TE_read(pop)
#else
  #define my_getchar() TE_read() {511}ifelse
  #define my_ignorechar() TE_read(pop) if
#endif


/** Index of the first free node in <code>N</code>. */
GLOBAL_VAR0(WORD,Dvar)

GLOBAL_VAR0(WORD,Tvar) /* index (in S) of the first free position, [0..32767] */

/* GLOBAL_VAR(NODEN,no) -- unused */
/* GLOBAL_VAR(WORD,roo) -- unused */
/* GLOBAL_VAR(WORD,rf) -- unused */
/* GLOBAL_VAR(WORD,moo) -- unused */
/* GLOBAL_VAR(WORD,mo) -- unused */
/* GLOBAL_VAR(WORD,oooo) -- unused */
/* GLOBAL_VAR(WORD,x) -- unused */
GLOBAL_VAR0(WORD,mQ)
GLOBAL_VAR0(WORD,mF)
GLOBAL_VAR0(WORD,o)
GLOBAL_VAR0(WORD,q)
GLOBAL_VAR0(WORD,mode) /* MODE_* */
GLOBAL_VAR0(WORD,tY) /* FMT_*; formerly ty */
GLOBAL_VAR0(WORD,oO)
GLOBAL_VAR0(WORD,oP)
GLOBAL_VAR0(WORD,f)
GLOBAL_VAR0(WORD,p)
GLOBAL_VAR0(WORD,v)
GLOBAL_VAR0(WORD,h)


#define AREF_S(idx) AREF(Sbuf,idx)
#define ASET_S(idx,val) ASET(Sbuf,idx,val)

/* Reading Operations:

-- fxRead8(): read a 8-bit byte at byte boundary
-- fxRead16z(): read a 16-bit word at byte boundary, MSB first (ZIP)
-- fxRead16(): read a 16-bit word at byte boundary, LSB first (normal)
-- fxSkip(): skip to next byte boundary
-- fxRead1(): read 1 bit (for Huffman)
-- fvRead(): read any amount of bits (0..13), LSB first
*/

/* Dat: FlateDecode bit packing order is: (b7*128+...+b0)+(b15*128+...+b8)

/** char, 0..255 */
SLOCAL_VAR0(WORD,preread)
/** -1..-8: bits of bufread[pos] already read */
SLOCAL_VAR0(WORD,past)

% static void fxInit(void) {
% /fxInit {
#define fxInit \
  /preread 0 def \
  /past -8 def
% }BIND_DEF

/* #define ASSERT_PREREAD_NOT_EOF() preread 255 gt ASSERT_FALSE_POP((unexpected eof)) */
#define ASSERT_NOT_EOF(val) ASSERT_TRUE(val dup 255 and eq,(non-EOF expected))
#define ASSERT_PREREAD_NOT_EOF() ASSERT_NOT_EOF(preread)

/** reads 0..13 bits */
% static WORD fvRead(WORD arg) {
/fvRead {
  DEBUG(dup (==> fvRead\() exch 42 string cvs concatstrings (\)\n) concatstrings)
  DEBUG((    past=) past neg 42 string cvs concatstrings
        ( preread=) preread 42 string cvs concatstrings
        (\n) concatstrings concatstrings)
  dup 0 INT_NE{
    ASSERT_PREREAD_NOT_EOF()
    past
    % Stack: arg -opast
    dup preread exch bitshift exch % SHR
    % Stack: arg preread>>opast opast
    dup 3 index sub
    % Stack: arg ret==:preread>>-opast -opast -past==:-opast-arg
    dup -8 ge{
      /past exch def % BUG fixed at Thu Dec 27 14:53:53 CET 2001
      pop
      % Stack: arg ret
    }{
      ASSERT_TRUE(dup -9 le,(-past>=9))
      /preread my_getchar() def
      ASSERT_PREREAD_NOT_EOF()
      dup -16 ge{ /* _GT_ */
        8 add /past exch def
        8 add
        % Stack: arg ret==:preread>>opast 8-opast
        preread exch bitshift % SHL
        add
        % Stack: arg ret''
      }{
        16 add /past exch def
        8 add 2 copy
        % Stack: arg retold 8-opast ret 8-opast
        preread exch bitshift add % SHL
        % Stack: arg retold 8-opast ret''
        /preread my_getchar() def % BUG fixed at Thu Dec 27 15:40:53 CET 2001
        ASSERT_TRUE(past -1 le,(-past>=1))
        ASSERT_TRUE(past -4 ge,(-past<=4))
        ASSERT_PREREAD_NOT_EOF()
        exch 8 add preread exch bitshift add
        % Stack: arg retold ret''
        exch pop
        % Stack: arg ret''
      }ifelse
    }ifelse
    % Stack: arg ret
    % exch constM exch get and  % ret&=((1<<arg)-1);
    % ^^^ BUG (re)-fixed at Thu Dec 27 14:50:49 CET 2001
    exch 1 exch bitshift 1 sub and
  }if
  DEBUG(dup (<-- fvRead=) exch 42 string cvs concatstrings (\n) concatstrings)
  % (%stderr) (w) file (<fvRead\n) writestring
  % fvRead(0)==0 implicitly assumed
}BIND_DEF

% static WORD fxRead1(void) {
% /fxRead1{
#define fxRead1 \
  ASSERT_PREREAD_NOT_EOF() \
  past dup -8 INT_EQ{ \
    pop \
    /preread my_getchar() def \
    /past -1 def \
    preread 1 and \
    /* Stack: ret */ \
  }{ \
    dup 1 sub /past exch def \
    preread exch bitshift 1 and \
    /* Stack: ret */ \
  }ifelse
% }BIND_DEF

#if 0 /* old style past==0, inline only speed-critical functions */
  % static void fxSkip(void) {
  % /fxSkip{
  #define fxSkip \
    past 0 INT_NE{ \
      ASSERT_PREREAD_NOT_EOF() \
      /preread my_getchar() def \
      /past 0 def \
    }if
  % }BIND_DEF

  % static WORD fxRead16(void) {
  % /fxRead16{
  #define fxRead16 \
    ASSERT_TRUE(past 0 INT_EQ,(past==0)) \
    ASSERT_PREREAD_NOT_EOF() \
    preread \
    /* Stack: ret */ \
    my_getchar() dup /preread exch def \
    ASSERT_PREREAD_NOT_EOF() \
    8 bitshift \
    add \
    /preread my_getchar() def
  % }BIND_DEF

  % static WORD fxRead8(void) {
  % /fxRead8{
  #define fxRead8 \
    ASSERT_TRUE(past 0 INT_EQ,(past==0)) \
    ASSERT_PREREAD_NOT_EOF() \
    preread \
    /* Stack: ret */ \
    /preread my_getchar() def
  % }BIND_DEF

  % static void fxIgnore8(WORD how_many_bytes) {
  #define fxIgnore8 \
    ASSERT_TRUE(dup 0 gt,(fxIgnore8arg>0)) \
    ASSERT_TRUE(past 0 INT_EQ,(past==0)) \
    ASSERT_PREREAD_NOT_EOF() \
    -1 2 {pop my_ignorechar()}for \
    /preread my_getchar() def

  #define fxIgnore8z \
    ASSERT_TRUE(past 0 INT_EQ,(past==0)) \
    ASSERT_PREREAD_NOT_EOF() \
    dup 0 INT_NE{ \
      -1 2 {pop DEBUG2((fI8z)===) my_ignorechar()}for \
      /preread my_getchar() def \
    }{pop}ifelse

  % static WORD fxRead8EOF(void) {
  % /fxRead8EOF{
  #define fxRead8EOF \
    ASSERT_TRUE(past 0 INT_EQ,(past==0)) \
    preread \
    /* Stack: ret */ \
    /preread my_getchar() def
  % }BIND_DEF
#else
  #if 0
    /* old-style: past==0 */
    % static void fxSkip(void) {
    /fxSkip{
      past 0 INT_NE{
        ASSERT_PREREAD_NOT_EOF()
        /preread my_getchar() def
        /past 0 def
      }if
    }BIND_DEF
    % static WORD fxRead8(void) {
    /fxRead8{
      ASSERT_TRUE(past 0 INT_EQ,(past==0))
      ASSERT_PREREAD_NOT_EOF()
      preread
      /* Stack: ret */
      /preread my_getchar() def
    }BIND_DEF
    /fxIgnore8z{
      % Same as void fxIgnore8(WORD how_many_bytes), but allow 0 as arg
      ASSERT_TRUE(past 0 INT_EQ,(past==0))
      ASSERT_PREREAD_NOT_EOF()
      dup 0 INT_NE{
        -1 2 {pop DEBUG2((fI8z)===)  my_ignorechar()}for
        /preread my_getchar() def
      }{pop}ifelse
    }BIND_DEF
    /fxRead8EOF{
      ASSERT_TRUE(past 0 INT_EQ,(past==0))
      preread
      /* Stack: ret */
      /preread my_getchar() def
    }BIND_DEF
  #else
    #define fxSkip /past -8 def
    #define fxRead8 \
      ASSERT_TRUE(past -8 INT_EQ,(past==-8)) \
      my_getchar() ASSERT_NOT_EOF(dup)
    % }BIND_DEF
    #define fxRead8EOF \
      ASSERT_TRUE(past -8 INT_EQ,(past==-8)) \
      my_getchar()
    % }BIND_DEF
  #endif

  % static WORD fxRead16(void) {
  /fxRead16{
    ASSERT_TRUE(past -8 INT_EQ,(past==-8))
    my_getchar() ASSERT_NOT_EOF(dup)
    my_getchar() ASSERT_NOT_EOF(dup)
    8 bitshift add
  }BIND_DEF

  % static void fxIgnore8(WORD how_many_bytes) {
  /fxIgnore8{
    ASSERT_TRUE(dup 0 gt,(fxIgnore8arg>0))
    ASSERT_TRUE(past -8 INT_EQ,(past==-8))
    ASSERT_PREREAD_NOT_EOF()
    {my_getchar() ASSERT_NOT_EOF(dup) pop }repeat
  }BIND_DEF
  #define fxIgnore8z fxIgnore8
#endif

#define fvReadq fvRead
/** Reads an uint16 from the ZIP file */
#define fxRead16z fxRead16

/**
 * Allocates a new node and initializes it with empty content. This function
 * lets us get rid of the global variable F (which was buggily uninitialized
 * in the original scm.c).
 * @return pointer to the newly allocated node
 * @whichcode -1
 */
% DEFUN_0(NODEN,fvNalloc)
% /fvNalloc{
#define fvNalloc \
  /* GLOBAL_REF(N) */ \
  /* GLOBAL_REF(Dvar) */ \
  /* LOCAL_VAR(NODEN,no) */ /* the first/next free node */ \
  /* FUNCODE */ \
  Dvar \
  /* Stack: no */ \
  ASSERT_TRUE(dup NODESIZE lt,(Dvar<NODESIZE)) \
  dup N exch get  /Dvar exch def  /* SET(Dvar,AREF(N,no)); % not free anymore */ \
  dup N exch NULL put  /* ASET(N,no,NULL); */ /* clear; the other two fields are already cleared */ \
  /* Stack: no */
% }BIND_DEF

/**
 * Frees the Huffman tree originating from <code>root</code> recursively.
 * Used <code>I</code> as input only.
 * Moved <code>I</code> into a argeter.
 * @param arg root node index in N
 */
% DEFUN_1_VOID(fvFree,NODEN)
/fvFree{
  % GLOBAL_REF(N)
  % GLOBAL_REF(Dvar)
  N exch  dup NULL INT_NE{
    2 copy       get fvFree
    2 copy 1 add get fvFree  % fvFree(AREF(N,arg+1));
    2 copy 1 add NULL put    % ASET(N,arg+1,NULL); /* clear */
    2 copy 2 add 0 put       % ASET(N,arg+2,0); /* clear */
    2 copy       Dvar put    % ASET(N,arg,Dvar); /* link to the beginning of the free list */
    /Dvar exch def  pop      % SET(Dvar,arg); /* set it free */
  }{
    % BUG fixed at Thu Dec 27 11:52:59 CET 2001
    pop pop
  }ifelse
}BIND_DEF

/**
 * Goes down (descends) enough levels in the binary tree of (struct node)s.
 * Reads numbers from input encoded as a Huffman tree represented by the
 * (struct node)s.
 * Called only from 2 places.
 * Used <code>I</code> as both input and output, but the output is never used
 * in the program. So I've put <code>I</code> to a argument.
 * @param arg root is only for input
 * @whichcode 3
 */
% DEFUN_1(WORD,fvDescend,NODEN)
% /fvDescend{
#define fvDescend \
  /* GLOBAL_REF(N) */ \
  /* FUNCODE */ \
  DEBUG(dup (==> fvDescend\() exch 42 string cvs concatstrings (\)\n) concatstrings) \
  N exch \
  { /* Stack: N arg */ \
    2 copy get NULL INT_EQ{exit}if   /* WHILE(NE(NULL,AREF(N,arg))) */ \
    2 copy fxRead1 add get exch pop  /* SET(arg,AREF(N,arg+fxRead1())); */ \
  }loop /* ENDWHILE */ \
  /* Stack: N arg */ \
  2 add get \
  DEBUG(dup (<-- fvDescend=) exch 42 string cvs concatstrings (\n) concatstrings) \
  /* RETURN(fvDescend,AREF(N,arg+2)) */ /* arg->value; */
% }BIND_DEF

/**
 * Allocates new (struct node)s. This is the Huffman tree
 * builder. It reads the global array <code>Z</code>: the code lengths have
 * been already stored there.
 * Used <code>I</code> as output only, so I moved it to the return value.
 * @param arg the number of entries (codes) of the Huffman tree to be built
 * @return the root of the Huffman tree just built
 * @whichcode 5
 */
% DEFUN_1(NODEN,fvMktree,WORD)
/fvMktree{  % BUG fixed at Thu Dec 27 11:54:02 CET 2001
  % GLOBAL_REF(B)
  % GLOBAL_REF(G)
  % GLOBAL_REF(N)
  % GLOBAL_REF(Z)
  % LOCAL_VAR(WORD,moo)
  % LOCAL_VAR(WORD,mQ)
  % LOCAL_VAR(WORD,mo)
  % LOCAL_VAR(WORD,mF)
  % FUNCODE
  constZ19 0 17 getinterval Bary copy pop % OK to copy packedarray -> array
  % Stack: arg
  Bary Z 0 1  4 index 1 sub
  % Stack: arg Bary Z 0 1 arg-1
  { % Stack: arg Bary Z moo
    3 copy get
    % Stack: arg Bary Z moo Bary Z[moo]
    2 copy get 1 add put
    % Stack: arg Bary Z moo
    pop
  }for  % WHILE(LT(moo,arg)) INCR(AREF(Bary,AREF(Z,moo))); INCR(moo); ENDWHILE
  % Stack: arg Bary Z
  pop  0 0 put  % ASET(Bary,0,0);
  Gary 0 0 put  % ASET(Gary,0,0);
  % Stack: arg
  Gary Bary 0 1 15   % SET(moo,0); WHILE(LT(moo,16))
  { % Stack: arg Gary Bary moo
    2 copy get
    % Stack: arg Gary Bary moo Bary[moo]
    3 index 2 index get
    % Stack: arg Gary Bary moo Bary[moo] Gary[moo]
    add dup add % BUG fixed at Thu Dec 27 15:05:51 CET 2001
    % Stack: arg Gary Bary moo 2*(Bary[moo]+Gary[moo])
    3 index exch  2 index 1 add exch
    % Stack: arg Gary Bary moo Gary moo+1 2*(Bary[moo]+Gary[moo])
    % ASET(Gary, moo+1,TWICE(AREF(Gary,moo)+AREF(Bary,moo)));
    put pop
  }for % BUG fixed at Thu Dec 27 14:59:52 CET 2001
  % Stack: arg Gary Bary
  pop pop
  /* Dat: anode is the ->left pointer of the Sentinel node */
  N 3 0 put  % ASET(N,3,NULL); /* anode=NULL; */
  % Stack: arg
  1 sub 0 exch 1 exch{  % SET(moo,0); WHILE(LT(moo,arg))
    % Stack: moo
    dup Z exch get dup 0 INT_NE{  % IF(NZ(AREF(Z,moo)))
      % Stack: moo Z[moo]
      % /* WORD o, f; */ /* struct node **f; */
      dup Gary exch get /mQ exch def  % SET(mQ,AREF(Gary,AREF(Z,moo)));
      % Stack: moo Z[moo]
      dup Gary exch 2 copy
      % Stack: moo Z[moo] Gary Z[moo] Gary Z[moo]
      get 1 add put  % INCR(AREF(Gary,AREF(Z,moo)));
      % Stack: moo Z[moo]
      /mF 3 def % SET(mF,3); /* mF=&anode; */ % BUG fixed at Thu Dec 27 12:03:31 CET 2001
      % SET(mo,AREF(Z,moo));
      1 sub  -1 0
      % Stack: moo Z[moo]-1 -1 0
      { % WHILE(NZ(mo));  DECR(mo);
        % Stack: moo mo
        N mF get NULL INT_EQ{
          N mF fvNalloc put
        }if  % IF(EQ(AREF(N,mF),NULL));  ASET(N,mF,fvNalloc NOARGS); ENDIF
        1 exch bitshift mQ and 0 INT_EQ{0}{1}ifelse
        N mF get add
        /mF exch def  % SET(mF,AREF(N,mF)+TAND_P(mQ,SHL(1,mo)));
        % Stack: moo
      }for
      N exch
      % Stack: N moo
      N mF 2 copy fvNalloc put  % ASET(N,mF,fvNalloc NOARGS);
      get 2 add
      % Stack: N moo AREF(N,mF)+2
      exch put  % ASET(N,AREF(N,mF)+2,moo); /* (*f)->value=moo; */
      % Stack: -
    }{pop pop}ifelse  % ENDIF
  }for
  % Stack: -
  N 3 get
}BIND_DEF


#define FMT_ZLIB         120
#define FMT_STOP         4 /* stop processing and flush STDIN */
#if CFG_FMT_ZLIB_ONLYX
#else
#define FMT_ZIP_STORED   0 /* file is stored, not Deflated in ZIP file */
#define FMT_GZIP         31
#define FMT_NONE         3
#define FMT_ZIP_DEFLATED 8
#endif

#define MODE_BOS   0 /* at beginning of (sub)file */
#define MODE_MOB   1 /* at middle of a DEFLATE block */
#define MODE_REP   2 /* printing a repeating string in a DEFLATE block */
#define MODE_BOB   3 /* at the beginning of a block, just before BFINAL and BTYPE */
#define MODE_COPY1 4 /* copying from input to output (a stored block) */
#if CFG_FMT_ZLIB_ONLYX
#else
#define MODE_ZSTO  5 /* copying from input to output (FMT_ZIP_STORED) */
#endif

/**
 * Root of the literal--length Huffman tree in <code>N</code>
 * (see RFC 1951). Its length is at most 288 with values 0..287. Values
 * 286 and 287 are invalid. A value in 0..255 means a literal byte, a
 * value of 256 indicates end-of-block, and a
 * value in 257..285 is a prefix (with 29 possible values) of a length
 * in 3..258. See subsubsection 3.2.5 of RFC 1951.
 */
SLOCAL_VAR0(NODEN,v)
/**
 * Root of the distance Huffman tree in <code>N</code> (see RFC 1951).
 * Its length is at most 32 with values 0..31. Values 30 and 31 are invalid.
 * A value of 0..29 is a prefix (with 30 possible values) of a distance in
 * 1..32768. See subsubsection 3.2.5 of RFC 1951.
 */
SLOCAL_VAR0(NODEN,h)


#define SLIDEE dup 32767 INT_EQ{pop 0}{1 add}ifelse

#if CFG_FMT_ZLIB_ONLY
#define fvAFB \
  DEBUG2((f0:__LINE__) ===only) DEBUG2(currentfile FP ===) \
  /mode MODE_BOS def \
  /tY FMT_STOP def /* force EOF */ \
  fxSkip \
  DEBUG2((f1:__LINE__) ===only) DEBUG2(currentfile FP ===) \
  4 fxIgnore8z \
  DEBUG2((f2:__LINE__) ===only) DEBUG2(currentfile FP ===)
#else
% static void fvAFB(void) {
% /fvAFB{ /* after final block (BFINAL) */
#define fvAFB \
   \
  /mode MODE_BOS def  /* SET(mode,MODE_BOS); */ \
  fxSkip  /* fxSkip(); */ \
  /* ^^^ skip till we reach byte boundary. fvRead! 0..7 bits */ \
  tY FMT_GZIP INT_EQ{  /* IF(EQ(tY,FMT_GZIP)) */ \
    /* CRC32 and ISIZE remaining */ \
    /* vvv IGNORE fxRead16(); IGNORE fxRead16(); IGNORE fxRead16(); IGNORE fxRead16(); */ \
    8 \
  }{ \
    tY FMT_ZLIB INT_EQ{  /* ELSE_IF(EQ(tY,FMT_ZLIB)) */ \
      /* ADLER32 remaining */ \
      4 \
    }{0}ifelse \
  }ifelse \
  fxIgnore8z
% }BIND_DEF
#endif /* CFG_FMT_ZLIB_ONLY */

/** Reads data from input, uncompresses and saves it to Sbuf. Sbuf.length==32768.
 * Saves 32768 bytes into Sbuf unless EOF prevents it. After return, the caller
 * may read Sbuf, but it may not modify it.
 * @return length to be saved to Sbuf
 */
% static WORD fvWork(void) {
/fvWork{
  % GLOBAL_REF(J)
  % GLOBAL_REF(Y)
  % GLOBAL_REF(Tvar)
  % GLOBAL_REF(N)
  % GLOBAL_REF(Dvar)
  { % `{'': establish fake loop context for return
    mode MODE_REP INT_EQ{ %  IF(EQ(mode,MODE_REP))
      ASSERT_TRUE(Tvar 0 INT_EQ,(Tvar==0))
      ASSERT_TRUE(f 258 le,(f<=258))
      % /* f==0 is OK now */
      Tvar oO
      1 1 f{  % WHILE(NZ(f)) -- inverse for
        pop
        % Stack: Tvar oO
        Sbuf 3 copy exch get
        % Stack: Tvar oO Sbuf Tvar S[oO]
        put  % ASET_S(Tvar,AREF_S(oO));
        SLIDEE  % SLIDE(oO);
        exch 1 add exch  % INCR(Tvar);
        % DECR(f);
      }for  % ENDWHILE
      pop /Tvar exch def
      /mode MODE_MOB def
    }{
      mode MODE_COPY1 INT_EQ{  % ELSE_IF(EQ(mode,MODE_COPY1))
        % /* Now: f: copy count unsinged word16 */
        ASSERT_TRUE(Tvar 0 INT_EQ,(Tvar==0))
        % /* f==0 is OK now */
        f 32767 gt{ /* _GT_ */ % IF((unsigned short)f>=32768)
          ASSERT_TRUE(f 32768 sub f 32767 and eq,((f&32767)==f-32768))
          /f f 32767 and def
          0 1 32767{  % WHILE(NE((unsigned short)Tvar,32768))
            Sbuf exch fxRead8 put  % ASET_S(Tvar,fxRead8());
            % INCR(T);
            % DECR(f);
          }for  % ENDWHILE
          /Tvar 0 def  % SET(Tvar,0);
          % Stack: -
          ASSERT_TRUE(mode MODE_COPY INT_EQ,(mode==MODE_COPY1))
          % bbb111
          32768 exit  % return (WORD)32768; outside loops
        }{  % ELSE
          Sbuf Tvar  1 1 f{  % WHILE(NZ(f)) -- inverse for
            pop
            % Stack: Sbuf Tvar
            2 copy fxRead8 put  % ASET_S(Tvar,fxRead8());
            1 add  % INCR(Tvar);
          }for % ENDWHILE
          /Tvar exch def  pop
          % /mode MODE_BOB def  % SET(mode,MODE_BOB); % BUG fixed at Thu Dec 27 14:16:57 CET 2001
          o 0 INT_NE{  % IF(NZ(o))
            fvAFB  % goto on_bos; SET(mode,MODE_BOS);
          }{  % ELSE
            /mode MODE_BOB def  % SET(mode,MODE_BOB); % beginning of next block
          }ifelse  % ENDIF
        }ifelse  % ENDIF
      }
#if CFG_FMT_ZLIB_ONLY
      if
#else
       {mode MODE_ZSTO INT_EQ{  % ELSE_IF(EQ(mode,MODE_ZSTO))
          % /* Now: f: copy count low unsinged word16, oP: high unsigned word16 */
          % /* Now: oo: 0..1 flag for decrementing oP */
          ASSERT_TRUE(Tvar 0 INT_EQ,(Tvar==0))
          % /* f==0 is OK now */
          f 32767 gt{ /* _GT_ */ % IF((unsigned short)f>=32768)
            ASSERT_TRUE(f 32768 sub f 32767 and eq,((f&32767)==f-32768))
            /f f 32767 and def
            0 1 32767{  % WHILE(NE((unsigned short)Tvar,32768))
              Sbuf exch fxRead8 put  % ASET_S(Tvar,fxRead8());
              % INCR(Tvar);
              % DECR(f);
            }for  % ENDWHILE
            /Tvar 0 def  % SET(Tvar,0);
            % Stack: -
            ASSERT_TRUE(mode MODE_ZSTO INT_EQ,(mode==MODE_ZSTO))
            % bbb222
            32768 exit  % return (WORD)32768;  outside loops
          }{
            oP 0 INT_NE{  % ELSE_IF(NZ(oP))
              0 1 32767{  % WHILE(NE((unsigned short)Tvar,32768))
                Sbuf exch fxRead8 put  % ASET_S(Tvar,fxRead8());
                % INCR(Tvar);
                % DECR(f);
              }for  % ENDWHILE
              /Tvar 0 def  % SET(Tvar,0);
              % Stack: -
              oO 0 INT_NE{  % IF(NZ(oO))
                /oP oP 1 sub def  % DECR(oP);
                /oO 0 def  % SET(oO,0);
              }{  % ELSE
                /oO 1 def  % SET(oO,1);
              }ifelse
              ASSERT_TRUE(mode MODE_ZSTO INT_EQ,(mode==MODE_ZSTO))
              % bbb333
              32768 exit  % return (WORD)32768; outside loops
            }{  % ELSE
              Sbuf Tvar  1 1 f{  % WHILE(NZ(f)) -- inverse for
                pop
                % Stack: Sbuf Tvar
                2 copy fxRead8 put  % ASET_S(Tvar,fxRead8());
                1 add  % INCR(Tvar);
              }for % ENDWHILE
              /Tvar exch def   pop
              /mode MODE_BOS def  % SET(mode,MODE_BOS);
            }ifelse  % oO!=0
          }ifelse  % f>=32768
        }if  % MODE==MODE_ZSTO
      }ifelse  % MODE==MODE_COPY1
#endif /* CFG_FMT_ZLIB_ONLY */
    }ifelse  % MODE==MODE_REP
    -1 exit % don''t return yet
  }loop
  % Stack: retval||-1

  { % big-big MODE_MOB||MODE_BOB||MODE_BOS loop
   #ifndef NDEBUG
    % mode ===only ( big-big\n) print
   #endif
    ASSERT_TRUE(mode MODE_MOB INT_EQ  mode MODE_BOB INT_EQ  mode MODE_BOS INT_EQ  or or,(MODE_MOB||MODE_BOB||MODE_BOS))

    % Stack: retval||-1
    dup -1 INT_NE{%ccc999
      exit}if
    mode MODE_MOB INT_EQ{  % IF(EQ(mode,MODE_MOB)); mode_mob:
      ASSERT_TRUE(dup -1 INT_EQ,(was -1))
      pop % -1
      /**
       * Uncompresses the data block with the Huffman codes set up.
       *
       * Reads at most 33 bits per entry. Unfortunately the block can be of
       * arbitrary length (terminated by an entry of 256).
       */
      % /* vvv reads 0..15 bits, see subsubsection 3.2.7 of RFC 1951 */
      {
        % Dat: most of the time is spent inside fvDescend, fvRead and
        %      inside this loop
        v fvDescend dup 256 INT_EQ{pop -1 exit}if  % WHILE(NE(oo, 256))
        dup 257 lt{  % IF(LT(oO,257))
          % /* ^^^ BUG corrected */
          Sbuf exch Tvar exch put  % ASET_S(Tvar,oO);

          % Stack: -
          % vvv SLIDE(Tvar); /* Tvar++; Tvar&=32767; */
          % vvv if (Tvar==0) return (WORD)32768; /* remain in MODE_MOB */
          Tvar 32767 INT_EQ{
            /Tvar 0 def
            % bbb444
            32768 exit % return % in big-big-loop and MOB-loop
          }if
          /Tvar Tvar 1 add def
        }{  % ELSE
          257 sub  % SUB(oO,257);
          % Stack: oO
          dup constU exch get
          exch constP exch get fvRead
          add /f exch def  % SET(f,AREF(constU,oO) + fvRead(AREF(constP,oO))); /* fvRead! 0..5 bits */
          ASSERT_TRUE(3 f le  f 258 le  and,(3<=f && f<=258))
          h fvDescend  % SET(oO,fvDescend(h));
          dup constQ exch get
          exch constL exch get fvRead
          add  % SET(oO,AREF(constQ,oO) + fvRead(AREF(constL,oO))); /* fvRead! 0..13 bits */
          Tvar exch sub 32767 and  % /* oO = oO <= Tvar ? Tvar - oO : 32768 - oO + Tvar; */

          f 32768 Tvar sub sub dup 0 lt{ % IF((unsigned short)f<32768-(unsigned short)Tvar)
            pop
            % Stack: oO
            Tvar exch  1 1 f{  % WHILE(NZ(f)) -- inverse for
              pop
              % Stack: Tvar oO
              Sbuf 3 copy exch get
              % Stack: Tvar oO Sbuf Tvar S[oO]
              put  % ASET_S(Tvar,AREF_S(oO));
              SLIDEE  % SLIDE(oO);
              exch 1 add exch  % INCR(Tvar);
              % DECR(f);
            }for  % ENDWHILE
            % Dat: oO doesn''t have to be remembered here
            pop  /Tvar exch def
            % Stack: -
            ASSERT_TRUE(Tvar 32768 lt,(Tvar<32768))
          }{  % ELSE
            /f exch def % SUB(f,32768-Tvar);
            % Stack: oO
            Tvar 1 32767{  % WHILE(NE((unsigned short)Tvar,32768))
              % Stack: oO Tvar
              exch
              % Stack: Tvar oO
              Sbuf 3 copy exch get
              % Stack: Tvar oO Sbuf Tvar S[oO]
              put  % ASET_S(Tvar,AREF_S(oO));
              SLIDEE  % SLIDE(oO);
              exch pop  % INCR(Tvar);
            }for  % ENDWHILE
            /oO exch def
            % Stack: -
            /Tvar 0 def  % SET(Tvar,0);
            /mode MODE_REP def  % SET(mode,MODE_REP);
            % bbb555
            32768 exit % return (WORD)32768; % in big-big-loop and MOB-loop
          }ifelse  % ENDIF
        }ifelse  % ENDIF
      }loop  % ENDWHILE
      % Stack: retval||-1
      dup -1 INT_EQ{ % BUG fixed at Thu Dec 27 15:52:18 CET 2001
        v fvFree  % fvFree(v);
        h fvFree  % fvFree(h);
        o 0 INT_NE{  % IF(NZ(o))
          fvAFB  % goto on_bos; SET(mode,MODE_BOS);
        }{  % ELSE
          /mode MODE_BOB def  % SET(mode,MODE_BOB); % beginning of next block
        }ifelse  % ENDIF
      }if
    }if  % ENDIF
    % Stack: retval||-1
    dup -1 INT_NE{%ccc888
      exit}if  pop

    DEBUG2((;)===)

    mode MODE_BOB INT_EQ{  % WHILE(EQ(mode,MODE_BOB)); mode_bob:
      DEBUG(counttomark 42 string cvs)
      DEBUG(( kope\n))
      % assert(mode==MODE_BOB);
      /o fxRead1  def % SET(o,fxRead1()); /* BFINAL: 1 iff this is the last data block */
      /q 2 fvRead def % SET(q,fvRead(2)); /* BTYPE: block type; 0=stored, 1=fixed Huff, 2=dyn Huff */
      % #if NDEBUG
      % #else
      %  fprintf(stderr, "MODE_BOB o=%d q=%d %ld\n", o, q, ftell(stdin));
      % #endif
      DEBUG((MODE:BOB o=)  o 42 string cvs
            ( q=) q 42 string cvs
            ( ) Stdin fileposition 42 string cvs
            (\n) concatstrings concatstrings concatstrings
                 concatstrings concatstrings concatstrings)
      ASSERT_TRUE(q 0 INT_EQ  q 1 INT_EQ  q 2 INT_EQ  or or,(q==0 || q==1 || q==2))
      q 0 INT_NE{  % IF(NZ(q))
        /**
         * Now: q==BTYPE, q==1 or q==2. (BTYPE==3 means error). Handles
         * compressed data blocks, see subsubsection 3.2.5 of RFC 1951.
         */
        q 1 INT_EQ{  % IF(EQ(q,1))
          /**
           * Initializes the fixed Huffman codes for BTYPE==1.
           */
          % /* WORD oO; */
          287 -1 0{  % SET(oO,288); WHILE(NZ(oO)); DECR(oO);
            Z exch  dup 144 lt{8}{dup 256 lt{9}
              {dup 280 lt{7}{8}ifelse}ifelse}ifelse  put
            /* ^^^ AREF(Z,oO) = oO < 144 ? 8
                  : oO < 256 ? 9
                  : oO < 280 ? 7
                  : 8; */
          }for  % ENDWHILE
          /v 288 fvMktree def  % SET(v,fvMktree(288));
          0 1 31{Z exch 5 put}for  % SET(f,0); WHILE(LT(f,32)) ASET(Z,f,5); INCR(f); ENDWHILE
          /h 32 fvMktree def  % SET(h,fvMktree(32));
        }{  % ELSE
          /**
           * Reads dynamic Huffman codes for BTYPE==2.
           *
           * Maximum read: 5+5+4+3*19+7*289 == 2094 bits
           */
          ASSERT_TRUE(q 2 INT_EQ,(q==2))
          % /* WORD oO, oP, oPo, f, p, x, v; */
          /p 5 fvRead 257 add def  % SET(p, fvRead(5) + 257); /* HLIT: 257..286 (287--289 are unused) */
          /oO 5 fvRead 1 add def  % SET(oO, fvRead(5) + 1); /* HDIST: 1..32 */
          /v 4 fvRead 4 add def  % SET(v, fvRead(4) + 4); /* HCLEN: 4..19 */ /* small v */
          constZ19 Z copy pop  % WHILE(LT(oO,19)) ASET(Z,AREF(constW,oO), 0); INCR(oO); ENDWHILE
          0 1 v 1 sub{
            Z exch  constW exch get  3 fvRead  put  % WHILE(LT(oO,v))  ASET(Z,AREF(constW,oO), fvRead(3)); INCR(oO); ENDWHILE /* small v */
          }for
          % Stack: - (verified)
          /v 19 fvMktree def  % SET(v,fvMktree(19));
          /oP 0 def  % SET(oP,0);
          % Stack: -
          Z 0 { % SET(oO,0); WHILE(LT(oO,p + oO))
            % Stack: Z oO
            dup p oO add ge{exit}if
            v fvDescend  % SET(oPo,fvDescend(v));
            % Stack: Z oO oPo
            dup 16 INT_EQ{
              pop oP /f 2 fvRead 3 add def  % SET(oPo,oP); SET(f,3+fvRead(2));
            }{
              dup 17 INT_EQ{
                pop 0 /f 3 fvRead 3 add def  % SET(oPo,0); SET(f,3+fvRead(3));
              }{
                dup 18 INT_EQ{
                  pop 0 /f 7 fvRead 11 add def  % SET(oPo,0); SET(f,11+fvRead(7));
                }{
                  dup /oP exch def  /f 1 def  % SET(oP,oPo); SET(f,1);
                }ifelse
              }ifelse
            }ifelse
            % Stack: Z oO oPo
            1 1 f{ % SET(q,f); WHILE(NZ(q))
              pop % BUG fixed at Thu Dec 27 12:17:58 CET 2001
              3 copy put  % ASET(Z,oO,oPo);
              exch 1 add exch  % INCR(oO);
              % DECR(q);
            }for  % ENDWHILE
            pop % oPo, BUG fixed at Thu Dec 27 12:18:47 CET 2001
          }loop  % ENDWHILE
          % Stack: Z oO''==p+oO
          pop pop
          v fvFree  % fvFree(v);
          /v p fvMktree def  % SET(v,fvMktree(p));
          % Stack: -
          % /* vvv No need for array copy, just change/pass the pointer to Z... */
          oO 1 sub -1 0{  % SET(oO'',oO); WHILE(NZ(oO'')) DECR(oO'');
            Z exch dup
            % Stack: Z oO'' oO''
            p add Z exch get  put  % ASET(Z,oO'',AREF(Z,oO'' + p));
          }for  % ENDWHILE
          /h oO fvMktree def  % SET(h,fvMktree(x));
        }ifelse  % ENDIF
        /mode MODE_MOB def  % SET(mode,MODE_MOB);
        % goto mode_mob;
      }{ % ELSE /* inline: fv(..., 7); */

        /**
         * Copies a block of input to output (mostly) verbatim. This is for
         * BTYPE==0, non-compressed block, subsubsection 3.2.4 of RFC 1951.
         * (We need non-compressed because
         * some blocks cannot be compressed effectively, so gzip inserts them
         * as is.)
         * @whichcode 7
         */
        fxSkip  % fxSkip();
        % /* ^^^ skip till we reach byte boundary. fvRead! 0..7 bits */
        /f fxRead16 def  % SET(f,fxRead16()); /* length of block: 0..65535 */
        % #if NDEBUG
        % #else
        %  fprintf(stderr, "COPY1_BLK=%d Tvar=%d\n", f, Tvar);
        % #endif
        2 fxIgnore8  % IGNORE fxRead16(); /* one's complement of length; ignored */

        f 32768 Tvar sub sub dup 0 lt{ % IF((unsigned short)f<32768-(unsigned short)Tvar)
          pop
          Sbuf Tvar  1 1 f{  % WHILE(NZ(f)) -- inverse for
            pop
            % Stack: Sbuf Tvar
            2 copy fxRead8 put  % ASET_S(Tvar,fxRead8());
            1 add  % INCR(Tvar);
          }for % ENDWHILE
          /Tvar exch def  pop
          ASSERT_TRUE(mode MODE_BOB INT_EQ,(mode==MODE_BOB))
          ASSERT_TRUE(Tvar 32768 lt,(Tvar<32768))
        }{  % ELSE
          % /* Even if f>=32768 */
          /f exch def % SUB(f,32768-Tvar);
          Tvar 1 32767{  % WHILE(NE((unsigned short)Tvar,32768))
            Sbuf exch fxRead8 put  % ASET_S(Tvar,fxRead8());
            % INCR(Tvar);
            % DECR(f);
          }for  % ENDWHILE
          /Tvar 0 def  % SET(Tvar,0);
          /mode MODE_COPY1 def  % SET(mode,MODE_REP);
          % bbb666
          DEBUG(counttomark 42 string cvs)
          DEBUG(( whata\n))
          % trtr
          ASSERT_TRUE(counttomark 0 eq,(seccounttomark==0))
          DEBUG((whatb\n))
          32768 exit  % return (WORD)32768; % exit from big-big loop
        }ifelse  % ENDIF
        o 0 INT_NE{fvAFB}if % IF(NZ(o)); fvAFB(); ENDIF
        DEBUG( counttomark 42 string cvs)
        DEBUG((pikula\n))
      }ifelse  % ENDIF
    }if  % ENDWHILE /* MODE_BOB */
    % Stack: -

    mode MODE_BOS INT_EQ{
      DEBUG(counttomark 42 string cvs)
      DEBUG(( booski\n))
      DEBUG2((boost)===only)
      DEBUG2(currentfile FP ===)
      {
        DEBUG(counttomark 42 string cvs)
        DEBUG(( boosbe\n))
        tY FMT_STOP INT_EQ{ % WHILE(NE(tY,FMT_STOP))
          Tvar 0 INT_NE{  % /* Flush unwritten buffer. */
            Tvar% BUG fixed at Thu Dec 27 14:05:32 CET 2001
            /Tvar 0 def
            % Stack: Tvar_old
          }{0}ifelse
          % ccc777
          exit % return % in big-big loop and BOS-loop
        }if
        % /* SET(oO,0); SET(oP,0); */ /* avoid GCC warnings */
        % /* fxInit(); */ /* assert(Y==0); SET(J,0); SET(Y,0); */
        /v NULL def /h NULL def  % SET(v,NULL); SET(h,NULL);
        % N 0 NULL put  N 1 NULL put  N 2 0 put  % ASET(N,0,NULL); ASET(N,1,NULL); ASET(N,2,0); /* the NULL node is initially empty */
        % N 3 NULL put  N 4 NULL put  N 5 0 put  % ASET(N,3,NULL); ASET(N,4,NULL); ASET(N,5,0); /* the Sentinel node is initially empty */
        constZ19 N copy pop % eliminate-NULLs trick: overwrites 1st >=6 elements of N
        /Dvar 6 def  % SET(Dvar,6); /* first free node is 6. `0' is NULL, `3' is Sentinel */
        6{  % SET(o,Dvar);
          dup NODESIZE ge{pop exit}if  % WHILE (LT(o,NODESIZE))
          dup N exch dup 3 add put  1 add  % ASET(N,o,o+3);  INCR(o); /* next free node is next node */
          dup N exch NULL      put  1 add  % ASET(N,o,NULL); INCR(o); /* empty RIGHT */
          dup N exch 0         put  1 add  % ASET(N,o,0);    INCR(o); /* empty NVAL */
        }loop  % ENDWHILE
        % Stack: -
        fxRead8EOF dup /tY exch def  % SET(tY,fxRead8EOF()); /* read first byte of the header */
        % tY  kkkkkkkkkk
        dup 511 INT_EQ{  % IF(EQ(tY,511)) /* EOF */
          /tY FMT_STOP def  % SET(tY,FMT_STOP);
        }{
#if CFG_FMT_ZLIB_ONLY
            1 fxIgnore8  % IGNORE fxRead8(); /* skip second header byte: 0x01 or 0x5e or 0x9c or 0xda */
#else
          dup FMT_ZLIB INT_EQ{  % ELSE_IF(EQ(tY,120)) /* ZLIB format */
            1 fxIgnore8  % IGNORE fxRead8(); /* skip second header byte: 0x01 or 0x5e or 0x9c or 0xda */
            % /* SET(tY,FMT_ZLIB); */
          }{
            dup 80 INT_EQ{  % ELSE_IF(EQ(tY,80)) /* ZIP format */
              1 fxIgnore8  % IGNORE fxRead8(); /* skip second header byte: 0x48 */
              /tY FMT_NONE def  % SET(tY,FMT_NONE);
              fxRead8  % SET(o,fxRead8());
              dup 3 INT_EQ{ % IF(EQ(o,3)) /* Local file header */
                % fxRead8 pop   % IGNORE fxRead8(); /* skip: 0x04 */
                % fxRead16 pop  % IGNORE fxRead16(); /* skip: version needed to extract file (0x0020) */
                % fxRead16 pop  % IGNORE fxRead16(); /* LOCFLG flags */
                5 fxIgnore8
                /tY fxRead8 def  % SET(tY,fxRead8()); /* lower half of compression method */
                ASSERT_TRUE(tY FMT_ZIP_STORED INT_EQ  tY FMT_ZIP_DEFLATED INT_EQ or,(ty==FMT_ZIP_STORED || ty==FMT_ZIP_DEFLATED))
                % ^^^ BUG fixed at Thu Dec 27 20:55:52 CET 2001
                % fxRead8 pop   % IGNORE fxRead8(); /* upper half of compression method */
                % fxRead16 pop  fxRead16 pop % IGNORE fxRead16(); IGNORE fxRead16(); /* file modification time in MS-DOS format */
                % fxRead16 pop  fxRead16 pop % IGNORE fxRead16(); IGNORE fxRead16(); /* some kind of CRC-32 */
                9 fxIgnore8
                /f   fxRead16z def  % SET(f,  fxRead16z());  /* lower compressed file size */
                /oP fxRead16z def  % SET(oP,fxRead16z()); /* higher compressed file size */
                4 fxIgnore8 % fxRead16 pop  fxRead16 pop % IGNORE fxRead16(); IGNORE fxRead16(); /* uncompressed file size */
                fxRead16z      % SET(oO,fxRead16z()); /* length of filename */
                fxRead16z add  % SET(q,fxRead16z()); /* length of extra field */
                % WHILE(NZ(oO)) IGNORE fxRead8(); DECR(oO); ENDWHILE /* file name */
                % WHILE(NZ(q)) IGNORE fxRead8(); DECR(q); ENDWHILE /* extra field */
                % -1 1{fxRead8 pop}for
                fxIgnore8z
              }{
                dup 7 INT_EQ{  % ELSE_IF(EQ(o,7)) /* Extended local header of previous file in ZIP */
                  % 1 1 13{fxRead8 pop}for  % SET(o,0); WHILE(LT(o,13)) IGNORE fxRead8(); INCR(o); ENDWHILE /* BUGFIX: was 15 */
                  13 fxIgnore8
                }{
                  dup 5 INT_EQ{  % ELSE_IF(EQ(o,5)) /* End of Central Directory Structure in ZIP */
                    /* fprintf(stderr,"EOCDS\n"); */
                    % 1 1 17{fxRead8 pop}for  % SET(o,0); WHILE(LT(o,17)) IGNORE fxRead8(); INCR(o); ENDWHILE
                    17 fxIgnore8
                    fxRead16z  % SET(o,fxRead16z()); /* CML: archive comment length */
                    % -1 1{fxRead8 pop}for  % WHILE (NZ(o)) IGNORE fxRead8(); DECR(o); ENDWHILE
                    fxIgnore8z
                  }{
                    dup 1 INT_EQ{  % ELSE_IF(EQ(o,1)) /* Central Directory Structure */
                      /* fprintf(stderr,"CDS\n"); */
                      % 1 1 25{fxRead8 pop}for  % SET(oO,0); WHILE(LT(oO,25)) IGNORE fxRead8(); INCR(oO); ENDWHILE
                      25 fxIgnore8
                      fxRead16z      % SET(f,fxRead16z()); /* LEN: length of file name */
                      fxRead16z add  % SET(o,fxRead16z()); /* XLN: length of extra field */
                      fxRead16z add  % SET(q,fxRead16z()); /* CML: length of file comment */
                      % fxRead16 pop  fxRead16 pop  fxRead16 pop
                      % fxRead16 pop  fxRead16 pop  fxRead16 pop
                      % ^^^ SET(oO,0); WHILE(LT(oO,12)) IGNORE fxRead8(); INCR(oO); ENDWHILE
                      12 fxIgnore8
                      fxIgnore8z
                      % ^^^ WHILE(NZ(f)) IGNORE fxRead8(); DECR(f); ENDWHILE /* file name */
                      %     WHILE(NZ(o)) IGNORE fxRead8(); DECR(o); ENDWHILE /* extra field */
                      %     WHILE(NZ(q)) IGNORE fxRead8(); DECR(q); ENDWHILE /* file comment */
                    }if % o==1
                  }ifelse % o==5
                }ifelse % o==7
              }ifelse % o==3   % ENDIF /* IF ZIP structure sub-type */
              % Stack: tY_old o
              pop
            }{
              dup 31 INT_EQ{  % ELSE_IF(EQ(tY,31)) /* gzip/RFC 1952 format */
                /* fprintf(stderr,"gzip!\n"); */
                /* SET(tY,FMT_GZIP); */
                /* The most simple gzip header (10 bytes):
                 * ID1   hex 0x1f == dec 31 == FMT_GZIP
                 * ID2   hex 0x8b
                 * CM    hex 0x08
                 * FLG   hex 0x00
                 * MTIME hex 0x00, 0x00, 0x00, 0x00 (1 Jan 1970, UNIX epoch)
                 * XFL   hex 0x00
                 * OS    hex 0xff
                 * After that comes the compressed data stream.
                 * After that comes the CRC32 and ISIZE (byte aligned? ?)
                 */
                2 fxIgnore8 % fxRead16 pop  % IGNORE fxRead16(); /* ignore ID2 and CM */
                % kkkkkkkkkl
                fxRead8  % SET(o,fxRead8()); /* FLG */
                % fxRead16 pop  fxRead16 pop  % IGNORE fxRead16(); IGNORE fxRead16(); /* ignore MTIME */
                % fxRead16 pop  % IGNORE fxRead16(); /* ignore XFL, OS */
                6 fxIgnore8
                % Stack: o==FLG
                dup 2 and 0 INT_NE{  % IF(TAND_P(o,2)) /* GCONT: skip part number of continuation */
                  %fxRead16 pop  % IGNORE fxRead16();
                  2 fxIgnore8
                }if  % ENDIF
                dup 4 and 0 INT_NE{  % IF(TAND_P(o,4)) /* ignore FEXTRA */
                  fxRead16 fxIgnore8
                  % 1 1 fxRead16{fxRead8 pop}for
                  % SET(q,fxRead16());
                  % WHILE(NZ(q)) IGNORE fxRead8(); DECR(q); ENDWHILE
                }if  % ENDIF
                dup 8 and 0 INT_NE{  % IF(TAND_P(o,8))
                  {fxRead8 0 INT_EQ{exit}if}loop  % WHILE(NZ(fxRead8())); PASS; ENDWHILE
                }if  % ENDIF /* ignore FNAME */
                dup 17 and 0 INT_NE{  % IF(TAND_P(o,16))
                  {fxRead8 0 INT_EQ{exit}if}loop  % WHILE(NZ(fxRead8())); PASS; ENDWHILE
                }if  % ENDIF /* ignore FCOMMENT */
                dup 32 and 0 INT_NE{  % IF(TAND_P(o,32)) /* skip encryption header */
                  % fxRead16 pop  fxRead16 pop  fxRead16 pop
                  % fxRead16 pop  fxRead16 pop  fxRead16 pop
                  % SET(f,0); WHILE(LT(f,12)) IGNORE fxRead8(); INCR(f); ENDWHILE
                  12 fxIgnore8
                }if  % ENDIF
                % Stack: tY o
                pop
              }if % tY==31 (gzip/RFC 1952 format)
            }ifelse % tY==80 (ZIP format)
          }ifelse % tY==FMT_ZLIB
#endif /* CFG_FMT_ZLIB_ONLY */
        }ifelse % tY==511  % ENDIF /* IF file format */
        % Stack: tY_old
        pop
        % /* fprintf(stderr,"tY=%d\n", tY); */
        % tY bbbbbc
#if CFG_FMT_ZLIB_ONLYX
          /* FMT_ZIP_STORED can become alive somehow... */
          tY FMT_STOP INT_NE tY 3 INT_NE and{
            /mode MODE_BOB def  % SET(mode,MODE_BOB);
            -1 exit  % goto mode_bob;
          }if
#else
        tY FMT_ZIP_STORED INT_EQ{  % IF(EQ(tY,FMT_ZIP_STORED))
          % /* fprintf(stderr,"ZIP_STORED oO=%d oP=%d\n", oO, oP); */
          /oO 0 def  % SET(oO,0);
          f 32768 Tvar sub sub dup 0 lt{ % IF((unsigned short)f<32768-(unsigned short)Tvar)
            pop
            Sbuf Tvar  1 1 f{  % WHILE(NZ(f)) -- inverse for
              pop
              % Stack: Sbuf Tvar
              2 copy fxRead8 put  % ASET_S(Tvar,fxRead8());
              1 add  % INCR(Tvar);
            }for % ENDWHILE
            /Tvar exch def  pop
            ASSERT_TRUE(Tvar 32768 lt,(Tvar<32768))
            oP 0 INT_NE{
              /mode MODE_ZSTO def
              % ccc555
              Tvar exit  % in big-big loop and BOS-loop
            }if
            % ^^^ IF(NZ(oP));  mode=MODE_ZSTO;  return Tvar;  ENDIF
            ASSERT_TRUE(mode MODE_BOS INT_EQ,(mode==MODE_BOS))
          }{  % ELSE
            % /* Even if f>=32768 */
            /f exch def % SUB(f,32768-Tvar);
            Tvar 1 32767{  % WHILE(NE((unsigned short)Tvar,32768))
              Sbuf exch fxRead8 put  % ASET_S(Tvar,fxRead8());
              % INCR(Tvar);
              % DECR(f);
            }for  % ENDWHILE
            /Tvar 0 def  % SET(Tvar,0);
            /mode MODE_ZSTO def  % SET(mode,MODE_REP);
            % bbb777
            32768 exit  % return (WORD)32768; % in big-big loop and BOS-loop
          }ifelse  % ENDIF
        }{
          tY FMT_STOP INT_NE  tY FMT_NONE INT_NE and{
            /mode MODE_BOB def  % SET(mode,MODE_BOB);
            -1 exit  % goto mode_bob;
          }if
        }ifelse  % ENDIF
#endif /* CFG_FMT_ZLIB_ONLY */
      }loop  % ENDWHILE /* outermost WHILE(NE(tY,FMT_STOP)) */
      % Stack: retval
    }{-1}ifelse % mode==MODE_BOS
    % Stack: retval
  }loop % big-big MODE_MOB||MODE_BOB||MODE_BOS loop
  % Stack: retval
}BIND_DEF  % ENDFUN

% Stdin already set
#if 0
% /fvInitAll{
#define fvInitAll \
  fxInit \
  /tY FMT_NONE def \
  /mode MODE_BOS def \
  /Tvar 0 def /* make the round buffer empty */ \
  TE_init
% }BIND_DEF
#else
/fvMain{
  % /XXX
  % STDIN read
  % STDIN C readhexstring
  % pop 0 get true_action
  % TE_read(===)

  TE_init % must be called _before_ fxInit
  fxInit
  /tY FMT_NONE def
  /mode MODE_BOS def
  /Tvar 0 def
  % /Tvar 0 def  Tvar === quit
  { Sbuf 0 fvWork getinterval } /G load exec
  TE_read_eod % make sure that mEOD has been read
}BIND_DEF
#endif

} /* We close the brace of declared functions */
%</Defs>

%<Data>
%%BeginData:
exec
`S
%%EndData
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%%Trailer
%%EOF
%</Data>

%%EOF