Using archives ZIP

Using archives ZIP

Postby vilian » Tue Mar 13, 2007 1:42 pm

Hi,

Jose Luis Capel liberated in http://fivetechsoft.com/forums/viewtopic.php?t=5603 a function to compact archives. But the archive ZIP is not compatible with those generated in the Windows.

Looking for in the documentation of the ZLIB I found the function below to decide the problem, but I do not obtain to use with the Fwppc!

Code: Select all  Expand view  RUN
/* blast.c
* Copyright (C) 2003 Mark Adler
* For conditions of distribution and use, see copyright notice in blast.h
* version 1.1, 16 Feb 2003
*
* blast.c decompresses data compressed by the PKWare Compression Library.
* This function provides functionality similar to the explode() function of
* the PKWare library, hence the name "blast".
*
* This decompressor is based on the excellent format description provided by
* Ben Rudiak-Gould in comp.compression on August 13, 2001.  Interestingly, the
* example Ben provided in the post is incorrect.  The distance 110001 should
* instead be 111000.  When corrected, the example byte stream becomes:
*
*    00 04 82 24 25 8f 80 7f
*
* which decompresses to "AIAIAIAIAIAIA" (without the quotes).
*/

/*
* Change history:
*
* 1.0  12 Feb 2003     - First version
* 1.1  16 Feb 2003     - Fixed distance check for > 4 GB uncompressed data
*/

#include <setjmp.h>             /* for setjmp(), longjmp(), and jmp_buf */
#include "blast.h"              /* prototype for blast() */

#define local static            /* for local function definitions */
#define MAXBITS 13              /* maximum code length */
#define MAXWIN 4096             /* maximum window size */

/* input and output state */
struct state {
    /* input state */
    blast_in infun;             /* input function provided by user */
    void *inhow;                /* opaque information passed to infun() */
    unsigned char *in;          /* next input location */
    unsigned left;              /* available input at in */
    int bitbuf;                 /* bit buffer */
    int bitcnt;                 /* number of bits in bit buffer */

    /* input limit error return state for bits() and decode() */
    jmp_buf env;

    /* output state */
    blast_out outfun;           /* output function provided by user */
    void *outhow;               /* opaque information passed to outfun() */
    unsigned next;              /* index of next write location in out[] */
    int first;                  /* true to check distances (for first 4K) */
    unsigned char out[MAXWIN];  /* output buffer and sliding window */
};

/*
* Return need bits from the input stream.  This always leaves less than
* eight bits in the buffer.  bits() works properly for need == 0.
*
* Format notes:
*
* - Bits are stored in bytes from the least significant bit to the most
*   significant bit.  Therefore bits are dropped from the bottom of the bit
*   buffer, using shift right, and new bytes are appended to the top of the
*   bit buffer, using shift left.
*/
local int bits(struct state *s, int need)
{
    int val;            /* bit accumulator */

    /* load at least need bits into val */
    val = s->bitbuf;
    while (s->bitcnt < need) {
        if (s->left == 0) {
            s->left = s->infun(s->inhow, &(s->in));
            if (s->left == 0) longjmp(s->env, 1);       /* out of input */
        }
        val |= (int)(*(s->in)++) << s->bitcnt;          /* load eight bits */
        s->left--;
        s->bitcnt += 8;
    }

    /* drop need bits and update buffer, always zero to seven bits left */
    s->bitbuf = val >> need;
    s->bitcnt -= need;

    /* return need bits, zeroing the bits above that */
    return val & ((1 << need) - 1);
}

/*
* Huffman code decoding tables.  count[1..MAXBITS] is the number of symbols of
* each length, which for a canonical code are stepped through in order.
* symbol[] are the symbol values in canonical order, where the number of
* entries is the sum of the counts in count[].  The decoding process can be
* seen in the function decode() below.
*/
struct huffman {
    short *count;       /* number of symbols of each length */
    short *symbol;      /* canonically ordered symbols */
};

/*
* Decode a code from the stream s using huffman table h.  Return the symbol or
* a negative value if there is an error.  If all of the lengths are zero, i.e.
* an empty code, or if the code is incomplete and an invalid code is received,
* then -9 is returned after reading MAXBITS bits.
*
* Format notes:
*
* - The codes as stored in the compressed data are bit-reversed relative to
*   a simple integer ordering of codes of the same lengths.  Hence below the
*   bits are pulled from the compressed data one at a time and used to
*   build the code value reversed from what is in the stream in order to
*   permit simple integer comparisons for decoding.
*
* - The first code for the shortest length is all ones.  Subsequent codes of
*   the same length are simply integer decrements of the previous code.  When
*   moving up a length, a one bit is appended to the code.  For a complete
*   code, the last code of the longest length will be all zeros.  To support
*   this ordering, the bits pulled during decoding are inverted to apply the
*   more "natural" ordering starting with all zeros and incrementing.
*/
local int decode(struct state *s, struct huffman *h)
{
    int len;            /* current number of bits in code */
    int code;           /* len bits being decoded */
    int first;          /* first code of length len */
    int count;          /* number of codes of length len */
    int index;          /* index of first code of length len in symbol table */
    int bitbuf;         /* bits from stream */
    int left;           /* bits left in next or left to process */
    short *next;        /* next number of codes */

    bitbuf = s->bitbuf;
    left = s->bitcnt;
    code = first = index = 0;
    len = 1;
    next = h->count + 1;
    while (1) {
        while (left--) {
            code |= (bitbuf & 1) ^ 1;   /* invert code */
            bitbuf >>= 1;
            count = *next++;
            if (code < first + count) { /* if length len, return symbol */
                s->bitbuf = bitbuf;
                s->bitcnt = (s->bitcnt - len) & 7;
                return h->symbol[index + (code - first)];
            }
            index += count;             /* else update for next length */
            first += count;
            first <<= 1;
            code <<= 1;
            len++;
        }
        left = (MAXBITS+1) - len;
        if (left == 0) break;
        if (s->left == 0) {
            s->left = s->infun(s->inhow, &(s->in));
            if (s->left == 0) longjmp(s->env, 1);       /* out of input */
        }
        bitbuf = *(s->in)++;
        s->left--;
        if (left > 8) left = 8;
    }
    return -9;                          /* ran out of codes */
}

/*
* Given a list of repeated code lengths rep[0..n-1], where each byte is a
* count (high four bits + 1) and a code length (low four bits), generate the
* list of code lengths.  This compaction reduces the size of the object code.
* Then given the list of code lengths length[0..n-1] representing a canonical
* Huffman code for n symbols, construct the tables required to decode those
* codes.  Those tables are the number of codes of each length, and the symbols
* sorted by length, retaining their original order within each length.  The
* return value is zero for a complete code set, negative for an over-
* subscribed code set, and positive for an incomplete code set.  The tables
* can be used if the return value is zero or positive, but they cannot be used
* if the return value is negative.  If the return value is zero, it is not
* possible for decode() using that table to return an error--any stream of
* enough bits will resolve to a symbol.  If the return value is positive, then
* it is possible for decode() using that table to return an error for received
* codes past the end of the incomplete lengths.
*/
local int construct(struct huffman *h, const unsigned char *rep, int n)
{
    int symbol;         /* current symbol when stepping through length[] */
    int len;            /* current length when stepping through h->count[] */
    int left;           /* number of possible codes left of current length */
    short offs[MAXBITS+1];      /* offsets in symbol table for each length */
    short length[256];  /* code lengths */

    /* convert compact repeat counts into symbol bit length list */
    symbol = 0;
    do {
        len = *rep++;
        left = (len >> 4) + 1;
        len &= 15;
        do {
            length[symbol++] = len;
        } while (--left);
    } while (--n);
    n = symbol;

    /* count number of codes of each length */
    for (len = 0; len <= MAXBITS; len++)
        h->count[len] = 0;
    for (symbol = 0; symbol < n; symbol++)
        (h->count[length[symbol]])++;   /* assumes lengths are within bounds */
    if (h->count[0] == n)               /* no codes! */
        return 0;                       /* complete, but decode() will fail */

    /* check for an over-subscribed or incomplete set of lengths */
    left = 1;                           /* one possible code of zero length */
    for (len = 1; len <= MAXBITS; len++) {
        left <<= 1;                     /* one more bit, double codes left */
        left -= h->count[len];          /* deduct count from possible codes */
        if (left < 0) return left;      /* over-subscribed--return negative */
    }                                   /* left > 0 means incomplete */

    /* generate offsets into symbol table for each length for sorting */
    offs[1] = 0;
    for (len = 1; len < MAXBITS; len++)
        offs[len + 1] = offs[len] + h->count[len];

    /*
     * put symbols in table sorted by length, by symbol order within each
     * length
     */
    for (symbol = 0; symbol < n; symbol++)
        if (length[symbol] != 0)
            h->symbol[offs[length[symbol]]++] = symbol;

    /* return zero for complete set, positive for incomplete set */
    return left;
}

/*
* Decode PKWare Compression Library stream.
*
* Format notes:
*
* - First byte is 0 if literals are uncoded or 1 if they are coded.  Second
*   byte is 4, 5, or 6 for the number of extra bits in the distance code.
*   This is the base-2 logarithm of the dictionary size minus six.
*
* - Compressed data is a combination of literals and length/distance pairs
*   terminated by an end code.  Literals are either Huffman coded or
*   uncoded bytes.  A length/distance pair is a coded length followed by a
*   coded distance to represent a string that occurs earlier in the
*   uncompressed data that occurs again at the current location.
*
* - A bit preceding a literal or length/distance pair indicates which comes
*   next, 0 for literals, 1 for length/distance.
*
* - If literals are uncoded, then the next eight bits are the literal, in the
*   normal bit order in th stream, i.e. no bit-reversal is needed. Similarly,
*   no bit reversal is needed for either the length extra bits or the distance
*   extra bits.
*
* - Literal bytes are simply written to the output.  A length/distance pair is
*   an instruction to copy previously uncompressed bytes to the output.  The
*   copy is from distance bytes back in the output stream, copying for length
*   bytes.
*
* - Distances pointing before the beginning of the output data are not
*   permitted.
*
* - Overlapped copies, where the length is greater than the distance, are
*   allowed and common.  For example, a distance of one and a length of 518
*   simply copies the last byte 518 times.  A distance of four and a length of
*   twelve copies the last four bytes three times.  A simple forward copy
*   ignoring whether the length is greater than the distance or not implements
*   this correctly.
*/
local int decomp(struct state *s)
{
    int lit;            /* true if literals are coded */
    int dict;           /* log2(dictionary size) - 6 */
    int symbol;         /* decoded symbol, extra bits for distance */
    int len;            /* length for copy */
    int dist;           /* distance for copy */
    int copy;           /* copy counter */
    unsigned char *from, *to;   /* copy pointers */
    static int virgin = 1;                              /* build tables once */
    static short litcnt[MAXBITS+1], litsym[256];        /* litcode memory */
    static short lencnt[MAXBITS+1], lensym[16];         /* lencode memory */
    static short distcnt[MAXBITS+1], distsym[64];       /* distcode memory */
    static struct huffman litcode = {litcnt, litsym};   /* length code */
    static struct huffman lencode = {lencnt, lensym};   /* length code */
    static struct huffman distcode = {distcnt, distsym};/* distance code */
        /* bit lengths of literal codes */
    static const unsigned char litlen[] = {
        11, 124, 8, 7, 28, 7, 188, 13, 76, 4, 10, 8, 12, 10, 12, 10, 8, 23, 8,
        9, 7, 6, 7, 8, 7, 6, 55, 8, 23, 24, 12, 11, 7, 9, 11, 12, 6, 7, 22, 5,
        7, 24, 6, 11, 9, 6, 7, 22, 7, 11, 38, 7, 9, 8, 25, 11, 8, 11, 9, 12,
        8, 12, 5, 38, 5, 38, 5, 11, 7, 5, 6, 21, 6, 10, 53, 8, 7, 24, 10, 27,
        44, 253, 253, 253, 252, 252, 252, 13, 12, 45, 12, 45, 12, 61, 12, 45,
        44, 173};
        /* bit lengths of length codes 0..15 */
    static const unsigned char lenlen[] = {2, 35, 36, 53, 38, 23};
        /* bit lengths of distance codes 0..63 */
    static const unsigned char distlen[] = {2, 20, 53, 230, 247, 151, 248};
    static const short base[16] = {     /* base for length codes */
        3, 2, 4, 5, 6, 7, 8, 9, 10, 12, 16, 24, 40, 72, 136, 264};
    static const char extra[16] = {     /* extra bits for length codes */
        0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 5, 6, 7, 8};

    /* set up decoding tables (once--might not be thread-safe) */
    if (virgin) {
        construct(&litcode, litlen, sizeof(litlen));
        construct(&lencode, lenlen, sizeof(lenlen));
        construct(&distcode, distlen, sizeof(distlen));
        virgin = 0;
    }

    /* read header */
    lit = bits(s, 8);
    if (lit > 1) return -1;
    dict = bits(s, 8);
    if (dict < 4 || dict > 6) return -2;

    /* decode literals and length/distance pairs */
    do {
        if (bits(s, 1)) {
            /* get length */
            symbol = decode(s, &lencode);
            len = base[symbol] + bits(s, extra[symbol]);
            if (len == 519) break;              /* end code */

            /* get distance */
            symbol = len == 2 ? 2 : dict;
            dist = decode(s, &distcode) << symbol;
            dist += bits(s, symbol);
            dist++;
            if (s->first && dist > s->next)
                return -3;              /* distance too far back */

            /* copy length bytes from distance bytes back */
            do {
                to = s->out + s->next;
                from = to - dist;
                copy = MAXWIN;
                if (s->next < dist) {
                    from += copy;
                    copy = dist;
                }
                copy -= s->next;
                if (copy > len) copy = len;
                len -= copy;
                s->next += copy;
                do {
                    *to++ = *from++;
                } while (--copy);
                if (s->next == MAXWIN) {
                    if (s->outfun(s->outhow, s->out, s->next)) return 1;
                    s->next = 0;
                    s->first = 0;
                }
            } while (len != 0);
        }
        else {
            /* get literal and write it */
            symbol = lit ? decode(s, &litcode) : bits(s, 8);
            s->out[s->next++] = symbol;
            if (s->next == MAXWIN) {
                if (s->outfun(s->outhow, s->out, s->next)) return 1;
                s->next = 0;
                s->first = 0;
            }
        }
    } while (1);
    return 0;
}

/* See comments in blast.h */
int blast(blast_in infun, void *inhow, blast_out outfun, void *outhow)
{
    struct state s;             /* input/output state */
    int err;                    /* return value */

    /* initialize input state */
    s.infun = infun;
    s.inhow = inhow;
    s.left = 0;
    s.bitbuf = 0;
    s.bitcnt = 0;

    /* initialize output state */
    s.outfun = outfun;
    s.outhow = outhow;
    s.next = 0;
    s.first = 1;

    /* return if bits() or decode() tries to read past available input */
    if (setjmp(s.env) != 0)             /* if came back here via longjmp(), */
        err = 2;                        /*  then skip decomp(), return error */
    else
        err = decomp(&s);               /* decompress */

    /* write any leftover output and update the error code if needed */
    if (err != 1 && s.next && s.outfun(s.outhow, s.out, s.next) && err == 0)
        err = 1;
    return err;
}

#ifdef TEST
/* Example of how to use blast() */
#include <stdio.h>
#include <stdlib.h>

#define CHUNK 16384

local unsigned inf(void *how, unsigned char **buf)
{
    static unsigned char hold[CHUNK];

    *buf = hold;
    return fread(hold, 1, CHUNK, (FILE *)how);
}

local int outf(void *how, unsigned char *buf, unsigned len)
{
    return fwrite(buf, 1, len, (FILE *)how) != len;
}

/* Decompress a PKWare Compression Library stream from stdin to stdout */
int main(void)
{
    int ret, n;

    /* decompress to stdout */
    ret = blast(inf, stdin, outf, stdout);
    if (ret != 0) fprintf(stderr, "blast error: %d\n", ret);

    /* see if there are any leftover bytes */
    n = 0;
    while (getchar() != EOF) n++;
    if (n) fprintf(stderr, "blast warning: %d unused bytes of input\n", n);

    /* return blast() error code */
    return ret;
}
#endif


Somebody can help?
Sds,
Vilian F. Arraes
vilian@vfatec.com.br
Belém-Pa-Brazil
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vilian
 
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Postby Antonio Linares » Tue Mar 13, 2007 7:03 pm

Vilian,

What do you need ? To compile such code ? To modify it ?
regards, saludos

Antonio Linares
www.fivetechsoft.com
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Antonio Linares
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Postby vilian » Tue Mar 13, 2007 7:26 pm

Antonio,

I need to adjust the code to compile with harbour_ce.
Sds,
Vilian F. Arraes
vilian@vfatec.com.br
Belém-Pa-Brazil
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vilian
 
Posts: 978
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Postby Richard Chidiak » Tue Mar 13, 2007 8:29 pm

Antonio

It would be great if we had a zip support in fwppc !!!

Saves a lot of time in transfering data.

Richard
http://www.cbati.com

Uestudio
Fwh 13.05 Harbour 3.2 MSVC 2013
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Postby pawelu » Wed Mar 14, 2007 4:45 am

Richard,

Alternative way to use compress send data is rsync based transfer. My program MoBi using this method works very good. Compress ratio for DBF and FPT file is ca 10 times and better. Youn don't need compress data to zip or other format before transfer but you need accesible address on internet network where rsync server wait for users login (GPRS connection).

Regards
Pawel
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Postby Antonio Linares » Wed Mar 14, 2007 8:07 am

Vilian,

This file is missing:

#include "blast.h"
Last edited by Antonio Linares on Wed Mar 14, 2007 12:12 pm, edited 1 time in total.
regards, saludos

Antonio Linares
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Postby vilian » Wed Mar 14, 2007 11:38 am

Antonio,

I sent for its email a complete copy of the ZLIB with all the archives.

Code: Select all  Expand view  RUN
/* blast.h -- interface for blast.c
  Copyright (C) 2003 Mark Adler
  version 1.1, 16 Feb 2003

  This software is provided 'as-is', without any express or implied
  warranty.  In no event will the author be held liable for any damages
  arising from the use of this software.

  Permission is granted to anyone to use this software for any purpose,
  including commercial applications, and to alter it and redistribute it
  freely, subject to the following restrictions:

  1. The origin of this software must not be misrepresented; you must not
     claim that you wrote the original software. If you use this software
     in a product, an acknowledgment in the product documentation would be
     appreciated but is not required.
  2. Altered source versions must be plainly marked as such, and must not be
     misrepresented as being the original software.
  3. This notice may not be removed or altered from any source distribution.

  Mark Adler    madler@alumni.caltech.edu
*/


/*
* blast() decompresses the PKWare Data Compression Library (DCL) compressed
* format.  It provides the same functionality as the explode() function in
* that library.  (Note: PKWare overused the "implode" verb, and the format
* used by their library implode() function is completely different and
* incompatible with the implode compression method supported by PKZIP.)
*/


typedef unsigned (*blast_in)(void *how, unsigned char **buf);
typedef int (*blast_out)(void *how, unsigned char *buf, unsigned len);
/* Definitions for input/output functions passed to blast().  See below for
* what the provided functions need to do.
*/


int blast(blast_in infun, void *inhow, blast_out outfun, void *outhow);
/* Decompress input to output using the provided infun() and outfun() calls.
* On success, the return value of blast() is zero.  If there is an error in
* the source data, i.e. it is not in the proper format, then a negative value
* is returned.  If there is not enough input available or there is not enough
* output space, then a positive error is returned.
*
* The input function is invoked: len = infun(how, &buf), where buf is set by
* infun() to point to the input buffer, and infun() returns the number of
* available bytes there.  If infun() returns zero, then blast() returns with
* an input error.  (blast() only asks for input if it needs it.)  inhow is for
* use by the application to pass an input descriptor to infun(), if desired.
*
* The output function is invoked: err = outfun(how, buf, len), where the bytes
* to be written are buf[0..len-1].  If err is not zero, then blast() returns
* with an output error.  outfun() is always called with len <= 4096.  outhow
* is for use by the application to pass an output descriptor to outfun(), if
* desired.
*
* The return codes are:
*
*   2:  ran out of input before completing decompression
*   1:  output error before completing decompression
*   0:  successful decompression
*  -1:  literal flag not zero or one
*  -2:  dictionary size not in 4..6
*  -3:  distance is too far back
*
* At the bottom of blast.c is an example program that uses blast() that can be
* compiled to produce a command-line decompression filter by defining TEST.
*/
Sds,
Vilian F. Arraes
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Postby vilian » Fri Mar 23, 2007 4:53 pm

Hi,

You are verifying this?
Sds,
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Postby Antonio Linares » Sat Mar 24, 2007 6:09 pm

Vilian,

We are currently on a FWPPC seminar and we will get back to our offices next sunday. Then we plan to review it,
regards, saludos

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Postby vilian » Mon Apr 09, 2007 7:03 pm

Antonio,

Its seminary already finished? This treatment of archives ZIP is basic for our work.
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Postby Antonio Linares » Mon Apr 09, 2007 8:29 pm

Vilian,

We have been busy with the FTDN 7.04 launch. But thanks for remind it to us, we are going to review it
regards, saludos

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Postby vilian » Fri Apr 13, 2007 12:59 pm

Antonio,

I know that you must have a million of things to make and all very important they for all we, but please give one looked at in this question of the archives ZIP, I am certain that something very important for all is our community.
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Postby Antonio Linares » Fri Apr 13, 2007 10:14 pm

Vilian,

Jose Luis Capel delivered ZIP support for FWPPC. Whats wrong with it ?

Can't you use a compatible ZIP manager in Windows with the created files ?
regards, saludos

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Postby Antonio Linares » Fri Apr 13, 2007 10:31 pm

Vilian,

All the C files that you sent me, compiled ok on first try (I didn't build a make yet):

c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Foadler32.obj adler32.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Focompress.obj compress.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Focrc32.obj crc32.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Fodeflate.obj deflate.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Fogzio.obj gzio.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Foinfback.obj infback.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Foinffast.obj inffast.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Foinflate.obj inflate.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Foinftrees.obj inftrees.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Fominigzip.obj minigzip.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Fotrees.obj trees.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Founcompr.obj uncompr.c
c:\vce\bin\clarm -c /DARM /DUNICODE -D__HARBOUR__ -DHB_API_MACROS -D__FLAT__ -Ic:\harbour_ce\harbour\include -Ic:\vce\include\arm -Fozutil.obj zutil.c
regards, saludos

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Postby vilian » Mon Apr 16, 2007 1:04 am

Antonio,

Code: Select all  Expand view  RUN
Jose Luis Capel delivered ZIP support for FWPPC. Whats wrong with it ? .

The example presented for the Luis functions perfectly in Pocket PC, but the used format of compacting is not compatible with the one of the Windows. We do not obtain to unpack archives zip bred in Pocket PC in the WIndows environment.

Code: Select all  Expand view  RUN
Can't you use a compatible ZIP manager in Windows with the created files ?

It is accurately what I am trying to obtain. Searching in the site of lib that Luis used I found the code-source that allows the compatibility between the two ambientes(blast.c).
In the compilation some does not appear error, but when I execute it appears an error of execution that did not obtain to decide, therefore the aid order.
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