姬長信(Redy)

将.c转换为.java


有什么工具可以将C代码转换成Java代码吗?我有兴趣将此代码转换为Java:
***************************************************************************/
/*
** UNECM - Decoder for ECM (Error Code Modeler) format.
** Version 1.0
** Copyright (C) 2002 Neill Corlett
**
** This program is free software; you can redistribute it and/or
** modify it under the terms of the GNU General Public License
** as published by the Free Software Foundation; either version 2
** of the License, or (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program; if not, write to the Free Software
** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
*/
/***************************************************************************/
/*
** Portability notes:
**
** - Assumes a 32-bit or higher integer size
** - No assumptions about byte order
** - No assumptions about struct packing
** - No unaligned memory access
*/
/***************************************************************************/

#include 
#include 
#include 

/***************************************************************************/

void banner(void) {
  fprintf(stderr,
    "UNECM - Decoder for Error Code Modeler format v1.0/n"
    "Copyright (C) 2002 Neill Corlett/n/n"
  );
}

/***************************************************************************/

/* Data types */
#define ecc_uint8 unsigned char
#define ecc_uint16 unsigned short
#define ecc_uint32 unsigned

/* LUTs used for computing ECC/EDC */
static ecc_uint8 ecc_f_lut[256];
static ecc_uint8 ecc_b_lut[256];
static ecc_uint32 edc_lut[256];

/* Init routine */
static void eccedc_init(void) {
  ecc_uint32 i, j, edc;
  for(i = 0; i > 1) ^ (edc & 1 ? 0xD8018001 : 0);
    edc_lut[i] = edc;
  }
}

/***************************************************************************/
/*
** Compute EDC for a block
*/
ecc_uint32 edc_partial_computeblock(
        ecc_uint32  edc,
  const ecc_uint8  *src,
        ecc_uint16  size
) {
  while(size--) edc = (edc >> 8) ^ edc_lut[(edc ^ (*src++)) & 0xFF];
  return edc;
}

void edc_computeblock(
  const ecc_uint8  *src,
        ecc_uint16  size,
        ecc_uint8  *dest
) {
  ecc_uint32 edc = edc_partial_computeblock(0, src, size);
  dest[0] = (edc >>  0) & 0xFF;
  dest[1] = (edc >>  8) & 0xFF;
  dest[2] = (edc >> 16) & 0xFF;
  dest[3] = (edc >> 24) & 0xFF;
}

/***************************************************************************/
/*
** Compute ECC for a block (can do either P or Q)
*/
static void ecc_computeblock(
  ecc_uint8 *src,
  ecc_uint32 major_count,
  ecc_uint32 minor_count,
  ecc_uint32 major_mult,
  ecc_uint32 minor_inc,
  ecc_uint8 *dest
) {
  ecc_uint32 size = major_count * minor_count;
  ecc_uint32 major, minor;
  for(major = 0; major > 1) * major_mult + (major & 1);
    ecc_uint8 ecc_a = 0;
    ecc_uint8 ecc_b = 0;
    for(minor = 0; minor = size) index -= size;
      ecc_a ^= temp;
      ecc_b ^= temp;
      ecc_a = ecc_f_lut[ecc_a];
    }
    ecc_a = ecc_b_lut[ecc_f_lut[ecc_a] ^ ecc_b];
    dest[major              ] = ecc_a;
    dest[major + major_count] = ecc_a ^ ecc_b;
  }
}

/*
** Generate ECC P and Q codes for a block
*/
static void ecc_generate(
  ecc_uint8 *sector,
  int        zeroaddress
) {
  ecc_uint8 address[4], i;
  /* Save the address and zero it out */
  if(zeroaddress) for(i = 0; i > 20) != (mycounter >> 20)) {
    unsigned a = (n+64)/128;
    unsigned d = (mycounter_total+64)/128;
    if(!d) d = 1;
    fprintf(stderr, "Decoding (%02d%%)/r", (100*a) / d);
  }
  mycounter = n;
}

int unecmify(
  FILE *in,
  FILE *out
) {
  unsigned checkedc = 0;
  unsigned char sector[2352];
  unsigned type;
  unsigned num;
  fseek(in, 0, SEEK_END);
  resetcounter(ftell(in));
  fseek(in, 0, SEEK_SET);
  if(
    (fgetc(in) != 'E') ||
    (fgetc(in) != 'C') ||
    (fgetc(in) != 'M') ||
    (fgetc(in) != 0x00)
  ) {
    fprintf(stderr, "Header not found!/n");
    goto corrupt;
  }
  for(;;) {
    int c = fgetc(in);
    int bits = 5;
    if(c == EOF) goto uneof;
    type = c & 3;
    num = (c >> 2) & 0x1F;
    while(c & 0x80) {
      c = fgetc(in);
      if(c == EOF) goto uneof;
      num |= ((unsigned)(c & 0x7F)) = 0x80000000) goto corrupt;
    if(!type) {
      while(num) {
        int b = num;
        if(b > 2352) b = 2352;
        if(fread(sector, 1, b, in) != b) goto uneof;
        checkedc = edc_partial_computeblock(checkedc, sector, b);
        fwrite(sector, 1, b, out);
        num -= b;
        setcounter(ftell(in));
      }
    } else {
      while(num--) {
        memset(sector, 0, sizeof(sector));
        memset(sector + 1, 0xFF, 10);
        switch(type) {
        case 1:
          sector[0x0F] = 0x01;
          if(fread(sector + 0x00C, 1, 0x003, in) != 0x003) goto uneof;
          if(fread(sector + 0x010, 1, 0x800, in) != 0x800) goto uneof;
          eccedc_generate(sector, 1);
          checkedc = edc_partial_computeblock(checkedc, sector, 2352);
          fwrite(sector, 2352, 1, out);
          setcounter(ftell(in));
          break;
        case 2:
          sector[0x0F] = 0x02;
          if(fread(sector + 0x014, 1, 0x804, in) != 0x804) goto uneof;
          sector[0x10] = sector[0x14];
          sector[0x11] = sector[0x15];
          sector[0x12] = sector[0x16];
          sector[0x13] = sector[0x17];
          eccedc_generate(sector, 2);
          checkedc = edc_partial_computeblock(checkedc, sector + 0x10, 2336);
          fwrite(sector + 0x10, 2336, 1, out);
          setcounter(ftell(in));
          break;
        case 3:
          sector[0x0F] = 0x02;
          if(fread(sector + 0x014, 1, 0x918, in) != 0x918) goto uneof;
          sector[0x10] = sector[0x14];
          sector[0x11] = sector[0x15];
          sector[0x12] = sector[0x16];
          sector[0x13] = sector[0x17];
          eccedc_generate(sector, 3);
          checkedc = edc_partial_computeblock(checkedc, sector + 0x10, 2336);
          fwrite(sector + 0x10, 2336, 1, out);
          setcounter(ftell(in));
          break;
        }
      }
    }
  }
  if(fread(sector, 1, 4, in) != 4) goto uneof;
  fprintf(stderr, "Decoded %ld bytes -> %ld bytes/n", ftell(in), ftell(out));
  if(
    (sector[0] != ((checkedc >>  0) & 0xFF)) ||
    (sector[1] != ((checkedc >>  8) & 0xFF)) ||
    (sector[2] != ((checkedc >> 16) & 0xFF)) ||
    (sector[3] != ((checkedc >> 24) & 0xFF))
  ) {
    fprintf(stderr, "EDC error (%08X, should be %02X%02X%02X%02X)/n",
      checkedc,
      sector[3],
      sector[2],
      sector[1],
      sector[0]
    );
    goto corrupt;
  }
  fprintf(stderr, "Done; file is OK/n");
  return 0;
uneof:
  fprintf(stderr, "Unexpected EOF!/n");
corrupt:
  fprintf(stderr, "Corrupt ECM file!/n");
  return 1;
}

/***************************************************************************/

int main(int argc, char **argv) {
  FILE *fin, *fout;
  char *infilename;
  char *outfilename;
  banner();
  /*
  ** Initialize the ECC/EDC tables
  */
  eccedc_init();
  /*
  ** Check command line
  */
  if((argc != 2) && (argc != 3)) {
    fprintf(stderr, "usage: %s ecmfile [outputfile]/n", argv[0]);
    return 1;
  }
  /*
  ** Verify that the input filename is valid
  */
  infilename = argv[1];
  if(strlen(infilename)