path: root/src/drivers/Android/Fl_Android_System_Driver.cxx

//
// "$Id$"
//
// Definition of Android system driver.
//
// Copyright 2018 by Bill Spitzak and others.
//
// This library is free software. Distribution and use rights are outlined in
// the file "COPYING" which should have been included with this file.  If this
// file is missing or damaged, see the license at:
//
//     http://www.fltk.org/COPYING.php
//
// Please report all bugs and problems on the following page:
//
//     http://www.fltk.org/str.php
//

#include "../../config_lib.h"
#include "Fl_Android_System_Driver.H"
#include <FL/Fl.H>
#include <FL/fl_utf8.h>
#include <FL/filename.H>
#include <FL/Fl_File_Browser.H>
#include <FL/Fl_File_Icon.H>
#include "../../flstring.h"

#if 0

#include <stdio.h>
#include <stdarg.h>
#include <windows.h>
#include <rpc.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/timeb.h>
#include <shellapi.h>
#include <wchar.h>
#include <process.h>
#include <locale.h>
#include <time.h>
#include <direct.h>
#include <io.h>
#include <fcntl.h>

// function pointer for the UuidCreate Function
// RPC_STATUS RPC_ENTRY UuidCreate(UUID __RPC_FAR *Uuid);
typedef RPC_STATUS (WINAPI *uuid_func)(UUID __RPC_FAR *Uuid);

// Apparently Borland C++ defines DIRECTORY in <direct.h>, which
// interferes with the Fl_File_Icon enumeration of the same name.
#  ifdef DIRECTORY
#    undef DIRECTORY
#  endif // DIRECTORY

#ifdef __CYGWIN__
#  include <mntent.h>
#endif

inline int isdirsep(char c) { return c == '/' || c == '\\'; }

static wchar_t *mbwbuf = NULL;
static wchar_t *wbuf = NULL;
static wchar_t *wbuf1 = NULL;

extern "C" {
  int fl_scandir(const char *dirname, struct dirent ***namelist,
                 int (*select)(struct dirent *),
                 int (*compar)(struct dirent **, struct dirent **));
}

/*
  Convert a UTF-8 string to Windows wide character encoding (UTF-16).

  This helper function is used throughout this file to convert UTF-8
  strings to Windows specific UTF-16 encoding for filenames, paths, or
  other strings to be used by system functions.

  The input string can be a null-terminated string or its length can be
  provided by the optional argument 'lg'. If 'lg' is omitted or less than 0
  (default = -1) the string length is determined with strlen(), otherwise
  'lg' takes precedence. Zero (0) is a valid string length (an empty string).

  The argument 'wbuf' must have been initialized with NULL or a previous
  call to malloc() or realloc().

  If the converted string doesn't fit into the allocated size of 'wbuf' or if
  'wbuf' is NULL a new buffer is allocated with realloc(). Hence the pointer
  'wbuf' can be shared among multiple calls to this function if it has been
  initialized with NULL (or malloc or realloc) before the first call.
  Ideally every call to this function has its own static pointer though.

  The return value is either the old value of 'wbuf' (if the string fits)
  or a pointer at the (re)allocated buffer.

  Pseudo doxygen docs (static function intentionally not documented):

  param[in]	utf8	input string (UTF-8)
  param[in,out]	wbuf	in:  pointer to output string buffer
			out: new string (the pointer may be changed)
  param[in]	lg	optional: input string length (default = -1)

  returns	pointer to string buffer
*/
static wchar_t *utf8_to_wchar(const char *utf8, wchar_t *&wbuf, int lg = -1) {
  unsigned len = (lg >= 0) ? (unsigned)lg : (unsigned)strlen(utf8);
  unsigned wn = fl_utf8toUtf16(utf8, len, NULL, 0) + 1; // Query length
  wbuf = (wchar_t *)realloc(wbuf, sizeof(wchar_t) * wn);
  wn = fl_utf8toUtf16(utf8, len, (unsigned short *)wbuf, wn); // Convert string
  wbuf[wn] = 0;
  return wbuf;
}

/*
  Convert a Windows wide character (UTF-16) string to UTF-8 encoding.

  This helper function is used throughout this file to convert Windows
  wide character strings as returned by system functions to UTF-8
  encoding for internal usage.

  The argument 'utf8' must have been initialized with NULL or a previous
  call to malloc() or realloc().

  If the converted string doesn't fit into the allocated size of 'utf8' or if
  'utf8' is NULL a new buffer is allocated with realloc(). Hence the pointer
  'utf8' can be shared among multiple calls to this function if it has been
  initialized with NULL (or malloc or realloc) before the first call.
  Ideally every call to this function has its own static pointer though.

  The return value is either the old value of 'utf8' (if the string fits)
  or a pointer at the (re)allocated buffer.

  Pseudo doxygen docs (static function intentionally not documented):

  param[in]	wstr	input string (wide character, UTF-16)
  param[in,out]	utf8	in:  pointer to output string buffer
			out: new string (pointer may be changed)

  returns	pointer to string buffer
*/
static char *wchar_to_utf8(const wchar_t *wstr, char *&utf8) {
  unsigned len = (unsigned)wcslen(wstr);
  unsigned wn = fl_utf8fromwc(NULL, 0, wstr, len) + 1; // query length
  utf8 = (char *)realloc(utf8, wn);
  wn = fl_utf8fromwc(utf8, wn, wstr, len); // convert string
  utf8[wn] = 0;
  return utf8;
}

#endif


/*
 Creates a driver that manages all system related calls.
 
 This function must be implemented once for every platform.
 */
Fl_System_Driver *Fl_System_Driver::newSystemDriver()
{
  return new Fl_Android_System_Driver();
}


#if 0

void Fl_WinAPI_System_Driver::warning(const char *format, va_list args) {
  // Show nothing for warnings under Windows...
}

void Fl_WinAPI_System_Driver::error(const char *format, va_list args) {

  char buf[1024];
  vsnprintf(buf, 1024, format, args);
  MessageBox(0, buf, "Error", MB_ICONEXCLAMATION | MB_SYSTEMMODAL);
}

void Fl_WinAPI_System_Driver::fatal(const char *format, va_list args) {
  char buf[1024];
  vsnprintf(buf, 1024, format, args);
  MessageBox(0, buf, "Error", MB_ICONSTOP | MB_SYSTEMMODAL);
  ::exit(1);
}

char *Fl_WinAPI_System_Driver::utf2mbcs(const char *utf8) {
  static char *buf = NULL;
  if (!utf8) return NULL;

  unsigned len = (unsigned)strlen(utf8);

  unsigned wn = fl_utf8toUtf16(utf8, len, NULL, 0) + 7; // Query length
  mbwbuf = (wchar_t *)realloc(mbwbuf, sizeof(wchar_t) * wn);
  len = fl_utf8toUtf16(utf8, len, (unsigned short *)mbwbuf, wn); // Convert string
  mbwbuf[len] = 0;

  buf = (char*)realloc(buf, len * 6 + 1);
  len = (unsigned)wcstombs(buf, mbwbuf, len * 6);
  buf[len] = 0;
  return buf;
}

char *Fl_WinAPI_System_Driver::getenv(const char *var) {
  static char *buf = NULL;
  wchar_t *ret = _wgetenv(utf8_to_wchar(var, wbuf));
  if (!ret) return NULL;
  return wchar_to_utf8(ret, buf);
}

int Fl_WinAPI_System_Driver::open(const char *fnam, int oflags, int pmode) {
  utf8_to_wchar(fnam, wbuf);
  if (pmode == -1) return _wopen(wbuf, oflags);
  else return _wopen(wbuf, oflags, pmode);
}

int Fl_WinAPI_System_Driver::open_ext(const char *fnam, int binary, int oflags, int pmode) {
  if (oflags == 0) oflags = _O_RDONLY;
  oflags |= (binary ? _O_BINARY : _O_TEXT);
  return open(fnam, oflags, pmode);
}

FILE *Fl_WinAPI_System_Driver::fopen(const char *fnam, const char *mode) {
  utf8_to_wchar(fnam, wbuf);
  utf8_to_wchar(mode, wbuf1);
  return _wfopen(wbuf, wbuf1);
}

int Fl_WinAPI_System_Driver::system(const char *cmd) {
# ifdef __MINGW32__
  return ::system(fl_utf2mbcs(cmd));
# else
  return _wsystem(utf8_to_wchar(cmd, wbuf));
# endif
}

int Fl_WinAPI_System_Driver::execvp(const char *file, char *const *argv) {
# ifdef __MINGW32__
  return _execvp(fl_utf2mbcs(file), argv);
# else
  wchar_t **ar;
  utf8_to_wchar(file, wbuf);
  
  int i = 0, n = 0;
  while (argv[i]) {i++; n++;}
  ar = (wchar_t **)malloc(sizeof(wchar_t *) * (n + 1));
  i = 0;
  while (i <= n) {
    unsigned wn;
    unsigned len = (unsigned)strlen(argv[i]);
    wn = fl_utf8toUtf16(argv[i], len, NULL, 0) + 1; // Query length
    ar[i] = (wchar_t *)malloc(sizeof(wchar_t) * wn);
    wn = fl_utf8toUtf16(argv[i], len, (unsigned short *)ar[i], wn); // Convert string
    ar[i][wn] = 0;
    i++;
  }
  ar[n] = NULL;
  _wexecvp(wbuf, ar);	// STR #3040
  i = 0;
  while (i < n) {
    free(ar[i]);
    i++;
  }
  free(ar);
  return -1;		// STR #3040
#endif
}

int Fl_WinAPI_System_Driver::chmod(const char *fnam, int mode) {
  return _wchmod(utf8_to_wchar(fnam, wbuf), mode);
}

int Fl_WinAPI_System_Driver::access(const char *fnam, int mode) {
  return _waccess(utf8_to_wchar(fnam, wbuf), mode);
}

int Fl_WinAPI_System_Driver::stat(const char *fnam, struct stat *b) {

  // remove trailing '/' or '\'
  unsigned len = (unsigned)strlen(fnam);
  if (len > 0 && (fnam[len-1] == '/' || fnam[len-1] == '\\'))
    len--;
  // convert filename and execute _wstat()
  return _wstat(utf8_to_wchar(fnam, wbuf, len), (struct _stat *)b);
}

char *Fl_WinAPI_System_Driver::getcwd(char *buf, int len) {

  static wchar_t *wbuf = NULL;
  wbuf = (wchar_t *)realloc(wbuf, sizeof(wchar_t) * (len + 1));
  wchar_t *ret = _wgetcwd(wbuf, len);
  if (!ret) return NULL;

  unsigned dstlen = (unsigned)len;
  len = (int)wcslen(wbuf);
  dstlen = fl_utf8fromwc(buf, dstlen, wbuf, (unsigned)len);
  buf[dstlen] = 0;
  return buf;
}

int Fl_WinAPI_System_Driver::chdir(const char *path) {
  return _wchdir(utf8_to_wchar(path, wbuf));
}

int Fl_WinAPI_System_Driver::unlink(const char *fnam) {
  return _wunlink(utf8_to_wchar(fnam, wbuf));
}

int Fl_WinAPI_System_Driver::mkdir(const char *fnam, int mode) {
  return _wmkdir(utf8_to_wchar(fnam, wbuf));
}

int Fl_WinAPI_System_Driver::rmdir(const char *fnam) {
  return _wrmdir(utf8_to_wchar(fnam, wbuf));
}

int Fl_WinAPI_System_Driver::rename(const char *fnam, const char *newnam) {
  utf8_to_wchar(fnam, wbuf);
  utf8_to_wchar(newnam, wbuf1);
  return _wrename(wbuf, wbuf1);
}

// Two Windows-specific functions fl_utf8_to_locale() and fl_locale_to_utf8()
// from file fl_utf8.cxx are put here for API compatibility

static char *buf = NULL;
static int buf_len = 0;
static unsigned short *wbufa = NULL;
unsigned int fl_codepage = 0;


// FIXME: This should *maybe* return 'const char *' instead of 'char *'
char *fl_utf8_to_locale(const char *s, int len, UINT codepage)
{
  if (!s) return (char *)"";
  int l = 0;
  unsigned wn = fl_utf8toUtf16(s, len, NULL, 0); // Query length
  wn = wn * 2 + 1;
  if (wn >= (unsigned)buf_len) {
    buf_len = wn;
    buf = (char*) realloc(buf, buf_len);
    wbufa = (unsigned short*) realloc(wbufa, buf_len * sizeof(short));
  }
  if (codepage < 1) codepage = fl_codepage;
  l = fl_utf8toUtf16(s, len, wbufa, wn); // Convert string
  wbufa[l] = 0;
  buf[l] = 0;
  l = WideCharToMultiByte(codepage, 0, (WCHAR*)wbufa, l, buf, buf_len, NULL, NULL);
  if (l < 0) l = 0;
  buf[l] = 0;
  return buf;
}

// FIXME: This should maybe return 'const char *' instead of 'char *'
char *fl_locale_to_utf8(const char *s, int len, UINT codepage)
{
  if (!s) return (char *)"";
  int l = 0;
  if (buf_len < len * 5 + 1) {
    buf_len = len * 5 + 1;
    buf = (char*) realloc(buf, buf_len);
    wbufa = (unsigned short*) realloc(wbufa, buf_len * sizeof(short));
  }
  if (codepage < 1) codepage = fl_codepage;
  buf[l] = 0;
  
  l = MultiByteToWideChar(codepage, 0, s, len, (WCHAR*)wbufa, buf_len);
  if (l < 0) l = 0;
  wbufa[l] = 0;
  l = fl_utf8fromwc(buf, buf_len, (wchar_t*)wbufa, l);
  buf[l] = 0;
  return buf;
}

///////////////////////////////////

unsigned Fl_WinAPI_System_Driver::utf8towc(const char *src, unsigned srclen, wchar_t *dst, unsigned dstlen) {
  return fl_utf8toUtf16(src, srclen, (unsigned short*)dst, dstlen);
}

unsigned Fl_WinAPI_System_Driver::utf8fromwc(char *dst, unsigned dstlen, const wchar_t *src, unsigned srclen)
{
  unsigned i = 0;
  unsigned count = 0;
  if (dstlen) for (;;) {
    unsigned ucs;
    if (i >= srclen) {
      dst[count] = 0;
      return count;
    }
    ucs = src[i++];
    if (ucs < 0x80U) {
      dst[count++] = ucs;
      if (count >= dstlen) {dst[count-1] = 0; break;}
    } else if (ucs < 0x800U) { /* 2 bytes */
      if (count+2 >= dstlen) {dst[count] = 0; count += 2; break;}
      dst[count++] = 0xc0 | (ucs >> 6);
      dst[count++] = 0x80 | (ucs & 0x3F);
    } else if (ucs >= 0xd800 && ucs <= 0xdbff && i < srclen &&
               src[i] >= 0xdc00 && src[i] <= 0xdfff) {
      /* surrogate pair */
      unsigned ucs2 = src[i++];
      ucs = 0x10000U + ((ucs&0x3ff)<<10) + (ucs2&0x3ff);
      /* all surrogate pairs turn into 4-byte UTF-8 */
      if (count+4 >= dstlen) {dst[count] = 0; count += 4; break;}
      dst[count++] = 0xf0 | (ucs >> 18);
      dst[count++] = 0x80 | ((ucs >> 12) & 0x3F);
      dst[count++] = 0x80 | ((ucs >> 6) & 0x3F);
      dst[count++] = 0x80 | (ucs & 0x3F);
    } else {
      /* all others are 3 bytes: */
      if (count+3 >= dstlen) {dst[count] = 0; count += 3; break;}
      dst[count++] = 0xe0 | (ucs >> 12);
      dst[count++] = 0x80 | ((ucs >> 6) & 0x3F);
      dst[count++] = 0x80 | (ucs & 0x3F);
    }
  }
  /* we filled dst, measure the rest: */
  while (i < srclen) {
    unsigned ucs = src[i++];
    if (ucs < 0x80U) {
      count++;
    } else if (ucs < 0x800U) { /* 2 bytes */
      count += 2;
    } else if (ucs >= 0xd800 && ucs <= 0xdbff && i < srclen-1 &&
               src[i+1] >= 0xdc00 && src[i+1] <= 0xdfff) {
      /* surrogate pair */
      ++i;
      count += 4;
    } else {
      count += 3;
    }
  }
  return count;
}

int Fl_WinAPI_System_Driver::utf8locale()
{
  static int ret = (GetACP() == CP_UTF8);
  return ret;
}

unsigned Fl_WinAPI_System_Driver::utf8to_mb(const char *src, unsigned srclen, char *dst, unsigned dstlen) {
  wchar_t lbuf[1024];
  wchar_t *buf = lbuf;
  unsigned length = fl_utf8towc(src, srclen, buf, 1024);
  unsigned ret;
  if (length >= 1024) {
    buf = (wchar_t*)(malloc((length+1)*sizeof(wchar_t)));
    fl_utf8towc(src, srclen, buf, length+1);
  }
  if (dstlen) {
    // apparently this does not null-terminate, even though msdn documentation claims it does:
    ret =
    WideCharToMultiByte(GetACP(), 0, buf, length, dst, dstlen, 0, 0);
    dst[ret] = 0;
  }
  // if it overflows or measuring length, get the actual length:
  if (dstlen==0 || ret >= dstlen-1)
    ret = WideCharToMultiByte(GetACP(), 0, buf, length, 0, 0, 0, 0);
  if (buf != lbuf) free(buf);
  return ret;
}

unsigned Fl_WinAPI_System_Driver::utf8from_mb(char *dst, unsigned dstlen, const char *src, unsigned srclen) {
  wchar_t lbuf[1024];
  wchar_t *buf = lbuf;
  unsigned length;
  unsigned ret;
  length = MultiByteToWideChar(GetACP(), 0, src, srclen, buf, 1024);
  if ((length == 0)&&(GetLastError()==ERROR_INSUFFICIENT_BUFFER)) {
    length = MultiByteToWideChar(GetACP(), 0, src, srclen, 0, 0);
    buf = (wchar_t*)(malloc(length*sizeof(wchar_t)));
    MultiByteToWideChar(GetACP(), 0, src, srclen, buf, length);
  }
  ret = fl_utf8fromwc(dst, dstlen, buf, length);
  if (buf != lbuf) free((void*)buf);
  return ret;
}

int Fl_WinAPI_System_Driver::clocale_printf(FILE *output, const char *format, va_list args) {
#if defined(_MSC_VER) && (_MSC_VER >= 1400 /*Visual Studio 2005*/)
  static _locale_t c_locale = _create_locale(LC_NUMERIC, "C");
  int retval = _vfprintf_l(output, format, c_locale, args);
#else
  char *saved_locale = setlocale(LC_NUMERIC, NULL);
  setlocale(LC_NUMERIC, "C");
  int retval = vfprintf(output, format, args);
  setlocale(LC_NUMERIC, saved_locale);
#endif
  return retval;
}

int Fl_WinAPI_System_Driver::filename_list(const char *d, dirent ***list, int (*sort)(struct dirent **, struct dirent **) ) {
  // For Windows we have a special scandir implementation that uses
  // the Win32 "wide" functions for lookup, avoiding the code page mess
  // entirely. It also fixes up the trailing '/'.
  return fl_scandir(d, list, 0, sort);
}

int Fl_WinAPI_System_Driver::filename_expand(char *to, int tolen, const char *from) {
  char *temp = new char[tolen];
  strlcpy(temp,from, tolen);
  char *start = temp;
  char *end = temp+strlen(temp);
  int ret = 0;
  for (char *a=temp; a<end; ) {	// for each slash component
    char *e; for (e=a; e<end && !isdirsep(*e); e++) {/*empty*/} // find next slash
    const char *value = 0; // this will point at substitute value
    switch (*a) {
      case '~':	// a home directory name
        if (e <= a+1) {	// current user's directory
          value = getenv("HOME");
        }
        break;
      case '$':		/* an environment variable */
      {char t = *e; *(char *)e = 0; value = getenv(a+1); *(char *)e = t;}
        break;
    }
    if (value) {
      // substitutions that start with slash delete everything before them:
      if (isdirsep(value[0])) start = a;
      // also if it starts with "A:"
      if (value[0] && value[1]==':') start = a;
      int t = (int) strlen(value); if (isdirsep(value[t-1])) t--;
      if ((end+1-e+t) >= tolen) end += tolen - (end+1-e+t);
      memmove(a+t, e, end+1-e);
      end = a+t+(end-e);
      *end = '\0';
      memcpy(a, value, t);
      ret++;
    } else {
      a = e+1;
      if (*e == '\\') {*e = '/'; ret++;} // ha ha!
    }
  }
  strlcpy(to, start, tolen);
  delete[] temp;
  return ret;
}

int                                                     // O - 0 if no change, 1 if changed
Fl_WinAPI_System_Driver::filename_relative(char *to,	// O - Relative filename
                                    int        tolen,   // I - Size of "to" buffer
                                    const char *from,   // I - Absolute filename
                                    const char *base)   // I - Find path relative to this path
{
  char          *newslash;		// Directory separator
  const char	*slash;			// Directory separator
  char          *cwd = 0L, *cwd_buf = 0L;
  if (base) cwd = cwd_buf = strdup(base);
  
  // return if "from" is not an absolute path
  if (from[0] == '\0' ||
      (!isdirsep(*from) && !isalpha(*from) && from[1] != ':' &&
       !isdirsep(from[2]))) {
        strlcpy(to, from, tolen);
        if (cwd_buf) free(cwd_buf);
        return 0;
      }
  
  // return if "cwd" is not an absolute path
  if (!cwd || cwd[0] == '\0' ||
      (!isdirsep(*cwd) && !isalpha(*cwd) && cwd[1] != ':' &&
       !isdirsep(cwd[2]))) {
        strlcpy(to, from, tolen);
        if (cwd_buf) free(cwd_buf);
        return 0;
      }
  
  // convert all backslashes into forward slashes
  for (newslash = strchr(cwd, '\\'); newslash; newslash = strchr(newslash + 1, '\\'))
    *newslash = '/';
  
  // test for the exact same string and return "." if so
  if (!strcasecmp(from, cwd)) {
    strlcpy(to, ".", tolen);
    free(cwd_buf);
    return (1);
  }
  
  // test for the same drive. Return the absolute path if not
  if (tolower(*from & 255) != tolower(*cwd & 255)) {
    // Not the same drive...
    strlcpy(to, from, tolen);
    free(cwd_buf);
    return 0;
  }
  
  // compare the path name without the drive prefix
  from += 2; cwd += 2;
  
  // compare both path names until we find a difference
  for (slash = from, newslash = cwd;
       *slash != '\0' && *newslash != '\0';
       slash ++, newslash ++)
    if (isdirsep(*slash) && isdirsep(*newslash)) continue;
    else if (tolower(*slash & 255) != tolower(*newslash & 255)) break;
  
  // skip over trailing slashes
  if ( *newslash == '\0' && *slash != '\0' && !isdirsep(*slash)
      &&(newslash==cwd || !isdirsep(newslash[-1])) )
    newslash--;
  
  // now go back to the first character of the first differing paths segment
  while (!isdirsep(*slash) && slash > from) slash --;
  if (isdirsep(*slash)) slash ++;
  
  // do the same for the current dir
  if (isdirsep(*newslash)) newslash --;
  if (*newslash != '\0')
    while (!isdirsep(*newslash) && newslash > cwd) newslash --;
  
  // prepare the destination buffer
  to[0]         = '\0';
  to[tolen - 1] = '\0';
  
  // now add a "previous dir" sequence for every following slash in the cwd
  while (*newslash != '\0') {
    if (isdirsep(*newslash)) strlcat(to, "../", tolen);
    newslash ++;
  }
  
  // finally add the differing path from "from"
  strlcat(to, slash, tolen);
  
  free(cwd_buf);
  return 1;
}

int Fl_WinAPI_System_Driver::filename_absolute(char *to, int tolen, const char *from) {
  if (isdirsep(*from) || *from == '|' || from[1]==':') {
    strlcpy(to, from, tolen);
    return 0;
  }
  char *a;
  char *temp = new char[tolen];
  const char *start = from;
  a = getcwd(temp, tolen);
  if (!a) {
    strlcpy(to, from, tolen);
    delete[] temp;
    return 0;
  }
  for (a = temp; *a; a++) if (*a=='\\') *a = '/'; // ha ha
  if (isdirsep(*(a-1))) a--;
  /* remove intermediate . and .. names: */
  while (*start == '.') {
    if (start[1]=='.' && isdirsep(start[2])) {
      char *b;
      for (b = a-1; b >= temp && !isdirsep(*b); b--) {/*empty*/}
      if (b < temp) break;
      a = b;
      start += 3;
    } else if (isdirsep(start[1])) {
      start += 2;
    } else if (!start[1]) {
      start ++; // Skip lone "."
      break;
    } else
      break;
  }
  *a++ = '/';
  strlcpy(a,start,tolen - (a - temp));
  strlcpy(to, temp, tolen);
  delete[] temp;
  return 1;
}

int Fl_WinAPI_System_Driver::filename_isdir(const char *n)
{
  struct _stat	s;
  char		fn[FL_PATH_MAX];
  int		length;
  length = (int) strlen(n);
  // This workaround brought to you by the fine folks at Microsoft!
  // (read lots of sarcasm in that...)
  if (length < (int)(sizeof(fn) - 1)) {
    if (length < 4 && isalpha(n[0]) && n[1] == ':' &&
        (isdirsep(n[2]) || !n[2])) {
      // Always use D:/ for drive letters
      fn[0] = n[0];
      strcpy(fn + 1, ":/");
      n = fn;
    } else if (length > 0 && isdirsep(n[length - 1])) {
      // Strip trailing slash from name...
      length --;
      memcpy(fn, n, length);
      fn[length] = '\0';
      n = fn;
    }
  }
  return !_stat(n, &s) && (s.st_mode & _S_IFDIR);
}

int Fl_WinAPI_System_Driver::filename_isdir_quick(const char *n)
{
  // Do a quick optimization for filenames with a trailing slash...
  if (*n && isdirsep(n[strlen(n) - 1])) return 1;
  return filename_isdir(n);
}

const char *Fl_WinAPI_System_Driver::filename_ext(const char *buf) {
  const char *q = 0;
  const char *p = buf;
  for (p = buf; *p; p++) {
    if (isdirsep(*p) ) q = 0;
    else if (*p == '.') q = p;
  }
  return q ? q : p;
}

int Fl_WinAPI_System_Driver::open_uri(const char *uri, char *msg, int msglen)
{
  if (msg) snprintf(msg, msglen, "open %s", uri);  
  return (int)(ShellExecute(HWND_DESKTOP, "open", uri, NULL, NULL, SW_SHOW) > (void *)32);
}

int Fl_WinAPI_System_Driver::file_browser_load_filesystem(Fl_File_Browser *browser, char *filename, int lname, Fl_File_Icon *icon)
{
  int num_files = 0;
#  ifdef __CYGWIN__
  //
  // Cygwin provides an implementation of setmntent() to get the list
  // of available drives...
  //
  FILE          *m = setmntent("/-not-used-", "r");
  struct mntent *p;
  while ((p = getmntent (m)) != NULL) {
    browser->add(p->mnt_dir, icon);
    num_files ++;
  }
  endmntent(m);
#  else
  //
  // Normal Windows code uses drive bits...
  //
  DWORD	drives;		// Drive available bits
  drives = GetLogicalDrives();
  for (int i = 'A'; i <= 'Z'; i ++, drives >>= 1)
    if (drives & 1)
    {
      sprintf(filename, "%c:/", i);
      if (i < 'C') // see also: GetDriveType and GetVolumeInformation in Windows
        browser->add(filename, icon);
      else
        browser->add(filename, icon);
      num_files ++;
    }
#  endif // __CYGWIN__
  return num_files;
}

int Fl_WinAPI_System_Driver::file_browser_load_directory(const char *directory, char *filename,
                                                         size_t name_size, dirent ***pfiles, Fl_File_Sort_F *sort)
{
  strlcpy(filename, directory, name_size);
  int i = (int) (strlen(filename) - 1);
  if (i == 2 && filename[1] == ':' &&
      (filename[2] == '/' || filename[2] == '\\'))
    filename[2] = '/';
  else if (filename[i] != '/' && filename[i] != '\\')
    strlcat(filename, "/", name_size);
  return filename_list(filename, pfiles, sort);
}

void Fl_WinAPI_System_Driver::newUUID(char *uuidBuffer)
{
  // First try and use the win API function UuidCreate(), but if that is not
  // available, fall back to making something up from scratch.
  // We do not want to link against the Rpcrt4.dll, as we will rarely use it,
  // so we load the DLL dynamically, if it is available, and work from there.
  static HMODULE hMod = NULL;
  UUID ud;
  UUID *pu = &ud;
  int got_uuid = 0;
  
  if (!hMod) {		// first time in?
    hMod = LoadLibrary("Rpcrt4.dll");
  }
  
  if (hMod) {		// do we have a usable handle to Rpcrt4.dll?
    uuid_func uuid_crt = (uuid_func)GetProcAddress(hMod, "UuidCreate");
    if (uuid_crt != NULL) {
      RPC_STATUS rpc_res = uuid_crt(pu);
      if ( // is the return status OK for our needs?
          (rpc_res == RPC_S_OK) ||		// all is well
          (rpc_res == RPC_S_UUID_LOCAL_ONLY) || // only unique to this machine
          (rpc_res == RPC_S_UUID_NO_ADDRESS)	// probably only locally unique
          ) {
        got_uuid = -1;
        sprintf(uuidBuffer, "%08lX-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X",
                pu->Data1, pu->Data2, pu->Data3, pu->Data4[0], pu->Data4[1],
                pu->Data4[2], pu->Data4[3], pu->Data4[4],
                pu->Data4[5], pu->Data4[6], pu->Data4[7]);
      }
    }
  }
  if (got_uuid == 0) {		// did not make a UUID - use fallback logic
    unsigned char b[16];
    time_t t = time(0);		// first 4 byte
    b[0] = (unsigned char)t;
    b[1] = (unsigned char)(t>>8);
    b[2] = (unsigned char)(t>>16);
    b[3] = (unsigned char)(t>>24);
    int r = rand();		// four more bytes
    b[4] = (unsigned char)r;
    b[5] = (unsigned char)(r>>8);
    b[6] = (unsigned char)(r>>16);
    b[7] = (unsigned char)(r>>24);
    // Now we try to find 4 more "random" bytes. We extract the
    // lower 4 bytes from the address of t - it is created on the
    // stack so *might* be in a different place each time...
    // This is now done via a union to make it compile OK on 64-bit systems.
    union { void *pv; unsigned char a[sizeof(void*)]; } v;
    v.pv = (void *)(&t);
    // NOTE: This assume that all WinXX systems are little-endian
    b[8] = v.a[0];
    b[9] = v.a[1];
    b[10] = v.a[2];
    b[11] = v.a[3];
    TCHAR name[MAX_COMPUTERNAME_LENGTH + 1]; // only used to make last four bytes
    DWORD nSize = MAX_COMPUTERNAME_LENGTH + 1;
    // GetComputerName() does not depend on any extra libs, and returns something
    // analogous to gethostname()
    GetComputerName(name, &nSize);
    //  use the first 4 TCHAR's of the name to create the last 4 bytes of our UUID
    for (int ii = 0; ii < 4; ii++) {
      b[12 + ii] = (unsigned char)name[ii];
    }
    sprintf(uuidBuffer, "%02X%02X%02X%02X-%02X%02X-%02X%02X-%02X%02X-%02X%02X%02X%02X%02X%02X",
            b[0], b[1], b[2], b[3], b[4], b[5], b[6], b[7],
            b[8], b[9], b[10], b[11], b[12], b[13], b[14], b[15]);
  }
}

char *Fl_WinAPI_System_Driver::preference_rootnode(Fl_Preferences *prefs, Fl_Preferences::Root root, const char *vendor,
                                                  const char *application)
{
#  define FLPREFS_RESOURCE	"Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Shell Folders"
#  define FLPREFS_RESOURCEW	L"Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Shell Folders"
  static char filename[ FL_PATH_MAX ];
  filename[0] = 0;
  size_t appDataLen = strlen(vendor) + strlen(application) + 8;
  DWORD type, nn;
  LONG err;
  HKEY key;
  
  switch (root) {
    case Fl_Preferences::SYSTEM:
      err = RegOpenKeyW( HKEY_LOCAL_MACHINE, FLPREFS_RESOURCEW, &key );
      if (err == ERROR_SUCCESS) {
        nn = (DWORD) (FL_PATH_MAX - appDataLen);
        err = RegQueryValueExW( key, L"Common AppData", 0L, &type,
                               (BYTE*)filename, &nn );
        if ( ( err != ERROR_SUCCESS ) && ( type == REG_SZ ) ) {
          filename[0] = 0;
          filename[1] = 0;
        }
        RegCloseKey(key);
      }
      break;
    case Fl_Preferences::USER:
      err = RegOpenKeyW( HKEY_CURRENT_USER, FLPREFS_RESOURCEW, &key );
      if (err == ERROR_SUCCESS) {
        nn = (DWORD) (FL_PATH_MAX - appDataLen);
        err = RegQueryValueExW( key, L"AppData", 0L, &type,
                               (BYTE*)filename, &nn );
        if ( ( err != ERROR_SUCCESS ) && ( type == REG_SZ ) ) {
          filename[0] = 0;
          filename[1] = 0;
        }
        RegCloseKey(key);
      }
      break;
  }
  if (!filename[1] && !filename[0]) {
    strcpy(filename, "C:\\FLTK");
  } else {
#if 0
    wchar_t *b = (wchar_t*)_wcsdup((wchar_t *)filename);
#else
    // cygwin does not come with _wcsdup. Use malloc +  wcscpy.
    // For implementation of wcsdup functionality See
    // - http://linenum.info/p/glibc/2.7/wcsmbs/wcsdup.c
    wchar_t *b = (wchar_t *)malloc((wcslen((wchar_t *)filename) + 1) * sizeof(wchar_t));
    wcscpy(b, (wchar_t *) filename);
#endif
    //  filename[fl_unicode2utf(b, wcslen((wchar_t*)b), filename)] = 0;
    unsigned len = fl_utf8fromwc(filename, (FL_PATH_MAX-1), b, (unsigned) wcslen(b));
    filename[len] = 0;
    free(b);
  }
  snprintf(filename + strlen(filename), sizeof(filename) - strlen(filename),
           "/%s/%s.prefs", vendor, application);
  for (char *s = filename; *s; s++) if (*s == '\\') *s = '/';
  return filename;
}

void *Fl_WinAPI_System_Driver::dlopen(const char *filename) {
  return LoadLibraryW(utf8_to_wchar(filename, wbuf));
}

void Fl_WinAPI_System_Driver::png_extra_rgba_processing(unsigned char *ptr, int w, int h)
{
  // Some Windows graphics drivers don't honor transparency when RGB == white
  // Convert RGB to 0 when alpha == 0...
  for (int i = w * h; i > 0; i --, ptr += 4) {
    if (!ptr[3]) ptr[0] = ptr[1] = ptr[2] = 0;
  }
}

const char *Fl_WinAPI_System_Driver::next_dir_sep(const char *start)
{
  const char *p = strchr(start, '/');
  if (!p) p = strchr(start, '\\');
  return p;
}

int Fl_WinAPI_System_Driver::file_type(const char *filename)
{
  int filetype;
  if (filename[strlen(filename) - 1] == '/')
    filetype = Fl_File_Icon::DIRECTORY;
  else if (filename_isdir(filename))
    filetype = Fl_File_Icon::DIRECTORY;
  else
    filetype = Fl_File_Icon::PLAIN;
  return filetype;
}

const char *Fl_WinAPI_System_Driver::home_directory_name()
{
  const char *h = getenv("HOME");
  if (!h) h = getenv("UserProfile");
  return h;
}

void Fl_WinAPI_System_Driver::gettime(time_t *sec, int *usec) {
  struct _timeb t;
  _ftime(&t);
  *sec = t.time;
  *usec = t.millitm * 1000;
}

#endif

//
// End of "$Id$".
//