Beispiel #1
0
static void b_magickCompressImage1(task *tsk, pntr *argstack)
{
    /* pointers to the parameters */
    pntr val1 = argstack[4]; // imageFile
    pntr val2 = argstack[3]; // outputImage
    pntr val3 = argstack[2]; // format
    pntr val4 = argstack[1]; // compressionType
    pntr val5 = argstack[0]; // compressionRate
    int badtype;

    /* the result value to be return */
    int result;

    char *imageFile;
    char *outputImage;
    char *format;
    int compressionType;
    double compressionRate;

    /* Check validity of each parameter */
    CHECK_ARG(4, CELL_CONS);
    CHECK_ARG(3, CELL_CONS);
    CHECK_ARG(2, CELL_CONS);
    CHECK_ARG(1, CELL_NUMBER);
    CHECK_ARG(0, CELL_NUMBER);

    /* Initialize all arguments for this method */
    if( (badtype = array_to_string(val1, &imageFile)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    if( (badtype = array_to_string(val2, &outputImage)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    if( (badtype = array_to_string(val3, &format)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    compressionType = pntrdouble(val4);
    compressionRate = pntrdouble(val5);

    /* Call the method and get the return value */
    result = magickCompressImage(imageFile, outputImage, format, compressionType, compressionRate);

    /* Translate the resultant pntr to be return */
    pntr p_result;
    set_pntrdouble(p_result, result);

    /* set the return value */
    argstack[0] = p_result;
}
Beispiel #2
0
static void b_magickResizeImage1(task *tsk, pntr *argstack)
{
    /* pointers to the parameters */
    pntr val1 = argstack[5]; // imageFile
    pntr val2 = argstack[4]; // outputImage
    pntr val3 = argstack[3]; // columns
    pntr val4 = argstack[2]; // rows
    pntr val5 = argstack[1]; // magickFilter
    pntr val6 = argstack[0]; // blur
    int badtype;

    /* the result value to be return */
    int result;

    char *imageFile;
    char *outputImage;
    int columns;
    int rows;
    int magickFilter;
    double blur;

    /* Check validity of each parameter */
    CHECK_ARG(5, CELL_CONS);
    CHECK_ARG(4, CELL_CONS);
    CHECK_ARG(3, CELL_NUMBER);
    CHECK_ARG(2, CELL_NUMBER);
    CHECK_ARG(1, CELL_NUMBER);
    CHECK_ARG(0, CELL_NUMBER);

    /* Initialize all arguments for this method */
    if( (badtype = array_to_string(val1, &imageFile)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    if( (badtype = array_to_string(val2, &outputImage)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    columns = pntrdouble(val3);
    rows = pntrdouble(val4);
    magickFilter = pntrdouble(val5);
    blur = pntrdouble(val6);

    /* Call the method and get the return value */
    result = magickResizeImage(imageFile, outputImage, columns, rows, magickFilter, blur);

    /* Translate the resultant pntr to be return */
    pntr p_result;
    set_pntrdouble(p_result, result);

    /* set the return value */
    argstack[0] = p_result;
}
Beispiel #3
0
static void b_magickUnsharpMaskImage1(task *tsk, pntr *argstack)
{
    /* pointers to the parameters */
    pntr val1 = argstack[5]; // imageFile
    pntr val2 = argstack[4]; // outputImage
    pntr val3 = argstack[3]; // radius
    pntr val4 = argstack[2]; // sigma
    pntr val5 = argstack[1]; // amount
    pntr val6 = argstack[0]; // threshold
    int badtype;

    /* the result value to be return */
    int result;

    char *imageFile;
    char *outputImage;
    double radius;
    double sigma;
    double amount;
    double threshold;

    /* Check validity of each parameter */
    CHECK_ARG(5, CELL_CONS);
    CHECK_ARG(4, CELL_CONS);
    CHECK_ARG(3, CELL_NUMBER);
    CHECK_ARG(2, CELL_NUMBER);
    CHECK_ARG(1, CELL_NUMBER);
    CHECK_ARG(0, CELL_NUMBER);

    /* Initialize all arguments for this method */
    if( (badtype = array_to_string(val1, &imageFile)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    if( (badtype = array_to_string(val2, &outputImage)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    radius = pntrdouble(val3);
    sigma = pntrdouble(val4);
    amount = pntrdouble(val5);
    threshold = pntrdouble(val6);

    /* Call the method and get the return value */
    result = magickUnsharpMaskImage(imageFile, outputImage, radius, sigma, amount, threshold);

    /* Translate the resultant pntr to be return */
    pntr p_result;
    set_pntrdouble(p_result, result);

    /* set the return value */
    argstack[0] = p_result;
}
Beispiel #4
0
static void b_magickChopImage1(task *tsk, pntr *argstack)
{
    /* pointers to the parameters */
    pntr val1 = argstack[5]; // imageFile
    pntr val2 = argstack[4]; // outputImage
    pntr val3 = argstack[3]; // width
    pntr val4 = argstack[2]; // height
    pntr val5 = argstack[1]; // xPos
    pntr val6 = argstack[0]; // yPos
    int badtype;

    /* the result value to be return */
    int result;

    char *imageFile;
    char *outputImage;
    int width;
    int height;
    int xPos;
    int yPos;

    /* Check validity of each parameter */
    CHECK_ARG(5, CELL_CONS);
    CHECK_ARG(4, CELL_CONS);
    CHECK_ARG(3, CELL_NUMBER);
    CHECK_ARG(2, CELL_NUMBER);
    CHECK_ARG(1, CELL_NUMBER);
    CHECK_ARG(0, CELL_NUMBER);

    /* Initialize all arguments for this method */
    if( (badtype = array_to_string(val1, &imageFile)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    if( (badtype = array_to_string(val2, &outputImage)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    width = pntrdouble(val3);
    height = pntrdouble(val4);
    xPos = pntrdouble(val5);
    yPos = pntrdouble(val6);

    /* Call the method and get the return value */
    result = magickChopImage(imageFile, outputImage, width, height, xPos, yPos);

    /* Translate the resultant pntr to be return */
    pntr p_result;
    set_pntrdouble(p_result, result);

    /* set the return value */
    argstack[0] = p_result;
}
Beispiel #5
0
static void b_magickModulateImage1(task *tsk, pntr *argstack)
{
    /* pointers to the parameters */
    pntr val1 = argstack[4]; // imageFile
    pntr val2 = argstack[3]; // outputImage
    pntr val3 = argstack[2]; // brightness
    pntr val4 = argstack[1]; // saturation
    pntr val5 = argstack[0]; // hue
    int badtype;

    /* the result value to be return */
    int result;

    char *imageFile;
    char *outputImage;
    double brightness;
    double saturation;
    double hue;

    /* Check validity of each parameter */
    CHECK_ARG(4, CELL_CONS);
    CHECK_ARG(3, CELL_CONS);
    CHECK_ARG(2, CELL_NUMBER);
    CHECK_ARG(1, CELL_NUMBER);
    CHECK_ARG(0, CELL_NUMBER);

    /* Initialize all arguments for this method */
    if( (badtype = array_to_string(val1, &imageFile)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    if( (badtype = array_to_string(val2, &outputImage)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    brightness = pntrdouble(val3);
    saturation = pntrdouble(val4);
    hue = pntrdouble(val5);

    /* Call the method and get the return value */
    result = magickModulateImage(imageFile, outputImage, brightness, saturation, hue);

    /* Translate the resultant pntr to be return */
    pntr p_result;
    set_pntrdouble(p_result, result);

    /* set the return value */
    argstack[0] = p_result;
}
Beispiel #6
0
//// Check if the given file is a real directory or a Zip-archive
static void b_zzip_dir_real(task *tsk, pntr *argstack)
{
	char *fileName;
	int badtype;
	pntr p = argstack[0];
	int dirtype;
	
	CHECK_ARG(0, CELL_CONS);
	if((badtype = array_to_string(p, &fileName)) >= 0){
		set_error(tsk, "error1: argument is not a string (contains non-char: %s)", cell_types[badtype]);
		return;
	}
	
	//// the file to be ckecked exists, then we check it
	static const char* ext[] = { "", ".exe", ".EXE", 0 };
	ZZIP_DIR* dir = zzip_opendir_ext_io (fileName, ZZIP_PREFERZIP, ext, 0);

    if(dir){
    	if(zzip_dir_real(dir)){
    		dirtype = 1;
//	   		printf("%s is a directory.\n", fileName);
    	}else{
    		dirtype = 0;
//    		printf("%s is a zip-archive.\n", fileName);
    	}
//    	zzip_dir_close(dir);
    }else{
    	//// file failed to be open
    	dirtype = -1;
    }
	setnumber(&argstack[0], dirtype);
	
	return;
}
Beispiel #7
0
static int serialise_arg(task *tsk, array *arr, int argno, pntr val)
{
  char *str;
  char *escaped;
  sysobject *so;
  switch (pntrtype(val)) {
  case CELL_NUMBER:
    array_printf(arr," %f",pntrdouble(val));
    return 1;
  case CELL_CONS:
  case CELL_AREF:
    if (0 <= array_to_string(val,&str)) {
      escaped = escape(str);
      array_printf(arr," \"%s\"",escaped);
      free(escaped);
      free(str);
      return 1;
    }
    break;
  case CELL_NIL:
    array_printf(arr," nil");
    return 1;
  case CELL_SYSOBJECT:
    so = psysobject(val);
    if (SYSOBJECT_JAVA == so->type) {
      array_printf(arr," @%d",so->jid.jid);
      return 1;
    }
    break;
  }
  return set_error(tsk,"jcall: argument %d invalid (%s)",argno,cell_types[pntrtype(val)]);
}
Beispiel #8
0
void dump_arraylist(GList *list) {
	GList *tmplist;
	for (tmplist=g_list_first(list);tmplist;tmplist=tmplist->next) {
		gchar *tmp = array_to_string((gchar **)tmplist->data);
		g_print("%s\n",tmp);
		g_free(tmp);
	}
}
Beispiel #9
0
FACT_t
run_file_soft (func_t *scope)
{
  char   *filename;
  func_t *in;

  in = get_func (scope, "in");
  filename = array_to_string (get_var (scope, "filename"));
  return run_file (in, filename, false);
}
Beispiel #10
0
int get_callinfo(task *tsk, pntr obj, pntr method, char **targetname, char **methodname)
{
  if (0 > array_to_string(method,methodname))
    return set_error(tsk,"jcall: method is not a string");

  if ((CELL_SYSOBJECT == pntrtype(obj)) && (SYSOBJECT_JAVA == psysobject(obj)->type)) {
    char *str = malloc(100);
    sprintf(str,"@%d",psysobject(obj)->jid.jid);
    *targetname = str;
  }
  else if ((CELL_AREF == pntrtype(obj)) || (CELL_CONS == pntrtype(obj))) {
    if (0 > array_to_string(obj,targetname))
      return set_error(tsk,"jcall: class name is not a string");
  }
  else {
    return set_error(tsk,"jcall: first arg must be a java object or class name");
  }
  return 1;
}
Beispiel #11
0
gchar *arraylist_to_string(GList *arraylist, gchar *delimiter) {
	GString *strbuffer;
	GList *tmplist;
	strbuffer = g_string_sized_new(4096);
	for (tmplist=g_list_first(arraylist);tmplist;tmplist=g_list_next(tmplist)) {
		gchar *tmp = array_to_string(tmplist->data);
		strbuffer = g_string_append(strbuffer,tmp);
		g_free(tmp);
		strbuffer = g_string_append(strbuffer,(char *) delimiter);
	}
	return g_string_free(strbuffer, FALSE);	
}
Beispiel #12
0
FACT_t
open_file (func_t *scope)
{
  FACT_t return_value;
  char *filename;
  char *mode;
  FILE *return_object;
    
  filename = array_to_string (get_var (scope, "filename"));
  mode = array_to_string (get_var (scope, "mode"));

  return_object = fopen (filename, mode);

  if (return_object == NULL)
    FACT_ret_error (scope, combine_strs ("could not open file ", filename));

  return_value.type = FUNCTION_TYPE;
  return_value.f_point = alloc_func ();
  return_value.f_point->name = filename;
  return_value.f_point->usr_data = (void *) return_object;

  return return_value;
}
Beispiel #13
0
FACT_t
lock_object (func_t *scope)
{
  FACT_t return_value;
  var_t  *obj_name;
  var_t  *obj_var;
  func_t *obj_func;
  func_t *search;

  search = get_func (scope, "search");
  obj_name = get_var (scope, "name");
  obj_var = get_var (search, array_to_string (obj_name));

  if (obj_var == NULL)
    {
      obj_func = get_func (search, array_to_string (obj_name));
      if (obj_func == NULL)
	FACT_ret_error (scope->up, "no such object exists");
    }

  if (obj_var != NULL)
    {
      return_value.type = VAR_TYPE;
      obj_var->locked = true;
      return_value.v_point = obj_var;
      lock_var_array (obj_var->array_up);
    }
  else
    {
      return_value.type = FUNCTION_TYPE;
      obj_func->locked = true;
      return_value.f_point = obj_func;
      lock_func_array (obj_func->array_up);
    }

  return return_value;
}
Beispiel #14
0
//// read a file contents from either a archive of real directory
void b_zzip_read(task *tsk, pntr *argstack)
{
	char *fileName;
	pntr p = argstack[0];
	int badtype;

	CHECK_ARG(0, CELL_CONS);
	if((badtype = array_to_string(p, &fileName)) >= 0){
		set_error(tsk, "error1: argument is not a string (contains non-char: %s)", cell_types[badtype]);
		return;
	}
	
	ZZIP_FILE* fp = zzip_open (fileName, O_RDONLY|O_BINARY);

    if (! fp){
   		perror (fileName);
    }
    
    int bufSize = 2, blockSize = 1024, numBlocks = 1;
    char buf[bufSize];
    int n, counter = 0;
    char *contents = (char *)calloc(blockSize, sizeof(char));
    
    /* read chunks of bufSize bytes into buf and concatenate them into previous string */
    while( (n = (zzip_read(fp, buf, bufSize-1))) > 0){
    	counter++;
    	
    	if(counter == 1){
//    		strcpy(contents, buf);
			strncat(contents, buf, bufSize-1);
			bufSize = 21;
    	}else{
    		int originalSize = strlen(contents);
    		if( ((blockSize*numBlocks) - (originalSize + 1)) < bufSize){
    			numBlocks++;
    			contents = string_mkroom(contents, blockSize*numBlocks);
    		}

    		strncat(contents, buf, bufSize-1);
//    		printf("%s\n\n\n", contents);
    	}
    	buf[n] = '\0';
    }
    
    argstack[0] = string_to_array(tsk, contents);
	
	zzip_close(fp);
}
Beispiel #15
0
/**
 * mdb_money_to_string
 * @mdb: Handle to open MDB database file
 * @start: Offset of the field within the current page
 *
 * Returns: the allocated string that has received the value.
 */
char *mdb_money_to_string(MdbHandle *mdb, int start)
{
	#define num_bytes 8
	int i;
	int neg=0;
	unsigned char multiplier[MAXPRECISION], temp[MAXPRECISION];
	unsigned char product[MAXPRECISION];
	unsigned char money[num_bytes];

	memset(multiplier,0,MAXPRECISION);
	memset(product,0,MAXPRECISION);
	multiplier[0]=1;
	memcpy(money, mdb->pg_buf + start, num_bytes);

	/* Perform two's complement for negative numbers */
	if (money[7] & 0x80) {
		neg = 1;
		for (i=0;i<num_bytes;i++) {
			money[i] = ~money[i];
		}
		for (i=0; i<num_bytes; i++) {
			money[i] ++;
			if (money[i]!=0) break;
		}
	}

	for (i=0;i<num_bytes;i++) {
		/* product += multiplier * current byte */
		multiply_byte(product, money[i], multiplier);

		/* multiplier = multiplier * 256 */
		memcpy(temp, multiplier, MAXPRECISION);
		memset(multiplier,0,MAXPRECISION);
		multiply_byte(multiplier, 256, temp);
	}
	return array_to_string(product, 4, neg);
}
 static inline string array_to_string(const T values[N],
         const string& delim = UTF8_SPACE_STRING) {
     return array_to_string(N, values, delim);
 }
Beispiel #17
0
/*
 * money is a special case of numeric really...that why its here
 */
char *
tds_money_to_string(const TDS_MONEY * money, char *s)
{
#ifdef HAVE_INT64
	int frac;
	TDS_INT8 mymoney;
	char *p;

	/* sometimes money it's only 4-byte aligned so always compute 64-bit */
	/* FIXME align money/double/bigint in row to 64-bit */
	mymoney = (((TDS_INT8)(((TDS_INT*)money)[0])) << 32) | ((TDS_UINT*) money)[1];

	p = s;
	if (mymoney < 0) {
		*p++ = '-';
		mymoney = -mymoney;
	}
	mymoney = (mymoney / 50 + 1 ) / 2;
	frac = mymoney % 100;
	mymoney /= 100;
	/* if machine is 64 bit you do not need to split mymoney */
#if SIZEOF_LONG < 8
	if (mymoney >= 1000000000) {
		sprintf(p, "%ld%09ld.%02d", (long)(mymoney / 1000000000), (long)(mymoney % 1000000000), frac);
	} else
#endif
		sprintf(p, "%ld.%02d", (long)mymoney, frac);
	return s;
#else
	unsigned char multiplier[MAXPRECISION], temp[MAXPRECISION];
	unsigned char product[MAXPRECISION];
	const unsigned char *number;
	unsigned char tmpnumber[8];
	int i, num_bytes = 8;
	int pos, neg = 0;

	memset(multiplier, 0, MAXPRECISION);
	memset(product, 0, MAXPRECISION);
	multiplier[0] = 1;

	number = (const unsigned char *) money;

#ifdef WORDS_BIGENDIAN
	/* big endian makes things easy */
	memcpy(tmpnumber, number, 8);
#else
	/*
	 * money is two 32 bit ints and thus is out of order on 
	 * little endian machines. Proof of the superiority of 
	 * big endian design. ;)
	 */
	for (i = 0; i < 4; i++)
		tmpnumber[3 - i] = number[i];
	for (i = 4; i < 8; i++)
		tmpnumber[7 - i + 4] = number[i];
#endif

	if (tmpnumber[0] & 0x80) {
		/* negative number -- preform two's complement */
		neg = 1;
		for (i = 0; i < 8; i++) {
			tmpnumber[i] = ~tmpnumber[i];
		}
		for (i = 7; i >= 0; i--) {
			tmpnumber[i] += 1;
			if (tmpnumber[i] != 0)
				break;
		}
	}
	for (pos = num_bytes - 1; pos >= 0; pos--) {
		multiply_byte(product, tmpnumber[pos], multiplier);

		memcpy(temp, multiplier, MAXPRECISION);
		memset(multiplier, 0, MAXPRECISION);
		multiply_byte(multiplier, 256, temp);
	}
	if (neg) {
		s[0] = '-';
		array_to_string(product, 4, &s[1]);
	} else {
		array_to_string(product, 4, s);
	}

	/* round to two decimal places */
	if (s) {
		sprintf(s, "%.02f", atof(s));
	}

	return s;
#endif
}
Beispiel #18
0
//// read the directory entries of given dir/archive
static void b_zzip_read_dirent(task *tsk, pntr *argstack)
{
	char *fileName;
	pntr p = argstack[0];
	int badtype;
	
	CHECK_ARG(0, CELL_CONS);
	if((badtype = array_to_string(p, &fileName)) >= 0){
		set_error(tsk, "error1: argument is not a string (contains non-char: %s)", cell_types[badtype]);
		return;
	}

    ZZIP_DIR * dir;
    ZZIP_DIRENT * d;
  
    dir = zzip_opendir(fileName);
    if (! dir){
    	fprintf (stderr, "did not open %s: ", fileName);
    	set_error(tsk, "error1: could not handle file: %s", fileName);
		return;
    }

    char *singleFileName;
    char *compressionType;
    int fSize = 20;
    char fileSize[fSize];
    char compressedSize[fSize];
    pntr pSingleFileName, pCompressionType, pFileSize, pCompressedSize;
    pntr preList, singleList;
    int counter = 0;
    
	/* read each dir entry, a list for each file */
	while ((d = zzip_readdir (dir))){
		counter++;
		/* orignal size / compression-type / compression-ratio / filename */
		singleFileName = d->d_name;
		pSingleFileName = string_to_array(tsk, singleFileName);	//// convert the string to cons list
		
//		sprintf(compressionType, "%s ", zzip_compr_str(d->d_compr)); //// NOTE: executing this func will change the tsk->steamstack, very weird
																	//// NOTE: overflow caused here
		compressionType = (char *)zzip_compr_str(d->d_compr);
		pCompressionType = string_to_array(tsk, compressionType);
		
//		snprintf(fileSize, 5, "%d ", d->st_size);	//// NOTE: executing this func will change the tsk->steamstack, very weird
		format_double(fileSize, fSize, d->st_size);
		pFileSize = string_to_array(tsk, fileSize);

//		sprintf(compressedSize, "%d ", d->d_csize);
		format_double(compressedSize, fSize, d->d_csize);
		pCompressedSize = string_to_array(tsk, compressedSize);
		
//		printf("cell type: %s \t", cell_type(preList));
		//// link the cons lists to form a new list
//		singleList = connect_lists(tsk, &pSingleFileName, &pCompressionType);
//		singleList = connect_lists(tsk, &singleList, &pFileSize);
//		singleList = connect_lists(tsk, &singleList, &pCompressedSize);
		
		//// make cons from the last element to the beginning element
		singleList = make_cons(tsk, pCompressedSize, tsk->globnilpntr);
		singleList = make_cons(tsk, pFileSize, singleList);
		singleList = make_cons(tsk, pCompressionType, singleList);
		singleList = make_cons(tsk, pSingleFileName, singleList);
		
		
		if(counter == 1){
			preList = make_cons(tsk, singleList, tsk->globnilpntr);
//			printf("cell type: %s \t", cell_type(preList));
		}else{
			preList = make_cons(tsk, singleList, preList);
//			printf("cell type: %s \n", cell_type(preList));
		}
	}

	argstack[0] = preList;
//	printf("cell type: %s \n", cell_type(argstack[0]));
}
Beispiel #19
0
static gint save_config_file(GList * config_list, gchar * filename)
{
	gchar *tmpstring = NULL, *tmpstring2;
	GList *rclist, *tmplist, *tmplist2;
	Tconfig_list_item *tmpitem;

	DEBUG_MSG("save_config_file, started\n");

	rclist = NULL;

/* We must first make a list with 1 string per item. */
	tmplist = g_list_first(config_list);
	while (tmplist != NULL) {
		DEBUG_MSG("save_config_file, tmpitem at %p\n", tmplist->data);
		tmpitem = tmplist->data;
		DEBUG_MSG("save_config_file, identifier=%s datatype %c\n", tmpitem->identifier,tmpitem->type);
		switch (tmpitem->type) {
		case 'i':
			DEBUG_MSG("save_config_file, converting \"%p\" to integer\n", tmpitem);
			DEBUG_MSG("save_config_file, converting \"%s %i\"\n", tmpitem->identifier, *(int *) (void *) tmpitem->pointer);

			tmpstring = g_strdup_printf("%s %i", tmpitem->identifier, *(int *) (void *) tmpitem->pointer);

			DEBUG_MSG("save_config_file, adding %s\n", tmpstring);

			rclist = g_list_append(rclist, tmpstring);
			break;
		case 's':
			DEBUG_MSG("save_config_file, converting \"%p\" to string\n", tmpitem);
			DEBUG_MSG("save_config_file, converting \"%s %s\"\n", tmpitem->identifier, (gchar *) * (void **) tmpitem->pointer);
			if (*(void **) tmpitem->pointer) {
				tmpstring = g_strdup_printf("%s %s", tmpitem->identifier, (gchar *) * (void **) tmpitem->pointer);

				DEBUG_MSG("save_config_file, adding %s\n", tmpstring);

				rclist = g_list_append(rclist, tmpstring);
			}
			break;
		case 'e':
			DEBUG_MSG("save_config_file, converting \"%p\"\n", tmpitem);
			DEBUG_MSG("save_config_file, converting \"%s %s\"\n", tmpitem->identifier, (gchar *) * (void **) tmpitem->pointer);
			if (*(void **) tmpitem->pointer) {
				tmpstring2 = escape_string((gchar*)*(void**)tmpitem->pointer, FALSE);
				tmpstring = g_strdup_printf("%s %s", tmpitem->identifier, tmpstring2);

				DEBUG_MSG("save_config_file, adding %s\n", tmpstring);

				rclist = g_list_append(rclist, tmpstring);
				g_free(tmpstring2);
			}
			break;
		case 'l':
		case 'm': {
			gint max = -1; /* by setting it to -1, it will never become zero if we substract 1 every round */
			DEBUG_MSG("save_config_file, type %c, tmpitem(%p), &tmpitem=%p\n", tmpitem->type, tmpitem, &tmpitem);
			if (tmpitem->type == 'm') max = tmpitem->len;
			tmplist2 = g_list_last((GList *) * (void **) tmpitem->pointer);
			while (tmplist2 != NULL && max != 0) {
				tmpstring2 = (char *) tmplist2->data;
				DEBUG_MSG("save_config_file, tmpstring2(%p)=%s\n", tmpstring2, tmpstring2);
				tmpstring = g_strdup_printf("%s %s", tmpitem->identifier, tmpstring2);
				DEBUG_MSG("save_config_file, tmpstring(%p)=%s\n", tmpstring, tmpstring);
				rclist = g_list_append(rclist, tmpstring);
				tmplist2 = g_list_previous(tmplist2);
				max--;
			}
			} break;
		case 'a':
			DEBUG_MSG("save_config_file, tmpitem(%p), &tmpitem=%p\n", tmpitem, &tmpitem);
			tmplist2 = g_list_last((GList *) * (void **) tmpitem->pointer);
			DEBUG_MSG("save_config_file, the tmplist2(%p)\n", tmplist2);
			while (tmplist2 != NULL) {
				tmpstring2 = array_to_string((char **) tmplist2->data);
				tmpstring = g_strdup_printf("%s %s", tmpitem->identifier, tmpstring2);
				DEBUG_MSG("save_config_file, tmpstring(%p)=%s\n", tmpstring, tmpstring);
				rclist = g_list_append(rclist, tmpstring);
				tmplist2 = g_list_previous(tmplist2);
				g_free(tmpstring2);
			}
			break;
		default:
			break;
		}
		tmplist = g_list_next(tmplist);

	}

	put_stringlist(filename, rclist);
	free_stringlist(rclist);
	return 1;
}
Beispiel #20
0
static void b_drawRectangles1(task *tsk, pntr *argstack)
{
    /* pointers to the parameters */
    pntr val1 = argstack[3]; // userName
    pntr val2 = argstack[2]; // xPos
    pntr val3 = argstack[1]; // yPos
    pntr val4 = argstack[0]; // rect
    int badtype;

    /* the result value to be return */
    int numRect;

    char *userName;
    double xPos;
    int yPos;
    Rectangle *rect = new_Rectangle();

    /* Check validity of each parameter */
    CHECK_ARG(3, CELL_CONS);
    CHECK_ARG(2, CELL_NUMBER);
    CHECK_ARG(1, CELL_NUMBER);
    CHECK_ARG(0, CELL_CONS);

    /* Initialize all arguments for this method */
    if( (badtype = array_to_string(val1, &userName)) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    xPos = pntrdouble(val2);
    yPos = pntrdouble(val3);

    /* Initialize the struct: Rectangle */
    pntr rect_val1 = head(tsk, val4);
    rect->width = pntrdouble(rect_val1);
    pntr rect_val2 = head(tsk, tail(tsk, val4));
    if( (badtype = array_to_string(rect_val2, &(rect->creator) )) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    pntr rect_val3 = head(tsk, tail(tsk, tail(tsk, val4)));
    rect->height = pntrdouble(rect_val3);

    /* Initialize another struct: Color*/
    Color *rect_col = new_Color( );
    rect->col = rect_col;
    /* new root pntr for struct Color */
    pntr rect_col_val = head(tsk, tail(tsk, tail(tsk, tail(tsk, val4))));
    pntr rect_col_val1 = head(tsk, rect_col_val);
    rect_col->red = pntrdouble(rect_col_val1);
    pntr rect_col_val2 = head(tsk, tail(tsk, rect_col_val));
    rect_col->blue = pntrdouble(rect_col_val2);
    pntr rect_col_val3 = head(tsk, tail(tsk, tail(tsk, rect_col_val)));
    rect_col->green = pntrdouble(rect_col_val3);

    /* Initialize another struct: gray*/
    gray *rect_col_cg = new_gray( );
    rect_col->cg = rect_col_cg;
    /* new root pntr for struct gray */
    pntr rect_col_cg_val = head(tsk, tail(tsk, tail(tsk, tail(tsk, rect_col_val))));
    pntr rect_col_cg_val1 = head(tsk, rect_col_cg_val);
    if( (badtype = array_to_string(rect_col_cg_val1, &(rect_col_cg->country) )) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    pntr rect_col_cg_val2 = head(tsk, tail(tsk, rect_col_cg_val));
    rect_col_cg->grayCode = pntrdouble(rect_col_cg_val2);

    /* end Initialization of struct Rectangle */

    /* Call the method and get the return value */
    numRect = drawRectangles(userName, xPos, yPos, rect);
    
    setnumber(&argstack[0], numRect);
    
}
Beispiel #21
0
/*    enlarge() */
static void b_enlargeRect1(task *tsk, pntr *argstack)
{
    /* pointers to the parameters */
    pntr val1 = argstack[1]; // originalRect
    pntr val2 = argstack[0]; // times
    int badtype;

    /* the result value to be return */
    Rectangle *rect_return = new_Rectangle();

    Rectangle *originalRect = new_Rectangle();
    int times;

    /* Check validity of each parameter */
    CHECK_ARG(1, CELL_CONS);
    CHECK_ARG(0, CELL_NUMBER);

    /* Initialize all arguments for this method */

    /* Initialize the struct: Rectangle */
    pntr originalRect_val1 = head(tsk, val1);
    originalRect->width = pntrdouble(originalRect_val1);
    pntr originalRect_val2 = head(tsk, tail(tsk, val1));
    if( (badtype = array_to_string(originalRect_val2, &(originalRect->creator) )) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    pntr originalRect_val3 = head(tsk, tail(tsk, tail(tsk, val1)));
    originalRect->height = pntrdouble(originalRect_val3);

    /* Initialize another struct: Color*/
    Color *originalRect_col = new_Color( );
    originalRect->col = originalRect_col;
    /* new root pntr for struct Color */
    pntr originalRect_col_val = head(tsk, tail(tsk, tail(tsk, tail(tsk, val1))));
    pntr originalRect_col_val1 = head(tsk, originalRect_col_val);
    originalRect_col->red = pntrdouble(originalRect_col_val1);
    pntr originalRect_col_val2 = head(tsk, tail(tsk, originalRect_col_val));
    originalRect_col->blue = pntrdouble(originalRect_col_val2);
    pntr originalRect_col_val3 = head(tsk, tail(tsk, tail(tsk, originalRect_col_val)));
    originalRect_col->green = pntrdouble(originalRect_col_val3);

    /* Initialize another struct: gray*/
    gray *originalRect_col_cg = new_gray( );
    originalRect_col->cg = originalRect_col_cg;
    /* new root pntr for struct gray */
    pntr originalRect_col_cg_val = head(tsk, tail(tsk, tail(tsk, tail(tsk, originalRect_col_val))));
    pntr originalRect_col_cg_val1 = head(tsk, originalRect_col_cg_val);
    if( (badtype = array_to_string(originalRect_col_cg_val1, &(originalRect_col_cg->country) )) > 0) {
        set_error(tsk, "string: argument is not a string (contains non-char: %s)", cell_types[badtype]);
        return;
    }

    pntr originalRect_col_cg_val2 = head(tsk, tail(tsk, originalRect_col_cg_val));
    originalRect_col_cg->grayCode = pntrdouble(originalRect_col_cg_val2);

    /* end Initialization of struct Rectangle */
    times = pntrdouble(val2);
    
    /* Call the method and get the return value */
    rect_return = enlargeRect(originalRect, times);
    
    /* Translate the resultant pntr to be return */

    /* Translate C struct to ELC struct */

    /* pntr for struct gray*/
    pntr p_rect_return_col_cg_country = string_to_array(tsk, rect_return->col->cg->country);
    pntr p_rect_return_col_cg_grayCode;
    set_pntrdouble(p_rect_return_col_cg_grayCode, rect_return->col->cg->grayCode);
    /* the root pntr for struct gray */
    pntr p_rect_return_col_cg = make_cons(tsk, p_rect_return_col_cg_country, make_cons(tsk, p_rect_return_col_cg_grayCode, tsk->globnilpntr));


    /* pntr for struct Color*/
    pntr p_rect_return_col_red;
    set_pntrdouble(p_rect_return_col_red, rect_return->col->red);
    pntr p_rect_return_col_blue;
    set_pntrdouble(p_rect_return_col_blue, rect_return->col->blue);
    pntr p_rect_return_col_green;
    set_pntrdouble(p_rect_return_col_green, rect_return->col->green);
    /* the root pntr for struct Color */
    pntr p_rect_return_col = make_cons(tsk, p_rect_return_col_red, make_cons(tsk, p_rect_return_col_blue, make_cons(tsk, p_rect_return_col_green, make_cons(tsk, p_rect_return_col_cg, tsk->globnilpntr))));


    /* pntr for struct Rectangle*/
    pntr p_rect_return_width;
    set_pntrdouble(p_rect_return_width, rect_return->width);
    pntr p_rect_return_creator = string_to_array(tsk, rect_return->creator);
    pntr p_rect_return_height;
    set_pntrdouble(p_rect_return_height, rect_return->height);
    /* the root pntr for struct Rectangle */
    pntr p_rect_return = make_cons(tsk, p_rect_return_width, make_cons(tsk, p_rect_return_creator, make_cons(tsk, p_rect_return_height, make_cons(tsk, p_rect_return_col, tsk->globnilpntr))));

    /* set the return value */
    argstack[0] = p_rect_return;

    /* Free the return struct */
    free_Rectangle(rect_return);
}