Exemplo n.º 1
0
int get_stats(const char *name, struct Cell_stats *statf)
{
    int fd;
    CELL *cell;
    int row, nrows, ncols;

    fd = Rast_open_old(name, "");
    nrows = Rast_window_rows();
    ncols = Rast_window_cols();
    cell = Rast_allocate_c_buf();

    Rast_init_cell_stats(statf);
    G_message(_("Reading %s ..."), name);
    for (row = 0; row < nrows; row++) {
	G_percent(row, nrows, 2);
	Rast_get_c_row(fd, cell, row);
	Rast_update_cell_stats(cell, ncols, statf);
    }
    if (row < nrows)
	exit(1);
    Rast_close(fd);
    G_free(cell);
    G_percent(row, nrows, 2);

    return 0;
}
Exemplo n.º 2
0
int get_range(const char *name, long *min, long *max)
{
    struct Range range;
    int nrows, ncols, row, col;
    CELL *cell;
    int fd;
    CELL cmin, cmax;
    struct Cell_head cellhd;

    if (Rast_read_range(name, "", &range) < 0) {
	Rast_init_range(&range);	/* read the file to get the range */
	Rast_get_cellhd(name, "", &cellhd);
	Rast_set_window(&cellhd);
	cell = Rast_allocate_c_buf();
	fd = Rast_open_old(name, "");
	nrows = Rast_window_rows();
	ncols = Rast_window_cols();
	G_message(_("Reading %s ..."), name);
	for (row = 0; row < nrows; row++) {
	    G_percent(row, nrows, 2);
	    Rast_get_c_row_nomask(fd, cell, row);
	    for (col = 0; col < ncols; col++)
		Rast_update_range(cell[col], &range);
	}
	G_percent(row, nrows, 2);
	Rast_close(fd);
	G_free(cell);
    }

    Rast_get_range_min_max(&range, &cmin, &cmax);
    *min = cmin;
    *max = cmax;

    return 0;
}
Exemplo n.º 3
0
int close_file(char *name)
{
    int cell_file, row, k;
    int row_count, col_count;
    CELL *buf;

    cell_file = Rast_open_c_new(name);

    row_count = n_rows - (PAD << 1);
    col_count = n_cols - (PAD << 1);
    G_message(_("Output file %d rows X %d columns"), row_count, col_count);
    G_message(_("Window %d rows X %d columns"), Rast_window_rows(),
	      Rast_window_cols());

    for (row = 0, k = PAD; row < row_count; row++, k++) {
	buf = get_a_row(k);
	Rast_put_row(cell_file, buf + PAD, CELL_TYPE);
    }
    Rast_close(cell_file);
    Rowio_flush(&row_io);
    close(Rowio_fileno(&row_io));
    Rowio_release(&row_io);
    unlink(work_file_name);

    return 0;
}
Exemplo n.º 4
0
int randsurf(char *out,		/* Name of raster maps to be opened.    */
	     int min, int max,	/* Minimum and maximum cell values.     */
	     int int_map)
{				/* if map is to be written as a CELL map */
    int nrows, ncols;		/* Number of cell rows and columns      */

    DCELL *row_out_D;		/* Buffer just large enough to hold one */
    CELL *row_out_C;		/* row of the raster map layer.         */

    int fd_out;			/* File descriptor - used to identify   */

    /* open raster maps.                    */
    int row_count, col_count;

	/****** INITIALISE RANDOM NUMBER GENERATOR ******/
    G_math_rand(-1 * getpid());

	/****** OPEN CELL FILES AND GET CELL DETAILS ******/
    fd_out = Rast_open_new(out, int_map ? CELL_TYPE : DCELL_TYPE);

    nrows = Rast_window_rows();
    ncols = Rast_window_cols();

    if (int_map)
	row_out_C = Rast_allocate_c_buf();
    else
	row_out_D = Rast_allocate_d_buf();

	/****** PASS THROUGH EACH CELL ASSIGNING RANDOM VALUE ******/
    for (row_count = 0; row_count < nrows; row_count++) {
	G_percent(row_count, nrows, 2);
	for (col_count = 0; col_count < ncols; col_count++) {
	    if (int_map)
		*(row_out_C + col_count) =
		    (CELL) (G_math_rand(2742) * (max + 1 - min) + min);
	    /* under represents first and last bin */
	    /*                  *(row_out_C + col_count) = (CELL) floor(rand1(2742)*(max-min)+min +0.5); */
	    else
		*(row_out_D + col_count) =
		    (DCELL) (G_math_rand(2742) * (max - min) + min);
	}

	/* Write contents row by row */
	if (int_map)
	    Rast_put_c_row(fd_out, (CELL *) row_out_C);
	else
	    Rast_put_d_row(fd_out, (DCELL *) row_out_D);
    }
    G_percent(1, 1, 1);
    
    Rast_close(fd_out);

    return 0;
}
Exemplo n.º 5
0
/* Converts the buffer to cell and write it to disk */
static void write_fp_to_cell(int ofd, FCELL *buf)
{
    CELL *cbuf;
    int col;

    cbuf = (CELL *) Rast_allocate_buf(CELL_TYPE);

    for (col = 0; col < Rast_window_cols(); col++)
	cbuf[col] = round_c(buf[col]);
    Rast_put_row(ofd, cbuf, CELL_TYPE);
}
Exemplo n.º 6
0
int dseg_open(DSEG * dseg, int srows, int scols, int nsegs_in_memory)
{
    char *filename;
    int errflag;
    int fd;

    dseg->filename = NULL;
    dseg->fd = -1;
    dseg->name = NULL;
    dseg->mapset = NULL;

    filename = G_tempfile();
    if (-1 == (fd = creat(filename, 0666))) {
	G_warning("dseg_open(): unable to create segment file");
	return -2;
    }
    if (0 >
	(errflag =
	 Segment_format(fd, Rast_window_rows(), Rast_window_cols(), srows, scols,
			sizeof(double)))) {
	close(fd);
	unlink(filename);
	if (errflag == -1) {
	    G_warning("dseg_open(): could not write segment file");
	    return -1;
	}
	else {
	    G_warning("dseg_open(): illegal configuration parameter(s)");
	    return -3;
	}
    }
    close(fd);
    if (-1 == (fd = open(filename, 2))) {
	unlink(filename);
	G_warning("dseg_open(): unable to re-open segment file");
	return -4;
    }
    if (0 > (errflag = Segment_init(&(dseg->seg), fd, nsegs_in_memory))) {
	close(fd);
	unlink(filename);
	if (errflag == -1) {
	    G_warning("dseg_open(): could not read segment file");
	    return -5;
	}
	else {
	    G_warning("dseg_open(): out of memory");
	    return -6;
	}
    }
    dseg->filename = filename;
    dseg->fd = fd;
    return 0;
}
Exemplo n.º 7
0
Arquivo: main.c Projeto: caomw/grass
static int get_cell(DCELL *result, int fd, double x, double y)
{
    static DCELL *row1, *row2;
    static int cur_row = -1;
    static int row, col;
    DCELL *tmp;

    if (!row1) {
	row1 = Rast_allocate_d_buf();
	row2 = Rast_allocate_d_buf();
    }

    col = (int)floor(x - 0.5);
    row = (int)floor(y - 0.5);
    x -= col + 0.5;
    y -= row + 0.5;

    if (row < 0 || row + 1 >= Rast_window_rows() ||
	col < 0 || col + 1 >= Rast_window_cols()) {
	Rast_set_d_null_value(result, 1);
	return 0;
    }

    if (cur_row != row) {
	if (cur_row == row + 1) {
	    tmp = row1; row1 = row2; row2 = tmp;
	    Rast_get_d_row(fd, row1, row);
	}
	else if (cur_row == row - 1) {
	    tmp = row1; row1 = row2; row2 = tmp;
	    Rast_get_d_row(fd, row2, row + 1);
	}
	else {
	    Rast_get_d_row(fd, row1, row);
	    Rast_get_d_row(fd, row2, row + 1);
	}
	cur_row = row;
    }

    if (Rast_is_d_null_value(&row1[col]) || Rast_is_d_null_value(&row1[col+1]) ||
	Rast_is_d_null_value(&row2[col]) || Rast_is_d_null_value(&row2[col+1])) {
	Rast_set_d_null_value(result, 1);
	return 0;
    }

    *result = Rast_interp_bilinear(x, y,
				row1[col], row1[col+1],
				row2[col], row2[col+1]);

    return 1;
}
Exemplo n.º 8
0
int process(void)
{

    /*-------------------------------------------------------------------*/
    /*                              INITIALISE                           */

    /*-------------------------------------------------------------------*/

    int nrows,			/* Will store the current number of     */
      ncols,			/* rows and columns in the raster.      */
      nn;			/* Size of raster to nearest power of 2. */

    double *data[2];		/* Array holding complex data.          */


    /*------------------------------------------------------------------*/
    /*                       GET DETAILS OF INPUT RASTER                */

    /*------------------------------------------------------------------*/

    nrows = Rast_window_rows();	/* Find out the number of rows and */
    ncols = Rast_window_cols();	/* columns of the raster view.     */

    nn = G_math_max_pow2(MAX(nrows, ncols));	/* Find smallest power of 2 that   */
    /* largest side of raster will fit. */

    /*------------------------------------------------------------------*/
    /*                      CREATE SQUARE ARRAY OF SIDE 2^n             */

    /*------------------------------------------------------------------*/

    if (nn * nn * sizeof(double) < 1)
	G_fatal_error(_("Unable to allocate data buffer. "
			"Check current region with g.region."));
    
    data[0] = (double *)G_malloc(nn * nn * sizeof(double));
    data[1] = (double *)G_malloc(nn * nn * sizeof(double));

    /*------------------------------------------------------------------*/
    /*                   Apply spectral synthesis algorithm.            */

    /*------------------------------------------------------------------*/

    specsyn(data, nn);

    G_free(data[0]);
    G_free(data[1]);

    return 0;
}
Exemplo n.º 9
0
static int calc_mu(int *fds, double *mu, int bands)
{
    int i;
    int rows = Rast_window_rows();
    int cols = Rast_window_cols();
    void *rowbuf = NULL;

    for (i = 0; i < bands; i++) {
	RASTER_MAP_TYPE maptype;
	int row, col;
	double sum = 0.;

	maptype = Rast_get_map_type(fds[i]);

	/* don't assume each image is of the same type */
	if (rowbuf)
	    G_free(rowbuf);
	if ((rowbuf = Rast_allocate_buf(maptype)) == NULL)
	    G_fatal_error(_("Unable allocate memory for row buffer"));

	G_message(_("Computing means for band %d..."), i + 1);
	for (row = 0; row < rows; row++) {
	    void *ptr = rowbuf;

	    G_percent(row, rows - 1, 2);

	    Rast_get_row(fds[i], rowbuf, row, maptype);

	    for (col = 0; col < cols; col++) {
		/* skip null cells */
		if (Rast_is_null_value(ptr, maptype)) {
		    ptr = G_incr_void_ptr(ptr, Rast_cell_size(maptype));
		    continue;
		}

		sum += Rast_get_d_value(ptr, maptype);
		ptr = G_incr_void_ptr(ptr, Rast_cell_size(maptype));
	    }
	}

	mu[i] = sum / (double)(rows * cols);
    }

    if (rowbuf)
	G_free(rowbuf);

    return 0;
}
Exemplo n.º 10
0
void *read_raster(void *buf, const int fd, const RASTER_MAP_TYPE rtype)
{
    void *tmpbuf = buf;
    int rows = Rast_window_rows();
    int i;

    G_message(_("Reading raster map..."));

    for (i = 0; i < rows; i++) {
	G_percent(i + 1, rows, 10);

	Rast_get_row(fd, tmpbuf, i, rtype);
	tmpbuf =
	    G_incr_void_ptr(tmpbuf, Rast_cell_size(rtype) * Rast_window_cols());
    }

    return tmpbuf;
}
Exemplo n.º 11
0
Arquivo: main.c Projeto: caomw/grass
static void get_region_range(int fd)
{
    DCELL *buf = Rast_allocate_d_buf();

    int nrows = Rast_window_rows();
    int ncols = Rast_window_cols();
    int row, col;

    min = 1e300;
    max = -1e300;

    for (row = 0; row < nrows; row++) {
	Rast_get_d_row(fd, buf, row);
	for (col = 0; col < ncols; col++) {
	    if (min > buf[col])
		min = buf[col];
	    if (max < buf[col])
		max = buf[col];
	}
    }
}
Exemplo n.º 12
0
/*!
 *  \brief Extract a cell value from raster map (neighbor interpolation)
 *
 *  Extract a cell value from raster map at given northing and easting
 *  with a sampled 3x3 window using a neighbor interpolation.
 *
 *  \param fd file descriptor
 *  \param window region settings
 *  \param cats categories
 *  \param north northing position
 *  \param east easting position
 *  \param usedesc flag to scan category label
 *
 *  \return cell value at given position
 */
DCELL Rast_get_sample_nearest(int fd,
			      const struct Cell_head * window,
			      struct Categories * cats,
			      double north, double east, int usedesc)
{
    int row, col;
    DCELL result;
    DCELL *maprow = Rast_allocate_d_buf();

    /* convert northing and easting to row and col, resp */
    row = (int)floor(Rast_northing_to_row(north, window));
    col = (int)floor(Rast_easting_to_col(east, window));

    if (row < 0 || row >= Rast_window_rows() ||
	col < 0 || col >= Rast_window_cols()) {
	Rast_set_d_null_value(&result, 1);
	goto done;
    }

    Rast_get_d_row(fd, maprow, row);

    if (Rast_is_d_null_value(&maprow[col])) {
	Rast_set_d_null_value(&result, 1);
	goto done;
    }

    if (usedesc) {
	char *buf = Rast_get_c_cat((CELL *) & (maprow[col]), cats);

	G_squeeze(buf);
	result = scancatlabel(buf);
    }
    else
	result = maprow[col];

  done:
    G_free(maprow);

    return result;
}
Exemplo n.º 13
0
int read_data(struct files *files, struct SigSet *S)
{
    int n;
    int b;
    int nrows, ncols, row, col;
    CELL *class;
    struct ClassData *Data;

    nrows = Rast_window_rows();
    ncols = Rast_window_cols();
    class = (CELL *) G_calloc(ncols, sizeof(CELL));

    G_message(_("Reading raster maps..."));

    for (row = 0; row < nrows; row++) {
	G_percent(row, nrows, 2);
	read_training_map(class, row, ncols, files);
	for (b = 0; b < files->nbands; b++)
	    Rast_get_d_row(files->band_fd[b], files->band_cell[b], row);

	for (col = 0; col < ncols; col++) {
	    n = class[col];
	    if (n < 0)
		continue;
	    Data = &S->ClassSig[n].ClassData;
	    for (b = 0; b < files->nbands; b++) {
		if (Rast_is_d_null_value(&files->band_cell[b][col]))
		    Rast_set_d_null_value(&Data->x[Data->count][b], 1);
		else
		    Data->x[Data->count][b] = files->band_cell[b][col];
	    }
	    Data->count++;
	}
    }
    G_percent(nrows, nrows, 2);
    G_free(class);

    return 0;
}
Exemplo n.º 14
0
int openfiles(struct parms *parms, struct files *files)
{
    struct Ref Ref;		/* subgroup reference list */
    int n;


    if (!I_get_subgroup_ref(parms->group, parms->subgroup, &Ref))
	G_fatal_error(_("Unable to read REF file for subgroup <%s> in group <%s>"),
		      parms->subgroup, parms->group);

    if (Ref.nfiles <= 0)
	G_fatal_error(_("Subgroup <%s> in group <%s> contains no raster maps"),
		      parms->subgroup, parms->group);

    /* allocate file descriptors, and io buffer */
    files->cellbuf = Rast_allocate_d_buf();
    files->outbuf = Rast_allocate_c_buf();

    files->isdata = G_malloc(Rast_window_cols());

    files->nbands = Ref.nfiles;
    files->band_fd = (int *)G_calloc(Ref.nfiles, sizeof(int));

    /* open all group maps for reading */
    for (n = 0; n < Ref.nfiles; n++)
	files->band_fd[n] =
	    open_cell_old(Ref.file[n].name, Ref.file[n].mapset);

    /* open output map */
    files->output_fd = open_cell_new(parms->output_map);

    if (parms->goodness_map)
	files->goodness_fd = Rast_open_new(parms->goodness_map, FCELL_TYPE);
    else
	files->goodness_fd = -1;

    return 0;
}
Exemplo n.º 15
0
/*---------------------------------------------------------------------------------------*/
void P_Aux_to_Raster(double **matrix, int fd)
{
    int ncols, col, nrows, row;
    void *ptr, *raster;

    nrows = Rast_window_rows();
    ncols = Rast_window_cols();

    raster = Rast_allocate_buf(DCELL_TYPE);

    for (row = 0; row < nrows; row++) {
	G_percent(row, nrows, 2);

	Rast_set_d_null_value(raster, ncols);

	for (col = 0, ptr = raster; col < ncols;
	     col++, ptr = G_incr_void_ptr(ptr, Rast_cell_size(DCELL_TYPE))) {
	    Rast_set_d_value(ptr, (DCELL) (matrix[row][col]), DCELL_TYPE);
	}
	Rast_put_d_row(fd, raster);
    }
    G_percent(row, nrows, 2);
}
Exemplo n.º 16
0
int get_cats(const char *name, const char *mapset)
{
    int fd;
    int row, nrows, ncols;
    CELL *cell;
    struct Cell_head cellhd;

    /* set the window to the cell header */
    Rast_get_cellhd(name, mapset, &cellhd);

    Rast_set_window(&cellhd);

    /* open the raster map */
    fd = Rast_open_old(name, mapset);
    nrows = Rast_window_rows();
    ncols = Rast_window_cols();
    cell = Rast_allocate_c_buf();
    Rast_init_cell_stats(&statf);

    /* read the raster map */
    G_verbose_message(_("Reading <%s> in <%s>"), name, mapset);
    for (row = 0; row < nrows; row++) {
	if (G_verbose() > G_verbose_std())
	    G_percent(row, nrows, 2);
	Rast_get_c_row_nomask(fd, cell, row);
	Rast_update_cell_stats(cell, ncols, &statf);
    }
    /* done */
    if (G_verbose() > G_verbose_std())
	G_percent(row, nrows, 2);
    Rast_close(fd);
    G_free(cell);
    Rast_rewind_cell_stats(&statf);

    return 0;
}
Exemplo n.º 17
0
/* 
 * do_histogram() - Creates histogram for CELL
 *
 * RETURN: EXIT_SUCCESS / EXIT_FAILURE
 */
int do_histogram(const char *name)
{
    CELL *cell;
    struct Cell_head cellhd;
    struct Cell_stats statf;
    int nrows, ncols;
    int row;
    int fd;

    Rast_get_cellhd(name, "", &cellhd);

    Rast_set_window(&cellhd);
    fd = Rast_open_old(name, "");

    nrows = Rast_window_rows();
    ncols = Rast_window_cols();
    cell = Rast_allocate_c_buf();

    Rast_init_cell_stats(&statf);
    for (row = 0; row < nrows; row++) {
	Rast_get_c_row_nomask(fd, cell, row);
	Rast_update_cell_stats(cell, ncols, &statf);
    }

    if (row == nrows)
	Rast_write_histogram_cs(name, &statf);

    Rast_free_cell_stats(&statf);
    Rast_close(fd);
    G_free(cell);

    if (row < nrows)
	return -1;

    return 0;
}
Exemplo n.º 18
0
Arquivo: main.c Projeto: caomw/grass
int main(int argc, char **argv)
{
    struct GModule *module;
    struct Option *viewopts[MAXVIEWS], *out, *qual;
    struct Flag *conv;
    int i;
    int *sdimp, longdim, r_out;

    G_gisinit(argv[0]);

    module = G_define_module();
    G_add_keyword(_("raster"));
    G_add_keyword(_("export"));
    G_add_keyword(_("animation"));

    module->description =
	_("Converts raster map series to MPEG movie.");

    for (i = 0; i < MAXVIEWS; i++) {
	char *buf = NULL;
	viewopts[i] = G_define_standard_option(G_OPT_R_INPUTS);
	G_asprintf(&buf, "view%d", i + 1);
	viewopts[i]->key = G_store(buf);
	viewopts[i]->required = (i ? NO : YES);
	G_asprintf(&buf, _("Name of input raster map(s) for view no.%d"), i + 1);
	viewopts[i]->description = G_store(buf);
        viewopts[i]->guisection = _("Views");
	G_free(buf);
    }

    out = G_define_standard_option(G_OPT_R_OUTPUT);
    out->description = _("Name for output file");
    
    qual = G_define_option();
    qual->key = "qual";
    qual->type = TYPE_INTEGER;
    qual->required = NO;
    qual->multiple = NO;
    qual->answer = "3";
    qual->options = "1-5";
    qual->description =
	_("Quality factor (1 = highest quality, lowest compression)");
    qual->guisection = _("Settings");
    
    conv = G_define_flag();
    conv->key = 'c';
    conv->label = _("Convert on the fly, uses less disk space");
    conv->description =	_("Requires r.out.ppm with stdout option");
    
    if (G_parser(argc, argv))
	exit(EXIT_FAILURE);

    parse_command(viewopts, vfiles, &numviews, &frames);

    r_out = 0;
    if (conv->answer)
	r_out = 1;

    quality = 3;
    if (qual->answer != NULL)
	sscanf(qual->answer, "%d", &quality);
    if (quality > 5 || quality < 1)
	quality = 3;

    /* find a working encoder */
    if (check_encoder("ppmtompeg"))
	encoder = "ppmtompeg";
    else if (check_encoder("mpeg_encode"))
	encoder = "mpeg_encode";
    else
	G_fatal_error(_("Either mpeg_encode or ppmtompeg must be installed"));

    G_debug(1, "encoder = [%s]", encoder);

    vrows = Rast_window_rows();
    vcols = Rast_window_cols();
    nrows = vrows;
    ncols = vcols;

    /* short dimension */
    sdimp = nrows > ncols ? &ncols : &nrows;

    /* these proportions should work fine for 1 or 4 views, but for
       2 views, want to double the narrow dim & for 3 views triple it */
    if (numviews == 2)
	*sdimp *= 2;
    else if (numviews == 3)
	*sdimp *= 3;

    longdim = nrows > ncols ? nrows : ncols;

    scale = 1.0;

    {	/* find animation image size */
	int max, min;
	char *p;

	max = DEF_MAX;
	min = DEF_MIN;

	if ((p = getenv("GMPEG_SIZE")))
	    max = min = atoi(p);

	if (longdim > max)	/* scale down */
	    scale = (float)max / longdim;
	else if (longdim < min)	/* scale up */
	    scale = (float)min / longdim;
    }
    /* TODO: align image size to 16 pixel width & height */

    vscale = scale;
    if (numviews == 4)
	vscale = scale / 2.;

    nrows *= scale;
    ncols *= scale;
    /* now nrows & ncols are the size of the combined - views image */
    vrows *= vscale;
    vcols *= vscale;
    /* now vrows & vcols are the size for each sub-image */

    /* add to nrows & ncols for borders */
    /* irows, icols used for vert/horizontal determination in loop below */
    irows = nrows;
    icols = ncols;
    nrows += (1 + (nrows / vrows)) * BORDER_W;
    ncols += (1 + (ncols / vcols)) * BORDER_W;

    if (numviews == 1 && r_out)
	use_r_out();
    else
	load_files();

    return (EXIT_SUCCESS);
}
Exemplo n.º 19
0
Arquivo: main.c Projeto: caomw/grass
static int load_files(void)
{
    void *voidc;
    int rtype;
    register int i, rowoff, row, col, vxoff, vyoff, offset;
    int cnt, fd, size, tsiz, coff;
    int vnum;
    int y_rows, y_cols;
    char *pr, *pg, *pb;
    unsigned char *tr, *tg, *tb, *tset;
    char *mpfilename, *name;
    char *yfiles[MAXIMAGES];
    struct Colors colors;
    int ret;

    size = nrows * ncols;

    pr = G_malloc(size);
    pg = G_malloc(size);
    pb = G_malloc(size);

    tsiz = Rast_window_cols();

    tr = (unsigned char *)G_malloc(tsiz);
    tg = (unsigned char *)G_malloc(tsiz);
    tb = (unsigned char *)G_malloc(tsiz);
    tset = (unsigned char *)G_malloc(tsiz);

    for (cnt = 0; cnt < frames; cnt++) {
	if (cnt > MAXIMAGES) {
	    cnt--;
	    break;
	}

	for (i = 0; i < size; i++)
	    pr[i] = pg[i] = pb[i] = 0;

	for (vnum = 0; vnum < numviews; vnum++) {
	    if (icols == vcols) {
		vxoff = BORDER_W;
		vyoff = (irows == vrows) ? BORDER_W :
		    BORDER_W + vnum * (BORDER_W + vrows);
	    }
	    else if (irows == vrows) {
		vxoff = (icols == vcols) ? BORDER_W :
		    BORDER_W + vnum * (BORDER_W + vcols);
		vyoff = BORDER_W;
	    }
	    else {		/* 4 views */
		/* assumes we want:
		   view1        view2
		   view3        view4   
		 */
		vxoff = vnum % 2 ? BORDER_W : vcols + 2 * BORDER_W;
		vyoff = vnum > 1 ? vrows + 2 * BORDER_W : BORDER_W;
	    }

	    name = vfiles[vnum][cnt];

	    G_message(_("Reading raster map <%s>..."), name);

	    fd = Rast_open_old(name, "");

	    if (Rast_read_colors(name, "", &colors) < 0)
		G_fatal_error(_("Unable to read color table for <%s>"), name);

	    rtype = Rast_get_map_type(fd);
	    voidc = Rast_allocate_buf(rtype);

	    for (row = 0; row < vrows; row++) {
		Rast_get_row(fd, voidc, (int)(row / vscale), rtype);

		rowoff = (vyoff + row) * ncols;
		Rast_lookup_colors(voidc, tr, tg, tb,
				       tset, tsiz, &colors, rtype);

		for (col = 0; col < vcols; col++) {
		    coff = (int)(col / vscale);
		    offset = rowoff + col + vxoff;

		    if (!tset[coff])
			pr[offset] = pg[offset] = pb[offset] = (char)255;
		    else {
			pr[offset] = (char)tr[coff];
			pg[offset] = (char)tg[coff];
			pb[offset] = (char)tb[coff];
		    }
		}
	    }

	    Rast_close(fd);
	}

	yfiles[cnt] = G_tempfile();

#ifdef USE_PPM
	write_ppm(pr, pg, pb, nrows, ncols, &y_rows, &y_cols, yfiles[cnt]);
#else
	write_ycc(pr, pg, pb, nrows, ncols, &y_rows, &y_cols, yfiles[cnt]);
#endif
    }

    mpfilename = G_tempfile();
    write_params(mpfilename, yfiles, outfile, cnt, quality, y_rows, y_cols, 0);

    if (G_verbose() <= G_verbose_min())
	ret = G_spawn(encoder, encoder, mpfilename,
		      SF_REDIRECT_FILE, SF_STDOUT, SF_MODE_OUT, G_DEV_NULL,
		      SF_REDIRECT_FILE, SF_STDERR, SF_MODE_OUT, G_DEV_NULL,
		      NULL);
    else
	ret = G_spawn(encoder, encoder, mpfilename, NULL);

    if (ret != 0)
	G_warning(_("mpeg_encode ERROR"));

    clean_files(mpfilename, yfiles, cnt);

    G_free(voidc);
    G_free(tset);
    G_free(tr);
    G_free(tg);
    G_free(tb);
    G_free(pr);
    G_free(pg);
    G_free(pb);

    return (cnt);
}
Exemplo n.º 20
0
int main(int argc, char *argv[])
{

    int i, row, col;		/* counters */
    unsigned long filesize;

    int endianness;		/* 0=little, 1=big */
    int data_format;		/* 0=double  1=float  2=32bit signed int  5=8bit unsigned int (ie text) */
    int data_type;		/* 0=numbers  1=text */
    int format_block;		/* combo of endianness, 0, data_format, and type */
    int realflag = 0;		/* 0=only real values used */

    /* should type be specifically uint32 ??? */

    char array_name[32];	/* variable names must start with a letter (case 
				   sensitive) followed by letters, numbers, or 
				   underscores. 31 chars max. */
    int name_len;
    int mrows, ncols;		/* text/data/map array dimensions */

    int val_i;			/* for misc use */
    float val_f;		/* for misc use */
    double val_d;		/* for misc use */

    char *infile, *outfile, *maptitle, *basename;
    struct Cell_head region;
    void *raster, *ptr;
    RASTER_MAP_TYPE map_type;

    struct Option *inputfile, *outputfile;
    struct GModule *module;

    int fd;
    FILE *fp1;


    G_gisinit(argv[0]);

    module = G_define_module();
    G_add_keyword(_("raster"));
    G_add_keyword(_("export"));
    module->description = _("Exports a GRASS raster to a binary MAT-File.");

    /* Define the different options */

    inputfile = G_define_standard_option(G_OPT_R_INPUT);

    outputfile = G_define_option();
    outputfile->key = "output";
    outputfile->type = TYPE_STRING;
    outputfile->required = YES;
    outputfile->gisprompt = "new_file,file,output";
    outputfile->description = _("Name for the output binary MAT-File");

    if (G_parser(argc, argv))
	exit(EXIT_FAILURE);

    infile = inputfile->answer;
    basename = G_store(outputfile->answer);
    G_basename(basename, "mat");
    outfile = G_malloc(strlen(basename) + 5);
    sprintf(outfile, "%s.mat", basename);

    fd = Rast_open_old(infile, "");

    map_type = Rast_get_map_type(fd);

    /* open bin file for writing */
    fp1 = fopen(outfile, "wb");
    if (NULL == fp1)
	G_fatal_error(_("Unable to open output file <%s>"), outfile);


    /* Check Endian State of Host Computer */
    if (G_is_little_endian())
	endianness = 0;		/* ie little endian */
    else
	endianness = 1;		/* ie big endian */
    G_debug(1, "Machine is %s endian.\n", endianness ? "big" : "little");

    G_get_window(&region);


    /********** Write map **********/

    /** write text element (map name) **/
    strncpy(array_name, "map_name", 31);
    mrows = 1;
    ncols = strlen(infile);
    data_format = 5;		/* 0=double  1=float  2=32bit signed int  5=8bit unsigned int(text) */
    data_type = 1;		/* 0=numbers  1=text */

    G_verbose_message(_("Exporting <%s>"), infile);

    /* 4 byte data format */
    format_block = endianness * 1000 + data_format * 10 + data_type;
    fwrite(&format_block, sizeof(int), 1, fp1);
    /* fprintf(stderr, "name data format is [%04ld]\n", format_block); */

    /* 4 byte number of rows & columns */
    fwrite(&mrows, sizeof(int), 1, fp1);
    fwrite(&ncols, sizeof(int), 1, fp1);

    /* 4 byte real/imag flag   0=real vals only */
    fwrite(&realflag, sizeof(int), 1, fp1);

    /* length of array_name+1 */
    name_len = strlen(array_name) + 1;
    fwrite(&name_len, sizeof(int), 1, fp1);

    /* array name */
    fprintf(fp1, "%s%c", array_name, '\0');

    /* array data */
    fprintf(fp1, "%s", infile);


    /********** Write title (if there is one) **********/
    maptitle = Rast_get_cell_title(infile, "");
    if (strlen(maptitle) >= 1) {

	/** write text element (map title) **/
	strncpy(array_name, "map_title", 31);
	mrows = 1;
	ncols = strlen(maptitle);
	data_format = 5;	/* 0=double  1=float  2=32bit signed int  5=8bit unsigned int(text) */
	data_type = 1;		/* 0=numbers  1=text */

	/* 4 byte data format */
	format_block = endianness * 1000 + data_format * 10 + data_type;
	fwrite(&format_block, sizeof(int), 1, fp1);

	/* 4 byte number of rows & columns */
	fwrite(&mrows, sizeof(int), 1, fp1);
	fwrite(&ncols, sizeof(int), 1, fp1);

	/* 4 byte real/imag flag   0=real vals only */
	fwrite(&realflag, sizeof(int), 1, fp1);

	/* length of array_name+1 */
	name_len = strlen(array_name) + 1;
	fwrite(&name_len, sizeof(int), 1, fp1);

	/* array name */
	fprintf(fp1, "%s%c", array_name, '\0');

	/* array data */
	fprintf(fp1, "%s", maptitle);
    }

    /***** Write bounds *****/
    G_verbose_message("");
    G_verbose_message(_("Using the Current Region settings:"));
    G_verbose_message(_("northern edge=%f"), region.north);
    G_verbose_message(_("southern edge=%f"), region.south);
    G_verbose_message(_("eastern edge=%f"), region.east);
    G_verbose_message(_("western edge=%f"), region.west);
    G_verbose_message(_("nsres=%f"), region.ns_res);
    G_verbose_message(_("ewres=%f"), region.ew_res);
    G_verbose_message(_("rows=%d"), region.rows);
    G_verbose_message(_("cols=%d"), region.cols);
    G_verbose_message("");

    for (i = 0; i < 4; i++) {
	switch (i) {
	case 0:
	    strncpy(array_name, "map_northern_edge", 31);
	    val_d = region.north;
	    break;
	case 1:
	    strncpy(array_name, "map_southern_edge", 31);
	    val_d = region.south;
	    break;
	case 2:
	    strncpy(array_name, "map_eastern_edge", 31);
	    val_d = region.east;
	    break;
	case 3:
	    strncpy(array_name, "map_western_edge", 31);
	    val_d = region.west;
	    break;
	default:
	    fclose(fp1);
	    G_fatal_error("please contact development team");
	    break;
	}

	/** write data element **/
	data_format = 0;	/* 0=double  1=float  2=32bit signed int  5=8bit unsigned int(text) */
	data_type = 0;		/* 0=numbers  1=text */
	mrows = 1;
	ncols = 1;

	/* 4 byte data format */
	format_block = endianness * 1000 + data_format * 10 + data_type;
	fwrite(&format_block, sizeof(int), 1, fp1);
	/* fprintf(stderr, "bounds data format is [%04ld]\n", format_block); */

	/* 4 byte number of rows , 4 byte number of colums */
	fwrite(&mrows, sizeof(int), 1, fp1);
	fwrite(&ncols, sizeof(int), 1, fp1);

	/* 4 byte real/imag flag   0=only real */
	fwrite(&realflag, sizeof(int), 1, fp1);

	/* length of array_name+1 */
	name_len = strlen(array_name) + 1;
	fwrite(&name_len, sizeof(int), 1, fp1);

	/* array name */
	fprintf(fp1, "%s%c", array_name, '\0');

	/* write array data, by increasing column */
	fwrite(&val_d, sizeof(double), 1, fp1);

	/** end of data element **/
    }



    /***** Write map data *****/
    strncpy(array_name, "map_data", 31);

    switch (map_type) {		/* data_format: 0=double  1=float  2=32bit signed int  5=8bit unsigned int (ie text) */

    case CELL_TYPE:
	data_format = 2;
	G_verbose_message(_("Exporting raster as integer values"));
	break;

    case FCELL_TYPE:
	data_format = 1;
	G_verbose_message(_("Exporting raster as floating point values"));
	break;

    case DCELL_TYPE:
	data_format = 0;
	G_verbose_message(_("Exporting raster as double FP values"));
	break;

    default:
	fclose(fp1);
	G_fatal_error("Please contact development team");
	break;
    }

    data_type = 0;		/* 0=numbers  1=text */

    mrows = region.rows;
    ncols = region.cols;

    /* 4 byte data format */
    format_block = (endianness * 1000) + (data_format * 10) + data_type;
    fwrite(&format_block, sizeof(int), 1, fp1);

    G_debug(3, "map data format is [%04d]\n", format_block);

    /* 4 byte number of rows & columns */
    fwrite(&mrows, sizeof(int), 1, fp1);
    fwrite(&ncols, sizeof(int), 1, fp1);

    /* 4 byte real/imag flag   0=only real */
    fwrite(&realflag, sizeof(int), 1, fp1);

    /* length of array_name+1 */
    name_len = strlen(array_name) + 1;
    fwrite(&name_len, sizeof(int), 1, fp1);

    /* array name */
    fprintf(fp1, "%s%c", array_name, '\0');

    /* data array, by increasing column */
    raster =
	G_calloc((Rast_window_rows() + 1) * (Rast_window_cols() + 1),
		 Rast_cell_size(map_type));

    G_debug(1, "mem alloc is %d bytes\n",	/* I think _cols()+1 is unneeded? */
	    Rast_cell_size(map_type) * (Rast_window_rows() +
				       1) * (Rast_window_cols() + 1));

    G_verbose_message(_("Reading in map ... "));

    /* load entire map into memory */
    for (row = 0, ptr = raster; row < mrows; row++,
	 ptr =
	 G_incr_void_ptr(ptr,
			 (Rast_window_cols() + 1) * Rast_cell_size(map_type))) {
	Rast_get_row(fd, ptr, row, map_type);
	G_percent(row, mrows, 2);
    }
    G_percent(row, mrows, 2);	/* finish it off */


    G_verbose_message(_("Writing out map..."));

    /* then write it to disk */
    /* NoGood: fwrite(raster, Rast_cell_size(map_type), mrows*ncols, fp1); */
    for (col = 0; col < ncols; col++) {
	for (row = 0; row < mrows; row++) {

	    ptr = raster;
	    ptr =
		G_incr_void_ptr(ptr,
				(col +
				 row * (ncols +
					1)) * Rast_cell_size(map_type));

	    if (!Rast_is_null_value(ptr, map_type)) {
		if (map_type == CELL_TYPE) {
		    val_i = *((CELL *) ptr);
		    fwrite(&val_i, sizeof(int), 1, fp1);
		}
		else if (map_type == FCELL_TYPE) {
		    val_f = *((FCELL *) ptr);
		    fwrite(&val_f, sizeof(float), 1, fp1);
		}
		else if (map_type == DCELL_TYPE) {
		    val_d = *((DCELL *) ptr);
		    fwrite(&val_d, sizeof(double), 1, fp1);
		}
	    }
	    else {		/* ie if NULL cell -> write IEEE NaN value */
		if (map_type == CELL_TYPE) {
		    val_i = *((CELL *) ptr);	/* int has no NaN value, so use whatever GRASS uses */
		    fwrite(&val_i, sizeof(int), 1, fp1);
		}
		else if (map_type == FCELL_TYPE) {
		    if (endianness)	/* ie big */
			fprintf(fp1, "%c%c%c%c", 0xff, 0xf8, 0, 0);
		    else	/* ie little */
			fprintf(fp1, "%c%c%c%c", 0, 0, 0xf8, 0xff);
		}
		else if (map_type == DCELL_TYPE) {
		    if (endianness)
			fprintf(fp1, "%c%c%c%c%c%c%c%c", 0xff, 0xf8, 0, 0, 0,
				0, 0, 0);
		    else
			fprintf(fp1, "%c%c%c%c%c%c%c%c", 0, 0, 0, 0, 0, 0,
				0xf8, 0xff);
		}
	    }
	}
	G_percent(col, ncols, 2);
    }
    G_percent(col, ncols, 2);	/* finish it off */

    /*** end of data element ***/


    /* done! */
    filesize = G_ftell(fp1);
    fclose(fp1);

    G_verbose_message(_("%ld bytes written to '%s'"), filesize, outfile);

    G_done_msg("");

    G_free(basename);
    G_free(outfile);

    exit(EXIT_SUCCESS);
}
Exemplo n.º 21
0
int main(int argc, char **argv)
{
    FILTER *filter;
    int nfilters;
    int repeat;
    char *in_name;
    char *filt_name;
    char *out_name;
    char title[1024];
    char temp[300];
    int i;
    struct GModule *module;
    struct Flag *flag2;
    struct Option *opt1;
    struct Option *opt2;
    struct Option *opt3;
    struct Option *opt4;
    struct Option *opt5;

    G_gisinit(argv[0]);

    module = G_define_module();
    G_add_keyword(_("raster"));
    G_add_keyword(_("algebra"));
    G_add_keyword(_("statistics"));
    module->description = _("Performs raster map matrix filter.");

    /* Define the different options */

    opt1 = G_define_standard_option(G_OPT_R_INPUT);

    opt2 = G_define_standard_option(G_OPT_R_OUTPUT);

    opt3 = G_define_standard_option(G_OPT_F_INPUT);
    opt3->key = "filter";
    opt3->required = YES;
    opt3->description = _("Path to filter file");

    opt4 = G_define_option();
    opt4->key = "repeat";
    opt4->type = TYPE_INTEGER;
    opt4->multiple = NO;
    opt4->required = NO;
    opt4->answer = "1";
    opt4->description = _("Number of times to repeat the filter");
    opt4->guisection = _("Filter");
    
    opt5 = G_define_option();
    opt5->key = "title";
    opt5->type = TYPE_STRING;
    opt5->required = NO;
    opt5->description = _("Output raster map title");

    /* Define the different flags */

    /* this isn't implemented at all 
       flag3 = G_define_flag() ;
       flag3->key         = 'p' ;
       flag3->description = _("Preserved edge") ;
     */

    flag2 = G_define_flag();
    flag2->key = 'z';
    flag2->description = _("Apply filter only to null data values");
    flag2->guisection = _("Filter");

    if (G_parser(argc, argv))
	exit(EXIT_FAILURE);

    /*
       preserve_edges = flag3->answer;
     */
    null_only = flag2->answer;

    sscanf(opt4->answer, "%d", &repeat);
    out_name = opt2->answer;
    filt_name = opt3->answer;

    in_name = opt1->answer;

    nrows = Rast_window_rows();
    ncols = Rast_window_cols();
    buflen = ncols * sizeof(DCELL);

    /* get the filter */
    filter = get_filter(filt_name, &nfilters, temp);

    /* make sure filter matrix won't extend outside the raster map */
    for (i = 0; i < nfilters; i++) {
	if (filter[i].size > ncols || filter[i].size > nrows)
	    G_fatal_error(_("Raster map too small for the size of the filter"));
    }


    /* make a title for result */
    if (opt5->answer)
	strcpy(title, opt5->answer);
    else {
	if (*temp == 0)
	    strcpy(temp, "unknown filter");
	sprintf(title, "%s filtered using %s", in_name, temp);
    }

    perform_filter(in_name, out_name, filter, nfilters, repeat);

    Rast_put_cell_title(out_name, title);

    exit(EXIT_SUCCESS);
}
Exemplo n.º 22
0
/*!
 * \brief Allocates memory for a raster map of type FCELL.
 *
 * Allocate an array of FCELL based on the number of columns in the 
 * current region.
 *
 * \return pointer to allocated buffer
 */
FCELL *Rast_allocate_f_buf(void)
{
    return (FCELL *) G_calloc(Rast_window_cols() + 1, sizeof(FCELL));
}
Exemplo n.º 23
0
/*!
 * \brief Allocate memory for a raster map of given type
 *
 * Allocate an array of CELL, FCELL, or DCELL (depending on
 * <i>data_type</i>) based on the number of columns in the current
 * region.
 *
 * \param data_type raster type (CELL, FCELL, DCELL)
 *
 * \return pointer to allocated buffer
 */
void *Rast_allocate_buf(RASTER_MAP_TYPE data_type)
{
    return (void *)G_calloc(Rast_window_cols() + 1, Rast_cell_size(data_type));
}
Exemplo n.º 24
0
/*!
 * \brief Allocates memory for a null buffer.
 *
 * Allocate an array of char based on the number of columns in the 
 * current region.
 *
 * \return pointer to allocated buffer
 */
char *Rast_allocate_null_buf(void)
{
    return (char *)G_calloc(Rast_window_cols() + 1, sizeof(char));
}
Exemplo n.º 25
0
void filter_holes(Gfile * out)
{
    int row, col, nrows, ncols;

    void *arast, *brast, *crast;
    int i, pixel[9], cold, warm, shadow, nulo, lim;

    Gfile tmp;

    nrows = Rast_window_rows();
    ncols = Rast_window_cols();

    if (nrows < 3 || ncols < 3)
        return;

    /* Open to read */
    if ((out->fd = Rast_open_old(out->name, "")) < 0)
        G_fatal_error(_("Unable to open raster map <%s>"), out->name);

    arast = Rast_allocate_buf(CELL_TYPE);
    brast = Rast_allocate_buf(CELL_TYPE);
    crast = Rast_allocate_buf(CELL_TYPE);

    /* Open to write */
    sprintf(tmp.name, "_%d.BBB", getpid());
    tmp.rast = Rast_allocate_buf(CELL_TYPE);
    if ((tmp.fd = Rast_open_new(tmp.name, CELL_TYPE)) < 0)
        G_fatal_error(_("Unable to create raster map <%s>"), tmp.name);

    G_important_message(_("Filling small holes in clouds..."));

    /* Se puede acelerar creandolos nulos y luego arast = brast
       brast = crast y cargando crast solamente
       G_set_f_null_value(cell[2], ncols);
     */

    for (row = 0; row < nrows; row++) {
        G_percent(row, nrows, 2);
        /* Read row values */
        if (row != 0) {
            Rast_get_c_row(out->fd, arast, row - 1);
        }
        Rast_get_c_row(out->fd, brast, row);
        if (row != (nrows - 1)) {
            Rast_get_c_row(out->fd, crast, row + 1);
        }
        /* Analysis of all pixels */
        for (col = 0; col < ncols; col++) {
            pixel[0] = pval(brast, col);
            if (pixel[0] == 0) {
                if (row == 0) {
                    pixel[1] = -1;
                    pixel[2] = -1;
                    pixel[3] = -1;
                    if (col == 0) {
                        pixel[4] = -1;
                        pixel[5] = pval(brast, col + 1);
                        pixel[6] = -1;
                        pixel[7] = pval(crast, col);
                        pixel[8] = pval(crast, col + 1);
                    }
                    else if (col != (ncols - 1)) {
                        pixel[4] = pval(brast, col - 1);
                        pixel[5] = pval(brast, col + 1);
                        pixel[6] = pval(crast, col - 1);
                        pixel[7] = pval(crast, col);
                        pixel[8] = pval(crast, col + 1);
                    }
                    else {
                        pixel[4] = pval(brast, col - 1);
                        pixel[5] = -1;
                        pixel[6] = pval(crast, col - 1);
                        pixel[7] = pval(crast, col);
                        pixel[8] = -1;
                    }
                }
                else if (row != (nrows - 1)) {
                    if (col == 0) {
                        pixel[1] = -1;
                        pixel[2] = pval(arast, col);
                        pixel[3] = pval(arast, col + 1);
                        pixel[4] = -1;
                        pixel[5] = pval(brast, col + 1);
                        pixel[6] = -1;
                        pixel[7] = pval(crast, col);
                        pixel[8] = pval(crast, col + 1);
                    }
                    else if (col != (ncols - 1)) {
                        pixel[1] = pval(arast, col - 1);
                        pixel[2] = pval(arast, col);
                        pixel[3] = pval(arast, col + 1);
                        pixel[4] = pval(brast, col - 1);
                        pixel[5] = pval(brast, col + 1);
                        pixel[6] = pval(crast, col - 1);
                        pixel[7] = pval(crast, col);
                        pixel[8] = pval(crast, col + 1);
                    }
                    else {
                        pixel[1] = pval(arast, col - 1);
                        pixel[2] = pval(arast, col);
                        pixel[3] = -1;
                        pixel[4] = pval(brast, col - 1);
                        pixel[5] = -1;
                        pixel[6] = pval(crast, col - 1);
                        pixel[7] = pval(crast, col);
                        pixel[8] = -1;
                    }
                }
                else {
                    pixel[6] = -1;
                    pixel[7] = -1;
                    pixel[8] = -1;
                    if (col == 0) {
                        pixel[1] = -1;
                        pixel[2] = pval(arast, col);
                        pixel[3] = pval(arast, col + 1);
                        pixel[4] = -1;
                        pixel[5] = pval(brast, col + 1);
                    }
                    else if (col != (ncols - 1)) {
                        pixel[1] = pval(arast, col - 1);
                        pixel[2] = pval(arast, col);
                        pixel[3] = pval(arast, col + 1);
                        pixel[4] = pval(brast, col - 1);
                        pixel[5] = pval(brast, col + 1);
                    }
                    else {
                        pixel[1] = pval(arast, col - 1);
                        pixel[2] = pval(arast, col);
                        pixel[3] = -1;
                        pixel[4] = pval(brast, col - 1);
                        pixel[5] = -1;
                    }
                }

                cold = warm = shadow = nulo = 0;
                for (i = 1; i < 9; i++) {
                    switch (pixel[i]) {
                    case IS_COLD_CLOUD:
                        cold++;
                        break;
                    case IS_WARM_CLOUD:
                        warm++;
                        break;
                    case IS_SHADOW:
                        shadow++;
                        break;
                    default:
                        nulo++;
                        break;
                    }
                }
                lim = (int)(cold + warm + shadow + nulo) / 2;

                /* Entra pixel[0] = 0 */
                if (nulo < lim) {
                    if (shadow >= (cold + warm))
                        pixel[0] = IS_SHADOW;
                    else
                        pixel[0] =
                            (warm > cold) ? IS_WARM_CLOUD : IS_COLD_CLOUD;
                }
            }
            if (pixel[0] != 0) {
                ((CELL *) tmp.rast)[col] = pixel[0];
            }
            else {
                Rast_set_c_null_value((CELL *) tmp.rast + col, 1);
            }
        }
        Rast_put_row(tmp.fd, tmp.rast, CELL_TYPE);
    }
    G_percent(1, 1, 1);

    G_free(arast);
    G_free(brast);
    G_free(crast);
    Rast_close(out->fd);

    G_free(tmp.rast);
    Rast_close(tmp.fd);

    G_remove("cats", out->name);
    G_remove("cell", out->name);
    G_remove("cellhd", out->name);
    G_remove("cell_misc", out->name);
    G_remove("hist", out->name);

    G_rename("cats", tmp.name, out->name);
    G_rename("cell", tmp.name, out->name);
    G_rename("cellhd", tmp.name, out->name);
    G_rename("cell_misc", tmp.name, out->name);
    G_rename("hist", tmp.name, out->name);

    return;
}
Exemplo n.º 26
0
int main(int argc, char *argv[])
{
    struct GModule *module;
    struct
    {
	struct Option *quant, *perc, *slots, *basemap, *covermap, *output;
    } opt;
    struct {
	struct Flag *r, *p;
    } flag;
    const char *basemap, *covermap;
    char **outputs;
    int reclass, print;
    int cover_fd, base_fd;
    struct Range range;
    struct FPRange fprange;
    int i;

    G_gisinit(argv[0]);

    module = G_define_module();
    G_add_keyword(_("raster"));
    G_add_keyword(_("statistics"));
    module->description = _("Compute category quantiles using two passes.");

    opt.basemap = G_define_standard_option(G_OPT_R_BASE);

    opt.covermap = G_define_standard_option(G_OPT_R_COVER);

    opt.quant = G_define_option();
    opt.quant->key = "quantiles";
    opt.quant->type = TYPE_INTEGER;
    opt.quant->required = NO;
    opt.quant->description = _("Number of quantiles");

    opt.perc = G_define_option();
    opt.perc->key = "percentiles";
    opt.perc->type = TYPE_DOUBLE;
    opt.perc->multiple = YES;
    opt.perc->description = _("List of percentiles");
    opt.perc->answer = "50";

    opt.slots = G_define_option();
    opt.slots->key = "bins";
    opt.slots->type = TYPE_INTEGER;
    opt.slots->required = NO;
    opt.slots->description = _("Number of bins to use");
    opt.slots->answer = "1000";

    opt.output = G_define_standard_option(G_OPT_R_OUTPUT);
    opt.output->description = _("Resultant raster map(s)");
    opt.output->required = NO;
    opt.output->multiple = YES;

    flag.r = G_define_flag();
    flag.r->key = 'r';
    flag.r->description =
	_("Create reclass map with statistics as category labels");

    flag.p = G_define_flag();
    flag.p->key = 'p';
    flag.p->description =
	_("Do not create output maps; just print statistics");

    if (G_parser(argc, argv))
	exit(EXIT_FAILURE);

    basemap = opt.basemap->answer;
    covermap = opt.covermap->answer;
    outputs = opt.output->answers;
    reclass = flag.r->answer;
    print = flag.p->answer;

    if (!print && !opt.output->answers)
	G_fatal_error(_("Either -%c or %s= must be given"),
			flag.p->key, opt.output->key);

    if (print && opt.output->answers)
	G_fatal_error(_("-%c and %s= are mutually exclusive"),
			flag.p->key, opt.output->key);

    num_slots = atoi(opt.slots->answer);

    if (opt.quant->answer) {
	num_quants = atoi(opt.quant->answer) - 1;
	quants = G_calloc(num_quants, sizeof(DCELL));
	for (i = 0; i < num_quants; i++)
	    quants[i] = 1.0 * (i + 1) / (num_quants + 1);
    }
    else {
	for (i = 0; opt.perc->answers[i]; i++)
	    ;
	num_quants = i;
	quants = G_calloc(num_quants, sizeof(DCELL));
	for (i = 0; i < num_quants; i++)
	    quants[i] = atof(opt.perc->answers[i]) / 100;
	qsort(quants, num_quants, sizeof(DCELL), compare_dcell);
    }

    if (opt.output->answer) {
	for (i = 0; opt.output->answers[i]; i++)
	    ;
	if (i != num_quants)
	    G_fatal_error(_("Number of quantiles (%d) does not match number of output maps (%d)"),
			  num_quants, i);
    }

    base_fd = Rast_open_old(basemap, "");

    cover_fd = Rast_open_old(covermap, "");

    if (Rast_map_is_fp(basemap, "") != 0)
	G_fatal_error(_("The base map must be an integer (CELL) map"));

    if (Rast_read_range(basemap, "", &range) < 0)
	G_fatal_error(_("Unable to read range of base map <%s>"), basemap);

    Rast_get_range_min_max(&range, &min, &max);
    num_cats = max - min + 1;
    if (num_cats > MAX_CATS)
	G_fatal_error(_("Base map <%s> has too many categories (max: %d)"),
		      basemap, MAX_CATS);

    Rast_read_fp_range(covermap, "", &fprange);
    Rast_get_fp_range_min_max(&fprange, &f_min, &f_max);
    slot_size = (f_max - f_min) / num_slots;

    basecats = G_calloc(num_cats, sizeof(struct basecat));

    for (i = 0; i < num_cats; i++)
	basecats[i].slots = G_calloc(num_slots, sizeof(unsigned int));

    rows = Rast_window_rows();
    cols = Rast_window_cols();

    get_slot_counts(base_fd, cover_fd);

    initialize_bins();
    fill_bins(base_fd, cover_fd);


    sort_bins();
    compute_quantiles();

    if (print)
	print_quantiles();
    else if (reclass)
	do_reclass(basemap, outputs);
    else
	do_output(base_fd, outputs, covermap);

    Rast_close(cover_fd);
    Rast_close(base_fd);

    return (EXIT_SUCCESS);
}
Exemplo n.º 27
0
/* ************************************************************************* */
int main(int argc, char *argv[])
{
    RASTER3D_Region region, inputmap_bounds;
    struct Cell_head region2d;
    struct GModule *module;
    struct History history;
    void *map = NULL; /*The 3D Rastermap */
    int i = 0, changemask = 0;
    int *fd = NULL, output_type, cols, rows;
    char *RasterFileName;
    int overwrite = 0;

    /* Initialize GRASS */
    G_gisinit(argv[0]);

    module = G_define_module();
    G_add_keyword(_("raster3d"));
    G_add_keyword(_("conversion"));
    G_add_keyword(_("raster"));
    G_add_keyword(_("voxel"));
    module->description = _("Converts 3D raster maps to 2D raster maps");

    /* Get parameters from user */
    set_params();

    /* Have GRASS get inputs */
    if (G_parser(argc, argv))
        exit(EXIT_FAILURE);

    G_debug(3, "Open 3D raster map <%s>", param.input->answer);

    if (NULL == G_find_raster3d(param.input->answer, ""))
        Rast3d_fatal_error(_("3D raster map <%s> not found"),
                       param.input->answer);

    /*Set the defaults */
    Rast3d_init_defaults();

    /*Set the resolution of the output maps */
    if (param.res->answer) {

        /*Open the map with current region */
        map = Rast3d_open_cell_old(param.input->answer,
                              G_find_raster3d(param.input->answer, ""),
                              RASTER3D_DEFAULT_WINDOW, RASTER3D_TILE_SAME_AS_FILE,
                              RASTER3D_USE_CACHE_DEFAULT);
        if (map == NULL)
            Rast3d_fatal_error(_("Unable to open 3D raster map <%s>"),
                           param.input->answer);


        /*Get the region of the map */
        Rast3d_get_region_struct_map(map, &region);
        /*set this region as current 3D window for map */
        Rast3d_set_window_map(map, &region);
        /*Set the 2d region appropriate */
        Rast3d_extract2d_region(&region, &region2d);
        /*Make the new 2d region the default */
        Rast_set_window(&region2d);

    } else {
        /* Figure out the region from the map */
        Rast3d_get_window(&region);

        /*Open the 3d raster map */
        map = Rast3d_open_cell_old(param.input->answer,
                              G_find_raster3d(param.input->answer, ""),
                              &region, RASTER3D_TILE_SAME_AS_FILE,
                              RASTER3D_USE_CACHE_DEFAULT);

        if (map == NULL)
            Rast3d_fatal_error(_("Unable to open 3D raster map <%s>"),
                           param.input->answer);
    }

    /*Check if the g3d-region is equal to the 2D rows and cols */
    rows = Rast_window_rows();
    cols = Rast_window_cols();

    /*If not equal, set the 3D window correct */
    if (rows != region.rows || cols != region.cols) {
        G_message(_("The 2D and 3D region settings are different. "
                    "Using the 2D window settings to adjust the 2D part of the 3D region."));
        G_get_set_window(&region2d);
        region.ns_res = region2d.ns_res;
        region.ew_res = region2d.ew_res;
        region.rows = region2d.rows;
        region.cols = region2d.cols;
        
        Rast3d_adjust_region(&region);
        
        Rast3d_set_window_map(map, &region);
    }

    /* save the input map region for later use (history meta-data) */
    Rast3d_get_region_struct_map(map, &inputmap_bounds);

    /*Get the output type */
    output_type = Rast3d_file_type_map(map);


    /*prepare the filehandler */
    fd = (int *) G_malloc(region.depths * sizeof (int));

    if (fd == NULL)
        fatal_error(map, NULL, 0, _("Out of memory"));

    G_message(_("Creating %i raster maps"), region.depths);

    /*Loop over all output maps! open */
    for (i = 0; i < region.depths; i++) {
        /*Create the outputmaps */
        G_asprintf(&RasterFileName, "%s_%05d", param.output->answer, i + 1);
        G_message(_("Raster map %i Filename: %s"), i + 1, RasterFileName);

        overwrite = G_check_overwrite(argc, argv);
        
        if (G_find_raster2(RasterFileName, "") && !overwrite)
            G_fatal_error(_("Raster map %d Filename: %s already exists. Use the flag --o to overwrite."),
                      i + 1, RasterFileName);

        if (output_type == FCELL_TYPE)
            fd[i] = open_output_map(RasterFileName, FCELL_TYPE);
        else if (output_type == DCELL_TYPE)
            fd[i] = open_output_map(RasterFileName, DCELL_TYPE);

    }

    /*if requested set the Mask on */
    if (param.mask->answer) {
        if (Rast3d_mask_file_exists()) {
            changemask = 0;
            if (Rast3d_mask_is_off(map)) {
                Rast3d_mask_on(map);
                changemask = 1;
            }
        }
    }

    /*Create the Rastermaps */
    g3d_to_raster(map, region, fd);


    /*Loop over all output maps! close */
    for (i = 0; i < region.depths; i++) {
        close_output_map(fd[i]);

        /* write history */
        G_asprintf(&RasterFileName, "%s_%i", param.output->answer, i + 1);
        G_debug(4, "Raster map %d Filename: %s", i + 1, RasterFileName);
        Rast_short_history(RasterFileName, "raster", &history);

        Rast_set_history(&history, HIST_DATSRC_1, "3D Raster map:");
        Rast_set_history(&history, HIST_DATSRC_2, param.input->answer);

        Rast_append_format_history(&history, "Level %d of %d", i + 1, region.depths);
        Rast_append_format_history(&history, "Level z-range: %f to %f",
                                   region.bottom + (i * region.tb_res),
                                   region.bottom + (i + 1 * region.tb_res));

        Rast_append_format_history(&history, "Input map full z-range: %f to %f",
                                   inputmap_bounds.bottom, inputmap_bounds.top);
        Rast_append_format_history(&history, "Input map z-resolution: %f",
                                   inputmap_bounds.tb_res);

        if (!param.res->answer) {
            Rast_append_format_history(&history, "GIS region full z-range: %f to %f",
                                       region.bottom, region.top);
            Rast_append_format_history(&history, "GIS region z-resolution: %f",
                                       region.tb_res);
        }

        Rast_command_history(&history);
        Rast_write_history(RasterFileName, &history);
    }

    /*We set the Mask off, if it was off before */
    if (param.mask->answer) {
        if (Rast3d_mask_file_exists())
            if (Rast3d_mask_is_on(map) && changemask)
                Rast3d_mask_off(map);
    }


    /*Cleaning */
    if (RasterFileName)
        G_free(RasterFileName);

    if (fd)
        G_free(fd);

    /* Close files and exit */
    if (!Rast3d_close(map))
        fatal_error(map, NULL, 0, _("Unable to close 3D raster map"));

    map = NULL;

    return (EXIT_SUCCESS);
}
Exemplo n.º 28
0
Arquivo: main.c Projeto: caomw/grass
int main(int argc, char **argv)
{
    static DCELL *count, *sum, *mean, *sumu, *sum2, *sum3, *sum4, *min, *max;
    DCELL *result;
    struct GModule *module;
    struct {
	struct Option *method, *basemap, *covermap, *output;
    } opt;
    struct {
	struct Flag *c, *r;
    } flag;
    char methods[2048];
    const char *basemap, *covermap, *output;
    int usecats;
    int reclass;
    int base_fd, cover_fd;
    struct Categories cats;
    CELL *base_buf;
    DCELL *cover_buf;
    struct Range range;
    CELL mincat, ncats;
    int method;
    int rows, cols;
    int row, col, i;

    G_gisinit(argv[0]);

    module = G_define_module();
    G_add_keyword(_("raster"));
    G_add_keyword(_("statistics"));
    module->description =
	_("Calculates category or object oriented statistics (accumulator-based statistics).");

    opt.basemap = G_define_standard_option(G_OPT_R_BASE);

    opt.covermap = G_define_standard_option(G_OPT_R_COVER);

    opt.method = G_define_option();
    opt.method->key = "method";
    opt.method->type = TYPE_STRING;
    opt.method->required = YES;
    opt.method->description = _("Method of object-based statistic");

    for (i = 0; menu[i].name; i++) {
	if (i)
	    strcat(methods, ",");
	else
	    *(methods) = 0;
	strcat(methods, menu[i].name);
    }
    opt.method->options = G_store(methods);

    for (i = 0; menu[i].name; i++) {
	if (i)
	    strcat(methods, ";");
	else
	    *(methods) = 0;
	strcat(methods, menu[i].name);
	strcat(methods, ";");
	strcat(methods, menu[i].text);
    }
    opt.method->descriptions = G_store(methods);

    opt.output = G_define_standard_option(G_OPT_R_OUTPUT);
    opt.output->description = _("Resultant raster map");
    opt.output->required = YES;

    flag.c = G_define_flag();
    flag.c->key = 'c';
    flag.c->description =
	_("Cover values extracted from the category labels of the cover map");

    flag.r = G_define_flag();
    flag.r->key = 'r';
    flag.r->description =
	_("Create reclass map with statistics as category labels");

    if (G_parser(argc, argv))
	exit(EXIT_FAILURE);

    basemap = opt.basemap->answer;
    covermap = opt.covermap->answer;
    output = opt.output->answer;
    usecats = flag.c->answer;
    reclass = flag.r->answer;

    for (i = 0; menu[i].name; i++)
	if (strcmp(menu[i].name, opt.method->answer) == 0)
	    break;

    if (!menu[i].name) {
	G_warning(_("<%s=%s> unknown %s"), opt.method->key, opt.method->answer,
		  opt.method->key);
	G_usage();
	exit(EXIT_FAILURE);
    }

    method = menu[i].val;

    base_fd = Rast_open_old(basemap, "");

    cover_fd = Rast_open_old(covermap, "");

    if (usecats && Rast_read_cats(covermap, "", &cats) < 0)
	G_fatal_error(_("Unable to read category file of cover map <%s>"), covermap);

    if (Rast_map_is_fp(basemap, "") != 0)
	G_fatal_error(_("The base map must be an integer (CELL) map"));

    if (Rast_read_range(basemap, "", &range) < 0)
	G_fatal_error(_("Unable to read range of base map <%s>"), basemap);

    mincat = range.min;
    ncats = range.max - range.min + 1;

    rows = Rast_window_rows();
    cols = Rast_window_cols();

    switch (method) {
    case COUNT:
	count = G_calloc(ncats, sizeof(DCELL));
	break;
    case SUM:
	sum = G_calloc(ncats, sizeof(DCELL));
	break;
    case MIN:
	min = G_malloc(ncats * sizeof(DCELL));
	break;
    case MAX:
	max = G_malloc(ncats * sizeof(DCELL));
	break;
    case RANGE:
	min = G_malloc(ncats * sizeof(DCELL));
	max = G_malloc(ncats * sizeof(DCELL));
	break;
    case AVERAGE:
    case ADEV:
    case VARIANCE2:
    case STDDEV2:
    case SKEWNESS2:
    case KURTOSIS2:
	count = G_calloc(ncats, sizeof(DCELL));
	sum = G_calloc(ncats, sizeof(DCELL));
	break;
    case VARIANCE1:
    case STDDEV1:
	count = G_calloc(ncats, sizeof(DCELL));
	sum = G_calloc(ncats, sizeof(DCELL));
	sum2 = G_calloc(ncats, sizeof(DCELL));
	break;
    case SKEWNESS1:
	count = G_calloc(ncats, sizeof(DCELL));
	sum = G_calloc(ncats, sizeof(DCELL));
	sum2 = G_calloc(ncats, sizeof(DCELL));
	sum3 = G_calloc(ncats, sizeof(DCELL));
	break;
    case KURTOSIS1:
	count = G_calloc(ncats, sizeof(DCELL));
	sum = G_calloc(ncats, sizeof(DCELL));
	sum2 = G_calloc(ncats, sizeof(DCELL));
	sum4 = G_calloc(ncats, sizeof(DCELL));
	break;
    }

    if (min)
	for (i = 0; i < ncats; i++)
	    min[i] = 1e300;
    if (max)
	for (i = 0; i < ncats; i++)
	    max[i] = -1e300;

    base_buf = Rast_allocate_c_buf();
    cover_buf = Rast_allocate_d_buf();

    G_message(_("First pass"));

    for (row = 0; row < rows; row++) {
	Rast_get_c_row(base_fd, base_buf, row);
	Rast_get_d_row(cover_fd, cover_buf, row);

	for (col = 0; col < cols; col++) {
	    int n;
	    DCELL v;

	    if (Rast_is_c_null_value(&base_buf[col]))
		continue;
	    if (Rast_is_d_null_value(&cover_buf[col]))
		continue;

	    n = base_buf[col] - mincat;

	    if (n < 0 || n >= ncats)
		continue;

	    v = cover_buf[col];
	    if (usecats)
		sscanf(Rast_get_c_cat((CELL *) &v, &cats), "%lf", &v);

	    if (count)
		count[n]++;
	    if (sum)
		sum[n] += v;
	    if (sum2)
		sum2[n] += v * v;
	    if (sum3)
		sum3[n] += v * v * v;
	    if (sum4)
		sum4[n] += v * v * v * v;
	    if (min && min[n] > v)
		min[n] = v;
	    if (max && max[n] < v)
		max[n] = v;
	}

	G_percent(row, rows, 2);
    }

    G_percent(row, rows, 2);

    result = G_calloc(ncats, sizeof(DCELL));

    switch (method) {
    case ADEV:
    case VARIANCE2:
    case STDDEV2:
    case SKEWNESS2:
    case KURTOSIS2:
	mean = G_calloc(ncats, sizeof(DCELL));
	for (i = 0; i < ncats; i++)
	    mean[i] = sum[i] / count[i];
	G_free(sum);
	break;
    }

    switch (method) {
    case ADEV:
	sumu = G_calloc(ncats, sizeof(DCELL));
	break;
    case VARIANCE2:
    case STDDEV2:
	sum2 = G_calloc(ncats, sizeof(DCELL));
	break;
    case SKEWNESS2:
	sum2 = G_calloc(ncats, sizeof(DCELL));
	sum3 = G_calloc(ncats, sizeof(DCELL));
	break;
    case KURTOSIS2:
	sum2 = G_calloc(ncats, sizeof(DCELL));
	sum4 = G_calloc(ncats, sizeof(DCELL));
	break;
    }

    if (mean) {
	G_message(_("Second pass"));

	for (row = 0; row < rows; row++) {
	    Rast_get_c_row(base_fd, base_buf, row);
	    Rast_get_d_row(cover_fd, cover_buf, row);

	    for (col = 0; col < cols; col++) {
		int n;
		DCELL v, d;

		if (Rast_is_c_null_value(&base_buf[col]))
		    continue;
		if (Rast_is_d_null_value(&cover_buf[col]))
		    continue;

		n = base_buf[col] - mincat;

		if (n < 0 || n >= ncats)
		    continue;

		v = cover_buf[col];
		if (usecats)
		    sscanf(Rast_get_c_cat((CELL *) &v, &cats), "%lf", &v);
		d = v - mean[n];

		if (sumu)
		    sumu[n] += fabs(d);
		if (sum2)
		    sum2[n] += d * d;
		if (sum3)
		    sum3[n] += d * d * d;
		if (sum4)
		    sum4[n] += d * d * d * d;
	    }

	    G_percent(row, rows, 2);
	}

	G_percent(row, rows, 2);
	G_free(mean);
	G_free(cover_buf);
    }

    switch (method) {
    case COUNT:
	for (i = 0; i < ncats; i++)
	    result[i] = count[i];
	break;
    case SUM:
	for (i = 0; i < ncats; i++)
	    result[i] = sum[i];
	break;
    case AVERAGE:
	for (i = 0; i < ncats; i++)
	    result[i] = sum[i] / count[i];
	break;
    case MIN:
	for (i = 0; i < ncats; i++)
	    result[i] = min[i];
	break;
    case MAX:
	for (i = 0; i < ncats; i++)
	    result[i] = max[i];
	break;
    case RANGE:
	for (i = 0; i < ncats; i++)
	    result[i] = max[i] - min[i];
	break;
    case VARIANCE1:
	for (i = 0; i < ncats; i++) {
	    double n = count[i];
	    double var = (sum2[i] - sum[i] * sum[i] / n) / (n - 1);
	    result[i] = var;
	}
	break;
    case STDDEV1:
	for (i = 0; i < ncats; i++) {
	    double n = count[i];
	    double var = (sum2[i] - sum[i] * sum[i] / n) / (n - 1);
	    result[i] = sqrt(var);
	}
	break;
    case SKEWNESS1:
	for (i = 0; i < ncats; i++) {
	    double n = count[i];
	    double var = (sum2[i] - sum[i] * sum[i] / n) / (n - 1);
	    double skew = (sum3[i] / n
			   - 3 * sum[i] * sum2[i] / (n * n)
			   + 2 * sum[i] * sum[i] * sum[i] / (n * n * n))
		/ (pow(var, 1.5));
	    result[i] = skew;
	}
	break;
    case KURTOSIS1:
	for (i = 0; i < ncats; i++) {
	    double n = count[i];
	    double var = (sum2[i] - sum[i] * sum[i] / n) / (n - 1);
	    double kurt = (sum4[i] / n
			   - 4 * sum[i] * sum3[i] / (n * n)
			   + 6 * sum[i] * sum[i] * sum2[i] / (n * n * n)
			   - 3 * sum[i] * sum[i] * sum[i] * sum[i] / (n * n * n * n))
		/ (var * var) - 3;
	    result[i] = kurt;
	}
	break;
    case ADEV:
	for (i = 0; i < ncats; i++)
	    result[i] = sumu[i] / count[i];
	break;
    case VARIANCE2:
	for (i = 0; i < ncats; i++)
	    result[i] = sum2[i] / (count[i] - 1);
	break;
    case STDDEV2:
	for (i = 0; i < ncats; i++)
	    result[i] = sqrt(sum2[i] / (count[i] - 1));
	break;
    case SKEWNESS2:
	for (i = 0; i < ncats; i++) {
	    double n = count[i];
	    double var = sum2[i] / (n - 1);
	    double sdev = sqrt(var);
	    result[i] = sum3[i] / (sdev * sdev * sdev) / n;
	}
	G_free(count);
	G_free(sum2);
	G_free(sum3);
	break;
    case KURTOSIS2:
	for (i = 0; i < ncats; i++) {
	    double n = count[i];
	    double var = sum2[i] / (n - 1);
	    result[i] = sum4[i] / (var * var) / n - 3;
	}
	G_free(count);
	G_free(sum2);
	G_free(sum4);
	break;
    }

    if (reclass) {
	const char *tempfile = G_tempfile();
	char *input_arg = G_malloc(strlen(basemap) + 7);
	char *output_arg = G_malloc(strlen(output) + 8);
	char *rules_arg = G_malloc(strlen(tempfile) + 7);
	FILE *fp;

	G_message(_("Generating reclass map"));

	sprintf(input_arg, "input=%s", basemap);
	sprintf(output_arg, "output=%s", output);
	sprintf(rules_arg, "rules=%s", tempfile);

	fp = fopen(tempfile, "w");
	if (!fp)
	    G_fatal_error(_("Unable to open temporary file"));

	for (i = 0; i < ncats; i++)
	    fprintf(fp, "%d = %d %f\n", mincat + i, mincat + i, result[i]);

	fclose(fp);

	G_spawn("r.reclass", "r.reclass", input_arg, output_arg, rules_arg, NULL);
    }
    else {
	int out_fd;
	DCELL *out_buf;
	struct Colors colors;

	G_message(_("Writing output map"));

	out_fd = Rast_open_fp_new(output);

	out_buf = Rast_allocate_d_buf();

	for (row = 0; row < rows; row++) {
	    Rast_get_c_row(base_fd, base_buf, row);

	    for (col = 0; col < cols; col++)
		if (Rast_is_c_null_value(&base_buf[col]))
		    Rast_set_d_null_value(&out_buf[col], 1);
		else
		    out_buf[col] = result[base_buf[col] - mincat];

	    Rast_put_d_row(out_fd, out_buf);

	    G_percent(row, rows, 2);
	}

	G_percent(row, rows, 2);

	Rast_close(out_fd);

	if (Rast_read_colors(covermap, "", &colors) > 0)
	    Rast_write_colors(output, G_mapset(), &colors);
    }

    return 0;
}
Exemplo n.º 29
0
int open_file(char *name)
{
    int cell_file, buf_len;
    int i, row;
    CELL *buf;

    /* open raster map */
    cell_file = Rast_open_old(name, "");
    
    if (Rast_get_map_type(cell_file) != CELL_TYPE) {
	Rast_close(cell_file);
	G_fatal_error(_("Input raster must be of type CELL."));
    }

    n_rows = Rast_window_rows();
    n_cols = Rast_window_cols();
    G_message(_("File %s -- %d rows X %d columns"), name, n_rows, n_cols);
    n_cols += (PAD << 1);

    /* copy raster map into our read/write file */
    work_file_name = G_tempfile();

    /* create the file and then open it for read and write */
    close(creat(work_file_name, 0666));
    if ((work_file = open(work_file_name, 2)) < 0) {
	unlink(work_file_name);
	G_fatal_error(_("%s: Unable to create temporary file <%s> -- errno = %d"),
		      error_prefix, work_file_name, errno);
    }
    buf_len = n_cols * sizeof(CELL);
    buf = (CELL *) G_malloc(buf_len);
    Rast_set_c_null_value(buf, n_cols);
    for (i = 0; i < PAD; i++) {
	if (write(work_file, buf, buf_len) != buf_len) {
	    unlink(work_file_name);
	    G_fatal_error(_("%s: Error writing temporary file"),
			  error_prefix);
	}
    }
    for (row = 0; row < n_rows; row++) {
	Rast_get_c_row(cell_file, buf + PAD, row);
	if (write(work_file, buf, buf_len) != buf_len) {
	    unlink(work_file_name);
	    G_fatal_error(_("%s: Error writing temporary file"),
			  error_prefix);
	}
    }

    Rast_set_c_null_value(buf, n_cols);

    for (i = 0; i < PAD; i++) {
	if (write(work_file, buf, buf_len) != buf_len) {
	    unlink(work_file_name);
	    G_fatal_error(_("%s: Error writing temporary file"),
			  error_prefix);
	}
    }
    n_rows += (PAD << 1);
    G_free(buf);
    Rast_close(cell_file);
    Rowio_setup(&row_io, work_file, MAX_ROW, n_cols * sizeof(CELL), read_row,
		write_row);

    return 0;
}
Exemplo n.º 30
0
int execute_random(struct rr_state *theState)
{
    long nt;
    long nc;
    struct Cell_head window;
    int nrows, ncols, row, col;
    int infd, cinfd, outfd;
    struct Map_info Out;
    struct field_info *fi;
    dbTable *table;
    dbColumn *column;
    dbString sql;
    dbDriver *driver;
    struct line_pnts *Points;
    struct line_cats *Cats;
    int cat;
    RASTER_MAP_TYPE type;
    int do_check;

    G_get_window(&window);

    nrows = Rast_window_rows();
    ncols = Rast_window_cols();

    /* open the data files, input raster should be set-up already */
    if ((infd = theState->fd_old) < 0)
	G_fatal_error(_("Unable to open raster map <%s>"),
		      theState->inraster);
    if (theState->docover == TRUE) {
	if ((cinfd = theState->fd_cold) < 0)
	    G_fatal_error(_("Unable to open raster map <%s>"),
			  theState->inrcover);
    }

    if (theState->outraster != NULL) {
	if (theState->docover == TRUE)
	    type = theState->cover.type;
	else
	    type = theState->buf.type;
	outfd = Rast_open_new(theState->outraster, type);
	theState->fd_new = outfd;

    }

    if (theState->outvector) {
	if (Vect_open_new(&Out, theState->outvector, theState->z_geometry) < 0)
	    G_fatal_error(_("Unable to create vector map <%s>"),
			    theState->outvector);
	Vect_hist_command(&Out);

	fi = Vect_default_field_info(&Out, 1, NULL, GV_1TABLE);

	driver =
	    db_start_driver_open_database(fi->driver,
					  Vect_subst_var(fi->database, &Out));
	if (!driver)
	    G_fatal_error(_("Unable to open database <%s> by driver <%s>"),
			  Vect_subst_var(fi->database, &Out), fi->driver);
        db_set_error_handler_driver(driver);
        
	Vect_map_add_dblink(&Out, 1, NULL, fi->table, GV_KEY_COLUMN, fi->database,
			    fi->driver);

	if (theState->docover == TRUE)
	    table = db_alloc_table(3);
	else
	    table = db_alloc_table(2);
	db_set_table_name(table, fi->table);

	column = db_get_table_column(table, 0);
	db_set_column_name(column, GV_KEY_COLUMN);
	db_set_column_sqltype(column, DB_SQL_TYPE_INTEGER);

	column = db_get_table_column(table, 1);
	db_set_column_name(column, "value");
	db_set_column_sqltype(column, DB_SQL_TYPE_DOUBLE_PRECISION);

	if (theState->docover == TRUE) {
	    column = db_get_table_column(table, 2);
	    db_set_column_name(column, "covervalue");
	    db_set_column_sqltype(column, DB_SQL_TYPE_DOUBLE_PRECISION);
	}
	if (db_create_table(driver, table) != DB_OK)
	    G_warning(_("Cannot create new table"));

	db_begin_transaction(driver);

	Points = Vect_new_line_struct();
	Cats = Vect_new_cats_struct();
	db_init_string(&sql);
    }

    if (theState->outvector && theState->outraster)
	G_message(_("Writing raster map <%s> and vector map <%s> ..."),
		  theState->outraster, theState->outvector);
    else if (theState->outraster)
	G_message(_("Writing raster map <%s> ..."), theState->outraster);
    else if (theState->outvector)
	G_message(_("Writing vector map <%s> ..."), theState->outvector);

    G_percent(0, theState->nRand, 2);

    init_rand();
    nc = (theState->use_nulls) ? theState->nCells :
	theState->nCells - theState->nNulls;
    nt = theState->nRand;	/* Number of points to generate */
    cat = 1;

    /* Execute for loop for every row if nt>1 */
    for (row = 0; row < nrows && nt; row++) {
	Rast_get_row(infd, theState->buf.data.v, row, theState->buf.type);
	if (theState->docover == TRUE) {
	    Rast_get_row(cinfd, theState->cover.data.v, row,
			 theState->cover.type);
	}

	for (col = 0; col < ncols && nt; col++) {
	    do_check = 0;

	    if (theState->use_nulls || !is_null_value(theState->buf, col))
		do_check = 1;
	    if (do_check && theState->docover == TRUE) {	/* skip no data cover points */
		if (!theState->use_nulls &&
		    is_null_value(theState->cover, col))
		    do_check = 0;
	    }

	    if (do_check && make_rand() % nc < nt) {
		nt--;
		if (is_null_value(theState->buf, col))
		    cpvalue(&theState->nulls, 0, &theState->buf, col);
		if (theState->docover == TRUE) {
		    if (is_null_value(theState->cover, col))
			cpvalue(&theState->cnulls, 0, &theState->cover, col);
		}

		if (theState->outvector) {
		    double x, y, val, coverval;
		    char buf[500];

		    Vect_reset_line(Points);
		    Vect_reset_cats(Cats);

		    x = window.west + (col + .5) * window.ew_res;
		    y = window.north - (row + .5) * window.ns_res;

		    val = cell_as_dbl(&theState->buf, col);
		    if (theState->docover == 1)
			coverval = cell_as_dbl(&theState->cover, col);

		    if (theState->z_geometry)
			Vect_append_point(Points, x, y, val);
		    else
			Vect_append_point(Points, x, y, 0.0);
		    Vect_cat_set(Cats, 1, cat);

		    Vect_write_line(&Out, GV_POINT, Points, Cats);

		    if (theState->docover == 1)
			if (is_null_value(theState->cover, col))
			    sprintf(buf,
				    "insert into %s values ( %d, %f, NULL )",
				    fi->table, cat, val);
			else
			    sprintf(buf,
				    "insert into %s values ( %d, %f, %f )",
				    fi->table, cat, val, coverval);
		    else
			sprintf(buf, "insert into %s values ( %d, %f )",
				fi->table, cat, val);
		    db_set_string(&sql, buf);

		    if (db_execute_immediate(driver, &sql) != DB_OK)
			G_fatal_error(_("Cannot insert new record: %s"),
				      db_get_string(&sql));

		    cat++;
		}
		G_percent((theState->nRand - nt), theState->nRand, 2);
	    }
	    else {
		set_to_null(&theState->buf, col);
		if (theState->docover == 1)
		    set_to_null(&theState->cover, col);
	    }

	    if (do_check)
		nc--;
	}

	while (col < ncols) {
	    set_to_null(&theState->buf, col);
	    if (theState->docover == 1)
		set_to_null(&theState->cover, col);
	    col++;
	}

	if (theState->outraster) {
	    if (theState->docover == 1)
		Rast_put_row(outfd, theState->cover.data.v,
				 theState->cover.type);
	    else
		Rast_put_row(outfd, theState->buf.data.v,
				 theState->buf.type);
	}
    }

    /* Catch any remaining rows in the window */
    if (theState->outraster && row < nrows) {
	for (col = 0; col < ncols; col++) {
	    if (theState->docover == 1)
		set_to_null(&theState->cover, col);
	    else
		set_to_null(&theState->buf, col);
	}
	for (; row < nrows; row++) {
	    if (theState->docover == 1)
		Rast_put_row(outfd, theState->cover.data.v,
				 theState->cover.type);
	    else
		Rast_put_row(outfd, theState->buf.data.v,
				 theState->buf.type);
	}
    }

    if (nt > 0)
	G_warning(_("Only [%ld] random points created"),
		  theState->nRand - nt);

    /* close files */
    Rast_close(infd);
    if (theState->docover == TRUE)
	Rast_close(cinfd);
    if (theState->outvector) {
	db_commit_transaction(driver);
	if (db_create_index2(driver, fi->table, GV_KEY_COLUMN) != DB_OK)
	    G_warning(_("Unable to create index"));
	if (db_grant_on_table
	    (driver, fi->table, DB_PRIV_SELECT,
	     DB_GROUP | DB_PUBLIC) != DB_OK) {
	    G_fatal_error(_("Unable to grant privileges on table <%s>"),
			  fi->table);
	}
	db_close_database_shutdown_driver(driver);
	if (theState->notopol != 1)
	    Vect_build(&Out);
	Vect_close(&Out);
    }
    if (theState->outraster)
	Rast_close(outfd);

    return 0;
}				/* execute_random() */