Ejemplo n.º 1
0
/*---------------------------------------------------------------------------*/
void fatalError(char *errorMsg)
{
    if (map != NULL) {
        /* should unopen map here! */
        Rast3d_close(map);
    }

    Rast3d_fatal_error("%s", errorMsg);
}
Ejemplo n.º 2
0
void Rast3d_change_precision(void *map, int precision, const char *nameOut)
{
    void *map2;
    int x, y, z, savePrecision, saveCompression;
    char *data;
    RASTER3D_Region region;
    int typeIntern;
    int nx, ny, nz;
    int tileXsave, tileYsave, tileZsave, tileX, tileY, tileZ, saveType;

    saveType = Rast3d_get_file_type();
    /*   Rast3d_set_file_type (Rast3d_file_type_map (map)); */
    Rast3d_get_compression_mode(&saveCompression, &savePrecision);
    Rast3d_set_compression_mode(RASTER3D_COMPRESSION, precision);
    Rast3d_get_tile_dimension(&tileXsave, &tileYsave, &tileZsave);
    Rast3d_get_tile_dimensions_map(map, &tileX, &tileY, &tileZ);
    Rast3d_set_tile_dimension(tileX, tileY, tileZ);

    typeIntern = Rast3d_tile_type_map(map);
    Rast3d_get_region_struct_map(map, &region);

    map2 =
	Rast3d_open_cell_new(nameOut, typeIntern, RASTER3D_USE_CACHE_DEFAULT, &region);
    if (map2 == NULL)
	Rast3d_fatal_error("Rast3d_change_precision: error in Rast3d_open_cell_new");

    Rast3d_set_file_type(saveType);
    Rast3d_set_compression_mode(saveCompression, savePrecision);
    Rast3d_set_tile_dimension(tileXsave, tileYsave, tileZsave);

    data = Rast3d_alloc_tiles(map, 1);
    if (data == NULL)
	Rast3d_fatal_error("Rast3d_change_precision: error in Rast3d_alloc_tiles");
    Rast3d_get_nof_tiles_map(map2, &nx, &ny, &nz);

    for (z = 0; z < nz; z++)
	for (y = 0; y < ny; y++)
	    for (x = 0; x < nx; x++) {
		if (!Rast3d_read_tile(map, Rast3d_tile2tile_index(map, x, y, z), data,
				  typeIntern))
		    Rast3d_fatal_error
			("Rast3d_change_precision: error in Rast3d_read_tile");
		if (!Rast3d_write_tile
		    (map2, Rast3d_tile2tile_index(map2, x, y, z), data,
		     typeIntern))
		    Rast3d_fatal_error
			("Rast3d_change_precision: error in Rast3d_write_tile");
	    }

    Rast3d_free_tiles(data);
    if (!Rast3d_close(map2))
	Rast3d_fatal_error("Rast3d_change_precision: error in Rast3d_close");
}
Ejemplo n.º 3
0
static void
retileNocache(void *map, const char *nameOut, int tileX, int tileY, int tileZ)
{
    void *map2;
    int x, y, z, saveType, nx, ny, nz;
    int typeIntern;
    void *data;
    int tileXsave, tileYsave, tileZsave;
    RASTER3D_Region region;

    saveType = Rast3d_get_file_type();
    Rast3d_set_file_type(Rast3d_file_type_map(map));
    Rast3d_get_tile_dimension(&tileXsave, &tileYsave, &tileZsave);
    Rast3d_set_tile_dimension(tileX, tileY, tileZ);
    typeIntern = Rast3d_tile_type_map(map);
    Rast3d_get_region_struct_map(map, &region);

    map2 = Rast3d_open_cell_new(nameOut, typeIntern, RASTER3D_NO_CACHE, &region);

    if (map2 == NULL)
	Rast3d_fatal_error("Rast3d_retile: error in Rast3d_open_cell_new");

    Rast3d_set_file_type(saveType);
    Rast3d_set_tile_dimension(tileXsave, tileYsave, tileZsave);

    data = Rast3d_alloc_tiles(map2, 1);
    if (data == NULL)
	Rast3d_fatal_error("Rast3d_retile: error in Rast3d_alloc_tiles");

    Rast3d_get_nof_tiles_map(map2, &nx, &ny, &nz);

    for (z = 0; z < nz; z++) {
        G_percent(z, nz, 1);
	for (y = 0; y < ny; y++)
	    for (x = 0; x < nx; x++) {
		Rast3d_get_block(map, x * tileX, y * tileY, z * tileZ,
			     tileX, tileY, tileZ, data, typeIntern);
		if (!Rast3d_write_tile
		    (map2, Rast3d_tile2tile_index(map2, x, y, z), data,
		     typeIntern))
		    Rast3d_fatal_error
			("Rast3d_retileNocache: error in Rast3d_write_tile");
	    }
    }
    
    G_percent(1, 1, 1);
        
    Rast3d_free_tiles(data);
    Rast3d_close(map2);
}
Ejemplo n.º 4
0
/* ************************************************************************* */
void fatal_error(void *map, int *fd, int depths, char *errorMsg)
{
    int i;

    /* Close files and exit */
    if (map != NULL) {
        if (!Rast3d_close(map))
            Rast3d_fatal_error(_("Unable to close 3D raster map"));
    }

    if (fd != NULL) {
        for (i = 0; i < depths; i++)
            Rast_unopen(fd[i]);
    }

    Rast3d_fatal_error("%s", errorMsg);
    exit(EXIT_FAILURE);

}
Ejemplo n.º 5
0
/* ************************************************************************* */
void fatal_error(void *map, int elevfd, int outfd, char *errorMsg)
{

    /* Close files and exit */

    if (map != NULL) {
        if (!Rast3d_close(map))
            Rast3d_fatal_error(_("Unable to close 3D raster map"));
    }

    /*unopen the output map */
    if (outfd != -1)
        Rast_unopen(outfd);

    if (elevfd != -1)
        close_output_map(elevfd);

    Rast3d_fatal_error("%s", errorMsg);
    exit(EXIT_FAILURE);

}
Ejemplo n.º 6
0
/* ************************************************************************* */
int main(int argc, char *argv[])
{
    char *output = NULL;
    RASTER3D_Region region;
    struct Cell_head window2d;
    struct Cell_head default_region;
    FILE *fp = NULL;
    struct GModule *module;
    int dp, i, changemask = 0;
    int rows, cols;
    const char *mapset, *name;
    double scale = 1.0, llscale = 1.0;

    input_maps *in;

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

    module = G_define_module();
    G_add_keyword(_("raster3d"));
    G_add_keyword(_("export"));
    G_add_keyword(_("voxel"));
    G_add_keyword("VTK");
    module->description =
        _("Converts 3D raster maps into the VTK-ASCII format.");

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

    /* Have GRASS get inputs */
    if (G_parser(argc, argv))
        exit(EXIT_FAILURE);
    /*The precision of the output */
    if (param.decimals->answer) {
        if (sscanf(param.decimals->answer, "%d", &dp) != 1)
            G_fatal_error(_("failed to interpret dp as an integer"));
        if (dp > 20 || dp < 0)
            G_fatal_error(_("dp has to be from 0 to 20"));
    } else {
        dp = 8; /*This value is taken from the lib settings in G_format_easting */
    }

    /*Check the input */
    check_input_maps();

    /*Correct the coordinates, so the precision of VTK is not hurt :( */
    if (param.coorcorr->answer) {
        /*Get the default region for coordiante correction */
        G_get_default_window(&default_region);

        /*Use the center of the current region as extent */
        y_extent = (default_region.north + default_region.south) / 2;
        x_extent = (default_region.west + default_region.east) / 2;
    } else {
        x_extent = 0;
        y_extent = 0;
    }

    /*open the output */
    if (param.output->answer) {
        fp = fopen(param.output->answer, "w");
        if (fp == NULL) {
            perror(param.output->answer);
            G_usage();
            exit(EXIT_FAILURE);
        }
    } else
        fp = stdout;

    /* Figure out the region from the map */
    Rast3d_init_defaults();
    Rast3d_get_window(&region);

    /*initiate the input mpas structure */
    in = create_input_maps_struct();


    /* read and compute the scale factor */
    sscanf(param.elevscale->answer, "%lf", &scale);
    /*if LL projection, convert the elevation values to degrees */
    if (param.scalell->answer && region.proj == PROJECTION_LL) {
        llscale = M_PI / (180) * 6378137;
        scale /= llscale;
    }

    /*Open the top and bottom file */
    if (param.structgrid->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 2D windows 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(&window2d);
            window2d.ns_res = region.ns_res;
            window2d.ew_res = region.ew_res;
            window2d.rows = region.rows;
            window2d.cols = region.cols;
            Rast_set_window(&window2d);
        }

        /*open top */
        mapset = NULL;
        name = NULL;
        name = param.top->answer;
        mapset = G_find_raster2(name, "");
        in->top = open_input_map(name, mapset);
        in->topMapType = Rast_get_map_type(in->top);

        /*open bottom */
        mapset = NULL;
        name = NULL;
        name = param.bottom->answer;
        mapset = G_find_raster2(name, "");
        in->bottom = open_input_map(name, mapset);
        in->bottomMapType = Rast_get_map_type(in->bottom);

        /* Write the vtk-header and the points */
        if (param.point->answer) {
            write_vtk_structured_grid_header(fp, output, region);
            write_vtk_points(in, fp, region, dp, 1, scale);
        } else {
            write_vtk_unstructured_grid_header(fp, output, region);
            write_vtk_points(in, fp, region, dp, 0, scale);
            write_vtk_unstructured_grid_cells(fp, region);
        }

        Rast_close(in->top);

        in->top = -1;

        Rast_close(in->bottom);

        in->bottom = -1;
    } else {
        /* Write the structured point vtk-header */
        write_vtk_structured_point_header(fp, output, region, dp, scale);
    }

    /*Write the normal VTK data (cell or point data) */
    /*Loop over all 3d input maps! */
    if (param.input->answers != NULL) {
        for (i = 0; param.input->answers[i] != NULL; i++) {

            G_debug(3, "Open 3D raster map <%s>", param.input->answers[i]);

            /*Open the map */
            in->map =
                Rast3d_open_cell_old(param.input->answers[i],
                                G_find_raster3d(param.input->answers[i], ""),
                                &region, RASTER3D_TILE_SAME_AS_FILE,
                                RASTER3D_USE_CACHE_DEFAULT);
            if (in->map == NULL) {
                G_warning(_("Unable to open 3D raster map <%s>"),
                          param.input->answers[i]);
                fatal_error(" ", in);
            }

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

            /* Write the point or cell data */
            write_vtk_data(fp, in->map, region, param.input->answers[i], dp);

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

            /* Close the 3d raster map */
            if (!Rast3d_close(in->map)) {
                in->map = NULL;
                fatal_error(_("Unable to close 3D raster map, the VTK file may be incomplete"),
                            in);
            }

            in->map = NULL;
        }
    }

    /*Write the RGB voxel data */
    open_write_rgb_maps(in, region, fp, dp);
    open_write_vector_maps(in, region, fp, dp);

    /*Close the output file */
    if (param.output->answer && fp != NULL)
        if (fclose(fp))
            fatal_error(_("Unable to close VTK-ASCII file"), in);

    /*close all open maps and free memory */
    release_input_maps_struct(in);

    return 0;
}
Ejemplo n.º 7
0
/* *************************************************************** */
int main(int argc, char *argv[])
{
    FCELL val_f;		/* for misc use */
    DCELL val_d;		/* for misc use */
    int map_type, zmap_type;
    univar_stat *stats;

    char *infile, *zonemap;
    void *map, *zmap = NULL;
    RASTER3D_Region region;
    unsigned int i;
    unsigned int rows, cols, depths;
    unsigned int x, y, z;
    double dmin, dmax;
    int zone, n_zones, use_zone = 0;
    char *mapset, *name;

    struct GModule *module;

    G_gisinit(argv[0]);

    module = G_define_module();
    G_add_keyword(_("raster3d"));
    G_add_keyword(_("statistics"));
    module->description =
	_("Calculates univariate statistics from the non-null 3d cells of a raster3d map.");

    /* Define the different options */
    set_params();

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

    /* Set the defaults */
    Rast3d_init_defaults();

    /* get the current region */
    Rast3d_get_window(&region);

    cols = region.cols;
    rows = region.rows;
    depths = region.depths;

    name = param.output_file->answer;
    if (name != NULL && strcmp(name, "-") != 0) {
	if (NULL == freopen(name, "w", stdout)) {
	    G_fatal_error(_("Unable to open file <%s> for writing"), name);
	}
    }

    /* table field separator */
    zone_info.sep = param.separator->answer;
    if (strcmp(zone_info.sep, "\\t") == 0)
	zone_info.sep = "\t";
    if (strcmp(zone_info.sep, "tab") == 0)
	zone_info.sep = "\t";
    if (strcmp(zone_info.sep, "space") == 0)
	zone_info.sep = " ";
    if (strcmp(zone_info.sep, "comma") == 0)
	zone_info.sep = ",";

    dmin = 0.0 / 0.0;	/* set to nan as default */
    dmax = 0.0 / 0.0;	/* set to nan as default */
    zone_info.min = 0.0 / 0.0;	/* set to nan as default */
    zone_info.max = 0.0 / 0.0;	/* set to nan as default */
    zone_info.n_zones = 0;

    /* open 3D zoning raster with default region */
    if ((zonemap = param.zonefile->answer) != NULL) {
	if (NULL == (mapset = G_find_raster3d(zonemap, "")))
	    Rast3d_fatal_error(_("3D raster map <%s> not found"), zonemap);

	zmap =
	    Rast3d_open_cell_old(zonemap, G_find_raster3d(zonemap, ""), &region,
			    RASTER3D_TILE_SAME_AS_FILE, RASTER3D_USE_CACHE_DEFAULT);

	if (zmap == NULL)
	    Rast3d_fatal_error(_("Unable to open 3D raster map <%s>"), zonemap);

	zmap_type = Rast3d_tile_type_map(zmap);
	
	if (Rast3d_read_cats(zonemap, mapset, &(zone_info.cats)))
	    G_warning("No category support for zoning raster");
	    
	Rast3d_range_init(zmap);
	Rast3d_range_load(zmap);
	Rast3d_range_min_max(zmap, &dmin, &dmax);

	/* properly round dmin and dmax */
	if (dmin < 0)
	    zone_info.min = dmin - 0.5;
	else
	    zone_info.min = dmin + 0.5;
	if (dmax < 0)
	    zone_info.max = dmax - 0.5;
	else
	    zone_info.max = dmax + 0.5;

	G_debug(1, "min: %d, max: %d", zone_info.min, zone_info.max);
	zone_info.n_zones = zone_info.max - zone_info.min + 1;

	use_zone = 1;
    }

    /* Open 3D input raster with default region */
    infile = param.inputfile->answer;

    if (NULL == G_find_raster3d(infile, ""))
	Rast3d_fatal_error(_("3D raster map <%s> not found"), infile);

    map =
	Rast3d_open_cell_old(infile, G_find_raster3d(infile, ""), &region,
			RASTER3D_TILE_SAME_AS_FILE, RASTER3D_USE_CACHE_DEFAULT);

    if (map == NULL)
	Rast3d_fatal_error(_("Unable to open 3D raster map <%s>"), infile);

    map_type = Rast3d_tile_type_map(map);

    i = 0;
    while (param.percentile->answers[i])
	i++;
 
    n_zones = zone_info.n_zones;

    if (n_zones == 0)
        n_zones = 1;

    stats = create_univar_stat_struct(map_type, i);
    for (i = 0; i < n_zones; i++) {
	unsigned int j;
	for (j = 0; j < stats[i].n_perc; j++) {
	    sscanf(param.percentile->answers[j], "%lf", &(stats[i].perc[j]));
	}
    }

    for (z = 0; z < depths; z++) {	/* From the bottom to the top */
	if (!(param.shell_style->answer))
	    G_percent(z, depths - 1, 10);
	for (y = 0; y < rows; y++) {
	    for (x = 0; x < cols; x++) {
		zone = 0;
		if (zone_info.n_zones) {
		    if (zmap_type == FCELL_TYPE) {
			Rast3d_get_value(zmap, x, y, z, &val_f, FCELL_TYPE);
			if (Rast3d_is_null_value_num(&val_f, FCELL_TYPE))
			    continue;
			if (val_f < 0)
			    zone = val_f - 0.5;
			else
			    zone = val_f + 0.5;
		    }
		    else if (zmap_type == DCELL_TYPE) {
			Rast3d_get_value(zmap, x, y, z, &val_d, DCELL_TYPE);
			if (Rast3d_is_null_value_num(&val_d, DCELL_TYPE))
			    continue;
			if (val_d < 0)
			    zone = val_d - 0.5;
			else
			    zone = val_d + 0.5;
		    }
                    zone -= zone_info.min;
                }
		if (map_type == FCELL_TYPE) {
		    Rast3d_get_value(map, x, y, z, &val_f, map_type);
		    if (!Rast3d_is_null_value_num(&val_f, map_type)) {
			if (param.extended->answer) {
			    if (stats[zone].n >= stats[zone].n_alloc) {
				size_t msize;
				stats[zone].n_alloc += 1000;
				msize = stats[zone].n_alloc * sizeof(FCELL);
				stats[zone].fcell_array =
				    (FCELL *)G_realloc((void *)stats[zone].fcell_array, msize);
			    }

			    stats[zone].fcell_array[stats[zone].n] = val_f;
			}

			stats[zone].sum += val_f;
			stats[zone].sumsq += (val_f * val_f);
			stats[zone].sum_abs += fabs(val_f);

			if (stats[zone].first) {
			    stats[zone].max = val_f;
			    stats[zone].min = val_f;
			    stats[zone].first = FALSE;
			}
			else {
			    if (val_f > stats[zone].max)
				stats[zone].max = val_f;
			    if (val_f < stats[zone].min)
				stats[zone].min = val_f;
			}
			stats[zone].n++;
		    }
		    stats[zone].size++;
		}
		else if (map_type == DCELL_TYPE) {
		    Rast3d_get_value(map, x, y, z, &val_d, map_type);
		    if (!Rast3d_is_null_value_num(&val_d, map_type)) {
			if (param.extended->answer) {
			    if (stats[zone].n >= stats[zone].n_alloc) {
				size_t msize;
				stats[zone].n_alloc += 1000;
				msize = stats[zone].n_alloc * sizeof(DCELL);
				stats[zone].dcell_array =
				    (DCELL *)G_realloc((void *)stats[zone].dcell_array, msize);
				}

			    stats[zone].dcell_array[stats[zone].n] = val_d;
			}

			stats[zone].sum += val_d;
			stats[zone].sumsq += val_d * val_d;
			stats[zone].sum_abs += fabs(val_d);

			if (stats[zone].first) {
			    stats[zone].max = val_d;
			    stats[zone].min = val_d;
			    stats[zone].first = FALSE;
			}
			else {
			    if (val_d > stats[zone].max)
				stats[zone].max = val_d;
			    if (val_d < stats[zone].min)
				stats[zone].min = val_d;
			}
			stats[zone].n++;
		    }
		    stats[zone].size++;
		}
	    }
	}
    }

    /* close maps */
    Rast3d_close(map);
    if (zone_info.n_zones)
	Rast3d_close(zmap);

    /* create the output */
    if (param.table->answer)
	print_stats_table(stats);
    else
	print_stats(stats);

    /* release memory */
    free_univar_stat_struct(stats);

    exit(EXIT_SUCCESS);
}
Ejemplo n.º 8
0
/* ************************************************************************* */
int main(int argc, char *argv[])
{
    RASTER3D_Region region;
    struct Cell_head window2d;
    struct GModule *module;
    void *map = NULL; /*The 3D Rastermap */
    int changemask = 0;
    int elevfd = -1, outfd = -1; /*file descriptors */
    int output_type, cols, rows;

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

    module = G_define_module();
    G_add_keyword(_("raster3d"));
    G_add_keyword(_("profile"));
    G_add_keyword(_("raster"));
    G_add_keyword(_("voxel"));
    module->description =
        _("Creates cross section 2D raster map from 3D raster map based on 2D elevation map");

    /* 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);

    /* Figure out the region from the map */
    Rast3d_init_defaults();
    Rast3d_get_window(&region);

    /*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 2D windows correct */
    if (rows != region.rows || cols != region.cols) {
        G_message
            (_("The 2D and 3D region settings are different. Using the 3D raster map settings to adjust the 2D region."));
        G_get_set_window(&window2d);
        window2d.ns_res = region.ns_res;
        window2d.ew_res = region.ew_res;
        window2d.rows = region.rows;
        window2d.cols = region.cols;
        Rast_set_window(&window2d);
    }


    /*******************/
    /*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);

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

    if (output_type == FCELL_TYPE || output_type == DCELL_TYPE) {

        /********************************/
        /*Open the elevation raster map */

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

        elevfd = Rast_open_old(param.elevation->answer, "");

        globalElevMapType = Rast_get_map_type(elevfd);

        /**********************/
        /*Open the Outputmap */

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

        if (G_find_raster2(param.output->answer, ""))
            G_message(_("Output map already exists. Will be overwritten!"));

        if (output_type == FCELL_TYPE)
            outfd = Rast_open_new(param.output->answer, FCELL_TYPE);
        else if (output_type == DCELL_TYPE)
            outfd = Rast_open_new(param.output->answer, 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 */

        /************************/
        rast3d_cross_section(map, region, elevfd, outfd);

        /*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);
        }

        Rast_close(outfd);
        Rast_close(elevfd);

    } else {
        fatal_error(map, -1, -1,
                    _("Wrong 3D raster datatype! Cannot create raster map"));
    }

    /* Close files and exit */
    if (!Rast3d_close(map))
        Rast3d_fatal_error(_("Unable to close 3D raster map <%s>"),
                       param.input->answer);

    return (EXIT_SUCCESS);
}
Ejemplo n.º 9
0
int OUTGR()
{
    void *cf1, *cf2, *cf3, *cf4, *cf5, *cf6, *cf7;
    int read_val;
    FCELL *cell;
    float *data;
    int i, iarc, cnt;
    int bmask = 1;
    int x, y;
    float value;

    if ((cellinp != NULL) && (cellout != NULL)) {
	cell = Rast_allocate_f_buf();

	for (i = 0; i < nsizr; i++) {
	    /* seek to the right row */
	    G_fseek
		(Tmp_fd_cell, ((off_t)(nsizr - 1 - i) * nsizc * sizeof(FCELL)),
		 0);
	    fread(cell, sizeof(FCELL), nsizc, Tmp_fd_cell);
	    Rast_put_f_row(fdcout, cell);
	}
    }

  /*** Initialize output g3d region ***/
    current_region.bottom = z_orig_in;
    current_region.top = nsizl * tb_res_in + z_orig_in;

    if (!(data = (float *)G_malloc(sizeof(float) * nsizr * nsizc * nsizl))) {
	clean();
	G_fatal_error(_("Out of memory"));
    }

  /*** Write elevation results ***/
    if (outz != NULL) {

	cf1 = Rast3d_open_new_opt_tile_size(outz, RASTER3D_USE_CACHE_DEFAULT, &current_region, FCELL_TYPE, 32); 
	if (cf1 == NULL) {
	    clean();
	    G_fatal_error(_("Unable to open %s for writing"), outz);
	}

	/* seek to the beginning */
	G_fseek(Tmp_fd_z, 0L, 0);

	/* Read data in from temp file */
	read_val =
	    fread(data, sizeof(float), nsizr * nsizc * nsizl, Tmp_fd_z);
	if (read_val < 0) {
	    clean();
	    G_fatal_error(_("Unable to read data from temp file"));
	}

	cnt = 0;
	for (iarc = 0; iarc < nsizl; iarc++) {

	    for (y = nsizr - 1; y >= 0; y--) {	/* changed by AV */
		for (x = 0; x < nsizc; x++) {
		    if (maskmap != NULL)
			bmask = BM_get(bitmask, x, nsizr - y - 1);
		    else
			bmask = 1;
		    value = data[cnt];
		    if (!bmask)
			Rast3d_set_null_value(&value, 1, FCELL_TYPE);
		    if (Rast3d_put_float(cf1, x, y, iarc, value) == 0) {
			clean();
			G_fatal_error(
				_("Error writing cell (%d,%d,%d) with value %f"),
				x, y, iarc, value);
		    }

		    cnt++;

		}
	    }
	}

	/* Close the file */
	if (Rast3d_close(cf1) == 0) {
	    clean();
	    G_fatal_error(_("Error closing output file %s"), outz);
	} else
            G_message(_("3D raster map <%s> created"), outz);
    }

  /*** Write out the gradient results ***/
    if (gradient != NULL) {

	cf2 = Rast3d_open_new_opt_tile_size(gradient, RASTER3D_USE_CACHE_DEFAULT, &current_region, FCELL_TYPE, 32); 
	if (cf2 == NULL) {
	    clean();
	    G_fatal_error(_("Unable to open %s for writing"), gradient);
	}

	/* seek to the beginning */
	G_fseek(Tmp_fd_dx, 0L, 0);

	/* Read data in from temp file */
	read_val =
	    fread(data, sizeof(float), nsizr * nsizc * nsizl, Tmp_fd_dx);
	if (read_val < 0) {
	    clean();
	    G_fatal_error(_("Unable to read data from temp file"));
	}

	cnt = 0;
	for (iarc = 0; iarc < nsizl; iarc++) {

	    for (y = nsizr - 1; y >= 0; y--) {	/* changed by AV */
		for (x = 0; x < nsizc; x++) {
		    if (maskmap != NULL)
			bmask = BM_get(bitmask, x, nsizr - y - 1);
		    else
			bmask = 1;
		    value = data[cnt];
		    if (!bmask)
			Rast3d_set_null_value(&value, 1, FCELL_TYPE);
		    if (Rast3d_put_float(cf2, x, y, iarc, value) == 0) {
			clean();
			G_fatal_error(
				_("Error writing cell (%d,%d,%d) with value %f"),
				x, y, iarc, value);
		    }

		    cnt++;

		}
	    }
	}

	/* Close the file */
	if (Rast3d_close(cf2) == 0) {
	    clean();
	    G_fatal_error(_("Error closing output file %s"), gradient);
	} else
            G_message(_("3D raster map <%s> created"), gradient);
    }

  /*** Write out aspect1 results ***/
    if (aspect1 != NULL) {

	cf3 = Rast3d_open_new_opt_tile_size(aspect1, RASTER3D_USE_CACHE_DEFAULT, &current_region, FCELL_TYPE, 32); 
	if (cf3 == NULL) {
	    clean();
	    G_fatal_error(_("Unable to open %s for writing"), aspect1);
	}

	/* seek to the beginning */
	G_fseek(Tmp_fd_dy, 0L, 0);

	/* Read data in from temp file */
	read_val =
	    fread(data, sizeof(float), nsizr * nsizc * nsizl, Tmp_fd_dy);
	if (read_val < 0) {
	    clean();
	    G_fatal_error(_("Unable to read data from temp file"));
	}

	cnt = 0;
	for (iarc = 0; iarc < nsizl; iarc++) {

	    for (y = nsizr - 1; y >= 0; y--) {	/* changed by AV */
		for (x = 0; x < nsizc; x++) {
		    if (maskmap != NULL)
			bmask = BM_get(bitmask, x, nsizr - y - 1);
		    else
			bmask = 1;
		    value = data[cnt] * 180 / M_PI;
		    if (!bmask)
			Rast3d_set_null_value(&value, 1, FCELL_TYPE);
		    if (Rast3d_put_float(cf3, x, y, iarc, value) == 0) {
			clean();
			G_fatal_error(
				_("Error writing cell (%d,%d,%d) with value %f"),
				x, y, iarc, value);
		    }

		    cnt++;

		}
	    }
	}

	/* Close the file */
	if (Rast3d_close(cf3) == 0) {
	    clean();
	    G_fatal_error(_("Error closing output file %s"), aspect1);
	} else
            G_message(_("3D raster map <%s> created"), aspect1);
    }

  /*** Write out aspect2 results ***/
    if (aspect2 != NULL) {

	cf4 = Rast3d_open_new_opt_tile_size(aspect2, RASTER3D_USE_CACHE_DEFAULT, &current_region, FCELL_TYPE, 32); 
	if (cf4 == NULL) {
	    clean();
	    G_fatal_error(_("Unable to open %s for writing"), aspect2);
	}

	/* seek to the beginning */
	G_fseek(Tmp_fd_dz, 0L, 0);

	/* Read data in from temp file */
	read_val =
	    fread(data, sizeof(float), nsizr * nsizc * nsizl, Tmp_fd_dz);
	if (read_val < 0) {
	    clean();
	    G_fatal_error(_("Unable to read data from temp file"));
	}

	cnt = 0;
	for (iarc = 0; iarc < nsizl; iarc++) {

	    for (y = nsizr - 1; y >= 0; y--) {	/* changed by AV */
		for (x = 0; x < nsizc; x++) {
		    if (maskmap != NULL)
			bmask = BM_get(bitmask, x, nsizr - y - 1);
		    else
			bmask = 1;
		    value = data[cnt] * 180 / M_PI;
		    if (!bmask)
			Rast3d_set_null_value(&value, 1, FCELL_TYPE);
		    if (Rast3d_put_float(cf4, x, y, iarc, value) == 0) {
			clean();
			G_fatal_error(
				_("Error writing cell (%d,%d,%d) with value %f"),
				x, y, iarc, value);
		    }

		    cnt++;

		}
	    }
	}

	/* Close the file */
	if (Rast3d_close(cf4) == 0) {
	    clean();
	    G_fatal_error(_("Error closing output file %s"), aspect2);
	} else
            G_message(_("3D raster map <%s> created"), aspect2);
    }

  /*** Write out ncurv results ***/
    if (ncurv != NULL) {

	cf5 = Rast3d_open_new_opt_tile_size(ncurv, RASTER3D_USE_CACHE_DEFAULT, &current_region, FCELL_TYPE, 32); 
	if (cf5 == NULL) {
	    clean();
	    G_fatal_error(_("Unable to open %s for writing"), ncurv);
	}

	/* seek to the beginning */
	G_fseek(Tmp_fd_xx, 0L, 0);

	/* Read data in from temp file */
	read_val =
	    fread(data, sizeof(float), nsizr * nsizc * nsizl, Tmp_fd_xx);
	if (read_val < 0) {
	    clean();
	    G_fatal_error(_("Unable to read data from temp file"));
	}

	cnt = 0;
	for (iarc = 0; iarc < nsizl; iarc++) {

	    for (y = nsizr - 1; y >= 0; y--) {	/* changed by AV */
		for (x = 0; x < nsizc; x++) {
		    if (maskmap != NULL)
			bmask = BM_get(bitmask, x, nsizr - y - 1);
		    else
			bmask = 1;
		    value = data[cnt];
		    if (!bmask)
			Rast3d_set_null_value(&value, 1, FCELL_TYPE);
		    if (Rast3d_put_float(cf5, x, y, iarc, value) == 0) {
			clean();
			G_fatal_error(
				_("Error writing cell (%d,%d,%d) with value %f"),
				x, y, iarc, value);
		    }

		    cnt++;

		}
	    }
	}

	/* Close the file */
	if (Rast3d_close(cf5) == 0) {
	    clean();
	    G_fatal_error(_("Error closing output file %s"), ncurv);
	} else
            G_message(_("3D raster map <%s> created"), ncurv);
    }

  /*** Write out gcurv results ***/
    if (gcurv != NULL) {

	cf6 = Rast3d_open_new_opt_tile_size(gcurv, RASTER3D_USE_CACHE_DEFAULT, &current_region, FCELL_TYPE, 32); 
	if (cf6 == NULL) {
	    clean();
	    G_fatal_error(_("Unable to open %s for writing"), gcurv);
	}

	/* seek to the beginning */
	G_fseek(Tmp_fd_yy, 0L, 0);

	/* Read data in from temp file */
	read_val =
	    fread(data, sizeof(float), nsizr * nsizc * nsizl, Tmp_fd_yy);
	if (read_val < 0) {
	    clean();
	    G_fatal_error(_("Unable to read data from temp file"));
	}

	cnt = 0;
	for (iarc = 0; iarc < nsizl; iarc++) {

	    for (y = nsizr - 1; y >= 0; y--) {	/* changed by AV */
		for (x = 0; x < nsizc; x++) {
		    if (maskmap != NULL)
			bmask = BM_get(bitmask, x, nsizr - y - 1);
		    else
			bmask = 1;
		    value = data[cnt];
		    if (!bmask)
			Rast3d_set_null_value(&value, 1, FCELL_TYPE);
		    if (Rast3d_put_float(cf6, x, y, iarc, value) == 0) {
			clean();
			G_fatal_error(
				_("Error writing cell (%d,%d,%d) with value %f"),
				x, y, iarc, value);
		    }

		    cnt++;

		}
	    }
	}

	/* Close the file */
	if (Rast3d_close(cf6) == 0) {
	    clean();
	    G_fatal_error(_("Error closing output file %s"), gcurv);
	} else
            G_message(_("3D raster map <%s> created"), gcurv);
    }

  /*** Write mcurv results ***/
    if (mcurv != NULL) {

	cf7 = Rast3d_open_new_opt_tile_size(mcurv, RASTER3D_USE_CACHE_DEFAULT, &current_region, FCELL_TYPE, 32); 
	if (cf7 == NULL) {
	    clean();
	    G_fatal_error(_("Unable to open %s for writing"), mcurv);
	}

	/* seek to the beginning */
	G_fseek(Tmp_fd_xy, 0L, 0);

	/* Read data in from temp file */
	read_val =
	    fread(data, sizeof(float), nsizr * nsizc * nsizl, Tmp_fd_xy);
	if (read_val < 0) {
	    clean();
	    G_fatal_error(_("Unable to read data from temp file"));
	}

	cnt = 0;
	for (iarc = 0; iarc < nsizl; iarc++) {

	    for (y = nsizr - 1; y >= 0; y--) {	/* changed by AV */
		for (x = 0; x < nsizc; x++) {
		    if (maskmap != NULL)
			bmask = BM_get(bitmask, x, nsizr - y - 1);
		    else
			bmask = 1;
		    value = data[cnt];
		    if (!bmask)
			Rast3d_set_null_value(&value, 1, FCELL_TYPE);
		    if (Rast3d_put_float(cf7, x, y, iarc, value) == 0) {
			clean();
			G_fatal_error(
				_("Error writing cell (%d,%d,%d) with value %f"),
				x, y, iarc, value);
		    }

		    cnt++;

		}
	    }
	}

	/* Close the file */
	if (Rast3d_close(cf7) == 0) {
	    clean();
	    G_fatal_error(_("Error closing output file %s"), mcurv);
	} else
            G_message(_("3D raster map <%s> created"), mcurv);
    }

    G_free(data);

    return 1;
}
Ejemplo n.º 10
0
int main(int argc, char *argv[]) {
	struct GModule *module;
	struct {
		struct Option *input;
		struct Option *output;
		struct Option *null;
		struct Option *bytes;
		struct Option *order;
		struct Option *north;
		struct Option *south;
		struct Option *top;
		struct Option *bottom;
		struct Option *east;
		struct Option *west;
		struct Option *rows;
		struct Option *cols;
		struct Option *depths;
	} parm;
	struct {
		struct Flag *integer_in;
		struct Flag *sign;
		struct Flag *depth;
		struct Flag *row;
	} flag;
	const char *input;
	const char *output;
	int is_integer;
	int is_signed;
	int bytes;
	int order;
	int byte_swap;
	RASTER_MAP_TYPE map_type;
	off_t file_size;
	struct History history;
	off_t expected;
	/* Need to be allocated later */
	in_cell = NULL;

	G_gisinit(argv[0]);

	/* Set description */
	module = G_define_module();
	G_add_keyword(_("raster3d"));
	G_add_keyword(_("import"));
	G_add_keyword(_("voxel"));
	module->description =
			_("Imports a binary raster file into a GRASS 3D raster map.");

	parm.input = G_define_standard_option(G_OPT_F_BIN_INPUT);
	parm.input->description = _("Name of binary 3D raster file to be imported");

	parm.output = G_define_standard_option(G_OPT_R3_OUTPUT);

	parm.bytes = G_define_option();
	parm.bytes->key = "bytes";
	parm.bytes->type = TYPE_INTEGER;
	parm.bytes->required = YES;
	parm.bytes->options = "1,2,4,8";
	parm.bytes->description = _("Number of bytes per cell in binary file");

	parm.order = G_define_option();
	parm.order->key = "order";
	parm.order->type = TYPE_STRING;
	parm.order->required = NO;
	parm.order->options = "big,little,native,swap";
	parm.order->description = _("Byte order in binary file");
	parm.order->answer = "native";

	parm.north = G_define_option();
	parm.north->key = "north";
	parm.north->type = TYPE_DOUBLE;
	parm.north->required = YES;
	parm.north->description =
			_("Northern limit of geographic region (outer edge)");
	parm.north->guisection = _("Bounds");

	parm.south = G_define_option();
	parm.south->key = "south";
	parm.south->type = TYPE_DOUBLE;
	parm.south->required = YES;
	parm.south->description =
			_("Southern limit of geographic region (outer edge)");
	parm.south->guisection = _("Bounds");

	parm.east = G_define_option();
	parm.east->key = "east";
	parm.east->type = TYPE_DOUBLE;
	parm.east->required = YES;
	parm.east->description =
			_("Eastern limit of geographic region (outer edge)");
	parm.east->guisection = _("Bounds");

	parm.west = G_define_option();
	parm.west->key = "west";
	parm.west->type = TYPE_DOUBLE;
	parm.west->required = YES;
	parm.west->description =
			_("Western limit of geographic region (outer edge)");
	parm.west->guisection = _("Bounds");

	parm.bottom = G_define_option();
	parm.bottom->key = "bottom";
	parm.bottom->type = TYPE_DOUBLE;
	parm.bottom->required = YES;
	parm.bottom->description =
			_("Bottom limit of geographic region (outer edge)");
	parm.bottom->guisection = _("Bounds");

	parm.top = G_define_option();
	parm.top->key = "top";
	parm.top->type = TYPE_DOUBLE;
	parm.top->required = YES;
	parm.top->description = _("Top limit of geographic region (outer edge)");
	parm.top->guisection = _("Bounds");

	parm.rows = G_define_option();
	parm.rows->key = "rows";
	parm.rows->type = TYPE_INTEGER;
	parm.rows->required = YES;
	parm.rows->description = _("Number of rows");
	parm.rows->guisection = _("Bounds");

	parm.cols = G_define_option();
	parm.cols->key = "cols";
	parm.cols->type = TYPE_INTEGER;
	parm.cols->required = YES;
	parm.cols->description = _("Number of columns");
	parm.cols->guisection = _("Bounds");

	parm.depths = G_define_option();
	parm.depths->key = "depths";
	parm.depths->type = TYPE_INTEGER;
	parm.depths->required = YES;
	parm.depths->description = _("Number of depths");
	parm.depths->guisection = _("Bounds");

	parm.null = G_define_option();
	parm.null->key = "null";
	parm.null->type = TYPE_DOUBLE;
	parm.null->required = NO;
	parm.null->description = _("Set Value to NULL");

	flag.row = G_define_flag();
	flag.row->key = 'r';
	flag.row->description = _("Switch the row order in output from "
			"north->south to south->north");

	flag.depth = G_define_flag();
	flag.depth->key = 'd';
	flag.depth->description = _("Switch the depth order in output "
			"from bottom->top to top->bottom");

	flag.integer_in = G_define_flag();
	flag.integer_in->key = 'i';
	flag.integer_in->description =
			_("Binary data is of type integer");

	flag.sign = G_define_flag();
	flag.sign->key = 's';
	flag.sign->description = _("Signed data (two's complement)");

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

	input = parm.input->answer;
	output = parm.output->answer;

	if (G_strcasecmp(parm.order->answer, "big") == 0)
		order = 0;
	else if (G_strcasecmp(parm.order->answer, "little") == 0)
		order = 1;
	else if (G_strcasecmp(parm.order->answer, "native") == 0)
		order = G_is_little_endian() ? 1 : 0;
	else if (G_strcasecmp(parm.order->answer, "swap") == 0)
		order = G_is_little_endian() ? 0 : 1;

	byte_swap = order == (G_is_little_endian() ? 0 : 1);

	is_signed = !!flag.sign->answer;

	is_integer = 0;
	bytes = 8;

	if (parm.bytes->answer)
		bytes = atoi(parm.bytes->answer);

	if (!flag.integer_in->answer) {
		if (bytes && bytes < 4)
			G_fatal_error(
					_("bytes=%d; must be 4 or 8 in case of floating point input"),
					bytes);
		if (!bytes)
			bytes = 4;
	} else {
		is_integer = 1;
	}

#ifndef HAVE_LONG_LONG_INT
	if (is_integer && bytes > 4)
	G_fatal_error(_("Integer input doesn't support size=8 in this build"));
#endif

	if (bytes != 1 && bytes != 2 && bytes != 4 && bytes != 8)
		G_fatal_error(_("bytes= must be 1, 2, 4 or 8"));

	region.zone = G_zone();
	region.proj = G_projection();
	region.rows = atoi(parm.rows->answer);
	region.cols = atoi(parm.cols->answer);
	region.depths = atoi(parm.depths->answer);
	region.top = atof(parm.top->answer);
	region.bottom = atof(parm.bottom->answer);

	if (!G_scan_northing(parm.north->answer, &region.north, region.proj))
		G_fatal_error(_("Illegal north coordinate <%s>"), parm.north->answer);
	if (!G_scan_northing(parm.south->answer, &region.south, region.proj))
		G_fatal_error(_("Illegal south coordinate <%s>"), parm.south->answer);
	if (!G_scan_easting(parm.east->answer, &region.east, region.proj))
		G_fatal_error(_("Illegal east coordinate <%s>"), parm.east->answer);
	if (!G_scan_easting(parm.west->answer, &region.west, region.proj))
		G_fatal_error(_("Illegal west coordinate <%s>"), parm.west->answer);

	Rast3d_adjust_region(&region);

	expected = (off_t) region.rows * region.cols * region.depths * bytes;

	fp = fopen(input, "rb");
	if (!fp)
		G_fatal_error(_("Unable to open <%s>"), input);

	/* Find File Size in Byte and Check against byte size */
	G_fseek(fp, 0, SEEK_END);
	file_size = G_ftell(fp);
	G_fseek(fp, 0, SEEK_SET);

	if (file_size != expected) {
		G_warning(_("File Size %lld ... Total Bytes %lld"),
				(long long int) file_size, (long long int) expected);
		G_fatal_error(_("Bytes do not match file size"));
	}

	map_type = (bytes > 4 ? DCELL_TYPE : FCELL_TYPE);

	if(is_integer && bytes >= 4)
		map_type = DCELL_TYPE;

	Rast3d_init_defaults();

	/*Open the new 3D raster map */
	map = Rast3d_open_new_opt_tile_size(output, RASTER3D_USE_CACHE_DEFAULT,
			&region, map_type, 32);

	if (map == NULL)
		G_fatal_error(_("Unable to open 3D raster map"));

	in_cell = G_malloc(bytes);

	bin_to_raster3d(parm.null->answer, map_type, is_integer, is_signed, bytes,
			byte_swap, flag.row->answer, flag.depth->answer);

	if (!Rast3d_close(map))
		G_fatal_error(_("Unable to close 3D raster map"));

	/* write input name to map history */
	Rast3d_read_history(output, G_mapset(), &history);
	Rast_set_history(&history, HIST_DATSRC_1, input);
	Rast3d_write_history(output, &history);

	fclose(fp);
	if (in_cell)
		G_free(in_cell);

	return EXIT_SUCCESS;
}
Ejemplo n.º 11
0
int test_large_file_zeros(int depths, int rows, int cols, int tile_size)
{
    int sum = 0;
    int x, y, z;
    DCELL value;

    G_message("Testing DCELL put function for large files filled with zeros");

    RASTER3D_Region region;
    RASTER3D_Map *map = NULL;

    /* We need to set up a specific region for the new raster3d map.
     * First we safe the default region. */
    Rast3d_get_window(&region);

    region.bottom = -365.5;
    region.top = 365.5;
    region.south = -90;
    region.north = 90;
    region.west = -180;
    region.east = 180;
    region.rows = rows;
    region.cols = cols;
    region.depths = depths;

    Rast3d_adjust_region(&region);

    G_message("Creating 3D raster map filled with zeros");

    map = Rast3d_open_new_opt_tile_size("test_put_get_value_dcell_large_zeros",
                                        RASTER3D_USE_CACHE_XY, &region, DCELL_TYPE, tile_size);

    /* The window is the same as the map region ... of course */
    Rast3d_set_window_map(map, &region);

    for(z = 0; z < region.depths; z++) {
        G_percent(z, region.depths, 1);
        for(y = 0; y < region.rows; y++) {
            for(x = 0; x < region.cols; x++) {
                /* Put the counter as cell value */
                value = 0.0;
                Rast3d_put_value(map, x, y, z, &value, DCELL_TYPE);
            }
        }
    }

    G_percent(1, 1, 1);
    /* Write everything to the disk */
    Rast3d_flush_all_tiles(map);
    Rast3d_close(map);

    G_message("Verifying 3D raster map filled with zeros");

    map = Rast3d_open_cell_old("test_put_get_value_dcell_large_zeros",
                               G_mapset(), &region, DCELL_TYPE, RASTER3D_USE_CACHE_XY);

    for(z = 0; z < region.depths; z++) {
        G_percent(z, region.depths, 1);
        for(y = 0; y < region.rows; y++) {
            for(x = 0; x < region.cols; x++) {
                /* Check the counter as cell value */
                Rast3d_get_value(map, x, y, z, &value, DCELL_TYPE);
                if(value > EPSILON) {
                    G_message("At: z %i y %i x %i -- value %.14lf != 0.0\n",
                              z, y, x, value);
                    sum++;
                }
            }
        }
    }
    G_percent(1, 1, 1);
    Rast3d_close(map);

    G_remove("grid3", "test_put_get_value_dcell_large_zeros");

    return sum;
}
Ejemplo n.º 12
0
static void
modifyNull(char *name, d_Mask * maskRules, int changeNull, double newNullVal)
{
    void *map, *mapOut;
    RASTER3D_Region region;
    int tileX, tileY, tileZ, x, y, z;
    double value;
    int doCompress, doLzw, doRle, precision;
    int cacheSize;

    cacheSize = Rast3d_cache_size_encode(RASTER3D_USE_CACHE_XY, 1);

    if (NULL == G_find_raster3d(name, ""))
	Rast3d_fatal_error(_("3D raster map <%s> not found"), name);

    fprintf(stderr, "name %s Mapset %s \n", name, G_mapset());
    map = Rast3d_open_cell_old(name, G_mapset(), RASTER3D_DEFAULT_WINDOW,
			  DCELL_TYPE, cacheSize);

    if (map == NULL)
	Rast3d_fatal_error(_("Unable to open 3D raster map <%s>"), name);

    Rast3d_get_region_struct_map(map, &region);
    Rast3d_get_tile_dimensions_map(map, &tileX, &tileY, &tileZ);

    Rast3d_get_compression_mode(&doCompress, &doLzw, &doRle, &precision);

    mapOut = Rast3d_open_new_param(name, DCELL_TYPE, RASTER3D_USE_CACHE_XY,
			      &region, Rast3d_file_type_map(map),
			      doLzw, doRle, Rast3d_tile_precision_map(map), tileX,
			      tileY, tileZ);
    if (mapOut == NULL)
	Rast3d_fatal_error(_("modifyNull: error opening tmp file"));

    Rast3d_min_unlocked(map, RASTER3D_USE_CACHE_X);
    Rast3d_autolock_on(map);
    Rast3d_unlock_all(map);
    Rast3d_min_unlocked(mapOut, RASTER3D_USE_CACHE_X);
    Rast3d_autolock_on(mapOut);
    Rast3d_unlock_all(mapOut);

	for (z = 0; z < region.depths; z++) {
	if ((z % tileZ) == 0) {
	    Rast3d_unlock_all(map);
	    Rast3d_unlock_all(mapOut);
	}
	for (y = 0; y < region.rows; y++)
	    for (x = 0; x < region.cols; x++) {

		value = Rast3d_get_double_region(map, x, y, z);

		if (Rast3d_is_null_value_num(&value, DCELL_TYPE)) {
		    if (changeNull) {
			value = newNullVal;
		    }
		}
		else if (Rast3d_mask_d_select((DCELL *) & value, maskRules)) {
		    Rast3d_set_null_value(&value, 1, DCELL_TYPE);
		}

		Rast3d_put_double(mapOut, x, y, z, value);
	    }
	if ((z % tileZ) == 0) {
	    if (!Rast3d_flush_tiles_in_cube
		(mapOut, 0, 0, MAX(0, z - tileZ), region.rows - 1,
		 region.cols - 1, z))
		Rast3d_fatal_error(_("modifyNull: error flushing tiles in cube"));
	}
    }

    if (!Rast3d_flush_all_tiles(mapOut))
	Rast3d_fatal_error(_("modifyNull: error flushing all tiles"));

    Rast3d_autolock_off(map);
    Rast3d_unlock_all(map);
    Rast3d_autolock_off(mapOut);
    Rast3d_unlock_all(mapOut);

    if (!Rast3d_close(map))
	Rast3d_fatal_error(_("Unable to close raster map"));
    if (!Rast3d_close(mapOut))
	Rast3d_fatal_error(_("modifyNull: Unable to close tmp file"));
}
Ejemplo n.º 13
0
int test_large_file_sparse_random(int depths, int rows, int cols, int tile_size)
{
    int sum = 0;
    int x, y, z, i;
    DCELL value, random_value;
    DCELL *random_value_vector = G_calloc(RAND_VALUE_VECTOR_SIZE, sizeof(DCELL));

    G_message("Testing DCELL put function for large files filled with sparse random values");

    RASTER3D_Region region;
    RASTER3D_Map *map = NULL;

    /* We need to set up a specific region for the new raster3d map.
     * First we safe the default region. */
    Rast3d_get_window(&region);

    region.bottom = -365.5;
    region.top = 365.5;
    region.south = -90;
    region.north = 90;
    region.west = -180;
    region.east = 180;
    region.rows = rows;
    region.cols = cols;
    region.depths = depths;

    Rast3d_adjust_region(&region);

    G_message("Creating 3D raster map filled with sparse random values");

    map = Rast3d_open_new_opt_tile_size("test_put_get_value_dcell_large_sparse_random",
                                        RASTER3D_USE_CACHE_XY, &region, DCELL_TYPE, tile_size);

    /* The window is the same as the map region ... of course */
    Rast3d_set_window_map(map, &region);

    srand(1);

    /* We fill the random value vector */
    for(i = 0; i < RAND_VALUE_VECTOR_SIZE; i++) {
        /* Put the counter as cell value */
        value = (DCELL)rand();
        value /= RAND_MAX;
        if(value <= 0.7)
            value = 0.0;
        else if(value <= 0.8)
            value = 1.0;
        else if(value <= 0.9)
            value = 2.0;
        else if(value <= 1.0)
            value = 3.0;
        else
            value = 4.0;
        random_value_vector[i] = value;
    }

    i = 0;

    for(z = 0; z < region.depths; z++) {
        G_percent(z, region.depths, 1);
        for(y = 0; y < region.rows; y++) {
            for(x = 0; x < region.cols; x++) {
                /* Put the counter as cell value */
                value = random_value_vector[i];
                Rast3d_put_value(map, x, y, z, &value, DCELL_TYPE);
                i++;
                if(i == RAND_VALUE_VECTOR_SIZE)
                    i = 0;
            }
        }
    }

    G_percent(1, 1, 1);
    /* Write everything to the disk */
    Rast3d_flush_all_tiles(map);
    Rast3d_close(map);

    G_message("Verifying 3D raster map filled with sparse random values");

    map = Rast3d_open_cell_old("test_put_get_value_dcell_large_sparse_random",
                               G_mapset(), &region, DCELL_TYPE, RASTER3D_USE_CACHE_XY);

    i = 0;

    for(z = 0; z < region.depths; z++) {
        G_percent(z, region.depths, 1);
        for(y = 0; y < region.rows; y++) {
            for(x = 0; x < region.cols; x++) {
                /* Check the counter as cell value */
                Rast3d_get_value(map, x, y, z, &value, DCELL_TYPE);
                if(fabs(value - random_value_vector[i]) > EPSILON) {
                    G_message("At: z %i y %i x %i -- value %.14lf != %.14lf\n",
                              z, y, x, value, random_value);
                    sum++;
                }
                i++;
                if(i == RAND_VALUE_VECTOR_SIZE)
                    i = 0;
            }
        }
    }
    G_percent(1, 1, 1);
    Rast3d_close(map);

    G_free(random_value_vector);

    G_remove("grid3", "test_put_get_value_dcell_large_sparse_random");

    return sum;
}
Ejemplo n.º 14
0
int main(int argc, char *argv[])
{
    struct Option *vector_opt, *seed_opt, *flowlines_opt, *flowacc_opt, *sampled_opt,
	*scalar_opt, *unit_opt, *step_opt, *limit_opt, *skip_opt, *dir_opt,
	*error_opt;
    struct Flag *table_fl;
    struct GModule *module;
    RASTER3D_Region region;
    RASTER3D_Map *flowacc, *sampled;
    struct Integration integration;
    struct Seed seed;
    struct Gradient_info gradient_info;
    struct Map_info seed_Map;
    struct line_pnts *seed_points;
    struct line_cats *seed_cats;
    struct Map_info fl_map;
    struct line_cats *fl_cats;	/* for flowlines */
    struct line_pnts *fl_points;	/* for flowlines */
    struct field_info *finfo;
    dbDriver *driver;
    int cat;			/* cat of flowlines */
    int if_table;
    int i, r, c, d;
    char *desc;
    int n_seeds, seed_count, ltype;
    int skip[3];

    G_gisinit(argv[0]);
    module = G_define_module();
    G_add_keyword(_("raster3d"));
    G_add_keyword(_("hydrology"));
    G_add_keyword(_("voxel"));
    module->description =
	_("Computes 3D flow lines and 3D flow accumulation.");


    scalar_opt = G_define_standard_option(G_OPT_R3_INPUT);
    scalar_opt->required = NO;
    scalar_opt->guisection = _("Input");

    vector_opt = G_define_standard_option(G_OPT_R3_INPUTS);
    vector_opt->key = "vector_field";
    vector_opt->required = NO;
    vector_opt->description = _("Names of three 3D raster maps describing "
				"x, y, z components of vector field");
    vector_opt->guisection = _("Input");

    seed_opt = G_define_standard_option(G_OPT_V_INPUT);
    seed_opt->required = NO;
    seed_opt->key = "seed_points";
    seed_opt->description = _("If no map is provided, "
			      "flow lines are generated "
			      "from each cell of the input 3D raster");
    seed_opt->label = _("Name of vector map with points "
			"from which flow lines are generated");
    seed_opt->guisection = _("Input");

    flowlines_opt = G_define_standard_option(G_OPT_V_OUTPUT);
    flowlines_opt->key = "flowline";
    flowlines_opt->required = NO;
    flowlines_opt->description = _("Name for vector map of flow lines");
    flowlines_opt->guisection = _("Output");

    flowacc_opt = G_define_standard_option(G_OPT_R3_OUTPUT);
    flowacc_opt->key = "flowaccumulation";
    flowacc_opt->required = NO;
    flowacc_opt->description =
	_("Name for output flowaccumulation 3D raster");
    flowacc_opt->guisection = _("Output");

    sampled_opt = G_define_standard_option(G_OPT_R3_INPUT);
    sampled_opt->key = "sampled";
    sampled_opt->required = NO;
    sampled_opt->label =
            _("Name for 3D raster sampled by flowlines");
    sampled_opt->description =
            _("Values of this 3D raster will be stored "
              "as attributes of flowlines segments");

    unit_opt = G_define_option();
    unit_opt->key = "unit";
    unit_opt->type = TYPE_STRING;
    unit_opt->required = NO;
    unit_opt->answer = "cell";
    unit_opt->options = "time,length,cell";
    desc = NULL;
    G_asprintf(&desc,
	       "time;%s;"
	       "length;%s;"
	       "cell;%s",
	       _("elapsed time"),
	       _("length in map units"), _("length in cells (voxels)"));
    unit_opt->descriptions = desc;
    unit_opt->label = _("Unit of integration step");
    unit_opt->description = _("Default unit is cell");
    unit_opt->guisection = _("Integration");

    step_opt = G_define_option();
    step_opt->key = "step";
    step_opt->type = TYPE_DOUBLE;
    step_opt->required = NO;
    step_opt->answer = "0.25";
    step_opt->label = _("Integration step in selected unit");
    step_opt->description = _("Default step is 0.25 cell");
    step_opt->guisection = _("Integration");

    limit_opt = G_define_option();
    limit_opt->key = "limit";
    limit_opt->type = TYPE_INTEGER;
    limit_opt->required = NO;
    limit_opt->answer = "2000";
    limit_opt->description = _("Maximum number of steps");
    limit_opt->guisection = _("Integration");

    error_opt = G_define_option();
    error_opt->key = "max_error";
    error_opt->type = TYPE_DOUBLE;
    error_opt->required = NO;
    error_opt->answer = "1e-5";
    error_opt->label = _("Maximum error of integration");
    error_opt->description = _("Influences step, increase maximum error "
			       "to allow bigger steps");
    error_opt->guisection = _("Integration");

    skip_opt = G_define_option();
    skip_opt->key = "skip";
    skip_opt->type = TYPE_INTEGER;
    skip_opt->required = NO;
    skip_opt->multiple = YES;
    skip_opt->description =
	_("Number of cells between flow lines in x, y and z direction");

    dir_opt = G_define_option();
    dir_opt->key = "direction";
    dir_opt->type = TYPE_STRING;
    dir_opt->required = NO;
    dir_opt->multiple = NO;
    dir_opt->options = "up,down,both";
    dir_opt->answer = "down";
    dir_opt->description = _("Compute flowlines upstream, "
			     "downstream or in both direction.");

    table_fl = G_define_flag();
    table_fl->key = 'a';
    table_fl->description = _("Create and fill attribute table");

    G_option_required(scalar_opt, vector_opt, NULL);
    G_option_exclusive(scalar_opt, vector_opt, NULL);
    G_option_required(flowlines_opt, flowacc_opt, NULL);
    G_option_requires(seed_opt, flowlines_opt, NULL);
    G_option_requires(table_fl, flowlines_opt, NULL);
    G_option_requires(sampled_opt, table_fl, NULL);

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

    driver = NULL;
    finfo = NULL;

    if_table = table_fl->answer ? TRUE : FALSE;

    check_vector_input_maps(vector_opt, seed_opt);

    Rast3d_init_defaults();
    Rast3d_get_window(&region);

    /* set up integration variables */
    if (step_opt->answer) {
	integration.step = atof(step_opt->answer);
	integration.unit = unit_opt->answer;
    }
    else {
	integration.unit = "cell";
	integration.step = 0.25;
    }
    integration.max_error = atof(error_opt->answer);
    integration.max_step = 5 * integration.step;
    integration.min_step = integration.step / 5;
    integration.limit = atof(limit_opt->answer);
    if (strcmp(dir_opt->answer, "up") == 0)
	integration.direction_type = FLOWDIR_UP;
    else if (strcmp(dir_opt->answer, "down") == 0)
	integration.direction_type = FLOWDIR_DOWN;
    else
	integration.direction_type = FLOWDIR_BOTH;


    /* cell size is the diagonal */
    integration.cell_size = sqrt(region.ns_res * region.ns_res +
				 region.ew_res * region.ew_res +
				 region.tb_res * region.tb_res);

    /* set default skip if needed */
    if (skip_opt->answers) {
	for (i = 0; i < 3; i++) {
	    if (skip_opt->answers[i] != NULL) {
		skip[i] = atoi(skip_opt->answers[i]);
	    }
	    else {
		G_fatal_error(_("Please provide 3 integer values for skip option."));
	    }
	}
    }
    else {
	skip[0] = fmax(1, region.cols / 10);
	skip[1] = fmax(1, region.rows / 10);
	skip[2] = fmax(1, region.depths / 10);

    }

    /* open raster 3D maps of velocity components */
    gradient_info.initialized = FALSE;
    load_input_raster3d_maps(scalar_opt, vector_opt, &gradient_info, &region);


    /* open new 3D raster map of flowacumulation */
    if (flowacc_opt->answer) {
	flowacc = Rast3d_open_new_opt_tile_size(flowacc_opt->answer,
						RASTER3D_USE_CACHE_DEFAULT,
						&region, FCELL_TYPE, 32);


	if (!flowacc)
	    Rast3d_fatal_error(_("Unable to open 3D raster map <%s>"),
			       flowacc_opt->answer);
	init_flowaccum(&region, flowacc);
    }

    /* open 3D raster map used for sampling */
    if (sampled_opt->answer) {
	sampled = Rast3d_open_cell_old(sampled_opt->answer,
				       G_find_raster3d(sampled_opt->answer, ""),
				       &region, RASTER3D_TILE_SAME_AS_FILE,
				       RASTER3D_USE_CACHE_DEFAULT);
	if (!sampled)
	    Rast3d_fatal_error(_("Unable to open 3D raster map <%s>"),
			       sampled_opt->answer);
    }
    else
	sampled = NULL;

    /* open new vector map of flowlines */
    if (flowlines_opt->answer) {
	fl_cats = Vect_new_cats_struct();
	fl_points = Vect_new_line_struct();
	if (Vect_open_new(&fl_map, flowlines_opt->answer, TRUE) < 0)
	    G_fatal_error(_("Unable to create vector map <%s>"),
			  flowlines_opt->answer);

	Vect_hist_command(&fl_map);

	if (if_table) {
	    create_table(&fl_map, &finfo, &driver,
			 gradient_info.compute_gradient, sampled ? 1 : 0);
	}
    }

    n_seeds = 0;
    /* open vector map of seeds */
    if (seed_opt->answer) {
	if (Vect_open_old2(&seed_Map, seed_opt->answer, "", "1") < 0)
	    G_fatal_error(_("Unable to open vector map <%s>"),
			  seed_opt->answer);
	if (!Vect_is_3d(&seed_Map))
	    G_fatal_error(_("Vector map <%s> is not 3D"), seed_opt->answer);

	n_seeds = Vect_get_num_primitives(&seed_Map, GV_POINT);
    }
    if (flowacc_opt->answer || (!seed_opt->answer && flowlines_opt->answer)) {
	if (flowacc_opt->answer)
	    n_seeds += region.cols * region.rows * region.depths;
	else {
	    n_seeds += ceil(region.cols / (double)skip[0]) *
		ceil(region.rows / (double)skip[1]) *
		ceil(region.depths / (double)skip[2]);
	}
    }
    G_debug(1, "Number of seeds is %d", n_seeds);

    seed_count = 0;
    cat = 1;
    if (seed_opt->answer) {

	seed_points = Vect_new_line_struct();
	seed_cats = Vect_new_cats_struct();

	/* compute flowlines from vector seed map */
	while (TRUE) {
	    ltype = Vect_read_next_line(&seed_Map, seed_points, seed_cats);
	    if (ltype == -1) {
		Vect_close(&seed_Map);
		G_fatal_error(_("Error during reading seed vector map"));
	    }
	    else if (ltype == -2) {
		break;
	    }
	    else if (ltype == GV_POINT) {
		seed.x = seed_points->x[0];
		seed.y = seed_points->y[0];
		seed.z = seed_points->z[0];
		seed.flowline = TRUE;
		seed.flowaccum = FALSE;
	    }
	    G_percent(seed_count, n_seeds, 1);
	    if (integration.direction_type == FLOWDIR_UP ||
		integration.direction_type == FLOWDIR_BOTH) {
		integration.actual_direction = FLOWDIR_UP;
		compute_flowline(&region, &seed, &gradient_info, flowacc, sampled,
				 &integration, &fl_map, fl_cats, fl_points,
				 &cat, if_table, finfo, driver);
	    }
	    if (integration.direction_type == FLOWDIR_DOWN ||
		integration.direction_type == FLOWDIR_BOTH) {
		integration.actual_direction = FLOWDIR_DOWN;
		compute_flowline(&region, &seed, &gradient_info, flowacc, sampled,
				 &integration, &fl_map, fl_cats, fl_points,
				 &cat, if_table, finfo, driver);
	    }
	    seed_count++;
	}

	Vect_destroy_line_struct(seed_points);
	Vect_destroy_cats_struct(seed_cats);
	Vect_close(&seed_Map);
    }
    if (flowacc_opt->answer || (!seed_opt->answer && flowlines_opt->answer)) {
	/* compute flowlines from points on grid */
	for (r = region.rows; r > 0; r--) {
	    for (c = 0; c < region.cols; c++) {
		for (d = 0; d < region.depths; d++) {
		    seed.x =
			region.west + c * region.ew_res + region.ew_res / 2;
		    seed.y =
			region.south + r * region.ns_res - region.ns_res / 2;
		    seed.z =
			region.bottom + d * region.tb_res + region.tb_res / 2;
		    seed.flowline = FALSE;
		    seed.flowaccum = FALSE;
		    if (flowacc_opt->answer)
			seed.flowaccum = TRUE;

		    if (flowlines_opt->answer && !seed_opt->answer &&
		       (c % skip[0] == 0) && (r % skip[1] == 0) && (d % skip[2] == 0))
			seed.flowline = TRUE;

		    if (seed.flowaccum || seed.flowline) {
			G_percent(seed_count, n_seeds, 1);

			if (integration.direction_type == FLOWDIR_UP ||
			    integration.direction_type == FLOWDIR_BOTH) {
			    integration.actual_direction = FLOWDIR_UP;
			    compute_flowline(&region, &seed, &gradient_info,
					     flowacc, sampled, &integration, &fl_map,
					     fl_cats, fl_points, &cat,
					     if_table, finfo, driver);
			}
			if (integration.direction_type == FLOWDIR_DOWN ||
			    integration.direction_type == FLOWDIR_BOTH) {
			    integration.actual_direction = FLOWDIR_DOWN;
			    compute_flowline(&region, &seed, &gradient_info,
					     flowacc, sampled, &integration, &fl_map,
					     fl_cats, fl_points, &cat,
					     if_table, finfo, driver);
			}
			seed_count++;
		    }
		}
	    }
	}
    }
    G_percent(1, 1, 1);
    if (flowlines_opt->answer) {
	if (if_table) {
	    db_commit_transaction(driver);
	    db_close_database_shutdown_driver(driver);
	}
	Vect_destroy_line_struct(fl_points);
	Vect_destroy_cats_struct(fl_cats);
	Vect_build(&fl_map);
	Vect_close(&fl_map);
    }

    if (flowacc_opt->answer)
	Rast3d_close(flowacc);


    return EXIT_SUCCESS;
}
Ejemplo n.º 15
0
/* ************************************************************************* */
void open_write_vector_maps(input_maps * in, RASTER3D_Region region, FILE * fp,
                            int dp)
{
    int i, changemask[3] = {0, 0, 0};
    void *mapvect = NULL;

    if (param.vectormaps->answers != NULL) {

        /*Loop over all input maps! */
        for (i = 0; i < 3; i++) {
            G_debug(3, "Open vector 3D raster map <%s>",
                    param.vectormaps->answers[i]);

            mapvect = NULL;
            /*Open the map */
            mapvect =
                Rast3d_open_cell_old(param.vectormaps->answers[i],
                                G_find_raster3d(param.vectormaps->answers[i],
                                             ""), &region,
                                RASTER3D_TILE_SAME_AS_FILE, RASTER3D_USE_CACHE_DEFAULT);
            if (mapvect == NULL) {
                G_warning(_("Unable to open 3D raster map <%s>"),
                          param.vectormaps->answers[i]);
                fatal_error(_("No vector data will be created."), in);
            }

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

            if (i == 0)
                in->map_x = mapvect;
            if (i == 1)
                in->map_y = mapvect;
            if (i == 2)
                in->map_z = mapvect;
        }


        G_debug(3, "Writing VTK Vector Data");
        write_vtk_vector_data(in->map_x, in->map_y, in->map_z, fp,
                              "Vector_Data", region, dp);

        for (i = 0; i < 3; i++) {
            if (i == 0)
                mapvect = in->map_x;
            if (i == 1)
                mapvect = in->map_y;
            if (i == 2)
                mapvect = in->map_z;

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

            /* Close the 3d raster map */
            if (!Rast3d_close(mapvect)) {
                fatal_error(_("Unable to close 3D raster map"), in);
            }
            /*Set the pointer to null so we know later that these files are already closed */
            if (i == 0)
                in->map_x = NULL;
            if (i == 1)
                in->map_y = NULL;
            if (i == 2)
                in->map_z = NULL;
        }
    }
    return;
}
Ejemplo n.º 16
0
/* ************************************************************************* */
void open_write_rgb_maps(input_maps * in, RASTER3D_Region region, FILE * fp,
                         int dp)
{
    int i, changemask[3] = {0, 0, 0};
    void *maprgb = NULL;

    if (param.rgbmaps->answers != NULL) {

        /*Loop over all input maps! */
        for (i = 0; i < 3; i++) {
            G_debug(3, "Open RGB 3D raster map <%s>",
                    param.rgbmaps->answers[i]);

            maprgb = NULL;
            /*Open the map */
            maprgb =
                Rast3d_open_cell_old(param.rgbmaps->answers[i],
                                G_find_raster3d(param.rgbmaps->answers[i], ""),
                                &region, RASTER3D_TILE_SAME_AS_FILE,
                                RASTER3D_USE_CACHE_DEFAULT);
            if (maprgb == NULL) {
                G_warning(_("Unable to open 3D raster map <%s>"),
                          param.rgbmaps->answers[i]);
                fatal_error(_("No RGB Data will be created."), in);
            }

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

            if (i == 0)
                in->map_r = maprgb;
            if (i == 1)
                in->map_g = maprgb;
            if (i == 2)
                in->map_b = maprgb;
        }


        G_debug(3, "Writing VTK VoxelData");
        write_vtk_rgb_data(in->map_r, in->map_g, in->map_b, fp, "RGB_Voxel",
                           region, dp);

        for (i = 0; i < 3; i++) {
            if (i == 0)
                maprgb = in->map_r;
            if (i == 1)
                maprgb = in->map_g;
            if (i == 2)
                maprgb = in->map_b;

            /*We set the Mask off, if it was off before */
            if (param.mask->answer) {
                if (Rast3d_mask_file_exists())
                    if (Rast3d_mask_is_on(maprgb) && changemask[i])
                        Rast3d_mask_off(maprgb);
            }
            /* Close the 3d raster map */
            if (!Rast3d_close(maprgb)) {
                fatal_error(_("Unable to close 3D raster map"), in);
            }

            /*Set the pointer to null so we noe later that these files are already closed */
            if (i == 0)
                in->map_r = NULL;
            if (i == 1)
                in->map_g = NULL;
            if (i == 2)
                in->map_b = NULL;
        }
    }
    return;
}
Ejemplo n.º 17
0
int test_large_file(int depths, int rows, int cols, int tile_size)
{
    int sum = 0;
    int x, y, z, count;
    DCELL value;

    G_message("Testing DCELL put function for large files");

    RASTER3D_Region region;
    RASTER3D_Map *map = NULL;

    /* We need to set up a specific region for the new raster3d map.
     * First we safe the default region. */
    Rast3d_get_window(&region);

    region.bottom = -365.5;
    region.top = 365.5;
    region.south = -90;
    region.north = 90;
    region.west = -180;
    region.east = 180;
    region.rows = rows;
    region.cols = cols;
    region.depths = depths;

    Rast3d_adjust_region(&region);

    G_message("Creating 3D raster map");

    map = Rast3d_open_new_opt_tile_size("test_put_get_value_dcell_large",
                                        RASTER3D_USE_CACHE_XY, &region, DCELL_TYPE, tile_size);

    /* The window is the same as the map region ... of course */
    Rast3d_set_window_map(map, &region);

    /*Write -1 first to see if the tile handling works correctly */
    for(z = 0; z < region.depths; z++) {
        G_percent(z, region.depths, 1);
        for(y = 0; y < region.rows; y++) {
            for(x = 0; x < region.cols; x++) {
                /* Put the counter as cell value */
                value = -1;
                Rast3d_put_value(map, x, y, z, &value, DCELL_TYPE);
            }
        }
    }

    G_percent(1, 1, 1);
    G_message("Rewriting the values");

    /* Now write the values to be evaluated */
    count = 1;
    for(z = 0; z < region.depths; z++) {
        G_percent(z, region.depths, 1);
        for(y = 0; y < region.rows; y++) {
            for(x = 0; x < region.cols; x++) {
                /* Put the counter as cell value */
                value = count;
                Rast3d_put_value(map, x, y, z, &value, DCELL_TYPE);
                count++;
            }
        }
    }

    G_percent(1, 1, 1);

    G_message("Verifying 3D raster map");

    count = 1;
    for(z = 0; z < region.depths; z++) {
        G_percent(z, region.depths, 1);
        for(y = 0; y < region.rows; y++) {
            for(x = 0; x < region.cols; x++) {
                /* Check the counter as cell value */
                Rast3d_get_value(map, x, y, z, &value, DCELL_TYPE);
                if(fabs(value - (double)(count) > EPSILON)) {
                    G_message("At: z %i y %i x %i -- value %.14lf != %.14lf\n",
                              z, y, x, value, (double)(count));
                    sum++;
                }
                count++;
            }
        }
    }
    G_percent(1, 1, 1);
    Rast3d_close(map);

    G_remove("grid3", "test_put_get_value_dcell_large");

    return sum;
}
Ejemplo n.º 18
0
void
Rast3d_retile(void *map, const char *nameOut, int tileX, int tileY, int tileZ)
{
    void *map2;
    double value;
    int x, y, z, saveType;
    int rows, cols, depths, typeIntern;
    int xTile, yTile, zTile;
    int xOffs, yOffs, zOffs, prev;
    int tileXsave, tileYsave, tileZsave;
    RASTER3D_Region region;

    if (!Rast3d_tile_use_cache_map(map)) {
	retileNocache(map, nameOut, tileX, tileY, tileZ);
	return;
    }

    saveType = Rast3d_get_file_type();
    Rast3d_set_file_type(Rast3d_file_type_map(map));
    Rast3d_get_tile_dimension(&tileXsave, &tileYsave, &tileZsave);
    Rast3d_set_tile_dimension(tileX, tileY, tileZ);

    typeIntern = Rast3d_tile_type_map(map);
    Rast3d_get_region_struct_map(map, &region);

    map2 =
	Rast3d_open_cell_new(nameOut, typeIntern, RASTER3D_USE_CACHE_DEFAULT, &region);
    if (map2 == NULL)
	Rast3d_fatal_error("Rast3d_retile: error in Rast3d_open_cell_new");

    Rast3d_set_file_type(saveType);
    Rast3d_set_tile_dimension(tileXsave, tileYsave, tileZsave);

    Rast3d_coord2tile_coord(map2, 0, 0, 0,
			&xTile, &yTile, &zTile, &xOffs, &yOffs, &zOffs);

    prev = zTile;

    x = 0;
    y = 0;

    Rast3d_get_coords_map(map, &rows, &cols, &depths);

    for (z = 0; z < depths; z++) {
        G_percent(z, depths, 1);
	Rast3d_coord2tile_coord(map2, x, y, z, &xTile, &yTile, &zTile,
			    &xOffs, &yOffs, &zOffs);
	if (zTile > prev) {
	    if (!Rast3d_flush_all_tiles(map2))
		Rast3d_fatal_error("Rast3d_retile: error in Rast3d_flush_all_tiles");
	    prev++;
	}

	for (y = 0; y < rows; y++)
	    for (x = 0; x < cols; x++) {

		Rast3d_get_value_region(map, x, y, z, &value, typeIntern);
		if (!Rast3d_put_value(map2, x, y, z, &value, typeIntern))
		    Rast3d_fatal_error("Rast3d_retile: error in Rast3d_put_value");
	    }
    }

    G_percent(1, 1, 1);
    if (!Rast3d_flush_all_tiles(map2))
	Rast3d_fatal_error("Rast3d_retile: error in Rast3d_flush_all_tiles");
    if (!Rast3d_close(map2))
	Rast3d_fatal_error("Rast3d_retile: error in Rast3d_close");
}
Ejemplo n.º 19
0
int main(int argc, char *argv[])
{
    char *input, *output;
    int convertNull;
    char nullValue[256];
    int useTypeDefault, type, useCompressionDefault, doCompression;
    int usePrecisionDefault, precision, useDimensionDefault, tileX, tileY,
        tileZ;
    RASTER3D_Region region;
    FILE *fp;
    struct GModule *module;
    struct History history;

    map = NULL;

    G_gisinit(argv[0]);
    module = G_define_module();
    G_add_keyword(_("raster3d"));
    G_add_keyword(_("import"));
    G_add_keyword(_("voxel"));
    G_add_keyword(_("conversion"));
    G_add_keyword("ASCII");
    module->description =
        _("Converts a 3D ASCII raster text file into a (binary) 3D raster map.");

    setParams();
    Rast3d_set_standard3d_input_params();

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

    getParams(&input, &output, &convertNull, nullValue);
    if (!Rast3d_get_standard3d_params(&useTypeDefault, &type,
                                 &useCompressionDefault, &doCompression,
                                 &usePrecisionDefault, &precision,
                                 &useDimensionDefault, &tileX, &tileY,
                                 &tileZ))
        fatalError("Error getting standard parameters");

    Rast3d_init_defaults();

    fp = openAscii(input, &region);

    /*Open the new RASTER3D map */
    map = Rast3d_open_new_param(output, RASTER3D_TILE_SAME_AS_FILE, RASTER3D_USE_CACHE_XY,
                           &region,
                           type, doCompression, precision, tileX, tileY,
                           tileZ);

    if (map == NULL)
        fatalError(_("Unable to open 3D raster map"));

    /*Create the new RASTER3D Map */
    asciiToG3d(fp, &region, convertNull, nullValue);

    if (!Rast3d_close(map))
        fatalError(_("Unable to close 3D raster map"));

    /* write input name to map history */
    Rast3d_read_history(output, G_mapset(), &history);
    Rast_command_history(&history);
    Rast_set_history(&history, HIST_DATSRC_1, input);
    Rast3d_write_history(output, &history);

    map = NULL;
    if (fclose(fp))
        fatalError(_("Unable to close ASCII file"));

    return EXIT_SUCCESS;
}
Ejemplo n.º 20
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);
}
Ejemplo n.º 21
0
Archivo: main.c Proyecto: caomw/grass
int main(int argc, char **argv)
{
    RASTER3D_Map *input;
    RASTER3D_Map *output;
    RASTER3D_Region region;
    struct GModule *module;
    stat_func *method_fn;
    double quantile;
    int x, y, z;

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

    module = G_define_module();
    G_add_keyword(_("raster3d"));
    G_add_keyword(_("neighbor"));
    G_add_keyword(_("aggregation"));
    G_add_keyword(_("statistics"));
    G_add_keyword(_("filter"));
    module->description =
	_("Makes each voxel value a "
	  "function of the values assigned to the voxels "
	  "around it, and stores new voxel values in an output 3D raster map");

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

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

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

    Rast3d_init_defaults();
    Rast3d_get_window(&region);

    nx = region.cols;
    ny = region.rows;
    nz = region.depths;

    /* Size fo the moving window */
    x_size = atoi(param.window->answers[0]);
    y_size = atoi(param.window->answers[1]);
    z_size = atoi(param.window->answers[2]);

    /* Distances in all directions */
    x_dist = x_size / 2;
    y_dist = y_size / 2;
    z_dist = z_size / 2;

    /* Maximum size of the buffer */
    size = x_size * y_size * z_size;

    /* Set the computation method */
    method_fn = menu[find_method(param.method->answer)].method;

    if (param.quantile->answer)
	quantile = atof(param.quantile->answer);
    else
	quantile = 0.0;

    input = Rast3d_open_cell_old(param.input->answer,
				 G_find_raster3d(param.input->answer, ""),
				 &region, RASTER3D_TILE_SAME_AS_FILE,
				 RASTER3D_USE_CACHE_DEFAULT);

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

    output =
	Rast3d_open_new_opt_tile_size(param.output->answer,
				      RASTER3D_USE_CACHE_X, &region,
				      DCELL_TYPE, 32);

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

    Rast3d_min_unlocked(output, RASTER3D_USE_CACHE_X);
    Rast3d_autolock_on(output);
    Rast3d_unlock_all(output);

    DCELL *buff = NULL, value;

    buff = (DCELL *) calloc(size, sizeof(DCELL));

    if (buff == NULL)
	Rast3d_fatal_error(_("Unable to allocate buffer"));

    for (z = 0; z < nz; z++) {
	for (y = 0; y < ny; y++) {
	    for (x = 0; x < nx; x++) {
		/* Gather values in moving window */
		int num = gather_values(input, buff, x, y, z);

		/* Compute the resulting value */
		if (num > 0)
		    (*method_fn) (&value, buff, num, &quantile);
		else
		    Rast_set_d_null_value(&value, 1);
		/* Write the value */
		Rast3d_put_double(output, x, y, z, value);
	    }
	}
    }

    free(buff);

    if (!Rast3d_flush_all_tiles(output))
	G_fatal_error(_("Error flushing tiles"));

    Rast3d_autolock_off(output);
    Rast3d_unlock_all(output);

    Rast3d_close(input);
    Rast3d_close(output);

    return 0;
}
Ejemplo n.º 22
0
Archivo: main.c Proyecto: caomw/grass
static void makeMask(char *name, d_Mask * maskRules)
{
    void *map, *mask;
    RASTER3D_Region region;
    int tileX, tileY, tileZ, x, y, z, cacheSize;
    double value;
    float floatNull;

    cacheSize = Rast3d_cache_size_encode(RASTER3D_USE_CACHE_XY, 1);

    if (NULL == G_find_raster3d(name, ""))
	Rast3d_fatal_error(_("3D raster map <%s> not found"), name);

    map = Rast3d_open_cell_old(name, G_mapset(), RASTER3D_DEFAULT_WINDOW,
			  DCELL_TYPE, cacheSize);

    if (map == NULL)
	Rast3d_fatal_error(_("Unable to open 3D raster map <%s>"), name);

    Rast3d_get_region_struct_map(map, &region);

    Rast3d_get_tile_dimensions_map(map, &tileX, &tileY, &tileZ);

    mask = Rast3d_open_new_param(Rast3d_mask_file(), FCELL_TYPE, cacheSize,
			    &region, FCELL_TYPE, RASTER3D_COMPRESSION, 0,
			    tileX, tileY, tileZ);

    if (mask == NULL)
	Rast3d_fatal_error(_("Unable to open 3D raster mask file"));

    Rast3d_min_unlocked(map, RASTER3D_USE_CACHE_X);
    Rast3d_autolock_on(map);
    Rast3d_unlock_all(map);
    Rast3d_min_unlocked(mask, RASTER3D_USE_CACHE_X);
    Rast3d_autolock_on(mask);
    Rast3d_unlock_all(mask);

    Rast3d_set_null_value(&floatNull, 1, FCELL_TYPE);

    for (z = 0; z < region.depths; z++) {
	if ((z % tileZ) == 0) {
	    Rast3d_unlock_all(map);
	    Rast3d_unlock_all(mask);
	}
    
	for (y = 0; y < region.rows; y++)	/* We count from north to south in the cube coordinate system */
	    for (x = 0; x < region.cols; x++) {
		value = Rast3d_get_double_region(map, x, y, z);
		if (Rast3d_mask_d_select((DCELL *) & value, maskRules))
		    Rast3d_put_float(mask, x, y, z, (float)floatNull);	/* mask-out value */
		else
		    Rast3d_put_float(mask, x, y, z, (float)0.0);	/* not mask-out value */
	    }
	if ((z % tileZ) == 0) {
	    if (!Rast3d_flush_tiles_in_cube
		(mask, 0, 0, MAX(0, z - tileZ), region.rows - 1,
		 region.cols - 1, z))
		Rast3d_fatal_error(_("makeMask: error flushing tiles in cube"));
	}
    }

    if (!Rast3d_flush_all_tiles(mask))
	Rast3d_fatal_error(_("makeMask: error flushing all tiles"));

    Rast3d_autolock_off(map);
    Rast3d_unlock_all(map);
    Rast3d_autolock_off(mask);
    Rast3d_unlock_all(mask);

    if (!Rast3d_close(mask))
	Rast3d_fatal_error(_("Unable to close 3D raster mask file"));
    if (!Rast3d_close(map))
	Rast3d_fatal_error(_("Unable to close raster map <%s>"), name);
}
Ejemplo n.º 23
0
int main(int argc, char *argv[])
{
    const char *mapset;
    struct GModule *module;
    struct Option *raster, *title_opt, *history_opt;
    struct Option *datasrc1_opt, *datasrc2_opt, *datadesc_opt;
    struct Option *map_opt, *units_opt, *vunits_opt;
    struct Option *load_opt, *save_opt;
    struct Flag *stats_flag;
    const char *infile;
    char title[MAX_TITLE_LEN + 1];
    struct History hist;

    /* Initialize GIS engine */
    G_gisinit(argv[0]);

    module = G_define_module();
    G_add_keyword(_("raster3d"));
    G_add_keyword(_("metadata"));
    G_add_keyword(_("voxel"));
    module->description = _("Allows creation and/or modification of "
			    "3D raster map layer support files.");

    raster = G_define_standard_option(G_OPT_R3_MAP);

    title_opt = G_define_option();
    title_opt->key = "title";
    title_opt->key_desc = "phrase";
    title_opt->type = TYPE_STRING;
    title_opt->required = NO;
    title_opt->description = _("Text to use for map title");

    history_opt = G_define_option();
    history_opt->key = "history";
    history_opt->key_desc = "phrase";
    history_opt->type = TYPE_STRING;
    history_opt->required = NO;
    history_opt->description =
	_("Text to append to the next line of the map's metadata file");

    units_opt = G_define_option();
    units_opt->key = "unit";
    units_opt->type = TYPE_STRING;
    units_opt->required = NO;
    units_opt->description = _("The map data unit");

    vunits_opt = G_define_option();
    vunits_opt->key = "vunit";
    vunits_opt->type = TYPE_STRING;
    vunits_opt->required = NO;
    vunits_opt->description = _("The vertical unit of the map");
    
    datasrc1_opt = G_define_option();
    datasrc1_opt->key = "source1";
    datasrc1_opt->key_desc = "phrase";
    datasrc1_opt->type = TYPE_STRING;
    datasrc1_opt->required = NO;
    datasrc1_opt->description = _("Text to use for data source, line 1");

    datasrc2_opt = G_define_option();
    datasrc2_opt->key = "source2";
    datasrc2_opt->key_desc = "phrase";
    datasrc2_opt->type = TYPE_STRING;
    datasrc2_opt->required = NO;
    datasrc2_opt->description = _("Text to use for data source, line 2");

    datadesc_opt = G_define_option();
    datadesc_opt->key = "description";
    datadesc_opt->key_desc = "phrase";
    datadesc_opt->type = TYPE_STRING;
    datadesc_opt->required = NO;
    datadesc_opt->description =
	_("Text to use for data description or keyword(s)");

    map_opt = G_define_option();
    map_opt->key = "raster";
    map_opt->type = TYPE_STRING;
    map_opt->required = NO;
    map_opt->gisprompt = "old,cell,raster";
    map_opt->description = _("Raster map from which to copy category table");

    load_opt = G_define_standard_option(G_OPT_F_INPUT);
    load_opt->key = "loadhistory";
    load_opt->required = NO;
    load_opt->description = _("Text file from which to load history");

    save_opt = G_define_standard_option(G_OPT_F_OUTPUT);
    save_opt->key = "savehistory";
    save_opt->required = NO;
    save_opt->description = _("Text file in which to save history");

    stats_flag = G_define_flag();
    stats_flag->key = 's';
    stats_flag->description = _("Update range");

    /* Parse command-line options */
    if (G_parser(argc, argv))
	exit(EXIT_FAILURE);

    /* Make sure raster exists and set mapset */
    infile = raster->answer;
    mapset = G_find_raster3d(infile, G_mapset());	/* current mapset only for editing */
    if (!mapset || strcmp(mapset, G_mapset()) != 0)
	G_fatal_error(_("3D raster map <%s> not found"), infile);

    if (title_opt->answer) {
	strncpy(title, title_opt->answer, MAX_TITLE_LEN);
	title[MAX_TITLE_LEN - 1] = '\0';	/* strncpy doesn't null terminate over-sized input */
	G_strip(title);
	G_debug(3, "map title= [%s]  (%d chars)", title, (int)strlen(title));
        
        Rast3d_read_history(raster->answer, "", &hist);
        Rast_set_history(&hist, HIST_TITLE, title);
	Rast3d_write_history(raster->answer, &hist);
    }

    if (save_opt->answer) {
	FILE *fp = fopen(save_opt->answer, "w");
	int i;

	if (!fp)
	    G_fatal_error(_("Unable to open output file <%s>"), save_opt->answer);

	Rast3d_read_history(raster->answer, "", &hist);

	for (i = 0; i < Rast_history_length(&hist); i++)
	    fprintf(fp, "%s\n", Rast_history_line(&hist, i));

	fclose(fp);
    }

    if (load_opt->answer) {
	FILE *fp = fopen(load_opt->answer, "r");

	if (!fp)
	    G_fatal_error(_("Unable to open input file <%s>"), load_opt->answer);

	Rast3d_read_history(raster->answer, "", &hist);

	Rast_clear_history(&hist);

	for (;;) {
	    char buf[80];
	    if (!G_getl2(buf, sizeof(buf), fp))
		break;
	    Rast_append_history(&hist, buf);
	}

	fclose(fp);

	Rast3d_write_history(raster->answer, &hist);
    }

    if (history_opt->answer) {
	Rast3d_read_history(raster->answer, "", &hist);

	/* two less than defined as if only one less a newline gets appended in the hist file. bug? */
	/* Should be RECORD_LEN, but r.info truncates at > 71 chars */
	if (strlen(history_opt->answer) > 71) {
	    int i;

	    for (i = 0; i < strlen(history_opt->answer); i += 71) {
		char buf[72];

		strncpy(buf, &history_opt->answer[i], sizeof(buf)-1);
		buf[sizeof(buf)-1] = '\0';

		Rast_append_history(&hist, buf);
	    }
	}
	else
	    Rast_append_history(&hist, history_opt->answer);

	Rast3d_write_history(raster->answer, &hist);
    }
    
    if(units_opt->answer || vunits_opt->answer) {
        RASTER3D_Map *map;
        
        map = Rast3d_open_cell_old(raster->answer, G_mapset(), \
                RASTER3D_DEFAULT_WINDOW, RASTER3D_TILE_SAME_AS_FILE, RASTER3D_USE_CACHE_DEFAULT);
        
        /* Modify the units */
        if (units_opt->answer)
            Rast3d_set_unit(map, units_opt->answer);

        if (vunits_opt->answer)
            Rast3d_set_vertical_unit(map, vunits_opt->answer);
        
        Rast3d_rewrite_header(map);
        Rast3d_close(map);
    
    }

    if (datasrc1_opt->answer || datasrc2_opt->answer || datadesc_opt->answer) {
	Rast3d_read_history(raster->answer, "", &hist);

	if (datasrc1_opt->answer)
	    Rast_set_history(&hist, HIST_DATSRC_1, datasrc1_opt->answer);

	if (datasrc2_opt->answer)
	    Rast_set_history(&hist, HIST_DATSRC_2, datasrc2_opt->answer);

	if (datadesc_opt->answer)
	    Rast_set_history(&hist, HIST_KEYWRD, datadesc_opt->answer);

	Rast3d_write_history(raster->answer, &hist);
    }

    if (map_opt->answer) {	/* use cats from another map */
	int fd;
	struct Categories cats;

	fd = Rast_open_old(infile, "");
	Rast_init_cats("", &cats);
	if (Rast3d_read_cats(map_opt->answer, "", &cats) < 0)
	    G_fatal_error(_("Unable to read category file of raster map <%s>"),
			  map_opt->answer);

	Rast3d_write_cats(infile, &cats);
	G_message(_("cats table for [%s] set to %s"),
		  infile, map_opt->answer);
	Rast_close(fd);
	Rast_free_cats(&cats);
    }

    /* Check the histogram and range */
    if (stats_flag->answer)
	check_stats(raster->answer);

    return EXIT_SUCCESS;
}