def get_bounding_boxes(haz_metadata, exp_metadata, req_bbox): """Check and get appropriate bounding boxes for input layers Input haz_metadata: Metadata for hazard layer exp_metadata: Metadata for exposure layer req_bbox: Bounding box (string) as requested by HTML POST. Output haz_bbox: Bounding box to be used for hazard layer. exp_bbox: Bounding box to be used for exposure layer imp_bbox: Bounding box to be used for resulting impact layer Note exp_bbox and imp_bbox are the same and calculated as the intersection among hazard, exposure and viewport bounds. haz_bbox may be grown by one pixel size in case exposure data is vector data to make sure points always can be interpolated """ # Input checks msg = ('Invalid bounding box %s (%s). ' 'It must be a string' % (str(req_bbox), type(req_bbox))) assert isinstance(req_bbox, basestring), msg check_bbox_string(req_bbox) # Get bounding boxes for layers and viewport haz_bbox = haz_metadata['bounding_box'] exp_bbox = exp_metadata['bounding_box'] vpt_bbox = bboxstring2list(req_bbox) # New bounding box for data common to hazard, exposure and viewport # Download only data within this intersection intersection_bbox = bbox_intersection(vpt_bbox, haz_bbox, exp_bbox) if intersection_bbox is None: # Bounding boxes did not overlap msg = ('Bounding boxes of hazard data [%s], exposure data [%s] ' 'and viewport [%s] did not overlap, so no computation was ' 'done. Please make sure you pan to where the data is and ' 'that hazard and exposure data overlaps.' % (bboxlist2string(haz_bbox, decimals=3), bboxlist2string(exp_bbox, decimals=3), bboxlist2string(vpt_bbox, decimals=3))) logger.info(msg) raise Exception(msg) # Grow hazard bbox to buffer this common bbox in case where # hazard is raster and exposure is vector if (haz_metadata['layer_type'] == 'raster' and exp_metadata['layer_type'] == 'vector'): haz_res = haz_metadata['resolution'] haz_bbox = buffered_bounding_box(intersection_bbox, haz_res) else: haz_bbox = intersection_bbox # Usually the intersection bbox is used for both exposure layer and result exp_bbox = imp_bbox = intersection_bbox return haz_bbox, exp_bbox, imp_bbox
def calculate(request, save_output=save_to_geonode): start = datetime.datetime.now() if request.method == 'GET': # FIXME: Add a basic form here to be able to generate the POST request. return HttpResponse('This should be accessed by robots, not humans.' 'In other words using HTTP POST instead of GET.') elif request.method == 'POST': data = request.POST impact_function_name = data['impact_function'] hazard_server = data['hazard_server'] hazard_layer = data['hazard'] exposure_server = data['exposure_server'] exposure_layer = data['exposure'] bbox = data['bbox'] keywords = data['keywords'] if request.user.is_anonymous(): theuser = get_valid_user() else: theuser = request.user # Create entry in database calculation = Calculation(user=theuser, run_date=start, hazard_server=hazard_server, hazard_layer=hazard_layer, exposure_server=exposure_server, exposure_layer=exposure_layer, impact_function=impact_function_name, success=False) try: # Input checks msg = 'This cannot happen :-)' assert isinstance(bbox, basestring), msg check_bbox_string(bbox) # Find the intersection of bounding boxes for viewport, # hazard and exposure. vpt_bbox = bboxstring2list(bbox) haz_bbox = get_metadata(hazard_server, hazard_layer)['bounding_box'] exp_bbox = get_metadata(exposure_server, exposure_layer)['bounding_box'] # Impose minimum bounding box size (as per issue #101). # FIXME (Ole): This will need to be revisited in conjunction with # raster resolutions at some point. min_res = 0.00833334 eps = 1.0e-1 vpt_bbox = minimal_bounding_box(vpt_bbox, min_res, eps=eps) haz_bbox = minimal_bounding_box(haz_bbox, min_res, eps=eps) exp_bbox = minimal_bounding_box(exp_bbox, min_res, eps=eps) # New bounding box for data common to hazard, exposure and viewport # Download only data within this intersection intersection = bbox_intersection(vpt_bbox, haz_bbox, exp_bbox) if intersection is None: # Bounding boxes did not overlap msg = ('Bounding boxes of hazard data, exposure data and ' 'viewport did not overlap, so no computation was ' 'done. Please try again.') logger.info(msg) raise Exception(msg) bbox = bboxlist2string(intersection) plugin_list = get_plugins(impact_function_name) _, impact_function = plugin_list[0].items()[0] impact_function_source = inspect.getsource(impact_function) calculation.impact_function_source = impact_function_source calculation.bbox = bbox calculation.save() msg = 'Performing requested calculation' logger.info(msg) # Download selected layer objects msg = ('- Downloading hazard layer %s from %s' % (hazard_layer, hazard_server)) logger.info(msg) H = download(hazard_server, hazard_layer, bbox) msg = ('- Downloading exposure layer %s from %s' % (exposure_layer, exposure_server)) logger.info(msg) E = download(exposure_server, exposure_layer, bbox) # Calculate result using specified impact function msg = ('- Calculating impact using %s' % impact_function) logger.info(msg) impact_filename = calculate_impact(layers=[H, E], impact_fcn=impact_function) # Upload result to internal GeoServer msg = ('- Uploading impact layer %s' % impact_filename) logger.info(msg) result = save_output(impact_filename, title='output_%s' % start.isoformat(), user=theuser) except Exception, e: #FIXME: Reimplement error saving for calculation logger.error(e) errors = e.__str__() trace = exception_format(e) calculation.errors = errors calculation.stacktrace = trace calculation.save() jsondata = json.dumps({'errors': errors, 'stacktrace': trace}) return HttpResponse(jsondata, mimetype='application/json')