""" @package core.utils @brief Misc utilities for wxGUI (C) 2007-2015 by the GRASS Development Team This program is free software under the GNU General Public License (>=v2). Read the file COPYING that comes with GRASS for details. @author Martin Landa @author Jachym Cepicky """ import os import sys import platform import glob import shlex import re import inspect import operator import six from grass.script import core as grass from grass.script import task as gtask from core.gcmd import RunCommand from core.debug import Debug from core.globalvar import ETCDIR, wxPythonPhoenix def cmp(a, b): """cmp function""" return (a > b) - (a < b) def normalize_whitespace(text): """Remove redundant whitespace from a string""" return (" ").join(text.split()) def split(s): """Platform specific shlex.split""" try: if sys.platform == "win32": return shlex.split(s.replace("\\", r"\\")) else: return shlex.split(s) except ValueError as e: sys.stderr.write(_("Syntax error: %s") % e) return [] def GetTempfile(pref=None): """Creates GRASS temporary file using defined prefix. .. todo:: Fix path on MS Windows/MSYS :param pref: prefer the given path :return: Path to file name (string) or None """ ret = RunCommand("g.tempfile", read=True, pid=os.getpid()) tempfile = ret.splitlines()[0].strip() # FIXME # ugly hack for MSYS (MS Windows) if platform.system() == "Windows": tempfile = tempfile.replace("/", "\\") try: path, file = os.path.split(tempfile) if pref: return os.path.join(pref, file) else: return tempfile except: return None def GetLayerNameFromCmd(dcmd, fullyQualified=False, param=None, layerType=None): """Get map name from GRASS command Parameter dcmd can be modified when first parameter is not defined. :param dcmd: GRASS command (given as list) :param fullyQualified: change map name to be fully qualified :param param: params directory :param str layerType: check also layer type ('raster', 'vector', 'raster_3d', ...) :return: tuple (name, found) """ mapname = "" found = True if len(dcmd) < 1: return mapname, False if "d.grid" == dcmd[0]: mapname = "grid" elif "d.geodesic" in dcmd[0]: mapname = "geodesic" elif "d.rhumbline" in dcmd[0]: mapname = "rhumb" elif "d.graph" in dcmd[0]: mapname = "graph" else: params = list() for idx in range(len(dcmd)): try: p, v = dcmd[idx].split("=", 1) except ValueError: continue if p == param: params = [(idx, p, v)] break # this does not use types, just some (incomplete subset of?) names if p in ( "map", "input", "layer", "red", "blue", "green", "hue", "saturation", "intensity", "shade", "labels", ): params.append((idx, p, v)) if len(params) < 1: if len(dcmd) > 1: i = 1 while i < len(dcmd): if "=" not in dcmd[i] and not dcmd[i].startswith("-"): task = gtask.parse_interface(dcmd[0]) # this expects the first parameter to be the right one p = task.get_options()["params"][0].get("name", "") params.append((i, p, dcmd[i])) break i += 1 else: return mapname, False if len(params) < 1: return mapname, False # need to add mapset for all maps mapsets = {} for i, p, v in params: if p == "layer": continue mapname = v mapset = "" if fullyQualified and "@" not in mapname: if layerType in ("raster", "vector", "raster_3d", "rgb", "his"): try: if layerType in ("raster", "rgb", "his"): findType = "cell" elif layerType == "raster_3d": findType = "grid3" else: findType = layerType mapset = grass.find_file(mapname, element=findType)["mapset"] except AttributeError: # not found return "", False if not mapset: found = False else: mapset = "" # grass.gisenv()['MAPSET'] mapsets[i] = mapset # update dcmd for i, p, v in params: if p == "layer": continue dcmd[i] = p + "=" + v if i in mapsets and mapsets[i]: dcmd[i] += "@" + mapsets[i] maps = list() ogr = False for i, p, v in params: if v.lower().rfind("@ogr") > -1: ogr = True if p == "layer" and not ogr: continue maps.append(dcmd[i].split("=", 1)[1]) mapname = "\n".join(maps) return mapname, found def GetValidLayerName(name): """Make layer name SQL compliant, based on G_str_to_sql() .. todo:: Better use directly Ctypes to reuse venerable libgis C fns... """ retName = name.strip() # check if name is fully qualified if "@" in retName: retName, mapset = retName.split("@") else: mapset = None cIdx = 0 retNameList = list(retName) for c in retNameList: if ( not (c >= "A" and c <= "Z") and not (c >= "a" and c <= "z") and not (c >= "0" and c <= "9") ): retNameList[cIdx] = "_" cIdx += 1 retName = "".join(retNameList) if ( retName and not (retName[0] >= "A" and retName[0] <= "Z") and not (retName[0] >= "a" and retName[0] <= "z") ): retName = "x" + retName[1:] if mapset: retName = retName + "@" + mapset return retName def ListOfCatsToRange(cats): """Convert list of category number to range(s) Used for example for d.vect cats=[range] :param cats: category list :return: category range string :return: '' on error """ catstr = "" try: cats = list(map(int, cats)) except: return catstr i = 0 while i < len(cats): next = 0 j = i + 1 while j < len(cats): if cats[i + next] == cats[j] - 1: next += 1 else: break j += 1 if next > 1: catstr += "%d-%d," % (cats[i], cats[i + next]) i += next + 1 else: catstr += "%d," % (cats[i]) i += 1 return catstr.strip(",") def ListOfMapsets(get="ordered"): """Get list of available/accessible mapsets. Option 'ordered' returns list of all mapsets, first accessible then not accessible. Raises ValueError for wrong paramater value. :param str get: method ('all', 'accessible', 'ordered') :return: list of mapsets :return: [] on error """ if get == "all" or get == "ordered": ret = RunCommand("g.mapsets", read=True, quiet=True, flags="l", sep="newline") if not ret: return [] mapsets_all = ret.splitlines() ListSortLower(mapsets_all) if get == "all": return mapsets_all if get == "accessible" or get == "ordered": ret = RunCommand("g.mapsets", read=True, quiet=True, flags="p", sep="newline") if not ret: return [] mapsets_accessible = ret.splitlines() if get == "accessible": return mapsets_accessible mapsets_ordered = mapsets_accessible.copy() for mapset in mapsets_all: if mapset not in mapsets_accessible: mapsets_ordered.append(mapset) return mapsets_ordered raise ValueError("Invalid value for 'get' parameter of ListOfMapsets()") def ListSortLower(list): """Sort list items (not case-sensitive)""" list.sort(key=lambda x: x.lower()) def GetVectorNumberOfLayers(vector): """Get list of all vector layers""" layers = list() if not vector: return layers fullname = grass.find_file(name=vector, element="vector")["fullname"] if not fullname: Debug.msg( 5, "utils.GetVectorNumberOfLayers(): vector map '%s' not found" % vector ) return layers ret, out, msg = RunCommand( "v.category", getErrorMsg=True, read=True, input=fullname, option="layers" ) if ret != 0: sys.stderr.write( _("Vector map <%(map)s>: %(msg)s\n") % {"map": fullname, "msg": msg} ) return layers else: Debug.msg(1, "GetVectorNumberOfLayers(): ret %s" % ret) for layer in out.splitlines(): layers.append(layer) Debug.msg( 3, "utils.GetVectorNumberOfLayers(): vector=%s -> %s" % (fullname, ",".join(layers)), ) return layers def Deg2DMS(lon, lat, string=True, hemisphere=True, precision=3): """Convert deg value to dms string :param lon: longitude (x) :param lat: latitude (y) :param string: True to return string otherwise tuple :param hemisphere: print hemisphere :param precision: seconds precision :return: DMS string or tuple of values :return: empty string on error """ try: flat = float(lat) flon = float(lon) except ValueError: if string: return "" else: return None # fix longitude while flon > 180.0: flon -= 360.0 while flon < -180.0: flon += 360.0 # hemisphere if hemisphere: if flat < 0.0: flat = abs(flat) hlat = "S" else: hlat = "N" if flon < 0.0: hlon = "W" flon = abs(flon) else: hlon = "E" else: flat = abs(flat) flon = abs(flon) hlon = "" hlat = "" slat = __ll_parts(flat, precision=precision) slon = __ll_parts(flon, precision=precision) if string: return slon + hlon + "; " + slat + hlat return (slon + hlon, slat + hlat) def DMS2Deg(lon, lat): """Convert dms value to deg :param lon: longitude (x) :param lat: latitude (y) :return: tuple of converted values :return: ValueError on error """ x = __ll_parts(lon, reverse=True) y = __ll_parts(lat, reverse=True) return (x, y) def __ll_parts(value, reverse=False, precision=3): """Converts deg to d:m:s string :param value: value to be converted :param reverse: True to convert from d:m:s to deg :param precision: seconds precision (ignored if reverse is True) :return: converted value (string/float) :return: ValueError on error (reverse == True) """ if not reverse: if value == 0.0: return "%s%.*f" % ("00:00:0", precision, 0.0) d = int(int(value)) m = int((value - d) * 60) s = ((value - d) * 60 - m) * 60 if m < 0: m = "00" elif m < 10: m = "0" + str(m) else: m = str(m) if s < 0: s = "00.0000" elif s < 10.0: s = "0%.*f" % (precision, s) else: s = "%.*f" % (precision, s) return str(d) + ":" + m + ":" + s else: # -> reverse try: d, m, s = value.split(":") hs = s[-1] s = s[:-1] except ValueError: try: d, m = value.split(":") hs = m[-1] m = m[:-1] s = "0.0" except ValueError: try: d = value hs = d[-1] d = d[:-1] m = "0" s = "0.0" except ValueError: raise ValueError if hs not in ("N", "S", "E", "W"): raise ValueError coef = 1.0 if hs in ("S", "W"): coef = -1.0 fm = int(m) / 60.0 fs = float(s) / (60 * 60) return coef * (float(d) + fm + fs) def GetCmdString(cmd): """Get GRASS command as string. :param cmd: GRASS command given as tuple :return: command string """ return " ".join(gtask.cmdtuple_to_list(cmd)) def PathJoin(*args): """Check path created by os.path.join""" path = os.path.join(*args) if platform.system() == "Windows" and "/" in path: return path[1].upper() + ":\\" + path[3:].replace("/", "\\") return path def ReadEpsgCodes(): """Read EPSG codes with g.proj :return: dictionary of EPSG code """ epsgCodeDict = dict() ret = RunCommand("g.proj", read=True, list_codes="EPSG") for line in ret.splitlines(): code, descr, params = line.split("|") epsgCodeDict[int(code)] = (descr, params) return epsgCodeDict def ReprojectCoordinates(coord, projOut, projIn=None, flags=""): """Reproject coordinates :param coord: coordinates given as tuple :param projOut: output projection :param projIn: input projection (use location projection settings) :return: reprojected coordinates (returned as tuple) """ coors = RunCommand( "m.proj", flags=flags, input="-", proj_in=projIn, proj_out=projOut, sep=";", stdin="%f;%f" % (coord[0], coord[1]), read=True, ) if coors: coors = coors.split(";") e = coors[0] n = coors[1] try: proj = projOut.split(" ")[0].split("=")[1] except IndexError: proj = "" if proj in ("ll", "latlong", "longlat") and "d" not in flags: return (proj, (e, n)) else: try: return (proj, (float(e), float(n))) except ValueError: return (None, None) return (None, None) def GetListOfLocations(dbase): """Get list of GRASS locations in given dbase :param dbase: GRASS database path :return: list of locations (sorted) """ listOfLocations = list() try: for location in glob.glob(os.path.join(dbase, "*")): try: if os.path.join(location, "PERMANENT") in glob.glob( os.path.join(location, "*") ): listOfLocations.append(os.path.basename(location)) except: pass except (UnicodeEncodeError, UnicodeDecodeError) as e: raise e ListSortLower(listOfLocations) return listOfLocations def GetListOfMapsets(dbase, location, selectable=False): """Get list of mapsets in given GRASS location :param dbase: GRASS database path :param location: GRASS location :param selectable: True to get list of selectable mapsets, otherwise all :return: list of mapsets - sorted (PERMANENT first) """ listOfMapsets = list() if selectable: ret = RunCommand( "g.mapset", read=True, flags="l", location=location, dbase=dbase ) if not ret: return listOfMapsets for line in ret.rstrip().splitlines(): listOfMapsets += line.split(" ") else: for mapset in glob.glob(os.path.join(dbase, location, "*")): if os.path.isdir(mapset) and os.path.isfile( os.path.join(dbase, location, mapset, "WIND") ): listOfMapsets.append(os.path.basename(mapset)) ListSortLower(listOfMapsets) return listOfMapsets def GetColorTables(): """Get list of color tables""" ret = RunCommand("r.colors", read=True, flags="l") if not ret: return list() return ret.splitlines() def _getGDALFormats(): """Get dictionary of available GDAL drivers""" try: ret = grass.read_command("r.in.gdal", quiet=True, flags="f") except: ret = None return _parseFormats(ret), _parseFormats(ret, writableOnly=True) def _getOGRFormats(): """Get dictionary of available OGR drivers""" try: ret = grass.read_command("v.in.ogr", quiet=True, flags="f") except: ret = None return _parseFormats(ret), _parseFormats(ret, writableOnly=True) def _parseFormats(output, writableOnly=False): """Parse r.in.gdal/v.in.ogr -f output""" formats = {"file": {}, "database": {}, "protocol": {}} if not output: return formats patt = None if writableOnly: patt = re.compile(r"\(rw\+?\)$", re.IGNORECASE) for line in output.splitlines(): key, name = map(lambda x: x.strip(), line.strip().split(":", 1)) if writableOnly and not patt.search(key): continue if name in ("Memory", "Virtual Raster", "In Memory Raster"): continue if name in ( "PostgreSQL", "PostgreSQL/PostGIS", "SQLite", "SQLite / Spatialite", "ODBC", "ESRI Personal GeoDatabase", "Rasterlite", "PostGIS WKT Raster driver", "PostGIS Raster driver", "CouchDB", "MSSQLSpatial", "FileGDB", ): formats["database"][key.split(" ")[0]] = name elif name in ( "GeoJSON", "OGC Web Coverage Service", "OGC Web Map Service", "WFS", "GeoRSS", "HTTP Fetching Wrapper", ): formats["protocol"][key.split(" ")[0]] = name else: formats["file"][key.split(" ")[0]] = name for k, v in formats.items(): formats[k] = dict(sorted(v.items(), key=operator.itemgetter(1))) return formats formats = None def GetFormats(writableOnly=False): """Get GDAL/OGR formats""" global formats if not formats: gdalAll, gdalWritable = _getGDALFormats() ogrAll, ogrWritable = _getOGRFormats() formats = { "all": { "gdal": gdalAll, "ogr": ogrAll, }, "writable": { "gdal": gdalWritable, "ogr": ogrWritable, }, } if writableOnly: return formats["writable"] return formats["all"] rasterFormatExtension = { "GeoTIFF": "tif", "Erdas Imagine Images (.img)": "img", "Ground-based SAR Applications Testbed File Format (.gff)": "gff", "Arc/Info Binary Grid": "adf", "Portable Network Graphics": "png", "JPEG JFIF": "jpg", "Japanese DEM (.mem)": "mem", "Graphics Interchange Format (.gif)": "gif", "X11 PixMap Format": "xpm", "MS Windows Device Independent Bitmap": "bmp", "SPOT DIMAP": "dim", "RadarSat 2 XML Product": "xml", "EarthWatch .TIL": "til", "ERMapper .ers Labelled": "ers", "ERMapper Compressed Wavelets": "ecw", "GRIdded Binary (.grb)": "grb", "EUMETSAT Archive native (.nat)": "nat", "Idrisi Raster A.1": "rst", "Golden Software ASCII Grid (.grd)": "grd", "Golden Software Binary Grid (.grd)": "grd", "Golden Software 7 Binary Grid (.grd)": "grd", "R Object Data Store": "r", "USGS DOQ (Old Style)": "doq", "USGS DOQ (New Style)": "doq", "ENVI .hdr Labelled": "hdr", "ESRI .hdr Labelled": "hdr", "Generic Binary (.hdr Labelled)": "hdr", "PCI .aux Labelled": "aux", "EOSAT FAST Format": "fst", "VTP .bt (Binary Terrain) 1.3 Format": "bt", "FARSITE v.4 Landscape File (.lcp)": "lcp", "Swedish Grid RIK (.rik)": "rik", "USGS Optional ASCII DEM (and CDED)": "dem", "Northwood Numeric Grid Format .grd/.tab": "", "Northwood Classified Grid Format .grc/.tab": "", "ARC Digitized Raster Graphics": "arc", "Magellan topo (.blx)": "blx", "SAGA GIS Binary Grid (.sdat)": "sdat", "GeoPackage (.gpkg)": "gpkg", } vectorFormatExtension = { "ESRI Shapefile": "shp", "GeoPackage": "gpkg", "UK .NTF": "ntf", "SDTS": "ddf", "DGN": "dgn", "VRT": "vrt", "REC": "rec", "BNA": "bna", "CSV": "csv", "GML": "gml", "GPX": "gpx", "KML": "kml", "GMT": "gmt", "PGeo": "mdb", "XPlane": "dat", "AVCBin": "adf", "AVCE00": "e00", "DXF": "dxf", "Geoconcept": "gxt", "GeoRSS": "xml", "GPSTrackMaker": "gtm", "VFK": "vfk", "SVG": "svg", } def GetSettingsPath(): """Get full path to the settings directory""" try: verFd = open(os.path.join(ETCDIR, "VERSIONNUMBER")) version = int(verFd.readlines()[0].split(" ")[0].split(".")[0]) except (IOError, ValueError, TypeError, IndexError) as e: sys.exit(_("ERROR: Unable to determine GRASS version. Details: %s") % e) verFd.close() # keep location of settings files rc and wx in sync with lib/init/grass.py if sys.platform == "win32": return os.path.join(os.getenv("APPDATA"), "GRASS%d" % version) return os.path.join(os.getenv("HOME"), ".grass%d" % version) def StoreEnvVariable(key, value=None, envFile=None): """Store environmental variable If value is not given (is None) then environmental variable is unset. :param key: env key :param value: env value :param envFile: path to the environmental file (None for default location) """ windows = sys.platform == "win32" if not envFile: gVersion = grass.version()["version"].split(".", 1)[0] if not windows: envFile = os.path.join(os.getenv("HOME"), ".grass%s" % gVersion, "bashrc") else: envFile = os.path.join( os.getenv("APPDATA"), "GRASS%s" % gVersion, "env.bat" ) # read env file environ = dict() lineSkipped = list() if os.path.exists(envFile): try: fd = open(envFile) except IOError as e: sys.stderr.write(_("Unable to open file '%s'\n") % envFile) return for line in fd.readlines(): line = line.rstrip(os.linesep) try: k, v = map(lambda x: x.strip(), line.split(" ", 1)[1].split("=", 1)) except Exception as e: sys.stderr.write( _("%s: line skipped - unable to parse '%s'\n" "Reason: %s\n") % (envFile, line, e) ) lineSkipped.append(line) continue if k in environ: sys.stderr.write(_("Duplicated key: %s\n") % k) environ[k] = v fd.close() # update environmental variables if value is None: if key in environ: del environ[key] else: environ[key] = value # write update env file try: fd = open(envFile, "w") except IOError as e: sys.stderr.write(_("Unable to create file '%s'\n") % envFile) return if windows: expCmd = "set" else: expCmd = "export" for key, value in six.iteritems(environ): fd.write("%s %s=%s\n" % (expCmd, key, value)) # write also skipped lines for line in lineSkipped: fd.write(line + os.linesep) fd.close() def SetAddOnPath(addonPath=None, key="PATH"): """Set default AddOn path :param addonPath: path to addons (None for default) :param key: env key - 'PATH' or 'BASE' """ gVersion = grass.version()["version"].split(".", 1)[0] # update env file if not addonPath: if sys.platform != "win32": addonPath = os.path.join( os.path.join(os.getenv("HOME"), ".grass%s" % gVersion, "addons") ) else: addonPath = os.path.join( os.path.join(os.getenv("APPDATA"), "GRASS%s" % gVersion, "addons") ) StoreEnvVariable(key="GRASS_ADDON_" + key, value=addonPath) os.environ["GRASS_ADDON_" + key] = addonPath # update path if addonPath not in os.environ["PATH"]: os.environ["PATH"] = addonPath + os.pathsep + os.environ["PATH"] # predefined colors and their names # must be in sync with lib/gis/color_str.c str2rgb = { "aqua": (100, 128, 255), "black": (0, 0, 0), "blue": (0, 0, 255), "brown": (180, 77, 25), "cyan": (0, 255, 255), "gray": (128, 128, 128), "grey": (128, 128, 128), "green": (0, 255, 0), "indigo": (0, 128, 255), "magenta": (255, 0, 255), "orange": (255, 128, 0), "red": (255, 0, 0), "violet": (128, 0, 255), "purple": (128, 0, 255), "white": (255, 255, 255), "yellow": (255, 255, 0), } rgb2str = {} for s, r in str2rgb.items(): rgb2str[r] = s # ensure that gray value has 'gray' string and not 'grey' rgb2str[str2rgb["gray"]] = "gray" # purple is defined as nickname for violet in lib/gis # (although Wikipedia says that purple is (128, 0, 128)) # we will prefer the defined color, not nickname rgb2str[str2rgb["violet"]] = "violet" def color_resolve(color): if len(color) > 0 and color[0] in "0123456789": rgb = tuple(map(int, color.split(":"))) label = color else: # Convert color names to RGB try: rgb = str2rgb[color] label = color except KeyError: rgb = (200, 200, 200) label = _("Select Color") return (rgb, label) command2ltype = { "d.rast": "raster", "d.rast3d": "raster_3d", "d.rgb": "rgb", "d.his": "his", "d.shade": "shaded", "d.legend": "rastleg", "d.rast.arrow": "rastarrow", "d.rast.num": "rastnum", "d.rast.leg": "maplegend", "d.vect": "vector", "d.vect.thematic": "thememap", "d.vect.chart": "themechart", "d.grid": "grid", "d.geodesic": "geodesic", "d.rhumbline": "rhumb", "d.labels": "labels", "d.barscale": "barscale", "d.redraw": "redraw", "d.wms": "wms", "d.histogram": "histogram", "d.colortable": "colortable", "d.graph": "graph", "d.out.file": "export", "d.to.rast": "torast", "d.text": "text", "d.northarrow": "northarrow", "d.polar": "polar", "d.legend.vect": "vectleg", } ltype2command = {} for cmd, ltype in command2ltype.items(): ltype2command[ltype] = cmd def GetGEventAttribsForHandler(method, event): """Get attributes from event, which can be used by handler method. Be aware of event class attributes. :param method: handler method (including self arg) :param event: event :return: (valid kwargs for method, list of method's args without default value which were not found among event attributes) """ args_spec = inspect.getargspec(method) args = args_spec[0] defaults = [] if args_spec[3]: defaults = args_spec[3] # number of arguments without def value req_args = len(args) - 1 - len(defaults) kwargs = {} missing_args = [] for i, a in enumerate(args): if hasattr(event, a): kwargs[a] = getattr(event, a) elif i < req_args: missing_args.append(a) return kwargs, missing_args def PilImageToWxImage(pilImage, copyAlpha=True): """Convert PIL image to wx.Image Based on http://wiki.wxpython.org/WorkingWithImages """ from gui_core.wrap import EmptyImage hasAlpha = pilImage.mode[-1] == "A" if copyAlpha and hasAlpha: # Make sure there is an alpha layer copy. wxImage = EmptyImage(*pilImage.size) pilImageCopyRGBA = pilImage.copy() pilImageCopyRGB = pilImageCopyRGBA.convert("RGB") # RGBA --> RGB wxImage.SetData(pilImageCopyRGB.tobytes()) # Create layer and insert alpha values. if wxPythonPhoenix: wxImage.SetAlpha(pilImageCopyRGBA.tobytes()[3::4]) else: wxImage.SetAlphaData(pilImageCopyRGBA.tobytes()[3::4]) else: # The resulting image will not have alpha. wxImage = EmptyImage(*pilImage.size) pilImageCopy = pilImage.copy() # Discard any alpha from the PIL image. pilImageCopyRGB = pilImageCopy.convert("RGB") wxImage.SetData(pilImageCopyRGB.tobytes()) return wxImage def autoCropImageFromFile(filename): """Loads image from file and crops it automatically. If PIL is not installed, it does not crop it. :param filename: path to file :return: wx.Image instance """ try: from PIL import Image pilImage = Image.open(filename) imageBox = pilImage.getbbox() cropped = pilImage.crop(imageBox) return PilImageToWxImage(cropped, copyAlpha=True) except ImportError: import wx return wx.Image(filename) def isInRegion(regionA, regionB): """Tests if 'regionA' is inside of 'regionB'. For example, region A is a display region and region B is some reference region, e.g., a computational region. >>> displayRegion = {'n': 223900, 's': 217190, 'w': 630780, 'e': 640690} >>> compRegion = {'n': 228500, 's': 215000, 'w': 630000, 'e': 645000} >>> isInRegion(displayRegion, compRegion) True >>> displayRegion = {'n':226020, 's': 212610, 'w': 626510, 'e': 646330} >>> isInRegion(displayRegion, compRegion) False :param regionA: input region A as dictionary :param regionB: input region B as dictionary :return: True if region A is inside of region B :return: False otherwise """ if ( regionA["s"] >= regionB["s"] and regionA["n"] <= regionB["n"] and regionA["w"] >= regionB["w"] and regionA["e"] <= regionB["e"] ): return True return False def do_doctest_gettext_workaround(): """Setups environment for doing a doctest with gettext usage. When using gettext with dynamically defined underscore function (`_("For translation")`), doctest does not work properly. One option is to use `import as` instead of dynamically defined underscore function but this would require change all modules which are used by tested module. This should be considered for the future. The second option is to define dummy underscore function and one other function which creates the right environment to satisfy all. This is done by this function. """ def new_displayhook(string): """A replacement for default `sys.displayhook`""" if string is not None: sys.stdout.write("%r\n" % (string,)) def new_translator(string): """A fake gettext underscore function.""" return string sys.displayhook = new_displayhook import __builtin__ __builtin__._ = new_translator def doc_test(): """Tests the module using doctest :return: a number of failed tests """ import doctest do_doctest_gettext_workaround() return doctest.testmod().failed def registerPid(pid): """Register process id as GUI_PID GRASS variable :param: pid process id """ env = grass.gisenv() guiPid = [] if "GUI_PID" in env: guiPid = env["GUI_PID"].split(",") guiPid.append(str(pid)) grass.run_command("g.gisenv", set="GUI_PID={0}".format(",".join(guiPid))) def unregisterPid(pid): """Unregister process id from GUI_PID GRASS variable :param: pid process id """ env = grass.gisenv() if "GUI_PID" not in env: return guiPid = env["GUI_PID"].split(",") pid = str(os.getpid()) if pid in guiPid: guiPid.remove(pid) grass.run_command("g.gisenv", set="GUI_PID={0}".format(",".join(guiPid))) def get_shell_pid(env=None): """Get shell PID from the GIS environment or None""" try: shell_pid = int(grass.gisenv(env=env)["PID"]) return shell_pid except (KeyError, ValueError) as error: Debug.msg( 1, "No PID for GRASS shell (assuming no shell running): {}".format(error) ) return None def is_shell_running(): """Return True if a separate shell is registered in the GIS environment""" if get_shell_pid() is None: return False return True if __name__ == "__main__": sys.exit(doc_test())