#!/usr/bin/env python """The EE Python library.""" __version__ = '0.1.307' # Using lowercase function naming to match the JavaScript names. # pylint: disable=g-bad-name # pylint: disable=g-bad-import-order import collections import datetime import inspect import numbers import os import six from . import batch from . import data from . import deserializer from . import ee_types as types from . import oauth # Public re-exports. from ._helpers import ServiceAccountCredentials from ._helpers import apply # pylint: disable=redefined-builtin from ._helpers import call from ._helpers import profilePrinting from .apifunction import ApiFunction from .collection import Collection from .computedobject import ComputedObject from .customfunction import CustomFunction from .dictionary import Dictionary from .ee_date import Date from .ee_exception import EEException from .ee_list import List from .ee_number import Number from .ee_string import String from .element import Element from .encodable import Encodable from .feature import Feature from .featurecollection import FeatureCollection from .filter import Filter from .function import Function from .geometry import Geometry from .image import Image from .imagecollection import ImageCollection from .serializer import Serializer from .terrain import Terrain # Tell pytype not to worry about dynamic attributes. _HAS_DYNAMIC_ATTRIBUTES = True # A list of autogenerated class names added by _InitializeGenerateClasses. _generatedClasses = [] class _AlgorithmsContainer(dict): """A lightweight class that is used as a dictionary with dot notation. """ def __getattr__(self, name): try: return self[name] except KeyError: raise AttributeError def __setattr__(self, name, value): self[name] = value def __delattr__(self, name): del self[name] # A dictionary of algorithms that are not bound to a specific class. Algorithms = _AlgorithmsContainer() def Authenticate( authorization_code=None, quiet=None, code_verifier=None, auth_mode=None): """Prompts the user to authorize access to Earth Engine via OAuth2. Args: authorization_code: An optional authorization code. quiet: If true, do not require interactive prompts. code_verifier: PKCE verifier to prevent auth code stealing. auth_mode: The authentication mode. One of: "paste" - send user to accounts.google.com to get a pastable token; "notebook" - send user to notebook authenticator page; "gcloud" - use gcloud to obtain credentials (will set appdefault); "appdefault" - read from existing $GOOGLE_APPLICATION_CREDENTIALS file; None - a default mode is chosen based on your environment. """ oauth.authenticate(authorization_code, quiet, code_verifier, auth_mode) def Initialize( credentials='persistent', opt_url=None, cloud_api_key=None, http_transport=None, project=None): """Initialize the EE library. If this hasn't been called by the time any object constructor is used, it will be called then. If this is called a second time with a different URL, this doesn't do an un-initialization of e.g.: the previously loaded Algorithms, but will overwrite them and let point at alternate servers. Args: credentials: OAuth2 credentials. 'persistent' (default) means use credentials already stored in the filesystem, or raise an explanatory exception guiding the user to create those credentials. opt_url: The base url for the EarthEngine REST API to connect to. cloud_api_key: An optional API key to use the Cloud API. http_transport: The http transport method to use when making requests. project: The project-id or number to use when making api calls. """ if credentials == 'persistent': credentials = data.get_persistent_credentials() data.initialize( credentials=credentials, api_base_url=(opt_url + '/api' if opt_url else None), tile_base_url=opt_url, cloud_api_base_url=opt_url, cloud_api_key=cloud_api_key, project=project, http_transport=http_transport) # Initialize the dynamically loaded functions on the objects that want them. ApiFunction.initialize() Element.initialize() Image.initialize() Feature.initialize() Collection.initialize() ImageCollection.initialize() FeatureCollection.initialize() Filter.initialize() Geometry.initialize() List.initialize() Number.initialize() String.initialize() Date.initialize() Dictionary.initialize() Terrain.initialize() _InitializeGeneratedClasses() _InitializeUnboundMethods() def Reset(): """Reset the library. Useful for re-initializing to a different server.""" data.reset() ApiFunction.reset() Element.reset() Image.reset() Feature.reset() Collection.reset() ImageCollection.reset() FeatureCollection.reset() Filter.reset() Geometry.reset() List.reset() Number.reset() String.reset() Date.reset() Dictionary.reset() Terrain.reset() _ResetGeneratedClasses() global Algorithms Algorithms = _AlgorithmsContainer() def _ResetGeneratedClasses(): """Remove the dynamic classes.""" global _generatedClasses for name in _generatedClasses: ApiFunction.clearApi(globals()[name]) del globals()[name] _generatedClasses = [] # Warning: we're passing all of globals() into registerClasses. # This is a) pass by reference, and b) a lot more stuff. types._registerClasses(globals()) # pylint: disable=protected-access def _Promote(arg, klass): """Wrap an argument in an object of the specified class. This is used to e.g.: promote numbers or strings to Images and arrays to Collections. Args: arg: The object to promote. klass: The expected type. Returns: The argument promoted if the class is recognized, otherwise the original argument. """ if arg is None: return arg if klass == 'Image': return Image(arg) elif klass == 'Feature': if isinstance(arg, Collection): # TODO(user): Decide whether we want to leave this in. It can be # quite dangerous on large collections. return ApiFunction.call_( 'Feature', ApiFunction.call_('Collection.geometry', arg)) else: return Feature(arg) elif klass == 'Element': if isinstance(arg, Element): # Already an Element. return arg elif isinstance(arg, Geometry): # Geometries get promoted to Features. return Feature(arg) elif isinstance(arg, ComputedObject): # Try a cast. return Element(arg.func, arg.args, arg.varName) else: # No way to convert. raise EEException('Cannot convert {0} to Element.'.format(arg)) elif klass == 'Geometry': if isinstance(arg, Collection): return ApiFunction.call_('Collection.geometry', arg) else: return Geometry(arg) elif klass in ('FeatureCollection', 'Collection'): # For now Collection is synonymous with FeatureCollection. if isinstance(arg, Collection): return arg else: return FeatureCollection(arg) elif klass == 'ImageCollection': return ImageCollection(arg) elif klass == 'Filter': return Filter(arg) elif klass == 'Algorithm': if isinstance(arg, six.string_types): # An API function name. return ApiFunction.lookup(arg) elif callable(arg): # A native function that needs to be wrapped. if six.PY2: args_count = len(inspect.getargspec(arg).args) else: args_count = len(inspect.getfullargspec(arg).args) return CustomFunction.create(arg, 'Object', ['Object'] * args_count) elif isinstance(arg, Encodable): # An ee.Function or a computed function like the return value of # Image.parseExpression(). return arg else: raise EEException('Argument is not a function: {0}'.format(arg)) elif klass == 'Dictionary': if isinstance(arg, dict): return arg else: return Dictionary(arg) elif klass == 'String': if (types.isString(arg) or isinstance(arg, ComputedObject) or isinstance(arg, String)): return String(arg) else: return arg elif klass == 'List': return List(arg) elif klass in ('Number', 'Float', 'Long', 'Integer', 'Short', 'Byte'): return Number(arg) elif klass in globals(): cls = globals()[klass] ctor = ApiFunction.lookupInternal(klass) # Handle dynamically created classes. if isinstance(arg, cls): # Return unchanged. return arg elif ctor: # The client-side constructor will call the server-side constructor. return cls(arg) elif isinstance(arg, six.string_types): if hasattr(cls, arg): # arg is the name of a method in klass. return getattr(cls, arg)() else: raise EEException('Unknown algorithm: {0}.{1}'.format(klass, arg)) else: # Client-side cast. return cls(arg) else: return arg def _InitializeUnboundMethods(): # Sort the items by length, so parents get created before children. items = sorted( ApiFunction.unboundFunctions().items(), key=lambda x: len(x[0])) for name, func in items: signature = func.getSignature() if signature.get('hidden', False): continue # Create nested objects as needed. name_parts = name.split('.') target = Algorithms while len(name_parts) > 1: first = name_parts[0] # Set the attribute if it doesn't already exist. The try/except block # works in both Python 2 & 3. try: getattr(target, first) except AttributeError: setattr(target, first, _AlgorithmsContainer()) target = getattr(target, first) name_parts = name_parts[1:] # Attach the function. # We need a copy of the function to attach properties. def GenerateFunction(f): return lambda *args, **kwargs: f.call(*args, **kwargs) # pylint: disable=unnecessary-lambda bound = GenerateFunction(func) bound.signature = signature # Add docs. If there are non-ASCII characters in the docs, and we're in # Python 2, use a hammer to force them into a str. try: bound.__doc__ = str(func) except UnicodeEncodeError: bound.__doc__ = func.__str__().encode('utf8') setattr(target, name_parts[0], bound) def _InitializeGeneratedClasses(): """Generate classes for extra types that appear in the web API.""" signatures = ApiFunction.allSignatures() # Collect the first part of all function names. names = set([name.split('.')[0] for name in signatures]) # Collect the return types of all functions. returns = set([signatures[sig]['returns'] for sig in signatures]) want = [name for name in names.intersection(returns) if name not in globals()] for name in want: globals()[name] = _MakeClass(name) _generatedClasses.append(name) ApiFunction._bound_signatures.add(name) # pylint: disable=protected-access # Warning: we're passing all of globals() into registerClasses. # This is a) pass by reference, and b) a lot more stuff. types._registerClasses(globals()) # pylint: disable=protected-access def _MakeClass(name): """Generates a dynamic API class for a given name.""" def init(self, *args): """Initializer for dynamically created classes. Args: self: The instance of this class. Listed to make the linter hush. *args: Either a ComputedObject to be promoted to this type, or arguments to an algorithm with the same name as this class. Returns: The new class. """ klass = globals()[name] onlyOneArg = (len(args) == 1) # Are we trying to cast something that's already of the right class? if onlyOneArg and isinstance(args[0], klass): result = args[0] else: # Decide whether to call a server-side constructor or just do a # client-side cast. ctor = ApiFunction.lookupInternal(name) firstArgIsPrimitive = not isinstance(args[0], ComputedObject) shouldUseConstructor = False if ctor: if not onlyOneArg: # Can't client-cast multiple arguments. shouldUseConstructor = True elif firstArgIsPrimitive: # Can't cast a primitive. shouldUseConstructor = True elif args[0].func != ctor: # We haven't already called the constructor on this object. shouldUseConstructor = True # Apply our decision. if shouldUseConstructor: # Call ctor manually to avoid having promote() called on the output. ComputedObject.__init__( self, ctor, ctor.promoteArgs(ctor.nameArgs(args))) else: # Just cast and hope for the best. if not onlyOneArg: # We don't know what to do with multiple args. raise EEException( 'Too many arguments for ee.{0}(): {1}'.format(name, args)) elif firstArgIsPrimitive: # Can't cast a primitive. raise EEException( 'Invalid argument for ee.{0}(): {1}. ' 'Must be a ComputedObject.'.format(name, args)) else: result = args[0] ComputedObject.__init__(self, result.func, result.args, result.varName) properties = {'__init__': init, 'name': lambda self: name} new_class = type(str(name), (ComputedObject,), properties) ApiFunction.importApi(new_class, name, name) return new_class # Set up type promotion rules as soon the package is loaded. Function._registerPromoter(_Promote) # pylint: disable=protected-access