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RumbleDB / RumbleQuick start: pip install jsoniq ⛈️ RumbleDB 2.0.0 "Lemon Ironwood" 🌳 for Apache Spark | Run queries on your large-scale, messy datasets (JSON, text, CSV, Parquet, Delta...) | Data Lakehouse with Updates, Scripting, Declarative Machine Learning and more
Masudbro94 / Python Hacked Mobile Phone Open in app Get started ITNEXT Published in ITNEXT You have 2 free member-only stories left this month. Sign up for Medium and get an extra one Kush Kush Follow Apr 15, 2021 · 7 min read · Listen Save How you can Control your Android Device with Python Photo by Caspar Camille Rubin on Unsplash Photo by Caspar Camille Rubin on Unsplash Introduction A while back I was thinking of ways in which I could annoy my friends by spamming them with messages for a few minutes, and while doing some research I came across the Android Debug Bridge. In this quick guide I will show you how you can interface with it using Python and how to create 2 quick scripts. The ADB (Android Debug Bridge) is a command line tool (CLI) which can be used to control and communicate with an Android device. You can do many things such as install apps, debug apps, find hidden features and use a shell to interface with the device directly. To enable the ADB, your device must firstly have Developer Options unlocked and USB debugging enabled. To unlock developer options, you can go to your devices settings and scroll down to the about section and find the build number of the current software which is on the device. Click the build number 7 times and Developer Options will be enabled. Then you can go to the Developer Options panel in the settings and enable USB debugging from there. Now the only other thing you need is a USB cable to connect your device to your computer. Here is what todays journey will look like: Installing the requirements Getting started The basics of writing scripts Creating a selfie timer Creating a definition searcher Installing the requirements The first of the 2 things we need to install, is the ADB tool on our computer. This comes automatically bundled with Android Studio, so if you already have that then do not worry. Otherwise, you can head over to the official docs and at the top of the page there should be instructions on how to install it. Once you have installed the ADB tool, you need to get the python library which we will use to interface with the ADB and our device. You can install the pure-python-adb library using pip install pure-python-adb. Optional: To make things easier for us while developing our scripts, we can install an open-source program called scrcpy which allows us to display and control our android device with our computer using a mouse and keyboard. To install it, you can head over to the Github repo and download the correct version for your operating system (Windows, macOS or Linux). If you are on Windows, then extract the zip file into a directory and add this directory to your path. This is so we can access the program from anywhere on our system just by typing in scrcpy into our terminal window. Getting started Now that all the dependencies are installed, we can start up our ADB and connect our device. Firstly, connect your device to your PC with the USB cable, if USB debugging is enabled then a message should pop up asking if it is okay for your PC to control the device, simply answer yes. Then on your PC, open up a terminal window and start the ADB server by typing in adb start-server. This should print out the following messages: * daemon not running; starting now at tcp:5037 * daemon started successfully If you also installed scrcpy, then you can start that by just typing scrcpy into the terminal. However, this will only work if you added it to your path, otherwise you can open the executable by changing your terminal directory to the directory of where you installed scrcpy and typing scrcpy.exe. Hopefully if everything works out, you should be able to see your device on your PC and be able to control it using your mouse and keyboard. Now we can create a new python file and check if we can find our connected device using the library: Here we import the AdbClient class and create a client object using it. Then we can get a list of devices connected. Lastly, we get the first device out of our list (it is generally the only one there if there is only one device connected). The basics of writing scripts The main way we are going to interface with our device is using the shell, through this we can send commands to simulate a touch at a specific location or to swipe from A to B. To simulate screen touches (taps) we first need to work out how the screen coordinates work. To help with these we can activate the pointer location setting in the developer options. Once activated, wherever you touch on the screen, you can see that the coordinates for that point appear at the top. The coordinate system works like this: A diagram to show how the coordinate system works A diagram to show how the coordinate system works The top left corner of the display has the x and y coordinates (0, 0) respectively, and the bottom right corners’ coordinates are the largest possible values of x and y. Now that we know how the coordinate system works, we need to check out the different commands we can run. I have made a list of commands and how to use them below for quick reference: Input tap x y Input text “hello world!” Input keyevent eventID Here is a list of some common eventID’s: 3: home button 4: back button 5: call 6: end call 24: volume up 25: volume down 26: turn device on or off 27: open camera 64: open browser 66: enter 67: backspace 207: contacts 220: brightness down 221: brightness up 277: cut 278: copy 279: paste If you wanted to find more, here is a long list of them here. Creating a selfie timer Now we know what we can do, let’s start doing it. In this first example I will show you how to create a quick selfie timer. To get started we need to import our libraries and create a connect function to connect to our device: You can see that the connect function is identical to the previous example of how to connect to your device, except here we return the device and client objects for later use. In our main code, we can call the connect function to retrieve the device and client objects. From there we can open up the camera app, wait 5 seconds and take a photo. It’s really that simple! As I said before, this is simply replicating what you would usually do, so thinking about how to do things is best if you do them yourself manually first and write down the steps. Creating a definition searcher We can do something a bit more complex now, and that is to ask the browser to find the definition of a particular word and take a screenshot to save it on our computer. The basic flow of this program will be as such: 1. Open the browser 2. Click the search bar 3. Enter the search query 4. Wait a few seconds 5. Take a screenshot and save it But, before we get started, you need to find the coordinates of your search bar in your default browser, you can use the method I suggested earlier to find them easily. For me they were (440, 200). To start, we will have to import the same libraries as before, and we will also have our same connect method. In our main function we can call the connect function, as well as assign a variable to the x and y coordinates of our search bar. Notice how this is a string and not a list or tuple, this is so we can easily incorporate the coordinates into our shell command. We can also take an input from the user to see what word they want to get the definition for: We will add that query to a full sentence which will then be searched, this is so that we can always get the definition. After that we can open the browser and input our search query into the search bar as such: Here we use the eventID 66 to simulate the press of the enter key to execute our search. If you wanted to, you could change the wait timings per your needs. Lastly, we will take a screenshot using the screencap method on our device object, and we can save that as a .png file: Here we must open the file in the write bytes mode because the screencap method returns bytes representing the image. If all went according to plan, you should have a quick script which searches for a specific word. Here it is working on my phone: A GIF to show how the definition searcher example works on my phone A GIF to show how the definition searcher example works on my phone Final thoughts Hopefully you have learned something new today, personally I never even knew this was a thing before I did some research into it. The cool thing is, that you can do anything you normal would be able to do, and more since it just simulates your own touches and actions! I hope you enjoyed the article and thank you for reading! 💖 468 9 468 9 More from ITNEXT Follow ITNEXT is a platform for IT developers & software engineers to share knowledge, connect, collaborate, learn and experience next-gen technologies. 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Stafford ·Apr 14, 2021 AWS IoT Core for LoRaWAN, AWS IoT Analytics, and Amazon QuickSight Lora 11 min read AWS IoT Core for LoRaWAN, Amazon IoT Analytics, and Amazon QuickSight Read more from ITNEXT Recommended from Medium Morpheus Morpheus Morpheus Swap — Resurrection Ashutosh Kumar Ashutosh Kumar GIT Branching strategies and GitFlow Balachandar Paulraj Balachandar Paulraj Delta Lake Clones: Systematic Approach for Testing, Sharing data Jason Porter Jason Porter Week 3 -Yieldly No-Loss Lottery Results Casino slot machines Mikolaj Szabó Mikolaj Szabó in HackerNoon.com Why functional programming matters Tt Tt Set Up LaTeX on Mac OS X Sierra Goutham Pratapa Goutham Pratapa Upgrade mongo to the latest build Julia Says Julia Says in Top Software Developers in the World How to Choose a Software Vendor AboutHelpTermsPrivacy Get the Medium app A button that says 'Download on the App Store', and if clicked it will lead you to the iOS App store A button that says 'Get it on, Google Play', and if clicked it will lead you to the Google Play store
Akajiaku11 / Using GIS And Machine Learning To Monitor Sandbars Along The Niger River In The Niger Delta Nigeria.This project uses Geographic Information Systems (GIS) and machine learning to monitor sandbars along the Niger River in Nigeria's Niger Delta. By analyzing satellite imagery and spatial data, the study identifies and tracks the formation, movement, and erosion of sandbars.
Akajiaku11 / Evolution Of Point Bars Along The Niger River In The Niger Delta Nigeria Using Machine LearningAssessing the evolution of point bars along the Niger River in the Niger Delta, Nigeria (1974-2024) using remote sensing and machine learning.
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PhongPham101190 / Red C SDKMEGA SDK - Client Access Engine Coverity Scan Build Status MEGA --- The Privacy Company --- is a Secure Cloud Storage provider that protects your data thanks to end-to-end encryption. We call it User Controlled Encryption, or UCE, and all our clients automatically manage it. All files stored on MEGA are encrypted. All data transfers from and to MEGA are encrypted. And while most cloud storage providers can and do claim the same, MEGA is different – unlike the industry norm where the cloud storage provider holds the decryption key, with MEGA, you control the encryption, you hold the keys, and you decide who you grant or deny access to your files. This SDK brings you all the power of our client applications and let you create your own or analyze the security of our products. Are you ready to start? Please continue reading. SDK Contents In this SDK, you can find our low level SDK, that was already released few months after the MEGA launch, a new intermediate layer to make it easier to use and to bind with other programming languages, and example apps for all our currently supported platforms (Windows, Linux, OSX, Android, iOS and Windows Phone). In the examples folder you can find example apps using: The low level SDK: megacli (a powerful command line tool that allows to use all SDK features) megasimplesync (a command line tool that allows to use the synchronization engine) The intermediate layer: An example app for Visual Studio in examples/win32 An example app for Android (using Java bindings based on SWIG) in examples/android An example app for iOS (using Objective-C bindings) in examples/iOS An example app for Windows Phone (using Windows Phone bindings) in examples/wp8 Building If you plan to develop an app using this SDK, please use the stable branch or the last released tarball. The master branch is continuously evolving, could be unstable and could change very often. For platforms with Autotools, the generic way to build and install it is: sh autogen.sh ./configure make sudo make install That compilation will include the examples using our low level SDK (megacli and megasimplesync) You also have specific build instructions for OSX (doc/OSX.txt) and FreeBSD (doc/FreeBSD.txt) and a build script to automatically download and build the SDK along with all its dependencies (contrib/build_sdk.sh) For other platforms, or if you want to see how to use the new intermediate layer, the easiest way is to get a smooth start is to build one of the examples in subfolders of the examples folder. All these folders contains a README.md file with information about how to get the project up and running, including the installation of all required dependencies. Usage The low level SDK doesn't have inline documentation yet. If you want to use it, please check one of our example apps (examples/megacli, examples/megasimplesync). The new intermediate layer has been documented using Doxygen. The only public header that you need to include to use is include/megaapi.h. You can read the documentation in that header file, or download the same documentation in HTML format from this link: https://mega.co.nz/#!c5FzhBJL!HUVjsOJTylwkmXPZ0AxT66Wuu4YvZInyHbWGYgvTHt4 Additional info Platform Dependencies Dependencies are different for each platform because the SDK uses generic interfaces to get some features and they have different implentations: Network (cURL with OpenSSL/c-ares or WinHTTP) Filesystem access (Posix or Win32) Graphics management (FreeImage, QT or iOS frameworks) Database (SQLite or Berkeley DB) Threads/mutexes (Win32, pthread, QT threads, or C++11) POSIX (Linux/Darwin/BSD/OSX ...) Install the following development packages, if available, or download and compile their respective sources (package names are for Debian and RedHat derivatives, respectively): cURL (libcurl4-openssl-dev, libcurl-devel), compiled with --enable-ssl c-ares (libc-ares-dev, libcares-devel, c-ares-devel) OpenSSL (libssl-dev, openssl-devel) Crypto++ (libcrypto++-dev, libcryptopp-devel) zlib (zlib1g-dev, zlib-devel) SQLite (libsqlite3-dev, sqlite-devel) or configure --without-sqlite FreeImage (libfreeimage-dev, freeimage-devel) or configure --without-freeimage pthread Optional dependency: Sodium (libsodium-dev, libsodium-devel), configure --with-sodium Filesystem event monitoring: The provided filesystem layer implements the Linux inotify and the MacOS fsevents interfaces. To build the reference megacli example, you may also need to install: GNU Readline (libreadline-dev, readline-devel) For Android, we provide an additional implementation of the graphics subsystem using Android libraries. For iOS, we provide an additional implementation of the graphics subsystem using Objective C frameworks. Windows To build the client access engine under Windows, you'll need the following: A Windows-native C++ development environment (e.g. MinGW or Visual Studio) Crypto++ zlib (until WinHTTP learns how to deal with Content-Encoding: gzip) SQLite or configure --without-sqlite FreeImage or configure --without-freeimage pthreads (MinGW) Optional dependency: Sodium or configure --with-sodium To build the reference megacli.exe example, you will also need to procure development packages (at least headers and .lib/.a libraries) of: GNU Readline/Termcap Folder syncing In this version, the sync functionality is limited in scope and functionality: There is no locking between clients accessing the same remote folder. Concurrent creation of identically named files and folders can result in server-side dupes. Syncing between clients with differing filesystem naming semantics can lead to loss of data, e.g. when syncing a folder containing ABC.TXT and abc.txt with a Windows client. On POSIX platforms, filenames are assumed to be encoded in UTF-8. Invalid byte sequences can lead to undefined behaviour. Local filesystem items must not be exposed to the sync subsystem more than once. Any dupes, whether by nesting syncs or through filesystem links, will lead to unexpected results and loss of data. No in-place versioning. Deleted remote files can be found in //bin/SyncDebris (only when syncing to the logged in account's own cloud drive - there is no SyncDebris facility on syncs to inbound shares), deleted local files in a sync-specific hidden debris folder located in the local sync's root folder. No delta writes. Changed files are always overwritten as a whole, which means that it is not a good idea to sync e.g. live database tables. No direct peer-to-peer syncing. Even two machines in the same local subnet will still sync via the remote storage infrastructure. No support for unidirectional syncing (backup-only, restore-only). Syncing to an inbound share requires it to have full access rights. megacli on Windows The megacli example is currently not handling console Unicode input/output correctly if run in cmd.exe. Filename caveats: Please prefix all paths with \\?\ to avoid the following issues: The MAX_PATH (260 character) length limitation, which would make it impossible to access files in deep directory structures Prohibited filenames (con/prn/aux/clock$/nul/com1...com9/lpt1...lpt9). Such files and folders will still be inaccessible through e.g. Explorer! Also, disable automatic short name generation to eliminate the risk of clashes with existing short names.
mdrakiburrahman / Azure Databricks Malware PredictionEnd-to-end Machine Learning Pipeline demo using Delta Lake, MLflow and AzureML in Azure Databricks
Fabi0San / DuCalibratorAn OctoPrint Plugin for performing micro calibration in linear delta machines.
halofx / Marlin 2.0 PredatorOptimized firmware for the AnyCubic Predator delta 3D printer. Based off Marlin 2.0.0. This specific config is customized for my machine which uses the BigTreeTech SKR 1.3, 1.4 Turbo, and SKR 2, with TMC2209 drivers, BigTreeTech TFT35, stock extruder and cooling, and a WhamBam flex plate system. So proceed with caution, as what works for my machine may require tweaking on another. Note what board is used in any branch in the Platformio.ini file.
haseebalam / Python Twitter Apisoftware # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. '''A library that provides a Python interface to the Twitter API''' import base64 import calendar import datetime import httplib import os import rfc822 import sys import tempfile import textwrap import time import calendar import urllib import urllib2 import urlparse import gzip import StringIO try: # Python >= 2.6 import json as simplejson except ImportError: try: # Python < 2.6 import simplejson except ImportError: try: # Google App Engine from django.utils import simplejson except ImportError: raise ImportError, "Unable to load a json library" # parse_qsl moved to urlparse module in v2.6 try: from urlparse import parse_qsl, parse_qs except ImportError: from cgi import parse_qsl, parse_qs try: from hashlib import md5 except ImportError: from md5 import md5 import oauth2 as oauth CHARACTER_LIMIT = 140 # A singleton representing a lazily instantiated FileCache. DEFAULT_CACHE = object() REQUEST_TOKEN_URL = 'https://api.twitter.com/oauth/request_token' ACCESS_TOKEN_URL = 'https://api.twitter.com/oauth/access_token' AUTHORIZATION_URL = 'https://api.twitter.com/oauth/authorize' SIGNIN_URL = 'https://api.twitter.com/oauth/authenticate' class TwitterError(Exception): '''Base class for Twitter errors''' @property def message(self): '''Returns the first argument used to construct this error.''' return self.args[0] class Status(object): '''A class representing the Status structure used by the twitter API. The Status structure exposes the following properties: status.created_at status.created_at_in_seconds # read only status.favorited status.in_reply_to_screen_name status.in_reply_to_user_id status.in_reply_to_status_id status.truncated status.source status.id status.text status.location status.relative_created_at # read only status.user status.urls status.user_mentions status.hashtags status.geo status.place status.coordinates status.contributors ''' def __init__(self, created_at=None, favorited=None, id=None, text=None, location=None, user=None, in_reply_to_screen_name=None, in_reply_to_user_id=None, in_reply_to_status_id=None, truncated=None, source=None, now=None, urls=None, user_mentions=None, hashtags=None, geo=None, place=None, coordinates=None, contributors=None, retweeted=None, retweeted_status=None, retweet_count=None): '''An object to hold a Twitter status message. This class is normally instantiated by the twitter.Api class and returned in a sequence. Note: Dates are posted in the form "Sat Jan 27 04:17:38 +0000 2007" Args: created_at: The time this status message was posted. [Optional] favorited: Whether this is a favorite of the authenticated user. [Optional] id: The unique id of this status message. [Optional] text: The text of this status message. [Optional] location: the geolocation string associated with this message. [Optional] relative_created_at: A human readable string representing the posting time. [Optional] user: A twitter.User instance representing the person posting the message. [Optional] now: The current time, if the client choses to set it. Defaults to the wall clock time. [Optional] urls: user_mentions: hashtags: geo: place: coordinates: contributors: retweeted: retweeted_status: retweet_count: ''' self.created_at = created_at self.favorited = favorited self.id = id self.text = text self.location = location self.user = user self.now = now self.in_reply_to_screen_name = in_reply_to_screen_name self.in_reply_to_user_id = in_reply_to_user_id self.in_reply_to_status_id = in_reply_to_status_id self.truncated = truncated self.retweeted = retweeted self.source = source self.urls = urls self.user_mentions = user_mentions self.hashtags = hashtags self.geo = geo self.place = place self.coordinates = coordinates self.contributors = contributors self.retweeted_status = retweeted_status self.retweet_count = retweet_count def GetCreatedAt(self): '''Get the time this status message was posted. Returns: The time this status message was posted ''' return self._created_at def SetCreatedAt(self, created_at): '''Set the time this status message was posted. Args: created_at: The time this status message was created ''' self._created_at = created_at created_at = property(GetCreatedAt, SetCreatedAt, doc='The time this status message was posted.') def GetCreatedAtInSeconds(self): '''Get the time this status message was posted, in seconds since the epoch. Returns: The time this status message was posted, in seconds since the epoch. ''' return calendar.timegm(rfc822.parsedate(self.created_at)) created_at_in_seconds = property(GetCreatedAtInSeconds, doc="The time this status message was " "posted, in seconds since the epoch") def GetFavorited(self): '''Get the favorited setting of this status message. Returns: True if this status message is favorited; False otherwise ''' return self._favorited def SetFavorited(self, favorited): '''Set the favorited state of this status message. Args: favorited: boolean True/False favorited state of this status message ''' self._favorited = favorited favorited = property(GetFavorited, SetFavorited, doc='The favorited state of this status message.') def GetId(self): '''Get the unique id of this status message. Returns: The unique id of this status message ''' return self._id def SetId(self, id): '''Set the unique id of this status message. Args: id: The unique id of this status message ''' self._id = id id = property(GetId, SetId, doc='The unique id of this status message.') def GetInReplyToScreenName(self): return self._in_reply_to_screen_name def SetInReplyToScreenName(self, in_reply_to_screen_name): self._in_reply_to_screen_name = in_reply_to_screen_name in_reply_to_screen_name = property(GetInReplyToScreenName, SetInReplyToScreenName, doc='') def GetInReplyToUserId(self): return self._in_reply_to_user_id def SetInReplyToUserId(self, in_reply_to_user_id): self._in_reply_to_user_id = in_reply_to_user_id in_reply_to_user_id = property(GetInReplyToUserId, SetInReplyToUserId, doc='') def GetInReplyToStatusId(self): return self._in_reply_to_status_id def SetInReplyToStatusId(self, in_reply_to_status_id): self._in_reply_to_status_id = in_reply_to_status_id in_reply_to_status_id = property(GetInReplyToStatusId, SetInReplyToStatusId, doc='') def GetTruncated(self): return self._truncated def SetTruncated(self, truncated): self._truncated = truncated truncated = property(GetTruncated, SetTruncated, doc='') def GetRetweeted(self): return self._retweeted def SetRetweeted(self, retweeted): self._retweeted = retweeted retweeted = property(GetRetweeted, SetRetweeted, doc='') def GetSource(self): return self._source def SetSource(self, source): self._source = source source = property(GetSource, SetSource, doc='') def GetText(self): '''Get the text of this status message. Returns: The text of this status message. ''' return self._text def SetText(self, text): '''Set the text of this status message. Args: text: The text of this status message ''' self._text = text text = property(GetText, SetText, doc='The text of this status message') def GetLocation(self): '''Get the geolocation associated with this status message Returns: The geolocation string of this status message. ''' return self._location def SetLocation(self, location): '''Set the geolocation associated with this status message Args: location: The geolocation string of this status message ''' self._location = location location = property(GetLocation, SetLocation, doc='The geolocation string of this status message') def GetRelativeCreatedAt(self): '''Get a human redable string representing the posting time Returns: A human readable string representing the posting time ''' fudge = 1.25 delta = long(self.now) - long(self.created_at_in_seconds) if delta < (1 * fudge): return 'about a second ago' elif delta < (60 * (1/fudge)): return 'about %d seconds ago' % (delta) elif delta < (60 * fudge): return 'about a minute ago' elif delta < (60 * 60 * (1/fudge)): return 'about %d minutes ago' % (delta / 60) elif delta < (60 * 60 * fudge) or delta / (60 * 60) == 1: return 'about an hour ago' elif delta < (60 * 60 * 24 * (1/fudge)): return 'about %d hours ago' % (delta / (60 * 60)) elif delta < (60 * 60 * 24 * fudge) or delta / (60 * 60 * 24) == 1: return 'about a day ago' else: return 'about %d days ago' % (delta / (60 * 60 * 24)) relative_created_at = property(GetRelativeCreatedAt, doc='Get a human readable string representing ' 'the posting time') def GetUser(self): '''Get a twitter.User reprenting the entity posting this status message. Returns: A twitter.User reprenting the entity posting this status message ''' return self._user def SetUser(self, user): '''Set a twitter.User reprenting the entity posting this status message. Args: user: A twitter.User reprenting the entity posting this status message ''' self._user = user user = property(GetUser, SetUser, doc='A twitter.User reprenting the entity posting this ' 'status message') def GetNow(self): '''Get the wallclock time for this status message. Used to calculate relative_created_at. Defaults to the time the object was instantiated. Returns: Whatever the status instance believes the current time to be, in seconds since the epoch. ''' if self._now is None: self._now = time.time() return self._now def SetNow(self, now): '''Set the wallclock time for this status message. Used to calculate relative_created_at. Defaults to the time the object was instantiated. Args: now: The wallclock time for this instance. ''' self._now = now now = property(GetNow, SetNow, doc='The wallclock time for this status instance.') def GetGeo(self): return self._geo def SetGeo(self, geo): self._geo = geo geo = property(GetGeo, SetGeo, doc='') def GetPlace(self): return self._place def SetPlace(self, place): self._place = place place = property(GetPlace, SetPlace, doc='') def GetCoordinates(self): return self._coordinates def SetCoordinates(self, coordinates): self._coordinates = coordinates coordinates = property(GetCoordinates, SetCoordinates, doc='') def GetContributors(self): return self._contributors def SetContributors(self, contributors): self._contributors = contributors contributors = property(GetContributors, SetContributors, doc='') def GetRetweeted_status(self): return self._retweeted_status def SetRetweeted_status(self, retweeted_status): self._retweeted_status = retweeted_status retweeted_status = property(GetRetweeted_status, SetRetweeted_status, doc='') def GetRetweetCount(self): return self._retweet_count def SetRetweetCount(self, retweet_count): self._retweet_count = retweet_count retweet_count = property(GetRetweetCount, SetRetweetCount, doc='') def __ne__(self, other): return not self.__eq__(other) def __eq__(self, other): try: return other and \ self.created_at == other.created_at and \ self.id == other.id and \ self.text == other.text and \ self.location == other.location and \ self.user == other.user and \ self.in_reply_to_screen_name == other.in_reply_to_screen_name and \ self.in_reply_to_user_id == other.in_reply_to_user_id and \ self.in_reply_to_status_id == other.in_reply_to_status_id and \ self.truncated == other.truncated and \ self.retweeted == other.retweeted and \ self.favorited == other.favorited and \ self.source == other.source and \ self.geo == other.geo and \ self.place == other.place and \ self.coordinates == other.coordinates and \ self.contributors == other.contributors and \ self.retweeted_status == other.retweeted_status and \ self.retweet_count == other.retweet_count except AttributeError: return False def __str__(self): '''A string representation of this twitter.Status instance. The return value is the same as the JSON string representation. Returns: A string representation of this twitter.Status instance. ''' return self.AsJsonString() def AsJsonString(self): '''A JSON string representation of this twitter.Status instance. Returns: A JSON string representation of this twitter.Status instance ''' return simplejson.dumps(self.AsDict(), sort_keys=True) def AsDict(self): '''A dict representation of this twitter.Status instance. The return value uses the same key names as the JSON representation. Return: A dict representing this twitter.Status instance ''' data = {} if self.created_at: data['created_at'] = self.created_at if self.favorited: data['favorited'] = self.favorited if self.id: data['id'] = self.id if self.text: data['text'] = self.text if self.location: data['location'] = self.location if self.user: data['user'] = self.user.AsDict() if self.in_reply_to_screen_name: data['in_reply_to_screen_name'] = self.in_reply_to_screen_name if self.in_reply_to_user_id: data['in_reply_to_user_id'] = self.in_reply_to_user_id if self.in_reply_to_status_id: data['in_reply_to_status_id'] = self.in_reply_to_status_id if self.truncated is not None: data['truncated'] = self.truncated if self.retweeted is not None: data['retweeted'] = self.retweeted if self.favorited is not None: data['favorited'] = self.favorited if self.source: data['source'] = self.source if self.geo: data['geo'] = self.geo if self.place: data['place'] = self.place if self.coordinates: data['coordinates'] = self.coordinates if self.contributors: data['contributors'] = self.contributors if self.hashtags: data['hashtags'] = [h.text for h in self.hashtags] if self.retweeted_status: data['retweeted_status'] = self.retweeted_status.AsDict() if self.retweet_count: data['retweet_count'] = self.retweet_count return data @staticmethod def NewFromJsonDict(data): '''Create a new instance based on a JSON dict. Args: data: A JSON dict, as converted from the JSON in the twitter API Returns: A twitter.Status instance ''' if 'user' in data: user = User.NewFromJsonDict(data['user']) else: user = None if 'retweeted_status' in data: retweeted_status = Status.NewFromJsonDict(data['retweeted_status']) else: retweeted_status = None urls = None user_mentions = None hashtags = None if 'entities' in data: if 'urls' in data['entities']: urls = [Url.NewFromJsonDict(u) for u in data['entities']['urls']] if 'user_mentions' in data['entities']: user_mentions = [User.NewFromJsonDict(u) for u in data['entities']['user_mentions']] if 'hashtags' in data['entities']: hashtags = [Hashtag.NewFromJsonDict(h) for h in data['entities']['hashtags']] return Status(created_at=data.get('created_at', None), favorited=data.get('favorited', None), id=data.get('id', None), text=data.get('text', None), location=data.get('location', None), in_reply_to_screen_name=data.get('in_reply_to_screen_name', None), in_reply_to_user_id=data.get('in_reply_to_user_id', None), in_reply_to_status_id=data.get('in_reply_to_status_id', None), truncated=data.get('truncated', None), retweeted=data.get('retweeted', None), source=data.get('source', None), user=user, urls=urls, user_mentions=user_mentions, hashtags=hashtags, geo=data.get('geo', None), place=data.get('place', None), coordinates=data.get('coordinates', None), contributors=data.get('contributors', None), retweeted_status=retweeted_status, retweet_count=data.get('retweet_count', None)) class User(object): '''A class representing the User structure used by the twitter API. The User structure exposes the following properties: user.id user.name user.screen_name user.location user.description user.profile_image_url user.profile_background_tile user.profile_background_image_url user.profile_sidebar_fill_color user.profile_background_color user.profile_link_color user.profile_text_color user.protected user.utc_offset user.time_zone user.url user.status user.statuses_count user.followers_count user.friends_count user.favourites_count user.geo_enabled user.verified user.lang user.notifications user.contributors_enabled user.created_at user.listed_count ''' def __init__(self, id=None, name=None, screen_name=None, location=None, description=None, profile_image_url=None, profile_background_tile=None, profile_background_image_url=None, profile_sidebar_fill_color=None, profile_background_color=None, profile_link_color=None, profile_text_color=None, protected=None, utc_offset=None, time_zone=None, followers_count=None, friends_count=None, statuses_count=None, favourites_count=None, url=None, status=None, geo_enabled=None, verified=None, lang=None, notifications=None, contributors_enabled=None, created_at=None, listed_count=None): self.id = id self.name = name self.screen_name = screen_name self.location = location self.description = description self.profile_image_url = profile_image_url self.profile_background_tile = profile_background_tile self.profile_background_image_url = profile_background_image_url self.profile_sidebar_fill_color = profile_sidebar_fill_color self.profile_background_color = profile_background_color self.profile_link_color = profile_link_color self.profile_text_color = profile_text_color self.protected = protected self.utc_offset = utc_offset self.time_zone = time_zone self.followers_count = followers_count self.friends_count = friends_count self.statuses_count = statuses_count self.favourites_count = favourites_count self.url = url self.status = status self.geo_enabled = geo_enabled self.verified = verified self.lang = lang self.notifications = notifications self.contributors_enabled = contributors_enabled self.created_at = created_at self.listed_count = listed_count def GetId(self): '''Get the unique id of this user. Returns: The unique id of this user ''' return self._id def SetId(self, id): '''Set the unique id of this user. Args: id: The unique id of this user. ''' self._id = id id = property(GetId, SetId, doc='The unique id of this user.') def GetName(self): '''Get the real name of this user. Returns: The real name of this user ''' return self._name def SetName(self, name): '''Set the real name of this user. Args: name: The real name of this user ''' self._name = name name = property(GetName, SetName, doc='The real name of this user.') def GetScreenName(self): '''Get the short twitter name of this user. Returns: The short twitter name of this user ''' return self._screen_name def SetScreenName(self, screen_name): '''Set the short twitter name of this user. Args: screen_name: the short twitter name of this user ''' self._screen_name = screen_name screen_name = property(GetScreenName, SetScreenName, doc='The short twitter name of this user.') def GetLocation(self): '''Get the geographic location of this user. Returns: The geographic location of this user ''' return self._location def SetLocation(self, location): '''Set the geographic location of this user. Args: location: The geographic location of this user ''' self._location = location location = property(GetLocation, SetLocation, doc='The geographic location of this user.') def GetDescription(self): '''Get the short text description of this user. Returns: The short text description of this user ''' return self._description def SetDescription(self, description): '''Set the short text description of this user. Args: description: The short text description of this user ''' self._description = description description = property(GetDescription, SetDescription, doc='The short text description of this user.') def GetUrl(self): '''Get the homepage url of this user. Returns: The homepage url of this user ''' return self._url def SetUrl(self, url): '''Set the homepage url of this user. Args: url: The homepage url of this user ''' self._url = url url = property(GetUrl, SetUrl, doc='The homepage url of this user.') def GetProfileImageUrl(self): '''Get the url of the thumbnail of this user. Returns: The url of the thumbnail of this user ''' return self._profile_image_url def SetProfileImageUrl(self, profile_image_url): '''Set the url of the thumbnail of this user. Args: profile_image_url: The url of the thumbnail of this user ''' self._profile_image_url = profile_image_url profile_image_url= property(GetProfileImageUrl, SetProfileImageUrl, doc='The url of the thumbnail of this user.') def GetProfileBackgroundTile(self): '''Boolean for whether to tile the profile background image. Returns: True if the background is to be tiled, False if not, None if unset. ''' return self._profile_background_tile def SetProfileBackgroundTile(self, profile_background_tile): '''Set the boolean flag for whether to tile the profile background image. Args: profile_background_tile: Boolean flag for whether to tile or not. ''' self._profile_background_tile = profile_background_tile profile_background_tile = property(GetProfileBackgroundTile, SetProfileBackgroundTile, doc='Boolean for whether to tile the background image.') def GetProfileBackgroundImageUrl(self): return self._profile_background_image_url def SetProfileBackgroundImageUrl(self, profile_background_image_url): self._profile_background_image_url = profile_background_image_url profile_background_image_url = property(GetProfileBackgroundImageUrl, SetProfileBackgroundImageUrl, doc='The url of the profile background of this user.') def GetProfileSidebarFillColor(self): return self._profile_sidebar_fill_color def SetProfileSidebarFillColor(self, profile_sidebar_fill_color): self._profile_sidebar_fill_color = profile_sidebar_fill_color profile_sidebar_fill_color = property(GetProfileSidebarFillColor, SetProfileSidebarFillColor) def GetProfileBackgroundColor(self): return self._profile_background_color def SetProfileBackgroundColor(self, profile_background_color): self._profile_background_color = profile_background_color profile_background_color = property(GetProfileBackgroundColor, SetProfileBackgroundColor) def GetProfileLinkColor(self): return self._profile_link_color def SetProfileLinkColor(self, profile_link_color): self._profile_link_color = profile_link_color profile_link_color = property(GetProfileLinkColor, SetProfileLinkColor) def GetProfileTextColor(self): return self._profile_text_color def SetProfileTextColor(self, profile_text_color): self._profile_text_color = profile_text_color profile_text_color = property(GetProfileTextColor, SetProfileTextColor) def GetProtected(self): return self._protected def SetProtected(self, protected): self._protected = protected protected = property(GetProtected, SetProtected) def GetUtcOffset(self): return self._utc_offset def SetUtcOffset(self, utc_offset): self._utc_offset = utc_offset utc_offset = property(GetUtcOffset, SetUtcOffset) def GetTimeZone(self): '''Returns the current time zone string for the user. Returns: The descriptive time zone string for the user. ''' return self._time_zone def SetTimeZone(self, time_zone): '''Sets the user's time zone string. Args: time_zone: The descriptive time zone to assign for the user. ''' self._time_zone = time_zone time_zone = property(GetTimeZone, SetTimeZone) def GetStatus(self): '''Get the latest twitter.Status of this user. Returns: The latest twitter.Status of this user ''' return self._status def SetStatus(self, status): '''Set the latest twitter.Status of this user. Args: status: The latest twitter.Status of this user ''' self._status = status status = property(GetStatus, SetStatus, doc='The latest twitter.Status of this user.') def GetFriendsCount(self): '''Get the friend count for this user. Returns: The number of users this user has befriended. ''' return self._friends_count def SetFriendsCount(self, count): '''Set the friend count for this user. Args: count: The number of users this user has befriended. ''' self._friends_count = count friends_count = property(GetFriendsCount, SetFriendsCount, doc='The number of friends for this user.') def GetListedCount(self): '''Get the listed count for this user. Returns: The number of lists this user belongs to. ''' return self._listed_count def SetListedCount(self, count): '''Set the listed count for this user. Args: count: The number of lists this user belongs to. ''' self._listed_count = count listed_count = property(GetListedCount, SetListedCount, doc='The number of lists this user belongs to.') def GetFollowersCount(self): '''Get the follower count for this user. Returns: The number of users following this user. ''' return self._followers_count def SetFollowersCount(self, count): '''Set the follower count for this user. Args: count: The number of users following this user. ''' self._followers_count = count followers_count = property(GetFollowersCount, SetFollowersCount, doc='The number of users following this user.') def GetStatusesCount(self): '''Get the number of status updates for this user. Returns: The number of status updates for this user. ''' return self._statuses_count def SetStatusesCount(self, count): '''Set the status update count for this user. Args: count: The number of updates for this user. ''' self._statuses_count = count statuses_count = property(GetStatusesCount, SetStatusesCount, doc='The number of updates for this user.') def GetFavouritesCount(self): '''Get the number of favourites for this user. Returns: The number of favourites for this user. ''' return self._favourites_count def SetFavouritesCount(self, count): '''Set the favourite count for this user. Args: count: The number of favourites for this user. ''' self._favourites_count = count favourites_count = property(GetFavouritesCount, SetFavouritesCount, doc='The number of favourites for this user.') def GetGeoEnabled(self): '''Get the setting of geo_enabled for this user. Returns: True/False if Geo tagging is enabled ''' return self._geo_enabled def SetGeoEnabled(self, geo_enabled): '''Set the latest twitter.geo_enabled of this user. Args: geo_enabled: True/False if Geo tagging is to be enabled ''' self._geo_enabled = geo_enabled geo_enabled = property(GetGeoEnabled, SetGeoEnabled, doc='The value of twitter.geo_enabled for this user.') def GetVerified(self): '''Get the setting of verified for this user. Returns: True/False if user is a verified account ''' return self._verified def SetVerified(self, verified): '''Set twitter.verified for this user. Args: verified: True/False if user is a verified account ''' self._verified = verified verified = property(GetVerified, SetVerified, doc='The value of twitter.verified for this user.') def GetLang(self): '''Get the setting of lang for this user. Returns: language code of the user ''' return self._lang def SetLang(self, lang): '''Set twitter.lang for this user. Args: lang: language code for the user ''' self._lang = lang lang = property(GetLang, SetLang, doc='The value of twitter.lang for this user.') def GetNotifications(self): '''Get the setting of notifications for this user. Returns: True/False for the notifications setting of the user ''' return self._notifications def SetNotifications(self, notifications): '''Set twitter.notifications for this user. Args: notifications: True/False notifications setting for the user ''' self._notifications = notifications notifications = property(GetNotifications, SetNotifications, doc='The value of twitter.notifications for this user.') def GetContributorsEnabled(self): '''Get the setting of contributors_enabled for this user. Returns: True/False contributors_enabled of the user ''' return self._contributors_enabled def SetContributorsEnabled(self, contributors_enabled): '''Set twitter.contributors_enabled for this user. Args: contributors_enabled: True/False contributors_enabled setting for the user ''' self._contributors_enabled = contributors_enabled contributors_enabled = property(GetContributorsEnabled, SetContributorsEnabled, doc='The value of twitter.contributors_enabled for this user.') def GetCreatedAt(self): '''Get the setting of created_at for this user. Returns: created_at value of the user ''' return self._created_at def SetCreatedAt(self, created_at): '''Set twitter.created_at for this user. Args: created_at: created_at value for the user ''' self._created_at = created_at created_at = property(GetCreatedAt, SetCreatedAt, doc='The value of twitter.created_at for this user.') def __ne__(self, other): return not self.__eq__(other) def __eq__(self, other): try: return other and \ self.id == other.id and \ self.name == other.name and \ self.screen_name == other.screen_name and \ self.location == other.location and \ self.description == other.description and \ self.profile_image_url == other.profile_image_url and \ self.profile_background_tile == other.profile_background_tile and \ self.profile_background_image_url == other.profile_background_image_url and \ self.profile_sidebar_fill_color == other.profile_sidebar_fill_color and \ self.profile_background_color == other.profile_background_color and \ self.profile_link_color == other.profile_link_color and \ self.profile_text_color == other.profile_text_color and \ self.protected == other.protected and \ self.utc_offset == other.utc_offset and \ self.time_zone == other.time_zone and \ self.url == other.url and \ self.statuses_count == other.statuses_count and \ self.followers_count == other.followers_count and \ self.favourites_count == other.favourites_count and \ self.friends_count == other.friends_count and \ self.status == other.status and \ self.geo_enabled == other.geo_enabled and \ self.verified == other.verified and \ self.lang == other.lang and \ self.notifications == other.notifications and \ self.contributors_enabled == other.contributors_enabled and \ self.created_at == other.created_at and \ self.listed_count == other.listed_count except AttributeError: return False def __str__(self): '''A string representation of this twitter.User instance. The return value is the same as the JSON string representation. Returns: A string representation of this twitter.User instance. ''' return self.AsJsonString() def AsJsonString(self): '''A JSON string representation of this twitter.User instance. Returns: A JSON string representation of this twitter.User instance ''' return simplejson.dumps(self.AsDict(), sort_keys=True) def AsDict(self): '''A dict representation of this twitter.User instance. The return value uses the same key names as the JSON representation. Return: A dict representing this twitter.User instance ''' data = {} if self.id: data['id'] = self.id if self.name: data['name'] = self.name if self.screen_name: data['screen_name'] = self.screen_name if self.location: data['location'] = self.location if self.description: data['description'] = self.description if self.profile_image_url: data['profile_image_url'] = self.profile_image_url if self.profile_background_tile is not None: data['profile_background_tile'] = self.profile_background_tile if self.profile_background_image_url: data['profile_sidebar_fill_color'] = self.profile_background_image_url if self.profile_background_color: data['profile_background_color'] = self.profile_background_color if self.profile_link_color: data['profile_link_color'] = self.profile_link_color if self.profile_text_color: data['profile_text_color'] = self.profile_text_color if self.protected is not None: data['protected'] = self.protected if self.utc_offset: data['utc_offset'] = self.utc_offset if self.time_zone: data['time_zone'] = self.time_zone if self.url: data['url'] = self.url if self.status: data['status'] = self.status.AsDict() if self.friends_count: data['friends_count'] = self.friends_count if self.followers_count: data['followers_count'] = self.followers_count if self.statuses_count: data['statuses_count'] = self.statuses_count if self.favourites_count: data['favourites_count'] = self.favourites_count if self.geo_enabled: data['geo_enabled'] = self.geo_enabled if self.verified: data['verified'] = self.verified if self.lang: data['lang'] = self.lang if self.notifications: data['notifications'] = self.notifications if self.contributors_enabled: data['contributors_enabled'] = self.contributors_enabled if self.created_at: data['created_at'] = self.created_at if self.listed_count: data['listed_count'] = self.listed_count return data @staticmethod def NewFromJsonDict(data): '''Create a new instance based on a JSON dict. Args: data: A JSON dict, as converted from the JSON in the twitter API Returns: A twitter.User instance ''' if 'status' in data: status = Status.NewFromJsonDict(data['status']) else: status = None return User(id=data.get('id', None), name=data.get('name', None), screen_name=data.get('screen_name', None), location=data.get('location', None), description=data.get('description', None), statuses_count=data.get('statuses_count', None), followers_count=data.get('followers_count', None), favourites_count=data.get('favourites_count', None), friends_count=data.get('friends_count', None), profile_image_url=data.get('profile_image_url', None), profile_background_tile = data.get('profile_background_tile', None), profile_background_image_url = data.get('profile_background_image_url', None), profile_sidebar_fill_color = data.get('profile_sidebar_fill_color', None), profile_background_color = data.get('profile_background_color', None), profile_link_color = data.get('profile_link_color', None), profile_text_color = data.get('profile_text_color', None), protected = data.get('protected', None), utc_offset = data.get('utc_offset', None), time_zone = data.get('time_zone', None), url=data.get('url', None), status=status, geo_enabled=data.get('geo_enabled', None), verified=data.get('verified', None), lang=data.get('lang', None), notifications=data.get('notifications', None), contributors_enabled=data.get('contributors_enabled', None), created_at=data.get('created_at', None), listed_count=data.get('listed_count', None)) class List(object): '''A class representing the List structure used by the twitter API. The List structure exposes the following properties: list.id list.name list.slug list.description list.full_name list.mode list.uri list.member_count list.subscriber_count list.following ''' def __init__(self, id=None, name=None, slug=None, description=None, full_name=None, mode=None, uri=None, member_count=None, subscriber_count=None, following=None, user=None): self.id = id self.name = name self.slug = slug self.description = description self.full_name = full_name self.mode = mode self.uri = uri self.member_count = member_count self.subscriber_count = subscriber_count self.following = following self.user = user def GetId(self): '''Get the unique id of this list. Returns: The unique id of this list ''' return self._id def SetId(self, id): '''Set the unique id of this list. Args: id: The unique id of this list. ''' self._id = id id = property(GetId, SetId, doc='The unique id of this list.') def GetName(self): '''Get the real name of this list. Returns: The real name of this list ''' return self._name def SetName(self, name): '''Set the real name of this list. Args: name: The real name of this list ''' self._name = name name = property(GetName, SetName, doc='The real name of this list.') def GetSlug(self): '''Get the slug of this list. Returns: The slug of this list ''' return self._slug def SetSlug(self, slug): '''Set the slug of this list. Args: slug: The slug of this list. ''' self._slug = slug slug = property(GetSlug, SetSlug, doc='The slug of this list.') def GetDescription(self): '''Get the description of this list. Returns: The description of this list ''' return self._description def SetDescription(self, description): '''Set the description of this list. Args: description: The description of this list. ''' self._description = description description = property(GetDescription, SetDescription, doc='The description of this list.') def GetFull_name(self): '''Get the full_name of this list. Returns: The full_name of this list ''' return self._full_name def SetFull_name(self, full_name): '''Set the full_name of this list. Args: full_name: The full_name of this list. ''' self._full_name = full_name full_name = property(GetFull_name, SetFull_name, doc='The full_name of this list.') def GetMode(self): '''Get the mode of this list. Returns: The mode of this list ''' return self._mode def SetMode(self, mode): '''Set the mode of this list. Args: mode: The mode of this list. ''' self._mode = mode mode = property(GetMode, SetMode, doc='The mode of this list.') def GetUri(self): '''Get the uri of this list. Returns: The uri of this list ''' return self._uri def SetUri(self, uri): '''Set the uri of this list. Args: uri: The uri of this list. ''' self._uri = uri uri = property(GetUri, SetUri, doc='The uri of this list.') def GetMember_count(self): '''Get the member_count of this list. Returns: The member_count of this list ''' return self._member_count def SetMember_count(self, member_count): '''Set the member_count of this list. Args: member_count: The member_count of this list. ''' self._member_count = member_count member_count = property(GetMember_count, SetMember_count, doc='The member_count of this list.') def GetSubscriber_count(self): '''Get the subscriber_count of this list. Returns: The subscriber_count of this list ''' return self._subscriber_count def SetSubscriber_count(self, subscriber_count): '''Set the subscriber_count of this list. Args: subscriber_count: The subscriber_count of this list. ''' self._subscriber_count = subscriber_count subscriber_count = property(GetSubscriber_count, SetSubscriber_count, doc='The subscriber_count of this list.') def GetFollowing(self): '''Get the following status of this list. Returns: The following status of this list ''' return self._following def SetFollowing(self, following): '''Set the following status of this list. Args: following: The following of this list. ''' self._following = following following = property(GetFollowing, SetFollowing, doc='The following status of this list.') def GetUser(self): '''Get the user of this list. Returns: The owner of this list ''' return self._user def SetUser(self, user): '''Set the user of this list. Args: user: The owner of this list. ''' self._user = user user = property(GetUser, SetUser, doc='The owner of this list.') def __ne__(self, other): return not self.__eq__(other) def __eq__(self, other): try: return other and \ self.id == other.id and \ self.name == other.name and \ self.slug == other.slug and \ self.description == other.description and \ self.full_name == other.full_name and \ self.mode == other.mode and \ self.uri == other.uri and \ self.member_count == other.member_count and \ self.subscriber_count == other.subscriber_count and \ self.following == other.following and \ self.user == other.user except AttributeError: return False def __str__(self): '''A string representation of this twitter.List instance. The return value is the same as the JSON string representation. Returns: A string representation of this twitter.List instance. ''' return self.AsJsonString() def AsJsonString(self): '''A JSON string representation of this twitter.List instance. Returns: A JSON string representation of this twitter.List instance ''' return simplejson.dumps(self.AsDict(), sort_keys=True) def AsDict(self): '''A dict representation of this twitter.List instance. The return value uses the same key names as the JSON representation. Return: A dict representing this twitter.List instance ''' data = {} if self.id: data['id'] = self.id if self.name: data['name'] = self.name if self.slug: data['slug'] = self.slug if self.description: data['description'] = self.description if self.full_name: data['full_name'] = self.full_name if self.mode: data['mode'] = self.mode if self.uri: data['uri'] = self.uri if self.member_count is not None: data['member_count'] = self.member_count if self.subscriber_count is not None: data['subscriber_count'] = self.subscriber_count if self.following is not None: data['following'] = self.following if self.user is not None: data['user'] = self.user return data @staticmethod def NewFromJsonDict(data): '''Create a new instance based on a JSON dict. Args: data: A JSON dict, as converted from the JSON in the twitter API Returns: A twitter.List instance ''' if 'user' in data: user = User.NewFromJsonDict(data['user']) else: user = None return List(id=data.get('id', None), name=data.get('name', None), slug=data.get('slug', None), description=data.get('description', None), full_name=data.get('full_name', None), mode=data.get('mode', None), uri=data.get('uri', None), member_count=data.get('member_count', None), subscriber_count=data.get('subscriber_count', None), following=data.get('following', None), user=user) class DirectMessage(object): '''A class representing the DirectMessage structure used by the twitter API. The DirectMessage structure exposes the following properties: direct_message.id direct_message.created_at direct_message.created_at_in_seconds # read only direct_message.sender_id direct_message.sender_screen_name direct_message.recipient_id direct_message.recipient_screen_name direct_message.text ''' def __init__(self, id=None, created_at=None, sender_id=None, sender_screen_name=None, recipient_id=None, recipient_screen_name=None, text=None): '''An object to hold a Twitter direct message. This class is normally instantiated by the twitter.Api class and returned in a sequence. Note: Dates are posted in the form "Sat Jan 27 04:17:38 +0000 2007" Args: id: The unique id of this direct message. [Optional] created_at: The time this direct message was posted. [Optional] sender_id: The id of the twitter user that sent this message. [Optional] sender_screen_name: The name of the twitter user that sent this message. [Optional] recipient_id: The id of the twitter that received this message. [Optional] recipient_screen_name: The name of the twitter that received this message. [Optional] text: The text of this direct message. [Optional] ''' self.id = id self.created_at = created_at self.sender_id = sender_id self.sender_screen_name = sender_screen_name self.recipient_id = recipient_id self.recipient_screen_name = recipient_screen_name self.text = text def GetId(self): '''Get the unique id of this direct message. Returns: The unique id of this direct message ''' return self._id def SetId(self, id): '''Set the unique id of this direct message. Args: id: The unique id of this direct message ''' self._id = id id = property(GetId, SetId, doc='The unique id of this direct message.') def GetCreatedAt(self): '''Get the time this direct message was posted. Returns: The time this direct message was posted ''' return self._created_at def SetCreatedAt(self, created_at): '''Set the time this direct message was posted. Args: created_at: The time this direct message was created ''' self._created_at = created_at created_at = property(GetCreatedAt, SetCreatedAt, doc='The time this direct message was posted.') def GetCreatedAtInSeconds(self): '''Get the time this direct message was posted, in seconds since the epoch. Returns: The time this direct message was posted, in seconds since the epoch. ''' return calendar.timegm(rfc822.parsedate(self.created_at)) created_at_in_seconds = property(GetCreatedAtInSeconds, doc="The time this direct message was " "posted, in seconds since the epoch") def GetSenderId(self): '''Get the unique sender id of this direct message. Returns: The unique sender id of this direct message ''' return self._sender_id def SetSenderId(self, sender_id): '''Set the unique sender id of this direct message. Args: sender_id: The unique sender id of this direct message ''' self._sender_id = sender_id sender_id = property(GetSenderId, SetSenderId, doc='The unique sender id of this direct message.') def GetSenderScreenName(self): '''Get the unique sender screen name of this direct message. Returns: The unique sender screen name of this direct message ''' return self._sender_screen_name def SetSenderScreenName(self, sender_screen_name): '''Set the unique sender screen name of this direct message. Args: sender_screen_name: The unique sender screen name of this direct message ''' self._sender_screen_name = sender_screen_name sender_screen_name = property(GetSenderScreenName, SetSenderScreenName, doc='The unique sender screen name of this direct message.') def GetRecipientId(self): '''Get the unique recipient id of this direct message. Returns: The unique recipient id of this direct message ''' return self._recipient_id def SetRecipientId(self, recipient_id): '''Set the unique recipient id of this direct message. Args: recipient_id: The unique recipient id of this direct message ''' self._recipient_id = recipient_id recipient_id = property(GetRecipientId, SetRecipientId, doc='The unique recipient id of this direct message.') def GetRecipientScreenName(self): '''Get the unique recipient screen name of this direct message. Returns: The unique recipient screen name of this direct message ''' return self._recipient_screen_name def SetRecipientScreenName(self, recipient_screen_name): '''Set the unique recipient screen name of this direct message. Args: recipient_screen_name: The unique recipient screen name of this direct message ''' self._recipient_screen_name = recipient_screen_name recipient_screen_name = property(GetRecipientScreenName, SetRecipientScreenName, doc='The unique recipient screen name of this direct message.') def GetText(self): '''Get the text of this direct message. Returns: The text of this direct message. ''' return self._text def SetText(self, text): '''Set the text of this direct message. Args: text: The text of this direct message ''' self._text = text text = property(GetText, SetText, doc='The text of this direct message') def __ne__(self, other): return not self.__eq__(other) def __eq__(self, other): try: return other and \ self.id == other.id and \ self.created_at == other.created_at and \ self.sender_id == other.sender_id and \ self.sender_screen_name == other.sender_screen_name and \ self.recipient_id == other.recipient_id and \ self.recipient_screen_name == other.recipient_screen_name and \ self.text == other.text except AttributeError: return False def __str__(self): '''A string representation of this twitter.DirectMessage instance. The return value is the same as the JSON string representation. Returns: A string representation of this twitter.DirectMessage instance. ''' return self.AsJsonString() def AsJsonString(self): '''A JSON string representation of this twitter.DirectMessage instance. Returns: A JSON string representation of this twitter.DirectMessage instance ''' return simplejson.dumps(self.AsDict(), sort_keys=True) def AsDict(self): '''A dict representation of this twitter.DirectMessage instance. The return value uses the same key names as the JSON representation. Return: A dict representing this twitter.DirectMessage instance ''' data = {} if self.id: data['id'] = self.id if self.created_at: data['created_at'] = self.created_at if self.sender_id: data['sender_id'] = self.sender_id if self.sender_screen_name: data['sender_screen_name'] = self.sender_screen_name if self.recipient_id: data['recipient_id'] = self.recipient_id if self.recipient_screen_name: data['recipient_screen_name'] = self.recipient_screen_name if self.text: data['text'] = self.text return data @staticmethod def NewFromJsonDict(data): '''Create a new instance based on a JSON dict. Args: data: A JSON dict, as converted from the JSON in the twitter API Returns: A twitter.DirectMessage instance ''' return DirectMessage(created_at=data.get('created_at', None), recipient_id=data.get('recipient_id', None), sender_id=data.get('sender_id', None), text=data.get('text', None), sender_screen_name=data.get('sender_screen_name', None), id=data.get('id', None), recipient_screen_name=data.get('recipient_screen_name', None)) class Hashtag(object): ''' A class represeinting a twitter hashtag ''' def __init__(self, text=None): self.text = text @staticmethod def NewFromJsonDict(data): '''Create a new instance based on a JSON dict. Args: data: A JSON dict, as converted from the JSON in the twitter API Returns: A twitter.Hashtag instance ''' return Hashtag(text = data.get('text', None)) class Trend(object): ''' A class representing a trending topic ''' def __init__(self, name=None, query=None, timestamp=None): self.name = name self.query = query self.timestamp = timestamp def __str__(self): return 'Name: %s\nQuery: %s\nTimestamp: %s\n' % (self.name, self.query, self.timestamp) def __ne__(self, other): return not self.__eq__(other) def __eq__(self, other): try: return other and \ self.name == other.name and \ self.query == other.query and \ self.timestamp == other.timestamp except AttributeError: return False @staticmethod def NewFromJsonDict(data, timestamp = None): '''Create a new instance based on a JSON dict Args: data: A JSON dict timestamp: Gets set as the timestamp property of the new object Returns: A twitter.Trend object ''' return Trend(name=data.get('name', None), query=data.get('query', None), timestamp=timestamp) class Url(object): '''A class representing an URL contained in a tweet''' def __init__(self, url=None, expanded_url=None): self.url = url self.expanded_url = expanded_url @staticmethod def NewFromJsonDict(data): '''Create a new instance based on a JSON dict. Args: data: A JSON dict, as converted from the JSON in the twitter API Returns: A twitter.Url instance ''' return Url(url=data.get('url', None), expanded_url=data.get('expanded_url', None)) class Api(object): '''A python interface into the Twitter API By default, the Api caches results for 1 minute. Example usage: To create an instance of the twitter.Api class, with no authentication: >>> import twitter >>> api = twitter.Api() To fetch the most recently posted public twitter status messages: >>> statuses = api.GetPublicTimeline() >>> print [s.user.name for s in statuses] [u'DeWitt', u'Kesuke Miyagi', u'ev', u'Buzz Andersen', u'Biz Stone'] #... To fetch a single user's public status messages, where "user" is either a Twitter "short name" or their user id. >>> statuses = api.GetUserTimeline(user) >>> print [s.text for s in statuses] To use authentication, instantiate the twitter.Api class with a consumer key and secret; and the oAuth key and secret: >>> api = twitter.Api(consumer_key='twitter consumer key', consumer_secret='twitter consumer secret', access_token_key='the_key_given', access_token_secret='the_key_secret') To fetch your friends (after being authenticated): >>> users = api.GetFriends() >>> print [u.name for u in users] To post a twitter status message (after being authenticated): >>> status = api.PostUpdate('I love python-twitter!') >>> print status.text I love python-twitter! There are many other methods, including: >>> api.PostUpdates(status) >>> api.PostDirectMessage(user, text) >>> api.GetUser(user) >>> api.GetReplies() >>> api.GetUserTimeline(user) >>> api.GetStatus(id) >>> api.DestroyStatus(id) >>> api.GetFriendsTimeline(user) >>> api.GetFriends(user) >>> api.GetFollowers() >>> api.GetFeatured() >>> api.GetDirectMessages() >>> api.PostDirectMessage(user, text) >>> api.DestroyDirectMessage(id) >>> api.DestroyFriendship(user) >>> api.CreateFriendship(user) >>> api.GetUserByEmail(email) >>> api.VerifyCredentials() ''' DEFAULT_CACHE_TIMEOUT = 60 # cache for 1 minute _API_REALM = 'Twitter API' def __init__(self, consumer_key=None, consumer_secret=None, access_token_key=None, access_token_secret=None, input_encoding=None, request_headers=None, cache=DEFAULT_CACHE, shortner=None, base_url=None, use_gzip_compression=False, debugHTTP=False): '''Instantiate a new twitter.Api object. Args: consumer_key: Your Twitter user's consumer_key. consumer_secret: Your Twitter user's consumer_secret. access_token_key: The oAuth access token key value you retrieved from running get_access_token.py. access_token_secret: The oAuth access token's secret, also retrieved from the get_access_token.py run. input_encoding: The encoding used to encode input strings. [Optional] request_header: A dictionary of additional HTTP request headers. [Optional] cache: The cache instance to use. Defaults to DEFAULT_CACHE. Use None to disable caching. [Optional] shortner: The shortner instance to use. Defaults to None. See shorten_url.py for an example shortner. [Optional] base_url: The base URL to use to contact the Twitter API. Defaults to https://twitter.com. [Optional] use_gzip_compression: Set to True to tell enable gzip compression for any call made to Twitter. Defaults to False. [Optional] debugHTTP: Set to True to enable debug output from urllib2 when performing any HTTP requests. Defaults to False. [Optional] ''' self.SetCache(cache) self._urllib = urllib2 self._cache_timeout = Api.DEFAULT_CACHE_TIMEOUT self._input_encoding = input_encoding self._use_gzip = use_gzip_compression self._debugHTTP = debugHTTP self._oauth_consumer = None self._InitializeRequestHeaders(request_headers) self._InitializeUserAgent() self._InitializeDefaultParameters() if base_url is None: self.base_url = 'https://api.twitter.com/1' else: self.base_url = base_url if consumer_key is not None and (access_token_key is None or access_token_secret is None): print >> sys.stderr, 'Twitter now requires an oAuth Access Token for API calls.' print >> sys.stderr, 'If your using this library from a command line utility, please' print >> sys.stderr, 'run the the included get_access_token.py tool to generate one.' raise TwitterError('Twitter requires oAuth Access Token for all API access') self.SetCredentials(consumer_key, consumer_secret, access_token_key, access_token_secret) def SetCredentials(self, consumer_key, consumer_secret, access_token_key=None, access_token_secret=None): '''Set the consumer_key and consumer_secret for this instance Args: consumer_key: The consumer_key of the twitter account. consumer_secret: The consumer_secret for the twitter account. access_token_key: The oAuth access token key value you retrieved from running get_access_token.py. access_token_secret: The oAuth access token's secret, also retrieved from the get_access_token.py run. ''' self._consumer_key = consumer_key self._consumer_secret = consumer_secret self._access_token_key = access_token_key self._access_token_secret = access_token_secret self._oauth_consumer = None if consumer_key is not None and consumer_secret is not None and \ access_token_key is not None and access_token_secret is not None: self._signature_method_plaintext = oauth.SignatureMethod_PLAINTEXT() self._signature_method_hmac_sha1 = oauth.SignatureMethod_HMAC_SHA1() self._oauth_token = oauth.Token(key=access_token_key, secret=access_token_secret) self._oauth_consumer = oauth.Consumer(key=consumer_key, secret=consumer_secret) def ClearCredentials(self): '''Clear the any credentials for this instance ''' self._consumer_key = None self._consumer_secret = None self._access_token_key = None self._access_token_secret = None self._oauth_consumer = None def GetPublicTimeline(self, since_id=None, include_rts=None, include_entities=None): '''Fetch the sequence of public twitter.Status message for all users. Args: since_id: Returns results with an ID greater than (that is, more recent than) the specified ID. There are limits to the number of Tweets which can be accessed through the API. If the limit of Tweets has occured since the since_id, the since_id will be forced to the oldest ID available. [Optional] include_rts: If True, the timeline will contain native retweets (if they exist) in addition to the standard stream of tweets. [Optional] include_entities: If True, each tweet will include a node called "entities,". This node offers a variety of metadata about the tweet in a discreet structure, including: user_mentions, urls, and hashtags. [Optional] Returns: An sequence of twitter.Status instances, one for each message ''' parameters = {} if since_id: parameters['since_id'] = since_id if include_rts: parameters['include_rts'] = 1 if include_entities: parameters['include_entities'] = 1 url = '%s/statuses/public_timeline.json' % self.base_url json = self._FetchUrl(url, parameters=parameters) data = self._ParseAndCheckTwitter(json) return [Status.NewFromJsonDict(x) for x in data] def FilterPublicTimeline(self, term, since_id=None): '''Filter the public twitter timeline by a given search term on the local machine. Args: term: term to search by. since_id: Returns results with an ID greater than (that is, more recent than) the specified ID. There are limits to the number of Tweets which can be accessed through the API. If the limit of Tweets has occured since the since_id, the since_id will be forced to the oldest ID available. [Optional] Returns: A sequence of twitter.Status instances, one for each message containing the term ''' statuses = self.GetPublicTimeline(since_id) results = [] for s in statuses: if s.text.lower().find(term.lower()) != -1: results.append(s) return results def GetSearch(self, term=None, geocode=None, since_id=None, per_page=15, page=1, lang="en", show_user="true", query_users=False): '''Return twitter search results for a given term. Args: term: term to search by. Optional if you include geocode. since_id: Returns results with an ID greater than (that is, more recent than) the specified ID. There are limits to the number of Tweets which can be accessed through the API. If the limit of Tweets has occured since the since_id, the since_id will be forced to the oldest ID available. [Optional] geocode: geolocation information in the form (latitude, longitude, radius) [Optional] per_page: number of results to return. Default is 15 [Optional] page: Specifies the page of results to retrieve. Note: there are pagination limits. [Optional] lang: language for results. Default is English [Optional] show_user: prefixes screen name in status query_users: If set to False, then all users only have screen_name and profile_image_url available. If set to True, all information of users are available, but it uses lots of request quota, one per status. Returns: A sequence of twitter.Status instances, one for each message containing the term ''' # Build request parameters parameters = {} if since_id: parameters['since_id'] = since_id if term is None and geocode is None: return [] if term is not None: parameters['q'] = term if geocode is not None: parameters['geocode'] = ','.join(map(str, geocode)) parameters['show_user'] = show_user parameters['lang'] = lang parameters['rpp'] = per_page parameters['page'] = page # Make and send requests url = 'http://search.twitter.com/search.json' json = self._FetchUrl(url, parameters=parameters) data = self._ParseAndCheckTwitter(json) results = [] for x in data['results']: temp = Status.NewFromJsonDict(x) if query_users: # Build user object with new request temp.user = self.GetUser(urllib.quote(x['from_user'])) else: temp.user = User(screen_name=x['from_user'], profile_image_url=x['profile_image_url']) results.append(temp) # Return built list of statuses return results # [Status.NewFromJsonDict(x) for x in data['results']] def GetTrendsCurrent(self, exclude=None): '''Get the current top trending topics Args: exclude: Appends the exclude parameter as a request parameter. Currently only exclude=hashtags is supported. [Optional] Returns: A list with 10 entries. Each entry contains the twitter. ''' parameters = {} if exclude: parameters['exclude'] = exclude url = '%s/trends/current.json' % self.base_url json = self._FetchUrl(url, parameters=parameters) data = self._ParseAndCheckTwitter(json) trends = [] for t in data['trends']: for item in data['trends'][t]: trends.append(Trend.NewFromJsonDict(item, timestamp = t)) return trends def GetTrendsWoeid(self, woeid, exclude=None): '''Return the top 10 trending topics for a specific WOEID, if trending information is available for it. Args: woeid: the Yahoo! Where On Earth ID for a location. exclude: Appends the exclude parameter as a request parameter. Currently only exclude=hashtags is supported. [Optional] Returns: A list with 10 entries. Each entry contains a Trend. ''' parameters = {} if exclude: parameters['exclude'] = exclude url = '%s/trends/%s.json' % (self.base_url, woeid) json = self._FetchUrl(url, parameters=parameters) data = self._ParseAndCheckTwitter(json) trends = [] timestamp = data[0]['as_of'] for trend in data[0]['trends']: trends.append(Trend.NewFromJsonDict(trend, timestamp = timestamp)) return trends def GetTrendsDaily(self, exclude=None, startdate=None): '''Get the current top trending topics for each hour in a given day Args: startdate: The start date for the report. Should be in the format YYYY-MM-DD. [Optional] exclude: Appends the exclude parameter as a request parameter. Currently only exclude=hashtags is supported. [Optional] Returns: A list with 24 entries. Each entry contains the twitter. Trend elements that were trending at the corresponding hour of the day. ''' parameters = {} if exclude: parameters['exclude'] = exclude if not startdate: startdate = time.strftime('%Y-%m-%d', time.gmtime()) parameters['date'] = startdate url = '%s/trends/daily.json' % self.base_url json = self._FetchUrl(url, parameters=parameters) data = self._ParseAndCheckTwitter(json) trends = [] for i in xrange(24): trends.append(None) for t in data['trends']: idx = int(time.strftime('%H', time.strptime(t, '%Y-%m-%d %H:%M'))) trends[idx] = [Trend.NewFromJsonDict(x, timestamp = t) for x in data['trends'][t]] return trends def GetTrendsWeekly(self, exclude=None, startdate=None): '''Get the top 30 trending topics for each day in a given week. Args: startdate: The start date for the report. Should be in the format YYYY-MM-DD. [Optional] exclude: Appends the exclude parameter as a request parameter. Currently only exclude=hashtags is supported. [Optional] Returns: A list with each entry contains the twitter. Trend elements of trending topics for the corrsponding day of the week ''' parameters = {} if exclude: parameters['exclude'] = exclude if not startdate: startdate = time.strftime('%Y-%m-%d', time.gmtime()) parameters['date'] = startdate url = '%s/trends/weekly.json' % self.base_url json = self._FetchUrl(url, parameters=parameters) data = self._ParseAndCheckTwitter(json) trends = [] for i in xrange(7): trends.append(None) # use the epochs of the dates as keys for a dictionary times = dict([(calendar.timegm(time.strptime(t, '%Y-%m-%d')),t) for t in data['trends']]) cnt = 0 # create the resulting structure ordered by the epochs of the dates for e in sorted(times.keys()): trends[cnt] = [Trend.NewFromJsonDict(x, timestamp = times[e]) for x in data['trends'][times[e]]] cnt +=1 return trends def GetFriendsTimeline(self, user=None, count=None, page=None, since_id=None, retweets=None, include_entities=None): '''Fetch the sequence of twitter.Status messages for a user's friends The twitter.Api instance must be authenticated if the user is private. Args: user: Specifies the ID or screen name of the user for whom to return the friends_timeline. If not specified then the authenticated user set in the twitter.Api instance will be used. [Optional] count: Specifies the number of statuses to retrieve. May not be greater than 100. [Optional] page: Specifies the page of results to retrieve. Note: there are pagination limits. [Optional] since_id: Returns results with an ID greater than (that is, more recent than) the specified ID. There are limits to the number of Tweets which can be accessed through the API. If the limit of Tweets has occured since the since_id, the since_id will be forced to the oldest ID available. [Optional] retweets: If True, the timeline will contain native retweets. [Optional] include_entities: If True, each tweet will include a node called "entities,". This node offers a variety of metadata about the tweet in a discreet structure, including: user_mentions, urls, and hashtags. [Optional] Returns: A sequence of twitter.Status instances, one for each message ''' if not user and not self._oauth_consumer: raise TwitterError("User must be specified if API is not authenticated.") url = '%s/statuses/friends_timeline' % self.base_url if user: url = '%s/%s.json' % (url, user) else: url = '%s.json' % url parameters = {} if count is not None: try: if int(count) > 100: raise TwitterError("'count' may not be greater than 100") except ValueError: raise TwitterError("'count' must be an integer") parameters['count'] = count if page is not None: try: parameters['page'] = int(page) except ValueError: raise TwitterError("'page' must be an integer") if since_id: parameters['since_id'] = since_id if retweets: parameters['include_rts'] = True if include_entities: parameters['include_entities'] = True json = self._FetchUrl(url, parameters=parameters) data = self._ParseAndCheckTwitter(json) return [Status.NewFromJsonDict(x) for x in data] def GetUserTimeline(self, id=None, user_id=None, screen_name=None, since_id=None, max_id=None, count=None, page=None, include_rts=None, include_entities=None): '''Fetch the sequence of public Status messages for a single user. The twitter.Api instance must be authenticated if the user is private. Args: id: Specifies the ID or screen name of the user for whom to return the user_timeline. [Optional] user_id: Specfies the ID of the user for whom to return the user_timeline. Helpful for disambiguating when a valid user ID is also a valid screen name. [Optional] screen_name: Specfies the scre
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