109 skills found · Page 3 of 4
adrianlee / Mpi Bitonic SortParallel Bitonic Sort via Message Passing Interface
tjmpromos / Sortable Gallery📦 Provides a sortable image gallery component with a Filament admin interface.
mgiugliano / MorsePaddle2USBSchematics and code for a simple microcontroller application, interfacing a "Morse" key (i.e. a switch) to a PC via USB. This is specifically thought for two websites, which implement a sort of "radio-channel" over the web.
hodel33 / Flyby33Real-time aircraft flyby prediction tool with interactive Streamlit web interface. Shows which planes will pass near your location with arrival times and approach info. Features interactive maps and sortable data tables. Perfect for aviation and plane spotting enthusiasts! ✈️
JevinJ / BittrexNotifyGraphical interface for sorting, filtering, and notification of coins which are quickly increasing in price.
JSerwatka / Letterboxd TweaksChrome Extension / Firefox Addon that enhances the Letterboxd website with cleaner movie cards, a more efficient search bar featuring instant movie suggestions, and an improved user interface that hides unnecessary filters, navbar items, and sort options, along with other quality of life improvements
w32zhong / BTreeimplementationCSC 541 Assignment 4 B-Trees Introduction The goals of this assignment are two-fold: To introduce you to searching data on disk using B-trees. To investigate how changing the order of a B-tree affects its performance. Index File During this assignment you will create, search, and manage a binary index file of integer key values. The values stored in the file will be specified by the user. You will structure the file as a B-tree. Program Execution Your program will be named assn_4 and it will run from the command line. Two command line arguments will be specified: the name of the index file, and a B-tree order. assn_4 index-file order For example, executing your program as follows assn_4 index.bin 4 would open an index file called index.bin that holds integer keys stored in an order-4 B-tree. You can assume order will always be ≥ 3. For convenience, we refer to the index file as index.bin throughout the remainder of the assignment. Note. If you are asked open an existing index file, you can assume the B-tree order specified on the command line matches the order that was used when the index file was first created. B-Tree Nodes Your program is allowed to hold individual B-tree nodes in memory—but not the entire tree—at any given time. Your B-tree node should have a structure and usage similar to the following. #include <stdlib.h> int order = 4; /* B-tree order */ typedef struct { /* B-tree node */ int n; /* Number of keys in node */ int *key; /* Node's keys */ long *child; /* Node's child subtree offsets */ } btree_node; btree_node node; /* Single B-tree node */ node.n = 0; node.key = (int *) calloc( order - 1, sizeof( int ) ); node.child = (long *) calloc( order, sizeof( long ) ); Note. Be careful when you're reading and writing data structures with dynamically allocated memory. For example, trying to write node like this fwrite( &node, sizeof( btree_node ), 1, fp ); will write node's key count, the pointer value for its key array, and the pointer value for its child offset array, but it will not write the contents of the key and child offset arrays. The arrays' contents and not pointers to their contents need to be written explicitly instead. fwrite( &node.n, sizeof( int ), 1, fp ); fwrite( node.key, sizeof( int ), order - 1, fp ); fwrite( node.child, sizeof( long ), order, fp ); Reading node structures from disk would use a similar strategy. Root Node Offset In order to manage any tree, you need to locate its root node. Initially the root node will be stored near the front of index.bin. If the root node splits, however, a new root will be appended to the end of index.bin. The root node's offset will be maintained persistently by storing it at the front of index.bin when the file is closed, and reading it when the file is opened. #include <stdio.h> FILE *fp; /* Input file stream */ long root; /* Offset of B-tree root node */ fp = fopen( "index.bin", "r+b" ); /* If file doesn't exist, set root offset to unknown and create * file, otherwise read the root offset at the front of the file */ if ( fp == NULL ) { root = -1; fp = fopen( "index.bin", "w+b" ); fwrite( &root, sizeof( long ), 1, fp ); } else { fread( &root, sizeof( long ), 1, fp ); } User Interface The user will communicate with your program through a set of commands typed at the keyboard. Your program must support four simple commands: add k Add a new integer key with value k to index.bin. find k Find an entry with a key value of k in index.bin, if it exists. print Print the contents and the structure of the B-tree on-screen. end Update the root node's offset at the front of the index.bin, and close the index file, and end the program. Add Use a standard B-tree algorithm to add a new key k to the index file. Search the B-tree for the leaf node L responsible for k. If k is stored in L's key list, print Entry with key=k already exists on-screen and stop, since duplicate keys are not allowed. Create a new key list K that contains L's keys, plus k, sorted in ascending order. If L's key list is not full, replace it with K, update L's child offsets, write L back to disk, and stop. Otherwise, split K about its median key value km into left and right key lists KL = (k0, ... , km-1) and KR = (km+1, ... , kn-1). Use ceiling to calculate m = ⌈(n-1)/2⌉. For example, if n = 3, m = 1. If n = 4, m = 2. Save KL and its associated child offsets in L, then write L back to disk. Save KR and its associated child offsets in a new node R, then append R to the end of the index file. Promote km , L's offset, and R's offset and insert them in L's parent node. If the parent's key list is full, recursively split its list and promote the median to its parent. If a promotion is made to a root node with a full key list, split and create a new root node holding km and offsets to L and R. Find To find key value k in the index file, search the root node for k. If k is found, the search succeeds. Otherwise, determine the child subtree S that is responsible for k, then recursively search S. If k is found during the recursive search, print Entry with key=k exists on-screen. If at any point in the recursion S does not exist, print Entry with key=k does not exist on-screen. Print This command prints the contents of the B-tree on-screen, level by level. Begin by considering a single B-tree node. To print the contents of the node on-screen, print its key values separated by commas. int i; /* Loop counter */ btree_node node; /* Node to print */ long off; /* Node's offset */ for( i = 0; i < node.n - 1; i++ ) { printf( "%d,", node.key[ i ] ); } printf( "%d", node.key[ node.n - 1 ] ); To print the entire tree, start by printing the root node. Next, print the root node's children on a new line, separating each child node's output by a space character. Then, print their children on a new line, and so on until all the nodes in the tree are printed. This approach prints the nodes on each level of the B-tree left-to-right on a common line. For example, inserting the integers 1 through 13 inclusive into an order-4 B-tree would produce the following output. 1: 9 2: 3,6 12 3: 1,2 4,5 7,8 10,11 13 To support trees with more than 9 levels, we leave space for two characters to print the level at the beginning of each line, that is, using printf( "%2d: ", lvl )" or something similar. Hint. To process nodes left-to-right level-by-level, do not use recursion. Instead, create a queue containing the root node's offset. Remove the offset at the front of the queue (initially the root's offset) and read the corresponding node from disk. Append the node's non-empty subtree offsets to the end of the queue, then print the node's key values. Continue until the queue is empty. End This command ends the program by writing the root node's offset to the front of index.bin, then closing the index file. Programming Environment All programs must be written in C, and compiled to run on the remote.eos.ncsu.edu Linux server. Any ssh client can be used to access your Unity account and AFS storage space on this machine. Your assignment will be run automatically, and the output it produces will be compared to known, correct output using diff. Because of this, your output must conform to the print command's description. If it doesn't, diff will report your output as incorrect, and it will be marked accordingly. Supplemental Material In order to help you test your program, we provide example input and output files. input-01.txt, an input file of commands applied to an initially empty index file saved as an order-4 B-tree, and input-02.txt, an input file of commands applied to the index file produced by input-01.txt. The output files show what your program should print after each input file is processed. output-01.txt, the output your program should produce after it processes input-01.txt. output-02.txt, the output your program should produce after it processes input-02.txt. To test your program, you would issue the following commands: % rm index.bin % assn_4 index.bin 4 < input-01.txt > my-output-01.txt % assn_4 index.bin 4 < input-02.txt > my-output-02.txt You can use diff to compare output from your program to our output files. If your program is running properly and your output is formatted correctly, your program should produce output identical to what is in these files. Please remember, the files we're providing here are meant to serve as examples only. Apart from holding valid commands, you cannot make any assumptions about the size or the content of the input files we will use to test your program. Test Files The following files were used to test your program. Order 3 Test Case. input-03.txt output-03-first.txt Order 4 Test Case. input-04.txt output-04-first.txt Order 10 Test Case. input-10-01.txt, input-10-02.txt output-10-01.txt, output-10-02.txt Order 20 Test Case. input-20.txt output-20-first.txt Your program was run on all test cases using order-3, order-4, and order-20 B-trees. % rm index.bin % assn_4 index.bin 3 < input-03.txt > my-output-03.txt % rm index.bin % assn_4 index.bin 4 < input-04.txt > my-output-04.txt % rm index.bin % assn_4 index.bin 20 < input-20.txt > my-output-20.txt Your program was also run twice using an order-10 B-tree, to test its ability to re-use an existing index file. % rm index.bin % assn_4 index.bin 10 < input-10-01.txt > my-output-10-01.txt % assn_4 index.bin 10 < input-10-02.txt > my-output-10-02.txt Hand-In Requirements Use Moodle (the online assignment submission software) to submit the following files: assn_4, a Linux executable of your finished assignment, and all associated source code files (these can be called anything you want). There are four important requirements that your assignment must satisfy. Your executable file must be named exactly as shown above. The program will be run and marked electronically using a script file, so using a different name means the executable will not be found, and subsequently will not be marked. Your program must be compiled to run on remote.eos.ncsu.edu. If we cannot run your program, we will not be able to mark it, and we will be forced to assign you a grade of 0. Your program must produce output that exactly matches the format described in the print command section of this assignment. If it doesn't, it will not pass our automatic comparison to known, correct output. You must submit your source code with your executable prior to the submission deadline. If you do not submit your source code, we cannot MOSS it to check for code similarity. Because of this, any assignment that does not include source code will be assigned a grade of 0. Updated 20-Dec-14
jandix / RzeitInterface to gather newspaper articles from ZEIT ONLINE, based on a multilevel query. Including sorting algorithms and graphical output options.
narottamandeep2003 / Grocery StoreA full-stack grocery store project entails creating an interactive user interface using React, HTML, CSS, and JavaScript for browsing products, searching, sorting, login, registration, and checkout functionalities. On the backend, Node.js with Express.js is employed to set up routes for user authentication, product management, and order processing
JithuMon10 / JPS Jithu Printing ServicesSimplify your printing business with JPS Studio. This efficient tool lets you track orders, manage payments, and set deadlines in a clean, colorful interface. Features include automatic order sorting, a secure PIN lock, and full offline functionality—no internet required
bobeezy / Video Store ATM Point Of Sale System“My name is Gregory Guy. I have just purchased a video store, and I need an up to date, GUI driven system to keep track of all the stock in my store. I am not happy with the existing system where everything is done by hand. “Currently, the store operates on a cash basis, although a contract system might be in the pipeline. You will be contacted to do this at a later stage, if necessary. I have a shop next door that sells sweets, drinks, chocolates etc, which runs from a separate cash register. This should not be included in the system you develop. “My store not only stocks videos, but also video machines, as well as DVD’s. At a later stage, I would like to also stock Sony PlayStation games, controls, and possibly other stock items. I want to be able to add these into the stock list with the minimum of hassle, and without calling in the help of a programmer / system designer. “I want to store all transactional information in a database, so that my accounting system can interface with the data. “I charge as follows: New Release: (Video or DVD) R16 Older Stock: (Video or DVD) R12 • Video Machine R30 • Video Machine & any two videos: R50 “When I start stocking PlayStation games and/or consoles (or any other stock items), I would probably want to have a two-tier pricing system for them as well (where I can charge more for newer stock). “It would also be nice to be able to change my prices if and when I need to. I therefore would like the ability to change the price of a ‘New Release’, and that should affect all the videos/DVD’s that fall into that category. The same should apply to the other prices mentioned above. “I have a couple of shop assistants that helps me out, and I would like some security built in so that the assistants cannot get access to my financial and other important data. Functionality: “I obviously need the system to take care of the most important part of the business:- the quick and accurate ‘booking out’ of all stock items. The customer, upon bringing me his/her selection, must be charged accordingly, and the items must be marked as ‘out’. “The system should also allow me to quickly and easily record the returned stock items, as and when they do come in. “Sometimes I also want to credit the customer for something, as the tape/DVD/game might have been damaged before they rented it. The item should then be marked as returned, but as money is then given back to the customer, some sort of record should be kept about this credit transaction so that I can trace which assistant allowed the credit. This will help me minimize fraudulent behaviour where assistants can basically book out resources ‘for free’. “I also want the system to have an advance booking facility, where an existing customer can call in and book a certain video/DVD/other item for a certain day. The system should not allow an item to be booked out twice for a certain date, and if something has been booked out and another customer tries to rent it, at least a warning should be displayed, informing the teller that this is the case. In special cases, such a booking can then be ignored, but most times the teller will inform the customer that s/he cannot have that item for the day. A facility should also be included where the booking can be cancelled at any time, if necessary. (For example, if a customer cancels the booking telephonically, whether it is on the day, or some time in advance). “Although it could be considered part of the accounting package, I would like this system to be able to do a daily summary, where I am presented with total sales (monetary value), total number of rentals (total videos; total DVD’s, total machines,) etc. This can be shown to me either on the screen, or in a printed form. I would like you to decide on the format and content of this screen/report. “Another function that I would like you to incorporate, is that the system should be able to do some analysis for me. Examples of this include: • Top Ten rentals • Top Ten customers • Stock items that have not been rented out in 6 months or more. I would like the above three to be done, but if you can think of other examples, feel free to add them in if you have time. “The system should allow me to add/edit all customer details, and if necessary (not often) delete a customer. Customer details to be stored include, but are not limited to: Name Surname Title I.D. Number Address and Postal Code Telephone Number (Work) Telephone Number (Home) Telephone Number (Mobile) “The system should also allow me to update the information regarding my stock items, for example: • Mark a tape as damaged. • Change a video from a ‘New Release’ to ‘Older Stock’. • Change the category it belongs to. “I have several working, but old machines lying around at my house, and they are already network-capable. I would like you to build some functionality where these machines can be linked to the system you are designing so that they can be used as ‘look-up’ machines. Basically, if a shop assistant is not available, but a customer knows the title of the movie they are looking for, they should be able to go to one of these terminals that I will set up throughout my shop, and enter or select the movie name, and perhaps what they are looking for (video/dvd/game etc). If my shop carries the chosen item, then the system should give them enough information (shelf number/category etc.) to be able to locate the item in the shop. It should also show if an item is unavailable, and when it is due back. If they select an invalid item, they should be informed of this. “The above program should run independently of the main system, and should not access the database directly. The video store will have employees, customers, stock and suppliers. Employees, customers and suppliers related to the video store can be created, deleted or updated. Creating / updating / deleting a customer profile (video store) will be very similar to that of creating / updating / deleting a customer’s account in the banking industry. The stock status also needs to be up to date (available, rented, late or damaged). An ATM will be inside the video store. The ATM is available to both the public and the employees. The ATM can be used for: Bank account balance inquiry, money withdrawal, funds transfer and transaction history (last 5 transactions with dates, time, type of transaction and outcome). The ATM should also cancel a transaction request and swallow a debit card when the user has entered a wrong pin number three times in succession. The ATM can only be used by clients who have existing bank accounts and existing (valid) debit cards. Make provision for situations such as expired debit cards, frozen accounts, insufficient funds, daily withdrawal limit exceeded, etc. The video store works on a cash-only-basis. Customers can withdraw money at the ATM if they don't have cash on them. The ATM is also available to public who only wants to use the ATM (without having to do business with the video store). Payment for stock rented: A Point Of Sale screen (electronic cash register screen) needs to be displayed. The product and the quantity thereof needs to be entered. You can make use of drop boxes if you want to. The system will calculate the total amount due (and the due date back for the products). Enter the cash amount offered by the customer. Calculate the change amount. Update the video store transaction register. Stock returned: Update the electronic system. Make provision for the condition in which the stock items were returned (in a working state or damaged, on time or late - individually). Capture a history record of products rented. Know the value of the stock outside the store. Capture a history record of products currently late. Capture a history record of products damaged. Capture a history record of products currently in store. Calculate the value of stock in-store. Capture a history record of each registered client's rental record. Capture a history record of a client's ATM transactions.
naveenanimation20 / Java8FeaturesJava 8 - Functional Interfaces, Streams API, Map, Filter, Sort, Collect
Mazen-Almortada / Datagrid ProFrappe app that replaces the standard Frappe list view with a DevExtreme DataGrid. It provides functions for multi-column sorting and advanced row filtering. The interface includes drag-and-drop grouping and several other features.
robertvy / TrustpilotReviewScraperA Python Command-Line Interface tool designed for fetching detailed Trustpilot review data. Features include powerful filtering, intuitive sorting, and convenient export options to CSV/JSON, enabling advanced review analysis with ease.
nice-registry / Cli Packages🐚 Names of all npm packages that have a command-line interface. Sorted by download count, descending.
Shahid77137 / E Commerce ProjectExperience seamless e-commerce integration using this Spring Boot API. It's built with RESTful principles, supporting image management, security, and hypermedia links. Boost user experience with pagination, sorting, and an admin interface. A versatile solution for efficient, secure, and customizable e-commerce integration. with great frontend
Ahmedhh1218 / TIA FACTORY IO Production Line AutomationThis project features a simulated production line using Factory IO and Siemens TIA Portal, controlled by a SIMATIC S7-1500 PLC. It automates machining, sorting, and assembly from raw materials to finished products. The custom HMI interface provides monitoring and control, with alarms for fault detection to ensure efficient operation.
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
hardbyte / Sorting GymOpenAI Gym environments for sorting with a "Neural interface" based on the paper "Strong Generalization and Efficiency in Neural Programs"
Theadd / TorrentzRSSProcesses torrentz.eu RSS results from your search queries and provides a set of advanced rules to merge multiple queries, sort them and exclude unwanted torrents from your search results in several ways. Output can be retrieved by XML (RSS), JSON or using the web interface.
