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SQL avec Python | Ensemble 3 (Gestion des données volumineuses)

Il est recommandé de passer par SQL avec Python | Ensemble 1 et SQL utilisant Python et SQLite | Ensemble 2 Dans les articles précédents, les enregistrements de la base de données étaient limités à une petite taille et à un seul tuple. Cet article expliquera comment écrire et récupérer des données volumineuses à partir de la base de données à l'aide du module SQLite3 couvrant toutes les exceptions. Un moyen simple consiste à exécuter la requête et à utiliser fetchall(). Cela a déjà été discuté dans le SET 1.
    exécuterscript() This is a convenience method for executing multiple SQL statements at once. It executes the SQL script it gets as a parameter. 
      Syntax:  sqlite3.connect.executescript(script)
    PYTHON 
    import sqlite3 # Connection with the DataBase # 'library.db' connection = sqlite3.connect('library.db') cursor = connection.cursor() # SQL piece of code Executed # SQL piece of code Executed cursor.executescript('''  CREATE TABLE people(  firstname  lastname  age  );    CREATE TABLE book(  title  author  published  );    INSERT INTO  book(title author published)  VALUES (  'Dan Clarke''s GFG Detective Agency'  'Sean Simpsons'  1987  );  ''') sql = ''' SELECT COUNT(*) FROM book;''' cursor.execute(sql) # The output in fetched and returned # as a List by fetchall() result = cursor.fetchall() print(result) sql = ''' SELECT * FROM book;''' cursor.execute(sql) result = cursor.fetchall() print(result) # Changes saved into database connection.commit() # Connection closed(broken)  # with DataBase connection.close()
    Sortir: 
    [(1)] [('Dan Clarke's GFG Detective Agency' 'Sean Simpsons' 1987)]
    Note: This piece of code may not work on online interpreters due to permission privileges to create/write database. exécuter plusieurs() It is often the case when large amount of data has to be inserted into database from Data Files(for simpler case take Lists arrays). It would be simple to iterate the code many a times than write every time each line into database. But the use of loop would not be suitable in this case the below example shows why. Syntax and use of executemany() is explained below and how it can be used like a loop. PYTHON 
    import sqlite3 # Connection with the DataBase # 'library.db' connection = sqlite3.connect('library.db') cursor = connection.cursor() # SQL piece of code Executed cursor.execute('''    CREATE TABLE book(  title  author  published);''') List = [('A' 'B' 2008) ('C' 'D' 2008) ('E' 'F' 2010)] connection. executemany('''    INSERT INTO   book(title author published)   VALUES (? ? ?)''' List) sql = '''  SELECT * FROM book;''' cursor.execute(sql) result = cursor.fetchall() for x in result: print(x) # Changes saved into database connection.commit() # Connection closed(broken)  # with DataBase connection.close()
    Sortir: 
    Traceback (most recent call last): File 'C:/Users/GFG/Desktop/SQLITE3.py' line 16 in List[2][3] =[['A' 'B' 2008] ['C' 'D' 2008] ['E' 'F' 2010]] NameError: name 'List' is not defined
    The use of executemany() can make the piece of code functional. PYTHON 
    import sqlite3 # Connection with the DataBase # 'library.db' connection = sqlite3.connect('library.db') cursor = connection.cursor() # SQL piece of code Executed cursor.execute('''  CREATE TABLE book(  title  author  published);''') List = [('A' 'B' 2008) ('C' 'D' 2008) ('E' 'F' 2010)] connection. executemany('''  INSERT INTO   book(title author published)   VALUES (? ? ?)''' List) sql = ''' SELECT * FROM book;''' cursor.execute(sql) result = cursor.fetchall() for x in result: print(x) # Changes saved into database connection.commit() # Connection closed(broken) # with DataBase connection.close()
    Sortir: 
    ('A' 'B' 2008) ('C' 'D' 2008) ('E' 'F' 2010)
    Récupérer des données volumineuses PYTHON 
    import sqlite3 # Connection created with the # database using sqlite3.connect() connection = sqlite3.connect('company.db') cursor = connection.cursor() # Create Table command executed sql = '''  CREATE TABLE employee (   ID INTEGER PRIMARY KEY   fname VARCHAR(20)   lname VARCHAR(30)   gender CHAR(1)   dob DATE);''' cursor.execute(sql) # Single Tuple inserted sql = '''  INSERT INTO employee  VALUES (1007 'Will' 'Olsen' 'M' '24-SEP-1865');''' cursor.execute(sql) # Multiple Rows inserted List = [(1008 'Rkb' 'Boss' 'M' '27-NOV-1864') (1098 'Sak' 'Rose' 'F' '27-DEC-1864') (1908 'Royal' 'Bassen' 'F' '17-NOV-1894')] connection. executemany( 'INSERT INTO employee VALUES (? ? ? ? ?)' List) print('Method-1n') # Multiple Rows fetched from # the Database for row in connection.execute('SELECT * FROM employee ORDER BY ID'): print (row) print('nMethod-2n') # Method-2 to fetch multiple # rows sql = '''  SELECT * FROM employee ORDER BY ID;''' cursor.execute(sql) result = cursor.fetchall() for x in result: print(x) connection.commit() connection.close()
    Sortir: 
    Method-1 (1007 'Will' 'Olsen' 'M' '24-SEP-1865') (1008 'Rkb' 'Boss' 'M' '27-NOV-1864') (1098 'Sak' 'Rose' 'F' '27-DEC-1864') (1908 'Royal' 'Bassen' 'F' '17-NOV-1894') Method-2 (1007 'Will' 'Olsen' 'M' '24-SEP-1865') (1008 'Rkb' 'Boss' 'M' '27-NOV-1864') (1098 'Sak' 'Rose' 'F' '27-DEC-1864') (1908 'Royal' 'Bassen' 'F' '17-NOV-1894')
    Note: This piece of code may not work on online interpreters due to permission privileges to create/write database.

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