mirror of https://github.com/python/cpython
Whitespace normalization.
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parent
3053667d09
commit
4511a713d5
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@ -14,4 +14,3 @@ cur = con.cursor()
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p = Point(4.0, -3.2)
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cur.execute("select ?", (p,))
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print cur.fetchone()[0]
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@ -15,4 +15,3 @@ cur = con.cursor()
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p = Point(4.0, -3.2)
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cur.execute("select ?", (p,))
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print cur.fetchone()[0]
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@ -10,4 +10,3 @@ age = 72
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cur.execute("select name_last, age from people where name_last=:who and age=:age",
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{"who": who, "age": age})
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print cur.fetchone()
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@ -10,5 +10,3 @@ age = 72
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cur.execute("select name_last, age from people where name_last=:who and age=:age",
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locals())
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print cur.fetchone()
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@ -14,4 +14,3 @@ for person in newPeople:
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# The changes will not be saved unless the transaction is committed explicitly:
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con.commit()
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@ -1,22 +1,21 @@
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import sqlite3
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persons = [
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("Hugo", "Boss"),
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("Calvin", "Klein")
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]
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con = sqlite3.connect(":memory:")
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# Create the table
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con.execute("create table person(firstname, lastname)")
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# Fill the table
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con.executemany("insert into person(firstname, lastname) values (?, ?)", persons)
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# Print the table contents
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for row in con.execute("select firstname, lastname from person"):
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print row
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# Using a dummy WHERE clause to not let SQLite take the shortcut table deletes.
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print "I just deleted", con.execute("delete from person where 1=1").rowcount, "rows"
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import sqlite3
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persons = [
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("Hugo", "Boss"),
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("Calvin", "Klein")
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]
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con = sqlite3.connect(":memory:")
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# Create the table
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con.execute("create table person(firstname, lastname)")
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# Fill the table
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con.executemany("insert into person(firstname, lastname) values (?, ?)", persons)
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# Print the table contents
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for row in con.execute("select firstname, lastname from person"):
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print row
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# Using a dummy WHERE clause to not let SQLite take the shortcut table deletes.
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print "I just deleted", con.execute("delete from person where 1=1").rowcount, "rows"
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@ -1,43 +1,42 @@
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import sqlite3
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con = sqlite3.connect(":memory:")
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cur = con.cursor()
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# Create the table
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con.execute("create table person(lastname, firstname)")
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AUSTRIA = u"\xd6sterreich"
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# by default, rows are returned as Unicode
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cur.execute("select ?", (AUSTRIA,))
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row = cur.fetchone()
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assert row[0] == AUSTRIA
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# but we can make pysqlite always return bytestrings ...
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con.text_factory = str
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cur.execute("select ?", (AUSTRIA,))
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row = cur.fetchone()
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assert type(row[0]) == str
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# the bytestrings will be encoded in UTF-8, unless you stored garbage in the
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# database ...
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assert row[0] == AUSTRIA.encode("utf-8")
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# we can also implement a custom text_factory ...
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# here we implement one that will ignore Unicode characters that cannot be
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# decoded from UTF-8
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con.text_factory = lambda x: unicode(x, "utf-8", "ignore")
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cur.execute("select ?", ("this is latin1 and would normally create errors" + u"\xe4\xf6\xfc".encode("latin1"),))
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row = cur.fetchone()
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assert type(row[0]) == unicode
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# pysqlite offers a builtin optimized text_factory that will return bytestring
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# objects, if the data is in ASCII only, and otherwise return unicode objects
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con.text_factory = sqlite3.OptimizedUnicode
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cur.execute("select ?", (AUSTRIA,))
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row = cur.fetchone()
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assert type(row[0]) == unicode
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cur.execute("select ?", ("Germany",))
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row = cur.fetchone()
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assert type(row[0]) == str
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import sqlite3
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con = sqlite3.connect(":memory:")
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cur = con.cursor()
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# Create the table
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con.execute("create table person(lastname, firstname)")
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AUSTRIA = u"\xd6sterreich"
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# by default, rows are returned as Unicode
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cur.execute("select ?", (AUSTRIA,))
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row = cur.fetchone()
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assert row[0] == AUSTRIA
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# but we can make pysqlite always return bytestrings ...
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con.text_factory = str
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cur.execute("select ?", (AUSTRIA,))
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row = cur.fetchone()
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assert type(row[0]) == str
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# the bytestrings will be encoded in UTF-8, unless you stored garbage in the
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# database ...
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assert row[0] == AUSTRIA.encode("utf-8")
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# we can also implement a custom text_factory ...
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# here we implement one that will ignore Unicode characters that cannot be
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# decoded from UTF-8
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con.text_factory = lambda x: unicode(x, "utf-8", "ignore")
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cur.execute("select ?", ("this is latin1 and would normally create errors" + u"\xe4\xf6\xfc".encode("latin1"),))
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row = cur.fetchone()
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assert type(row[0]) == unicode
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# pysqlite offers a builtin optimized text_factory that will return bytestring
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# objects, if the data is in ASCII only, and otherwise return unicode objects
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con.text_factory = sqlite3.OptimizedUnicode
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cur.execute("select ?", (AUSTRIA,))
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row = cur.fetchone()
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assert type(row[0]) == unicode
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cur.execute("select ?", ("Germany",))
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row = cur.fetchone()
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assert type(row[0]) == str
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@ -410,7 +410,7 @@ class UnicodeTest(
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def __str__(self):
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return u'\u1234'
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self.assertEqual('%s' % Wrapper(), u'\u1234')
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@test_support.run_with_locale('LC_ALL', 'de_DE', 'fr_FR')
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def test_format_float(self):
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# should not format with a comma, but always with C locale
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