Esempio n. 1
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def add_audio_from_data(new_audio: [pyaudio.PyAudio], user: User,
                        connection: sqlite3.connect) -> str:
    cursor = connection.cursor()
    cursor.execute("INSERT INTO audio VALUES (NULL, ?, DATETIME())",
                   (user.name, ))

    connection.commit()
Esempio n. 2
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def reserve_audio_ID(connection: sqlite3.connect, user: User):
    cursor = connection.cursor()
    cursor.execute("INSERT INTO audio VALUES(NULL, ? , DATETIME())",
                   (user.name, ))
    connection.commit()
    cursor.execute("SELECT ID FROM audio WHERE username = ? ORDER BY ID DESC",
                   (user.name, ))
    return cursor.fetchone()[0]
Esempio n. 3
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async def duplicate_exists(rss: rss_class.Rss, conn: sqlite3.connect,
                           link: str, title: str, summary: str) -> tuple:
    flag = False
    link = link.replace("'", "''")
    title = title.replace("'", "''")
    image_hash = None
    cursor = conn.cursor()
    sql = "SELECT * FROM main WHERE 1=1"
    args = []
    for mode in rss.duplicate_filter_mode:
        if mode == "image":
            try:
                summary_doc = Pq(summary)
            except Exception as e:
                logger.warning(e)
                # 没有正文内容直接跳过
                continue
            img_doc = summary_doc("img")
            # 只处理仅有一张图片的情况
            if len(img_doc) != 1:
                continue
            url = img_doc.attr("src")
            # 通过图像的指纹来判断是否实际是同一张图片
            content = await download_image(url, rss.img_proxy)
            if not content:
                continue
            try:
                im = Image.open(BytesIO(content))
            except UnidentifiedImageError:
                continue
            image_hash = str(imagehash.average_hash(im))
            # GIF 图片的 image_hash 实际上是第一帧的值,为了避免误伤直接跳过
            if im.format == "GIF":
                continue
            logger.debug(f"image_hash: {image_hash}")
            sql += " AND image_hash=?"
            args.append(image_hash)
        if mode == "link":
            sql += " AND link=?"
            args.append(link)
        if mode == "title":
            sql += " AND title=?"
            args.append(title)
    if "or" in rss.duplicate_filter_mode:
        sql = sql.replace("AND", "OR").replace("OR", "AND", 1)
    cursor.execute(f"{sql};", args)
    result = cursor.fetchone()
    if result is not None:
        result_id = result[0]
        cursor.execute(
            "UPDATE main SET datetime = DATETIME('Now','LocalTime') WHERE id = ?;",
            (result_id, ),
        )
        cursor.close()
        conn.commit()
        flag = True
    return flag, image_hash
Esempio n. 4
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def insert_snapshots(connection: sqlite3.connect):
    cursor = connection.cursor()
    snapshots = finally_generator.create_inserts()
    query = """INSERT INTO Sensors_snapshots(Date_snapshot, Room_ID, Temperature, Pressure,Wet)
            VALUES(?,?,?,?,?);"""

    cursor.executemany(query, snapshots)
    connection.commit()
    print(f'Строк добавлено: {cursor.rowcount}')
Esempio n. 5
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def _insert_records(table_name, con: sqlite3.connect, data):
    for d in data:
        cls = InsertData(table_name, d)
        cmd = cls.create_insert_record_command()
        cur = con.cursor()
        records = tuple(str(val) for _, val in d.items())
        cur.execute(cmd, records)
        con.commit()
        cur.close()
 def connect():
     try:
         database = SqliteConnect(getEpgDbFilePath())
         database.text_factory = str
         cursor = database.cursor()
     except SqliteError as e:
         notify(DB_CONNECTION_ERROR, e.message)
         return None
     
     return database, cursor
Esempio n. 7
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def execute_query(query: str, connection: sqlite3.connect):
    cursor = connection.cursor()
    query = query
    try:
        cursor.execute(query)
    except Exception as e:
        print(e)
        return e

    connection.commit()
Esempio n. 8
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def add_follower(connection: sqlite3.connect, user: User, following):
    cursor = connection.cursor()
    cursor.execute(
        "INSERT INTO following VALUES (NULL, :user, :following, DATETIME() )",
        {
            'user': user.name,
            'following': following.name
        })

    connection.commit()
Esempio n. 9
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async def insert_into_cache_db(conn: sqlite3.connect, item: dict,
                               image_hash: str) -> None:
    cursor = conn.cursor()
    link = item["link"].replace("'", "''")
    title = item["title"].replace("'", "''")
    cursor.execute(
        "INSERT INTO main (link, title, image_hash) VALUES (?, ?, ?);",
        (link, title, image_hash),
    )
    cursor.close()
    conn.commit()
Esempio n. 10
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def check_issuer_and_subject_counts(conn: sqlite3.connect = None,
                                    fingerprint: str = None) -> None:
    """
    Finds any cert that is CA signed but also has self-signed versions.

    Args:
        conn (sqlite3.connect): Database connection to which query against.
        fingerprint (str): Public Key fingerprint of which query will be made.

    """
    # Obtain iterative cursor for the database connection
    cur = conn.cursor()

    # Query against the fingerprint
    cur.execute("SELECT * FROM x509info WHERE fingerprint = '%s';" %
                fingerprint)

    # Track fingerprints that are both CA and self-signed
    diff_count = 0
    same_count = 0

    # Iterate over the results
    for _, _, issuer, subject, _, _, _ in cur:

        # Count CA and self-signed
        if (issuer != subject): diff_count += 1
        else: same_count += 1

    # Display only the cases where both signed and self signed exist
    if ((same_count > 0) and (diff_count > 0)):
        print(fingerprint, same_count, diff_count)
Esempio n. 11
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def is_following(connection: sqlite3.connect, user: User,
                 following: User) -> bool:
    cursor = connection.cursor()
    cursor.execute(
        '''SELECT ID FROM following WHERE username = ? AND following = ?''',
        (user.name, following.name))

    if cursor.fetchone():
        return True
    else:
        return False
Esempio n. 12
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def print_table(connection: sqlite3.connect, table_name: str):
    cursor = connection.cursor()
    # TODO Make it so that table_name is parsed into execute
    cursor.execute("SELECT * FROM audio ")  # , (table_name,))
    table = cursor.fetchall()
    names = ''
    for column_name in cursor.description:
        names += column_name[0] + '   '
    print(names)
    for row in table:
        print('|' + '-' * len(str(row)))
        print('| ' + str(row))
Esempio n. 13
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async def cache_db_manage(conn: sqlite3.connect) -> None:
    cursor = conn.cursor()
    # 用来去重的 sqlite3 数据表如果不存在就创建一个
    cursor.execute("""
    CREATE TABLE IF NOT EXISTS main (
        "id" INTEGER NOT NULL PRIMARY KEY AUTOINCREMENT,
        "link" TEXT,
        "title" TEXT,
        "image_hash" TEXT,
        "datetime" TEXT DEFAULT (DATETIME('Now', 'LocalTime'))
    );
    """)
    cursor.close()
    conn.commit()
    cursor = conn.cursor()
    # 移除超过 config.db_cache_expire 天没重复过的记录
    cursor.execute(
        "DELETE FROM main WHERE datetime <= DATETIME('Now', 'LocalTime', ?);",
        (f"-{config.db_cache_expire} Day", ),
    )
    cursor.close()
    conn.commit()
Esempio n. 14
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 def __init__(self):
     self.Connector = Connect("Memories.db", detect_types=TimeStamps)
     self.Shell = self.Connector.cursor()
     self.SQLTables = "SELECT name FROM sqlite_master WHERE type = 'table'"
Esempio n. 15
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class SQLInterface:
    def __init__(self):
        self.Connector = Connect("Memories.db", detect_types=TimeStamps)
        self.Shell = self.Connector.cursor()
        self.SQLTables = "SELECT name FROM sqlite_master WHERE type = 'table'"

    def Check(self, Year=str()):
        with self.Connector:  #connector as text manager
            Table = 'My' + Year + 'Memories'  #table name
            DB = self.Shell.execute(self.SQLTables).fetchall(
            )  #execute the query fetching all the results
            Tables = [str(Tab[0]) for Tab in DB]  #getting names of al tables
            if not Table in Tables:  #if the table is in the list
                SQLQueryTable = """
                    CREATE TABLE """ + Table + """
                    (
                        MemoryID text PRIMARY KEY,
                        Memory text,
                        Timestamp timestamp,
                        Date date
                    )
                    """
                self.SQLShell.execute(
                    SQLQueryTable)  #SQL command to create the table

    def Insert(self, Text=str()):
        Now = Time.now()  # timestamps
        Today = Now.date()  # date
        MemoryID = str(Now) + str("".join(Picks(Alphabet, k=6)))
        Table = "My" + str(Now.year) + "Memories"

        try:
            if not Text == '':
                with self.Connector:  # database as context manger
                    SQLQuery = "INSERT INTO " + Table + " VALUES(:MemID, :Text, :Now, :Date)"
                    Values = {
                        "MemID": MemoryID,
                        "Text": Text,
                        "Now": Now,
                        "Date": Today
                    }  #values safely inserted
                    self.Shell.execute(
                        SQLQuery, Values)  #execute the sql query correctly
                    print('Memory inserted in the database')

        except Exception as Error:
            print(Error)

    def Show(self, Random=True, All=False):
        YearsQuery = self.SQLTables + " AND name LIKE '%Memories'"  #SQLQuery to find the name of all tables of memories
        Years = [
            str(Tab[0]) for Tab in self.Shell.execute(YearsQuery).fetchall()
        ]  #list of names of the memory tables
        Memories = []

        with self.Connector:
            if All:
                for Year in Years:
                    MemoryQuery = "SELECT Memory, Date FROM " + Year  #query for memories of a selected year
                    YearMemories = self.Shell.execute(MemoryQuery).fetchall(
                    )  #getting memories from the selected year
                    YearMemories = [[Data[0], Data[1]] for Data in YearMemories
                                    ]  #formatting properly the data
                    Memories.extend(
                        YearMemories
                    )  #proper extension of the list of all memories

            else:
                MemoryQuery = "SELECT Memory, Date FROM " + Years[
                    -1]  #query for memories of the last registered year
                YearMemories = self.Shell.execute(MemoryQuery).fetchall(
                )  #getting all memories from the selected year
                Memories = [[Data[0], str(Data[1])] for Data in YearMemories
                            ]  #formatting properly the data

                if len(Memories) == 0:
                    MemoryQuery = "SELECT Memory, Date FROM " + Years[
                        -2]  #query for memories of the previous year
                    YearMemories = self.Shell.execute(MemoryQuery).fetchall(
                    )  #getting memories from the selected year
                    Memories = [[Data[0], Data[1]] for Data in YearMemories
                                ]  #formatting properly the data

        if Random:  #shuffle the memory order if the user want to
            Mix(Memories)  #mix the memories

        pass
Esempio n. 16
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def remove_follow(connection: sqlite3.connect, user: User, following: User):
    cursor = connection.cursor()
    cursor.execute(
        "DELETE FROM following WHERE username = ? AND following = ?",
        (user.name, following.name))
    connection.commit()
Esempio n. 17
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style.use('seaborn-whitegrid')
print("style set")

# initialize variables and 1st run assignments.
dbpath = "/media/pi/SOLARUSB/SolarMonitor/"
dbfile = "SolarDataCollection.db"

# Define the datatype [list] for the plot
x1 = []
y11 = []
y12 = []
y21 = []
y22 = []

# Connect to database file
DBconnect = ConnectSQLite(dbpath + dbfile)
DBcursor = DBconnect.cursor()


# Get and plot data function
def GetDataAndPlot(SD, ED, DP11, DP21='Null', DP12='Null', DP22='Null'):
    # Setup size of figure
    fig = plt.figure(figsize=(14, 9))

    # Retrive data from the database and load into lists to plot
    # If the first datapoint of the 2nd subplot is not null then create 2 subplots
    if DP21 != 'Null':
        ax2 = plt.subplot2grid((2, 1), (1, 0), rowspan=1, colspan=1)
        ax1 = plt.subplot2grid((2, 1), (0, 0), rowspan=1, colspan=1)

        # Add the 2nd y axis on the subplots if not null
Esempio n. 18
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pass


def GUIMenu(Root=Tk()):
    MenuFrame = Frame(Root)
    TopText = 'Welcome to\nPositivity.Jar'
    MenuTopLabel = Label(MenuFrame, text=TopText, font=('Courier', 32),
                         bd=10)  #welcome label


##################################################################################################End GUI implementation
################################################################################################Start SQl implementation

Connector = Connect("Memories.db", detect_types=TimeStamps)
SQLShell = Connector.cursor()
SQLTables = "SELECT name FROM sqlite_master WHERE type = 'table'"


def YearTable(
):  #this function declares a table of the current year inside  the database if non-existent
    with Connector:  #database as context manager
        Table = "My" + str(Time.now().year) + "Memories"  #table name
        DB = SQLShell.execute(SQLTables).fetchall()
        DataBase = [str(Tab[0]) for Tab in DB]  #getting names of al tables
        if not Table in DataBase:  #if the table is in the list
            SQLQueryTable = """
                    CREATE TABLE """ + Table + """
                    (
                        MemoryID text PRIMARY KEY,