zaz/source/diff.py

# ~ FILTER_PDF = '/org.openoffice.Office.Common/Filter/PDF/Export/'

# ~ If location="document" Then
    # ~ sp = ThisComponent.getScriptProvider()


class LOWriter(LODocument):

    def create_chart(self, tipo, cursor=None):
        cursor = cursor or self.selection.cursor.getEnd()
        chart = LOChart(None, tipo)
        chart.cursor = cursor
        chart.doc = self
        return chart

    # ~ f = doc.createInstance('com.sun.star.text.TextFrame')
    # ~ f.setSize(Size(10000, 500))


class LOBase(object):
    TYPES = {
        str: 'setString',
        int: 'setInt',
        float: 'setFloat',
        bool: 'setBoolean',
        Date: 'setDate',
        Time: 'setTime',
        DateTime: 'setTimestamp',
    }
    # ~ setArray
    # ~ setBinaryStream
    # ~ setBlob
    # ~ setByte
    # ~ setBytes
    # ~ setCharacterStream
    # ~ setClob
    # ~ setNull
    # ~ setObject
    # ~ setObjectNull
    # ~ setObjectWithInfo
    # ~ setPropertyValue
    # ~ setRef
    def __init__(self, name, path='', **kwargs):
        self._name = name
        self._path = path
        self._dbc = create_instance('com.sun.star.sdb.DatabaseContext')
        if path:
            path_url = _path_url(path)
            db = self._dbc.createInstance()
            db.URL = 'sdbc:embedded:firebird'
            db.DatabaseDocument.storeAsURL(path_url, ())
            if not self.exists:
                self._dbc.registerDatabaseLocation(name, path_url)
        else:
            if name.startswith('odbc:'):
                self._con = self._odbc(name, kwargs)
            else:
                db = self._dbc.getByName(name)
                self.path = _path_system(self._dbc.getDatabaseLocation(name))
                self._con = db.getConnection('', '')

        if self._con is None:
            msg = 'Not connected to: {}'.format(name)
        else:
            msg = 'Connected to: {}'.format(name)
        debug(msg)

    def _odbc(self, name, kwargs):
        dm = create_instance('com.sun.star.sdbc.DriverManager')
        args = dict_to_property(kwargs)
        try:
            con = dm.getConnectionWithInfo('sdbc:{}'.format(name), args)
            return con
        except Exception as e:
            error(str(e))
            return None

    @property
    def obj(self):
        return self._obj

    @property
    def name(self):
        return self._name

    @property
    def connection(self):
        return self._con

    @property
    def path(self):
        return self._path
    @path.setter
    def path(self, value):
        self._path = value

    @property
    def exists(self):
        return self._dbc.hasRegisteredDatabase(self.name)

    @classmethod
    def register(self, path, name):
        if not self._dbc.hasRegisteredDatabase(name):
            self._dbc.registerDatabaseLocation(name, _path_url(path))
        return

    def revoke(self, name):
        self._dbc.revokeDatabaseLocation(name)
        return True

    def save(self):
        # ~ self._db.connection.commit()
        # ~ self._db.connection.getTables().refresh()
        # ~ oDisp.executeDispatch(oFrame,".uno:DBRefreshTables", "", 0, Array())
        self._obj.DatabaseDocument.store()
        self.refresh()
        return

    def close(self):
        self._con.close()
        return

    def refresh(self):
        self._con.getTables().refresh()
        return

    def get_tables(self):
        tables = self._con.getTables()
        tables = [tables.getByIndex(i) for i in range(tables.Count)]
        return tables

    def cursor(self, sql, params):
        cursor = self._con.prepareStatement(sql)
        for i, v in enumerate(params, 1):
            if not type(v) in self.TYPES:
                error('Type not support')
                debug((i, type(v), v, self.TYPES[type(v)]))
            getattr(cursor, self.TYPES[type(v)])(i, v)
        return cursor

    def execute(self, sql, params):
        debug(sql)
        if params:
            cursor = self.cursor(sql, params)
            cursor.execute()
        else:
            cursor = self._con.createStatement()
            cursor.execute(sql)
            # ~ resulset = cursor.executeQuery(sql)
            # ~ rows = cursor.executeUpdate(sql)
        self.save()
        return cursor

class EventsModify(EventsListenerBase, XModifyListener):

    def __init__(self, controller):
        super().__init__(controller)

    def modified(self, event):
        event_name = '{}_modified'.format(event.Source.Name)
        if hasattr(self._controller, event_name):
            getattr(self._controller, event_name)(event)
        return


class EventsKeyWindow(EventsListenerBase, XKeyListener):
    """
        event.KeyChar
        event.KeyCode
        event.KeyFunc
        event.Modifiers
    """

    def __init__(self, cls):
        super().__init__(cls.events, cls.name)
        self._cls = cls

    def keyPressed(self, event):
        pass

    def keyReleased(self, event):
        event_name = '{}_key_released'.format(self._cls.name)
        if hasattr(self._controller, event_name):
            getattr(self._controller, event_name)(event)
        else:
            if event.KeyFunc == QUIT and hasattr(self._cls, 'close'):
                self._cls.close()
        return


class EventsWindow(EventsListenerBase, XTopWindowListener, XWindowListener):

    def __init__(self, cls):
        self._cls = cls
        super().__init__(cls.events, cls.name, cls._window)

    def windowOpened(self, event):
        event_name = '{}_opened'.format(self._name)
        if hasattr(self._controller, event_name):
            getattr(self._controller, event_name)(event)
        return

    def windowActivated(self, event):
        control_name = '{}_activated'.format(event.Source.Model.Name)
        if hasattr(self._controller, control_name):
            getattr(self._controller, control_name)(event)
        return

    def windowDeactivated(self, event):
        control_name = '{}_deactivated'.format(event.Source.Model.Name)
        if hasattr(self._controller, control_name):
            getattr(self._controller, control_name)(event)
        return

    def windowMinimized(self, event):
        pass

    def windowNormalized(self, event):
        pass

    def windowClosing(self, event):
        if self._window:
            control_name = 'window_closing'
        else:
            control_name = '{}_closing'.format(event.Source.Model.Name)

        if hasattr(self._controller, control_name):
            getattr(self._controller, control_name)(event)
        # ~ else:
            # ~ if not self._modal and not self._block:
                # ~ event.Source.Visible = False
        return

    def windowClosed(self, event):
        control_name = '{}_closed'.format(event.Source.Model.Name)
        if hasattr(self._controller, control_name):
            getattr(self._controller, control_name)(event)
        return

    # ~ XWindowListener
    def windowResized(self, event):
        sb = self._cls._subcont
        sb.setPosSize(0, 0, event.Width, event.Height, SIZE)
        event_name = '{}_resized'.format(self._name)
        if hasattr(self._controller, event_name):
            getattr(self._controller, event_name)(event)
        return

    def windowMoved(self, event):
        pass

    def windowShown(self, event):
        pass

    def windowHidden(self, event):
        pass


class WriterTableRange(ObjectBase):

    def __init__(self, obj, index, table_name):
        self._index = index
        self._table_name = table_name
        super().__init__(obj)
        self._is_cell = hasattr(self.obj, 'CellName')

    def __getitem__(self, key):
        obj = super().__getitem__(key)
        return WriterTableRange(obj, key, self._table_name)

    @property
    def value(self):
        return self.obj.String
    @value.setter
    def value(self, value):
        self.obj.String = value

    @property
    def data(self):
        return self.obj.getDataArray()
    @data.setter
    def data(self, values):
        if isinstance(values, list):
            values = tuple(values)
        self.obj.setDataArray(values)

    @property
    def rows(self):
        return len(self.data)

    @property
    def columns(self):
        return len(self.data[0])

    @property
    def name(self):
        if self._is_cell:
            name = '{}.{}'.format(self._table_name, self.obj.CellName)
        elif isinstance(self._index, str):
            name = '{}.{}'.format(self._table_name, self._index)
        else:
            c1 = self.obj[0,0].CellName
            c2 = self.obj[self.rows-1,self.columns-1].CellName
            name = '{}.{}:{}'.format(self._table_name, c1, c2)
        return name

    def get_cell(self, *index):
        return self[index]

    def get_column(self, index=0, start=1):
        return self[start:self.rows,index:index+1]

    def get_series(self):
        class Serie():
            pass
        series = []
        for i in range(self.columns):
            serie = Serie()
            serie.label = self.get_cell(0,i).name
            serie.data = self.get_column(i).data
            serie.values = self.get_column(i).name
            series.append(serie)
        return series


class ChartFormat(object):

    def __call__(self, obj):
        for k, v in self.__dict__.items():
            if hasattr(obj, k):
                setattr(obj, k, v)


class LOChart(object):
    BASE = 'com.sun.star.chart.{}Diagram'

    def __init__(self, obj, tipo=''):
        self._obj = obj
        self._type = tipo
        self._name = ''
        self._table = None
        self._data = ()
        self._data_series = ()
        self._cell = None
        self._cursor = None
        self._doc = None
        self._title = ChartFormat()
        self._subtitle = ChartFormat()
        self._legend = ChartFormat()
        self._xaxistitle = ChartFormat()
        self._yaxistitle = ChartFormat()
        self._xaxis = ChartFormat()
        self._yaxis = ChartFormat()
        self._xmaingrid = ChartFormat()
        self._ymaingrid = ChartFormat()
        self._xhelpgrid = ChartFormat()
        self._yhelpgrid = ChartFormat()
        self._area = ChartFormat()
        self._wall = ChartFormat()
        self._dim3d = False
        self._series = ()
        self._labels = ()
        return

    def __enter__(self):
        return self

    def __exit__(self, exc_type, exc_value, traceback):
        self.insert()

    @property
    def obj(self):
        return self._obj
    @obj.setter
    def obj(self, value):
        self._obj = value

    @property
    def name(self):
        return self._name
    @name.setter
    def name(self, value):
        self._name = value

    @property
    def type(self):
        return self._type
    @type.setter
    def type(self, value):
        self._type = value

    @property
    def table(self):
        return self._table
    @table.setter
    def table(self, value):
        self._table = value

    @property
    def data(self):
        return self._data
    @data.setter
    def data(self, value):
        self._data = value

    @property
    def cell(self):
        return self._cell
    @cell.setter
    def cell(self, value):
        self._cell = value
        self.doc = value.doc

    @property
    def cursor(self):
        return self._cursor
    @cursor.setter
    def cursor(self, value):
        self._cursor = value

    @property
    def doc(self):
        return self._doc
    @doc.setter
    def doc(self, value):
        self._doc = value

    @property
    def width(self):
        return self._width
    @width.setter
    def width(self, value):
        self._width = value

    @property
    def height(self):
        return self._height
    @height.setter
    def height(self, value):
        self._height = value

    @property
    def title(self):
        return self._title

    @property
    def subtitle(self):
        return self._subtitle

    @property
    def legend(self):
        return self._legend

    @property
    def xaxistitle(self):
        return self._xaxistitle

    @property
    def yaxistitle(self):
        return self._yaxistitle

    @property
    def xaxis(self):
        return self._xaxis

    @property
    def yaxis(self):
        return self._yaxis

    @property
    def xmaingrid(self):
        return self._xmaingrid

    @property
    def ymaingrid(self):
        return self._ymaingrid

    @property
    def xhelpgrid(self):
        return self._xhelpgrid

    @property
    def yhelpgrid(self):
        return self._yhelpgrid

    @property
    def area(self):
        return self._area

    @property
    def wall(self):
        return self._wall

    @property
    def dim3d(self):
        return self._dim3d
    @dim3d.setter
    def dim3d(self, value):
        self._dim3d = value

    @property
    def series(self):
        return self._series
    @series.setter
    def series(self, value):
        self._series = value

    @property
    def data_series(self):
        return self._series
    @data_series.setter
    def data_series(self, value):
        self._data_series = value

    @property
    def labels(self):
        return self._labels
    @labels.setter
    def labels(self, value):
        self._labels = value

    def _add_series_writer(self, chart):
        dp = self.doc.create_instance('com.sun.star.chart2.data.DataProvider')
        chart.attachDataProvider(dp)
        chart_type = chart.getFirstDiagram().getCoordinateSystems()[0].getChartTypes()[0]
        self._data_series = self.table[self.data].get_series()
        series = [self._create_serie(dp, s) for s in self._data_series[1:]]
        chart_type.setDataSeries(tuple(series))
        chart_data = chart.getData()
        chart_data.ComplexRowDescriptions = self._data_series[0].data
        return

    def _get_series(self):
        rango = self._data_series
        class Serie():
            pass
        series = []
        for i in range(0, rango.columns, 2):
            serie = Serie()
            serie.label = rango[0, i+1].name
            serie.xvalues = rango.get_column(i).name
            serie.values = rango.get_column(i+1).name
            series.append(serie)
        return series

    def _add_series_calc(self, chart):
        dp = self.doc.create_instance('com.sun.star.chart2.data.DataProvider')
        chart.attachDataProvider(dp)
        chart_type = chart.getFirstDiagram().getCoordinateSystems()[0].getChartTypes()[0]
        series = self._get_series()
        series = [self._create_serie(dp, s) for s in series]
        chart_type.setDataSeries(tuple(series))
        return

    def _create_serie(self, dp, data):
        serie = create_instance('com.sun.star.chart2.DataSeries')
        rango = data.values
        is_x = hasattr(data, 'xvalues')
        if is_x:
            xrango = data.xvalues
        rango_label = data.label

        lds = create_instance('com.sun.star.chart2.data.LabeledDataSequence')
        values = self._create_data(dp, rango, 'values-y')
        lds.setValues(values)
        if data.label:
            label = self._create_data(dp, rango_label, '')
            lds.setLabel(label)

        xlds = ()
        if is_x:
            xlds = create_instance('com.sun.star.chart2.data.LabeledDataSequence')
            values = self._create_data(dp, xrango, 'values-x')
            xlds.setValues(values)

        if is_x:
            serie.setData((lds, xlds))
        else:
            serie.setData((lds,))

        return serie

    def _create_data(self, dp, rango, role):
        data = dp.createDataSequenceByRangeRepresentation(rango)
        if not data is None:
            data.Role = role
        return data

    def _from_calc(self):
        ps = self.cell.ps
        ps.Width = self.width
        ps.Height = self.height
        charts = self.cell.charts
        data = ()
        if self.data:
            data = (self.data.address,)
        charts.addNewByName(self.name, ps, data, True, True)
        self.obj = charts.getByName(self.name)
        chart = self.obj.getEmbeddedObject()
        chart.setDiagram(chart.createInstance(self.BASE.format(self.type)))
        if not self.data:
            self._add_series_calc(chart)
        return chart

    def _from_writer(self):
        obj = self.doc.create_instance('com.sun.star.text.TextEmbeddedObject')
        obj.setPropertyValue('CLSID', '12DCAE26-281F-416F-a234-c3086127382e')
        obj.Name = self.name
        obj.setSize(Size(self.width, self.height))
        self.doc.insert_content(self.cursor, obj)
        self.obj = obj
        chart = obj.getEmbeddedObject()
        tipo = self.type
        if self.type == 'Column':
            tipo = 'Bar'
            chart.Diagram.Vertical = True
        chart.setDiagram(chart.createInstance(self.BASE.format(tipo)))
        chart.DataSourceLabelsInFirstColumn = True
        if isinstance(self.data, str):
            self._add_series_writer(chart)
        else:
            chart_data = chart.getData()
            labels = [r[0] for r in self.data]
            data = [(r[1],) for r in self.data]
            chart_data.setData(data)
            chart_data.RowDescriptions = labels

        # ~ Bug
        if tipo == 'Pie':
            chart.setDiagram(chart.createInstance(self.BASE.format('Bar')))
            chart.setDiagram(chart.createInstance(self.BASE.format('Pie')))

        return chart

    def insert(self):
        if not self.cell is None:
            chart = self._from_calc()
        elif not self.cursor is None:
            chart = self._from_writer()

        diagram = chart.Diagram

        if self.type == 'Bar':
            diagram.Vertical = True

        if hasattr(self.title, 'String'):
            chart.HasMainTitle = True
            self.title(chart.Title)

        if hasattr(self.subtitle, 'String'):
            chart.HasSubTitle = True
            self.subtitle(chart.SubTitle)

        if self.legend.__dict__:
            chart.HasLegend = True
            self.legend(chart.Legend)

        if self.xaxistitle.__dict__:
            diagram.HasXAxisTitle = True
            self.xaxistitle(diagram.XAxisTitle)

        if self.yaxistitle.__dict__:
            diagram.HasYAxisTitle = True
            self.yaxistitle(diagram.YAxisTitle)

        if self.dim3d:
            diagram.Dim3D = True

        if self.series:
            data_series = chart.getFirstDiagram(
                ).getCoordinateSystems(
                )[0].getChartTypes()[0].DataSeries
            for i, serie in enumerate(data_series):
                for k, v in self.series[i].items():
                    if hasattr(serie, k):
                        setattr(serie, k, v)
        return self


class LODialog(object):

    def _get_type_control(self, name):
        types = {
            'stardiv.Toolkit.UnoFixedTextControl': 'label',
            'stardiv.Toolkit.UnoFixedHyperlinkControl': 'link',
            'stardiv.Toolkit.UnoEditControl': 'text',
            'stardiv.Toolkit.UnoButtonControl': 'button',
            'stardiv.Toolkit.UnoListBoxControl': 'listbox',
            'stardiv.Toolkit.UnoRoadmapControl': 'roadmap',
            'stardiv.Toolkit.UnoMultiPageControl': 'pages',
        }
        return types[name]

    def _init_controls(self):
        for control in self.obj.getControls():
            tipo = self._get_type_control(control.ImplementationName)
            name = control.Model.Name
            control = get_custom_class(tipo, control)
            setattr(self, name, control)
        return


class LOWindow(object):
    EMPTY = b"""<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE dlg:window PUBLIC "-//OpenOffice.org//DTD OfficeDocument 1.0//EN" "dialog.dtd">
<dlg:window xmlns:dlg="http://openoffice.org/2000/dialog" xmlns:script="http://openoffice.org/2000/script" dlg:id="empty" dlg:left="0" dlg:top="0" dlg:width="0" dlg:height="0" dlg:closeable="true" dlg:moveable="true" dlg:withtitlebar="false"/>"""

    def __init__(self, **kwargs):
        self._events = None
        self._menu = None
        self._container = None
        self._id_extension = ''
        self._obj = self._create(kwargs)

    @property
    def id_extension(self):
        return self._id_extension
    @id_extension.setter
    def id_extension(self, value):
        global ID_EXTENSION
        ID_EXTENSION = value
        self._id_extension = value

    def _get_base_control(self, tipo):
        services = {
            'label': 'com.sun.star.awt.UnoControlFixedText',
            'button': 'com.sun.star.awt.UnoControlButton',
            'text': 'com.sun.star.awt.UnoControlEdit',
            'listbox': 'com.sun.star.awt.UnoControlListBox',
            'link': 'com.sun.star.awt.UnoControlFixedHyperlink',
            'roadmap': 'com.sun.star.awt.UnoControlRoadmap',
            'image': 'com.sun.star.awt.UnoControlImageControl',
            'groupbox': 'com.sun.star.awt.UnoControlGroupBox',
            'radio': 'com.sun.star.awt.UnoControlRadioButton',
            'tree': 'com.sun.star.awt.tree.TreeControl',
            'grid': 'com.sun.star.awt.grid.UnoControlGrid',
            'tab': 'com.sun.star.awt.tab.UnoControlTabPage',
        }
        return services[tipo]

    def _special_properties(self, tipo, properties):
        columns = properties.pop('Columns', ())
        if tipo == 'grid':
            properties['ColumnModel'] = self._set_column_model(columns)
        elif tipo == 'button' and 'ImageURL' in properties:
            properties['ImageURL'] = _set_image_url(
                properties['ImageURL'], self.id_extension)
        elif tipo == 'roadmap':
            if not 'Height' in properties:
                properties['Height'] = self.height
            if 'Title' in properties:
                properties['Text'] = properties.pop('Title')
        elif tipo == 'tab':
            if not 'Width' in properties:
                properties['Width'] = self.width - 20
            if not 'Height' in properties:
                properties['Height'] = self.height - 20

        return properties

    def add_control(self, properties):
        tipo = properties.pop('Type').lower()
        root = properties.pop('Root', '')
        sheets = properties.pop('Sheets', ())

        properties = self._special_properties(tipo, properties)
        model = self._subcont.Model.createInstance(get_control_model(tipo))
        set_properties(model, properties)
        name = properties['Name']
        self._subcont.Model.insertByName(name, model)
        control = self._subcont.getControl(name)
        add_listeners(self.events, control, name)
        control = get_custom_class(tipo, control)

        if tipo == 'tree' and root:
            control.root = root
        elif tipo == 'tab' and sheets:
            control.sheets = sheets
            control.events = self.events

        setattr(self, name, control)
        return

    def _add_listeners(self, control=None):
        if self.events is None:
            return
        controller = EventsWindow(self)
        self._window.addTopWindowListener(controller)
        self._window.addWindowListener(controller)
        self._container.addKeyListener(EventsKeyWindow(self))
        return

    @property
    def name(self):
        return self._title.lower().replace(' ', '_')

    @property
    def width(self):
        return self._container.Size.Width

    @property
    def height(self):
        return self._container.Size.Height


# ~ Export ok
def merge_zip(target, zips):
    try:
        with zipfile.ZipFile(target, 'w', compression=zipfile.ZIP_DEFLATED) as t:
            for path in zips:
                with zipfile.ZipFile(path, compression=zipfile.ZIP_DEFLATED) as s:
                    for name in s.namelist():
                        t.writestr(name, s.open(name).read())
    except Exception as e:
        error(e)
        return False

    return True


# ~ Export ok
def format(template, data):
    """
        https://pyformat.info/
    """
    if isinstance(data, (str, int, float)):
        return template.format(data)

    if isinstance(data, (Time, Date, DateTime)):
        return template.format(_to_date(data))

    if isinstance(data, tuple) and isinstance(data[0], tuple):
        data = {r[0]: _to_date(r[1]) for r in data}
        return template.format(**data)

    data = [_to_date(v) for v in data]
    result = template.format(*data)
    return result