"""
Copyright 2007, 2008, 2009 Free Software Foundation, Inc.
This file is part of GNU Radio

GNU Radio Companion is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.

GNU Radio Companion is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA
"""

from __future__ import absolute_import, division

import math

import six
from gi.repository import Gtk, Pango, PangoCairo

from . import colors
from .drawable import Drawable
from .. import Actions, Utils, Constants
from ..Constants import (
    BLOCK_LABEL_PADDING, PORT_SPACING, PORT_SEPARATION, LABEL_SEPARATION,
    PORT_BORDER_SEPARATION, BLOCK_FONT, PARAM_FONT
)
from ...core import utils
from ...core.blocks import Block as CoreBlock


class Block(CoreBlock, Drawable):
    """The graphical signal block."""

    def __init__(self, parent, **n):
        """
        Block constructor.
        Add graphics related params to the block.
        """
        super(self.__class__, self).__init__(parent, **n)

        self.states.update(coordinate=(0, 0), rotation=0)
        self.width = self.height = 0
        Drawable.__init__(self)  # needs the states and initial sizes

        self._surface_layouts = [
            None,  # title
            None,  # params
        ]
        self._surface_layouts_offsets = 0, 0
        self._comment_layout = None

        self._area = []
        self._border_color = self._bg_color = colors.BLOCK_ENABLED_COLOR
        self._font_color = list(colors.FONT_COLOR)

    @property
    def coordinate(self):
        """
        Get the coordinate from the position param.

        Returns:
            the coordinate tuple (x, y) or (0, 0) if failure
        """
        return Utils.scale(self.states['coordinate'])

    @coordinate.setter
    def coordinate(self, coor):
        """
        Set the coordinate into the position param.

        Args:
            coor: the coordinate tuple (x, y)
        """
        coor = Utils.scale(coor, reverse=True)
        if Actions.TOGGLE_SNAP_TO_GRID.get_active():
            offset_x, offset_y = (0, self.height / 2) if self.is_horizontal() else (self.height / 2, 0)
            coor = (
                Utils.align_to_grid(coor[0] + offset_x) - offset_x,
                Utils.align_to_grid(coor[1] + offset_y) - offset_y
            )
        self.states['coordinate'] = coor

    @property
    def rotation(self):
        """
        Get the rotation from the position param.

        Returns:
            the rotation in degrees or 0 if failure
        """
        return self.states['rotation']

    @rotation.setter
    def rotation(self, rot):
        """
        Set the rotation into the position param.

        Args:
            rot: the rotation in degrees
        """
        self.states['rotation'] = rot

    def _update_colors(self):
        self._bg_color = (
            colors.MISSING_BLOCK_BACKGROUND_COLOR if self.is_dummy_block else
            colors.BLOCK_BYPASSED_COLOR if self.state == 'bypassed' else
            colors.BLOCK_ENABLED_COLOR if self.state == 'enabled' else
            colors.BLOCK_DISABLED_COLOR
        )
        self._font_color[-1] = 1.0 if self.state == 'enabled' else 0.4
        self._border_color = (
            colors.MISSING_BLOCK_BORDER_COLOR if self.is_dummy_block else
            colors.BORDER_COLOR_DISABLED if not self.state == 'enabled' else colors.BORDER_COLOR
        )

    def create_shapes(self):
        """Update the block, parameters, and ports when a change occurs."""
        if self.is_horizontal():
            self._area = (0, 0, self.width, self.height)
        elif self.is_vertical():
            self._area = (0, 0, self.height, self.width)
        self.bounds_from_area(self._area)

        # bussified = self.current_bus_structure['source'], self.current_bus_structure['sink']
        bussified = False, False
        for ports, has_busses in zip((self.active_sources, self.active_sinks), bussified):
            if not ports:
                continue
            port_separation = PORT_SEPARATION if not has_busses else ports[0].height + PORT_SPACING
            offset = (self.height - (len(ports) - 1) * port_separation - ports[0].height) / 2
            for port in ports:
                port.create_shapes()

                port.coordinate = {
                    0: (+self.width, offset),
                    90: (offset, -port.width),
                    180: (-port.width, offset),
                    270: (offset, +self.width),
                }[port.connector_direction]

                offset += PORT_SEPARATION if not has_busses else port.height + PORT_SPACING

    def create_labels(self, cr=None):
        """Create the labels for the signal block."""

        # (Re-)creating layouts here, because layout.context_changed() doesn't seems to work (after zoom)
        title_layout, params_layout = self._surface_layouts = [
            Gtk.DrawingArea().create_pango_layout(''),  # title
            Gtk.DrawingArea().create_pango_layout(''),  # params
        ]

        if cr:  # to fix up extents after zooming
            PangoCairo.update_layout(cr, title_layout)
            PangoCairo.update_layout(cr, params_layout)

        title_layout.set_markup(
            '<span {foreground} font_desc="{font}"><b>{label}</b></span>'.format(
                foreground='foreground="red"' if not self.is_valid() else '', font=BLOCK_FONT,
                label=Utils.encode(self.label)
            )
        )
        title_width, title_height = title_layout.get_size()

        # update the params layout
        if not self.is_dummy_block:
            markups = [param.format_block_surface_markup()
                       for param in self.params.values() if param.hide not in ('all', 'part')]
        else:
            markups = ['<span font_desc="{font}"><b>key: </b>{key}</span>'.format(font=PARAM_FONT, key=self.key)]

        params_layout.set_spacing(LABEL_SEPARATION * Pango.SCALE)
        params_layout.set_markup('\n'.join(markups))
        params_width, params_height = params_layout.get_size() if markups else (0, 0)

        label_width = max(title_width, params_width) / Pango.SCALE
        label_height = title_height / Pango.SCALE
        if markups:
            label_height += LABEL_SEPARATION + params_height / Pango.SCALE

        # calculate width and height needed
        width = label_width + 2 * BLOCK_LABEL_PADDING
        height = label_height + 2 * BLOCK_LABEL_PADDING

        self._update_colors()
        self.create_port_labels()

        def get_min_height_for_ports(ports):
            min_height = 2 * PORT_BORDER_SEPARATION + len(ports) * PORT_SEPARATION
            if ports:
                min_height -= ports[-1].height
            return min_height

        height = max(height,
                     get_min_height_for_ports(self.active_sinks),
                     get_min_height_for_ports(self.active_sources))

        # def get_min_height_for_bus_ports(ports):
        #     return 2 * PORT_BORDER_SEPARATION + sum(
        #         port.height + PORT_SPACING for port in ports if port.dtype == 'bus'
        #     ) - PORT_SPACING
        #
        # if self.current_bus_structure['sink']:
        #     height = max(height, get_min_height_for_bus_ports(self.active_sinks))
        # if self.current_bus_structure['source']:
        #     height = max(height, get_min_height_for_bus_ports(self.active_sources))

        self.width, self.height = width, height = Utils.align_to_grid((width, height))

        self._surface_layouts_offsets = [
            (0, (height - label_height) / 2.0),
            (0, (height - label_height) / 2.0 + LABEL_SEPARATION + title_height / Pango.SCALE)
        ]

        title_layout.set_width(width * Pango.SCALE)
        title_layout.set_alignment(Pango.Alignment.CENTER)
        params_layout.set_indent((width - label_width) / 2.0 * Pango.SCALE)

        self.create_comment_layout()

    def create_port_labels(self):
        for ports in (self.active_sinks, self.active_sources):
            max_width = 0
            for port in ports:
                port.create_labels()
                max_width = max(max_width, port.width_with_label)
            for port in ports:
                port.width = max_width

    def create_comment_layout(self):
        markups = []

        # Show the flow graph complexity on the top block if enabled
        if Actions.TOGGLE_SHOW_FLOWGRAPH_COMPLEXITY.get_active() and self.key == "options":
            complexity = utils.flow_graph_complexity.calculate(self.parent)
            markups.append(
                '<span foreground="#444" size="medium" font_desc="{font}">'
                '<b>Complexity: {num}bal</b></span>'.format(num=Utils.num_to_str(complexity), font=BLOCK_FONT)
            )
        comment = self.comment  # Returns None if there are no comments
        if comment:
            if markups:
                markups.append('<span></span>')

            markups.append('<span foreground="{foreground}" font_desc="{font}">{comment}</span>'.format(
                foreground='#444' if self.enabled else '#888', font=BLOCK_FONT, comment=Utils.encode(comment)
            ))
        if markups:
            layout = self._comment_layout = Gtk.DrawingArea().create_pango_layout('')
            layout.set_markup(''.join(markups))
        else:
            self._comment_layout = None

    def draw(self, cr):
        """
        Draw the signal block with label and inputs/outputs.
        """
        border_color = colors.HIGHLIGHT_COLOR if self.highlighted else self._border_color
        cr.translate(*self.coordinate)

        for port in self.active_ports():  # ports first
            cr.save()
            port.draw(cr)
            cr.restore()

        cr.rectangle(*self._area)
        cr.set_source_rgba(*self._bg_color)
        cr.fill_preserve()
        cr.set_source_rgba(*border_color)
        cr.stroke()

        # title and params label
        if self.is_vertical():
            cr.rotate(-math.pi / 2)
            cr.translate(-self.width, 0)
        cr.set_source_rgba(*self._font_color)
        for layout, offset in zip(self._surface_layouts, self._surface_layouts_offsets):
            cr.save()
            cr.translate(*offset)
            PangoCairo.update_layout(cr, layout)
            PangoCairo.show_layout(cr, layout)
            cr.restore()

    def what_is_selected(self, coor, coor_m=None):
        """
        Get the element that is selected.

        Args:
            coor: the (x,y) tuple
            coor_m: the (x_m, y_m) tuple

        Returns:
            this block, a port, or None
        """
        for port in self.active_ports():
            port_selected = port.what_is_selected(
                coor=[a - b for a, b in zip(coor, self.coordinate)],
                coor_m=[a - b for a, b in zip(coor, self.coordinate)] if coor_m is not None else None
            )
            if port_selected:
                return port_selected
        return Drawable.what_is_selected(self, coor, coor_m)

    def draw_comment(self, cr):
        if not self._comment_layout:
            return
        x, y = self.coordinate

        if self.is_horizontal():
            y += self.height + BLOCK_LABEL_PADDING
        else:
            x += self.height + BLOCK_LABEL_PADDING

        cr.save()
        cr.translate(x, y)
        PangoCairo.update_layout(cr, self._comment_layout)
        PangoCairo.show_layout(cr, self._comment_layout)
        cr.restore()

    def get_extents(self):
        extent = Drawable.get_extents(self)
        x, y = self.coordinate
        for port in self.active_ports():
            extent = (min_or_max(xy, offset + p_xy) for offset, min_or_max, xy, p_xy in zip(
                (x, y, x, y), (min, min, max, max), extent, port.get_extents()
            ))
        return tuple(extent)

    ##############################################
    # Controller Modify
    ##############################################
    def type_controller_modify(self, direction):
        """
        Change the type controller.

        Args:
            direction: +1 or -1

        Returns:
            true for change
        """
        type_templates = ' '.join(p._type for p in self.params.values())
        type_templates += ' '.join(p.get_raw('dtype') for p in (self.sinks + self.sources))
        type_param = None
        for key, param in six.iteritems(self.params):
            if not param.is_enum():
                continue
            # Priority to the type controller
            if param.key in type_templates:
                type_param = param
                break
            # Use param if type param is unset
            if not type_param:
                type_param = param
        if not type_param:
            return False

        # Try to increment the enum by direction
        try:
            values = list(type_param.options)
            old_index = values.index(type_param.get_value())
            new_index = (old_index + direction + len(values)) % len(values)
            type_param.set_value(values[new_index])
            return True
        except:
            return False

    def port_controller_modify(self, direction):
        """
        Change the port controller.

        Args:
            direction: +1 or -1

        Returns:
            true for change
        """
        changed = False
        # Concat the nports string from the private nports settings of all ports
        nports_str = ' '.join(str(port.get_raw('multiplicity')) for port in self.ports())
        # Modify all params whose keys appear in the nports string
        for key, param in six.iteritems(self.params):
            if param.is_enum() or param.key not in nports_str:
                continue
            # Try to increment the port controller by direction
            try:
                value = param.get_evaluated() + direction
                if value > 0:
                    param.set_value(value)
                    changed = True
            except:
                pass
        return changed