示例#1
0
    def note_to_sb(self, note):
        r_string = ""
        tab_times = []
        note_in = int(note.t - (60000 / self.bpm * (4 / self.scroll)))
        playfield_length = int(findsetting("PlayfieldLength"))

        for i in range(self.begin, self.end, 20):
            z = [
                i,
                random.randint(self.receptor_y() - self.amp,
                               self.receptor_y() + self.amp)
            ]
            tab_times.append(z)

        tab_times.append([self.end + 20, self.receptor_y()])
        """
        +------+
        | Note |
        +------+
        """
        r_string += "Sprite,Foreground,Centre,\"{}.png\",320,240\n".format(
            "taikohitcircle" if findsetting("UseSkinElements") else "SB/note")
        r_string += " MX,0,{},{},{},{}\n".format(
            note_in, note.t,
            self.receptor_x() + playfield_length *
            (-1 if self.is_reverse else 1), self.receptor_x())
        r_string += muma.note_mods.sbUtils.sbUtils.scale_big(note)
        r_string += n_trans(note, self.color, note_in)

        for i in range(0, len(tab_times) - 1):
            r_string += " MY,0,{},,{}\n".format(tab_times[i][0],
                                                tab_times[i][1])

        if self.is_upside_down:
            r_string += " P,0,{},,V\n".format(note_in)
        if self.is_mirror:
            r_string += " P,0,{},,H\n".format(note_in)
        """
        +--------------+
        | Note Overlay |
        +--------------+
        """
        r_string += muma.note_mods.sbUtils.sbUtils.overlay(note, self.color)
        r_string += n_trans(note, self.color, note_in, True)
        r_string += " MX,0,{},{},{},{}\n".format(
            note_in, note.t,
            self.receptor_x() + playfield_length *
            (-1 if self.is_reverse else 1), self.receptor_x())
        for i in range(0, len(tab_times) - 1):
            r_string += " MY,0,{},,{}\n".format(tab_times[i][0],
                                                tab_times[i][1])

        if self.is_upside_down:
            r_string += " P,0,{},,V\n".format(note_in)
        if self.is_mirror:
            r_string += " P,0,{},,H\n".format(note_in)
        return r_string
示例#2
0
    def note_to_sb(self, note):
        r_string = ""
        note_in = int(note.t - (60000 / self.bpm * 4))
        playfield_length = int(findsetting("PlayfieldLength"))
        """
        +------+
        | Note |
        +------+
        """
        r_string += "Sprite,Foreground,Centre,\"{}.png\",320,240\n".format(
            "taikohitcircle" if findsetting("UseSkinElements") else "SB/note")

        r_string += " MY,0,{},,{}\n".format(note_in, self.receptor_y())

        if Hitsound(note.hs).iskat() or NoteType(note.note_type).isspinner():
            r_string += " MX,0,{},{},{},{}\n".format(
                note_in, note.t,
                self.receptor_x() - playfield_length *
                (-1 if self.is_reverse else 1), self.receptor_x())
        else:
            r_string += " MX,0,{},{},{},{}\n".format(
                note_in, note.t,
                self.receptor_x() + playfield_length *
                (-1 if self.is_reverse else 1), self.receptor_x())

        r_string += muma.note_mods.sbUtils.sbUtils.scale_big(note)
        r_string += n_trans(note, self.color, note_in)

        if self.is_upside_down:
            r_string += " P,0,{},,V\n".format(note_in)
        if self.is_mirror:
            r_string += " P,0,{},,H\n".format(note_in)
        """
        +--------------+
        | Note Overlay |
        +--------------+
        """
        r_string += muma.note_mods.sbUtils.sbUtils.overlay(note, self.color)
        r_string += n_trans(note, self.color, note_in, True)
        r_string += " MY,0,{},,{}\n".format(note_in, self.receptor_y())
        if Hitsound(note.hs).iskat() or NoteType(note.note_type).isspinner():
            r_string += " MX,0,{},{},{},{}\n".format(
                note_in, note.t,
                self.receptor_x() - playfield_length *
                (-1 if self.is_reverse else 1), self.receptor_x())
        else:
            r_string += " MX,0,{},{},{},{}\n".format(
                note_in, note.t,
                self.receptor_x() + playfield_length *
                (-1 if self.is_reverse else 1), self.receptor_x())
        if self.is_upside_down:
            r_string += " P,0,{},,V\n".format(note_in)
        if self.is_mirror:
            r_string += " P,0,{},,H\n".format(note_in)

        return r_string
示例#3
0
    def note_to_sb(self, note):
        r_string = ""
        playfield_length = int(findsetting("PlayfieldLength"))
        note_in = int(note.t - (60000 / self.bpm * (4 / self.scroll)))

        """
        +------+
        | Note |
        +------+
        """
        r_string += "Sprite,Foreground,Centre,\"{}.png\",320,240\n".format(
            "taikohitcircle" if findsetting("UseSkinElements") else "SB/note")
        r_string += " M,0,{},{},{},{},{},{}\n".format(note_in,
                                                      note.t,
                                                      int(self.receptor_x() + playfield_length * (
                                                          -1 if self.is_reverse else 1) * math.cos(
                                                          self.angle)),
                                                      int(self.receptor_y() + playfield_length * (
                                                          -1 if self.is_upside_down else 1) * math.sin(self.angle)),
                                                      self.receptor_x(),
                                                      self.receptor_y())
        r_string += " R,0,{},,{}\n".format(note.t, self.angle)
        r_string += muma.note_mods.sbUtils.sbUtils.scale_big(note)
        r_string += n_trans(note, self.color, note_in)

        if self.is_upside_down:
            r_string += " P,0,{},,V\n".format(note_in)
        if self.is_mirror:
            r_string += " P,0,{},,H\n".format(note_in)

        """
        +--------------+
        | Note Overlay |
        +--------------+
        """
        r_string += muma.note_mods.sbUtils.sbUtils.overlay(note, self.color)
        r_string += " M,0,{},{},{},{},{},{}\n".format(note_in,
                                                      note.t,
                                                      int(self.receptor_x() + playfield_length * (
                                                          -1 if self.is_reverse else 1) * math.cos(
                                                          self.angle)),
                                                      int(self.receptor_y() + playfield_length * (
                                                          -1 if self.is_upside_down else 1) * math.sin(self.angle)),
                                                      self.receptor_x(),
                                                      self.receptor_y())
        r_string += " R,0,{},,{}\n".format(note.t, self.angle)
        r_string += muma.note_mods.sbUtils.sbUtils.scale_big(note)
        r_string += n_trans(note, self.color, note_in, True)
        if self.is_upside_down:
            r_string += " P,0,{},,V\n".format(note_in)
        if self.is_mirror:
            r_string += " P,0,{},,H\n".format(note_in)

        return r_string
示例#4
0
    def note_to_sb_clock(self, note, n_in):
        note_in = n_in.t
        r_string = ""
        note_out = int(note_in + (60000 / self.bpm * self.beat_len))
        note_beat = (note.t - note_in) / (60000 / self.bpm)

        if float(note_beat) < (float(self.beat_len) - 0.125):
            note_y = 360 + self.clock_rad * math.sin(
                (note_beat /
                 ((-1 if self.is_reverse else 1) * self.beat_len)) *
                (2 * math.pi) - 0.5 * math.pi)
            note_x = 320 + self.clock_rad * math.cos(
                (note_beat /
                 ((-1 if self.is_reverse else 1) * self.beat_len)) *
                (2 * math.pi) - 0.5 * math.pi)
            note_x, note_y = int(note_x), int(note_y)
            """
            +------+
            | Note |
            +------+
            """
            r_string += "Sprite,Foreground,Centre,\"{}.png\",320,240\n".format(
                "taikohitcircle" if findsetting("UseSkinElements"
                                                ) else "SB/note")
            r_string += " MY,0,{},{},{}\n".format(note_in, note_out, note_y)
            r_string += " MX,0,{},{},{}\n".format(note_in, note_out, note_x)

            r_string += muma.note_mods.sbUtils.sbUtils.scale_big_clock(note)
            r_string += n_trans(note, self.color, note_in)
            if self.is_mirror:
                r_string += " P,0,{},,H\n".format(note_in)
            """
            +--------------+
            | Note Overlay |
            +--------------+
            """
            r_string += muma.note_mods.sbUtils.sbUtils.overlay_clock(
                note, self.color)
            r_string += " MY,0,{},{},{}\n".format(note_in, note_out, note_y)
            r_string += " MX,0,{},{},{}\n".format(note_in, note_out, note_x)
            r_string += n_trans(note, self.color, note_in, True)
            if self.is_mirror:
                r_string += " P,0,{},,H\n".format(note_in)

        return r_string
    def note_to_sb(self, note):
        r_string = ""

        period = 4. / self.freq
        note_in = int(note.t - (60000 / self.bpm * (4 / self.scroll)))
        playfield_length = int(findsetting("PlayfieldLength"))
        l = (playfield_length * 1.) / self.freq
        """
        +------+
        | Note |
        +------+
        """
        r_string += "Sprite,Foreground,Centre,\"{}.png\",320,240\n".format(
            "taikohitcircle" if findsetting("UseSkinElements") else "SB/note")
        r_string += " MY,0,{},{},{}\n".format(note_in, note.t,
                                              self.receptor_y())
        r_string += muma.note_mods.sbUtils.sbUtils.scale_big(note)
        r_string += n_trans(note, self.color, note_in)

        for i in range(self.freq, 0, -1):
            r_string += " MX,{},{},{},{},{}\n".format(
                self.array_tweens[0],
                int(note.t - 60000 / self.bpm * (i - 0.0) * period),
                int(note.t - 60000 / self.bpm * (i - 0.5) * period),
                self.receptor_x() + (-1 if self.is_reverse else 1) *
                ((i - 0.0) * l),
                self.receptor_x() + (-1 if self.is_reverse else 1) *
                ((i - 0.5) * l))
            r_string += " MX,{},{},{},{},{}\n".format(
                self.array_tweens[1],
                int(note.t - 60000 / self.bpm * (i - 0.5) * period),
                int(note.t - 60000 / self.bpm * (i - 1.0) * period),
                self.receptor_x() + (-1 if self.is_reverse else 1) *
                ((i - 0.5) * l),
                self.receptor_x() + (-1 if self.is_reverse else 1) *
                ((i - 1.0) * l))
        if self.is_upside_down:
            r_string += " P,0,{},,V\n".format(note_in)
        if self.is_mirror:
            r_string += " P,0,{},,H\n".format(note_in)
        """
        +--------------+
        | Note Overlay |
        +--------------+
        """
        r_string += muma.note_mods.sbUtils.sbUtils.overlay(note, self.color)
        r_string += n_trans(note, self.color, note_in, True)
        r_string += " MY,0,{},{},{}\n".format(note_in, note.t,
                                              self.receptor_y())
        for i in range(self.freq, 0, -1):
            r_string += " MX,{},{},{},{},{}\n".format(
                self.array_tweens[0],
                int(note.t - 60000 / self.bpm * (i - 0.0) * period),
                int(note.t - 60000 / self.bpm * (i - 0.5) * period),
                self.receptor_x() + (-1 if self.is_reverse else 1) *
                ((i - 0.0) * l),
                self.receptor_x() + (-1 if self.is_reverse else 1) *
                ((i - 0.5) * l))
            r_string += " MX,{},{},{},{},{}\n".format(
                self.array_tweens[1],
                int(note.t - 60000 / self.bpm * (i - 0.5) * period),
                int(note.t - 60000 / self.bpm * (i - 1.0) * period),
                self.receptor_x() + (-1 if self.is_reverse else 1) *
                ((i - 0.5) * l),
                self.receptor_x() + (-1 if self.is_reverse else 1) *
                ((i - 1.0) * l))
        if self.is_upside_down:
            r_string += " P,0,{},,V\n".format(note_in)
        if self.is_mirror:
            r_string += " P,0,{},,H\n".format(note_in)
        return r_string
示例#6
0
    def note_to_sb(self, note):
        r_string = ""
        note_in = int(note.t - (60000 / self.bpm * (4 / self.scroll)))
        period = 4. / self.freq
        playfield_length = int(findsetting("PlayfieldLength"))
        """
        +------+
        | Note |
        +------+
        """
        r_string += "Sprite,Foreground,Centre,\"{}.png\",320,240\n".format(
            "taikohitcircle" if findsetting("UseSkinElements") else "SB/note")
        r_string += " MY,{},{},,{}\n".format(self.tween, note_in,
                                             self.receptor_y())

        r_string += " MX,{},{},{},{},{}\n".format(
            self.tween, note_in, note.t,
            self.receptor_x() + playfield_length *
            (-1 if self.is_reverse else 1), self.receptor_x())

        r_string += muma.note_mods.sbUtils.sbUtils.tan_scale(
            note, self.freq, self.bpm)
        r_string += n_trans(note, self.color, note_in)
        for y in range(self.freq, 0, -1):
            r_string += " F,15,{},{},1\n".format(
                int(note.t - 60000 / self.bpm * (y - 0.5) * period),
                int(note.t - 60000 / self.bpm * (y - 1.0) * period))
            r_string += " F,16,{},{},1,0\n".format(
                int(note.t - 60000 / self.bpm * (y - 0.0) * period),
                int(note.t - 60000 / self.bpm * (y - 0.5) * period))

        if self.is_upside_down:
            r_string += " P,0,{},,V\n".format(note_in)
        if self.is_mirror:
            r_string += " P,0,{},,H\n".format(note_in)
        """
        +--------------+
        | Note Overlay |
        +--------------+
        """
        r_string += muma.note_mods.sbUtils.sbUtils.overlay(note, self.color)
        r_string += muma.note_mods.sbUtils.sbUtils.tan_scale(
            note, self.freq, self.bpm)
        r_string += " MY,{},{},,{}\n".format(self.tween, note_in,
                                             self.receptor_y())

        r_string += " MX,{},{},{},{},{}\n".format(
            self.tween, note_in, note.t,
            self.receptor_x() + playfield_length *
            (-1 if self.is_reverse else 1), self.receptor_x())

        r_string += n_trans(note, self.color, note_in, True)
        for y in range(self.freq, 0, -1):
            r_string += " F,15,{},{},1\n".format(
                int(note.t - 60000 / self.bpm * (y - 0.5) * period),
                int(note.t - 60000 / self.bpm * (y - 1.0) * period))
            r_string += " F,16,{},{},1,0\n".format(
                int(note.t - 60000 / self.bpm * (y - 0.0) * period),
                int(note.t - 60000 / self.bpm * (y - 0.5) * period))
        if self.is_upside_down:
            r_string += " P,0,{},,V\n".format(note_in)
        if self.is_mirror:
            r_string += " P,0,{},,H\n".format(note_in)

        return r_string