fheroes3/pyglet/media/drivers/directsound/__init__.py

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# Copyright (c) 2006-2008 Alex Holkner
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'''Windows DirectSound audio implementation.
'''

__docformat__ = 'restructuredtext'
__version__ = '$Id: $'

import ctypes
import math
import time

from pyglet.media import AudioPlayer, Listener, MediaException

from pyglet.media.drivers.directsound import lib_dsound as lib
from pyglet.window.win32 import _user32

class DirectSoundException(MediaException):
    pass

def _db(gain):
    '''Convert linear gain in range [0.0, 1.0] to 100ths of dB.'''
    if gain <= 0:
        return -10000
    return max(-10000, min(int(1000 * math.log(min(gain, 1))), 0))

class DirectSoundAudioPlayer(AudioPlayer):
    _buffer_size = 44800 * 1
    _update_buffer_size = _buffer_size // 4
    _buffer_size_secs = None

    _cone_inner_angle = 360
    _cone_outer_angle = 360

    UPDATE_PERIOD = 0.05
    
    def __init__(self, audio_format):
        super(DirectSoundAudioPlayer, self).__init__(audio_format)

        self._playing = False
        self._timestamp = 0.

        self._buffer = None
        self._buffer_playing = False
        self._data_size = 0     # amount of buffer filled by this player
        self._play_cursor = 0
        self._buffer_time = 0.  # ts of buffer at buffer_time_pos
        self._buffer_time_pos = 0
        self._write_cursor = 0
        self._timestamps = []
        self._eos_count = 0
        self._dirty_size = 0

        wfx = lib.WAVEFORMATEX()
        wfx.wFormatTag = lib.WAVE_FORMAT_PCM
        wfx.nChannels = audio_format.channels
        wfx.nSamplesPerSec = audio_format.sample_rate
        wfx.wBitsPerSample = audio_format.sample_size
        wfx.nBlockAlign = wfx.wBitsPerSample * wfx.nChannels // 8
        wfx.nAvgBytesPerSec = wfx.nSamplesPerSec * wfx.nBlockAlign

        dsbdesc = lib.DSBUFFERDESC()
        dsbdesc.dwSize = ctypes.sizeof(dsbdesc)
        dsbdesc.dwFlags = (lib.DSBCAPS_GLOBALFOCUS | 
                           lib.DSBCAPS_GETCURRENTPOSITION2 |
                           lib.DSBCAPS_CTRLFREQUENCY |
                           lib.DSBCAPS_CTRLVOLUME)
        if audio_format.channels == 1:
            dsbdesc.dwFlags |= lib.DSBCAPS_CTRL3D
        dsbdesc.dwBufferBytes = self._buffer_size
        dsbdesc.lpwfxFormat = ctypes.pointer(wfx)

        self._buffer = lib.IDirectSoundBuffer()
        dsound.CreateSoundBuffer(dsbdesc, ctypes.byref(self._buffer), None)

        if audio_format.channels == 1:
            self._buffer3d = lib.IDirectSound3DBuffer()
            self._buffer.QueryInterface(lib.IID_IDirectSound3DBuffer, 
                                        ctypes.byref(self._buffer3d))
        else:
            self._buffer3d = None
        
        self._buffer_size_secs = \
            self._buffer_size / float(audio_format.bytes_per_second)
        self._buffer.SetCurrentPosition(0)
            
    def __del__(self):
        try:
            self._buffer.Stop()
            self._buffer.Release()
            if self._buffer3d:
                self._buffer3d.Release()
        except:
            pass

    def get_write_size(self):
        if self._data_size < self._buffer_size:
            return self._buffer_size - self._data_size

        play_cursor = self._play_cursor
        if self._write_cursor == play_cursor and self._buffer_playing:
            # Polling too fast, no play cursor movement
            return 0
        elif self._write_cursor == play_cursor and not self._playing:
            # Paused and up-to-date
            return 0
        elif self._write_cursor < play_cursor:
            # Play cursor ahead of write cursor
            write_size = play_cursor - self._write_cursor
        else:
            # Play cursor behind write cursor, wraps around
            write_size = self._buffer_size - self._write_cursor + play_cursor

        if write_size < self._update_buffer_size and not self._dirty_size:
            return 0

        return write_size
 
    def write(self, audio_data, length=None):
        # Pass audio_data=None, length>0 to write silence
        if length is None:
            write_size = self.get_write_size()
            length = min(audio_data.length, write_size)
        if length == 0:
            return 0

        if self._data_size < self._buffer_size:
            self._data_size = min(self._data_size + length, self._buffer_size)

        p1 = ctypes.c_void_p()
        l1 = lib.DWORD()
        p2 = ctypes.c_void_p()
        l2 = lib.DWORD()
        self._buffer.Lock(self._write_cursor, length, 
            ctypes.byref(p1), l1, ctypes.byref(p2), l2, 0)
        assert length == l1.value + l2.value

        if audio_data:
            if self._write_cursor >= self._play_cursor:
                wc = self._write_cursor
            else:
                wc = self._write_cursor + self._buffer_size
            self._timestamps.append((wc, audio_data.timestamp))
            
            ctypes.memmove(p1, audio_data.data, l1.value)
            audio_data.consume(l1.value, self.audio_format)
            if l2.value:
                ctypes.memmove(p2, audio_data.data, l2.value)
                audio_data.consume(l2.value, self.audio_format)
        else:
            ctypes.memset(p1, 0, l1.value)
            if l2.value:
                ctypes.memset(p2, 0, l2.value)
                pass
        self._buffer.Unlock(p1, l1, p2, l2)

        self._write_cursor += length
        self._write_cursor %= self._buffer_size

    def write_eos(self):
        if self._write_cursor > self._play_cursor:
            wc = self._write_cursor
        else:
            wc = self._write_cursor + self._buffer_size
        self._timestamps.append((wc, 'eos'))

    def write_end(self):
        if not self._dirty_size:
            self._dirty_size = self._buffer_size

    def pump(self):
        # Update play cursor, check for wraparound and EOS markers
        play_cursor = lib.DWORD()
        self._buffer.GetCurrentPosition(play_cursor, None)
        if play_cursor.value < self._play_cursor:
            # Wrapped around
            self._buffer_time_pos -= self._buffer_size
            self._timestamps = \
                [(a - self._buffer_size, t) for a, t in self._timestamps]
        self._play_cursor = play_cursor.value

        try:
            while self._timestamps[0][0] < self._play_cursor:
                pos, timestamp = self._timestamps.pop(0)
                if timestamp == 'eos':
                    self._eos_count += 1
                else:
                    self._buffer_time = timestamp
                    self._buffer_time_pos = pos
        except IndexError:
            pass

        self._timestamp = self._buffer_time + \
            (self._play_cursor - self._buffer_time_pos) \
                / float(self.audio_format.bytes_per_second)

        # Write silence
        if self._dirty_size:
            write_size = self.get_write_size()
            length = min(write_size, self._dirty_size)
            self.write(None, length)
            self._dirty_size -= length
            if self._dirty_size < 0:
                self._dirty_size = 0

        if self._playing and not self._buffer_playing:
            self._buffer.Play(0, 0, lib.DSBPLAY_LOOPING)
            self._buffer_playing = True

    def get_time(self):
        return self._timestamp

    def play(self):
        if self._playing:
            return

        self._playing = True

        self._buffer.Play(0, 0, lib.DSBPLAY_LOOPING)
        self._buffer_playing = True

    def stop(self):
        if not self._playing:
            return
            
        self._playing = False

        self._buffer.Stop()
        self._buffer_playing = False

    def clear(self):
        self._eos_count = 0
        self._timestamps = []
        self._write_cursor = 0
        self._buffer.SetCurrentPosition(0)
        self._buffer_time = 0.
        self._buffer_time_pos = 0
        self._data_size = 0

    def clear_eos(self):
        if self._eos_count > 0:
            self._eos_count -= 1
            return True
        return False

    def _get_source(self):
        if self._sources:
            return self._sources[0]
        return None

    def set_volume(self, volume):
        volume = _db(volume)
        self._buffer.SetVolume(volume)

    def set_position(self, position):
        if self._buffer3d:
            x, y, z = position
            self._buffer3d.SetPosition(x, y, -z, lib.DS3D_IMMEDIATE)

    def set_min_distance(self, min_distance):
        if self._buffer3d:
            self._buffer3d.SetMinDistance(min_distance, lib.DS3D_IMMEDIATE)

    def set_max_distance(self, max_distance):
        if self._buffer3d:
            self._buffer3d.SetMaxDistance(max_distance, lib.DS3D_IMMEDIATE)

    def set_pitch(self, pitch):
        frequency = int(pitch * self.audio_format.sample_rate)
        self._buffer.SetFrequency(frequency)

    def set_cone_orientation(self, cone_orientation):
        if self._buffer3d:
            x, y, z = cone_orientation
            self._buffer3d.SetConeOrientation(x, y, -z, lib.DS3D_IMMEDIATE)

    def set_cone_inner_angle(self, cone_inner_angle):
        if self._buffer3d:
            self._cone_inner_angle = int(cone_inner_angle)
            self._set_cone_angles()

    def set_cone_outer_angle(self, cone_outer_angle):
        if self._buffer3d:
            self._cone_outer_angle = int(cone_outer_angle)
            self._set_cone_angles()

    def _set_cone_angles(self):
        inner = min(self._cone_inner_angle, self._cone_outer_angle)
        outer = max(self._cone_inner_angle, self._cone_outer_angle)
        self._buffer3d.SetConeAngles(inner, outer, lib.DS3D_IMMEDIATE)

    def set_cone_outer_gain(self, cone_outer_gain):
        if self._buffer3d:
            volume = _db(cone_outer_gain)
            self._buffer3d.SetConeOutsideVolume(volume, lib.DS3D_IMMEDIATE)

class DirectSoundListener(Listener):
    def _init(self):
        # Called after driver_init()    
        self._buffer = lib.IDirectSoundBuffer()
        dsbd = lib.DSBUFFERDESC()
        dsbd.dwSize = ctypes.sizeof(dsbd)
        dsbd.dwFlags = (lib.DSBCAPS_CTRL3D |
                        lib.DSBCAPS_CTRLVOLUME |
                        lib.DSBCAPS_PRIMARYBUFFER)
        dsound.CreateSoundBuffer(dsbd, ctypes.byref(self._buffer), None)

        self._listener = lib.IDirectSound3DListener()
        self._buffer.QueryInterface(lib.IID_IDirectSound3DListener, 
                                    ctypes.byref(self._listener))


    def __del__(self):
        try:
            self._buffer.Release()
            self._listener.Release()
        except:
            pass
    
    def _set_volume(self, volume):
        self._volume = volume
        self._buffer.SetVolume(_db(volume))

    def _set_position(self, position):
        self._position = position
        x, y, z = position
        self._listener.SetPosition(x, y, -z, lib.DS3D_IMMEDIATE)

    def _set_forward_orientation(self, orientation):
        self._forward_orientation = orientation
        self._set_orientation()

    def _set_up_orientation(self, orientation):
        self._up_orientation = orientation
        self._set_orientation()

    def _set_orientation(self):
        x, y, z = self._forward_orientation
        ux, uy, uz = self._up_orientation
        self._listener.SetOrientation(x, y, -z, ux, uy, -uz, lib.DS3D_IMMEDIATE)

dsound = None
def driver_init():
    global dsound
    dsound = lib.IDirectSound()
    lib.DirectSoundCreate(None, ctypes.byref(dsound), None)

    # A trick used by mplayer.. use desktop as window handle since it would
    # be complex to use pyglet window handles (and what to do when application
    # is audio only?).
    hwnd = _user32.GetDesktopWindow()
    dsound.SetCooperativeLevel(hwnd, lib.DSSCL_NORMAL)

    driver_listener._init()

    # Force a context switch, as some Windows audio drivers don't get time
    # to process short sounds if Python hogs all the CPU.  See issue #163.
    from pyglet import clock
    clock.Clock._force_sleep = True

driver_listener = DirectSoundListener()
driver_audio_player_class = DirectSoundAudioPlayer