| Current File : //kunden/usr/share/vala/vapi/libpulse.vapi |
/***
This file is part of PulseAudio.
Copyright 2009 Lennart Poettering
PulseAudio is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published
by the Free Software Foundation; either version 2.1 of the License,
or (at your option) any later version.
PulseAudio 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 Lesser General Public License
along with PulseAudio; if not, see <http://www.gnu.org/licenses/>.
***/
using GLib;
using Posix;
[CCode (cheader_filename="pulse/pulseaudio.h")]
namespace PulseAudio {
[CCode (cname="pa_get_library_version")]
public unowned string get_library_version();
[CCode (cname="PA_API_VERSION")]
public const int API_VERSION;
[CCode (cname="PA_PROTOCOL_VERSION")]
public const int PROTOCOL_VERSION;
[CCode (cname="PA_MAJOR")]
public const int MAJOR;
[CCode (cname="PA_MINOR")]
public const int MINOR;
[CCode (cname="PA_MICRO")]
public const int MICRO;
[CCode (cname="PA_CHECK_VERSION")]
public bool CHECK_VERSION(int major, int minor, int micro);
[CCode (cname="PA_INVALID_INDEX")]
public const uint32 INVALID_INDEX;
[CCode (cname="pa_free_cb_t", has_target=false)]
public delegate void FreeCb(void *p);
[CCode (cname="pa_sample_format_t", cprefix="PA_SAMPLE_", has_type_id=false)]
public enum SampleFormat {
U8,
ALAW,
ULAW,
S16LE,
S16BE,
FLOAT32LE,
FLOAT32BE,
S32LE,
S32BE,
S24LE,
S24BE,
S24_32LE,
S24_32BE,
MAX,
S16NE,
S16RE,
FLOAT32NE,
FLOAT32RE,
S32NE,
S32RE,
S24NE,
S24RE,
S24_32NE,
S24_32RE;
[CCode (cname="pa_sample_size_of_format")]
public size_t size();
[CCode (cname="pa_sample_format_to_string")]
public unowned string? to_string();
[CCode (cname="pa_sample_format_is_le")]
public int is_le();
[CCode (cname="pa_sample_format_is_be")]
public int is_be();
[CCode (cname="pa_sample_format_is_ne")]
public int is_ne();
[CCode (cname="pa_sample_format_is_re")]
public int is_re();
[CCode (cname="pa_parse_sample_format")]
public static SampleFormat parse(string b);
}
[CCode (cname="pa_usec_t")]
public struct usec : uint64 {
}
[CCode (cname="pa_sample_spec", has_type_id=false)]
public struct SampleSpec {
public SampleFormat format;
public uint32 rate;
public uint8 channels;
[CCode (cname="PA_SAMPLE_SPEC_SNPRINT_MAX")]
public const size_t SNPRINT_MAX;
[CCode (cname="pa_bytes_per_second")]
public size_t bytes_per_second();
[CCode (cname="pa_frame_size")]
public size_t frame_size();
[CCode (cname="pa_sample_size")]
public size_t sample_size();
[CCode (cname="pa_bytes_to_usec", instance_pos=1.1)]
public usec bytes_to_usec(size_t size);
[CCode (cname="pa_usec_to_bytes", instance_pos=1.1)]
public size_t usec_to_bytes(usec u);
[CCode (cname="pa_sample_spec_init")]
public unowned SampleSpec? init();
[CCode (cname="pa_sample_spec_valid")]
public bool valid();
[CCode (cname="pa_sample_spec_equal")]
public bool equal(SampleSpec other);
[CCode (cname="pa_sample_spec_snprint", instance_pos=3.1)]
public unowned string snprint(char[] buf);
public string sprint() {
var buffer = new char[SNPRINT_MAX];
this.snprint(buffer);
return (string) buffer;
}
public string to_string() {
return sprint();
}
[CCode (cname="pa_sample_spec_init")]
public SampleSpec();
}
// [CCode (cname="PA_BYTES_SNPRINT_MAX")]
[CCode (cname="PA_SAMPLE_SPEC_SNPRINT_MAX")]
public const size_t BYTES_SNPRINT_MAX;
[CCode (cname="pa_bytes_snprint")]
public unowned string bytes_snprint(char[] buf, uint bytes);
public string bytes_sprint(uint bytes) {
var buffer = new char[BYTES_SNPRINT_MAX];
bytes_snprint(buffer, bytes);
return (string) buffer;
}
[CCode (cname="pa_volume_t", has_type_id=false)]
public struct Volume : uint32 {
[CCode (cname="PA_SW_VOLUME_SNPRINT_DB_MAX")]
public const size_t SW_SNPRINT_DB_MAX;
[CCode (cname="PA_VOLUME_SNPRINT_MAX")]
public const size_t SNPRINT_MAX;
[CCode (cname="PA_VOLUME_MAX")]
public const Volume MAX;
[CCode (cname="PA_VOLUME_NORM")]
public const Volume NORM;
[CCode (cname="PA_VOLUME_MUTED")]
public const Volume MUTED;
// [CCode (cname="PA_VOLUME_INVALID")]
[CCode (cname="PA_VOLUME_MAX")]
public const Volume INVALID;
[CCode (cname="pa_volume_snprint", instance_pos = 3.1)]
public unowned string snprint(char[] s);
public string sprint() {
var buffer = new char[SNPRINT_MAX];
this.snprint(buffer);
return (string) buffer;
}
public string to_string() {
return sprint();
}
[CCode (cname="pa_sw_volume_snprint_dB", instance_pos = 3.1)]
public unowned string sw_snprint_dB(char[] s);
public string sw_sprint_dB() {
var buffer = new char[SW_SNPRINT_DB_MAX];
this.sw_snprint_dB(buffer);
return (string) buffer;
}
[CCode (cname="pa_sw_volume_multiply")]
public Volume sw_multiply(Volume other);
[CCode (cname="pa_sw_volume_divide")]
public Volume sw_divide(Volume other);
[CCode (cname="pa_sw_volume_from_dB")]
public static Volume sw_from_dB(double f);
[CCode (cname="pa_sw_volume_to_dB")]
public double sw_to_dB();
[CCode (cname="pa_sw_volume_from_linear")]
public static Volume sw_from_linear(double f);
[CCode (cname="pa_sw_volume_to_linear")]
public double sw_to_linear();
}
[CCode (cname="PA_DECIBEL_MININFTY")]
public const double DECIBEL_MININFTY;
[CCode (cname="PA_CHANNELS_MAX")]
public const int CHANNELS_MAX;
[CCode (cname="PA_RATE_MAX")]
public const int RATE_MAX;
[CCode (cname="pa_cvolume", has_type_id=false)]
public struct CVolume {
public uint8 channels;
// TODO: Replace array length with CHANNELS_MAX once vala's bug #647788 is fixed
public Volume values[32];
[CCode (cname="PA_SW_CVOLUME_SNPRINT_DB_MAX")]
public const size_t SW_SNPRINT_DB_MAX;
[CCode (cname="PA_CVOLUME_SNPRINT_MAX")]
public const size_t SNPRINT_MAX;
[CCode (cname="pa_cvolume_equal")]
public bool equal(CVolume other);
[CCode (cname="pa_cvolume_init")]
public unowned CVolume? init();
[CCode (cname="pa_cvolume_reset")]
public unowned CVolume? reset(uint8 channels);
[CCode (cname="pa_cvolume_mute")]
public unowned CVolume? mute(uint8 channels);
[CCode (cname="pa_cvolume_snprint", instance_pos = 3.1)]
public unowned string snprint(char[] s);
public string sprint() {
var buffer = new char[SNPRINT_MAX];
this.snprint(buffer);
return (string) buffer;
}
public string to_string() {
return sprint();
}
[CCode (cname="pa_sw_cvolume_snprint_dB", instance_pos = 3.1)]
public unowned string sw_snprint_dB(char [] s);
public string sw_sprint_dB() {
var buffer = new char[SW_SNPRINT_DB_MAX];
this.sw_snprint_dB(buffer);
return (string) buffer;
}
[CCode (cname="pa_cvolume_init")]
public CVolume();
[CCode (cname="pa_cvolume_avg")]
public Volume avg();
[CCode (cname="pa_cvolume_max")]
public Volume max();
[CCode (cname="pa_cvolume_min")]
public Volume min();
[CCode (cname="pa_cvolume_avg_mask")]
public Volume avg_mask(ChannelMap map, ChannelPositionMask mask);
[CCode (cname="pa_cvolume_max_mask")]
public Volume max_mask(ChannelMap map, ChannelPositionMask mask);
[CCode (cname="pa_cvolume_min_mask")]
public Volume min_mask(ChannelMap map, ChannelPositionMask mask);
[CCode (cname="pa_cvolume_valid")]
public bool valid();
[CCode (cname="pa_cvolume_channels_equal_to")]
public bool channels_equal_to(Volume other);
[CCode (cname="pa_cvolume_is_muted")]
public bool is_muted();
[CCode (cname="pa_cvolume_is_norm")]
public bool is_norm();
[CCode (cname="pa_sw_cvolume_multiply")]
public unowned CVolume? multiply(CVolume other);
[CCode (cname="pa_sw_cvolume_divide")]
public unowned CVolume? divide(CVolume other);
[CCode (cname="pa_sw_cvolume_multiply_scalar")]
public unowned CVolume? multiply_scalar(Volume other);
[CCode (cname="pa_sw_cvolume_divide_scalar")]
public unowned CVolume? divide_scalar(Volume other);
[CCode (cname="pa_cvolume_remap")]
public unowned CVolume? remap(ChannelMap from, ChannelMap to);
[CCode (cname="pa_cvolume_compatible")]
public bool compatible(SampleSpec ss);
[CCode (cname="pa_cvolume_compatible_with_channel_map")]
public bool compatible_with_channel_map(ChannelMap cm);
[CCode (cname="pa_cvolume_set")]
public unowned CVolume? set(uint8 channels, Volume v);
[CCode (cname="pa_cvolume_get_balance")]
public float get_balance(ChannelMap map);
[CCode (cname="pa_cvolume_set_balance")]
public unowned CVolume? set_balance(ChannelMap map, float b);
[CCode (cname="pa_cvolume_get_fade")]
public float get_fade(ChannelMap map);
[CCode (cname="pa_cvolume_set_fade")]
public unowned CVolume? set_fade(ChannelMap map, float f);
[CCode (cname="pa_cvolume_scale")]
public unowned CVolume? scale(Volume max);
[CCode (cname="pa_cvolume_scale_mask")]
public unowned CVolume? scale_mask(Volume max, ChannelMap map, ChannelPositionMask mask);
[CCode (cname="pa_cvolume_set_position")]
public unowned CVolume? set_position(ChannelMap map, ChannelPosition p, Volume v);
[CCode (cname="pa_cvolume_get_position")]
public Volume get_position(ChannelMap map, ChannelPosition p);
[CCode (cname="pa_cvolume_merge")]
public unowned CVolume? merge(CVolume other);
[CCode (cname="pa_cvolume_inc")]
public unowned CVolume? inc(Volume plus = 1);
[CCode (cname="pa_cvolume_dec")]
public unowned CVolume? dec(Volume minus = 1);
}
[CCode (cname="pa_channel_map", has_type_id=false)]
public struct ChannelMap {
public uint8 channels;
// TODO: Replace array length with CHANNELS_MAX once vala's bug #647788 is fixed
public ChannelPosition map[32];
[CCode (cname="PA_CHANNEL_MAP_SNPRINT_MAX")]
public const size_t SNPRINT_MAX;
[CCode (cname="pa_channel_map_init")]
public ChannelMap();
[CCode (cname="pa_channel_map_init")]
public unowned ChannelMap? init();
[CCode (cname="pa_channel_map_init_mono")]
public unowned ChannelMap? init_mono();
[CCode (cname="pa_channel_map_init_stereo")]
public unowned ChannelMap? init_stereo();
[CCode (cname="pa_channel_map_init_auto")]
public unowned ChannelMap? init_auto(uint8 channels, ChannelMapDef def = ChannelMapDef.DEFAULT);
[CCode (cname="pa_channel_map_init_extend")]
public unowned ChannelMap? init_extend(uint8 channels, ChannelMapDef def = ChannelMapDef.DEFAULT);
[CCode (cname="pa_channel_map_snprint", instance_pos = 3.1)]
public unowned string snprint(char[] s);
public string sprint() {
var buffer = new char[SNPRINT_MAX];
this.snprint(buffer);
return (string) buffer;
}
public string to_string() {
return sprint();
}
[CCode (cname="pa_channel_map_parse")]
public unowned ChannelMap? parse(string s);
[CCode (cname="pa_channel_map_equal")]
public bool equal(ChannelMap other);
[CCode (cname="pa_channel_map_superset")]
public bool superset(ChannelMap other);
[CCode (cname="pa_channel_map_valid")]
public bool valid();
[CCode (cname="pa_channel_map_compatible")]
public bool compatible(SampleSpec ss);
[CCode (cname="pa_channel_map_can_balance")]
public bool can_balance();
[CCode (cname="pa_channel_map_can_fade")]
public bool can_fade();
[CCode (cname="pa_channel_map_to_name")]
public unowned string? to_name();
[CCode (cname="pa_channel_map_to_pretty_name")]
public unowned string? to_pretty_name();
[CCode (cname="pa_channel_map_has_position")]
public bool has_position(ChannelPosition p);
[CCode (cname="pa_channel_map_mask")]
public ChannelPositionMask mask();
}
[CCode (cname="pa_channel_position_mask_t", has_type_id=false)]
public struct ChannelPositionMask : uint64 {
}
[CCode (cname="pa_channel_position_t", cprefix="PA_CHANNEL_POSITION_", has_type_id=false)]
public enum ChannelPosition {
INVALID,
MONO,
FRONT_LEFT,
FRONT_RIGHT,
FRONT_CENTER,
REAR_CENTER,
REAR_LEFT,
REAR_RIGHT,
LFE,
FRONT_LEFT_OF_CENTER,
FRONT_RIGHT_OF_CENTER,
SIDE_LEFT,
SIDE_RIGHT,
TOP_CENTER,
AUX0,
AUX1,
AUX2,
AUX3,
AUX4,
AUX5,
AUX6,
AUX7,
AUX8,
AUX9,
AUX10,
AUX11,
AUX12,
AUX13,
AUX14,
AUX15,
AUX16,
AUX17,
AUX18,
AUX19,
AUX20,
AUX21,
AUX22,
AUX23,
AUX24,
AUX25,
AUX26,
AUX27,
AUX28,
AUX29,
AUX30,
AUX31,
MAX;
[CCode (cname="PA_CHANNEL_POSITION_MASK")]
public ChannelPositionMask mask();
[CCode (cname="pa_channel_position_to_string")]
public unowned string? to_string();
[CCode (cname="pa_channel_position_to_pretty_string")]
public unowned string? to_pretty_string();
[CCode (cname="pa_channel_position_from_string")]
public static ChannelPosition from_string(string s);
}
[CCode (cname="pa_channel_map_def_t", cprefix="PA_CHANNEL_MAP_", has_type_id=false)]
public enum ChannelMapDef {
AIFF,
WAVEEX,
AUX,
DEFAULT,
[CCode (cname="PA_CHANNEL_MAP_DEF_MAX")]
MAX
}
[Compact]
[CCode (cname="pa_proplist", cprefix="pa_proplist_", free_function="pa_proplist_free", has_type_id=false)]
public class Proplist {
[CCode (cname="PA_PROP_MEDIA_NAME")]
public const string PROP_MEDIA_NAME;
[CCode (cname="PA_PROP_MEDIA_TITLE")]
public const string PROP_MEDIA_TITLE;
[CCode (cname="PA_PROP_MEDIA_ARTIST")]
public const string PROP_MEDIA_ARTIST;
[CCode (cname="PA_PROP_MEDIA_COPYRIGHT")]
public const string PROP_MEDIA_COPYRIGHT;
[CCode (cname="PA_PROP_MEDIA_SOFTWARE")]
public const string PROP_MEDIA_SOFTWARE;
[CCode (cname="PA_PROP_MEDIA_LANGUAGE")]
public const string PROP_MEDIA_LANGUAGE;
[CCode (cname="PA_PROP_MEDIA_FILENAME")]
public const string PROP_MEDIA_FILENAME;
[CCode (cname="PA_PROP_MEDIA_ICON_NAME")]
public const string PROP_MEDIA_ICON_NAME;
[CCode (cname="PA_PROP_MEDIA_ROLE")]
public const string PROP_MEDIA_ROLE;
[CCode (cname="PA_PROP_EVENT_ID")]
public const string PROP_EVENT_ID;
[CCode (cname="PA_PROP_EVENT_DESCRIPTION")]
public const string PROP_EVENT_DESCRIPTION;
[CCode (cname="PA_PROP_EVENT_MOUSE_X")]
public const string PROP_EVENT_MOUSE_X;
[CCode (cname="PA_PROP_EVENT_MOUSE_Y")]
public const string PROP_EVENT_MOUSE_Y;
[CCode (cname="PA_PROP_EVENT_MOUSE_HPOS")]
public const string PROP_EVENT_MOUSE_HPOS;
[CCode (cname="PA_PROP_EVENT_MOUSE_VPOS")]
public const string PROP_EVENT_MOUSE_VPOS;
[CCode (cname="PA_PROP_EVENT_MOUSE_BUTTON")]
public const string PROP_EVENT_MOUSE_BUTTON;
[CCode (cname="PA_PROP_WINDOW_NAME")]
public const string PROP_WINDOW_NAME;
[CCode (cname="PA_PROP_WINDOW_ID")]
public const string PROP_WINDOW_ID;
[CCode (cname="PA_PROP_WINDOW_ICON_NAME")]
public const string PROP_WINDOW_ICON_NAME;
[CCode (cname="PA_PROP_WINDOW_X11_DISPLAY")]
public const string PROP_WINDOW_X11_DISPLAY;
[CCode (cname="PA_PROP_WINDOW_X11_SCREEN")]
public const string PROP_WINDOW_X11_SCREEN;
[CCode (cname="PA_PROP_WINDOW_X11_MONITOR")]
public const string PROP_WINDOW_X11_MONITOR;
[CCode (cname="PA_PROP_WINDOW_X11_XID")]
public const string PROP_WINDOW_X11_XID;
[CCode (cname="PA_PROP_APPLICATION_NAME")]
public const string PROP_APPLICATION_NAME;
[CCode (cname="PA_PROP_APPLICATION_ID")]
public const string PROP_APPLICATION_ID;
[CCode (cname="PA_PROP_APPLICATION_VERSION")]
public const string PROP_APPLICATION_VERSION;
[CCode (cname="PA_PROP_APPLICATION_ICON_NAME")]
public const string PROP_APPLICATION_ICON_NAME;
[CCode (cname="PA_PROP_APPLICATION_LANGUAGE")]
public const string PROP_APPLICATION_LANGUAGE;
[CCode (cname="PA_PROP_APPLICATION_PROCESS_ID")]
public const string PROP_APPLICATION_PROCESS_ID;
[CCode (cname="PA_PROP_APPLICATION_PROCESS_BINARY")]
public const string PROP_APPLICATION_PROCESS_BINARY;
[CCode (cname="PA_PROP_APPLICATION_PROCESS_USER")]
public const string PROP_APPLICATION_PROCESS_USER;
[CCode (cname="PA_PROP_APPLICATION_PROCESS_HOST")]
public const string PROP_APPLICATION_PROCESS_HOST;
[CCode (cname="PA_PROP_APPLICATION_PROCESS_MACHINE_ID")]
public const string PROP_APPLICATION_PROCESS_MACHINE_ID;
[CCode (cname="PA_PROP_APPLICATION_PROCESS_SESSION_ID")]
public const string PROP_APPLICATION_PROCESS_SESSION_ID;
[CCode (cname="PA_PROP_DEVICE_STRING")]
public const string PROP_DEVICE_STRING;
[CCode (cname="PA_PROP_DEVICE_API")]
public const string PROP_DEVICE_API;
[CCode (cname="PA_PROP_DEVICE_DESCRIPTION")]
public const string PROP_DEVICE_DESCRIPTION;
[CCode (cname="PA_PROP_DEVICE_BUS_PATH")]
public const string PROP_DEVICE_BUS_PATH;
[CCode (cname="PA_PROP_DEVICE_SERIAL")]
public const string PROP_DEVICE_SERIAL;
[CCode (cname="PA_PROP_DEVICE_VENDOR_ID")]
public const string PROP_DEVICE_VENDOR_ID;
[CCode (cname="PA_PROP_DEVICE_VENDOR_NAME")]
public const string PROP_DEVICE_VENDOR_NAME;
[CCode (cname="PA_PROP_DEVICE_PRODUCT_ID")]
public const string PROP_DEVICE_PRODUCT_ID;
[CCode (cname="PA_PROP_DEVICE_PRODUCT_NAME")]
public const string PROP_DEVICE_PRODUCT_NAME;
[CCode (cname="PA_PROP_DEVICE_CLASS")]
public const string PROP_DEVICE_CLASS;
[CCode (cname="PA_PROP_DEVICE_FORM_FACTOR")]
public const string PROP_DEVICE_FORM_FACTOR;
[CCode (cname="PA_PROP_DEVICE_BUS")]
public const string PROP_DEVICE_BUS;
[CCode (cname="PA_PROP_DEVICE_ICON_NAME")]
public const string PROP_DEVICE_ICON_NAME;
[CCode (cname="PA_PROP_DEVICE_ACCESS_MODE")]
public const string PROP_DEVICE_ACCESS_MODE;
[CCode (cname="PA_PROP_DEVICE_MASTER_DEVICE")]
public const string PROP_DEVICE_MASTER_DEVICE;
[CCode (cname="PA_PROP_DEVICE_BUFFERING_BUFFER_SIZE")]
public const string PROP_DEVICE_BUFFERING_BUFFER_SIZE;
[CCode (cname="PA_PROP_DEVICE_BUFFERING_FRAGMENT_SIZE")]
public const string PROP_DEVICE_BUFFERING_FRAGMENT_SIZE;
[CCode (cname="PA_PROP_DEVICE_PROFILE_NAME")]
public const string PROP_DEVICE_PROFILE_NAME;
[CCode (cname="PA_PROP_DEVICE_INTENDED_ROLES")]
public const string PROP_DEVICE_INTENDED_ROLES;
[CCode (cname="PA_PROP_DEVICE_PROFILE_DESCRIPTION")]
public const string PROP_DEVICE_PROFILE_DESCRIPTION;
[CCode (cname="PA_PROP_MODULE_AUTHOR")]
public const string PROP_MODULE_AUTHOR;
[CCode (cname="PA_PROP_MODULE_DESCRIPTION")]
public const string PROP_MODULE_DESCRIPTION;
[CCode (cname="PA_PROP_MODULE_USAGE")]
public const string PROP_MODULE_USAGE;
[CCode (cname="PA_PROP_MODULE_VERSION")]
public const string PROP_MODULE_VERSION;
[CCode (cname="pa_proplist_new")]
public Proplist();
public int sets(string key, string value);
public int setp(string pair);
[PrintfFormat]
public int setf(string key, string format, ...);
public int set(string key, void* data, size_t size);
public unowned string? gets(string key);
public int get(string key, out void* data, out size_t size);
public void update(UpdateMode mode, Proplist other);
public void unset(string key);
[CCode (array_length = false)]
public void unset_many(string[] key);
public unowned string? iterate(ref void* state);
public string to_string();
public string to_string_sep(string sep);
public static Proplist? from_string(string s);
public int contains(string key);
public void clear();
public Proplist copy();
public uint size();
public bool is_empty();
}
[CCode (cname="pa_update_mode_t", cprefix="PA_UPDATE_", has_type_id=false)]
public enum UpdateMode {
SET,
MERGE,
REPLACE
}
[CCode (cname="PA_OK")]
public const int OK;
[CCode (cname="int", cprefix="PA_ERR_", has_type_id=false)]
public enum Error {
ACCESS,
COMMAND,
INVALID,
EXIST,
NOENTITY,
CONNECTIONREFUSED,
PROTOCOL,
TIMEOUT,
AUTHKEY,
INTERNAL,
CONNECTIONTERMINATED,
KILLED,
INVALIDSERVER,
MODINITFAILED,
BADSTATE,
NODATA,
VERSION,
TOOLARGE,
NOTSUPPORTED,
UNKNOWN,
NOEXTENSION,
OBSOLETE,
NOTIMPLEMENTED,
FORKED,
IO,
MAX
}
[CCode (cname="pa_strerror")]
public unowned string? strerror(Error e);
public delegate void VoidFunc();
[CCode (cname="pa_spawn_api", has_type_id=false)]
public struct SpawnApi {
VoidFunc? prefork;
VoidFunc? postfork;
VoidFunc? atfork;
}
[CCode (cname="pa_io_event_flags_t", cprefix="PA_IO_EVENT_", has_type_id=false)]
public enum IoEventFlags {
NULL,
INPUT,
OUTPUT,
HANGUP,
ERROR
}
[Compact]
[CCode (cname="pa_io_event", unref_function="", ref_function="", has_type_id=false)]
public struct IoEvent {
}
[Compact]
[CCode (cname="pa_time_event", unref_function="", ref_function="", has_type_id=false)]
public struct TimeEvent {
}
[Compact]
[CCode (cname="pa_defer_event", unref_function="", ref_function="", has_type_id=false)]
public struct DeferEvent {
}
[Compact]
[CCode (cname="pa_signal_event", cprefix="pa_signal_", free_function="pa_signal_free", has_type_id=false)]
public struct SignalEvent {
[CCode (cname="pa_signal_new")]
public SignalEvent(int sig, MainLoopApi.SignalEventCb cb);
public void set_destroy(MainLoopApi.SignalEventDestroyCb cb);
}
[Compact]
[CCode (cname="pa_mainloop_api", unref_function="", ref_function="", has_type_id=false)]
public class MainLoopApi {
public void* userdata;
/* Callbacks for the consumer to implement*/
public delegate void IoEventCb(MainLoopApi a, IoEvent e, int fd, IoEventFlags flags);
public delegate void IoEventDestroyCb(MainLoopApi a, IoEvent e);
public delegate void TimeEventCb(MainLoopApi a, TimeEvent e, ref timeval t);
public delegate void TimeEventDestroyCb(MainLoopApi a, TimeEvent e);
public delegate void DeferEventCb(MainLoopApi a, DeferEvent e);
public delegate void DeferEventDestroyCb(MainLoopApi a, DeferEvent e);
public delegate void SignalEventCb(MainLoopApi a, SignalEvent e);
public delegate void SignalEventDestroyCb(MainLoopApi a, SignalEvent e);
/* Callbacks for the provider to implement */
public delegate IoEvent IoNewCb(MainLoopApi a, int fd, IoEventFlags flags, IoEventCb cb);
public delegate void IoEnableCb(MainLoopApi a, IoEvent e, IoEventFlags flags);
public delegate void IoFreeCb(MainLoopApi a, IoEvent e);
public delegate void IoSetDestroyCb(MainLoopApi a, IoEvent e, IoEventDestroyCb? cb);
public delegate TimeEvent TimeNewCb(MainLoopApi a, timeval? t, TimeEventCb cb);
public delegate void TimeRestartCb(MainLoopApi a, TimeEvent e, timeval? t);
public delegate void TimeFreeCb(MainLoopApi a, TimeEvent e);
public delegate void TimeSetDestroyCb(MainLoopApi a, TimeEvent e, TimeEventDestroyCb? cb);
public delegate DeferEvent DeferNewCb(MainLoopApi a, DeferEventCb cb);
public delegate void DeferEnableCb(MainLoopApi a, DeferEvent e, bool b);
public delegate void DeferFreeCb(MainLoopApi a, DeferEvent e);
public delegate void DeferSetDestroyCb(MainLoopApi a, DeferEvent e, DeferEventDestroyCb? cb);
public delegate void QuitCb(MainLoopApi a, int retval);
public delegate void OnceCb(MainLoopApi a);
public IoNewCb io_new;
public IoEnableCb io_enable;
public IoFreeCb io_free;
public IoSetDestroyCb io_set_destroy;
public TimeNewCb time_new;
public TimeRestartCb time_restart;
public TimeFreeCb time_free;
public TimeSetDestroyCb time_set_destroy;
public DeferNewCb defer_new;
public DeferEnableCb defer_enable;
public DeferFreeCb defer_free;
public DeferSetDestroyCb defer_set_destroy;
public QuitCb quit;
[CCode (cname="pa_mainloop_api_once")]
public void once(OnceCb cb);
}
[CCode (cname="pa_signal_init")]
public void signal_init(MainLoopApi api);
[CCode (cname="pa_signal_done")]
public void signal_done();
[CCode (cname="pa_poll_func")]
public delegate int PollFunc(pollfd[] ufds, int timeout);
[Compact]
[CCode (cname="pa_mainloop", cprefix="pa_mainloop_", free_function="pa_mainloop_free", has_type_id=false)]
public class MainLoop {
[CCode (cname="pa_mainloop_new")]
public MainLoop();
public int prepare(int timeout = -1);
public int poll();
public int dispatch();
public int get_retval();
public int iterate(bool block = true, out int retval = null);
public int run(out int retval = null);
public unowned MainLoopApi get_api();
public void quit(int retval);
public void wakeup();
public void set_poll_func(PollFunc poll_func);
}
[Compact]
[CCode (cname="pa_threaded_mainloop", cprefix="pa_threaded_mainloop_", free_function="pa_threaded_mainloop_free")]
public class ThreadedMainLoop {
[CCode (cname="pa_threaded_mainloop_new")]
public ThreadedMainLoop();
public int start();
public void stop();
public void lock();
public void unlock();
public void wait();
public void signal(bool WaitForAccept = false);
public void accept();
public int get_retval();
public unowned MainLoopApi get_api();
public bool in_thread();
}
[Compact]
[CCode (cname="pa_operation", cprefix="pa_operation_", unref_function="pa_operation_unref", ref_function="pa_operation_ref", has_type_id=false)]
public class Operation {
[CCode (cname="pa_operation_state_t", cprefix="PA_OPERATION_", has_type_id=false)]
public enum State {
RUNNING,
DONE,
CANCELED
}
public void cancel();
public State get_state();
}
[Compact]
[CCode (cname="pa_context", cprefix="pa_context_", unref_function="pa_context_unref", ref_function="pa_context_ref", has_type_id=false)]
public class Context {
[CCode (cname="pa_context_flags_t", cprefix="PA_CONTEXT_", has_type_id=false)]
public enum Flags {
NOAUTOSPAWN,
NOFAIL
}
[CCode (cname="pa_context_state_t", cprefix="PA_CONTEXT_", has_type_id=false)]
public enum State {
UNCONNECTED,
CONNECTING,
AUTHORIZING,
SETTING_NAME,
READY,
FAILED,
TERMINATED;
[CCode (cname="PA_CONTEXT_IS_GOOD", has_type_id=false)]
public bool IS_GOOD();
}
[CCode (cname="pa_subscription_mask_t", cprefix="PA_SUBSCRIPTION_MASK_", has_type_id=false)]
public enum SubscriptionMask {
NULL,
SINK,
SOURCE,
SINK_INPUT,
SOURCE_OUTPUT,
MODULE,
CLIENT,
SAMPLE_CACHE,
SERVER,
CARD,
ALL;
[CCode (cname="pa_subscription_match_flags")]
public bool match_flags(SubscriptionEventType t);
}
[CCode (cname="pa_subscription_event_type_t", cprefix="PA_SUBSCRIPTION_EVENT_", has_type_id=false)]
public enum SubscriptionEventType {
SINK,
SOURCE,
SINK_INPUT,
SOURCE_OUTPUT,
MODULE,
CLIENT,
SAMPLE_CACHE,
SERVER,
CARD,
FACILITY_MASK,
NEW,
CHANGE,
REMOVE,
TYPE_MASK
}
[CCode (cname = "pa_context_notify_cb_t")]
public delegate void NotifyCb(Context c);
[CCode (cname = "pa_context_success_cb_t")]
public delegate void SuccessCb(Context c, int success);
[CCode (cname = "pa_context_event_cb_t")]
public delegate void EventCb(Context c, string name, Proplist? proplist);
[CCode (cname = "pa_context_subscribe_cb_t")]
public delegate void SubscribeCb(Context c, SubscriptionEventType t, uint32 idx);
[CCode (cname = "pa_sink_info_cb_t")]
public delegate void SinkInfoCb(Context c, SinkInfo? i, int eol);
[CCode (cname = "pa_source_info_cb_t")]
public delegate void SourceInfoCb(Context c, SourceInfo? i, int eol);
[CCode (cname = "pa_card_info_cb_t")]
public delegate void CardInfoCb(Context c, CardInfo? i, int eol);
[CCode (cname = "pa_sink_input_info_cb_t")]
public delegate void SinkInputInfoCb(Context c, SinkInputInfo? i, int eol);
[CCode (cname = "pa_source_output_info_cb_t")]
public delegate void SourceOutputInfoCb(Context c, SourceOutputInfo? i, int eol);
[CCode (cname = "pa_server_info_cb_t")]
public delegate void ServerInfoCb(Context c, ServerInfo? i);
[CCode (cname = "pa_stat_info_cb_t")]
public delegate void StatInfoCb(Context c, ServerInfo? i);
[CCode (cname = "pa_module_info_cb_t")]
public delegate void ModuleInfoCb(Context c, ModuleInfo? i, int eol);
[CCode (cname = "pa_client_info_cb_t")]
public delegate void ClientInfoCb(Context c, ClientInfo? i, int eol);
[CCode (cname = "pa_sample_info_cb_t")]
public delegate void SampleInfoCb(Context c, SampleInfo? i, int eol);
[CCode (cname = "pa_context_index_cb_t")]
public delegate void IndexCb(Context c, uint32 idx);
[CCode (cname="pa_context_new_with_proplist")]
public Context(MainLoopApi api, string? name, Proplist? proplist = null);
public void set_state_callback(NotifyCb? cb = null);
public void set_event_callback(EventCb? cb = null);
public void set_subscribe_callback(SubscribeCb? cb = null);
public Error errno();
public int is_pending();
public State get_state();
public int is_local();
public unowned string? get_server();
public uint32 get_protocol_version();
public uint32 get_server_protocol_version();
public uint32 get_index();
public int connect(string? server = null, Flags flags = 0, SpawnApi? api = null);
public void disconnect();
public Operation? drain(NotifyCb? cb = null);
public Operation? exit_daemon(SuccessCb? cb = null);
public Operation? set_default_sink(string name, SuccessCb? cb = null);
public Operation? set_default_source(string name, SuccessCb? cb = null);
public Operation? set_name(string name, SuccessCb? cb = null);
[CCode (array_length = false)]
public Operation? proplist_remove(string[] keys, SuccessCb? cb = null);
public Operation? proplist_update(UpdateMode mode, Proplist pl, SuccessCb? cb = null);
public Operation? subscribe(SubscriptionMask mask, SuccessCb? cb = null);
public Operation? get_sink_info_by_name(string name, SinkInfoCb cb);
public Operation? get_sink_info_by_index(uint32 idx, SinkInfoCb cb);
public Operation? get_sink_info_list(SinkInfoCb cb);
public Operation? set_sink_volume_by_name(string name, CVolume volume, SuccessCb? cb = null);
public Operation? set_sink_volume_by_index(uint32 idx, CVolume volume, SuccessCb? cb = null);
public Operation? set_sink_mute_by_name(string name, bool mute, SuccessCb? cb = null);
public Operation? set_sink_mute_by_index(uint32 idx, bool mute, SuccessCb? cb = null);
public Operation? suspend_sink_by_name(string name, bool suspend, SuccessCb? cb = null);
public Operation? suspend_sink_by_index(uint32 idx, bool suspend, SuccessCb? cb = null);
public Operation? set_sink_port_by_name(string name, string port, SuccessCb? cb = null);
public Operation? set_sink_port_by_index(uint32 idx, string port, SuccessCb? cb = null);
public Operation? get_source_info_by_name(string name, SourceInfoCb cb);
public Operation? get_source_info_by_index(uint32 idx, SourceInfoCb cb);
public Operation? get_source_info_list(SourceInfoCb cb);
public Operation? set_source_volume_by_name(string name, CVolume volume, SuccessCb? cb = null);
public Operation? set_source_volume_by_index(uint32 idx, CVolume volume, SuccessCb? cb = null);
public Operation? set_source_mute_by_name(string name, bool mute, SuccessCb? cb = null);
public Operation? set_source_mute_by_index(uint32 idx, bool mute, SuccessCb? cb = null);
public Operation? suspend_source_by_name(string name, bool suspend, SuccessCb? cb = null);
public Operation? suspend_source_by_index(uint32 idx, bool suspend, SuccessCb? cb = null);
public Operation? set_source_port_by_name(string name, string port, SuccessCb? cb = null);
public Operation? set_source_port_by_index(uint32 idx, string port, SuccessCb? cb = null);
public Operation? get_server_info(ServerInfoCb cb);
public Operation? get_module_info(uint32 idx, ModuleInfoCb cb);
public Operation? get_module_info_list(ModuleInfoCb cb);
public Operation? load_module(string name, string? argument, IndexCb? cb = null);
public Operation? unload_module(uint32 idx, SuccessCb? cb = null);
public Operation? get_client_info(uint32 idx, ClientInfoCb cb);
public Operation? get_client_info_list(ClientInfoCb cb);
public Operation? kill_client(uint32 idx, SuccessCb? cb = null);
public Operation? get_card_info_by_name(string name, CardInfoCb cb);
public Operation? get_card_info_by_index(uint32 idx, CardInfoCb cb);
public Operation? get_card_info_list(CardInfoCb cb);
public Operation? set_card_profile_by_index(uint32 idx, string profile, SuccessCb? cb = null);
public Operation? set_card_profile_by_name(string name, string profile, SuccessCb? cb = null);
public Operation? get_sink_input_info(uint32 idx, SinkInputInfoCb cb);
public Operation? get_sink_input_info_list(SinkInputInfoCb cb);
public Operation? move_sink_input_by_index(uint32 idx, uint32 sink_idx, SuccessCb? cb = null);
public Operation? move_sink_input_by_name(uint32 idx, string sink_name, SuccessCb? cb = null);
public Operation? set_sink_input_volume(uint32 idx, CVolume volume, SuccessCb? cb = null);
public Operation? set_sink_input_mute(uint32 idx, bool mute, SuccessCb? cb = null);
public Operation? set_source_output_volume(uint32 idx, CVolume volume, SuccessCb? cb = null);
public Operation? set_source_output_mute(uint32 idx, bool mute, SuccessCb? cb = null);
public Operation? kill_sink_input(uint32 idx, SuccessCb? cb = null);
public Operation? get_source_output_info(uint32 idx, SourceOutputInfoCb cb);
public Operation? get_source_output_info_list(SourceOutputInfoCb cb);
public Operation? move_source_output_by_index(uint32 idx, uint32 source_idx, SuccessCb? cb = null);
public Operation? move_source_output_by_name(uint32 idx, string source_name, SuccessCb? cb = null);
public Operation? kill_source_output(uint32 idx, SuccessCb? cb = null);
public Operation? stat(StatInfoCb cb);
public Operation? get_sample_info_by_name(string name, SampleInfoCb cb);
public Operation? get_sample_info_by_index(uint32 idx, SampleInfoCb cb);
public Operation? get_sample_info_list(SampleInfoCb cb);
public Operation? remove_sample(string name, SuccessCb? cb = null);
public Operation? play_sample(string name, string? device = null, Volume volume = Volume.INVALID, SuccessCb? cb = null);
public Operation? play_sample_with_proplist(string name, string? device = null, Volume volume = Volume.INVALID, Proplist? p = null, IndexCb? cb = null);
}
[Compact]
[CCode (cname="pa_stream", cprefix="pa_stream_", unref_function="pa_stream_unref", ref_function="pa_stream_ref", has_type_id=false)]
public class Stream {
[CCode (cname="pa_stream_flags_t", cprefix="PA_STREAM_", has_type_id=false)]
public enum Flags {
START_CORKED,
INTERPOLATE_TIMING,
NOT_MONOTONIC,
AUTO_TIMING_UPDATE,
NO_REMAP_CHANNELS,
NO_REMIX_CHANNELS,
FIX_FORMAT,
FIX_RATE,
FIX_CHANNELS,
DONT_MOVE,
VARIABLE_RATE,
PEAK_DETECT,
START_MUTED,
ADJUST_LATENCY,
EARLY_REQUESTS,
DONT_INHIBIT_AUTO_SUSPEND,
START_UNMUTED,
FAIL_ON_SUSPEND
}
[CCode (cname="pa_stream_state_t", cprefix="PA_STREAM_", has_type_id=false)]
public enum State {
UNCONNECTED,
CREATING,
READY,
FAILED,
TERMINATED;
[CCode (cname="PA_STREAM_IS_GOOD")]
public bool IS_GOOD();
}
[CCode (cname="pa_stream_direction_t", cprefix="PA_STREAM_", has_type_id=false)]
public enum Direction {
NODIRECTION,
PLAYBACK,
RECORD,
UPLOAD
}
[CCode (cname="pa_seek_mode_t", cprefix="PA_SEEK_", has_type_id=false)]
public enum SeekMode {
RELATIVE,
ABSOLUTE,
RELATIVE_ON_READ,
RELATIVE_END
}
[CCode (cname="pa_buffer_attr", has_type_id=false)]
public struct BufferAttr {
uint32 maxlength;
uint32 tlength;
uint32 prebuf;
uint32 minreq;
uint32 fragsize;
}
[CCode (cname="pa_timing_info", has_type_id=false)]
public struct TimingInfo {
timeval timestamp;
int synchronized_clocks;
usec sink_usec;
usec source_usec;
usec transport_usec;
int playing;
int write_index_corrupt;
int64 write_index;
int read_index_corrupt;
int64 read_index;
usec configured_sink_usec;
usec configured_source_usec;
int64 since_underrun;
}
[CCode (cname="PA_STREAM_EVENT_REQUEST_CORK")]
public const string EVENT_REQUEST_CORK;
[CCode (cname="PA_STREAM_EVENT_REQUEST_UNCORK")]
public const string EVENT_REQUEST_UNCORK;
public delegate void SuccessCb(Stream s, int success);
public delegate void RequestCb(Stream s, size_t nbytes);
public delegate void NotifyCb(Stream s);
public delegate void EventCb(Stream s, string name, Proplist proplist);
[CCode (cname="pa_stream_new_with_proplist")]
public Stream(Context c, string name, SampleSpec ss, ChannelMap? map = null, Proplist? proplist = null);
public State get_state();
public Context get_context();
public uint32 get_index();
public uint32 get_device_index();
public unowned string? get_device_name();
public int is_suspended();
public int is_corked();
public int connect_playback(string? dev = null, BufferAttr? a = null, Flags flags = 0, CVolume? volume = null, Stream? sync_stream = null);
public int connect_record(string? dev = null, BufferAttr? a = null, Flags flags = 0);
public int connect_upload(size_t length);
public int disconnect();
public int finish_upload();
public int begin_write(out void* data, out size_t nbytes);
public int cancel_write();
public int write(void *data, size_t bytes, FreeCb? free_cb = null, int64 offset = 0, SeekMode mode = SeekMode.RELATIVE);
public int peek(out void *data, out size_t nbytes);
public int drop();
public size_t writable_size();
public size_t readable_size();
public void set_state_callback(NotifyCb? cb = null);
public void set_write_callback(RequestCb? cb = null);
public void set_read_callback(RequestCb? cb = null);
public void set_overflow_callback(NotifyCb? cb = null);
public void set_underflow_callback(NotifyCb? cb = null);
public void set_started_callback(NotifyCb? cb = null);
public void set_latency_update_callback(NotifyCb? cb = null);
public void set_moved_callback(NotifyCb? cb = null);
public void set_suspended_callback(NotifyCb? cb = null);
public void set_event_callback(EventCb? cb = null);
public void set_buffer_attr_callback(NotifyCb? cb = null);
public Operation? drain(SuccessCb? cb = null);
public Operation? update_timing_info(SuccessCb? cb = null);
public Operation? cork(bool b, SuccessCb? cb = null);
public Operation? flush(SuccessCb? cb = null);
public Operation? prebuf(SuccessCb? cb = null);
public Operation? trigger(SuccessCb? cb = null);
public Operation? set_name(string name, SuccessCb? cb = null);
public Operation? set_buffer_attr(BufferAttr attr, SuccessCb? cb = null);
public Operation? update_sample_rate(uint32 rate, SuccessCb? cb = null);
[CCode (array_length = false)]
public Operation? proplist_remove(string[] keys, SuccessCb? cb = null);
public Operation? proplist_update(UpdateMode mode, Proplist pl, SuccessCb? cb = null);
public unowned TimingInfo? get_timing_info();
public int get_time(out usec u);
public int get_latency(out usec u, out bool negative = null);
public unowned SampleSpec? get_sample_spec();
public unowned ChannelMap? get_channel_map();
public unowned BufferAttr? get_buffer_attr();
public int set_monitor_stream(uint32 sink_input);
public uint32 get_monitor_stream();
}
[CCode (cname="pa_direction_t", cprefix="PA_DIRECTION_", has_type_id=false)]
[Flags]
public enum Direction {
OUTPUT = 0x0001U,
INPUT = 0x0002U
}
[CCode (cname="pa_port_available_t", cprefix="PA_PORT_AVAILABLE_", has_type_id=false)]
public enum PortAvailable {
UNKNOWN = 0,
NO = 1,
YES = 2
}
[CCode (cname="pa_sink_port_info", has_type_id=false)]
public struct SinkPortInfo {
public string name;
public string description;
public uint32 priority;
}
[CCode (cname="pa_sink_info", has_type_id=false)]
public struct SinkInfo {
public string name;
public uint32 index;
public string description;
public SampleSpec sample_spec;
public ChannelMap channel_map;
public uint32 owner_module;
public CVolume volume;
public int mute;
public uint32 monitor_source;
public string monitor_source_name;
public usec latency;
public string driver;
public SinkFlags flags;
public Proplist proplist;
public usec configured_latency;
public Volume base_volume;
public SinkState state;
public uint32 n_volume_steps;
public uint32 card;
public uint32 n_ports;
[CCode (array_length_cname="n_ports")]
public SinkPortInfo*[] ports;
public SinkPortInfo* active_port;
}
[CCode (cname="pa_source_port_info", has_type_id=false)]
public struct SourcePortInfo {
public string name;
public string description;
public uint32 priority;
}
[CCode (cname="pa_source_info", has_type_id=false)]
public struct SourceInfo {
public string name;
public uint32 index;
public string description;
public SampleSpec sample_spec;
public ChannelMap channel_map;
public uint32 owner_module;
public CVolume volume;
public int mute;
public uint32 monitor_of_sink;
public string monitor_of_sink_name;
public usec latency;
public string driver;
public SourceFlags flags;
public Proplist proplist;
public usec configured_latency;
public Volume base_volume;
public SourceState state;
public uint32 n_volume_steps;
public uint32 card;
public uint32 n_ports;
[CCode (array_length_cname="n_ports")]
public SourcePortInfo*[] ports;
public SourcePortInfo* active_port;
}
[CCode (cname="pa_server_info", has_type_id=false)]
public struct ServerInfo {
public string user_name;
public string host_name;
public string server_version;
public string server_name;
public SampleSpec sample_spec;
public string default_sink_name;
public string default_source_name;
public ChannelMap channel_map;
}
[CCode (cname="pa_module_info", has_type_id=false)]
public struct ModuleInfo {
public uint32 index;
public string name;
public string argument;
public uint32 n_used;
public Proplist proplist;
}
[CCode (cname="pa_client_info", has_type_id=false)]
public struct ClientInfo {
public uint32 index;
public string name;
public uint32 owner_module;
public string driver;
public Proplist proplist;
}
[CCode (cname="pa_card_profile_info", has_type_id=false)]
public struct CardProfileInfo {
public string name;
public string description;
public uint32 n_sinks;
public uint32 n_sources;
public uint32 priority;
}
[CCode (cname="pa_card_profile_info2", has_type_id=false)]
public struct CardProfileInfo2 {
public string name;
public string description;
public uint32 n_sinks;
public uint32 n_sources;
public uint32 priority;
int available;
}
[CCode (cname="pa_card_port_info", has_type_id=false)]
public struct CardPortInfo {
public string name;
public string description;
public uint32 priority;
PortAvailable available;
Direction direction;
public uint32 n_profiles;
[CCode (array_length_cname="n_profiles")]
public CardProfileInfo*[] profiles;
public Proplist proplist;
public int64 latency_offset;
[CCode (array_length_cname="n_profiles")]
public CardProfileInfo2*[] profiles2;
}
[CCode (cname="pa_card_info", has_type_id=false)]
public struct CardInfo {
public uint32 index;
public string name;
public uint32 owner_module;
public string driver;
public uint32 n_profiles;
[CCode (array_length_cname="n_profiles")]
public CardProfileInfo[] profiles;
public CardProfileInfo *active_profile;
[CCode (array_length_cname="n_profiles")]
public CardProfileInfo2*[] profiles2;
public CardProfileInfo2 *active_profile2;
public Proplist proplist;
public uint32 n_ports;
[CCode (array_length_cname="n_ports")]
public CardPortInfo*[] ports;
}
[CCode (cname="pa_sink_input_info", has_type_id=false)]
public struct SinkInputInfo {
public uint32 index;
public string name;
public uint32 owner_module;
public uint32 client;
public uint32 sink;
public SampleSpec sample_spec;
public ChannelMap channel_map;
public CVolume volume;
public uint32 buffer_usec;
public uint32 sink_usec;
public string resample_method;
public string driver;
public int mute;
public Proplist proplist;
public int corked;
public int has_volume;
public int volume_writable;
}
[CCode (cname="pa_source_output_info", has_type_id=false)]
public struct SourceOutputInfo {
public uint32 index;
public string name;
public uint32 owner_module;
public uint32 client;
public uint32 source;
public SampleSpec sample_spec;
public ChannelMap channel_map;
public uint32 buffer_usec;
public uint32 source_usec;
public string resample_method;
public string driver;
public Proplist proplist;
public int corked;
public CVolume volume;
public int mute;
public int has_volume;
public int volume_writable;
}
[CCode (cname="pa_stat_info", has_type_id=false)]
public struct StatInfo {
public uint32 memblock_total;
public uint32 memblock_total_size;
public uint32 memblock_allocated;
public uint32 memblock_allocated_size;
public uint32 scache_size;
}
[CCode (cname="pa_sample_info", has_type_id=false)]
public struct SampleInfo {
public uint32 index;
public string name;
public CVolume volume;
public SampleSpec sample_spec;
public ChannelMap channel_map;
public usec duration;
public uint32 bytes;
public bool lazy;
public string filename;
public Proplist proplist;
}
[CCode (cname="pa_sink_flags_t", cprefix="PA_SINK_", has_type_id=false)]
public enum SinkFlags {
HW_VOLUME_CTRL,
LATENCY,
HARDWARE,
NETWORK,
HW_MUTE_CTRL,
DECIBEL_VOLUME,
FLAT_VOLUME,
DYNAMIC_LATENCY
}
[CCode (cname="pa_source_flags_t", cprefix="PA_SOURCE_", has_type_id=false)]
public enum SourceFlags {
HW_VOLUME_CTRL,
LATENCY,
HARDWARE,
NETWORK,
HW_MUTE_CTRL,
DECIBEL_VOLUME,
DYNAMIC_LATENCY
}
[CCode (cname="pa_sink_state_t", cprefix="PA_SINK_", has_type_id=false)]
public enum SinkState {
INVALID_STATE,
RUNNING,
IDLE,
SUSPENDED;
[CCode (cname="PA_SINK_IS_OPENED")]
public bool IS_OPENED();
}
[CCode (cname="pa_source_state_t", cprefix="PA_SOURCE_", has_type_id=false)]
public enum SourceState {
INVALID_STATE,
RUNNING,
IDLE,
SUSPENDED;
[CCode (cname="PA_SOURCE_IS_OPENED")]
public bool IS_OPENED();
}
[CCode (cname="pa_gettimeofday")]
public unowned timeval gettimeofday(out timeval tv);
[CCode (cname="pa_timeval_diff")]
public usec timeval_diff(ref timeval a, ref timeval b);
[CCode (cname="pa_timeval_cmp")]
public int timeval_cmp(ref timeval a, ref timeval b);
[CCode (cname="pa_timeval_age")]
public usec timeval_age(ref timeval a);
[CCode (cname="pa_timeval_add")]
public unowned timeval timeval_add(ref timeval tv, usec x);
[CCode (cname="pa_timeval_sub")]
public unowned timeval timeval_sub(ref timeval tv, usec x);
[CCode (cname="pa_timeval_store")]
public unowned timeval timeval_store(out timeval tv, usec c);
[CCode (cname="pa_timeval_load")]
public usec timeval_load(timeval tv);
[CCode (cname="PA_USEC_MAX")]
public const usec USEC_MAX;
[CCode (cname="PA_USEC_INVALID")]
public const usec USEC_INVALID;
[CCode (cname="PA_MSEC_PER_SEC")]
public const usec MSEC_PER_SEC;
[CCode (cname="PA_USEC_PER_SEC")]
public const usec USEC_PER_SEC;
[CCode (cname="PA_NSEC_PER_SEC")]
public const uint64 NSEC_PER_SEC;
[CCode (cname="PA_USEC_PER_MSEC")]
public const usec USEC_PER_MSEC;
[CCode (cname="PA_NSEC_PER_MSEC")]
public const uint64 NSEC_PER_MSEC;
[CCode (cname="PA_NSEC_PER_USEC")]
public const uint64 NSEC_PER_USEC;
}