Channels
{ACPI_RSC_BITMASK, ACPI_RS_OFFSET (Data.Dma.Channels[0]),
ACPI_FLEX_ARRAY(UINT8, Channels);
UINT16 Channels;
UINT16 Channels;
Vector<multi_channel_info>& Channels, multi_description* Description,
uint32 channels = GetTerminalChannels(Channels, cluster,
AudioControlInterface::GetTerminalChannels(Vector<multi_channel_info>& Channels,
info.channel_id = Channels.Count();
Channels.PushBack(info);
uint32 startCount = Channels.Count();
info.channel_id = Channels.Count();
Channels.PushBack(info);
return Channels.Count() - startCount;
Vector<multi_channel_info>& Channels, multi_description* Description)
uint32 channels = GetTerminalChannels(Channels,
uint32 channels = GetTerminalChannels(Channels,
Vector<multi_channel_info>& Channels,
Vector<multi_channel_info>& Channels,
Vector<multi_channel_info>& Channels,
Vector<multi_channel_info> Channels;
fAudioControl.GetChannelsDescription(Channels, &Description, USBTerminal,
fAudioControl.GetBusChannelsDescription(Channels, &Description);
TraceMultiDescription(&Description, Channels);
&Channels[0], sizeof(multi_channel_info) * min_c(Channels.Count(),
Vector<multi_channel_info>& Channels)
for (int i = 0; i < Channels.Count(); i++) {
TRACE(API, " channel_id:%d\n", Channels[i].channel_id);
TRACE(API, " kind:%#02x\n", Channels[i].kind);
TRACE(API, " designations:%#08x\n", Channels[i].designations);
TRACE(API, " connectors:%#08x\n", Channels[i].connectors);
Vector<multi_channel_info>& Channels);
Channels fChannels;
int Channels(int mode);
f.channel_count = fPlugin->Channels(VST_OUTPUT_CHANNELS);
str<<fPlugin->Channels(VST_INPUT_CHANNELS);
str<<fPlugin->Channels(VST_OUTPUT_CHANNELS);