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livetrax/libs/ardour/audio_unit.cc
Taybin Rutkin 3fdcba1859 Merged revisions 6293,6296-6306,6308 via svnmerge from 
svn+ssh://ardoursvn@subversion.ardour.org/ardour2/branches/build_fixes

........
  r6293 | trutkin | 2009-12-05 08:49:37 -0500 (Sat, 05 Dec 2009) | 2 lines
  
  fix if-statement in build script
........
  r6296 | trutkin | 2009-12-05 09:30:19 -0500 (Sat, 05 Dec 2009) | 5 lines
  
  rearrange GTKOSX and darwin dependencies
  
  - moved some GTKOSX include paths to generic darwin
  - made GTKOSX dependent on being on darwin anyways
........
  r6297 | trutkin | 2009-12-05 09:35:09 -0500 (Sat, 05 Dec 2009) | 2 lines
  
  move coreaudio and audiounit handling to darwin section
........
  r6298 | trutkin | 2009-12-05 09:53:40 -0500 (Sat, 05 Dec 2009) | 3 lines
  
  use True/False instead of 1/0
  fix another if-statement where it should be an elif-statement
........
  r6299 | trutkin | 2009-12-05 14:11:09 -0500 (Sat, 05 Dec 2009) | 10 lines
  
  fixes to get libardour building
  
  - can't cast away volatile, so copy _transport_frame before emitting it.
  - const_reverse_iterator::operator!=() isn't defined in this version of gcc.
  - removed annoying HERE WE ARE CAAudioFile.h #warning.
  - removed unnecessary include of sndfile.h in session.h.
  - we don't want to set -march=i686 on the mac, so indent this if-statement so
    it's only run on linux.
  - DEBUG_STR() fails in the NDEBUG case, so wrap its use in an #ifndef NDEBUG
........
  r6300 | trutkin | 2009-12-05 15:48:29 -0500 (Sat, 05 Dec 2009) | 2 lines
  
  remove old scons-style CXXFLAGS_FOO in favor of just CXXFLAGS
........
  r6301 | trutkin | 2009-12-05 16:01:10 -0500 (Sat, 05 Dec 2009) | 8 lines
  
  clean up configure flags
  
  - removed useless --aubio and --syslibs flags.  The syslibs value is ignored 
    as we don't bring our own libraries with us anymoreand we use aubio 
    automatically if it's available
  - added ways to turn off fpu_optimization and NLS
  - fixed compiling on the mac without fpu_optimization
........
  r6302 | trutkin | 2009-12-05 18:12:46 -0500 (Sat, 05 Dec 2009) | 5 lines
  
  go back to prior uselib method for COREAUDIO, AUDIOUNIT, and GTKOSX
  
  - fixed compile of CoreAudioSource
  - re-did inclusion of coremidi_midiport.cc to depend on COREAUDIO presence
........
  r6303 | trutkin | 2009-12-05 18:59:02 -0500 (Sat, 05 Dec 2009) | 5 lines
  
  fixed compiler warnings about classes with virtual member functions, but no virtual destructor.
  
  - Changed Metering to not use foo() = 0; to indicate it shouldn't be instantiated, but
    private: Metering(), which is more idiomatic.
........
  r6304 | trutkin | 2009-12-05 19:25:41 -0500 (Sat, 05 Dec 2009) | 2 lines
  
  TOP_MENUBAR isn't used when building ardour.menus.  Removed.
........
  r6305 | trutkin | 2009-12-05 19:46:11 -0500 (Sat, 05 Dec 2009) | 5 lines
  
  fix some AudioUnit compile errors
  
  - update AudioUnit to use ChanCount
  - fix some namespacing issues in audio_unit.h
........
  r6306 | trutkin | 2009-12-05 20:08:48 -0500 (Sat, 05 Dec 2009) | 2 lines
  
  make --extra-warn useful
........
  r6308 | trutkin | 2009-12-05 22:59:42 -0500 (Sat, 05 Dec 2009) | 10 lines
  
  fix compiling/linking with --coreaudio
  
  - rearrange ardour_ui.h header in editor.cc to avoid conflict
  - midi++ depends on OSX as well as COREAUDIO
  - fixed including frameworks
  - tweaked --extra-warn again.  it's kinda redundent with --strict
  - improved indentation in wscript
  - use #ifdef HAVE_COREMIDI, not #if HAVE_COREMIDI.  #if isn't interchangable
    with #ifdef and won't work if HAVE_COREMIDI is defined with no value.
........


git-svn-id: svn://localhost/ardour2/branches/3.0@6310 d708f5d6-7413-0410-9779-e7cbd77b26cf
2009-12-06 04:35:48 +00:00

1936 lines
48 KiB
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/*
Copyright (C) 2006 Paul Davis
This program 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.
This program 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., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <sstream>
#include <errno.h>
#include <string.h>
#include "pbd/transmitter.h"
#include "pbd/xml++.h"
#include "pbd/whitespace.h"
#include "pbd/pathscanner.h"
#include <glibmm/thread.h>
#include <glibmm/fileutils.h>
#include <glibmm/miscutils.h>
#include "ardour/ardour.h"
#include "ardour/audioengine.h"
#include "ardour/io.h"
#include "ardour/audio_unit.h"
#include "ardour/session.h"
#include "ardour/utils.h"
#include <appleutility/CAAudioUnit.h>
#include <appleutility/CAAUParameter.h>
#include <CoreFoundation/CoreFoundation.h>
#include <CoreServices/CoreServices.h>
#include "i18n.h"
using namespace std;
using namespace PBD;
using namespace ARDOUR;
#ifndef AU_STATE_SUPPORT
static bool seen_get_state_message = false;
static bool seen_set_state_message = false;
static bool seen_loading_message = false;
static bool seen_saving_message = false;
#endif
AUPluginInfo::CachedInfoMap AUPluginInfo::cached_info;
static string preset_search_path = "/Library/Audio/Presets:/Network/Library/Audio/Presets";
static string preset_suffix = ".aupreset";
static bool preset_search_path_initialized = false;
static OSStatus
_render_callback(void *userData,
AudioUnitRenderActionFlags *ioActionFlags,
const AudioTimeStamp *inTimeStamp,
UInt32 inBusNumber,
UInt32 inNumberFrames,
AudioBufferList* ioData)
{
return ((AUPlugin*)userData)->render_callback (ioActionFlags, inTimeStamp, inBusNumber, inNumberFrames, ioData);
}
static int
save_property_list (CFPropertyListRef propertyList, Glib::ustring path)
{
CFDataRef xmlData;
int fd;
// Convert the property list into XML data.
xmlData = CFPropertyListCreateXMLData( kCFAllocatorDefault, propertyList);
if (!xmlData) {
error << _("Could not create XML version of property list") << endmsg;
return -1;
}
// Write the XML data to the file.
fd = open (path.c_str(), O_WRONLY|O_CREAT|O_EXCL, 0664);
while (fd < 0) {
if (errno == EEXIST) {
/* tell any UI's that this file already exists and ask them what to do */
bool overwrite = Plugin::PresetFileExists(); // EMIT SIGNAL
if (overwrite) {
fd = open (path.c_str(), O_WRONLY, 0664);
continue;
} else {
return 0;
}
}
error << string_compose (_("Cannot open preset file %1 (%2)"), path, strerror (errno)) << endmsg;
CFRelease (xmlData);
return -1;
}
size_t cnt = CFDataGetLength (xmlData);
if (write (fd, CFDataGetBytePtr (xmlData), cnt) != cnt) {
CFRelease (xmlData);
close (fd);
return -1;
}
close (fd);
return 0;
}
static CFPropertyListRef
load_property_list (Glib::ustring path)
{
int fd;
CFPropertyListRef propertyList;
CFDataRef xmlData;
CFStringRef errorString;
// Read the XML file.
if ((fd = open (path.c_str(), O_RDONLY)) < 0) {
return propertyList;
}
off_t len = lseek (fd, 0, SEEK_END);
char* buf = new char[len];
lseek (fd, 0, SEEK_SET);
if (read (fd, buf, len) != len) {
delete [] buf;
close (fd);
return propertyList;
}
close (fd);
xmlData = CFDataCreateWithBytesNoCopy (kCFAllocatorDefault, (UInt8*) buf, len, kCFAllocatorNull);
// Reconstitute the dictionary using the XML data.
propertyList = CFPropertyListCreateFromXMLData( kCFAllocatorDefault,
xmlData,
kCFPropertyListImmutable,
&errorString);
CFRelease (xmlData);
delete [] buf;
return propertyList;
}
//-----------------------------------------------------------------------------
static void
set_preset_name_in_plist (CFPropertyListRef plist, string preset_name)
{
if (!plist) {
return;
}
CFStringRef pn = CFStringCreateWithCString (kCFAllocatorDefault, preset_name.c_str(), kCFStringEncodingUTF8);
if (CFGetTypeID (plist) == CFDictionaryGetTypeID()) {
CFDictionarySetValue ((CFMutableDictionaryRef)plist, CFSTR(kAUPresetNameKey), pn);
}
CFRelease (pn);
}
//-----------------------------------------------------------------------------
static std::string
get_preset_name_in_plist (CFPropertyListRef plist)
{
std::string ret;
if (!plist) {
return ret;
}
if (CFGetTypeID (plist) == CFDictionaryGetTypeID()) {
const void *p = CFDictionaryGetValue ((CFMutableDictionaryRef)plist, CFSTR(kAUPresetNameKey));
if (p) {
CFStringRef str = (CFStringRef) p;
int len = CFStringGetLength(str);
len = (len * 2) + 1;
char local_buffer[len];
if (CFStringGetCString (str, local_buffer, len, kCFStringEncodingUTF8)) {
ret = local_buffer;
}
}
}
return ret;
}
//--------------------------------------------------------------------------
// general implementation for ComponentDescriptionsMatch() and ComponentDescriptionsMatch_Loosely()
// if inIgnoreType is true, then the type code is ignored in the ComponentDescriptions
Boolean ComponentDescriptionsMatch_General(const ComponentDescription * inComponentDescription1, const ComponentDescription * inComponentDescription2, Boolean inIgnoreType);
Boolean ComponentDescriptionsMatch_General(const ComponentDescription * inComponentDescription1, const ComponentDescription * inComponentDescription2, Boolean inIgnoreType)
{
if ( (inComponentDescription1 == NULL) || (inComponentDescription2 == NULL) )
return FALSE;
if ( (inComponentDescription1->componentSubType == inComponentDescription2->componentSubType)
&& (inComponentDescription1->componentManufacturer == inComponentDescription2->componentManufacturer) )
{
// only sub-type and manufacturer IDs need to be equal
if (inIgnoreType)
return TRUE;
// type, sub-type, and manufacturer IDs all need to be equal in order to call this a match
else if (inComponentDescription1->componentType == inComponentDescription2->componentType)
return TRUE;
}
return FALSE;
}
//--------------------------------------------------------------------------
// general implementation for ComponentAndDescriptionMatch() and ComponentAndDescriptionMatch_Loosely()
// if inIgnoreType is true, then the type code is ignored in the ComponentDescriptions
Boolean ComponentAndDescriptionMatch_General(Component inComponent, const ComponentDescription * inComponentDescription, Boolean inIgnoreType);
Boolean ComponentAndDescriptionMatch_General(Component inComponent, const ComponentDescription * inComponentDescription, Boolean inIgnoreType)
{
OSErr status;
ComponentDescription desc;
if ( (inComponent == NULL) || (inComponentDescription == NULL) )
return FALSE;
// get the ComponentDescription of the input Component
status = GetComponentInfo(inComponent, &desc, NULL, NULL, NULL);
if (status != noErr)
return FALSE;
// check if the Component's ComponentDescription matches the input ComponentDescription
return ComponentDescriptionsMatch_General(&desc, inComponentDescription, inIgnoreType);
}
//--------------------------------------------------------------------------
// determine if 2 ComponentDescriptions are basically equal
// (by that, I mean that the important identifying values are compared,
// but not the ComponentDescription flags)
Boolean ComponentDescriptionsMatch(const ComponentDescription * inComponentDescription1, const ComponentDescription * inComponentDescription2)
{
return ComponentDescriptionsMatch_General(inComponentDescription1, inComponentDescription2, FALSE);
}
//--------------------------------------------------------------------------
// determine if 2 ComponentDescriptions have matching sub-type and manufacturer codes
Boolean ComponentDescriptionsMatch_Loose(const ComponentDescription * inComponentDescription1, const ComponentDescription * inComponentDescription2)
{
return ComponentDescriptionsMatch_General(inComponentDescription1, inComponentDescription2, TRUE);
}
//--------------------------------------------------------------------------
// determine if a ComponentDescription basically matches that of a particular Component
Boolean ComponentAndDescriptionMatch(Component inComponent, const ComponentDescription * inComponentDescription)
{
return ComponentAndDescriptionMatch_General(inComponent, inComponentDescription, FALSE);
}
//--------------------------------------------------------------------------
// determine if a ComponentDescription matches only the sub-type and manufacturer codes of a particular Component
Boolean ComponentAndDescriptionMatch_Loosely(Component inComponent, const ComponentDescription * inComponentDescription)
{
return ComponentAndDescriptionMatch_General(inComponent, inComponentDescription, TRUE);
}
AUPlugin::AUPlugin (AudioEngine& engine, Session& session, boost::shared_ptr<CAComponent> _comp)
: Plugin (engine, session),
comp (_comp),
unit (new CAAudioUnit),
initialized (false),
buffers (0),
current_maxbuf (0),
current_offset (0),
current_buffers (0),
frames_processed (0)
{
if (!preset_search_path_initialized) {
Glib::ustring p = Glib::get_home_dir();
p += "/Library/Audio/Presets:";
p += preset_search_path;
preset_search_path = p;
preset_search_path_initialized = true;
}
init ();
}
AUPlugin::AUPlugin (const AUPlugin& other)
: Plugin (other)
, comp (other.get_comp())
, unit (new CAAudioUnit)
, initialized (false)
, buffers (0)
, current_maxbuf (0)
, current_offset (0)
, current_buffers (0)
, frames_processed (0)
{
init ();
}
AUPlugin::~AUPlugin ()
{
if (unit) {
unit->Uninitialize ();
}
if (buffers) {
free (buffers);
}
}
void
AUPlugin::init ()
{
OSErr err;
try {
err = CAAudioUnit::Open (*(comp.get()), *unit);
} catch (...) {
error << _("Exception thrown during AudioUnit plugin loading - plugin ignored") << endmsg;
throw failed_constructor();
}
if (err != noErr) {
error << _("AudioUnit: Could not convert CAComponent to CAAudioUnit") << endmsg;
throw failed_constructor ();
}
AURenderCallbackStruct renderCallbackInfo;
renderCallbackInfo.inputProc = _render_callback;
renderCallbackInfo.inputProcRefCon = this;
if ((err = unit->SetProperty (kAudioUnitProperty_SetRenderCallback, kAudioUnitScope_Input,
0, (void*) &renderCallbackInfo, sizeof(renderCallbackInfo))) != 0) {
cerr << "cannot install render callback (err = " << err << ')' << endl;
throw failed_constructor();
}
unit->GetElementCount (kAudioUnitScope_Global, global_elements);
unit->GetElementCount (kAudioUnitScope_Input, input_elements);
unit->GetElementCount (kAudioUnitScope_Output, output_elements);
/* these keep track of *configured* channel set up,
not potential set ups.
*/
input_channels = ChanCount::ZERO;
output_channels = ChanCount::ZERO;
if (_set_block_size (_session.get_block_size())) {
error << _("AUPlugin: cannot set processing block size") << endmsg;
throw failed_constructor();
}
discover_parameters ();
Plugin::setup_controls ();
}
void
AUPlugin::discover_parameters ()
{
/* discover writable parameters */
AudioUnitScope scopes[] = {
kAudioUnitScope_Global,
kAudioUnitScope_Output,
kAudioUnitScope_Input
};
descriptors.clear ();
for (uint32_t i = 0; i < sizeof (scopes) / sizeof (scopes[0]); ++i) {
AUParamInfo param_info (unit->AU(), false, false, scopes[i]);
for (uint32_t i = 0; i < param_info.NumParams(); ++i) {
AUParameterDescriptor d;
d.id = param_info.ParamID (i);
const CAAUParameter* param = param_info.GetParamInfo (d.id);
const AudioUnitParameterInfo& info (param->ParamInfo());
const int len = CFStringGetLength (param->GetName());;
char local_buffer[len*2];
Boolean good = CFStringGetCString(param->GetName(),local_buffer,len*2,kCFStringEncodingMacRoman);
if (!good) {
d.label = "???";
} else {
d.label = local_buffer;
}
d.scope = param_info.GetScope ();
d.element = param_info.GetElement ();
/* info.units to consider */
/*
kAudioUnitParameterUnit_Generic = 0
kAudioUnitParameterUnit_Indexed = 1
kAudioUnitParameterUnit_Boolean = 2
kAudioUnitParameterUnit_Percent = 3
kAudioUnitParameterUnit_Seconds = 4
kAudioUnitParameterUnit_SampleFrames = 5
kAudioUnitParameterUnit_Phase = 6
kAudioUnitParameterUnit_Rate = 7
kAudioUnitParameterUnit_Hertz = 8
kAudioUnitParameterUnit_Cents = 9
kAudioUnitParameterUnit_RelativeSemiTones = 10
kAudioUnitParameterUnit_MIDINoteNumber = 11
kAudioUnitParameterUnit_MIDIController = 12
kAudioUnitParameterUnit_Decibels = 13
kAudioUnitParameterUnit_LinearGain = 14
kAudioUnitParameterUnit_Degrees = 15
kAudioUnitParameterUnit_EqualPowerCrossfade = 16
kAudioUnitParameterUnit_MixerFaderCurve1 = 17
kAudioUnitParameterUnit_Pan = 18
kAudioUnitParameterUnit_Meters = 19
kAudioUnitParameterUnit_AbsoluteCents = 20
kAudioUnitParameterUnit_Octaves = 21
kAudioUnitParameterUnit_BPM = 22
kAudioUnitParameterUnit_Beats = 23
kAudioUnitParameterUnit_Milliseconds = 24
kAudioUnitParameterUnit_Ratio = 25
*/
/* info.flags to consider */
/*
kAudioUnitParameterFlag_CFNameRelease = (1L << 4)
kAudioUnitParameterFlag_HasClump = (1L << 20)
kAudioUnitParameterFlag_HasName = (1L << 21)
kAudioUnitParameterFlag_DisplayLogarithmic = (1L << 22)
kAudioUnitParameterFlag_IsHighResolution = (1L << 23)
kAudioUnitParameterFlag_NonRealTime = (1L << 24)
kAudioUnitParameterFlag_CanRamp = (1L << 25)
kAudioUnitParameterFlag_ExpertMode = (1L << 26)
kAudioUnitParameterFlag_HasCFNameString = (1L << 27)
kAudioUnitParameterFlag_IsGlobalMeta = (1L << 28)
kAudioUnitParameterFlag_IsElementMeta = (1L << 29)
kAudioUnitParameterFlag_IsReadable = (1L << 30)
kAudioUnitParameterFlag_IsWritable = (1L << 31)
*/
d.lower = info.minValue;
d.upper = info.maxValue;
d.default_value = info.defaultValue;
d.integer_step = (info.unit & kAudioUnitParameterUnit_Indexed);
d.toggled = (info.unit & kAudioUnitParameterUnit_Boolean) ||
(d.integer_step && ((d.upper - d.lower) == 1.0));
d.sr_dependent = (info.unit & kAudioUnitParameterUnit_SampleFrames);
d.automatable = !d.toggled &&
!(info.flags & kAudioUnitParameterFlag_NonRealTime) &&
(info.flags & kAudioUnitParameterFlag_IsWritable);
d.logarithmic = (info.flags & kAudioUnitParameterFlag_DisplayLogarithmic);
d.unit = info.unit;
d.step = 1.0;
d.smallstep = 0.1;
d.largestep = 10.0;
d.min_unbound = 0; // lower is bound
d.max_unbound = 0; // upper is bound
descriptors.push_back (d);
}
}
}
string
AUPlugin::unique_id () const
{
return AUPluginInfo::stringify_descriptor (comp->Desc());
}
const char *
AUPlugin::label () const
{
return _info->name.c_str();
}
uint32_t
AUPlugin::parameter_count () const
{
return descriptors.size();
}
float
AUPlugin::default_value (uint32_t port)
{
if (port < descriptors.size()) {
return descriptors[port].default_value;
}
return 0;
}
nframes_t
AUPlugin::latency () const
{
return unit->Latency() * _session.frame_rate();
}
void
AUPlugin::set_parameter (uint32_t which, float val)
{
if (which < descriptors.size()) {
const AUParameterDescriptor& d (descriptors[which]);
unit->SetParameter (d.id, d.scope, d.element, val);
}
}
float
AUPlugin::get_parameter (uint32_t which) const
{
float val = 0.0;
if (which < descriptors.size()) {
const AUParameterDescriptor& d (descriptors[which]);
unit->GetParameter(d.id, d.scope, d.element, val);
}
return val;
}
int
AUPlugin::get_parameter_descriptor (uint32_t which, ParameterDescriptor& pd) const
{
if (which < descriptors.size()) {
pd = descriptors[which];
return 0;
}
return -1;
}
uint32_t
AUPlugin::nth_parameter (uint32_t which, bool& ok) const
{
if (which < descriptors.size()) {
ok = true;
return which;
}
ok = false;
return 0;
}
void
AUPlugin::activate ()
{
if (!initialized) {
OSErr err;
if ((err = unit->Initialize()) != noErr) {
error << string_compose (_("AUPlugin: %1 cannot initialize plugin (err = %2)"), name(), err) << endmsg;
} else {
frames_processed = 0;
initialized = true;
}
}
}
void
AUPlugin::deactivate ()
{
unit->GlobalReset ();
}
void
AUPlugin::set_block_size (nframes_t nframes)
{
_set_block_size (nframes);
}
int
AUPlugin::_set_block_size (nframes_t nframes)
{
bool was_initialized = initialized;
UInt32 numFrames = nframes;
OSErr err;
if (initialized) {
unit->Uninitialize ();
initialized = false;
}
if ((err = unit->SetProperty (kAudioUnitProperty_MaximumFramesPerSlice, kAudioUnitScope_Global,
0, &numFrames, sizeof (numFrames))) != noErr) {
cerr << "cannot set max frames (err = " << err << ')' << endl;
return -1;
}
if (was_initialized) {
activate ();
}
return 0;
}
int32_t
AUPlugin::configure_io (int32_t in, int32_t out)
{
AudioStreamBasicDescription streamFormat;
streamFormat.mSampleRate = _session.frame_rate();
streamFormat.mFormatID = kAudioFormatLinearPCM;
streamFormat.mFormatFlags = kAudioFormatFlagIsFloat|kAudioFormatFlagIsPacked|kAudioFormatFlagIsNonInterleaved;
#ifdef __LITTLE_ENDIAN__
/* relax */
#else
streamFormat.mFormatFlags |= kAudioFormatFlagIsBigEndian;
#endif
streamFormat.mBitsPerChannel = 32;
streamFormat.mFramesPerPacket = 1;
/* apple says that for non-interleaved data, these
values always refer to a single channel.
*/
streamFormat.mBytesPerPacket = 4;
streamFormat.mBytesPerFrame = 4;
streamFormat.mChannelsPerFrame = in;
if (set_input_format (streamFormat) != 0) {
return -1;
}
streamFormat.mChannelsPerFrame = out;
if (set_output_format (streamFormat) != 0) {
return -1;
}
return Plugin::configure_io (in, out);
}
int32_t
AUPlugin::can_do (int32_t in, int32_t& out)
{
// XXX as of May 13th 2008, AU plugin support returns a count of either 1 or -1. We never
// attempt to multiply-instantiate plugins to meet io configurations.
int32_t plugcnt = -1;
AUPluginInfoPtr pinfo = boost::dynamic_pointer_cast<AUPluginInfo>(get_info());
out = -1;
vector<pair<int,int> >& io_configs = pinfo->cache.io_configs;
for (vector<pair<int,int> >::iterator i = io_configs.begin(); i != io_configs.end(); ++i) {
int32_t possible_in = i->first;
int32_t possible_out = i->second;
if (possible_out == 0) {
warning << string_compose (_("AU %1 has zero outputs - configuration ignored"), name()) << endmsg;
continue;
}
if (possible_in == 0) {
/* instrument plugin, always legal but throws away inputs ...
*/
if (possible_out == -1) {
/* out much match in (UNLIKELY!!) */
out = in;
plugcnt = 1;
} else if (possible_out == -2) {
/* any configuration possible, pick matching */
out = in;
plugcnt = 1;
} else if (possible_out < -2) {
/* explicit variable number of outputs, pick maximum */
out = -possible_out;
plugcnt = 1;
} else {
/* exact number of outputs */
out = possible_out;
plugcnt = 1;
}
}
if (possible_in == -1) {
/* wildcard for input */
if (possible_out == -1) {
/* out much match in */
out = in;
plugcnt = 1;
} else if (possible_out == -2) {
/* any configuration possible, pick matching */
out = in;
plugcnt = 1;
} else if (possible_out < -2) {
/* explicit variable number of outputs, pick maximum */
out = -possible_out;
plugcnt = 1;
} else {
/* exact number of outputs */
out = possible_out;
plugcnt = 1;
}
}
if (possible_in == -2) {
if (possible_out == -1) {
/* any configuration possible, pick matching */
out = in;
plugcnt = 1;
} else if (possible_out == -2) {
error << string_compose (_("AU plugin %1 has illegal IO configuration (-2,-2)"), name())
<< endmsg;
plugcnt = -1;
} else if (possible_out < -2) {
/* explicit variable number of outputs, pick maximum */
out = -possible_out;
plugcnt = 1;
} else {
/* exact number of outputs */
out = possible_out;
plugcnt = 1;
}
}
if (possible_in < -2) {
/* explicit variable number of inputs */
if (in > -possible_in) {
/* request is too large */
plugcnt = -1;
}
if (possible_out == -1) {
/* out must match in */
out = in;
plugcnt = 1;
} else if (possible_out == -2) {
error << string_compose (_("AU plugin %1 has illegal IO configuration (-2,-2)"), name())
<< endmsg;
plugcnt = -1;
} else if (possible_out < -2) {
/* explicit variable number of outputs, pick maximum */
out = -possible_out;
plugcnt = 1;
} else {
/* exact number of outputs */
out = possible_out;
plugcnt = 1;
}
}
if (possible_in == in) {
/* exact number of inputs ... must match obviously */
if (possible_out == -1) {
/* out must match in */
out = in;
plugcnt = 1;
} else if (possible_out == -2) {
/* any output configuration, pick matching */
out = in;
plugcnt = -1;
} else if (possible_out < -2) {
/* explicit variable number of outputs, pick maximum */
out = -possible_out;
plugcnt = 1;
} else {
/* exact number of outputs */
out = possible_out;
plugcnt = 1;
}
}
if (plugcnt == 1) {
break;
}
}
/* no fit */
return plugcnt;
}
int
AUPlugin::set_input_format (AudioStreamBasicDescription& fmt)
{
return set_stream_format (kAudioUnitScope_Input, input_elements, fmt);
}
int
AUPlugin::set_output_format (AudioStreamBasicDescription& fmt)
{
if (set_stream_format (kAudioUnitScope_Output, output_elements, fmt) != 0) {
return -1;
}
if (buffers) {
free (buffers);
buffers = 0;
}
buffers = (AudioBufferList *) malloc (offsetof(AudioBufferList, mBuffers) +
fmt.mChannelsPerFrame * sizeof(AudioBuffer));
Glib::Mutex::Lock em (_session.engine().process_lock());
IO::MoreOutputs (fmt.mChannelsPerFrame);
return 0;
}
int
AUPlugin::set_stream_format (int scope, uint32_t cnt, AudioStreamBasicDescription& fmt)
{
OSErr result;
for (uint32_t i = 0; i < cnt; ++i) {
if ((result = unit->SetFormat (scope, i, fmt)) != 0) {
error << string_compose (_("AUPlugin: could not set stream format for %1/%2 (err = %3)"),
(scope == kAudioUnitScope_Input ? "input" : "output"), i, result) << endmsg;
return -1;
}
}
if (scope == kAudioUnitScope_Input) {
input_channels.setAudio( fmt.mChannelsPerFrame );
} else {
output_channels.setAudio( fmt.mChannelsPerFrame );
}
return 0;
}
ChanCount
AUPlugin::input_streams() const
{
if (input_channels < 0) {
warning << string_compose (_("AUPlugin: %1 input_streams() called without any format set!"), name()) << endmsg;
return 1;
}
return input_channels;
}
ChanCount
AUPlugin::output_streams() const
{
if (output_channels < 0) {
warning << string_compose (_("AUPlugin: %1 output_streams() called without any format set!"), name()) << endmsg;
return 1;
}
return output_channels;
}
OSStatus
AUPlugin::render_callback(AudioUnitRenderActionFlags *ioActionFlags,
const AudioTimeStamp *inTimeStamp,
UInt32 inBusNumber,
UInt32 inNumberFrames,
AudioBufferList* ioData)
{
/* not much to do - the data is already in the buffers given to us in connect_and_run() */
if (current_maxbuf == 0) {
error << _("AUPlugin: render callback called illegally!") << endmsg;
return kAudioUnitErr_CannotDoInCurrentContext;
}
for (uint32_t i = 0; i < current_maxbuf; ++i) {
ioData->mBuffers[i].mNumberChannels = 1;
ioData->mBuffers[i].mDataByteSize = sizeof (Sample) * inNumberFrames;
ioData->mBuffers[i].mData = (*current_buffers)[i] + cb_offset + current_offset;
}
cb_offset += inNumberFrames;
return noErr;
}
int
AUPlugin::connect_and_run (vector<Sample*>& bufs, uint32_t maxbuf, int32_t& in, int32_t& out, nframes_t nframes, nframes_t offset)
{
AudioUnitRenderActionFlags flags = 0;
AudioTimeStamp ts;
current_buffers = &bufs;
current_maxbuf = maxbuf;
current_offset = offset;
cb_offset = 0;
buffers->mNumberBuffers = maxbuf;
for (uint32_t i = 0; i < maxbuf; ++i) {
buffers->mBuffers[i].mNumberChannels = 1;
buffers->mBuffers[i].mDataByteSize = nframes * sizeof (Sample);
buffers->mBuffers[i].mData = 0;
}
ts.mSampleTime = frames_processed;
ts.mFlags = kAudioTimeStampSampleTimeValid;
if (unit->Render (&flags, &ts, 0, nframes, buffers) == noErr) {
current_maxbuf = 0;
frames_processed += nframes;
for (uint32_t i = 0; i < maxbuf; ++i) {
if (bufs[i] + offset != buffers->mBuffers[i].mData) {
memcpy (bufs[i]+offset, buffers->mBuffers[i].mData, nframes * sizeof (Sample));
}
}
return 0;
}
return -1;
}
set<uint32_t>
AUPlugin::automatable() const
{
set<uint32_t> automates;
for (uint32_t i = 0; i < descriptors.size(); ++i) {
if (descriptors[i].automatable) {
automates.insert (i);
}
}
return automates;
}
string
AUPlugin::describe_parameter (uint32_t param)
{
return descriptors[param].label;
}
void
AUPlugin::print_parameter (uint32_t param, char* buf, uint32_t len) const
{
// NameValue stuff here
}
bool
AUPlugin::parameter_is_audio (uint32_t) const
{
return false;
}
bool
AUPlugin::parameter_is_control (uint32_t) const
{
return true;
}
bool
AUPlugin::parameter_is_input (uint32_t) const
{
return false;
}
bool
AUPlugin::parameter_is_output (uint32_t) const
{
return false;
}
XMLNode&
AUPlugin::get_state()
{
LocaleGuard lg (X_("POSIX"));
XMLNode *root = new XMLNode (state_node_name());
#ifdef AU_STATE_SUPPORT
CFDataRef xmlData;
CFPropertyListRef propertyList;
if (unit->GetAUPreset (propertyList) != noErr) {
return *root;
}
// Convert the property list into XML data.
xmlData = CFPropertyListCreateXMLData( kCFAllocatorDefault, propertyList);
if (!xmlData) {
error << _("Could not create XML version of property list") << endmsg;
return *root;
}
/* re-parse XML bytes to create a libxml++ XMLTree that we can merge into
our state node. GACK!
*/
XMLTree t;
if (t.read_buffer (string ((const char*) CFDataGetBytePtr (xmlData), CFDataGetLength (xmlData)))) {
if (t.root()) {
root->add_child_copy (*t.root());
}
}
CFRelease (xmlData);
CFRelease (propertyList);
#else
if (!seen_get_state_message) {
info << _("Saving AudioUnit settings is not supported in this build of Ardour. Consider paying for a newer version")
<< endmsg;
seen_get_state_message = true;
}
#endif
return *root;
}
int
AUPlugin::set_state(const XMLNode& node)
{
#ifdef AU_STATE_SUPPORT
int ret = -1;
CFPropertyListRef propertyList;
LocaleGuard lg (X_("POSIX"));
if (node.name() != state_node_name()) {
error << _("Bad node sent to AUPlugin::set_state") << endmsg;
return -1;
}
if (node.children().empty()) {
return -1;
}
XMLNode* top = node.children().front();
XMLNode* copy = new XMLNode (*top);
XMLTree t;
t.set_root (copy);
const string& xml = t.write_buffer ();
CFDataRef xmlData = CFDataCreateWithBytesNoCopy (kCFAllocatorDefault, (UInt8*) xml.data(), xml.length(), kCFAllocatorNull);
CFStringRef errorString;
propertyList = CFPropertyListCreateFromXMLData( kCFAllocatorDefault,
xmlData,
kCFPropertyListImmutable,
&errorString);
CFRelease (xmlData);
if (propertyList) {
if (unit->SetAUPreset (propertyList) == noErr) {
ret = 0;
}
CFRelease (propertyList);
}
return ret;
#else
if (!seen_set_state_message) {
info << _("Restoring AudioUnit settings is not supported in this build of Ardour. Consider paying for a newer version")
<< endmsg;
}
return 0;
#endif
}
bool
AUPlugin::load_preset (const string preset_label)
{
#ifdef AU_STATE_SUPPORT
bool ret = false;
CFPropertyListRef propertyList;
Glib::ustring path;
PresetMap::iterator x = preset_map.find (preset_label);
if (x == preset_map.end()) {
return false;
}
if ((propertyList = load_property_list (x->second)) != 0) {
if (unit->SetAUPreset (propertyList) == noErr) {
ret = true;
}
CFRelease(propertyList);
}
return ret;
#else
if (!seen_loading_message) {
info << _("Loading AudioUnit presets is not supported in this build of Ardour. Consider paying for a newer version")
<< endmsg;
seen_loading_message = true;
}
return true;
#endif
}
bool
AUPlugin::save_preset (string preset_name)
{
#ifdef AU_STATE_SUPPORT
CFPropertyListRef propertyList;
vector<Glib::ustring> v;
Glib::ustring user_preset_path;
bool ret = true;
std::string m = maker();
std::string n = name();
strip_whitespace_edges (m);
strip_whitespace_edges (n);
v.push_back (Glib::get_home_dir());
v.push_back ("Library");
v.push_back ("Audio");
v.push_back ("Presets");
v.push_back (m);
v.push_back (n);
user_preset_path = Glib::build_filename (v);
if (g_mkdir_with_parents (user_preset_path.c_str(), 0775) < 0) {
error << string_compose (_("Cannot create user plugin presets folder (%1)"), user_preset_path) << endmsg;
return false;
}
if (unit->GetAUPreset (propertyList) != noErr) {
return false;
}
// add the actual preset name */
v.push_back (preset_name + preset_suffix);
// rebuild
user_preset_path = Glib::build_filename (v);
set_preset_name_in_plist (propertyList, preset_name);
if (save_property_list (propertyList, user_preset_path)) {
error << string_compose (_("Saving plugin state to %1 failed"), user_preset_path) << endmsg;
ret = false;
}
CFRelease(propertyList);
return ret;
#else
if (!seen_saving_message) {
info << _("Saving AudioUnit presets is not supported in this build of Ardour. Consider paying for a newer version")
<< endmsg;
seen_saving_message = true;
}
return false;
#endif
}
//-----------------------------------------------------------------------------
// this is just a little helper function used by GetAUComponentDescriptionFromPresetFile()
static SInt32
GetDictionarySInt32Value(CFDictionaryRef inAUStateDictionary, CFStringRef inDictionaryKey, Boolean * outSuccess)
{
CFNumberRef cfNumber;
SInt32 numberValue = 0;
Boolean dummySuccess;
if (outSuccess == NULL)
outSuccess = &dummySuccess;
if ( (inAUStateDictionary == NULL) || (inDictionaryKey == NULL) )
{
*outSuccess = FALSE;
return 0;
}
cfNumber = (CFNumberRef) CFDictionaryGetValue(inAUStateDictionary, inDictionaryKey);
if (cfNumber == NULL)
{
*outSuccess = FALSE;
return 0;
}
*outSuccess = CFNumberGetValue(cfNumber, kCFNumberSInt32Type, &numberValue);
if (*outSuccess)
return numberValue;
else
return 0;
}
static OSStatus
GetAUComponentDescriptionFromStateData(CFPropertyListRef inAUStateData, ComponentDescription * outComponentDescription)
{
CFDictionaryRef auStateDictionary;
ComponentDescription tempDesc = {0};
SInt32 versionValue;
Boolean gotValue;
if ( (inAUStateData == NULL) || (outComponentDescription == NULL) )
return paramErr;
// the property list for AU state data must be of the dictionary type
if (CFGetTypeID(inAUStateData) != CFDictionaryGetTypeID()) {
return kAudioUnitErr_InvalidPropertyValue;
}
auStateDictionary = (CFDictionaryRef)inAUStateData;
// first check to make sure that the version of the AU state data is one that we know understand
// XXX should I really do this? later versions would probably still hold these ID keys, right?
versionValue = GetDictionarySInt32Value(auStateDictionary, CFSTR(kAUPresetVersionKey), &gotValue);
if (!gotValue) {
return kAudioUnitErr_InvalidPropertyValue;
}
#define kCurrentSavedStateVersion 0
if (versionValue != kCurrentSavedStateVersion) {
return kAudioUnitErr_InvalidPropertyValue;
}
// grab the ComponentDescription values from the AU state data
tempDesc.componentType = (OSType) GetDictionarySInt32Value(auStateDictionary, CFSTR(kAUPresetTypeKey), NULL);
tempDesc.componentSubType = (OSType) GetDictionarySInt32Value(auStateDictionary, CFSTR(kAUPresetSubtypeKey), NULL);
tempDesc.componentManufacturer = (OSType) GetDictionarySInt32Value(auStateDictionary, CFSTR(kAUPresetManufacturerKey), NULL);
// zero values are illegit for specific ComponentDescriptions, so zero for any value means that there was an error
if ( (tempDesc.componentType == 0) || (tempDesc.componentSubType == 0) || (tempDesc.componentManufacturer == 0) )
return kAudioUnitErr_InvalidPropertyValue;
*outComponentDescription = tempDesc;
return noErr;
}
static bool au_preset_filter (const string& str, void* arg)
{
/* Not a dotfile, has a prefix before a period, suffix is aupreset */
bool ret;
ret = (str[0] != '.' && str.length() > 9 && str.find (preset_suffix) == (str.length() - preset_suffix.length()));
if (ret && arg) {
/* check the preset file path name against this plugin
ID. The idea is that all preset files for this plugin
include "<manufacturer>/<plugin-name>" in their path.
*/
Plugin* p = (Plugin *) arg;
string match = p->maker();
match += '/';
match += p->name();
ret = str.find (match) != string::npos;
if (ret == false) {
string m = p->maker ();
string n = p->name ();
strip_whitespace_edges (m);
strip_whitespace_edges (n);
match = m;
match += '/';
match += n;
ret = str.find (match) != string::npos;
}
}
return ret;
}
bool
check_and_get_preset_name (Component component, const string& pathstr, string& preset_name)
{
OSStatus status;
CFPropertyListRef plist;
ComponentDescription presetDesc;
bool ret = false;
plist = load_property_list (pathstr);
if (!plist) {
return ret;
}
// get the ComponentDescription from the AU preset file
status = GetAUComponentDescriptionFromStateData(plist, &presetDesc);
if (status == noErr) {
if (ComponentAndDescriptionMatch_Loosely(component, &presetDesc)) {
/* try to get the preset name from the property list */
if (CFGetTypeID(plist) == CFDictionaryGetTypeID()) {
const void* psk = CFDictionaryGetValue ((CFMutableDictionaryRef)plist, CFSTR(kAUPresetNameKey));
if (psk) {
const char* p = CFStringGetCStringPtr ((CFStringRef) psk, kCFStringEncodingUTF8);
if (!p) {
char buf[PATH_MAX+1];
if (CFStringGetCString ((CFStringRef)psk, buf, sizeof (buf), kCFStringEncodingUTF8)) {
preset_name = buf;
}
}
}
}
}
}
CFRelease (plist);
return true;
}
std::string
AUPlugin::current_preset() const
{
string preset_name;
#ifdef AU_STATE_SUPPORT
CFPropertyListRef propertyList;
if (unit->GetAUPreset (propertyList) == noErr) {
preset_name = get_preset_name_in_plist (propertyList);
CFRelease(propertyList);
}
#endif
return preset_name;
}
vector<string>
AUPlugin::get_presets ()
{
vector<string*>* preset_files;
vector<string> presets;
PathScanner scanner;
preset_files = scanner (preset_search_path, au_preset_filter, this, true, true, -1, true);
if (!preset_files) {
return presets;
}
for (vector<string*>::iterator x = preset_files->begin(); x != preset_files->end(); ++x) {
string path = *(*x);
string preset_name;
/* make an initial guess at the preset name using the path */
preset_name = Glib::path_get_basename (path);
preset_name = preset_name.substr (0, preset_name.find_last_of ('.'));
/* check that this preset file really matches this plugin
and potentially get the "real" preset name from
within the file.
*/
if (check_and_get_preset_name (get_comp()->Comp(), path, preset_name)) {
presets.push_back (preset_name);
preset_map[preset_name] = path;
}
delete *x;
}
delete preset_files;
return presets;
}
bool
AUPlugin::has_editor () const
{
// even if the plugin doesn't have its own editor, the AU API can be used
// to create one that looks native.
return true;
}
AUPluginInfo::AUPluginInfo (boost::shared_ptr<CAComponentDescription> d)
: descriptor (d)
{
}
AUPluginInfo::~AUPluginInfo ()
{
}
PluginPtr
AUPluginInfo::load (Session& session)
{
try {
PluginPtr plugin;
boost::shared_ptr<CAComponent> comp (new CAComponent(*descriptor));
if (!comp->IsValid()) {
error << ("AudioUnit: not a valid Component") << endmsg;
} else {
plugin.reset (new AUPlugin (session.engine(), session, comp));
}
plugin->set_info (PluginInfoPtr (new AUPluginInfo (*this)));
return plugin;
}
catch (failed_constructor &err) {
return PluginPtr ();
}
}
Glib::ustring
AUPluginInfo::au_cache_path ()
{
return Glib::build_filename (ARDOUR::get_user_ardour_path(), "au_cache");
}
PluginInfoList*
AUPluginInfo::discover ()
{
XMLTree tree;
if (!Glib::file_test (au_cache_path(), Glib::FILE_TEST_EXISTS)) {
ARDOUR::BootMessage (_("Discovering AudioUnit plugins (could take some time ...)"));
}
PluginInfoList* plugs = new PluginInfoList ();
discover_fx (plugs);
discover_music (plugs);
discover_generators (plugs);
return plugs;
}
void
AUPluginInfo::discover_music (PluginInfoList& plugs)
{
CAComponentDescription desc;
desc.componentFlags = 0;
desc.componentFlagsMask = 0;
desc.componentSubType = 0;
desc.componentManufacturer = 0;
desc.componentType = kAudioUnitType_MusicEffect;
discover_by_description (plugs, desc);
}
void
AUPluginInfo::discover_fx (PluginInfoList& plugs)
{
CAComponentDescription desc;
desc.componentFlags = 0;
desc.componentFlagsMask = 0;
desc.componentSubType = 0;
desc.componentManufacturer = 0;
desc.componentType = kAudioUnitType_Effect;
discover_by_description (plugs, desc);
}
void
AUPluginInfo::discover_generators (PluginInfoList& plugs)
{
CAComponentDescription desc;
desc.componentFlags = 0;
desc.componentFlagsMask = 0;
desc.componentSubType = 0;
desc.componentManufacturer = 0;
desc.componentType = kAudioUnitType_Generator;
discover_by_description (plugs, desc);
}
void
AUPluginInfo::discover_by_description (PluginInfoList& plugs, CAComponentDescription& desc)
{
Component comp = 0;
comp = FindNextComponent (NULL, &desc);
while (comp != NULL) {
CAComponentDescription temp;
GetComponentInfo (comp, &temp, NULL, NULL, NULL);
AUPluginInfoPtr info (new AUPluginInfo
(boost::shared_ptr<CAComponentDescription> (new CAComponentDescription(temp))));
/* no panners, format converters or i/o AU's for our purposes
*/
switch (info->descriptor->Type()) {
case kAudioUnitType_Panner:
case kAudioUnitType_OfflineEffect:
case kAudioUnitType_FormatConverter:
continue;
case kAudioUnitType_Output:
case kAudioUnitType_MusicDevice:
case kAudioUnitType_MusicEffect:
case kAudioUnitType_Effect:
case kAudioUnitType_Mixer:
case kAudioUnitType_Generator:
break;
default:
break;
}
switch (info->descriptor->SubType()) {
case kAudioUnitSubType_DefaultOutput:
case kAudioUnitSubType_SystemOutput:
case kAudioUnitSubType_GenericOutput:
case kAudioUnitSubType_AUConverter:
/* we don't want output units here */
continue;
break;
case kAudioUnitSubType_DLSSynth:
info->category = "DLS Synth";
break;
case kAudioUnitSubType_Varispeed:
info->category = "Varispeed";
break;
case kAudioUnitSubType_Delay:
info->category = "Delay";
break;
case kAudioUnitSubType_LowPassFilter:
info->category = "Low-pass Filter";
break;
case kAudioUnitSubType_HighPassFilter:
info->category = "High-pass Filter";
break;
case kAudioUnitSubType_BandPassFilter:
info->category = "Band-pass Filter";
break;
case kAudioUnitSubType_HighShelfFilter:
info->category = "High-shelf Filter";
break;
case kAudioUnitSubType_LowShelfFilter:
info->category = "Low-shelf Filter";
break;
case kAudioUnitSubType_ParametricEQ:
info->category = "Parametric EQ";
break;
case kAudioUnitSubType_GraphicEQ:
info->category = "Graphic EQ";
break;
case kAudioUnitSubType_PeakLimiter:
info->category = "Peak Limiter";
break;
case kAudioUnitSubType_DynamicsProcessor:
info->category = "Dynamics Processor";
break;
case kAudioUnitSubType_MultiBandCompressor:
info->category = "Multiband Compressor";
break;
case kAudioUnitSubType_MatrixReverb:
info->category = "Matrix Reverb";
break;
case kAudioUnitSubType_SampleDelay:
info->category = "Sample Delay";
break;
case kAudioUnitSubType_Pitch:
info->category = "Pitch";
break;
case kAudioUnitSubType_NetSend:
info->category = "Net Sender";
break;
case kAudioUnitSubType_3DMixer:
info->category = "3DMixer";
break;
case kAudioUnitSubType_MatrixMixer:
info->category = "MatrixMixer";
break;
case kAudioUnitSubType_ScheduledSoundPlayer:
info->category = "Scheduled Sound Player";
break;
case kAudioUnitSubType_AudioFilePlayer:
info->category = "Audio File Player";
break;
case kAudioUnitSubType_NetReceive:
info->category = "Net Receiver";
break;
default:
info->category = "";
}
AUPluginInfo::get_names (temp, info->name, info->creator);
info->type = ARDOUR::AudioUnit;
info->unique_id = stringify_descriptor (*info->descriptor);
/* XXX not sure of the best way to handle plugin versioning yet
*/
CAComponent cacomp (*info->descriptor);
if (cacomp.GetResourceVersion (info->version) != noErr) {
info->version = 0;
}
if (cached_io_configuration (info->unique_id, info->version, cacomp, info->cache, info->name)) {
/* here we have to map apple's wildcard system to a simple pair
of values. in ::can_do() we use the whole system, but here
we need a single pair of values. XXX probably means we should
remove any use of these values.
*/
info->n_inputs = info->cache.io_configs.front().first;
info->n_outputs = info->cache.io_configs.front().second;
if (info->cache.io_configs.size() > 1) {
cerr << "ODD: variable IO config for " << info->unique_id << endl;
}
plugs.push_back (info);
} else {
error << string_compose (_("Cannot get I/O configuration info for AU %1"), info->name) << endmsg;
}
comp = FindNextComponent (comp, &desc);
}
}
bool
AUPluginInfo::cached_io_configuration (const std::string& unique_id,
UInt32 version,
CAComponent& comp,
AUPluginCachedInfo& cinfo,
const std::string& name)
{
std::string id;
char buf[32];
/* concatenate unique ID with version to provide a key for cached info lookup.
this ensures we don't get stale information, or should if plugin developers
follow Apple "guidelines".
*/
snprintf (buf, sizeof (buf), "%u", version);
id = unique_id;
id += '/';
id += buf;
CachedInfoMap::iterator cim = cached_info.find (id);
if (cim != cached_info.end()) {
cinfo = cim->second;
return true;
}
CAAudioUnit unit;
AUChannelInfo* channel_info;
UInt32 cnt;
int ret;
ARDOUR::BootMessage (string_compose (_("Checking AudioUnit: %1"), name));
try {
if (CAAudioUnit::Open (comp, unit) != noErr) {
return false;
}
} catch (...) {
warning << string_compose (_("Could not load AU plugin %1 - ignored"), name) << endmsg;
cerr << string_compose (_("Could not load AU plugin %1 - ignored"), name) << endl;
return false;
}
if ((ret = unit.GetChannelInfo (&channel_info, cnt)) < 0) {
return false;
}
if (ret > 0) {
/* no explicit info available */
cinfo.io_configs.push_back (pair<int,int> (-1, -1));
} else {
/* store each configuration */
for (uint32_t n = 0; n < cnt; ++n) {
cinfo.io_configs.push_back (pair<int,int> (channel_info[n].inChannels,
channel_info[n].outChannels));
}
free (channel_info);
}
add_cached_info (id, cinfo);
save_cached_info ();
return true;
}
void
AUPluginInfo::add_cached_info (const std::string& id, AUPluginCachedInfo& cinfo)
{
cached_info[id] = cinfo;
}
void
AUPluginInfo::save_cached_info ()
{
XMLNode* node;
node = new XMLNode (X_("AudioUnitPluginCache"));
for (map<string,AUPluginCachedInfo>::iterator i = cached_info.begin(); i != cached_info.end(); ++i) {
XMLNode* parent = new XMLNode (X_("plugin"));
parent->add_property ("id", i->first);
node->add_child_nocopy (*parent);
for (vector<pair<int, int> >::iterator j = i->second.io_configs.begin(); j != i->second.io_configs.end(); ++j) {
XMLNode* child = new XMLNode (X_("io"));
char buf[32];
snprintf (buf, sizeof (buf), "%d", j->first);
child->add_property (X_("in"), buf);
snprintf (buf, sizeof (buf), "%d", j->second);
child->add_property (X_("out"), buf);
parent->add_child_nocopy (*child);
}
}
Glib::ustring path = au_cache_path ();
XMLTree tree;
tree.set_root (node);
if (!tree.write (path)) {
error << string_compose (_("could not save AU cache to %1"), path) << endmsg;
unlink (path.c_str());
}
}
int
AUPluginInfo::load_cached_info ()
{
Glib::ustring path = au_cache_path ();
XMLTree tree;
if (!Glib::file_test (path, Glib::FILE_TEST_EXISTS)) {
return 0;
}
tree.read (path);
const XMLNode* root (tree.root());
if (root->name() != X_("AudioUnitPluginCache")) {
return -1;
}
cached_info.clear ();
const XMLNodeList children = root->children();
for (XMLNodeConstIterator iter = children.begin(); iter != children.end(); ++iter) {
const XMLNode* child = *iter;
if (child->name() == X_("plugin")) {
const XMLNode* gchild;
const XMLNodeList gchildren = child->children();
const XMLProperty* prop = child->property (X_("id"));
if (!prop) {
continue;
}
std::string id = prop->value();
AUPluginCachedInfo cinfo;
for (XMLNodeConstIterator giter = gchildren.begin(); giter != gchildren.end(); giter++) {
gchild = *giter;
if (gchild->name() == X_("io")) {
int in;
int out;
const XMLProperty* iprop;
const XMLProperty* oprop;
if (((iprop = gchild->property (X_("in"))) != 0) &&
((oprop = gchild->property (X_("out"))) != 0)) {
in = atoi (iprop->value());
out = atoi (iprop->value());
cinfo.io_configs.push_back (pair<int,int> (in, out));
}
}
}
if (cinfo.io_configs.size()) {
add_cached_info (id, cinfo);
}
}
}
return 0;
}
void
AUPluginInfo::get_names (CAComponentDescription& comp_desc, std::string& name, Glib::ustring& maker)
{
CFStringRef itemName = NULL;
// Marc Poirier-style item name
CAComponent auComponent (comp_desc);
if (auComponent.IsValid()) {
CAComponentDescription dummydesc;
Handle nameHandle = NewHandle(sizeof(void*));
if (nameHandle != NULL) {
OSErr err = GetComponentInfo(auComponent.Comp(), &dummydesc, nameHandle, NULL, NULL);
if (err == noErr) {
ConstStr255Param nameString = (ConstStr255Param) (*nameHandle);
if (nameString != NULL) {
itemName = CFStringCreateWithPascalString(kCFAllocatorDefault, nameString, CFStringGetSystemEncoding());
}
}
DisposeHandle(nameHandle);
}
}
// if Marc-style fails, do the original way
if (itemName == NULL) {
CFStringRef compTypeString = UTCreateStringForOSType(comp_desc.componentType);
CFStringRef compSubTypeString = UTCreateStringForOSType(comp_desc.componentSubType);
CFStringRef compManufacturerString = UTCreateStringForOSType(comp_desc.componentManufacturer);
itemName = CFStringCreateWithFormat(kCFAllocatorDefault, NULL, CFSTR("%@ - %@ - %@"),
compTypeString, compManufacturerString, compSubTypeString);
if (compTypeString != NULL)
CFRelease(compTypeString);
if (compSubTypeString != NULL)
CFRelease(compSubTypeString);
if (compManufacturerString != NULL)
CFRelease(compManufacturerString);
}
string str = CFStringRefToStdString(itemName);
string::size_type colon = str.find (':');
if (colon) {
name = str.substr (colon+1);
maker = str.substr (0, colon);
// strip_whitespace_edges (maker);
// strip_whitespace_edges (name);
} else {
name = str;
maker = "unknown";
}
}
// from CAComponentDescription.cpp (in libs/appleutility in ardour source)
extern char *StringForOSType (OSType t, char *writeLocation);
std::string
AUPluginInfo::stringify_descriptor (const CAComponentDescription& desc)
{
char str[24];
stringstream s;
s << StringForOSType (desc.Type(), str);
s << " - ";
s << StringForOSType (desc.SubType(), str);
s << " - ";
s << StringForOSType (desc.Manu(), str);
return s.str();
}
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