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|
/*
* Copyright (C) 2021 Linux Studio Plugins Project <https://lsp-plug.in/>
* (C) 2021 Vladimir Sadovnikov <sadko4u@gmail.com>
*
* This file is part of lsp-plugin-fw
* Created on: 7 дек. 2021 г.
*
* lsp-plugin-fw 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 3 of the License, or
* any later version.
*
* lsp-plugin-fw 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with lsp-plugin-fw. If not, see <https://www.gnu.org/licenses/>.
*/
#ifndef LSP_PLUG_IN_PLUG_FW_WRAP_VST2_PORTS_H_
#define LSP_PLUG_IN_PLUG_FW_WRAP_VST2_PORTS_H_
#include <lsp-plug.in/plug-fw/version.h>
#include <lsp-plug.in/plug-fw/meta/func.h>
#include <lsp-plug.in/plug-fw/meta/types.h>
#include <lsp-plug.in/plug-fw/plug.h>
#include <lsp-plug.in/plug-fw/wrap/vst2/chunk.h>
#include <lsp-plug.in/plug-fw/wrap/vst2/defs.h>
#include <lsp-plug.in/plug-fw/wrap/vst2/helpers.h>
#include <lsp-plug.in/plug-fw/wrap/vst2/types.h>
#include <lsp-plug.in/common/atomic.h>
#include <lsp-plug.in/common/endian.h>
#include <lsp-plug.in/dsp/dsp.h>
#include <lsp-plug.in/stdlib/math.h>
#include <lsp-plug.in/stdlib/stdio.h>
#include <lsp-plug.in/stdlib/stdlib.h>
namespace lsp
{
namespace vst2
{
// Specify port classes
class Port: public plug::IPort
{
protected:
AEffect *pEffect;
audioMasterCallback hCallback;
ssize_t nID;
protected:
float to_vst(float value)
{
float min = 0.0f, max = 1.0f, step = 0.0f;
get_port_parameters(pMetadata, &min, &max, &step);
// lsp_trace("input = %.3f", value);
// Set value as integer or normalized
if ((meta::is_gain_unit(pMetadata->unit)) || (meta::is_log_rule(pMetadata)))
{
// float p_value = value;
float thresh = (pMetadata->flags & meta::F_EXT) ? GAIN_AMP_M_140_DB : GAIN_AMP_M_80_DB;
float l_step = log(step + 1.0f) * 0.1f;
float l_thresh = log(thresh);
float l_min = (fabs(min) < thresh) ? (l_thresh - l_step) : (log(min));
float l_max = (fabs(max) < thresh) ? (l_thresh - l_step) : (log(max));
float l_value = (fabs(value) < thresh) ? (l_thresh - l_step) : (log(value));
value = (l_value - l_min) / (l_max - l_min);
// lsp_trace("%s = %f (%f, %f, %f) -> %f (%f)",
// pMetadata->id,
// p_value,
// min, max, step,
// value,
// l_thresh);
}
else if (pMetadata->unit == meta::U_BOOL)
{
value = (value >= (min + max) * 0.5f) ? 1.0f : 0.0f;
}
else
{
if ((pMetadata->flags & meta::F_INT) ||
(pMetadata->unit == meta::U_ENUM) ||
(pMetadata->unit == meta::U_SAMPLES))
value = truncf(value);
// Normalize value
value = (max != min) ? (value - min) / (max - min) : 0.0f;
}
// lsp_trace("result = %.3f", value);
return value;
}
float from_vst(float value)
{
// lsp_trace("input = %.3f", value);
// Set value as integer or normalized
float min = 0.0f, max = 1.0f, step = 0.0f;
get_port_parameters(pMetadata, &min, &max, &step);
if ((meta::is_gain_unit(pMetadata->unit)) || (meta::is_log_rule(pMetadata)))
{
// float p_value = value;
float thresh = (pMetadata->flags & meta::F_EXT) ? GAIN_AMP_M_140_DB : GAIN_AMP_M_80_DB;
float l_step = log(step + 1.0f) * 0.1f;
float l_thresh = log(thresh);
float l_min = (fabs(min) < thresh) ? (l_thresh - l_step) : (log(min));
float l_max = (fabs(max) < thresh) ? (l_thresh - l_step) : (log(max));
value = value * (l_max - l_min) + l_min;
value = (value < l_thresh) ? 0.0f : expf(value);
// lsp_trace("%s = %f (%f, %f, %f) -> %f (%f, %f, %f)",
// pMetadata->id,
// p_value,
// l_thresh, l_min, l_max,
// value,
// min, max, step);
}
else if (pMetadata->unit == meta::U_BOOL)
{
value = (value >= 0.5f) ? max : min;
}
else
{
value = min + value * (max - min);
if ((pMetadata->flags & meta::F_INT) ||
(pMetadata->unit == meta::U_ENUM) ||
(pMetadata->unit == meta::U_SAMPLES))
value = truncf(value);
}
// lsp_trace("result = %.3f", value);
return value;
}
public:
explicit Port(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback): plug::IPort(meta)
{
pEffect = effect;
hCallback = callback;
nID = -1;
}
virtual ~Port()
{
pEffect = NULL;
hCallback = NULL;
nID = -1;
}
public:
inline AEffect *effect() { return pEffect; };
inline audioMasterCallback callback() { return hCallback; };
inline ssize_t id() const { return nID; };
inline void set_id(ssize_t id) { nID = id; };
inline VstIntPtr masterCallback(VstInt32 opcode, VstInt32 index, VstIntPtr value, void* ptr, float opt)
{
return hCallback(pEffect, opcode, index, value, ptr, opt);
}
/**
* Commit scalar value to the port
* @param value scalar value to commit
*/
virtual void write_value(float value) {}
/**
* Ensure that port is serializable
* @return true if port is serializable
*/
virtual bool serializable() const { return false; }
/** Serialize the state of the port to the chunk
*
* @param chunk chunk to perform serialization
*/
virtual void serialize(vst2::chunk_t *chunk) {}
/** Deserialize the state of the port from the chunk (legacy version)
*
* @param data data buffer
* @param length length of the buffer in bytes
* @return number of bytes deserialized or error
*/
virtual ssize_t deserialize_v1(const void *data, size_t length)
{
return -1;
}
/**
* Deserialize the state of the port from the chunk data, data pointer should
* be updated
* @param data chunk data
* @param limit the data size
* @return true on success
*/
virtual bool deserialize_v2(const uint8_t *data, size_t size)
{
return true;
}
};
class PortGroup: public Port
{
private:
float nCurrRow;
size_t nCols;
size_t nRows;
uatomic_t nSID; // Serial ID of the parameter
public:
explicit PortGroup(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback):
Port(meta, effect, callback)
{
nCurrRow = meta->start;
nCols = port_list_size(meta->members);
nRows = list_size(meta->items);
nSID = 0;
}
virtual ~PortGroup()
{
nCurrRow = 0;
nCols = 0;
nRows = 0;
nSID = 0;
}
public:
virtual void set_value(float value)
{
int32_t v = value;
if ((v >= 0) && (v < ssize_t(nRows)))
nCurrRow = v;
}
virtual float value()
{
return nCurrRow;
}
inline uatomic_t sid()
{
return nSID;
}
virtual bool serializable() const { return true; }
virtual void serialize(vst2::chunk_t *chunk)
{
chunk->write(CPU_TO_BE(int32_t(nCurrRow)));
}
virtual ssize_t deserialize_v1(const void *data, size_t length)
{
if (length < sizeof(int32_t))
return -1;
int32_t value = BE_TO_CPU(*(reinterpret_cast<const int32_t *>(data)));
if ((value >= 0) && (value < ssize_t(nRows)))
{
nCurrRow = value;
atomic_add(&nSID, 1);
}
return sizeof(int32_t);
}
virtual bool deserialize_v2(const uint8_t *data, size_t size)
{
if (size < sizeof(int32_t))
return false;
int32_t v;
IF_UNALIGNED_MEMORY_SAFE(
v = BE_TO_CPU(*(reinterpret_cast<const int32_t *>(data)));
)
IF_UNALIGNED_MEMORY_UNSAFE(
memcpy(&v, data, sizeof(v));
v = BE_TO_CPU(v);
)
if ((v >= 0) && (v < ssize_t(nRows)))
{
nCurrRow = v;
atomic_add(&nSID, 1);
}
return true;
}
public:
inline size_t rows() const { return nRows; }
inline size_t cols() const { return nCols; }
inline size_t curr_row() const { return nCurrRow; }
};
class AudioPort: public Port
{
private:
float *pBuffer;
float *pSanitized;
size_t nBufSize;
public:
explicit AudioPort(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback):
Port(meta, effect, callback)
{
pBuffer = NULL;
pSanitized = NULL;
nBufSize = 0;
}
virtual ~AudioPort()
{
pBuffer = NULL;
if (pSanitized != NULL)
{
::free(pSanitized);
pSanitized = NULL;
nBufSize = 0;
}
};
public:
virtual void *buffer() { return pBuffer; };
void bind(float *data)
{
pBuffer = data;
}
void sanitize_before(size_t samples)
{
if (pSanitized == NULL)
return;
// Perform sanitize() if possible
if (samples > nBufSize)
{
lsp_warn("Could not sanitize buffer data for port %s, not enough buffer size (required: %d, actual: %d)",
pMetadata->id, int(samples), int(nBufSize));
return;
}
// Santize input data and update buffer pointer
dsp::sanitize2(pSanitized, pBuffer, samples);
pBuffer = pSanitized;
};
void sanitize_after(size_t samples)
{
// Sanitize output data
if ((pBuffer != NULL) && (meta::is_out_port(pMetadata)))
dsp::sanitize1(pBuffer, samples);
};
void set_block_size(size_t size)
{
if (!meta::is_in_port(pMetadata))
return;
if (nBufSize == size)
return;
float *buf = reinterpret_cast<float *>(::realloc(pSanitized, sizeof(float) * size));
if (buf == NULL)
{
::free(pSanitized);
pSanitized = NULL;
return;
}
nBufSize = size;
pSanitized = buf;
dsp::fill_zero(pSanitized, nBufSize);
}
};
class ParameterPort: public Port
{
private:
float fValue; // The internal value
float fVstPrev; // Previous value in VST standard notation
float fVstValue; // Current value in VST standard notation
uatomic_t nSID; // Serial ID of the parameter
public:
explicit ParameterPort(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback):
Port(meta, effect, callback)
{
fValue = meta->start;
fVstPrev = to_vst(meta->start);
fVstValue = fVstPrev;
nSID = 0;
}
virtual ~ParameterPort()
{
fValue = pMetadata->start;
fVstPrev = 0.0f;
fVstValue = 0.0f;
nSID = 0;
}
public:
virtual float value()
{
return fValue;
}
virtual void set_value(float value)
{
fValue = meta::limit_value(pMetadata, value);
fVstValue = to_vst(fValue);
}
virtual bool pre_process(size_t samples)
{
if (fVstValue == fVstPrev)
return false;
fVstPrev = fVstValue;
return true;
}
virtual void write_value(float value)
{
set_value(value);
if ((nID >= 0) && (pEffect != NULL) && (hCallback != NULL))
{
lsp_trace("hCallback=%p, pEffect=%p, operation=%d, id=%d, value=%.5f, vst_value=%.5f",
hCallback, pEffect, int(audioMasterAutomate), int(nID), value, fVstValue);
hCallback(pEffect, audioMasterAutomate, nID, 0, NULL, fVstValue);
}
}
void set_vst_value(float value)
{
if (fVstValue == value)
return;
fValue = meta::limit_value(pMetadata, from_vst(value));
fVstValue = value;
atomic_add(&nSID, 1);
}
inline float vst_value()
{
return fVstValue;
}
inline uatomic_t sid()
{
return nSID;
}
virtual bool serializable() const { return true; }
virtual void serialize(vst2::chunk_t *chunk)
{
float v = CPU_TO_BE(fValue);
chunk->write(&v, sizeof(v));
}
virtual ssize_t deserialize_v1(const void *data, size_t length)
{
if (length < sizeof(float))
return -1;
float value = BE_TO_CPU(*(reinterpret_cast<const float *>(data)));
write_value(value);
atomic_add(&nSID, 1);
return sizeof(float);
}
virtual bool deserialize_v2(const uint8_t *data, size_t size)
{
if (size < sizeof(float))
return false;
float v = BE_TO_CPU(*(reinterpret_cast<const float *>(data)));
write_value(v);
atomic_add(&nSID, 1);
return true;
}
};
class MeterPort: public Port
{
public:
float fValue;
bool bForce;
public:
explicit MeterPort(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback):
Port(meta, effect, callback)
{
fValue = meta->start;
bForce = true;
}
virtual ~MeterPort()
{
fValue = pMetadata->start;
}
public:
// Native Interface
virtual float value()
{
return fValue;
}
virtual void set_value(float value)
{
value = meta::limit_value(pMetadata, value);
if (pMetadata->flags & meta::F_PEAK)
{
if ((bForce) || (fabs(fValue) < fabs(value)))
{
fValue = value;
bForce = false;
}
}
else
fValue = value;
}
float sync_value()
{
float value = fValue;
bForce = true;
return value;
}
};
class MeshPort: public Port
{
private:
plug::mesh_t *pMesh;
public:
explicit MeshPort(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback) :
Port(meta, effect, callback)
{
pMesh = vst2::create_mesh(meta);
}
virtual ~MeshPort()
{
vst2::destroy_mesh(pMesh);
pMesh = NULL;
}
public:
virtual void *buffer()
{
return pMesh;
}
};
class StreamPort: public Port
{
private:
plug::stream_t *pStream;
public:
explicit StreamPort(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback):
Port(meta, effect, callback)
{
pStream = plug::stream_t::create(pMetadata->min, pMetadata->max, pMetadata->start);
}
virtual ~StreamPort()
{
if (pStream != NULL)
{
plug::stream_t::destroy(pStream);
pStream = NULL;
}
}
public:
virtual void *buffer()
{
return pStream;
}
};
class FrameBufferPort: public Port
{
private:
plug::frame_buffer_t sFB;
public:
explicit FrameBufferPort(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback):
Port(meta, effect, callback)
{
sFB.init(pMetadata->start, pMetadata->step);
}
virtual ~FrameBufferPort()
{
sFB.destroy();
}
public:
virtual void *buffer()
{
return &sFB;
}
virtual void destroy()
{
sFB.destroy();
}
};
class MidiInputPort: public Port
{
private:
plug::midi_t sQueue; // MIDI event buffer
public:
explicit MidiInputPort(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback):
Port(meta, effect, callback)
{
sQueue.clear();
}
virtual ~MidiInputPort()
{
}
public:
virtual void *buffer()
{
return &sQueue;
}
virtual void post_process(size_t samples)
{
sQueue.clear();
}
public:
void deserialize(const VstEvents *e)
{
size_t count = e->numEvents;
for (size_t i=0; i<count; ++i)
{
// Get event and check type
const VstEvent *ve = e->events[i];
if (ve->type != kVstMidiType)
continue;
// Cast to VST MIDI event
const VstMidiEvent *vme = reinterpret_cast<const VstMidiEvent *>(ve);
const uint8_t *bytes = reinterpret_cast<const uint8_t *>(vme->midiData);
// Decode MIDI event
midi::event_t me;
if (midi::decode(&me, bytes) <= 0)
return;
// Put the event to the queue
me.timestamp = vme->deltaFrames;
// Debug
#ifdef LSP_TRACE
#define TRACE_KEY(x) case midi::MIDI_MSG_ ## x: evt_type = #x; break;
lsp_trace("midi dump: %02x %02x %02x", int(bytes[0]) & 0xff, int(bytes[1]) & 0xff, int(bytes[2]) & 0xff);
char tmp_evt_type[32];
const char *evt_type = NULL;
switch (me.type)
{
TRACE_KEY(NOTE_OFF)
TRACE_KEY(NOTE_ON)
TRACE_KEY(NOTE_PRESSURE)
TRACE_KEY(NOTE_CONTROLLER)
TRACE_KEY(PROGRAM_CHANGE)
TRACE_KEY(CHANNEL_PRESSURE)
TRACE_KEY(PITCH_BEND)
TRACE_KEY(SYSTEM_EXCLUSIVE)
TRACE_KEY(MTC_QUARTER)
TRACE_KEY(SONG_POS)
TRACE_KEY(SONG_SELECT)
TRACE_KEY(TUNE_REQUEST)
TRACE_KEY(END_EXCLUSIVE)
TRACE_KEY(CLOCK)
TRACE_KEY(START)
TRACE_KEY(CONTINUE)
TRACE_KEY(STOP)
TRACE_KEY(ACTIVE_SENSING)
TRACE_KEY(RESET)
default:
snprintf(tmp_evt_type, sizeof(tmp_evt_type), "UNKNOWN(0x%02x)", int(me.type));
evt_type = tmp_evt_type;
break;
}
lsp_trace("MIDI Event: type=%s, timestamp=%ld", evt_type, (long)(me.timestamp));
#undef TRACE_KEY
#endif /* LSP_TRACE */
// Add event to the queue
if (!sQueue.push(me))
lsp_error("MIDI event queue overflow");
}
// We don't know anything about ordering of events, reorder them chronologically
sQueue.sort();
}
};
class MidiOutputPort: public Port
{
private:
plug::midi_t sQueue; // MIDI event buffer
VstEvents *pEvents; // Root pointer to VST MIDI events
VstMidiEvent vEvents[MIDI_EVENTS_MAX]; // Buffer for VST MIDI events
public:
explicit MidiOutputPort(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback):
Port(meta, effect, callback)
{
sQueue.clear();
// Allocate buffer for VST MIDI events
size_t evt_size = align_size(sizeof(VstEvents) + MIDI_EVENTS_MAX * sizeof(VstMidiEvent *), DEFAULT_ALIGN);
pEvents = reinterpret_cast<VstEvents *>(new uint8_t[evt_size]);
}
virtual ~MidiOutputPort()
{
if (pEvents != NULL)
{
delete [] pEvents;
pEvents = NULL;
}
}
public:
virtual void *buffer()
{
return &sQueue;
}
virtual void post_process(size_t samples)
{
// Check that there are pending MIDI events
if (sQueue.nEvents <= 0)
return;
// We don't know anything about ordering of events, reorder them chronologically
sQueue.sort();
// Translate events
pEvents->numEvents = 0;
for (size_t i=0; i<sQueue.nEvents; ++i)
{
const midi::event_t *me = &sQueue.vEvents[i];
VstMidiEvent *dst = &vEvents[pEvents->numEvents];
// Debug
#ifdef LSP_TRACE
#define TRACE_KEY(x) case midi::MIDI_MSG_ ## x: evt_type = #x; break;
char tmp_evt_type[32];
const char *evt_type = NULL;
switch (me->type)
{
TRACE_KEY(NOTE_OFF)
TRACE_KEY(NOTE_ON)
TRACE_KEY(NOTE_PRESSURE)
TRACE_KEY(NOTE_CONTROLLER)
TRACE_KEY(PROGRAM_CHANGE)
TRACE_KEY(CHANNEL_PRESSURE)
TRACE_KEY(PITCH_BEND)
TRACE_KEY(SYSTEM_EXCLUSIVE)
TRACE_KEY(MTC_QUARTER)
TRACE_KEY(SONG_POS)
TRACE_KEY(SONG_SELECT)
TRACE_KEY(TUNE_REQUEST)
TRACE_KEY(END_EXCLUSIVE)
TRACE_KEY(CLOCK)
TRACE_KEY(START)
TRACE_KEY(CONTINUE)
TRACE_KEY(STOP)
TRACE_KEY(ACTIVE_SENSING)
TRACE_KEY(RESET)
default:
snprintf(tmp_evt_type, sizeof(tmp_evt_type), "UNKNOWN(0x%02x)", int(me->type));
evt_type = tmp_evt_type;
break;
}
lsp_trace("MIDI Event: type=%s, timestamp=%ld", evt_type, (long)(me->timestamp));
#undef TRACE_KEY
#endif /* LSP_TRACE */
ssize_t bytes = midi::encode(reinterpret_cast<uint8_t *>(dst->midiData), me);
if (bytes <= 0)
{
lsp_error("Tried to serialize invalid MIDI event");
continue;
}
dst->type = kVstMidiType;
dst->byteSize = sizeof(VstMidiEvent);
dst->deltaFrames = me->timestamp;
dst->flags = (me->type >= midi::MIDI_MSG_CLOCK) ? kVstMidiEventIsRealtime : 0;
dst->noteLength = 0;
dst->noteOffset = 0;
dst->detune = 0;
dst->noteOffVelocity= (me->type == midi::MIDI_MSG_NOTE_OFF) ? me->note.velocity : 0;
lsp_trace("midi dump: %02x %02x %02x",
int(dst->midiData[0]) & 0xff, int(dst->midiData[1]) & 0xff, int(dst->midiData[2]) & 0xff);
// Add pointer to the VST event to the VST eventn list
pEvents->events[pEvents->numEvents++] = reinterpret_cast<VstEvent *>(dst);
}
// Call host to process MIDI events if they are
if (pEvents->numEvents > 0)
{
masterCallback(audioMasterProcessEvents, 0, 0, pEvents, 0.0f);
pEvents->numEvents = 0;
}
sQueue.clear();
}
};
class PathPort: public Port
{
private:
vst2::path_t sPath;
public:
explicit PathPort(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback):
Port(meta, effect, callback)
{
sPath.init();
}
virtual ~PathPort()
{
}
public:
virtual void *buffer()
{
return static_cast<plug::path_t *>(&sPath);
}
virtual bool pre_process(size_t samples)
{
return sPath.pending();
}
size_t sizeof_state()
{
size_t bytes = strlen(sPath.sPath);
if (bytes >= 0x7fff)
bytes = 0x7fff;
if (bytes > 0x7f)
bytes += 2;
else
bytes += 1;
return bytes;
}
virtual void serialize(vst2::chunk_t *chunk)
{
chunk->write_string(sPath.sPath);
}
virtual ssize_t deserialize_v1(const void *data, size_t length)
{
const uint8_t *ptr = reinterpret_cast<const uint8_t *>(data);
const uint8_t *tail = ptr + length;
if (ptr >= tail)
return -1;
// Read length of string
size_t bytes = *(ptr++);
if (bytes & 0x80)
{
if (ptr >= tail)
return -1;
bytes = ((bytes << 8) | (*(ptr++))) & 0x7fff;
}
// Read string
tail -= bytes;
if (ptr > tail)
return -1;
// Submit data
sPath.submit(reinterpret_cast<const char *>(ptr), bytes, false, plug::PF_STATE_RESTORE);
ptr += bytes;
return ptr - reinterpret_cast<const uint8_t *>(data);
}
virtual bool deserialize_v2(const uint8_t *data, size_t size)
{
const char *str = reinterpret_cast<const char *>(data);
size_t len = ::strnlen(str, size) + 1;
if (len > size)
return false;
sPath.submit(str, len, false, plug::PF_STATE_RESTORE);
return true;
}
virtual bool serializable() const { return true; }
};
class OscPort: public Port
{
private:
plug::osc_buffer_t *pFB;
public:
explicit OscPort(const meta::port_t *meta, AEffect *effect, audioMasterCallback callback):
Port(meta, effect, callback)
{
pFB = NULL;
}
virtual ~OscPort()
{
}
public:
virtual void *buffer()
{
return pFB;
}
virtual int init()
{
pFB = plug::osc_buffer_t::create(OSC_BUFFER_MAX);
return (pFB == NULL) ? STATUS_NO_MEM : STATUS_OK;
}
virtual void destroy()
{
if (pFB != NULL)
{
plug::osc_buffer_t::destroy(pFB);
pFB = NULL;
}
}
};
} /* namespace vst2 */
} /* namespace lsp */
#endif /* LSP_PLUG_IN_PLUG_FW_WRAP_VST2_PORTS_H_ */
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