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Zero latency cables \o/ (please test)

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Signed-off-by: falkTX <falktx@falktx.com>
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falkTX 2022-02-05 23:56:14 +00:00
parent 0f66ba9b5b
commit f78879f3e2
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3 changed files with 289 additions and 6 deletions
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268
include/engine/Port.hpp Normal file
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@ -0,0 +1,268 @@
/*
* DISTRHO Cardinal Plugin
* Copyright (C) 2021-2022 Filipe Coelho <falktx@falktx.com>
*
* 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 3 of
* the License, or 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.
*
* For a full copy of the GNU General Public License see the LICENSE file.
*/
/**
* This file is an edited version of VCVRack's engine/Port.hpp
* Copyright (C) 2016-2021 VCV.
*
* 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 3 of
* the License, or (at your option) any later version.
*/
#pragma once
#include <common.hpp>
#include <engine/Light.hpp>
#include <list>
namespace rack {
namespace engine {
/** This is inspired by the number of MIDI channels. */
static const int PORT_MAX_CHANNELS = 16;
struct Cable;
struct Port {
/** Voltage of the port. */
/** NOTE Purposefully renamed in Cardinal as a way to catch plugins using it directly. */
union {
/** Unstable API. Use getVoltage() and setVoltage() instead. */
float cvoltages[PORT_MAX_CHANNELS] = {};
/** DEPRECATED. Unstable API. Use getVoltage() and setVoltage() instead. */
float cvalue;
};
/** Special trickery for backwards compatibility with plugins using DEPRECATED APIs */
struct BackwardsCompatPortValue {
Port* const port;
BackwardsCompatPortValue(Port* p) : port(p) {}
void operator=(float value) { port->setVoltage(value); }
void operator-=(float value) { port->setVoltage(port->cvalue - value); }
void operator+=(float value) { port->setVoltage(port->cvalue + value); }
void operator*=(float value) { port->setVoltage(port->cvalue * value); }
void operator/=(float value) { port->setVoltage(port->cvalue / value); }
operator float() const { return port->cvalue; }
} value;
Port() : value(this) {}
union {
/** Number of polyphonic channels.
DEPRECATED. Unstable API. Use set/getChannels() instead.
May be 0 to PORT_MAX_CHANNELS.
0 channels means disconnected.
*/
uint8_t channels = 0;
/** DEPRECATED. Unstable API. Use isConnected() instead. */
uint8_t active;
};
/** For rendering plug lights on cables.
Green for positive, red for negative, and blue for polyphonic.
*/
Light plugLights[3];
enum Type {
INPUT,
OUTPUT,
};
/** Cables connected to this output port. */
std::list<Cable*> cables;
/** Step-through the cables.
Called whenever voltage changes, required for zero latency operation. */
void stepCables();
/** Sets the voltage of the given channel. */
void setVoltage(float voltage, int channel = 0) {
cvoltages[channel] = voltage;
stepCables();
}
/** Returns the voltage of the given channel.
Because of proper bookkeeping, all channels higher than the input port's number of channels should be 0V.
*/
float getVoltage(int channel = 0) {
return cvoltages[channel];
}
/** Returns the given channel's voltage if the port is polyphonic, otherwise returns the first voltage (channel 0). */
float getPolyVoltage(int channel) {
return isMonophonic() ? getVoltage(0) : getVoltage(channel);
}
/** Returns the voltage if a cable is connected, otherwise returns the given normal voltage. */
float getNormalVoltage(float normalVoltage, int channel = 0) {
return isConnected() ? getVoltage(channel) : normalVoltage;
}
float getNormalPolyVoltage(float normalVoltage, int channel) {
return isConnected() ? getPolyVoltage(channel) : normalVoltage;
}
/** Returns a pointer to the array of voltages beginning with firstChannel.
The pointer can be used for reading and writing.
*/
float* getVoltages(int firstChannel = 0) {
return &cvoltages[firstChannel];
}
/** Copies the port's voltages to an array of size at least `channels`. */
void readVoltages(float* v) {
for (int c = 0; c < channels; c++) {
v[c] = cvoltages[c];
}
}
/** Copies an array of size at least `channels` to the port's voltages.
Remember to set the number of channels *before* calling this method.
*/
void writeVoltages(const float* v) {
for (int c = 0; c < channels; c++) {
cvoltages[c] = v[c];
}
stepCables();
}
/** Sets all voltages to 0. */
void clearVoltages() {
for (int c = 0; c < channels; c++) {
cvoltages[c] = 0.f;
}
stepCables();
}
/** Returns the sum of all voltages. */
float getVoltageSum() {
float sum = 0.f;
for (int c = 0; c < channels; c++) {
sum += cvoltages[c];
}
return sum;
}
/** Returns the root-mean-square of all voltages.
Uses sqrt() which is slow, so use a custom approximation if calling frequently.
*/
float getVoltageRMS() {
if (channels == 0) {
return 0.f;
}
else if (channels == 1) {
return std::fabs(cvoltages[0]);
}
else {
float sum = 0.f;
for (int c = 0; c < channels; c++) {
sum += std::pow(cvoltages[c], 2);
}
return std::sqrt(sum);
}
}
template <typename T>
T getVoltageSimd(int firstChannel) {
return T::load(&cvoltages[firstChannel]);
}
template <typename T>
T getPolyVoltageSimd(int firstChannel) {
return isMonophonic() ? getVoltage(0) : getVoltageSimd<T>(firstChannel);
}
template <typename T>
T getNormalVoltageSimd(T normalVoltage, int firstChannel) {
return isConnected() ? getVoltageSimd<T>(firstChannel) : normalVoltage;
}
template <typename T>
T getNormalPolyVoltageSimd(T normalVoltage, int firstChannel) {
return isConnected() ? getPolyVoltageSimd<T>(firstChannel) : normalVoltage;
}
template <typename T>
void setVoltageSimd(T voltage, int firstChannel) {
voltage.store(&cvoltages[firstChannel]);
stepCables();
}
/** Sets the number of polyphony channels.
Also clears voltages of higher channels.
If disconnected, this does nothing (`channels` remains 0).
If 0 is given, `channels` is set to 1 but all voltages are cleared.
*/
void setChannels(int channels) {
// If disconnected, keep the number of channels at 0.
if (this->channels == 0) {
return;
}
// Set higher channel voltages to 0
for (int c = channels; c < this->channels; c++) {
cvoltages[c] = 0.f;
}
// Don't allow caller to set port as disconnected
if (channels == 0) {
channels = 1;
}
this->channels = channels;
}
/** Returns the number of channels.
If the port is disconnected, it has 0 channels.
*/
int getChannels() {
return channels;
}
/** Returns whether a cable is connected to the Port.
You can use this for skipping code that generates output voltages.
*/
bool isConnected() {
return channels > 0;
}
/** Returns whether the cable exists and has 1 channel. */
bool isMonophonic() {
return channels == 1;
}
/** Returns whether the cable exists and has more than 1 channel. */
bool isPolyphonic() {
return channels > 1;
}
/** Use getNormalVoltage() instead. */
DEPRECATED float normalize(float normalVoltage) {
return getNormalVoltage(normalVoltage);
}
};
struct Output : Port {};
struct Input : Port {};
} // namespace engine
} // namespace rack

2
plugins/Bidoo

@ -1 +1 @@
Subproject commit e55fcd2e1d7c0fef69d4919baac6f791172c89ca Subproject commit 988c2372a95d163b71d04b217080e612b767c539

25
src/override/Engine.cpp
View file

@ -124,23 +124,30 @@ static void Cable_step(Cable* that) {
Output* output = &that->outputModule->outputs[that->outputId]; Output* output = &that->outputModule->outputs[that->outputId];
Input* input = &that->inputModule->inputs[that->inputId]; Input* input = &that->inputModule->inputs[that->inputId];
// Match number of polyphonic channels to output port // Match number of polyphonic channels to output port
int channels = output->channels; const int channels = output->channels;
// Copy all voltages from output to input // Copy all voltages from output to input
for (int c = 0; c < channels; c++) { for (int c = 0; c < channels; c++) {
float v = output->voltages[c]; float v = output->cvoltages[c];
// Set 0V if infinite or NaN // Set 0V if infinite or NaN
if (!std::isfinite(v)) if (!std::isfinite(v))
v = 0.f; v = 0.f;
input->voltages[c] = v; input->cvoltages[c] = v;
} }
// Set higher channel voltages to 0 // Set higher channel voltages to 0
for (int c = channels; c < input->channels; c++) { for (int c = channels; c < input->channels; c++) {
input->voltages[c] = 0.f; input->cvoltages[c] = 0.f;
} }
input->channels = channels; input->channels = channels;
} }
void Port::stepCables()
{
for (Cable* cable : cables)
Cable_step(cable);
}
/** Steps a single frame /** Steps a single frame
*/ */
static void Engine_stepFrame(Engine* that) { static void Engine_stepFrame(Engine* that) {
@ -167,10 +174,13 @@ static void Engine_stepFrame(Engine* that) {
} }
} }
/* NOTE this is likely not needed in Cardinal, but needs testing.
* Leaving it as comment in case we need it bring it back
// Step cables // Step cables
for (Cable* cable : internal->cables) { for (Cable* cable : internal->cables) {
Cable_step(cable); Cable_step(cable);
} }
*/
// Flip messages for each module // Flip messages for each module
for (Module* module : internal->modules) { for (Module* module : internal->modules) {
@ -202,7 +212,7 @@ static void Engine_stepFrame(Engine* that) {
static void Port_setDisconnected(Port* that) { static void Port_setDisconnected(Port* that) {
that->channels = 0; that->channels = 0;
for (int c = 0; c < PORT_MAX_CHANNELS; c++) { for (int c = 0; c < PORT_MAX_CHANNELS; c++) {
that->voltages[c] = 0.f; that->cvoltages[c] = 0.f;
} }
} }
@ -242,6 +252,7 @@ static void Engine_updateConnected(Engine* that) {
// Disconnect ports that have no cable // Disconnect ports that have no cable
for (Port* port : disconnectedPorts) { for (Port* port : disconnectedPorts) {
Port_setDisconnected(port); Port_setDisconnected(port);
DISTRHO_SAFE_ASSERT(port->cables.empty());
} }
} }
@ -719,6 +730,8 @@ void Engine::addCable(Cable* cable) {
// Add the cable // Add the cable
internal->cables.push_back(cable); internal->cables.push_back(cable);
internal->cablesCache[cable->id] = cable; internal->cablesCache[cable->id] = cable;
// Add the cable's zero-latency shortcut
cable->outputModule->outputs[cable->outputId].cables.push_back(cable);
Engine_updateConnected(this); Engine_updateConnected(this);
// Dispatch input port event // Dispatch input port event
{ {
@ -750,6 +763,8 @@ void Engine::removeCable_NoLock(Cable* cable) {
// Check that the cable is already added // Check that the cable is already added
auto it = std::find(internal->cables.begin(), internal->cables.end(), cable); auto it = std::find(internal->cables.begin(), internal->cables.end(), cable);
DISTRHO_SAFE_ASSERT_RETURN(it != internal->cables.end(),); DISTRHO_SAFE_ASSERT_RETURN(it != internal->cables.end(),);
// Remove the cable's zero-latency shortcut
cable->outputModule->outputs[cable->outputId].cables.remove(cable);
// Remove the cable // Remove the cable
internal->cablesCache.erase(cable->id); internal->cablesCache.erase(cable->id);
internal->cables.erase(it); internal->cables.erase(it);