bd601ad2da
* first commit of PWM outputs
* fix pin deallocation issue
* refactoring
* removed debug prints
* fix compile error
* added readme
* added compile error for ESP8266
* added overloaded SetDuty method
* convert state to separate nested object
* Revert "added overloaded SetDuty method"
This reverts commit e8ea32f577
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* move constant strings to flash
* reworked json info and config
* bugfixes
* more bugfixes
* updated readme
* use C strings instead of String
* added uint8 and uint16 overloads for SetDuty
* removed ambiguous overload
222 lines
5.7 KiB
C++
222 lines
5.7 KiB
C++
#pragma once
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#include "wled.h"
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#ifndef ESP32
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#error This usermod does not support the ESP8266.
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#endif
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#ifndef USERMOD_PWM_OUTPUT_PINS
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#define USERMOD_PWM_OUTPUT_PINS 3
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#endif
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class PwmOutput {
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public:
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void open(int8_t pin, uint32_t freq) {
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if (enabled_) {
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if (pin == pin_ && freq == freq_) {
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return; // PWM output is already open
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} else {
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close(); // Config has changed, close and reopen
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}
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}
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pin_ = pin;
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freq_ = freq;
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if (pin_ < 0)
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return;
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DEBUG_PRINTF("pwm_output[%d]: setup to freq %d\n", pin_, freq_);
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if (!pinManager.allocatePin(pin_, true, PinOwner::UM_PWM_OUTPUTS))
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return;
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channel_ = pinManager.allocateLedc(1);
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if (channel_ == 255) {
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DEBUG_PRINTF("pwm_output[%d]: failed to quire ledc\n", pin_);
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pinManager.deallocatePin(pin_, PinOwner::UM_PWM_OUTPUTS);
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return;
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}
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ledcSetup(channel_, freq_, bit_depth_);
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ledcAttachPin(pin_, channel_);
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DEBUG_PRINTF("pwm_output[%d]: init successful\n", pin_);
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enabled_ = true;
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}
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void close() {
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DEBUG_PRINTF("pwm_output[%d]: close\n", pin_);
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if (!enabled_)
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return;
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pinManager.deallocatePin(pin_, PinOwner::UM_PWM_OUTPUTS);
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if (channel_ != 255)
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pinManager.deallocateLedc(channel_, 1);
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channel_ = 255;
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duty_ = 0.0f;
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enabled_ = false;
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}
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void setDuty(const float duty) {
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DEBUG_PRINTF("pwm_output[%d]: set duty %f\n", pin_, duty);
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if (!enabled_)
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return;
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duty_ = min(1.0f, max(0.0f, duty));
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const uint32_t value = static_cast<uint32_t>((1 << bit_depth_) * duty_);
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ledcWrite(channel_, value);
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}
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void setDuty(const uint16_t duty) {
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setDuty(static_cast<float>(duty) / 65535.0f);
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}
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bool isEnabled() const {
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return enabled_;
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}
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void addToJsonState(JsonObject& pwmState) const {
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pwmState[F("duty")] = duty_;
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}
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void readFromJsonState(JsonObject& pwmState) {
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if (pwmState.isNull()) {
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return;
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}
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float duty;
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if (getJsonValue(pwmState[F("duty")], duty)) {
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setDuty(duty);
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}
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}
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void addToJsonInfo(JsonObject& user) const {
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if (!enabled_)
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return;
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char buffer[12];
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sprintf_P(buffer, PSTR("PWM pin %d"), pin_);
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JsonArray data = user.createNestedArray(buffer);
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data.add(1e2f * duty_);
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data.add(F("%"));
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}
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void addToConfig(JsonObject& pwmConfig) const {
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pwmConfig[F("pin")] = pin_;
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pwmConfig[F("freq")] = freq_;
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}
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bool readFromConfig(JsonObject& pwmConfig) {
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if (pwmConfig.isNull())
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return false;
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bool configComplete = true;
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int8_t newPin = pin_;
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uint32_t newFreq = freq_;
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configComplete &= getJsonValue(pwmConfig[F("pin")], newPin);
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configComplete &= getJsonValue(pwmConfig[F("freq")], newFreq);
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open(newPin, newFreq);
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return configComplete;
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}
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private:
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int8_t pin_ {-1};
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uint32_t freq_ {50};
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static const uint8_t bit_depth_ {12};
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uint8_t channel_ {255};
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float duty_ {0.0f};
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bool enabled_ {false};
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};
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class PwmOutputsUsermod : public Usermod {
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public:
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static const char USERMOD_NAME[];
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static const char PWM_STATE_NAME[];
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void setup() {
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// By default all PWM outputs are disabled, no setup do be done
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}
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void loop() {
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}
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void addToJsonState(JsonObject& root) {
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JsonObject pwmStates = root.createNestedObject(PWM_STATE_NAME);
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for (int i = 0; i < USERMOD_PWM_OUTPUT_PINS; i++) {
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const PwmOutput& pwm = pwms_[i];
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if (!pwm.isEnabled())
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continue;
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char buffer[4];
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sprintf_P(buffer, PSTR("%d"), i);
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JsonObject pwmState = pwmStates.createNestedObject(buffer);
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pwm.addToJsonState(pwmState);
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}
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}
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void readFromJsonState(JsonObject& root) {
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JsonObject pwmStates = root[PWM_STATE_NAME];
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if (pwmStates.isNull())
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return;
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for (int i = 0; i < USERMOD_PWM_OUTPUT_PINS; i++) {
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PwmOutput& pwm = pwms_[i];
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if (!pwm.isEnabled())
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continue;
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char buffer[4];
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sprintf_P(buffer, PSTR("%d"), i);
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JsonObject pwmState = pwmStates[buffer];
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pwm.readFromJsonState(pwmState);
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}
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}
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void addToJsonInfo(JsonObject& root) {
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JsonObject user = root[F("u")];
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if (user.isNull())
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user = root.createNestedObject(F("u"));
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for (int i = 0; i < USERMOD_PWM_OUTPUT_PINS; i++) {
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const PwmOutput& pwm = pwms_[i];
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pwm.addToJsonInfo(user);
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}
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}
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void addToConfig(JsonObject& root) {
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JsonObject top = root.createNestedObject(USERMOD_NAME);
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for (int i = 0; i < USERMOD_PWM_OUTPUT_PINS; i++) {
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const PwmOutput& pwm = pwms_[i];
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char buffer[8];
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sprintf_P(buffer, PSTR("PWM %d"), i);
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JsonObject pwmConfig = top.createNestedObject(buffer);
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pwm.addToConfig(pwmConfig);
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}
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}
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bool readFromConfig(JsonObject& root) {
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JsonObject top = root[USERMOD_NAME];
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if (top.isNull())
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return false;
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bool configComplete = true;
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for (int i = 0; i < USERMOD_PWM_OUTPUT_PINS; i++) {
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PwmOutput& pwm = pwms_[i];
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char buffer[8];
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sprintf_P(buffer, PSTR("PWM %d"), i);
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JsonObject pwmConfig = top[buffer];
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configComplete &= pwm.readFromConfig(pwmConfig);
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}
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return configComplete;
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}
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uint16_t getId() {
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return USERMOD_ID_PWM_OUTPUTS;
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}
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private:
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PwmOutput pwms_[USERMOD_PWM_OUTPUT_PINS];
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};
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const char PwmOutputsUsermod::USERMOD_NAME[] PROGMEM = "PwmOutputs";
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const char PwmOutputsUsermod::PWM_STATE_NAME[] PROGMEM = "pwm";
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