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Introduce clamp as a template function (#1953)
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@ -94,7 +94,7 @@ void LgIrClimate::transmit_state() {
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// remote_state |= FAN_MODE_AUTO_DRY;
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}
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if (this->mode == climate::CLIMATE_MODE_COOL || this->mode == climate::CLIMATE_MODE_HEAT) {
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auto temp = (uint8_t) roundf(clamp(this->target_temperature, TEMP_MIN, TEMP_MAX));
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auto temp = (uint8_t) roundf(clamp<float>(this->target_temperature, TEMP_MIN, TEMP_MAX));
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remote_state |= ((temp - 15) << TEMP_SHIFT);
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}
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}
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@ -84,7 +84,7 @@ void CoolixClimate::transmit_state() {
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}
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if (this->mode != climate::CLIMATE_MODE_OFF) {
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if (this->mode != climate::CLIMATE_MODE_FAN_ONLY) {
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auto temp = (uint8_t) roundf(clamp(this->target_temperature, COOLIX_TEMP_MIN, COOLIX_TEMP_MAX));
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auto temp = (uint8_t) roundf(clamp<float>(this->target_temperature, COOLIX_TEMP_MIN, COOLIX_TEMP_MAX));
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remote_state |= COOLIX_TEMP_MAP[temp - COOLIX_TEMP_MIN];
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} else {
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remote_state |= COOLIX_FAN_TEMP_CODE;
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@ -135,7 +135,7 @@ uint8_t DaikinClimate::temperature_() {
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case climate::CLIMATE_MODE_DRY:
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return 0xc0;
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default:
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uint8_t temperature = (uint8_t) roundf(clamp(this->target_temperature, DAIKIN_TEMP_MIN, DAIKIN_TEMP_MAX));
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uint8_t temperature = (uint8_t) roundf(clamp<float>(this->target_temperature, DAIKIN_TEMP_MIN, DAIKIN_TEMP_MAX));
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return temperature << 1;
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}
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}
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@ -6,7 +6,7 @@ namespace fan {
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FanSpeed speed_level_to_enum(int speed_level, int supported_speed_levels) {
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const auto speed_ratio = static_cast<float>(speed_level) / (supported_speed_levels + 1);
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const auto legacy_level = static_cast<int>(clamp(ceilf(speed_ratio * 3), 1, 3));
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const auto legacy_level = clamp<int>(static_cast<int>(ceilf(speed_ratio * 3)), 1, 3);
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return static_cast<FanSpeed>(legacy_level - 1);
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}
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@ -54,7 +54,7 @@ void FanStateCall::perform() const {
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}
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if (this->speed_.has_value()) {
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const int speed_count = this->state_->get_traits().supported_speed_count();
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this->state_->speed = static_cast<int>(clamp(*this->speed_, 1, speed_count));
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this->state_->speed = clamp(*this->speed_, 1, speed_count);
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}
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FanStateRTCState saved{};
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@ -110,7 +110,7 @@ void FujitsuGeneralClimate::transmit_state() {
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// Set temperature
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uint8_t temperature_clamped =
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(uint8_t) roundf(clamp(this->target_temperature, FUJITSU_GENERAL_TEMP_MIN, FUJITSU_GENERAL_TEMP_MAX));
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(uint8_t) roundf(clamp<float>(this->target_temperature, FUJITSU_GENERAL_TEMP_MIN, FUJITSU_GENERAL_TEMP_MAX));
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uint8_t temperature_offset = temperature_clamped - FUJITSU_GENERAL_TEMP_MIN;
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SET_NIBBLE(remote_state, FUJITSU_GENERAL_TEMPERATURE_NIBBLE, temperature_offset);
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@ -42,8 +42,8 @@ void MitsubishiClimate::transmit_state() {
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break;
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}
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remote_state[7] =
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(uint8_t) roundf(clamp(this->target_temperature, MITSUBISHI_TEMP_MIN, MITSUBISHI_TEMP_MAX) - MITSUBISHI_TEMP_MIN);
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remote_state[7] = (uint8_t) roundf(clamp<float>(this->target_temperature, MITSUBISHI_TEMP_MIN, MITSUBISHI_TEMP_MAX) -
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MITSUBISHI_TEMP_MIN);
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ESP_LOGV(TAG, "Sending Mitsubishi target temp: %.1f state: %02X mode: %02X temp: %02X", this->target_temperature,
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remote_state[5], remote_state[6], remote_state[7]);
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@ -130,7 +130,7 @@ void SSD1306::update() {
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}
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void SSD1306::set_brightness(float brightness) {
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// validation
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this->brightness_ = clamp(brightness, 0, 1);
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this->brightness_ = clamp(brightness, 0.0F, 1.0F);
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// now write the new brightness level to the display
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this->command(SSD1306_COMMAND_SET_CONTRAST);
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this->command(int(SSD1306_MAX_CONTRAST * (this->brightness_)));
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@ -126,7 +126,7 @@ void SSD1322::update() {
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this->display();
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}
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void SSD1322::set_brightness(float brightness) {
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this->brightness_ = clamp(brightness, 0, 1);
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this->brightness_ = clamp(brightness, 0.0F, 1.0F);
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// now write the new brightness level to the display
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this->command(SSD1322_SETCONTRAST);
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this->data(int(SSD1322_MAX_CONTRAST * (this->brightness_)));
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@ -100,7 +100,7 @@ void SSD1327::update() {
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}
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void SSD1327::set_brightness(float brightness) {
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// validation
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this->brightness_ = clamp(brightness, 0, 1);
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this->brightness_ = clamp(brightness, 0.0F, 1.0F);
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// now write the new brightness level to the display
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this->command(SSD1327_SETCONTRAST);
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this->command(int(SSD1327_MAX_CONTRAST * (this->brightness_)));
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@ -97,7 +97,7 @@ void SSD1331::update() {
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}
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void SSD1331::set_brightness(float brightness) {
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// validation
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this->brightness_ = clamp(brightness, 0, 1);
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this->brightness_ = clamp(brightness, 0.0F, 1.0F);
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// now write the new brightness level to the display
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this->command(SSD1331_CONTRASTA); // 0x81
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this->command(int(SSD1331_MAX_CONTRASTA * (this->brightness_)));
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@ -287,13 +287,16 @@ void HighFrequencyLoopRequester::stop() {
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}
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bool HighFrequencyLoopRequester::is_high_frequency() { return high_freq_num_requests > 0; }
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float clamp(float val, float min, float max) {
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template<typename T> T clamp(const T val, const T min, const T max) {
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if (val < min)
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return min;
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if (val > max)
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return max;
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return val;
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}
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template float clamp(float, float, float);
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template int clamp(int, int, int);
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float lerp(float completion, float start, float end) { return start + (end - start) * completion; }
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bool str_startswith(const std::string &full, const std::string &start) { return full.rfind(start, 0) == 0; }
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@ -80,7 +80,7 @@ class HighFrequencyLoopRequester {
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* @param max The maximum value.
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* @return val clamped in between min and max.
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*/
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float clamp(float val, float min, float max);
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template<typename T> T clamp(T val, T min, T max);
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/** Linearly interpolate between end start and end by completion.
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*
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