Upgrade clang-format to v13 (#4535)

* Upgrade clang-format to v13

* Apply clang-format-13 formatting changes

* Format

* Format bme_680

---------

Co-authored-by: Jesse Hills <3060199+jesserockz@users.noreply.github.com>
This commit is contained in:
Oxan van Leeuwen 2023-03-20 04:38:41 +01:00 committed by GitHub
parent f0f6d3f1cd
commit 14e38f0469
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
55 changed files with 182 additions and 179 deletions

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@ -51,6 +51,6 @@
"files.associations": {
"**/.vscode/*.json": "jsonc"
},
"C_Cpp.clang_format_path": "/usr/bin/clang-format-11",
"C_Cpp.clang_format_path": "/usr/bin/clang-format-13",
}
}

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@ -133,7 +133,7 @@ jobs:
- name: Install clang tools
run: |
sudo apt-get install \
clang-format-11 \
clang-format-13 \
clang-tidy-11
if: matrix.id == 'clang-tidy' || matrix.id == 'clang-format'

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@ -135,7 +135,7 @@ RUN \
apt-get update \
# Use pinned versions so that we get updates with build caching
&& apt-get install -y --no-install-recommends \
clang-format-11=1:11.0.1-2 \
clang-format-13=1:13.0.1-6~deb11u1 \
clang-tidy-11=1:11.0.1-2 \
patch=2.7.6-7 \
software-properties-common=0.96.20.2-2.1 \

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@ -65,7 +65,7 @@ void Am43Component::control(const CoverCall &call) {
if (this->invert_position_)
pos = 1 - pos;
auto *packet = this->encoder_->get_set_position_request(100 - (uint8_t)(pos * 100));
auto *packet = this->encoder_->get_set_position_request(100 - (uint8_t) (pos * 100));
auto status =
esp_ble_gattc_write_char(this->parent_->get_gattc_if(), this->parent_->get_conn_id(), this->char_handle_,
packet->length, packet->data, ESP_GATT_WRITE_TYPE_NO_RSP, ESP_GATT_AUTH_REQ_NONE);

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@ -295,7 +295,7 @@ APIError APINoiseFrameHelper::state_action_() {
if (aerr != APIError::OK)
return aerr;
// ignore contents, may be used in future for flags
prologue_.push_back((uint8_t)(frame.msg.size() >> 8));
prologue_.push_back((uint8_t) (frame.msg.size() >> 8));
prologue_.push_back((uint8_t) frame.msg.size());
prologue_.insert(prologue_.end(), frame.msg.begin(), frame.msg.end());
@ -492,9 +492,9 @@ APIError APINoiseFrameHelper::write_packet(uint16_t type, const uint8_t *payload
// tmpbuf[1], tmpbuf[2] to be set later
const uint8_t msg_offset = 3;
const uint8_t payload_offset = msg_offset + 4;
tmpbuf[msg_offset + 0] = (uint8_t)(type >> 8); // type
tmpbuf[msg_offset + 0] = (uint8_t) (type >> 8); // type
tmpbuf[msg_offset + 1] = (uint8_t) type;
tmpbuf[msg_offset + 2] = (uint8_t)(payload_len >> 8); // data_len
tmpbuf[msg_offset + 2] = (uint8_t) (payload_len >> 8); // data_len
tmpbuf[msg_offset + 3] = (uint8_t) payload_len;
// copy data
std::copy(payload, payload + payload_len, &tmpbuf[payload_offset]);
@ -512,7 +512,7 @@ APIError APINoiseFrameHelper::write_packet(uint16_t type, const uint8_t *payload
}
size_t total_len = 3 + mbuf.size;
tmpbuf[1] = (uint8_t)(mbuf.size >> 8);
tmpbuf[1] = (uint8_t) (mbuf.size >> 8);
tmpbuf[2] = (uint8_t) mbuf.size;
struct iovec iov;
@ -610,7 +610,7 @@ APIError APINoiseFrameHelper::write_raw_(const struct iovec *iov, int iovcnt) {
APIError APINoiseFrameHelper::write_frame_(const uint8_t *data, size_t len) {
uint8_t header[3];
header[0] = 0x01; // indicator
header[1] = (uint8_t)(len >> 8);
header[1] = (uint8_t) (len >> 8);
header[2] = (uint8_t) len;
struct iovec iov[2];

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@ -1,6 +1,6 @@
#include "bme680.h"
#include "esphome/core/log.h"
#include "esphome/core/hal.h"
#include "esphome/core/log.h"
namespace esphome {
namespace bme680 {
@ -275,8 +275,8 @@ uint8_t BME680Component::calc_heater_resistance_(uint16_t temperature) {
var3 = var1 + (var2 / 2);
var4 = (var3 / (res_heat_range + 4));
var5 = (131 * res_heat_val) + 65536;
heatr_res_x100 = (int32_t)(((var4 / var5) - 250) * 34);
heatr_res = (uint8_t)((heatr_res_x100 + 50) / 100);
heatr_res_x100 = (int32_t) (((var4 / var5) - 250) * 34);
heatr_res = (uint8_t) ((heatr_res_x100 + 50) / 100);
return heatr_res;
}
@ -316,7 +316,7 @@ void BME680Component::read_data_() {
uint32_t raw_temperature = (uint32_t(data[5]) << 12) | (uint32_t(data[6]) << 4) | (uint32_t(data[7]) >> 4);
uint32_t raw_pressure = (uint32_t(data[2]) << 12) | (uint32_t(data[3]) << 4) | (uint32_t(data[4]) >> 4);
uint32_t raw_humidity = (uint32_t(data[8]) << 8) | uint32_t(data[9]);
uint16_t raw_gas = (uint16_t)((uint32_t) data[13] * 4 | (((uint32_t) data[14]) / 64));
uint16_t raw_gas = (uint16_t) ((uint32_t) data[13] * 4 | (((uint32_t) data[14]) / 64));
uint8_t gas_range = data[14] & 0x0F;
float temperature = this->calc_temperature_(raw_temperature);

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@ -145,8 +145,8 @@ void CCS811Component::send_env_data_() {
// https://github.com/adafruit/Adafruit_CCS811/blob/0990f5c620354d8bc087c4706bec091d8e6e5dfd/Adafruit_CCS811.cpp#L135-L142
uint16_t hum_conv = static_cast<uint16_t>(lroundf(humidity * 512.0f + 0.5f));
uint16_t temp_conv = static_cast<uint16_t>(lroundf(temperature * 512.0f + 0.5f));
this->write_bytes(0x05, {(uint8_t)((hum_conv >> 8) & 0xff), (uint8_t)((hum_conv & 0xff)),
(uint8_t)((temp_conv >> 8) & 0xff), (uint8_t)((temp_conv & 0xff))});
this->write_bytes(0x05, {(uint8_t) ((hum_conv >> 8) & 0xff), (uint8_t) ((hum_conv & 0xff)),
(uint8_t) ((temp_conv >> 8) & 0xff), (uint8_t) ((temp_conv & 0xff))});
}
void CCS811Component::dump_config() {
ESP_LOGCONFIG(TAG, "CCS811");

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@ -305,7 +305,7 @@ bool CS5460AComponent::check_status_() {
voltage_sensor_->publish_state(raw_voltage * voltage_multiplier_);
if (power_sensor_ != nullptr && raw_energy != prev_raw_energy_) {
int32_t raw = (int32_t)(raw_energy << 8) >> 8; /* Sign-extend */
int32_t raw = (int32_t) (raw_energy << 8) >> 8; /* Sign-extend */
power_sensor_->publish_state(raw * power_multiplier_);
prev_raw_energy_ = raw_energy;
}

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@ -61,8 +61,8 @@ void DalyBmsComponent::request_data_(uint8_t data_id) {
request_message[9] = 0x00; // |
request_message[10] = 0x00; // |
request_message[11] = 0x00; // Empty Data
request_message[12] = (uint8_t)(request_message[0] + request_message[1] + request_message[2] +
request_message[3]); // Checksum (Lower byte of the other bytes sum)
request_message[12] = (uint8_t) (request_message[0] + request_message[1] + request_message[2] +
request_message[3]); // Checksum (Lower byte of the other bytes sum)
this->write_array(request_message, sizeof(request_message));
this->flush();

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@ -19,7 +19,7 @@ void DFPlayer::play_folder(uint16_t folder, uint16_t file) {
}
void DFPlayer::send_cmd_(uint8_t cmd, uint16_t argument) {
uint8_t buffer[10]{0x7e, 0xff, 0x06, cmd, 0x01, (uint8_t)(argument >> 8), (uint8_t) argument, 0x00, 0x00, 0xef};
uint8_t buffer[10]{0x7e, 0xff, 0x06, cmd, 0x01, (uint8_t) (argument >> 8), (uint8_t) argument, 0x00, 0x00, 0xef};
uint16_t checksum = 0;
for (uint8_t i = 1; i < 7; i++)
checksum += buffer[i];

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@ -664,7 +664,7 @@ bool Animation::get_pixel(int x, int y) const {
return false;
const uint32_t width_8 = ((this->width_ + 7u) / 8u) * 8u;
const uint32_t frame_index = this->height_ * width_8 * this->current_frame_;
if (frame_index >= (uint32_t)(this->width_ * this->height_ * this->animation_frame_count_))
if (frame_index >= (uint32_t) (this->width_ * this->height_ * this->animation_frame_count_))
return false;
const uint32_t pos = x + y * width_8 + frame_index;
return progmem_read_byte(this->data_start_ + (pos / 8u)) & (0x80 >> (pos % 8u));
@ -673,7 +673,7 @@ Color Animation::get_color_pixel(int x, int y) const {
if (x < 0 || x >= this->width_ || y < 0 || y >= this->height_)
return Color::BLACK;
const uint32_t frame_index = this->width_ * this->height_ * this->current_frame_;
if (frame_index >= (uint32_t)(this->width_ * this->height_ * this->animation_frame_count_))
if (frame_index >= (uint32_t) (this->width_ * this->height_ * this->animation_frame_count_))
return Color::BLACK;
const uint32_t pos = (x + y * this->width_ + frame_index) * 3;
const uint32_t color32 = (progmem_read_byte(this->data_start_ + pos + 2) << 0) |
@ -685,7 +685,7 @@ Color Animation::get_rgb565_pixel(int x, int y) const {
if (x < 0 || x >= this->width_ || y < 0 || y >= this->height_)
return Color::BLACK;
const uint32_t frame_index = this->width_ * this->height_ * this->current_frame_;
if (frame_index >= (uint32_t)(this->width_ * this->height_ * this->animation_frame_count_))
if (frame_index >= (uint32_t) (this->width_ * this->height_ * this->animation_frame_count_))
return Color::BLACK;
const uint32_t pos = (x + y * this->width_ + frame_index) * 2;
uint16_t rgb565 =
@ -699,7 +699,7 @@ Color Animation::get_grayscale_pixel(int x, int y) const {
if (x < 0 || x >= this->width_ || y < 0 || y >= this->height_)
return Color::BLACK;
const uint32_t frame_index = this->width_ * this->height_ * this->current_frame_;
if (frame_index >= (uint32_t)(this->width_ * this->height_ * this->animation_frame_count_))
if (frame_index >= (uint32_t) (this->width_ * this->height_ * this->animation_frame_count_))
return Color::BLACK;
const uint32_t pos = (x + y * this->width_ + frame_index);
const uint8_t gray = progmem_read_byte(this->data_start_ + pos);

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@ -168,7 +168,7 @@ void ENS210Component::update() {
return;
}
// Pack bytes for humidity
h_val_data = (uint32_t)((uint32_t) data[5] << 16 | (uint32_t) data[4] << 8 | (uint32_t) data[3]);
h_val_data = (uint32_t) ((uint32_t) data[5] << 16 | (uint32_t) data[4] << 8 | (uint32_t) data[3]);
// Extract humidity data and update the status
extract_measurement_(h_val_data, &humidity_data, &humidity_status);
@ -183,7 +183,7 @@ void ENS210Component::update() {
return;
}
// Pack bytes for temperature
t_val_data = (uint32_t)((uint32_t) data[2] << 16 | (uint32_t) data[1] << 8 | (uint32_t) data[0]);
t_val_data = (uint32_t) ((uint32_t) data[2] << 16 | (uint32_t) data[1] << 8 | (uint32_t) data[0]);
// Extract temperature data and update the status
extract_measurement_(t_val_data, &temperature_data, &temperature_status);

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@ -23,7 +23,7 @@ void loop();
namespace esphome {
void IRAM_ATTR HOT yield() { vPortYield(); }
uint32_t IRAM_ATTR HOT millis() { return (uint32_t)(esp_timer_get_time() / 1000ULL); }
uint32_t IRAM_ATTR HOT millis() { return (uint32_t) (esp_timer_get_time() / 1000ULL); }
void IRAM_ATTR HOT delay(uint32_t ms) { vTaskDelay(ms / portTICK_PERIOD_MS); }
uint32_t IRAM_ATTR HOT micros() { return (uint32_t) esp_timer_get_time(); }
void IRAM_ATTR HOT delayMicroseconds(uint32_t us) { delay_microseconds_safe(us); }

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@ -316,18 +316,18 @@ float BLEClientBase::parse_char_value(uint8_t *value, uint16_t length) {
case 0xD: // int12.
case 0xE: // int16.
if (length > 2) {
return (float) ((int16_t)(value[1] << 8) + (int16_t) value[2]);
return (float) ((int16_t) (value[1] << 8) + (int16_t) value[2]);
}
// fall through
case 0xF: // int24.
if (length > 3) {
return (float) ((int32_t)(value[1] << 16) + (int32_t)(value[2] << 8) + (int32_t)(value[3]));
return (float) ((int32_t) (value[1] << 16) + (int32_t) (value[2] << 8) + (int32_t) (value[3]));
}
// fall through
case 0x10: // int32.
if (length > 4) {
return (float) ((int32_t)(value[1] << 24) + (int32_t)(value[2] << 16) + (int32_t)(value[3] << 8) +
(int32_t)(value[4]));
return (float) ((int32_t) (value[1] << 24) + (int32_t) (value[2] << 16) + (int32_t) (value[3] << 8) +
(int32_t) (value[4]));
}
}
ESP_LOGW(TAG, "[%d] [%s] Cannot parse characteristic value of type 0x%x length %d", this->connection_index_,

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@ -45,10 +45,11 @@ class BLEClientBase : public espbt::ESPBTClient, public Component {
memset(this->remote_bda_, 0, sizeof(this->remote_bda_));
this->address_str_ = "";
} else {
this->address_str_ = str_snprintf("%02X:%02X:%02X:%02X:%02X:%02X", 17, (uint8_t)(this->address_ >> 40) & 0xff,
(uint8_t)(this->address_ >> 32) & 0xff, (uint8_t)(this->address_ >> 24) & 0xff,
(uint8_t)(this->address_ >> 16) & 0xff, (uint8_t)(this->address_ >> 8) & 0xff,
(uint8_t)(this->address_ >> 0) & 0xff);
this->address_str_ =
str_snprintf("%02X:%02X:%02X:%02X:%02X:%02X", 17, (uint8_t) (this->address_ >> 40) & 0xff,
(uint8_t) (this->address_ >> 32) & 0xff, (uint8_t) (this->address_ >> 24) & 0xff,
(uint8_t) (this->address_ >> 16) & 0xff, (uint8_t) (this->address_ >> 8) & 0xff,
(uint8_t) (this->address_ >> 0) & 0xff);
}
}
std::string address_str() const { return this->address_str_; }

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@ -148,44 +148,44 @@ bool BLECharacteristic::is_failed() {
void BLECharacteristic::set_broadcast_property(bool value) {
if (value) {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ | ESP_GATT_CHAR_PROP_BIT_BROADCAST);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ | ESP_GATT_CHAR_PROP_BIT_BROADCAST);
} else {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_BROADCAST);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_BROADCAST);
}
}
void BLECharacteristic::set_indicate_property(bool value) {
if (value) {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ | ESP_GATT_CHAR_PROP_BIT_INDICATE);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ | ESP_GATT_CHAR_PROP_BIT_INDICATE);
} else {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_INDICATE);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_INDICATE);
}
}
void BLECharacteristic::set_notify_property(bool value) {
if (value) {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ | ESP_GATT_CHAR_PROP_BIT_NOTIFY);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ | ESP_GATT_CHAR_PROP_BIT_NOTIFY);
} else {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_NOTIFY);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_NOTIFY);
}
}
void BLECharacteristic::set_read_property(bool value) {
if (value) {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ | ESP_GATT_CHAR_PROP_BIT_READ);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ | ESP_GATT_CHAR_PROP_BIT_READ);
} else {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_READ);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_READ);
}
}
void BLECharacteristic::set_write_property(bool value) {
if (value) {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ | ESP_GATT_CHAR_PROP_BIT_WRITE);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ | ESP_GATT_CHAR_PROP_BIT_WRITE);
} else {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_WRITE);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_WRITE);
}
}
void BLECharacteristic::set_write_no_response_property(bool value) {
if (value) {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ | ESP_GATT_CHAR_PROP_BIT_WRITE_NR);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ | ESP_GATT_CHAR_PROP_BIT_WRITE_NR);
} else {
this->properties_ = (esp_gatt_char_prop_t)(this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_WRITE_NR);
this->properties_ = (esp_gatt_char_prop_t) (this->properties_ & ~ESP_GATT_CHAR_PROP_BIT_WRITE_NR);
}
}

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@ -95,7 +95,7 @@ void FingerprintGrowComponent::scan_and_match_() {
}
if (this->scan_image_(1) == OK) {
this->waiting_removal_ = true;
this->data_ = {SEARCH, 0x01, 0x00, 0x00, (uint8_t)(this->capacity_ >> 8), (uint8_t)(this->capacity_ & 0xFF)};
this->data_ = {SEARCH, 0x01, 0x00, 0x00, (uint8_t) (this->capacity_ >> 8), (uint8_t) (this->capacity_ & 0xFF)};
switch (this->send_command_()) {
case OK: {
ESP_LOGD(TAG, "Fingerprint matched");
@ -171,7 +171,7 @@ uint8_t FingerprintGrowComponent::save_fingerprint_() {
}
ESP_LOGI(TAG, "Storing model");
this->data_ = {STORE, 0x01, (uint8_t)(this->enrollment_slot_ >> 8), (uint8_t)(this->enrollment_slot_ & 0xFF)};
this->data_ = {STORE, 0x01, (uint8_t) (this->enrollment_slot_ >> 8), (uint8_t) (this->enrollment_slot_ & 0xFF)};
switch (this->send_command_()) {
case OK:
ESP_LOGI(TAG, "Stored model");
@ -188,8 +188,8 @@ uint8_t FingerprintGrowComponent::save_fingerprint_() {
bool FingerprintGrowComponent::check_password_() {
ESP_LOGD(TAG, "Checking password");
this->data_ = {VERIFY_PASSWORD, (uint8_t)(this->password_ >> 24), (uint8_t)(this->password_ >> 16),
(uint8_t)(this->password_ >> 8), (uint8_t)(this->password_ & 0xFF)};
this->data_ = {VERIFY_PASSWORD, (uint8_t) (this->password_ >> 24), (uint8_t) (this->password_ >> 16),
(uint8_t) (this->password_ >> 8), (uint8_t) (this->password_ & 0xFF)};
switch (this->send_command_()) {
case OK:
ESP_LOGD(TAG, "Password verified");
@ -203,8 +203,8 @@ bool FingerprintGrowComponent::check_password_() {
bool FingerprintGrowComponent::set_password_() {
ESP_LOGI(TAG, "Setting new password: %d", this->new_password_);
this->data_ = {SET_PASSWORD, (uint8_t)(this->new_password_ >> 24), (uint8_t)(this->new_password_ >> 16),
(uint8_t)(this->new_password_ >> 8), (uint8_t)(this->new_password_ & 0xFF)};
this->data_ = {SET_PASSWORD, (uint8_t) (this->new_password_ >> 24), (uint8_t) (this->new_password_ >> 16),
(uint8_t) (this->new_password_ >> 8), (uint8_t) (this->new_password_ & 0xFF)};
if (this->send_command_() == OK) {
ESP_LOGI(TAG, "New password successfully set");
ESP_LOGI(TAG, "Define the new password in your configuration and reflash now");
@ -250,7 +250,7 @@ void FingerprintGrowComponent::get_fingerprint_count_() {
void FingerprintGrowComponent::delete_fingerprint(uint16_t finger_id) {
ESP_LOGI(TAG, "Deleting fingerprint in slot %d", finger_id);
this->data_ = {DELETE, (uint8_t)(finger_id >> 8), (uint8_t)(finger_id & 0xFF), 0x00, 0x01};
this->data_ = {DELETE, (uint8_t) (finger_id >> 8), (uint8_t) (finger_id & 0xFF), 0x00, 0x01};
switch (this->send_command_()) {
case OK:
ESP_LOGI(TAG, "Deleted fingerprint");
@ -320,8 +320,8 @@ void FingerprintGrowComponent::aura_led_control(uint8_t state, uint8_t speed, ui
}
uint8_t FingerprintGrowComponent::send_command_() {
this->write((uint8_t)(START_CODE >> 8));
this->write((uint8_t)(START_CODE & 0xFF));
this->write((uint8_t) (START_CODE >> 8));
this->write((uint8_t) (START_CODE & 0xFF));
this->write(this->address_[0]);
this->write(this->address_[1]);
this->write(this->address_[2]);
@ -329,8 +329,8 @@ uint8_t FingerprintGrowComponent::send_command_() {
this->write(COMMAND);
uint16_t wire_length = this->data_.size() + 2;
this->write((uint8_t)(wire_length >> 8));
this->write((uint8_t)(wire_length & 0xFF));
this->write((uint8_t) (wire_length >> 8));
this->write((uint8_t) (wire_length & 0xFF));
uint16_t sum = ((wire_length) >> 8) + ((wire_length) &0xFF) + COMMAND;
for (auto data : this->data_) {
@ -338,8 +338,8 @@ uint8_t FingerprintGrowComponent::send_command_() {
sum += data;
}
this->write((uint8_t)(sum >> 8));
this->write((uint8_t)(sum & 0xFF));
this->write((uint8_t) (sum >> 8));
this->write((uint8_t) (sum & 0xFF));
this->data_.clear();
@ -354,11 +354,11 @@ uint8_t FingerprintGrowComponent::send_command_() {
byte = this->read();
switch (idx) {
case 0:
if (byte != (uint8_t)(START_CODE >> 8))
if (byte != (uint8_t) (START_CODE >> 8))
continue;
break;
case 1:
if (byte != (uint8_t)(START_CODE & 0xFF)) {
if (byte != (uint8_t) (START_CODE & 0xFF)) {
idx = 0;
continue;
}

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@ -91,10 +91,10 @@ class FingerprintGrowComponent : public PollingComponent, public uart::UARTDevic
void dump_config() override;
void set_address(uint32_t address) {
this->address_[0] = (uint8_t)(address >> 24);
this->address_[1] = (uint8_t)(address >> 16);
this->address_[2] = (uint8_t)(address >> 8);
this->address_[3] = (uint8_t)(address & 0xFF);
this->address_[0] = (uint8_t) (address >> 24);
this->address_[1] = (uint8_t) (address >> 16);
this->address_[2] = (uint8_t) (address >> 8);
this->address_[3] = (uint8_t) (address & 0xFF);
}
void set_sensing_pin(GPIOPin *sensing_pin) { this->sensing_pin_ = sensing_pin; }
void set_password(uint32_t password) { this->password_ = password; }

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@ -12,7 +12,7 @@ void set_bits(uint8_t *const dst, const uint8_t offset, const uint8_t nbits, con
uint8_t mask = UINT8_MAX >> (8 - ((nbits > 8) ? 8 : nbits));
// Calculate the mask & clear the space for the data.
// Clear the destination bits.
*dst &= ~(uint8_t)(mask << offset);
*dst &= ~(uint8_t) (mask << offset);
// Merge in the data.
*dst |= ((data & mask) << offset);
}

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@ -12,7 +12,7 @@ void set_bits(uint8_t *const dst, const uint8_t offset, const uint8_t nbits, con
uint8_t mask = UINT8_MAX >> (8 - ((nbits > 8) ? 8 : nbits));
// Calculate the mask & clear the space for the data.
// Clear the destination bits.
*dst &= ~(uint8_t)(mask << offset);
*dst &= ~(uint8_t) (mask << offset);
// Merge in the data.
*dst |= ((data & mask) << offset);
}

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@ -35,9 +35,9 @@ uint8_t HONEYWELLABPSensor::readsensor_() {
// if device is normal and there is new data, bitmask and save the raw data
if (status_ == 0) {
// 14 - bit pressure is the last 6 bits of byte 0 (high bits) & all of byte 1 (lowest 8 bits)
pressure_count_ = ((uint16_t)(buf_[0]) << 8 & 0x3F00) | ((uint16_t)(buf_[1]) & 0xFF);
pressure_count_ = ((uint16_t) (buf_[0]) << 8 & 0x3F00) | ((uint16_t) (buf_[1]) & 0xFF);
// 11 - bit temperature is all of byte 2 (lowest 8 bits) and the first three bits of byte 3
temperature_count_ = (((uint16_t)(buf_[2]) << 3) & 0x7F8) | (((uint16_t)(buf_[3]) >> 5) & 0x7);
temperature_count_ = (((uint16_t) (buf_[2]) << 3) & 0x7F8) | (((uint16_t) (buf_[3]) >> 5) & 0x7);
ESP_LOGV(TAG, "Sensor pressure_count_ %d", pressure_count_);
ESP_LOGV(TAG, "Sensor temperature_count_ %d", temperature_count_);
}

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@ -1,8 +1,8 @@
#include "ili9xxx_display.h"
#include "esphome/core/log.h"
#include "esphome/core/application.h"
#include "esphome/core/helpers.h"
#include "esphome/core/hal.h"
#include "esphome/core/helpers.h"
#include "esphome/core/log.h"
namespace esphome {
namespace ili9xxx {
@ -85,7 +85,7 @@ void ILI9XXXDisplay::fill(Color color) {
case BITS_16:
new_color = display::ColorUtil::color_to_565(color);
for (uint32_t i = 0; i < this->get_buffer_length_() * 2; i = i + 2) {
this->buffer_[i] = (uint8_t)(new_color >> 8);
this->buffer_[i] = (uint8_t) (new_color >> 8);
this->buffer_[i + 1] = (uint8_t) new_color;
}
return;
@ -111,8 +111,8 @@ void HOT ILI9XXXDisplay::draw_absolute_pixel_internal(int x, int y, Color color)
case BITS_16:
pos = pos * 2;
new_color = display::ColorUtil::color_to_565(color, display::ColorOrder::COLOR_ORDER_RGB);
if (this->buffer_[pos] != (uint8_t)(new_color >> 8)) {
this->buffer_[pos] = (uint8_t)(new_color >> 8);
if (this->buffer_[pos] != (uint8_t) (new_color >> 8)) {
this->buffer_[pos] = (uint8_t) (new_color >> 8);
updated = true;
}
pos = pos + 1;
@ -192,9 +192,9 @@ void ILI9XXXDisplay::display_() {
uint8_t pass_buff[3];
pass_buff[2] = (uint8_t)((red / 32.0) * 64) << 2;
pass_buff[2] = (uint8_t) ((red / 32.0) * 64) << 2;
pass_buff[1] = (uint8_t) green << 2;
pass_buff[0] = (uint8_t)((blue / 32.0) * 64) << 2;
pass_buff[0] = (uint8_t) ((blue / 32.0) * 64) << 2;
this->write_array(pass_buff, sizeof(pass_buff));
}

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@ -73,7 +73,7 @@ void parse_json(const std::string &data, const json_parse_t &f) {
const size_t free_heap = rp2040.getFreeHeap();
#endif
bool pass = false;
size_t request_size = std::min(free_heap, (size_t)(data.size() * 1.5));
size_t request_size = std::min(free_heap, (size_t) (data.size() * 1.5));
do {
DynamicJsonDocument json_document(request_size);
if (json_document.capacity() == 0) {

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@ -17,7 +17,7 @@ void GPIOLCDDisplay::setup() {
this->enable_pin_->setup(); // OUTPUT
this->enable_pin_->digital_write(false);
for (uint8_t i = 0; i < (uint8_t)(this->is_four_bit_mode() ? 4u : 8u); i++) {
for (uint8_t i = 0; i < (uint8_t) (this->is_four_bit_mode() ? 4u : 8u); i++) {
this->data_pins_[i]->setup(); // OUTPUT
this->data_pins_[i]->digital_write(false);
}

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@ -118,7 +118,7 @@ class LD2410Component : public Component, public uart::UARTDevice {
#endif
std::vector<uint8_t> rx_buffer_;
int two_byte_to_int_(char firstbyte, char secondbyte) { return (int16_t)(secondbyte << 8) + firstbyte; }
int two_byte_to_int_(char firstbyte, char secondbyte) { return (int16_t) (secondbyte << 8) + firstbyte; }
void send_command_(uint8_t command_str, uint8_t *command_value, int command_value_len);
void set_max_distances_timeout_(uint8_t max_moving_distance_range, uint8_t max_still_distance_range,

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@ -52,25 +52,26 @@ enum class ColorMode : uint8_t {
/// Only on/off control.
ON_OFF = (uint8_t) ColorCapability::ON_OFF,
/// Dimmable light.
BRIGHTNESS = (uint8_t)(ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS),
BRIGHTNESS = (uint8_t) (ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS),
/// White output only (use only if the light also has another color mode such as RGB).
WHITE = (uint8_t)(ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::WHITE),
WHITE = (uint8_t) (ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::WHITE),
/// Controllable color temperature output.
COLOR_TEMPERATURE =
(uint8_t)(ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::COLOR_TEMPERATURE),
(uint8_t) (ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::COLOR_TEMPERATURE),
/// Cold and warm white output with individually controllable brightness.
COLD_WARM_WHITE = (uint8_t)(ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::COLD_WARM_WHITE),
COLD_WARM_WHITE =
(uint8_t) (ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::COLD_WARM_WHITE),
/// RGB color output.
RGB = (uint8_t)(ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::RGB),
RGB = (uint8_t) (ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::RGB),
/// RGB color output and a separate white output.
RGB_WHITE =
(uint8_t)(ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::RGB | ColorCapability::WHITE),
(uint8_t) (ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::RGB | ColorCapability::WHITE),
/// RGB color output and a separate white output with controllable color temperature.
RGB_COLOR_TEMPERATURE = (uint8_t)(ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::RGB |
ColorCapability::WHITE | ColorCapability::COLOR_TEMPERATURE),
RGB_COLOR_TEMPERATURE = (uint8_t) (ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::RGB |
ColorCapability::WHITE | ColorCapability::COLOR_TEMPERATURE),
/// RGB color output, and separate cold and warm white outputs.
RGB_COLD_WARM_WHITE = (uint8_t)(ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::RGB |
ColorCapability::COLD_WARM_WHITE),
RGB_COLD_WARM_WHITE = (uint8_t) (ColorCapability::ON_OFF | ColorCapability::BRIGHTNESS | ColorCapability::RGB |
ColorCapability::COLD_WARM_WHITE),
};
/// Helper class to allow bitwise operations on ColorMode with ColorCapability

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@ -113,8 +113,8 @@ void LilygoT547Touchscreen::loop() {
if (tp.state == 0x06)
tp.state = 0x07;
uint16_t y = (uint16_t)((buffer[i * 5 + 1 + offset] << 4) | ((buffer[i * 5 + 3 + offset] >> 4) & 0x0F));
uint16_t x = (uint16_t)((buffer[i * 5 + 2 + offset] << 4) | (buffer[i * 5 + 3 + offset] & 0x0F));
uint16_t y = (uint16_t) ((buffer[i * 5 + 1 + offset] << 4) | ((buffer[i * 5 + 3 + offset] >> 4) & 0x0F));
uint16_t x = (uint16_t) ((buffer[i * 5 + 2 + offset] << 4) | (buffer[i * 5 + 3 + offset] & 0x0F));
switch (this->rotation_) {
case ROTATE_0_DEGREES:
@ -142,8 +142,8 @@ void LilygoT547Touchscreen::loop() {
tp.id = (buffer[0] >> 4) & 0x0F;
tp.state = 0x06;
uint16_t y = (uint16_t)((buffer[0 * 5 + 1] << 4) | ((buffer[0 * 5 + 3] >> 4) & 0x0F));
uint16_t x = (uint16_t)((buffer[0 * 5 + 2] << 4) | (buffer[0 * 5 + 3] & 0x0F));
uint16_t y = (uint16_t) ((buffer[0 * 5 + 1] << 4) | ((buffer[0 * 5 + 3] >> 4) & 0x0F));
uint16_t x = (uint16_t) ((buffer[0 * 5 + 2] << 4) | (buffer[0 * 5 + 3] & 0x0F));
switch (this->rotation_) {
case ROTATE_0_DEGREES:

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@ -148,19 +148,19 @@ canbus::Error MCP2515::set_clk_out_(const CanClkOut divisor) {
}
void MCP2515::prepare_id_(uint8_t *buffer, const bool extended, const uint32_t id) {
uint16_t canid = (uint16_t)(id & 0x0FFFF);
uint16_t canid = (uint16_t) (id & 0x0FFFF);
if (extended) {
buffer[MCP_EID0] = (uint8_t)(canid & 0xFF);
buffer[MCP_EID8] = (uint8_t)(canid >> 8);
canid = (uint16_t)(id >> 16);
buffer[MCP_SIDL] = (uint8_t)(canid & 0x03);
buffer[MCP_SIDL] += (uint8_t)((canid & 0x1C) << 3);
buffer[MCP_EID0] = (uint8_t) (canid & 0xFF);
buffer[MCP_EID8] = (uint8_t) (canid >> 8);
canid = (uint16_t) (id >> 16);
buffer[MCP_SIDL] = (uint8_t) (canid & 0x03);
buffer[MCP_SIDL] += (uint8_t) ((canid & 0x1C) << 3);
buffer[MCP_SIDL] |= TXB_EXIDE_MASK;
buffer[MCP_SIDH] = (uint8_t)(canid >> 5);
buffer[MCP_SIDH] = (uint8_t) (canid >> 5);
} else {
buffer[MCP_SIDH] = (uint8_t)(canid >> 3);
buffer[MCP_SIDL] = (uint8_t)((canid & 0x07) << 5);
buffer[MCP_SIDH] = (uint8_t) (canid >> 3);
buffer[MCP_SIDL] = (uint8_t) ((canid & 0x07) << 5);
buffer[MCP_EID0] = 0;
buffer[MCP_EID8] = 0;
}

View File

@ -32,7 +32,7 @@ void MCP9600Component::setup() {
uint16_t dev_id = 0;
this->read_byte_16(MCP9600_REGISTER_DEVICE_ID, &dev_id);
this->device_id_ = (uint8_t)(dev_id >> 8);
this->device_id_ = (uint8_t) (dev_id >> 8);
// Allows both MCP9600's and MCP9601's to be connected.
if (this->device_id_ != (uint8_t) 0x40 && this->device_id_ != (uint8_t) 0x41) {

View File

@ -54,16 +54,16 @@ void MCP9808Sensor::update() {
}
float temp = NAN;
uint8_t msb = (uint8_t)((raw_temp & 0xff00) >> 8);
uint8_t msb = (uint8_t) ((raw_temp & 0xff00) >> 8);
uint8_t lsb = raw_temp & 0x00ff;
msb = msb & MCP9808_AMBIENT_CLEAR_FLAGS;
if ((msb & MCP9808_AMBIENT_TEMP_NEGATIVE) == MCP9808_AMBIENT_TEMP_NEGATIVE) {
msb = msb & MCP9808_AMBIENT_CLEAR_SIGN;
temp = (256 - ((uint16_t)(msb) *16 + lsb / 16.0f)) * -1;
temp = (256 - ((uint16_t) (msb) *16 + lsb / 16.0f)) * -1;
} else {
temp = (uint16_t)(msb) *16 + lsb / 16.0f;
temp = (uint16_t) (msb) *16 + lsb / 16.0f;
}
if (std::isnan(temp)) {

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@ -123,7 +123,8 @@ uint32_t MopekaProCheck::parse_distance_(const std::vector<uint8_t> &message) {
double raw_level = raw & 0x3FFF;
double raw_t = (message[2] & 0x7F);
return (uint32_t)(raw_level * (MOPEKA_LPG_COEF[0] + MOPEKA_LPG_COEF[1] * raw_t + MOPEKA_LPG_COEF[2] * raw_t * raw_t));
return (uint32_t) (raw_level *
(MOPEKA_LPG_COEF[0] + MOPEKA_LPG_COEF[1] * raw_t + MOPEKA_LPG_COEF[2] * raw_t * raw_t));
}
uint8_t MopekaProCheck::parse_temperature_(const std::vector<uint8_t> &message) { return (message[2] & 0x7F) - 40; }

View File

@ -216,7 +216,7 @@ uint8_t MopekaStdCheck::parse_temperature_(const mopeka_std_package *message) {
if (tmp == 0x0) {
return -40;
} else {
return (uint8_t)((tmp - 25.0f) * 1.776964f);
return (uint8_t) ((tmp - 25.0f) * 1.776964f);
}
}

View File

@ -12,10 +12,10 @@ struct IPAddress {
IPAddress() : addr_({0, 0, 0, 0}) {}
IPAddress(uint8_t first, uint8_t second, uint8_t third, uint8_t fourth) : addr_({first, second, third, fourth}) {}
IPAddress(uint32_t raw) {
addr_[0] = (uint8_t)(raw >> 0);
addr_[1] = (uint8_t)(raw >> 8);
addr_[2] = (uint8_t)(raw >> 16);
addr_[3] = (uint8_t)(raw >> 24);
addr_[0] = (uint8_t) (raw >> 0);
addr_[1] = (uint8_t) (raw >> 8);
addr_[2] = (uint8_t) (raw >> 16);
addr_[3] = (uint8_t) (raw >> 24);
}
operator uint32_t() const {
uint32_t res = 0;

View File

@ -770,15 +770,15 @@ uint8_t Pipsolar::check_incoming_crc_() {
uint16_t crc16;
crc16 = cal_crc_half_(read_buffer_, read_pos_ - 3);
ESP_LOGD(TAG, "checking crc on incoming message");
if (((uint8_t)((crc16) >> 8)) == read_buffer_[read_pos_ - 3] &&
((uint8_t)((crc16) &0xff)) == read_buffer_[read_pos_ - 2]) {
if (((uint8_t) ((crc16) >> 8)) == read_buffer_[read_pos_ - 3] &&
((uint8_t) ((crc16) &0xff)) == read_buffer_[read_pos_ - 2]) {
ESP_LOGD(TAG, "CRC OK");
read_buffer_[read_pos_ - 1] = 0;
read_buffer_[read_pos_ - 2] = 0;
read_buffer_[read_pos_ - 3] = 0;
return 1;
}
ESP_LOGD(TAG, "CRC NOK expected: %X %X but got: %X %X", ((uint8_t)((crc16) >> 8)), ((uint8_t)((crc16) &0xff)),
ESP_LOGD(TAG, "CRC NOK expected: %X %X but got: %X %X", ((uint8_t) ((crc16) >> 8)), ((uint8_t) ((crc16) &0xff)),
read_buffer_[read_pos_ - 3], read_buffer_[read_pos_ - 2]);
return 0;
}
@ -800,8 +800,8 @@ uint8_t Pipsolar::send_next_command_() {
crc16 = cal_crc_half_(byte_command, length);
this->write_str(command);
// checksum
this->write(((uint8_t)((crc16) >> 8))); // highbyte
this->write(((uint8_t)((crc16) &0xff))); // lowbyte
this->write(((uint8_t) ((crc16) >> 8))); // highbyte
this->write(((uint8_t) ((crc16) &0xff))); // lowbyte
// end Byte
this->write(0x0D);
ESP_LOGD(TAG, "Sending command from queue: %s with length %d", command, length);
@ -829,8 +829,8 @@ void Pipsolar::send_next_poll_() {
this->write_array(this->used_polling_commands_[this->last_polling_command_].command,
this->used_polling_commands_[this->last_polling_command_].length);
// checksum
this->write(((uint8_t)((crc16) >> 8))); // highbyte
this->write(((uint8_t)((crc16) &0xff))); // lowbyte
this->write(((uint8_t) ((crc16) >> 8))); // highbyte
this->write(((uint8_t) ((crc16) &0xff))); // lowbyte
// end Byte
this->write(0x0D);
ESP_LOGD(TAG, "Sending polling command : %s with length %d",
@ -882,7 +882,7 @@ void Pipsolar::add_polling_command_(const char *command, ENUMPollingCommand poll
used_polling_command.command = new uint8_t[length]; // NOLINT(cppcoreguidelines-owning-memory)
size_t i = 0;
for (; beg != end; ++beg, ++i) {
used_polling_command.command[i] = (uint8_t)(*beg);
used_polling_command.command[i] = (uint8_t) (*beg);
}
used_polling_command.errors = 0;
used_polling_command.identifier = polling_command;
@ -907,17 +907,17 @@ uint16_t Pipsolar::cal_crc_half_(uint8_t *msg, uint8_t len) {
crc = 0;
while (len-- != 0) {
da = ((uint8_t)(crc >> 8)) >> 4;
da = ((uint8_t) (crc >> 8)) >> 4;
crc <<= 4;
crc ^= crc_ta[da ^ (*ptr >> 4)];
da = ((uint8_t)(crc >> 8)) >> 4;
da = ((uint8_t) (crc >> 8)) >> 4;
crc <<= 4;
crc ^= crc_ta[da ^ (*ptr & 0x0f)];
ptr++;
}
b_crc_low = crc;
b_crc_hign = (uint8_t)(crc >> 8);
b_crc_hign = (uint8_t) (crc >> 8);
if (b_crc_low == 0x28 || b_crc_low == 0x0d || b_crc_low == 0x0a)
b_crc_low++;

View File

@ -121,38 +121,38 @@ bool QMP6988Component::get_calibration_data_() {
}
qmp6988_data_.qmp6988_cali.COE_a0 =
(QMP6988_S32_t)(((a_data_uint8_tr[18] << SHIFT_LEFT_12_POSITION) |
(a_data_uint8_tr[19] << SHIFT_LEFT_4_POSITION) | (a_data_uint8_tr[24] & 0x0f))
<< 12);
(QMP6988_S32_t) (((a_data_uint8_tr[18] << SHIFT_LEFT_12_POSITION) |
(a_data_uint8_tr[19] << SHIFT_LEFT_4_POSITION) | (a_data_uint8_tr[24] & 0x0f))
<< 12);
qmp6988_data_.qmp6988_cali.COE_a0 = qmp6988_data_.qmp6988_cali.COE_a0 >> 12;
qmp6988_data_.qmp6988_cali.COE_a1 =
(QMP6988_S16_t)(((a_data_uint8_tr[20]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[21]);
(QMP6988_S16_t) (((a_data_uint8_tr[20]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[21]);
qmp6988_data_.qmp6988_cali.COE_a2 =
(QMP6988_S16_t)(((a_data_uint8_tr[22]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[23]);
(QMP6988_S16_t) (((a_data_uint8_tr[22]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[23]);
qmp6988_data_.qmp6988_cali.COE_b00 =
(QMP6988_S32_t)(((a_data_uint8_tr[0] << SHIFT_LEFT_12_POSITION) | (a_data_uint8_tr[1] << SHIFT_LEFT_4_POSITION) |
((a_data_uint8_tr[24] & 0xf0) >> SHIFT_RIGHT_4_POSITION))
<< 12);
(QMP6988_S32_t) (((a_data_uint8_tr[0] << SHIFT_LEFT_12_POSITION) | (a_data_uint8_tr[1] << SHIFT_LEFT_4_POSITION) |
((a_data_uint8_tr[24] & 0xf0) >> SHIFT_RIGHT_4_POSITION))
<< 12);
qmp6988_data_.qmp6988_cali.COE_b00 = qmp6988_data_.qmp6988_cali.COE_b00 >> 12;
qmp6988_data_.qmp6988_cali.COE_bt1 =
(QMP6988_S16_t)(((a_data_uint8_tr[2]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[3]);
(QMP6988_S16_t) (((a_data_uint8_tr[2]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[3]);
qmp6988_data_.qmp6988_cali.COE_bt2 =
(QMP6988_S16_t)(((a_data_uint8_tr[4]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[5]);
(QMP6988_S16_t) (((a_data_uint8_tr[4]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[5]);
qmp6988_data_.qmp6988_cali.COE_bp1 =
(QMP6988_S16_t)(((a_data_uint8_tr[6]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[7]);
(QMP6988_S16_t) (((a_data_uint8_tr[6]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[7]);
qmp6988_data_.qmp6988_cali.COE_b11 =
(QMP6988_S16_t)(((a_data_uint8_tr[8]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[9]);
(QMP6988_S16_t) (((a_data_uint8_tr[8]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[9]);
qmp6988_data_.qmp6988_cali.COE_bp2 =
(QMP6988_S16_t)(((a_data_uint8_tr[10]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[11]);
(QMP6988_S16_t) (((a_data_uint8_tr[10]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[11]);
qmp6988_data_.qmp6988_cali.COE_b12 =
(QMP6988_S16_t)(((a_data_uint8_tr[12]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[13]);
(QMP6988_S16_t) (((a_data_uint8_tr[12]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[13]);
qmp6988_data_.qmp6988_cali.COE_b21 =
(QMP6988_S16_t)(((a_data_uint8_tr[14]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[15]);
(QMP6988_S16_t) (((a_data_uint8_tr[14]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[15]);
qmp6988_data_.qmp6988_cali.COE_bp3 =
(QMP6988_S16_t)(((a_data_uint8_tr[16]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[17]);
(QMP6988_S16_t) (((a_data_uint8_tr[16]) << SHIFT_LEFT_8_POSITION) | a_data_uint8_tr[17]);
ESP_LOGV(TAG, "<-----------calibration data-------------->\r\n");
ESP_LOGV(TAG, "COE_a0[%d] COE_a1[%d] COE_a2[%d] COE_b00[%d]\r\n", qmp6988_data_.qmp6988_cali.COE_a0,
@ -197,7 +197,7 @@ QMP6988_S16_t QMP6988Component::get_compensated_temperature_(qmp6988_ik_data_t *
wk2 = ((QMP6988_S64_t) ik->a2 * (QMP6988_S64_t) dt) >> 14; // 30Q47+24-1=53 (39Q33)
wk2 = (wk2 * (QMP6988_S64_t) dt) >> 10; // 39Q33+24-1=62 (52Q23)
wk2 = ((wk1 + wk2) / 32767) >> 19; // 54,52->55Q23 (20Q04)
ret = (QMP6988_S16_t)((ik->a0 + wk2) >> 4); // 21Q4 -> 17Q0
ret = (QMP6988_S16_t) ((ik->a0 + wk2) >> 4); // 21Q4 -> 17Q0
return ret;
}
@ -332,13 +332,13 @@ void QMP6988Component::calculate_pressure_() {
ESP_LOGE(TAG, "Error reading raw pressure/temp values");
return;
}
p_read = (QMP6988_U32_t)((((QMP6988_U32_t)(a_data_uint8_tr[0])) << SHIFT_LEFT_16_POSITION) |
(((QMP6988_U16_t)(a_data_uint8_tr[1])) << SHIFT_LEFT_8_POSITION) | (a_data_uint8_tr[2]));
p_raw = (QMP6988_S32_t)(p_read - SUBTRACTOR);
p_read = (QMP6988_U32_t) ((((QMP6988_U32_t) (a_data_uint8_tr[0])) << SHIFT_LEFT_16_POSITION) |
(((QMP6988_U16_t) (a_data_uint8_tr[1])) << SHIFT_LEFT_8_POSITION) | (a_data_uint8_tr[2]));
p_raw = (QMP6988_S32_t) (p_read - SUBTRACTOR);
t_read = (QMP6988_U32_t)((((QMP6988_U32_t)(a_data_uint8_tr[3])) << SHIFT_LEFT_16_POSITION) |
(((QMP6988_U16_t)(a_data_uint8_tr[4])) << SHIFT_LEFT_8_POSITION) | (a_data_uint8_tr[5]));
t_raw = (QMP6988_S32_t)(t_read - SUBTRACTOR);
t_read = (QMP6988_U32_t) ((((QMP6988_U32_t) (a_data_uint8_tr[3])) << SHIFT_LEFT_16_POSITION) |
(((QMP6988_U16_t) (a_data_uint8_tr[4])) << SHIFT_LEFT_8_POSITION) | (a_data_uint8_tr[5]));
t_raw = (QMP6988_S32_t) (t_read - SUBTRACTOR);
t_int = this->get_compensated_temperature_(&(qmp6988_data_.ik), t_raw);
p_int = this->get_compensated_pressure_(&(qmp6988_data_.ik), p_raw, t_int);

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@ -78,7 +78,7 @@ optional<RC5Data> RC5Protocol::decode(RemoteReceiveData src) {
out_data |= 1;
}
out.command = (uint8_t)(out_data & 0x3F) + (1 - field_bit) * 64u;
out.command = (uint8_t) (out_data & 0x3F) + (1 - field_bit) * 64u;
out.address = (out_data >> 6) & 0x1F;
return out;
}

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@ -43,7 +43,7 @@ void SCD30Component::setup() {
uint16_t(raw_firmware_version[0] & 0xFF));
if (this->temperature_offset_ != 0) {
if (!this->write_command(SCD30_CMD_TEMPERATURE_OFFSET, (uint16_t)(temperature_offset_ * 100.0))) {
if (!this->write_command(SCD30_CMD_TEMPERATURE_OFFSET, (uint16_t) (temperature_offset_ * 100.0))) {
ESP_LOGE(TAG, "Sensor SCD30 error setting temperature offset.");
this->error_code_ = MEASUREMENT_INIT_FAILED;
this->mark_failed();

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@ -16,7 +16,7 @@ class SCD30Component : public Component, public sensirion_common::SensirionI2CDe
void set_automatic_self_calibration(bool asc) { enable_asc_ = asc; }
void set_altitude_compensation(uint16_t altitude) { altitude_compensation_ = altitude; }
void set_ambient_pressure_compensation(float pressure) {
ambient_pressure_compensation_ = (uint16_t)(pressure * 1000);
ambient_pressure_compensation_ = (uint16_t) (pressure * 1000);
}
void set_temperature_offset(float offset) { temperature_offset_ = offset; }
void set_update_interval(uint16_t interval) { update_interval_ = interval; }

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@ -50,7 +50,7 @@ void SCD4XComponent::setup() {
uint16_t(raw_serial_number[0] & 0xFF), (uint16_t(raw_serial_number[1]) >> 8));
if (!this->write_command(SCD4X_CMD_TEMPERATURE_OFFSET,
(uint16_t)(temperature_offset_ * SCD4X_TEMPERATURE_OFFSET_MULTIPLIER))) {
(uint16_t) (temperature_offset_ * SCD4X_TEMPERATURE_OFFSET_MULTIPLIER))) {
ESP_LOGE(TAG, "Error setting temperature offset.");
this->error_code_ = MEASUREMENT_INIT_FAILED;
this->mark_failed();

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@ -234,8 +234,8 @@ bool SGP4xComponent::measure_raw_(uint16_t &voc_raw, uint16_t &nox_raw) {
response_words = 2;
}
}
uint16_t rhticks = llround((uint16_t)((humidity * 65535) / 100));
uint16_t tempticks = (uint16_t)(((temperature + 45) * 65535) / 175);
uint16_t rhticks = llround((uint16_t) ((humidity * 65535) / 100));
uint16_t tempticks = (uint16_t) (((temperature + 45) * 65535) / 175);
// first parameter are the relative humidity ticks
data[0] = rhticks;
// secomd parameter are the temperature ticks

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@ -19,7 +19,7 @@ void SHT4XComponent::setup() {
ESP_LOGCONFIG(TAG, "Setting up sht4x...");
if (this->duty_cycle_ > 0.0) {
uint32_t heater_interval = (uint32_t)(this->heater_time_ / this->duty_cycle_);
uint32_t heater_interval = (uint32_t) (this->heater_time_ / this->duty_cycle_);
ESP_LOGD(TAG, "Heater interval: %i", heater_interval);
if (this->heater_power_ == SHT4X_HEATERPOWER_HIGH) {

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@ -74,7 +74,7 @@ void ST7920::goto_xy_(uint16_t x, uint16_t y) {
void HOT ST7920::write_display_data() {
uint8_t i, j, b;
for (j = 0; j < (uint8_t)(this->get_height_internal() / 2); j++) {
for (j = 0; j < (uint8_t) (this->get_height_internal() / 2); j++) {
this->goto_xy_(0, j);
this->enable();
for (i = 0; i < 16; i++) { // 16 bytes from line #0+

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@ -269,7 +269,7 @@ struct SunAtLocation {
num_t jd = julian_day(date) + added_d;
num_t eot = SunAtTime(jd).equation_of_time() * 240;
time_t new_timestamp = (time_t)(date.timestamp + added_d * 86400 - eot);
time_t new_timestamp = (time_t) (date.timestamp + added_d * 86400 - eot);
return time::ESPTime::from_epoch_utc(new_timestamp);
}
};

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@ -287,7 +287,7 @@ void TCS34725Component::update() {
}
// calculate register value from timing
uint8_t regval_atime = (uint8_t)(256.f - integration_time_next / 2.4f);
uint8_t regval_atime = (uint8_t) (256.f - integration_time_next / 2.4f);
ESP_LOGD(TAG, "Integration time: %.1fms, ideal: %.1fms regval_new %d Gain: %.f Clear channel raw: %d gain reg: %d",
this->integration_time_, integration_time_next, regval_atime, this->gain_, raw_c, this->gain_reg_);

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@ -168,7 +168,7 @@ uint8_t TM1637Display::get_keys() {
// Bit | 7 6 5 4 3 2 1 0
// ------+------------------------
// To | 0 0 0 0 K2 S2 S1 S0
key_code = (uint8_t)((key_code & 0x80) >> 7 | (key_code & 0x40) >> 5 | (key_code & 0x20) >> 3 | (key_code & 0x08));
key_code = (uint8_t) ((key_code & 0x80) >> 7 | (key_code & 0x40) >> 5 | (key_code & 0x20) >> 3 | (key_code & 0x08));
}
return key_code;
}

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@ -140,7 +140,7 @@ void TM1638Component::set_intensity(uint8_t brightness_level) {
this->send_command_(TM1638_REGISTER_FIXEDADDRESS);
if (brightness_level > 0) {
this->send_command_((uint8_t)(TM1638_REGISTER_DISPLAYON | intensity_));
this->send_command_((uint8_t) (TM1638_REGISTER_DISPLAYON | intensity_));
} else {
this->send_command_(TM1638_REGISTER_DISPLAYOFF);
}

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@ -381,8 +381,8 @@ void Tuya::handle_datapoints_(const uint8_t *buffer, size_t len) {
}
void Tuya::send_raw_command_(TuyaCommand command) {
uint8_t len_hi = (uint8_t)(command.payload.size() >> 8);
uint8_t len_lo = (uint8_t)(command.payload.size() & 0xFF);
uint8_t len_hi = (uint8_t) (command.payload.size() >> 8);
uint8_t len_lo = (uint8_t) (command.payload.size() & 0xFF);
uint8_t version = 0;
this->last_command_timestamp_ = millis();

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@ -12,7 +12,7 @@ static inline uint16_t get_u16(std::vector<uint8_t> &message, int start) {
}
static inline int16_t get_i16(std::vector<uint8_t> &message, int start) {
return (int16_t)((message[start + 1] << 8) + message[start]);
return (int16_t) ((message[start + 1] << 8) + message[start]);
}
void DeltaSolBSPlusSensor::dump_config() {

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@ -88,7 +88,7 @@ void VL53L0XSensor::setup() {
this->timeout_start_us_ = micros();
while (reg(0x83).get() == 0x00) {
if (this->timeout_us_ > 0 && ((uint16_t)(micros() - this->timeout_start_us_) > this->timeout_us_)) {
if (this->timeout_us_ > 0 && ((uint16_t) (micros() - this->timeout_start_us_) > this->timeout_us_)) {
ESP_LOGE(TAG, "'%s' - setup timeout", this->name_.c_str());
this->mark_failed();
return;

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@ -867,7 +867,7 @@ void WebServer::handle_climate_request(AsyncWebServerRequest *request, const Url
}
// Longest: HORIZONTAL
#define PSTR_LOCAL(mode_s) strncpy_P(__buf, (PGM_P)((mode_s)), 15)
#define PSTR_LOCAL(mode_s) strncpy_P(__buf, (PGM_P) ((mode_s)), 15)
std::string WebServer::climate_json(climate::Climate *obj, JsonDetail start_config) {
return json::build_json([obj, start_config](JsonObject root) {

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@ -78,7 +78,7 @@ void WhirlpoolClimate::transmit_state() {
// Temperature
auto temp = (uint8_t) roundf(clamp(this->target_temperature, this->temperature_min_(), this->temperature_max_()));
remote_state[3] |= (uint8_t)(temp - this->temperature_min_()) << 4;
remote_state[3] |= (uint8_t) (temp - this->temperature_min_()) << 4;
// Fan speed
switch (this->fan_mode.value()) {

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@ -239,12 +239,12 @@ bool decrypt_xiaomi_payload(std::vector<uint8_t> &raw, const uint8_t *bindkey, c
}
uint8_t mac_reverse[6] = {0};
mac_reverse[5] = (uint8_t)(address >> 40);
mac_reverse[4] = (uint8_t)(address >> 32);
mac_reverse[3] = (uint8_t)(address >> 24);
mac_reverse[2] = (uint8_t)(address >> 16);
mac_reverse[1] = (uint8_t)(address >> 8);
mac_reverse[0] = (uint8_t)(address >> 0);
mac_reverse[5] = (uint8_t) (address >> 40);
mac_reverse[4] = (uint8_t) (address >> 32);
mac_reverse[3] = (uint8_t) (address >> 24);
mac_reverse[2] = (uint8_t) (address >> 16);
mac_reverse[1] = (uint8_t) (address >> 8);
mac_reverse[0] = (uint8_t) (address >> 0);
XiaomiAESVector vector{.key = {0},
.plaintext = {0},

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@ -104,8 +104,8 @@ void XPT2046Component::check_touch_() {
break;
}
touchpoint.x = (int16_t)((int) touchpoint.x * this->display_->get_width() / 0xfff);
touchpoint.y = (int16_t)((int) touchpoint.y * this->display_->get_height() / 0xfff);
touchpoint.x = (int16_t) ((int) touchpoint.x * this->display_->get_width() / 0xfff);
touchpoint.y = (int16_t) ((int) touchpoint.y * this->display_->get_height() / 0xfff);
if (!this->touched || (now - this->last_pos_ms_) >= this->report_millis_) {
ESP_LOGV(TAG, "Touching at [%03X, %03X] => [%3d, %3d]", this->x_raw, this->y_raw, touchpoint.x, touchpoint.y);
@ -185,7 +185,7 @@ int16_t XPT2046Component::normalize(int16_t val, int16_t min_val, int16_t max_va
} else if (val >= max_val) {
ret = 0xfff;
} else {
ret = (int16_t)((int) 0xfff * (val - min_val) / (max_val - min_val));
ret = (int16_t) ((int) 0xfff * (val - min_val) / (max_val - min_val));
}
return ret;

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@ -167,7 +167,7 @@ struct LogString;
#include <pgmspace.h>
#if USE_ARDUINO_VERSION_CODE >= VERSION_CODE(2, 5, 0)
#define LOG_STR_ARG(s) ((PGM_P)(s))
#define LOG_STR_ARG(s) ((PGM_P) (s))
#else
// Pre-Arduino 2.5, we can't pass a PSTR() to printf(). Emulate support by copying the message to a
// local buffer first. String length is limited to 63 characters.
@ -176,7 +176,7 @@ struct LogString;
({ \
char __buf[64]; \
__buf[63] = '\0'; \
strncpy_P(__buf, (PGM_P)(s), 63); \
strncpy_P(__buf, (PGM_P) (s), 63); \
__buf; \
})
#endif

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@ -17,7 +17,7 @@ def run_format(args, queue, lock, failed_files):
"""Takes filenames out of queue and runs clang-format on them."""
while True:
path = queue.get()
invocation = ["clang-format-11"]
invocation = ["clang-format-13"]
if args.inplace:
invocation.append("-i")
else:
@ -59,14 +59,14 @@ def main():
args = parser.parse_args()
try:
get_output("clang-format-11", "-version")
get_output("clang-format-13", "-version")
except:
print(
"""
Oops. It looks like clang-format is not installed.
Please check you can run "clang-format-11 -version" in your terminal and install
clang-format (v11) if necessary.
Please check you can run "clang-format-13 -version" in your terminal and install
clang-format (v13) if necessary.
Note you can also upload your code as a pull request on GitHub and see the CI check
output to apply clang-format.