[update] pigpio ライブラリを promise ベースに変更。

local_modules/@ocogeclub/amg8833/AMG8833.js

@@ -4,23 +4,23 @@ const pig = require('@ocogeclub/pigpio');
 
 let pi = -1;
 let i2c_hand = -1;
-exports.init = (i2c_bus, i2c_addr) => {
+exports.init = async (i2c_bus, i2c_addr) => {
-  if (pi < 0) pi = pig._pigpio_start('', '');
+  if (pi < 0) pi = await pig._pigpio_start('', '');
-  if (i2c_hand < 0) pig._i2c_close(pi, i2c_hand);
+  if (i2c_hand < 0) await pig._i2c_close(pi, i2c_hand);
-  i2c_hand = pig._i2c_open(pi, i2c_bus, i2c_addr);
+  i2c_hand = await pig._i2c_open(pi, i2c_bus, i2c_addr);
-  pig._i2c_write_byte_data(pi, i2c_hand, 0x00, 0x00); //Normal mode
+  await pig._i2c_write_byte_data(pi, i2c_hand, 0x00, 0x00); //Normal mode
-  pig._i2c_write_byte_data(pi, i2c_hand, 0x02, 0x00); //10FPS
+  await pig._i2c_write_byte_data(pi, i2c_hand, 0x02, 0x00); //10FPS
 }
 
-exports.read_thermistor = () => {
+exports.read_thermistor = async () => {
-  let temp = pig._i2c_read_word_data(pi, i2c_hand, 0x0e);
+  let temp = await pig._i2c_read_word_data(pi, i2c_hand, 0x0e);
   return temp * 0.0625;
 }
 
-exports.read_temp_array = () => {
+exports.read_temp_array = async () => {
   let linedata = [];
   for (let i = 0; i < 8; i++) {
-    let data = pig._i2c_read_i2c_block_data(pi, i2c_hand, 0x80 + 0x10 * i, 16);
+    let data = await pig._i2c_read_i2c_block_data(pi, i2c_hand, 0x80 + 0x10 * i, 16);
     let oneline = [];
     for (let j = 0; j < 8; j++) {
       oneline.push(((data[2 * j + 1] & 0x07) * 256 + data[2 * j]) * 0.25);
@@ -30,13 +30,13 @@ exports.read_temp_array = () => {
   return linedata;
 }
 
-exports.stop = () => {
+exports.stop = async () => {
   if (i2c_hand >= 0) {
-    pig._i2c_close(pi, i2c_hand);
+    await pig._i2c_close(pi, i2c_hand);
     i2c_hand = -1;
   }
   if (pi >= 0) {
-    pig._pigpio_stop(pi);
+    await pig._pigpio_stop(pi);
     pi = -1;
   }
 }

local_modules/@ocogeclub/bme280/BME280.js

@@ -41,24 +41,24 @@ this.REGISTER_PRESSURE_DATA = 0xF7;
 this.REGISTER_TEMP_DATA = 0xFA;
 this.REGISTER_HUMIDITY_DATA = 0xFD;
 
-exports.init = (options) => {
+exports.init = async (options) => {
   this.pig = require('@ocogeclub/pigpio')
   // console.log('pig= ' + this.pig)
-  this.pi = this.pig._pigpio_start('', '');
+  this.pi = await this.pig._pigpio_start('', '');
   // console.log('pi= ' + this.pi)
   // this.pi = require('@ocogeclub/lgpio');
 
   this.i2cBusNo = (options && options.hasOwnProperty('i2cBusNo')) ? options.i2cBusNo : 1;
   this.i2cAddress = (options && options.hasOwnProperty('i2cAddress')) ? options.i2cAddress : this.BME280_DEFAULT_I2C_ADDRESS();
-  this.i2cHand = this.pig._i2c_open(this.pi, this.i2cBusNo, this.i2cAddress);
+  this.i2cHand = await this.pig._i2c_open(this.pi, this.i2cBusNo, this.i2cAddress);
   // console.log('i2cHand= ' + this.i2cHand)
   // this.i2cHand = this.pi._i2c_open(this.i2cBusNo, this.i2cAddress);
 
   let r;
-  r = this.pig._i2c_write_byte_data(this.pi, this.i2cHand, this.REGISTER_CHIPID, 0);
+  r = await this.pig._i2c_write_byte_data(this.pi, this.i2cHand, this.REGISTER_CHIPID, 0);
   // r = this.pi._i2c_write_byte_data(this.i2cHand, this.REGISTER_CHIPID, 0);
   if (r < 0) return r;
-  let chipId = this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_CHIPID);
+  let chipId = await this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_CHIPID);
   // let chipId = this.pi._i2c_read_byte_data(this.i2cHand, this.REGISTER_CHIPID);
   if (chipId !== this.CHIP_ID_BME280() &&
     chipId !== this.CHIP_ID1_BMP280() &&
@@ -67,18 +67,18 @@ exports.init = (options) => {
     return `Unexpected BMx280 chip ID: 0x${chipId.toString(16).toUpperCase()}`;
   }
   // console.log(`Found BMx280 chip ID 0x${chipId.toString(16).toUpperCase()} on bus i2c-${this.i2cBusNo}, address 0x${this.i2cAddress.toString(16).toUpperCase()}`);
-  this.loadCalibration((err) => {
+  await this.loadCalibration(async (err) => {
     if (err) {
       return err;
     }
     // Humidity 16x oversampling
     //
-    let r = this.pig._i2c_write_byte_data(this.pi, this.i2cHand, this.REGISTER_CONTROL_HUM, 0b00000101);
+    let r = await this.pig._i2c_write_byte_data(this.pi, this.i2cHand, this.REGISTER_CONTROL_HUM, 0b00000101);
     // let r = this.pi._i2c_write_byte_data(this.i2cHand, this.REGISTER_CONTROL_HUM, 0b00000101);
     if (r < 0) return `Humidity 16x oversampling error: ${r}`;
     // Temperture/pressure 16x oversampling, normal mode
     //
-    r = this.pig._i2c_write_byte_data(this.pi, this.i2cHand, this.REGISTER_CONTROL, 0b10110111);
+    r = await this.pig._i2c_write_byte_data(this.pi, this.i2cHand, this.REGISTER_CONTROL, 0b10110111);
     // r = this.pi._i2c_write_byte_data(this.i2cHand, this.REGISTER_CONTROL, 0b10110111);
     if (r < 0) return `Temperture/pressure 16x oversampling error: ${r}`;
 
@@ -90,9 +90,9 @@ exports.init = (options) => {
 //
 // Perform a power-on reset procedure. You will need to call init() following a reset()
 //
-exports.reset = () => {
+exports.reset = async () => {
   const POWER_ON_RESET_CMD = 0xB6;
-  let r = this.pig._i2c_write_byte_data(this.pi, this.i2cHand, this.REGISTER_RESET, POWER_ON_RESET_CMD);
+  let r = await this.pig._i2c_write_byte_data(this.pi, this.i2cHand, this.REGISTER_RESET, POWER_ON_RESET_CMD);
   // let r = this.pi._i2c_write_byte_data(this.i2cHand, this.REGISTER_RESET, POWER_ON_RESET_CMD);
   if (r < 0) return `cannot power-on reset: ${r}`;
   else return 0;
@@ -102,24 +102,24 @@ exports.reset = () => {
 //
 // Cancels the sensor and releases resources.
 //
-exports.cancel = () => {
+exports.cancel = async () => {
   if (this.i2cHand >= 0) {
-    this.pig._i2c_close(this.pi, this.i2cHand);
+    await this.pig._i2c_close(this.pi, this.i2cHand);
     // this.pi._i2c_close(this.i2cHand);
     this.i2cHand = null;
-    this.pig._pigpio_stop(this.pi);
+    await this.pig._pigpio_stop(this.pi);
     this.pi = null;
   }
 }
 
-exports.readSensorData = () => {
+exports.readSensorData = async () => {
   if (!this.cal) {
     return 'You must first call bme280.init()';
   }
 
   // Grab temperature, humidity, and pressure in a single read
   //
-  let buffer = this.pig._i2c_read_i2c_block_data(this.pi, this.i2cHand, this.REGISTER_PRESSURE_DATA, 8);
+  let buffer = await this.pig._i2c_read_i2c_block_data(this.pi, this.i2cHand, this.REGISTER_PRESSURE_DATA, 8);
   // let buffer = this.pi._i2c_read_i2c_block_data(this.i2cHand, this.REGISTER_PRESSURE_DATA, 8);
   if (!buffer) return `couldn't grab data`;
   // Temperature (temperature first since we need t_fine for pressure and humidity)
@@ -171,18 +171,18 @@ exports.readSensorData = () => {
   };
 }
 
-exports.loadCalibration = (callback) => {
+exports.loadCalibration = async (callback) => {
-  let buffer = this.pig._i2c_read_i2c_block_data(this.pi, this.i2cHand, this.REGISTER_DIG_T1, 24);
+  let buffer = await this.pig._i2c_read_i2c_block_data(this.pi, this.i2cHand, this.REGISTER_DIG_T1, 24);
   // let buffer = this.pi._i2c_read_i2c_block_data(this.i2cHand, this.REGISTER_DIG_T1, 24);
   // for (let i = 0; i < 24; i++) console.log(parseInt(buffer[i], 16));
   if (buffer) {
-    let h1 = this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H1);
+    let h1 = await this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H1);
-    let h2 = this.pig._i2c_read_word_data(this.pi, this.i2cHand, this.REGISTER_DIG_H2);
+    let h2 = await this.pig._i2c_read_word_data(this.pi, this.i2cHand, this.REGISTER_DIG_H2);
-    let h3 = this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H3);
+    let h3 = await this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H3);
-    let h4 = this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H4);
+    let h4 = await this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H4);
-    let h5 = this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H5);
+    let h5 = await this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H5);
-    let h5_1 = this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H5 + 1);
+    let h5_1 = await this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H5 + 1);
-    let h6 = this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H6);
+    let h6 = await this.pig._i2c_read_byte_data(this.pi, this.i2cHand, this.REGISTER_DIG_H6);
     // let h1 = this.pi._i2c_read_byte_data(this.i2cHand, this.REGISTER_DIG_H1);
     // let h2 = this.pi._i2c_read_word_data(this.i2cHand, this.REGISTER_DIG_H2);
     // let h3 = this.pi._i2c_read_byte_data(this.i2cHand, this.REGISTER_DIG_H3);
@@ -215,7 +215,7 @@ exports.loadCalibration = (callback) => {
     };
 
     // console.log('BME280 cal = ' + JSON.stringify(this.cal, null, 2));
-    callback();
+    await callback();
   }
 }
 

local_modules/@ocogeclub/paj7620/PAJ7620.js

@@ -317,18 +317,20 @@ let pi = -1;
 let i2c_hand = -1;
 //Initialize the sensors
 exports.init = async (i2c_bus, i2c_addr) => {
-    if (pi < 0) pi = pig._pigpio_start('', '');
+    if (pi < 0) pi = await pig._pigpio_start('', '');
-    if (i2c_hand < 0) pig._i2c_close(pi, i2c_hand);
+    if (i2c_hand < 0) await pig._i2c_close(pi, i2c_hand);
-    i2c_hand = pig._i2c_open(pi, i2c_bus, i2c_addr);
+    i2c_hand = await pig._i2c_open(pi, i2c_bus, i2c_addr);
+    if (debug)
+        console.log("pi" + pi + "i2c_hand" + i2c_hand);
 
     await sleep(.001);
-    paj7620SelectBank(BANK0);
+    await paj7620SelectBank(BANK0);
-    paj7620SelectBank(BANK0);
+    await paj7620SelectBank(BANK0);
 
-    let data0 = paj7620ReadReg(0, 1)[0];
+    let data0 = (await paj7620ReadReg(0, 1))[0];
-    let data1 = paj7620ReadReg(1, 1)[0];
+    let data1 = (await paj7620ReadReg(1, 1))[0];
     if (debug)
-        console.log("data0" + data0 + "data1" + data1);
+        console.log("data0:" + data0 + ", data1:" + data1);
     if (data0 != 0x20)  //or data1 <> 0x76
         console.log("Error with sensor");
     //return 0xff
@@ -336,27 +338,27 @@ exports.init = async (i2c_bus, i2c_addr) => {
         console.log("wake-up finish.");
 
     for (let i = 0; i < initRegisterArray.length; i += 1)
-        paj7620WriteReg(initRegisterArray[i][0], initRegisterArray[i][1]);
+        await paj7620WriteReg(initRegisterArray[i][0], initRegisterArray[i][1]);
 
-    paj7620SelectBank(BANK0);
+    await paj7620SelectBank(BANK0);
 
     console.log("Paj7620 initialize register finished.");
 
 }
 
 // Write a byte to a register on the Gesture sensor
-const paj7620WriteReg = (addr, cmd) =>
+const paj7620WriteReg = async (addr, cmd) =>
-    pig._i2c_write_word_data(pi, i2c_hand, addr, cmd);
+    await pig._i2c_write_word_data(pi, i2c_hand, addr, cmd);
 
 //Select a register bank on the Gesture Sensor
-const paj7620SelectBank = bank => {
+const paj7620SelectBank = async bank => {
     if (bank == BANK0)
-        paj7620WriteReg(PAJ7620_REGITER_BANK_SEL, PAJ7620_BANK0);
+        await paj7620WriteReg(PAJ7620_REGITER_BANK_SEL, PAJ7620_BANK0);
 }
 
 //Read a block of bytes of length "qty" starting at address "addr" from the Gesture sensor
-const paj7620ReadReg = (addr, qty) => {
+const paj7620ReadReg = async (addr, qty) => {
-    return pig._i2c_read_i2c_block_data(pi, i2c_hand, addr, qty);
+    return await pig._i2c_read_i2c_block_data(pi, i2c_hand, addr, qty);
 }
 
 //Return a vlaue from the gestire sensor which can be used in a program
@@ -372,10 +374,10 @@ const paj7620ReadReg = (addr, qty) => {
 // 	9:wave
 exports.return_gesture = async () => {
 
-    let data = paj7620ReadReg(0x43, 1)[0];
+    let data = (await paj7620ReadReg(0x43, 1))[0];
     if (data == GES_RIGHT_FLAG) {
         await sleep(GES_ENTRY_TIME);
-        data = paj7620ReadReg(0x43, 1)[0];
+        data = (await paj7620ReadReg(0x43, 1))[0];
         if (data == GES_FORWARD_FLAG) {
             return 1;
             // await sleep(GES_QUIT_TIME);
@@ -390,7 +392,7 @@ exports.return_gesture = async () => {
 
     else if (data == GES_LEFT_FLAG) {
         await sleep(GES_ENTRY_TIME);
-        data = paj7620ReadReg(0x43, 1)[0];
+        data = (await paj7620ReadReg(0x43, 1))[0];
         if (data == GES_FORWARD_FLAG) {
             return 1;
             // await sleep(GES_QUIT_TIME);
@@ -405,7 +407,7 @@ exports.return_gesture = async () => {
 
     else if (data == GES_UP_FLAG) {
         await sleep(GES_ENTRY_TIME);
-        data = paj7620ReadReg(0x43, 1)[0];
+        data = (await paj7620ReadReg(0x43, 1))[0];
         if (data == GES_FORWARD_FLAG) {
             return 1;
             // await sleep(GES_QUIT_TIME);
@@ -420,7 +422,7 @@ exports.return_gesture = async () => {
 
     else if (data == GES_DOWN_FLAG) {
         await sleep(GES_ENTRY_TIME);
-        data = paj7620ReadReg(0x43, 1)[0];
+        data = (await paj7620ReadReg(0x43, 1))[0];
         if (data == GES_FORWARD_FLAG) {
             return 1;
             // await sleep(GES_QUIT_TIME);
@@ -449,20 +451,20 @@ exports.return_gesture = async () => {
         return 8;
 
     else {
-        let data1 = paj7620ReadReg(0x44, 1)[0];
+        let data1 = (await paj7620ReadReg(0x44, 1))[0];
         if (data1 == GES_WAVE_FLAG)
             return 9;
     }
     return 0;
 }
 
-exports.stop = () => {
+exports.stop = async () => {
     if (i2c_hand >= 0) {
-        pig._i2c_close(pi, i2c_hand);
+        await pig._i2c_close(pi, i2c_hand);
         i2c_hand = -1;
     }
     if (pi >= 0) {
-        pig._pigpio_stop(pi);
+        await pig._pigpio_stop(pi);
         pi = -1;
     }
 }

local_modules/@ocogeclub/pigpio/index.js

@@ -13,82 +13,82 @@ module.exports.PULL_NONE = 0;
 let pi = -1;
 let i2c_hand = -1;
 let ser_hand = -1;
-module.exports.gpio_open = () => {
+module.exports.gpio_open = async () => {
-    if (pi < 0) pi = module.exports._pigpio_start('', '');
+    if (pi < 0) pi = await module.exports._pigpio_start('', '');
     return pi;
 }
-module.exports.gpio_close = () => {
+module.exports.gpio_close = async () => {
-    if (pi >= 0) module.exports._pigpio_stop(pi);
+    if (pi >= 0) await module.exports._pigpio_stop(pi);
     pi = -1;
 }
-module.exports.gpio_set_output = gpio => {
+module.exports.gpio_set_output = async gpio => {
-    if (pi >= 0) return module.exports._set_mode(pi, gpio, 1);
+    if (pi >= 0) return await module.exports._set_mode(pi, gpio, 1);
 }
-module.exports.gpio_set_input = (gpio, mode) => {
+module.exports.gpio_set_input = async (gpio, mode) => {
     if (pi >= 0) {
-        let r = module.exports._set_mode(pi, gpio, 0);
+        let r = await module.exports._set_mode(pi, gpio, 0);
         if (r == 0)
-            return module.exports._set_pull_up_down(pi, gpio, mode);
+            return await module.exports._set_pull_up_down(pi, gpio, mode);
         else
             return r;
     }
 }
-module.exports.gpio_read = gpio => {
+module.exports.gpio_read = async gpio => {
-    if (pi >= 0) return module.exports._gpio_read(pi, gpio);
+    if (pi >= 0) return await module.exports._gpio_read(pi, gpio);
 }
-module.exports.gpio_write = (gpio, value) => {
+module.exports.gpio_write = async (gpio, value) => {
-    if (pi >= 0) return module.exports._gpio_write(pi, gpio, value);
+    if (pi >= 0) return await module.exports._gpio_write(pi, gpio, value);
 }
-module.exports.servo = (gpio, pulse_width) => {
+module.exports.servo = async (gpio, pulse_width) => {
-    if (pi >= 0) return module.exports._set_servo_pulsewidth(pi, gpio, pulse_width);
+    if (pi >= 0) return await module.exports._set_servo_pulsewidth(pi, gpio, pulse_width);
 }
-module.exports.pwm = (gpio, pwm_frequency, pwm_duty_cycle) => {
+module.exports.pwm = async (gpio, pwm_frequency, pwm_duty_cycle) => {
     if (pi >= 0) {
-        module.exports._set_PWM_frequency(pi, gpio, pwm_frequency);
+        await module.exports._set_PWM_frequency(pi, gpio, pwm_frequency);
-        module.exports._set_PWM_dutycycle(pi, gpio, pwm_duty_cycle);
+        await module.exports._set_PWM_dutycycle(pi, gpio, pwm_duty_cycle);
     }
 }
-module.exports.serial_open = (tty, baud) => {
+module.exports.serial_open = async (tty, baud) => {
-    if (ser_hand >= 0) module.exports._serial_close(pi, ser_hand); // 勝手に閉じる
+    if (ser_hand >= 0) await module.exports._serial_close(pi, ser_hand); // 勝手に閉じる
-    ser_hand = module.exports._serial_open(pi, tty, baud);
+    ser_hand = await module.exports._serial_open(pi, tty, baud);
     return ser_hand;
 }
-module.exports.serial_close = () => {
+module.exports.serial_close = async () => {
-    if (ser_hand >= 0) module.exports._serial_close(pi, ser_hand);
+    if (ser_hand >= 0) await module.exports._serial_close(pi, ser_hand);
     ser_hand = -1;
 }
-module.exports.serial_write = data => {
+module.exports.serial_write = async data => {
-    if (ser_hand >= 0) return module.exports._serial_write(pi, ser_hand, Buffer.from(data));
+    if (ser_hand >= 0) return await module.exports._serial_write(pi, ser_hand, Buffer.from(data));
 }
-module.exports.serial_read = count => {
+module.exports.serial_read = async count => {
-    if (ser_hand >= 0) return module.exports._serial_read(pi, ser_hand, count).toString('utf8');
+    if (ser_hand >= 0) return await module.exports._serial_read(pi, ser_hand, count).toString('utf8');
 }
-module.exports.i2c_open = (i2c_bus, i2c_address) => {
+module.exports.i2c_open = async (i2c_bus, i2c_address) => {
-    if (i2c_hand >= 0) module.exports._i2c_close(pi, i2c_hand); // 勝手に閉じる
+    if (i2c_hand >= 0) await module.exports._i2c_close(pi, i2c_hand); // 勝手に閉じる
-    i2c_hand = module.exports._i2c_open(pi, i2c_bus, i2c_address);
+    i2c_hand = await module.exports._i2c_open(pi, i2c_bus, i2c_address);
     return i2c_hand;
 }
-module.exports.i2c_close = () => {
+module.exports.i2c_close = async () => {
-    if (i2c_hand >= 0) module.exports._i2c_close(pi, i2c_hand);
+    if (i2c_hand >= 0) await module.exports._i2c_close(pi, i2c_hand);
     i2c_hand = -1;
 }
-module.exports.i2c_write_byte_data = (reg, byte_val) => {
+module.exports.i2c_write_byte_data = async (reg, byte_val) => {
-    if (i2c_hand >= 0) return module.exports._i2c_write_byte_data(pi, i2c_hand, reg, byte_val);
+    if (i2c_hand >= 0) return await module.exports._i2c_write_byte_data(pi, i2c_hand, reg, byte_val);
 }
-module.exports.i2c_read_byte_data = reg => {
+module.exports.i2c_read_byte_data = async reg => {
-    if (i2c_hand >= 0) return module.exports._i2c_read_byte_data(pi, i2c_hand, reg);
+    if (i2c_hand >= 0) return await module.exports._i2c_read_byte_data(pi, i2c_hand, reg);
 }
-module.exports.i2c_write_i2c_block_data = (reg, data) => {
+module.exports.i2c_write_i2c_block_data = async (reg, data) => {
-    if (i2c_hand >= 0) return module.exports._i2c_write_i2c_block_data(pi, i2c_hand, reg, Buffer.from(data));
+    if (i2c_hand >= 0) return await module.exports._i2c_write_i2c_block_data(pi, i2c_hand, reg, Buffer.from(data));
 }
-module.exports.i2c_read_word_data = reg => {
+module.exports.i2c_read_word_data = async reg => {
-    if (i2c_hand >= 0) return module.exports._i2c_read_word_data(pi, i2c_hand, reg);
+    if (i2c_hand >= 0) return await module.exports._i2c_read_word_data(pi, i2c_hand, reg);
 }
-module.exports.i2c_read_device = count => {
+module.exports.i2c_read_device = async count => {
-    if (i2c_hand >= 0) return module.exports._i2c_read_device(pi, i2c_hand, count).toString('utf8');
+    if (i2c_hand >= 0) return await module.exports._i2c_read_device(pi, i2c_hand, count).toString('utf8');
 }
-module.exports.i2c_write_device = data => {
+module.exports.i2c_write_device = async data => {
-    if (i2c_hand >= 0) return module.exports._i2c_write_device(pi, i2c_hand, Buffer.from(data));
+    if (i2c_hand >= 0) return await module.exports._i2c_write_device(pi, i2c_hand, Buffer.from(data));
 }
 // 終了処理
 module.exports.close_all_handle = () => {

local_modules/@ocogeclub/pigpio/pigpio.cpp

@@ -9,312 +9,294 @@
 using namespace Napi;
 
 // pigpio 初期化
-Value _pigpioStart(const CallbackInfo &info)
+Promise _pigpioStart(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 2)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 2)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsString() || !info[1].IsString())
+  else if (!info[0].IsString() || !info[1].IsString())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     std::string addrStr = info[0].As<String>().Utf8Value();
     std::string portStr = info[1].As<String>().Utf8Value();
-  return Number::New(env, pigpio_start(addrStr.c_str(), portStr.c_str()));
+    deferred.Resolve(Number::New(env, pigpio_start(addrStr.c_str(), portStr.c_str())));
-  // return Number::New(env, pigpio_start(&addrStr[0], &portStr[0]));
+  }
+  return deferred.Promise();
 }
 
 // pigpio 後始末
-Value _pigpioStop(const CallbackInfo &info)
+Promise _pigpioStop(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 1)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 1)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "IInvalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber())
+  else if (!info[0].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid aargument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     pigpio_stop(pi);
-  return env.Null();
+    deferred.Resolve(env.Null());
+  }
+  return deferred.Promise();
 }
 
 // GPIO 端子のモードを設定
-Value _setMode(const CallbackInfo &info)
+Promise _setMode(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int gpio = info[1].As<Number>().Uint32Value();
     unsigned int mode = info[2].As<Number>().Uint32Value();
 
-  return Number::New(env,
+    deferred.Resolve(Number::New(env, set_mode(pi, gpio, mode)));
-                     set_mode(pi, gpio, mode));
+  }
+  return deferred.Promise();
 }
-
-// GPIO 端子のモードを取得
-// Value _GetMode(const CallbackInfo &info)
-// {
-//   Env env = info.Env();
-//   if (info.Length() < 1)
-//   {
-//     TypeError::New(env, "Wrong number of arguments")
-//         .ThrowAsJavaScriptException();
-//     return env.Null();
-//   }
-//   if (!info[0].IsNumber())
-//   {
-//     TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
-//     return env.Null();
-//   }
-
-//   unsigned int gpio = info[0].As<Number>().DoubleValue();
-
-//   return Number::New(env,
-//                      get_mode(pi, gpio));
-// }
 
 // GPIOの内部プルアップ/ダウン抵抗の設定/クリア
-Value _setPullUpDown(const CallbackInfo &info)
+Promise _setPullUpDown(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int gpio = info[1].As<Number>().Uint32Value();
     unsigned int pud = info[2].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, set_pull_up_down(pi, gpio, pud)));
-  return Number::New(env,
+  }
-                     set_pull_up_down(pi, gpio, pud));
+  return deferred.Promise();
 }
 
 // GPIOの電圧を読む
-Value _gpioRead(const CallbackInfo &info)
+Promise _gpioRead(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 2)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 2)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
-
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int gpio = info[1].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, gpio_read(pi, gpio)));
-  return Number::New(env,
+  }
-                     gpio_read(pi, gpio));
+  return deferred.Promise();
 }
 
 // GPIO の電圧をセットする
-Value _gpioWrite(const CallbackInfo &info)
+Promise _gpioWrite(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int gpio = info[1].As<Number>().Uint32Value();
     unsigned int value = info[2].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, gpio_write(pi, gpio, value)));
-  return Number::New(env,
+  }
-                     gpio_write(pi, gpio, value));
+  return deferred.Promise();
 }
 
 // サーボパルス幅をセットする
-Value _setServoPulsewidth(const CallbackInfo &info)
+Promise _setServoPulsewidth(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int user_gpio = info[1].As<Number>().Uint32Value();
     unsigned int pulsewidth = info[2].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, set_servo_pulsewidth(pi, user_gpio, pulsewidth)));
-  return Number::New(env,
+  }
-                     set_servo_pulsewidth(pi, user_gpio, pulsewidth));
+  return deferred.Promise();
 }
 
 // PWM周波数を設定する
-Value _setPwmFrequency(const CallbackInfo &info)
+Promise _setPwmFrequency(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int user_gpio = info[1].As<Number>().Uint32Value();
     unsigned int frequency = info[2].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, set_PWM_frequency(pi, user_gpio, frequency)));
-  return Number::New(env,
+  }
-                     set_PWM_frequency(pi, user_gpio, frequency));
+  return deferred.Promise();
 }
-
-// PWMのレンジを設定する
-// Value _SetPwmRange(const CallbackInfo &info)
-// {
-//   Env env = info.Env();
-//   if (info.Length() < 2)
-//   {
-//     TypeError::New(env, "Wrong number of arguments")
-//         .ThrowAsJavaScriptException();
-//     return env.Null();
-//   }
-//   if (!info[0].IsNumber() || !info[1].IsNumber())
-//   {
-//     TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
-//     return env.Null();
-//   }
-
-//   unsigned int user_gpio = info[0].As<Number>().DoubleValue();
-//   unsigned int range = info[1].As<Number>().DoubleValue();
-
-//   return Number::New(env,
-//                      set_PWM_range(pi, user_gpio, range));
-// }
 
 // PWMのデューティ比を指定して出力を開始する
-Value _setPwmDutycycle(const CallbackInfo &info)
+Promise _setPwmDutycycle(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int user_gpio = info[1].As<Number>().Uint32Value();
     unsigned int dutycycle = info[2].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, set_PWM_dutycycle(pi, user_gpio, dutycycle)));
-  return Number::New(env,
+  }
-                     set_PWM_dutycycle(pi, user_gpio, dutycycle));
+  return deferred.Promise();
 }
 
 // シリアルポートを開く
-Value _serialOpen(const CallbackInfo &info)
+Promise _serialOpen(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsString() || !info[2].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsString() || !info[2].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     std::string ser_tty = info[1].As<String>().Utf8Value();
     unsigned int baud = info[2].As<Number>().Uint32Value();
-  // &ser_tty[0]
+    deferred.Resolve(Number::New(env, serial_open(pi, (char *)ser_tty.c_str(), baud, 0)));
-  return Number::New(env,
+  }
-                     serial_open(pi, (char *)ser_tty.c_str(), baud, 0));
+  return deferred.Promise();
 }
 
 // シリアルポートを閉じる
-Value _serialClose(const CallbackInfo &info)
+Promise _serialClose(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 2)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 2)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, serial_close(pi, handle)));
-  return Number::New(env,
+  }
-                     serial_close(pi, handle));
+  return deferred.Promise();
 }
 
 // シリアルデバイスからデータを読む
-Value _serialRead(const CallbackInfo &info)
+Promise _serialRead(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     unsigned int count = info[2].As<Number>().Uint32Value();
@@ -322,286 +304,311 @@ Value _serialRead(const CallbackInfo &info)
     char buf[count];
     int rxCount = serial_read(pi, handle, buf, count);
     auto outBuf = Buffer<char>::Copy(env, buf, rxCount);
-
+    deferred.Resolve(outBuf);
-  return outBuf;
+  }
+  return deferred.Promise();
 }
 
 // シリアルデバイスにバイト列を書き込む(data: string)
-Value _serialWrite(const CallbackInfo &info)
+Promise _serialWrite(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsBuffer())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsBuffer())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     auto buf = info[2].As<Buffer<char>>();
 
     int count = buf.Length();
-
+    deferred.Resolve(Number::New(env, serial_write(pi, handle, buf.Data(), count)););
-  return Number::New(env,
+  }
-                     serial_write(pi, handle, buf.Data(), count));
+  return deferred.Promise();
 }
 
 // I2Cバスアドレスのデバイスのハンドルを返す
-Value _i2cOpen(const CallbackInfo &info)
+Promise _i2cOpen(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
-
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int i2c_bus = info[1].As<Number>().Uint32Value();
     unsigned int i2c_addr = info[2].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, i2c_open(pi, i2c_bus, i2c_addr, 0)));
-  return Number::New(env,
+  }
-                     i2c_open(pi, i2c_bus, i2c_addr, 0));
+  return deferred.Promise();
 }
 // オープン済みI2Cハンドルを閉じる
-Value _i2cClose(const CallbackInfo &info)
+Promise _i2cClose(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 2)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 2)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, i2c_close(pi, handle)));
-  return Number::New(env,
+  }
-                     i2c_close(pi, handle));
+  return deferred.Promise();
 }
 
 // デバイスに１バイトを送る
-Value _i2cWriteByte(const CallbackInfo &info)
+Promise _i2cWriteByte(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     unsigned int bVal = info[2].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, i2c_write_byte(pi, handle, bVal)));
-  return Number::New(env,
+  }
-                     i2c_write_byte(pi, handle, bVal));
+  return deferred.Promise();
 }
 // デバイスから１バイトを受け取る
-Value _i2cReadByte(const CallbackInfo &info)
+Promise _i2cReadByte(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 2)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 2)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[0].IsNumber())
+  else if (!info[0].IsNumber() || !info[0].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, i2c_read_byte(pi, handle)));
-  return Number::New(env,
+  }
-                     i2c_read_byte(pi, handle));
+  return deferred.Promise();
 }
 
 // I2Cハンドルに関連付けられているデバイスの指定されたレジスタに1バイトを書き込む
-Value _i2cWriteByteData(const CallbackInfo &info)
+Promise _i2cWriteByteData(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 4)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 4)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber() || !info[3].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber() || !info[3].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     unsigned int i2c_reg = info[2].As<Number>().Uint32Value();
     unsigned int bVal = info[3].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, i2c_write_byte_data(pi, handle, i2c_reg, bVal)));
-  return Number::New(env,
+  }
-                     i2c_write_byte_data(pi, handle, i2c_reg, bVal));
+  return deferred.Promise();
 }
 
 // I2Cハンドルに関連付けられているデバイスの指定されたレジスタから1バイトを読み込む
-Value _i2cReadByteData(const CallbackInfo &info)
+Promise _i2cReadByteData(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     unsigned int i2c_reg = info[2].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, i2c_read_byte_data(pi, handle, i2c_reg)));
-  return Number::New(env,
+  }
-                     i2c_read_byte_data(pi, handle, i2c_reg));
+  return deferred.Promise();
 }
 
 // I2Cハンドルに関連付けられているデバイスの指定されたレジスタに最大３２バイトのデータを書き込む。
-Value _i2cWriteI2cBlockData(const CallbackInfo &info)
+Promise _i2cWriteI2cBlockData(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 4)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 4)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber() || !info[3].IsBuffer())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber() || !info[3].IsBuffer())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     unsigned int i2c_reg = info[2].As<Number>().Uint32Value();
     auto buf = info[3].As<Buffer<char>>();
 
     unsigned int count = buf.Length();
-
+    deferred.Resolve(Number::New(env, i2c_write_i2c_block_data(pi, handle, i2c_reg, buf.Data(), count)));
-  return Number::New(env,
+  }
-                     i2c_write_i2c_block_data(pi, handle, i2c_reg, buf.Data(), count));
+  return deferred.Promise();
 }
 
 // I2Cハンドルに関連付けられているデバイスの指定されたレジスタからcountバイトを読み込む。countは1～32。
-Value _i2cReadI2cBlockData(const CallbackInfo &info)
+Promise _i2cReadI2cBlockData(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 4)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 4)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber() || !info[3].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber() || !info[3].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     unsigned int i2cReg = info[2].As<Number>().Uint32Value();
     unsigned int count = info[3].As<Number>().Uint32Value();
-
     char buf[count];
     int rxCount = i2c_read_i2c_block_data(pi, handle, i2cReg, buf, count);
     auto outBuf = Buffer<char>::Copy(env, buf, rxCount);
-
+    deferred.Resolve(outBuf);
-  return outBuf;
+  }
+  return deferred.Promise();
 }
 
 // I2Cハンドルに関連付けられているデバイスの指定されたレジスタから単一の16ビットワードを読み取る
-Value _i2cReadWordData(const CallbackInfo &info)
+Promise _i2cReadWordData(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     unsigned int i2c_reg = info[2].As<Number>().Uint32Value();
-
+    deferred.Resolve(Number::New(env, i2c_read_word_data(pi, handle, i2c_reg)));
-  return Number::New(env,
+  }
-                     i2c_read_word_data(pi, handle, i2c_reg));
+  return deferred.Promise();
 }
 
 // I2Cハンドルに関連付けられているデバイスの指定されたレジスタに単一の16ビットワードを書き込む
-Value _i2cWriteWordData(const CallbackInfo &info)
+Promise _i2cWriteWordData(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 4)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 4)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber() || !info[3].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber() || !info[3].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     unsigned int i2c_reg = info[2].As<Number>().Uint32Value();
     unsigned int wVal = info[3].As<Number>().Uint32Value();
 
-  return Number::New(env,
+    deferred.Resolve(Number::New(env, i2c_write_word_data(pi, handle, i2c_reg, wVal)));
-                     i2c_write_word_data(pi, handle, i2c_reg, wVal));
+  }
+  return deferred.Promise();
 }
 
 // i2c デバイスからデータを受け取る
-Value _i2cReadDevice(const CallbackInfo &info)
+Promise _i2cReadDevice(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsNumber())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     unsigned int count = info[2].As<Number>().Uint32Value();
@@ -609,49 +616,49 @@ Value _i2cReadDevice(const CallbackInfo &info)
     char buf[count];
     int rxCount = i2c_read_device(pi, handle, buf, count);
     auto outBuf = Buffer<char>::Copy(env, buf, rxCount);
-
+    deferred.Resolve(outBuf);
-  return outBuf;
+  }
+  return deferred.Promise();
 }
 
 // i2c デバイスにバイト列を送る(data: buffer)
-Value _i2cWriteDevice(const CallbackInfo &info)
+Promise _i2cWriteDevice(const CallbackInfo &info)
 {
   Env env = info.Env();
-  if (info.Length() < 3)
+  auto deferred = Napi::Promise::Deferred::New(env);
+  if (info.Length() != 3)
   {
-    TypeError::New(env, "Wrong number of arguments")
+    deferred.Reject(
-        .ThrowAsJavaScriptException();
+        TypeError::New(env, "Invalid argument count").Value());
-    return env.Null();
   }
-  if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsBuffer())
+  else if (!info[0].IsNumber() || !info[1].IsNumber() || !info[2].IsBuffer())
   {
-    TypeError::New(env, "Wrong arguments").ThrowAsJavaScriptException();
+    deferred.Reject(
-    return env.Null();
+        Napi::TypeError::New(env, "Invalid argument types").Value());
   }
+  else
+  {
     int pi = info[0].As<Number>().Int32Value();
     unsigned int handle = info[1].As<Number>().Uint32Value();
     auto buf = info[2].As<Buffer<char>>();
 
     unsigned int count = buf.Length();
-
+    deferred.Resolve(Number::New(env, i2c_write_device(pi, handle, buf.Data(), count)));
-  return Number::New(env,
+  }
-                     i2c_write_device(pi, handle, buf.Data(), count));
+  return deferred.Promise();
 }
 
 Object
 Init(Env env, Object exports)
 {
-  // exports.Set(String::New(env, "usleep"), Function::New(env, _Usleep));
   exports.Set(String::New(env, "_pigpio_start"), Function::New(env, _pigpioStart));
   exports.Set(String::New(env, "_pigpio_stop"), Function::New(env, _pigpioStop));
   exports.Set(String::New(env, "_set_mode"), Function::New(env, _setMode));
-  // exports.Set(String::New(env, "get_mode"), Function::New(env, _GetMode));
   exports.Set(String::New(env, "_set_pull_up_down"), Function::New(env, _setPullUpDown));
   exports.Set(String::New(env, "_gpio_read"), Function::New(env, _gpioRead));
   exports.Set(String::New(env, "_gpio_write"), Function::New(env, _gpioWrite));
   exports.Set(String::New(env, "_set_servo_pulsewidth"), Function::New(env, _setServoPulsewidth));
   exports.Set(String::New(env, "_set_PWM_frequency"), Function::New(env, _setPwmFrequency));
-  // exports.Set(String::New(env, "set_PWM_range"), Function::New(env, _SetPwmRange));
   exports.Set(String::New(env, "_set_PWM_dutycycle"), Function::New(env, _setPwmDutycycle));
   exports.Set(String::New(env, "_serial_open"), Function::New(env, _serialOpen));
   exports.Set(String::New(env, "_serial_close"), Function::New(env, _serialClose));

package-lock.json

@@ -5,6 +5,7 @@
   "requires": true,
   "packages": {
     "": {
+      "name": "ocoge",
       "version": "0.1.3",
       "license": "ISC",
       "dependencies": {
@@ -3819,12 +3820,14 @@
     "@tensorflow-models/knn-classifier": {
       "version": "1.2.2",
       "resolved": "https://registry.npmjs.org/@tensorflow-models/knn-classifier/-/knn-classifier-1.2.2.tgz",
-      "integrity": "sha512-QRnkCf7ErOxSRtvJ6yCwhlLREPcBJGaXRanF46f0iY6ii3Sybjb6Ux0qnNPTrHZChD0izPa3Z4GQEgSAykiHkQ=="
+      "integrity": "sha512-QRnkCf7ErOxSRtvJ6yCwhlLREPcBJGaXRanF46f0iY6ii3Sybjb6Ux0qnNPTrHZChD0izPa3Z4GQEgSAykiHkQ==",
+      "requires": {}
     },
     "@tensorflow-models/mobilenet": {
       "version": "2.1.0",
       "resolved": "https://registry.npmjs.org/@tensorflow-models/mobilenet/-/mobilenet-2.1.0.tgz",
-      "integrity": "sha512-JjqT9ijHDFA2FEpUGWg7H2lQ0GrMuE2VmiCRBYmUew6b4JKht8LXDjG5HxZh95YH6c/25sZWTpGeHbquloH+hw=="
+      "integrity": "sha512-JjqT9ijHDFA2FEpUGWg7H2lQ0GrMuE2VmiCRBYmUew6b4JKht8LXDjG5HxZh95YH6c/25sZWTpGeHbquloH+hw==",
+      "requires": {}
     },
     "@tensorflow/tfjs": {
       "version": "3.11.0",
@@ -3869,7 +3872,8 @@
     "@tensorflow/tfjs-converter": {
       "version": "3.11.0",
       "resolved": "https://registry.npmjs.org/@tensorflow/tfjs-converter/-/tfjs-converter-3.11.0.tgz",
-      "integrity": "sha512-rTRIKvBoqL0qdPYpm8UXauZycOiaBHZB2E2v3OoXoHnjvle/Xn/09uZJdrixgGhR+Kahs3Vz27BEEFz6RI5j2w=="
+      "integrity": "sha512-rTRIKvBoqL0qdPYpm8UXauZycOiaBHZB2E2v3OoXoHnjvle/Xn/09uZJdrixgGhR+Kahs3Vz27BEEFz6RI5j2w==",
+      "requires": {}
     },
     "@tensorflow/tfjs-core": {
       "version": "3.11.0",
@@ -3897,7 +3901,8 @@
     "@tensorflow/tfjs-layers": {
       "version": "3.11.0",
       "resolved": "https://registry.npmjs.org/@tensorflow/tfjs-layers/-/tfjs-layers-3.11.0.tgz",
-      "integrity": "sha512-BtLgLucJZHv5te1K3yjT3iZdHXgMJArrLuOb/oRPOtTp4R2ad5N0V2m5RtuZJ3sI5/ah0h72xtmTWNyTv3/5dw=="
+      "integrity": "sha512-BtLgLucJZHv5te1K3yjT3iZdHXgMJArrLuOb/oRPOtTp4R2ad5N0V2m5RtuZJ3sI5/ah0h72xtmTWNyTv3/5dw==",
+      "requires": {}
     },
     "@tensorflow/tfjs-node": {
       "version": "3.11.0",
@@ -6142,7 +6147,8 @@
         "@tensorflow/tfjs-converter": {
           "version": "2.8.6",
           "resolved": "https://registry.npmjs.org/@tensorflow/tfjs-converter/-/tfjs-converter-2.8.6.tgz",
-          "integrity": "sha512-Uv4YC66qjVC9UwBxz0IeLZ8KS2CReh63WlGRtHcSwDEYiwsa7cvp9H6lFSSPT7kiJmrK6JtHeJGIVcTuNnSt9w=="
+          "integrity": "sha512-Uv4YC66qjVC9UwBxz0IeLZ8KS2CReh63WlGRtHcSwDEYiwsa7cvp9H6lFSSPT7kiJmrK6JtHeJGIVcTuNnSt9w==",
+          "requires": {}
         },
         "@tensorflow/tfjs-core": {
           "version": "2.8.6",
@@ -6168,7 +6174,8 @@
         "@tensorflow/tfjs-layers": {
           "version": "2.8.6",
           "resolved": "https://registry.npmjs.org/@tensorflow/tfjs-layers/-/tfjs-layers-2.8.6.tgz",
-          "integrity": "sha512-fdZ0i/R2dIKmy8OB5tBAsm5IbAHfJpI6AlbjxpgoU3aWj1HCdDo+pMji928MkDJhP01ISgFTgw/7PseGNaUflw=="
+          "integrity": "sha512-fdZ0i/R2dIKmy8OB5tBAsm5IbAHfJpI6AlbjxpgoU3aWj1HCdDo+pMji928MkDJhP01ISgFTgw/7PseGNaUflw==",
+          "requires": {}
         },
         "@types/webgl2": {
           "version": "0.0.5",

ugj_blocks.js

@@ -323,7 +323,7 @@ Blockly.JavaScript['ugj_gpio_open'] = function (block) {
   Blockly.JavaScript.provideFunction_(
     'require_gpio', [`const pi = require('@ocogeclub/` + elutil.gpio_backend + `');`]
   );
-  var code = `console.log('pi='+pi.gpio_open());\n`; //
+  var code = `await pi.gpio_open();\n`; //
   return code;
 };
 Blockly.Python['ugj_gpio_open'] = function (block) {
@@ -352,7 +352,7 @@ Blockly.Blocks['ugj_gpio_close'] = {
   }
 };
 Blockly.JavaScript['ugj_gpio_close'] = function (block) {
-  var code = 'pi.gpio_close();\n';
+  var code = 'await pi.gpio_close();\n';
   return code;
 };
 Blockly.Python['ugj_gpio_close'] = function (block) {
@@ -387,12 +387,12 @@ Blockly.Blocks['ugj_gpio_set_output'] = {
 };
 Blockly.JavaScript['ugj_gpio_set_output'] = function (block) {
   var value_gpio = Blockly.JavaScript.valueToCode(block, 'gpio', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.gpio_set_output(${value_gpio});\n`;
+  var code = `await pi.gpio_set_output(${value_gpio});\n`;
   return code;
 };
 Blockly.Python['ugj_gpio_set_output'] = function (block) {
   var value_gpio = Blockly.Python.valueToCode(block, 'gpio', Blockly.Python.ORDER_ATOMIC);
-  var code = `pi.gpio_set_output(${value_gpio})\n`;
+  var code = `await pi.gpio_set_output(${value_gpio})\n`;
   return code;
 };
 
@@ -442,13 +442,13 @@ Blockly.Blocks['ugj_gpio_set_input'] = {
 Blockly.JavaScript['ugj_gpio_set_input'] = function (block) {
   var value_gpio = Blockly.JavaScript.valueToCode(block, 'gpio', Blockly.JavaScript.ORDER_ATOMIC);
   var dropdown_lflag = block.getFieldValue('lflag');
-  var code = `pi.gpio_set_input(${value_gpio}, ${dropdown_lflag});\n`;
+  var code = `await pi.gpio_set_input(${value_gpio}, ${dropdown_lflag});\n`;
   return code;
 };
 Blockly.Python['ugj_gpio_set_input'] = function (block) {
   var value_gpio = Blockly.Python.valueToCode(block, 'gpio', Blockly.Python.ORDER_ATOMIC);
   var dropdown_lflag = block.getFieldValue('lflag');
-  var code = `pi.gpio_set_input(gpioHand, ${value_gpio}, ${dropdown_lflag})\n`;
+  var code = `await pi.gpio_set_input(gpioHand, ${value_gpio}, ${dropdown_lflag})\n`;
   return code;
 };
 
@@ -478,12 +478,12 @@ Blockly.Blocks['ugj_gpio_read'] = {
 };
 Blockly.JavaScript['ugj_gpio_read'] = function (block) {
   var value_gpio = Blockly.JavaScript.valueToCode(block, 'gpio', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.gpio_read(${value_gpio})`;
+  var code = `await pi.gpio_read(${value_gpio})`;
   return [code, Blockly.JavaScript.ORDER_NONE];
 };
 Blockly.Python['ugj_gpio_read'] = function (block) {
   var value_gpio = Blockly.Python.valueToCode(block, 'gpio', Blockly.Python.ORDER_ATOMIC);
-  var code = `pi.gpio_read(gpioHand, ${value_gpio})`;
+  var code = `await pi.gpio_read(gpioHand, ${value_gpio})`;
   return [code, Blockly.Python.ORDER_NONE];
 };
 
@@ -529,13 +529,13 @@ Blockly.Blocks['ugj_gpio_write'] = {
 Blockly.JavaScript['ugj_gpio_write'] = function (block) {
   var value_gpio = Blockly.JavaScript.valueToCode(block, 'gpio', Blockly.JavaScript.ORDER_ATOMIC);
   var dropdown_level = block.getFieldValue('level');
-  var code = `pi.gpio_write(${value_gpio}, ${dropdown_level});\n`;
+  var code = `await pi.gpio_write(${value_gpio}, ${dropdown_level});\n`;
   return code;
 };
 Blockly.Python['ugj_gpio_write'] = function (block) {
   var value_gpio = Blockly.Python.valueToCode(block, 'gpio', Blockly.Python.ORDER_ATOMIC);
   var dropdown_level = block.getFieldValue('level');
-  var code = `pi.gpio_write(gpioHand, ${value_gpio}, ${dropdown_level})\n`;
+  var code = `await pi.gpio_write(gpioHand, ${value_gpio}, ${dropdown_level})\n`;
   return code;
 };
 
@@ -572,13 +572,13 @@ Blockly.Blocks['ugj_servo'] = {
 Blockly.JavaScript['ugj_servo'] = function (block) {
   var value_gpio = Blockly.JavaScript.valueToCode(block, 'gpio', Blockly.JavaScript.ORDER_ATOMIC);
   var value_pulsewidth = Blockly.JavaScript.valueToCode(block, 'pulsewidth', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.servo(${value_gpio}, ${value_pulsewidth});\n`;
+  var code = `await pi.servo(${value_gpio}, ${value_pulsewidth});\n`;
   return code;
 };
 Blockly.Python['ugj_servo'] = function (block) {
   var value_gpio = Blockly.Python.valueToCode(block, 'gpio', Blockly.Python.ORDER_ATOMIC);
   var value_pulsewidth = Blockly.Python.valueToCode(block, 'pulsewidth', Blockly.Python.ORDER_ATOMIC);
-  var code = `pi.servo(gpioHand, ${value_gpio}, ${value_pulsewidth})\n`;
+  var code = `await pi.servo(gpioHand, ${value_gpio}, ${value_pulsewidth})\n`;
   return code;
 };
 
@@ -621,14 +621,14 @@ Blockly.JavaScript['ugj_pwm'] = function (block) {
   var value_gpio = Blockly.JavaScript.valueToCode(block, 'gpio', Blockly.JavaScript.ORDER_ATOMIC);
   var value_pwm_frequency = Blockly.JavaScript.valueToCode(block, 'pwm_frequency', Blockly.JavaScript.ORDER_ATOMIC);
   var value_pwm_duty_cycle = Blockly.JavaScript.valueToCode(block, 'pwm_duty_cycle', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.pwm(${value_gpio}, ${value_pwm_frequency}, ${value_pwm_duty_cycle});\n`;
+  var code = `await pi.pwm(${value_gpio}, ${value_pwm_frequency}, ${value_pwm_duty_cycle});\n`;
   return code;
 };
 Blockly.Python['ugj_pwm'] = function (block) {
   var value_gpio = Blockly.Python.valueToCode(block, 'gpio', Blockly.Python.ORDER_ATOMIC);
   var value_pwm_frequency = Blockly.Python.valueToCode(block, 'pwm_frequency', Blockly.Python.ORDER_ATOMIC);
   var value_pwm_duty_cycle = Blockly.Python.valueToCode(block, 'pwm_duty_cycle', Blockly.Python.ORDER_ATOMIC);
-  var code = `pi.pwm(gpioHand, ${value_gpio}, ${value_pwm_frequency}, ${value_pwm_duty_cycle})\n`;
+  var code = `await pi.pwm(gpioHand, ${value_gpio}, ${value_pwm_frequency}, ${value_pwm_duty_cycle})\n`;
   return code;
 };
 /********************** */
@@ -680,7 +680,7 @@ Blockly.JavaScript['ugj_serial_open'] = function (block) {
   Blockly.JavaScript.provideFunction_(
     'require_gpio', [`const pi = require('@ocogeclub/` + elutil.gpio_backend + `');`]
   );
-  var code = `pi.serial_open('/dev/serial0', ${dropdown_baud});\n`;
+  var code = `await pi.serial_open('/dev/serial0', ${dropdown_baud});\n`;
   return code;
 };
 Blockly.Python['ugj_serial_open'] = function (block) {
@@ -746,12 +746,12 @@ Blockly.Blocks['ugj_serial_write'] = {
 };
 Blockly.JavaScript['ugj_serial_write'] = function (block) {
   var value_data = Blockly.JavaScript.valueToCode(block, 'data', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.serial_write(${value_data});\n`;
+  var code = `await pi.serial_write(${value_data});\n`;
   return code;
 };
 Blockly.Python['ugj_serial_write'] = function (block) {
   var value_data = Blockly.Python.valueToCode(block, 'data', Blockly.Python.ORDER_ATOMIC);
-  var code = `pi.serial_write(ser_hand, ${value_data}.encode())\n`;
+  var code = `await pi.serial_write(ser_hand, ${value_data}.encode())\n`;
   return code;
 };
 
@@ -781,12 +781,12 @@ Blockly.Blocks['ugj_serial_read'] = {
 };
 Blockly.JavaScript['ugj_serial_read'] = function (block) {
   var value_count = Blockly.JavaScript.valueToCode(block, 'count', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.serial_read(${value_count})`;
+  var code = `await pi.serial_read(${value_count})`;
   return [code, Blockly.JavaScript.ORDER_ATOMIC];
 };
 Blockly.Python['ugj_serial_read'] = function (block) {
   var value_count = Blockly.Python.valueToCode(block, 'count', Blockly.Python.ORDER_ATOMIC);
-  var code = `pi.serial_read(ser_hand, ${value_count}).decode()`;
+  var code = `await pi.serial_read(ser_hand, ${value_count}).decode()`;
   return [code, Blockly.Python.ORDER_ATOMIC];
 };
 
@@ -850,11 +850,11 @@ Blockly.Blocks['ugj_i2c_close'] = {
   }
 };
 Blockly.JavaScript['ugj_i2c_close'] = function (block) {
-  var code = `pi.i2c_close();\n`;
+  var code = `await pi.i2c_close();\n`;
   return code;
 };
 Blockly.Python['ugj_i2c_close'] = function (block) {
-  var code = `pi.i2c_close(i2c_hand)\n`;
+  var code = `await pi.i2c_close(i2c_hand)\n`;
   return code;
 };
 
@@ -891,13 +891,13 @@ Blockly.Blocks['ugj_i2c_write_byte_data'] = {
 Blockly.JavaScript['ugj_i2c_write_byte_data'] = function (block) {
   var value_reg = Blockly.JavaScript.valueToCode(block, 'reg', Blockly.JavaScript.ORDER_ATOMIC);
   var value_byte_val = Blockly.JavaScript.valueToCode(block, 'byte_val', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.i2c_write_byte_data(${value_reg}, ${value_byte_val});\n`;
+  var code = `await pi.i2c_write_byte_data(${value_reg}, ${value_byte_val});\n`;
   return code;
 };
 Blockly.Python['ugj_i2c_write_byte_data'] = function (block) {
   var value_reg = Blockly.Python.valueToCode(block, 'reg', Blockly.Python.ORDER_ATOMIC);
   var value_byte_val = Blockly.Python.valueToCode(block, 'byte_val', Blockly.Python.ORDER_ATOMIC);
-  var code = `pi.i2c_write_byte_data(i2c_hand, ${value_reg}, ${value_byte_val})\n`;
+  var code = `await pi.i2c_write_byte_data(i2c_hand, ${value_reg}, ${value_byte_val})\n`;
   return code;
 };
 
@@ -927,12 +927,12 @@ Blockly.Blocks['ugj_i2c_read_byte_data'] = {
 };
 Blockly.JavaScript['ugj_i2c_read_byte_data'] = function (block) {
   var value_reg = Blockly.JavaScript.valueToCode(block, 'reg', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.i2c_read_byte_data(${value_reg})\n`;
+  var code = `await pi.i2c_read_byte_data(${value_reg})\n`;
   return [code, Blockly.JavaScript.ORDER_ATOMIC];
 };
 Blockly.Python['ugj_i2c_read_byte_data'] = function (block) {
   var value_reg = Blockly.Python.valueToCode(block, 'reg', Blockly.Python.ORDER_ATOMIC);
-  var code = `pi.i2c_read_byte_data(i2c_hand, ${value_reg})\n`;
+  var code = `await pi.i2c_read_byte_data(i2c_hand, ${value_reg})\n`;
   return [code, Blockly.Python.ORDER_ATOMIC];
 };
 
@@ -966,7 +966,7 @@ Blockly.Blocks['ugj_i2c_write_i2c_block_data'] = {
 Blockly.JavaScript['ugj_i2c_write_i2c_block_data'] = function (block) {
   var value_reg = Blockly.JavaScript.valueToCode(block, 'reg', Blockly.JavaScript.ORDER_ATOMIC);
   var value_data = Blockly.JavaScript.valueToCode(block, 'data', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.i2c_write_i2c_block_data (${value_reg}, ${value_data});`;
+  var code = `await pi.i2c_write_i2c_block_data (${value_reg}, ${value_data});`;
   return code;
 };
 Blockly.Python['ugj_i2c_write_i2c_block_data'] = function (block) {
@@ -1003,12 +1003,12 @@ Blockly.Blocks['ugj_i2c_read_device'] = {
 };
 Blockly.JavaScript['ugj_i2c_read_device'] = function (block) {
   var value_count = Blockly.JavaScript.valueToCode(block, 'count', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.i2c_read_device(${value_count})`;
+  var code = `await pi.i2c_read_device(${value_count})`;
   return [code, Blockly.JavaScript.ORDER_ATOMIC];
 };
 Blockly.Python['ugj_i2c_read_device'] = function (block) {
   var value_count = Blockly.Python.valueToCode(block, 'count', Blockly.Python.ORDER_ATOMIC);
-  var code = `pi.i2c_read_device(i2c_hand, ${value_count}).decode()`;
+  var code = `await pi.i2c_read_device(i2c_hand, ${value_count}).decode()`;
   return [code, Blockly.Python.ORDER_ATOMIC];
 };
 /********************************************** */
@@ -1038,12 +1038,12 @@ Blockly.Blocks['ugj_i2c_write_device'] = {
 };
 Blockly.JavaScript['ugj_i2c_write_device'] = function (block) {
   var value_data = Blockly.JavaScript.valueToCode(block, 'data', Blockly.JavaScript.ORDER_ATOMIC);
-  var code = `pi.i2c_write_device(${value_data})\n`;
+  var code = `await pi.i2c_write_device(${value_data})\n`;
   return code;
 };
 Blockly.Python['ugj_i2c_write_device'] = function (block) {
   var value_data = Blockly.Python.valueToCode(block, 'data', Blockly.Python.ORDER_ATOMIC);
-  var code = `pi.i2c_write_device(i2c_hand, ${value_data}.encode())\n`;
+  var code = `await pi.i2c_write_device(i2c_hand, ${value_data}.encode())\n`;
   return code;
 };
 
@@ -1101,12 +1101,12 @@ Blockly.JavaScript['ugj_bme280'] = function (block) {
     `  i2cBusNo: ${elutil.i2c_bus},`,
     `  i2cAddress: ${value_address}`,
     `};`,
-    `bme280.init(options);`,
+    `await bme280.init(options);`,
-    `let thp = bme280.readSensorData();`,
+    `let thp = await bme280.readSensorData();`,
     `${variable_temp} = Math.round(thp.temperature_C * 10) / 10;`,
     `${variable_hum} = Math.round(thp.humidity * 10) / 10;`,
     `${variable_pres} = Math.round(thp.pressure_hPa);`,
-    `bme280.cancel();`,
+    `await bme280.cancel();`,
     ``
   ].join('\n');
   return code;
@@ -1161,7 +1161,7 @@ Blockly.JavaScript['ugj_gesture_init'] = function (block) {
   Blockly.JavaScript.provideFunction_(
     'require_paj7620', [`const paj7620 = require('@ocogeclub/paj7620');`]
   );
-  var code = `paj7620.init(${elutil.i2c_bus}, ${value_i2c_addr});
+  var code = `await paj7620.init(${elutil.i2c_bus}, ${value_i2c_addr});
   `;
   return code;
 };
@@ -1218,7 +1218,7 @@ Blockly.Blocks['ugj_gesture_stop'] = {
   }
 };
 Blockly.JavaScript['ugj_gesture_stop'] = function (block) {
-  var code = 'paj7620.stop();\n';
+  var code = 'await paj7620.stop();\n';
   return code;
 };
 Blockly.Python['ugj_gesture_stop'] = function (block) {
@@ -1266,7 +1266,7 @@ Blockly.JavaScript['ugj_grideye_init'] = function (block) {
   Blockly.JavaScript.provideFunction_(
     'require_amg8833', [`const _amg8833 = require('@ocogeclub/amg8833');`]
   );
-  var code = `_amg8833.init(${elutil.i2c_bus}, ${dropdown_addr});\n`;
+  var code = `await _amg8833.init(${elutil.i2c_bus}, ${dropdown_addr});\n`;
   return code;
 };
 Blockly.Python['ugj_grideye_init'] = function (block) {
@@ -1292,7 +1292,7 @@ Blockly.Blocks['ugj_grideye_thermistor'] = {
   }
 };
 Blockly.JavaScript['ugj_grideye_thermistor'] = function (block) {
-  var code = `_amg8833.read_thermistor()`;
+  var code = `await _amg8833.read_thermistor()`;
   return [code, Blockly.JavaScript.ORDER_NONE];
 };
 Blockly.Python['ugj_grideye_thermistor'] = function (block) {
@@ -1320,7 +1320,7 @@ Blockly.Blocks['ugj_grideye_read'] = {
   }
 };
 Blockly.JavaScript['ugj_grideye_read'] = function (block) {
-  var code = '_amg8833.read_temp_array()';
+  var code = 'await _amg8833.read_temp_array()';
   return [code, Blockly.JavaScript.ORDER_ATOMIC];
 };
 Blockly.Python['ugj_grideye_read'] = function (block) {
@@ -1348,7 +1348,7 @@ Blockly.Blocks['ugj_grideye_stop'] = {
   }
 };
 Blockly.JavaScript['ugj_grideye_stop'] = function (block) {
-  var code = '_amg8833.stop();\n';
+  var code = 'await _amg8833.stop();\n';
   return code;
 };
 Blockly.Python['ugj_grideye_stop'] = function (block) {