realrobotshk
/
esp32blockly
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
esp32blockly/src/blocks/esp32_blocks.js

295 lines
9.2 KiB
JavaScript
Raw Normal View History

basic blockly code editor, python generated, and upload system working
2026-02-18 15:24:00 +00:00
import * as Blockly from 'blockly';
// ─── Pin I/O ──────────────────────────────────────────────
Blockly.Blocks['pin_set_mode'] = {
init() {
this.appendDummyInput()
.appendField('set pin')
.appendField(new Blockly.FieldNumber(2, 0, 48, 1), 'PIN')
.appendField('as')
.appendField(new Blockly.FieldDropdown([
['OUTPUT', 'OUT'],
['INPUT', 'IN'],
['INPUT_PULLUP', 'PULL_UP'],
]), 'MODE');
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(230);
this.setTooltip('Configure a GPIO pin mode');
},
};
Blockly.Blocks['pin_digital_write'] = {
init() {
this.appendDummyInput()
.appendField('digital write pin')
.appendField(new Blockly.FieldNumber(2, 0, 48, 1), 'PIN')
.appendField('to')
.appendField(new Blockly.FieldDropdown([
['HIGH', '1'],
['LOW', '0'],
]), 'VALUE');
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(230);
this.setTooltip('Write HIGH or LOW to a digital pin');
},
};
Blockly.Blocks['pin_digital_read'] = {
init() {
this.appendDummyInput()
.appendField('digital read pin')
.appendField(new Blockly.FieldNumber(2, 0, 48, 1), 'PIN');
this.setOutput(true, 'Number');
this.setColour(230);
this.setTooltip('Read digital value from a pin (0 or 1)');
},
};
// ─── PWM ──────────────────────────────────────────────────
Blockly.Blocks['pwm_init'] = {
init() {
this.appendDummyInput()
.appendField('init PWM on pin')
.appendField(new Blockly.FieldNumber(2, 0, 48, 1), 'PIN')
.appendField('freq')
.appendField(new Blockly.FieldNumber(1000, 1, 40000000, 1), 'FREQ')
.appendField('Hz');
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(160);
this.setTooltip('Initialize PWM on a pin with a frequency');
},
};
Blockly.Blocks['pwm_set_duty'] = {
init() {
this.appendValueInput('DUTY')
.setCheck('Number')
.appendField('set PWM duty on pin')
.appendField(new Blockly.FieldNumber(2, 0, 48, 1), 'PIN')
.appendField('to');
this.appendDummyInput()
.appendField('(0-1023)');
this.setInputsInline(true);
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(160);
this.setTooltip('Set PWM duty cycle (0-1023)');
},
};
Blockly.Blocks['pwm_set_freq'] = {
init() {
this.appendValueInput('FREQ')
.setCheck('Number')
.appendField('set PWM freq on pin')
.appendField(new Blockly.FieldNumber(2, 0, 48, 1), 'PIN')
.appendField('to');
this.appendDummyInput()
.appendField('Hz');
this.setInputsInline(true);
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(160);
this.setTooltip('Set PWM frequency in Hz');
},
};
// ─── ADC ──────────────────────────────────────────────────
Blockly.Blocks['adc_read'] = {
init() {
this.appendDummyInput()
.appendField('read ADC on pin')
.appendField(new Blockly.FieldNumber(1, 0, 20, 1), 'PIN');
this.setOutput(true, 'Number');
this.setColour(30);
this.setTooltip('Read analog value from ADC pin (0-4095)');
},
};
// ─── Time ─────────────────────────────────────────────────
Blockly.Blocks['sleep_seconds'] = {
init() {
this.appendValueInput('SECONDS')
.setCheck('Number')
.appendField('sleep');
this.appendDummyInput()
.appendField('seconds');
this.setInputsInline(true);
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(120);
this.setTooltip('Pause execution for N seconds');
},
};
Blockly.Blocks['sleep_ms'] = {
init() {
this.appendValueInput('MS')
.setCheck('Number')
.appendField('sleep');
this.appendDummyInput()
.appendField('milliseconds');
this.setInputsInline(true);
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(120);
this.setTooltip('Pause execution for N milliseconds');
},
};
Blockly.Blocks['ticks_ms'] = {
init() {
this.appendDummyInput()
.appendField('ticks (ms)');
this.setOutput(true, 'Number');
this.setColour(120);
this.setTooltip('Get millisecond tick counter');
},
};
// ─── WiFi ─────────────────────────────────────────────────
Blockly.Blocks['wifi_connect'] = {
init() {
this.appendDummyInput()
.appendField('connect WiFi SSID')
.appendField(new Blockly.FieldTextInput('MyNetwork'), 'SSID')
.appendField('password')
.appendField(new Blockly.FieldTextInput('password'), 'PASSWORD');
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(290);
this.setTooltip('Connect to a WiFi network');
},
};
Blockly.Blocks['wifi_get_ip'] = {
init() {
this.appendDummyInput()
.appendField('WiFi IP address');
this.setOutput(true, 'String');
this.setColour(290);
this.setTooltip('Get the current IP address');
},
};
// ─── NeoPixel ─────────────────────────────────────────────
Blockly.Blocks['neopixel_init'] = {
init() {
this.appendDummyInput()
.appendField('init NeoPixel on pin')
.appendField(new Blockly.FieldNumber(48, 0, 48, 1), 'PIN')
.appendField('with')
.appendField(new Blockly.FieldNumber(1, 1, 1024, 1), 'NUM')
.appendField('LEDs');
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(10);
this.setTooltip('Initialize a NeoPixel strip');
},
};
Blockly.Blocks['neopixel_set_color'] = {
init() {
this.appendDummyInput()
.appendField('set NeoPixel #')
.appendField(new Blockly.FieldNumber(0, 0, 1023, 1), 'INDEX');
this.appendValueInput('R').setCheck('Number').appendField('R');
this.appendValueInput('G').setCheck('Number').appendField('G');
this.appendValueInput('B').setCheck('Number').appendField('B');
this.setInputsInline(true);
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(10);
this.setTooltip('Set NeoPixel color (R, G, B values 0-255)');
},
};
Blockly.Blocks['neopixel_show'] = {
init() {
this.appendDummyInput()
.appendField('NeoPixel show');
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(10);
this.setTooltip('Push color data to NeoPixel strip');
},
};
// ─── I2C ──────────────────────────────────────────────────
Blockly.Blocks['i2c_init'] = {
init() {
this.appendDummyInput()
.appendField('init I2C SDA pin')
.appendField(new Blockly.FieldNumber(8, 0, 48, 1), 'SDA')
.appendField('SCL pin')
.appendField(new Blockly.FieldNumber(9, 0, 48, 1), 'SCL')
.appendField('freq')
.appendField(new Blockly.FieldNumber(400000, 1, 1000000, 1), 'FREQ');
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(200);
this.setTooltip('Initialize I2C bus');
},
};
Blockly.Blocks['i2c_scan'] = {
init() {
this.appendDummyInput()
.appendField('I2C scan devices');
this.setOutput(true, 'Array');
this.setColour(200);
this.setTooltip('Scan for I2C devices, returns list of addresses');
},
};
Blockly.Blocks['i2c_writeto'] = {
init() {
this.appendValueInput('DATA')
.setCheck(null)
.appendField('I2C write to address')
.appendField(new Blockly.FieldNumber(0, 0, 127, 1), 'ADDR')
.appendField('data');
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(200);
this.setTooltip('Write data bytes to an I2C device');
},
};
Blockly.Blocks['i2c_readfrom'] = {
init() {
this.appendDummyInput()
.appendField('I2C read from address')
.appendField(new Blockly.FieldNumber(0, 0, 127, 1), 'ADDR')
.appendField('bytes')
.appendField(new Blockly.FieldNumber(1, 1, 256, 1), 'NBYTES');
this.setOutput(true, null);
this.setColour(200);
this.setTooltip('Read N bytes from an I2C device');
},
};
// ─── Print ────────────────────────────────────────────────
Blockly.Blocks['print_text'] = {
init() {
this.appendValueInput('TEXT')
.setCheck(null)
.appendField('print');
this.setPreviousStatement(true, null);
this.setNextStatement(true, null);
this.setColour(60);
this.setTooltip('Print to serial output');
},
};