import { arduinoGenerator, Order } from '../generators/arduino.js'; // ─── Pin I/O ────────────────────────────────────────────── arduinoGenerator.forBlock['pin_set_mode'] = function (block) { const pin = block.getFieldValue('PIN'); const mode = block.getFieldValue('MODE'); const modeMap = { OUT: 'OUTPUT', IN: 'INPUT', IN_PULLUP: 'INPUT_PULLUP' }; arduinoGenerator.addSetupCode(`pinMode(${pin}, ${modeMap[mode] || 'OUTPUT'});`); return ''; }; arduinoGenerator.forBlock['pin_digital_write'] = function (block) { const pin = block.getFieldValue('PIN'); const value = block.getFieldValue('VALUE'); return `digitalWrite(${pin}, ${value === '1' ? 'HIGH' : 'LOW'});\n`; }; arduinoGenerator.forBlock['pin_digital_read'] = function (block) { const pin = block.getFieldValue('PIN'); return [`digitalRead(${pin})`, Order.FUNCTION_CALL]; }; // ─── PWM ────────────────────────────────────────────────── arduinoGenerator.forBlock['pwm_init'] = function () { return ''; }; arduinoGenerator.forBlock['pwm_set_duty'] = function (block) { const pin = block.getFieldValue('PIN'); const duty = arduinoGenerator.valueToCode(block, 'DUTY', Order.NONE) || '0'; return `analogWrite(${pin}, ${duty});\n`; }; arduinoGenerator.forBlock['pwm_set_freq'] = function () { return '// PWM frequency change not supported on AVR\n'; }; // ─── ADC ────────────────────────────────────────────────── arduinoGenerator.forBlock['adc_read'] = function (block) { const pin = block.getFieldValue('PIN'); return [`analogRead(${pin})`, Order.FUNCTION_CALL]; }; // ─── Sensors (sonar / HC-SR04) ──────────────────────────── arduinoGenerator.forBlock['sonar_distance'] = function (block) { const trig = arduinoGenerator.valueToCode(block, 'TRIG', Order.NONE) || '2'; const echo = arduinoGenerator.valueToCode(block, 'ECHO', Order.NONE) || '3'; arduinoGenerator.addDeclaration('sonar_helper', 'float _sonar_cm(int trigPin, int echoPin) {\n' + ' pinMode(trigPin, OUTPUT);\n' + ' pinMode(echoPin, INPUT);\n' + ' digitalWrite(trigPin, LOW);\n' + ' delayMicroseconds(2);\n' + ' digitalWrite(trigPin, HIGH);\n' + ' delayMicroseconds(10);\n' + ' digitalWrite(trigPin, LOW);\n' + ' long d = pulseIn(echoPin, HIGH, 30000);\n' + ' return d > 0 ? d / 58.0 : -1;\n' + '}' ); return [`_sonar_cm(${trig}, ${echo})`, Order.FUNCTION_CALL]; }; // ─── Time ───────────────────────────────────────────────── arduinoGenerator.forBlock['sleep_seconds'] = function (block) { const seconds = arduinoGenerator.valueToCode(block, 'SECONDS', Order.MULTIPLICATIVE) || '1'; return `delay(${seconds} * 1000);\n`; }; arduinoGenerator.forBlock['sleep_ms'] = function (block) { const ms = arduinoGenerator.valueToCode(block, 'MS', Order.NONE) || '100'; return `delay(${ms});\n`; }; arduinoGenerator.forBlock['ticks_ms'] = function () { return ['millis()', Order.FUNCTION_CALL]; }; // ─── Random ─────────────────────────────────────────────── arduinoGenerator.forBlock['random_int'] = function (block) { const from_ = arduinoGenerator.valueToCode(block, 'FROM', Order.NONE) || '0'; const to = arduinoGenerator.valueToCode(block, 'TO', Order.ADDITIVE) || '10'; return [`random(${from_}, ${to} + 1)`, Order.FUNCTION_CALL]; }; arduinoGenerator.forBlock['random_float'] = function () { return ['(random(10001) / 10000.0)', Order.MULTIPLICATIVE]; }; arduinoGenerator.forBlock['random_uniform'] = function (block) { const low = arduinoGenerator.valueToCode(block, 'LOW', Order.NONE) || '0'; const high = arduinoGenerator.valueToCode(block, 'HIGH', Order.NONE) || '1'; return [`(${low} + (random(10001) / 10000.0) * (${high} - ${low}))`, Order.ADDITIVE]; }; arduinoGenerator.forBlock['random_seed'] = function (block) { const seed = arduinoGenerator.valueToCode(block, 'SEED', Order.NONE) || '0'; return `randomSeed(${seed});\n`; }; // ─── Print ──────────────────────────────────────────────── arduinoGenerator.forBlock['print_text'] = function (block) { arduinoGenerator.addSetupCode('Serial.begin(9600);'); const text = arduinoGenerator.valueToCode(block, 'TEXT', Order.NONE) || '""'; return `Serial.println(${text});\n`; }; // ─── H-Bridge Motor ───────────────────────────────────── arduinoGenerator.definitions_['hb_set_motor_fn'] = [ 'void _hb_set_motor(int p1, int p2, int speed) {', ' speed = constrain(speed, -255, 255);', ' if (speed > 0) { analogWrite(p1, abs(speed)); analogWrite(p2, 0); }', ' else if (speed < 0) { analogWrite(p1, 0); analogWrite(p2, abs(speed)); }', ' else { analogWrite(p1, 0); analogWrite(p2, 0); }', '}', ].join('\n'); arduinoGenerator.forBlock['hbridge_motor_init'] = function (block) { var m = block.getFieldValue('MOTOR').toLowerCase(); var in1 = block.getFieldValue('IN1'); var in2 = block.getFieldValue('IN2'); arduinoGenerator.definitions_['hb_motor_' + m + '_in1'] = 'const int motor_' + m + '_in1 = ' + in1 + ';'; arduinoGenerator.definitions_['hb_motor_' + m + '_in2'] = 'const int motor_' + m + '_in2 = ' + in2 + ';'; arduinoGenerator.addSetupCode('pinMode(' + in1 + ', OUTPUT);'); arduinoGenerator.addSetupCode('pinMode(' + in2 + ', OUTPUT);'); return ''; }; arduinoGenerator.forBlock['hbridge_motor_speed'] = function (block) { var m = block.getFieldValue('MOTOR').toLowerCase(); var speed = arduinoGenerator.valueToCode(block, 'SPEED', Order.NONE) || '0'; return '_hb_set_motor(motor_' + m + '_in1, motor_' + m + '_in2, ' + speed + ');\n'; }; arduinoGenerator.forBlock['hbridge_motor_stop'] = function (block) { var m = block.getFieldValue('MOTOR').toLowerCase(); return '_hb_set_motor(motor_' + m + '_in1, motor_' + m + '_in2, 0);\n'; }; arduinoGenerator.forBlock['hbridge_dual_init'] = function (block) { var pins = [ ['motor_l_in1', 'L_IN1'], ['motor_l_in2', 'L_IN2'], ['motor_r_in1', 'R_IN1'], ['motor_r_in2', 'R_IN2'], ]; for (var [name, field] of pins) { var pin = block.getFieldValue(field); arduinoGenerator.definitions_['hb_' + name] = 'const int ' + name + ' = ' + pin + ';'; arduinoGenerator.addSetupCode('pinMode(' + pin + ', OUTPUT);'); } return ''; }; arduinoGenerator.forBlock['hbridge_dual_speed'] = function (block) { var left = arduinoGenerator.valueToCode(block, 'LEFT', Order.NONE) || '0'; var right = arduinoGenerator.valueToCode(block, 'RIGHT', Order.NONE) || '0'; return '_hb_set_motor(motor_l_in1, motor_l_in2, ' + left + ');\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, ' + right + ');\n'; }; arduinoGenerator.forBlock['hbridge_dual_forward'] = function () { return '_hb_set_motor(motor_l_in1, motor_l_in2, 128);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, 128);\n'; }; arduinoGenerator.forBlock['hbridge_dual_backward'] = function () { return '_hb_set_motor(motor_l_in1, motor_l_in2, -128);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, -128);\n'; }; arduinoGenerator.forBlock['hbridge_dual_left'] = function () { return '_hb_set_motor(motor_l_in1, motor_l_in2, -128);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, 128);\n'; }; arduinoGenerator.forBlock['hbridge_dual_right'] = function () { return '_hb_set_motor(motor_l_in1, motor_l_in2, 128);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, -128);\n'; }; arduinoGenerator.forBlock['hbridge_dual_forward_x_seconds'] = function (block) { var s = arduinoGenerator.valueToCode(block, 'SECS', Order.NONE) || '1'; return '_hb_set_motor(motor_l_in1, motor_l_in2, 128);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, 128);\n' + 'delay((' + s + ') * 1000);\n' + '_hb_set_motor(motor_l_in1, motor_l_in2, 0);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, 0);\n'; }; arduinoGenerator.forBlock['hbridge_dual_backward_x_seconds'] = function (block) { var s = arduinoGenerator.valueToCode(block, 'SECS', Order.NONE) || '1'; return '_hb_set_motor(motor_l_in1, motor_l_in2, -128);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, -128);\n' + 'delay((' + s + ') * 1000);\n' + '_hb_set_motor(motor_l_in1, motor_l_in2, 0);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, 0);\n'; }; arduinoGenerator.forBlock['hbridge_dual_left_x_seconds'] = function (block) { var s = arduinoGenerator.valueToCode(block, 'SECS', Order.NONE) || '1'; return '_hb_set_motor(motor_l_in1, motor_l_in2, -128);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, 128);\n' + 'delay((' + s + ') * 1000);\n' + '_hb_set_motor(motor_l_in1, motor_l_in2, 0);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, 0);\n'; }; arduinoGenerator.forBlock['hbridge_dual_right_x_seconds'] = function (block) { var s = arduinoGenerator.valueToCode(block, 'SECS', Order.NONE) || '1'; return '_hb_set_motor(motor_l_in1, motor_l_in2, 128);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, -128);\n' + 'delay((' + s + ') * 1000);\n' + '_hb_set_motor(motor_l_in1, motor_l_in2, 0);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, 0);\n'; }; arduinoGenerator.forBlock['hbridge_dual_stop'] = function () { return '_hb_set_motor(motor_l_in1, motor_l_in2, 0);\n' + '_hb_set_motor(motor_r_in1, motor_r_in2, 0);\n'; }; // ─── Sound (shared blocks) ──────────────────────────────── arduinoGenerator.forBlock['sound_play_tone'] = function (block) { const pin = block.getFieldValue('PIN'); const freq = arduinoGenerator.valueToCode(block, 'FREQ', Order.NONE) || '440'; const duration = arduinoGenerator.valueToCode(block, 'DURATION', Order.NONE) || '500'; return `tone(${pin}, ${freq}, ${duration});\n`; }; arduinoGenerator.forBlock['sound_stop'] = function (block) { const pin = block.getFieldValue('PIN'); return `noTone(${pin});\n`; }; arduinoGenerator.forBlock['sound_play_tone_speaker'] = function () { return '// Built-in speaker not available on Arduino\n'; }; arduinoGenerator.forBlock['sound_stop_speaker'] = function () { return '// Built-in speaker not available on Arduino\n'; }; arduinoGenerator.forBlock['sound_play_note'] = function (block) { const pin = block.getFieldValue('PIN'); const freq = block.getFieldValue('NOTE'); const duration = arduinoGenerator.valueToCode(block, 'DURATION', Order.NONE) || '500'; return `tone(${pin}, ${freq}, ${duration});\n`; }; arduinoGenerator.forBlock['sound_play_note_speaker'] = function () { return '// Built-in speaker not available on Arduino\n'; }; arduinoGenerator.forBlock['sound_play_staff_note'] = arduinoGenerator.forBlock['sound_play_note']; arduinoGenerator.forBlock['sound_play_staff_note_speaker'] = arduinoGenerator.forBlock['sound_play_note_speaker']; // ─── Sound – buzzer (init + pin-free) ──────────────────── arduinoGenerator.forBlock['sound_buzzer_init'] = function (block) { const pin = block.getFieldValue('PIN'); arduinoGenerator.definitions_['buzzer_pin'] = `const int _buzzerPin = ${pin};`; arduinoGenerator.addSetupCode('noTone(_buzzerPin);'); return ''; }; arduinoGenerator.forBlock['sound_buzzer_tone'] = function (block) { const freq = arduinoGenerator.valueToCode(block, 'FREQ', Order.NONE) || '440'; const duration = arduinoGenerator.valueToCode(block, 'DURATION', Order.NONE) || '500'; return `tone(_buzzerPin, ${freq}, ${duration});\n`; }; arduinoGenerator.forBlock['sound_buzzer_note'] = function (block) { const freq = block.getFieldValue('NOTE'); const duration = arduinoGenerator.valueToCode(block, 'DURATION', Order.NONE) || '500'; return `tone(_buzzerPin, ${freq}, ${duration});\n`; }; arduinoGenerator.forBlock['sound_buzzer_staff_note'] = arduinoGenerator.forBlock['sound_buzzer_note']; arduinoGenerator.forBlock['sound_buzzer_stop'] = function () { return 'noTone(_buzzerPin);\n'; }; // ─── Sound – melodies ──────────────────────────────────── const MELODIES = { mario: [ [660,100],[660,100],[0,100],[660,100],[0,100],[520,100],[660,100],[0,100], [784,100],[0,300],[392,100],[0,300], [520,100],[0,200],[392,100],[0,200],[330,100],[0,200], [440,100],[0,100],[494,100],[0,100],[466,100],[440,100],[0,100], [392,100],[660,100],[784,100],[880,100],[0,100],[698,100],[784,100], [0,100],[660,100],[0,100],[520,100],[587,100],[494,100],[0,100], [520,100],[0,200],[392,100],[0,200],[330,100],[0,200], [440,100],[0,100],[494,100],[0,100],[466,100],[440,100],[0,100], [392,100],[660,100],[784,100],[880,100],[0,100],[698,100],[784,100], [0,100],[660,100],[0,100],[520,100],[587,100],[494,100],[0,200], ], happy: [[523,150],[0,30],[659,150],[0,30],[784,200]], sad: [[392,250],[0,30],[330,250],[0,30],[262,300]], }; function melodyArduino(name, pinExpr) { const notes = MELODIES[name]; const freqArr = `_${name}Freqs`; const durArr = `_${name}Durs`; const lenVar = `_${name}Len`; arduinoGenerator.definitions_[`${name}_freqs`] = `const int ${freqArr}[] = {${notes.map(([f]) => f).join(',')}};`; arduinoGenerator.definitions_[`${name}_durs`] = `const int ${durArr}[] = {${notes.map(([, d]) => d).join(',')}};`; arduinoGenerator.definitions_[`${name}_len`] = `const int ${lenVar} = ${notes.length};`; let code = ''; code += `for (int _i = 0; _i < ${lenVar}; _i++) {\n`; code += ` if (${freqArr}[_i] == 0) {\n`; code += ` noTone(${pinExpr});\n`; code += ` } else {\n`; code += ` tone(${pinExpr}, ${freqArr}[_i]);\n`; code += ` }\n`; code += ` delay(${durArr}[_i]);\n`; code += `}\n`; code += `noTone(${pinExpr});\n`; return code; } function melodyPinArduino(name) { return function (block) { return melodyArduino(name, String(block.getFieldValue('PIN'))); }; } function melodyBuzzerArduino(name) { return function () { return melodyArduino(name, '_buzzerPin'); }; } arduinoGenerator.forBlock['sound_melody_mario'] = melodyPinArduino('mario'); arduinoGenerator.forBlock['sound_melody_mario_buzzer'] = melodyBuzzerArduino('mario'); arduinoGenerator.forBlock['sound_melody_happy'] = melodyPinArduino('happy'); arduinoGenerator.forBlock['sound_melody_happy_buzzer'] = melodyBuzzerArduino('happy'); arduinoGenerator.forBlock['sound_melody_sad'] = melodyPinArduino('sad'); arduinoGenerator.forBlock['sound_melody_sad_buzzer'] = melodyBuzzerArduino('sad'); // ─── Arduino-specific blocks ────────────────────────────── arduinoGenerator.forBlock['arduino_builtin_led'] = function (block) { const state = block.getFieldValue('STATE'); arduinoGenerator.addSetupCode('pinMode(LED_BUILTIN, OUTPUT);'); return `digitalWrite(LED_BUILTIN, ${state === '1' ? 'HIGH' : 'LOW'});\n`; }; arduinoGenerator.forBlock['arduino_analog_write'] = function (block) { const pin = block.getFieldValue('PIN'); const value = arduinoGenerator.valueToCode(block, 'VALUE', Order.NONE) || '0'; return `analogWrite(${pin}, ${value});\n`; }; arduinoGenerator.forBlock['arduino_analog_read'] = function (block) { const ch = block.getFieldValue('CHANNEL'); return [`analogRead(A${ch})`, Order.FUNCTION_CALL]; }; arduinoGenerator.forBlock['arduino_servo_attach'] = function (block) { const pin = block.getFieldValue('PIN'); arduinoGenerator.addInclude('include_servo', '#include '); arduinoGenerator.addDeclaration(`servo_decl_${pin}`, `Servo servo_${pin};`); arduinoGenerator.addSetupCode(`servo_${pin}.attach(${pin});`); return ''; }; arduinoGenerator.forBlock['arduino_servo_write'] = function (block) { const pin = block.getFieldValue('PIN'); const angle = arduinoGenerator.valueToCode(block, 'ANGLE', Order.NONE) || '90'; arduinoGenerator.addInclude('include_servo', '#include '); arduinoGenerator.addDeclaration(`servo_decl_${pin}`, `Servo servo_${pin};`); arduinoGenerator.addSetupCode(`servo_${pin}.attach(${pin});`); return `servo_${pin}.write(${angle});\n`; }; arduinoGenerator.forBlock['arduino_tone'] = function (block) { const pin = block.getFieldValue('PIN'); const freq = arduinoGenerator.valueToCode(block, 'FREQ', Order.NONE) || '440'; const duration = arduinoGenerator.valueToCode(block, 'DURATION', Order.NONE) || '500'; return `tone(${pin}, ${freq}, ${duration});\n`; }; arduinoGenerator.forBlock['arduino_no_tone'] = function (block) { const pin = block.getFieldValue('PIN'); return `noTone(${pin});\n`; }; arduinoGenerator.forBlock['arduino_map'] = function (block) { const value = arduinoGenerator.valueToCode(block, 'VALUE', Order.NONE) || '0'; const fromLow = arduinoGenerator.valueToCode(block, 'FROM_LOW', Order.NONE) || '0'; const fromHigh = arduinoGenerator.valueToCode(block, 'FROM_HIGH', Order.NONE) || '1023'; const toLow = arduinoGenerator.valueToCode(block, 'TO_LOW', Order.NONE) || '0'; const toHigh = arduinoGenerator.valueToCode(block, 'TO_HIGH', Order.NONE) || '255'; return [`map(${value}, ${fromLow}, ${fromHigh}, ${toLow}, ${toHigh})`, Order.FUNCTION_CALL]; }; // ─── Blocks not applicable to Arduino ───────────────────── const unsupportedBlocks = [ 'wifi_connect', 'wifi_get_ip', 'neopixel_init', 'neopixel_set_color', 'neopixel_show', 'colour_rgb', 'tuple_create_3', 'tuple_index', 'i2c_init', 'i2c_scan', 'i2c_writeto', 'i2c_readfrom', 'tcs34725_read_colours', 'hid_key_press', 'hid_key_down', 'hid_key_up', 'hid_keyboard_type', 'hid_mouse_move', 'hid_mouse_click', 'hid_mouse_scroll', 'hid_gamepad_button', 'hid_gamepad_axis', 'microbit_display_all', 'superbit_motor_run', 'superbit_motor_stop_all', ]; for (const blockType of unsupportedBlocks) { arduinoGenerator.forBlock[blockType] = function () { return '// Block not supported on Arduino\n'; }; } // ─── Loops ───────────────────────────────────────────── arduinoGenerator.forBlock['controls_repeat_forever'] = function (block) { let branch = arduinoGenerator.statementToCode(block, 'DO'); return `while (true) {\n${branch}}\n`; };