// Adafruit Circuit Playground speaker library // by Phil Burgess / Paint Your Dragon. #include #include "Adafruit_CPlay_Speaker.h" /**************************************************************************/ /*! @brief Sets up Circuit Playground speaker for PWM audio output: enables 48 KHz high-speed PWM mode, configures Timer/Counter 4, sets PWM duty cycle to 50% (speaker idle position). */ /**************************************************************************/ void Adafruit_CPlay_Speaker::begin(void) { #ifdef __AVR__ pinMode(5, OUTPUT); // Enable output #else pinMode(CPLAY_SPEAKER_SHUTDOWN, OUTPUT); digitalWrite(CPLAY_SPEAKER_SHUTDOWN, HIGH); // PWM/timer not needed on CPlay Express, has true analog out. // Set analogWrite resolution to 8 bits to match AVR calls. analogWriteResolution(8); pinMode(A0, OUTPUT); // Enable output #endif } /**************************************************************************/ /*! @brief enable or disable the speaker. This function only works on 'Express' boards. @param e pass true to enable, false to disable */ /**************************************************************************/ void Adafruit_CPlay_Speaker::enable(boolean e) { #ifdef __AVR__ #else // circuit playground express has nicer amp w/shutdown digitalWrite(CPLAY_SPEAKER_SHUTDOWN, e); #endif } /**************************************************************************/ /*! @brief Turns off PWM output to the speaker. */ /**************************************************************************/ void Adafruit_CPlay_Speaker::end(void) { #ifdef __AVR__ TCCR4A = 0; // PWMA off pinMode(5, INPUT); #else pinMode(A0, INPUT); #endif started = false; } /**************************************************************************/ /*! @brief Sets speaker position, enables PWM output if needed. @param value the value to set (0-255; 127=idle) */ /**************************************************************************/ void Adafruit_CPlay_Speaker::set(uint8_t value) { if(!started) begin(); #ifdef __AVR__ TCCR4A = value; #else analogWrite(A0, value); #endif } /**************************************************************************/ /*! @brief Plays digitized 8-bit audio (optionally 10 bits on Express board) from a PROGMEM (flash memory) buffer. Maybe 1-3 seconds tops depending on sampling rate (e.g. 8000 Hz = 8 Kbytes/second). Max ~20K space avail on Circuit Playground, lots more on Circuit Playground Express. This function currently "blocks" -- it will not play sounds in the background while other code runs. @param data pointer to the audio data to play @param len the length of the data in samples @param sampleRate the sample rate of the data in samples per second @param tenBit Optional flag if true 10-bit mode is enabled. AVR ONLY */ /**************************************************************************/ void Adafruit_CPlay_Speaker::playSound( const uint8_t *data, uint32_t len, uint16_t sampleRate, boolean tenBit) { uint32_t i; if(!started) { #ifdef __AVR__ // Set up Timer4 for fast PWM on !OC4A PLLFRQ = (PLLFRQ & 0xCF) | 0x30; // Route PLL to async clk TCCR4A = _BV(COM4A0) | _BV(PWM4A); // Clear on match, PWMA on TCCR4B = _BV(PWM4X) |_BV(CS40); // PWM invert, 1:1 prescale TCCR4D = 0; // Fast PWM mode TCCR4E = 0; // Not enhanced mode TC4H = 0; // Not 10-bit mode DT4 = 0; // No dead time OCR4C = 255; // TOP OCR4A = 127; // 50% duty (idle position) to start started = true; #endif } #ifdef __AVR__ uint16_t interval = 1000000L / sampleRate; #else uint32_t r2 = sampleRate / 2; uint32_t startTime = micros(); #endif if(tenBit) { // 10-bit audio samples? uint8_t loIdx = 4; #ifdef __AVR__ // Because it uses 8-bit PWM for output, the AVR code must filter // 10-bit data down to 8 bits. This is ONLY here for compatibility // with sketches with 10-bit samples. If targeting a project for AVR, // it's best to produce and use optimized 8-bit audio, else it's just // wasted space! Timer/Counter 4 DOES offer a 10-bit mode, but it's // not used in this library, just not worth it in the limited flash // space of the 32U4 chip. uint16_t idx = 0; uint8_t hiBits; for(i=0; i= 4) { hiBits = pgm_read_byte(&data[idx++]); loIdx = 0; } OCR4A = ((hiBits & 0xC0) | (pgm_read_byte(&data[idx++]) >> 2)); hiBits <<= 2; // Do this after write, because of masking op above delayMicroseconds(interval); } OCR4A = 127; #else // Circuit Playground Express -- use 10-bit analogWrite() uint32_t idx = 0; uint16_t hiBits; analogWriteResolution(10); for(i=0; i= 4) { hiBits = (uint16_t)pgm_read_byte(&data[idx++]); loIdx = 0; } hiBits <<= 2; // Do this before write, because of masking op below analogWrite(A0, (hiBits & 0x300) | pgm_read_byte(&data[idx++])); while(((micros()-startTime+50)/100) < ((i*10000UL+r2)/sampleRate)); } analogWriteResolution(8); // Return to 8 bits for set() compatibility analogWrite(A0, 127); #endif } else { // 8-bit audio samples #ifdef __AVR__ for(i=0; i