Uses the APDS_9960 Digital Proximity, Ambient Light, RGB and Gesture Sensor library to play detected gesture sounds on a speaker from the SDcard
Dependencies: mbed SDFileSystem wave_player
glibr.cpp
- Committer:
- kbhagat6
- Date:
- 2015-03-05
- Revision:
- 0:437ae08befe3
- Child:
- 1:c7215f5f9a72
File content as of revision 0:437ae08befe3:
#include "glibr.h" #include "mbed.h" glibr::glibr(PinName sda, PinName scl):i2c(sda, scl){ } glibr::~glibr(){ } uint8_t glibr::ginit(){ uint8_t id; // if( !wireReadDataByte(APDS9960_ID, id) ) { id=I2CreadByte(APDS9960_I2C_ADDR, APDS9960_ID); if( (!(id == APDS9960_ID_1 || id == APDS9960_ID_2))||id==ERROR) { return false; } if(!setMode(ALL, OFF)) { return false; } if(I2CwriteByte(APDS9960_I2C_ADDR,APDS9960_ATIME, DEFAULT_ATIME)){ return false; } if(I2CwriteByte(APDS9960_I2C_ADDR,APDS9960_WTIME, DEFAULT_WTIME)){ return false; } if(I2CwriteByte(APDS9960_I2C_ADDR,APDS9960_PPULSE, DEFAULT_PROX_PPULSE)){ return false; } if(I2CwriteByte(APDS9960_I2C_ADDR,APDS9960_POFFSET_UR, DEFAULT_POFFSET_UR)){ return false; } if(I2CwriteByte(APDS9960_I2C_ADDR,APDS9960_POFFSET_DL, DEFAULT_POFFSET_DL)){ return false; } if(I2CwriteByte(APDS9960_I2C_ADDR,APDS9960_CONFIG1, DEFAULT_CONFIG1)){ return false; } if( !setLEDDrive(DEFAULT_LDRIVE) ) { return false; } if( !setProximityGain(DEFAULT_PGAIN) ) { return false; } if( !setAmbientLightGain(DEFAULT_AGAIN) ) { return false; } if( !setProxIntLowThresh(DEFAULT_PILT) ) { return false; } return id; } /** * @brief Enables or disables a feature in the APDS-9960 * * @param[in] mode which feature to enable * @param[in] enable ON (1) or OFF (0) * @return True if operation success. False otherwise. */ bool glibr::setMode(uint8_t mode, uint8_t enable) { uint8_t reg_val; /* Read current ENABLE register */ reg_val = getMode(); if( reg_val == ERROR ) { return false; } /* Change bit(s) in ENABLE register */ enable = enable & 0x01; if( mode >= 0 && mode <= 6 ) { if (enable) { reg_val |= (1 << mode); } else { reg_val &= ~(1 << mode); } } else if( mode == ALL ) { if (enable) { reg_val = 0x7F; } else { reg_val = 0x00; } } /* Write value back to ENABLE register */ if(I2CwriteByte(APDS9960_I2C_ADDR,APDS9960_ENABLE, reg_val)){ return false; } return true; } uint8_t glibr::getMode() { return I2CreadByte(APDS9960_I2C_ADDR, APDS9960_ENABLE); } bool glibr::setLEDDrive(uint8_t drive) { uint8_t val; /* Read value from CONTROL register */ val=I2CreadByte(APDS9960_I2C_ADDR,APDS9960_CONTROL); if(val==ERROR){ return false; } /* Set bits in register to given value */ drive &= 0x03; drive = drive << 6; //val &= 0b00111111; val &= 0x3F; val |= drive; /* Write register value back into CONTROL register */ if( I2CwriteByte(APDS9960_I2C_ADDR,APDS9960_CONTROL, val) ) { return false; } return true; } bool glibr::setProximityGain(uint8_t drive) { uint8_t val; /* Read value from CONTROL register */ if( !wireReadDataByte(APDS9960_CONTROL, val) ) { return false; } /* Set bits in register to given value */ drive &= 0b00000011; drive = drive << 2; val &= 0b11110011; val |= drive; /* Write register value back into CONTROL register */ if( !wireWriteDataByte(APDS9960_CONTROL, val) ) { return false; } return true; } int glibr::I2CwriteByte(char address, char subAddress, char data) { int ret; char cmd[2] = {subAddress, data}; ret=i2c.write(address<<1, cmd, 2); //if ret is 1, then not acked. return ret; } uint8_t glibr::I2CreadByte(char address, char subAddress) { char data; // store the register data if(i2c.write(address<<1, &subAddress, 1, true)){ return ERROR; //7 bit //not acked } i2c.read(address<<1, &data, 1); return data; }