532 lines
16 KiB
C
532 lines
16 KiB
C
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/*!
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* @file Adafruit_APDS9960.h
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*
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* Software License Agreement (BSD License)
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*
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* Copyright (c) 2017, Adafruit Industries
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. Neither the name of the copyright holders nor the
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* names of its contributors may be used to endorse or promote products
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* derived from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ''AS IS'' AND ANY
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* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
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* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#ifndef _APDS9960_H_
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#define _APDS9960_H_
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#include <Arduino.h>
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#include <Wire.h>
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#define APDS9960_ADDRESS (0x39) /**< I2C Address */
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/** I2C Registers */
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enum {
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APDS9960_RAM = 0x00,
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APDS9960_ENABLE = 0x80,
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APDS9960_ATIME = 0x81,
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APDS9960_WTIME = 0x83,
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APDS9960_AILTIL = 0x84,
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APDS9960_AILTH = 0x85,
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APDS9960_AIHTL = 0x86,
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APDS9960_AIHTH = 0x87,
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APDS9960_PILT = 0x89,
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APDS9960_PIHT = 0x8B,
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APDS9960_PERS = 0x8C,
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APDS9960_CONFIG1 = 0x8D,
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APDS9960_PPULSE = 0x8E,
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APDS9960_CONTROL = 0x8F,
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APDS9960_CONFIG2 = 0x90,
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APDS9960_ID = 0x92,
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APDS9960_STATUS = 0x93,
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APDS9960_CDATAL = 0x94,
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APDS9960_CDATAH = 0x95,
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APDS9960_RDATAL = 0x96,
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APDS9960_RDATAH = 0x97,
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APDS9960_GDATAL = 0x98,
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APDS9960_GDATAH = 0x99,
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APDS9960_BDATAL = 0x9A,
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APDS9960_BDATAH = 0x9B,
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APDS9960_PDATA = 0x9C,
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APDS9960_POFFSET_UR = 0x9D,
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APDS9960_POFFSET_DL = 0x9E,
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APDS9960_CONFIG3 = 0x9F,
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APDS9960_GPENTH = 0xA0,
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APDS9960_GEXTH = 0xA1,
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APDS9960_GCONF1 = 0xA2,
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APDS9960_GCONF2 = 0xA3,
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APDS9960_GOFFSET_U = 0xA4,
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APDS9960_GOFFSET_D = 0xA5,
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APDS9960_GOFFSET_L = 0xA7,
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APDS9960_GOFFSET_R = 0xA9,
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APDS9960_GPULSE = 0xA6,
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APDS9960_GCONF3 = 0xAA,
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APDS9960_GCONF4 = 0xAB,
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APDS9960_GFLVL = 0xAE,
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APDS9960_GSTATUS = 0xAF,
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APDS9960_IFORCE = 0xE4,
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APDS9960_PICLEAR = 0xE5,
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APDS9960_CICLEAR = 0xE6,
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APDS9960_AICLEAR = 0xE7,
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APDS9960_GFIFO_U = 0xFC,
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APDS9960_GFIFO_D = 0xFD,
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APDS9960_GFIFO_L = 0xFE,
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APDS9960_GFIFO_R = 0xFF,
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};
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/** ADC gain settings */
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typedef enum {
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APDS9960_AGAIN_1X = 0x00, /**< No gain */
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APDS9960_AGAIN_4X = 0x01, /**< 2x gain */
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APDS9960_AGAIN_16X = 0x02, /**< 16x gain */
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APDS9960_AGAIN_64X = 0x03 /**< 64x gain */
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} apds9960AGain_t;
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/** Proxmity gain settings */
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typedef enum {
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APDS9960_PGAIN_1X = 0x00, /**< 1x gain */
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APDS9960_PGAIN_2X = 0x04, /**< 2x gain */
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APDS9960_PGAIN_4X = 0x08, /**< 4x gain */
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APDS9960_PGAIN_8X = 0x0C /**< 8x gain */
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} apds9960PGain_t;
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/** Pulse length settings */
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typedef enum {
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APDS9960_PPULSELEN_4US = 0x00, /**< 4uS */
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APDS9960_PPULSELEN_8US = 0x40, /**< 8uS */
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APDS9960_PPULSELEN_16US = 0x80, /**< 16uS */
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APDS9960_PPULSELEN_32US = 0xC0 /**< 32uS */
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} apds9960PPulseLen_t;
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/** LED drive settings */
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typedef enum {
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APDS9960_LEDDRIVE_100MA = 0x00, /**< 100mA */
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APDS9960_LEDDRIVE_50MA = 0x40, /**< 50mA */
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APDS9960_LEDDRIVE_25MA = 0x80, /**< 25mA */
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APDS9960_LEDDRIVE_12MA = 0xC0 /**< 12.5mA */
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} apds9960LedDrive_t;
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/** LED boost settings */
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typedef enum {
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APDS9960_LEDBOOST_100PCNT = 0x00, /**< 100% */
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APDS9960_LEDBOOST_150PCNT = 0x10, /**< 150% */
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APDS9960_LEDBOOST_200PCNT = 0x20, /**< 200% */
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APDS9960_LEDBOOST_300PCNT = 0x30 /**< 300% */
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} apds9960LedBoost_t;
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/** Dimensions */
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enum {
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APDS9960_DIMENSIONS_ALL = 0x00, // All dimensions
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APDS9960_DIMENSIONS_UP_DOWN = 0x01, // Up/Down dimensions
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APGS9960_DIMENSIONS_LEFT_RIGHT = 0x02, // Left/Right dimensions
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};
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/** FIFO Interrupts */
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enum {
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APDS9960_GFIFO_1 = 0x00, // Generate interrupt after 1 dataset in FIFO
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APDS9960_GFIFO_4 = 0x01, // Generate interrupt after 2 datasets in FIFO
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APDS9960_GFIFO_8 = 0x02, // Generate interrupt after 3 datasets in FIFO
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APDS9960_GFIFO_16 = 0x03, // Generate interrupt after 4 datasets in FIFO
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};
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/** Gesture Gain */
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enum {
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APDS9960_GGAIN_1 = 0x00, // Gain 1x
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APDS9960_GGAIN_2 = 0x01, // Gain 2x
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APDS9960_GGAIN_4 = 0x02, // Gain 4x
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APDS9960_GGAIN_8 = 0x03, // Gain 8x
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};
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/** Pulse Lenghts */
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enum {
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APDS9960_GPULSE_4US = 0x00, // Pulse 4us
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APDS9960_GPULSE_8US = 0x01, // Pulse 8us
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APDS9960_GPULSE_16US = 0x02, // Pulse 16us
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APDS9960_GPULSE_32US = 0x03, // Pulse 32us
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};
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#define APDS9960_UP 0x01 /**< Gesture Up */
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#define APDS9960_DOWN 0x02 /**< Gesture Down */
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#define APDS9960_LEFT 0x03 /**< Gesture Left */
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#define APDS9960_RIGHT 0x04 /**< Gesture Right */
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/*!
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* @brief Class that stores state and functions for interacting with
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* APDS9960 Sensor
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*/
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class Adafruit_APDS9960 {
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public:
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Adafruit_APDS9960(){};
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~Adafruit_APDS9960(){};
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boolean begin(uint16_t iTimeMS = 10, apds9960AGain_t = APDS9960_AGAIN_4X,
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uint8_t addr = APDS9960_ADDRESS, TwoWire *theWire = &Wire);
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void setADCIntegrationTime(uint16_t iTimeMS);
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float getADCIntegrationTime();
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void setADCGain(apds9960AGain_t gain);
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apds9960AGain_t getADCGain();
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void setLED(apds9960LedDrive_t drive, apds9960LedBoost_t boost);
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// proximity
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void enableProximity(boolean en = true);
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void setProxGain(apds9960PGain_t gain);
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apds9960PGain_t getProxGain();
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void setProxPulse(apds9960PPulseLen_t pLen, uint8_t pulses);
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void enableProximityInterrupt();
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void disableProximityInterrupt();
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uint8_t readProximity();
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void setProximityInterruptThreshold(uint8_t low, uint8_t high,
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uint8_t persistance = 4);
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bool getProximityInterrupt();
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// gesture
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void enableGesture(boolean en = true);
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bool gestureValid();
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void setGestureDimensions(uint8_t dims);
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void setGestureFIFOThreshold(uint8_t thresh);
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void setGestureGain(uint8_t gain);
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void setGestureProximityThreshold(uint8_t thresh);
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void setGestureOffset(uint8_t offset_up, uint8_t offset_down,
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uint8_t offset_left, uint8_t offset_right);
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uint8_t readGesture();
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void resetCounts();
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// light & color
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void enableColor(boolean en = true);
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bool colorDataReady();
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void getColorData(uint16_t *r, uint16_t *g, uint16_t *b, uint16_t *c);
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uint16_t calculateColorTemperature(uint16_t r, uint16_t g, uint16_t b);
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uint16_t calculateLux(uint16_t r, uint16_t g, uint16_t b);
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void enableColorInterrupt();
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void disableColorInterrupt();
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void clearInterrupt();
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void setIntLimits(uint16_t l, uint16_t h);
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// turn on/off elements
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void enable(boolean en = true);
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private:
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uint8_t _i2caddr;
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TwoWire *_wire;
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uint32_t read32(uint8_t reg);
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uint16_t read16(uint8_t reg);
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uint16_t read16R(uint8_t reg);
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void write8(byte reg, byte value);
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uint8_t read8(byte reg);
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uint8_t gestCnt;
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uint8_t UCount;
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uint8_t DCount;
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uint8_t LCount;
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uint8_t RCount;
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uint8_t read(uint8_t reg, uint8_t *buf, uint8_t num);
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void write(uint8_t reg, uint8_t *buf, uint8_t num);
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void _i2c_init();
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struct enable {
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// power on
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uint8_t PON : 1;
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// ALS enable
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uint8_t AEN : 1;
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// Proximity detect enable
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uint8_t PEN : 1;
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// wait timer enable
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uint8_t WEN : 1;
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// ALS interrupt enable
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uint8_t AIEN : 1;
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// proximity interrupt enable
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uint8_t PIEN : 1;
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// gesture enable
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uint8_t GEN : 1;
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uint8_t get() {
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return (GEN << 6) | (PIEN << 5) | (AIEN << 4) | (WEN << 3) | (PEN << 2) |
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(AEN << 1) | PON;
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};
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};
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struct enable _enable;
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struct pers {
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// ALS Interrupt Persistence. Controls rate of Clear channel interrupt to
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// the host processor
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uint8_t APERS : 4;
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// proximity interrupt persistence, controls rate of prox interrupt to host
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// processor
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uint8_t PPERS : 4;
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uint8_t get() { return (PPERS << 4) | APERS; };
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};
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pers _pers;
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struct config1 {
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uint8_t WLONG : 1;
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uint8_t get() { return WLONG << 1; };
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};
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config1 _config1;
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struct ppulse {
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/*Proximity Pulse Count. Specifies the number of proximity pulses to be
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generated on LDR. Number of pulses is set by PPULSE value plus 1.
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*/
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uint8_t PPULSE : 6;
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// Proximity Pulse Length. Sets the LED-ON pulse width during a proximity
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// LDR pulse.
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uint8_t PPLEN : 2;
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uint8_t get() { return (PPLEN << 6) | PPULSE; }
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};
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ppulse _ppulse;
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struct control {
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// ALS and Color gain control
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uint8_t AGAIN : 2;
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// proximity gain control
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uint8_t PGAIN : 2;
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// led drive strength
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uint8_t LDRIVE : 2;
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uint8_t get() { return (LDRIVE << 6) | (PGAIN << 2) | AGAIN; }
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};
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control _control;
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struct config2 {
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/* Additional LDR current during proximity and gesture LED pulses. Current
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value, set by LDRIVE, is increased by the percentage of LED_BOOST.
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*/
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uint8_t LED_BOOST : 2;
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// clear photodiode saturation int enable
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uint8_t CPSIEN : 1;
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// proximity saturation interrupt enable
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uint8_t PSIEN : 1;
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uint8_t get() {
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return (PSIEN << 7) | (CPSIEN << 6) | (LED_BOOST << 4) | 1;
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}
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};
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config2 _config2;
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struct status {
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/* ALS Valid. Indicates that an ALS cycle has completed since AEN was
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asserted or since a read from any of the ALS/Color data registers.
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*/
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uint8_t AVALID : 1;
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/* Proximity Valid. Indicates that a proximity cycle has completed since PEN
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was asserted or since PDATA was last read. A read of PDATA automatically
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clears PVALID.
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*/
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uint8_t PVALID : 1;
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/* Gesture Interrupt. GINT is asserted when GFVLV becomes greater than
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GFIFOTH or if GVALID has become asserted when GMODE transitioned to zero.
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The bit is reset when FIFO is completely emptied (read).
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*/
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uint8_t GINT : 1;
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// ALS Interrupt. This bit triggers an interrupt if AIEN in ENABLE is set.
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uint8_t AINT : 1;
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// Proximity Interrupt. This bit triggers an interrupt if PIEN in ENABLE is
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// set.
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uint8_t PINT : 1;
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/* Indicates that an analog saturation event occurred during a previous
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proximity or gesture cycle. Once set, this bit remains set until cleared by
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clear proximity interrupt special function command (0xE5 PICLEAR) or by
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disabling Prox (PEN=0). This bit triggers an interrupt if PSIEN is set.
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*/
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uint8_t PGSAT : 1;
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/* Clear Photodiode Saturation. When asserted, the analog sensor was at the
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upper end of its dynamic range. The bit can be de-asserted by sending a
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Clear channel interrupt command (0xE6 CICLEAR) or by disabling the ADC
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(AEN=0). This bit triggers an interrupt if CPSIEN is set.
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*/
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uint8_t CPSAT : 1;
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void set(uint8_t data) {
|
|||
|
AVALID = data & 0x01;
|
|||
|
PVALID = (data >> 1) & 0x01;
|
|||
|
GINT = (data >> 2) & 0x01;
|
|||
|
AINT = (data >> 4) & 0x01;
|
|||
|
PINT = (data >> 5) & 0x01;
|
|||
|
PGSAT = (data >> 6) & 0x01;
|
|||
|
CPSAT = (data >> 7) & 0x01;
|
|||
|
}
|
|||
|
};
|
|||
|
status _status;
|
|||
|
|
|||
|
struct config3 {
|
|||
|
// proximity mask
|
|||
|
uint8_t PMASK_R : 1;
|
|||
|
uint8_t PMASK_L : 1;
|
|||
|
uint8_t PMASK_D : 1;
|
|||
|
uint8_t PMASK_U : 1;
|
|||
|
|
|||
|
/* Sleep After Interrupt. When enabled, the device will automatically enter
|
|||
|
low power mode when the INT pin is asserted and the state machine has
|
|||
|
progressed to the SAI decision block. Normal operation is resumed when INT
|
|||
|
pin is cleared over I2C.
|
|||
|
*/
|
|||
|
uint8_t SAI : 1;
|
|||
|
|
|||
|
/* Proximity Gain Compensation Enable. This bit provides gain compensation
|
|||
|
when proximity photodiode signal is reduced as a result of sensor masking.
|
|||
|
If only one diode of the diode pair is contributing, then only half of the
|
|||
|
signal is available at the ADC; this results in a maximum ADC value of 127.
|
|||
|
Enabling PCMP enables an additional gain of 2X, resulting in a maximum ADC
|
|||
|
value of 255.
|
|||
|
*/
|
|||
|
uint8_t PCMP : 1;
|
|||
|
|
|||
|
uint8_t get() {
|
|||
|
return (PCMP << 5) | (SAI << 4) | (PMASK_U << 3) | (PMASK_D << 2) |
|
|||
|
(PMASK_L << 1) | PMASK_R;
|
|||
|
}
|
|||
|
};
|
|||
|
config3 _config3;
|
|||
|
|
|||
|
struct gconf1 {
|
|||
|
/* Gesture Exit Persistence. When a number of consecutive gesture end
|
|||
|
occurrences become equal or greater to the GEPERS value, the Gesture state
|
|||
|
machine is exited.
|
|||
|
*/
|
|||
|
uint8_t GEXPERS : 2;
|
|||
|
|
|||
|
/* Gesture Exit Mask. Controls which of the gesture detector photodiodes
|
|||
|
(UDLR) will be included to determine a gesture end and subsequent exit
|
|||
|
of the gesture state machine. Unmasked UDLR data will be compared with the
|
|||
|
value in GTHR_OUT. Field value bits correspond to UDLR detectors.
|
|||
|
*/
|
|||
|
uint8_t GEXMSK : 4;
|
|||
|
|
|||
|
/* Gesture FIFO Threshold. This value is compared with the FIFO Level (i.e.
|
|||
|
the number of UDLR datasets) to generate an interrupt (if enabled).
|
|||
|
*/
|
|||
|
uint8_t GFIFOTH : 2;
|
|||
|
|
|||
|
uint8_t get() { return (GFIFOTH << 6) | (GEXMSK << 2) | GEXPERS; }
|
|||
|
};
|
|||
|
gconf1 _gconf1;
|
|||
|
|
|||
|
struct gconf2 {
|
|||
|
/* Gesture Wait Time. The GWTIME controls the amount of time in a low power
|
|||
|
mode between gesture detection cycles.
|
|||
|
*/
|
|||
|
uint8_t GWTIME : 3;
|
|||
|
|
|||
|
// Gesture LED Drive Strength. Sets LED Drive Strength in gesture mode.
|
|||
|
uint8_t GLDRIVE : 2;
|
|||
|
|
|||
|
// Gesture Gain Control. Sets the gain of the proximity receiver in gesture
|
|||
|
// mode.
|
|||
|
uint8_t GGAIN : 2;
|
|||
|
|
|||
|
uint8_t get() { return (GGAIN << 5) | (GLDRIVE << 3) | GWTIME; }
|
|||
|
};
|
|||
|
gconf2 _gconf2;
|
|||
|
|
|||
|
struct gpulse {
|
|||
|
/* Number of Gesture Pulses. Specifies the number of pulses to be generated
|
|||
|
on LDR. Number of pulses is set by GPULSE value plus 1.
|
|||
|
*/
|
|||
|
uint8_t GPULSE : 6;
|
|||
|
|
|||
|
// Gesture Pulse Length. Sets the LED_ON pulse width during a Gesture LDR
|
|||
|
// Pulse.
|
|||
|
uint8_t GPLEN : 2;
|
|||
|
|
|||
|
uint8_t get() { return (GPLEN << 6) | GPULSE; }
|
|||
|
};
|
|||
|
gpulse _gpulse;
|
|||
|
|
|||
|
struct gconf3 {
|
|||
|
/* Gesture Dimension Select. Selects which gesture photodiode pairs are
|
|||
|
enabled to gather results during gesture.
|
|||
|
*/
|
|||
|
uint8_t GDIMS : 2;
|
|||
|
|
|||
|
uint8_t get() { return GDIMS; }
|
|||
|
};
|
|||
|
gconf3 _gconf3;
|
|||
|
|
|||
|
struct gconf4 {
|
|||
|
/* Gesture Mode. Reading this bit reports if the gesture state machine is
|
|||
|
actively running, 1 = Gesture, 0= ALS, Proximity, Color. Writing a 1 to this
|
|||
|
bit causes immediate entry in to the gesture state machine (as if GPENTH had
|
|||
|
been exceeded). Writing a 0 to this bit causes exit of gesture when current
|
|||
|
analog conversion has finished (as if GEXTH had been exceeded).
|
|||
|
*/
|
|||
|
uint8_t GMODE : 1;
|
|||
|
|
|||
|
/* Gesture interrupt enable. Gesture Interrupt Enable. When asserted, all
|
|||
|
gesture related interrupts are unmasked.
|
|||
|
*/
|
|||
|
uint8_t GIEN : 2;
|
|||
|
|
|||
|
uint8_t get() { return (GIEN << 1) | GMODE; }
|
|||
|
void set(uint8_t data) {
|
|||
|
GIEN = (data >> 1) & 0x01;
|
|||
|
GMODE = data & 0x01;
|
|||
|
}
|
|||
|
};
|
|||
|
gconf4 _gconf4;
|
|||
|
|
|||
|
struct gstatus {
|
|||
|
/* Gesture FIFO Data. GVALID bit is sent when GFLVL becomes greater than
|
|||
|
GFIFOTH (i.e. FIFO has enough data to set GINT). GFIFOD is reset when GMODE
|
|||
|
= 0 and the GFLVL=0 (i.e. All FIFO data has been read).
|
|||
|
*/
|
|||
|
uint8_t GVALID : 1;
|
|||
|
|
|||
|
/* Gesture FIFO Overflow. A setting of 1 indicates that the FIFO has filled
|
|||
|
to capacity and that new gesture detector data has been lost.
|
|||
|
*/
|
|||
|
uint8_t GFOV : 1;
|
|||
|
|
|||
|
void set(uint8_t data) {
|
|||
|
GFOV = (data >> 1) & 0x01;
|
|||
|
GVALID = data & 0x01;
|
|||
|
}
|
|||
|
};
|
|||
|
gstatus _gstatus;
|
|||
|
};
|
|||
|
|
|||
|
#endif
|