/********************************************************************* * * $Id: svn_id $ * * Implements the high-level API for Proximity functions * * - - - - - - - - - License information: - - - - - - - - - * * Copyright (C) 2011 and beyond by Yoctopuce Sarl, Switzerland. * * Yoctopuce Sarl (hereafter Licensor) grants to you a perpetual * non-exclusive license to use, modify, copy and integrate this * file into your software for the sole purpose of interfacing * with Yoctopuce products. * * You may reproduce and distribute copies of this file in * source or object form, as long as the sole purpose of this * code is to interface with Yoctopuce products. You must retain * this notice in the distributed source file. * * You should refer to Yoctopuce General Terms and Conditions * for additional information regarding your rights and * obligations. * * THE SOFTWARE AND DOCUMENTATION ARE PROVIDED 'AS IS' WITHOUT * WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING * WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY, FITNESS * FOR A PARTICULAR PURPOSE, TITLE AND NON-INFRINGEMENT. IN NO * EVENT SHALL LICENSOR BE LIABLE FOR ANY INCIDENTAL, SPECIAL, * INDIRECT OR CONSEQUENTIAL DAMAGES, LOST PROFITS OR LOST DATA, * COST OF PROCUREMENT OF SUBSTITUTE GOODS, TECHNOLOGY OR * SERVICES, ANY CLAIMS BY THIRD PARTIES (INCLUDING BUT NOT * LIMITED TO ANY DEFENSE THEREOF), ANY CLAIMS FOR INDEMNITY OR * CONTRIBUTION, OR OTHER SIMILAR COSTS, WHETHER ASSERTED ON THE * BASIS OF CONTRACT, TORT (INCLUDING NEGLIGENCE), BREACH OF * WARRANTY, OR OTHERWISE. * *********************************************************************/ import { YAPIContext, YSensor, YMeasure } from './yocto_api.js'; /** * YProximity Class: proximity sensor control interface, available for instance in the Yocto-Proximity * * The YProximity class allows you to read and configure Yoctopuce proximity sensors. * It inherits from YSensor class the core functions to read measures, * to register callback functions, and to access the autonomous datalogger. * This class adds the ability to set up a detection threshold and to count the * number of detected state changes. */ export declare class YProximity extends YSensor { _className: string; _signalValue: number; _detectionThreshold: number; _detectionHysteresis: number; _presenceMinTime: number; _removalMinTime: number; _isPresent: YProximity.ISPRESENT; _lastTimeApproached: number; _lastTimeRemoved: number; _pulseCounter: number; _pulseTimer: number; _proximityReportMode: YProximity.PROXIMITYREPORTMODE; _valueCallbackProximity: YProximity.ValueCallback | null; _timedReportCallbackProximity: YProximity.TimedReportCallback | null; readonly SIGNALVALUE_INVALID: number; readonly DETECTIONTHRESHOLD_INVALID: number; readonly DETECTIONHYSTERESIS_INVALID: number; readonly PRESENCEMINTIME_INVALID: number; readonly REMOVALMINTIME_INVALID: number; readonly ISPRESENT_FALSE: YProximity.ISPRESENT; readonly ISPRESENT_TRUE: YProximity.ISPRESENT; readonly ISPRESENT_INVALID: YProximity.ISPRESENT; readonly LASTTIMEAPPROACHED_INVALID: number; readonly LASTTIMEREMOVED_INVALID: number; readonly PULSECOUNTER_INVALID: number; readonly PULSETIMER_INVALID: number; readonly PROXIMITYREPORTMODE_NUMERIC: YProximity.PROXIMITYREPORTMODE; readonly PROXIMITYREPORTMODE_PRESENCE: YProximity.PROXIMITYREPORTMODE; readonly PROXIMITYREPORTMODE_PULSECOUNT: YProximity.PROXIMITYREPORTMODE; readonly PROXIMITYREPORTMODE_INVALID: YProximity.PROXIMITYREPORTMODE; static readonly SIGNALVALUE_INVALID: number; static readonly DETECTIONTHRESHOLD_INVALID: number; static readonly DETECTIONHYSTERESIS_INVALID: number; static readonly PRESENCEMINTIME_INVALID: number; static readonly REMOVALMINTIME_INVALID: number; static readonly ISPRESENT_FALSE: YProximity.ISPRESENT; static readonly ISPRESENT_TRUE: YProximity.ISPRESENT; static readonly ISPRESENT_INVALID: YProximity.ISPRESENT; static readonly LASTTIMEAPPROACHED_INVALID: number; static readonly LASTTIMEREMOVED_INVALID: number; static readonly PULSECOUNTER_INVALID: number; static readonly PULSETIMER_INVALID: number; static readonly PROXIMITYREPORTMODE_NUMERIC: YProximity.PROXIMITYREPORTMODE; static readonly PROXIMITYREPORTMODE_PRESENCE: YProximity.PROXIMITYREPORTMODE; static readonly PROXIMITYREPORTMODE_PULSECOUNT: YProximity.PROXIMITYREPORTMODE; static readonly PROXIMITYREPORTMODE_INVALID: YProximity.PROXIMITYREPORTMODE; constructor(yapi: YAPIContext, func: string); imm_parseAttr(name: string, val: any): number; /** * Returns the current value of signal measured by the proximity sensor. * * @return a floating point number corresponding to the current value of signal measured by the proximity sensor * * On failure, throws an exception or returns YProximity.SIGNALVALUE_INVALID. */ get_signalValue(): Promise; /** * Returns the threshold used to determine the logical state of the proximity sensor, when considered * as a binary input (on/off). * * @return an integer corresponding to the threshold used to determine the logical state of the * proximity sensor, when considered * as a binary input (on/off) * * On failure, throws an exception or returns YProximity.DETECTIONTHRESHOLD_INVALID. */ get_detectionThreshold(): Promise; /** * Changes the threshold used to determine the logical state of the proximity sensor, when considered * as a binary input (on/off). * Remember to call the saveToFlash() method of the module if the modification must be kept. * * @param newval : an integer corresponding to the threshold used to determine the logical state of * the proximity sensor, when considered * as a binary input (on/off) * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_detectionThreshold(newval: number): Promise; /** * Returns the hysteresis used to determine the logical state of the proximity sensor, when considered * as a binary input (on/off). * * @return an integer corresponding to the hysteresis used to determine the logical state of the * proximity sensor, when considered * as a binary input (on/off) * * On failure, throws an exception or returns YProximity.DETECTIONHYSTERESIS_INVALID. */ get_detectionHysteresis(): Promise; /** * Changes the hysteresis used to determine the logical state of the proximity sensor, when considered * as a binary input (on/off). * Remember to call the saveToFlash() method of the module if the modification must be kept. * * @param newval : an integer corresponding to the hysteresis used to determine the logical state of * the proximity sensor, when considered * as a binary input (on/off) * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_detectionHysteresis(newval: number): Promise; /** * Returns the minimal detection duration before signalling a presence event. Any shorter detection is * considered as noise or bounce (false positive) and filtered out. * * @return an integer corresponding to the minimal detection duration before signalling a presence event * * On failure, throws an exception or returns YProximity.PRESENCEMINTIME_INVALID. */ get_presenceMinTime(): Promise; /** * Changes the minimal detection duration before signalling a presence event. Any shorter detection is * considered as noise or bounce (false positive) and filtered out. * Remember to call the saveToFlash() method of the module if the modification must be kept. * * @param newval : an integer corresponding to the minimal detection duration before signalling a presence event * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_presenceMinTime(newval: number): Promise; /** * Returns the minimal detection duration before signalling a removal event. Any shorter detection is * considered as noise or bounce (false positive) and filtered out. * * @return an integer corresponding to the minimal detection duration before signalling a removal event * * On failure, throws an exception or returns YProximity.REMOVALMINTIME_INVALID. */ get_removalMinTime(): Promise; /** * Changes the minimal detection duration before signalling a removal event. Any shorter detection is * considered as noise or bounce (false positive) and filtered out. * Remember to call the saveToFlash() method of the module if the modification must be kept. * * @param newval : an integer corresponding to the minimal detection duration before signalling a removal event * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_removalMinTime(newval: number): Promise; /** * Returns true if the input (considered as binary) is active (detection value is smaller than the * specified threshold), and false otherwise. * * @return either YProximity.ISPRESENT_FALSE or YProximity.ISPRESENT_TRUE, according to true if the * input (considered as binary) is active (detection value is smaller than the specified threshold), * and false otherwise * * On failure, throws an exception or returns YProximity.ISPRESENT_INVALID. */ get_isPresent(): Promise; /** * Returns the number of elapsed milliseconds between the module power on and the last observed * detection (the input contact transitioned from absent to present). * * @return an integer corresponding to the number of elapsed milliseconds between the module power on * and the last observed * detection (the input contact transitioned from absent to present) * * On failure, throws an exception or returns YProximity.LASTTIMEAPPROACHED_INVALID. */ get_lastTimeApproached(): Promise; /** * Returns the number of elapsed milliseconds between the module power on and the last observed * detection (the input contact transitioned from present to absent). * * @return an integer corresponding to the number of elapsed milliseconds between the module power on * and the last observed * detection (the input contact transitioned from present to absent) * * On failure, throws an exception or returns YProximity.LASTTIMEREMOVED_INVALID. */ get_lastTimeRemoved(): Promise; /** * Returns the pulse counter value. The value is a 32 bit integer. In case * of overflow (>=2^32), the counter will wrap. To reset the counter, just * call the resetCounter() method. * * @return an integer corresponding to the pulse counter value * * On failure, throws an exception or returns YProximity.PULSECOUNTER_INVALID. */ get_pulseCounter(): Promise; set_pulseCounter(newval: number): Promise; /** * Returns the timer of the pulse counter (ms). * * @return an integer corresponding to the timer of the pulse counter (ms) * * On failure, throws an exception or returns YProximity.PULSETIMER_INVALID. */ get_pulseTimer(): Promise; /** * Returns the parameter (sensor value, presence or pulse count) returned by the get_currentValue * function and callbacks. * * @return a value among YProximity.PROXIMITYREPORTMODE_NUMERIC, * YProximity.PROXIMITYREPORTMODE_PRESENCE and YProximity.PROXIMITYREPORTMODE_PULSECOUNT corresponding * to the parameter (sensor value, presence or pulse count) returned by the get_currentValue function and callbacks * * On failure, throws an exception or returns YProximity.PROXIMITYREPORTMODE_INVALID. */ get_proximityReportMode(): Promise; /** * Changes the parameter type (sensor value, presence or pulse count) returned by the * get_currentValue function and callbacks. * The edge count value is limited to the 6 lowest digits. For values greater than one million, use * get_pulseCounter(). * Remember to call the saveToFlash() method of the module if the modification must be kept. * * @param newval : a value among YProximity.PROXIMITYREPORTMODE_NUMERIC, * YProximity.PROXIMITYREPORTMODE_PRESENCE and YProximity.PROXIMITYREPORTMODE_PULSECOUNT corresponding * to the parameter type (sensor value, presence or pulse count) returned by the get_currentValue * function and callbacks * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_proximityReportMode(newval: YProximity.PROXIMITYREPORTMODE): Promise; /** * Retrieves a proximity sensor for a given identifier. * The identifier can be specified using several formats: * * - FunctionLogicalName * - ModuleSerialNumber.FunctionIdentifier * - ModuleSerialNumber.FunctionLogicalName * - ModuleLogicalName.FunctionIdentifier * - ModuleLogicalName.FunctionLogicalName * * * This function does not require that the proximity sensor is online at the time * it is invoked. The returned object is nevertheless valid. * Use the method YProximity.isOnline() to test if the proximity sensor is * indeed online at a given time. In case of ambiguity when looking for * a proximity sensor by logical name, no error is notified: the first instance * found is returned. The search is performed first by hardware name, * then by logical name. * * If a call to this object's is_online() method returns FALSE although * you are certain that the matching device is plugged, make sure that you did * call registerHub() at application initialization time. * * @param func : a string that uniquely characterizes the proximity sensor, for instance * YPROXIM1.proximity1. * * @return a YProximity object allowing you to drive the proximity sensor. */ static FindProximity(func: string): YProximity; /** * Retrieves a proximity sensor for a given identifier in a YAPI context. * The identifier can be specified using several formats: * * - FunctionLogicalName * - ModuleSerialNumber.FunctionIdentifier * - ModuleSerialNumber.FunctionLogicalName * - ModuleLogicalName.FunctionIdentifier * - ModuleLogicalName.FunctionLogicalName * * * This function does not require that the proximity sensor is online at the time * it is invoked. The returned object is nevertheless valid. * Use the method YProximity.isOnline() to test if the proximity sensor is * indeed online at a given time. In case of ambiguity when looking for * a proximity sensor by logical name, no error is notified: the first instance * found is returned. The search is performed first by hardware name, * then by logical name. * * @param yctx : a YAPI context * @param func : a string that uniquely characterizes the proximity sensor, for instance * YPROXIM1.proximity1. * * @return a YProximity object allowing you to drive the proximity sensor. */ static FindProximityInContext(yctx: YAPIContext, func: string): YProximity; /** * Registers the callback function that is invoked on every change of advertised value. * The callback is invoked only during the execution of ySleep or yHandleEvents. * This provides control over the time when the callback is triggered. For good responsiveness, remember to call * one of these two functions periodically. To unregister a callback, pass a null pointer as argument. * * @param callback : the callback function to call, or a null pointer. The callback function should take two * arguments: the function object of which the value has changed, and the character string describing * the new advertised value. * @noreturn */ registerValueCallback(callback: YProximity.ValueCallback | null): Promise; _invokeValueCallback(value: string): Promise; /** * Registers the callback function that is invoked on every periodic timed notification. * The callback is invoked only during the execution of ySleep or yHandleEvents. * This provides control over the time when the callback is triggered. For good responsiveness, remember to call * one of these two functions periodically. To unregister a callback, pass a null pointer as argument. * * @param callback : the callback function to call, or a null pointer. The callback function should take two * arguments: the function object of which the value has changed, and an YMeasure object describing * the new advertised value. * @noreturn */ registerTimedReportCallback(callback: YProximity.TimedReportCallback | null): Promise; _invokeTimedReportCallback(value: YMeasure): Promise; /** * Resets the pulse counter value as well as its timer. * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ resetCounter(): Promise; /** * Continues the enumeration of proximity sensors started using yFirstProximity(). * Caution: You can't make any assumption about the returned proximity sensors order. * If you want to find a specific a proximity sensor, use Proximity.findProximity() * and a hardwareID or a logical name. * * @return a pointer to a YProximity object, corresponding to * a proximity sensor currently online, or a null pointer * if there are no more proximity sensors to enumerate. */ nextProximity(): YProximity | null; /** * Starts the enumeration of proximity sensors currently accessible. * Use the method YProximity.nextProximity() to iterate on * next proximity sensors. * * @return a pointer to a YProximity object, corresponding to * the first proximity sensor currently online, or a null pointer * if there are none. */ static FirstProximity(): YProximity | null; /** * Starts the enumeration of proximity sensors currently accessible. * Use the method YProximity.nextProximity() to iterate on * next proximity sensors. * * @param yctx : a YAPI context. * * @return a pointer to a YProximity object, corresponding to * the first proximity sensor currently online, or a null pointer * if there are none. */ static FirstProximityInContext(yctx: YAPIContext): YProximity | null; } export declare namespace YProximity { const enum ISPRESENT { FALSE = 0, TRUE = 1, INVALID = -1 } const enum PROXIMITYREPORTMODE { NUMERIC = 0, PRESENCE = 1, PULSECOUNT = 2, INVALID = -1 } interface ValueCallback { (func: YProximity, value: string): void; } interface TimedReportCallback { (func: YProximity, measure: YMeasure): void; } }