/********************************************************************************* * MIT License * * Copyright (c) 2020-2024 Gregg E. Berman * * https://github.com/HomeSpan/HomeSpan * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * ********************************************************************************/ #pragma once #include #include "PSRAM.h" namespace Utils { char *readSerial(char *c, int max); // read serial port into 'c' until , but storing only first 'max' characters (the rest are discarded) String mask(char *c, int n); // simply utility that creates a String from 'c' with all except the first and last 'n' characters replaced by '*' char *stripBackslash(char *c); // strips backslashes out of c (Apple unecessesarily "escapes" forward slashes in JSON) } ///////////////////////////////////////////////// // Creates a temporary buffer that is freed after // going out of scope template class TempBuffer { private: bufType *buf=NULL; size_t nElements; public: TempBuffer(size_t _nElements=1) : nElements(_nElements) { buf=(bufType *)HS_MALLOC(nElements*sizeof(bufType)); if(buf==NULL){ Serial.printf("\n\n*** FATAL ERROR: Requested allocation of %d bytes failed. Program Halting.\n\n",nElements*sizeof(bufType)); while(1); } } TempBuffer(bufType *addBuf...) : nElements(0) { va_list args; va_start(args,addBuf); while(addBuf!=NULL){ size_t addElements=va_arg(args,size_t); buf=(bufType *)HS_REALLOC(buf,(nElements+addElements)*sizeof(bufType)); if(buf==NULL){ Serial.printf("\n\n*** FATAL ERROR: Requested allocation of %d bytes failed. Program Halting.\n\n",nElements*sizeof(bufType)); while(1); } memcpy(buf+nElements,addBuf,addElements*sizeof(bufType)); nElements+=addElements; addBuf=va_arg(args,bufType *); } va_end(args); } ~TempBuffer(){ free(buf); } int len(){ return(nElements*sizeof(bufType)); } int size(){ return(nElements); } bufType *get(){ return(buf); } operator bufType*() const{ return(buf); } }; //////////////////////////////// // PushButton // //////////////////////////////// class PushButton{ int status; int toggleStatus; boolean doubleCheck; uint32_t singleAlarm; uint32_t doubleAlarm; uint32_t longAlarm; #if SOC_TOUCH_VERSION_2 typedef uint32_t touch_value_t; #else typedef uint16_t touch_value_t; #endif static touch_value_t threshold; static const int calibCount=20; public: typedef boolean (*triggerType_t)(int pin); protected: int pressType; int pin; triggerType_t triggerType; public: enum { SINGLE=0, // applicable only for push button DOUBLE=1, // applicable only for push button LONG=2, // applicable only for push button CLOSED=3, // applicable only for toggle switch OPEN=4 // applicable only for toggle switch }; static boolean TRIGGER_ON_LOW(int pin){return(!digitalRead(pin));} static boolean TRIGGER_ON_HIGH(int pin){return(digitalRead(pin));} #if SOC_TOUCH_SENSOR_NUM > 0 #if SOC_TOUCH_VERSION_2 static boolean TRIGGER_ON_TOUCH(int pin){return(touchRead(pin)>threshold);} #else static boolean TRIGGER_ON_TOUCH(int pin){return(touchRead(pin)longTime, only Long Press triggers can occur. // * If doubleTime=0, Double Presses cannot occur. // * Once triggered() returns true, if will subsequently return false until there is a new trigger event. boolean primed(); // Returns true if button has been pressed and held for greater than singleTime, but has not yet been released. // After returning true, subsequent calls will always return false until the button has been released and reset. int type(); // Returns the press type based on the whether triggered() or toggled() is called: // * For a push button, returns the last trigger event: 0=Single Press, 1=Double Press, 2=Long Press // * For a toggle switch, returns the current state of the switch: 4=ON, 5=OFF void wait(); // Waits for button to be released. Use after Long Press if button release confirmation is desired boolean toggled(uint16_t toggleTime); // Returns true if switch has been toggled, where // toggleTime: the minimum time (in milliseconds) a switch needs to be ON to register a toggle event // Once toggled() returns true, if will subsequently return false until the switch is toggled again. int getPin(){return(pin);} // Returns pin number #if SOC_TOUCH_SENSOR_NUM > 0 static void setTouchCycles(uint16_t measureTime, uint16_t sleepTime){touchSetCycles(measureTime,sleepTime);} // Sets the measure time and sleep time touch cycles , and lower threshold that triggers a touch - used only when triggerType=PushButton::TRIGGER_ON_TOUCH // measureTime: duration of measurement time of all touch sensors in number of clock cycles // sleepTime: duration of sleep time (between measurements) of all touch sensors number of clock cycles static void setTouchThreshold(touch_value_t thresh){threshold=thresh;} // Sets the threshold that triggers a touch - used only when triggerType=TRIGGER_ON_TOUCH // thresh: the read value of touch sensors, beyond which which sensors are considered touched (i.e. "pressed"). // This is a class-level value applied to all touch sensor buttons. #endif };