BAT
Working reset, flipped logic
Dependencies: SDFileSystem emic2 mbed-rtos mbed
Fork of
BAT_senior_design_Nhi
by 
BAT
main.cpp
- Committer:
- aismail1997
- Date:
- 2017-12-01
- Revision:
- 36:d873136dfb12
- Parent:
- 35:593bae6b342b
File content as of revision 36:d873136dfb12:
#include "mbed.h"
#include "rtos.h"
#include "SDFileSystem.h"
#include "button.h"
#include "buttonArray.h"
#include <string>
#include <iostream>
#include "emic2.h"
using namespace std;
// DEFINE I/O
PwmOut myservo(p21);
DigitalIn pb1 (p20);
PwmOut myservo2(p22);
DigitalIn pb2 (p19);
PwmOut myservo3(p23);
DigitalIn pb3 (p18);
PwmOut myservo4(p24);
DigitalIn pb4 (p17);
PwmOut myservo5(p25);
DigitalIn pb5 (p16);
PwmOut myservo6(p26);
DigitalIn pb6 (p15);
//DigitalOut led1(LED1);
//DigitalOut led3(LED3);
//DigitalOut led4(LED4);
//DigitalIn linpot(p9);
Serial pc(USBTX, USBRX);
SDFileSystem sd(p5, p6, p7, p8, "sd"); //SD card
//button button1(myservo, pb1, linpot);
button button1(myservo, pb1, 1);
button button2(myservo2, pb2, 2);
button button3(myservo3, pb3, 3);
button button4(myservo4, pb4, 4);
button button5(myservo5, pb5, 5);
button button6(myservo6, pb6, 6);
buttonArray buttonarr(button1, button2, button3, button4, button5, button6);
emic2 myTTS(p28, p27); //serial RX,TX pins to emic
// INITIALIZE VARIABLES
// add mode, reset buttons
int start = 0;
int submit = 0;
// Buttons begins in up state
int state = 0;
int state2 = 0;
int state3 = 0;
int state4 = 0;
int state5 = 0;
int state6 = 0;
int count = 0;
// THREADS
void button_thread()
{
while(true) {
state = button1.updateState();
state6 = button6.updateState();
//led4 = button1.getLp();
Thread::wait(100); // wait till thread is done
}
}
void button2_thread()
{
while(true) {
state2 = button2.updateState();
Thread::wait(200); // wait till thread is done
}
}
// thread for the custom button
void button3_thread()
{
while(true) {
state3 = button3.updateState();
Thread::wait(200); // wait till thread is done
}
}
// thread for the custom button
void button4_thread()
{
while(true) {
state4 = button4.updateState();
Thread::wait(200); // wait till thread is done
}
}
// thread for the custom button
void button5_thread()
{
while(true) {
state5 = button5.updateState();
Thread::wait(200); // wait till thread is done
}
}
// thread for the custom button
void button6_thread()
{
while(true) {
state6 = button6.updateState();
Thread::wait(200); // wait till thread is done
}
}
void submit_thread()
{
Thread::wait(500); // wait till thread is done
}
void start_thread()
{
// read pb_start
// if 1
start = 1;
//pc.printf("start %d ", start);
// else 0
Thread::wait(500); // wait till thread is done
}
int main()
{
// SETUP
// pull up the pushbutton to prevent bouncing
pb1.mode(PullUp);
pb2.mode(PullUp);
pb3.mode(PullUp);
pb4.mode(PullUp);
pb5.mode(PullUp);
pb6.mode(PullUp);
wait(.001);
// servos begin at 30 degrees
// replace with a button setup function
buttonarr.setup();
//buttonarr.setMode();
//led1 = 1;
//led2 = 1;
// PARSE INPUT FILE FOR LETTERS AND WORDS
char delimiter = ',';
// TODO: fix the letters
string letter[2];
string word[2];
char check;
string temp;
string tempword = "";
int counter = 0;
FILE *fp = fopen("/sd/plan.txt", "r"); //create file
if(fp == NULL) {
//pc.printf("Could not open file for write\n");
}
check = fgetc(fp); //grabs a char from file
while(check != '\n') { //while not at the end of line for letters
if((check == delimiter) && (temp.length() == 1)) { //at a comma and have a letter stored
letter[counter] = temp; //write letter
//pc.printf("Letter: %s \n", letter[counter]);
counter = counter + 1; //increment counter
} else {
temp = check; //store letter
}
check = fgetc(fp); //grabs next char
}
counter = 0; //reset counter
check = fgetc(fp); //grabs next char
while(!feof(fp)) { //while not at the end of line for words
if(check == delimiter) { //when at the comma at the end of a word
word[counter] = tempword; //write word
//pc.printf("Word: %s \n", word[counter]);
tempword = "";
counter = counter + 1; //increment counter
} else {
tempword = tempword + check; //concatenate letters to build word
}
check = fgetc(fp); //grabs next char
}
fclose(fp); //close file
Thread t1(button_thread);
Thread t2(button2_thread);
Thread t3(button3_thread);
Thread t4(button4_thread);
Thread t5(button5_thread);
//Thread t6(button6_thread);
t1.start(button_thread);
t2.start(button2_thread);
t3.start(button3_thread);
t4.start(button4_thread);
t5.start(button5_thread);
//t6.start(button6_thread);
char currletter;
int lettersize = sizeof(letter)/sizeof(letter[0]);
int type = 0;
//TEXT-TO-SPEECH LOGIC
myTTS.volume(1); //max volume
myTTS.voice(2);
//myTTS.speakf("SWelcome to Bat, the Braille Assistive Teacher. This device will help you learn how to write and type braille.\r"); // Send the desired string to convert to speech
//myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
char* braille;
char userinput;
// INITIAL RESET
if (type == 0) {
int reset = 1;
myTTS.speakf("SPlease setup the device by pressing down all the buttons.\r");
myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
while(reset == 1) {
wait(2);
sprintf(braille, "%d%d%d%d%d%d", button1.getPress(), button2.getPress(),
button3.getPress(), button4.getPress(), button5.getPress(), button6.getPress());
userinput = buttonarr.checkVal(braille);
if(userinput == 'Z') {
reset = 0;
} else {
//reset = 0;
myTTS.speakf("SSetup failed. Please try again.\r");
myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
}
}
}
for(int i = 0; i < lettersize; i++) { //iterate through the letter array
char currletter = letter[i][0];
//pc.printf("letter: %c \n", currletter);
int* pinsup = buttonarr.pinsUp(currletter);
int currpress;
int numpinsups = pinsup[0]; // size of array is first element of pinsup
//string presspin;
string presspin = "STo write the letter ";
presspin = presspin + letter[i];
presspin = presspin + ", press buttons";
for (int j = 1; j < numpinsups; j++) { // get what pins to press
currpress = pinsup[j];
switch (currpress) {
case 1:
presspin = presspin + " 1,";
break;
case 2:
presspin = presspin + " 2,";
break;
case 3:
presspin = presspin + " 3,";
break;
case 4:
presspin = presspin + " 4,";
break;
case 5:
presspin = presspin + " 5,";
break;
case 6:
presspin = presspin + " 6,";
break;
}
}
myTTS.speakf("%s\r",presspin);
myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
wait(1);
//pc.printf("hello");
//WORKS UP TO HERE
char* braille;
char userinput;
char* oldbraille;
if (type == 0) {
sprintf(braille, "%d%d%d%d%d%d", button1.getPress(), button2.getPress(),
button3.getPress(), button4.getPress(), button5.getPress(), button6.getPress());
userinput = buttonarr.checkVal(braille);
} else {
// TYPE MODE
sprintf(braille, "%d%d%d%d%d%d", !button1.getPress(), !button2.getPress(),
!button3.getPress(), !button4.getPress(), !button5.getPress(), !button6.getPress());
userinput = buttonarr.checkVal(braille);
oldbraille = braille;
}
int currwrong;
string wrongpin;
// check result
pc.printf("\n %c %c", userinput, currletter);
int* wrongpins = buttonarr.wrongPins(braille, currletter);
int test = 1;
while(test == 1) {
//pc.printf("In while loop");
wrongpin = "SYour answer is incorrect. Buttons";
//wrongpin = wrongpin + letter[i];
//wrongpin = wrongpin + ", press pins";
for (int j = 1; j < wrongpins[0]; j++) { // get what pins are wrong
currwrong = wrongpins[j];
//pc.printf("currwrong: %d", currwrong);
switch (currwrong) {
case 1:
wrongpin = wrongpin + " 1,";
break;
case 2:
wrongpin = wrongpin + " 2,";
break;
case 3:
wrongpin = wrongpin + " 3,";
break;
case 4:
wrongpin = wrongpin + " 4,";
break;
case 5:
wrongpin = wrongpin + " 5,";
break;
case 6:
wrongpin = wrongpin + " 6,";
break;
}
}
//pc.printf("end for loop");
if (wrongpins[0] > 1) {
wrongpin = wrongpin + " are wrong. Please try again.";
myTTS.speakf("%s\r",wrongpin);
myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
//UPDATE THE PINS THAT ARE WRONG BY CHECKING AGAIN BELOW
//char* braille;
if (type == 0) {
sprintf(braille, "%d%d%d%d%d%d", button1.getPress(), button2.getPress(),
button3.getPress(), button4.getPress(), button5.getPress(), button6.getPress());
userinput = buttonarr.checkVal(braille);
} else {
// TYPE MODE
sprintf(braille, "%d%d%d%d%d%d", button1.getPress(), button2.getPress(),
button3.getPress(), button4.getPress(), button5.getPress(), button6.getPress());
userinput = buttonarr.checkVal(braille);
}
// get input
//pc.printf("Your input was: %c", userinput);
// check result
wrongpins = buttonarr.wrongPins(braille, currletter);
} else {
test = 0;
myTTS.speakf("SGood job!\r");
myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
}
}
if (type == 0) {
int reset = 1;
myTTS.speakf("SNow reset by pressing down all the buttons.\r");
myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
while(reset == 1) {
char* braille;
sprintf(braille, "%d%d%d%d%d%d", button1.getPress(), button2.getPress(),
button3.getPress(), button4.getPress(), button5.getPress(), button6.getPress());
userinput = buttonarr.checkVal(braille);
if(userinput == 'Z') {
reset = 0;
} else {
myTTS.speakf("SPlease try again.\r");
myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
}
}
}
//pc.printf("wrongpins are: %d", wrongpins[0]);
}
// WORD CODE
// WORD COUNTER
// go through each word
// go through each letter in the word
// get user input
// when buttons reset - save previous letter
// loop until submit button is pressed
// compare words
// check what letters were wrong
// give wrong letters - correct spelling is...
string currword;
int wordsize = sizeof(word)/sizeof(word[0]);
myTTS.speakf("SLet us now put these letters together to form words. Please reset buttons after each letter. Press down the submit button when done.\r"); // Send the desired string to convert to speech
myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
for(int i = 0; i < wordsize; i++) { //iterate through the word array
currword = word[i];
string presspin = "To type the word ";
presspin = presspin + word[i];
presspin = presspin + ", type letters ";
for (int j = 0; j < currword.length(); j++) {
presspin = presspin + ", "+ currword[j];
}
//myTTS.speakf("S%s\r", presspin);
//myTTS.ready();
}
/*
// loop through each of the words
for(int i = 0; i < wordsize; i++) { //iterate through the word array
currword = word[i];
string presspin = "To type the word ";
presspin = presspin + word[i];
presspin = presspin + ", type letters ";
for (int j = 0; j < currword.length(); j++) {
presspin = presspin + ", "+ currword[j];
}
myTTS.speakf("S%s\r", presspin);
myTTS.ready();
string wordinput = "";
// loop through each of the letters
//olduserinput;
int incorrect = 1;
//char userinput;
//char* braille;
// while(!submit)
while (incorrect) {
// replace for loop with submit
// while (!submit) {
for (int j = 0; j < currword.length(); j++) {
//currletter = currword[j];
// check if all buttons were pressed
wait(1);
char* braille;
char* oldbraille;
// wait for input
while (strcmp(braille, "000000") == 0) {}
// while buttons have not been released
while (strcmp(braille, "000000") != 0) {
oldbraille = braille;
sprintf(braille, "%d%d%d%d%d%d", button1.getPress(), button2.getPress(),
button3.getPress(), button4.getPress(), button5.getPress(), button6.getPress());
}
// at the end of this, oldbraille contains the letter representation
// flip braille values
//userinput = checkVal(oldbraille);
wordinput[j] = buttonarr.checkVal(oldbraille);
//wordinput[j] = olduserinput;
}
// check result of words
if (wordinput.compare(currword) == 0) { // input is correct
incorrect = 0;
myTTS.speakf("Good job!\r");
myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
} else {
incorrect = 0; // delete this line
myTTS.speakf("SPlease try again!.\r");
myTTS.ready(); //ready waits for speech to finish from last command with a ":" response
}
}
}*/
// MAIN THREAD
while(true) {
Thread::wait(500); // wait till thread is done
}
}