Dan Tomlinson
A retro gaming programme, designed for use on a portable embedded system. Incorporates power saving techniques.
Dependencies: ConfigFile N5110 PowerControl beep mbed
main.cpp
- Committer:
- el13drt
- Date:
- 2015-04-13
- Revision:
- 3:57bab3b1c974
- Parent:
- 2:8fac5562ed1e
- Child:
- 4:c6305031f80d
File content as of revision 3:57bab3b1c974:
/**
@file main.cpp
@brief Program implementation
*/
#include "mbed.h"
#include "N5110.h"
#include <ctime>
#include <cstdlib>
// change this to alter tolerance of joystick direction
#define DIRECTION_TOLERANCE 0.05
// VCC,SCE,RST,D/C,MOSI,SCLK,LED - set pins for LCD
N5110 lcd(p7,p8,p9,p10,p11,p13,p22);
// navigation/action buttons
DigitalIn buttonA(p19);
DigitalIn buttonB(p20);
// LED indicators
AnalogOut ledR(p18);// RED LED
DigitalOut ledY(p24);// YELLOW LED
// connections for joystick
DigitalIn button(p17);
AnalogIn xPot(p15);
AnalogIn yPot(p16);
// boundary conditions
int cells [84][48];
// Globabl Variables /////////////////////////
// global variables for movement
int a1 = 22;
int a2 = 24;
int a3 = 23;
int a4 = 25;
int a5 = 20;
int a6 = 26;
int a7 = 19;
int a8 = 21;
//global variable for random X co-ordinates
int randX1;
int randX2;
int randX3;
int randX4;
int randX5;
int randX6;
// global variable for random Y co-ordinates
int randY1 = 0;
int randY2 = 0;
int randY3 = 0;
int randY4 = 0;
int randY5 = 0;
int randY6 = 0;
// timer to regularly read the joystick
Ticker pollJoystick;
// serial for debug
Serial serial(USBTX,USBRX);
// create enumerated type (0,1,2,3 etc. for direction)
// could be extended for diagonals etc.
enum DirectionName {
UP,
DOWN,
LEFT,
RIGHT,
CENTRE,
UNKNOWN
};
// struct for Joystick
typedef struct JoyStick Joystick;
struct JoyStick {
float x; // current x value
float x0; // 'centred' x value
float y; // current y value
float y0; // 'centred' y value
int button; // button state (assume pull-down used, so 1 = pressed, 0 = unpressed)
DirectionName direction; // current direction
};
// create struct variable
Joystick joystick;
int printFlag = 0;
// function prototypes
void calibrateJoystick();
void updateJoystick();
//intro screen
void welcome()
{
//bottom border
lcd.drawRect(0,44,84,2,1);
//top border
lcd.drawRect(0,1,84,2,1);
//print initials 'DRT'
lcd.printChar('D',30,14);
wait(0.6);
lcd.printChar('R',37,14);
wait(0.6);
lcd.printChar('T',44,14);
wait(0.6);
//print 'presents...'
lcd.printString("presents...",8,21);
wait(1.0);
//dramatic flashing
lcd.inverseMode();
wait(0.2);
lcd.normalMode();
wait(0.2);
lcd.inverseMode();
wait(0.2);
lcd.normalMode();
wait(1.0);
//more dramatic flashing
lcd.inverseMode();
wait(0.2);
lcd.normalMode();
wait(0.2);
lcd.inverseMode();
wait(0.2);
lcd.normalMode();
wait(0.6);
}
//selection menu///////////////////////////////////////////
void mainMenu()
{
//bottom border
lcd.drawRect(0,47,84,0,1);
//top border
lcd.drawRect(0,0,84,2,1);
//print 'Xtreme Tower'
lcd.printString("Xtreme",4,25);
lcd.printString("Tower",44,25);
//title outline
lcd.drawRect(3,6,77,10,0);
////castle //x, y, w, h, fill//////////////////////
//castle main bulk
lcd.drawRect(59,32,21,8,1);
//left window bulk
lcd.drawRect(59,22,2,10,1);
//centre left window bulk
lcd.drawRect(65,22,2,10,1);
//centre right window bulk
lcd.drawRect(72,22,2,10,1);
//right window bulk
lcd.drawRect(78,22,2,10,1);
//central window bulk
lcd.drawRect(68,25,3,7,1);
//central window bulk
lcd.drawRect(75,28,0,0,1);
lcd.drawRect(77,28,0,0,1);
lcd.drawRect(64,28,0,0,1);
lcd.drawRect(62,28,0,0,1);
//above left window bulk
lcd.drawRect(62,25,3,2,1);
//above right window bulk
lcd.drawRect(75,25,2,2,1);
//lower right line
lcd.drawRect(71,42,9,0,1);
//upper right line
lcd.drawRect(70,41,10,0,1);
//upper left line
lcd.drawRect(59,41,10,0,1);
//lower left line
lcd.drawRect(59,42,9,0,1);
//bottom left bulk
lcd.drawRect(59,43,8,3,1);
//bottom right bulk
lcd.drawRect(72,43,8,3,1);
//option arrows - lower
lcd.drawRect(27,42,4,0,1);
lcd.drawRect(28,43,2,0,1);
lcd.drawRect(29,44,0,0,1);
//option arrows - higher
lcd.drawRect(27,29,4,0,1);
lcd.drawRect(28,28,2,0,1);
lcd.drawRect(29,27,0,0,1);
//present options
lcd.printString("Play Game",3,4);
}
// static background
void backGround()
{
// x, y, w, h, fill - draw ground
lcd.drawRect(0,47,84,0,1);
// x, y, w, h, fill - draw left wall
lcd.drawRect(2,0,0,47,1);
// left wall - brick line 1
for(int x=0; x<47; x+=4)
lcd.drawLine(1,1,1,48,2);
// left wall - brick line 2
for(int x=0; x<47; x+=4)
lcd.drawLine(0,0,0,48,2);
// x, y, w, h, fill - draw right wall
lcd.drawRect(81,0,0,47,1);
// right wall - brick line 1
for(int x=0; x<WIDTH; x+=4)
lcd.drawLine(82,0,82,48,2);
// right wall - brick line 2
for(int x=0; x<WIDTH; x+=4)
lcd.drawLine(83,1,83,48,2);
lcd.refresh();
}
//pixel ninja character
void pixelNinja()
{
//x, y, w, h, fill - left leg
lcd.drawRect(a1,39,0,7,1);
//right leg
lcd.drawRect(a2,39,0,7,1);
//centre stick
lcd.drawRect(a3,37,0,7,1);
//back of the head
lcd.drawRect(a1,33,0,4,1);
//top of the head
lcd.drawRect(a1,33,4,0,1);
//jaw
lcd.drawRect(a2,38,2,0,1);
//right shoulder
lcd.drawRect(a4,40,1,0,1);
//left shoulder
lcd.drawRect(a5,40,1,0,1);
//left arm
lcd.drawRect(a5,41,0,1,1);
//right arm
lcd.drawRect(a6,41,0,1,1);
//right eye
lcd.drawRect(a6,35,0,0,1);
//mouth piece
lcd.drawRect(a6,37,0,0,1);
//left eye
lcd.drawRect(a2,35,0,0,1);
//sword handle
lcd.drawRect(a7,36,0,0,1);
lcd.drawRect(a5,37,0,0,1);
lcd.drawRect(a8,38,0,0,1);
}
// when player gets struck, game ends
void endGame()
{
int n = 0;
// contact points
if(lcd.getPixel((a1+4),32))
n++;
if(lcd.getPixel((a1),32))
n++;
if(lcd.getPixel((a7),32))
n++;
// play again option
if ( n !=0) {
lcd.printString("Game Over!!",8,25);
wait(0.5);
lcd.inverseMode();
wait(0.5);
lcd.normalMode();
wait(0.5);
lcd.inverseMode();
wait(0.5);
lcd.normalMode();
wait(0.5);
lcd.printString("Play Again?",8,25);
lcd.printString("YES",20,2);
lcd.printString("NO",51,2);
wait(3.0);
if(buttonA == 1) {
}
}
}
// draws falling hazards
void hazards()
{
// X, Y, radius, fill
lcd.drawCircle(randX1,randY1,2,1);
lcd.drawCircle(randX2,randY2,2,1);
lcd.drawCircle(randX3,randY3,2,1);
lcd.drawCircle(randX4,randY4,2,1);
lcd.drawCircle(randX5,randY5,2,1);
lcd.drawCircle(randX6,randY6,2,1);
lcd.refresh();
}
// makes hazards fall - randomises X axis co-ordinates
void hazardFall()
{
// increments randY1 variables
// appearing to make them fall
randY1 = randY1+=2;
randY2 = randY2+=2;
randY3 = randY3+=2;
randY4 = randY4+=2;
randY5 = randY5+=2;
randY6 = randY6+=2;
// loops the objects once they 'hit the floor'
// this imitates a new set of objects falling
if (randY1>=48)
randY1=0;
if (randY2>=48)
randY2=0;
if (randY3>=48)
randY3=0;
if (randY4>=48)
randY4=0;
if (randY5>=48)
randY5=0;
// each time the objects loop, a new pseudo random value
// is assigned to the global variables (randX) to
// randomise their positions
if (randY6>=48) {
randY6=0;
randX1 = rand() % 74 + 5;// psuedo random number
randX2 = rand() % 74 + 5;// between 5 and 74
randX3 = rand() % 74 + 5;
randX4 = rand() % 74 + 5;
randX5 = rand() % 74 + 5;
randX6 = rand() % 74 + 5;
}
}
// clears old pixels and keeps set pixels
void startrek()
{
for (int i=3; i<81; i++)// loops through rows
for (int j=0; j<47; j++)
if (cells[i][j]) {// if there's a pixel then keep it
lcd.setPixel(i,j);
} else {
lcd.clearPixel(i,j);// else remove the old ones
}
lcd.refresh();
}
// sound / light when buttonA is closed
void actionButton()
{
buttonA.mode(PullDown);
if (buttonA == 1) {
ledY = 1;
} else {
ledY = 0;
}
}
// sound / light when buttonB is closed
void backButton()
{
buttonB.mode(PullDown);
if (buttonA == 1) {
ledY = 1;
} else {
ledY = 0;
}
}
// MAIN /////////////////////////////////////////////////
int main()
{
//////// set initial values - configurate joystick /////////////////////////////////
// Power indicator - RED LED
ledR = 1;
// initialize time seed for psuedo randomaisation
srand (time(NULL));
// generate random x co-ordinates for falling hazards
// (initial values only)
// value between 3 and 76
randX1 = rand() % 74 + 5;
randX2 = rand() % 74 + 5;
randX3 = rand() % 74 + 5;
randX4 = rand() % 74 + 5;
randX5 = rand() % 74 + 5;
randX6 = rand() % 74 + 5;
calibrateJoystick(); // get centred values of joystick
pollJoystick.attach(&updateJoystick,1.0/10.0); // read joystick 10 times per second
/////// initiate main menu //////////////////////////////////////////////////////////////
lcd.init();//initialise screen
welcome();//welcome screen
lcd.clear();//clear pixels
mainMenu();//menu screen
/////// Menu Selection Loop ////////////////////////////////////////////////////////////
// options counter
int option = 0;
// loop 1 - menu
while(1) {
// joystick selection
if (printFlag) { //if flag set, clear flag and print joystick values to serial port
printFlag = 0;
serial.printf("x = %f y = %f button = %d ",joystick.x,joystick.y,joystick.button);
// option up
if (joystick.direction == UP) {
serial.printf(" UP\n");
option = option--;
if (option < 0)option = 0;
}
// option down
if (joystick.direction == DOWN) {
serial.printf(" DOWN\n");
option = option++;
if (option > 1)option = 1;
}
// Centre / Unknown orientation
if (joystick.direction == CENTRE)
serial.printf(" CENTRE\n");
if (joystick.direction == UNKNOWN)
serial.printf(" Unsupported direction\n");
// 'Play Game' option 1
if (option == 0) {
lcd.printString("Play Game",3,4);
}
// 'Options' option 2
if (option == 1) {
lcd.printString(" Options ",3,4);
}
}
//////////// Game Loop /////////////////////////////////////////////////////////////
// 'Play Game' selected
if ((option == 0)&&(buttonA == 1)) {
backGround();
// loop 2 - Exit menu
while(1) {
// loop 3 - Game loop
while(buttonB != 1) {
pixelNinja();//set character
hazards();//initiates hazards
hazardFall();//increments hazards towards floor
if (printFlag) { //if flag set, clear flag and print joystick values to serial port
printFlag = 0;
serial.printf("x = %f y = %f button = %d ",joystick.x,joystick.y,joystick.button);
// check joystick direction
if (joystick.direction == LEFT) {
serial.printf(" LEFT\n");
a1 = a1-=2;
a2 = a2-=2;
a3 = a3-=2;
a4 = a4-=2;
a5 = a5-=2;
a6 = a6-=2;
a7 = a7-=2;
a8 = a8-=2;
}
if (joystick.direction == RIGHT) {
serial.printf(" RIGHT\n");
a1 = a1+=2;
a2 = a2+=2;
a3 = a3+=2;
a4 = a4+=2;
a5 = a5+=2;
a6 = a6+=2;
a7 = a7+=2;
a8 = a8+=2;
}
if (joystick.direction == CENTRE)
serial.printf(" CENTRE\n");
if (joystick.direction == UNKNOWN)
serial.printf(" Unsupported direction\n");
//endGame();
startrek();//clears unset pixels, keeps set pixels
}
// break code e.g. person dies / exits game
if (buttonB == 1) {
lcd.printString("Exit Game?",9,25);
if(buttonA == 1)
break;
}
}
}
}
}
}
// read default positions of the joystick to calibrate later readings
void calibrateJoystick()
{
button.mode(PullDown);
// must not move during calibration
joystick.x0 = xPot; //initial positions in the range 0.0 to 1.0 (0.5 if centred exactly)
joystick.y0 = yPot;
}
void updateJoystick()
{
// read current joystick values relative to calibrated values (in range -0.5 to 0.5, 0.0 is centred)
joystick.x = xPot - joystick.x0;
joystick.y = yPot - joystick.y0;
// read button state
joystick.button = button;
// calculate direction depending on x,y values
// tolerance allows a little lee-way in case joystick not exactly in the stated direction
if ( fabs(joystick.y) < DIRECTION_TOLERANCE && fabs(joystick.x) < DIRECTION_TOLERANCE) {
joystick.direction = CENTRE;
} else if ( joystick.y > DIRECTION_TOLERANCE && fabs(joystick.x) < DIRECTION_TOLERANCE) {
joystick.direction = UP;
} else if ( joystick.y < DIRECTION_TOLERANCE && fabs(joystick.x) < DIRECTION_TOLERANCE) {
joystick.direction = DOWN;
} else if ( joystick.x > DIRECTION_TOLERANCE && fabs(joystick.y) < DIRECTION_TOLERANCE) {
joystick.direction = RIGHT;
} else if ( joystick.x < DIRECTION_TOLERANCE && fabs(joystick.y) < DIRECTION_TOLERANCE) {
joystick.direction = LEFT;
} else {
joystick.direction = UNKNOWN;
}
// set flag for printing
printFlag = 1;
}