/*
MIT License
Copyright (c) 2018-2019, Alexey Dynda
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.
*/
/*
* Attiny85 PINS
* ____
* RESET -|_| |- 3V
* SCL (3) -| |- (2)
* SDA (4) -| |- (1) - BUZZER
* GND -|____|- (0) - BUTTONS module
*
* Atmega328 PINS with i2c SSD1306 to A4/A5, BUZZER on D8,
* Z-keypad ADC module on A0 pin.
* If you want to use GPIO keys, uncomment USE_GPIO_BUTTONS below
*
* Atmega328 PINS with spi Nokia 5110 LCD:
* LCD RST to D3
* LCD CES to D4
* LCD DC to D5
* LCD DIN to D11
* LCD CLK to D13
* LCD BL to VCC
*/
#include "game_basic.h"
#include "ninja.h"
#include "sprites.h"
// Uncomment if you want to use gpio buttons
#define USE_GPIO_BUTTONS
#if defined(__AVR_ATtiny25__) | defined(__AVR_ATtiny45__) | defined(__AVR_ATtiny85__)
#define BUZZER 1
#define BUTTON_PIN 0
#else // For Arduino Nano/Atmega328 we use different pins
#define BUZZER 3
#define BUTTON_PIN 0
#ifdef USE_GPIO_BUTTONS
static const uint8_t g_buttonsPins[6] = { 2, 6, 7, 8, 9, 12 };
#endif
#endif
const NanoRect game_window = { {0, 64}, {239, 319} };
// Commented line is for 90 degree
//const NanoRect game_window = { {64, 64}, {319, 239} };
uint16_t blockColors[] = {
RGB_COLOR16(255,96,0),
RGB_COLOR16(255,255,192),
RGB_COLOR16(255,255,255),
RGB_COLOR16(255,255,64),
RGB_COLOR16(128,128,128),
};
/**
* Just produces some sound depending on params
*/
void beep(int bCount,int bDelay);
class Player: public NanoFixedSprite<GraphicsEngine::TilerT>
{
public:
using NanoFixedSprite<GraphicsEngine::TilerT>::NanoFixedSprite;
void draw() override
{
getTiler().getCanvas().setColor(RGB_COLOR16(64,255,255));
NanoFixedSprite<GraphicsEngine::TilerT>::draw();
}
};
Player player( { 8, 8 }, { 8, 8 }, playerFlyingImage[0][0] );
/* The variable is used for player animation *
* The graphics defined for the hero has 2 images *
* for each direction. So, the variable is either *
* 0 or 1. */
uint8_t playerAnimation = 0;
/* Timestamp when playerAnimation was changed last time */
uint16_t playerAnimationTs = 0;
/* Number of coins collected */
uint8_t goldCollection = 0;
void showGameInfo()
{
engine.getCanvas().setMode(CANVAS_MODE_TRANSPARENT);
engine.getCanvas().setColor(RGB_COLOR16(0,0,0));
engine.getCanvas().drawBitmap1(1, 1, 8, 8, coinImage);
engine.getCanvas().setColor(RGB_COLOR16(255,255,0));
engine.getCanvas().drawBitmap1(0, 0, 8, 8, coinImage);
engine.getCanvas().setFixedFont(digital_font5x7_AB);
char score[3] = { goldCollection/10 + '0', goldCollection%10 + '0', 0 };
engine.getCanvas().setColor(RGB_COLOR16(0,0,0));
engine.getCanvas().printFixed(9,1,score);
engine.getCanvas().setColor(RGB_COLOR16(255,255,255));
engine.getCanvas().printFixed(8,0,score);
engine.getCanvas().setFixedFont(digital_font5x7_AB);
}
static bool onDraw()
{
engine.getCanvas().clear();
engine.getCanvas().setMode(CANVAS_MODE_BASIC);
engine.localCoordinates();
if (game_window.containsPartOf( engine.getCanvas().rect() ))
{
engine.worldCoordinates();
NanoRect blocks = rect_to_blocks( engine.getCanvas().rect() );
for (uint8_t row = max(0,blocks.p1.y);
row <= min(13,blocks.p2.y); row++)
{
for (uint8_t col = max(0,blocks.p1.x);
col <= min((B_WIDTH-1),blocks.p2.x); col++)
{
uint8_t blockType = block_value({col,row});
if (blockType != 0)
{
engine.getCanvas().setColor(blockColors[blockType - 1]);
NanoPoint pos = block_to_pos({col,row});
engine.getCanvas().drawBitmap1(pos.x, pos.y,
8, 8, bgSprites[blockType - 1]);
}
}
}
engine.localCoordinates();
}
showGameInfo();
engine.worldCoordinates();
engine.getCanvas().setMode(CANVAS_MODE_TRANSPARENT);
return true;
}
static NanoPoint calc_new_screen_position()
{
NanoPoint position = engine.getPosition() + game_window.p1;
if (player.x() - position.x >= game_window.width() - 24)
{
position.x = min(player.x() - (game_window.width() - 24), 128);
}
else if (player.x() - position.x < 24)
{
position.x = max(0, player.x() - 24);
}
if (player.y() - position.y >= game_window.height() - 24)
{
position.y = min(player.y() - (game_window.height() - 24), 64);
}
else if (player.y() - position.y < 24)
{
position.y = max(0, player.y() - 24);
}
return position - game_window.p1;
}
static void moveGameScreen()
{
NanoPoint position = calc_new_screen_position();
if (position != engine.getPosition())
{
engine.moveTo( position );
engine.refresh( game_window );
}
}
void movePlayer(uint8_t direction)
{
bool animated = false;
uint8_t bottomBlock = block_at(player.bottom());
uint8_t feetBlock = block_at(player.bottom() + (NanoPoint){0,1});
uint8_t handBlock = block_at(player.top());
uint8_t centerBlock = block_at(player.center());
uint8_t rightBlock = block_at(player.right());
uint8_t leftBlock = block_at(player.left());
moveGameScreen();
/* If player doesn't stand on the ground, and doesn't hold the pipe,
* make the player to fall down. */
if ( !isSolid(feetBlock) &&
(!isPipe(handBlock) || !isPipe(bottomBlock)) )
{
player.moveTo( { player.center().x & ~0x07, player.y() + 1 } );
player.setBitmap( &playerFlyingImage[MAN_ANIM_FLYING][playerAnimation][0] );
animated = true;
}
else
{
switch (direction)
{
case BUTTON_RIGHT:
if (isWalkable(rightBlock))
{
player.moveBy( { 1, 0 } );
if (isPipe(centerBlock))
player.setBitmap( &playerFlyingImage[MAN_ANIM_RIGHT_PIPE][playerAnimation][0] );
else
player.setBitmap( &playerFlyingImage[MAN_ANIM_RIGHT][playerAnimation][0] );
animated = true;
}
break;
case BUTTON_LEFT:
if (isWalkable(leftBlock))
{
player.moveBy( { -1, 0 } );
if (isPipe(centerBlock))
player.setBitmap( &playerFlyingImage[MAN_ANIM_LEFT_PIPE][playerAnimation][0] );
else
player.setBitmap( &playerFlyingImage[MAN_ANIM_LEFT][playerAnimation][0] );
animated = true;
}
break;
case BUTTON_UP:
if (isStair(bottomBlock) || isStair(centerBlock))
{
player.moveTo( { player.top().x & ~0x07, player.top().y - 1 } );
player.setBitmap( &playerFlyingImage[MAN_ANIM_UP][playerAnimation][0] );
animated = true;
}
break;
case BUTTON_DOWN:
if ( isStair(feetBlock) ||
(!isSolid(feetBlock) &&
isPipe(handBlock)) )
{
player.moveTo( { player.top().x & ~0x07, player.top().y + 1 } );
player.setBitmap( &playerFlyingImage[MAN_ANIM_DOWN][playerAnimation][0] );
animated = true;
}
break;
default:
break;
}
}
if (animated && ((uint16_t)(millis() - playerAnimationTs) > 150))
{
playerAnimationTs = millis();
playerAnimation = playerAnimation ? 0 : 1;
beep(10,20);
if (isGold(centerBlock))
{
engine.notify( "GOLD COIN" );
set_block_at(player.center(), 0);
goldCollection++;
showGameInfo();
engine.refresh(0,0,63,7);
/* Produce sound every time the player moves */
beep(20,40);
beep(20,80);
beep(20,120);
beep(20,80);
beep(20,40);
}
}
}
void setup()
{
display.begin();
// Set font for display notifications
display.setFixedFont(digital_font5x7_AB);
// Commented line is for 90 degree
// display.getInterface().setRotation(1);
player.setBitmap( playerFlyingImage[MAN_ANIM_FLYING][playerAnimation] );
#ifdef USE_GPIO_BUTTONS
engine.connectGpioKeypad(g_buttonsPins);
#else
engine.connectZKeypad(BUTTON_PIN);
#endif
engine.drawCallback( onDraw );
engine.begin();
engine.setFrameRate( 30 );
engine.refresh();
engine.insert( player );
engine.insert( ninja );
engine.refresh();
lcd_gpioMode(BUZZER, LCD_GPIO_OUTPUT);
}
void loop()
{
if (!engine.nextFrame()) return;
movePlayer(engine.buttonsState());
ninja.move(player.getPosition());
engine.update();
engine.display();
}
void beep(int bCount,int bDelay)
{
for (int i = 0; i<=bCount*2; i++)
{
lcd_gpioWrite(BUZZER,i&1);
for(int i2=0; i2<bDelay; i2++)
{
__asm__("nop\n\t");
#if F_CPU > 8000000
__asm__("nop\n\t");
__asm__("nop\n\t");
__asm__("nop\n\t");
#endif
}
}
lcd_gpioWrite(BUZZER,LCD_LOW);
}