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8bitworkshop/presets/nes/chase/game.c

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//Chase NES game by Shiru (shiru@mail.ru) 01'12
//Feel free to do anything you want with this code, consider it Public Domain
//This game is an example for my article Programming NES games in C
//include the library
#include "neslib.h"
#include <string.h>
//#link "famitone2.s"
//#link "music.s"
//#link "sounds.s"
// CHR data
//#resource "tileset.chr"
//#link "tileset.s"
//include nametables for all the screens such as title or game over
#include "title_nam.h"
#include "level_nam.h"
#include "gameover_nam.h"
#include "welldone_nam.h"
//include nametables for levels
#include "level1_nam.h"
#include "level2_nam.h"
#include "level3_nam.h"
#include "level4_nam.h"
#include "level5_nam.h"
//game uses 12:4 fixed point calculations for enemy movements
#define FP_BITS 4
//max size of the game map
#define MAP_WDT 16
#define MAP_WDT_BIT 4
#define MAP_HGT 13
//macro for calculating map offset from screen space, as
//the map size is smaller than screen to save some memory
#define MAP_ADR(x,y) ((((y)-2)<<MAP_WDT_BIT)|(x))
//size of a map tile
#define TILE_SIZE 16
#define TILE_SIZE_BIT 4
//movement directions, match to the gamepad buttons bits to
//simplify some things
#define DIR_NONE 0
#define DIR_LEFT PAD_LEFT
#define DIR_RIGHT PAD_RIGHT
#define DIR_UP PAD_UP
#define DIR_DOWN PAD_DOWN
//tile numbers for certain things in the game map
//i.e. which object corresponds to a character in the tileset
#define TILE_PLAYER 0x10
#define TILE_ENEMY1 0x11
#define TILE_ENEMY2 0x12
#define TILE_ENEMY3 0x13
#define TILE_WALL 0x40
#define TILE_EMPTY 0x44
#define TILE_ITEM 0x45
//number of levels in the game
#define LEVELS_ALL 5
//numbers for screens that are displayed by the same function as the
//level number
#define SCREEN_GAMEOVER (LEVELS_ALL+0)
#define SCREEN_WELLDONE (LEVELS_ALL+1)
//total number of moving characters on the screen
#define PLAYER_MAX 4
//sound effect numbers, it is easier to use meaningful defines than
//remember actual numbers of the effects
#define SFX_START 0
#define SFX_ITEM 1
#define SFX_RESPAWN1 2
#define SFX_RESPAWN2 3
//sub songs numbers in the music.ftm
#define MUSIC_LEVEL 0
#define MUSIC_GAME 1
#define MUSIC_CLEAR 2
#define MUSIC_GAME_OVER 3
#define MUSIC_WELL_DONE 4
#define MUSIC_LOSE 5
//palettes data
//all the palettes are designed in NES Screen Tool, then copy/pasted here
//with Palettes/Put C data to clipboard function
/*{pal:"nes",layout:"nes"}*/
const unsigned char palGame1[16]={ 0x0f,0x11,0x32,0x30,0x0f,0x1c,0x2c,0x3c,0x0f,0x09,0x27,0x38,0x0f,0x11,0x21,0x31 };
/*{pal:"nes",layout:"nes"}*/
const unsigned char palGame2[16]={ 0x0f,0x11,0x32,0x30,0x0f,0x11,0x21,0x31,0x0f,0x07,0x27,0x38,0x0f,0x13,0x23,0x33 };
/*{pal:"nes",layout:"nes"}*/
const unsigned char palGame3[16]={ 0x0f,0x11,0x32,0x30,0x0f,0x15,0x25,0x35,0x0f,0x05,0x27,0x38,0x0f,0x13,0x23,0x33 };
/*{pal:"nes",layout:"nes"}*/
const unsigned char palGame4[16]={ 0x0f,0x11,0x32,0x30,0x0f,0x19,0x29,0x39,0x0f,0x0b,0x27,0x38,0x0f,0x17,0x27,0x37 };
/*{pal:"nes",layout:"nes"}*/
const unsigned char palGame5[16]={ 0x0f,0x11,0x32,0x30,0x0f,0x16,0x26,0x36,0x0f,0x07,0x27,0x38,0x0f,0x18,0x28,0x38 };
/*{pal:"nes",layout:"nes"}*/
const unsigned char palGameSpr[16]={ 0x0f,0x0f,0x29,0x30,0x0f,0x0f,0x26,0x30,0x0f,0x0f,0x24,0x30,0x0f,0x0f,0x21,0x30 };
/*{pal:"nes",layout:"nes"}*/
const unsigned char palTitle[16]={ 0x0f,0x0f,0x0f,0x0f,0x0f,0x1c,0x2c,0x3c,0x0f,0x12,0x22,0x32,0x0f,0x14,0x24,0x34 };
//metasprites
const unsigned char sprPlayer[]={
0,-1,0x49,0,
8,-1,0x4a,0,
0, 7,0x4b,0,
8, 7,0x4c,0,
128
};
const unsigned char sprEnemy1[]={
0,-1,0x4d,1,
8,-1,0x4e,1,
0, 7,0x4f,1,
8, 7,0x50,1,
128
};
const unsigned char sprEnemy2[]={
0,-1,0x4d,2,
8,-1,0x4e,2,
0, 7,0x4f,2,
8, 7,0x50,2,
128
};
const unsigned char sprEnemy3[]={
0,-1,0x4d,3,
8,-1,0x4e,3,
0, 7,0x4f,3,
8, 7,0x50,3,
128
};
//list of metasprites
const unsigned char* const sprListPlayer[]={ sprPlayer,sprEnemy1,sprEnemy2,sprEnemy3 };
//list of the levels, include pointer to the packed nametable of the level,
//and pointer to the associated palette
const unsigned char* const levelList[LEVELS_ALL*2]={
level1_nam,palGame1,
level2_nam,palGame2,
level3_nam,palGame3,
level4_nam,palGame3,
level5_nam,palGame3
};
//preinitialized update list used during the gameplay
const unsigned char updateListData[]={
0x28,0x00,TILE_EMPTY, //these four entries are used to clear
0x28,0x00,TILE_EMPTY, //the level tile after an item is collected
0x28,0x00,TILE_EMPTY,
0x28,0x00,TILE_EMPTY,
0x20,0x4f,0x10, //these three entires are used to display
0x20,0x50,0x10, //number of the collected items
0x20,0x51,0x10,
NT_UPD_EOF
};
//a nametable string with the game stats, created in NES Screen Tool
//and copy/pasted here with Shift+C
const unsigned char statsStr[27]={
0x2c,0x25,0x36,0x25,0x2c,0x1a,0x00,0x00,0x27,
0x25,0x2d,0x33,0x1a,0x00,0x00,0x00,0x0f,0x00,
0x00,0x00,0x00,0x2c,0x29,0x36,0x25,0x33,0x1a
};
//list of screens such as level number, game over, and well done
//contains pointers to the packed nametables
const unsigned char* screenList[3]={ level_nam,gameover_nam,welldone_nam };
//list of sub songs for corresponding screens
const unsigned char screenMusicList[3]={MUSIC_LEVEL,MUSIC_GAME_OVER,MUSIC_WELL_DONE};
//large 1-5 numbers nametable definitons, 2x3 tiles each
//numbers were drawn one next to the other in NES Screen Tool,
//then that part of nametable was copy/pasted here with Shift+C
//here they are orderded as
// top row of 11 22 33 44 55
//middle row of 11 22 33 44 55
//bottom row of 11 22 33 44 55
const unsigned char largeNums[10*3]={
0x7a,0x7b,0x7c,0x7d,0x7c,0x7d,0x7e,0x7f,0x80,0x81,
0x86,0x7b,0x87,0x88,0x89,0x8a,0x8b,0x8c,0x8d,0x7d,
0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x7f,0x94,0x95
};
//array for game map, contains walls, empty spaces, and items
static unsigned char map[MAP_WDT*MAP_HGT];
//put all the subsequent global vars into zeropage, to make code faster and shorter
#pragma bss-name(push,"ZEROPAGE")
#pragma data-name(push,"ZEROPAGE")
//set of general purpose global vars that are used everywhere in the program
//this makes code faster and shorter, although not very convinent and readable
static unsigned char i,j;
static unsigned char ptr,spr;
static unsigned char px,py;
static unsigned char wait;
static unsigned int i16;
static int iy,dy;
//this array is used to determine movement directions for enemies
static unsigned char dir[4];
//this array is used to convert nametable into game map, row by row
static unsigned char nameRow[32];
//number of moving characters on current level
static unsigned char player_all;
//character variables
static unsigned int player_x [PLAYER_MAX];
static unsigned int player_y [PLAYER_MAX];
static unsigned char player_dir [PLAYER_MAX];
static int player_cnt [PLAYER_MAX];
static unsigned int player_speed[PLAYER_MAX];
static unsigned char player_wait [PLAYER_MAX];
//number of items on current level, total and collected
static unsigned char items_count;
static unsigned char items_collected;
//game state variables
static unsigned char game_level;
static unsigned char game_lives;
//game state flags, they are 0 or 1
static unsigned char game_done;
static unsigned char game_paused;
static unsigned char game_clear;
//system vars used everywhere as well
static unsigned char frame_cnt;
static unsigned char bright;
//update list
static unsigned char update_list[7*3+1];
//smoothly fade current bright to the given value
//in case when to=0 it also stops the music,
//turns the display off, reset vram update and scroll
void pal_fade_to(unsigned to)
{
if(!to) music_stop();
while(bright!=to)
{
delay(4);
if(bright<to) ++bright; else --bright;
pal_bright(bright);
}
if(!bright)
{
ppu_off();
set_vram_update(NULL);
scroll(0,0);
}
}
//show title screen
void title_screen(void)
{
scroll(-8,240);//title is aligned to the color attributes, so shift it a bit to the right
vram_adr(NAMETABLE_A);
vram_unrle(title_nam);
vram_adr(NAMETABLE_C);//clear second nametable, as it is visible in the jumping effect
vram_fill(0,1024);
pal_bg(palTitle);
pal_bright(4);
ppu_on_bg();
delay(20);//delay just to make it look better
iy=240<<FP_BITS;
dy=-8<<FP_BITS;
frame_cnt=0;
wait=160;
bright=4;
while(1)
{
ppu_wait_frame();
scroll(-8,iy>>FP_BITS);
if(pad_trigger(0)&PAD_START) break;
iy+=dy;
if(iy<0)
{
iy=0;
dy=-dy>>1;
}
if(dy>(-8<<FP_BITS)) dy-=2;
if(wait)
{
--wait;
}
else
{
pal_col(2,(frame_cnt&32)?0x0f:0x20);//blinking press start text
++frame_cnt;
}
}
scroll(-8,0);//if start is pressed, show the title at whole
sfx_play(SFX_START,0);
for(i=0;i<16;++i)//and blink the text faster
{
pal_col(2,i&1?0x0f:0x20);
delay(4);
}
pal_fade_to(0);
}
//show level intro, game over, or well done screen
void show_screen(unsigned char num)
{
scroll(-4,0); //all the screens are misaligneg horizontally by half of a tile
if(num<LEVELS_ALL) spr=0; else spr=num-LEVELS_ALL+1;//get offset in the screens list
vram_adr(NAMETABLE_A);
vram_unrle(screenList[spr]);
if(!spr)//if it is the level screen, print large number
{
j=num<<1;
i16=0x2194;//position of the number in the nametable
for(i=0;i<3;++i)
{
vram_adr(i16);
vram_put(largeNums[j]);
vram_put(largeNums[j+1]);
j+=10;
i16+=32;
}
}
i16=(num==SCREEN_GAMEOVER)?0x1525:0x1121;//two colors for flashing text in LSB and MSB
frame_cnt=0;
pal_col(2,i16&0xff);//this palette entry is used for flashing text
pal_col(3,0x30);
pal_col(6,0x30);
ppu_on_bg();
pal_fade_to(4);
music_play(screenMusicList[spr]);
if(!spr)//if it is the level screen, just wait one second
{
delay(50);
}
else//otherwise wait for Start button and display flashing text
{
while(1)
{
ppu_wait_frame();
pal_col(2,frame_cnt&2?i16&0xff:i16>>8);
if(pad_trigger(0)&PAD_START) break;
++frame_cnt;
}
}
pal_fade_to(0);
}
//set up a move in the specified direction if there is no wall
void player_move(unsigned char id,unsigned char dir)
{
px=player_x[id]>>(TILE_SIZE_BIT+FP_BITS);
py=player_y[id]>>(TILE_SIZE_BIT+FP_BITS);
switch(dir)
{
case DIR_LEFT: --px; break;
case DIR_RIGHT: ++px; break;
case DIR_UP: --py; break;
case DIR_DOWN: ++py; break;
}
if(map[MAP_ADR(px,py)]==TILE_WALL) return;
player_cnt[id]=TILE_SIZE<<FP_BITS;
player_dir[id]=dir;
}
//print a 1-3 digit decimal number into VRAM
void put_num(unsigned int adr,unsigned int num,unsigned char len)
{
vram_adr(adr);
if(len>2) vram_put(0x10+num/100);
if(len>1) vram_put(0x10+num/10%10);
vram_put(0x10+num%10);
}
//the main gameplay code
void game_loop(void)
{
oam_clear();
i=game_level<<1;
vram_adr(NAMETABLE_A);
vram_unrle(levelList[i]); //unpack level nametable
vram_adr(NAMETABLE_A+0x0042);
vram_write((unsigned char*)statsStr,27); //add game stats string
pal_bg(levelList[i+1]); //set up background palette
pal_spr(palGameSpr); //set up sprites palette
player_all=0;
items_count=0;
items_collected=0;
//this loop reads the level nametable back from VRAM, row by row,
//constructs game map, removes spawn points from the nametable,
//and writes back to the VRAM
i16=NAMETABLE_A+0x0080;
ptr=0;
wait=0;
for(i=2;i<MAP_HGT+2;++i)
{
vram_adr(i16);
vram_read(nameRow,32);
vram_adr(i16);
for(j=0;j<MAP_WDT<<1;j+=2)
{
spr=nameRow[j];
switch(spr)
{
case TILE_PLAYER://player
case TILE_ENEMY1://enemies
case TILE_ENEMY2:
case TILE_ENEMY3:
player_dir [player_all]=DIR_NONE;
player_x [player_all]=(j<<3)<<FP_BITS;
player_y [player_all]=(i<<4)<<FP_BITS;
player_cnt [player_all]=0;
player_wait [player_all]=16+((spr-TILE_PLAYER)<<4);
player_speed[player_all]=(spr==TILE_PLAYER)?2<<FP_BITS:10+((spr-TILE_ENEMY1)<<1);
++player_all;
wait+=16;
spr=TILE_EMPTY;
break;
case TILE_ITEM:
++items_count;
break;
}
map[ptr++]=spr;
vram_put(spr);
vram_put(nameRow[j+1]);
}
i16+=64;
}
//setup update list
memcpy(update_list,updateListData,sizeof(updateListData));
set_vram_update(update_list);
//put constant game stats numbers, that aren't updated during level
put_num(NAMETABLE_A+0x0048,game_level+1,1);
put_num(NAMETABLE_A+0x0053,items_count,3);
put_num(NAMETABLE_A+0x005d,game_lives-1,1);
//enable display
ppu_on_all();
game_done=FALSE;
game_paused=FALSE;
game_clear=FALSE;
bright=0;
frame_cnt=0;
while(!game_done)
{
//construct OAM from object parameters
spr=(player_all-1)<<4;
for(i=0;i<player_all;++i)
{
py=player_y[i]>>FP_BITS;
if(player_wait[i])
{
if(player_wait[i]>=16||player_wait[i]&2) py=240;
}
oam_meta_spr(player_x[i]>>FP_BITS,py,spr,sprListPlayer[i]);
spr-=16;
}
//wait for next frame
//it is here and not at beginning of the loop because you need
//to update OAM for the very first frame, and you also need to do that
//right after object parameters were changed, so either OAM update should
//be in a function that called before the loop and at the end of the loop,
//or wait for NMI should be placed there
//otherwise you would have situation update-wait-display, i.e.
//one frame delay between action and display of its result
ppu_wait_frame();
++frame_cnt;
//slowly fade virtual brightness to needed value,
//which is max for gameplay or half for pause
if(!(frame_cnt&3))
{
if(!game_paused&&bright<4) ++bright;
if( game_paused&&bright>2) --bright;
pal_bright(bright);
}
//poll the gamepad in the trigger mode
i=pad_trigger(0);
//it start was released and then pressed, toggle pause mode
if(i&PAD_START)
{
game_paused^=TRUE;
music_pause(game_paused);
}
//don't process anything in pause mode, just display latest game state
if(game_paused) continue;
//CHR bank switching animation with different speed for background and sprites
bank_bg((frame_cnt>>4)&1);
bank_spr((frame_cnt>>3)&1);
//a counter that does not allow objects to move while spawn animation plays
if(wait)
{
--wait;
if(!wait) music_play(MUSIC_GAME);//start the music when all the objects spawned
}
//check for level completion condition
if(items_collected==items_count)
{
music_play(MUSIC_CLEAR);
game_done=TRUE;
game_clear=TRUE;
}
//process all the objects
//player and enemies are the same type of object in this game,
//to make code simpler and shorter, but generally they need to be
//different kind of objects
for(i=0;i<player_all;++i)
{
//per-object spawn animation counter, it counts fron N to 16 to 0
//needed because objects spawn in sequence, not all at once
if(player_wait[i])
{
if(player_wait[i]==16) sfx_play(i?SFX_RESPAWN2:SFX_RESPAWN1,i);
--player_wait[i];
continue;
}
if(wait) continue; //don't process object movements if spawn animation is running
//check collision of an enemy object with player object
//NOT logic is used here, check http://gendev.spritesmind.net/page-collide.html
if(i)
{
if(!((player_x[i]+(4 <<FP_BITS))>=(player_x[0]+(12<<FP_BITS))||
(player_x[i]+(12<<FP_BITS))< (player_x[0]+(4 <<FP_BITS))||
(player_y[i]+(4 <<FP_BITS))>=(player_y[0]+(12<<FP_BITS))||
(player_y[i]+(12<<FP_BITS))< (player_y[0]+(4 <<FP_BITS))))
{
//if an enemy touch the player, quit the game loop
if(!game_clear)
{
music_play(MUSIC_LOSE);
game_done=TRUE;
break;
}
}
}
//if movement counter is not zero, process the movement
if(player_cnt[i])
{
switch(player_dir[i])
{
case DIR_RIGHT: player_x[i]+=player_speed[i]; break;
case DIR_LEFT: player_x[i]-=player_speed[i]; break;
case DIR_DOWN: player_y[i]+=player_speed[i]; break;
case DIR_UP: player_y[i]-=player_speed[i]; break;
}
player_cnt[i]-=player_speed[i];
//if move from one tile to another is over, realign the object to tile grid
//it is needed because when it moves with non-integer speed, it could
//overrun the destination tile a little bit, and thus can't take a turn properly
if(player_cnt[i]<=0)
{
if(player_cnt[i]<0) //overrun
{
player_cnt[i]=0;
//0xff is a coordinate mask that leaves only integer tile offeset
//it is 8:4:4 here, where 8 is integer tile coordinate,
//first 4 is offset in the tile, which is 16 pixels wide,
//and second 4 is fixed point resolution
player_x[i]=(player_x[i]&0xff00)+(player_dir[i]==DIR_LEFT?0x100:0);
player_y[i]=(player_y[i]&0xff00)+(player_dir[i]==DIR_UP ?0x100:0);
}
//it is is the player object, check if there is an item in the new tile
if(!i)
{
i16=MAP_ADR((player_x[i]>>(TILE_SIZE_BIT+FP_BITS)),
(player_y[i]>>(TILE_SIZE_BIT+FP_BITS)));
if(map[i16]==TILE_ITEM)
{
map[i16]=TILE_EMPTY; //mark as collected in the game map
sfx_play(SFX_ITEM,2);
++items_collected;
//get address of the tile in the nametable
i16=NAMETABLE_A+0x0080+(((player_y[i]>>(TILE_SIZE_BIT+FP_BITS))-2)<<6)|
((player_x[i]>>(TILE_SIZE_BIT+FP_BITS))<<1);
//replace it with empty tile through the update list
update_list[0]=i16>>8;
update_list[1]=i16&255;
update_list[3]=update_list[0];
update_list[4]=update_list[1]+1;
i16+=32;
update_list[6]=i16>>8;
update_list[7]=i16&255;
update_list[9]=update_list[6];
update_list[10]=update_list[7]+1;
//update number of collected items in the game stats
update_list[14]=0x10+items_collected/100;
update_list[17]=0x10+items_collected/10%10;
update_list[20]=0x10+items_collected%10;
}
}
}
}
if(!player_cnt[i]) //movement to the next tile is done, set up new movement
{
if(!i) //this is the player, process controls
{
//get gamepad state, it was previously polled with pad_trigger
j=pad_state(0);
//this is a tricky part to make controls more predictable
//when you press two directions at once, sliding by a wall
//to take turn into a passage on the side
//this piece of code gives current direction lower priority
//through testing it first
//bits in player_dir var are matching to the buttons bits
if(j&player_dir[0])
{
j&=~player_dir[0]; //remove the direction from further check
player_move(i,player_dir[0]); //change the direction
}
//now continue control processing as usual
if(j&PAD_LEFT) player_move(i,DIR_LEFT);
if(j&PAD_RIGHT) player_move(i,DIR_RIGHT);
if(j&PAD_UP) player_move(i,DIR_UP);
if(j&PAD_DOWN) player_move(i,DIR_DOWN);
}
else //this is an enemy, run AI
{
//the AI is very simple
//first we create list of all directions that are possible to take
//excluding the direction that is opposite to previous one
i16=MAP_ADR((player_x[i]>>8),(player_y[i]>>8));
ptr=player_dir[i];
j=0;
if(ptr!=DIR_RIGHT&&map[i16-1]!=TILE_WALL) dir[j++]=DIR_LEFT;
if(ptr!=DIR_LEFT &&map[i16+1]!=TILE_WALL) dir[j++]=DIR_RIGHT;
if(ptr!=DIR_DOWN &&map[i16-MAP_WDT]!=TILE_WALL) dir[j++]=DIR_UP;
if(ptr!=DIR_UP &&map[i16+MAP_WDT]!=TILE_WALL) dir[j++]=DIR_DOWN;
//randomly select a possible direction
player_move(i,dir[rand8()%j]);
//if there was more than one possible direction,
//i.e. it is a branch and not a corridor,
//attempt to move towards the player
if(j>1)
{
if(ptr!=DIR_DOWN &&player_y[0]<player_y[i]) player_move(i,DIR_UP);
if(ptr!=DIR_UP &&player_y[0]>player_y[i]) player_move(i,DIR_DOWN);
if(ptr!=DIR_RIGHT&&player_x[0]<player_x[i]) player_move(i,DIR_LEFT);
if(ptr!=DIR_LEFT &&player_x[0]>player_x[i]) player_move(i,DIR_RIGHT);
}
}
}
}
}
delay(100);
pal_fade_to(0);
}
//this is where the program starts
extern const void sound_data[];
extern const void music_data[];
void main(void)
{
famitone_init(&music_data);
sfx_init(&sound_data);
nmi_set_callback(famitone_update);
while(1)//infinite loop, title-gameplay
{
title_screen();
game_level=0;
game_lives=4;
while(game_lives&&game_level<LEVELS_ALL)//loop for gameplay
{
show_screen(game_level);
game_loop();
if(game_clear) ++game_level; else --game_lives;
}
show_screen(!game_lives?SCREEN_GAMEOVER:SCREEN_WELLDONE);//show game results
}
}