collision detection works and is fast. for now.
This commit is contained in:
parent
903835a10a
commit
83c35f68c4
2
arena.h
2
arena.h
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@ -5,4 +5,4 @@ void clearArenaRedrawRequests();
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void redrawArena();
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void drawOnlyArena(struct SpriteBounds *bounds);
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void buildArena();
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void setupWallSprites(struct BMPImage *);
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void setupWallSprites();
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127
combat.c
127
combat.c
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@ -1,4 +1,5 @@
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#include <math.h>
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#include <stdio.h>
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#include "game.h"
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@ -12,7 +13,8 @@ void attemptToFireRabbitBullet(
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struct BulletPosition rabbitBulletPosition[]
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) {
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int okToFire = 0, availableBullet, i;
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signed char doubleVelocityX, doubleVelocityY;
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signed int doubleVelocityX, doubleVelocityY;
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char buffer[20];
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if (rabbitWeaponry->cooldown > 0) return;
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@ -34,15 +36,15 @@ void attemptToFireRabbitBullet(
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rabbitBulletPosition[availableBullet].isActive = 1;
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rabbitBulletPosition[availableBullet].willBeInactive = 0;
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rabbitBulletPosition[availableBullet].x = rabbitPosition->rabbitPosition[0];
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rabbitBulletPosition[availableBullet].y = rabbitPosition->rabbitPosition[1] - RABBIT_BULLET_HEIGHT_START;
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rabbitBulletPosition[availableBullet].y = rabbitPosition->rabbitPosition[1];
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rabbitBulletPosition[availableBullet].oldX = rabbitBulletPosition[availableBullet].x;
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rabbitBulletPosition[availableBullet].oldY = rabbitBulletPosition[availableBullet].y;
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rabbitBulletPosition[availableBullet].velocityXSteps[0] = doubleVelocityX / RABBIT_BULLET_VELOCITY;
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rabbitBulletPosition[availableBullet].velocityXSteps[1] = doubleVelocityX % RABBIT_BULLET_VELOCITY;
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rabbitBulletPosition[availableBullet].velocityXSteps[1] = doubleVelocityX - rabbitBulletPosition[availableBullet].velocityXSteps[0];
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rabbitBulletPosition[availableBullet].velocityYSteps[0] = doubleVelocityY / RABBIT_BULLET_VELOCITY;
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rabbitBulletPosition[availableBullet].velocityYSteps[1] = doubleVelocityY % RABBIT_BULLET_VELOCITY;
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rabbitBulletPosition[availableBullet].velocityYSteps[1] = doubleVelocityY - rabbitBulletPosition[availableBullet].velocityYSteps[0];
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rabbitBulletPosition[availableBullet].velocityStep = 0;
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}
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@ -81,22 +83,12 @@ struct CollisionDetection {
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struct CollisionDetection collisionDetection;
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int isCollision() {
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int result;
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if (collisionDetection.sourceEY < collisionDetection.targetSY) return 0;
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if (collisionDetection.sourceEX < collisionDetection.targetSX) return 0;
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if (collisionDetection.targetEY < collisionDetection.sourceSY) return 0;
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if (collisionDetection.targetEX < collisionDetection.sourceSX) return 0;
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// first pass: are the hitboxes even close
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result = !(
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collisionDetection.sourceEY < collisionDetection.targetSY ||
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collisionDetection.sourceEX < collisionDetection.targetSX ||
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collisionDetection.targetEY < collisionDetection.sourceSY ||
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collisionDetection.targetEX < collisionDetection.sourceSX
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);
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if (!result) return result;
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// second pass: check against specific character shaped hitboxes
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// these will be generated from the spritesheet generator
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return result;
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return 1;
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}
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void populateSourceCollision(struct CompiledSpriteRender *sprite) {
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@ -117,33 +109,110 @@ void populateTargetCollision(struct CompiledSpriteRender *sprite) {
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collisionDetection.targetEY = bounds.bottom;
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}
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void handleRabbitBulletToEnemyCollisions(
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struct BulletPosition rabbitBulletPosition[],
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void handleRabbitToEnemyCollisions(
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struct RabbitPosition *rabbitPosition,
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struct EnemyPosition enemyPosition[]
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) {
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int bulletIdx, enemyIdx;
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int enemyIdx;
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// to start: brute force items
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// possible performance improvements:
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// * horizontal sweep against enemies to rule out enemies to check
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for (bulletIdx = 0; bulletIdx < RABBIT_BULLET_LIMIT; ++bulletIdx) {
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if (!rabbitBulletPosition[bulletIdx].isActive) continue;
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if (rabbitBulletPosition[bulletIdx].willBeInactive) continue;
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populateSourceCollision(&bullet);
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// * grid partitioning
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rabbit.x = rabbitPosition->rabbitPosition[0];
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rabbit.y = rabbitPosition->rabbitPosition[1];
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populateSourceCollision(&rabbit);
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for (enemyIdx = 0; enemyIdx < ENEMY_MAX_COUNT; ++enemyIdx) {
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if (!enemyPosition[enemyIdx].isActive) continue;
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if (enemyPosition[enemyIdx].willBeInactive) continue;
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enemy.x = enemyPosition[enemyIdx].enemyPosition[0];
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enemy.y = enemyPosition[enemyIdx].enemyPosition[1];
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populateTargetCollision(&enemy);
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if (isCollision()) {
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enemyPosition[enemyIdx].willBeInactive = 1;
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rabbitBulletPosition[bulletIdx].willBeInactive = 1;
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}
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}
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}
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int rabbitBulletGrid[4][RABBIT_BULLET_LIMIT];
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int enemyGrid[4][ENEMY_MAX_COUNT];
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void handleRabbitBulletToEnemyCollisions(
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struct BulletPosition rabbitBulletPosition[],
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struct EnemyPosition enemyPosition[]
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) {
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int bulletIdx, enemyIdx, grid;
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int resolvedBulletIdx, resolvedEnemyIdx;
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int rabbitGridIndex[4], enemyGridIndex[4];
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char buffer[30];
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for (grid = 0; grid < 4; ++grid) {
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rabbitGridIndex[grid] = 0;
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}
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for (bulletIdx = 0; bulletIdx < RABBIT_BULLET_LIMIT; ++bulletIdx) {
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if (!rabbitBulletPosition[bulletIdx].isActive) continue;
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if (rabbitBulletPosition[bulletIdx].willBeInactive) continue;
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grid = (
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rabbitBulletPosition[bulletIdx].x / (TILE_SIZE * 5)
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) + (
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(rabbitBulletPosition[bulletIdx].y / (TILE_SIZE * 5)) * 2
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);
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rabbitBulletGrid[grid][rabbitGridIndex[grid]++] = bulletIdx;
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}
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for (grid = 0; grid < 4; ++grid) {
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enemyGridIndex[grid] = 0;
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}
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for (enemyIdx = 0; enemyIdx < ENEMY_MAX_COUNT; ++enemyIdx) {
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if (!enemyPosition[enemyIdx].isActive) continue;
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if (enemyPosition[enemyIdx].willBeInactive) continue;
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grid = (
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enemyPosition[enemyIdx].enemyPosition[0] / (TILE_SIZE * 5)
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) + (
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(enemyPosition[enemyIdx].enemyPosition[1] / (TILE_SIZE * 5)) * 2
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);
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enemyGrid[grid][enemyGridIndex[grid]++] = enemyIdx;
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}
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for (grid = 0; grid < 4; ++grid) {
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if (enemyGridIndex[grid] == 0) continue;
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for (bulletIdx = 0; bulletIdx < rabbitGridIndex[grid]; ++bulletIdx) {
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resolvedBulletIdx = rabbitBulletGrid[grid][bulletIdx];
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if (!rabbitBulletPosition[resolvedBulletIdx].isActive) continue;
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if (rabbitBulletPosition[resolvedBulletIdx].willBeInactive) continue;
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bullet.x = rabbitBulletPosition[resolvedBulletIdx].x;
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bullet.y = rabbitBulletPosition[resolvedBulletIdx].y;
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populateSourceCollision(&bullet);
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for (enemyIdx = 0; enemyIdx < enemyGridIndex[grid]; ++enemyIdx) {
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resolvedEnemyIdx = enemyGrid[grid][enemyIdx];
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if (!enemyPosition[resolvedEnemyIdx].isActive) continue;
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if (enemyPosition[resolvedEnemyIdx].willBeInactive) continue;
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enemy.x = enemyPosition[resolvedEnemyIdx].enemyPosition[0];
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enemy.y = enemyPosition[resolvedEnemyIdx].enemyPosition[1];
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populateTargetCollision(&enemy);
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if (isCollision()) {
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enemyPosition[resolvedEnemyIdx].willBeInactive = 1;
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rabbitBulletPosition[resolvedBulletIdx].willBeInactive = 1;
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break;
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}
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}
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}
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}
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}
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5
combat.h
5
combat.h
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@ -13,3 +13,8 @@ void handleRabbitBulletToEnemyCollisions(
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struct BulletPosition[],
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struct EnemyPosition[]
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);
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void handleRabbitToEnemyCollisions(
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struct RabbitPosition*,
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struct EnemyPosition[]
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);
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4
const.h
4
const.h
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@ -10,7 +10,7 @@
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#define RABBIT_MOTION_VELOCITY_DECAY (5)
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#define RABBIT_BULLET_LIMIT (12)
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#define RABBIT_BULLET_VELOCITY (RABBIT_MOTION_ACCELERATION + 2)
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#define RABBIT_BULLET_VELOCITY (RABBIT_MOTION_ACCELERATION + 1)
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#define RABBIT_BULLET_COOLDOWN (10)
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#define RABBIT_BULLET_HEIGHT_START (8)
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@ -22,4 +22,4 @@
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#define RAD2DEG (180/3.14159)
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#define DEG2RAD (3.14159/180)
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#define ENEMY_MAX_COUNT (20)
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#define ENEMY_MAX_COUNT (50)
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16
game.c
16
game.c
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@ -1,3 +1,4 @@
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#include <stddef.h>
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#include <stdio.h>
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#include <math.h>
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#include <conio.h>
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@ -42,7 +43,7 @@ struct SpawnPointRange {
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};
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struct SpawnPointRange spawnPointRanges[1] = {
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{ .left = 50, .width = 30, .top = 50, .height = 30 }
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{ .left = 130, .width = 50, .top = 50, .height = 100 }
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};
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@ -66,7 +67,6 @@ void setupEnemies() {
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}
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}
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void maybeSpawnEnemy() {
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char canSpawn;
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int i, availableEnemy;
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@ -238,7 +238,7 @@ int setupGame() {
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spritesheetImage.transparentColor = 0;
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setupWallSprites(&spritesheetImage);
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setupWallSprites();
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setupRabbitSprites();
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setupRabbitBullets();
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setupEnemySprites();
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@ -286,6 +286,11 @@ void handleCombat() {
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&rabbitWeaponry
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);
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handleRabbitToEnemyCollisions(
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&rabbitPosition,
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enemyPosition
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);
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handleRabbitBulletToEnemyCollisions(
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rabbitBulletPosition,
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enemyPosition
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@ -316,23 +321,26 @@ clock_t startTime;
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int main(void) {
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byte *drawBuffer;
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int keepRunning = 1;
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int i;
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if (setupGame()) return 1;
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drawBuffer = getDrawBuffer();
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for (i = 0; i < ENEMY_MAX_COUNT; ++i) {
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maybeSpawnEnemy();
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}
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while (keepRunning) {
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readMouse(&mouseStatus);
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populateKeyboardKeydownState();
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handleMovement();
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handleCombat();
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handleRedraw();
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waitStartVbl();
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copyDrawBufferToDisplay();
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handleCombat();
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waitEndVbl();
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if (keyboardKeydownState.KEY_ESC) { keepRunning = 0; }
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@ -31,7 +31,7 @@ void calculateTargetAngle(
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// Position the cursor
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distanceX = pos->mouseDotPosition[0] - pos->rabbitPosition[0];
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distanceY = pos->mouseDotPosition[1] - pos->rabbitPosition[1] - RABBIT_BULLET_HEIGHT_START;
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distanceY = pos->mouseDotPosition[1] - pos->rabbitPosition[1];
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angle = atan2(distanceY, distanceX) * RAD2DEG + 90;
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if (angle < 0) angle += 360;
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