#include #include #include #include #include "render.h" #include "image.h" #define MODE_MENU 0 #define MODE_LEVELS 1 #define MODE_GAME 2 #define GAME_NONE 0 #define GAME_VICTORY 1 #define GAME_DEFEAT 2 #define MOUSE_LEFT 0 char* header = "Laser Tank"; struct Level { char fileds[16][16]; }; Level *levels; int levelCount = 0; int levelIndex = 0; RGBA img_tank[576]; RGB img_water[576]; RGB img_brick[576]; RGB img_waterbox[576]; RGB img_ground[576]; RGB img_wall[576]; RGB img_finish[576]; RGBA img_box[576]; RGBA img_laser[576]; RGBA img_mirror[576]; RGBA img_mirror90[576]; RGBA img_mirror180[576]; RGBA img_mirror270[576]; RGBA img_mini_mirror[576]; RGBA img_mini_mirror90[576]; RGBA img_mini_mirror180[576]; RGBA img_mini_mirror270[576]; RGBA img_laser1[576]; RGBA img_laser2[576]; RGB img_brick1[576]; RGB img_menu[147456]; RGBA img_explosion[8064]; RGB img_button[7500]; Player player; CKosRender* renderPlayer; CKosImage* objPlayer; CKosRender* renderLaser; CKosImage* objLaser; CKosImage* objLaser1; CKosImage* objLaser2; CKosRender* renderMirror; CKosImage* objMirror; CKosImage* objMirror90; CKosImage* objMirror180; CKosImage* objMirror270; CKosImage* objMiniMirror; CKosImage* objMiniMirror90; CKosImage* objMiniMirror180; CKosImage* objMiniMirror270; CKosRender* renderBox; CKosImage* objBox; CKosRender* renderExplosion; CKosImage* objExplosion; int gameMode = MODE_MENU; int gameStatus = GAME_NONE; void draw_window(); void openLevel(int index); bool CollRecrVsPoint(Point point, Rect rect) { return (point.X > rect.X && point.Y > rect.Y && point.X < rect.X + rect.Width && point.Y < rect.Y + rect.Height); } struct Button { Rect rect; char* caption; Button() {} Button(char* caption, Rect rect) { this->caption = caption; this->rect = rect; } }; Button ToGame("Game", Rect(150, 258, 224, 50)); Button ToExit("Exit", Rect(150, 321, 224, 50)); struct LvlItem { char s; char d; Byte l; }; LvlItem level[16][16]; char GetField(Point position, bool din) { if (din && level[position.Y][position.X].d != ' ') return level[position.Y][position.X].d; return level[position.Y][position.X].s; } RGB* GetImg(Point position, bool din) { switch (GetField(position, din)) { case 's': return (RGB*)img_wall; case '7': renderMirror->RenderImg(GetImg(player.position, false), Point(0, 0), 24, 24); objMirror->Draw(Point(0, 0), 0); return renderMirror->buffer; case '9': renderMirror->RenderImg(GetImg(player.position, false), Point(0, 0), 24, 24); objMirror90->Draw(Point(0, 0), 0); return renderMirror->buffer; case '3': renderMirror->RenderImg(GetImg(player.position, false), Point(0, 0), 24, 24); objMirror180->Draw(Point(0, 0), 0); return renderMirror->buffer; case '1': renderMirror->RenderImg(GetImg(player.position, false), Point(0, 0), 24, 24); objMirror270->Draw(Point(0, 0), 0); return renderMirror->buffer; case 'h': case 'g': return (RGB*)img_ground; case 'b': renderBox->RenderImg(GetImg(player.position, false), Point(0, 0), 24, 24); objBox->Draw(Point(0, 0), 0); return renderBox->buffer; // return (RGB*)img_box; case 'f': return (RGB*)img_finish; case 'x': return (RGB*)img_brick; case 'w': return (RGB*)img_water; case 'e': return (RGB*)img_waterbox; case 'y': return (RGB*)img_brick1; } return NULL; } void DrawElevent(Point position, bool din) { kos_PutImage(GetImg(position, din), 24, 24, 24 * position.X, 24 * position.Y); } void MoveBox(Point a, Point b) { level[a.Y][a.X].d = ' '; DrawElevent(a, true); if (level[b.Y][b.X].s == 'w') { level[b.Y][b.X].s = 'e'; DrawElevent(b, true); } else { level[b.Y][b.X].d = 'b'; DrawElevent(b, true); } } void animation(Point vector, float angle) { for (int i = 2; i < 23; ++i) { kos_WindowRedrawStatus(1); DrawElevent(player.position, false); DrawElevent(player.position + vector, false); renderPlayer->RenderImg(GetImg(player.position, true), Point(0, 0), 24, 24); objPlayer->Draw(Point(0, 0), angle); renderPlayer->Draw(player.position * 24 + vector * i); if (level[player.position.Y + vector.Y][player.position.X + vector.X].d == 'b') { renderBox->RenderImg(GetImg(player.position, true), Point(0, 0), 24, 24); objBox->Draw(Point(0, 0), 0); renderBox->Draw((player.position + vector) * 24 + vector * i); } kos_WindowRedrawStatus(2); kos_Pause(1); } if (level[player.position.Y + vector.Y][player.position.X + vector.X].d == 'b') MoveBox(player.position + vector, player.position + vector * 2); DrawElevent(player.position, true); DrawElevent(player.position + vector, true); player.position = player.position + vector; //kos_PutImage(GetImg(player.position + vector), 24, 24, 24 * player.position.X, 24 * player.position.Y); renderPlayer->RenderImg(GetImg(player.position, false), Point(0, 0), 24, 24); objPlayer->Draw(Point(0, 0), angle); renderPlayer->Draw(player.position * 24); } void DrawLaser(Point position, int frame) { renderLaser->RenderImg(GetImg(position, false), Point(0, 0), 24, 24); switch (frame) { case 1: objLaser->Draw(Point(0, 0), 0, (RGB)0x00FF00); break; case 2: objLaser->Draw(Point(0, 0), 90, (RGB)0x00FF00); break; case 3: objLaser2->Draw(Point(0, 0), 0, (RGB)0x00FF00); break; default: objLaser1->Draw(Point(-1, 0), (float)frame, (RGB)0x00FF00); } renderLaser->Draw(position * 24); level[position.Y][position.X].l = 1; } void PlayerLaser(void) { Point vector = player.vector; Point position = player.position + vector; bool en = true; while (en) { switch (GetField(position, true)) { case 'b': if (position + vector != player.position) switch (GetField(position + vector, true)) { case 'g': case 'w': case 'e': for (int i = 2; i < 23; ++i) { DrawElevent(position, false); DrawElevent(position + vector, true); DrawLaser(position, (vector.X != 0) ? 1 : 2); renderBox->RenderImg(GetImg(position, false), Point(0, 0), 24, 24); objBox->Draw(Point(0, 0), 0); renderBox->Draw((position) * 24 + vector * i); kos_Pause(1); } MoveBox(position, position + vector); } en = false; break; case 'x': for (int i = 0; i < 23; ++i) { if (i == 11 || i == 22) { level[position.Y][position.X].l -= 1; if (level[position.Y][position.X].l == 2) { level[position.Y][position.X].s = 'y'; level[position.Y][position.X].l = 0; } // rtlDebugOutString(ftoa(level[position.Y][position.X].l)); DrawElevent(position, false); } kos_Pause(1); } en = false; break; case 'g': case 'w': case 'y': case 'e': if (player.position == position) { for (int i = 2; i < 23; ++i) kos_Pause(1); for (int y = 0; y < 16; y++) for (int x = 0; x < 16; x++) if (level[y][x].l == 1) { DrawElevent(Point(x, y), true); level[y][x].l = 0; } for (int i = 0; i < 14; ++i) { renderExplosion->RenderImg(GetImg(position, false), Point(0, 0), 24, 24); objExplosion->Draw(Point(0, 0), 0, i); renderExplosion->Draw((position)* 24); kos_Pause(2); } gameStatus = GAME_DEFEAT; draw_window(); return; } else { if (level[position.Y][position.X].l == 1) DrawLaser(position, 3); else DrawLaser(position, (vector.X != 0) ? 1 : 2); } break; case '7': if (vector == Point(-1, 0) || vector == Point(0, -1)) { vector = (vector.Y == -1) ? Point(1, 0) : Point(0, 1); DrawLaser(position, 0); } else { for (int i = 2; i < 23; ++i) kos_Pause(1); en = false; } break; case '9': if (vector == Point(0, -1) || vector == Point(1, 0)) { vector = (vector.Y == -1) ? Point(-1, 0) : Point(0, 1); DrawLaser(position, 90); } else { for (int i = 2; i < 23; ++i) kos_Pause(1); en = false; } break; case '1': if (vector == Point(-1, 0) || vector == Point(0, 1)) { vector = (vector.Y == 1) ? Point(1, 0) : Point(0, -1); DrawLaser(position, 270); } else { for (int i = 2; i < 23; ++i) kos_Pause(1); en = false; } break; case '3': if (vector == Point(1, 0) || vector == Point(0, 1)) { vector = (vector.Y == 1) ? Point(-1, 0) : Point(0, -1); DrawLaser(position, 180); } else { for (int i = 2; i < 23; ++i) kos_Pause(1); en = false; } break; default: for (int i = 2; i < 23; ++i) kos_Pause(1); en = false; } position = position + vector; } for (int y = 0; y < 16; y++) for (int x = 0; x < 16; x++) if (level[y][x].l == 1) { DrawElevent(Point(x, y), true); level[y][x].l = 0; } } void player_move(Point vector, float angle) { if (player.vector == vector) { switch (GetField(player.position + vector, true)) { case 'b': switch (GetField(player.position + vector * 2, true)) { case 'g': case 'w': case 'e': case 'y': animation(vector, angle); return; } break; case 'f': gameStatus = GAME_VICTORY; draw_window(); break; case ' ': case 'x': case 's': case 'w': case '7': case '9': case '3': case '1': break; default: animation(vector, angle); } } else { int cnt; float addAngle; if (player.vector == vector * -1) { cnt = 48; addAngle = 3.5f; } else { cnt = 24; if (player.angle == 270 && angle == 0 || player.angle == 0 && angle == 270) addAngle = (player.angle == 0) ? -3.5f : 3.5f; else addAngle = (angle < player.angle) ? -3.5f : 3.5f; } for (int i = 1; i < cnt - 1; ++i) { player.angle += addAngle; renderPlayer->RenderImg(GetImg(player.position, false), Point(0, 0), 24, 24); objPlayer->Draw(Point(0, 0), player.angle); renderPlayer->Draw(player.position * 24); kos_Pause(1); } player.vector = vector; player.angle = angle; renderPlayer->RenderImg(GetImg(player.position, false), Point(0, 0), 24, 24); objPlayer->Draw(Point(0, 0), player.angle); renderPlayer->Draw(player.position * 24); } } void SetMode(int mode) { gameMode = mode; draw_window(); } void key_press(int key) { //rtlDebugOutString(ftoa(key)); switch (gameMode) { case MODE_MENU: break; case MODE_LEVELS: break; case MODE_GAME: switch (key) { case 119: // Up case 178: // W if (gameStatus == GAME_NONE) player_move(Point(0, -1), 270); break; case 177: // Down case 115: // S if (gameStatus == GAME_NONE) player_move(Point(0, 1), 90); break; case 176: // Left case 97: // A if (gameStatus == GAME_NONE) player_move(Point(-1, 0), 180); break; case 179: // Right case 100: // D if (gameStatus == GAME_NONE) player_move(Point(1, 0), 0); break; case 32: // Space if (gameStatus == GAME_NONE) PlayerLaser(); break; case 13: if (gameStatus == GAME_VICTORY) openLevel(levelIndex + 1); else if (gameStatus == GAME_DEFEAT) openLevel(levelIndex); break; } break; } } void MousePress(int button, Point position) { //rtlDebugOutString("Mouse"); //rtlDebugOutString(ftoa(position.X)); //rtlDebugOutString(ftoa(position.Y)); switch (gameMode) { case MODE_MENU: if (CollRecrVsPoint(position, ToGame.rect)) SetMode(MODE_GAME); if (CollRecrVsPoint(position, ToExit.rect)) kos_ExitApp(); break; case MODE_LEVELS: break; case MODE_GAME: break; } } void draw_window(void) { kos_WindowRedrawStatus(1); kos_DefineAndDrawWindow(10, 40, 384 + 9, 384 + 25, 0x33, 0x444444, 0, 0, (Dword)header); switch (gameMode) { case MODE_MENU: kos_PutImage((RGB*)img_menu, 384, 384, 0, 0); // kos_PutImage((RGB*)img_button, 150, 50, ToGame.rect.X, ToGame.rect.Y); break; case MODE_LEVELS: break; case MODE_GAME: for (int y = 0; y < 16; y++) for (int x = 0; x < 16; x++) { if (level[y][x].s != ' ') kos_PutImage(GetImg(Point(x, y), true), 24, 24, 24 * x, 24 * y); if (level[y][x].d == 'b') { renderBox->RenderImg(GetImg(player.position, false), Point(0, 0), 24, 24); objBox->Draw(Point(0, 0), 0); renderBox->Draw(Point(x, y) * 24); } } switch (gameStatus) { case GAME_NONE: renderPlayer->RenderImg(GetImg(player.position, false), Point(0, 0), 24, 24); objPlayer->Draw(Point(0, 0), player.angle); renderPlayer->Draw(player.position * 24); break; case GAME_VICTORY: kos_WriteTextToWindow(30, 10, 0x80, 0xFFFFFF, "VICTORY", 0); break; case GAME_DEFEAT: kos_WriteTextToWindow(30, 10, 0x80, 0xFFFFFF, "DEFEAT", 0); break; } break; } kos_WindowRedrawStatus(2); } void LevelsLoad() { char *cPtr; cPtr = strrchr(kosExePath, '/'); if (cPtr == NULL) { rtlDebugOutString("Invalid path to executable."); return; } cPtr[1] = 0; strcpy(cPtr + 1, "levels.lvl"); CKosFile *file = new CKosFile(kosExePath); Byte block[256]; while (file->Read(block, 256) == 256) { levelCount++; } //levelCount++; rtlDebugOutString(ftoa(levelCount)); levels = new Level[levelCount]; file->Seek(0, SEEK_SET); for (int i = 0; i < levelCount; ++i) { file->Read(block, 256); int k = 0; for (int y = 0; y < 16; y++) for (int x = 0; x < 16; x++) { // if (block[k] != 0) // rtlDebugOutString(ftoa(block[k])); switch (block[k]) { case 0: levels[i].fileds[y][x] = ' '; break; case 1: levels[i].fileds[y][x] = 'w'; break; case 2: levels[i].fileds[y][x] = 'g'; break; case 3: levels[i].fileds[y][x] = 'x'; break; case 4: levels[i].fileds[y][x] = 's'; break; case 5: levels[i].fileds[y][x] = 'b'; break; case 6: levels[i].fileds[y][x] = '7'; break; case 7: levels[i].fileds[y][x] = '9'; break; case 8: levels[i].fileds[y][x] = '3'; break; case 9: levels[i].fileds[y][x] = '1'; break; case 10: levels[i].fileds[y][x] = 'h'; break; case 11: levels[i].fileds[y][x] = 'f'; break; } k++; } } } void openLevel(int index) { levelIndex = index; for (int y = 0; y < 16; y++) for (int x = 0; x < 16; x++) { level[y][x].s = levels[index].fileds[y][x]; level[y][x].d = ' '; level[y][x].l = 0; switch (levels[index].fileds[y][x]) { case 'b': level[y][x].s = 'g'; level[y][x].d = 'b'; break; case 'h': player = Player(Point(x, y)); level[y][x].s = 'g'; break; case 'x': level[y][x].l = 6; break; } } gameStatus = GAME_NONE; draw_window(); } void kos_Main() { rtlDebugOutString(" "); rtlDebugOutString("kos_Main"); char *cPtr; cPtr = strrchr(kosExePath, '/'); // проверка ;) if (cPtr == NULL) { rtlDebugOutString("Invalid path to executable."); return; } cPtr[1] = 0; strcpy(cPtr + 1, "arh.pak"); CKosFile *file = new CKosFile(kosExePath); file->LoadTex((Byte*)img_box, 4, 24, 24); file->LoadTex((Byte*)img_brick, 3, 24, 24); file->LoadTex((Byte*)img_finish, 3, 24, 24); file->LoadTex((Byte*)img_ground, 3, 24, 24); file->LoadTex((Byte*)img_laser, 4, 24, 24); file->LoadTex((Byte*)img_laser1, 4, 24, 24); file->LoadTex((Byte*)img_laser2, 4, 24, 24); file->LoadTex((Byte*)img_mirror, 4, 24, 24); file->LoadTex((Byte*)img_mirror90, 4, 24, 24); file->LoadTex((Byte*)img_mirror180, 4, 24, 24); file->LoadTex((Byte*)img_mirror270, 4, 24, 24); file->LoadTex((Byte*)img_mini_mirror, 4, 24, 24); file->LoadTex((Byte*)img_mini_mirror90, 4, 24, 24); file->LoadTex((Byte*)img_mini_mirror180, 4, 24, 24); file->LoadTex((Byte*)img_mini_mirror270, 4, 24, 24); file->LoadTex((Byte*)img_tank, 4, 24, 24); file->LoadTex((Byte*)img_wall, 3, 24, 24); file->LoadTex((Byte*)img_water, 3, 24, 24); file->LoadTex((Byte*)img_waterbox, 3, 24, 24); file->LoadTex((Byte*)img_brick1, 3, 24, 24); file->LoadTex((Byte*)img_menu, 3, 384, 384); file->LoadTex((Byte*)img_button, 3, 150, 50); file->LoadTex((Byte*)img_explosion, 4, 24, 336); delete file; renderPlayer = new CKosRender(24, 24); objPlayer = new CKosImage(renderPlayer, (RGBA*)img_tank, 24, 24); renderLaser = new CKosRender(24, 24); objLaser = new CKosImage(renderLaser, (RGBA*)img_laser, 24, 24); objLaser->SetMode(DRAW_ALPHA_ADD); objLaser1 = new CKosImage(renderLaser, (RGBA*)img_laser1, 24, 24); objLaser1->SetMode(DRAW_ALPHA_ADD); objLaser2 = new CKosImage(renderLaser, (RGBA*)img_laser2, 24, 24); objLaser2->SetMode(DRAW_ALPHA_ADD); renderMirror = new CKosRender(24, 24); objMirror = new CKosImage(renderMirror, (RGBA*)img_mirror, 24, 24); objMirror90 = new CKosImage(renderMirror, (RGBA*)img_mirror90, 24, 24); objMirror180 = new CKosImage(renderMirror, (RGBA*)img_mirror180, 24, 24); objMirror270 = new CKosImage(renderMirror, (RGBA*)img_mirror270, 24, 24); objMiniMirror = new CKosImage(renderMirror, (RGBA*)img_mini_mirror, 24, 24); objMiniMirror = new CKosImage(renderMirror, (RGBA*)img_mini_mirror90, 24, 24); objMiniMirror = new CKosImage(renderMirror, (RGBA*)img_mini_mirror180, 24, 24); objMiniMirror = new CKosImage(renderMirror, (RGBA*)img_mini_mirror270, 24, 24); renderBox = new CKosRender(24, 24); objBox = new CKosImage(renderBox, (RGBA*)img_box, 24, 24); renderExplosion = new CKosRender(24, 24); objExplosion = new CKosImage(renderExplosion, (RGBA*)img_explosion, 24, 24); objExplosion->SetFrameSize(24, 24); LevelsLoad(); openLevel(0); kos_SetMaskForEvents(0x27); for (;;) { switch (kos_WaitForEvent()) { case 1: draw_window(); break; case 2: Byte keyCode; kos_GetKey(keyCode); key_press(keyCode); break; case 3: kos_ExitApp(); break; case 6: Dword buttons; int mX, mY; kos_GetMouseState(buttons, mX, mY); if (buttons & 1) MousePress(MOUSE_LEFT, Point(mX, mY)); break; } } }