void dialogs::show_timed_dialog(std::string face_file, bool is_left, std::string lines[], short delay, bool show_btn=true)
{
UNUSED(is_left);
std::string temp_text;
char temp_char;
timer.pause();
draw_dialog_bg(show_btn);
draw_lib.update_screen();
st_position dialog_pos = graphLib.get_dialog_pos();
graphLib.place_face(face_file, st_position(dialog_pos.x+16, dialog_pos.y+16));
draw_lib.update_screen();
/// @TODO: usar show_config_bg e hide_config_bg da graphLib - modificar para aceitar centered (que é o atual) ou top ou bottom
for (int i=0; i<3; i++) {
for (unsigned int j=0; j<lines[i].size(); j++) {
temp_char = lines[i].at(j);
temp_text = "";
temp_text += temp_char;
graphLib.draw_text(j*9+(dialog_pos.x+52), i*11+(dialog_pos.y+16), temp_text);
//graphLib.draw_text(j*9+53, i*11+9, "A");
draw_lib.update_screen();
input.waitTime(15);
}
}
input.waitTime(delay);
timer.unpause();
}
void sceneShow::show_scene(int n)
{
if (n < 0) {
return;
}
if (scene_list.size() <= n) {
std::cout << "ERROR: Scene List[" << n << "] invalid. List size is " << image_scenes.size() << "." << std::endl;
return;
}
CURRENT_FILE_FORMAT::file_scene_list scene = scene_list.at(n);
input.clean();
for (int i=0; i<SCENE_OBJECTS_N; i++) {
input.read_input();
int scene_seek_n = scene.objects[i].seek_n;
//std::cout << ">> sceneShow::show_scene - i: " << i << ", scene_seek_n: " << scene_seek_n << std::endl;
if (_interrupt_scene == true || input.p1_input[BTN_START] == 1) {
scene_seek_n = -1;
break;
}
if (scene_seek_n != -1) {
int scene_type = scene.objects[i].type;
//std::cout << "### scene_type[" << scene_type << "]" << std::endl;
if (scene_type == CURRENT_FILE_FORMAT::SCENETYPE_SHOW_TEXT) {
show_text(scene_seek_n);
} else if (scene_type == CURRENT_FILE_FORMAT::SCENETYPE_CLEAR_AREA) {
clear_area(scene_seek_n);
} else if (scene_type == CURRENT_FILE_FORMAT::SCENETYPE_CLEAR_SCREEN) {
graphLib.clear_area(0 ,0, RES_W, RES_H, 0, 0, 0);
} else if (scene_type == CURRENT_FILE_FORMAT::SCENETYPE_MOVE_IMAGE) {
show_image(scene_seek_n);
} else if (scene_type == CURRENT_FILE_FORMAT::SCENETYPE_MOVE_VIEWPOINT) {
show_viewpoint(scene_seek_n);
} else if (scene_type == CURRENT_FILE_FORMAT::SCENETYPE_PLAY_MUSIC) {
play_music(scene_seek_n);
} else if (scene_type == CURRENT_FILE_FORMAT::SCENETYPE_PLAY_SFX) {
play_sfx(scene_seek_n);
} else if (scene_type == CURRENT_FILE_FORMAT::SCENETYPE_SHOW_ANIMATION) {
show_animation(scene_seek_n, scene.objects[i].repeat_value, scene.objects[i].repeat_type);
} else if (scene_type == CURRENT_FILE_FORMAT::SCENETYPE_STOP_MUSIC) {
soundManager.stop_music();
} else if (scene_type == CURRENT_FILE_FORMAT::SCENETYPE_SUBSCENE) {
show_scene(scene_seek_n);
} else {
std::cout << ">> sceneShow::show_scene - unknown scene_type[" << scene_type << "]" << std::endl;
}
std::cout << "show_scene::DELAY[" << i << "][" << scene.objects[i].delay_after << "]" << std::endl;
if (input.waitScapeTime(scene.objects[i].delay_after) == 1) {
_interrupt_scene = true;
}
} else {
break;
}
}
std::cout << "show_scene::DONE" << std::endl;
}
void draw::show_ingame_warning(std::vector<std::string> message)
{
graphLib.show_dialog(0, true);
st_position dialog_pos = graphLib.get_dialog_pos();
for (unsigned int i=0; i<message.size(); i++) {
graphLib.draw_text(dialog_pos.x+20, dialog_pos.y+16+(12*i), message[i]);
}
input.clean();
input.wait_keypress();
}
/// @TODO: fix animation. investigate a better way for drawing it (code is way too confusing)
void classMap::redraw_boss_door(bool is_close, int nTiles, int tileX, short player_number) {
int k, tileCount;
//is_close = false; // THIS IS A TEMPORARY FIX
//std::cout << "classMap::redraw_boss_door - is_close: " << is_close << std::endl;
input.waitTime(10);
//for (k=0; k<tilePieces; k++) {
for (k=0; k<nTiles; k++) {
tileCount = nTiles;
//if (is_close == false) { std::cout << "classMap::redraw_boss_door - nTiles: " << nTiles << ", tilePieces: " << tilePieces << ", tileCount: " << tileCount << std::endl; }
// redraw screen
showMap();
graphLib.updateScreen();
int tiles_showed;
if (is_close == false) {
tiles_showed = k;
} else {
tiles_showed = 0;
}
for (int i=0; i<MAP_W; i++) {
for (int j=0; j<MAP_H; j++) {
if (map_tiles.tiles[i][j].tile3.x != -1 && map_tiles.tiles[i][j].tile3.y != -1) {
if (i == tileX && map_tiles.tiles[i][j].locked == TERRAIN_DOOR) {
//std::cout << "****** redraw_boss_door - k: " << k << ", tiles_showed: " << tiles_showed << ", nTiles: " << nTiles << std::endl;
if (is_close == false) {
if (tiles_showed < nTiles) {
graphLib.placeTile(st_position(map_tiles.tiles[i][j].tile3.x, map_tiles.tiles[i][j].tile3.y), st_position((i*TILESIZE)-scroll.x, (j*TILESIZE)-scroll.y), &graphLib.gameScreen);
graphLib.updateScreen();
tiles_showed++;
}
} else {
if (tiles_showed < k) {
graphLib.placeTile(st_position(map_tiles.tiles[i][j].tile3.x, map_tiles.tiles[i][j].tile3.y), st_position((i*TILESIZE)-scroll.x, (j*TILESIZE)-scroll.y), &graphLib.gameScreen);
graphLib.updateScreen();
tiles_showed++;
}
}
} else {
graphLib.placeTile(st_position(map_tiles.tiles[i][j].tile3.x, map_tiles.tiles[i][j].tile3.y), st_position((i*TILESIZE)+scroll.x, (j*TILESIZE)-scroll.y), &graphLib.gameScreen);
}
}
}
}
_player_list.at(0)->show();
graphLib.draw_hp_bar(_player_list.at(0)->get_current_hp(), player_number, WEAPON_DEFAULT);
//show_sprite(p1Obj->sprite, game_screen);
//draw_hp_bar(p1Obj);
graphLib.updateScreen();
input.waitTime(100);
}
input.waitTime(100);
}
int main(int argc, char *argv[])
{
quick_load = false;
UNUSED(argc);
gameControl.currentStage = TECHNOBOT;
game_config.selected_player = 1;
//strncpy (FILEPATH, argv[0], strlen(argv[0])-11);
string argvString = string(argv[0]);
FILEPATH = argvString.substr(0, argvString.size()-EXEC_NAME.size());
//std::cout << "main - FILEPATH: " << FILEPATH << std::endl;
format_v_2_0_1::file_io fio;
fio.read_game(game_data);
// INIT GRAPHICS
if (graphLib.initGraphics() != true) {
exit(-1);
}
// INIT GAME
if (quick_load == false) {
if (gameControl.showIntro() == false) {
return 0;
}
} else {
gameControl.quick_load_game();
//ending game_ending;
//game_ending.start();
}
input.clean();
input.p1_input[BTN_START] = 0;
input.waitTime(200);
input.clean();
while (true) {
input.readInput();
if (input.p1_input[BTN_QUIT] == 1) {
exit(-1);
}
gameControl.showGame();
graphLib.updateScreen();
}
/// @TODO: sdl quit sub-systems
SDL_Quit();
return 1;
}
void sceneShow::run_viewpoint_scene(CURRENT_FILE_FORMAT::file_scene_show_viewpoint viewpoint)
{
std::cout << "** sceneShow::run_image_scene::START" << std::endl;
float x = viewpoint.ini_x;
float y = viewpoint.ini_y;
graphicsLib_gSurface image;
graphLib.surfaceFromFile(FILEPATH + "images/scenes/" + viewpoint.filename, &image);
//std::cout << "** sceneShow::run_image_scene::total_dist: " << total_dist << std::endl;
while (total_dist > 0) {
input.read_input();
//std::cout << "total_dist: " << total_dist << std::endl;
timer.delay(viewpoint.move_delay);
std::cout << "rect - x[" << x << "], .y[" << y << "], w[" << viewpoint.w << "], h[" << viewpoint.h << "]" << std::endl;
//void graphicsLib::showSurfacePortion(graphicsLib_gSurface *surfaceOrigin, const st_rectangle origin_rect, st_rectangle destiny_rect)
graphLib.showSurfacePortion(&image, st_rectangle(x, y, viewpoint.w, viewpoint.h), st_rectangle(viewpoint.pos_x, viewpoint.pos_y, viewpoint.w, viewpoint.h));
graphLib.updateScreen();
x += speed_x;
y += speed_y;
total_dist--;
}
graphLib.showSurfacePortion(&image, st_rectangle(x, y, viewpoint.w, viewpoint.h), st_rectangle(viewpoint.pos_x, viewpoint.pos_y, viewpoint.w, image.height));
timer.delay(viewpoint.move_delay);
graphLib.updateScreen();
}
// @TODO - this should only set some variables in a global and the drawinbg should be handled my show_scene()
// That way we can move the run_XXX methods into threads to run in paralel
void sceneShow::run_image_scene(CURRENT_FILE_FORMAT::file_scene_show_image scene_image)
{
std::cout << "** sceneShow::run_image_scene::START" << std::endl;
float x = scene_image.ini_x;
float y = scene_image.ini_y;
graphicsLib_gSurface image;
graphicsLib_gSurface bg_image;
graphLib.initSurface(st_size(RES_W, RES_H), &bg_image);
graphLib.copy_gamescreen_area(st_rectangle(0, 0, RES_W, RES_H), st_position(0, 0), &bg_image);
graphLib.surfaceFromFile(FILEPATH + "images/scenes/" + scene_image.filename, &image);
std::cout << "** sceneShow::run_image_scene::total_dist: " << total_dist << std::endl;
while (total_dist > 0) {
input.read_input();
//std::cout << "total_dist: " << total_dist << std::endl;
timer.delay(scene_image.move_delay);
// @TODO - copy background, but should be done in a smarter way as there can be several moving elements
graphLib.showSurfaceAt(&bg_image, st_position(0, 0), false);
graphLib.showSurfaceAt(&image, st_position(x, y), false);
graphLib.updateScreen();
x += speed_x;
y += speed_y;
total_dist--;
}
graphLib.showSurfaceAt(&image, st_position(x, y), false);
graphLib.updateScreen();
}
bool dialogs::show_leave_game_dialog() const
{
bool res = false;
bool repeat_menu = true;
int picked_n = -1;
timer.pause();
std::cout << ">>>>>>> show_leave_game_dialog::START" << std::endl;
graphicsLib_gSurface bgCopy;
graphLib.initSurface(st_size(RES_W, RES_H), &bgCopy);
graphLib.copyArea(st_position(0, 0), &graphLib.gameScreen, &bgCopy);
graphLib.show_dialog(0, false);
st_position dialog_pos = graphLib.get_dialog_pos();
graphLib.draw_text(dialog_pos.x+30, dialog_pos.y+16, "QUIT GAME?");
std::vector<std::string> item_list;
item_list.push_back("YES");
item_list.push_back("NO");
option_picker main_picker(false, st_position(dialog_pos.x+40, dialog_pos.y+16+11), item_list, false);
draw_lib.update_screen();
while (repeat_menu == true) {
picked_n = main_picker.pick();
std::cout << "picked_n: " << picked_n << std::endl;
if (picked_n == 0) {
res = true;
repeat_menu = false;
} else if (picked_n == 1) {
res = false;
repeat_menu = false;
} else {
main_picker.draw();
}
}
input.clean();
input.waitTime(200);
graphLib.copyArea(st_position(0, 0), &bgCopy, &graphLib.gameScreen);
draw_lib.update_screen();
timer.unpause();
std::cout << ">>>>>>> show_leave_game_dialog::END" << std::endl;
return res;
}
void classPlayer::execute()
{
if (freeze_weapon_effect != FREEZE_EFFECT_PLAYER) {
move();
} else {
clear_move_commands();
input.clean();
}
charMove();
}
int key_map::draw_config_keys() const
{
st_position config_text_pos;
config_text_pos.x = graphLib.get_config_menu_pos().x + 74;
config_text_pos.y = graphLib.get_config_menu_pos().y + 40;
input.clean();
input.waitTime(100);
input.clean();
input.waitTime(100);
graphLib.clear_area(config_text_pos.x, config_text_pos.y, 180, 180, 0, 0, 0);
std::vector<std::string> options;
options.push_back("RESET TO DEFAULT");
options.push_back("SET JUMP");
options.push_back("SET ATTACK");
options.push_back("SET SHIELD");
options.push_back("SET DASH");
options.push_back("SET L");
options.push_back("SET R");
options.push_back("SET START");
// -- NEW -- //
if (game_config.input_mode == INPUT_MODE_DIGITAL) {
options.push_back("DIRECTIONAL: DIGITAL");
} else {
options.push_back("DIRECTIONAL: ANALOG");
}
// -- NEW --//
if (game_config.input_mode == INPUT_MODE_DIGITAL) {
options.push_back("SET UP");
options.push_back("SET DOWN");
options.push_back("SET LEFT");
options.push_back("SET RIGHT");
}
short selected_option = 0;
option_picker main_config_picker(false, config_text_pos, options, true);
selected_option = main_config_picker.pick();
std::cout << "key_map::draw_config_keys - selected_option: " << selected_option << std::endl;
return selected_option;
}
int main(int argc, char *argv[])
{
get_filepath();
fio.read_game(game_data);
soundManager.init_audio_system();
if (graphLib.initGraphics() != true) {
printf("ERROR intializing graphic\n");
return -1;
}
sceneShow show;
show.show_scene(0);
input.wait_keypress();
return 1;
}
void classPlayer::teleport_stand()
{
unsigned int waitTimer = timer.getTimer()+500;
state.animation_state = ANIM_TYPE_TELEPORT;
/*
if (p2Obj) {
p2Obj->sprite->anim_type = ANIM_TELEPORT;
}
*/
soundManager.play_sfx(SFX_TELEPORT);
while (waitTimer > timer.getTimer()) {
draw_lib.update_screen();
show();
/*
if (p2Obj) {
show_sprite(p2Obj->sprite, game_screen);
}
*/
//drawMap3rdLevel(game_screen);
//updateScreen(game_screen);
input.waitTime(20);
}
}
void classPlayer::death()
{
std::cout << "PLAYER::death" << std::endl;
map->print_objects_number();
reset_charging_shot();
map->clear_animations();
map->print_objects_number();
map->reset_objects();
map->print_objects_number();
dead = true;
state.jump_state = NO_JUMP;
freeze_weapon_effect = FREEZE_EFFECT_NONE;
clear_move_commands();
input.clean();
state.direction = ANIM_DIRECTION_RIGHT;
gameControl.draw_explosion(realPosition.x, realPosition.y, false);
if (game_save.items.lifes == 0) {
game_save.items.lifes = 3;
std::cout << "GAME OVER" << std::endl;
gameControl.game_over();
return;
}
game_save.items.lifes--;
}
void key_map::draw_screen()
{
bool finished = false;
st_position config_text_pos;
st_position cursor_pos;
short _pick_pos = 0;
config_text_pos.x = graphLib.get_config_menu_pos().x + 74;
config_text_pos.y = graphLib.get_config_menu_pos().y + 40;
cursor_pos = config_text_pos;
graphLib.clear_area(config_text_pos.x-1, config_text_pos.y-1, 180, 180, 0, 0, 0);
input.clean();
input.waitTime(300);
for (unsigned int i=0; i<_keys_list.size(); i++) {
graphLib.draw_text(config_text_pos.x, config_text_pos.y + i*CURSOR_SPACING, _keys_list[i].c_str());
redraw_line(i);
}
graphLib.draw_text(config_text_pos.x, config_text_pos.y + _keys_list.size()*CURSOR_SPACING, "RETURN");
draw_lib.update_screen();
//cout << "scenesLib::option_picker::START\n";
graphLib.drawCursor(st_position(cursor_pos.x-CURSOR_SPACING, cursor_pos.y+(_pick_pos*CURSOR_SPACING)));
while (finished == false) {
input.readInput();
if (input.p1_input[BTN_START]) {
if (_pick_pos == (short)_keys_list.size()) {
std::cout << "key_map::draw_screen - FINISHED #1" << std::endl;
finished = true;
} else {
graphLib.draw_text(config_text_pos.x, config_text_pos.y + _keys_list.size()*CURSOR_SPACING+CURSOR_SPACING*2, "PRESS NEW KEY/BUTTON"); //input code (number)
draw_lib.update_screen();
//format_v_2_1_1::st_key_config new_key = input.get_pressed_key();
graphLib.clear_area(config_text_pos.x, config_text_pos.y + _keys_list.size()*CURSOR_SPACING+CURSOR_SPACING*2-1, 180, CURSOR_SPACING+1, 0, 0, 0);
///@TODO - key_config[_pick_pos].key_type = new_key.key_type;
///@TODO - key_config[_pick_pos].key_number = new_key.key_number;
redraw_line(_pick_pos);
draw_lib.update_screen();
}
}
if (input.p1_input[BTN_DOWN]) {
soundManager.play_sfx(SFX_CURSOR);
graphLib.eraseCursor(st_position(cursor_pos.x-CURSOR_SPACING, cursor_pos.y+(_pick_pos*CURSOR_SPACING)));
_pick_pos++;
if (_pick_pos >= (short)_keys_list.size()+1) {
_pick_pos = 0;
}
graphLib.drawCursor(st_position(cursor_pos.x-CURSOR_SPACING, cursor_pos.y+(_pick_pos*CURSOR_SPACING)));
}
if (input.p1_input[BTN_UP]) {
soundManager.play_sfx(SFX_CURSOR);
graphLib.eraseCursor(st_position(cursor_pos.x-CURSOR_SPACING, cursor_pos.y+(_pick_pos*CURSOR_SPACING)));
_pick_pos--;
if (_pick_pos < 0) {
_pick_pos = _keys_list.size();
}
graphLib.drawCursor(st_position(cursor_pos.x-CURSOR_SPACING, cursor_pos.y+(_pick_pos*CURSOR_SPACING)));
}
if (input.p1_input[BTN_QUIT]) {
std::cout << "key_map::draw_screen - FINISHED #2" << std::endl;
finished = true;
}
input.clean();
input.waitTime(10);
draw_lib.update_screen();
}
}
void key_map::config_input()
{
CURRENT_FILE_FORMAT::st_game_config game_config_copy = game_config;
int selected_option = 0;
while (selected_option != -1) {
selected_option = draw_config_keys();
std::cout << "key_map::config_input - selected_option: " << selected_option << std::endl;
if (selected_option == 0) {
game_config.set_default_keys();
std::cout << "key_map::config_input - LEAVE #1" << std::endl;
} else if (selected_option == -1) {
std::cout << "key_map::config_input - LEAVE #2" << std::endl;
// apply changes to game-config
apply_key_codes_changes(game_config_copy);
return;
// -- NEW -- //
} else if (selected_option == 8) {
if (game_config.input_mode == INPUT_MODE_DIGITAL) {
game_config.input_mode = INPUT_MODE_ANALOG;
} else {
game_config.input_mode = INPUT_MODE_DIGITAL;
}
// -- NEW -- //
} else {
std::cout << "key_map::config_input - PICK KEY #1" << std::endl;
INPUT_COMMANDS selected_key = BTN_JUMP;
if (selected_option == 1) {
selected_key = BTN_JUMP;
} else if (selected_option == 2) {
selected_key = BTN_ATTACK;
} else if (selected_option == 3) {
selected_key = BTN_SHIELD;
} else if (selected_option == 4) {
selected_key = BTN_DASH;
} else if (selected_option == 5) {
selected_key = BTN_L;
} else if (selected_option == 6) {
selected_key = BTN_R;
} else if (selected_option == 7) {
selected_key = BTN_START;
} else if (selected_option == 9) {
selected_key = BTN_UP;
} else if (selected_option == 10) {
selected_key = BTN_DOWN;
} else if (selected_option == 11) {
selected_key = BTN_LEFT;
} else if (selected_option == 12) {
selected_key = BTN_RIGHT;
}
st_position menu_pos(graphLib.get_config_menu_pos().x + 74, graphLib.get_config_menu_pos().y + 40);
graphLib.clear_area(menu_pos.x, menu_pos.y, 180, 180, 0, 0, 0);
graphLib.draw_text(menu_pos.x, menu_pos.y, "PRESS A KEY OR BUTTON");
input.clean();
input.waitTime(20);
bool is_joystick = input.pick_key_or_button(game_config_copy, selected_key);
check_key_duplicates(game_config_copy, selected_key, is_joystick);
}
}
// apply changes to game-config
apply_key_codes_changes(game_config_copy);
}
bool class_config::execute_ingame_menu()
{
st_position old_pos;
if (input.p1_input[BTN_START] == 1) {
input.clean();
input.waitTime(300);
// leaving menu, removes pause
if (ingame_menu_active == true) {
timer.unpause();
}
ingame_menu_active = !ingame_menu_active;
if (ingame_menu_active) {
timer.pause();
generate_weapons_matrix();
draw_ingame_menu();
} else {
// change player color/weapon
if (ingame_menu_pos.y != 6) {
player_ref->set_weapon(convert_menu_pos_to_weapon_n(ingame_menu_pos));
} else {
// use item
use_tank(ingame_menu_pos.x);
ingame_menu_active = !ingame_menu_active; // keep itself inside the menu
generate_weapons_matrix();
draw_ingame_menu();
}
}
}
if (ingame_menu_active) {
old_pos.x = ingame_menu_pos.x;
old_pos.y = ingame_menu_pos.y;
if (input.p1_input[BTN_UP] == 1) {
move_cursor(0, -1);
} else if (input.p1_input[BTN_DOWN] == 1) {
move_cursor(0, 1);
} else if (input.p1_input[BTN_LEFT] == 1) {
move_cursor(-1, 0);
} else if (input.p1_input[BTN_RIGHT] == 1) {
move_cursor(1, 0);
} else if (input.p1_input[BTN_R] == 1) {
if (gameControl.show_config(game_save.stages[gameControl.currentStage]) == true) { // player picked "leave stage" option
ingame_menu_active = false;
timer.unpause();
return true;
}
draw_ingame_menu();
}
if (old_pos.x != ingame_menu_pos.x || old_pos.y != ingame_menu_pos.y) {
//std::cout << ">> old_pos.y: " << old_pos.y << ", ingame_menu_pos.y: " << ingame_menu_pos.y << std::endl;
if (old_pos.y != 6) {
graphLib.draw_weapon_cursor(old_pos, player_ref->get_weapon_value(convert_menu_pos_to_weapon_n(old_pos)), -1);
graphLib.draw_weapon_icon(convert_menu_pos_to_weapon_n(old_pos), old_pos, false);
} else {
graphLib.erase_menu_item(old_pos.x);
}
if (ingame_menu_pos.y != 6) {
graphLib.draw_weapon_cursor(ingame_menu_pos, player_ref->get_weapon_value(convert_menu_pos_to_weapon_n(ingame_menu_pos)), player_ref->get_number());
graphLib.draw_weapon_icon(convert_menu_pos_to_weapon_n(ingame_menu_pos), ingame_menu_pos, true);
change_player_frame_color();
} else {
graphLib.draw_menu_item(ingame_menu_pos.x);
}
}
input.clean();
input.waitTime(MENU_CHANGE_DELAY);
}
return ingame_menu_active;
}
void class_config::use_tank(int tank_type)
{
int n = 0;
// check tank number
if (tank_type == TANK_ENERGY && game_save.items.energy_tanks == 0) {
return;
}
if (tank_type == TANK_WEAPON && game_save.items.weapon_tanks == 0) {
return;
}
if (tank_type == TANK_SPECIAL && game_save.items.special_tanks == 0) {
return;
}
// no need for tank usage
if (tank_type == TANK_ENERGY && player_ref->get_hp().current == player_ref->get_hp().total) {
return;
}
if (tank_type == TANK_ENERGY || tank_type == TANK_SPECIAL) {
while (player_ref->get_hp().current < player_ref->get_hp().total) {
player_ref->set_current_hp(1);
if (n == 0 || n % 6 == 0) {
soundManager.play_sfx(SFX_GOT_ENERGY);
}
n++;
//graphLib.draw_horizontal_hp_bar(WPN_COLUMN_Y, 2, player_ref->get_hp().current);
graphLib.draw_weapon_cursor(st_position(0, 0), player_ref->get_hp().current, -1);
draw_lib.update_screen();
input.waitTime(50);
}
}
if (tank_type == TANK_SPECIAL || tank_type == TANK_WEAPON) {
st_position weapon_pos(0, 0);
for (int i=0; i<WEAPON_COUNT; i++) {
n = 0;
short unsigned int value = player_ref->get_weapon_value(i);
if (value < player_ref->get_hp().total) {
while (value < player_ref->get_hp().total) {
value++;
player_ref->set_weapon_value(i, value);
if (n == 0 || n % 6 == 0) {
soundManager.play_sfx(SFX_GOT_ENERGY);
}
n++;
graphLib.draw_weapon_cursor(weapon_pos, player_ref->get_weapon_value(i), -1);
draw_lib.update_screen();
input.waitTime(50);
}
}
weapon_pos.y = weapon_pos.y+1;
if (weapon_pos.y > 5) {
weapon_pos.y = 1;
weapon_pos.x = 1;
}
}
}
// consume tank
if (tank_type == TANK_ENERGY) {
game_save.items.energy_tanks--;
}
if (tank_type == TANK_WEAPON) {
game_save.items.weapon_tanks--;
}
if (tank_type == TANK_SPECIAL) {
game_save.items.special_tanks--;
}
}
int main(int argc, char *argv[])
#endif
{
#ifdef PSP
SetupCallbacks();
scePowerSetClockFrequency(333, 333, 166);
#endif
for (int i=0; i<FLAG_COUNT; i++) {
GAME_FLAGS[i] = false;
}
UNUSED(argc);
string argvString = "";
#ifndef WII
argvString = string(argv[0]);
#else
if (!fatInitDefault()) {
printf("fatInitDefault ERROR #1");
std::fflush(stdout);
timer.delay(500);
exit(-1);
}
#endif
get_filepath();
// fallback in case getcwd returns null
if (FILEPATH.size() == 0) {
std::cout << "Could not read path, fallback to using argv" << std::endl;
FILEPATH = argvString.substr(0, argvString.size()-EXEC_NAME.size());
}
std::cout << "main - argvString: '" << argvString << "', FILEPATH: '" << FILEPATH << "'" << std::endl; std::fflush(stdout);
#ifdef PLAYSTATION2
std::cout << "PS2.DEBUG #1" << std::endl; std::fflush(stdout);
#ifndef PS2LINK
SifIopReset(NULL, 0); // clean previous loading of irx by apps like ulaunchElf. Comment this line to get cout on ps2link
#endif
printf("DEBUG.PS2 #1.1\n");
/* SP193: Being creative (Do something while waiting for the slow IOP to be reset). =D */
int main_id = GetThreadId();
ChangeThreadPriority(main_id, 72);
std::cout << "PS2.DEBUG #1.1" << std::endl; std::fflush(stdout);
printf("DEBUG.PS2 #1.2\n");
#ifndef PS2LINK
while(SifIopSync()) {
std::cout << "PS2.SifIopSync()" << std::endl;
}
#endif
/* Initialize and connect to all SIF services on the IOP. */
SifInitRpc(0);
SifInitIopHeap();
SifLoadFileInit();
fioInit();
printf("DEBUG.PS2 #1.3\n");
/* Apply the SBV LMB patch to allow modules to be loaded from a buffer in EE RAM. */
sbv_patch_enable_lmb();
// --- DEBUG --- //
//FILEPATH = "cdfs:/";
// --- DEBUG --- //
std::cout << "PS2.DEBUG #2" << std::endl; std::fflush(stdout);
if (FILEPATH.find("mass:") != std::string::npos) {
printf("DEBUG.PS2 #1.4\n");
std::cout << "PS2.DEBUG Load USB" << std::endl; std::fflush(stdout);
PS2_load_USB();
}
if (FILEPATH.find("cdfs") != std::string::npos || FILEPATH.find("cdrom") != std::string::npos) {
printf("DEBUG.PS2 #1.5\n");
std::cout << "PS2.DEBUG Load CDROM" << std::endl; std::fflush(stdout);
FILEPATH = "cdfs:";
PS2_load_CDROM();
}
printf("DEBUG.PS2 #2\n");
std::cout << "PS2.DEBUG #3" << std::endl; std::fflush(stdout);
#endif
// check command-line paramethers
if (argc > 1) {
for (int i=1; i<argc; i++) {
std::string temp_argv(argv[i]);
if (temp_argv == "--fullscreen") {
} else if (temp_argv == "--quickload") {
GAME_FLAGS[FLAG_QUICKLOAD] = true;
} else if (temp_argv == "--invencible") { // player have infinite HP
GAME_FLAGS[FLAG_INVENCIBLE] = true;
} else if (temp_argv == "--allweapons") { // player have all weapons available even if
GAME_FLAGS[FLAG_ALLWEAPONS] = true;
} else if (temp_argv == "--infinitejump") { // player can jump again and again
GAME_FLAGS[FLAG_INFINITE_JUMP] = true;
}
}
}
std::cout << "PS2.DEBUG #7" << std::endl; std::fflush(stdout);
//fio.check_conversion();
fio.read_game(game_data);
//GAME_FLAGS[FLAG_INFINITE_HP] = true; // DEBUG
gameControl.get_drop_item_ids();
soundManager.init_audio_system();
// PS2 version have to load config AFTER SDL_Init due to SDK issues
#ifdef LINUX
SAVEPATH = std::string(getenv("HOME")) + "/.rockbot/";
mkdir(SAVEPATH.c_str(), 0777);
//std::cout << "SAVEPATH: " << SAVEPATH << ", mkdir-res: " << res << ", errno: " << errno << std::endl;
#elif WIN32
SAVEPATH = std::string(getenv("APPDATA")) + "/rockbot";
std::cout << "SAVEPATH: " << SAVEPATH << std::endl;
_mkdir(SAVEPATH.c_str());
#else
SAVEPATH = FILEPATH;
#endif
#ifndef PLAYSTATION2
fio.load_config(game_config);
#endif
// INIT GRAPHICS
if (graphLib.initGraphics() != true) {
printf("ERROR intializing graphic\n");
return -1;
}
// define SAVEPATH
#ifdef PLAYSTATION2
PS2_load_MC();
SAVEPATH = "mc0:Rockbot/";
if (fioMkdir(SAVEPATH.c_str()) < 0) {
std::cout << "main - warning: could not create '" << SAVEPATH << "' folder" << std::endl; std::fflush(stdout);
/// @TODO - check if directory exists
} else {
std::cout << "Folder '" << SAVEPATH << "' created" << std::endl; std::fflush(stdout);
}
#endif
have_save = fio.save_exists();
#ifndef DEBUG_OUTPUT // redirect output to null
std::string cout_file = "/dev/null";
std::ofstream out(cout_file.c_str());
std::cout.rdbuf(out.rdbuf());
#else
// --- REDIRECT STDOUT TO A FILE --- //
#if defined(PSP) || defined(WII) || defined(ANDROID) || defined(DINGUX) || defined(PLAYSTATION2)
//std::string cout_file = SAVEPATH + "/stdout.txt";
std::string cout_file = FILEPATH + "/stdout.txt";
std::streambuf *coutbuf = std::cout.rdbuf();
std::ofstream out(cout_file.c_str());
std::cout.rdbuf(out.rdbuf()); //redirect std::cout to out.txt!
#endif
#endif
graphLib.preload();
#ifdef PLAYSTATION2
fio.load_config(game_config);
PS2_create_save_icons();
#endif
draw_lib.preload();
gameControl.currentStage = APEBOT;
// INIT GAME
if (GAME_FLAGS[FLAG_QUICKLOAD] == false) {
if (gameControl.showIntro() == false) {
std::cout << "ERROR SHOWING INTRO" << std::endl;
return 0;
}
} else {
gameControl.quick_load_game();
//ending end_obj;
//end_obj.start();
//return 1;
}
input.clean();
input.p1_input[BTN_START] = 0;
input.waitTime(200);
input.clean();
bool run_game = true;
while (run_game) {
#if !defined(PSP) && !defined(DINGUX)
timer.start_ticker();
#endif
#ifdef PLAYSTATION2
RotateThreadReadyQueue(_MIXER_THREAD_PRIORITY);
#endif
gameControl.showGame();
#ifdef DEBUG_SHOW_FPS
gameControl.fps_count();
#endif
draw_lib.update_screen();
if (input.p1_input[BTN_QUIT] == 1) {
//std::cout << "LEAVE #3" << std::endl;
std::fflush(stdout);
gameControl.leave_game();
}
unsigned int now_ticks = timer.get_ticks();
if (now_ticks < (1000 / FRAMES_PER_SECOND)) {
timer.delay((1000 / FRAMES_PER_SECOND) - now_ticks);
}
}
/// @TODO: sdl quit sub-systems
#ifdef PSP
sceKernelExitGame();
return 0;
#else
SDL_Quit();
#endif
return 1;
}
void sceneShow::show_animation(int n, int repeat_n, int repeat_mode)
{
int frame_n = 0;
CURRENT_FILE_FORMAT::file_scene_show_animation scene = animation_list.at(n);
long frame_timer = timer.getTimer() + scene.frame_delay;
long started_timer = timer.getTimer();
int repeat_times = 0;
graphicsLib_gSurface image;
graphLib.surfaceFromFile(FILEPATH + "images/scenes/animations/" + scene.filename, &image);
int max_frames = image.width / scene.frame_w;
graphicsLib_gSurface bg_image;
graphLib.initSurface(st_size(scene.frame_w, scene.frame_h), &bg_image);
graphLib.copy_gamescreen_area(st_rectangle(scene.x, scene.y, scene.frame_w, scene.frame_h), st_position(0, 0), &bg_image);
std::cout << "max_frames[" << max_frames << "], image.w[" << image.width << "], scene.frame_w[" << scene.frame_w << "]" << std::endl;
while (true) {
input.read_input();
int x = frame_n*scene.frame_w;
// stop condition
if (repeat_times > 0 && repeat_n <= 1) {
std::cout << "sceneShow::show_animation::LEAVE#1" << std::endl;
break;
} else {
if (repeat_mode == 0) { // time-mode
if ((timer.getTimer() - started_timer) > repeat_n) {
std::cout << "sceneShow::show_animation::LEAVE#2" << std::endl;
break;
}
} else { // repeat number mode
if (repeat_times > repeat_n) {
std::cout << "sceneShow::show_animation::LEAVE#3" << std::endl;
break;
}
}
}
graphLib.showSurfaceAt(&bg_image, st_position(scene.x, scene.y), false);
std::cout << "x[" << x << "], img.w[" << image.width << "], frame.w[" << scene.frame_w << "]" << std::endl;
graphLib.showSurfaceRegionAt(&image, st_rectangle(x, 0, scene.frame_w, scene.frame_h), st_position(scene.x, scene.y));
graphLib.updateScreen();
timer.delay(scene.frame_delay);
if (frame_timer < timer.getTimer()) {
frame_n++;
if (frame_n >= max_frames) {
frame_n = 0;
repeat_times++;
}
frame_timer = timer.getTimer() + scene.frame_delay;
}
}
// avoid leaving animation image trail if it is a repeating one
if (repeat_n > 1) {
graphLib.showSurfaceAt(&bg_image, st_position(scene.x, scene.y), false);
graphLib.updateScreen();
timer.delay(scene.frame_delay);
}
}
