jaildesigner-jailgames/coffee_crisis_arcade_edition
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases 13 Wiki Activity

Compare commits

base: jaildesigner-jailgames:cd68c5ffeab5d4ddb38a9b78b3efab43e7c4761d
Branches Tags
jaildesigner-jailgames:main jaildesigner-jailgames:metal jaildesigner-jailgames:opengl jaildesigner-jailgames:merdes-noves jaildesigner-jailgames:metal-integration
jaildesigner-jailgames:2025-10-25 jaildesigner-jailgames:2025-08-21 jaildesigner-jailgames:2025-08-17 jaildesigner-jailgames:2025-08-10 jaildesigner-jailgames:2025-03-25 jaildesigner-jailgames:2025-02-07 jaildesigner-jailgames:2025-01-05 jaildesigner-jailgames:2024-12-31 jaildesigner-jailgames:2024-12-05 jaildesigner-jailgames:2024-11-27 jaildesigner-jailgames:2024-11-20 jaildesigner-jailgames:2024-11-03 jaildesigner-jailgames:2024-10-28 jaildesigner-jailgames:2024-10-20 jaildesigner-jailgames:2024-10-14
...
compare: jaildesigner-jailgames:2024-11-03
Branches Tags
jaildesigner-jailgames:main jaildesigner-jailgames:metal jaildesigner-jailgames:opengl jaildesigner-jailgames:merdes-noves jaildesigner-jailgames:metal-integration
jaildesigner-jailgames:2025-10-25 jaildesigner-jailgames:2025-08-21 jaildesigner-jailgames:2025-08-17 jaildesigner-jailgames:2025-08-10 jaildesigner-jailgames:2025-03-25 jaildesigner-jailgames:2025-02-07 jaildesigner-jailgames:2025-01-05 jaildesigner-jailgames:2024-12-31 jaildesigner-jailgames:2024-12-05 jaildesigner-jailgames:2024-11-27 jaildesigner-jailgames:2024-11-20 jaildesigner-jailgames:2024-11-03 jaildesigner-jailgames:2024-10-28 jaildesigner-jailgames:2024-10-20 jaildesigner-jailgames:2024-10-14

10 Commits
cd68c5ffea ... 2024-11-03

Author SHA1 Message Date
Sergio Valor
e0e82ee273 Retocs en Texture::loadPaletteFromFile 2024-11-03 20:43:52 +01:00
Sergio Valor
371c477d0d Varios arreglos 2024-11-03 20:28:01 +01:00
Sergio Valor
f29eb2f411 Les notificacions ara accepten un vector de cadenes en lloc de una o dos cadenes 2024-11-03 18:12:46 +01:00
Sergio Valor
69a92cba66 Apanyats alguns bugs que quedaven respecte a lo del teclat 2024-11-03 17:25:31 +01:00
Sergio Valor
86cd7b0f16 Ja es pot gastar el teclat com a control independent del primer mando 
Ja pot jugar un jugador amb teclat i altre amb mando
Es pot asignar el teclat a qualsevol dels dos jugadors
Continua podentse gastar mando i teclat a l'hora per al mateix jugador
 2024-11-03 11:07:58 +01:00
Sergio Valor
a1ccb6102a Abans de clavar-li ma a Input 2024-11-01 20:01:17 +01:00
Sergio Valor
2dd8bbbbf7 Moguts els checkInputs de Screen a GlobalInputs 2024-11-01 19:07:19 +01:00
Sergio Valor
c66cc965f1 define_buttons ja acaba be de definir els buttons 2024-11-01 18:39:10 +01:00
Sergio Valor
0757f63b73 Eliminat checkModInput 2024-11-01 18:20:18 +01:00
Sergio Valor
80a110e1d7 Abans de llevar checkInputMod 2024-11-01 16:48:03 +01:00
30 changed files with 793 additions and 1080 deletions
Expand all files Collapse all files

2
data/lang/ba_BA.txt
View File

@@ -206,7 +206,7 @@ NORMAL
DIFICIL
## 69 - MENU DE OPCIONES
TECLAT
Teclat
## 70 - MENU DE OPCIONES
MANDO

2
data/lang/en_UK.txt
View File

@@ -206,7 +206,7 @@ NORMAL
HARD
## 69 - MENU DE OPCIONES
KEYBOARD
Keyboard
## 70 - MENU DE OPCIONES
GAME CONTROLLER

2
data/lang/es_ES.txt
View File

@@ -206,7 +206,7 @@ NORMAL
DIFICIL
## 69 - MENU DE OPCIONES
TECLADO
Teclado
## 70 - MENU DE OPCIONES
MANDO

70
source/define_buttons.cpp
View File

@@ -16,11 +16,7 @@ DefineButtons::DefineButtons(std::unique_ptr<Text> text_)
x_ = param.game.width / 2;
y_ = param.title.press_start_position;
buttons_.emplace_back(lang::getText(95), InputType::FIRE_LEFT, SDL_CONTROLLER_BUTTON_INVALID);
buttons_.emplace_back(lang::getText(96), InputType::FIRE_CENTER, SDL_CONTROLLER_BUTTON_INVALID);
buttons_.emplace_back(lang::getText(97), InputType::FIRE_RIGHT, SDL_CONTROLLER_BUTTON_INVALID);
buttons_.emplace_back(lang::getText(98), InputType::START, SDL_CONTROLLER_BUTTON_INVALID);
buttons_.emplace_back(lang::getText(99), InputType::EXIT, SDL_CONTROLLER_BUTTON_INVALID);
clearButtons();
for (int i = 0; i < input_->getNumControllers(); ++i)
{
@@ -33,19 +29,17 @@ void DefineButtons::render()
{
if (enabled_)
{
text_->writeCentered(x_, y_ - 10, lang::getText(100) + std::to_string(options.controller[index_controller_].player_id));
text_->writeCentered(x_, y_, controller_names_[index_controller_]);
text_->writeCentered(x_, y_ + 10, buttons_[index_button_].label);
text_->writeCentered(x_, y_ - 10, lang::getText(100) + std::to_string(options.controllers.at(index_controller_).player_id));
text_->writeCentered(x_, y_, controller_names_.at(index_controller_));
text_->writeCentered(x_, y_ + 10, buttons_.at(index_button_).label);
}
}
// Comprueba el botón que se ha pulsado
void DefineButtons::doControllerButtonDown(SDL_ControllerButtonEvent &event)
void DefineButtons::doControllerButtonDown(const SDL_ControllerButtonEvent &event)
{
size_t i = input_->getJoyIndex(event.which);
// Solo pillamos botones del mando que toca
if (i != index_controller_)
// Solo pilla botones del mando que toca
if (input_->getJoyIndex(event.which) != static_cast<int>(index_controller_))
{
return;
}
@@ -53,7 +47,7 @@ void DefineButtons::doControllerButtonDown(SDL_ControllerButtonEvent &event)
const auto button = static_cast<SDL_GameControllerButton>(event.button);
if (checkButtonNotInUse(button))
{
buttons_[index_button_].button = button;
buttons_.at(index_button_).button = button;
incIndexButton();
}
}
@@ -61,14 +55,14 @@ void DefineButtons::doControllerButtonDown(SDL_ControllerButtonEvent &event)
// Asigna los botones definidos al input_
void DefineButtons::bindButtons()
{
for (size_t i = 0; i < buttons_.size(); ++i)
for (const auto &button : buttons_)
{
input_->bindGameControllerButton(index_controller_, buttons_[i].input, buttons_[i].button);
input_->bindGameControllerButton(index_controller_, button.input, button.button);
}
}
// Comprueba las entradas
void DefineButtons::checkInput()
// Comprueba los eventos
void DefineButtons::checkEvents()
{
if (enabled_)
{
@@ -85,13 +79,11 @@ void DefineButtons::checkInput()
section::options = section::Options::QUIT_WITH_KEYBOARD;
break;
}
case SDL_CONTROLLERBUTTONDOWN:
{
doControllerButtonDown(event.cbutton);
break;
}
default:
break;
}
@@ -107,6 +99,7 @@ bool DefineButtons::enable(int index)
enabled_ = true;
index_controller_ = index;
index_button_ = 0;
clearButtons();
return true;
}
@@ -114,15 +107,12 @@ bool DefineButtons::enable(int index)
}
// Comprueba si está habilitado
bool DefineButtons::isEnabled()
{
return enabled_;
}
bool DefineButtons::isEnabled() { return enabled_; }
// Incrementa el indice de los botones
void DefineButtons::incIndexButton()
{
index_button_++;
++index_button_;
// Comprueba si ha finalizado
if (index_button_ == buttons_.size())
@@ -133,11 +123,7 @@ void DefineButtons::incIndexButton()
// Guarda los cambios en las opciones
saveBindingsToOptions();
// input_->allActive(index_controller_);
// Reinicia variables
index_button_ = 0;
index_controller_ = 0;
// Deshabilita
enabled_ = false;
}
}
@@ -146,19 +132,14 @@ void DefineButtons::incIndexButton()
void DefineButtons::saveBindingsToOptions()
{
// Modifica las opciones para colocar los valores asignados
options.controller[index_controller_].name = input_->getControllerName(index_controller_);
for (int j = 0; j < (int)options.controller[index_controller_].inputs.size(); ++j)
auto &controller = options.controllers.at(index_controller_);
controller.name = input_->getControllerName(index_controller_);
for (size_t j = 0; j < controller.inputs.size(); ++j)
{
options.controller[index_controller_].buttons[j] = input_->getControllerBinding(index_controller_, options.controller[index_controller_].inputs[j]);
controller.buttons.at(j) = input_->getControllerBinding(index_controller_, controller.inputs.at(j));
}
}
// Intercambia los jugadores asignados a los dos primeros mandos
void DefineButtons::swapControllers()
{
std::swap(options.controller[0].player_id, options.controller[1].player_id);
}
// Comprueba que un botón no esté ya asignado
bool DefineButtons::checkButtonNotInUse(SDL_GameControllerButton button)
{
@@ -171,3 +152,14 @@ bool DefineButtons::checkButtonNotInUse(SDL_GameControllerButton button)
}
return true;
}
// Limpia la asignación de botones
void DefineButtons::clearButtons()
{
buttons_.clear();
buttons_.emplace_back(lang::getText(95), InputType::FIRE_LEFT, SDL_CONTROLLER_BUTTON_INVALID);
buttons_.emplace_back(lang::getText(96), InputType::FIRE_CENTER, SDL_CONTROLLER_BUTTON_INVALID);
buttons_.emplace_back(lang::getText(97), InputType::FIRE_RIGHT, SDL_CONTROLLER_BUTTON_INVALID);
buttons_.emplace_back(lang::getText(98), InputType::START, SDL_CONTROLLER_BUTTON_INVALID);
buttons_.emplace_back(lang::getText(99), InputType::SERVICE, SDL_CONTROLLER_BUTTON_INVALID);
}

33
source/define_buttons.h
View File

@@ -1,13 +1,14 @@
#pragma once
#include <SDL2/SDL_events.h> // para SDL_ControllerButtonEvent
#include <SDL2/SDL_gamecontroller.h> // para SDL_GameControllerButton
#include <memory> // para shared_ptr, unique_ptr
#include <string> // para string
#include <vector> // para vector
class Input;
class Text;
enum class InputType : int;
#include <SDL2/SDL_events.h> // Para SDL_ControllerButtonEvent
#include <SDL2/SDL_gamecontroller.h> // Para SDL_GameControllerButton
#include <stddef.h> // Para size_t
#include <memory> // Para shared_ptr, unique_ptr
#include <string> // Para string
#include <vector> // Para vector
class Input; // lines 8-8
class Text; // lines 9-9
enum class InputType : int; // lines 10-10
struct DefineButtonsButton
{
@@ -33,15 +34,15 @@ private:
int x_; // Posición donde dibujar el texto
int y_; // Posición donde dibujar el texto
std::vector<DefineButtonsButton> buttons_; // Vector con las nuevas definiciones de botones/acciones
size_t index_controller_ = 0; // Indice del controlador a reasignar
size_t index_button_ = 0; // Indice para saber qué botón se está definiendo
size_t index_controller_ = 0; // Indice del controlador a reasignar
size_t index_button_ = 0; // Indice para saber qué botón se está definiendo
std::vector<std::string> controller_names_; // Nombres de los mandos
// Incrementa el indice de los botones
void incIndexButton();
// Comprueba el botón que se ha pulsado
void doControllerButtonDown(SDL_ControllerButtonEvent &event);
void doControllerButtonDown(const SDL_ControllerButtonEvent &event);
// Asigna los botones definidos al input
void bindButtons();
@@ -52,6 +53,9 @@ private:
// Comprueba que un botón no esté ya asignado
bool checkButtonNotInUse(SDL_GameControllerButton button);
// Limpia la asignación de botones
void clearButtons();
public:
// Constructor
explicit DefineButtons(std::unique_ptr<Text> text);
@@ -62,15 +66,12 @@ public:
// Dibuja el objeto en pantalla
void render();
// Comprueba las entradas
void checkInput();
// Comprueba los eventos
void checkEvents();
// Habilita el objeto
bool enable(int index);
// Comprueba si está habilitado
bool isEnabled();
// Intercambia los jugadores asignados a los dos primeros mandos
void swapControllers();
};

175
source/director.cpp
View File

@@ -7,17 +7,17 @@
#include <SDL2/SDL_hints.h> // Para SDL_SetHint, SDL_HINT_RENDER_DR...
#include <SDL2/SDL_scancode.h> // Para SDL_SCANCODE_0, SDL_SCANCODE_DOWN
#include <SDL2/SDL_stdinc.h> // Para SDL_bool, Uint32
#include <SDL2/SDL_timer.h> // Para SDL_GetTicks
#include <bits/chrono.h> // Para duration, system_clock
#include <errno.h> // Para errno, EEXIST, EACCES, ENAMETOO...
#include <stdio.h> // Para printf, perror
#include <string.h> // Para strcmp
#include <sys/stat.h> // Para mkdir, stat, S_IRWXU
#include <unistd.h> // Para getuid
#include <cstdlib> // Para exit, EXIT_FAILURE, rand, srand
#include <iostream> // Para basic_ostream, operator<<, cout
#include <algorithm> // Para min
#include <cstdlib> // Para exit, EXIT_FAILURE, size_t, rand
#include <iostream> // Para basic_ostream, operator<<, basi...
#include <memory> // Para make_unique, unique_ptr, make_s...
#include <stdexcept> // Para runtime_error
#include <string> // Para operator+, allocator, char_traits
#include <string> // Para operator+, char_traits, allocator
#include <vector> // Para vector
#include "asset.h" // Para Asset, AssetType
#include "dbgtxt.h" // Para dbg_init
@@ -27,13 +27,13 @@
#include "input.h" // Para Input, InputType
#include "instructions.h" // Para Instructions
#include "intro.h" // Para Intro
#include "jail_audio.h" // Para JA_EnableMusic, JA_EnableSound
#include "jail_audio.h" // Para JA_SetMusicVolume, JA_SetSoundV...
#include "lang.h" // Para Code, loadFromFile
#include "logo.h" // Para Logo
#include "manage_hiscore_table.h" // Para ManageHiScoreTable
#include "notifier.h" // Para Notifier
#include "on_screen_help.h" // Para OnScreenHelp
#include "options.h" // Para Options, options, OptionsContro...
#include "options.h" // Para Options, OptionsController, opt...
#include "param.h" // Para Param, ParamGame, param, loadPa...
#include "resource.h" // Para Resource
#include "screen.h" // Para Screen
@@ -46,6 +46,13 @@
#include <pwd.h> // para getpwuid, passwd
#endif
// Inicia la semilla aleatoria
void initRand()
{
unsigned int seed = static_cast<unsigned int>(std::chrono::system_clock::now().time_since_epoch().count());
std::srand(seed);
}
// Constructor
Director::Director(int argc, const char *argv[])
{
@@ -67,6 +74,8 @@ Director::Director(int argc, const char *argv[])
std::cout << "Game start" << std::endl;
initRand();
// Comprueba los parametros del programa
checkProgramArguments(argc, argv);
@@ -89,7 +98,7 @@ Director::Director(int argc, const char *argv[])
#else
const std::string paramFilePath = overrides.param_file == "--320x240" ? Asset::get()->get("param_320x240.txt") : Asset::get()->get("param_320x256.txt");
#endif
loadParams(paramFilePath);
loadParamsFromFile(paramFilePath);
// Carga el fichero de puntuaciones
{
@@ -100,30 +109,18 @@ Director::Director(int argc, const char *argv[])
manager->loadFromFile(Asset::get()->get("score.bin"));
}
// Inicializa SDL
// Inicializa todo
initSDL();
// Inicializa JailAudio
initJailAudio();
// Inicializa el texto de debug
dbg_init(renderer_);
// Crea los objetos
lang::loadFromFile(getLangFile((lang::Code)options.game.language));
lang::loadFromFile(getLangFile(static_cast<lang::Code>(options.game.language)));
Screen::init(window_, renderer_);
Resource::init();
Input::init(Asset::get()->get("gamecontrollerdb.txt"));
bindInputs();
auto notifier_text = std::make_shared<Text>(Resource::get()->getTexture("8bithud.png"), Resource::get()->getTextFile("8bithud.txt"));
Notifier::init(std::string(), notifier_text, Asset::get()->get("notify.wav"));
OnScreenHelp::init();
globalInputs::init();
}
@@ -191,27 +188,23 @@ void Director::bindInputs()
// Mando - Control del programa
Input::get()->bindGameControllerButton(i, InputType::SERVICE, SDL_CONTROLLER_BUTTON_BACK);
Input::get()->bindGameControllerButton(i, InputType::EXIT, InputType::START);
Input::get()->bindGameControllerButton(i, InputType::PAUSE, InputType::FIRE_RIGHT);
Input::get()->bindGameControllerButton(i, InputType::VIDEO_SHADERS, InputType::FIRE_LEFT);
Input::get()->bindGameControllerButton(i, InputType::MUTE, InputType::LEFT);
Input::get()->bindGameControllerButton(i, InputType::SHOWINFO, InputType::RIGHT);
Input::get()->bindGameControllerButton(i, InputType::RESET, InputType::FIRE_CENTER);
Input::get()->bindGameControllerButton(i, InputType::CONFIG, InputType::DOWN);
Input::get()->bindGameControllerButton(i, InputType::SWAP_CONTROLLERS, InputType::UP);
}
// Mapea las asignaciones a los botones desde el archivo de configuración, si se da el caso
for (int i = 0; i < num_gamepads; ++i)
for (int index = 0; index < (int)options.controller.size(); ++index)
if (Input::get()->getControllerName(i) == options.controller[index].name)
const size_t max_controllers = std::min(2, num_gamepads);
for (size_t i = 0; i < max_controllers; ++i)
{
for (auto &controller : options.controllers)
{
if (Input::get()->getControllerName(i) == controller.name)
{
options.controller[index].plugged = true;
for (int j = 0; j < (int)options.controller[index].inputs.size(); ++j)
for (size_t j = 0; j < controller.inputs.size(); ++j)
{
Input::get()->bindGameControllerButton(i, options.controller[index].inputs[j], options.controller[index].buttons[j]);
Input::get()->bindGameControllerButton(i, controller.inputs.at(j), controller.buttons.at(j));
}
}
}
}
// Asigna botones a inputs desde otros inputs
for (int i = 0; i < num_gamepads; ++i)
@@ -226,15 +219,25 @@ void Director::bindInputs()
Input::get()->bindGameControllerButton(i, InputType::SWAP_CONTROLLERS, InputType::UP);
}
// Guarda las asignaciones de botones en las opciones
for (int i = 0; i < num_gamepads; ++i)
// Guarda las asignaciones de botones en las opciones de los dos primeros mandos
for (size_t i = 0; i < max_controllers; ++i)
{
options.controller[i].name = Input::get()->getControllerName(i);
for (int j = 0; j < (int)options.controller[i].inputs.size(); ++j)
// Variables asociadas al mando
options.controllers.at(i).index = i;
options.controllers.at(i).name = Input::get()->getControllerName(i);
options.controllers.at(i).plugged = true;
// Asignaciones de botones
for (size_t j = 0; j < options.controllers.at(i).inputs.size(); ++j)
{
options.controller[i].buttons[j] = Input::get()->getControllerBinding(i, options.controller[i].inputs[j]);
options.controllers.at(i).buttons.at(j) = Input::get()->getControllerBinding(i, options.controllers.at(i).inputs.at(j));
}
}
// Asegura que algún jugador tenga el teclado asignado
if (getPlayerWhoUsesKeyboard() == 0)
{
setKeyboardToPlayer(1);
}
}
// Inicializa JailAudio
@@ -267,35 +270,36 @@ bool Director::initSDL()
}
else
{
// Inicia el generador de numeros aleatorios
std::srand(static_cast<unsigned int>(SDL_GetTicks()));
/*
// Muestra información de la pantalla
/*std::cout << "\nDisplay modes list:" << std::endl;
std::cout << "\nDisplay modes list:" << std::endl;
for (int i = 0; i < SDL_GetNumDisplayModes(0); ++i)
{
SDL_DisplayMode DM;
SDL_GetDisplayMode(0,i,&DM);
std::cout << " - " + std::to_string(DM.w) + "x" + std::to_string(DM.h) + " @ " + std::to_string(DM.refresh_rate) + "Hz" << std::endl;
}*/
std::cout << " - " << DM.w << "x" << DM.h << " @ " << DM.refresh_rate << "Hz" << std::endl;
}
*/
SDL_DisplayMode DM;
SDL_GetCurrentDisplayMode(0, &DM);
std::cout << "\nCurrent display mode: " + std::to_string(DM.w) + "x" + std::to_string(DM.h) + " @ " + std::to_string(DM.refresh_rate) + "Hz" << std::endl;
std::cout << "Window resolution : " + std::to_string(param.game.width) + "x" + std::to_string(param.game.height) + " x" + std::to_string(options.video.window.size) << std::endl;
std::cout << "\nCurrent display mode: " << DM.w << "x" << DM.h << " @ " << DM.refresh_rate << "Hz" << std::endl;
std::cout << "Window resolution : " << param.game.width << "x" << param.game.height << " x" << options.video.window.size << std::endl;
// Establece el filtro de la textura
if (!SDL_SetHint(SDL_HINT_RENDER_SCALE_QUALITY, std::to_string(static_cast<int>(options.video.filter)).c_str()))
{
std::cout << "Warning: texture filtering not enabled!\n";
}
#ifndef NO_SHADERS
if (!SDL_SetHint(SDL_HINT_RENDER_DRIVER, "opengl"))
{
std::cout << "Warning: opengl not enabled!\n";
}
#endif // NO_SHADERS
// Crea la ventana
#endif
// Crea la ventana
window_ = SDL_CreateWindow(WINDOW_CAPTION, SDL_WINDOWPOS_CENTERED, SDL_WINDOWPOS_CENTERED, param.game.width * options.video.window.size, param.game.height * options.video.window.size, SDL_WINDOW_HIDDEN);
if (!window_)
{
@@ -310,10 +314,12 @@ bool Director::initSDL()
{
flags = SDL_RENDERER_PRESENTVSYNC;
}
#ifndef NO_SHADERS
// La aceleración se activa según el define
flags = flags | SDL_RENDERER_ACCELERATED | SDL_RENDERER_TARGETTEXTURE;
#endif
renderer_ = SDL_CreateRenderer(window_, -1, flags);
if (!renderer_)
@@ -323,14 +329,9 @@ bool Director::initSDL()
}
else
{
// Inicializa el color de renderizado
SDL_SetRenderDrawColor(renderer_, 0x00, 0x00, 0x00, 0xFF);
// Establece el tamaño del buffer de renderizado
SDL_RenderSetLogicalSize(renderer_, param.game.width, param.game.height);
SDL_RenderSetIntegerScale(renderer_, static_cast<SDL_bool>(options.video.integer_scale));
// Establece el modo de mezcla
SDL_SetRenderDrawBlendMode(renderer_, SDL_BLENDMODE_BLEND);
}
}
@@ -506,40 +507,22 @@ void Director::setFileList()
throw std::runtime_error("Falta algun fichero");
}
// Carga los parametros para configurar el juego
void Director::loadParams(const std::string &file_path)
{
loadParamsFromFile(file_path);
}
// Comprueba los parametros del programa
void Director::checkProgramArguments(int argc, const char *argv[])
{
const std::vector<std::string> argument_list = {"--h", "--320x240", "--clear_score"};
// Establece la ruta del programa
executable_path_ = argv[0];
// Comprueba el resto de parámetros
for (int i = 1; i < argc; ++i)
{
if (strcmp(argv[i], "--h") == 0)
{
for (const auto &argument : argument_list)
{
std::cout << argument << std::endl;
}
// std::exit(EXIT_SUCCESS);
section::name = section::Name::QUIT;
section::options = section::Options::QUIT_FROM_EVENT;
}
std::string arg = argv[i];
if (strcmp(argv[i], "--320x240") == 0)
if (arg == "--320x240")
{
overrides.param_file = argv[i];
overrides.param_file = arg;
}
if (strcmp(argv[i], "--clear_score") == 0)
else if (arg == "--clear_score")
{
overrides.clear_hi_score_table = true;
}
@@ -673,54 +656,57 @@ int Director::run()
case section::Name::INIT:
section::name = section::Name::LOGO;
break;
case section::Name::LOGO:
runLogo();
break;
case section::Name::INTRO:
runIntro();
break;
case section::Name::TITLE:
runTitle();
break;
case section::Name::GAME:
runGame();
break;
case section::Name::HI_SCORE_TABLE:
runHiScoreTable();
break;
case section::Name::GAME_DEMO:
runDemoGame();
break;
case section::Name::INSTRUCTIONS:
runInstructions();
break;
default:
break;
}
}
#ifdef ARCADE
// Comprueba si ha de apagar el sistema
if (section::options == section::Options::QUIT_WITH_CONTROLLER)
shutdownSystem();
#endif
std::string return_code;
switch (section::options)
{
case section::Options::QUIT_WITH_KEYBOARD:
return_code = "with keyboard";
break;
case section::Options::QUIT_WITH_CONTROLLER:
return_code = "with controller";
break;
default:
return_code = "from event";
break;
}
const auto return_code = (section::options == section::Options::QUIT_WITH_KEYBOARD) ? "with keyboard" : (section::options == section::Options::QUIT_WITH_CONTROLLER) ? "with controller"
: "from event";
std::cout << "\nGame end " << return_code << std::endl;
#ifndef VERBOSE
// Habilita de nuevo los std::cout
std::cout.rdbuf(orig_buf);
#endif
#ifdef ARCADE
// Comprueba si ha de apagar el sistema
if (section::options == section::Options::QUIT_WITH_CONTROLLER)
shutdownSystem();
#endif
return (section::options == section::Options::QUIT_WITH_CONTROLLER) ? 1 : 0;
}
@@ -733,15 +719,12 @@ std::string Director::getLangFile(lang::Code code)
case lang::Code::ba_BA:
return Asset::get()->get("ba_BA.txt");
break;
case lang::Code::es_ES:
return Asset::get()->get("es_ES.txt");
break;
case lang::Code::en_UK:
return Asset::get()->get("en_UK.txt");
break;
default:
break;
}

3
source/director.h
View File

@@ -34,9 +34,6 @@ private:
// Asigna los botones y teclas al objeto Input
void bindInputs();
// Carga los parametros para configurar el juego
void loadParams(const std::string &file_path);
// Crea el indice de ficheros
void setFileList();

148
source/game.cpp
View File

@@ -1,39 +1,39 @@
#include "game.h"
#include "asset.h" // for Asset
#include "background.h" // for Background
#include "balloon.h" // for Balloon, BALLOON_SCORE, BALLOON_VE...
#include "balloon_formations.h" // for BalloonFormations, BalloonFormatio...
#include "bullet.h" // for Bullet, BulletType, BulletMoveStatus
#include "explosions.h" // for Explosions
#include "fade.h" // for Fade, FadeType
#include "global_inputs.h" // for check
#include "input.h" // for InputType, Input, INPUT_DO_NOT_ALL...
#include "item.h" // for Item, ItemType
#include "jail_audio.h" // for JA_PlaySound, JA_GetMusicState
#include "lang.h" // for getText
#include "manage_hiscore_table.h" // for ManageHiScoreTable, HiScoreEntry
#include "notifier.h" // for Notifier
#include "param.h" // for Param, param, ParamGame, ParamFade
#include "path_sprite.h" // for Path, PathSprite, createPath, Path...
#include "player.h" // for Player, PlayerStatus
#include "resource.h" // for Resource
#include "scoreboard.h" // for Scoreboard, ScoreboardMode, SCOREB...
#include "screen.h" // for Screen
#include "section.h" // for Name, name, Options, options
#include "smart_sprite.h" // for SmartSprite
#include "text.h" // for Text
#include "texture.h" // for Texture
#include <SDL2/SDL_blendmode.h> // for SDL_BLENDMODE_BLEND
#include <SDL2/SDL_events.h> // for SDL_PollEvent, SDL_Event, SDL_KEYDOWN
#include <SDL2/SDL_keycode.h> // for SDLK_1, SDLK_2, SDLK_3, SDLK_4
#include <SDL2/SDL_pixels.h> // for SDL_PIXELFORMAT_RGBA8888
#include <SDL2/SDL_timer.h> // for SDL_GetTicks
#include <SDL2/SDL_video.h> // for SDL_WINDOWEVENT_FOCUS_GAINED, SDL_...
#include <algorithm> // for find_if, clamp, min, remove_if
#include <functional> // for function
#include <iterator> // for distance, size
#include <numeric> // for accumulate
#include <stdlib.h> // for rand, size_t
#include "asset.h" // Para Asset
#include "background.h" // Para Background
#include "balloon.h" // Para Balloon, BALLOON_SCORE, BALLOON_VE...
#include "balloon_formations.h" // Para BalloonFormations, BalloonFormatio...
#include "bullet.h" // Para Bullet, BulletType, BulletMoveStatus
#include "explosions.h" // Para Explosions
#include "fade.h" // Para Fade, FadeType
#include "global_inputs.h" // Para check
#include "input.h" // Para InputType, Input, INPUT_DO_NOT_ALL...
#include "item.h" // Para Item, ItemType
#include "jail_audio.h" // Para JA_PlaySound, JA_GetMusicState
#include "lang.h" // Para getText
#include "manage_hiscore_table.h" // Para ManageHiScoreTable, HiScoreEntry
#include "notifier.h" // Para Notifier
#include "param.h" // Para Param, param, ParamGame, ParamFade
#include "path_sprite.h" // Para Path, PathSprite, createPath, Path...
#include "player.h" // Para Player, PlayerStatus
#include "resource.h" // Para Resource
#include "scoreboard.h" // Para Scoreboard, ScoreboardMode, SCOREB...
#include "screen.h" // Para Screen
#include "section.h" // Para Name, name, Options, options
#include "smart_sprite.h" // Para SmartSprite
#include "text.h" // Para Text
#include "texture.h" // Para Texture
#include <SDL2/SDL_blendmode.h> // Para SDL_BLENDMODE_BLEND
#include <SDL2/SDL_events.h> // Para SDL_PollEvent, SDL_Event, SDL_KEYDOWN
#include <SDL2/SDL_keycode.h> // Para SDLK_1, SDLK_2, SDLK_3, SDLK_4
#include <SDL2/SDL_pixels.h> // Para SDL_PIXELFORMAT_RGBA8888
#include <SDL2/SDL_timer.h> // Para SDL_GetTicks
#include <SDL2/SDL_video.h> // Para SDL_WINDOWEVENT_FOCUS_GAINED, SDL_...
#include <algorithm> // Para find_if, clamp, min, remove_if
#include <functional> // Para function
#include <iterator> // Para distance, size
#include <numeric> // Para accumulate
#include <stdlib.h> // Para rand, size_t
struct JA_Sound_t; // lines 36-36
@@ -87,10 +87,11 @@ Game::Game(int player_id, int current_stage, bool demo)
#ifdef DEBUG
// Si se empieza en una fase que no es la primera
for (int i = 0; i < current_stage_; ++i)
{
balloons_popped_ += balloon_formations_->getStage(i).power_to_complete;
}
if (!demo_.enabled)
for (int i = 0; i < current_stage_; ++i)
{
balloons_popped_ += balloon_formations_->getStage(i).power_to_complete;
}
#endif
// Crea los primeros globos y el mensaje de inicio
@@ -1450,7 +1451,7 @@ void Game::checkEvents()
case SDLK_3: // Activa el modo para pasar el juego automaticamente
{
auto_pop_balloons_ = !auto_pop_balloons_;
Notifier::get()->showText("auto_pop_balloons_ " + boolToString(auto_pop_balloons_));
Notifier::get()->showText({"auto_pop_balloons_ " + boolToString(auto_pop_balloons_)});
break;
}
case SDLK_4: // Suelta un item
@@ -1590,12 +1591,12 @@ std::shared_ptr<Player> Game::getPlayer(int id)
// Obtiene un controlador a partir del "id" del jugador
int Game::getController(int player_id)
{
auto it = std::find_if(options.controller.begin(), options.controller.end(), [player_id](const auto &controller)
auto it = std::find_if(options.controllers.begin(), options.controllers.end(), [player_id](const auto &controller)
{ return controller.player_id == player_id; });
if (it != options.controller.end())
if (it != options.controllers.end())
{
return std::distance(options.controller.begin(), it);
return std::distance(options.controllers.begin(), it);
}
return -1;
@@ -1604,19 +1605,13 @@ int Game::getController(int player_id)
// Gestiona la entrada durante el juego
void Game::checkInput()
{
checkPauseInput(); // Verifica si se debe pausar el juego.
// Verifica si se debe pausar el juego.
checkPauseInput();
if (demo_.enabled)
{ // Controla el comportamiento de los jugadores en modo demo.
handleDemoMode();
}
else
{ // Gestiona el input normal de los jugadores.
handlePlayersInput();
}
demo_.enabled ? handleDemoMode() : handlePlayersInput();
screen_->checkInput(); // Verifica el input en la pantalla del juego.
globalInputs::check(); // Verifica los inputs globales.
// Verifica los inputs globales.
globalInputs::check();
}
// Verifica si alguno de los controladores ha solicitado una pausa y actualiza el estado de pausa del juego.
@@ -1624,16 +1619,17 @@ void Game::checkPauseInput()
{
// Comprueba los mandos
for (int i = 0; i < input_->getNumControllers(); ++i)
if (input_->checkModInput(InputType::SERVICE, InputType::PAUSE, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
if (input_->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i) &&
input_->checkInput(InputType::PAUSE, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i))
{
pause(!paused_); // Alterna entre pausado y no pausado.
pause(!paused_);
return;
}
// Comprueba el teclado
if (input_->checkInput(InputType::PAUSE, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
if (input_->checkInput(InputType::PAUSE, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
pause(!paused_); // Alterna entre pausado y no pausado.
pause(!paused_);
return;
}
}
@@ -1727,17 +1723,17 @@ void Game::handlePlayersInput()
// Maneja las entradas de movimiento y disparo para un jugador en modo normal.
void Game::handleNormalPlayerInput(const std::shared_ptr<Player> &player)
{
const auto controllerIndex = player->getController();
const auto &controller = options.controllers.at(player->getController());
const bool autofire = player->isPowerUp() || options.game.autofire;
if (input_->checkInput(InputType::LEFT, INPUT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
if (input_->checkInput(InputType::LEFT, INPUT_ALLOW_REPEAT, controller.type, controller.index))
{
player->setInput(InputType::LEFT);
#ifdef RECORDING
demo_.keys.left = 1;
#endif
}
else if (input_->checkInput(InputType::RIGHT, INPUT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
else if (input_->checkInput(InputType::RIGHT, INPUT_ALLOW_REPEAT, controller.type, controller.index))
{
player->setInput(InputType::RIGHT);
#ifdef RECORDING
@@ -1752,27 +1748,27 @@ void Game::handleNormalPlayerInput(const std::shared_ptr<Player> &player)
#endif
}
handleFireInputs(player, autofire, controllerIndex); // Verifica y maneja todas las posibles entradas de disparo.
handleFireInputs(player, autofire, player->getController()); // Verifica y maneja todas las posibles entradas de disparo.
}
// Procesa las entradas de disparo del jugador, permitiendo disparos automáticos si está habilitado.
void Game::handleFireInputs(const std::shared_ptr<Player> &player, bool autofire, int controllerIndex)
{
if (input_->checkInput(InputType::FIRE_CENTER, autofire, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
if (input_->checkInput(InputType::FIRE_CENTER, autofire, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index))
{
handleFireInput(player, BulletType::UP);
#ifdef RECORDING
demo_.keys.fire = 1;
#endif
}
else if (input_->checkInput(InputType::FIRE_LEFT, autofire, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
else if (input_->checkInput(InputType::FIRE_LEFT, autofire, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index))
{
handleFireInput(player, BulletType::LEFT);
#ifdef RECORDING
demo_.keys.fire_left = 1;
#endif
}
else if (input_->checkInput(InputType::FIRE_RIGHT, autofire, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
else if (input_->checkInput(InputType::FIRE_RIGHT, autofire, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index))
{
handleFireInput(player, BulletType::RIGHT);
#ifdef RECORDING
@@ -1785,15 +1781,15 @@ void Game::handleFireInputs(const std::shared_ptr<Player> &player, bool autofire
void Game::handlePlayerContinue(const std::shared_ptr<Player> &player)
{
const auto controllerIndex = player->getController();
if (input_->checkInput(InputType::START, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
if (input_->checkInput(InputType::START, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index))
{
player->setPlayingState(PlayerState::PLAYING);
}
// Disminuye el contador de continuación si se presiona cualquier botón de disparo.
if (input_->checkInput(InputType::FIRE_LEFT, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index) ||
input_->checkInput(InputType::FIRE_CENTER, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index) ||
input_->checkInput(InputType::FIRE_RIGHT, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
if (input_->checkInput(InputType::FIRE_LEFT, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index) ||
input_->checkInput(InputType::FIRE_CENTER, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index) ||
input_->checkInput(InputType::FIRE_RIGHT, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index))
{
player->decContinueCounter();
}
@@ -1803,9 +1799,9 @@ void Game::handlePlayerContinue(const std::shared_ptr<Player> &player)
void Game::handleNameInput(const std::shared_ptr<Player> &player)
{
const auto controllerIndex = player->getController();
if (input_->checkInput(InputType::FIRE_LEFT, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index) ||
input_->checkInput(InputType::FIRE_CENTER, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index) ||
input_->checkInput(InputType::FIRE_RIGHT, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
if (input_->checkInput(InputType::FIRE_LEFT, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index) ||
input_->checkInput(InputType::FIRE_CENTER, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index) ||
input_->checkInput(InputType::FIRE_RIGHT, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index))
{
if (player->getRecordNamePos() == 7)
{
@@ -1819,15 +1815,15 @@ void Game::handleNameInput(const std::shared_ptr<Player> &player)
player->setInput(InputType::RIGHT);
}
}
else if (input_->checkInput(InputType::UP, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
else if (input_->checkInput(InputType::UP, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index))
{
player->setInput(InputType::UP);
}
else if (input_->checkInput(InputType::DOWN, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
else if (input_->checkInput(InputType::DOWN, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index))
{
player->setInput(InputType::DOWN);
}
else if (input_->checkInput(InputType::LEFT, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
else if (input_->checkInput(InputType::LEFT, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index))
{
player->setInput(InputType::LEFT);
}
@@ -1837,7 +1833,7 @@ void Game::handleNameInput(const std::shared_ptr<Player> &player)
player->setInput(InputType::RIGHT);
}
*/
else if (input_->checkInput(InputType::START, INPUT_DO_NOT_ALLOW_REPEAT, options.controller[controllerIndex].device_type, options.controller[controllerIndex].index))
else if (input_->checkInput(InputType::START, INPUT_DO_NOT_ALLOW_REPEAT, options.controllers[controllerIndex].type, options.controllers[controllerIndex].index))
{
player->setInput(InputType::START);
addScoreToScoreBoard(player->getRecordName(), player->getScore());

20
source/game.h
View File

@@ -1,15 +1,15 @@
#pragma once
#include <SDL2/SDL_render.h> // for SDL_Renderer, SDL_Texture
#include <SDL2/SDL_stdinc.h> // for Uint32, Uint8
#include <memory> // for shared_ptr, unique_ptr
#include <string> // for string
#include <vector> // for vector
#include "balloon.h" // for Balloon
#include "manage_hiscore_table.h" // for HiScoreEntry
#include "options.h" // for Options, OptionsGame, options
#include "player.h" // for Player
#include "utils.h" // for Demo
#include <SDL2/SDL_render.h> // Para SDL_Renderer, SDL_Texture
#include <SDL2/SDL_stdinc.h> // Para Uint32, Uint8
#include <memory> // Para shared_ptr, unique_ptr
#include <string> // Para string
#include <vector> // Para vector
#include "balloon.h" // Para Balloon
#include "manage_hiscore_table.h" // Para HiScoreEntry
#include "options.h" // Para Options, OptionsGame, options
#include "player.h" // Para Player
#include "utils.h" // Para Demo
class Asset; // lines 14-14
class Background; // lines 15-15
class BalloonFormations; // lines 16-16

178
source/global_inputs.cpp
View File

@@ -8,6 +8,7 @@
#include "options.h" // Para Options, OptionsAudio, options, OptionsM...
#include "section.h" // Para Name, Options, name, options
#include "utils.h" // Para boolToOnOff, stringInVector
#include "screen.h"
namespace globalInputs
{
@@ -39,9 +40,9 @@ namespace globalInputs
{
#ifdef ARCADE
const int index = code == section::Options::QUIT_WITH_CONTROLLER ? 116 : 94;
Notifier::get()->showText(lang::getText(index), std::string(), -1, exit_code);
Notifier::get()->showText({lang::getText(index), std::string()}, -1, exit_code);
#else
Notifier::get()->showText(lang::getText(94), std::string(), -1, exit_code);
Notifier::get()->showText({lang::getText(94), std::string()}, -1, exit_code);
#endif
}
}
@@ -50,11 +51,11 @@ namespace globalInputs
void reset()
{
section::name = section::Name::INIT;
Notifier::get()->showText("Reset");
Notifier::get()->showText({"Reset"});
}
// Activa o desactiva el audio
void switchAudio()
void toggleAudio()
{
options.audio.enabled = !options.audio.enabled;
if (options.audio.enabled)
@@ -67,84 +68,151 @@ namespace globalInputs
JA_SetMusicVolume(0);
JA_SetSoundVolume(0);
}
Notifier::get()->showText("Audio " + boolToOnOff(options.audio.enabled));
Notifier::get()->showText({"Audio " + boolToOnOff(options.audio.enabled)});
}
// Comprueba los inputs que se pueden introducir en cualquier sección del juego
void check()
{
// Comprueba si se sale con el teclado
if (Input::get()->checkInput(InputType::EXIT, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
// Teclado
{
quit(section::Options::QUIT_WITH_KEYBOARD);
return;
}
// Comprueba si se va a resetear el juego
else if (Input::get()->checkInput(InputType::RESET, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
{
reset();
return;
}
else if (Input::get()->checkInput(InputType::MUTE, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
{
switchAudio();
return;
}
else if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
{
service_pressed_counter[0]++;
if (service_pressed_counter[0] >= 3000)
#ifndef ARCADE
// Comprueba el teclado para cambiar entre pantalla completa y ventana
if (Input::get()->checkInput(InputType::WINDOW_FULLSCREEN, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
OnScreenHelp::get()->toggleState();
service_pressed_counter[0] = 0;
}
return;
}
else
{
service_pressed_counter[0] = 0;
}
for (int i = 0; i < Input::get()->getNumControllers(); ++i)
{
// Comprueba si se sale con el mando
if (Input::get()->checkModInput(InputType::SERVICE, InputType::EXIT, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
{
quit(section::Options::QUIT_WITH_CONTROLLER);
Screen::get()->toggleVideoMode();
const std::string mode = options.video.mode == ScreenVideoMode::WINDOW ? "Window" : "Fullscreen";
Notifier::get()->showText({mode + " mode"});
return;
}
// Comprueba si se va a resetear el juego
else if (Input::get()->checkModInput(InputType::SERVICE, InputType::RESET, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
// Comprueba el teclado para decrementar el tamaño de la ventana
if (Input::get()->checkInput(InputType::WINDOW_DEC_SIZE, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
Screen::get()->decWindowSize();
const std::string size = std::to_string(options.video.window.size);
Notifier::get()->showText({"Window size x" + size});
return;
}
// Comprueba el teclado para incrementar el tamaño de la ventana
if (Input::get()->checkInput(InputType::WINDOW_INC_SIZE, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
Screen::get()->incWindowSize();
const std::string size = std::to_string(options.video.window.size);
Notifier::get()->showText({"Window size x" + size});
return;
}
#endif
// Salir
if (Input::get()->checkInput(InputType::EXIT, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
quit(section::Options::QUIT_WITH_KEYBOARD);
return;
}
// Reset
if (Input::get()->checkInput(InputType::RESET, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
reset();
return;
}
// Comprueba si se va a activar o desactivar el audio
else if (Input::get()->checkModInput(InputType::SERVICE, InputType::MUTE, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
// Audio
if (Input::get()->checkInput(InputType::MUTE, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
switchAudio();
toggleAudio();
return;
}
if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
// Shaders
if (Input::get()->checkInput(InputType::VIDEO_SHADERS, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
service_pressed_counter[i + 1]++;
Screen::get()->toggleShaders();
return;
}
if (service_pressed_counter[i + 1] >= 3000)
#ifdef DEBUG
// Comprueba el teclado para mostrar la información de debug
if (Input::get()->checkInput(InputType::SHOWINFO, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
Screen::get()->toggleDebugInfo();
return;
}
#endif
// OnScreenHelp
if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
service_pressed_counter[0]++;
if (service_pressed_counter[0] >= 3000)
{
OnScreenHelp::get()->toggleState();
service_pressed_counter[i + 1] = 0;
service_pressed_counter[0] = 0;
}
return;
}
else
service_pressed_counter[0] = 0;
}
// Mandos
{
for (int i = 0; i < Input::get()->getNumControllers(); ++i)
{
// Salir
if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i) &&
Input::get()->checkInput(InputType::EXIT, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i))
{
quit(section::Options::QUIT_WITH_CONTROLLER);
return;
}
// Reset
if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i) &&
Input::get()->checkInput(InputType::RESET, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i))
{
reset();
return;
}
// Audio
if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i) &&
Input::get()->checkInput(InputType::MUTE, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i))
{
toggleAudio();
return;
}
// Shaders
if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i) &&
Input::get()->checkInput(InputType::VIDEO_SHADERS, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i))
{
Screen::get()->toggleShaders();
return;
}
#ifdef DEBUG
// Debug Info
if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i) &&
Input::get()->checkInput(InputType::SHOWINFO, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i))
{
Screen::get()->toggleDebugInfo();
return;
}
#endif
// OnScreenHelp
if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, InputDeviceToUse::CONTROLLER, i))
{
service_pressed_counter[i + 1]++;
if (service_pressed_counter[i + 1] >= 3000)
{
OnScreenHelp::get()->toggleState();
service_pressed_counter[i + 1] = 0;
}
return;
}
service_pressed_counter[i + 1] = 0;
}
}

3
source/hiscore_table.cpp
View File

@@ -208,9 +208,6 @@ void HiScoreTable::checkInput()
return;
}
// Comprueba el input para el resto de objetos
Screen::get()->checkInput();
// Comprueba los inputs que se pueden introducir en cualquier sección del juego
globalInputs::check();
}

386
source/input.cpp
View File

@@ -1,9 +1,13 @@
#include "input.h"
#include <SDL2/SDL.h> // para SDL_INIT_GAMECONTROLLER, SDL_InitSubS...
#include <SDL2/SDL_error.h> // para SDL_GetError
#include <SDL2/SDL_events.h> // para SDL_ENABLE
#include <SDL2/SDL_keyboard.h> // para SDL_GetKeyboardState
#include <iostream> // para basic_ostream, operator<<, cout, basi...
#include <SDL2/SDL.h> // Para SDL_INIT_GAMECONTROLLER, SDL_InitSubS...
#include <SDL2/SDL_error.h> // Para SDL_GetError
#include <SDL2/SDL_events.h> // Para SDL_ENABLE
#include <SDL2/SDL_keyboard.h> // Para SDL_GetKeyboardState
#include <algorithm> // Para find
#include <iostream> // Para basic_ostream, operator<<, cout, endl
#include <iterator> // Para distance
#include <unordered_map> // Para unordered_map, operator==, _Node_cons...
#include <utility> // Para pair
// [SINGLETON] Hay que definir las variables estáticas, desde el .h sólo la hemos declarado
Input *Input::input_ = nullptr;
@@ -28,49 +32,23 @@ Input *Input::get()
// Constructor
Input::Input(const std::string &game_controller_db_path)
: game_controller_db_path_(game_controller_db_path),
enabled_(true)
: game_controller_db_path_(game_controller_db_path)
{
// Busca si hay mandos conectados
discoverGameControllers();
// Inicializa las vectores
KeyBindings kb;
kb.scancode = 0;
kb.active = false;
key_bindings_.resize(static_cast<int>(InputType::NUMBER_OF_INPUTS), kb);
ControllerBindings gcb;
gcb.button = SDL_CONTROLLER_BUTTON_INVALID;
gcb.active = false;
controller_bindings_.resize(num_gamepads_);
for (int i = 0; i < num_gamepads_; ++i)
{
controller_bindings_[i].resize(static_cast<int>(InputType::NUMBER_OF_INPUTS), gcb);
}
// Listado de los inputs usados para jugar, excluyendo botones para la interfaz
game_inputs_.clear();
game_inputs_.push_back(InputType::FIRE_LEFT);
game_inputs_.push_back(InputType::FIRE_CENTER);
game_inputs_.push_back(InputType::FIRE_RIGHT);
game_inputs_.push_back(InputType::UP);
game_inputs_.push_back(InputType::DOWN);
game_inputs_.push_back(InputType::LEFT);
game_inputs_.push_back(InputType::RIGHT);
// Inicializa los vectores
key_bindings_.resize(static_cast<int>(InputType::NUMBER_OF_INPUTS), KeyBindings());
controller_bindings_.resize(num_gamepads_, std::vector<ControllerBindings>(static_cast<int>(InputType::NUMBER_OF_INPUTS), ControllerBindings()));
// Listado de los inputs para jugar que utilizan botones, ni palancas ni crucetas
button_inputs_.clear();
button_inputs_.push_back(InputType::FIRE_LEFT);
button_inputs_.push_back(InputType::FIRE_CENTER);
button_inputs_.push_back(InputType::FIRE_RIGHT);
button_inputs_.push_back(InputType::START);
button_inputs_ = {InputType::FIRE_LEFT, InputType::FIRE_CENTER, InputType::FIRE_RIGHT, InputType::START};
}
// Asigna inputs a teclas
void Input::bindKey(InputType input, SDL_Scancode code)
{
key_bindings_[static_cast<int>(input)].scancode = code;
key_bindings_.at(static_cast<int>(input)).scancode = code;
}
// Asigna inputs a botones del mando
@@ -78,7 +56,7 @@ void Input::bindGameControllerButton(int controller_index, InputType input, SDL_
{
if (controller_index < num_gamepads_)
{
controller_bindings_[controller_index][static_cast<int>(input)].button = button;
controller_bindings_.at(controller_index).at(static_cast<int>(input)).button = button;
}
}
@@ -87,41 +65,24 @@ void Input::bindGameControllerButton(int controller_index, InputType input_targe
{
if (controller_index < num_gamepads_)
{
controller_bindings_[controller_index][static_cast<int>(input_target)].button = controller_bindings_[controller_index][static_cast<int>(input_source)].button;
controller_bindings_.at(controller_index).at(static_cast<int>(input_target)).button = controller_bindings_.at(controller_index).at(static_cast<int>(input_source)).button;
}
}
// Comprueba si un input esta activo
bool Input::checkInput(InputType input, bool repeat, int device, int controller_index)
bool Input::checkInput(InputType input, bool repeat, InputDeviceToUse device, int controller_index)
{
if (!enabled_)
{
return false;
}
bool success_keyboard = false;
bool success_controller = false;
const int input_index = static_cast<int>(input);
if (device == INPUT_USE_ANY)
{
controller_index = 0;
}
if (device == INPUT_USE_KEYBOARD || device == INPUT_USE_ANY)
if (device == InputDeviceToUse::KEYBOARD || device == InputDeviceToUse::ANY)
{
const Uint8 *keyStates = SDL_GetKeyboardState(nullptr);
if (repeat)
{
if (keyStates[key_bindings_[input_index].scancode] != 0)
{
success_keyboard = true;
}
else
{
success_keyboard = false;
}
success_keyboard = keyStates[key_bindings_[input_index].scancode] != 0;
}
else
{
@@ -142,151 +103,29 @@ bool Input::checkInput(InputType input, bool repeat, int device, int controller_
if (keyStates[key_bindings_[input_index].scancode] == 0)
{
key_bindings_[input_index].active = false;
success_keyboard = false;
}
else
{
success_keyboard = false;
}
}
}
}
if (gameControllerFound() && controller_index < num_gamepads_)
if ((device == INPUT_USE_GAMECONTROLLER) || (device == INPUT_USE_ANY))
{
success_controller = checkAxisInput(input, controller_index);
if (!success_controller)
{
if (repeat)
{
if (SDL_GameControllerGetButton(connected_controllers_[controller_index], controller_bindings_[controller_index][input_index].button) != 0)
{
success_controller = true;
}
else
{
success_controller = false;
}
}
else
{
if (!controller_bindings_[controller_index][input_index].active)
{
if (SDL_GameControllerGetButton(connected_controllers_[controller_index], controller_bindings_[controller_index][input_index].button) != 0)
{
controller_bindings_[controller_index][input_index].active = true;
success_controller = true;
}
else
{
success_controller = false;
}
}
else
{
if (SDL_GameControllerGetButton(connected_controllers_[controller_index], controller_bindings_[controller_index][input_index].button) == 0)
{
controller_bindings_[controller_index][input_index].active = false;
success_controller = false;
}
else
{
success_controller = false;
}
}
}
}
}
return (success_keyboard || success_controller);
}
// Comprueba si un input con modificador esta activo
bool Input::checkModInput(InputType input_mod, InputType input, bool repeat, int device, int controller_index)
{
if (!enabled_ || controller_index >= num_gamepads_ || !checkInput(input_mod, INPUT_ALLOW_REPEAT, device, controller_index))
{
return false;
}
bool success_keyboard = false;
bool success_controller = false;
const int input_index = static_cast<int>(input);
if (device == INPUT_USE_ANY)
{
controller_index = 0;
}
if (device == INPUT_USE_KEYBOARD || device == INPUT_USE_ANY)
{
const Uint8 *keyStates = SDL_GetKeyboardState(nullptr);
if (repeat)
{
if (keyStates[key_bindings_[input_index].scancode] != 0)
{
success_keyboard = true;
}
else
{
success_keyboard = false;
}
}
else
{
if (!key_bindings_[input_index].active)
{
if (keyStates[key_bindings_[input_index].scancode] != 0)
{
key_bindings_[input_index].active = true;
success_keyboard = true;
}
else
{
success_keyboard = false;
}
}
else
{
if (keyStates[key_bindings_[input_index].scancode] == 0)
{
key_bindings_[input_index].active = false;
success_keyboard = false;
}
else
{
success_keyboard = false;
}
}
}
}
if (gameControllerFound() && controller_index < num_gamepads_)
if ((device == INPUT_USE_GAMECONTROLLER) || (device == INPUT_USE_ANY))
if (gameControllerFound() && controller_index >= 0 && controller_index < num_gamepads_)
if ((device == InputDeviceToUse::CONTROLLER) || (device == InputDeviceToUse::ANY))
{
success_controller = checkAxisInput(input, controller_index);
if (!success_controller)
{
if (repeat)
{
if (SDL_GameControllerGetButton(connected_controllers_[controller_index], controller_bindings_[controller_index][input_index].button) != 0)
{
success_controller = true;
}
else
{
success_controller = false;
}
success_controller = SDL_GameControllerGetButton(connected_controllers_.at(controller_index), controller_bindings_.at(controller_index).at(input_index).button) != 0;
}
else
{
if (!controller_bindings_[controller_index][input_index].active)
if (!controller_bindings_.at(controller_index).at(input_index).active)
{
if (SDL_GameControllerGetButton(connected_controllers_[controller_index], controller_bindings_[controller_index][input_index].button) != 0)
if (SDL_GameControllerGetButton(connected_controllers_.at(controller_index), controller_bindings_.at(controller_index).at(input_index).button) != 0)
{
controller_bindings_[controller_index][input_index].active = true;
controller_bindings_.at(controller_index).at(input_index).active = true;
success_controller = true;
}
else
@@ -296,15 +135,11 @@ bool Input::checkModInput(InputType input_mod, InputType input, bool repeat, int
}
else
{
if (SDL_GameControllerGetButton(connected_controllers_[controller_index], controller_bindings_[controller_index][input_index].button) == 0)
if (SDL_GameControllerGetButton(connected_controllers_.at(controller_index), controller_bindings_.at(controller_index).at(input_index).button) == 0)
{
controller_bindings_[controller_index][input_index].active = false;
success_controller = false;
}
else
{
success_controller = false;
controller_bindings_.at(controller_index).at(input_index).active = false;
}
success_controller = false;
}
}
}
@@ -314,14 +149,9 @@ bool Input::checkModInput(InputType input_mod, InputType input, bool repeat, int
}
// Comprueba si hay almenos un input activo
bool Input::checkAnyInput(int device, int controller_index)
bool Input::checkAnyInput(InputDeviceToUse device, int controller_index)
{
if (device == INPUT_USE_ANY)
{
controller_index = 0;
}
if (device == INPUT_USE_KEYBOARD || device == INPUT_USE_ANY)
if (device == InputDeviceToUse::KEYBOARD || device == InputDeviceToUse::ANY)
{
const Uint8 *mKeystates = SDL_GetKeyboardState(nullptr);
@@ -337,7 +167,7 @@ bool Input::checkAnyInput(int device, int controller_index)
if (gameControllerFound())
{
if (device == INPUT_USE_GAMECONTROLLER || device == INPUT_USE_ANY)
if (device == InputDeviceToUse::CONTROLLER || device == InputDeviceToUse::ANY)
{
for (int i = 0; i < (int)controller_bindings_.size(); ++i)
{
@@ -357,7 +187,7 @@ bool Input::checkAnyInput(int device, int controller_index)
int Input::checkAnyButtonPressed(bool repeat)
{
// Si está pulsado el botón de servicio, ningún botón se puede considerar pulsado
if (checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, INPUT_USE_ANY))
if (checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, InputDeviceToUse::ANY))
{
return 0;
}
@@ -366,7 +196,7 @@ int Input::checkAnyButtonPressed(bool repeat)
for (auto bi : button_inputs_)
{
// Comprueba el teclado
if (checkInput(bi, repeat, INPUT_USE_KEYBOARD))
if (checkInput(bi, repeat, InputDeviceToUse::KEYBOARD))
{
return 1;
}
@@ -374,7 +204,7 @@ int Input::checkAnyButtonPressed(bool repeat)
// Comprueba los mandos
for (int i = 0; i < num_gamepads_; ++i)
{
if (checkInput(bi, repeat, INPUT_USE_GAMECONTROLLER, i))
if (checkInput(bi, repeat, InputDeviceToUse::CONTROLLER, i))
{
return i + 1;
}
@@ -396,9 +226,7 @@ bool Input::discoverGameControllers()
if (SDL_GameControllerAddMappingsFromFile(game_controller_db_path_.c_str()) < 0)
{
{
std::cout << "Error, could not load " << game_controller_db_path_.c_str() << " file: " << SDL_GetError() << std::endl;
}
std::cout << "Error, could not load " << game_controller_db_path_.c_str() << " file: " << SDL_GetError() << std::endl;
}
num_joysticks_ = SDL_NumJoysticks();
@@ -408,7 +236,7 @@ bool Input::discoverGameControllers()
joysticks_.clear();
for (int i = 0; i < num_joysticks_; ++i)
{
SDL_Joystick *joy = SDL_JoystickOpen(i);
auto joy = SDL_JoystickOpen(i);
joysticks_.push_back(joy);
if (SDL_IsGameController(i))
{
@@ -417,7 +245,6 @@ bool Input::discoverGameControllers()
}
std::cout << "\n** LOOKING FOR GAME CONTROLLERS" << std::endl;
// std::cout << " " << num_joysticks_ << " joysticks found" << std::endl;
std::cout << "Gamepads found: " << num_gamepads_ << std::endl;
if (num_gamepads_ > 0)
@@ -432,16 +259,12 @@ bool Input::discoverGameControllers()
{
connected_controllers_.push_back(pad);
const std::string name = SDL_GameControllerNameForIndex(i);
{
std::cout << "#" << i << ": " << name << std::endl;
}
std::cout << "#" << i << ": " << name << std::endl;
controller_names_.push_back(name);
}
else
{
{
std::cout << "SDL_GetError() = " << SDL_GetError() << std::endl;
}
std::cout << "SDL_GetError() = " << SDL_GetError() << std::endl;
}
}
@@ -449,27 +272,17 @@ bool Input::discoverGameControllers()
}
std::cout << "\n** FINISHED LOOKING FOR GAME CONTROLLERS" << std::endl;
return found;
}
// Comprueba si hay algun mando conectado
bool Input::gameControllerFound()
{
return num_gamepads_ > 0 ? true : false;
}
bool Input::gameControllerFound() { return num_gamepads_ > 0 ? true : false; }
// Obten el nombre de un mando de juego
std::string Input::getControllerName(int controller_index) const
{
return num_gamepads_ > 0 ? controller_names_[controller_index] : "";
}
std::string Input::getControllerName(int controller_index) const { return num_gamepads_ > 0 ? controller_names_.at(controller_index) : std::string(); }
// Obten el número de mandos conectados
int Input::getNumControllers() const
{
return num_gamepads_;
}
int Input::getNumControllers() const { return num_gamepads_; }
// Obtiene el indice del controlador a partir de un event.id
int Input::getJoyIndex(int id) const
@@ -485,14 +298,14 @@ int Input::getJoyIndex(int id) const
}
// Muestra por consola los controles asignados
void Input::printBindings(int device, int controller_index) const
void Input::printBindings(InputDeviceToUse device, int controller_index) const
{
if (device == INPUT_USE_ANY || device == INPUT_USE_KEYBOARD)
if (device == InputDeviceToUse::ANY || device == InputDeviceToUse::KEYBOARD)
{
return;
}
if (device == INPUT_USE_GAMECONTROLLER)
if (device == InputDeviceToUse::CONTROLLER)
{
if (controller_index >= num_gamepads_)
{
@@ -500,13 +313,12 @@ void Input::printBindings(int device, int controller_index) const
}
// Muestra el nombre del mando
std::cout << "\n"
<< controller_names_[controller_index] << std::endl;
std::cout << "\n" + controller_names_.at(controller_index) << std::endl;
// Muestra los botones asignados
for (auto bi : button_inputs_)
{
std::cout << to_string(bi) << " : " << controller_bindings_[controller_index][static_cast<int>(bi)].button << std::endl;
std::cout << to_string(bi) << " : " << controller_bindings_.at(controller_index).at(static_cast<int>(bi)).button << std::endl;
}
}
}
@@ -520,116 +332,58 @@ SDL_GameControllerButton Input::getControllerBinding(int controller_index, Input
// Obtiene el indice a partir del nombre del mando
int Input::getIndexByName(const std::string &name) const
{
for (int i = 0; i < num_gamepads_; ++i)
{
if (controller_names_[i] == name)
{
return i;
}
}
return -1;
auto it = std::find(controller_names_.begin(), controller_names_.end(), name);
return it != controller_names_.end() ? std::distance(controller_names_.begin(), it) : -1;
}
// Convierte un InputType a std::string
std::string Input::to_string(InputType input) const
{
if (input == InputType::FIRE_LEFT)
switch (input)
{
case InputType::FIRE_LEFT:
return "input_fire_left";
}
if (input == InputType::FIRE_CENTER)
{
case InputType::FIRE_CENTER:
return "input_fire_center";
}
if (input == InputType::FIRE_RIGHT)
{
case InputType::FIRE_RIGHT:
return "input_fire_right";
}
if (input == InputType::START)
{
case InputType::START:
return "input_start";
}
if (input == InputType::SERVICE)
{
case InputType::SERVICE:
return "input_service";
default:
return "";
}
return "";
}
// Convierte un std::string a InputType
InputType Input::to_inputs_e(const std::string &name) const
{
if (name == "input_fire_left")
{
return InputType::FIRE_LEFT;
}
static const std::unordered_map<std::string, InputType> inputMap = {
{"input_fire_left", InputType::FIRE_LEFT},
{"input_fire_center", InputType::FIRE_CENTER},
{"input_fire_right", InputType::FIRE_RIGHT},
{"input_start", InputType::START},
{"input_service", InputType::SERVICE}};
if (name == "input_fire_center")
{
return InputType::FIRE_CENTER;
}
if (name == "input_fire_right")
{
return InputType::FIRE_RIGHT;
}
if (name == "input_start")
{
return InputType::START;
}
if (name == "input_service")
{
return InputType::SERVICE;
}
return InputType::NONE;
auto it = inputMap.find(name);
return it != inputMap.end() ? it->second : InputType::NONE;
}
// Comprueba el eje del mando
bool Input::checkAxisInput(InputType input, int controller_index) const
{
bool success = false;
switch (input)
{
case InputType::LEFT:
if (SDL_GameControllerGetAxis(connected_controllers_[controller_index], SDL_CONTROLLER_AXIS_LEFTX) < -30000)
{
success = true;
}
break;
return SDL_GameControllerGetAxis(connected_controllers_[controller_index], SDL_CONTROLLER_AXIS_LEFTX) < -30000;
case InputType::RIGHT:
if (SDL_GameControllerGetAxis(connected_controllers_[controller_index], SDL_CONTROLLER_AXIS_LEFTX) > 30000)
{
success = true;
}
break;
return SDL_GameControllerGetAxis(connected_controllers_[controller_index], SDL_CONTROLLER_AXIS_LEFTX) > 30000;
case InputType::UP:
if (SDL_GameControllerGetAxis(connected_controllers_[controller_index], SDL_CONTROLLER_AXIS_LEFTY) < -30000)
{
success = true;
}
break;
return SDL_GameControllerGetAxis(connected_controllers_[controller_index], SDL_CONTROLLER_AXIS_LEFTY) < -30000;
case InputType::DOWN:
if (SDL_GameControllerGetAxis(connected_controllers_[controller_index], SDL_CONTROLLER_AXIS_LEFTY) > 30000)
{
success = true;
}
break;
return SDL_GameControllerGetAxis(connected_controllers_[controller_index], SDL_CONTROLLER_AXIS_LEFTY) > 30000;
default:
break;
return false;
}
return success;
}

38
source/input.h
View File

@@ -11,9 +11,9 @@
connectedControllers es un vector donde estan todos los mandos encontrados [0 .. n]
checkInput requiere de un indice para comprobar las pulsaciónes de un controlador en concreto [0 .. n]
device contiene el tipo de dispositivo a comprobar:
INPUT_USE_KEYBOARD solo mirará el teclado
INPUT_USE_GAMECONTROLLER solo mirará el controlador especificado (Si no se especifica, el primero)
INPUT_USE_ANY mirará tanto el teclado como el PRIMER controlador
InputDeviceToUse::KEYBOARD solo mirará el teclado
InputDeviceToUse::CONTROLLER solo mirará el controlador especificado (Si no se especifica, el primero)
InputDeviceToUse::ANY mirará tanto el teclado como el PRIMER controlador
*/
enum class InputType : int
@@ -52,9 +52,12 @@ enum class InputType : int
constexpr bool INPUT_ALLOW_REPEAT = true;
constexpr bool INPUT_DO_NOT_ALLOW_REPEAT = false;
constexpr int INPUT_USE_KEYBOARD = 0;
constexpr int INPUT_USE_GAMECONTROLLER = 1;
constexpr int INPUT_USE_ANY = 2;
enum class InputDeviceToUse : int
{
KEYBOARD = 0,
CONTROLLER = 1,
ANY = 2,
};
class Input
{
@@ -66,12 +69,20 @@ private:
{
Uint8 scancode; // Scancode asociado
bool active; // Indica si está activo
// Constructor
explicit KeyBindings(Uint8 sc = 0, bool act = false)
: scancode(sc), active(act) {}
};
struct ControllerBindings
{
SDL_GameControllerButton button; // GameControllerButton asociado
bool active; // Indica si está activo
// Constructor
explicit ControllerBindings(SDL_GameControllerButton btn = SDL_CONTROLLER_BUTTON_INVALID, bool act = false)
: button(btn), active(act) {}
};
// Variables
@@ -80,12 +91,10 @@ private:
std::vector<KeyBindings> key_bindings_; // Vector con las teclas asociadas a los inputs predefinidos
std::vector<std::vector<ControllerBindings>> controller_bindings_; // Vector con los botones asociadas a los inputs predefinidos para cada mando
std::vector<std::string> controller_names_; // Vector con los nombres de los mandos
std::vector<InputType> game_inputs_; // Inputs usados para jugar, normalmente direcciones y botones
std::vector<InputType> button_inputs_; // Inputs asignados al jugador y a botones, excluyendo direcciones
int num_joysticks_; // Número de joysticks conectados
int num_gamepads_; // Número de mandos conectados
int num_joysticks_ = 0; // Número de joysticks conectados
int num_gamepads_ = 0; // Número de mandos conectados
std::string game_controller_db_path_; // Ruta al archivo gamecontrollerdb.txt
bool enabled_; // Indica si está habilitado
// Comprueba el eje del mando
bool checkAxisInput(InputType input, int controller_index = 0) const;
@@ -114,13 +123,10 @@ public:
void bindGameControllerButton(int controller_index, InputType inputTarget, InputType inputSource);
// Comprueba si un input esta activo
bool checkInput(InputType input, bool repeat = true, int device = INPUT_USE_ANY, int controller_index = 0);
// Comprueba si un input con modificador esta activo
bool checkModInput(InputType input_mod, InputType input, bool repeat = true, int device = INPUT_USE_ANY, int controller_index = 0);
bool checkInput(InputType input, bool repeat = true, InputDeviceToUse device = InputDeviceToUse::ANY, int controller_index = 0);
// Comprueba si hay almenos un input activo
bool checkAnyInput(int device = INPUT_USE_ANY, int controller_index = 0);
bool checkAnyInput(InputDeviceToUse device = InputDeviceToUse::ANY, int controller_index = 0);
// Comprueba si hay algún botón pulsado
int checkAnyButtonPressed(bool repeat = INPUT_DO_NOT_ALLOW_REPEAT);
@@ -141,7 +147,7 @@ public:
int getJoyIndex(int id) const;
// Muestra por consola los controles asignados
void printBindings(int device = INPUT_USE_KEYBOARD, int controller_index = 0) const;
void printBindings(InputDeviceToUse device = InputDeviceToUse::KEYBOARD, int controller_index = 0) const;
// Obtiene el SDL_GameControllerButton asignado a un input
SDL_GameControllerButton getControllerBinding(int controller_index, InputType input) const;

3
source/instructions.cpp
View File

@@ -313,9 +313,6 @@ void Instructions::checkInput()
return;
}
// Comprueba el input para el resto de objetos
Screen::get()->checkInput();
// Comprueba los inputs que se pueden introducir en cualquier sección del juego
globalInputs::check();
}

3
source/intro.cpp
View File

@@ -191,9 +191,6 @@ void Intro::checkInput()
return;
}
// Comprueba el input para el resto de objetos
Screen::get()->checkInput();
// Comprueba los inputs que se pueden introducir en cualquier sección del juego
globalInputs::check();
}

4
source/logo.cpp
View File

@@ -12,6 +12,7 @@
#include "section.h" // Para Name, name, Options, options
#include "sprite.h" // Para Sprite
#include "texture.h" // Para Texture
#include "utils.h" // Para Color, Zone
// Constructor
Logo::Logo()
@@ -105,9 +106,6 @@ void Logo::checkInput()
return;
}
// Comprueba el input para el resto de objetos
Screen::get()->checkInput();
// Comprueba los inputs que se pueden introducir en cualquier sección del juego
globalInputs::check();
}

14
source/logo.h
View File

@@ -1,12 +1,12 @@
#pragma once
#include <SDL2/SDL_rect.h> // para SDL_Point
#include <SDL2/SDL_stdinc.h> // para Uint32
#include <memory> // para unique_ptr, shared_ptr
#include <vector> // para vector
#include "sprite.h" // para Sprite
#include "utils.h" // para Color
class Texture;
#include <SDL2/SDL_rect.h> // Para SDL_Point
#include <SDL2/SDL_stdinc.h> // Para Uint32
#include <memory> // Para shared_ptr, unique_ptr
#include <vector> // Para vector
class Sprite;
class Texture; // lines 9-9
struct Color;
/*
Esta clase gestiona un estado del programa. Se encarga de dibujar por pantalla el

98
source/notifier.cpp
View File

@@ -2,12 +2,14 @@
#include <SDL2/SDL_blendmode.h> // Para SDL_BLENDMODE_BLEND
#include <SDL2/SDL_pixels.h> // Para SDL_PIXELFORMAT_RGBA8888
#include <string> // Para string
#include "jail_audio.h" // Para JA_DeleteSound, JA_LoadSound, JA_Pla...
#include "param.h" // Para Param, param, ParamNotification, Par...
#include "screen.h" // Para Screen
#include "sprite.h" // Para Sprite
#include "text.h" // Para Text
#include "texture.h" // Para Texture
#include <algorithm>
#include <vector>
#include "jail_audio.h" // Para JA_DeleteSound, JA_LoadSound, JA_Pla...
#include "param.h" // Para Param, param, ParamNotification, Par...
#include "screen.h" // Para Screen
#include "sprite.h" // Para Sprite
#include "text.h" // Para Text
#include "texture.h" // Para Texture
// [SINGLETON] Hay que definir las variables estáticas, desde el .h sólo la hemos declarado
Notifier *Notifier::notifier_ = nullptr;
@@ -51,7 +53,9 @@ Notifier::~Notifier()
void Notifier::render()
{
for (int i = (int)notifications_.size() - 1; i >= 0; --i)
{
notifications_[i].sprite->render();
}
}
// Actualiza el estado de las notificaiones
@@ -154,39 +158,41 @@ void Notifier::clearFinishedNotifications()
}
}
void Notifier::showText(std::string text1, std::string text2, int icon, const std::string &code)
void Notifier::showText(std::vector<std::string> texts, int icon, const std::string &code)
{
// Cuenta el número de textos a mostrar
const int num_texts = !text1.empty() + !text2.empty();
// Si no hay texto, acaba
if (num_texts == 0)
if (texts.empty())
{
return;
}
// Si solo hay un texto, lo coloca en la primera variable
if (num_texts == 1)
{
text1 += text2;
text2.clear();
}
// Si las notificaciones no se apilan, elimina las anteriores
if (!stack_)
{
clearNotifications();
}
// Elimina las cadenas vacías
texts.erase(std::remove_if(texts.begin(), texts.end(), [](const std::string &s)
{ return s.empty(); }),
texts.end());
// Encuentra la cadena más larga
std::string longest;
for (const auto &text : texts)
{
if (text.length() > longest.length())
longest = text;
}
// Inicializa variables
constexpr auto icon_size = 16;
constexpr auto padding_out = 1;
constexpr int icon_size = 16;
constexpr int padding_out = 1;
const auto padding_in_h = text_->getCharacterSize();
const auto padding_in_v = text_->getCharacterSize() / 2;
const auto icon_space = icon >= 0 ? icon_size + padding_in_h : 0;
const std::string txt = text1.length() > text2.length() ? text1 : text2;
const auto width = text_->lenght(txt) + (padding_in_h * 2) + icon_space;
const auto height = (text_->getCharacterSize() * num_texts) + (padding_in_v * 2);
const int icon_space = icon >= 0 ? icon_size + padding_in_h : 0;
const int width = text_->lenght(longest) + (padding_in_h * 2) + icon_space;
const int height = (text_->getCharacterSize() * texts.size()) + (padding_in_v * 2);
const auto shape = NotificationShape::SQUARED;
// Posición horizontal
@@ -212,11 +218,11 @@ void Notifier::showText(std::string text1, std::string text2, int icon, const st
auto offset = 0;
if (param.notification.pos_v == NotifyPosition::TOP)
{
offset = (int)notifications_.size() > 0 ? notifications_.back().y + travel_dist : desp_v;
offset = !notifications_.empty() ? notifications_.back().y + travel_dist : desp_v;
}
else
{
offset = (int)notifications_.size() > 0 ? notifications_.back().y - travel_dist : desp_v;
offset = !notifications_.empty() ? notifications_.back().y - travel_dist : desp_v;
}
// Crea la notificacion
@@ -226,8 +232,7 @@ void Notifier::showText(std::string text1, std::string text2, int icon, const st
n.code = code;
n.y = offset;
n.travel_dist = travel_dist;
n.text1 = text1;
n.text2 = text2;
n.texts = texts;
n.shape = shape;
auto y_pos = offset + (param.notification.pos_v == NotifyPosition::TOP ? -travel_dist : travel_dist);
n.rect = {desp_h, y_pos, width, height};
@@ -264,7 +269,7 @@ void Notifier::showText(std::string text1, std::string text2, int icon, const st
}
// Dibuja el icono de la notificación
if (has_icons_ && icon >= 0 && num_texts == 2)
if (has_icons_ && icon >= 0 && texts.size() >= 2)
{
auto sp = std::make_unique<Sprite>(icon_texture_, (SDL_Rect){0, 0, icon_size, icon_size});
sp->setPosition({padding_in_h, padding_in_v, icon_size, icon_size});
@@ -273,15 +278,12 @@ void Notifier::showText(std::string text1, std::string text2, int icon, const st
}
// Escribe el texto de la notificación
Color color{255, 255, 255};
if (num_texts == 2)
{ // Dos lineas de texto
text_->writeColored(padding_in_h + icon_space, padding_in_v, text1, color);
text_->writeColored(padding_in_h + icon_space, padding_in_v + text_->getCharacterSize() + 1, text2, color);
}
else
{ // Una linea de texto
text_->writeColored(padding_in_h + icon_space, padding_in_v, text1, color);
const Color color{255, 255, 255};
int iterator = 0;
for (const auto &text : texts)
{
text_->writeColored(padding_in_h + icon_space, padding_in_v + iterator * (text_->getCharacterSize() + 1), text, color);
++iterator;
}
// Deja de dibujar en la textura
@@ -294,26 +296,18 @@ void Notifier::showText(std::string text1, std::string text2, int icon, const st
n.texture->setAlpha(0);
// Añade la notificación a la lista
notifications_.push_back(n);
notifications_.emplace_back(n);
}
// Indica si hay notificaciones activas
bool Notifier::isActive()
{
if ((int)notifications_.size() > 0)
{
return true;
}
return false;
}
bool Notifier::isActive() { return !notifications_.empty(); }
// Finaliza y elimnina todas las notificaciones activas
void Notifier::clearNotifications()
{
for (int i = 0; i < (int)notifications_.size(); ++i)
for (auto &notification : notifications_)
{
notifications_[i].status = NotificationStatus::FINISHED;
notification.status = NotificationStatus::FINISHED;
}
clearFinishedNotifications();
@@ -323,9 +317,9 @@ void Notifier::clearNotifications()
std::vector<std::string> Notifier::getCodes()
{
std::vector<std::string> codes;
for (int i = 0; i < (int)notifications_.size(); ++i)
for (const auto &notification : notifications_)
{
codes.push_back(notifications_[i].code);
codes.emplace_back(notification.code);
}
return codes;
}

16
source/notifier.h
View File

@@ -35,8 +35,7 @@ private:
{
std::shared_ptr<Texture> texture;
std::shared_ptr<Sprite> sprite;
std::string text1;
std::string text2;
std::vector<std::string> texts;
int counter;
NotificationStatus status;
NotificationShape shape;
@@ -47,7 +46,7 @@ private:
// Constructor
explicit Notification()
: texture(nullptr), sprite(nullptr), text1(""), text2(""), counter(0), status(NotificationStatus::RISING),
: texture(nullptr), sprite(nullptr), texts(), counter(0), status(NotificationStatus::RISING),
shape(NotificationShape::SQUARED), rect{0, 0, 0, 0}, y(0), travel_dist(0), code("") {}
};
@@ -95,15 +94,8 @@ public:
// Actualiza el estado de las notificaiones
void update();
/**
* @brief Muestra una notificación de texto por pantalla.
*
* @param text1 Primer texto opcional para mostrar (valor predeterminado: cadena vacía).
* @param text2 Segundo texto opcional para mostrar (valor predeterminado: cadena vacía).
* @param icon Icono opcional para mostrar (valor predeterminado: -1).
* @param code Permite asignar un código a la notificación (valor predeterminado: cadena vacía).
*/
void showText(std::string text1 = std::string(), std::string text2 = std::string(), int icon = -1, const std::string &code = std::string());
// Muestra una notificación de texto por pantalla
void showText(std::vector<std::string> texts, int icon = -1, const std::string &code = std::string());
// Indica si hay notificaciones activas
bool isActive();

272
source/options.cpp
View File

@@ -1,13 +1,14 @@
#include "options.h"
#include <SDL2/SDL_gamecontroller.h> // para SDL_GameControllerButton, SDL_C...
#include <algorithm> // para max, min
#include <fstream> // para basic_ostream, operator<<, basi...
#include <iostream> // para cout
#include <vector> // para vector
#include "input.h" // para inputs_e, INPUT_USE_ANY, INPUT_...
#include "lang.h" // para lang_e
#include "screen.h" // para ScreenVideoMode, ScreenFilter
#include "utils.h" // para OptionsController, Options, op_...
#include <SDL2/SDL_gamecontroller.h> // Para SDL_GameControllerButton
#include <algorithm> // Para clamp
#include <fstream> // Para basic_ostream, operator<<, basi...
#include <iostream> // Para cout
#include <utility> // Para swap
#include <vector> // Para vector
#include "input.h" // Para InputDeviceToUse
#include "lang.h" // Para Code
#include "screen.h" // Para ScreenVideoMode, ScreenFilter
#include "utils.h" // Para boolToString, stringToBool, get...
// Variables
Options options;
@@ -45,37 +46,11 @@ void initOptions()
options.game.autofire = true;
// Opciones de control
options.controller.clear();
OptionsController c;
constexpr int num_players = 2;
for (int index = 0; index < num_players; ++index)
{
c.index = index;
c.player_id = index + 1;
c.device_type = INPUT_USE_GAMECONTROLLER;
c.name = "NO NAME";
c.plugged = false;
// Inputs que se guardan en las opciones y, por tanto, a disco
c.inputs.clear();
c.inputs.push_back(InputType::FIRE_LEFT);
c.inputs.push_back(InputType::FIRE_CENTER);
c.inputs.push_back(InputType::FIRE_RIGHT);
c.inputs.push_back(InputType::START);
c.inputs.push_back(InputType::SERVICE);
// Botones asociados a los inputs anteriores
c.buttons.clear();
c.buttons.push_back(SDL_CONTROLLER_BUTTON_X);
c.buttons.push_back(SDL_CONTROLLER_BUTTON_Y);
c.buttons.push_back(SDL_CONTROLLER_BUTTON_B);
c.buttons.push_back(SDL_CONTROLLER_BUTTON_START);
c.buttons.push_back(SDL_CONTROLLER_BUTTON_BACK);
options.controller.push_back(c);
}
options.controller[0].device_type = INPUT_USE_ANY; // El primer jugador puede usar tanto el teclado como el primer mando
options.controllers.clear();
options.controllers.resize(2);
options.controllers.at(0).player_id = 1;
options.controllers.at(1).player_id = 2;
setKeyboardToPlayer(1);
}
// Carga el fichero de configuración
@@ -129,12 +104,11 @@ bool loadOptionsFile(std::string file_path)
options.video.mode = ScreenVideoMode::WINDOW;
}
if (options.video.window.size < 1 || options.video.window.size > 4)
{
options.video.window.size = 3;
}
options.video.window.size = std::clamp(options.video.window.size, 1, 4);
if (options.game.language != lang::Code::en_UK && options.game.language != lang::Code::ba_BA && options.game.language != lang::Code::es_ES)
if (options.game.language != lang::Code::en_UK &&
options.game.language != lang::Code::ba_BA &&
options.game.language != lang::Code::es_ES)
{
options.game.language = lang::Code::en_UK;
}
@@ -156,73 +130,58 @@ bool saveOptionsFile(std::string file_path)
std::cout << "Writing file: " << getFileName(file_path) << std::endl;
// Opciones de video
const auto value_video_mode_winow = std::to_string(static_cast<int>(ScreenVideoMode::WINDOW));
const auto value_video_mode_fullscreen = std::to_string(static_cast<int>(ScreenVideoMode::FULLSCREEN));
const auto value_filter_nearest = std::to_string(static_cast<int>(ScreenFilter::NEAREST));
const auto value_filter_lineal = std::to_string(static_cast<int>(ScreenFilter::LINEAL));
file << "## VIDEO\n";
file << "## video.mode [" << value_video_mode_winow << ": window, " << value_video_mode_fullscreen << ": fullscreen]\n";
file << "## video.filter [" << value_filter_nearest << ": nearest, " << value_filter_lineal << ": lineal]\n";
file << "## video.mode [" << static_cast<int>(ScreenVideoMode::WINDOW) << ": window, " << static_cast<int>(ScreenVideoMode::FULLSCREEN) << ": fullscreen]\n";
file << "## video.filter [" << static_cast<int>(ScreenFilter::NEAREST) << ": nearest, " << static_cast<int>(ScreenFilter::LINEAL) << ": lineal]\n";
file << "\n";
const auto valueVideoMode = std::to_string(static_cast<int>(options.video.mode));
file << "video.mode=" << valueVideoMode << "\n";
file << "video.window.size=" + std::to_string(options.video.window.size) + "\n";
const auto valueFilter = std::to_string(static_cast<int>(options.video.filter));
file << "video.filter=" << valueFilter << "\n";
file << "video.v_sync=" + boolToString(options.video.v_sync) + "\n";
file << "video.integer_scale=" + boolToString(options.video.integer_scale) + "\n";
file << "video.shaders=" + boolToString(options.video.shaders) + "\n";
file << "video.mode=" << static_cast<int>(options.video.mode) << "\n";
file << "video.window.size=" << options.video.window.size << "\n";
file << "video.filter=" << static_cast<int>(options.video.filter) << "\n";
file << "video.v_sync=" << boolToString(options.video.v_sync) << "\n";
file << "video.integer_scale=" << boolToString(options.video.integer_scale) << "\n";
file << "video.shaders=" << boolToString(options.video.shaders) << "\n";
// Opciones de audio
file << "\n\n## AUDIO\n";
file << "## volume [0 .. 100]\n";
file << "\n";
file << "audio.enabled=" + boolToString(options.audio.enabled) + "\n";
file << "audio.volume=" + std::to_string(options.audio.volume) + "\n";
file << "audio.music.enabled=" + boolToString(options.audio.music.enabled) + "\n";
file << "audio.music.volume=" + std::to_string(options.audio.music.volume) + "\n";
file << "audio.sound.enabled=" + boolToString(options.audio.sound.enabled) + "\n";
file << "audio.sound.volume=" + std::to_string(options.audio.sound.volume) + "\n";
file << "audio.enabled=" << boolToString(options.audio.enabled) << "\n";
file << "audio.volume=" << options.audio.volume << "\n";
file << "audio.music.enabled=" << boolToString(options.audio.music.enabled) << "\n";
file << "audio.music.volume=" << options.audio.music.volume << "\n";
file << "audio.sound.enabled=" << boolToString(options.audio.sound.enabled) << "\n";
file << "audio.sound.volume=" << options.audio.sound.volume << "\n";
// Opciones del juego
const auto value_difficulty_easy = std::to_string(static_cast<int>(GameDifficulty::EASY));
const auto value_difficulty_normal = std::to_string(static_cast<int>(GameDifficulty::NORMAL));
const auto value_difficulty_hard = std::to_string(static_cast<int>(GameDifficulty::HARD));
file << "\n\n## GAME\n";
file << "## game.language [0: spanish, 1: valencian, 2: english]\n";
file << "## game.difficulty [" << value_difficulty_easy << ": easy, " << value_difficulty_normal << ": normal, " << value_difficulty_hard << ": hard]\n";
file << "## game.difficulty [" << static_cast<int>(GameDifficulty::EASY) << ": easy, " << static_cast<int>(GameDifficulty::NORMAL) << ": normal, " << static_cast<int>(GameDifficulty::HARD) << ": hard]\n";
file << "\n";
file << "game.language=" + std::to_string(static_cast<int>(options.game.language)) + "\n";
file << "game.difficulty=" + std::to_string(static_cast<int>(options.game.difficulty)) + "\n";
file << "game.autofire=" + boolToString(options.game.autofire) + "\n";
file << "game.language=" << static_cast<int>(options.game.language) << "\n";
file << "game.difficulty=" << static_cast<int>(options.game.difficulty) << "\n";
file << "game.autofire=" << boolToString(options.game.autofire) << "\n";
// Opciones de mandos
file << "\n\n## CONTROLLERS\n";
file << "\n";
const int num_players = 2;
for (int index = 0; index < num_players; ++index)
int controller_index = 0;
for (const auto &controller : options.controllers)
{
const std::string joyIndex = std::to_string(index + 1);
file << "controller" + joyIndex + ".name=" + options.controller[index].name + "\n";
file << "controller" + joyIndex + ".player=" + std::to_string(options.controller[index].player_id) + "\n";
file << "controller" + joyIndex + ".button.fire_left=" + std::to_string((int)options.controller[index].buttons[0]) + "\n";
file << "controller" + joyIndex + ".button.fire_center=" + std::to_string((int)options.controller[index].buttons[1]) + "\n";
file << "controller" + joyIndex + ".button.fire_right=" + std::to_string((int)options.controller[index].buttons[2]) + "\n";
file << "controller" + joyIndex + ".button.start=" + std::to_string((int)options.controller[index].buttons[3]) + "\n";
file << "controller" + joyIndex + ".button.service=" + std::to_string((int)options.controller[index].buttons[4]) + "\n";
file << "\n";
file << "controller." << controller_index << ".name=" << controller.name << "\n";
file << "controller." << controller_index << ".player=" << controller.player_id << "\n";
file << "controller." << controller_index << ".type=" << static_cast<int>(controller.type) << "\n";
file << "controller." << controller_index << ".button.fire_left=" << controller.buttons.at(0) << "\n";
file << "controller." << controller_index << ".button.fire_center=" << controller.buttons.at(1) << "\n";
file << "controller." << controller_index << ".button.fire_right=" << controller.buttons.at(2) << "\n";
file << "controller." << controller_index << ".button.start=" << controller.buttons.at(3) << "\n";
file << "controller." << controller_index << ".button.service=" << controller.buttons.at(4) << "\n";
if (index < num_players - 1)
{
file << "\n";
}
// Incrementa el índice
++controller_index;
}
// Cierra el fichero
@@ -242,7 +201,6 @@ bool setOptions(const std::string &var, const std::string &value)
{
options.video.mode = static_cast<ScreenVideoMode>(std::stoi(value));
}
else if (var == "video.window.size")
{
options.video.window.size = std::stoi(value);
@@ -251,22 +209,18 @@ bool setOptions(const std::string &var, const std::string &value)
options.video.window.size = 3;
}
}
else if (var == "video.filter")
{
options.video.filter = static_cast<ScreenFilter>(std::stoi(value));
}
else if (var == "video.shaders")
{
options.video.shaders = stringToBool(value);
}
else if (var == "video.integer_scale")
{
options.video.integer_scale = stringToBool(value);
}
else if (var == "video.v_sync")
{
options.video.v_sync = stringToBool(value);
@@ -277,7 +231,6 @@ bool setOptions(const std::string &var, const std::string &value)
{
options.audio.enabled = stringToBool(value);
}
else if (var == "audio.volume")
{
options.audio.volume = std::stoi(value);
@@ -286,17 +239,14 @@ bool setOptions(const std::string &var, const std::string &value)
{
options.audio.music.enabled = stringToBool(value);
}
else if (var == "audio.music.volume")
{
options.audio.music.volume = std::stoi(value);
}
else if (var == "audio.sound.enabled")
{
options.audio.sound.enabled = stringToBool(value);
}
else if (var == "audio.sound.volume")
{
options.audio.sound.volume = std::stoi(value);
@@ -307,93 +257,85 @@ bool setOptions(const std::string &var, const std::string &value)
{
options.game.language = static_cast<lang::Code>(std::stoi(value));
}
else if (var == "game.difficulty")
{
options.game.difficulty = static_cast<GameDifficulty>(std::stoi(value));
}
else if (var == "game.autofire")
{
options.game.autofire = stringToBool(value);
}
// Opciones de mandos
else if (var == "controller1.name")
else if (var == "controller.0.name")
{
options.controller[0].name = value;
options.controllers.at(0).name = value;
}
else if (var == "controller1.player")
else if (var == "controller.0.player")
{
options.controller[0].player_id = std::max(1, std::min(2, std::stoi(value)));
options.controllers.at(0).player_id = std::clamp(std::stoi(value), 1, 2);
}
else if (var == "controller1.button.fire_left")
else if (var == "controller.0.type")
{
options.controller[0].buttons[0] = (SDL_GameControllerButton)std::stoi(value);
options.controllers.at(0).type = static_cast<InputDeviceToUse>(std::stoi(value));
}
else if (var == "controller1.button.fire_center")
else if (var == "controller.0.button.fire_left")
{
options.controller[0].buttons[1] = (SDL_GameControllerButton)std::stoi(value);
options.controllers.at(0).buttons.at(0) = static_cast<SDL_GameControllerButton>(std::stoi(value));
}
else if (var == "controller1.button.fire_right")
else if (var == "controller.0.button.fire_center")
{
options.controller[0].buttons[2] = (SDL_GameControllerButton)std::stoi(value);
options.controllers.at(0).buttons.at(1) = static_cast<SDL_GameControllerButton>(std::stoi(value));
}
else if (var == "controller1.button.start")
else if (var == "controller.0.button.fire_right")
{
options.controller[0].buttons[3] = (SDL_GameControllerButton)std::stoi(value);
options.controllers.at(0).buttons.at(2) = static_cast<SDL_GameControllerButton>(std::stoi(value));
}
else if (var == "controller1.button.service")
else if (var == "controller.0.button.start")
{
options.controller[0].buttons[4] = (SDL_GameControllerButton)std::stoi(value);
options.controllers.at(0).buttons.at(3) = static_cast<SDL_GameControllerButton>(std::stoi(value));
}
else if (var == "controller2.name")
else if (var == "controller.0.button.service")
{
options.controller[1].name = value;
options.controllers.at(0).buttons.at(4) = static_cast<SDL_GameControllerButton>(std::stoi(value));
}
else if (var == "controller2.player")
else if (var == "controller.1.name")
{
options.controller[1].player_id = std::max(1, std::min(2, std::stoi(value)));
options.controllers.at(1).name = value;
}
else if (var == "controller2.button.fire_left")
else if (var == "controller.1.player")
{
options.controller[1].buttons[0] = (SDL_GameControllerButton)std::stoi(value);
options.controllers.at(1).player_id = std::clamp(std::stoi(value), 1, 2);
}
else if (var == "controller2.button.fire_center")
else if (var == "controller.1.type")
{
options.controller[1].buttons[1] = (SDL_GameControllerButton)std::stoi(value);
options.controllers.at(1).type = static_cast<InputDeviceToUse>(std::stoi(value));
}
else if (var == "controller2.button.fire_right")
else if (var == "controller.1.button.fire_left")
{
options.controller[1].buttons[2] = (SDL_GameControllerButton)std::stoi(value);
options.controllers.at(1).buttons.at(0) = static_cast<SDL_GameControllerButton>(std::stoi(value));
}
else if (var == "controller2.button.start")
else if (var == "controller.1.button.fire_center")
{
options.controller[1].buttons[3] = (SDL_GameControllerButton)std::stoi(value);
options.controllers.at(1).buttons.at(1) = static_cast<SDL_GameControllerButton>(std::stoi(value));
}
else if (var == "controller2.button.service")
else if (var == "controller.1.button.fire_right")
{
options.controller[1].buttons[4] = (SDL_GameControllerButton)std::stoi(value);
options.controllers.at(1).buttons.at(2) = static_cast<SDL_GameControllerButton>(std::stoi(value));
}
else if (var == "controller.1.button.start")
{
options.controllers.at(1).buttons.at(3) = static_cast<SDL_GameControllerButton>(std::stoi(value));
}
else if (var == "controller.1.button.service")
{
options.controllers.at(1).buttons.at(4) = static_cast<SDL_GameControllerButton>(std::stoi(value));
}
// Lineas vacias o que empiezan por comentario
else if (var.empty() || var.starts_with("#"))
{
}
else
{
success = false;
@@ -408,3 +350,45 @@ int to_JA_volume(int vol)
vol = vol * 1.28f;
return std::clamp(vol, 0, 128);
}
// Asigna el teclado al jugador
void setKeyboardToPlayer(int player_id)
{
for (auto &controller : options.controllers)
{
if (controller.player_id == player_id)
{
controller.type = InputDeviceToUse::ANY;
}
else
{
controller.type = InputDeviceToUse::CONTROLLER;
}
}
}
// Intercambia el teclado de jugador
void swapOptionsKeyboard()
{
std::swap(options.controllers.at(0).type, options.controllers.at(1).type);
}
// Intercambia los jugadores asignados a los dos primeros mandos
void swapOptionsControllers()
{
std::swap(options.controllers.at(0).player_id, options.controllers.at(1).player_id);
std::swap(options.controllers.at(0).type, options.controllers.at(1).type);
}
// Averigua quien está usando el teclado
int getPlayerWhoUsesKeyboard()
{
for (const auto &controller : options.controllers)
{
if (controller.type == InputDeviceToUse::ANY)
{
return controller.player_id;
}
}
return 0;
}

51
source/options.h
View File

@@ -1,17 +1,16 @@
#pragma once
#include <SDL2/SDL_gamecontroller.h> // Para SDL_GameControllerButton
#include <SDL2/SDL_stdinc.h> // Para Uint8
#include "manage_hiscore_table.h"
#include <vector> // Para vector
#include <string>
enum class InputType : int;
enum class ScreenFilter : int;
enum class ScreenVideoMode : int;
#include <SDL2/SDL_gamecontroller.h> // Para SDL_CONTROLLER_BUTTON_B, SDL_CO...
#include <string> // Para string
#include <vector> // Para vector
#include "input.h" // Para InputType, InputDeviceToUse
#include "manage_hiscore_table.h" // Para HiScoreEntry
enum class ScreenFilter : int; // lines 10-10
enum class ScreenVideoMode : int; // lines 11-11
namespace lang
{
enum class Code : int;
}
} // lines 14-14
// Dificultad del juego
enum class GameDifficulty
@@ -57,8 +56,8 @@ struct OptionsAudio
{
OptionsMusic music; // Opciones para la música
OptionsSound sound; // Opciones para los efectos de sonido
bool enabled; // Indica si el audio está activo o no
int volume; // Volumen al que suenan el audio
bool enabled; // Indica si el audio está activo o no
int volume; // Volumen al que suenan el audio
};
// Estructura para las opciones del juego
@@ -75,25 +74,33 @@ struct OptionsController
{
int index; // Indice en el vector de mandos
int player_id; // Jugador asociado al mando
Uint8 device_type; // Indica si se utilizará teclado o mando o ambos
InputDeviceToUse type; // Indica si se utilizará teclado o mando o ambos
std::string name; // Nombre del dispositivo
bool plugged; // Indica si el mando se encuentra conectado
std::vector<InputType> inputs; // Listado de inputs
std::vector<SDL_GameControllerButton> buttons; // Listado de botones asignados a cada input
// Constructor por defecto
OptionsController()
: index(-1), player_id(-1), type(InputDeviceToUse::CONTROLLER), name(""), plugged(false),
inputs{InputType::FIRE_LEFT, InputType::FIRE_CENTER, InputType::FIRE_RIGHT, InputType::START, InputType::SERVICE},
buttons{SDL_CONTROLLER_BUTTON_X, SDL_CONTROLLER_BUTTON_Y, SDL_CONTROLLER_BUTTON_B, SDL_CONTROLLER_BUTTON_START, SDL_CONTROLLER_BUTTON_BACK} {}
};
// Estructura con todas las opciones de configuración del programa
struct Options
{
OptionsGame game; // Opciones para el propio juego
OptionsVideo video; // Opciones relativas a la clase screen
OptionsAudio audio; // Opciones para el audio
std::vector<OptionsController> controller; // Opciones con las asignaciones del mando para cada jugador
OptionsGame game; // Opciones para el propio juego
OptionsVideo video; // Opciones relativas a la clase screen
OptionsAudio audio; // Opciones para el audio
std::vector<OptionsController> controllers; // Opciones con las asignaciones del mando para cada jugador
};
// Variables
extern Options options;
void initOptions();
// Carga el fichero de configuración
bool loadOptionsFile(std::string file_path);
@@ -102,3 +109,15 @@ bool saveOptionsFile(std::string file_path);
// Convierte valores de 0 a 100 en valores de 0 a 128
int to_JA_volume(int vol);
// Asigna el teclado al jugador
void setKeyboardToPlayer(int player_id);
// Intercambia el teclado de jugador
void swapOptionsKeyboard();
// Intercambia los jugadores asignados a los dos primeros mandos
void swapOptionsControllers();
// Averigua quien está usando el teclado
int getPlayerWhoUsesKeyboard();

8
source/path_sprite.cpp
View File

@@ -1,8 +1,8 @@
#include "path_sprite.h"
#include <cmath> // for abs
#include <stdlib.h> // for abs
#include <functional> // for function
#include <utility> // for move
#include <cmath> // Para abs
#include <stdlib.h> // Para abs
#include <functional> // Para function
#include <utility> // Para move
// Devuelve un vector con los puntos que conforman la ruta
std::vector<SDL_Point> createPath(int start, int end, PathType type, int fixed_pos, int steps, const std::function<double(double)> &easingFunction)

10
source/path_sprite.h
View File

@@ -1,10 +1,10 @@
#pragma once
#include <SDL2/SDL_rect.h> // for SDL_Point
#include <functional> // for function
#include <memory> // for shared_ptr
#include <vector> // for vector
#include "sprite.h" // for Sprite
#include <SDL2/SDL_rect.h> // Para SDL_Point
#include <functional> // Para function
#include <memory> // Para shared_ptr
#include <vector> // Para vector
#include "sprite.h" // Para Sprite
class Texture; // lines 8-8
enum class PathType

23
source/scoreboard.h
View File

@@ -1,16 +1,17 @@
#pragma once
#include <SDL2/SDL_rect.h> // para SDL_Point, SDL_Rect
#include <SDL2/SDL_render.h> // para SDL_Renderer, SDL_Texture
#include <SDL2/SDL_stdinc.h> // para Uint32
#include <SDL2/SDL_timer.h> // para SDL_GetTicks
#include <memory> // para unique_ptr, shared_ptr
#include <string> // para string
#include <vector> // para vector
#include "utils.h" // para Color
class Sprite;
class Text;
class Texture;
#include <SDL2/SDL_rect.h> // Para SDL_Point, SDL_Rect
#include <SDL2/SDL_render.h> // Para SDL_Texture, SDL_Renderer
#include <SDL2/SDL_stdinc.h> // Para Uint32
#include <SDL2/SDL_timer.h> // Para SDL_GetTicks
#include <stddef.h> // Para size_t
#include <memory> // Para unique_ptr, shared_ptr
#include <string> // Para string
#include <vector> // Para vector
#include "utils.h" // Para Color
class Sprite; // lines 11-11
class Text; // lines 12-12
class Texture; // lines 13-13
// Defines
constexpr int SCOREBOARD_LEFT_PANEL = 0;

94
source/screen.cpp
View File

@@ -6,12 +6,12 @@
#include <algorithm> // Para clamp, max, min
#include <fstream> // Para basic_ifstream, ifstream
#include <iterator> // Para istreambuf_iterator, operator==
#include <string> // Para allocator, operator+, to_string, char_t...
#include <string> // Para allocator, operator+, char_traits, to_s...
#include <vector> // Para vector
#include "asset.h" // Para Asset
#include "dbgtxt.h" // Para dbg_print
#include "global_inputs.h" // Para service_pressed_counter
#include "input.h" // Para Input, InputType, INPUT_DO_NOT_ALLOW_RE...
#include "jail_shader.h" // Para init, render
#include "notifier.h" // Para Notifier
#include "on_screen_help.h" // Para OnScreenHelp
#include "options.h" // Para Options, OptionsVideo, options, Options...
@@ -98,7 +98,7 @@ void Screen::blit()
OnScreenHelp::get()->render();
// Muestra información por pantalla
displayInfo();
renderInfo();
// Muestra las notificaciones
Notifier::get()->render();
@@ -210,7 +210,7 @@ void Screen::setVideoMode(ScreenVideoMode videoMode)
}
// Camibia entre pantalla completa y ventana
void Screen::switchVideoMode()
void Screen::toggleVideoMode()
{
options.video.mode = options.video.mode == ScreenVideoMode::WINDOW ? ScreenVideoMode::FULLSCREEN : ScreenVideoMode::WINDOW;
setVideoMode(options.video.mode);
@@ -260,72 +260,6 @@ void Screen::update()
OnScreenHelp::get()->update();
}
// Comprueba las entradas
void Screen::checkInput()
{
#ifndef ARCADE
// Comprueba el teclado para cambiar entre pantalla completa y ventana
if (Input::get()->checkInput(InputType::WINDOW_FULLSCREEN, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
{
switchVideoMode();
const std::string mode = options.video.mode == ScreenVideoMode::WINDOW ? "Window" : "Fullscreen";
Notifier::get()->showText(mode + " mode");
return;
}
// Comprueba el teclado para decrementar el tamaño de la ventana
if (Input::get()->checkInput(InputType::WINDOW_DEC_SIZE, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
{
decWindowSize();
const std::string size = std::to_string(options.video.window.size);
Notifier::get()->showText("Window size x" + size);
return;
}
// Comprueba el teclado para incrementar el tamaño de la ventana
if (Input::get()->checkInput(InputType::WINDOW_INC_SIZE, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
{
incWindowSize();
const std::string size = std::to_string(options.video.window.size);
Notifier::get()->showText("Window size x" + size);
return;
}
#endif
// Comprueba el teclado para activar o desactivar los shaders
if (Input::get()->checkInput(InputType::VIDEO_SHADERS, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
{
switchShaders();
return;
}
#ifdef DEBUG
// Comprueba el teclado para mostrar la información de debug
if (Input::get()->checkInput(InputType::SHOWINFO, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
{
show_info_ = !show_info_;
return;
}
#endif
for (int i = 0; i < Input::get()->getNumControllers(); ++i)
{
// Comprueba los mandos para activar o desactivar los shaders
if (Input::get()->checkModInput(InputType::SERVICE, InputType::VIDEO_SHADERS, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
{
switchShaders();
return;
}
// Comprueba los mandos para mostrar la información de debug
if (Input::get()->checkModInput(InputType::SERVICE, InputType::SHOWINFO, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
{
show_info_ = !show_info_;
return;
}
}
}
// Agita la pantalla
void Screen::shake()
{
@@ -384,11 +318,8 @@ void Screen::doFlash()
if (flash_effect_.enabled)
{
// Dibuja el color del flash en la textura
//auto temp = SDL_GetRenderTarget(renderer_);
//SDL_SetRenderTarget(renderer_, game_canvas_);
SDL_SetRenderDrawColor(renderer_, flash_effect_.color.r, flash_effect_.color.g, flash_effect_.color.b, 0xFF);
SDL_RenderClear(renderer_);
//SDL_SetRenderTarget(renderer_, temp);
// Actualiza la lógica del efecto
flash_effect_.counter > 0 ? flash_effect_.counter-- : flash_effect_.enabled = false;
@@ -400,21 +331,24 @@ void Screen::doAttenuate()
{
if (attenuate_effect_)
{
//auto temp = SDL_GetRenderTarget(renderer_);
//SDL_SetRenderTarget(renderer_, game_canvas_);
SDL_SetRenderDrawColor(renderer_, 0, 0, 0, 64);
SDL_RenderFillRect(renderer_, nullptr);
//SDL_SetRenderTarget(renderer_, temp);
}
}
// Activa/desactiva los shaders
void Screen::switchShaders()
// Activa / desactiva los shaders
void Screen::toggleShaders()
{
options.video.shaders = !options.video.shaders;
setVideoMode(options.video.mode);
const std::string value = options.video.shaders ? "on" : "off";
Notifier::get()->showText("Shaders " + value);
Notifier::get()->showText({"Shaders " + value});
}
// Activa / desactiva la información de debug
void Screen::toggleDebugInfo()
{
show_info_ = !show_info_;
}
// Atenua la pantalla
@@ -441,7 +375,7 @@ void Screen::updateFPS()
}
// Muestra información por pantalla
void Screen::displayInfo()
void Screen::renderInfo()
{
if (show_info_)
{

16
source/screen.h
View File

@@ -92,7 +92,7 @@ private:
void updateFPS();
// Muestra información por pantalla
void displayInfo();
void renderInfo();
// Calcula la nueva posición de la ventana a partir de la antigua al cambiarla de tamaño
SDL_Point getNewPosition();
@@ -118,9 +118,6 @@ public:
// Actualiza la lógica de la clase
void update();
// Comprueba las entradas
void checkInput();
// Limpia la pantalla
void clean(Color color = Color(0x00, 0x00, 0x00));
@@ -133,8 +130,8 @@ public:
// Establece el modo de video
void setVideoMode(ScreenVideoMode video_mode);
// Camibia entre pantalla completa y ventana
void switchVideoMode();
// Cambia entre pantalla completa y ventana
void toggleVideoMode();
// Cambia el tamaño de la ventana
void setWindowSize(int size);
@@ -157,8 +154,11 @@ public:
// Pone la pantalla de color
void flash(Color color, int lenght);
// Activa/desactiva los shaders
void switchShaders();
// Activa / desactiva los shaders
void toggleShaders();
// Activa / desactiva la información de debug
void toggleDebugInfo();
// Atenua la pantalla
void attenuate(bool value);

24
source/text.cpp
View File

@@ -1,16 +1,16 @@
#include "text.h"
#include <SDL2/SDL_blendmode.h> // for SDL_BLENDMODE_BLEND
#include <SDL2/SDL_pixels.h> // for SDL_PIXELFORMAT_RGBA8888
#include <SDL2/SDL_rect.h> // for SDL_Rect
#include <SDL2/SDL_render.h> // for SDL_TEXTUREACCESS_TARGET
#include <stddef.h> // for size_t
#include <fstream> // for basic_ifstream, basic_istream, basic...
#include <iostream> // for cerr
#include <stdexcept> // for runtime_error
#include "screen.h" // for Screen
#include "sprite.h" // for Sprite
#include "texture.h" // for Texture
#include "utils.h" // for Color, getFileName, printWithDots
#include <SDL2/SDL_blendmode.h> // Para SDL_BLENDMODE_BLEND
#include <SDL2/SDL_pixels.h> // Para SDL_PIXELFORMAT_RGBA8888
#include <SDL2/SDL_rect.h> // Para SDL_Rect
#include <SDL2/SDL_render.h> // Para SDL_TEXTUREACCESS_TARGET
#include <stddef.h> // Para size_t
#include <fstream> // Para basic_ifstream, basic_istream, basic...
#include <iostream> // Para cerr
#include <stdexcept> // Para runtime_error
#include "screen.h" // Para Screen
#include "sprite.h" // Para Sprite
#include "texture.h" // Para Texture
#include "utils.h" // Para Color, getFileName, printWithDots
// Llena una estructuta TextFile desde un fichero
std::shared_ptr<TextFile> loadTextFile(const std::string &file_path)

29
source/texture.cpp
View File

@@ -2,13 +2,13 @@
#include "texture.h"
#include <SDL2/SDL_error.h> // Para SDL_GetError
#include <SDL2/SDL_surface.h> // Para SDL_CreateRGBSurfaceWithFormatFrom
#include <fcntl.h> // Para SEEK_END, SEEK_SET
#include <stdio.h> // Para fseek, fclose, fopen, fread, ftell, FILE
#include <stdlib.h> // Para free, malloc
#include <fstream> // Para basic_ostream, operator<<, basic_ifstream
#include <iostream> // Para cerr, cout
#include <stdexcept> // Para runtime_error
#include <string> // Para char_traits, operator<<, operator+
#include <vector> // Para vector
#include "gif.c" // Para LoadGif, LoadPalette
#include "stb_image.h" // Para stbi_image_free, stbi_load, STBI_rgb_a...
#include "utils.h" // Para getFileName, printWithDots
#define STB_IMAGE_IMPLEMENTATION
@@ -315,8 +315,8 @@ std::vector<Uint32> Texture::loadPaletteFromFile(const std::string &file_path)
{
std::vector<Uint32> palette;
FILE *f = fopen(file_path.c_str(), "rb");
if (!f)
std::ifstream file(file_path, std::ios::binary | std::ios::ate);
if (!file)
{
std::cerr << "Error: Fichero no encontrado " << getFileName(file_path) << std::endl;
throw std::runtime_error("Fichero no encontrado: " + getFileName(file_path));
@@ -326,21 +326,22 @@ std::vector<Uint32> Texture::loadPaletteFromFile(const std::string &file_path)
printWithDots("Image : ", getFileName(file_path), "[ LOADED ]");
}
fseek(f, 0, SEEK_END);
long size = ftell(f);
fseek(f, 0, SEEK_SET);
Uint8 *buffer = static_cast<Uint8 *>(malloc(size));
fread(buffer, size, 1, f);
fclose(f);
auto size = file.tellg();
file.seekg(0, std::ios::beg);
const auto *pal = LoadPalette(buffer);
std::vector<Uint8> buffer(size);
if (!file.read(reinterpret_cast<char *>(buffer.data()), size))
{
std::cerr << "Error: No se pudo leer completamente el fichero " << getFileName(file_path) << std::endl;
throw std::runtime_error("Error al leer el fichero: " + getFileName(file_path));
}
const auto pal = LoadPalette(buffer.data());
if (!pal)
{
return palette;
}
free(buffer);
for (int i = 0; i < 256; ++i)
{
palette.push_back((pal[i] << 8) + 255);

120
source/title.cpp
View File

@@ -1,9 +1,10 @@
#include "title.h"
#include <SDL2/SDL_events.h> // Para SDL_PollEvent, SDL_Event, SDL_KEYDOWN
#include <SDL2/SDL_keycode.h> // Para SDLK_1, SDLK_2, SDLK_3
#include <SDL2/SDL_keycode.h> // Para SDLK_1, SDLK_2, SDLK_3, SDLK_4, SDLK_5
#include <SDL2/SDL_rect.h> // Para SDL_Rect
#include <SDL2/SDL_timer.h> // Para SDL_GetTicks
#include <string> // Para char_traits, operator+, to_string, bas...
#include <stddef.h> // Para size_t
#include <string> // Para char_traits, operator+, basic_string
#include <utility> // Para move
#include <vector> // Para vector
#include "define_buttons.h" // Para DefineButtons
@@ -18,7 +19,7 @@
#include "param.h" // Para Param, param, ParamGame, ParamTitle
#include "resource.h" // Para Resource
#include "screen.h" // Para Screen
#include "section.h" // Para Options, options, name, Name
#include "section.h" // Para Options, options, Name, name, AttractMode
#include "sprite.h" // Para Sprite
#include "text.h" // Para Text, TEXT_CENTER, TEXT_SHADOW
#include "texture.h" // Para Texture
@@ -171,11 +172,13 @@ void Title::render()
// Comprueba los eventos
void Title::checkEvents()
{
// Comprueba el input para el resto de objetos
define_buttons_->checkEvents();
// Si define_buttons_ está habilitado, es él quien gestiona los eventos
if (!define_buttons_->isEnabled())
{
SDL_Event event;
// Comprueba los eventos que hay en la cola
while (SDL_PollEvent(&event))
{
// Evento de salida de la aplicación
@@ -196,32 +199,36 @@ void Title::checkEvents()
{
switch (event.key.keysym.sym)
{
case SDLK_1:
case SDLK_1: // Redefine los botones del mando #0
{
if (define_buttons_->enable(0))
resetCounter();
break;
}
case SDLK_2:
case SDLK_2: // Redefine los botones del mando #1
{
if (define_buttons_->enable(1))
resetCounter();
break;
}
case SDLK_3:
case SDLK_3: // Intercambia los mandos entre los dos jugadores
{
swapControllers();
resetCounter();
break;
}
case SDLK_4:
case SDLK_4: // Intercambia la asignación del teclado
{
swapKeyboard();
resetCounter();
break;
}
case SDLK_5: // Muestra la asignacion de mandos y teclado
{
showControllers();
resetCounter();
break;
}
default:
break;
}
@@ -236,54 +243,38 @@ void Title::checkInput()
// Comprueba los controladores solo si no se estan definiendo los botones
if (!define_buttons_->isEnabled())
{
// Comprueba el teclado para empezar a jugar
if (Input::get()->checkInput(InputType::START, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_KEYBOARD))
// Comprueba los métodos de control
for (const auto &controller : options.controllers)
{
if (section::options == section::Options::TITLE_2 || ALLOW_TITLE_ANIMATION_SKIP)
if (Input::get()->checkInput(InputType::START, INPUT_DO_NOT_ALLOW_REPEAT, controller.type, controller.index) &&
!Input::get()->checkInput(InputType::SERVICE, INPUT_DO_NOT_ALLOW_REPEAT, controller.type, controller.index))
{
fade_->activate();
post_fade_ = options.controller[0].player_id;
if (section::options == section::Options::TITLE_2 || ALLOW_TITLE_ANIMATION_SKIP)
{
fade_->activate();
post_fade_ = controller.player_id;
return;
}
}
}
// Comprueba los mandos
for (int i = 0; i < Input::get()->getNumControllers(); ++i)
{
// Comprueba si se va a intercambiar la asignación de mandos a jugadores
if (Input::get()->checkModInput(InputType::SERVICE, InputType::SWAP_CONTROLLERS, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, controller.type, controller.index) &&
Input::get()->checkInput(InputType::SWAP_CONTROLLERS, INPUT_DO_NOT_ALLOW_REPEAT, controller.type, controller.index))
{
swapControllers();
return;
}
// Comprueba si algun mando quiere ser configurado
if (Input::get()->checkModInput(InputType::SERVICE, InputType::CONFIG, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
if (Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, controller.type, controller.index) &&
Input::get()->checkInput(InputType::CONFIG, INPUT_DO_NOT_ALLOW_REPEAT, controller.type, controller.index))
{
define_buttons_->enable(i);
define_buttons_->enable(controller.index);
return;
}
// Comprueba el botón de START de los mandos
if (Input::get()->checkInput(InputType::START, INPUT_DO_NOT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
{
// Si no está el botón de servicio activo
if (!Input::get()->checkInput(InputType::SERVICE, INPUT_ALLOW_REPEAT, INPUT_USE_GAMECONTROLLER, i))
{
if (section::options == section::Options::TITLE_2 || ALLOW_TITLE_ANIMATION_SKIP)
{
fade_->activate();
post_fade_ = options.controller[i].player_id;
return;
}
}
}
}
}
// Comprueba el input para el resto de objetos
Screen::get()->checkInput();
define_buttons_->checkInput();
// Comprueba los inputs que se pueden introducir en cualquier sección del juego
globalInputs::check();
}
@@ -316,39 +307,44 @@ void Title::swapControllers()
if (Input::get()->getNumControllers() == 0)
return;
define_buttons_->swapControllers();
swapOptionsControllers();
showControllers();
}
// Intercambia el teclado de jugador
void Title::swapKeyboard()
{
swapOptionsKeyboard();
std::string text = lang::getText(100) + std::to_string(getPlayerWhoUsesKeyboard()) + ": " + lang::getText(69);
Notifier::get()->showText({text});
}
// Muestra información sobre los controles y los jugadores
void Title::showControllers()
{
// Crea cadenas de texto vacias para un numero máximo de mandos
constexpr int MAX_CONTROLLERS = 2;
std::string text[MAX_CONTROLLERS];
int playerControllerIndex[MAX_CONTROLLERS];
for (int i = 0; i < MAX_CONTROLLERS; ++i)
{
text[i].clear();
playerControllerIndex[i] = -1;
}
// Crea vectores de texto vacíos para un número máximo de mandos
constexpr size_t NUM_CONTROLLERS = 2;
std::vector<std::string> text(NUM_CONTROLLERS);
std::vector<int> playerControllerIndex(NUM_CONTROLLERS, -1);
// Obtiene para cada jugador el índice del mando correspondiente
for (int i = 0; i < MAX_CONTROLLERS; ++i)
// Obtiene de cada jugador el índice del mando que tiene asignado
for (size_t i = 0; i < NUM_CONTROLLERS; ++i)
{
playerControllerIndex[options.controller[i].player_id - 1] = i;
// Ejemplo: el jugador 1 tiene el mando 2
playerControllerIndex.at(options.controllers.at(i).player_id - 1) = i;
}
// Genera el texto correspondiente
for (int i = 0; i < MAX_CONTROLLERS; ++i)
for (size_t i = 0; i < NUM_CONTROLLERS; ++i)
{
const int index = playerControllerIndex[i];
if (options.controller[index].plugged)
const size_t index = playerControllerIndex.at(i);
if (options.controllers.at(index).plugged)
{
text[i] = lang::getText(100) + std::to_string(i + 1) + ": " + options.controller[index].name;
text.at(i) = lang::getText(100) + std::to_string(i + 1) + ": " + options.controllers.at(index).name;
}
}
Notifier::get()->showText(text[0], text[1]);
resetCounter();
// std::string spaces(lang::getText(100).length() + 3, ' ');
// std::string kb_text = spaces + lang::getText(69);
Notifier::get()->showText({text.at(0), text.at(1)});
}

22
source/title.h
View File

@@ -2,14 +2,17 @@
#include <SDL2/SDL_stdinc.h> // Para Uint32
#include <memory> // Para unique_ptr, shared_ptr
#include "section.h" // Para Name
class DefineButtons;
class Fade;
class GameLogo;
class Sprite;
class Text;
class Texture; // lines 14-14
class TiledBG;
class DefineButtons; // lines 6-6
class Fade; // lines 7-7
class GameLogo; // lines 8-8
class Sprite; // lines 9-9
class Text; // lines 10-10
class Texture; // lines 11-11
class TiledBG; // lines 12-12
namespace section
{
enum class Name;
}
// Textos
constexpr const char TEXT_COPYRIGHT[] = "@2020,2024 JailDesigner";
@@ -74,6 +77,9 @@ private:
// Intercambia la asignación de mandos a los jugadores
void swapControllers();
// Intercambia el teclado de jugador
void swapKeyboard();
// Muestra información sobre los controles y los jugadores
void showControllers();