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Eliminados la mayor parte de accesos a vector mediante at()

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This commit is contained in:
Sergio
2022-11-30 12:03:37 +01:00
parent 62c1e2715e
commit 357eec20b1
9 changed files with 165 additions and 165 deletions
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70
source/common/animatedsprite.cpp
View File

@@ -222,121 +222,121 @@ int AnimatedSprite::getIndex(std::string name)
// Calcula el frame correspondiente a la animación // Calcula el frame correspondiente a la animación
void AnimatedSprite::animate() void AnimatedSprite::animate()
{ {
if (!enabled || animation.at(currentAnimation).speed == 0) if (!enabled || animation[currentAnimation].speed == 0)
{ {
return; return;
} }
// Calcula el frame actual a partir del contador // Calcula el frame actual a partir del contador
animation.at(currentAnimation).currentFrame = animation.at(currentAnimation).counter / animation.at(currentAnimation).speed; animation[currentAnimation].currentFrame = animation[currentAnimation].counter / animation[currentAnimation].speed;
// Si alcanza el final de la animación, reinicia el contador de la animación // Si alcanza el final de la animación, reinicia el contador de la animación
// en función de la variable loop y coloca el nuevo frame // en función de la variable loop y coloca el nuevo frame
if (animation.at(currentAnimation).currentFrame >= (int)animation.at(currentAnimation).frames.size()) if (animation[currentAnimation].currentFrame >= (int)animation[currentAnimation].frames.size())
{ {
if (animation.at(currentAnimation).loop == -1) if (animation[currentAnimation].loop == -1)
{ // Si no hay loop, deja el último frame { // Si no hay loop, deja el último frame
animation.at(currentAnimation).currentFrame = animation.at(currentAnimation).frames.size(); animation[currentAnimation].currentFrame = animation[currentAnimation].frames.size();
animation.at(currentAnimation).completed = true; animation[currentAnimation].completed = true;
} }
else else
{ // Si hay loop, vuelve al frame indicado { // Si hay loop, vuelve al frame indicado
animation.at(currentAnimation).counter = 0; animation[currentAnimation].counter = 0;
animation.at(currentAnimation).currentFrame = animation.at(currentAnimation).loop; animation[currentAnimation].currentFrame = animation[currentAnimation].loop;
} }
} }
// En caso contrario // En caso contrario
else else
{ {
// Escoge el frame correspondiente de la animación // Escoge el frame correspondiente de la animación
setSpriteClip(animation.at(currentAnimation).frames.at(animation.at(currentAnimation).currentFrame)); setSpriteClip(animation[currentAnimation].frames[animation[currentAnimation].currentFrame]);
// Incrementa el contador de la animacion // Incrementa el contador de la animacion
animation.at(currentAnimation).counter++; animation[currentAnimation].counter++;
} }
} }
// Obtiene el numero de frames de la animación actual // Obtiene el numero de frames de la animación actual
int AnimatedSprite::getNumFrames() int AnimatedSprite::getNumFrames()
{ {
return (int)animation.at(currentAnimation).frames.size(); return (int)animation[currentAnimation].frames.size();
} }
// Establece el frame actual de la animación // Establece el frame actual de la animación
void AnimatedSprite::setCurrentFrame(int num) void AnimatedSprite::setCurrentFrame(int num)
{ {
// Descarta valores fuera de rango // Descarta valores fuera de rango
if (num >= (int)animation.at(currentAnimation).frames.size()) if (num >= (int)animation[currentAnimation].frames.size())
{ {
num = 0; num = 0;
} }
// Cambia el valor de la variable // Cambia el valor de la variable
animation.at(currentAnimation).currentFrame = num; animation[currentAnimation].currentFrame = num;
animation.at(currentAnimation).counter = 0; animation[currentAnimation].counter = 0;
// Escoge el frame correspondiente de la animación // Escoge el frame correspondiente de la animación
setSpriteClip(animation.at(currentAnimation).frames.at(animation.at(currentAnimation).currentFrame)); setSpriteClip(animation[currentAnimation].frames[animation[currentAnimation].currentFrame]);
} }
// Establece el valor del contador // Establece el valor del contador
void AnimatedSprite::setAnimationCounter(std::string name, int num) void AnimatedSprite::setAnimationCounter(std::string name, int num)
{ {
animation.at(getIndex(name)).counter = num; animation[getIndex(name)].counter = num;
} }
// Establece la velocidad de una animación // Establece la velocidad de una animación
void AnimatedSprite::setAnimationSpeed(std::string name, int speed) void AnimatedSprite::setAnimationSpeed(std::string name, int speed)
{ {
animation.at(getIndex(name)).counter = speed; animation[getIndex(name)].counter = speed;
} }
// Establece la velocidad de una animación // Establece la velocidad de una animación
void AnimatedSprite::setAnimationSpeed(int index, int speed) void AnimatedSprite::setAnimationSpeed(int index, int speed)
{ {
animation.at(index).counter = speed; animation[index].counter = speed;
} }
// Establece si la animación se reproduce en bucle // Establece si la animación se reproduce en bucle
void AnimatedSprite::setAnimationLoop(std::string name, int loop) void AnimatedSprite::setAnimationLoop(std::string name, int loop)
{ {
animation.at(getIndex(name)).loop = loop; animation[getIndex(name)].loop = loop;
} }
// Establece si la animación se reproduce en bucle // Establece si la animación se reproduce en bucle
void AnimatedSprite::setAnimationLoop(int index, int loop) void AnimatedSprite::setAnimationLoop(int index, int loop)
{ {
animation.at(index).loop = loop; animation[index].loop = loop;
} }
// Establece el valor de la variable // Establece el valor de la variable
void AnimatedSprite::setAnimationCompleted(std::string name, bool value) void AnimatedSprite::setAnimationCompleted(std::string name, bool value)
{ {
animation.at(getIndex(name)).completed = value; animation[getIndex(name)].completed = value;
} }
// OLD - Establece el valor de la variable // OLD - Establece el valor de la variable
void AnimatedSprite::setAnimationCompleted(int index, bool value) void AnimatedSprite::setAnimationCompleted(int index, bool value)
{ {
animation.at(index).completed = value; animation[index].completed = value;
} }
// Comprueba si ha terminado la animación // Comprueba si ha terminado la animación
bool AnimatedSprite::animationIsCompleted() bool AnimatedSprite::animationIsCompleted()
{ {
return animation.at(currentAnimation).completed; return animation[currentAnimation].completed;
} }
// Devuelve el rectangulo de una animación y frame concreto // Devuelve el rectangulo de una animación y frame concreto
SDL_Rect AnimatedSprite::getAnimationClip(std::string name, Uint8 index) SDL_Rect AnimatedSprite::getAnimationClip(std::string name, Uint8 index)
{ {
return animation.at(getIndex(name)).frames.at(index); return animation[getIndex(name)].frames[index];
} }
// Devuelve el rectangulo de una animación y frame concreto // Devuelve el rectangulo de una animación y frame concreto
SDL_Rect AnimatedSprite::getAnimationClip(int indexA, Uint8 indexF) SDL_Rect AnimatedSprite::getAnimationClip(int indexA, Uint8 indexF)
{ {
return animation.at(indexA).frames.at(indexF); return animation[indexA].frames[indexF];
} }
// Carga la animación desde un vector // Carga la animación desde un vector
@@ -484,9 +484,9 @@ void AnimatedSprite::setCurrentAnimation(std::string name)
if (currentAnimation != newAnimation) if (currentAnimation != newAnimation)
{ {
currentAnimation = newAnimation; currentAnimation = newAnimation;
animation.at(currentAnimation).currentFrame = 0; animation[currentAnimation].currentFrame = 0;
animation.at(currentAnimation).counter = 0; animation[currentAnimation].counter = 0;
animation.at(currentAnimation).completed = false; animation[currentAnimation].completed = false;
} }
} }
@@ -497,9 +497,9 @@ void AnimatedSprite::setCurrentAnimation(int index)
if (currentAnimation != newAnimation) if (currentAnimation != newAnimation)
{ {
currentAnimation = newAnimation; currentAnimation = newAnimation;
animation.at(currentAnimation).currentFrame = 0; animation[currentAnimation].currentFrame = 0;
animation.at(currentAnimation).counter = 0; animation[currentAnimation].counter = 0;
animation.at(currentAnimation).completed = false; animation[currentAnimation].completed = false;
} }
} }
@@ -513,7 +513,7 @@ void AnimatedSprite::update()
// Establece el rectangulo para un frame de una animación // Establece el rectangulo para un frame de una animación
void AnimatedSprite::setAnimationFrames(Uint8 index_animation, Uint8 index_frame, int x, int y, int w, int h) void AnimatedSprite::setAnimationFrames(Uint8 index_animation, Uint8 index_frame, int x, int y, int w, int h)
{ {
animation.at(index_animation).frames.push_back({x, y, w, h}); animation[index_animation].frames.push_back({x, y, w, h});
} }
// OLD - Establece el contador para todas las animaciones // OLD - Establece el contador para todas las animaciones
@@ -528,7 +528,7 @@ void AnimatedSprite::setAnimationCounter(int value)
// Reinicia la animación // Reinicia la animación
void AnimatedSprite::resetAnimation() void AnimatedSprite::resetAnimation()
{ {
animation.at(currentAnimation).currentFrame = 0; animation[currentAnimation].currentFrame = 0;
animation.at(currentAnimation).counter = 0; animation[currentAnimation].counter = 0;
animation.at(currentAnimation).completed = false; animation[currentAnimation].completed = false;
} }

34
source/common/input.cpp
View File

@@ -34,13 +34,13 @@ void Input::update()
// Asigna inputs a teclas // Asigna inputs a teclas
void Input::bindKey(Uint8 input, SDL_Scancode code) void Input::bindKey(Uint8 input, SDL_Scancode code)
{ {
keyBindings.at(input).scancode = code; keyBindings[input].scancode = code;
} }
// Asigna inputs a botones del mando // Asigna inputs a botones del mando
void Input::bindGameControllerButton(Uint8 input, SDL_GameControllerButton button) void Input::bindGameControllerButton(Uint8 input, SDL_GameControllerButton button)
{ {
gameControllerBindings.at(input).button = button; gameControllerBindings[input].button = button;
} }
// Comprueba si un input esta activo // Comprueba si un input esta activo
@@ -65,7 +65,7 @@ bool Input::checkInput(Uint8 input, bool repeat, int device, int index)
if (repeat) if (repeat)
{ {
if (keyStates[keyBindings.at(input).scancode] != 0) if (keyStates[keyBindings[input].scancode] != 0)
{ {
successKeyboard = true; successKeyboard = true;
} }
@@ -76,11 +76,11 @@ bool Input::checkInput(Uint8 input, bool repeat, int device, int index)
} }
else else
{ {
if (!keyBindings.at(input).active) if (!keyBindings[input].active)
{ {
if (keyStates[keyBindings.at(input).scancode] != 0) if (keyStates[keyBindings[input].scancode] != 0)
{ {
keyBindings.at(input).active = true; keyBindings[input].active = true;
successKeyboard = true; successKeyboard = true;
} }
else else
@@ -90,9 +90,9 @@ bool Input::checkInput(Uint8 input, bool repeat, int device, int index)
} }
else else
{ {
if (keyStates[keyBindings.at(input).scancode] == 0) if (keyStates[keyBindings[input].scancode] == 0)
{ {
keyBindings.at(input).active = false; keyBindings[input].active = false;
successKeyboard = false; successKeyboard = false;
} }
else else
@@ -108,7 +108,7 @@ bool Input::checkInput(Uint8 input, bool repeat, int device, int index)
{ {
if (repeat) if (repeat)
{ {
if (SDL_GameControllerGetButton(connectedControllers.at(index), gameControllerBindings.at(input).button) != 0) if (SDL_GameControllerGetButton(connectedControllers[index], gameControllerBindings[input].button) != 0)
{ {
successGameController = true; successGameController = true;
} }
@@ -119,11 +119,11 @@ bool Input::checkInput(Uint8 input, bool repeat, int device, int index)
} }
else else
{ {
if (!gameControllerBindings.at(input).active) if (!gameControllerBindings[input].active)
{ {
if (SDL_GameControllerGetButton(connectedControllers.at(index), gameControllerBindings.at(input).button) != 0) if (SDL_GameControllerGetButton(connectedControllers[index], gameControllerBindings[input].button) != 0)
{ {
gameControllerBindings.at(input).active = true; gameControllerBindings[input].active = true;
successGameController = true; successGameController = true;
} }
else else
@@ -133,9 +133,9 @@ bool Input::checkInput(Uint8 input, bool repeat, int device, int index)
} }
else else
{ {
if (SDL_GameControllerGetButton(connectedControllers.at(index), gameControllerBindings.at(input).button) == 0) if (SDL_GameControllerGetButton(connectedControllers[index], gameControllerBindings[input].button) == 0)
{ {
gameControllerBindings.at(input).active = false; gameControllerBindings[input].active = false;
successGameController = false; successGameController = false;
} }
else else
@@ -163,7 +163,7 @@ bool Input::checkAnyInput(int device, int index)
for (int i = 0; i < (int)keyBindings.size(); ++i) for (int i = 0; i < (int)keyBindings.size(); ++i)
{ {
if (mKeystates[keyBindings.at(i).scancode] != 0) if (mKeystates[keyBindings[i].scancode] != 0)
{ {
return true; return true;
} }
@@ -176,7 +176,7 @@ bool Input::checkAnyInput(int device, int index)
{ {
for (int i = 0; i < (int)gameControllerBindings.size(); ++i) for (int i = 0; i < (int)gameControllerBindings.size(); ++i)
{ {
if (SDL_GameControllerGetButton(connectedControllers.at(index), gameControllerBindings.at(i).button) != 0) if (SDL_GameControllerGetButton(connectedControllers[index], gameControllerBindings[i].button) != 0)
{ {
return true; return true;
} }
@@ -277,7 +277,7 @@ std::string Input::getControllerName(int index)
{ {
if (numGamepads > 0) if (numGamepads > 0)
{ {
return controllerNames.at(index); return controllerNames[index];
} }
else else
{ {

52
source/common/notify.cpp
View File

@@ -38,7 +38,7 @@ void Notify::render()
{ {
for (int i = (int)notifications.size() - 1; i >= 0; --i) for (int i = (int)notifications.size() - 1; i >= 0; --i)
{ {
notifications.at(i).sprite->render(); notifications[i].sprite->render();
} }
} }
@@ -47,63 +47,63 @@ void Notify::update()
{ {
for (int i = 0; i < (int)notifications.size(); ++i) for (int i = 0; i < (int)notifications.size(); ++i)
{ {
notifications.at(i).counter++; notifications[i].counter++;
// Comprueba los estados // Comprueba los estados
if (notifications.at(i).state == ns_rising) if (notifications[i].state == ns_rising)
{ {
const float step = ((float)notifications.at(i).counter / notifications.at(i).travelDist); const float step = ((float)notifications[i].counter / notifications[i].travelDist);
const int alpha = 255 * step; const int alpha = 255 * step;
if (options->notifications.posV == pos_top) if (options->notifications.posV == pos_top)
{ {
notifications.at(i).rect.y++; notifications[i].rect.y++;
} }
else else
{ {
notifications.at(i).rect.y--; notifications[i].rect.y--;
} }
notifications.at(i).texture->setAlpha(alpha); notifications[i].texture->setAlpha(alpha);
if (notifications.at(i).rect.y == notifications.at(i).y) if (notifications[i].rect.y == notifications[i].y)
{ {
notifications.at(i).state = ns_stay; notifications[i].state = ns_stay;
notifications.at(i).texture->setAlpha(255); notifications[i].texture->setAlpha(255);
notifications.at(i).counter = 0; notifications[i].counter = 0;
} }
} }
else if (notifications.at(i).state == ns_stay) else if (notifications[i].state == ns_stay)
{ {
if (notifications.at(i).counter == waitTime) if (notifications[i].counter == waitTime)
{ {
notifications.at(i).state = ns_vanishing; notifications[i].state = ns_vanishing;
notifications.at(i).counter = 0; notifications[i].counter = 0;
} }
} }
else if (notifications.at(i).state == ns_vanishing) else if (notifications[i].state == ns_vanishing)
{ {
const float step = (notifications.at(i).counter / (float)notifications.at(i).travelDist); const float step = (notifications[i].counter / (float)notifications[i].travelDist);
const int alpha = 255 * (1 - step); const int alpha = 255 * (1 - step);
if (options->notifications.posV == pos_top) if (options->notifications.posV == pos_top)
{ {
notifications.at(i).rect.y--; notifications[i].rect.y--;
} }
else else
{ {
notifications.at(i).rect.y++; notifications[i].rect.y++;
} }
notifications.at(i).texture->setAlpha(alpha); notifications[i].texture->setAlpha(alpha);
if (notifications.at(i).rect.y == notifications.at(i).y - notifications.at(i).travelDist) if (notifications[i].rect.y == notifications[i].y - notifications[i].travelDist)
{ {
notifications.at(i).state = ns_finished; notifications[i].state = ns_finished;
} }
} }
notifications.at(i).sprite->setRect(notifications.at(i).rect); notifications[i].sprite->setRect(notifications[i].rect);
} }
clearFinishedNotifications(); clearFinishedNotifications();
@@ -114,10 +114,10 @@ void Notify::clearFinishedNotifications()
{ {
for (int i = (int)notifications.size() - 1; i >= 0; --i) for (int i = (int)notifications.size() - 1; i >= 0; --i)
{ {
if (notifications.at(i).state == ns_finished) if (notifications[i].state == ns_finished)
{ {
delete notifications.at(i).sprite; delete notifications[i].sprite;
delete notifications.at(i).texture; delete notifications[i].texture;
notifications.erase(notifications.begin() + i); notifications.erase(notifications.begin() + i);
} }
} }

2
source/common/screen.cpp
View File

@@ -344,7 +344,7 @@ void Screen::renderSpectrumFade()
const float step = (float)spectrumFadeCounter / (float)spectrumFadeLenght; const float step = (float)spectrumFadeCounter / (float)spectrumFadeLenght;
const int max = spectrumColor.size() - 1; const int max = spectrumColor.size() - 1;
const int index = max + (0 - max) * step; const int index = max + (0 - max) * step;
const color_t c = spectrumColor.at(index); const color_t c = spectrumColor[index];
SDL_SetTextureColorMod(gameCanvas, c.r, c.g, c.b); SDL_SetTextureColorMod(gameCanvas, c.r, c.g, c.b);
} }

2
source/credits.cpp
View File

@@ -200,7 +200,7 @@ void Credits::fillTexture()
} }
// Escribe el corazón // Escribe el corazón
const int textLenght = text->lenght(texts.at(22).label, 1) - text->lenght(" ", 1); // Se resta el ultimo caracter que es un espacio const int textLenght = text->lenght(texts[22].label, 1) - text->lenght(" ", 1); // Se resta el ultimo caracter que es un espacio
const int posX = ((PLAY_AREA_WIDTH - textLenght) / 2) + textLenght; const int posX = ((PLAY_AREA_WIDTH - textLenght) / 2) + textLenght;
text->writeColored(posX, 176, "}", stringToColor(options->palette, "bright_red")); text->writeColored(posX, 176, "}", stringToColor(options->palette, "bright_red"));

2
source/item.cpp
View File

@@ -36,7 +36,7 @@ Item::~Item()
void Item::render() void Item::render()
{ {
const int index = (counter / colorChangeSpeed) % color.size(); const int index = (counter / colorChangeSpeed) % color.size();
sprite->getTexture()->setColor(color.at(index).r, color.at(index).g, color.at(index).b); sprite->getTexture()->setColor(color[index].r, color[index].g, color[index].b);
sprite->render(); sprite->render();
sprite->getTexture()->setColor(255, 255, 255); sprite->getTexture()->setColor(255, 255, 255);
} }

64
source/logo.cpp
View File

@@ -26,13 +26,13 @@ Logo::Logo(SDL_Renderer *renderer, Screen *screen, Resource *resource, Asset *as
sprite.back()->setSpriteClip(0, i, texture->getWidth(), 1); sprite.back()->setSpriteClip(0, i, texture->getWidth(), 1);
if (i % 2 == 0) if (i % 2 == 0)
{ {
sprite.at(i)->setPosX(256 + (i * 3)); sprite[i]->setPosX(256 + (i * 3));
} }
else else
{ {
sprite.at(i)->setPosX(-181 - (i * 3)); sprite[i]->setPosX(-181 - (i * 3));
} }
sprite.at(i)->setPosY(83 + i); sprite[i]->setPosY(83 + i);
} }
// Inicializa variables // Inicializa variables
@@ -142,22 +142,22 @@ void Logo::updateJAILGAMES()
{ {
const int speed = 8; const int speed = 8;
const int dest = 37; const int dest = 37;
if (sprite.at(i)->getPosX() != 37) if (sprite[i]->getPosX() != 37)
{ {
if (i % 2 == 0) if (i % 2 == 0)
{ {
sprite.at(i)->incPosX(-speed); sprite[i]->incPosX(-speed);
if (sprite.at(i)->getPosX() < dest) if (sprite[i]->getPosX() < dest)
{ {
sprite.at(i)->setPosX(dest); sprite[i]->setPosX(dest);
} }
} }
else else
{ {
sprite.at(i)->incPosX(speed); sprite[i]->incPosX(speed);
if (sprite.at(i)->getPosX() > dest) if (sprite[i]->getPosX() > dest)
{ {
sprite.at(i)->setPosX(dest); sprite[i]->setPosX(dest);
} }
} }
} }
@@ -173,72 +173,72 @@ void Logo::updateTextureColors()
if (counter == ini + inc * 0) if (counter == ini + inc * 0)
{ {
texture2->setColor(color.at(0).r, color.at(0).g, color.at(0).b); texture2->setColor(color[0].r, color[0].g, color[0].b);
} }
else if (counter == ini + inc * 1) else if (counter == ini + inc * 1)
{ {
texture2->setColor(color.at(1).r, color.at(1).g, color.at(1).b); texture2->setColor(color[1].r, color[1].g, color[1].b);
} }
else if (counter == ini + inc * 2) else if (counter == ini + inc * 2)
{ {
texture2->setColor(color.at(2).r, color.at(2).g, color.at(2).b); texture2->setColor(color[2].r, color[2].g, color[2].b);
} }
else if (counter == ini + inc * 3) else if (counter == ini + inc * 3)
{ {
texture2->setColor(color.at(3).r, color.at(3).g, color.at(3).b); texture2->setColor(color[3].r, color[3].g, color[3].b);
} }
else if (counter == ini + inc * 4) else if (counter == ini + inc * 4)
{ {
texture2->setColor(color.at(4).r, color.at(4).g, color.at(4).b); texture2->setColor(color[4].r, color[4].g, color[4].b);
} }
else if (counter == ini + inc * 5) else if (counter == ini + inc * 5)
{ {
texture2->setColor(color.at(5).r, color.at(5).g, color.at(5).b); texture2->setColor(color[5].r, color[5].g, color[5].b);
} }
else if (counter == ini + inc * 6) else if (counter == ini + inc * 6)
{ {
texture2->setColor(color.at(6).r, color.at(6).g, color.at(6).b); texture2->setColor(color[6].r, color[6].g, color[6].b);
} }
else if (counter == ini + inc * 7) else if (counter == ini + inc * 7)
{ {
texture2->setColor(color.at(7).r, color.at(7).g, color.at(7).b); texture2->setColor(color[7].r, color[7].g, color[7].b);
} }
else if (counter == initFade + inc * 0) else if (counter == initFade + inc * 0)
{ {
texture->setColor(color.at(6).r, color.at(6).g, color.at(6).b); texture->setColor(color[6].r, color[6].g, color[6].b);
texture2->setColor(color.at(6).r, color.at(6).g, color.at(6).b); texture2->setColor(color[6].r, color[6].g, color[6].b);
} }
else if (counter == initFade + inc * 1) else if (counter == initFade + inc * 1)
{ {
texture->setColor(color.at(5).r, color.at(5).g, color.at(5).b); texture->setColor(color[5].r, color[5].g, color[5].b);
texture2->setColor(color.at(5).r, color.at(5).g, color.at(5).b); texture2->setColor(color[5].r, color[5].g, color[5].b);
} }
else if (counter == initFade + inc * 2) else if (counter == initFade + inc * 2)
{ {
texture->setColor(color.at(4).r, color.at(4).g, color.at(4).b); texture->setColor(color[4].r, color[4].g, color[4].b);
texture2->setColor(color.at(4).r, color.at(4).g, color.at(4).b); texture2->setColor(color[4].r, color[4].g, color[4].b);
} }
else if (counter == initFade + inc * 3) else if (counter == initFade + inc * 3)
{ {
texture->setColor(color.at(3).r, color.at(3).g, color.at(3).b); texture->setColor(color[3].r, color[3].g, color[3].b);
texture2->setColor(color.at(3).r, color.at(3).g, color.at(3).b); texture2->setColor(color[3].r, color[3].g, color[3].b);
} }
else if (counter == initFade + inc * 4) else if (counter == initFade + inc * 4)
{ {
texture->setColor(color.at(2).r, color.at(2).g, color.at(2).b); texture->setColor(color[2].r, color[2].g, color[2].b);
texture2->setColor(color.at(2).r, color.at(2).g, color.at(2).b); texture2->setColor(color[2].r, color[2].g, color[2].b);
} }
else if (counter == initFade + inc * 5) else if (counter == initFade + inc * 5)
{ {
texture->setColor(color.at(1).r, color.at(1).g, color.at(1).b); texture->setColor(color[1].r, color[1].g, color[1].b);
texture2->setColor(color.at(1).r, color.at(1).g, color.at(1).b); texture2->setColor(color[1].r, color[1].g, color[1].b);
} }
else if (counter == initFade + inc * 6) else if (counter == initFade + inc * 6)
{ {
texture->setColor(color.at(0).r, color.at(0).g, color.at(0).b); texture->setColor(color[0].r, color[0].g, color[0].b);
texture2->setColor(color.at(0).r, color.at(0).g, color.at(0).b); texture2->setColor(color[0].r, color[0].g, color[0].b);
} }
} }

102
source/room.cpp
View File

@@ -548,13 +548,13 @@ void Room::fillMapTexture()
// Al cargar el mapa en memoria, se resta uno, por tanto los tiles vacios son -1 // Al cargar el mapa en memoria, se resta uno, por tanto los tiles vacios son -1
// Tampoco hay que dibujar los tiles animados que estan en la fila 19 (indices) // Tampoco hay que dibujar los tiles animados que estan en la fila 19 (indices)
const int index = (y * mapWidth) + x; const int index = (y * mapWidth) + x;
const bool a = (tileMap.at(index) >= 18 * tileSetWidth) && (tileMap.at(index) < 19 * tileSetWidth); const bool a = (tileMap[index] >= 18 * tileSetWidth) && (tileMap[index] < 19 * tileSetWidth);
const bool b = tileMap.at(index) > -1; const bool b = tileMap[index] > -1;
if (b && !a) if (b && !a)
{ {
clip.x = (tileMap.at(index) % tileSetWidth) * tileSize; clip.x = (tileMap[index] % tileSetWidth) * tileSize;
clip.y = (tileMap.at(index) / tileSetWidth) * tileSize; clip.y = (tileMap[index] / tileSetWidth) * tileSize;
texture->render(renderer, x * tileSize, y * tileSize, &clip); texture->render(renderer, x * tileSize, y * tileSize, &clip);
#ifdef DEBUG #ifdef DEBUG
@@ -763,37 +763,37 @@ tile_e Room::getTile(int index)
if (onRange) if (onRange)
{ {
// Las filas 0-8 son de tiles t_wall // Las filas 0-8 son de tiles t_wall
if ((tileMap.at(index) >= 0) && (tileMap.at(index) < 9 * tileSetWidth)) if ((tileMap[index] >= 0) && (tileMap[index] < 9 * tileSetWidth))
{ {
return t_wall; return t_wall;
} }
// Las filas 9-17 son de tiles t_passable // Las filas 9-17 son de tiles t_passable
else if ((tileMap.at(index) >= 9 * tileSetWidth) && (tileMap.at(index) < 18 * tileSetWidth)) else if ((tileMap[index] >= 9 * tileSetWidth) && (tileMap[index] < 18 * tileSetWidth))
{ {
return t_passable; return t_passable;
} }
// Las filas 18-20 es de tiles t_animated // Las filas 18-20 es de tiles t_animated
else if ((tileMap.at(index) >= 18 * tileSetWidth) && (tileMap.at(index) < 21 * tileSetWidth)) else if ((tileMap[index] >= 18 * tileSetWidth) && (tileMap[index] < 21 * tileSetWidth))
{ {
return t_animated; return t_animated;
} }
// La fila 21 es de tiles t_slope_r // La fila 21 es de tiles t_slope_r
else if ((tileMap.at(index) >= 21 * tileSetWidth) && (tileMap.at(index) < 22 * tileSetWidth)) else if ((tileMap[index] >= 21 * tileSetWidth) && (tileMap[index] < 22 * tileSetWidth))
{ {
return t_slope_r; return t_slope_r;
} }
// La fila 22 es de tiles t_slope_l // La fila 22 es de tiles t_slope_l
else if ((tileMap.at(index) >= 22 * tileSetWidth) && (tileMap.at(index) < 23 * tileSetWidth)) else if ((tileMap[index] >= 22 * tileSetWidth) && (tileMap[index] < 23 * tileSetWidth))
{ {
return t_slope_l; return t_slope_l;
} }
// La fila 23 es de tiles t_kill // La fila 23 es de tiles t_kill
else if ((tileMap.at(index) >= 23 * tileSetWidth) && (tileMap.at(index) < 24 * tileSetWidth)) else if ((tileMap[index] >= 23 * tileSetWidth) && (tileMap[index] < 24 * tileSetWidth))
{ {
return t_kill; return t_kill;
} }
@@ -820,10 +820,10 @@ bool Room::itemCollision(SDL_Rect &rect)
{ {
for (int i = 0; i < (int)items.size(); ++i) for (int i = 0; i < (int)items.size(); ++i)
{ {
if (checkCollision(rect, items.at(i)->getCollider())) if (checkCollision(rect, items[i]->getCollider()))
{ {
itemTracker->addItem(name, items.at(i)->getPos()); itemTracker->addItem(name, items[i]->getPos());
delete items.at(i); delete items[i];
items.erase(items.begin() + i); items.erase(items.begin() + i);
JA_PlaySound(itemSound); JA_PlaySound(itemSound);
*itemsPicked = *itemsPicked + 1; *itemsPicked = *itemsPicked + 1;
@@ -955,14 +955,14 @@ void Room::setBottomSurfaces()
do do
{ {
h_line_t line; h_line_t line;
line.x1 = (tile.at(i) % mapWidth) * tileSize; line.x1 = (tile[i] % mapWidth) * tileSize;
line.y = ((tile.at(i) / mapWidth) * tileSize) + tileSize - 1; line.y = ((tile[i] / mapWidth) * tileSize) + tileSize - 1;
lastOne = i; lastOne = i;
i++; i++;
if (i <= (int)tile.size() - 1) if (i <= (int)tile.size() - 1)
{ {
while (tile.at(i) == tile.at(i - 1) + 1) while (tile[i] == tile[i - 1] + 1)
{ {
lastOne = i; lastOne = i;
if (i == (int)tile.size() - 1) if (i == (int)tile.size() - 1)
@@ -973,11 +973,11 @@ void Room::setBottomSurfaces()
} }
} }
line.x2 = ((tile.at(lastOne) % mapWidth) * tileSize) + tileSize - 1; line.x2 = ((tile[lastOne] % mapWidth) * tileSize) + tileSize - 1;
bottomSurfaces.push_back(line); bottomSurfaces.push_back(line);
if (i <= (int)tile.size() - 1) if (i <= (int)tile.size() - 1)
{ {
if (tile.at(i) == -1) if (tile[i] == -1)
{ // Si el siguiente elemento es un separador, hay que saltarlo { // Si el siguiente elemento es un separador, hay que saltarlo
i++; i++;
} }
@@ -1018,14 +1018,14 @@ void Room::setTopSurfaces()
do do
{ {
h_line_t line; h_line_t line;
line.x1 = (tile.at(i) % mapWidth) * tileSize; line.x1 = (tile[i] % mapWidth) * tileSize;
line.y = (tile.at(i) / mapWidth) * tileSize; line.y = (tile[i] / mapWidth) * tileSize;
lastOne = i; lastOne = i;
i++; i++;
if (i <= (int)tile.size() - 1) if (i <= (int)tile.size() - 1)
{ {
while (tile.at(i) == tile.at(i - 1) + 1) while (tile[i] == tile[i - 1] + 1)
{ {
lastOne = i; lastOne = i;
if (i == (int)tile.size() - 1) if (i == (int)tile.size() - 1)
@@ -1036,11 +1036,11 @@ void Room::setTopSurfaces()
} }
} }
line.x2 = ((tile.at(lastOne) % mapWidth) * tileSize) + tileSize - 1; line.x2 = ((tile[lastOne] % mapWidth) * tileSize) + tileSize - 1;
topSurfaces.push_back(line); topSurfaces.push_back(line);
if (i <= (int)tile.size() - 1) if (i <= (int)tile.size() - 1)
{ {
if (tile.at(i) == -1) if (tile[i] == -1)
{ // Si el siguiente elemento es un separador, hay que saltarlo { // Si el siguiente elemento es un separador, hay que saltarlo
i++; i++;
} }
@@ -1080,9 +1080,9 @@ void Room::setLeftSurfaces()
do do
{ {
v_line_t line; v_line_t line;
line.x = (tile.at(i) % mapWidth) * tileSize; line.x = (tile[i] % mapWidth) * tileSize;
line.y1 = ((tile.at(i) / mapWidth) * tileSize); line.y1 = ((tile[i] / mapWidth) * tileSize);
while (tile.at(i) + mapWidth == tile.at(i + 1)) while (tile[i] + mapWidth == tile[i + 1])
{ {
if (i == (int)tile.size() - 1) if (i == (int)tile.size() - 1)
{ {
@@ -1090,7 +1090,7 @@ void Room::setLeftSurfaces()
} }
i++; i++;
} }
line.y2 = ((tile.at(i) / mapWidth) * tileSize) + tileSize - 1; line.y2 = ((tile[i] / mapWidth) * tileSize) + tileSize - 1;
leftSurfaces.push_back(line); leftSurfaces.push_back(line);
i++; i++;
} while (i < (int)tile.size() - 1); } while (i < (int)tile.size() - 1);
@@ -1128,9 +1128,9 @@ void Room::setRightSurfaces()
do do
{ {
v_line_t line; v_line_t line;
line.x = ((tile.at(i) % mapWidth) * tileSize) + tileSize - 1; line.x = ((tile[i] % mapWidth) * tileSize) + tileSize - 1;
line.y1 = ((tile.at(i) / mapWidth) * tileSize); line.y1 = ((tile[i] / mapWidth) * tileSize);
while (tile.at(i) + mapWidth == tile.at(i + 1)) while (tile[i] + mapWidth == tile[i + 1])
{ {
if (i == (int)tile.size() - 1) if (i == (int)tile.size() - 1)
{ {
@@ -1138,7 +1138,7 @@ void Room::setRightSurfaces()
} }
i++; i++;
} }
line.y2 = ((tile.at(i) / mapWidth) * tileSize) + tileSize - 1; line.y2 = ((tile[i] / mapWidth) * tileSize) + tileSize - 1;
rightSurfaces.push_back(line); rightSurfaces.push_back(line);
i++; i++;
} while (i < (int)tile.size() - 1); } while (i < (int)tile.size() - 1);
@@ -1165,14 +1165,14 @@ void Room::setLeftSlopes()
while (found.size() > 0) while (found.size() > 0)
{ {
d_line_t line; d_line_t line;
line.x1 = (found.at(0) % mapWidth) * tileSize; line.x1 = (found[0] % mapWidth) * tileSize;
line.y1 = (found.at(0) / mapWidth) * tileSize; line.y1 = (found[0] / mapWidth) * tileSize;
int lookingFor = found.at(0) + mapWidth + 1; int lookingFor = found[0] + mapWidth + 1;
int lastOneFound = found.at(0); int lastOneFound = found[0];
found.erase(found.begin()); found.erase(found.begin());
for (int i = 0; i < (int)found.size(); ++i) for (int i = 0; i < (int)found.size(); ++i)
{ {
if (found.at(i) == lookingFor) if (found[i] == lookingFor)
{ {
lastOneFound = lookingFor; lastOneFound = lookingFor;
lookingFor += mapWidth + 1; lookingFor += mapWidth + 1;
@@ -1206,14 +1206,14 @@ void Room::setRightSlopes()
while (found.size() > 0) while (found.size() > 0)
{ {
d_line_t line; d_line_t line;
line.x1 = ((found.at(0) % mapWidth) * tileSize) + tileSize - 1; line.x1 = ((found[0] % mapWidth) * tileSize) + tileSize - 1;
line.y1 = (found.at(0) / mapWidth) * tileSize; line.y1 = (found[0] / mapWidth) * tileSize;
int lookingFor = found.at(0) + mapWidth - 1; int lookingFor = found[0] + mapWidth - 1;
int lastOneFound = found.at(0); int lastOneFound = found[0];
found.erase(found.begin()); found.erase(found.begin());
for (int i = 0; i < (int)found.size(); ++i) for (int i = 0; i < (int)found.size(); ++i)
{ {
if (found.at(i) == lookingFor) if (found[i] == lookingFor)
{ {
lastOneFound = lookingFor; lastOneFound = lookingFor;
lookingFor += mapWidth - 1; lookingFor += mapWidth - 1;
@@ -1256,14 +1256,14 @@ void Room::setAutoSurfaces()
do do
{ {
h_line_t line; h_line_t line;
line.x1 = (tile.at(i) % mapWidth) * tileSize; line.x1 = (tile[i] % mapWidth) * tileSize;
line.y = (tile.at(i) / mapWidth) * tileSize; line.y = (tile[i] / mapWidth) * tileSize;
lastOne = i; lastOne = i;
i++; i++;
if (i <= (int)tile.size() - 1) if (i <= (int)tile.size() - 1)
{ {
while (tile.at(i) == tile.at(i - 1) + 1) while (tile[i] == tile[i - 1] + 1)
{ {
lastOne = i; lastOne = i;
if (i == (int)tile.size() - 1) if (i == (int)tile.size() - 1)
@@ -1274,11 +1274,11 @@ void Room::setAutoSurfaces()
} }
} }
line.x2 = ((tile.at(lastOne) % mapWidth) * tileSize) + tileSize - 1; line.x2 = ((tile[lastOne] % mapWidth) * tileSize) + tileSize - 1;
autoSurfaces.push_back(line); autoSurfaces.push_back(line);
if (i <= (int)tile.size() - 1) if (i <= (int)tile.size() - 1)
{ {
if (tile.at(i) == -1) if (tile[i] == -1)
{ // Si el siguiente elemento es un separador, hay que saltarlo { // Si el siguiente elemento es un separador, hay que saltarlo
i++; i++;
} }
@@ -1299,9 +1299,9 @@ void Room::setAnimatedTiles()
const int x = (i % mapWidth) * tileSize; const int x = (i % mapWidth) * tileSize;
const int y = (i / mapWidth) * tileSize; const int y = (i / mapWidth) * tileSize;
// TileMap.at(i) es el tile a poner // TileMap[i] es el tile a poner
const int xc = (tileMap.at(i) % tileSetWidth) * tileSize; const int xc = (tileMap[i] % tileSetWidth) * tileSize;
const int yc = (tileMap.at(i) / tileSetWidth) * tileSize; const int yc = (tileMap[i] / tileSetWidth) * tileSize;
aTile_t at; aTile_t at;
at.sprite = new Sprite(x, y, 8, 8, texture, renderer); at.sprite = new Sprite(x, y, 8, 8, texture, renderer);
@@ -1532,7 +1532,7 @@ void Room::openTheJail()
// Abre las puertas // Abre las puertas
const int tileA = 16 + (13 * 32); const int tileA = 16 + (13 * 32);
const int tileB = 16 + (14 * 32); const int tileB = 16 + (14 * 32);
tileMap.at(tileA) = -1; tileMap[tileA] = -1;
tileMap.at(tileB) = -1; tileMap[tileB] = -1;
} }
} }