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:2024-11-27
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:2024-12-31
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

40 Commits
2024-11-27 ... 2024-12-31

Author SHA1 Message Date
Sergio Valor
40dfc32e84 Actualitzada la data de la versió 2024-12-31 10:23:01 +01:00
Sergio Valor
4cd1d91560 Actualitzat jail_audio 2024-12-30 20:08:08 +01:00
Sergio Valor
e43badd703 Merge branch 'main' of https://gitea.sustancia.synology.me/JailDesigner/coffee_crisis_arcade_edition 2024-12-30 20:06:04 +01:00
Sergio Valor
71dcf9cf87 Afegit coffee.res, coffee.rc i icon.ico per a tindre iconet en windows 2024-12-30 19:56:35 +01:00
Sergio Valor
3a8521a1da Arreglat windows_release en Makefile 2024-12-30 19:56:00 +01:00
Sergio Valor Martínez
74d9c9a2b9 Commit per a vore qué està passant amb la música 2024-12-30 19:07:13 +01:00
Sergio Valor
9532caace8 Arreglades les release de windows, linux i raspberry 2024-12-30 13:44:09 +01:00
Sergio Valor
0bbd14067a Text::writeToTexture no deixava el renderitzador com estava 2024-12-30 13:43:12 +01:00
Sergio Valor
cfaa143c44 Actualitzat jail_audio 2024-12-30 13:30:06 +01:00
Sergio Valor
e61daeb92e Modificats els grafics del enemic nou 
Afegits nous audios i veus
Completat el comportament del enemic nou
Ampliat el numero máxim de sons simultanis
 2024-12-28 21:23:04 +01:00
Sergio Valor
d57cc15aee Treballant en el enemic nou 2024-12-27 13:38:07 +01:00
Sergio Valor
de3b18a407 Posat ordre en el Attract Mode 2024-12-26 13:58:25 +01:00
Sergio Valor
7f444fef33 Fix: mil minibugs relacionats amb el audio 2024-12-26 10:39:48 +01:00
Sergio Valor
ca18baefd7 Fix: el modo demo desactivava els sons i ja no s'activaven mai mes 2024-12-26 10:05:41 +01:00
Sergio Valor
b8dca0a46f Fet el fade out del title de video i audio i el fade in del joc de video i audio 
Actualitzat jail_audio a la última versió
 2024-12-26 10:03:02 +01:00
Sergio Valor
ca2c48ea17 Au, paca casa. M'he quedat a mitjes fent un fade de audio sincronitzat amb el fade de video en el titol 2024-12-23 13:56:11 +01:00
Sergio Valor
fb4d0d12db Afegits roidets de colisió per als globos per a certs moments 2024-12-23 12:37:19 +01:00
Sergio Valor
fb31445731 Comprova al iniciar que el tamany de finestra no siga mes gran que el tamany de la pantalla 2024-12-23 11:22:26 +01:00
Sergio Valor
cf4f0459b3 Es pot fer la finestra tan gran com deixe la pantalla, es a dir, el factor de zoom ja no va de 1 a 4 sino de 1 a X 2024-12-23 11:13:14 +01:00
Sergio Valor
fe0900a686 Afegides veus al jugador 
Afegit efectes de so al rebotar el jugador quan mor
 2024-12-15 20:00:35 +01:00
Sergio Valor
3367b70cd5 Afegit delay opcional al flash de la classe Screen 2024-12-09 20:06:59 +01:00
Sergio Valor
7016849587 FIX: afegit StopChannel en lloc de PauseChannel en el destructor del Logo 
Retocada la animació del logo del joc en Title
 2024-12-09 19:08:22 +01:00
Sergio Valor
301c059a26 Afegit botó per activar o desactivar el autofire 2024-12-05 12:24:18 +01:00
Sergio Valor
e3d0145417 Opció de fer el reset amb o sense reload 2024-12-05 08:25:44 +01:00
Sergio Valor
f0863b3691 Afegit zoom al subtitol ARCADE EDITION 2024-12-05 08:18:40 +01:00
Sergio Valor
80e366b208 Treballant en el zoom del titol s'ha arreglat el rebot dels globos i ara mola mes, o aixo pense 2024-12-03 13:59:40 +01:00
Sergio Valor
3c5bbf2ab0 Afegit zoom a la classe Sprite 2024-12-03 11:39:31 +01:00
Sergio Valor
1aa0dd3864 Acabats els credits a 320x240 (i per extensió, a qualsevol resolució) 2024-12-03 10:51:19 +01:00
Sergio Valor
ab45c984a2 Treballant en els credits a 240 2024-12-02 13:45:31 +01:00
Sergio Valor
020ee81479 Duplicat el fitxers de shaders per a resolucions verticals de 256 i 240 2024-12-02 13:39:19 +01:00
Sergio Valor
0cd96aced5 Afegit globalInputs::update() a totes les seccions del programa 2024-12-02 11:34:31 +01:00
Sergio Valor
ad32bb7d45 Treballant en globalInputs::update() 2024-12-02 11:11:03 +01:00
Sergio Valor
c3a5166ee1 Afegit un pragma per a IWYU 2024-12-02 09:27:51 +01:00
Sergio Valor
687d329d23 FIX: Faltva corregir el flash de destroyAllBalloons() 2024-11-27 18:58:17 +01:00
Sergio Valor
faba87c06d FIX: Si saltes el logo talla el so a meitat sonar 
FIX: Corregida la lògica del efecte de flash
 2024-11-27 18:39:23 +01:00
Sergio Valor
eed45bdbc6 Notifier no gastava Resource per als sons 
Resource no alliberava correctament els elements de JailAudio
 2024-11-27 18:20:33 +01:00
Sergio Valor
6ed37425bf Furtat el so del logo de JAILGAMES de The Pool 2024-11-27 18:02:25 +01:00
Sergio Valor
b987d06aca El joc ja reinicia correctament 2024-11-27 17:54:52 +01:00
Sergio Valor
9c9cfdabc2 Canvi de idioma (i reinicia) amb una tecla 2024-11-27 09:48:14 +01:00
Sergio Valor
9f2448753b Afegides les traduccions dels credits 2024-11-27 09:16:17 +01:00
64 changed files with 1695 additions and 792 deletions
Expand all files Collapse all files

3
.gitignore vendored
View File

@@ -15,4 +15,5 @@ thumbs.db
*score.bin
coffee_crisis*
debug.txt
cppcheck-result*
cppcheck-result*
desktop.ini

156
Makefile
View File

@@ -1,59 +1,63 @@
# Directorios
DIR_ROOT := $(dir $(abspath $(MAKEFILE_LIST)))
DIR_SOURCES:= $(addsuffix /, $(DIR_ROOT)source)
DIR_BIN := $(addsuffix /, $(DIR_ROOT))
DIR_BUILD := $(addsuffix /, $(DIR_ROOT)build)
DIR_ROOT := $(dir $(abspath $(MAKEFILE_LIST)))
DIR_SOURCES := $(addsuffix /, $(DIR_ROOT)source)
DIR_BIN := $(addsuffix /, $(DIR_ROOT))
DIR_BUILD := $(addsuffix /, $(DIR_ROOT)build)
# Variables
TARGET_NAME := coffee_crisis_arcade_edition
TARGET_FILE := $(DIR_BIN)$(TARGET_NAME)
APP_NAME := Coffee Crisis Arcade Edition
RELEASE_FOLDER:= ccae_release
RELEASE_FILE := $(RELEASE_FOLDER)/$(TARGET_NAME)
VERSION := v0.01
TARGET_NAME := coffee_crisis_arcade_edition
TARGET_FILE := $(DIR_BIN)$(TARGET_NAME)
APP_NAME := Coffee Crisis Arcade Edition
RELEASE_FOLDER := ccae_release
RELEASE_FILE := $(RELEASE_FOLDER)/$(TARGET_NAME)
RESOURCE_FILE := release/coffee.res
VERSION := 2024-12-31
# Nombres para los ficheros de lanzamiento
WINDOWS_RELEASE := $(TARGET_FILE)-$(VERSION)-win32-x64.zip
MACOS_INTEL_RELEASE := $(TARGET_FILE)-$(VERSION)-macos-intel.dmg
MACOS_APPLE_SILICON_RELEASE:= $(TARGET_FILE)-$(VERSION)-macos-apple-silicon.dmg
LINUX_RELEASE := $(TARGET_FILE)-$(VERSION)-linux.tar.gz
WINDOWS_RELEASE := $(TARGET_NAME)-$(VERSION)-win32-x64.zip
MACOS_INTEL_RELEASE := $(TARGET_FILE)-$(VERSION)-macos-intel.dmg
MACOS_APPLE_SILICON_RELEASE := $(TARGET_FILE)-$(VERSION)-macos-apple-silicon.dmg
LINUX_RELEASE := $(TARGET_FILE)-$(VERSION)-linux.tar.gz
RASPI_RELEASE := $(TARGET_FILE)-$(VERSION)-raspberry.tar.gz
# Includes
INCLUDES:= -I$(DIR_SOURCES)
INCLUDES := -I$(DIR_SOURCES)
# Variables según el sistema operativo
ifeq ($(OS),Windows_NT)
FixPath = $(subst /,\,$1)
SOURCES := source/*.cpp
CXXFLAGS:= -std=c++20 -Wall -Os -ffunction-sections -fdata-sections -Wl,--gc-sections -static-libstdc++ -Wl,-subsystem,windows
CXXFLAGS_DEBUG:= -std=c++20 -Wall -g
LDFLAGS := -lmingw32 -lws2_32 -lSDL2main -lSDL2 -lopengl32
RM = del /Q
MKD:= mkdir
FixPath = $(subst /,\\,$1)
SOURCES := source/*.cpp
CXXFLAGS := -std=c++20 -Wall -Os -ffunction-sections -fdata-sections -Wl,--gc-sections -static-libstdc++ -Wl,-subsystem,windows
CXXFLAGS_DEBUG := -std=c++20 -Wall -g
LDFLAGS := -lmingw32 -lws2_32 -lSDL2main -lSDL2 -lopengl32
RM := del /Q
MKDIR := mkdir
else
FixPath = $1
SOURCES := $(shell find $(DIR_SOURCES) -name '*.cpp')
SOURCES := source/*.cpp
CXXFLAGS:= -std=c++20 -Wall -Os -ffunction-sections -fdata-sections
CXXFLAGS_DEBUG:= -std=c++20 -Wall -g
LDFLAGS := -lSDL2
RM = rm -f
MKD:= mkdir -p
UNAME_S := $(shell uname -s)
FixPath = $1
SOURCES := $(shell find $(DIR_SOURCES) -name '*.cpp')
SOURCES := source/*.cpp
CXXFLAGS := -std=c++20 -Wall -Os -ffunction-sections -fdata-sections
CXXFLAGS_DEBUG := -std=c++20 -Wall -g
LDFLAGS := -lSDL2
RMFILE := rm -f
RMDIR := rm -rdf
MKDIR := mkdir -p
UNAME_S := $(shell uname -s)
ifeq ($(UNAME_S),Linux)
LDFLAGS += -lGL
LDFLAGS += -lGL
endif
ifeq ($(UNAME_S),Darwin)
CXXFLAGS += -Wno-deprecated
CXXFLAGS_DEBUG += -Wno-deprecated
LDFLAGS += -framework OpenGL
CXXFLAGS += -Wno-deprecated
CXXFLAGS_DEBUG += -Wno-deprecated
LDFLAGS += -framework OpenGL
endif
endif
# Rules
# Reglas para compilación
windows:
@echo off
$(CXX) $(SOURCES) $(CXXFLAGS) $(LDFLAGS) -o "$(TARGET_FILE).exe"
windres release/coffee.rc -O coff -o $(RESOURCE_FILE)
$(CXX) $(SOURCES) $(RESOURCE_FILE) $(CXXFLAGS) $(LDFLAGS) -o "$(TARGET_FILE).exe"
strip -s -R .comment -R .gnu.version "$(TARGET_FILE).exe" --strip-unneeded
windows_rec:
@@ -80,12 +84,13 @@ windows_release:
powershell Copy-Item "release\*.dll" -Destination "$(RELEASE_FOLDER)"
# Compila
$(CXX) $(SOURCES) $(CXXFLAGS) $(LDFLAGS) -o "$(RELEASE_FILE).exe"
strip -s -R .comment -R .gnu.version "$(RELEASE_FOLDER)/$(TARGET_FILE).exe" --strip-unneeded
windres release/coffee.rc -O coff -o $(RESOURCE_FILE)
$(CXX) $(SOURCES) $(RESOURCE_FILE) $(CXXFLAGS) $(LDFLAGS) -o "$(RELEASE_FILE).exe"
strip -s -R .comment -R .gnu.version "$(RELEASE_FILE).exe" --strip-unneeded
# Crea el fichero .zip
powershell if (Test-Path $(WINDOWS_RELEASE)) {Remove-Item $(WINDOWS_RELEASE)}
powershell Compress-Archive -Path "$(RELEASE_FOLDER)"/* -DestinationPath $(WINDOWS_RELEASE)
powershell if (Test-Path "$(WINDOWS_RELEASE)") {Remove-Item "$(WINDOWS_RELEASE)"}
powershell Compress-Archive -Path "$(RELEASE_FOLDER)"/* -DestinationPath "$(WINDOWS_RELEASE)"
# Elimina la carpeta temporal 'RELEASE_FOLDER'
powershell if (Test-Path "$(RELEASE_FOLDER)") {Remove-Item "$(RELEASE_FOLDER)" -Recurse -Force}
@@ -98,17 +103,17 @@ macos_debug:
macos_release:
# Elimina datos de compilaciones anteriores
rm -rdf "$(RELEASE_FOLDER)"
rm -rdf Frameworks
rm -f tmp.dmg
rm -f "$(MACOS_INTEL_RELEASE)"
rm -f "$(MACOS_APPLE_SILICON_RELEASE)"
$(RMDIR) "$(RELEASE_FOLDER)"
$(RMDIR) Frameworks
$(RMFILE) tmp.dmg
$(RMFILE) "$(MACOS_INTEL_RELEASE)"
$(RMFILE) "$(MACOS_APPLE_SILICON_RELEASE)"
# Crea la carpeta temporal para hacer el trabajo y las carpetas obligatorias para crear una app de macos
mkdir -p "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/Frameworks"
mkdir -p "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/MacOS"
mkdir -p "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/Resources"
mkdir -p Frameworks
$(MKDIR) "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/Frameworks"
$(MKDIR) "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/MacOS"
$(MKDIR) "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/Resources"
$(MKDIR) Frameworks
# Copia carpetas y ficheros
cp -R data "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/Resources"
@@ -123,24 +128,24 @@ macos_release:
ln -s /Applications "$(RELEASE_FOLDER)"/Applications
# Compila la versión para procesadores Intel
$(CXX) $(SOURCES) -D MACOS_BUNDLE $(CXXFLAGS) $(LDFLAGS) -o "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/MacOS/$(TARGET_FILE)" -rpath @executable_path/../Frameworks/ -target x86_64-apple-macos10.12
$(CXX) $(SOURCES) -D MACOS_BUNDLE $(CXXFLAGS) $(LDFLAGS) -o "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/MacOS/$(TARGET_NAME)" -rpath @executable_path/../Frameworks/ -target x86_64-apple-macos10.12
# Empaqueta el .dmg de la versión Intel
hdiutil create tmp.dmg -ov -volname "$(APP_NAME)" -fs HFS+ -srcfolder "$(RELEASE_FOLDER)"
hdiutil convert tmp.dmg -format UDZO -o "$(MACOS_INTEL_RELEASE)"
rm -f tmp.dmg
$(RMFILE) tmp.dmg
# Compila la versión para procesadores Apple Silicon
$(CXX) $(SOURCES) -D MACOS_BUNDLE $(CXXFLAGS) $(LDFLAGS) -o "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/MacOS/$(TARGET_FILE)" -rpath @executable_path/../Frameworks/ -target arm64-apple-macos11
$(CXX) $(SOURCES) -D MACOS_BUNDLE -D SDL_DISABLE_IMMINTRIN_H $(CXXFLAGS) $(LDFLAGS) -o "$(RELEASE_FOLDER)/$(APP_NAME).app/Contents/MacOS/$(TARGET_NAME)" -rpath @executable_path/../Frameworks/ -target arm64-apple-macos11
# Empaqueta el .dmg de la versión Apple Silicon
hdiutil create tmp.dmg -ov -volname "$(APP_NAME)" -fs HFS+ -srcfolder "$(RELEASE_FOLDER)"
hdiutil convert tmp.dmg -format UDZO -o "$(MACOS_APPLE_SILICON_RELEASE)"
rm -f tmp.dmg
$(RMFILE) tmp.dmg
# Elimina las carpetas temporales
$(RM) Frameworks
$(RM) "$(RELEASE_FOLDER)"
$(RMDIR) Frameworks
$(RMDIR) "$(RELEASE_FOLDER)"
linux:
$(CXX) $(SOURCES) $(CXXFLAGS) $(LDFLAGS) -o "$(TARGET_FILE)"
@@ -151,10 +156,10 @@ linux_debug:
linux_release:
# Elimina carpetas previas
$(RM) "$(RELEASE_FOLDER)"
$(RMDIR) "$(RELEASE_FOLDER)"
# Crea la carpeta temporal para realizar el lanzamiento
mkdir -p "$(RELEASE_FOLDER)"
$(MKDIR) "$(RELEASE_FOLDER)"
# Copia ficheros
cp -R data "$(RELEASE_FOLDER)"
@@ -166,11 +171,11 @@ linux_release:
strip -s -R .comment -R .gnu.version "$(RELEASE_FILE)" --strip-unneeded
# Empaqueta ficheros
$(RM) "$(LINUX_RELEASE)"
cd "$(RELEASE_FOLDER)" && tar -czvf "../$(LINUX_RELEASE)" *
$(RMFILE) "$(LINUX_RELEASE)"
cd "$(RELEASE_FOLDER)" && tar -czvf "$(LINUX_RELEASE)" *
# Elimina la carpeta temporal
$(RM) "$(RELEASE_FOLDER)"
$(RMDIR) "$(RELEASE_FOLDER)"
raspi:
$(CXX) $(SOURCES) -D ARCADE -D VERBOSE $(CXXFLAGS) $(LDFLAGS) -o $(TARGET_FILE)
@@ -179,12 +184,35 @@ raspi:
raspi_debug:
$(CXX) $(SOURCES) -D ARCADE -D VERBOSE -D DEBUG $(CXXFLAGS_DEBUG) $(LDFLAGS) -o "$(TARGET_FILE)_debug"
anbernic:
raspi_release:
# Elimina carpetas previas
$(RM) "$(RELEASE_FOLDER)"_anbernic
$(RMDIR) "$(RELEASE_FOLDER)"
# Crea la carpeta temporal para realizar el lanzamiento
mkdir -p "$(RELEASE_FOLDER)"_anbernic
$(MKDIR) "$(RELEASE_FOLDER)"
# Copia ficheros
cp -R data "$(RELEASE_FOLDER)"
cp LICENSE "$(RELEASE_FOLDER)"
cp README.md "$(RELEASE_FOLDER)"
# Complia
$(CXX) $(SOURCES) -D ARCADE -D VERBOSE $(CXXFLAGS) $(LDFLAGS) -o "$(RELEASE_FILE)"
strip -s -R .comment -R .gnu.version "$(RELEASE_FILE)" --strip-unneeded
# Empaqueta ficheros
$(RMFILE) "$(LINUX_RELEASE)"
cd "$(RELEASE_FOLDER)" && tar -czvf "$(RASPI_RELEASE)" *
# Elimina la carpeta temporal
$(RMDIR) "$(RELEASE_FOLDER)"
anbernic:
# Elimina carpetas previas
$(RMDIR) "$(RELEASE_FOLDER)"_anbernic
# Crea la carpeta temporal para realizar el lanzamiento
$(MKDIR) "$(RELEASE_FOLDER)"_anbernic
# Copia ficheros
cp -R data "$(RELEASE_FOLDER)"_anbernic

6
README.md
View File

@@ -28,6 +28,12 @@ Les tecles son les següents:
- **Tecla F4**: Activa o desactiva els shaders
- **Tecla F5**: Activa o desactiva l'audio
- **Tecla F6**: Activa o desactiva el dispar automàtic
- **Tecla F7**: Canvia el idioma del joc i reinicia
- **Tecla F10**: Reset
<p align="center">

2
data/config/param_320x240.txt
View File

@@ -14,7 +14,7 @@ fade.num_squares_height 120
fade.random_squares_delay 1
fade.random_squares_mult 500
fade.post_duration 80
fade.venetian_size 16
fade.venetian_size 12
## SCOREBOARD
scoreboard.x 0

2
data/config/param_320x256.txt
View File

@@ -14,7 +14,7 @@ fade.num_squares_height 128
fade.random_squares_delay 1
fade.random_squares_mult 500
fade.post_duration 80
fade.venetian_size 16
fade.venetian_size 12
## SCOREBOARD
scoreboard.x 0

9
data/gfx/tabe/tabe.ani Normal file
View File

@@ -0,0 +1,9 @@
frame_width=32
frame_height=32
[animation]
name=default
speed=2
loop=0
frames=0,1
[/animation]

BIN
data/gfx/tabe/tabe.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 1.8 KiB

14
data/lang/ba_BA.txt
View File

@@ -359,4 +359,16 @@ SuperPoder!
Temps!
## 120 - SCOREBOARD
Puntuacio
Puntuacio
## 121 - CREDITS
PROGRAMAT I DISSENYAT PER
## 122 - CREDITS
GRAFICS DIBUIXATS PER
## 123 - CREDITS
MUSICA COMPOSADA PER
## 124 - CREDITS
EFECTES DE SO

14
data/lang/en_UK.txt
View File

@@ -359,4 +359,16 @@ PowerUp
Stop!
## 120 - SCOREBOARD
Score
Score
## 121 - CREDITS
PROGRAMMED AND DESIGNED BY
## 122 - CREDITS
PIXELART DRAWN BY
## 123 - CREDITS
MUSIC COMPOSED BY
## 124 - CREDITS
SOUND EFFECTS

14
data/lang/es_ES.txt
View File

@@ -359,4 +359,16 @@ Potenciador
Tiempo!
## 120 - SCOREBOARD
Puntuacion
Puntuacion
## 121 - CREDITS
PROGRAMADO Y DISE{ADO POR
## 122 - CREDITS
GRAFICOS DIBUJADOS POR
## 123 - CREDITS
MUSICA COMPUESTA POR
## 124 - CREDITS
EFECTOS DE SONIDO

234
data/shaders/crtpi_240.glsl Normal file
View File

@@ -0,0 +1,234 @@
/*
crt-pi - A Raspberry Pi friendly CRT shader.
Copyright (C) 2015-2016 davej
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the Free
Software Foundation; either version 2 of the License, or (at your option)
any later version.
Notes:
This shader is designed to work well on Raspberry Pi GPUs (i.e. 1080P @ 60Hz on a game with a 4:3 aspect ratio). It pushes the Pi's GPU hard and enabling some features will slow it down so that it is no longer able to match 1080P @ 60Hz. You will need to overclock your Pi to the fastest setting in raspi-config to get the best results from this shader: 'Pi2' for Pi2 and 'Turbo' for original Pi and Pi Zero. Note: Pi2s are slower at running the shader than other Pis, this seems to be down to Pi2s lower maximum memory speed. Pi2s don't quite manage 1080P @ 60Hz - they drop about 1 in 1000 frames. You probably won't notice this, but if you do, try enabling FAKE_GAMMA.
SCANLINES enables scanlines. You'll almost certainly want to use it with MULTISAMPLE to reduce moire effects. SCANLINE_WEIGHT defines how wide scanlines are (it is an inverse value so a higher number = thinner lines). SCANLINE_GAP_BRIGHTNESS defines how dark the gaps between the scan lines are. Darker gaps between scan lines make moire effects more likely.
GAMMA enables gamma correction using the values in INPUT_GAMMA and OUTPUT_GAMMA. FAKE_GAMMA causes it to ignore the values in INPUT_GAMMA and OUTPUT_GAMMA and approximate gamma correction in a way which is faster than true gamma whilst still looking better than having none. You must have GAMMA defined to enable FAKE_GAMMA.
CURVATURE distorts the screen by CURVATURE_X and CURVATURE_Y. Curvature slows things down a lot.
By default the shader uses linear blending horizontally. If you find this too blury, enable SHARPER.
BLOOM_FACTOR controls the increase in width for bright scanlines.
MASK_TYPE defines what, if any, shadow mask to use. MASK_BRIGHTNESS defines how much the mask type darkens the screen.
*/
#pragma parameter CURVATURE_X "Screen curvature - horizontal" 0.10 0.0 1.0 0.01
#pragma parameter CURVATURE_Y "Screen curvature - vertical" 0.15 0.0 1.0 0.01
#pragma parameter MASK_BRIGHTNESS "Mask brightness" 0.70 0.0 1.0 0.01
#pragma parameter SCANLINE_WEIGHT "Scanline weight" 6.0 0.0 15.0 0.1
#pragma parameter SCANLINE_GAP_BRIGHTNESS "Scanline gap brightness" 0.12 0.0 1.0 0.01
#pragma parameter BLOOM_FACTOR "Bloom factor" 1.5 0.0 5.0 0.01
#pragma parameter INPUT_GAMMA "Input gamma" 2.4 0.0 5.0 0.01
#pragma parameter OUTPUT_GAMMA "Output gamma" 2.2 0.0 5.0 0.01
// Haven't put these as parameters as it would slow the code down.
#define SCANLINES
#define MULTISAMPLE
#define GAMMA
//#define FAKE_GAMMA
//#define CURVATURE
//#define SHARPER
// MASK_TYPE: 0 = none, 1 = green/magenta, 2 = trinitron(ish)
#define MASK_TYPE 2
#ifdef GL_ES
#define COMPAT_PRECISION mediump
precision mediump float;
#else
#define COMPAT_PRECISION
#endif
#ifdef PARAMETER_UNIFORM
uniform COMPAT_PRECISION float CURVATURE_X;
uniform COMPAT_PRECISION float CURVATURE_Y;
uniform COMPAT_PRECISION float MASK_BRIGHTNESS;
uniform COMPAT_PRECISION float SCANLINE_WEIGHT;
uniform COMPAT_PRECISION float SCANLINE_GAP_BRIGHTNESS;
uniform COMPAT_PRECISION float BLOOM_FACTOR;
uniform COMPAT_PRECISION float INPUT_GAMMA;
uniform COMPAT_PRECISION float OUTPUT_GAMMA;
#else
#define CURVATURE_X 0.05
#define CURVATURE_Y 0.1
#define MASK_BRIGHTNESS 0.80
#define SCANLINE_WEIGHT 6.0
#define SCANLINE_GAP_BRIGHTNESS 0.12
#define BLOOM_FACTOR 3.5
#define INPUT_GAMMA 2.4
#define OUTPUT_GAMMA 2.2
#endif
/* COMPATIBILITY
- GLSL compilers
*/
//uniform vec2 TextureSize;
#if defined(CURVATURE)
varying vec2 screenScale;
#endif
varying vec2 TEX0;
varying float filterWidth;
#if defined(VERTEX)
//uniform mat4 MVPMatrix;
//attribute vec4 VertexCoord;
//attribute vec2 TexCoord;
//uniform vec2 InputSize;
//uniform vec2 OutputSize;
void main()
{
#if defined(CURVATURE)
screenScale = vec2(1.0, 1.0); //TextureSize / InputSize;
#endif
filterWidth = (768.0 / 240.0) / 3.0;
TEX0 = vec2(gl_MultiTexCoord0.x, 1.0-gl_MultiTexCoord0.y)*1.0001;
gl_Position = gl_ModelViewProjectionMatrix * gl_Vertex;
}
#elif defined(FRAGMENT)
uniform sampler2D Texture;
#if defined(CURVATURE)
vec2 Distort(vec2 coord)
{
vec2 CURVATURE_DISTORTION = vec2(CURVATURE_X, CURVATURE_Y);
// Barrel distortion shrinks the display area a bit, this will allow us to counteract that.
vec2 barrelScale = 1.0 - (0.23 * CURVATURE_DISTORTION);
coord *= screenScale;
coord -= vec2(0.5);
float rsq = coord.x * coord.x + coord.y * coord.y;
coord += coord * (CURVATURE_DISTORTION * rsq);
coord *= barrelScale;
if (abs(coord.x) >= 0.5 || abs(coord.y) >= 0.5)
coord = vec2(-1.0); // If out of bounds, return an invalid value.
else
{
coord += vec2(0.5);
coord /= screenScale;
}
return coord;
}
#endif
float CalcScanLineWeight(float dist)
{
return max(1.0-dist*dist*SCANLINE_WEIGHT, SCANLINE_GAP_BRIGHTNESS);
}
float CalcScanLine(float dy)
{
float scanLineWeight = CalcScanLineWeight(dy);
#if defined(MULTISAMPLE)
scanLineWeight += CalcScanLineWeight(dy-filterWidth);
scanLineWeight += CalcScanLineWeight(dy+filterWidth);
scanLineWeight *= 0.3333333;
#endif
return scanLineWeight;
}
void main()
{
vec2 TextureSize = vec2(320.0, 240.0);
#if defined(CURVATURE)
vec2 texcoord = Distort(TEX0);
if (texcoord.x < 0.0)
gl_FragColor = vec4(0.0);
else
#else
vec2 texcoord = TEX0;
#endif
{
vec2 texcoordInPixels = texcoord * TextureSize;
#if defined(SHARPER)
vec2 tempCoord = floor(texcoordInPixels) + 0.5;
vec2 coord = tempCoord / TextureSize;
vec2 deltas = texcoordInPixels - tempCoord;
float scanLineWeight = CalcScanLine(deltas.y);
vec2 signs = sign(deltas);
deltas.x *= 2.0;
deltas = deltas * deltas;
deltas.y = deltas.y * deltas.y;
deltas.x *= 0.5;
deltas.y *= 8.0;
deltas /= TextureSize;
deltas *= signs;
vec2 tc = coord + deltas;
#else
float tempY = floor(texcoordInPixels.y) + 0.5;
float yCoord = tempY / TextureSize.y;
float dy = texcoordInPixels.y - tempY;
float scanLineWeight = CalcScanLine(dy);
float signY = sign(dy);
dy = dy * dy;
dy = dy * dy;
dy *= 8.0;
dy /= TextureSize.y;
dy *= signY;
vec2 tc = vec2(texcoord.x, yCoord + dy);
#endif
vec3 colour = texture2D(Texture, tc).rgb;
#if defined(SCANLINES)
#if defined(GAMMA)
#if defined(FAKE_GAMMA)
colour = colour * colour;
#else
colour = pow(colour, vec3(INPUT_GAMMA));
#endif
#endif
scanLineWeight *= BLOOM_FACTOR;
colour *= scanLineWeight;
#if defined(GAMMA)
#if defined(FAKE_GAMMA)
colour = sqrt(colour);
#else
colour = pow(colour, vec3(1.0/OUTPUT_GAMMA));
#endif
#endif
#endif
#if MASK_TYPE == 0
gl_FragColor = vec4(colour, 1.0);
#else
#if MASK_TYPE == 1
float whichMask = fract((gl_FragCoord.x*1.0001) * 0.5);
vec3 mask;
if (whichMask < 0.5)
mask = vec3(MASK_BRIGHTNESS, 1.0, MASK_BRIGHTNESS);
else
mask = vec3(1.0, MASK_BRIGHTNESS, 1.0);
#elif MASK_TYPE == 2
float whichMask = fract((gl_FragCoord.x*1.0001) * 0.3333333);
vec3 mask = vec3(MASK_BRIGHTNESS, MASK_BRIGHTNESS, MASK_BRIGHTNESS);
if (whichMask < 0.3333333)
mask.x = 1.0;
else if (whichMask < 0.6666666)
mask.y = 1.0;
else
mask.z = 1.0;
#endif
gl_FragColor = vec4(colour * mask, 1.0);
#endif
}
}
#endif

1
data/shaders/crtpi.glsl → data/shaders/crtpi_256.glsl
View File

@@ -97,7 +97,6 @@ void main()
#if defined(CURVATURE)
screenScale = vec2(1.0, 1.0); //TextureSize / InputSize;
#endif
//filterWidth = (768.0 / 240.0) / 3.0;
filterWidth = (768.0 / 256.0) / 3.0;
TEX0 = vec2(gl_MultiTexCoord0.x, 1.0-gl_MultiTexCoord0.y)*1.0001;
gl_Position = gl_ModelViewProjectionMatrix * gl_Vertex;

BIN
data/sound/game_start.wav Normal file
View File

Binary file not shown.

BIN
data/sound/logo.wav Normal file
View File

Binary file not shown.

BIN
data/sound/tabe.wav Normal file
View File

Binary file not shown.

BIN
data/sound/voice_coffee.wav Normal file
View File

Binary file not shown.

BIN
data/sound/voice_get_ready.wav Normal file
View File

Binary file not shown.

BIN
data/sound/voice_no.wav Normal file
View File

Binary file not shown.

BIN
data/sound/voice_power_up.wav Normal file
View File

Binary file not shown.

2
release/coffee.rc Normal file
View File

@@ -0,0 +1,2 @@
// coffee.rc
IDI_ICON1 ICON "icon.ico"

BIN
release/coffee.res Normal file
View File

Binary file not shown.

BIN
release/icon.ico Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 38 KiB

44
source/balloon.cpp
View File

@@ -5,6 +5,8 @@
#include "param.h" // Para Param, param, ParamBalloon, ParamGame
#include "sprite.h" // Para Sprite
#include "texture.h" // Para Texture
#include "resource.h"
#include "jail_audio.h"
// Constructor
Balloon::Balloon(float x, float y, BalloonType type, BalloonSize size, float vel_x, float speed, Uint16 creation_timer, SDL_Rect play_area, std::shared_ptr<Texture> texture, const std::vector<std::string> &animation)
@@ -36,6 +38,7 @@ Balloon::Balloon(float x, float y, BalloonType type, BalloonSize size, float vel
power_ = BALLOON_POWER[index];
menace_ = BALLOON_MENACE[index];
score_ = BALLOON_SCORE[index];
sound_ = BALLOON_SOUND[index];
break;
}
@@ -50,14 +53,16 @@ Balloon::Balloon(float x, float y, BalloonType type, BalloonSize size, float vel
power_ = BALLOON_POWER[index];
menace_ = BALLOON_MENACE[index];
score_ = BALLOON_SCORE[index];
sound_ = BALLOON_SOUND[index];
break;
}
case BalloonType::POWERBALL:
{
const int index = 3;
constexpr int index = 3;
h_ = w_ = BALLOON_SIZE[4];
sound_ = BALLOON_SOUND[3];
power_ = score_ = menace_ = 0;
vy_ = 0;
@@ -106,6 +111,7 @@ void Balloon::render()
SDL_Point p = {24, 24};
sprite_->setRotatingCenter(&p);
sprite_->render();
// Añade la máscara del borde y los reflejos
auto sp = std::make_unique<Sprite>(sprite_->getTexture(), sprite_->getPosition());
sp->setSpriteClip(BALLOON_SIZE[4], 0, BALLOON_SIZE[4], BALLOON_SIZE[4]);
@@ -123,18 +129,8 @@ void Balloon::render()
}
else
{
if (bouncing_.enabled)
{
// Renderizado con efecto de bouncing
sprite_->setPos(x_ + bouncing_.despX, y_ + bouncing_.despY);
sprite_->render();
// sprite_->setPos(x_ - bouncing_.despX, y_ - bouncing_.despY);
}
else
{
// Renderizado normal
sprite_->render();
}
// Renderizado normal
sprite_->render();
}
}
}
@@ -151,9 +147,10 @@ void Balloon::move()
// Colisión en las partes laterales de la zona de juego
const int clip = 2;
const float min_x = play_area_.x - clip;
const float max_x = play_area_.w - w_ + clip;
const float max_x = play_area_.x + play_area_.w - w_ + clip;
if (x_ < min_x || x_ > max_x)
{
playSound();
x_ = std::clamp(x_, min_x, max_x);
vx_ = -vx_;
// Activa el efecto de rebote o invierte la rotación
@@ -188,6 +185,7 @@ void Balloon::move()
const int min_y = play_area_.y;
if (y_ < min_y)
{
playSound();
y_ = min_y;
vy_ = -vy_;
enableBounce();
@@ -195,9 +193,10 @@ void Balloon::move()
}
// Colisión en la parte inferior de la zona de juego
const int max_y = play_area_.h - h_;
const int max_y = play_area_.y + play_area_.h - h_;
if (y_ > max_y)
{
playSound();
y_ = max_y;
vy_ = -default_vy_;
if (type_ != BalloonType::POWERBALL)
@@ -388,12 +387,10 @@ void Balloon::updateBounce()
zoomSprite();
const auto spriteClip = sprite_->getSpriteClip();
bouncing_.despX = spriteClip.w * (1.0f - bouncing_.zoomW);
bouncing_.despY = spriteClip.h * (1.0f - bouncing_.zoomH);
if (++bouncing_.counter / bouncing_.speed >= MAX_BOUNCE)
{
disableBounce();
}
}
}
@@ -412,4 +409,13 @@ void Balloon::useNormalColor()
{
use_reversed_colors_ = false;
setAnimation();
}
// Reproduce el sonido al rebotar
void Balloon::playSound()
{
if (sound_enabled_)
{
JA_PlaySound(Resource::get()->getSound(sound_));
}
}

7
source/balloon.h
View File

@@ -17,6 +17,7 @@ constexpr int BALLOON_SCORE[] = {50, 100, 200, 400};
constexpr int BALLOON_POWER[] = {1, 3, 7, 15};
constexpr int BALLOON_MENACE[] = {1, 2, 4, 8};
constexpr int BALLOON_SIZE[] = {10, 16, 26, 48, 49};
const std::string BALLOON_SOUND[] = {"bubble1.wav", "bubble2.wav", "bubble3.wav", "bubble4.wav"};
// Tamaños de globo
enum class BalloonSize : Uint8
@@ -113,6 +114,8 @@ private:
float speed_; // Velocidad a la que se mueven los globos
Uint8 power_; // Cantidad de poder que alberga el globo
SDL_Rect play_area_; // Zona por donde se puede mover el globo
std::string sound_; // Archivo de sonido que hace el globo al rebotar
bool sound_enabled_ = false; // Indica si ha de sonar el sonido del globo al rebotar
// Alinea el circulo de colisión con la posición del objeto globo
void shiftColliders();
@@ -138,6 +141,9 @@ private:
// Establece la animación correspondiente
void setAnimation();
// Reproduce el sonido al rebotar
void playSound();
public:
// Constructor
Balloon(
@@ -208,4 +214,5 @@ public:
void setVelY(float vel_y) { vy_ = vel_y; }
void setSpeed(float speed) { speed_ = speed; }
void setInvulnerable(bool value) { invulnerable_ = value; }
void setSound(bool value) { sound_enabled_ = value; }
};

11
source/balloon_manager.cpp
View File

@@ -303,7 +303,7 @@ int BalloonManager::destroyAllBalloons()
balloon_deploy_counter_ = 300;
JA_PlaySound(Resource::get()->getSound("powerball.wav"));
Screen::get()->flash(flash_color, 100);
Screen::get()->flash(flash_color, 3);
Screen::get()->shake();
return score;
@@ -371,4 +371,13 @@ int BalloonManager::getMenace()
{
return std::accumulate(balloons_.begin(), balloons_.end(), 0, [](int sum, const auto &balloon)
{ return sum + (balloon->isEnabled() ? balloon->getMenace() : 0); });
}
// Establece el sonido de los globos
void BalloonManager::setSounds(bool value)
{
for (auto &balloon : balloons_)
{
balloon->setSound(value);
}
}

3
source/balloon_manager.h
View File

@@ -111,6 +111,9 @@ public:
// Obtiene el nivel de ameza actual generado por los globos
int getMenace();
// Establece el sonido de los globos
void setSounds(bool value);
// Getters
float getBalloonSpeed() const { return balloon_speed_; }
Balloons &getBalloons() { return balloons_; }

71
source/credits.cpp
View File

@@ -1,27 +1,27 @@
#include <algorithm>
#include <iostream>
#include <cstdlib>
#include "credits.h"
#include <SDL2/SDL_blendmode.h> // Para SDL_BLENDMODE_BLEND
#include <SDL2/SDL_events.h> // Para SDL_PollEvent, SDL_Event, SDL_QUIT
#include <SDL2/SDL_pixels.h> // Para SDL_PIXELFORMAT_RGBA8888
#include <SDL2/SDL_rect.h> // Para SDL_Rect
#include <SDL2/SDL_timer.h> // Para SDL_GetTicks
#include <string> // Para basic_string, string
#include <vector> // Para vector
#include "balloon_manager.h" // Para BalloonManager
#include "global_inputs.h" // Para check
#include "input.h" // Para Input
#include "jail_audio.h" // Para JA_PlayMusic, JA_StopMusic
#include "param.h" // Para Param, ParamGame, param
#include "resource.h" // Para Resource
#include "screen.h" // Para Screen
#include "section.h" // Para Name, name, Options, options
#include "text.h" // Para Text, TEXT_CENTER, TEXT_SHADOW
#include "tiled_bg.h" // Para TiledBG, TiledBGMode
#include "utils.h" // Para Color, no_color, shdw_txt_color, Zone
#include <algorithm>
#include <cstdlib>
#include <string> // Para basic_string, string
#include <vector> // Para vector
#include "balloon_manager.h" // Para BalloonManager
#include "global_inputs.h" // Para check
#include "input.h" // Para Input
#include "jail_audio.h" // Para JA_PlayMusic, JA_StopMusic
#include "param.h" // Para Param, ParamGame, param
#include "resource.h" // Para Resource
#include "screen.h" // Para Screen
#include "section.h" // Para Name, name, Options, options
#include "text.h" // Para Text, TEXT_CENTER, TEXT_SHADOW
#include "tiled_bg.h" // Para TiledBG, TiledBGMode
#include "utils.h" // Para Color, no_color, shdw_txt_color, Zone
#include "player.h"
#include "fade.h"
#include "lang.h"
// Textos
constexpr const char TEXT_COPYRIGHT[] = "@2020,2024 JailDesigner";
@@ -34,22 +34,28 @@ Credits::Credits()
fade_in_(std::make_unique<Fade>()),
fade_out_(std::make_unique<Fade>())
{
if (!text_texture_)
{
throw std::runtime_error("Failed to create SDL texture for text.");
}
section::name = section::Name::CREDITS;
top_black_rect_ = {play_area_.x, 0, play_area_.w, black_bars_size_};
bottom_black_rect_ = {play_area_.x, param.game.game_area.rect.h - black_bars_size_, play_area_.w, black_bars_size_};
//top_black_rect_ = {play_area_.x, 0, play_area_.w, black_bars_size_};
//bottom_black_rect_ = {play_area_.x, param.game.game_area.rect.h - black_bars_size_, play_area_.w, black_bars_size_};
balloon_manager_->setPlayArea(play_area_);
fade_in_->setColor(fade_color.r, fade_color.g, fade_color.b);
fade_in_->setType(FadeType::FULLSCREEN);
fade_in_->setPost(50);
fade_in_->setMode(FadeMode::IN);
fade_in_->activate();
fade_out_->setColor(0, 0, 0);
fade_out_->setType(FadeType::FULLSCREEN);
fade_out_->setPost(400);
initPlayers();
SDL_SetTextureBlendMode(text_texture_, SDL_BLENDMODE_BLEND);
fillTextTexture();
// JA_PlayMusic(Resource::get()->getMusic("credits.ogg"));
steps_ = std::abs((top_black_rect_.h - param.game.game_area.center_y - 1) + ((left_black_rect_.w - param.game.game_area.center_x) / 4));
}
@@ -88,6 +94,7 @@ void Credits::update()
}
updateAllFades();
Screen::get()->update();
globalInputs::update();
++counter_;
}
}
@@ -116,20 +123,19 @@ void Credits::render()
SDL_RenderCopy(Screen::get()->getRenderer(), text_texture_, &mini_logo_rect_src_, &mini_logo_rect_dst_);
// Dibuja los rectangulos negros
// SDL_SetRenderDrawColor(Screen::get()->getRenderer(), 0x27, 0x27, 0x36, 255);
SDL_SetRenderDrawColor(Screen::get()->getRenderer(), 0, 0, 0, 255);
SDL_RenderFillRect(Screen::get()->getRenderer(), &top_black_rect_);
SDL_RenderFillRect(Screen::get()->getRenderer(), &bottom_black_rect_);
SDL_RenderFillRect(Screen::get()->getRenderer(), &left_black_rect_);
SDL_RenderFillRect(Screen::get()->getRenderer(), &right_black_rect_);
// Si el mini_logo está en su destino, lo dibuja encima del resto
// Si el mini_logo está en su destino, lo dibuja encima de lo anterior
if (mini_logo_on_position_)
{
SDL_RenderCopy(Screen::get()->getRenderer(), text_texture_, &mini_logo_rect_src_, &mini_logo_rect_dst_);
}
// Dibuja el fade sobre el resto
// Dibuja el fade sobre el resto de elementos
fade_in_->render();
fade_out_->render();
@@ -170,7 +176,7 @@ void Credits::checkInput()
{
// Si todavía estan los creditos en marcha, se pasan solos a toda pastilla
want_to_pass_ = true;
ticks_speed_ = 3;
ticks_speed_ = 1;
}
}
@@ -188,10 +194,10 @@ void Credits::fillTextTexture()
SDL_RenderClear(Screen::get()->getRenderer());
std::vector<std::string> texts = {
"PROGRAMACIO I DISSENY",
"GRAFICS",
"MUSICA",
"SONS",
lang::getText(121),
lang::getText(122),
lang::getText(123),
lang::getText(124),
"JAILDESIGNER",
"JAILDOCTOR (INTRO)",
"ERIC MATYAS (SOUNDIMAGE.ORG)",
@@ -257,10 +263,11 @@ void Credits::fillTextTexture()
y += mini_logo_sprite->getHeight() + 3;
text->writeDX(TEXT_CENTER | TEXT_SHADOW, param.game.game_area.center_x, y, TEXT_COPYRIGHT, 1, no_color, 1, shdw_txt_color);
mini_logo_rect_dst_.h = mini_logo_rect_src_.h = mini_logo_sprite->getHeight() + 3 + text->getCharacterSize();
// Resetea el renderizador
SDL_SetRenderTarget(Screen::get()->getRenderer(), nullptr);
// Actualiza las variables
mini_logo_rect_dst_.h = mini_logo_rect_src_.h = mini_logo_sprite->getHeight() + 3 + text->getCharacterSize();
credits_rect_dst_.y = param.game.game_area.rect.h;
mini_logo_rect_dst_.y = credits_rect_dst_.y + credits_rect_dst_.h + 30;
mini_logo_final_pos_ = param.game.game_area.center_y - mini_logo_rect_src_.h / 2;
@@ -312,12 +319,14 @@ void Credits::throwBalloons()
const std::vector<int> sets = {0, 63, 25, 67, 17, 75, 13, 50};
if (counter_ > ((sets.size() - 1) * speed) * 3)
{
return;
}
if (counter_ % speed == 0)
{
const int index = (counter_ / speed) % sets.size();
balloon_manager_->deploySet(sets.at(index), -50);
balloon_manager_->deploySet(sets.at(index), -60);
}
if (counter_ % (speed * 4) == 0 && counter_ > 0)
@@ -356,7 +365,7 @@ void Credits::initPlayers()
// Crea los dos jugadores
constexpr int player_width = 30;
const int y = play_area_.h - player_width;
const int y = play_area_.y + play_area_.h - player_width;
constexpr bool demo = false;
constexpr int away_distance = 700;
players_.emplace_back(std::make_unique<Player>(1, play_area_.x - away_distance - player_width, y, demo, play_area_, player_textures.at(0), player_animations));

30
source/credits.h
View File

@@ -10,6 +10,8 @@ class TiledBG;
class Player;
class Fade;
constexpr int PLAY_AREA_HEIGHT = 200;
class Credits
{
private:
@@ -22,18 +24,18 @@ private:
std::vector<std::shared_ptr<Player>> players_; // Vector con los jugadores
// Variables
Uint32 ticks_ = 0; // Contador de ticks para ajustar la velocidad del programa
Uint32 ticks_speed_ = 15; // Velocidad del bucle update
Uint32 counter_ = 0; // Contador para la lógica de la clase
Uint32 counter_pre_fade_ = 0; // Contador para activar el fundido final
Uint32 counter_prevent_endless_ = 0; // Contador para evitar que el juego se quede para siempre en los creditos
int black_bars_size_ = 28; // Tamaño de las barras negras
int mini_logo_final_pos_ = 0; // Ubicación donde se detiene el minilogo
bool fading_ = false; // Indica si se está realizando el fade final
bool want_to_pass_ = false; // Indica si el jugador quiere saltarse los titulos de crédito
bool mini_logo_on_position_ = false; // Indica si el minilogo ya se ha quedado en su posición
int initial_volume_ = options.audio.music.volume; // Volumen actual al crear el objeto
int steps_ = 0; // Cantidad de pasos a dar para ir reduciendo el audio
Uint32 ticks_ = 0; // Contador de ticks para ajustar la velocidad del programa
Uint32 ticks_speed_ = 15; // Velocidad del bucle update
Uint32 counter_ = 0; // Contador para la lógica de la clase
Uint32 counter_pre_fade_ = 0; // Contador para activar el fundido final
Uint32 counter_prevent_endless_ = 0; // Contador para evitar que el juego se quede para siempre en los creditos
int black_bars_size_ = (param.game.game_area.rect.h - PLAY_AREA_HEIGHT) / 2; // Tamaño de las barras negras
int mini_logo_final_pos_ = 0; // Ubicación donde se detiene el minilogo
bool fading_ = false; // Indica si se está realizando el fade final
bool want_to_pass_ = false; // Indica si el jugador quiere saltarse los titulos de crédito
bool mini_logo_on_position_ = false; // Indica si el minilogo ya se ha quedado en su posición
int initial_volume_ = options.audio.music.volume; // Volumen actual al crear el objeto
int steps_ = 0; // Cantidad de pasos a dar para ir reduciendo el audio
// Rectangulos
SDL_Rect credits_rect_src_ = param.game.game_area.rect; // Rectangulo con el texto de los créditos (origen)
@@ -44,8 +46,8 @@ private:
param.game.game_area.rect.x,
param.game.game_area.rect.y + black_bars_size_,
param.game.game_area.rect.w,
param.game.game_area.rect.h - black_bars_size_}; // Area visible para los creditos
SDL_Rect top_black_rect_ = {play_area_.x, 0, play_area_.w, black_bars_size_}; // Rectangulo negro superior
PLAY_AREA_HEIGHT}; // Area visible para los creditos
SDL_Rect top_black_rect_ = {play_area_.x, param.game.game_area.rect.y, play_area_.w, black_bars_size_}; // Rectangulo negro superior
SDL_Rect bottom_black_rect_ = {play_area_.x, param.game.game_area.rect.h - black_bars_size_, play_area_.w, black_bars_size_}; // Rectangulo negro inferior
SDL_Rect left_black_rect_ = {play_area_.x, param.game.game_area.center_y - 1, 0, 2}; // Rectangulo negro situado a la izquierda
SDL_Rect right_black_rect_ = {play_area_.x + play_area_.w, param.game.game_area.center_y - 1, 0, 2}; // Rectangulo negro situado a la derecha

130
source/director.cpp
View File

@@ -1,3 +1,4 @@
// IWYU pragma: no_include <bits/chrono.h>
#include "director.h"
#include <SDL2/SDL.h> // Para SDL_Init, SDL_Quit, SDL_INIT_EV...
#include <SDL2/SDL_audio.h> // Para AUDIO_S16
@@ -7,7 +8,7 @@
#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 <bits/chrono.h> // Para duration, system_clock
#include <chrono> // Para duration, system_clock
#include <errno.h> // Para errno, EEXIST, EACCES, ENAMETOO...
#include <stdio.h> // Para printf, perror
#include <sys/stat.h> // Para mkdir, stat, S_IRWXU
@@ -20,7 +21,7 @@
#include <string> // Para operator+, char_traits, allocator
#include <vector> // Para vector
#include "asset.h" // Para Asset, AssetType
#include "credits.h"
#include "credits.h" // Para Credits
#include "dbgtxt.h" // Para dbg_init
#include "game.h" // Para Game, GAME_MODE_DEMO_OFF, GAME_...
#include "global_inputs.h" // Para init
@@ -46,13 +47,6 @@
#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[])
{
@@ -74,42 +68,36 @@ Director::Director(int argc, const char *argv[])
std::cout << "Game start" << std::endl;
initRand();
// Inicia la semilla aleatoria
unsigned int seed = static_cast<unsigned int>(std::chrono::system_clock::now().time_since_epoch().count());
std::srand(seed);
// Comprueba los parametros del programa
checkProgramArguments(argc, argv);
// Crea la carpeta del sistema donde guardar datos
// Crea la carpeta del sistema donde guardar los datos persistentes
createSystemFolder("jailgames");
createSystemFolder("jailgames/coffee_crisis_arcade_edition");
// Crea el objeto que controla los ficheros de recursos
Asset::init(executable_path_);
init();
}
// Crea el indice de ficheros
setFileList();
Director::~Director()
{
close();
std::cout << "\nBye!" << std::endl;
}
// Carga el fichero de configuración
loadOptionsFile(Asset::get()->get("config.txt"));
// Inicializa todo
void Director::init()
{
Asset::init(executable_path_); // Crea el objeto que controla los ficheros de recursos
setFileList(); // Crea el indice de ficheros
loadOptionsFile(Asset::get()->get("config.txt")); // Carga el fichero de configuración
loadParams(); // Carga los parametros
loadScoreFile(); // Carga el fichero de puntuaciones
// Carga los parametros para configurar el juego
#ifdef ANBERNIC
const std::string paramFilePath = asset->get("param_320x240.txt");
#else
const std::string paramFilePath = overrides.param_file == "--320x240" ? Asset::get()->get("param_320x240.txt") : Asset::get()->get("param_320x256.txt");
#endif
loadParamsFromFile(paramFilePath);
// Carga el fichero de puntuaciones
{
auto manager = std::make_unique<ManageHiScoreTable>(options.game.hi_score_table);
if (overrides.clear_hi_score_table)
manager->clear();
else
manager->loadFromFile(Asset::get()->get("score.bin"));
}
// Inicializa todo
// Inicializa y crea el resto de objetos
initSDL();
initJailAudio();
dbg_init(renderer_);
@@ -118,12 +106,12 @@ Director::Director(int argc, const char *argv[])
Resource::init();
Input::init(Asset::get()->get("gamecontrollerdb.txt"));
bindInputs();
Notifier::init(std::string(), Resource::get()->getText("8bithud"), Asset::get()->get("notify.wav"));
Notifier::init(std::string(), Resource::get()->getText("8bithud"));
OnScreenHelp::init();
globalInputs::init();
}
Director::~Director()
// Cierra todo
void Director::close()
{
saveOptionsFile(Asset::get()->get("config.txt"));
@@ -134,12 +122,38 @@ Director::~Director()
Notifier::destroy();
OnScreenHelp::destroy();
JA_Quit();
SDL_DestroyRenderer(renderer_);
SDL_DestroyWindow(window_);
SDL_Quit();
}
std::cout << "\nBye!" << std::endl;
// Carga los parametros
void Director::loadParams()
{
// Carga los parametros para configurar el juego
#ifdef ANBERNIC
const std::string paramFilePath = asset->get("param_320x240.txt");
#else
const std::string paramFilePath = overrides.param_file == "--320x240" ? Asset::get()->get("param_320x240.txt") : Asset::get()->get("param_320x256.txt");
#endif
loadParamsFromFile(paramFilePath);
}
// Carga el fichero de puntuaciones
void Director::loadScoreFile()
{
auto manager = std::make_unique<ManageHiScoreTable>(options.game.hi_score_table);
if (overrides.clear_hi_score_table)
{
manager->clear();
}
else
{
manager->loadFromFile(Asset::get()->get("score.bin"));
}
}
// Asigna los botones y teclas al objeto Input
@@ -166,7 +180,9 @@ void Director::bindInputs()
Input::get()->bindKey(InputType::WINDOW_FULLSCREEN, SDL_SCANCODE_F3);
Input::get()->bindKey(InputType::VIDEO_SHADERS, SDL_SCANCODE_F4);
Input::get()->bindKey(InputType::MUTE, SDL_SCANCODE_F5);
Input::get()->bindKey(InputType::SHOWINFO, SDL_SCANCODE_F6);
Input::get()->bindKey(InputType::AUTO_FIRE, SDL_SCANCODE_F6);
Input::get()->bindKey(InputType::CHANGE_LANG, SDL_SCANCODE_F7);
Input::get()->bindKey(InputType::SHOWINFO, SDL_SCANCODE_F8);
Input::get()->bindKey(InputType::RESET, SDL_SCANCODE_F10);
// Asigna botones a inputs
@@ -280,8 +296,15 @@ bool Director::initSDL()
}
*/
// Obtiene información sobre la pantalla
SDL_DisplayMode DM;
SDL_GetCurrentDisplayMode(0, &DM);
// Calcula el máximo factor de zoom que se puede aplicar a la pantalla
options.video.window.max_size = std::min(DM.w / param.game.width, DM.h / param.game.height);
options.video.window.size = std::min(options.video.window.size, options.video.window.max_size);
// Muestra información sobre el tamaño de la pantalla y de la ventana de juego
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;
@@ -365,6 +388,7 @@ void Director::setFileList()
Asset::get()->add(prefix + "/data/music/credits.ogg", AssetType::MUSIC);
// Sonidos
Asset::get()->add(prefix + "/data/sound/game_start.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/balloon.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/bubble1.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/bubble2.wav", AssetType::SOUND);
@@ -381,9 +405,16 @@ void Director::setFileList()
Asset::get()->add(prefix + "/data/sound/clock.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/powerball.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/notify.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/logo.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/voice_coffee.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/voice_power_up.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/voice_no.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/voice_get_ready.wav", AssetType::SOUND);
Asset::get()->add(prefix + "/data/sound/tabe.wav", AssetType::SOUND);
// Shaders
Asset::get()->add(prefix + "/data/shaders/crtpi.glsl", AssetType::DATA);
Asset::get()->add(prefix + "/data/shaders/crtpi_256.glsl", AssetType::DATA);
Asset::get()->add(prefix + "/data/shaders/crtpi_240.glsl", AssetType::DATA);
// Texturas
@@ -422,6 +453,11 @@ void Director::setFileList()
Asset::get()->add(prefix + "/data/gfx/bullet/bullet.png", AssetType::BITMAP);
}
{ // Tabe
Asset::get()->add(prefix + "/data/gfx/tabe/tabe.png", AssetType::BITMAP);
Asset::get()->add(prefix + "/data/gfx/tabe/tabe.ani", AssetType::ANIMATION);
}
{ // Juego
Asset::get()->add(prefix + "/data/gfx/game/game_buildings.png", AssetType::BITMAP);
Asset::get()->add(prefix + "/data/gfx/game/game_clouds1.png", AssetType::BITMAP);
@@ -655,6 +691,16 @@ void Director::runDemoGame()
game->run();
}
// Ejecuta la sección init
void Director::runInit()
{
if (section::options == section::Options::RELOAD)
{
Resource::get()->reload();
}
section::name = section::Name::LOGO;
}
int Director::run()
{
// Bucle principal
@@ -663,7 +709,7 @@ int Director::run()
switch (section::name)
{
case section::Name::INIT:
section::name = section::Name::LOGO;
runInit();
break;
case section::Name::LOGO:
runLogo();

15
source/director.h
View File

@@ -67,6 +67,9 @@ private:
// Ejecuta el juego en modo demo
void runDemoGame();
// Ejecuta la sección init
void runInit();
// Obtiene una fichero a partir de un lang::Code
std::string getLangFile(lang::Code code);
#ifdef ARCADE
@@ -74,6 +77,18 @@ private:
void shutdownSystem();
#endif
// Inicializa todo
void init();
// Cierra todo
void close();
// Carga los parametros
void loadParams();
// Carga el fichero de puntuaciones
void loadScoreFile();
public:
// Constructor
Director(int argc, const char *argv[]);

79
source/fade.cpp
View File

@@ -100,6 +100,8 @@ void Fade::update()
SDL_RenderFillRect(renderer_, &rect1_);
SDL_RenderFillRect(renderer_, &rect2_);
value_ = calculateValue(0, counter_, i);
}
// Deja el renderizador como estaba
@@ -121,7 +123,6 @@ void Fade::update()
// Dibuja sobre el backbuffer_
auto temp = SDL_GetRenderTarget(renderer_);
SDL_SetRenderTarget(renderer_, backbuffer_);
SDL_SetRenderDrawBlendMode(renderer_, SDL_BLENDMODE_NONE);
SDL_SetRenderDrawColor(renderer_, r_, g_, b_, a_);
@@ -133,12 +134,12 @@ void Fade::update()
SDL_RenderFillRect(renderer_, &square_[index2]);
}
SDL_SetRenderDrawBlendMode(renderer_, SDL_BLENDMODE_BLEND);
// Deja el renderizador como estaba
SDL_SetRenderTarget(renderer_, temp);
}
value_ = calculateValue(0, static_cast<int>(num_squares_width_ * num_squares_height_), static_cast<int>(counter_ * fade_random_squares_mult_ / fade_random_squares_delay_));
// Comprueba si ha terminado
if (counter_ * fade_random_squares_mult_ / fade_random_squares_delay_ >= num_squares_width_ * num_squares_height_)
{
@@ -156,9 +157,11 @@ void Fade::update()
// Dibuja sobre el backbuffer_
auto temp = SDL_GetRenderTarget(renderer_);
SDL_SetRenderTarget(renderer_, backbuffer_);
SDL_SetRenderDrawBlendMode(renderer_, SDL_BLENDMODE_NONE);
SDL_SetRenderDrawColor(renderer_, r_, g_, b_, a_);
for (auto rect : square_)
// Dibuja el cuadrado correspondiente
for (const auto rect : square_)
{
SDL_RenderFillRect(renderer_, &rect);
}
@@ -166,11 +169,12 @@ void Fade::update()
// Deja el renderizador como estaba
SDL_SetRenderTarget(renderer_, temp);
const auto h = counter_ / 3;
for (int i = 0; i < (int)square_.size(); ++i)
// Modifica el tamaño de los rectangulos
const auto h = counter_ / 2;
for (size_t i = 0; i < square_.size(); ++i)
{
// A partir del segundo rectangulo se pinta en función del anterior
square_[i].h = i == 0 ? h : std::max(square_[i - 1].h - 3, 0);
square_.at(i).h = i == 0 ? h : std::max(square_.at(i - 1).h - 2, 0);
}
}
else
@@ -251,12 +255,8 @@ void Fade::activate()
}
// Limpia la textura
auto temp = SDL_GetRenderTarget(renderer_);
SDL_SetRenderTarget(renderer_, backbuffer_);
a_ = mode_ == FadeMode::OUT ? 0 : 255;
SDL_SetRenderDrawColor(renderer_, r_, g_, b_, a_);
SDL_RenderClear(renderer_);
SDL_SetRenderTarget(renderer_, temp);
cleanBackbuffer(r_, g_, b_, a_);
// Deja el color listo para usar
a_ = mode_ == FadeMode::OUT ? 255 : 0;
@@ -266,12 +266,16 @@ void Fade::activate()
case FadeType::VENETIAN:
{
cleanBackbuffer(0, 0, 0, 0);
rect1_ = {0, 0, param.game.width, 0};
square_.clear();
a_ = 255;
// Limpia la textura
a_ = mode_ == FadeMode::OUT ? 0 : 255;
cleanBackbuffer(r_, g_, b_, a_);
// Deja el color listo para usar
a_ = mode_ == FadeMode::OUT ? 255 : 0;
// Añade los cuadrados al vector
square_.clear();
rect1_ = {0, 0, param.game.width, 0};
const int max = param.game.height / param.fade.venetian_size;
for (int i = 0; i < max; ++i)
@@ -285,31 +289,6 @@ void Fade::activate()
}
}
// Comprueba si está activo
bool Fade::isEnabled() const
{
return enabled_;
}
// Comprueba si ha terminado la transicion
bool Fade::hasEnded() const
{
// Ha terminado cuando ha finalizado la transición y se ha deshabilitado
return !enabled_ && finished_;
}
// Establece el tipo de fade
void Fade::setType(FadeType type)
{
type_ = type;
}
// Establece el modo de fade
void Fade::setMode(FadeMode mode)
{
mode_ = mode;
}
// Establece el color del fade
void Fade::setColor(Uint8 r, Uint8 g, Uint8 b)
{
@@ -318,12 +297,6 @@ void Fade::setColor(Uint8 r, Uint8 g, Uint8 b)
b_ = b;
}
// Establece la duración posterior
void Fade::setPost(int value)
{
post_duration_ = value;
}
// Limpia el backbuffer
void Fade::cleanBackbuffer(Uint8 r, Uint8 g, Uint8 b, Uint8 a)
{
@@ -337,4 +310,14 @@ void Fade::cleanBackbuffer(Uint8 r, Uint8 g, Uint8 b, Uint8 a)
// Vuelve a dejar el renderizador como estaba
SDL_SetRenderTarget(renderer_, temp);
}
// Calcula el valor del estado del fade
int Fade::calculateValue(int min, int max, int current)
{
if (max == 0)
{
return 0;
}
return std::clamp(current * 100 / max, 0, 100);
}

27
source/fade.h
View File

@@ -45,6 +45,7 @@ private:
int fade_random_squares_mult_; // Cantidad de cuadrados que se pintaran cada vez
int post_duration_; // Duración posterior del fade tras finalizar
int post_counter_; // Contador para la duración posterior
int value_ = 0; // Estado actual del fade entre 0 y 100
// Inicializa las variables
void init();
@@ -52,6 +53,9 @@ private:
// Limpia el backbuffer
void cleanBackbuffer(Uint8 r, Uint8 g, Uint8 b, Uint8 a);
// Calcula el valor del estado del fade
int calculateValue(int min, int max, int current);
public:
// Constructor
Fade();
@@ -71,21 +75,16 @@ public:
// Activa el fade
void activate();
// Comprueba si ha terminado la transicion
bool hasEnded() const;
// Comprueba si está activo
bool isEnabled() const;
// Establece el tipo de fade
void setType(FadeType type);
// Establece el modo de fade
void setMode(FadeMode mode);
// Establece el color del fade
void setColor(Uint8 r, Uint8 g, Uint8 b);
// Establece la duración posterior
void setPost(int value);
// Getters
int getValue() const { return value_; }
bool isEnabled() const { return enabled_; }
bool hasEnded() const { return !enabled_ && finished_; }
// Setters
void setType(FadeType type) { type_ = type; }
void setMode(FadeMode mode) { mode_ = mode; }
void setPost(int value) { post_duration_ = value; }
};

191
source/game.cpp
View File

@@ -32,6 +32,7 @@
#include "section.h" // Para Name, name, Options, options
#include "smart_sprite.h" // Para SmartSprite
#include "stage.h" // Para number, get, Stage, power, total_p...
#include "tabe.h" // Para Tabe
#include "text.h" // Para Text
#include "texture.h" // Para Texture
struct JA_Sound_t; // lines 37-37
@@ -44,8 +45,10 @@ Game::Game(int player_id, int current_stage, bool demo)
input_(Input::get()),
background_(std::make_unique<Background>()),
canvas_(SDL_CreateTexture(renderer_, SDL_PIXELFORMAT_RGBA8888, SDL_TEXTUREACCESS_TARGET, param.game.play_area.rect.w, param.game.play_area.rect.h)),
fade_(std::make_unique<Fade>()),
balloon_manager_(std::make_unique<BalloonManager>())
fade_in_(std::make_unique<Fade>()),
fade_out_(std::make_unique<Fade>()),
balloon_manager_(std::make_unique<BalloonManager>()),
tabe_(std::make_unique<Tabe>())
{
// Pasa variables
demo_.enabled = demo;
@@ -63,9 +66,15 @@ Game::Game(int player_id, int current_stage, bool demo)
Scoreboard::init();
scoreboard_ = Scoreboard::get();
fade_->setColor(fade_color.r, fade_color.g, fade_color.b);
fade_->setPost(param.fade.post_duration);
fade_->setType(FadeType::VENETIAN);
fade_in_->setColor(fade_color.r, fade_color.g, fade_color.b);
fade_in_->setPost(0);
fade_in_->setType(FadeType::RANDOM_SQUARE);
fade_in_->setMode(FadeMode::IN);
fade_in_->activate();
fade_out_->setColor(fade_color.r, fade_color.g, fade_color.b);
fade_out_->setPost(param.fade.post_duration);
fade_out_->setType(FadeType::VENETIAN);
background_->setPos(param.game.play_area.rect);
@@ -87,24 +96,25 @@ Game::Game(int player_id, int current_stage, bool demo)
Stage::total_power += Stage::get(i).power_to_complete;
}
#endif
// Crea los primeros globos y el mensaje de inicio
if (!demo_.enabled)
{
balloon_manager_->createTwoBigBalloons();
evaluateAndSetMenace();
createMessage({paths_.at(0), paths_.at(1)}, Resource::get()->getTexture("get_ready"));
}
}
Game::~Game()
{
// Guarda las puntuaciones en un fichero
if (!demo_.enabled)
// MODO DEMO
if (demo_.enabled)
{
// Habilita los sonidos
JA_EnableSound(true);
}
// MODO JUEGO
else
{
// Guarda las puntuaciones en un fichero
auto manager = std::make_unique<ManageHiScoreTable>(options.game.hi_score_table);
manager->saveToFile(asset_->get("score.bin"));
section::attract_mode = section::AttractMode::TITLE_TO_DEMO;
}
#ifdef RECORDING
saveDemoFile(Asset::get()->get("demo1.bin"), demo_.data.at(0));
#endif
@@ -213,8 +223,8 @@ void Game::updatePlayers()
if (demo_.enabled && allPlayersAreNotPlaying())
{
fade_->setType(FadeType::RANDOM_SQUARE);
fade_->activate();
fade_out_->setType(FadeType::RANDOM_SQUARE);
fade_out_->activate();
}
}
@@ -253,7 +263,7 @@ void Game::updateStage()
++Stage::number;
JA_PlaySound(Resource::get()->getSound("stage_change.wav"));
balloon_manager_->resetBalloonSpeed();
screen_->flash(flash_color, 100);
screen_->flash(flash_color, 3);
screen_->shake();
// Escribe el texto por pantalla
@@ -262,7 +272,7 @@ void Game::updateStage()
std::vector<Path> paths = {paths_.at(2), paths_.at(3)};
if (Stage::number == 9)
{
createMessage(paths, Resource::get()->getTexture("last_stage"));
createMessage(paths, Resource::get()->getTexture("game_text_last_stage"));
}
else
{
@@ -275,6 +285,27 @@ void Game::updateStage()
}
}
// Actualiza el estado de fade in
void Game::updateFadeInState()
{
if (state_ == GameState::FADE_IN)
{
if (fade_in_->hasEnded())
{
state_ = GameState::PLAYING;
// Crea los primeros globos y el mensaje de inicio
if (!demo_.enabled)
{
balloon_manager_->createTwoBigBalloons();
evaluateAndSetMenace();
createMessage({paths_.at(0), paths_.at(1)}, Resource::get()->getTexture("game_text_get_ready"));
JA_PlaySound(Resource::get()->getSound("voice_get_ready.wav"));
}
}
}
}
// Actualiza el estado de fin de la partida
void Game::updateGameOverState()
{
@@ -283,25 +314,21 @@ void Game::updateGameOverState()
if (game_over_counter_ > 0)
{
if (game_over_counter_ == GAME_OVER_COUNTER_)
createMessage({paths_.at(2), paths_.at(3)}, Resource::get()->getTexture("game_over"));
{
createMessage({paths_.at(2), paths_.at(3)}, Resource::get()->getTexture("game_text_game_over"));
JA_FadeOutMusic(1000);
balloon_manager_->setSounds(true);
}
game_over_counter_--;
if ((game_over_counter_ == 250) || (game_over_counter_ == 200) || (game_over_counter_ == 180) || (game_over_counter_ == 120) || (game_over_counter_ == 60))
{
// Hace sonar aleatoriamente uno de los 4 sonidos de burbujas
const auto index = rand() % 4;
JA_Sound_t *sound[4] = {Resource::get()->getSound("bubble1.wav"), Resource::get()->getSound("bubble2.wav"), Resource::get()->getSound("bubble3.wav"), Resource::get()->getSound("bubble4.wav")};
JA_PlaySound(sound[index], 0);
}
if (game_over_counter_ == 150)
{
fade_->activate();
fade_out_->activate();
}
}
if (fade_->hasEnded())
if (fade_out_->hasEnded())
{
if (game_completed_counter_ > 0)
{
@@ -336,8 +363,8 @@ void Game::updateCompletedState()
// Muestra el mensaje de felicitación y da los puntos a los jugadores
if (game_completed_counter_ == 200)
{
createMessage({paths_.at(4), paths_.at(5)}, Resource::get()->getTexture("congratulations"));
createMessage({paths_.at(6), paths_.at(7)}, Resource::get()->getTexture("1000000_points"));
createMessage({paths_.at(4), paths_.at(5)}, Resource::get()->getTexture("game_text_congratulations"));
createMessage({paths_.at(6), paths_.at(7)}, Resource::get()->getTexture("game_text_1000000_points"));
for (auto &player : players_)
if (player->isPlaying())
@@ -474,6 +501,7 @@ void Game::checkPlayerItemCollision(std::shared_ptr<Player> &player)
(item->getWidth() - game_text_textures_[4]->getWidth()) / 2;
createItemText(x, game_text_textures_[4]);
}
JA_PlaySound(Resource::get()->getSound("voice_coffee.wav"));
break;
}
case ItemType::COFFEE_MACHINE:
@@ -484,6 +512,7 @@ void Game::checkPlayerItemCollision(std::shared_ptr<Player> &player)
item->getPosX() +
(item->getWidth() - game_text_textures_[3]->getWidth()) / 2;
createItemText(x, game_text_textures_[3]);
JA_PlaySound(Resource::get()->getSound("voice_power_up.wav"));
break;
}
default:
@@ -722,7 +751,9 @@ void Game::createMessage(const std::vector<Path> &paths, std::shared_ptr<Texture
// Inicializa
for (const auto &path : paths)
{
path_sprites_.back()->addPath(path, true);
}
path_sprites_.back()->enable();
}
@@ -815,13 +846,12 @@ void Game::killPlayer(std::shared_ptr<Player> &player)
else
{
// Si no tiene cafes, muere
pauseMusic();
// pauseMusic();
balloon_manager_->stopAllBalloons();
JA_PlaySound(Resource::get()->getSound("player_collision.wav"));
screen_->shake();
JA_PlaySound(Resource::get()->getSound("coffeeout.wav"));
JA_PlaySound(Resource::get()->getSound("voice_no.wav"));
player->setPlayingState(PlayerState::DYING);
allPlayersAreNotPlaying() ? stopMusic() : resumeMusic();
}
}
@@ -869,6 +899,7 @@ void Game::update()
checkMusicStatus();
screen_->update();
globalInputs::update();
fillCanvas();
}
}
@@ -911,11 +942,10 @@ void Game::fillCanvas()
renderItems();
renderSmartSprites();
balloon_manager_->render();
tabe_->render();
renderBullets();
renderPathSprites();
renderPlayers();
// dbg_print(0, 40, std::to_string(menace_current_).c_str(), 255, 0, 0);
// dbg_print(0, 50, std::to_string(menace_threshold_).c_str(), 255, 0, 0);
// Deja el renderizador apuntando donde estaba
SDL_SetRenderTarget(renderer_, temp);
@@ -934,7 +964,8 @@ void Game::render()
scoreboard_->render();
// Dibuja el fade
fade_->render();
fade_in_->render();
fade_out_->render();
// Vuelca el contenido del renderizador en pantalla
screen_->blit();
@@ -959,10 +990,11 @@ void Game::disableTimeStopItem()
// Comprueba si la música ha de estar sonando
void Game::checkMusicStatus()
{
// Si la música no está sonando
if (JA_GetMusicState() == JA_MUSIC_INVALID || JA_GetMusicState() == JA_MUSIC_STOPPED)
// Si se ha completado el juego o los jugadores han terminado, detiene la música
state_ == GameState::COMPLETED || allPlayersAreGameOver() ? JA_StopMusic() : JA_PlayMusic(Resource::get()->getMusic("playing.ogg"));
// Si se ha completado el juego o los jugadores han terminado, detiene la música
if (state_ != GameState::COMPLETED && !allPlayersAreGameOver())
{
playMusic();
}
}
// Bucle para el juego
@@ -987,7 +1019,7 @@ void Game::initPaths()
{
// Recorrido para el texto de "Get Ready!" (0,1)
{
const auto &texture = Resource::get()->getTexture("get_ready");
const auto &texture = Resource::get()->getTexture("game_text_get_ready");
const auto w = texture->getWidth();
const int x0 = -w;
const int x1 = param.game.play_area.center_x - w / 2;
@@ -997,10 +1029,9 @@ void Game::initPaths()
paths_.emplace_back(Path(createPath(x1, x2, PathType::HORIZONTAL, y, 80, easeInQuint), 0));
}
// Recorrido para el texto de "Last Stage!" o de "X stages left" o "Game Over"
// (2,3)
// Recorrido para el texto de "Last Stage!" o de "X stages left" o "Game Over" (2,3)
{
const auto &texture = Resource::get()->getTexture("last_stage");
const auto &texture = Resource::get()->getTexture("game_text_last_stage");
const auto h = texture->getHeight();
const int y0 = param.game.play_area.rect.h - h;
const int y1 = param.game.play_area.center_y - h / 2;
@@ -1012,7 +1043,7 @@ void Game::initPaths()
// Recorrido para el texto de "Congratulations!!" (3,4)
{
const auto &texture = Resource::get()->getTexture("congratulations");
const auto &texture = Resource::get()->getTexture("game_text_congratulations");
const auto w = texture->getWidth();
const auto h = texture->getHeight();
const int x0 = -w;
@@ -1025,7 +1056,7 @@ void Game::initPaths()
// Recorrido para el texto de "1.000.000 points!" (5,6)
{
const auto &texture = Resource::get()->getTexture("1000000_points");
const auto &texture = Resource::get()->getTexture("game_text_1000000_points");
const auto w = texture->getWidth();
const auto h = texture->getHeight();
const int x0 = param.game.play_area.rect.w;
@@ -1163,18 +1194,23 @@ void Game::checkEvents()
}
case SDLK_6: // Crea un mensaje
{
createMessage({paths_.at(4), paths_.at(5)}, Resource::get()->getTexture("congratulations"));
createMessage({paths_.at(6), paths_.at(7)}, Resource::get()->getTexture("1000000_points"));
createMessage({paths_.at(2), paths_.at(3)}, Resource::get()->getTexture("game_text_congratulations"));
break;
}
case SDLK_7: // Flash
{
screen_->flash(flash_color, 100);
screen_->flash(flash_color, 3);
break;
}
case SDLK_8:
{
players_.at(0)->setPlayingState(PlayerState::LEAVING_SCREEN);
break;
}
case SDLK_9:
{
tabe_->enable();
break;
}
default:
break;
@@ -1341,7 +1377,8 @@ void Game::handleDemoMode()
if (input_->checkAnyButtonPressed())
{
section::name = section::Name::TITLE; // Salir del modo demo y regresar al menú principal.
section::name = section::Name::TITLE; // Salir del modo demo y regresar al menú principal.
section::attract_mode = section::AttractMode::TITLE_TO_DEMO; // El juego volverá a mostrar la demo
return;
}
++index;
@@ -1690,6 +1727,16 @@ void Game::resumeMusic()
}
}
// Hace sonar la música
void Game::playMusic()
{
// Si la música no está sonando
if (JA_GetMusicState() == JA_MUSIC_INVALID || JA_GetMusicState() == JA_MUSIC_STOPPED)
{
JA_PlayMusic(Resource::get()->getMusic("playing.ogg"));
}
}
// Detiene la música
void Game::stopMusic()
{
@@ -1711,12 +1758,12 @@ void Game::updateDemo()
// Activa el fundido antes de acabar con los datos de la demo
if (demo_.counter == TOTAL_DEMO_DATA - 200)
{
fade_->setType(FadeType::RANDOM_SQUARE);
fade_->activate();
fade_out_->setType(FadeType::RANDOM_SQUARE);
fade_out_->activate();
}
// Si ha terminado el fundido, cambia de sección
if (fade_->hasEnded())
if (fade_out_->hasEnded())
{
section::name = section::Name::HI_SCORE_TABLE;
return;
@@ -1755,15 +1802,18 @@ void Game::updateGame()
Stage::addPower(5);
}
#endif
fade_->update();
fade_in_->update();
fade_out_->update();
updatePlayers();
checkPlayersStatusPlaying();
updateScoreboard();
updateBackground();
balloon_manager_->update();
tabe_->update();
moveBullets();
updateItems();
updateStage();
updateFadeInState();
updateGameOverState();
updateCompletedState();
updateSmartSprites();
@@ -1791,21 +1841,24 @@ void Game::cleanVectors()
// Gestiona el nivel de amenaza
void Game::updateMenace()
{
const auto stage = Stage::get(Stage::number);
const float percent = Stage::power / stage.power_to_complete;
const int difference = stage.max_menace - stage.min_menace;
// Aumenta el nivel de amenaza en función de la puntuación
menace_threshold_ = stage.min_menace + (difference * percent);
// Si el nivel de amenza es inferior al umbral
if (menace_current_ < menace_threshold_)
if (state_ == GameState::PLAYING)
{
// Crea una formación de enemigos
balloon_manager_->deployBalloonFormation(Stage::number);
const auto stage = Stage::get(Stage::number);
const float percent = Stage::power / stage.power_to_complete;
const int difference = stage.max_menace - stage.min_menace;
// Recalcula el nivel de amenaza con el nuevo globo
evaluateAndSetMenace();
// Aumenta el nivel de amenaza en función de la puntuación
menace_threshold_ = stage.min_menace + (difference * percent);
// Si el nivel de amenza es inferior al umbral
if (menace_current_ < menace_threshold_)
{
// Crea una formación de enemigos
balloon_manager_->deployBalloonFormation(Stage::number);
// Recalcula el nivel de amenaza con el nuevo globo
evaluateAndSetMenace();
}
}
}

14
source/game.h
View File

@@ -12,6 +12,7 @@
class Asset; // lines 13-13
class Background; // lines 14-14
class BalloonManager;
class Tabe;
class Bullet; // lines 15-15
class Fade; // lines 16-16
class Input; // lines 17-17
@@ -65,6 +66,7 @@ private:
// Enum
enum class GameState
{
FADE_IN,
PLAYING,
COMPLETED,
GAME_OVER,
@@ -140,8 +142,10 @@ private:
std::vector<std::vector<std::string>> item_animations_; // Vector con las animaciones de los items
std::vector<std::vector<std::string>> player_animations_; // Vector con las animaciones del jugador
std::unique_ptr<Fade> fade_; // Objeto para renderizar fades
std::unique_ptr<Fade> fade_in_; // Objeto para renderizar fades
std::unique_ptr<Fade> fade_out_; // Objeto para renderizar fades
std::unique_ptr<BalloonManager> balloon_manager_; // Objeto para gestionar los globos
std::unique_ptr<Tabe> tabe_; // Objeto para gestionar el Tabe Volaor
std::vector<Path> paths_; // Vector con los recorridos precalculados almacenados
// Variables
@@ -164,7 +168,7 @@ private:
int total_power_to_complete_game_; // La suma del poder necesario para completar todas las fases
int menace_current_ = 0; // Nivel de amenaza actual
int menace_threshold_ = 0; // Umbral del nivel de amenaza. Si el nivel de amenaza cae por debajo del umbral, se generan más globos. Si el umbral aumenta, aumenta el número de globos
GameState state_ = GameState::PLAYING; // Estado
GameState state_ = GameState::FADE_IN; // Estado
#ifdef DEBUG
bool auto_pop_balloons_ = false; // Si es true, incrementa automaticamente los globos explotados
#endif
@@ -193,6 +197,9 @@ private:
// Comprueba si hay cambio de fase y actualiza las variables
void updateStage();
// Actualiza el estado de fade in
void updateFadeInState();
// Actualiza el estado de fin de la partida
void updateGameOverState();
@@ -373,6 +380,9 @@ private:
// Reanuda la música
void resumeMusic();
// Hace sonar la música
void playMusic();
// Detiene la música
void stopMusic();

109
source/game_logo.cpp
View File

@@ -1,4 +1,5 @@
#include "game_logo.h"
#include <SDL2/SDL.h>
#include <SDL2/SDL_render.h> // Para SDL_FLIP_HORIZONTAL
#include <algorithm> // Para max
#include "animated_sprite.h" // Para AnimatedSprite
@@ -8,6 +9,11 @@
#include "smart_sprite.h" // Para SmartSprite
#include "sprite.h" // Para Sprite
#include "texture.h" // Para Texture
#include "screen.h"
constexpr int ZOOM_FACTOR = 5;
constexpr int FLASH_DELAY = 3;
constexpr int FLASH_LENGHT = FLASH_DELAY + 3;
// Constructor
GameLogo::GameLogo(int x, int y)
@@ -15,36 +21,25 @@ GameLogo::GameLogo(int x, int y)
coffee_texture_(Resource::get()->getTexture("title_coffee.png")),
crisis_texture_(Resource::get()->getTexture("title_crisis.png")),
arcade_edition_texture_(Resource::get()->getTexture("title_arcade_edition.png")),
dust_left_sprite_(std::make_unique<AnimatedSprite>(dust_texture_, Resource::get()->getAnimation("title_dust.ani"))),
dust_right_sprite_(std::make_unique<AnimatedSprite>(dust_texture_, Resource::get()->getAnimation("title_dust.ani"))),
coffee_sprite_(std::make_unique<SmartSprite>(coffee_texture_)),
crisis_sprite_(std::make_unique<SmartSprite>(crisis_texture_)),
arcade_edition_sprite_(std::make_unique<Sprite>(arcade_edition_texture_, (param.game.width - arcade_edition_texture_->getWidth()) / 2, param.title.arcade_edition_position, arcade_edition_texture_->getWidth(), arcade_edition_texture_->getHeight())),
x_(x),
y_(y)
{
// Inicializa las variables
init();
}
y_(y) {}
// Inicializa las variables
void GameLogo::init()
{
const auto xp = x_ - coffee_sprite_->getWidth() / 2;
const auto xp = x_ - coffee_texture_->getWidth() / 2;
const auto desp = getInitialVerticalDesp();
// Variables
status_ = Status::DISABLED;
shake_.desp = 1;
shake_.delay = 2;
shake_.lenght = 8;
shake_.remaining = shake_.lenght;
shake_.counter = shake_.delay;
shake_.origin = xp;
coffee_crisis_status_ = Status::DISABLED;
arcade_edition_status_ = Status::DISABLED;
shake_.init(1, 2, 8, xp);
zoom_ = 3.0f * ZOOM_FACTOR;
// Inicializa el bitmap de 'Coffee'
coffee_sprite_->setPosX(xp);
@@ -90,6 +85,9 @@ void GameLogo::init()
dust_left_sprite_->setPosY(y_);
dust_left_sprite_->setWidth(16);
dust_left_sprite_->setHeight(16);
// Inicializa el bitmap de 'Arcade Edition'
arcade_edition_sprite_->setZoom(zoom_);
}
// Pinta la clase en pantalla
@@ -99,8 +97,10 @@ void GameLogo::render()
coffee_sprite_->render();
crisis_sprite_->render();
if (status_ == Status::FINISHED)
if (arcade_edition_status_ != Status::DISABLED)
{
arcade_edition_sprite_->render();
}
// Dibuja el polvillo del logo
dust_right_sprite_->render();
@@ -110,20 +110,22 @@ void GameLogo::render()
// Actualiza la lógica de la clase
void GameLogo::update()
{
switch (status_)
switch (coffee_crisis_status_)
{
case Status::MOVING:
{
coffee_sprite_->update();
crisis_sprite_->update();
// Si los objetos han llegado a su destino, cambiamos de Sección
// Si los objetos han llegado a su destino, cambia el estado
if (coffee_sprite_->hasFinished() && crisis_sprite_->hasFinished())
{
status_ = Status::SHAKING;
coffee_crisis_status_ = Status::SHAKING;
// Reproduce el efecto sonoro
JA_PlaySound(Resource::get()->getSound("title.wav"));
Screen::get()->flash(Color(0xFF, 0xFF, 0xFF), FLASH_LENGHT, FLASH_DELAY);
Screen::get()->shake();
}
break;
@@ -131,7 +133,7 @@ void GameLogo::update()
case Status::SHAKING:
{
// Agita el logo
// Agita "COFFEE CRISIS"
if (shake_.remaining > 0)
{
if (shake_.counter > 0)
@@ -151,7 +153,8 @@ void GameLogo::update()
{
coffee_sprite_->setPosX(shake_.origin);
crisis_sprite_->setPosX(shake_.origin + 15);
status_ = Status::FINISHED;
coffee_crisis_status_ = Status::FINISHED;
arcade_edition_status_ = Status::MOVING;
}
dust_right_sprite_->update();
@@ -171,19 +174,74 @@ void GameLogo::update()
default:
break;
}
switch (arcade_edition_status_)
{
case Status::MOVING:
{
zoom_ -= 0.1f * ZOOM_FACTOR;
arcade_edition_sprite_->setZoom(zoom_);
if (zoom_ <= 1.0f)
{
arcade_edition_status_ = Status::SHAKING;
zoom_ = 1.0f;
arcade_edition_sprite_->setZoom(zoom_);
shake_.init(1, 2, 8, arcade_edition_sprite_->getX());
JA_PlaySound(Resource::get()->getSound("title.wav"));
Screen::get()->flash(Color(0xFF, 0xFF, 0xFF), FLASH_LENGHT, FLASH_DELAY);
Screen::get()->shake();
}
break;
}
case Status::SHAKING:
{
// Agita "ARCADE EDITION"
if (shake_.remaining > 0)
{
if (shake_.counter > 0)
{
shake_.counter--;
}
else
{
shake_.counter = shake_.delay;
const auto desp = shake_.remaining % 2 == 0 ? shake_.desp * (-1) : shake_.desp;
arcade_edition_sprite_->setX(shake_.origin + desp);
shake_.remaining--;
}
}
else
{
arcade_edition_sprite_->setX(shake_.origin);
arcade_edition_status_ = Status::FINISHED;
}
break;
}
default:
break;
}
if (coffee_crisis_status_ == Status::FINISHED &&
arcade_edition_status_ == Status::FINISHED &&
post_finished_counter_ > 0)
{
--post_finished_counter_;
}
}
// Activa la clase
void GameLogo::enable()
{
init();
status_ = Status::MOVING;
coffee_crisis_status_ = Status::MOVING;
}
// Indica si ha terminado la animación
bool GameLogo::hasFinished() const
{
return status_ == Status::FINISHED;
return post_finished_counter_ == 0;
}
// Recarga las texturas
@@ -192,6 +250,7 @@ void GameLogo::reLoad()
dust_texture_->reLoad();
coffee_texture_->reLoad();
crisis_texture_->reLoad();
arcade_edition_texture_->reLoad();
}
// Calcula el desplazamiento vertical inicial

41
source/game_logo.h
View File

@@ -20,12 +20,30 @@ private:
struct Shake
{
int desp; // Pixels de desplazamiento para agitar la pantalla en el eje x
int delay; // Retraso entre cada desplazamiento de la pantalla al agitarse
int counter; // Contador para el retraso
int lenght; // Cantidad de desplazamientos a realizar
int remaining; // Cantidad de desplazamientos pendientes a realizar
int origin; // Valor inicial de la pantalla para dejarla igual tras el desplazamiento
int desp = 1; // Pixels de desplazamiento para agitar la pantalla en el eje x
int delay = 2; // Retraso entre cada desplazamiento de la pantalla al agitarse
int lenght = 8; // Cantidad de desplazamientos a realizar
int remaining = lenght; // Cantidad de desplazamientos pendientes a realizar
int counter = delay; // Contador para el retraso
int origin; // Valor inicial de la pantalla para dejarla igual tras el desplazamiento
// Constructor por defect
Shake() = default;
// Constructor
Shake(int d, int de, int l, int o)
: desp(d), delay(de), lenght(l), remaining(l), counter(de), origin(o) {}
// Inicializa los miembros
void init(int d, int de, int l, int o)
{
desp = d;
delay = de;
lenght = l;
remaining = l;
counter = de;
origin = o;
}
};
// Objetos y punteros
@@ -43,11 +61,14 @@ private:
std::unique_ptr<Sprite> arcade_edition_sprite_; // Sprite con los graficos de "Arcade Edition"
// Variables
int x_; // Posición donde dibujar el logo
int y_; // Posición donde dibujar el logo
int x_; // Posición donde dibujar el logo
int y_; // Posición donde dibujar el logo
float zoom_; // Zoom aplicado al texto "ARCADE EDITION"
int post_finished_counter_ = 1; // Contador final una vez terminada las animaciones de los logos
Status status_; // Estado en el que se encuentra la clase
Shake shake_; // Estructura para generar el efecto de agitación
Status coffee_crisis_status_ = Status::DISABLED; // Estado en el que se encuentra el texto "COFFEE CRISIS"
Status arcade_edition_status_ = Status::DISABLED; // Estado en el que se encuentra el texto "ARCADE_EDITION"
Shake shake_; // Estructura para generar el efecto de agitación
// Inicializa las variables
void init();

126
source/global_inputs.cpp
View File

@@ -1,6 +1,7 @@
#include "global_inputs.h"
#include <string> // Para operator+, string
#include "input.h" // Para Input, InputType, INPUT_DO_NOT_ALLOW_REPEAT
#include <string> // Para operator+, string
#include "input.h" // Para Input, InputType, INPUT_DO_NOT_ALLOW_REPEAT
#include "asset.h"
#include "jail_audio.h" // Para JA_EnableMusic, JA_EnableSound
#include "lang.h" // Para getText
#include "notifier.h" // Para Notifier
@@ -13,18 +14,8 @@
namespace globalInputs
{
// Variables
std::vector<int> service_pressed_counter;
// Inicializa variables
void init()
{
const auto num_inputs = Input::get()->getNumControllers() + 1;
service_pressed_counter.reserve(num_inputs);
for (int i = 0; i < num_inputs; ++i)
{
service_pressed_counter.push_back(0);
}
}
int service_pressed_counter = 0;
bool service_pressed = false;
// Termina
void quit(section::Options code)
@@ -33,11 +24,13 @@ namespace globalInputs
auto code_found = stringInVector(Notifier::get()->getCodes(), exit_code);
if (code_found)
{
// Si la notificación de salir está activa, cambia de sección
section::name = section::Name::QUIT;
section::options = code;
}
else
{
// Si la notificación de salir no está activa, muestra la notificación
#ifdef ARCADE
const int index = code == section::Options::QUIT_WITH_CONTROLLER ? 116 : 94;
Notifier::get()->showText({lang::getText(index), std::string()}, -1, exit_code);
@@ -71,6 +64,57 @@ namespace globalInputs
Notifier::get()->showText({"Audio " + boolToOnOff(options.audio.enabled)});
}
// Obtiene una fichero a partir de un lang::Code
std::string getLangFile(lang::Code code)
{
switch (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;
default:
return Asset::get()->get("en_UK.txt");
break;
}
}
// Obtiene una cadena a partir de un lang::Code
std::string getLangName(lang::Code code)
{
switch (code)
{
case lang::Code::ba_BA:
return "ba_BA";
break;
case lang::Code::es_ES:
return "es_ES";
break;
default:
return "en_UK";
break;
}
}
// Cambia el idioma
void changeLang()
{
options.game.language = lang::change(options.game.language);
lang::loadFromFile(getLangFile(static_cast<lang::Code>(options.game.language)));
section::name = section::Name::INIT;
section::options = section::Options::RELOAD;
Notifier::get()->showText({getLangName(options.game.language)});
}
// Cambia el modo de disparo
void toggleFireMode()
{
options.game.autofire = !options.game.autofire;
Notifier::get()->showText({"Autofire " + boolToOnOff(options.game.autofire)});
}
// Comprueba los inputs que se pueden introducir en cualquier sección del juego
void check()
{
@@ -125,6 +169,20 @@ namespace globalInputs
return;
}
// Autofire
if (Input::get()->checkInput(InputType::AUTO_FIRE, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
toggleFireMode();
return;
}
// Idioma
if (Input::get()->checkInput(InputType::CHANGE_LANG, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
changeLang();
return;
}
// Shaders
if (Input::get()->checkInput(InputType::VIDEO_SHADERS, INPUT_DO_NOT_ALLOW_REPEAT, InputDeviceToUse::KEYBOARD))
{
@@ -143,17 +201,9 @@ namespace globalInputs
// 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[0] = 0;
}
service_pressed = true;
return;
}
service_pressed_counter[0] = 0;
}
// Mandos
@@ -203,18 +253,30 @@ namespace globalInputs
// 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;
}
service_pressed = true;
return;
}
service_pressed_counter[i + 1] = 0;
}
}
}
// Actualiza variables
void update()
{
if (service_pressed)
{
++service_pressed_counter;
if (service_pressed_counter >= 200)
{
OnScreenHelp::get()->toggleState();
service_pressed_counter = 0;
}
}
else
{
service_pressed_counter = 0;
}
service_pressed = false;
}
}

9
source/global_inputs.h
View File

@@ -1,11 +1,12 @@
#include <vector>
namespace globalInputs
{
extern std::vector<int> service_pressed_counter;
// Inicializa variables
void init();
extern int service_pressed_counter;
extern bool service_pressed;
// Comprueba los inputs que se pueden introducir en cualquier sección del juego
void check();
// Actualiza variables
void update();
}

6
source/hiscore_table.cpp
View File

@@ -77,6 +77,9 @@ void HiScoreTable::update()
// Actualiza el objeto screen
Screen::get()->update();
// Actualiza las variables de globalInputs
globalInputs::update();
// Actualiza el fondo
background_->update();
@@ -202,9 +205,10 @@ void HiScoreTable::checkInput()
// Comprueba si se ha pulsado cualquier botón (de los usados para jugar)
if (Input::get()->checkAnyButtonPressed())
{
JA_StopMusic();
//JA_StopMusic();
section::name = section::Name::TITLE;
section::options = section::Options::TITLE_1;
section::attract_mode = section::AttractMode::TITLE_TO_DEMO;
return;
}

2
source/input.h
View File

@@ -40,9 +40,11 @@ enum class InputType : int
VIDEO_SHADERS,
RESET,
MUTE,
CHANGE_LANG,
SHOWINFO,
CONFIG,
SWAP_CONTROLLERS,
AUTO_FIRE,
// Input obligatorio
NONE,

6
source/instructions.cpp
View File

@@ -216,6 +216,9 @@ void Instructions::update()
// Actualiza el objeto screen
Screen::get()->update();
// Actualiza las variables de globalInputs
globalInputs::update();
// Incrementa el contador
counter_++;
@@ -307,9 +310,10 @@ void Instructions::checkInput()
// Comprueba si se ha pulsado cualquier botón (de los usados para jugar)
if (Input::get()->checkAnyButtonPressed())
{
JA_StopMusic();
//JA_StopMusic();
section::name = section::Name::TITLE;
section::options = section::Options::TITLE_1;
section::attract_mode = section::AttractMode::TITLE_TO_DEMO;
return;
}

4
source/intro.cpp
View File

@@ -382,6 +382,9 @@ void Intro::update()
// Actualiza las escenas de la intro
updateScenes();
// Actualiza las variables de globalInputs
globalInputs::update();
}
}
@@ -413,7 +416,6 @@ void Intro::render()
void Intro::run()
{
JA_PlayMusic(Resource::get()->getMusic("intro.ogg"), 0);
while (section::name == section::Name::INTRO)
{
checkInput();

390
source/jail_audio.cpp
View File

@@ -1,91 +1,92 @@
#ifndef JA_USESDLMIXER
#include "jail_audio.h"
#include <stdint.h> // para uint8_t
#include <stdio.h> // para NULL, fseek, fclose, fopen, fread, ftell, FILE
#include <stdlib.h> // para free, malloc
#include "stb_vorbis.c" // para stb_vorbis_decode_memory
#include "stb_vorbis.c"
#include <SDL2/SDL.h>
#include <stdio.h>
#define JA_MAX_SIMULTANEOUS_CHANNELS 5
#define JA_MAX_SIMULTANEOUS_CHANNELS 20
struct JA_Sound_t
{
Uint32 length{0};
Uint8 *buffer{NULL};
struct JA_Sound_t {
Uint32 length {0};
Uint8* buffer {NULL};
};
struct JA_Channel_t
{
JA_Sound_t *sound;
int pos{0};
int times{0};
JA_Channel_state state{JA_CHANNEL_FREE};
struct JA_Channel_t {
JA_Sound_t *sound;
int pos {0};
int times {0};
JA_Channel_state state { JA_CHANNEL_FREE };
};
struct JA_Music_t
{
int samples{0};
int pos{0};
int times{0};
short *output{NULL};
JA_Music_state state{JA_MUSIC_INVALID};
struct JA_Music_t {
int samples {0};
Uint32 length {0};
int pos {0};
int times {0};
short* output {NULL};
JA_Music_state state {JA_MUSIC_INVALID};
};
JA_Music_t *current_music{NULL};
JA_Channel_t channels[JA_MAX_SIMULTANEOUS_CHANNELS];
JA_Music_t *current_music{NULL};
JA_Channel_t channels[JA_MAX_SIMULTANEOUS_CHANNELS];
int JA_freq{48000};
SDL_AudioFormat JA_format{AUDIO_S16};
Uint8 JA_channels{2};
int JA_musicVolume = 128;
int JA_soundVolume = 64;
bool JA_musicEnabled = true;
bool JA_soundEnabled = true;
int JA_freq {48000};
SDL_AudioFormat JA_format {AUDIO_S16};
Uint8 JA_channels {2};
int JA_musicVolume = 128;
int JA_soundVolume = 64;
bool JA_musicEnabled = true;
bool JA_soundEnabled = true;
SDL_AudioDeviceID sdlAudioDevice = 0;
void audioCallback(void *userdata, uint8_t *stream, int len)
{
bool fading = false;
int fade_start_time;
int fade_duration;
int fade_initial_volume;
void audioCallback(void * userdata, uint8_t * stream, int len) {
SDL_memset(stream, 0, len);
if (current_music != NULL && current_music->state == JA_MUSIC_PLAYING)
{
const int size = SDL_min(len, current_music->samples * 2 - current_music->pos);
SDL_MixAudioFormat(stream, (Uint8 *)(current_music->output + current_music->pos), AUDIO_S16, size, JA_musicVolume);
current_music->pos += size / 2;
if (size < len)
{
if (current_music->times != 0)
{
SDL_MixAudioFormat(stream + size, (Uint8 *)current_music->output, AUDIO_S16, len - size, JA_musicVolume);
current_music->pos = (len - size) / 2;
if (current_music->times > 0)
current_music->times--;
if (current_music != NULL && current_music->state == JA_MUSIC_PLAYING) {
int volume = JA_musicVolume;
if (fading) {
int time = SDL_GetTicks();
if (time > (fade_start_time+fade_duration)) {
fading = false;
current_music->pos = 0;
current_music->state = JA_MUSIC_STOPPED;
volume = 0;
} else {
const int time_passed = time - fade_start_time;
const float percent = (float)time_passed / (float)fade_duration;
volume = JA_musicVolume * (1.0 - percent);
}
else
{
}
const int size = SDL_min(len, current_music->length - current_music->pos);
SDL_MixAudioFormat(stream, (Uint8*)(current_music->output)+current_music->pos, AUDIO_S16, size, volume);
current_music->pos += size;
if (size < len) {
if (current_music->times != 0) {
SDL_MixAudioFormat(stream+size, (Uint8*)current_music->output, AUDIO_S16, len-size, volume);
current_music->pos = len-size;
if (current_music->times > 0) current_music->times--;
} else {
current_music->pos = 0;
current_music->state = JA_MUSIC_STOPPED;
}
}
}
// Mixar els channels mi amol
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++)
{
if (channels[i].state == JA_CHANNEL_PLAYING)
{
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++) {
if (channels[i].state == JA_CHANNEL_PLAYING) {
const int size = SDL_min(len, channels[i].sound->length - channels[i].pos);
SDL_MixAudioFormat(stream, channels[i].sound->buffer + channels[i].pos, AUDIO_S16, size, JA_soundVolume);
channels[i].pos += size;
if (size < len)
{
if (channels[i].times != 0)
{
SDL_MixAudioFormat(stream + size, channels[i].sound->buffer, AUDIO_S16, len - size, JA_soundVolume);
channels[i].pos = len - size;
if (channels[i].times > 0)
channels[i].times--;
}
else
{
if (size < len) {
if (channels[i].times != 0) {
SDL_MixAudioFormat(stream + size, channels[i].sound->buffer, AUDIO_S16, len-size, JA_soundVolume);
channels[i].pos = len-size;
if (channels[i].times > 0) channels[i].times--;
} else {
JA_StopChannel(i);
}
}
@@ -95,69 +96,84 @@ void audioCallback(void *userdata, uint8_t *stream, int len)
void JA_Init(const int freq, const SDL_AudioFormat format, const int channels)
{
#ifdef DEBUG
SDL_LogSetPriority(SDL_LOG_CATEGORY_APPLICATION, SDL_LOG_PRIORITY_DEBUG);
#endif
SDL_Log("Iniciant JailAudio...");
JA_freq = freq;
JA_format = format;
JA_channels = channels;
SDL_AudioSpec audioSpec{JA_freq, JA_format, JA_channels, 0, 1024, 0, 0, audioCallback, NULL};
if (sdlAudioDevice != 0)
SDL_CloseAudioDevice(sdlAudioDevice);
if (sdlAudioDevice != 0) SDL_CloseAudioDevice(sdlAudioDevice);
sdlAudioDevice = SDL_OpenAudioDevice(NULL, 0, &audioSpec, NULL, 0);
if (sdlAudioDevice==0)
{
SDL_Log("FAILED!\n");
SDL_Log("Failed to initialize SDL audio!\n");
} else {
SDL_Log("OK!\n");
}
SDL_PauseAudioDevice(sdlAudioDevice, 0);
}
void JA_Quit()
{
void JA_Quit() {
SDL_PauseAudioDevice(sdlAudioDevice, 1);
if (sdlAudioDevice != 0)
SDL_CloseAudioDevice(sdlAudioDevice);
if (sdlAudioDevice != 0) SDL_CloseAudioDevice(sdlAudioDevice);
sdlAudioDevice = 0;
}
JA_Music_t *JA_LoadMusic(const char *filename)
JA_Music_t *JA_LoadMusic(Uint8* buffer, Uint32 length)
{
int chan, samplerate;
// [RZC 28/08/22] Carreguem primer el arxiu en memòria i després el descomprimim. Es algo més rapid.
FILE *f = fopen(filename, "rb");
fseek(f, 0, SEEK_END);
long fsize = ftell(f);
fseek(f, 0, SEEK_SET);
Uint8 *buffer = (Uint8 *)malloc(fsize + 1);
if (fread(buffer, fsize, 1, f) != 1)
return NULL;
fclose(f);
JA_Music_t *music = new JA_Music_t();
music->samples = stb_vorbis_decode_memory(buffer, fsize, &chan, &samplerate, &music->output);
free(buffer);
music->samples = stb_vorbis_decode_memory(buffer, length, &chan, &samplerate, &music->output);
// [RZC 28/08/22] Abans el descomprimiem mentre el teniem obert
// music->samples = stb_vorbis_decode_filename(filename, &chan, &samplerate, &music->output);
// music->samples = stb_vorbis_decode_filename(filename, &chan, &samplerate, &music->output);
SDL_AudioCVT cvt;
SDL_BuildAudioCVT(&cvt, AUDIO_S16, chan, samplerate, JA_format, JA_channels, JA_freq);
if (cvt.needed)
{
SDL_Log("Music length: %f\n", float(music->samples)/float(JA_freq));
if (cvt.needed) {
cvt.len = music->samples * chan * 2;
cvt.buf = (Uint8 *)SDL_malloc(cvt.len * cvt.len_mult);
music->length = cvt.len;
cvt.buf = (Uint8 *) SDL_malloc(cvt.len * cvt.len_mult);
SDL_memcpy(cvt.buf, music->output, cvt.len);
SDL_ConvertAudio(&cvt);
free(music->output);
music->output = (short *)cvt.buf;
music->output = (short*)cvt.buf;
}
music->length = music->samples * chan * 2;
music->pos = 0;
music->state = JA_MUSIC_STOPPED;
return music;
}
JA_Music_t *JA_LoadMusic(const char* filename)
{
// [RZC 28/08/22] Carreguem primer el arxiu en memòria i després el descomprimim. Es algo més rapid.
FILE *f = fopen(filename, "rb");
fseek(f, 0, SEEK_END);
long fsize = ftell(f);
fseek(f, 0, SEEK_SET);
Uint8 *buffer = (Uint8*)malloc(fsize + 1);
if (fread(buffer, fsize, 1, f)!=1) return NULL;
fclose(f);
JA_Music_t *music = JA_LoadMusic(buffer, fsize);
free(buffer);
return music;
}
void JA_PlayMusic(JA_Music_t *music, const int loop)
{
if (!JA_musicEnabled || !music)
return;
if (!JA_musicEnabled) return;
if (current_music != NULL)
{
if (current_music != NULL) {
current_music->pos = 0;
current_music->state = JA_MUSIC_STOPPED;
}
@@ -169,78 +185,108 @@ void JA_PlayMusic(JA_Music_t *music, const int loop)
void JA_PauseMusic()
{
if (!JA_musicEnabled)
return;
if (!JA_musicEnabled) return;
if (current_music == NULL || current_music->state == JA_MUSIC_INVALID)
return;
if (current_music == NULL || current_music->state == JA_MUSIC_INVALID) return;
current_music->state = JA_MUSIC_PAUSED;
}
void JA_ResumeMusic()
{
if (!JA_musicEnabled)
return;
if (!JA_musicEnabled) return;
if (current_music == NULL || current_music->state == JA_MUSIC_INVALID)
return;
if (current_music == NULL || current_music->state == JA_MUSIC_INVALID) return;
current_music->state = JA_MUSIC_PLAYING;
}
void JA_StopMusic()
{
if (!JA_musicEnabled)
return;
if (!JA_musicEnabled) return;
if (current_music == NULL || current_music->state == JA_MUSIC_INVALID)
return;
if (current_music == NULL || current_music->state == JA_MUSIC_INVALID) return;
current_music->pos = 0;
current_music->state = JA_MUSIC_STOPPED;
}
JA_Music_state JA_GetMusicState()
void JA_FadeOutMusic(const int milliseconds)
{
if (!JA_musicEnabled)
return JA_MUSIC_DISABLED;
if (!JA_musicEnabled) return;
if (current_music == NULL || current_music->state == JA_MUSIC_INVALID) return;
if (current_music == NULL)
return JA_MUSIC_INVALID;
fading = true;
fade_start_time = SDL_GetTicks();
fade_duration = milliseconds;
fade_initial_volume = JA_musicVolume;
}
JA_Music_state JA_GetMusicState() {
if (!JA_musicEnabled) return JA_MUSIC_DISABLED;
if (current_music == NULL) return JA_MUSIC_INVALID;
return current_music->state;
}
void JA_DeleteMusic(JA_Music_t *music)
{
if (current_music == music)
current_music = NULL;
void JA_DeleteMusic(JA_Music_t *music) {
if (current_music == music) current_music = NULL;
free(music->output);
delete music;
}
int JA_SetMusicVolume(int volume)
{
JA_musicVolume = volume > 128 ? 128 : volume < 0 ? 0
: volume;
JA_musicVolume = volume > 128 ? 128 : volume < 0 ? 0 : volume;
return JA_musicVolume;
}
void JA_SetMusicPosition(float value)
{
if (!current_music) return;
current_music->pos = value * JA_freq;
}
float JA_GetMusicPosition()
{
if (!current_music) return 0;
return float(current_music->pos)/float(JA_freq);
}
void JA_EnableMusic(const bool value)
{
if (!value && current_music != NULL && current_music->state == JA_MUSIC_PLAYING)
JA_StopMusic();
if (!value && current_music != NULL && current_music->state==JA_MUSIC_PLAYING) JA_StopMusic();
JA_musicEnabled = value;
}
JA_Sound_t *JA_NewSound(Uint8 *buffer, Uint32 length)
{
JA_Sound_t *JA_NewSound(Uint8* buffer, Uint32 length) {
JA_Sound_t *sound = new JA_Sound_t();
sound->buffer = buffer;
sound->length = length;
return sound;
}
JA_Sound_t *JA_LoadSound(const char *filename)
{
JA_Sound_t *JA_LoadSound(uint8_t* buffer, uint32_t size) {
JA_Sound_t *sound = new JA_Sound_t();
SDL_AudioSpec wavSpec;
SDL_LoadWAV_RW(SDL_RWFromMem(buffer, size),1, &wavSpec, &sound->buffer, &sound->length);
SDL_AudioCVT cvt;
SDL_BuildAudioCVT(&cvt, wavSpec.format, wavSpec.channels, wavSpec.freq, JA_format, JA_channels, JA_freq);
cvt.len = sound->length;
cvt.buf = (Uint8 *) SDL_malloc(cvt.len * cvt.len_mult);
SDL_memcpy(cvt.buf, sound->buffer, sound->length);
SDL_ConvertAudio(&cvt);
SDL_FreeWAV(sound->buffer);
sound->buffer = cvt.buf;
sound->length = cvt.len_cvt;
return sound;
}
JA_Sound_t *JA_LoadSound(const char* filename) {
JA_Sound_t *sound = new JA_Sound_t();
SDL_AudioSpec wavSpec;
SDL_LoadWAV(filename, &wavSpec, &sound->buffer, &sound->length);
@@ -248,7 +294,7 @@ JA_Sound_t *JA_LoadSound(const char *filename)
SDL_AudioCVT cvt;
SDL_BuildAudioCVT(&cvt, wavSpec.format, wavSpec.channels, wavSpec.freq, JA_format, JA_channels, JA_freq);
cvt.len = sound->length;
cvt.buf = (Uint8 *)SDL_malloc(cvt.len * cvt.len_mult);
cvt.buf = (Uint8 *) SDL_malloc(cvt.len * cvt.len_mult);
SDL_memcpy(cvt.buf, sound->buffer, sound->length);
SDL_ConvertAudio(&cvt);
SDL_FreeWAV(sound->buffer);
@@ -260,16 +306,24 @@ JA_Sound_t *JA_LoadSound(const char *filename)
int JA_PlaySound(JA_Sound_t *sound, const int loop)
{
if (!JA_soundEnabled || !sound)
return 0;
if (!JA_soundEnabled) return -1;
int channel = 0;
while (channel < JA_MAX_SIMULTANEOUS_CHANNELS && channels[channel].state != JA_CHANNEL_FREE)
{
channel++;
}
if (channel == JA_MAX_SIMULTANEOUS_CHANNELS)
channel = 0;
while (channel < JA_MAX_SIMULTANEOUS_CHANNELS && channels[channel].state != JA_CHANNEL_FREE) { channel++; }
if (channel == JA_MAX_SIMULTANEOUS_CHANNELS) channel = 0;
channels[channel].sound = sound;
channels[channel].times = loop;
channels[channel].pos = 0;
channels[channel].state = JA_CHANNEL_PLAYING;
return channel;
}
int JA_PlaySoundOnChannel(JA_Sound_t *sound, const int channel, const int loop)
{
if (!JA_soundEnabled) return -1;
if (channel >= JA_MAX_SIMULTANEOUS_CHANNELS) return -1;
channels[channel].sound = sound;
channels[channel].times = loop;
@@ -280,10 +334,8 @@ int JA_PlaySound(JA_Sound_t *sound, const int loop)
void JA_DeleteSound(JA_Sound_t *sound)
{
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++)
{
if (channels[i].sound == sound)
JA_StopChannel(i);
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++) {
if (channels[i].sound == sound) JA_StopChannel(i);
}
SDL_free(sound->buffer);
delete sound;
@@ -291,60 +343,41 @@ void JA_DeleteSound(JA_Sound_t *sound)
void JA_PauseChannel(const int channel)
{
if (!JA_soundEnabled)
return;
if (!JA_soundEnabled) return;
if (channel == -1)
{
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++)
{
if (channels[i].state == JA_CHANNEL_PLAYING)
channels[i].state = JA_CHANNEL_PAUSED;
if (channel == -1) {
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++) {
if (channels[i].state == JA_CHANNEL_PLAYING) channels[i].state = JA_CHANNEL_PAUSED;
}
}
else if (channel >= 0 && channel < JA_MAX_SIMULTANEOUS_CHANNELS)
{
if (channels[channel].state == JA_CHANNEL_PLAYING)
channels[channel].state = JA_CHANNEL_PAUSED;
} else if (channel >= 0 && channel < JA_MAX_SIMULTANEOUS_CHANNELS) {
if (channels[channel].state == JA_CHANNEL_PLAYING) channels[channel].state = JA_CHANNEL_PAUSED;
}
}
void JA_ResumeChannel(const int channel)
{
if (!JA_soundEnabled)
return;
if (!JA_soundEnabled) return;
if (channel == -1)
{
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++)
{
if (channels[i].state == JA_CHANNEL_PAUSED)
channels[i].state = JA_CHANNEL_PLAYING;
if (channel == -1) {
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++) {
if (channels[i].state == JA_CHANNEL_PAUSED) channels[i].state = JA_CHANNEL_PLAYING;
}
}
else if (channel >= 0 && channel < JA_MAX_SIMULTANEOUS_CHANNELS)
{
if (channels[channel].state == JA_CHANNEL_PAUSED)
channels[channel].state = JA_CHANNEL_PLAYING;
} else if (channel >= 0 && channel < JA_MAX_SIMULTANEOUS_CHANNELS) {
if (channels[channel].state == JA_CHANNEL_PAUSED) channels[channel].state = JA_CHANNEL_PLAYING;
}
}
void JA_StopChannel(const int channel)
{
if (!JA_soundEnabled)
return;
if (!JA_soundEnabled) return;
if (channel == -1)
{
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++)
{
if (channel == -1) {
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++) {
channels[i].state = JA_CHANNEL_FREE;
channels[i].pos = 0;
channels[i].sound = NULL;
}
}
else if (channel >= 0 && channel < JA_MAX_SIMULTANEOUS_CHANNELS)
{
} else if (channel >= 0 && channel < JA_MAX_SIMULTANEOUS_CHANNELS) {
channels[channel].state = JA_CHANNEL_FREE;
channels[channel].pos = 0;
channels[channel].sound = NULL;
@@ -353,18 +386,15 @@ void JA_StopChannel(const int channel)
JA_Channel_state JA_GetChannelState(const int channel)
{
if (!JA_soundEnabled)
return JA_SOUND_DISABLED;
if (!JA_soundEnabled) return JA_SOUND_DISABLED;
if (channel < 0 || channel >= JA_MAX_SIMULTANEOUS_CHANNELS)
return JA_CHANNEL_INVALID;
if (channel < 0 || channel >= JA_MAX_SIMULTANEOUS_CHANNELS) return JA_CHANNEL_INVALID;
return channels[channel].state;
}
int JA_SetSoundVolume(int volume)
{
JA_soundVolume = volume > 128 ? 128 : volume < 0 ? 0
: volume;
JA_soundVolume = volume > 128 ? 128 : volume < 0 ? 0 : volume;
return JA_soundVolume;
}
@@ -372,17 +402,15 @@ void JA_EnableSound(const bool value)
{
for (int i = 0; i < JA_MAX_SIMULTANEOUS_CHANNELS; i++)
{
if (channels[i].state == JA_CHANNEL_PLAYING)
JA_StopChannel(i);
if (channels[i].state == JA_CHANNEL_PLAYING) JA_StopChannel(i);
}
JA_soundEnabled = value;
}
int JA_SetVolume(int volume)
{
JA_musicVolume = volume > 128 ? 128 : volume < 0 ? 0
: volume;
JA_soundVolume = JA_musicVolume / 2;
JA_musicVolume = volume > 128 ? 128 : volume < 0 ? 0 : volume;
JA_soundVolume = JA_musicVolume/2;
return JA_musicVolume;
}

37
source/jail_audio.h
View File

@@ -1,43 +1,34 @@
#pragma once
#include <SDL2/SDL.h>
#include <SDL2/SDL_audio.h> // para SDL_AudioFormat
#include <SDL2/SDL_stdinc.h> // para Uint32, Uint8
struct JA_Music_t; // lines 5-5
struct JA_Sound_t; // lines 6-6
enum JA_Channel_state { JA_CHANNEL_INVALID, JA_CHANNEL_FREE, JA_CHANNEL_PLAYING, JA_CHANNEL_PAUSED, JA_SOUND_DISABLED };
enum JA_Music_state { JA_MUSIC_INVALID, JA_MUSIC_PLAYING, JA_MUSIC_PAUSED, JA_MUSIC_STOPPED, JA_MUSIC_DISABLED };
enum JA_Channel_state
{
JA_CHANNEL_INVALID,
JA_CHANNEL_FREE,
JA_CHANNEL_PLAYING,
JA_CHANNEL_PAUSED,
JA_SOUND_DISABLED
};
enum JA_Music_state
{
JA_MUSIC_INVALID,
JA_MUSIC_PLAYING,
JA_MUSIC_PAUSED,
JA_MUSIC_STOPPED,
JA_MUSIC_DISABLED
};
struct JA_Sound_t;
struct JA_Music_t;
void JA_Init(const int freq, const SDL_AudioFormat format, const int channels);
void JA_Quit();
JA_Music_t *JA_LoadMusic(const char *filename);
JA_Music_t *JA_LoadMusic(const char* filename);
JA_Music_t *JA_LoadMusic(Uint8* buffer, Uint32 length);
void JA_PlayMusic(JA_Music_t *music, const int loop = -1);
void JA_PauseMusic();
void JA_ResumeMusic();
void JA_StopMusic();
void JA_FadeOutMusic(const int milliseconds);
JA_Music_state JA_GetMusicState();
void JA_DeleteMusic(JA_Music_t *music);
int JA_SetMusicVolume(int volume);
void JA_SetMusicPosition(float value);
float JA_GetMusicPosition();
void JA_EnableMusic(const bool value);
JA_Sound_t *JA_NewSound(Uint8 *buffer, Uint32 length);
JA_Sound_t *JA_LoadSound(const char *filename);
JA_Sound_t *JA_NewSound(Uint8* buffer, Uint32 length);
JA_Sound_t *JA_LoadSound(Uint8* buffer, Uint32 length);
JA_Sound_t *JA_LoadSound(const char* filename);
int JA_PlaySound(JA_Sound_t *sound, const int loop = 0);
int JA_PlaySoundOnChannel(JA_Sound_t *sound, const int channel, const int loop = 0);
void JA_PauseChannel(const int channel);
void JA_ResumeChannel(const int channel);
void JA_StopChannel(const int channel);

8
source/lang.cpp
View File

@@ -40,4 +40,12 @@ namespace lang
{
return texts.at(index);
}
// Cambia el idioma seleccionado al siguiente idioma disponible
Code change(Code current_lang)
{
auto index = static_cast<int>(current_lang);
index = (index + 1) % 3;
return static_cast<Code>(index);
}
}

3
source/lang.h
View File

@@ -16,4 +16,7 @@ namespace lang
// Obtiene la cadena de texto del indice
std::string getText(int index);
// Cambia el idioma seleccionado al siguiente idioma disponible
Code change(Code current_lang);
}

12
source/logo.cpp
View File

@@ -59,6 +59,7 @@ Logo::~Logo()
{
jail_texture_->setColor(255, 255, 255);
since_texture_->setColor(255, 255, 255);
JA_StopChannel(-1);
}
// Recarga todas las texturas
@@ -100,7 +101,6 @@ void Logo::checkInput()
// Comprueba si se ha pulsado cualquier botón (de los usados para jugar)
if (Input::get()->checkAnyButtonPressed())
{
JA_StopMusic();
section::name = section::Name::TITLE;
section::options = section::Options::TITLE_1;
return;
@@ -113,6 +113,11 @@ void Logo::checkInput()
// Gestiona el logo de JAILGAME
void Logo::updateJAILGAMES()
{
if (counter_ == 30)
{
JA_PlaySound(Resource::get()->getSound("logo.wav"));
}
if (counter_ > 30)
{
for (int i = 0; i < (int)jail_sprite_.size(); ++i)
@@ -195,6 +200,9 @@ void Logo::update()
{
section::name = section::Name::INTRO;
}
// Actualiza las variables de globalInputs
globalInputs::update();
}
}
@@ -226,7 +234,7 @@ void Logo::render()
void Logo::run()
{
// Detiene la música
JA_StopMusic();
JA_FadeOutMusic(300);
while (section::name == section::Name::LOGO)
{

21
source/notifier.cpp
View File

@@ -10,14 +10,15 @@
#include "sprite.h" // Para Sprite
#include "text.h" // Para Text
#include "texture.h" // Para Texture
#include "resource.h"
// [SINGLETON] Hay que definir las variables estáticas, desde el .h sólo la hemos declarado
Notifier *Notifier::notifier_ = nullptr;
// [SINGLETON] Crearemos el objeto screen con esta función estática
void Notifier::init(const std::string &icon_file, std::shared_ptr<Text> text, const std::string &sound_file)
void Notifier::init(const std::string &icon_file, std::shared_ptr<Text> text)
{
Notifier::notifier_ = new Notifier(icon_file, text, sound_file);
Notifier::notifier_ = new Notifier(icon_file, text);
}
// [SINGLETON] Destruiremos el objeto screen con esta función estática
@@ -33,21 +34,14 @@ Notifier *Notifier::get()
}
// Constructor
Notifier::Notifier(std::string icon_file, std::shared_ptr<Text> text, const std::string &sound_file)
Notifier::Notifier(std::string icon_file, std::shared_ptr<Text> text)
: renderer_(Screen::get()->getRenderer()),
icon_texture_(!icon_file.empty() ? std::make_unique<Texture>(renderer_, icon_file) : nullptr),
text_(text),
bg_color_(param.notification.color),
wait_time_(150),
stack_(false),
has_icons_(!icon_file.empty()),
sound_(JA_LoadSound(sound_file.c_str())) {}
// Destructor
Notifier::~Notifier()
{
JA_DeleteSound(sound_);
}
has_icons_(!icon_file.empty()) {}
// Dibuja las notificaciones por pantalla
void Notifier::render()
@@ -80,8 +74,9 @@ void Notifier::update()
if (param.notification.sound)
{
if (notifications_[i].status == NotificationStatus::RISING)
{ // Reproduce el sonido de la notificación
JA_PlaySound(sound_);
{
// Reproduce el sonido de la notificación
JA_PlaySound(Resource::get()->getSound("notify.wav"));
}
}
}

7
source/notifier.h
View File

@@ -62,7 +62,6 @@ private:
std::vector<Notification> notifications_; // La lista de notificaciones activas
bool stack_; // Indica si las notificaciones se apilan
bool has_icons_; // Indica si el notificador tiene textura para iconos
JA_Sound_t *sound_; // Sonido a reproducir cuando suena la notificación
// Elimina las notificaciones finalizadas
void clearFinishedNotifications();
@@ -73,14 +72,14 @@ private:
// [SINGLETON] Ahora el constructor y el destructor son privados, para no poder crear objetos notifier desde fuera
// Constructor
Notifier(std::string icon_file, std::shared_ptr<Text> text, const std::string &sound_file);
Notifier(std::string icon_file, std::shared_ptr<Text> text);
// Destructor
~Notifier();
~Notifier() = default;
public:
// [SINGLETON] Crearemos el objeto notifier con esta función estática
static void init(const std::string &icon_file, std::shared_ptr<Text> text, const std::string &sound_file);
static void init(const std::string &icon_file, std::shared_ptr<Text> text);
// [SINGLETON] Destruiremos el objeto notifier con esta función estática
static void destroy();

3
source/options.h
View File

@@ -23,7 +23,8 @@ enum class GameDifficulty
// Estructura para las opciones de la ventana
struct OptionsWindow
{
int size; // Contiene el valor por el que se multiplica el tamaño de la ventana
int size = 1; // Contiene el valor por el que se multiplica el tamaño de la ventana
int max_size = 1; // Tamaño máximo para que el tamaño de la ventana no sea mayor que el tamaño de la pantalla
};
// Estructura con opciones para el video

5
source/player.cpp
View File

@@ -8,6 +8,8 @@
#include "param.h" // Para Param, ParamGame, param
#include "scoreboard.h" // Para Scoreboard, ScoreboardMode
#include "texture.h" // Para Texture
#include "resource.h"
#include "jail_audio.h"
// Constructor
Player::Player(int id, float x, int y, bool demo, SDL_Rect &play_area, std::vector<std::shared_ptr<Texture>> texture, const std::vector<std::vector<std::string>> &animations)
@@ -175,6 +177,7 @@ void Player::move()
if ((player_sprite_->getPosX() < play_area_.x) || (player_sprite_->getPosX() + WIDTH_ > play_area_.w))
{
player_sprite_->setVelX(-player_sprite_->getVelX());
JA_PlaySound(Resource::get()->getSound("bubble4.wav"));
}
// Si el cadaver toca el suelo cambia el estado
@@ -188,6 +191,7 @@ void Player::move()
pos_y_ = default_pos_y_;
player_sprite_->clear();
shiftSprite();
JA_PlaySound(Resource::get()->getSound("bubble4.wav"));
}
else
{
@@ -195,6 +199,7 @@ void Player::move()
player_sprite_->setPosY(play_area_.h - HEIGHT_);
player_sprite_->setVelY(player_sprite_->getVelY() * -0.5f);
player_sprite_->setVelX(player_sprite_->getVelX() * 0.75f);
JA_PlaySound(Resource::get()->getSound("bubble4.wav"));
}
}
break;

65
source/resource.cpp
View File

@@ -34,6 +34,24 @@ Resource *Resource::get()
// Constructor
Resource::Resource()
{
load();
}
// Vacia todos los vectores de recursos
void Resource::clear()
{
clearSounds();
clearMusics();
textures_.clear();
text_files_.clear();
texts_.clear();
animations_.clear();
demos_.clear();
}
// Carga todos los recursos
void Resource::load()
{
std::cout << "** LOADING RESOURCES" << std::endl;
loadSounds();
@@ -48,6 +66,13 @@ Resource::Resource()
std::cout << "\n** RESOURCES LOADED" << std::endl;
}
// Recarga todos los recursos
void Resource::reload()
{
clear();
load();
}
// Obtiene el sonido a partir de un nombre
JA_Sound_t *Resource::getSound(const std::string &name)
{
@@ -265,7 +290,7 @@ void Resource::createTextures()
NameAndText("game_text_powerup", lang::getText(117)),
NameAndText("game_text_one_hit", lang::getText(118)),
NameAndText("game_text_stop", lang::getText(119)),
NameAndText("1000000_points", lang::getText(76))};
NameAndText("game_text_1000000_points", lang::getText(76))};
auto text = getText("04b_25");
for (const auto &s : strings)
@@ -276,10 +301,10 @@ void Resource::createTextures()
// Tamaño doble
std::vector<NameAndText> strings2X = {
NameAndText("get_ready", lang::getText(75)),
NameAndText("last_stage", lang::getText(79)),
NameAndText("congratulations", lang::getText(50)),
NameAndText("game_over", "Game Over")};
NameAndText("game_text_get_ready", lang::getText(75)),
NameAndText("game_text_last_stage", lang::getText(79)),
NameAndText("game_text_congratulations", lang::getText(50)),
NameAndText("game_text_game_over", "Game Over")};
auto text2 = getText("04b_25_2x");
for (const auto &s : strings2X)
@@ -307,3 +332,33 @@ void Resource::createText()
printWithDots("Text : ", resource.first, "[ DONE ]");
}
}
// Vacía el vector de sonidos
void Resource::clearSounds()
{
// Itera sobre el vector y libera los recursos asociados a cada JA_Sound_t
for (auto &sound : sounds_)
{
if (sound.sound)
{
JA_DeleteSound(sound.sound);
sound.sound = nullptr;
}
}
sounds_.clear(); // Limpia el vector después de liberar todos los recursos
}
// Vacía el vector de musicas
void Resource::clearMusics()
{
// Itera sobre el vector y libera los recursos asociados a cada JA_Music_t
for (auto &music : musics_)
{
if (music.music)
{
JA_DeleteMusic(music.music);
music.music = nullptr;
}
}
musics_.clear(); // Limpia el vector después de liberar todos los recursos
}

15
source/resource.h
View File

@@ -117,6 +117,18 @@ private:
// Crea los objetos de texto
void createText();
// Vacia todos los vectores de recursos
void clear();
// Carga todos los recursos
void load();
// Vacía el vector de sonidos
void clearSounds();
// Vacía el vector de musicas
void clearMusics();
// [SINGLETON] Ahora el constructor y el destructor son privados, para no poder crear objetos resource desde fuera
// Constructor
@@ -155,4 +167,7 @@ public:
// Obtiene el fichero con los datos para el modo demostración a partir de un çindice
DemoData &getDemoData(int index);
// Recarga todos los recursos
void reload();
};

32
source/screen.cpp
View File

@@ -88,10 +88,10 @@ void Screen::blit()
fps_counter_++;
// Actualiza y dibuja el efecto de flash en la pantalla
doFlash();
renderFlash();
// Atenua la pantalla
doAttenuate();
renderAttenuate();
// Muestra la ayuda por pantalla
OnScreenHelp::get()->render();
@@ -200,7 +200,8 @@ void Screen::setVideoMode(ScreenVideoMode videoMode)
if (options.video.shaders)
{
#ifndef NO_SHADERS
std::ifstream f(Asset::get()->get("crtpi.glsl").c_str());
const std::string glsl_file = param.game.game_area.rect.h == 256 ? "crtpi_256.glsl" : "crtpi_240.glsl";
std::ifstream f(Asset::get()->get(glsl_file).c_str());
std::string source((std::istreambuf_iterator<char>(f)), std::istreambuf_iterator<char>());
shader::init(window_, shader_canvas_, source.c_str());
@@ -234,7 +235,7 @@ void Screen::decWindowSize()
void Screen::incWindowSize()
{
++options.video.window.size;
options.video.window.size = std::min(options.video.window.size, 4);
options.video.window.size = std::min(options.video.window.size, options.video.window.max_size);
setVideoMode(ScreenVideoMode::WINDOW);
}
@@ -254,6 +255,7 @@ void Screen::setBlendMode(SDL_BlendMode blendMode)
void Screen::update()
{
updateShakeEffect();
updateFlash();
Notifier::get()->update();
updateFPS();
OnScreenHelp::get()->update();
@@ -306,27 +308,29 @@ void Screen::updateShakeEffect()
}
// Pone la pantalla de color
void Screen::flash(Color color, int lenght)
void Screen::flash(Color color, int lenght, int delay)
{
flash_effect_ = FlashEffect(true, lenght, color);
flash_effect_ = FlashEffect(true, lenght, delay, color);
}
// Actualiza y dibuja el efecto de flash en la pantalla
void Screen::doFlash()
void Screen::renderFlash()
{
if (flash_effect_.enabled)
if (flash_effect_.isRendarable())
{
// Dibuja el color del flash en la textura
SDL_SetRenderDrawColor(renderer_, flash_effect_.color.r, flash_effect_.color.g, flash_effect_.color.b, 0xFF);
SDL_RenderClear(renderer_);
// Actualiza la lógica del efecto
flash_effect_.counter > 0 ? flash_effect_.counter-- : flash_effect_.enabled = false;
}
}
// Actualiza el efecto de flash
void Screen::updateFlash()
{
flash_effect_.update();
}
// Atenua la pantalla
void Screen::doAttenuate()
void Screen::renderAttenuate()
{
if (attenuate_effect_)
{
@@ -386,7 +390,7 @@ void Screen::renderInfo()
dbg_print(0, 0, info_resolution_.c_str(), 255, 255, 0);
// Contador de service_pressed_counter
if (const int counter = globalInputs::service_pressed_counter[0]; counter > 0)
if (const int counter = globalInputs::service_pressed_counter; counter > 0)
dbg_print(0, 8, std::to_string(counter).c_str(), 255, 0, 255);
}
}

23
source/screen.h
View File

@@ -51,12 +51,20 @@ private:
struct FlashEffect
{
bool enabled; // Indica si el efecto está activo
int lenght; // Duración del efecto
int delay; // Frames iniciales en los que no se aplica
int counter; // Contador para el efecto
Color color; // Color del efecto
// Constructor
explicit FlashEffect(bool en = false, int cnt = 0, Color col = Color(0xFF, 0xFF, 0xFF))
: enabled(en), counter(cnt), color(col) {}
explicit FlashEffect(bool enabled = false, int lenght = 0, int delay = 0, Color color = Color(0xFF, 0xFF, 0xFF))
: enabled(enabled), lenght(lenght), delay(delay), counter(lenght), color(color) {}
// Actualiza
void update() { (enabled && counter > 0) ? counter-- : enabled = false; }
// Indica si se pude dibujar
bool isRendarable() { return enabled && counter < lenght - delay; }
};
struct ShakeEffect
@@ -82,11 +90,14 @@ private:
// Actualiza la logica para agitar la pantalla
void updateShakeEffect();
// Actualiza y dibuja el efecto de flash en la pantalla
void doFlash();
// Dibuja el efecto de flash en la pantalla
void renderFlash();
// Actualiza el efecto de flash
void updateFlash();
// Atenua la pantalla
void doAttenuate();
void renderAttenuate();
// Calcula los frames por segundo
void updateFPS();
@@ -152,7 +163,7 @@ public:
void shake();
// Pone la pantalla de color
void flash(Color color, int lenght);
void flash(Color color, int lenght, int delay = 0);
// Activa / desactiva los shaders
void toggleShaders();

3
source/section.h
View File

@@ -27,7 +27,8 @@ namespace section
QUIT_WITH_KEYBOARD = 4,
QUIT_WITH_CONTROLLER = 5,
QUIT_FROM_EVENT = 6,
NONE = 7,
RELOAD = 7,
NONE = 8,
};
// Variables para el Attract Mode

104
source/sprite.cpp
View File

@@ -19,31 +19,7 @@ Sprite::Sprite(std::shared_ptr<Texture> texture)
// Muestra el sprite por pantalla
void Sprite::render()
{
texture_->render(pos_.x, pos_.y, &sprite_clip_);
}
// Obten el valor de la variable
int Sprite::getX() const
{
return pos_.x;
}
// Obten el valor de la variable
int Sprite::getY() const
{
return pos_.y;
}
// Obten el valor de la variable
int Sprite::getWidth() const
{
return pos_.w;
}
// Obten el valor de la variable
int Sprite::getHeight() const
{
return pos_.h;
texture_->render(pos_.x, pos_.y, &sprite_clip_, zoom_, zoom_);
}
// Establece la posición del objeto
@@ -60,84 +36,6 @@ void Sprite::setPosition(SDL_Point p)
pos_.y = p.y;
}
// Establece la posición del objeto
void Sprite::setPosition(SDL_Rect r)
{
pos_ = r;
}
// Establece el valor de la variable
void Sprite::setX(int x)
{
pos_.x = x;
}
// Establece el valor de la variable
void Sprite::setY(int y)
{
pos_.y = y;
}
// Establece el valor de la variable
void Sprite::setWidth(int w)
{
pos_.w = w;
}
// Establece el valor de la variable
void Sprite::setHeight(int h)
{
pos_.h = h;
}
// Obten el valor de la variable
SDL_Rect Sprite::getSpriteClip() const
{
return sprite_clip_;
}
// Establece el valor de la variable
void Sprite::setSpriteClip(SDL_Rect rect)
{
sprite_clip_ = rect;
}
// Establece el valor de la variable
void Sprite::setSpriteClip(int x, int y, int w, int h)
{
sprite_clip_ = (SDL_Rect){x, y, w, h};
}
// Obten el valor de la variable
std::shared_ptr<Texture> Sprite::getTexture() const
{
return texture_;
}
// Establece el valor de la variable
void Sprite::setTexture(std::shared_ptr<Texture> texture)
{
texture_ = texture;
}
// Devuelve el rectangulo donde está el sprite
SDL_Rect Sprite::getPosition() const
{
return pos_;
}
// Incrementa el valor de la variable
void Sprite::incX(int value)
{
pos_.x += value;
}
// Incrementa el valor de la variable
void Sprite::incY(int value)
{
pos_.y += value;
}
// Reinicia las variables a cero
void Sprite::clear()
{

52
source/sprite.h
View File

@@ -12,6 +12,7 @@ protected:
std::shared_ptr<Texture> texture_; // Textura donde estan todos los dibujos del sprite
SDL_Rect pos_; // Posición y tamaño donde dibujar el sprite
SDL_Rect sprite_clip_; // Rectangulo de origen de la textura que se dibujará en pantalla
double zoom_ = 1.0f; // Zoom aplicado a la textura
public:
// Constructor
@@ -28,40 +29,43 @@ public:
// Reinicia las variables a cero
virtual void clear();
// Obten el valor de la variable
int getX() const;
int getY() const;
int getWidth() const;
int getHeight() const;
// Obtiene la posición y el tamaño
int getX() const { return pos_.x; }
int getY() const { return pos_.y; }
int getWidth() const { return pos_.w; }
int getHeight() const { return pos_.h; }
// Devuelve el rectangulo donde está el sprite
SDL_Rect getPosition() const;
SDL_Rect getPosition() const { return pos_; }
// Establece el valor de la variable
void setX(int x);
void setY(int y);
void setWidth(int w);
void setHeight(int h);
// Establece la posición y el tamaño
void setX(int x) { pos_.x = x; }
void setY(int y) { pos_.y = y; }
void setWidth(int w) { pos_.w = w; }
void setHeight(int h) { pos_.h = h; }
// Establece la posición del objeto
void setPosition(int x, int y);
void setPosition(SDL_Point p);
void setPosition(SDL_Rect r);
void setPosition(SDL_Rect r) { pos_ = r; }
// Incrementa el valor de la variable
void incX(int value);
void incY(int value);
// Establece el nivel de zoom
void setZoom(float zoom) { zoom_ = zoom; }
// Obten el valor de la variable
SDL_Rect getSpriteClip() const;
// Aumenta o disminuye la posición
void incX(int value) { pos_.x += value; }
void incY(int value) { pos_.y += value; }
// Establece el valor de la variable
void setSpriteClip(SDL_Rect rect);
void setSpriteClip(int x, int y, int w, int h);
// Obtiene el rectangulo que se dibuja de la textura
SDL_Rect getSpriteClip() const { return sprite_clip_; }
// Obten el valor de la variable
std::shared_ptr<Texture> getTexture() const;
// Establece el rectangulo que se dibuja de la textura
void setSpriteClip(SDL_Rect rect) { sprite_clip_ = rect; }
void setSpriteClip(int x, int y, int w, int h) { sprite_clip_ = (SDL_Rect){x, y, w, h}; }
// Establece el valor de la variable
void setTexture(std::shared_ptr<Texture> texture);
// Obtiene un puntero a la textura
std::shared_ptr<Texture> getTexture() const { return texture_; }
// Establece la textura a utilizar
void setTexture(std::shared_ptr<Texture> texture) { texture_ = texture; }
};

145
source/tabe.cpp Normal file
View File

@@ -0,0 +1,145 @@
#include "tabe.h"
#include "resource.h"
#include "param.h"
#include "jail_audio.h"
#include <algorithm>
// Constructor
Tabe::Tabe()
: sprite_(std::make_unique<AnimatedSprite>(Resource::get()->getTexture("tabe.png"), Resource::get()->getAnimation("tabe.ani"))) {}
// Actualiza la lógica
void Tabe::update()
{
if (enabled_)
{
sprite_->update();
move();
}
}
// Dibuja el objeto
void Tabe::render()
{
if (enabled_)
{
sprite_->render();
}
}
// Mueve el objeto
void Tabe::move()
{
const int x = static_cast<int>(x_);
speed_ += accel_;
x_ += speed_;
fly_distance_ -= std::abs(x - static_cast<int>(x_));
// Comprueba si sale por los bordes
const float min_x = param.game.game_area.rect.x - WIDTH_;
const float max_x = param.game.game_area.rect.x + param.game.game_area.rect.w;
switch (destiny_)
{
case TabeDirection::TO_THE_LEFT:
{
if (x_ < min_x)
{
enabled_ = false;
}
if (x_ > param.game.game_area.rect.x + param.game.game_area.rect.w - WIDTH_ && direction_ == TabeDirection::TO_THE_RIGHT)
{
setRandomFlyPath(TabeDirection::TO_THE_LEFT, 80);
x_ = param.game.game_area.rect.x + param.game.game_area.rect.w - WIDTH_;
}
break;
}
case TabeDirection::TO_THE_RIGHT:
{
if (x_ > max_x)
{
enabled_ = false;
}
if (x_ < param.game.game_area.rect.x && direction_ == TabeDirection::TO_THE_LEFT)
{
setRandomFlyPath(TabeDirection::TO_THE_RIGHT, 80);
x_ = param.game.game_area.rect.x;
}
break;
}
default:
break;
}
if (fly_distance_ <= 0)
{
if (waiting_counter_ > 0)
{
accel_ = speed_ = 0.0f;
--waiting_counter_;
}
else
{
constexpr int CHOICES = 4;
const TabeDirection left[CHOICES] = {TabeDirection::TO_THE_LEFT, TabeDirection::TO_THE_LEFT, TabeDirection::TO_THE_LEFT, TabeDirection::TO_THE_RIGHT};
const TabeDirection right[CHOICES] = {TabeDirection::TO_THE_LEFT, TabeDirection::TO_THE_RIGHT, TabeDirection::TO_THE_RIGHT, TabeDirection::TO_THE_RIGHT};
const TabeDirection direction = destiny_ == TabeDirection::TO_THE_LEFT ? left[rand() % CHOICES] : right[rand() % CHOICES];
setRandomFlyPath(direction, 20 + rand() % 40);
}
}
shiftSprite();
}
// Habilita el objeto
void Tabe::enable()
{
if (!enabled_)
{
enabled_ = true;
y_ = 20.0f;
// Establece una dirección aleatoria
destiny_ = direction_ = rand() % 2 == 0 ? TabeDirection::TO_THE_LEFT : TabeDirection::TO_THE_RIGHT;
// Establece la posición inicial
x_ = (direction_ == TabeDirection::TO_THE_LEFT) ? param.game.game_area.rect.x + param.game.game_area.rect.w : param.game.game_area.rect.x - WIDTH_;
// Crea una ruta de vuelo
setRandomFlyPath(direction_, 60);
shiftSprite();
}
}
// Establece un vuelo aleatorio
void Tabe::setRandomFlyPath(TabeDirection direction, int lenght)
{
direction_ = direction;
fly_distance_ = lenght;
waiting_counter_ = 5 + rand() % 15;
JA_PlaySound(Resource::get()->getSound("tabe.wav"));
constexpr float SPEED = 2.0f;
switch (direction)
{
case TabeDirection::TO_THE_LEFT:
{
speed_ = -1.0f * SPEED;
accel_ = -1.0f * (1 + rand() % 10) / 30.0f;
sprite_->setFlip(SDL_FLIP_NONE);
break;
}
case TabeDirection::TO_THE_RIGHT:
{
speed_ = SPEED;
accel_ = (1 + rand() % 10) / 30.0f;
sprite_->setFlip(SDL_FLIP_HORIZONTAL);
break;
}
default:
break;
}
}

58
source/tabe.h Normal file
View File

@@ -0,0 +1,58 @@
#pragma once
#include "animated_sprite.h"
#include <memory>
enum class TabeDirection : int
{
TO_THE_LEFT = 0,
TO_THE_RIGHT = 1,
};
// Clase Tabe
class Tabe
{
private:
// Constantes
static constexpr int WIDTH_ = 32;
static constexpr int HEIGHT_ = 32;
// Punteros
std::unique_ptr<AnimatedSprite> sprite_; // Sprite con los graficos y animaciones
// Variables
float x_ = 0; // Posición del objeto
float y_ = 0; // Posición del objeto
float speed_ = 0.0f; // Velocidad de movimiento del objeto
float accel_ = 0.0f; // Aceleración del objeto
int fly_distance_ = 0; // Distancia de vuelo
int waiting_counter_ = 0; // Tiempo que pasa quieto el objeto
bool enabled_ = false; // Indica si el objeto está activo
TabeDirection direction_; // Dirección del objeto
TabeDirection destiny_; // Destino del objeto
// Mueve el objeto
void move();
// Actualiza la posición del sprite
void shiftSprite() { sprite_->setPos(x_, y_); }
// Establece un vuelo aleatorio
void setRandomFlyPath(TabeDirection direction, int lenght);
public:
// Constructor
Tabe();
// Destructor
~Tabe() = default;
// Actualiza la lógica
void update();
// Dibuja el objeto
void render();
// Habilita el objeto
void enable();
};

2
source/text.cpp
View File

@@ -161,12 +161,14 @@ std::shared_ptr<Texture> Text::writeToTexture(const std::string &text, int zoom,
auto texture = std::make_shared<Texture>(renderer);
auto width = lenght(text, kerning) * zoom;
auto height = box_height_ * zoom;
auto temp = SDL_GetRenderTarget(renderer);
texture->createBlank(width, height, SDL_PIXELFORMAT_RGBA8888, SDL_TEXTUREACCESS_TARGET);
texture->setBlendMode(SDL_BLENDMODE_BLEND);
texture->setAsRenderTarget(renderer);
SDL_SetRenderDrawColor(renderer, 0, 0, 0, 0);
SDL_RenderClear(renderer);
zoom == 1 ? write(0, 0, text, kerning) : write2X(0, 0, text, kerning);
SDL_SetRenderTarget(renderer, temp);
return texture;
}

12
source/texture.cpp
View File

@@ -190,8 +190,16 @@ void Texture::render(int x, int y, SDL_Rect *clip, float zoomW, float zoomH, dou
renderQuad.h = clip->h;
}
renderQuad.w = renderQuad.w * zoomW;
renderQuad.h = renderQuad.h * zoomH;
// Calcula el zoom y las coordenadas
if (zoomH != 1.0f || zoomW != 1.0f)
{
renderQuad.x = renderQuad.x + (renderQuad.w / 2);
renderQuad.y = renderQuad.y + (renderQuad.h / 2);
renderQuad.w = renderQuad.w * zoomW;
renderQuad.h = renderQuad.h * zoomH;
renderQuad.x = renderQuad.x - (renderQuad.w / 2);
renderQuad.y = renderQuad.y - (renderQuad.h / 2);
}
// Renderiza a pantalla
SDL_RenderCopyEx(renderer_, texture_, clip, &renderQuad, angle, center, flip);

94
source/title.cpp
View File

@@ -31,9 +31,10 @@ Title::Title()
fade_(std::make_unique<Fade>()),
tiled_bg_(std::make_unique<TiledBG>(param.game.game_area.rect, TiledBGMode::RANDOM)),
game_logo_(std::make_unique<GameLogo>(param.game.game_area.center_x, param.title.title_c_c_position)),
mini_logo_sprite_(std::make_unique<Sprite>(Resource::get()->getTexture("logo_jailgames_mini.png"))),
mini_logo_sprite_(std::make_unique<Sprite>(Resource::get()->getTexture("logo_jailgames_mini.png"))),
define_buttons_(std::make_unique<DefineButtons>()),
num_controllers_(Input::get()->getNumControllers())
num_controllers_(Input::get()->getNumControllers()),
state_(TitleState::LOGO_ANIMATING)
{
// Configura objetos
game_logo_->enable();
@@ -54,6 +55,7 @@ Title::Title()
Title::~Title()
{
Resource::get()->getTexture("smb2.gif")->setPalette(0);
JA_StopChannel(-1);
}
// Actualiza las variables del objeto
@@ -69,7 +71,10 @@ void Title::update()
// Actualiza el objeto screen
Screen::get()->update();
// Comprueba el fade_ y si se ha acabado
// Actualiza las variables de globalInputs
globalInputs::update();
// Comprueba el fundido
fade_->update();
if (fade_->hasEnded())
{
@@ -85,18 +90,19 @@ void Title::update()
}
}
// Sección 1 - Titulo animandose
if (section::options == section::Options::TITLE_1)
// Establece la lógica según el estado
switch (state_)
{
case TitleState::LOGO_ANIMATING:
{
game_logo_->update();
if (game_logo_->hasFinished())
{
section::options = section::Options::TITLE_2;
state_ = TitleState::LOGO_FINISHED;
}
break;
}
// Sección 2 - La pantalla con el titulo, el fondo animado y la música
else if (section::options == section::Options::TITLE_2)
case TitleState::LOGO_FINISHED:
{
// El contador solo sube si no estamos definiendo botones
counter_ = define_buttons_->isEnabled() ? 0 : counter_ + 1;
@@ -118,6 +124,27 @@ void Title::update()
fade_->activate();
post_fade_ = -1;
}
break;
}
case TitleState::START_HAS_BEEN_PRESSED:
{
// Actualiza el logo con el título del juego
game_logo_->update();
// Actualiza el mosaico de fondo
tiled_bg_->update();
if (counter_ == 100)
{
fade_->activate();
}
++counter_;
break;
}
default:
break;
}
}
}
@@ -137,16 +164,10 @@ void Title::render()
// Dibuja el logo con el título del juego
game_logo_->render();
if (section::options == section::Options::TITLE_2)
constexpr Color shadow = Color(0x14, 0x87, 0xc4);
if (state_ != TitleState::LOGO_ANIMATING)
{
constexpr Color shadow = Color(0x14, 0x87, 0xc4);
// 'PRESS TO PLAY'
if (counter_ % 50 > 14 && !define_buttons_->isEnabled())
{
text_->writeDX(TEXT_CENTER | TEXT_SHADOW, param.game.game_area.center_x, param.title.press_start_position, lang::getText(23), 1, no_color, 1, shadow);
}
// Mini logo
const int pos1 = (param.game.height / 5 * 4) + BLOCK;
const int pos2 = pos1 + mini_logo_sprite_->getHeight() + 3;
@@ -157,6 +178,24 @@ void Title::render()
text_->writeDX(TEXT_CENTER | TEXT_SHADOW, param.game.game_area.center_x, pos2, TEXT_COPYRIGHT, 1, no_color, 1, shadow);
}
if (state_ == TitleState::LOGO_FINISHED)
{
// 'PRESS TO PLAY'
if (counter_ % 50 > 14 && !define_buttons_->isEnabled())
{
text_->writeDX(TEXT_CENTER | TEXT_SHADOW, param.game.game_area.center_x, param.title.press_start_position, lang::getText(23), 1, no_color, 1, shadow);
}
}
if (state_ == TitleState::START_HAS_BEEN_PRESSED)
{
// 'PRESS TO PLAY'
if (counter_ % 10 > 4 && !define_buttons_->isEnabled())
{
text_->writeDX(TEXT_CENTER | TEXT_SHADOW, param.game.game_area.center_x, param.title.press_start_position, lang::getText(23), 1, no_color, 1, shadow);
}
}
// Define Buttons
define_buttons_->render();
@@ -238,24 +277,28 @@ void Title::checkEvents()
// Comprueba las entradas
void Title::checkInput()
{
// Comprueba los controladores solo si no se estan definiendo los botones
// Comprueba las entradas solo si no se estan definiendo los botones
if (!define_buttons_->isEnabled())
{
// Comprueba los métodos de control
// Comprueba todos los métodos de control
for (const auto &controller : options.controllers)
{
// START
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))
{
if (section::options == section::Options::TITLE_2 || ALLOW_TITLE_ANIMATION_SKIP)
if (state_ == TitleState::LOGO_FINISHED || ALLOW_TITLE_ANIMATION_SKIP)
{
fade_->activate();
JA_PlaySound(Resource::get()->getSound("game_start.wav"));
JA_FadeOutMusic(1500);
post_fade_ = controller.player_id;
state_ = TitleState::START_HAS_BEEN_PRESSED;
counter_ = 0;
return;
}
}
// Comprueba si se va a intercambiar la asignación de mandos a jugadores
// SWAP_CONTROLLERS
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))
{
@@ -263,7 +306,7 @@ void Title::checkInput()
return;
}
// Comprueba si algun mando quiere ser configurado
// CONFIG
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))
{
@@ -342,7 +385,6 @@ void Title::showControllers()
}
}
// std::string spaces(lang::getText(100).length() + 3, ' ');
// std::string kb_text = spaces + lang::getText(69);
// Muestra la notificación
Notifier::get()->showText({text.at(0), text.at(1)});
}

14
source/title.h
View File

@@ -18,7 +18,7 @@ namespace section
constexpr const char TEXT_COPYRIGHT[] = "@2020,2024 JailDesigner";
// Parámetros
constexpr bool ALLOW_TITLE_ANIMATION_SKIP = true;
constexpr bool ALLOW_TITLE_ANIMATION_SKIP = false;
/*
Esta clase gestiona un estado del programa. Se encarga de la parte del titulo o menu
@@ -27,9 +27,10 @@ constexpr bool ALLOW_TITLE_ANIMATION_SKIP = true;
- Dibujar el tileado de fondo
- Redifinir los botones de los mandos de juego
Esta clase tiene dos estados:
Esta clase tiene tres estados:
- El titulo está animandose, con el fondo estático
- El titulo ya está en su sitio y el fondo se está animando
- Se ha pulsado el botón de start
Por razones de diseño, no se permite saltarse la animación del titulo, aunque es
configurable mediante un define
@@ -39,6 +40,14 @@ constexpr bool ALLOW_TITLE_ANIMATION_SKIP = true;
class Title
{
private:
// Enumeraciones
enum class TitleState
{
LOGO_ANIMATING,
LOGO_FINISHED,
START_HAS_BEEN_PRESSED,
};
// Objetos y punteros
std::shared_ptr<Text> text_; // Objeto de texto para poder escribir textos en pantalla
std::unique_ptr<Fade> fade_; // Objeto para realizar fundidos en pantalla
@@ -53,6 +62,7 @@ private:
section::Name next_section_; // Indica cual es la siguiente sección a cargar cuando termine el contador del titulo
int post_fade_ = 0; // Opción a realizar cuando termina el fundido
int num_controllers_; // Número de mandos conectados
TitleState state_; // Estado en el que se encuentra la sección
// Actualiza las variables del objeto
void update();