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/**********************************************************************************************
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*
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* raylib . audio - Basic funtionality to work with audio
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*
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* FEATURES :
* - Manage audio device ( init / close )
* - Load and unload audio files
* - Format wave data ( sample rate , size , channels )
* - Play / Stop / Pause / Resume loaded audio
* - Manage mixing channels
* - Manage raw audio context
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*
* CONFIGURATION :
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*
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* # define AUDIO_STANDALONE
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* Define to use the module as standalone library ( independently of raylib ) .
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* Required types and functions are defined in the same module .
*
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* # define USE_OPENAL_BACKEND
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* Use OpenAL Soft audio backend
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*
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* # define SUPPORT_FILEFORMAT_WAV
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* # define SUPPORT_FILEFORMAT_OGG
* # define SUPPORT_FILEFORMAT_XM
* # define SUPPORT_FILEFORMAT_MOD
* # define SUPPORT_FILEFORMAT_FLAC
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* # define SUPPORT_FILEFORMAT_MP3
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* Selected desired fileformats to be supported for loading . Some of those formats are
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* supported by default , to remove support , just comment unrequired # define in this module
*
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* LIMITATIONS ( only OpenAL Soft ) :
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* Only up to two channels supported : MONO and STEREO ( for additional channels , use AL_EXT_MCFORMATS )
* Only the following sample sizes supported : 8 bit PCM , 16 bit PCM , 32 - bit float PCM ( using AL_EXT_FLOAT32 )
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*
* DEPENDENCIES :
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* mini_al - Audio device / context management ( https : //github.com/dr-soft/mini_al)
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* stb_vorbis - OGG audio files loading ( http : //www.nothings.org/stb_vorbis/)
* jar_xm - XM module file loading
* jar_mod - MOD audio file loading
* dr_flac - FLAC audio file loading
*
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* * OpenAL Soft - Audio device management , still used on HTML5 and OSX platforms
*
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* CONTRIBUTORS :
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* David Reid ( github : @ mackron ) ( Nov . 2017 ) :
* - Complete port to mini_al library
*
* Joshua Reisenauer ( github : @ kd7tck ) ( 2015 )
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* - XM audio module support ( jar_xm )
* - MOD audio module support ( jar_mod )
* - Mixing channels support
* - Raw audio context support
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*
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*
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* LICENSE : zlib / libpng
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*
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* Copyright ( c ) 2014 - 2018 Ramon Santamaria ( @ raysan5 )
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*
* This software is provided " as-is " , without any express or implied warranty . In no event
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* will the authors be held liable for any damages arising from the use of this software .
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*
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* Permission is granted to anyone to use this software for any purpose , including commercial
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* applications , and to alter it and redistribute it freely , subject to the following restrictions :
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*
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* 1. The origin of this software must not be misrepresented ; you must not claim that you
* wrote the original software . If you use this software in a product , an acknowledgment
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* in the product documentation would be appreciated but is not required .
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*
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* 2. Altered source versions must be plainly marked as such , and must not be misrepresented
* as being the original software .
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*
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* 3. This notice may not be removed or altered from any source distribution .
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*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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# if defined(AUDIO_STANDALONE)
# include "audio.h"
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# include <stdarg.h> // Required for: va_list, va_start(), vfprintf(), va_end()
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# else
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# include "config.h" // Defines module configuration flags
# include "raylib.h" // Declares module functions
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# include "utils.h" // Required for: fopen() Android mapping
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# endif
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# if !defined(USE_OPENAL_BACKEND)
# define USE_MINI_AL 1 // Set to 1 to use mini_al; 0 to use OpenAL.
# endif
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# include "external/mini_al.h" // Implemented in mini_al.c. Cannot implement this here because it conflicts with Win32 APIs such as CloseWindow(), etc.
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# if !defined(USE_MINI_AL) || (USE_MINI_AL == 0)
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# if defined(__APPLE__)
# include "OpenAL/al.h" // OpenAL basic header
# include "OpenAL/alc.h" // OpenAL context header (like OpenGL, OpenAL requires a context to work)
# else
# include "AL/al.h" // OpenAL basic header
# include "AL/alc.h" // OpenAL context header (like OpenGL, OpenAL requires a context to work)
//#include "AL/alext.h" // OpenAL extensions header, required for AL_EXT_FLOAT32 and AL_EXT_MCFORMATS
# endif
// OpenAL extension: AL_EXT_FLOAT32 - Support for 32bit float samples
// OpenAL extension: AL_EXT_MCFORMATS - Support for multi-channel formats (Quad, 5.1, 6.1, 7.1)
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# endif
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# include <stdlib.h> // Required for: malloc(), free()
# include <string.h> // Required for: strcmp(), strncmp()
# include <stdio.h> // Required for: FILE, fopen(), fclose(), fread()
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# if defined(SUPPORT_FILEFORMAT_OGG)
//#define STB_VORBIS_HEADER_ONLY
# include "external/stb_vorbis.h" // OGG loading functions
# endif
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# if defined(SUPPORT_FILEFORMAT_XM)
# define JAR_XM_IMPLEMENTATION
# include "external/jar_xm.h" // XM loading functions
# endif
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# if defined(SUPPORT_FILEFORMAT_MOD)
# define JAR_MOD_IMPLEMENTATION
# include "external/jar_mod.h" // MOD loading functions
# endif
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# if defined(SUPPORT_FILEFORMAT_FLAC)
# define DR_FLAC_IMPLEMENTATION
# define DR_FLAC_NO_WIN32_IO
# include "external/dr_flac.h" // FLAC loading functions
# endif
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# if defined(SUPPORT_FILEFORMAT_MP3)
# define DR_MP3_IMPLEMENTATION
# include "external/dr_mp3.h" // MP3 loading functions
# endif
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# ifdef _MSC_VER
# undef bool
# endif
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//----------------------------------------------------------------------------------
// Defines and Macros
//----------------------------------------------------------------------------------
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# define MAX_STREAM_BUFFERS 2 // Number of buffers for each audio stream
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// NOTE: Music buffer size is defined by number of samples, independent of sample size and channels number
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// After some math, considering a sampleRate of 48000, a buffer refill rate of 1/60 seconds
// and double-buffering system, I concluded that a 4096 samples buffer should be enough
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// In case of music-stalls, just increase this number
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# define AUDIO_BUFFER_SIZE 4096 // PCM data samples (i.e. 16bit, Mono: 8Kb)
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// Support uncompressed PCM data in 32-bit float IEEE format
// NOTE: This definition is included in "AL/alext.h", but some OpenAL implementations
// could not provide the extensions header (Android), so its defined here
# if !defined(AL_EXT_float32)
# define AL_EXT_float32 1
# define AL_FORMAT_MONO_FLOAT32 0x10010
# define AL_FORMAT_STEREO_FLOAT32 0x10011
# endif
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//----------------------------------------------------------------------------------
// Types and Structures Definition
//----------------------------------------------------------------------------------
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typedef enum {
MUSIC_AUDIO_OGG = 0 ,
MUSIC_AUDIO_FLAC ,
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MUSIC_AUDIO_MP3 ,
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MUSIC_MODULE_XM ,
MUSIC_MODULE_MOD
} MusicContextType ;
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// Music type (file streaming from memory)
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typedef struct MusicData {
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MusicContextType ctxType ; // Type of music context (OGG, XM, MOD)
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# if defined(SUPPORT_FILEFORMAT_OGG)
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stb_vorbis * ctxOgg ; // OGG audio context
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# endif
# if defined(SUPPORT_FILEFORMAT_FLAC)
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drflac * ctxFlac ; // FLAC audio context
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# endif
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# if defined(SUPPORT_FILEFORMAT_MP3)
drmp3 ctxMp3 ; // MP3 audio context
# endif
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# if defined(SUPPORT_FILEFORMAT_XM)
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jar_xm_context_t * ctxXm ; // XM chiptune context
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# endif
# if defined(SUPPORT_FILEFORMAT_MOD)
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jar_mod_context_t ctxMod ; // MOD chiptune context
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# endif
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AudioStream stream ; // Audio stream (double buffering)
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int loopCount ; // Loops count (times music repeats), -1 means infinite loop
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unsigned int totalSamples ; // Total number of samples
unsigned int samplesLeft ; // Number of samples left to end
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} MusicData ;
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# if defined(AUDIO_STANDALONE)
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typedef enum {
LOG_INFO = 0 ,
LOG_ERROR ,
LOG_WARNING ,
LOG_DEBUG ,
LOG_OTHER
} TraceLogType ;
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# endif
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//----------------------------------------------------------------------------------
// Global Variables Definition
//----------------------------------------------------------------------------------
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// ...
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//----------------------------------------------------------------------------------
// Module specific Functions Declaration
//----------------------------------------------------------------------------------
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# if defined(SUPPORT_FILEFORMAT_WAV)
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static Wave LoadWAV ( const char * fileName ) ; // Load WAV file
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# endif
# if defined(SUPPORT_FILEFORMAT_OGG)
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static Wave LoadOGG ( const char * fileName ) ; // Load OGG file
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# endif
# if defined(SUPPORT_FILEFORMAT_FLAC)
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static Wave LoadFLAC ( const char * fileName ) ; // Load FLAC file
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# endif
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# if defined(SUPPORT_FILEFORMAT_MP3)
static Wave LoadMP3 ( const char * fileName ) ; // Load MP3 file
# endif
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# if defined(AUDIO_STANDALONE)
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bool IsFileExtension ( const char * fileName , const char * ext ) ; // Check file extension
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void TraceLog ( int msgType , const char * text , . . . ) ; // Show trace log messages (LOG_INFO, LOG_WARNING, LOG_ERROR, LOG_DEBUG)
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# endif
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//----------------------------------------------------------------------------------
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// mini_al AudioBuffer Functionality
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//----------------------------------------------------------------------------------
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# if USE_MINI_AL
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# define DEVICE_FORMAT mal_format_f32
# define DEVICE_CHANNELS 2
# define DEVICE_SAMPLE_RATE 44100
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typedef enum { AUDIO_BUFFER_USAGE_STATIC = 0 , AUDIO_BUFFER_USAGE_STREAM } AudioBufferUsage ;
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// Audio buffer structure
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// NOTE: Slightly different logic is used when feeding data to the playback device depending on whether or not data is streamed
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typedef struct AudioBuffer AudioBuffer ;
struct AudioBuffer {
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mal_dsp dsp ; // Required for format conversion
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float volume ;
float pitch ;
bool playing ;
bool paused ;
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bool looping ; // Always true for AudioStreams
int usage ; // AudioBufferUsage type
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bool isSubBufferProcessed [ 2 ] ;
unsigned int frameCursorPos ;
unsigned int bufferSizeInFrames ;
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AudioBuffer * next ;
AudioBuffer * prev ;
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unsigned char buffer [ 1 ] ;
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} ;
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// mini_al global variables
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static mal_context context ;
static mal_device device ;
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static mal_mutex audioLock ;
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static bool isAudioInitialized = MAL_FALSE ;
static float masterVolume = 1.0f ;
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// Audio buffers are tracked in a linked list
static AudioBuffer * firstAudioBuffer = NULL ;
static AudioBuffer * lastAudioBuffer = NULL ;
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// mini_al functions declaration
static void OnLog ( mal_context * pContext , mal_device * pDevice , const char * message ) ;
static mal_uint32 OnSendAudioDataToDevice ( mal_device * pDevice , mal_uint32 frameCount , void * pFramesOut ) ;
static mal_uint32 OnAudioBufferDSPRead ( mal_dsp * pDSP , mal_uint32 frameCount , void * pFramesOut , void * pUserData ) ;
static void MixAudioFrames ( float * framesOut , const float * framesIn , mal_uint32 frameCount , float localVolume ) ;
// AudioBuffer management functions declaration
// NOTE: Those functions are not exposed by raylib... for the moment
AudioBuffer * CreateAudioBuffer ( mal_format format , mal_uint32 channels , mal_uint32 sampleRate , mal_uint32 bufferSizeInFrames , AudioBufferUsage usage ) ;
void DeleteAudioBuffer ( AudioBuffer * audioBuffer ) ;
bool IsAudioBufferPlaying ( AudioBuffer * audioBuffer ) ;
void PlayAudioBuffer ( AudioBuffer * audioBuffer ) ;
void StopAudioBuffer ( AudioBuffer * audioBuffer ) ;
void PauseAudioBuffer ( AudioBuffer * audioBuffer ) ;
void ResumeAudioBuffer ( AudioBuffer * audioBuffer ) ;
void SetAudioBufferVolume ( AudioBuffer * audioBuffer , float volume ) ;
void SetAudioBufferPitch ( AudioBuffer * audioBuffer , float pitch ) ;
void TrackAudioBuffer ( AudioBuffer * audioBuffer ) ;
void UntrackAudioBuffer ( AudioBuffer * audioBuffer ) ;
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// Log callback function
static void OnLog ( mal_context * pContext , mal_device * pDevice , const char * message )
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{
( void ) pContext ;
( void ) pDevice ;
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TraceLog ( LOG_ERROR , message ) ; // All log messages from mini_al are errors
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}
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// Sending audio data to device callback function
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static mal_uint32 OnSendAudioDataToDevice ( mal_device * pDevice , mal_uint32 frameCount , void * pFramesOut )
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{
// This is where all of the mixing takes place.
( void ) pDevice ;
// Mixing is basically just an accumulation. We need to initialize the output buffer to 0.
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memset ( pFramesOut , 0 , frameCount * pDevice - > channels * mal_get_bytes_per_sample ( pDevice - > format ) ) ;
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// Using a mutex here for thread-safety which makes things not real-time. This is unlikely to be necessary for this project, but may
// want to consider how you might want to avoid this.
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mal_mutex_lock ( & audioLock ) ;
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{
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for ( AudioBuffer * audioBuffer = firstAudioBuffer ; audioBuffer ! = NULL ; audioBuffer = audioBuffer - > next )
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{
// Ignore stopped or paused sounds.
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if ( ! audioBuffer - > playing | | audioBuffer - > paused ) continue ;
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mal_uint32 framesRead = 0 ;
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for ( ; ; )
{
if ( framesRead > frameCount )
{
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TraceLog ( LOG_DEBUG , " Mixed too many frames from audio buffer " ) ;
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break ;
}
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if ( framesRead = = frameCount ) break ;
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// Just read as much data as we can from the stream.
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mal_uint32 framesToRead = ( frameCount - framesRead ) ;
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while ( framesToRead > 0 )
{
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float tempBuffer [ 1024 ] ; // 512 frames for stereo.
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mal_uint32 framesToReadRightNow = framesToRead ;
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if ( framesToReadRightNow > sizeof ( tempBuffer ) / sizeof ( tempBuffer [ 0 ] ) / DEVICE_CHANNELS )
{
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framesToReadRightNow = sizeof ( tempBuffer ) / sizeof ( tempBuffer [ 0 ] ) / DEVICE_CHANNELS ;
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}
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mal_uint32 framesJustRead = ( mal_uint32 ) mal_dsp_read ( & audioBuffer - > dsp , framesToReadRightNow , tempBuffer , audioBuffer - > dsp . pUserData ) ;
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if ( framesJustRead > 0 )
{
float * framesOut = ( float * ) pFramesOut + ( framesRead * device . channels ) ;
float * framesIn = tempBuffer ;
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MixAudioFrames ( framesOut , framesIn , framesJustRead , audioBuffer - > volume ) ;
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framesToRead - = framesJustRead ;
framesRead + = framesJustRead ;
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}
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// If we weren't able to read all the frames we requested, break.
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if ( framesJustRead < framesToReadRightNow )
{
if ( ! audioBuffer - > looping )
{
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StopAudioBuffer ( audioBuffer ) ;
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break ;
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}
else
{
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// Should never get here, but just for safety,
// move the cursor position back to the start and continue the loop.
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audioBuffer - > frameCursorPos = 0 ;
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continue ;
}
}
}
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// If for some reason we weren't able to read every frame we'll need to break from the loop.
// Not doing this could theoretically put us into an infinite loop.
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if ( framesToRead > 0 ) break ;
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}
}
}
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mal_mutex_unlock ( & audioLock ) ;
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return frameCount ; // We always output the same number of frames that were originally requested.
}
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// DSP read from audio buffer callback function
static mal_uint32 OnAudioBufferDSPRead ( mal_dsp * pDSP , mal_uint32 frameCount , void * pFramesOut , void * pUserData )
{
AudioBuffer * audioBuffer = ( AudioBuffer * ) pUserData ;
mal_uint32 subBufferSizeInFrames = audioBuffer - > bufferSizeInFrames / 2 ;
mal_uint32 currentSubBufferIndex = audioBuffer - > frameCursorPos / subBufferSizeInFrames ;
if ( currentSubBufferIndex > 1 )
{
TraceLog ( LOG_DEBUG , " Frame cursor position moved too far forward in audio stream " ) ;
return 0 ;
}
// Another thread can update the processed state of buffers so we just take a copy here to try and avoid potential synchronization problems.
bool isSubBufferProcessed [ 2 ] ;
isSubBufferProcessed [ 0 ] = audioBuffer - > isSubBufferProcessed [ 0 ] ;
isSubBufferProcessed [ 1 ] = audioBuffer - > isSubBufferProcessed [ 1 ] ;
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mal_uint32 frameSizeInBytes = mal_get_bytes_per_sample ( audioBuffer - > dsp . formatConverterIn . config . formatIn ) * audioBuffer - > dsp . formatConverterIn . config . channels ;
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// Fill out every frame until we find a buffer that's marked as processed. Then fill the remainder with 0.
mal_uint32 framesRead = 0 ;
for ( ; ; )
{
// We break from this loop differently depending on the buffer's usage. For static buffers, we simply fill as much data as we can. For
// streaming buffers we only fill the halves of the buffer that are processed. Unprocessed halves must keep their audio data in-tact.
if ( audioBuffer - > usage = = AUDIO_BUFFER_USAGE_STATIC )
{
if ( framesRead > = frameCount ) break ;
}
else
{
if ( isSubBufferProcessed [ currentSubBufferIndex ] ) break ;
}
mal_uint32 totalFramesRemaining = ( frameCount - framesRead ) ;
if ( totalFramesRemaining = = 0 ) break ;
mal_uint32 framesRemainingInOutputBuffer ;
if ( audioBuffer - > usage = = AUDIO_BUFFER_USAGE_STATIC )
{
framesRemainingInOutputBuffer = audioBuffer - > bufferSizeInFrames - audioBuffer - > frameCursorPos ;
}
else
{
mal_uint32 firstFrameIndexOfThisSubBuffer = subBufferSizeInFrames * currentSubBufferIndex ;
framesRemainingInOutputBuffer = subBufferSizeInFrames - ( audioBuffer - > frameCursorPos - firstFrameIndexOfThisSubBuffer ) ;
}
mal_uint32 framesToRead = totalFramesRemaining ;
if ( framesToRead > framesRemainingInOutputBuffer ) framesToRead = framesRemainingInOutputBuffer ;
memcpy ( ( unsigned char * ) pFramesOut + ( framesRead * frameSizeInBytes ) , audioBuffer - > buffer + ( audioBuffer - > frameCursorPos * frameSizeInBytes ) , framesToRead * frameSizeInBytes ) ;
audioBuffer - > frameCursorPos = ( audioBuffer - > frameCursorPos + framesToRead ) % audioBuffer - > bufferSizeInFrames ;
framesRead + = framesToRead ;
// If we've read to the end of the buffer, mark it as processed.
if ( framesToRead = = framesRemainingInOutputBuffer )
{
audioBuffer - > isSubBufferProcessed [ currentSubBufferIndex ] = true ;
isSubBufferProcessed [ currentSubBufferIndex ] = true ;
currentSubBufferIndex = ( currentSubBufferIndex + 1 ) % 2 ;
// We need to break from this loop if we're not looping.
if ( ! audioBuffer - > looping )
{
StopAudioBuffer ( audioBuffer ) ;
break ;
}
}
}
// Zero-fill excess.
mal_uint32 totalFramesRemaining = ( frameCount - framesRead ) ;
if ( totalFramesRemaining > 0 )
{
memset ( ( unsigned char * ) pFramesOut + ( framesRead * frameSizeInBytes ) , 0 , totalFramesRemaining * frameSizeInBytes ) ;
// For static buffers we can fill the remaining frames with silence for safety, but we don't want
// to report those frames as "read". The reason for this is that the caller uses the return value
// to know whether or not a non-looping sound has finished playback.
if ( audioBuffer - > usage ! = AUDIO_BUFFER_USAGE_STATIC ) framesRead + = totalFramesRemaining ;
}
return framesRead ;
}
// This is the main mixing function. Mixing is pretty simple in this project - it's just an accumulation.
// NOTE: framesOut is both an input and an output. It will be initially filled with zeros outside of this function.
static void MixAudioFrames ( float * framesOut , const float * framesIn , mal_uint32 frameCount , float localVolume )
{
for ( mal_uint32 iFrame = 0 ; iFrame < frameCount ; + + iFrame )
{
for ( mal_uint32 iChannel = 0 ; iChannel < device . channels ; + + iChannel )
{
float * frameOut = framesOut + ( iFrame * device . channels ) ;
const float * frameIn = framesIn + ( iFrame * device . channels ) ;
frameOut [ iChannel ] + = frameIn [ iChannel ] * masterVolume * localVolume ;
}
}
}
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# endif
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//----------------------------------------------------------------------------------
// Module Functions Definition - Audio Device initialization and Closing
//----------------------------------------------------------------------------------
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// Initialize audio device
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void InitAudioDevice ( void )
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{
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# if USE_MINI_AL
// Context.
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mal_context_config contextConfig = mal_context_config_init ( OnLog ) ;
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mal_result result = mal_context_init ( NULL , 0 , & contextConfig , & context ) ;
if ( result ! = MAL_SUCCESS )
{
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TraceLog ( LOG_ERROR , " Failed to initialize audio context " ) ;
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return ;
}
// Device. Using the default device. Format is floating point because it simplifies mixing.
mal_device_config deviceConfig = mal_device_config_init ( DEVICE_FORMAT , DEVICE_CHANNELS , DEVICE_SAMPLE_RATE , NULL , OnSendAudioDataToDevice ) ;
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result = mal_device_init ( & context , mal_device_type_playback , NULL , & deviceConfig , NULL , & device ) ;
if ( result ! = MAL_SUCCESS )
{
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TraceLog ( LOG_ERROR , " Failed to initialize audio playback device " ) ;
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mal_context_uninit ( & context ) ;
return ;
}
// Keep the device running the whole time. May want to consider doing something a bit smarter and only have the device running
// while there's at least one sound being played.
result = mal_device_start ( & device ) ;
if ( result ! = MAL_SUCCESS )
{
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TraceLog ( LOG_ERROR , " Failed to start audio playback device " ) ;
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mal_device_uninit ( & device ) ;
mal_context_uninit ( & context ) ;
return ;
}
// Mixing happens on a seperate thread which means we need to synchronize. I'm using a mutex here to make things simple, but may
// want to look at something a bit smarter later on to keep everything real-time, if that's necessary.
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if ( mal_mutex_init ( & context , & audioLock ) ! = MAL_SUCCESS )
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{
TraceLog ( LOG_ERROR , " Failed to create mutex for audio mixing " ) ;
mal_device_uninit ( & device ) ;
mal_context_uninit ( & context ) ;
return ;
}
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TraceLog ( LOG_INFO , " Audio device initialized successfully: %s " , device . name ) ;
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TraceLog ( LOG_INFO , " Audio backend: mini_al / %s " , mal_get_backend_name ( context . backend ) ) ;
TraceLog ( LOG_INFO , " Audio format: %s -> %s " , mal_get_format_name ( device . format ) , mal_get_format_name ( device . internalFormat ) ) ;
TraceLog ( LOG_INFO , " Audio channels: %d -> %d " , device . channels , device . internalChannels ) ;
TraceLog ( LOG_INFO , " Audio sample rate: %d -> %d " , device . sampleRate , device . internalSampleRate ) ;
TraceLog ( LOG_INFO , " Audio buffer size: %d " , device . bufferSizeInFrames ) ;
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isAudioInitialized = MAL_TRUE ;
# else
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// Open and initialize a device with default settings
ALCdevice * device = alcOpenDevice ( NULL ) ;
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if ( ! device ) TraceLog ( LOG_ERROR , " Audio device could not be opened " ) ;
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else
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{
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ALCcontext * context = alcCreateContext ( device , NULL ) ;
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if ( ( context = = NULL ) | | ( alcMakeContextCurrent ( context ) = = ALC_FALSE ) )
{
if ( context ! = NULL ) alcDestroyContext ( context ) ;
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alcCloseDevice ( device ) ;
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2017-07-02 13:35:13 +03:00
TraceLog ( LOG_ERROR , " Could not initialize audio context " ) ;
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}
else
{
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TraceLog ( LOG_INFO , " Audio device and context initialized successfully: %s " , alcGetString ( device , ALC_DEVICE_SPECIFIER ) ) ;
2014-09-03 18:51:28 +04:00
2016-08-01 13:49:17 +03:00
// Listener definition (just for 2D)
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alListener3f ( AL_POSITION , 0.0f , 0.0f , 0.0f ) ;
alListener3f ( AL_VELOCITY , 0.0f , 0.0f , 0.0f ) ;
alListener3f ( AL_ORIENTATION , 0.0f , 0.0f , - 1.0f ) ;
alListenerf ( AL_GAIN , 1.0f ) ;
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if ( alIsExtensionPresent ( " AL_EXT_float32 " ) ) TraceLog ( LOG_INFO , " [EXTENSION] AL_EXT_float32 supported " ) ;
else TraceLog ( LOG_INFO , " [EXTENSION] AL_EXT_float32 not supported " ) ;
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}
}
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# endif
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}
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// Close the audio device for all contexts
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void CloseAudioDevice ( void )
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{
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# if USE_MINI_AL
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if ( ! isAudioInitialized )
{
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TraceLog ( LOG_WARNING , " Could not close audio device because it is not currently initialized " ) ;
return ;
}
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mal_mutex_uninit ( & audioLock ) ;
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mal_device_uninit ( & device ) ;
mal_context_uninit ( & context ) ;
# else
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ALCdevice * device ;
ALCcontext * context = alcGetCurrentContext ( ) ;
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if ( context = = NULL ) TraceLog ( LOG_WARNING , " Could not get current audio context for closing " ) ;
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2013-11-23 16:30:54 +04:00
device = alcGetContextsDevice ( context ) ;
2013-11-19 02:38:44 +04:00
2013-11-23 16:30:54 +04:00
alcMakeContextCurrent ( NULL ) ;
alcDestroyContext ( context ) ;
alcCloseDevice ( device ) ;
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# endif
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TraceLog ( LOG_INFO , " Audio device closed successfully " ) ;
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}
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// Check if device has been initialized successfully
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bool IsAudioDeviceReady ( void )
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{
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# if USE_MINI_AL
return isAudioInitialized ;
# else
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ALCcontext * context = alcGetCurrentContext ( ) ;
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2016-04-30 09:00:12 +03:00
if ( context = = NULL ) return false ;
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else
{
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ALCdevice * device = alcGetContextsDevice ( context ) ;
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2016-04-30 09:00:12 +03:00
if ( device = = NULL ) return false ;
else return true ;
}
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# endif
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}
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// Set master volume (listener)
void SetMasterVolume ( float volume )
{
if ( volume < 0.0f ) volume = 0.0f ;
else if ( volume > 1.0f ) volume = 1.0f ;
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# if USE_MINI_AL
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masterVolume = volume ;
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# else
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alListenerf ( AL_GAIN , volume ) ;
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# endif
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}
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//----------------------------------------------------------------------------------
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// Module Functions Definition - Audio Buffer management
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//----------------------------------------------------------------------------------
# if USE_MINI_AL
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// Create a new audio buffer. Initially filled with silence
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AudioBuffer * CreateAudioBuffer ( mal_format format , mal_uint32 channels , mal_uint32 sampleRate , mal_uint32 bufferSizeInFrames , AudioBufferUsage usage )
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{
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AudioBuffer * audioBuffer = ( AudioBuffer * ) calloc ( sizeof ( * audioBuffer ) + ( bufferSizeInFrames * channels * mal_get_bytes_per_sample ( format ) ) , 1 ) ;
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if ( audioBuffer = = NULL )
{
TraceLog ( LOG_ERROR , " CreateAudioBuffer() : Failed to allocate memory for audio buffer " ) ;
return NULL ;
}
// We run audio data through a format converter.
mal_dsp_config dspConfig ;
memset ( & dspConfig , 0 , sizeof ( dspConfig ) ) ;
dspConfig . formatIn = format ;
dspConfig . formatOut = DEVICE_FORMAT ;
dspConfig . channelsIn = channels ;
dspConfig . channelsOut = DEVICE_CHANNELS ;
dspConfig . sampleRateIn = sampleRate ;
dspConfig . sampleRateOut = DEVICE_SAMPLE_RATE ;
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dspConfig . onRead = OnAudioBufferDSPRead ;
dspConfig . pUserData = audioBuffer ;
dspConfig . allowDynamicSampleRate = MAL_TRUE ; // <-- Required for pitch shifting.
mal_result resultMAL = mal_dsp_init ( & dspConfig , & audioBuffer - > dsp ) ;
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if ( resultMAL ! = MAL_SUCCESS )
{
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TraceLog ( LOG_ERROR , " CreateAudioBuffer() : Failed to create data conversion pipeline " ) ;
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free ( audioBuffer ) ;
return NULL ;
}
audioBuffer - > volume = 1 ;
audioBuffer - > pitch = 1 ;
audioBuffer - > playing = 0 ;
audioBuffer - > paused = 0 ;
audioBuffer - > looping = 0 ;
audioBuffer - > usage = usage ;
audioBuffer - > bufferSizeInFrames = bufferSizeInFrames ;
audioBuffer - > frameCursorPos = 0 ;
// Buffers should be marked as processed by default so that a call to UpdateAudioStream() immediately after initialization works correctly.
audioBuffer - > isSubBufferProcessed [ 0 ] = true ;
audioBuffer - > isSubBufferProcessed [ 1 ] = true ;
TrackAudioBuffer ( audioBuffer ) ;
return audioBuffer ;
}
2018-02-11 03:12:16 +03:00
// Delete an audio buffer
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void DeleteAudioBuffer ( AudioBuffer * audioBuffer )
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{
if ( audioBuffer = = NULL )
{
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TraceLog ( LOG_ERROR , " DeleteAudioBuffer() : No audio buffer " ) ;
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return ;
}
UntrackAudioBuffer ( audioBuffer ) ;
free ( audioBuffer ) ;
}
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// Check if an audio buffer is playing
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bool IsAudioBufferPlaying ( AudioBuffer * audioBuffer )
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{
if ( audioBuffer = = NULL )
{
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TraceLog ( LOG_ERROR , " IsAudioBufferPlaying() : No audio buffer " ) ;
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return false ;
}
return audioBuffer - > playing & & ! audioBuffer - > paused ;
}
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// Play an audio buffer
// NOTE: Buffer is restarted to the start.
// Use PauseAudioBuffer() and ResumeAudioBuffer() if the playback position should be maintained.
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void PlayAudioBuffer ( AudioBuffer * audioBuffer )
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{
if ( audioBuffer = = NULL )
{
TraceLog ( LOG_ERROR , " PlayAudioBuffer() : No audio buffer " ) ;
return ;
}
audioBuffer - > playing = true ;
audioBuffer - > paused = false ;
audioBuffer - > frameCursorPos = 0 ;
}
2018-02-11 03:12:16 +03:00
// Stop an audio buffer
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void StopAudioBuffer ( AudioBuffer * audioBuffer )
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{
if ( audioBuffer = = NULL )
{
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TraceLog ( LOG_ERROR , " StopAudioBuffer() : No audio buffer " ) ;
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return ;
}
// Don't do anything if the audio buffer is already stopped.
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if ( ! IsAudioBufferPlaying ( audioBuffer ) ) return ;
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audioBuffer - > playing = false ;
audioBuffer - > paused = false ;
audioBuffer - > frameCursorPos = 0 ;
audioBuffer - > isSubBufferProcessed [ 0 ] = true ;
audioBuffer - > isSubBufferProcessed [ 1 ] = true ;
}
2018-02-11 03:12:16 +03:00
// Pause an audio buffer
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void PauseAudioBuffer ( AudioBuffer * audioBuffer )
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{
if ( audioBuffer = = NULL )
{
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TraceLog ( LOG_ERROR , " PauseAudioBuffer() : No audio buffer " ) ;
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return ;
}
audioBuffer - > paused = true ;
}
2018-02-11 03:12:16 +03:00
// Resume an audio buffer
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void ResumeAudioBuffer ( AudioBuffer * audioBuffer )
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{
if ( audioBuffer = = NULL )
{
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TraceLog ( LOG_ERROR , " ResumeAudioBuffer() : No audio buffer " ) ;
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return ;
}
audioBuffer - > paused = false ;
}
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// Set volume for an audio buffer
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void SetAudioBufferVolume ( AudioBuffer * audioBuffer , float volume )
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{
if ( audioBuffer = = NULL )
{
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TraceLog ( LOG_ERROR , " SetAudioBufferVolume() : No audio buffer " ) ;
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return ;
}
audioBuffer - > volume = volume ;
}
2018-02-11 03:12:16 +03:00
// Set pitch for an audio buffer
2017-12-20 13:37:43 +03:00
void SetAudioBufferPitch ( AudioBuffer * audioBuffer , float pitch )
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{
if ( audioBuffer = = NULL )
{
2018-06-29 01:40:15 +03:00
TraceLog ( LOG_ERROR , " SetAudioBufferPitch() : No audio buffer " ) ;
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return ;
}
audioBuffer - > pitch = pitch ;
// Pitching is just an adjustment of the sample rate. Note that this changes the duration of the sound - higher pitches
// will make the sound faster; lower pitches make it slower.
2018-04-21 10:34:56 +03:00
mal_uint32 newOutputSampleRate = ( mal_uint32 ) ( ( ( ( float ) audioBuffer - > dsp . src . config . sampleRateOut / ( float ) audioBuffer - > dsp . src . config . sampleRateIn ) / pitch ) * audioBuffer - > dsp . src . config . sampleRateIn ) ;
2017-11-18 01:42:14 +03:00
mal_dsp_set_output_sample_rate ( & audioBuffer - > dsp , newOutputSampleRate ) ;
}
2018-02-11 03:12:16 +03:00
// Track audio buffer to linked list next position
void TrackAudioBuffer ( AudioBuffer * audioBuffer )
{
mal_mutex_lock ( & audioLock ) ;
{
if ( firstAudioBuffer = = NULL ) firstAudioBuffer = audioBuffer ;
else
{
lastAudioBuffer - > next = audioBuffer ;
audioBuffer - > prev = lastAudioBuffer ;
}
lastAudioBuffer = audioBuffer ;
}
mal_mutex_unlock ( & audioLock ) ;
}
// Untrack audio buffer from linked list
void UntrackAudioBuffer ( AudioBuffer * audioBuffer )
{
mal_mutex_lock ( & audioLock ) ;
{
if ( audioBuffer - > prev = = NULL ) firstAudioBuffer = audioBuffer - > next ;
else audioBuffer - > prev - > next = audioBuffer - > next ;
if ( audioBuffer - > next = = NULL ) lastAudioBuffer = audioBuffer - > prev ;
else audioBuffer - > next - > prev = audioBuffer - > prev ;
audioBuffer - > prev = NULL ;
audioBuffer - > next = NULL ;
}
mal_mutex_unlock ( & audioLock ) ;
}
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# endif
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//----------------------------------------------------------------------------------
// Module Functions Definition - Sounds loading and playing (.WAV)
//----------------------------------------------------------------------------------
2016-12-25 03:58:56 +03:00
// Load wave data from file
2016-09-08 01:20:06 +03:00
Wave LoadWave ( const char * fileName )
2013-11-19 02:38:44 +04:00
{
2016-01-23 15:22:13 +03:00
Wave wave = { 0 } ;
2014-09-17 00:51:31 +04:00
2017-03-29 01:35:42 +03:00
if ( IsFileExtension ( fileName , " .wav " ) ) wave = LoadWAV ( fileName ) ;
2017-03-26 23:49:01 +03:00
# if defined(SUPPORT_FILEFORMAT_OGG)
2017-03-29 01:35:42 +03:00
else if ( IsFileExtension ( fileName , " .ogg " ) ) wave = LoadOGG ( fileName ) ;
2017-03-26 23:49:01 +03:00
# endif
# if defined(SUPPORT_FILEFORMAT_FLAC)
2017-03-29 01:35:42 +03:00
else if ( IsFileExtension ( fileName , " .flac " ) ) wave = LoadFLAC ( fileName ) ;
2018-09-19 16:57:46 +03:00
# endif
# if defined(SUPPORT_FILEFORMAT_MP3)
else if ( IsFileExtension ( fileName , " .mp3 " ) ) wave = LoadMP3 ( fileName ) ;
2017-03-26 23:49:01 +03:00
# endif
2017-07-02 13:35:13 +03:00
else TraceLog ( LOG_WARNING , " [%s] Audio fileformat not supported, it can't be loaded " , fileName ) ;
2014-04-19 18:36:49 +04:00
2016-09-08 01:20:06 +03:00
return wave ;
}
2016-08-16 12:09:55 +03:00
2016-12-25 03:58:56 +03:00
// Load wave data from raw array data
Wave LoadWaveEx ( void * data , int sampleCount , int sampleRate , int sampleSize , int channels )
2016-09-08 01:20:06 +03:00
{
Wave wave ;
2017-01-29 01:02:30 +03:00
2016-09-08 01:20:06 +03:00
wave . data = data ;
2016-09-08 02:03:05 +03:00
wave . sampleCount = sampleCount ;
wave . sampleRate = sampleRate ;
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wave . sampleSize = sampleSize ;
2016-09-08 02:03:05 +03:00
wave . channels = channels ;
2017-01-29 01:02:30 +03:00
2016-12-25 03:58:56 +03:00
// NOTE: Copy wave data to work with, user is responsible of input data to free
2016-09-15 12:53:16 +03:00
Wave cwave = WaveCopy ( wave ) ;
2017-01-29 01:02:30 +03:00
2016-09-15 12:53:16 +03:00
WaveFormat ( & cwave , sampleRate , sampleSize , channels ) ;
2017-01-29 01:02:30 +03:00
2016-09-15 12:53:16 +03:00
return cwave ;
2016-09-08 01:20:06 +03:00
}
2016-12-25 03:58:56 +03:00
// Load sound from file
2016-09-08 01:20:06 +03:00
// NOTE: The entire file is loaded to memory to be played (no-streaming)
Sound LoadSound ( const char * fileName )
{
Wave wave = LoadWave ( fileName ) ;
2017-01-29 01:02:30 +03:00
2016-09-08 01:20:06 +03:00
Sound sound = LoadSoundFromWave ( wave ) ;
2017-01-29 01:02:30 +03:00
2016-09-08 01:20:06 +03:00
UnloadWave ( wave ) ; // Sound is loaded, we can unload wave
2014-09-03 18:51:28 +04:00
2013-11-23 16:30:54 +04:00
return sound ;
2013-11-19 02:38:44 +04:00
}
2014-12-15 03:08:30 +03:00
// Load sound from wave data
2016-08-01 13:49:17 +03:00
// NOTE: Wave data must be unallocated manually
2014-12-15 03:08:30 +03:00
Sound LoadSoundFromWave ( Wave wave )
{
2016-01-23 15:22:13 +03:00
Sound sound = { 0 } ;
2014-12-15 03:08:30 +03:00
if ( wave . data ! = NULL )
{
2017-11-12 07:17:05 +03:00
# if USE_MINI_AL
// When using mini_al we need to do our own mixing. To simplify this we need convert the format of each sound to be consistent with
// the format used to open the playback device. We can do this two ways:
//
// 1) Convert the whole sound in one go at load time (here).
// 2) Convert the audio data in chunks at mixing time.
//
// I have decided on the first option because it offloads work required for the format conversion to the to the loading stage. The
// downside to this is that it uses more memory if the original sound is u8 or s16.
mal_format formatIn = ( ( wave . sampleSize = = 8 ) ? mal_format_u8 : ( ( wave . sampleSize = = 16 ) ? mal_format_s16 : mal_format_f32 ) ) ;
mal_uint32 frameCountIn = wave . sampleCount ; // Is wave->sampleCount actually the frame count? That terminology needs to change, if so.
2018-05-21 13:39:19 +03:00
mal_uint32 frameCount = ( mal_uint32 ) mal_convert_frames ( NULL , DEVICE_FORMAT , DEVICE_CHANNELS , DEVICE_SAMPLE_RATE , NULL , formatIn , wave . channels , wave . sampleRate , frameCountIn ) ;
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if ( frameCount = = 0 ) TraceLog ( LOG_WARNING , " LoadSoundFromWave() : Failed to get frame count for format conversion " ) ;
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AudioBuffer * audioBuffer = CreateAudioBuffer ( DEVICE_FORMAT , DEVICE_CHANNELS , DEVICE_SAMPLE_RATE , frameCount , AUDIO_BUFFER_USAGE_STATIC ) ;
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if ( audioBuffer = = NULL ) TraceLog ( LOG_WARNING , " LoadSoundFromWave() : Failed to create audio buffer " ) ;
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frameCount = ( mal_uint32 ) mal_convert_frames ( audioBuffer - > buffer , audioBuffer - > dsp . formatConverterIn . config . formatIn , audioBuffer - > dsp . formatConverterIn . config . channels , audioBuffer - > dsp . src . config . sampleRateIn , wave . data , formatIn , wave . channels , wave . sampleRate , frameCountIn ) ;
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if ( frameCount = = 0 ) TraceLog ( LOG_WARNING , " LoadSoundFromWave() : Format conversion failed " ) ;
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sound . audioBuffer = audioBuffer ;
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# else
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ALenum format = 0 ;
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// The OpenAL format is worked out by looking at the number of channels and the sample size (bits per sample)
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if ( wave . channels = = 1 )
{
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switch ( wave . sampleSize )
{
case 8 : format = AL_FORMAT_MONO8 ; break ;
case 16 : format = AL_FORMAT_MONO16 ; break ;
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case 32 : format = AL_FORMAT_MONO_FLOAT32 ; break ; // Requires OpenAL extension: AL_EXT_FLOAT32
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default : TraceLog ( LOG_WARNING , " Wave sample size not supported: %i " , wave . sampleSize ) ; break ;
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}
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}
else if ( wave . channels = = 2 )
{
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switch ( wave . sampleSize )
{
case 8 : format = AL_FORMAT_STEREO8 ; break ;
case 16 : format = AL_FORMAT_STEREO16 ; break ;
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case 32 : format = AL_FORMAT_STEREO_FLOAT32 ; break ; // Requires OpenAL extension: AL_EXT_FLOAT32
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default : TraceLog ( LOG_WARNING , " Wave sample size not supported: %i " , wave . sampleSize ) ; break ;
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}
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}
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else TraceLog ( LOG_WARNING , " Wave number of channels not supported: %i " , wave . channels ) ;
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// Create an audio source
ALuint source ;
alGenSources ( 1 , & source ) ; // Generate pointer to audio source
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alSourcef ( source , AL_PITCH , 1.0f ) ;
alSourcef ( source , AL_GAIN , 1.0f ) ;
alSource3f ( source , AL_POSITION , 0.0f , 0.0f , 0.0f ) ;
alSource3f ( source , AL_VELOCITY , 0.0f , 0.0f , 0.0f ) ;
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alSourcei ( source , AL_LOOPING , AL_FALSE ) ;
// Convert loaded data to OpenAL buffer
//----------------------------------------
ALuint buffer ;
alGenBuffers ( 1 , & buffer ) ; // Generate pointer to buffer
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unsigned int dataSize = wave . sampleCount * wave . channels * wave . sampleSize / 8 ; // Size in bytes
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// Upload sound data to buffer
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alBufferData ( buffer , format , wave . data , dataSize , wave . sampleRate ) ;
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// Attach sound buffer to source
alSourcei ( source , AL_BUFFER , buffer ) ;
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TraceLog ( LOG_INFO , " [SND ID %i][BUFR ID %i] Sound data loaded successfully (%i Hz, %i bit, %s) " , source , buffer , wave . sampleRate , wave . sampleSize , ( wave . channels = = 1 ) ? " Mono " : " Stereo " ) ;
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sound . source = source ;
sound . buffer = buffer ;
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sound . format = format ;
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# endif
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}
return sound ;
}
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// Unload wave data
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void UnloadWave ( Wave wave )
{
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if ( wave . data ! = NULL ) free ( wave . data ) ;
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TraceLog ( LOG_INFO , " Unloaded wave data from RAM " ) ;
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}
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// Unload sound
void UnloadSound ( Sound sound )
{
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# if USE_MINI_AL
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DeleteAudioBuffer ( ( AudioBuffer * ) sound . audioBuffer ) ;
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# else
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alSourceStop ( sound . source ) ;
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alDeleteSources ( 1 , & sound . source ) ;
alDeleteBuffers ( 1 , & sound . buffer ) ;
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# endif
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TraceLog ( LOG_INFO , " [SND ID %i][BUFR ID %i] Unloaded sound data from RAM " , sound . source , sound . buffer ) ;
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}
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// Update sound buffer with new data
// NOTE: data must match sound.format
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void UpdateSound ( Sound sound , const void * data , int samplesCount )
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{
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# if USE_MINI_AL
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AudioBuffer * audioBuffer = ( AudioBuffer * ) sound . audioBuffer ;
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if ( audioBuffer = = NULL )
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{
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TraceLog ( LOG_ERROR , " UpdateSound() : Invalid sound - no audio buffer " ) ;
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return ;
}
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StopAudioBuffer ( audioBuffer ) ;
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// TODO: May want to lock/unlock this since this data buffer is read at mixing time.
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memcpy ( audioBuffer - > buffer , data , samplesCount * audioBuffer - > dsp . formatConverterIn . config . channels * mal_get_bytes_per_sample ( audioBuffer - > dsp . formatConverterIn . config . formatIn ) ) ;
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# else
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ALint sampleRate , sampleSize , channels ;
alGetBufferi ( sound . buffer , AL_FREQUENCY , & sampleRate ) ;
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alGetBufferi ( sound . buffer , AL_BITS , & sampleSize ) ; // It could also be retrieved from sound.format
alGetBufferi ( sound . buffer , AL_CHANNELS , & channels ) ; // It could also be retrieved from sound.format
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TraceLog ( LOG_DEBUG , " UpdateSound() : AL_FREQUENCY: %i " , sampleRate ) ;
TraceLog ( LOG_DEBUG , " UpdateSound() : AL_BITS: %i " , sampleSize ) ;
TraceLog ( LOG_DEBUG , " UpdateSound() : AL_CHANNELS: %i " , channels ) ;
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2017-02-10 00:19:48 +03:00
unsigned int dataSize = samplesCount * channels * sampleSize / 8 ; // Size of data in bytes
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2016-08-29 12:17:58 +03:00
alSourceStop ( sound . source ) ; // Stop sound
alSourcei ( sound . source , AL_BUFFER , 0 ) ; // Unbind buffer from sound to update
//alDeleteBuffers(1, &sound.buffer); // Delete current buffer data
//alGenBuffers(1, &sound.buffer); // Generate new buffer
// Upload new data to sound buffer
alBufferData ( sound . buffer , sound . format , data , dataSize , sampleRate ) ;
// Attach sound buffer to source again
alSourcei ( sound . source , AL_BUFFER , sound . buffer ) ;
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# endif
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}
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// Export wave data to file
void ExportWave ( Wave wave , const char * fileName )
{
bool success = false ;
if ( IsFileExtension ( fileName , " .wav " ) )
{
// Basic WAV headers structs
typedef struct {
char chunkID [ 4 ] ;
int chunkSize ;
char format [ 4 ] ;
} RiffHeader ;
typedef struct {
char subChunkID [ 4 ] ;
int subChunkSize ;
short audioFormat ;
short numChannels ;
int sampleRate ;
int byteRate ;
short blockAlign ;
short bitsPerSample ;
} WaveFormat ;
typedef struct {
char subChunkID [ 4 ] ;
int subChunkSize ;
} WaveData ;
RiffHeader riffHeader ;
WaveFormat waveFormat ;
WaveData waveData ;
// Fill structs with data
riffHeader . chunkID [ 0 ] = ' R ' ;
riffHeader . chunkID [ 1 ] = ' I ' ;
riffHeader . chunkID [ 2 ] = ' F ' ;
riffHeader . chunkID [ 3 ] = ' F ' ;
riffHeader . chunkSize = 44 - 4 + wave . sampleCount * wave . sampleSize / 8 ;
riffHeader . format [ 0 ] = ' W ' ;
riffHeader . format [ 1 ] = ' A ' ;
riffHeader . format [ 2 ] = ' V ' ;
riffHeader . format [ 3 ] = ' E ' ;
waveFormat . subChunkID [ 0 ] = ' f ' ;
waveFormat . subChunkID [ 1 ] = ' m ' ;
waveFormat . subChunkID [ 2 ] = ' t ' ;
waveFormat . subChunkID [ 3 ] = ' ' ;
waveFormat . subChunkSize = 16 ;
waveFormat . audioFormat = 1 ;
waveFormat . numChannels = wave . channels ;
waveFormat . sampleRate = wave . sampleRate ;
waveFormat . byteRate = wave . sampleRate * wave . sampleSize / 8 ;
waveFormat . blockAlign = wave . sampleSize / 8 ;
waveFormat . bitsPerSample = wave . sampleSize ;
waveData . subChunkID [ 0 ] = ' d ' ;
waveData . subChunkID [ 1 ] = ' a ' ;
waveData . subChunkID [ 2 ] = ' t ' ;
waveData . subChunkID [ 3 ] = ' a ' ;
waveData . subChunkSize = wave . sampleCount * wave . channels * wave . sampleSize / 8 ;
FILE * wavFile = fopen ( fileName , " wb " ) ;
if ( wavFile = = NULL ) return ;
fwrite ( & riffHeader , 1 , sizeof ( RiffHeader ) , wavFile ) ;
fwrite ( & waveFormat , 1 , sizeof ( WaveFormat ) , wavFile ) ;
fwrite ( & waveData , 1 , sizeof ( WaveData ) , wavFile ) ;
fwrite ( wave . data , 1 , wave . sampleCount * wave . channels * wave . sampleSize / 8 , wavFile ) ;
fclose ( wavFile ) ;
success = true ;
}
else if ( IsFileExtension ( fileName , " .raw " ) ) { } // TODO: Support additional file formats to export wave sample data
if ( success ) TraceLog ( LOG_INFO , " Wave exported successfully: %s " , fileName ) ;
else TraceLog ( LOG_WARNING , " Wave could not be exported. " ) ;
}
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// Play a sound
void PlaySound ( Sound sound )
{
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# if USE_MINI_AL
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PlayAudioBuffer ( ( AudioBuffer * ) sound . audioBuffer ) ;
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# else
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alSourcePlay ( sound . source ) ; // Play the sound
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# endif
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//TraceLog(LOG_INFO, "Playing sound");
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// Find the current position of the sound being played
// NOTE: Only work when the entire file is in a single buffer
//int byteOffset;
//alGetSourcei(sound.source, AL_BYTE_OFFSET, &byteOffset);
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//
//int sampleRate;
//alGetBufferi(sound.buffer, AL_FREQUENCY, &sampleRate); // AL_CHANNELS, AL_BITS (bps)
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2016-09-12 20:36:41 +03:00
//float seconds = (float)byteOffset/sampleRate; // Number of seconds since the beginning of the sound
2014-01-23 15:36:18 +04:00
//or
//float result;
//alGetSourcef(sound.source, AL_SEC_OFFSET, &result); // AL_SAMPLE_OFFSET
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}
// Pause a sound
void PauseSound ( Sound sound )
{
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# if USE_MINI_AL
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PauseAudioBuffer ( ( AudioBuffer * ) sound . audioBuffer ) ;
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# else
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alSourcePause ( sound . source ) ;
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# endif
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}
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// Resume a paused sound
void ResumeSound ( Sound sound )
{
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# if USE_MINI_AL
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ResumeAudioBuffer ( ( AudioBuffer * ) sound . audioBuffer ) ;
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# else
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ALenum state ;
alGetSourcei ( sound . source , AL_SOURCE_STATE , & state ) ;
if ( state = = AL_PAUSED ) alSourcePlay ( sound . source ) ;
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# endif
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}
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// Stop reproducing a sound
void StopSound ( Sound sound )
{
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# if USE_MINI_AL
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StopAudioBuffer ( ( AudioBuffer * ) sound . audioBuffer ) ;
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# else
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alSourceStop ( sound . source ) ;
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# endif
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}
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// Check if a sound is playing
2016-05-03 19:04:21 +03:00
bool IsSoundPlaying ( Sound sound )
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{
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# if USE_MINI_AL
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return IsAudioBufferPlaying ( ( AudioBuffer * ) sound . audioBuffer ) ;
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# else
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bool playing = false ;
ALint state ;
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2014-01-23 15:36:18 +04:00
alGetSourcei ( sound . source , AL_SOURCE_STATE , & state ) ;
if ( state = = AL_PLAYING ) playing = true ;
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2014-01-23 15:36:18 +04:00
return playing ;
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# endif
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}
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// Set volume for a sound
void SetSoundVolume ( Sound sound , float volume )
{
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# if USE_MINI_AL
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SetAudioBufferVolume ( ( AudioBuffer * ) sound . audioBuffer , volume ) ;
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# else
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alSourcef ( sound . source , AL_GAIN , volume ) ;
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# endif
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}
// Set pitch for a sound
void SetSoundPitch ( Sound sound , float pitch )
{
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# if USE_MINI_AL
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SetAudioBufferPitch ( ( AudioBuffer * ) sound . audioBuffer , pitch ) ;
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# else
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alSourcef ( sound . source , AL_PITCH , pitch ) ;
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# endif
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}
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// Convert wave data to desired format
void WaveFormat ( Wave * wave , int sampleRate , int sampleSize , int channels )
{
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# if USE_MINI_AL
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mal_format formatIn = ( ( wave - > sampleSize = = 8 ) ? mal_format_u8 : ( ( wave - > sampleSize = = 16 ) ? mal_format_s16 : mal_format_f32 ) ) ;
mal_format formatOut = ( ( sampleSize = = 8 ) ? mal_format_u8 : ( ( sampleSize = = 16 ) ? mal_format_s16 : mal_format_f32 ) ) ;
mal_uint32 frameCountIn = wave - > sampleCount ; // Is wave->sampleCount actually the frame count? That terminology needs to change, if so.
2018-05-21 13:39:19 +03:00
mal_uint32 frameCount = ( mal_uint32 ) mal_convert_frames ( NULL , formatOut , channels , sampleRate , NULL , formatIn , wave - > channels , wave - > sampleRate , frameCountIn ) ;
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if ( frameCount = = 0 )
{
2017-11-12 07:17:05 +03:00
TraceLog ( LOG_ERROR , " WaveFormat() : Failed to get frame count for format conversion. " ) ;
return ;
}
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void * data = malloc ( frameCount * channels * ( sampleSize / 8 ) ) ;
2017-11-12 07:17:05 +03:00
2018-05-21 13:39:19 +03:00
frameCount = ( mal_uint32 ) mal_convert_frames ( data , formatOut , channels , sampleRate , wave - > data , formatIn , wave - > channels , wave - > sampleRate , frameCountIn ) ;
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if ( frameCount = = 0 )
{
2017-11-12 07:17:05 +03:00
TraceLog ( LOG_ERROR , " WaveFormat() : Format conversion failed. " ) ;
return ;
}
wave - > sampleCount = frameCount ;
wave - > sampleSize = sampleSize ;
wave - > sampleRate = sampleRate ;
wave - > channels = channels ;
free ( wave - > data ) ;
wave - > data = data ;
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# else
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// Format sample rate
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// NOTE: Only supported 22050 <--> 44100
if ( wave - > sampleRate ! = sampleRate )
{
// TODO: Resample wave data (upsampling or downsampling)
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// NOTE 1: To downsample, you have to drop samples or average them.
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// NOTE 2: To upsample, you have to interpolate new samples.
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wave - > sampleRate = sampleRate ;
}
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// Format sample size
// NOTE: Only supported 8 bit <--> 16 bit <--> 32 bit
2016-09-08 01:20:06 +03:00
if ( wave - > sampleSize ! = sampleSize )
{
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void * data = malloc ( wave - > sampleCount * wave - > channels * sampleSize / 8 ) ;
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for ( int i = 0 ; i < wave - > sampleCount ; i + + )
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{
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for ( int j = 0 ; j < wave - > channels ; j + + )
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{
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if ( sampleSize = = 8 )
{
if ( wave - > sampleSize = = 16 ) ( ( unsigned char * ) data ) [ wave - > channels * i + j ] = ( unsigned char ) ( ( ( float ) ( ( ( short * ) wave - > data ) [ wave - > channels * i + j ] ) / 32767.0f ) * 256 ) ;
else if ( wave - > sampleSize = = 32 ) ( ( unsigned char * ) data ) [ wave - > channels * i + j ] = ( unsigned char ) ( ( ( float * ) wave - > data ) [ wave - > channels * i + j ] * 127.0f + 127 ) ;
}
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else if ( sampleSize = = 16 )
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{
if ( wave - > sampleSize = = 8 ) ( ( short * ) data ) [ wave - > channels * i + j ] = ( short ) ( ( ( float ) ( ( ( unsigned char * ) wave - > data ) [ wave - > channels * i + j ] - 127 ) / 256.0f ) * 32767 ) ;
else if ( wave - > sampleSize = = 32 ) ( ( short * ) data ) [ wave - > channels * i + j ] = ( short ) ( ( ( ( float * ) wave - > data ) [ wave - > channels * i + j ] ) * 32767 ) ;
}
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else if ( sampleSize = = 32 )
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{
if ( wave - > sampleSize = = 8 ) ( ( float * ) data ) [ wave - > channels * i + j ] = ( float ) ( ( ( unsigned char * ) wave - > data ) [ wave - > channels * i + j ] - 127 ) / 256.0f ;
else if ( wave - > sampleSize = = 16 ) ( ( float * ) data ) [ wave - > channels * i + j ] = ( float ) ( ( ( short * ) wave - > data ) [ wave - > channels * i + j ] ) / 32767.0f ;
}
2016-09-08 01:20:06 +03:00
}
}
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wave - > sampleSize = sampleSize ;
free ( wave - > data ) ;
wave - > data = data ;
}
2017-01-29 01:02:30 +03:00
2016-12-25 03:58:56 +03:00
// Format channels (interlaced mode)
// NOTE: Only supported mono <--> stereo
if ( wave - > channels ! = channels )
{
2017-05-03 15:16:53 +03:00
void * data = malloc ( wave - > sampleCount * wave - > sampleSize / 8 * channels ) ;
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if ( ( wave - > channels = = 1 ) & & ( channels = = 2 ) ) // mono ---> stereo (duplicate mono information)
2016-09-08 01:20:06 +03:00
{
for ( int i = 0 ; i < wave - > sampleCount ; i + + )
{
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for ( int j = 0 ; j < channels ; j + + )
{
if ( wave - > sampleSize = = 8 ) ( ( unsigned char * ) data ) [ channels * i + j ] = ( ( unsigned char * ) wave - > data ) [ i ] ;
else if ( wave - > sampleSize = = 16 ) ( ( short * ) data ) [ channels * i + j ] = ( ( short * ) wave - > data ) [ i ] ;
else if ( wave - > sampleSize = = 32 ) ( ( float * ) data ) [ channels * i + j ] = ( ( float * ) wave - > data ) [ i ] ;
}
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}
}
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else if ( ( wave - > channels = = 2 ) & & ( channels = = 1 ) ) // stereo ---> mono (mix stereo channels)
2016-09-08 01:20:06 +03:00
{
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for ( int i = 0 , j = 0 ; i < wave - > sampleCount ; i + + , j + = 2 )
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{
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if ( wave - > sampleSize = = 8 ) ( ( unsigned char * ) data ) [ i ] = ( ( ( unsigned char * ) wave - > data ) [ j ] + ( ( unsigned char * ) wave - > data ) [ j + 1 ] ) / 2 ;
else if ( wave - > sampleSize = = 16 ) ( ( short * ) data ) [ i ] = ( ( ( short * ) wave - > data ) [ j ] + ( ( short * ) wave - > data ) [ j + 1 ] ) / 2 ;
else if ( wave - > sampleSize = = 32 ) ( ( float * ) data ) [ i ] = ( ( ( float * ) wave - > data ) [ j ] + ( ( float * ) wave - > data ) [ j + 1 ] ) / 2.0f ;
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}
}
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// TODO: Add/remove additional interlaced channels
wave - > channels = channels ;
free ( wave - > data ) ;
wave - > data = data ;
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}
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# endif
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}
// Copy a wave to a new wave
Wave WaveCopy ( Wave wave )
{
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Wave newWave = { 0 } ;
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newWave . data = malloc ( wave . sampleCount * wave . sampleSize / 8 * wave . channels ) ;
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if ( newWave . data ! = NULL )
{
// NOTE: Size must be provided in bytes
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memcpy ( newWave . data , wave . data , wave . sampleCount * wave . channels * wave . sampleSize / 8 ) ;
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newWave . sampleCount = wave . sampleCount ;
newWave . sampleRate = wave . sampleRate ;
newWave . sampleSize = wave . sampleSize ;
newWave . channels = wave . channels ;
}
return newWave ;
}
// Crop a wave to defined samples range
// NOTE: Security check in case of out-of-range
void WaveCrop ( Wave * wave , int initSample , int finalSample )
{
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if ( ( initSample > = 0 ) & & ( initSample < finalSample ) & &
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( finalSample > 0 ) & & ( ( unsigned int ) finalSample < wave - > sampleCount ) )
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{
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int sampleCount = finalSample - initSample ;
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void * data = malloc ( sampleCount * wave - > sampleSize / 8 * wave - > channels ) ;
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memcpy ( data , ( unsigned char * ) wave - > data + ( initSample * wave - > channels * wave - > sampleSize / 8 ) , sampleCount * wave - > channels * wave - > sampleSize / 8 ) ;
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free ( wave - > data ) ;
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wave - > data = data ;
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}
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else TraceLog ( LOG_WARNING , " Wave crop range out of bounds " ) ;
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}
// Get samples data from wave as a floats array
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// NOTE: Returned sample values are normalized to range [-1..1]
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float * GetWaveData ( Wave wave )
{
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float * samples = ( float * ) malloc ( wave . sampleCount * wave . channels * sizeof ( float ) ) ;
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for ( unsigned int i = 0 ; i < wave . sampleCount ; i + + )
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{
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for ( unsigned int j = 0 ; j < wave . channels ; j + + )
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{
if ( wave . sampleSize = = 8 ) samples [ wave . channels * i + j ] = ( float ) ( ( ( unsigned char * ) wave . data ) [ wave . channels * i + j ] - 127 ) / 256.0f ;
else if ( wave . sampleSize = = 16 ) samples [ wave . channels * i + j ] = ( float ) ( ( short * ) wave . data ) [ wave . channels * i + j ] / 32767.0f ;
else if ( wave . sampleSize = = 32 ) samples [ wave . channels * i + j ] = ( ( float * ) wave . data ) [ wave . channels * i + j ] ;
}
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}
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return samples ;
}
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//----------------------------------------------------------------------------------
// Module Functions Definition - Music loading and stream playing (.OGG)
//----------------------------------------------------------------------------------
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// Load music stream from file
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Music LoadMusicStream ( const char * fileName )
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{
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Music music = ( MusicData * ) malloc ( sizeof ( MusicData ) ) ;
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bool musicLoaded = true ;
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if ( IsFileExtension ( fileName , " .ogg " ) )
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{
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// Open ogg audio stream
music - > ctxOgg = stb_vorbis_open_filename ( fileName , NULL , NULL ) ;
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if ( music - > ctxOgg = = NULL ) musicLoaded = false ;
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else
{
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stb_vorbis_info info = stb_vorbis_get_info ( music - > ctxOgg ) ; // Get Ogg file info
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// OGG bit rate defaults to 16 bit, it's enough for compressed format
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music - > stream = InitAudioStream ( info . sample_rate , 16 , info . channels ) ;
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music - > totalSamples = ( unsigned int ) stb_vorbis_stream_length_in_samples ( music - > ctxOgg ) ; // Independent by channel
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music - > samplesLeft = music - > totalSamples ;
music - > ctxType = MUSIC_AUDIO_OGG ;
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music - > loopCount = - 1 ; // Infinite loop by default
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TraceLog ( LOG_DEBUG , " [%s] OGG total samples: %i " , fileName , music - > totalSamples ) ;
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TraceLog ( LOG_DEBUG , " [%s] OGG sample rate: %i " , fileName , info . sample_rate ) ;
TraceLog ( LOG_DEBUG , " [%s] OGG channels: %i " , fileName , info . channels ) ;
TraceLog ( LOG_DEBUG , " [%s] OGG memory required: %i " , fileName , info . temp_memory_required ) ;
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}
}
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# if defined(SUPPORT_FILEFORMAT_FLAC)
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else if ( IsFileExtension ( fileName , " .flac " ) )
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{
music - > ctxFlac = drflac_open_file ( fileName ) ;
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if ( music - > ctxFlac = = NULL ) musicLoaded = false ;
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else
{
music - > stream = InitAudioStream ( music - > ctxFlac - > sampleRate , music - > ctxFlac - > bitsPerSample , music - > ctxFlac - > channels ) ;
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music - > totalSamples = ( unsigned int ) music - > ctxFlac - > totalSampleCount / music - > ctxFlac - > channels ;
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music - > samplesLeft = music - > totalSamples ;
music - > ctxType = MUSIC_AUDIO_FLAC ;
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music - > loopCount = - 1 ; // Infinite loop by default
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TraceLog ( LOG_DEBUG , " [%s] FLAC total samples: %i " , fileName , music - > totalSamples ) ;
TraceLog ( LOG_DEBUG , " [%s] FLAC sample rate: %i " , fileName , music - > ctxFlac - > sampleRate ) ;
TraceLog ( LOG_DEBUG , " [%s] FLAC bits per sample: %i " , fileName , music - > ctxFlac - > bitsPerSample ) ;
TraceLog ( LOG_DEBUG , " [%s] FLAC channels: %i " , fileName , music - > ctxFlac - > channels ) ;
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}
}
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# endif
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# if defined(SUPPORT_FILEFORMAT_MP3)
else if ( IsFileExtension ( fileName , " .mp3 " ) )
{
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drmp3_init_file ( & music - > ctxMp3 , fileName , NULL ) ;
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if ( music - > ctxMp3 . framesRemaining < = 0 ) musicLoaded = false ;
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else
{
music - > stream = InitAudioStream ( music - > ctxMp3 . sampleRate , 16 , music - > ctxMp3 . channels ) ;
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music - > totalSamples = ( unsigned int ) music - > ctxMp3 . framesRemaining * music - > ctxMp3 . channels ;
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music - > samplesLeft = music - > totalSamples ;
music - > ctxType = MUSIC_AUDIO_MP3 ;
music - > loopCount = - 1 ; // Infinite loop by default
TraceLog ( LOG_DEBUG , " [%s] MP3 total samples: %i " , fileName , music - > totalSamples ) ;
TraceLog ( LOG_DEBUG , " [%s] MP3 sample rate: %i " , fileName , music - > ctxMp3 . sampleRate ) ;
//TraceLog(LOG_DEBUG, "[%s] MP3 bits per sample: %i", fileName, music->ctxMp3.bitsPerSample);
TraceLog ( LOG_DEBUG , " [%s] MP3 channels: %i " , fileName , music - > ctxMp3 . channels ) ;
}
}
# endif
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# if defined(SUPPORT_FILEFORMAT_XM)
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else if ( IsFileExtension ( fileName , " .xm " ) )
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{
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int result = jar_xm_create_context_from_file ( & music - > ctxXm , 48000 , fileName ) ;
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if ( ! result ) // XM context created successfully
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{
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jar_xm_set_max_loop_count ( music - > ctxXm , 0 ) ; // Set infinite number of loops
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// NOTE: Only stereo is supported for XM
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music - > stream = InitAudioStream ( 48000 , 16 , 2 ) ;
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music - > totalSamples = ( unsigned int ) jar_xm_get_remaining_samples ( music - > ctxXm ) ;
music - > samplesLeft = music - > totalSamples ;
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music - > ctxType = MUSIC_MODULE_XM ;
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music - > loopCount = - 1 ; // Infinite loop by default
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TraceLog ( LOG_DEBUG , " [%s] XM number of samples: %i " , fileName , music - > totalSamples ) ;
TraceLog ( LOG_DEBUG , " [%s] XM track length: %11.6f sec " , fileName , ( float ) music - > totalSamples / 48000.0f ) ;
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}
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else musicLoaded = false ;
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}
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# endif
# if defined(SUPPORT_FILEFORMAT_MOD)
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else if ( IsFileExtension ( fileName , " .mod " ) )
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{
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jar_mod_init ( & music - > ctxMod ) ;
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if ( jar_mod_load_file ( & music - > ctxMod , fileName ) )
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{
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music - > stream = InitAudioStream ( 48000 , 16 , 2 ) ;
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music - > totalSamples = ( unsigned int ) jar_mod_max_samples ( & music - > ctxMod ) ;
music - > samplesLeft = music - > totalSamples ;
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music - > ctxType = MUSIC_MODULE_MOD ;
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music - > loopCount = - 1 ; // Infinite loop by default
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TraceLog ( LOG_DEBUG , " [%s] MOD number of samples: %i " , fileName , music - > samplesLeft ) ;
TraceLog ( LOG_DEBUG , " [%s] MOD track length: %11.6f sec " , fileName , ( float ) music - > totalSamples / 48000.0f ) ;
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}
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else musicLoaded = false ;
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}
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# endif
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else musicLoaded = false ;
if ( ! musicLoaded )
{
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if ( music - > ctxType = = MUSIC_AUDIO_OGG ) stb_vorbis_close ( music - > ctxOgg ) ;
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# if defined(SUPPORT_FILEFORMAT_FLAC)
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else if ( music - > ctxType = = MUSIC_AUDIO_FLAC ) drflac_free ( music - > ctxFlac ) ;
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# endif
# if defined(SUPPORT_FILEFORMAT_MP3)
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else if ( music - > ctxType = = MUSIC_AUDIO_MP3 ) drmp3_uninit ( & music - > ctxMp3 ) ;
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# endif
# if defined(SUPPORT_FILEFORMAT_XM)
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else if ( music - > ctxType = = MUSIC_MODULE_XM ) jar_xm_free_context ( music - > ctxXm ) ;
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# endif
# if defined(SUPPORT_FILEFORMAT_MOD)
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else if ( music - > ctxType = = MUSIC_MODULE_MOD ) jar_mod_unload ( & music - > ctxMod ) ;
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# endif
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free ( music ) ;
music = NULL ;
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TraceLog ( LOG_WARNING , " [%s] Music file could not be opened " , fileName ) ;
}
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return music ;
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}
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// Unload music stream
void UnloadMusicStream ( Music music )
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{
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CloseAudioStream ( music - > stream ) ;
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if ( music - > ctxType = = MUSIC_AUDIO_OGG ) stb_vorbis_close ( music - > ctxOgg ) ;
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# if defined(SUPPORT_FILEFORMAT_FLAC)
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else if ( music - > ctxType = = MUSIC_AUDIO_FLAC ) drflac_free ( music - > ctxFlac ) ;
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# endif
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# if defined(SUPPORT_FILEFORMAT_MP3)
else if ( music - > ctxType = = MUSIC_AUDIO_MP3 ) drmp3_uninit ( & music - > ctxMp3 ) ;
# endif
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# if defined(SUPPORT_FILEFORMAT_XM)
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else if ( music - > ctxType = = MUSIC_MODULE_XM ) jar_xm_free_context ( music - > ctxXm ) ;
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# endif
# if defined(SUPPORT_FILEFORMAT_MOD)
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else if ( music - > ctxType = = MUSIC_MODULE_MOD ) jar_mod_unload ( & music - > ctxMod ) ;
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# endif
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2016-08-01 13:49:17 +03:00
free ( music ) ;
}
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// Start music playing (open stream)
void PlayMusicStream ( Music music )
{
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# if USE_MINI_AL
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AudioBuffer * audioBuffer = ( AudioBuffer * ) music - > stream . audioBuffer ;
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if ( audioBuffer = = NULL )
{
TraceLog ( LOG_ERROR , " PlayMusicStream() : No audio buffer " ) ;
return ;
}
// For music streams, we need to make sure we maintain the frame cursor position. This is hack for this section of code in UpdateMusicStream()
// // NOTE: In case window is minimized, music stream is stopped,
// // just make sure to play again on window restore
// if (IsMusicPlaying(music)) PlayMusicStream(music);
mal_uint32 frameCursorPos = audioBuffer - > frameCursorPos ;
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PlayAudioStream ( music - > stream ) ; // <-- This resets the cursor position.
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audioBuffer - > frameCursorPos = frameCursorPos ;
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# else
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alSourcePlay ( music - > stream . source ) ;
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# endif
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}
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// Pause music playing
void PauseMusicStream ( Music music )
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{
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# if USE_MINI_AL
PauseAudioStream ( music - > stream ) ;
# else
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alSourcePause ( music - > stream . source ) ;
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# endif
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}
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// Resume music playing
void ResumeMusicStream ( Music music )
{
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# if USE_MINI_AL
ResumeAudioStream ( music - > stream ) ;
# else
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ALenum state ;
alGetSourcei ( music - > stream . source , AL_SOURCE_STATE , & state ) ;
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if ( state = = AL_PAUSED )
{
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TraceLog ( LOG_INFO , " [AUD ID %i] Resume music stream playing " , music - > stream . source ) ;
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alSourcePlay ( music - > stream . source ) ;
}
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# endif
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}
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// Stop music playing (close stream)
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// TODO: To clear a buffer, make sure they have been already processed!
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void StopMusicStream ( Music music )
{
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# if USE_MINI_AL
StopAudioStream ( music - > stream ) ;
# else
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alSourceStop ( music - > stream . source ) ;
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2017-05-10 20:34:57 +03:00
/*
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// Clear stream buffers
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// WARNING: Queued buffers must have been processed before unqueueing and reloaded with data!!!
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void * pcm = calloc ( AUDIO_BUFFER_SIZE * music - > stream . sampleSize / 8 * music - > stream . channels , 1 ) ;
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for ( int i = 0 ; i < MAX_STREAM_BUFFERS ; i + + )
{
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//UpdateAudioStream(music->stream, pcm, AUDIO_BUFFER_SIZE); // Update one buffer at a time
alBufferData ( music - > stream . buffers [ i ] , music - > stream . format , pcm , AUDIO_BUFFER_SIZE * music - > stream . sampleSize / 8 * music - > stream . channels , music - > stream . sampleRate ) ;
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}
free ( pcm ) ;
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*/
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# endif
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// Restart music context
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switch ( music - > ctxType )
{
case MUSIC_AUDIO_OGG : stb_vorbis_seek_start ( music - > ctxOgg ) ; break ;
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# if defined(SUPPORT_FILEFORMAT_FLAC)
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case MUSIC_AUDIO_FLAC : /* TODO: Restart FLAC context */ break ;
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# endif
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# if defined(SUPPORT_FILEFORMAT_MP3)
case MUSIC_AUDIO_MP3 : /* TODO: Restart MP3 context */ break ;
# endif
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# if defined(SUPPORT_FILEFORMAT_XM)
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case MUSIC_MODULE_XM : /* TODO: Restart XM context */ break ;
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# endif
# if defined(SUPPORT_FILEFORMAT_MOD)
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case MUSIC_MODULE_MOD : jar_mod_seek_start ( & music - > ctxMod ) ; break ;
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# endif
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default : break ;
}
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2016-09-15 12:53:16 +03:00
music - > samplesLeft = music - > totalSamples ;
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}
2014-09-03 18:51:28 +04:00
2016-07-15 19:16:34 +03:00
// Update (re-fill) music buffers if data already processed
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// TODO: Make sure buffers are ready for update... check music state
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void UpdateMusicStream ( Music music )
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{
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# if USE_MINI_AL
bool streamEnding = false ;
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unsigned int subBufferSizeInFrames = ( ( AudioBuffer * ) music - > stream . audioBuffer ) - > bufferSizeInFrames / 2 ;
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2017-11-12 14:55:24 +03:00
// NOTE: Using dynamic allocation because it could require more than 16KB
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void * pcm = calloc ( subBufferSizeInFrames * music - > stream . sampleSize / 8 * music - > stream . channels , 1 ) ;
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int samplesCount = 0 ; // Total size of data steamed in L+R samples for xm floats, individual L or R for ogg shorts
while ( IsAudioBufferProcessed ( music - > stream ) )
{
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if ( music - > samplesLeft > = subBufferSizeInFrames ) samplesCount = subBufferSizeInFrames ;
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else samplesCount = music - > samplesLeft ;
// TODO: Really don't like ctxType thingy...
switch ( music - > ctxType )
{
case MUSIC_AUDIO_OGG :
{
// NOTE: Returns the number of samples to process (be careful! we ask for number of shorts!)
2018-03-16 20:17:58 +03:00
stb_vorbis_get_samples_short_interleaved ( music - > ctxOgg , music - > stream . channels , ( short * ) pcm , samplesCount * music - > stream . channels ) ;
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} break ;
# if defined(SUPPORT_FILEFORMAT_FLAC)
case MUSIC_AUDIO_FLAC :
{
// NOTE: Returns the number of samples to process
unsigned int numSamplesFlac = ( unsigned int ) drflac_read_s16 ( music - > ctxFlac , samplesCount * music - > stream . channels , ( short * ) pcm ) ;
} break ;
# endif
2018-05-17 01:04:58 +03:00
# if defined(SUPPORT_FILEFORMAT_MP3)
case MUSIC_AUDIO_MP3 :
{
// NOTE: Returns the number of samples to process
2018-07-20 00:15:46 +03:00
unsigned int numSamplesMp3 = ( unsigned int ) drmp3_read_f32 ( & music - > ctxMp3 , samplesCount * music - > stream . channels , ( float * ) pcm ) ;
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} break ;
# endif
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# if defined(SUPPORT_FILEFORMAT_XM)
case MUSIC_MODULE_XM : jar_xm_generate_samples_16bit ( music - > ctxXm , pcm , samplesCount ) ; break ;
# endif
# if defined(SUPPORT_FILEFORMAT_MOD)
case MUSIC_MODULE_MOD : jar_mod_fillbuffer ( & music - > ctxMod , pcm , samplesCount , 0 ) ; break ;
# endif
default : break ;
}
UpdateAudioStream ( music - > stream , pcm , samplesCount ) ;
music - > samplesLeft - = samplesCount ;
if ( music - > samplesLeft < = 0 )
{
streamEnding = true ;
break ;
}
}
// Free allocated pcm data
free ( pcm ) ;
// Reset audio stream for looping
if ( streamEnding )
{
StopMusicStream ( music ) ; // Stop music (and reset)
// Decrease loopCount to stop when required
if ( music - > loopCount > 0 )
{
music - > loopCount - - ; // Decrease loop count
PlayMusicStream ( music ) ; // Play again
}
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else
{
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if ( music - > loopCount = = - 1 ) PlayMusicStream ( music ) ;
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}
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}
else
{
// NOTE: In case window is minimized, music stream is stopped,
// just make sure to play again on window restore
if ( IsMusicPlaying ( music ) ) PlayMusicStream ( music ) ;
}
# else
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ALenum state ;
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ALint processed = 0 ;
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alGetSourcei ( music - > stream . source , AL_SOURCE_STATE , & state ) ; // Get music stream state
alGetSourcei ( music - > stream . source , AL_BUFFERS_PROCESSED , & processed ) ; // Get processed buffers
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if ( processed > 0 )
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{
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bool streamEnding = false ;
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// NOTE: Using dynamic allocation because it could require more than 16KB
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void * pcm = calloc ( AUDIO_BUFFER_SIZE * music - > stream . sampleSize / 8 * music - > stream . channels , 1 ) ;
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int numBuffersToProcess = processed ;
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int samplesCount = 0 ; // Total size of data steamed in L+R samples for xm floats,
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// individual L or R for ogg shorts
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for ( int i = 0 ; i < numBuffersToProcess ; i + + )
{
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if ( music - > samplesLeft > = AUDIO_BUFFER_SIZE ) samplesCount = AUDIO_BUFFER_SIZE ;
else samplesCount = music - > samplesLeft ;
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// TODO: Really don't like ctxType thingy...
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switch ( music - > ctxType )
{
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case MUSIC_AUDIO_OGG :
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{
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// NOTE: Returns the number of samples to process (be careful! we ask for number of shorts!)
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int numSamplesOgg = stb_vorbis_get_samples_short_interleaved ( music - > ctxOgg , music - > stream . channels , ( short * ) pcm , samplesCount * music - > stream . channels ) ;
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} break ;
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# if defined(SUPPORT_FILEFORMAT_FLAC)
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case MUSIC_AUDIO_FLAC :
{
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// NOTE: Returns the number of samples to process
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unsigned int numSamplesFlac = ( unsigned int ) drflac_read_s16 ( music - > ctxFlac , samplesCount * music - > stream . channels , ( short * ) pcm ) ;
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} break ;
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# endif
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# if defined(SUPPORT_FILEFORMAT_MP3)
case MUSIC_AUDIO_MP3 :
{
// NOTE: Returns the number of samples to process
unsigned int numSamplesMp3 = ( unsigned int ) drmp3_read_f32 ( & music - > ctxMp3 , samplesCount * music - > stream . channels , ( float * ) pcm ) ;
} break ;
# endif
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# if defined(SUPPORT_FILEFORMAT_XM)
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case MUSIC_MODULE_XM : jar_xm_generate_samples_16bit ( music - > ctxXm , pcm , samplesCount ) ; break ;
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# endif
# if defined(SUPPORT_FILEFORMAT_MOD)
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case MUSIC_MODULE_MOD : jar_mod_fillbuffer ( & music - > ctxMod , pcm , samplesCount , 0 ) ; break ;
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# endif
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default : break ;
}
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UpdateAudioStream ( music - > stream , pcm , samplesCount ) ;
music - > samplesLeft - = samplesCount ;
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if ( music - > samplesLeft < = 0 )
{
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streamEnding = true ;
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break ;
}
}
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// Free allocated pcm data
free ( pcm ) ;
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// Reset audio stream for looping
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if ( streamEnding )
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{
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StopMusicStream ( music ) ; // Stop music (and reset)
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// Decrease loopCount to stop when required
if ( music - > loopCount > 0 )
{
music - > loopCount - - ; // Decrease loop count
PlayMusicStream ( music ) ; // Play again
}
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else
{
if ( music - > loopCount = = - 1 )
{
PlayMusicStream ( music ) ;
}
}
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}
else
{
// NOTE: In case window is minimized, music stream is stopped,
// just make sure to play again on window restore
if ( state ! = AL_PLAYING ) PlayMusicStream ( music ) ;
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}
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}
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# endif
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}
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// Check if any music is playing
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bool IsMusicPlaying ( Music music )
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{
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# if USE_MINI_AL
return IsAudioStreamPlaying ( music - > stream ) ;
# else
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bool playing = false ;
ALint state ;
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alGetSourcei ( music - > stream . source , AL_SOURCE_STATE , & state ) ;
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2016-08-01 13:49:17 +03:00
if ( state = = AL_PLAYING ) playing = true ;
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return playing ;
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# endif
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}
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// Set volume for music
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void SetMusicVolume ( Music music , float volume )
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{
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# if USE_MINI_AL
SetAudioStreamVolume ( music - > stream , volume ) ;
# else
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alSourcef ( music - > stream . source , AL_GAIN , volume ) ;
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# endif
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}
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// Set pitch for music
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void SetMusicPitch ( Music music , float pitch )
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{
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# if USE_MINI_AL
SetAudioStreamPitch ( music - > stream , pitch ) ;
# else
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alSourcef ( music - > stream . source , AL_PITCH , pitch ) ;
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# endif
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}
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// Set music loop count (loop repeats)
// NOTE: If set to -1, means infinite loop
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void SetMusicLoopCount ( Music music , int count )
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{
music - > loopCount = count ;
}
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// Get music time length (in seconds)
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float GetMusicTimeLength ( Music music )
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{
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float totalSeconds = ( float ) music - > totalSamples / music - > stream . sampleRate ;
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2014-04-19 18:36:49 +04:00
return totalSeconds ;
}
// Get current music time played (in seconds)
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float GetMusicTimePlayed ( Music music )
2014-04-19 18:36:49 +04:00
{
2016-05-21 19:08:09 +03:00
float secondsPlayed = 0.0f ;
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2016-08-02 18:32:24 +03:00
unsigned int samplesPlayed = music - > totalSamples - music - > samplesLeft ;
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secondsPlayed = ( float ) samplesPlayed / music - > stream . sampleRate ;
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return secondsPlayed ;
}
2017-11-12 13:59:16 +03:00
2016-08-01 13:49:17 +03:00
// Init audio stream (to stream audio pcm data)
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AudioStream InitAudioStream ( unsigned int sampleRate , unsigned int sampleSize , unsigned int channels )
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{
AudioStream stream = { 0 } ;
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2016-08-01 13:49:17 +03:00
stream . sampleRate = sampleRate ;
stream . sampleSize = sampleSize ;
2017-01-29 01:02:30 +03:00
2016-12-25 03:58:56 +03:00
// Only mono and stereo channels are supported, more channels require AL_EXT_MCFORMATS extension
if ( ( channels > 0 ) & & ( channels < 3 ) ) stream . channels = channels ;
else
{
2017-07-02 13:35:13 +03:00
TraceLog ( LOG_WARNING , " Init audio stream: Number of channels not supported: %i " , channels ) ;
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stream . channels = 1 ; // Fallback to mono channel
}
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2017-11-12 13:59:16 +03:00
# if USE_MINI_AL
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mal_format formatIn = ( ( stream . sampleSize = = 8 ) ? mal_format_u8 : ( ( stream . sampleSize = = 16 ) ? mal_format_s16 : mal_format_f32 ) ) ;
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2017-11-24 14:54:00 +03:00
// The size of a streaming buffer must be at least double the size of a period.
unsigned int periodSize = device . bufferSizeInFrames / device . periods ;
unsigned int subBufferSize = AUDIO_BUFFER_SIZE ;
2017-12-20 13:37:43 +03:00
if ( subBufferSize < periodSize ) subBufferSize = periodSize ;
2017-11-24 14:54:00 +03:00
2017-12-20 13:37:43 +03:00
AudioBuffer * audioBuffer = CreateAudioBuffer ( formatIn , stream . channels , stream . sampleRate , subBufferSize * 2 , AUDIO_BUFFER_USAGE_STREAM ) ;
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if ( audioBuffer = = NULL )
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{
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TraceLog ( LOG_ERROR , " InitAudioStream() : Failed to create audio buffer " ) ;
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return stream ;
}
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audioBuffer - > looping = true ; // Always loop for streaming buffers.
stream . audioBuffer = audioBuffer ;
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# else
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// Setup OpenAL format
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if ( stream . channels = = 1 )
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{
switch ( sampleSize )
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{
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case 8 : stream . format = AL_FORMAT_MONO8 ; break ;
case 16 : stream . format = AL_FORMAT_MONO16 ; break ;
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case 32 : stream . format = AL_FORMAT_MONO_FLOAT32 ; break ; // Requires OpenAL extension: AL_EXT_FLOAT32
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default : TraceLog ( LOG_WARNING , " Init audio stream: Sample size not supported: %i " , sampleSize ) ; break ;
2016-06-02 06:09:00 +03:00
}
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}
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else if ( stream . channels = = 2 )
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{
switch ( sampleSize )
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{
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case 8 : stream . format = AL_FORMAT_STEREO8 ; break ;
case 16 : stream . format = AL_FORMAT_STEREO16 ; break ;
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case 32 : stream . format = AL_FORMAT_STEREO_FLOAT32 ; break ; // Requires OpenAL extension: AL_EXT_FLOAT32
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default : TraceLog ( LOG_WARNING , " Init audio stream: Sample size not supported: %i " , sampleSize ) ; break ;
2016-05-15 02:30:32 +03:00
}
2016-08-01 13:49:17 +03:00
}
// Create an audio source
alGenSources ( 1 , & stream . source ) ;
2017-02-06 02:44:54 +03:00
alSourcef ( stream . source , AL_PITCH , 1.0f ) ;
alSourcef ( stream . source , AL_GAIN , 1.0f ) ;
alSource3f ( stream . source , AL_POSITION , 0.0f , 0.0f , 0.0f ) ;
alSource3f ( stream . source , AL_VELOCITY , 0.0f , 0.0f , 0.0f ) ;
2016-08-01 13:49:17 +03:00
2016-08-02 18:32:24 +03:00
// Create Buffers (double buffering)
2016-08-01 13:49:17 +03:00
alGenBuffers ( MAX_STREAM_BUFFERS , stream . buffers ) ;
// Initialize buffer with zeros by default
2016-12-25 03:58:56 +03:00
// NOTE: Using dynamic allocation because it requires more than 16KB
void * pcm = calloc ( AUDIO_BUFFER_SIZE * stream . sampleSize / 8 * stream . channels , 1 ) ;
2017-01-29 01:02:30 +03:00
2016-08-01 13:49:17 +03:00
for ( int i = 0 ; i < MAX_STREAM_BUFFERS ; i + + )
{
2016-12-25 03:58:56 +03:00
alBufferData ( stream . buffers [ i ] , stream . format , pcm , AUDIO_BUFFER_SIZE * stream . sampleSize / 8 * stream . channels , stream . sampleRate ) ;
2016-04-25 04:18:18 +03:00
}
2017-01-29 01:02:30 +03:00
2016-12-25 03:58:56 +03:00
free ( pcm ) ;
2014-09-03 18:51:28 +04:00
2016-08-01 13:49:17 +03:00
alSourceQueueBuffers ( stream . source , MAX_STREAM_BUFFERS , stream . buffers ) ;
2017-11-12 13:59:16 +03:00
# endif
2016-08-16 12:09:55 +03:00
2017-07-02 13:35:13 +03:00
TraceLog ( LOG_INFO , " [AUD ID %i] Audio stream loaded successfully (%i Hz, %i bit, %s) " , stream . source , stream . sampleRate , stream . sampleSize , ( stream . channels = = 1 ) ? " Mono " : " Stereo " ) ;
2016-08-01 13:49:17 +03:00
return stream ;
2014-04-19 18:36:49 +04:00
}
2016-08-01 13:49:17 +03:00
// Close audio stream and free memory
2016-08-02 18:32:24 +03:00
void CloseAudioStream ( AudioStream stream )
2016-08-01 13:49:17 +03:00
{
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# if USE_MINI_AL
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DeleteAudioBuffer ( ( AudioBuffer * ) stream . audioBuffer ) ;
2017-11-12 13:59:16 +03:00
# else
2016-08-01 13:49:17 +03:00
// Stop playing channel
alSourceStop ( stream . source ) ;
// Flush out all queued buffers
int queued = 0 ;
alGetSourcei ( stream . source , AL_BUFFERS_QUEUED , & queued ) ;
2016-08-16 12:09:55 +03:00
2016-08-01 13:49:17 +03:00
ALuint buffer = 0 ;
2016-08-16 12:09:55 +03:00
2016-08-01 13:49:17 +03:00
while ( queued > 0 )
{
alSourceUnqueueBuffers ( stream . source , 1 , & buffer ) ;
queued - - ;
}
// Delete source and buffers
alDeleteSources ( 1 , & stream . source ) ;
alDeleteBuffers ( MAX_STREAM_BUFFERS , stream . buffers ) ;
2017-11-12 13:59:16 +03:00
# endif
2017-07-02 13:35:13 +03:00
TraceLog ( LOG_INFO , " [AUD ID %i] Unloaded audio stream data " , stream . source ) ;
2016-08-01 13:49:17 +03:00
}
2016-08-02 18:32:24 +03:00
// Update audio stream buffers with data
2017-05-10 20:34:57 +03:00
// NOTE 1: Only updates one buffer of the stream source: unqueue -> update -> queue
// NOTE 2: To unqueue a buffer it needs to be processed: IsAudioBufferProcessed()
2017-02-10 00:19:48 +03:00
void UpdateAudioStream ( AudioStream stream , const void * data , int samplesCount )
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{
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# if USE_MINI_AL
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AudioBuffer * audioBuffer = ( AudioBuffer * ) stream . audioBuffer ;
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if ( audioBuffer = = NULL )
2017-11-12 13:59:16 +03:00
{
2017-11-18 01:42:14 +03:00
TraceLog ( LOG_ERROR , " UpdateAudioStream() : No audio buffer " ) ;
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return ;
}
2017-11-18 01:42:14 +03:00
if ( audioBuffer - > isSubBufferProcessed [ 0 ] | | audioBuffer - > isSubBufferProcessed [ 1 ] )
2017-11-12 13:59:16 +03:00
{
mal_uint32 subBufferToUpdate ;
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if ( audioBuffer - > isSubBufferProcessed [ 0 ] & & audioBuffer - > isSubBufferProcessed [ 1 ] )
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{
// Both buffers are available for updating. Update the first one and make sure the cursor is moved back to the front.
subBufferToUpdate = 0 ;
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audioBuffer - > frameCursorPos = 0 ;
2017-11-12 13:59:16 +03:00
}
else
{
// Just update whichever sub-buffer is processed.
2017-11-18 01:42:14 +03:00
subBufferToUpdate = ( audioBuffer - > isSubBufferProcessed [ 0 ] ) ? 0 : 1 ;
2017-11-12 13:59:16 +03:00
}
2017-11-18 01:42:14 +03:00
mal_uint32 subBufferSizeInFrames = audioBuffer - > bufferSizeInFrames / 2 ;
2017-12-20 13:37:43 +03:00
unsigned char * subBuffer = audioBuffer - > buffer + ( ( subBufferSizeInFrames * stream . channels * ( stream . sampleSize / 8 ) ) * subBufferToUpdate ) ;
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// Does this API expect a whole buffer to be updated in one go? Assuming so, but if not will need to change this logic.
if ( subBufferSizeInFrames > = ( mal_uint32 ) samplesCount )
{
mal_uint32 framesToWrite = subBufferSizeInFrames ;
2017-12-20 13:37:43 +03:00
if ( framesToWrite > ( mal_uint32 ) samplesCount ) framesToWrite = ( mal_uint32 ) samplesCount ;
2017-11-12 13:59:16 +03:00
2017-12-20 13:37:43 +03:00
mal_uint32 bytesToWrite = framesToWrite * stream . channels * ( stream . sampleSize / 8 ) ;
2017-11-12 13:59:16 +03:00
memcpy ( subBuffer , data , bytesToWrite ) ;
// Any leftover frames should be filled with zeros.
mal_uint32 leftoverFrameCount = subBufferSizeInFrames - framesToWrite ;
2017-12-20 13:37:43 +03:00
if ( leftoverFrameCount > 0 )
{
memset ( subBuffer + bytesToWrite , 0 , leftoverFrameCount * stream . channels * ( stream . sampleSize / 8 ) ) ;
2017-11-12 13:59:16 +03:00
}
2017-11-18 01:42:14 +03:00
audioBuffer - > isSubBufferProcessed [ subBufferToUpdate ] = false ;
2017-11-12 13:59:16 +03:00
}
else
{
2017-11-18 01:42:14 +03:00
TraceLog ( LOG_ERROR , " UpdateAudioStream() : Attempting to write too many frames to buffer " ) ;
2017-11-12 13:59:16 +03:00
return ;
}
}
else
{
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TraceLog ( LOG_ERROR , " Audio buffer not available for updating " ) ;
2017-11-12 13:59:16 +03:00
return ;
}
# else
2016-08-01 13:49:17 +03:00
ALuint buffer = 0 ;
alSourceUnqueueBuffers ( stream . source , 1 , & buffer ) ;
2016-08-16 12:09:55 +03:00
2016-08-02 18:32:24 +03:00
// Check if any buffer was available for unqueue
if ( alGetError ( ) ! = AL_INVALID_VALUE )
{
2017-05-10 20:34:57 +03:00
alBufferData ( buffer , stream . format , data , samplesCount * stream . sampleSize / 8 * stream . channels , stream . sampleRate ) ;
2016-08-02 18:32:24 +03:00
alSourceQueueBuffers ( stream . source , 1 , & buffer ) ;
}
2017-07-02 13:35:13 +03:00
else TraceLog ( LOG_WARNING , " [AUD ID %i] Audio buffer not available for unqueuing " , stream . source ) ;
2017-11-12 13:59:16 +03:00
# endif
2016-08-02 18:32:24 +03:00
}
// Check if any audio stream buffers requires refill
bool IsAudioBufferProcessed ( AudioStream stream )
{
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# if USE_MINI_AL
2017-12-20 13:37:43 +03:00
AudioBuffer * audioBuffer = ( AudioBuffer * ) stream . audioBuffer ;
2017-11-18 01:42:14 +03:00
if ( audioBuffer = = NULL )
2017-11-12 13:59:16 +03:00
{
2017-11-18 01:42:14 +03:00
TraceLog ( LOG_ERROR , " IsAudioBufferProcessed() : No audio buffer " ) ;
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return false ;
}
2017-11-18 01:42:14 +03:00
return audioBuffer - > isSubBufferProcessed [ 0 ] | | audioBuffer - > isSubBufferProcessed [ 1 ] ;
2017-11-12 13:59:16 +03:00
# else
2016-08-02 18:32:24 +03:00
ALint processed = 0 ;
2016-08-01 13:49:17 +03:00
2016-08-02 18:32:24 +03:00
// Determine if music stream is ready to be written
alGetSourcei ( stream . source , AL_BUFFERS_PROCESSED , & processed ) ;
2016-08-01 13:49:17 +03:00
2016-08-02 18:32:24 +03:00
return ( processed > 0 ) ;
2017-11-12 13:59:16 +03:00
# endif
2016-08-01 13:49:17 +03:00
}
2014-04-19 18:36:49 +04:00
2016-08-02 18:32:24 +03:00
// Play audio stream
void PlayAudioStream ( AudioStream stream )
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{
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# if USE_MINI_AL
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PlayAudioBuffer ( ( AudioBuffer * ) stream . audioBuffer ) ;
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# else
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alSourcePlay ( stream . source ) ;
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# endif
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}
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// Play audio stream
void PauseAudioStream ( AudioStream stream )
{
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# if USE_MINI_AL
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PauseAudioBuffer ( ( AudioBuffer * ) stream . audioBuffer ) ;
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# else
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alSourcePause ( stream . source ) ;
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# endif
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}
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// Resume audio stream playing
void ResumeAudioStream ( AudioStream stream )
{
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# if USE_MINI_AL
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ResumeAudioBuffer ( ( AudioBuffer * ) stream . audioBuffer ) ;
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# else
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ALenum state ;
alGetSourcei ( stream . source , AL_SOURCE_STATE , & state ) ;
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if ( state = = AL_PAUSED ) alSourcePlay ( stream . source ) ;
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# endif
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}
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// Check if audio stream is playing.
bool IsAudioStreamPlaying ( AudioStream stream )
{
# if USE_MINI_AL
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return IsAudioBufferPlaying ( ( AudioBuffer * ) stream . audioBuffer ) ;
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# else
bool playing = false ;
ALint state ;
alGetSourcei ( stream . source , AL_SOURCE_STATE , & state ) ;
if ( state = = AL_PLAYING ) playing = true ;
return playing ;
# endif
}
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// Stop audio stream
void StopAudioStream ( AudioStream stream )
{
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# if USE_MINI_AL
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StopAudioBuffer ( ( AudioBuffer * ) stream . audioBuffer ) ;
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# else
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alSourceStop ( stream . source ) ;
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# endif
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}
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void SetAudioStreamVolume ( AudioStream stream , float volume )
{
# if USE_MINI_AL
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SetAudioBufferVolume ( ( AudioBuffer * ) stream . audioBuffer , volume ) ;
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# else
alSourcef ( stream . source , AL_GAIN , volume ) ;
# endif
}
void SetAudioStreamPitch ( AudioStream stream , float pitch )
{
# if USE_MINI_AL
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SetAudioBufferPitch ( ( AudioBuffer * ) stream . audioBuffer , pitch ) ;
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# else
alSourcef ( stream . source , AL_PITCH , pitch ) ;
# endif
}
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//----------------------------------------------------------------------------------
// Module specific Functions Definition
//----------------------------------------------------------------------------------
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# if defined(SUPPORT_FILEFORMAT_WAV)
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// Load WAV file into Wave structure
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static Wave LoadWAV ( const char * fileName )
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{
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// Basic WAV headers structs
typedef struct {
char chunkID [ 4 ] ;
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int chunkSize ;
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char format [ 4 ] ;
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} WAVRiffHeader ;
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typedef struct {
char subChunkID [ 4 ] ;
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int subChunkSize ;
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short audioFormat ;
short numChannels ;
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int sampleRate ;
int byteRate ;
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short blockAlign ;
short bitsPerSample ;
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} WAVFormat ;
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typedef struct {
char subChunkID [ 4 ] ;
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int subChunkSize ;
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} WAVData ;
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WAVRiffHeader wavRiffHeader ;
WAVFormat wavFormat ;
WAVData wavData ;
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Wave wave = { 0 } ;
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FILE * wavFile ;
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wavFile = fopen ( fileName , " rb " ) ;
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if ( wavFile = = NULL )
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{
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TraceLog ( LOG_WARNING , " [%s] WAV file could not be opened " , fileName ) ;
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wave . data = NULL ;
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}
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else
{
// Read in the first chunk into the struct
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fread ( & wavRiffHeader , sizeof ( WAVRiffHeader ) , 1 , wavFile ) ;
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// Check for RIFF and WAVE tags
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if ( strncmp ( wavRiffHeader . chunkID , " RIFF " , 4 ) | |
strncmp ( wavRiffHeader . format , " WAVE " , 4 ) )
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{
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TraceLog ( LOG_WARNING , " [%s] Invalid RIFF or WAVE Header " , fileName ) ;
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}
else
{
// Read in the 2nd chunk for the wave info
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fread ( & wavFormat , sizeof ( WAVFormat ) , 1 , wavFile ) ;
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// Check for fmt tag
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if ( ( wavFormat . subChunkID [ 0 ] ! = ' f ' ) | | ( wavFormat . subChunkID [ 1 ] ! = ' m ' ) | |
( wavFormat . subChunkID [ 2 ] ! = ' t ' ) | | ( wavFormat . subChunkID [ 3 ] ! = ' ' ) )
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{
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TraceLog ( LOG_WARNING , " [%s] Invalid Wave format " , fileName ) ;
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}
else
{
// Check for extra parameters;
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if ( wavFormat . subChunkSize > 16 ) fseek ( wavFile , sizeof ( short ) , SEEK_CUR ) ;
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// Read in the the last byte of data before the sound file
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fread ( & wavData , sizeof ( WAVData ) , 1 , wavFile ) ;
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// Check for data tag
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if ( ( wavData . subChunkID [ 0 ] ! = ' d ' ) | | ( wavData . subChunkID [ 1 ] ! = ' a ' ) | |
( wavData . subChunkID [ 2 ] ! = ' t ' ) | | ( wavData . subChunkID [ 3 ] ! = ' a ' ) )
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{
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TraceLog ( LOG_WARNING , " [%s] Invalid data header " , fileName ) ;
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}
else
{
// Allocate memory for data
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wave . data = malloc ( wavData . subChunkSize ) ;
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// Read in the sound data into the soundData variable
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fread ( wave . data , wavData . subChunkSize , 1 , wavFile ) ;
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// Store wave parameters
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wave . sampleRate = wavFormat . sampleRate ;
wave . sampleSize = wavFormat . bitsPerSample ;
wave . channels = wavFormat . numChannels ;
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// NOTE: Only support 8 bit, 16 bit and 32 bit sample sizes
if ( ( wave . sampleSize ! = 8 ) & & ( wave . sampleSize ! = 16 ) & & ( wave . sampleSize ! = 32 ) )
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{
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TraceLog ( LOG_WARNING , " [%s] WAV sample size (%ibit) not supported, converted to 16bit " , fileName , wave . sampleSize ) ;
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WaveFormat ( & wave , wave . sampleRate , 16 , wave . channels ) ;
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}
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// NOTE: Only support up to 2 channels (mono, stereo)
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if ( wave . channels > 2 )
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{
WaveFormat ( & wave , wave . sampleRate , wave . sampleSize , 2 ) ;
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TraceLog ( LOG_WARNING , " [%s] WAV channels number (%i) not supported, converted to 2 channels " , fileName , wave . channels ) ;
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}
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// NOTE: subChunkSize comes in bytes, we need to translate it to number of samples
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wave . sampleCount = ( wavData . subChunkSize / ( wave . sampleSize / 8 ) ) / wave . channels ;
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TraceLog ( LOG_INFO , " [%s] WAV file loaded successfully (%i Hz, %i bit, %s) " , fileName , wave . sampleRate , wave . sampleSize , ( wave . channels = = 1 ) ? " Mono " : " Stereo " ) ;
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}
}
}
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fclose ( wavFile ) ;
}
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return wave ;
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}
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# endif
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# if defined(SUPPORT_FILEFORMAT_OGG)
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// Load OGG file into Wave structure
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// NOTE: Using stb_vorbis library
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static Wave LoadOGG ( const char * fileName )
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{
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Wave wave = { 0 } ;
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stb_vorbis * oggFile = stb_vorbis_open_filename ( fileName , NULL , NULL ) ;
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if ( oggFile = = NULL ) TraceLog ( LOG_WARNING , " [%s] OGG file could not be opened " , fileName ) ;
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else
{
stb_vorbis_info info = stb_vorbis_get_info ( oggFile ) ;
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wave . sampleRate = info . sample_rate ;
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wave . sampleSize = 16 ; // 16 bit per sample (short)
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wave . channels = info . channels ;
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wave . sampleCount = ( int ) stb_vorbis_stream_length_in_samples ( oggFile ) ; // Independent by channel
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float totalSeconds = stb_vorbis_stream_length_in_seconds ( oggFile ) ;
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if ( totalSeconds > 10 ) TraceLog ( LOG_WARNING , " [%s] Ogg audio length is larger than 10 seconds (%f), that's a big file in memory, consider music streaming " , fileName , totalSeconds ) ;
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wave . data = ( short * ) malloc ( wave . sampleCount * wave . channels * sizeof ( short ) ) ;
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// NOTE: Returns the number of samples to process (be careful! we ask for number of shorts!)
int numSamplesOgg = stb_vorbis_get_samples_short_interleaved ( oggFile , info . channels , ( short * ) wave . data , wave . sampleCount * wave . channels ) ;
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TraceLog ( LOG_DEBUG , " [%s] Samples obtained: %i " , fileName , numSamplesOgg ) ;
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TraceLog ( LOG_INFO , " [%s] OGG file loaded successfully (%i Hz, %i bit, %s) " , fileName , wave . sampleRate , wave . sampleSize , ( wave . channels = = 1 ) ? " Mono " : " Stereo " ) ;
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stb_vorbis_close ( oggFile ) ;
}
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return wave ;
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}
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# endif
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# if defined(SUPPORT_FILEFORMAT_FLAC)
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// Load FLAC file into Wave structure
// NOTE: Using dr_flac library
static Wave LoadFLAC ( const char * fileName )
{
Wave wave ;
// Decode an entire FLAC file in one go
uint64_t totalSampleCount ;
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wave . data = drflac_open_and_decode_file_s16 ( fileName , & wave . channels , & wave . sampleRate , & totalSampleCount ) ;
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wave . sampleCount = ( int ) totalSampleCount / wave . channels ;
wave . sampleSize = 16 ;
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// NOTE: Only support up to 2 channels (mono, stereo)
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if ( wave . channels > 2 ) TraceLog ( LOG_WARNING , " [%s] FLAC channels number (%i) not supported " , fileName , wave . channels ) ;
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if ( wave . data = = NULL ) TraceLog ( LOG_WARNING , " [%s] FLAC data could not be loaded " , fileName ) ;
else TraceLog ( LOG_INFO , " [%s] FLAC file loaded successfully (%i Hz, %i bit, %s) " , fileName, wave.sampleRate, wave.sampleSize, (wave.channels == 1) ? " Mono " : " Stereo " ) ;
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return wave ;
}
# endif
# if defined(SUPPORT_FILEFORMAT_MP3)
// Load MP3 file into Wave structure
// NOTE: Using dr_mp3 library
static Wave LoadMP3 ( const char * fileName )
{
Wave wave ;
// Decode an entire MP3 file in one go
uint64_t totalSampleCount ;
drmp3_config * config ;
wave . data = drmp3_open_and_decode_file_f32 ( fileName , config , & totalSampleCount ) ;
wave . channels = config - > outputChannels ;
wave . sampleRate = config - > outputSampleRate ;
wave . sampleCount = ( int ) totalSampleCount / wave . channels ;
wave . sampleSize = 16 ;
// NOTE: Only support up to 2 channels (mono, stereo)
if ( wave . channels > 2 ) TraceLog ( LOG_WARNING , " [%s] MP3 channels number (%i) not supported " , fileName , wave . channels ) ;
if ( wave . data = = NULL ) TraceLog ( LOG_WARNING , " [%s] MP3 data could not be loaded " , fileName ) ;
else TraceLog ( LOG_INFO , " [%s] MP3 file loaded successfully (%i Hz, %i bit, %s) " , fileName, wave.sampleRate, wave.sampleSize, (wave.channels == 1) ? " Mono " : " Stereo " ) ;
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return wave ;
}
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# endif
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// Some required functions for audio standalone module version
# if defined(AUDIO_STANDALONE)
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// Check file extension
bool IsFileExtension ( const char * fileName , const char * ext )
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{
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bool result = false ;
const char * fileExt ;
if ( ( fileExt = strrchr ( fileName , ' . ' ) ) ! = NULL )
{
if ( strcmp ( fileExt , ext ) = = 0 ) result = true ;
}
return result ;
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}
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// Show trace log messages (LOG_INFO, LOG_WARNING, LOG_ERROR, LOG_DEBUG)
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void TraceLog ( int msgType , const char * text , . . . )
{
va_list args ;
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va_start ( args , text ) ;
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switch ( msgType )
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{
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case LOG_INFO : fprintf ( stdout , " INFO: " ) ; break ;
case LOG_ERROR : fprintf ( stdout , " ERROR: " ) ; break ;
case LOG_WARNING : fprintf ( stdout , " WARNING: " ) ; break ;
case LOG_DEBUG : fprintf ( stdout , " DEBUG: " ) ; break ;
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default : break ;
}
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vfprintf ( stdout , text , args ) ;
fprintf ( stdout , " \n " ) ;
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va_end ( args ) ;
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if ( msgType = = LOG_ERROR ) exit ( 1 ) ;
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}
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# endif