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/*
WAV audio loader and writer . Choice of public domain or MIT - 0. See license statements at the end of this file .
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dr_wav - v0 .13 .16 - 2024 - 02 - 27
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David Reid - mackron @ gmail . com
GitHub : https : //github.com/mackron/dr_libs
*/
/*
Introduction
= = = = = = = = = = = =
This is a single file library . To use it , do something like the following in one . c file .
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` ` ` c
# define DR_WAV_IMPLEMENTATION
# include "dr_wav.h"
` ` `
You can then # include this file in other parts of the program as you would with any other header file . Do something like the following to read audio data :
` ` ` c
drwav wav ;
if ( ! drwav_init_file ( & wav , " my_song.wav " , NULL ) ) {
// Error opening WAV file.
}
drwav_int32 * pDecodedInterleavedPCMFrames = malloc ( wav . totalPCMFrameCount * wav . channels * sizeof ( drwav_int32 ) ) ;
size_t numberOfSamplesActuallyDecoded = drwav_read_pcm_frames_s32 ( & wav , wav . totalPCMFrameCount , pDecodedInterleavedPCMFrames ) ;
. . .
drwav_uninit ( & wav ) ;
` ` `
If you just want to quickly open and read the audio data in a single operation you can do something like this :
` ` ` c
unsigned int channels ;
unsigned int sampleRate ;
drwav_uint64 totalPCMFrameCount ;
float * pSampleData = drwav_open_file_and_read_pcm_frames_f32 ( " my_song.wav " , & channels , & sampleRate , & totalPCMFrameCount , NULL ) ;
if ( pSampleData = = NULL ) {
// Error opening and reading WAV file.
}
. . .
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drwav_free ( pSampleData , NULL ) ;
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` ` `
The examples above use versions of the API that convert the audio data to a consistent format ( 32 - bit signed PCM , in this case ) , but you can still output the
audio data in its internal format ( see notes below for supported formats ) :
` ` ` c
size_t framesRead = drwav_read_pcm_frames ( & wav , wav . totalPCMFrameCount , pDecodedInterleavedPCMFrames ) ;
` ` `
You can also read the raw bytes of audio data , which could be useful if dr_wav does not have native support for a particular data format :
` ` ` c
size_t bytesRead = drwav_read_raw ( & wav , bytesToRead , pRawDataBuffer ) ;
` ` `
dr_wav can also be used to output WAV files . This does not currently support compressed formats . To use this , look at ` drwav_init_write ( ) ` ,
` drwav_init_file_write ( ) ` , etc . Use ` drwav_write_pcm_frames ( ) ` to write samples , or ` drwav_write_raw ( ) ` to write raw data in the " data " chunk .
` ` ` c
drwav_data_format format ;
format . container = drwav_container_riff ; // <-- drwav_container_riff = normal WAV files, drwav_container_w64 = Sony Wave64.
format . format = DR_WAVE_FORMAT_PCM ; // <-- Any of the DR_WAVE_FORMAT_* codes.
format . channels = 2 ;
format . sampleRate = 44100 ;
format . bitsPerSample = 16 ;
drwav_init_file_write ( & wav , " data/recording.wav " , & format , NULL ) ;
. . .
drwav_uint64 framesWritten = drwav_write_pcm_frames ( pWav , frameCount , pSamples ) ;
` ` `
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Note that writing to AIFF or RIFX is not supported .
dr_wav has support for decoding from a number of different encapsulation formats . See below for details .
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Build Options
= = = = = = = = = = = = =
# define these options before including this file.
# define DR_WAV_NO_CONVERSION_API
Disables conversion APIs such as ` drwav_read_pcm_frames_f32 ( ) ` and ` drwav_s16_to_f32 ( ) ` .
# define DR_WAV_NO_STDIO
Disables APIs that initialize a decoder from a file such as ` drwav_init_file ( ) ` , ` drwav_init_file_write ( ) ` , etc .
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# define DR_WAV_NO_WCHAR
Disables all functions ending with ` _w ` . Use this if your compiler does not provide wchar . h . Not required if DR_WAV_NO_STDIO is also defined .
Supported Encapsulations
= = = = = = = = = = = = = = = = = = = = = = = =
- RIFF ( Regular WAV )
- RIFX ( Big - Endian )
- AIFF ( Does not currently support ADPCM )
- RF64
- W64
Note that AIFF and RIFX do not support write mode , nor do they support reading of metadata .
Supported Encodings
= = = = = = = = = = = = = = = = = = =
- Unsigned 8 - bit PCM
- Signed 12 - bit PCM
- Signed 16 - bit PCM
- Signed 24 - bit PCM
- Signed 32 - bit PCM
- IEEE 32 - bit floating point
- IEEE 64 - bit floating point
- A - law and u - law
- Microsoft ADPCM
- IMA ADPCM ( DVI , format code 0x11 )
8 - bit PCM encodings are always assumed to be unsigned . Signed 8 - bit encoding can only be read with ` drwav_read_raw ( ) ` .
Note that ADPCM is not currently supported with AIFF . Contributions welcome .
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Notes
= = = = =
- Samples are always interleaved .
- The default read function does not do any data conversion . Use ` drwav_read_pcm_frames_f32 ( ) ` , ` drwav_read_pcm_frames_s32 ( ) ` and ` drwav_read_pcm_frames_s16 ( ) `
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to read and convert audio data to 32 - bit floating point , signed 32 - bit integer and signed 16 - bit integer samples respectively .
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- dr_wav will try to read the WAV file as best it can , even if it ' s not strictly conformant to the WAV format .
*/
# ifndef dr_wav_h
# define dr_wav_h
# ifdef __cplusplus
extern " C " {
# endif
# define DRWAV_STRINGIFY(x) #x
# define DRWAV_XSTRINGIFY(x) DRWAV_STRINGIFY(x)
# define DRWAV_VERSION_MAJOR 0
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# define DRWAV_VERSION_MINOR 13
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# define DRWAV_VERSION_REVISION 16
# define DRWAV_VERSION_STRING DRWAV_XSTRINGIFY(DRWAV_VERSION_MAJOR) "." DRWAV_XSTRINGIFY(DRWAV_VERSION_MINOR) "." DRWAV_XSTRINGIFY(DRWAV_VERSION_REVISION)
# include <stddef.h> /* For size_t. */
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/* Sized Types */
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typedef signed char drwav_int8 ;
typedef unsigned char drwav_uint8 ;
typedef signed short drwav_int16 ;
typedef unsigned short drwav_uint16 ;
typedef signed int drwav_int32 ;
typedef unsigned int drwav_uint32 ;
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# if defined(_MSC_VER) && !defined(__clang__)
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typedef signed __int64 drwav_int64 ;
typedef unsigned __int64 drwav_uint64 ;
# else
# if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6)))
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wlong-long"
# if defined(__clang__)
# pragma GCC diagnostic ignored "-Wc++11-long-long"
# endif
# endif
typedef signed long long drwav_int64 ;
typedef unsigned long long drwav_uint64 ;
# if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6)))
# pragma GCC diagnostic pop
# endif
# endif
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# if defined(__LP64__) || defined(_WIN64) || (defined(__x86_64__) && !defined(__ILP32__)) || defined(_M_X64) || defined(__ia64) || defined (_M_IA64) || defined(__aarch64__) || defined(_M_ARM64) || defined(__powerpc64__)
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typedef drwav_uint64 drwav_uintptr ;
# else
typedef drwav_uint32 drwav_uintptr ;
# endif
typedef drwav_uint8 drwav_bool8 ;
typedef drwav_uint32 drwav_bool32 ;
# define DRWAV_TRUE 1
# define DRWAV_FALSE 0
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/* End Sized Types */
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/* Decorations */
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# if !defined(DRWAV_API)
# if defined(DRWAV_DLL)
# if defined(_WIN32)
# define DRWAV_DLL_IMPORT __declspec(dllimport)
# define DRWAV_DLL_EXPORT __declspec(dllexport)
# define DRWAV_DLL_PRIVATE static
# else
# if defined(__GNUC__) && __GNUC__ >= 4
# define DRWAV_DLL_IMPORT __attribute__((visibility("default")))
# define DRWAV_DLL_EXPORT __attribute__((visibility("default")))
# define DRWAV_DLL_PRIVATE __attribute__((visibility("hidden")))
# else
# define DRWAV_DLL_IMPORT
# define DRWAV_DLL_EXPORT
# define DRWAV_DLL_PRIVATE static
# endif
# endif
# if defined(DR_WAV_IMPLEMENTATION) || defined(DRWAV_IMPLEMENTATION)
# define DRWAV_API DRWAV_DLL_EXPORT
# else
# define DRWAV_API DRWAV_DLL_IMPORT
# endif
# define DRWAV_PRIVATE DRWAV_DLL_PRIVATE
# else
# define DRWAV_API extern
# define DRWAV_PRIVATE static
# endif
# endif
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/* End Decorations */
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/* Result Codes */
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typedef drwav_int32 drwav_result ;
# define DRWAV_SUCCESS 0
# define DRWAV_ERROR -1 /* A generic error. */
# define DRWAV_INVALID_ARGS -2
# define DRWAV_INVALID_OPERATION -3
# define DRWAV_OUT_OF_MEMORY -4
# define DRWAV_OUT_OF_RANGE -5
# define DRWAV_ACCESS_DENIED -6
# define DRWAV_DOES_NOT_EXIST -7
# define DRWAV_ALREADY_EXISTS -8
# define DRWAV_TOO_MANY_OPEN_FILES -9
# define DRWAV_INVALID_FILE -10
# define DRWAV_TOO_BIG -11
# define DRWAV_PATH_TOO_LONG -12
# define DRWAV_NAME_TOO_LONG -13
# define DRWAV_NOT_DIRECTORY -14
# define DRWAV_IS_DIRECTORY -15
# define DRWAV_DIRECTORY_NOT_EMPTY -16
# define DRWAV_END_OF_FILE -17
# define DRWAV_NO_SPACE -18
# define DRWAV_BUSY -19
# define DRWAV_IO_ERROR -20
# define DRWAV_INTERRUPT -21
# define DRWAV_UNAVAILABLE -22
# define DRWAV_ALREADY_IN_USE -23
# define DRWAV_BAD_ADDRESS -24
# define DRWAV_BAD_SEEK -25
# define DRWAV_BAD_PIPE -26
# define DRWAV_DEADLOCK -27
# define DRWAV_TOO_MANY_LINKS -28
# define DRWAV_NOT_IMPLEMENTED -29
# define DRWAV_NO_MESSAGE -30
# define DRWAV_BAD_MESSAGE -31
# define DRWAV_NO_DATA_AVAILABLE -32
# define DRWAV_INVALID_DATA -33
# define DRWAV_TIMEOUT -34
# define DRWAV_NO_NETWORK -35
# define DRWAV_NOT_UNIQUE -36
# define DRWAV_NOT_SOCKET -37
# define DRWAV_NO_ADDRESS -38
# define DRWAV_BAD_PROTOCOL -39
# define DRWAV_PROTOCOL_UNAVAILABLE -40
# define DRWAV_PROTOCOL_NOT_SUPPORTED -41
# define DRWAV_PROTOCOL_FAMILY_NOT_SUPPORTED -42
# define DRWAV_ADDRESS_FAMILY_NOT_SUPPORTED -43
# define DRWAV_SOCKET_NOT_SUPPORTED -44
# define DRWAV_CONNECTION_RESET -45
# define DRWAV_ALREADY_CONNECTED -46
# define DRWAV_NOT_CONNECTED -47
# define DRWAV_CONNECTION_REFUSED -48
# define DRWAV_NO_HOST -49
# define DRWAV_IN_PROGRESS -50
# define DRWAV_CANCELLED -51
# define DRWAV_MEMORY_ALREADY_MAPPED -52
# define DRWAV_AT_END -53
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/* End Result Codes */
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/* Common data formats. */
# define DR_WAVE_FORMAT_PCM 0x1
# define DR_WAVE_FORMAT_ADPCM 0x2
# define DR_WAVE_FORMAT_IEEE_FLOAT 0x3
# define DR_WAVE_FORMAT_ALAW 0x6
# define DR_WAVE_FORMAT_MULAW 0x7
# define DR_WAVE_FORMAT_DVI_ADPCM 0x11
# define DR_WAVE_FORMAT_EXTENSIBLE 0xFFFE
/* Flags to pass into drwav_init_ex(), etc. */
# define DRWAV_SEQUENTIAL 0x00000001
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# define DRWAV_WITH_METADATA 0x00000002
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DRWAV_API void drwav_version ( drwav_uint32 * pMajor , drwav_uint32 * pMinor , drwav_uint32 * pRevision ) ;
DRWAV_API const char * drwav_version_string ( void ) ;
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/* Allocation Callbacks */
typedef struct
{
void * pUserData ;
void * ( * onMalloc ) ( size_t sz , void * pUserData ) ;
void * ( * onRealloc ) ( void * p , size_t sz , void * pUserData ) ;
void ( * onFree ) ( void * p , void * pUserData ) ;
} drwav_allocation_callbacks ;
/* End Allocation Callbacks */
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typedef enum
{
drwav_seek_origin_start ,
drwav_seek_origin_current
} drwav_seek_origin ;
typedef enum
{
drwav_container_riff ,
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drwav_container_rifx ,
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drwav_container_w64 ,
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drwav_container_rf64 ,
drwav_container_aiff
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} drwav_container ;
typedef struct
{
union
{
drwav_uint8 fourcc [ 4 ] ;
drwav_uint8 guid [ 16 ] ;
} id ;
/* The size in bytes of the chunk. */
drwav_uint64 sizeInBytes ;
/*
RIFF = 2 byte alignment .
W64 = 8 byte alignment .
*/
unsigned int paddingSize ;
} drwav_chunk_header ;
typedef struct
{
/*
The format tag exactly as specified in the wave file ' s " fmt " chunk . This can be used by applications
that require support for data formats not natively supported by dr_wav .
*/
drwav_uint16 formatTag ;
/* The number of channels making up the audio data. When this is set to 1 it is mono, 2 is stereo, etc. */
drwav_uint16 channels ;
/* The sample rate. Usually set to something like 44100. */
drwav_uint32 sampleRate ;
/* Average bytes per second. You probably don't need this, but it's left here for informational purposes. */
drwav_uint32 avgBytesPerSec ;
/* Block align. This is equal to the number of channels * bytes per sample. */
drwav_uint16 blockAlign ;
/* Bits per sample. */
drwav_uint16 bitsPerSample ;
/* The size of the extended data. Only used internally for validation, but left here for informational purposes. */
drwav_uint16 extendedSize ;
/*
The number of valid bits per sample . When < formatTag > is equal to WAVE_FORMAT_EXTENSIBLE , < bitsPerSample >
is always rounded up to the nearest multiple of 8. This variable contains information about exactly how
many bits are valid per sample . Mainly used for informational purposes .
*/
drwav_uint16 validBitsPerSample ;
/* The channel mask. Not used at the moment. */
drwav_uint32 channelMask ;
/* The sub-format, exactly as specified by the wave file. */
drwav_uint8 subFormat [ 16 ] ;
} drwav_fmt ;
DRWAV_API drwav_uint16 drwav_fmt_get_format ( const drwav_fmt * pFMT ) ;
/*
Callback for when data is read . Return value is the number of bytes actually read .
pUserData [ in ] The user data that was passed to drwav_init ( ) and family .
pBufferOut [ out ] The output buffer .
bytesToRead [ in ] The number of bytes to read .
Returns the number of bytes actually read .
A return value of less than bytesToRead indicates the end of the stream . Do _not_ return from this callback until
either the entire bytesToRead is filled or you have reached the end of the stream .
*/
typedef size_t ( * drwav_read_proc ) ( void * pUserData , void * pBufferOut , size_t bytesToRead ) ;
/*
Callback for when data is written . Returns value is the number of bytes actually written .
pUserData [ in ] The user data that was passed to drwav_init_write ( ) and family .
pData [ out ] A pointer to the data to write .
bytesToWrite [ in ] The number of bytes to write .
Returns the number of bytes actually written .
If the return value differs from bytesToWrite , it indicates an error .
*/
typedef size_t ( * drwav_write_proc ) ( void * pUserData , const void * pData , size_t bytesToWrite ) ;
/*
Callback for when data needs to be seeked .
pUserData [ in ] The user data that was passed to drwav_init ( ) and family .
offset [ in ] The number of bytes to move , relative to the origin . Will never be negative .
origin [ in ] The origin of the seek - the current position or the start of the stream .
Returns whether or not the seek was successful .
Whether or not it is relative to the beginning or current position is determined by the " origin " parameter which will be either drwav_seek_origin_start or
drwav_seek_origin_current .
*/
typedef drwav_bool32 ( * drwav_seek_proc ) ( void * pUserData , int offset , drwav_seek_origin origin ) ;
/*
Callback for when drwav_init_ex ( ) finds a chunk .
pChunkUserData [ in ] The user data that was passed to the pChunkUserData parameter of drwav_init_ex ( ) and family .
onRead [ in ] A pointer to the function to call when reading .
onSeek [ in ] A pointer to the function to call when seeking .
pReadSeekUserData [ in ] The user data that was passed to the pReadSeekUserData parameter of drwav_init_ex ( ) and family .
pChunkHeader [ in ] A pointer to an object containing basic header information about the chunk . Use this to identify the chunk .
container [ in ] Whether or not the WAV file is a RIFF or Wave64 container . If you ' re unsure of the difference , assume RIFF .
pFMT [ in ] A pointer to the object containing the contents of the " fmt " chunk .
Returns the number of bytes read + seeked .
To read data from the chunk , call onRead ( ) , passing in pReadSeekUserData as the first parameter . Do the same for seeking with onSeek ( ) . The return value must
be the total number of bytes you have read _plus_ seeked .
Use the ` container ` argument to discriminate the fields in ` pChunkHeader - > id ` . If the container is ` drwav_container_riff ` or ` drwav_container_rf64 ` you should
use ` id . fourcc ` , otherwise you should use ` id . guid ` .
The ` pFMT ` parameter can be used to determine the data format of the wave file . Use ` drwav_fmt_get_format ( ) ` to get the sample format , which will be one of the
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` DR_WAVE_FORMAT_ * ` identifiers .
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The read pointer will be sitting on the first byte after the chunk ' s header . You must not attempt to read beyond the boundary of the chunk .
*/
typedef drwav_uint64 ( * drwav_chunk_proc ) ( void * pChunkUserData , drwav_read_proc onRead , drwav_seek_proc onSeek , void * pReadSeekUserData , const drwav_chunk_header * pChunkHeader , drwav_container container , const drwav_fmt * pFMT ) ;
/* Structure for internal use. Only used for loaders opened with drwav_init_memory(). */
typedef struct
{
const drwav_uint8 * data ;
size_t dataSize ;
size_t currentReadPos ;
} drwav__memory_stream ;
/* Structure for internal use. Only used for writers opened with drwav_init_memory_write(). */
typedef struct
{
void * * ppData ;
size_t * pDataSize ;
size_t dataSize ;
size_t dataCapacity ;
size_t currentWritePos ;
} drwav__memory_stream_write ;
typedef struct
{
drwav_container container ; /* RIFF, W64. */
drwav_uint32 format ; /* DR_WAVE_FORMAT_* */
drwav_uint32 channels ;
drwav_uint32 sampleRate ;
drwav_uint32 bitsPerSample ;
} drwav_data_format ;
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typedef enum
{
drwav_metadata_type_none = 0 ,
/*
Unknown simply means a chunk that drwav does not handle specifically . You can still ask to
receive these chunks as metadata objects . It is then up to you to interpret the chunk ' s data .
You can also write unknown metadata to a wav file . Be careful writing unknown chunks if you
have also edited the audio data . The unknown chunks could represent offsets / sizes that no
longer correctly correspond to the audio data .
*/
drwav_metadata_type_unknown = 1 < < 0 ,
/* Only 1 of each of these metadata items are allowed in a wav file. */
drwav_metadata_type_smpl = 1 < < 1 ,
drwav_metadata_type_inst = 1 < < 2 ,
drwav_metadata_type_cue = 1 < < 3 ,
drwav_metadata_type_acid = 1 < < 4 ,
drwav_metadata_type_bext = 1 < < 5 ,
/*
Wav files often have a LIST chunk . This is a chunk that contains a set of subchunks . For this
higher - level metadata API , we don ' t make a distinction between a regular chunk and a LIST
subchunk . Instead , they are all just ' metadata ' items .
There can be multiple of these metadata items in a wav file .
*/
drwav_metadata_type_list_label = 1 < < 6 ,
drwav_metadata_type_list_note = 1 < < 7 ,
drwav_metadata_type_list_labelled_cue_region = 1 < < 8 ,
drwav_metadata_type_list_info_software = 1 < < 9 ,
drwav_metadata_type_list_info_copyright = 1 < < 10 ,
drwav_metadata_type_list_info_title = 1 < < 11 ,
drwav_metadata_type_list_info_artist = 1 < < 12 ,
drwav_metadata_type_list_info_comment = 1 < < 13 ,
drwav_metadata_type_list_info_date = 1 < < 14 ,
drwav_metadata_type_list_info_genre = 1 < < 15 ,
drwav_metadata_type_list_info_album = 1 < < 16 ,
drwav_metadata_type_list_info_tracknumber = 1 < < 17 ,
/* Other type constants for convenience. */
drwav_metadata_type_list_all_info_strings = drwav_metadata_type_list_info_software
| drwav_metadata_type_list_info_copyright
| drwav_metadata_type_list_info_title
| drwav_metadata_type_list_info_artist
| drwav_metadata_type_list_info_comment
| drwav_metadata_type_list_info_date
| drwav_metadata_type_list_info_genre
| drwav_metadata_type_list_info_album
| drwav_metadata_type_list_info_tracknumber ,
drwav_metadata_type_list_all_adtl = drwav_metadata_type_list_label
| drwav_metadata_type_list_note
| drwav_metadata_type_list_labelled_cue_region ,
drwav_metadata_type_all = - 2 , /*0xFFFFFFFF & ~drwav_metadata_type_unknown,*/
drwav_metadata_type_all_including_unknown = - 1 /*0xFFFFFFFF,*/
} drwav_metadata_type ;
/*
Sampler Metadata
The sampler chunk contains information about how a sound should be played in the context of a whole
audio production , and when used in a sampler . See https : //en.wikipedia.org/wiki/Sample-based_synthesis.
*/
typedef enum
{
drwav_smpl_loop_type_forward = 0 ,
drwav_smpl_loop_type_pingpong = 1 ,
drwav_smpl_loop_type_backward = 2
} drwav_smpl_loop_type ;
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typedef struct
{
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/* The ID of the associated cue point, see drwav_cue and drwav_cue_point. As with all cue point IDs, this can correspond to a label chunk to give this loop a name, see drwav_list_label_or_note. */
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drwav_uint32 cuePointId ;
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/* See drwav_smpl_loop_type. */
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drwav_uint32 type ;
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/* The byte offset of the first sample to be played in the loop. */
drwav_uint32 firstSampleByteOffset ;
/* The byte offset into the audio data of the last sample to be played in the loop. */
drwav_uint32 lastSampleByteOffset ;
/* A value to represent that playback should occur at a point between samples. This value ranges from 0 to UINT32_MAX. Where a value of 0 means no fraction, and a value of (UINT32_MAX / 2) would mean half a sample. */
drwav_uint32 sampleFraction ;
/* Number of times to play the loop. 0 means loop infinitely. */
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drwav_uint32 playCount ;
} drwav_smpl_loop ;
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typedef struct
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{
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/* IDs for a particular MIDI manufacturer. 0 if not used. */
drwav_uint32 manufacturerId ;
drwav_uint32 productId ;
/* The period of 1 sample in nanoseconds. */
drwav_uint32 samplePeriodNanoseconds ;
/* The MIDI root note of this file. 0 to 127. */
drwav_uint32 midiUnityNote ;
/* The fraction of a semitone up from the given MIDI note. This is a value from 0 to UINT32_MAX, where 0 means no change and (UINT32_MAX / 2) is half a semitone (AKA 50 cents). */
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drwav_uint32 midiPitchFraction ;
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/* Data relating to SMPTE standards which are used for syncing audio and video. 0 if not used. */
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drwav_uint32 smpteFormat ;
drwav_uint32 smpteOffset ;
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/* drwav_smpl_loop loops. */
drwav_uint32 sampleLoopCount ;
/* Optional sampler-specific data. */
drwav_uint32 samplerSpecificDataSizeInBytes ;
drwav_smpl_loop * pLoops ;
drwav_uint8 * pSamplerSpecificData ;
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} drwav_smpl ;
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/*
Instrument Metadata
The inst metadata contains data about how a sound should be played as part of an instrument . This
commonly read by samplers . See https : //en.wikipedia.org/wiki/Sample-based_synthesis.
*/
typedef struct
{
drwav_int8 midiUnityNote ; /* The root note of the audio as a MIDI note number. 0 to 127. */
drwav_int8 fineTuneCents ; /* -50 to +50 */
drwav_int8 gainDecibels ; /* -64 to +64 */
drwav_int8 lowNote ; /* 0 to 127 */
drwav_int8 highNote ; /* 0 to 127 */
drwav_int8 lowVelocity ; /* 1 to 127 */
drwav_int8 highVelocity ; /* 1 to 127 */
} drwav_inst ;
/*
Cue Metadata
Cue points are markers at specific points in the audio . They often come with an associated piece of
drwav_list_label_or_note metadata which contains the text for the marker .
*/
typedef struct
{
/* Unique identification value. */
drwav_uint32 id ;
/* Set to 0. This is only relevant if there is a 'playlist' chunk - which is not supported by dr_wav. */
drwav_uint32 playOrderPosition ;
/* Should always be "data". This represents the fourcc value of the chunk that this cue point corresponds to. dr_wav only supports a single data chunk so this should always be "data". */
drwav_uint8 dataChunkId [ 4 ] ;
/* Set to 0. This is only relevant if there is a wave list chunk. dr_wav, like lots of readers/writers, do not support this. */
drwav_uint32 chunkStart ;
/* Set to 0 for uncompressed formats. Else the last byte in compressed wave data where decompression can begin to find the value of the corresponding sample value. */
drwav_uint32 blockStart ;
/* For uncompressed formats this is the byte offset of the cue point into the audio data. For compressed formats this is relative to the block specified with blockStart. */
drwav_uint32 sampleByteOffset ;
} drwav_cue_point ;
typedef struct
{
drwav_uint32 cuePointCount ;
drwav_cue_point * pCuePoints ;
} drwav_cue ;
/*
Acid Metadata
This chunk contains some information about the time signature and the tempo of the audio .
*/
typedef enum
{
drwav_acid_flag_one_shot = 1 , /* If this is not set, then it is a loop instead of a one-shot. */
drwav_acid_flag_root_note_set = 2 ,
drwav_acid_flag_stretch = 4 ,
drwav_acid_flag_disk_based = 8 ,
drwav_acid_flag_acidizer = 16 /* Not sure what this means. */
} drwav_acid_flag ;
typedef struct
{
/* A bit-field, see drwav_acid_flag. */
drwav_uint32 flags ;
/* Valid if flags contains drwav_acid_flag_root_note_set. It represents the MIDI root note the file - a value from 0 to 127. */
drwav_uint16 midiUnityNote ;
/* Reserved values that should probably be ignored. reserved1 seems to often be 128 and reserved2 is 0. */
drwav_uint16 reserved1 ;
float reserved2 ;
/* Number of beats. */
drwav_uint32 numBeats ;
/* The time signature of the audio. */
drwav_uint16 meterDenominator ;
drwav_uint16 meterNumerator ;
/* Beats per minute of the track. Setting a value of 0 suggests that there is no tempo. */
float tempo ;
} drwav_acid ;
/*
Cue Label or Note metadata
These are 2 different types of metadata , but they have the exact same format . Labels tend to be the
more common and represent a short name for a cue point . Notes might be used to represent a longer
comment .
*/
typedef struct
{
/* The ID of a cue point that this label or note corresponds to. */
drwav_uint32 cuePointId ;
/* Size of the string not including any null terminator. */
drwav_uint32 stringLength ;
/* The string. The *init_with_metadata functions null terminate this for convenience. */
char * pString ;
} drwav_list_label_or_note ;
/*
BEXT metadata , also known as Broadcast Wave Format ( BWF )
This metadata adds some extra description to an audio file . You must check the version field to
determine if the UMID or the loudness fields are valid .
*/
typedef struct
{
/*
These top 3 fields , and the umid field are actually defined in the standard as a statically
sized buffers . In order to reduce the size of this struct ( and therefore the union in the
metadata struct ) , we instead store these as pointers .
*/
char * pDescription ; /* Can be NULL or a null-terminated string, must be <= 256 characters. */
char * pOriginatorName ; /* Can be NULL or a null-terminated string, must be <= 32 characters. */
char * pOriginatorReference ; /* Can be NULL or a null-terminated string, must be <= 32 characters. */
char pOriginationDate [ 10 ] ; /* ASCII "yyyy:mm:dd". */
char pOriginationTime [ 8 ] ; /* ASCII "hh:mm:ss". */
drwav_uint64 timeReference ; /* First sample count since midnight. */
drwav_uint16 version ; /* Version of the BWF, check this to see if the fields below are valid. */
/*
Unrestricted ASCII characters containing a collection of strings terminated by CR / LF . Each
string shall contain a description of a coding process applied to the audio data .
*/
char * pCodingHistory ;
drwav_uint32 codingHistorySize ;
/* Fields below this point are only valid if the version is 1 or above. */
drwav_uint8 * pUMID ; /* Exactly 64 bytes of SMPTE UMID */
/* Fields below this point are only valid if the version is 2 or above. */
drwav_uint16 loudnessValue ; /* Integrated Loudness Value of the file in LUFS (multiplied by 100). */
drwav_uint16 loudnessRange ; /* Loudness Range of the file in LU (multiplied by 100). */
drwav_uint16 maxTruePeakLevel ; /* Maximum True Peak Level of the file expressed as dBTP (multiplied by 100). */
drwav_uint16 maxMomentaryLoudness ; /* Highest value of the Momentary Loudness Level of the file in LUFS (multiplied by 100). */
drwav_uint16 maxShortTermLoudness ; /* Highest value of the Short-Term Loudness Level of the file in LUFS (multiplied by 100). */
} drwav_bext ;
/*
Info Text Metadata
There a many different types of information text that can be saved in this format . This is where
things like the album name , the artists , the year it was produced , etc are saved . See
drwav_metadata_type for the full list of types that dr_wav supports .
*/
typedef struct
{
/* Size of the string not including any null terminator. */
drwav_uint32 stringLength ;
/* The string. The *init_with_metadata functions null terminate this for convenience. */
char * pString ;
} drwav_list_info_text ;
/*
Labelled Cue Region Metadata
The labelled cue region metadata is used to associate some region of audio with text . The region
starts at a cue point , and extends for the given number of samples .
*/
typedef struct
{
/* The ID of a cue point that this object corresponds to. */
drwav_uint32 cuePointId ;
/* The number of samples from the cue point forwards that should be considered this region */
drwav_uint32 sampleLength ;
/* Four characters used to say what the purpose of this region is. */
drwav_uint8 purposeId [ 4 ] ;
/* Unsure of the exact meanings of these. It appears to be acceptable to set them all to 0. */
drwav_uint16 country ;
drwav_uint16 language ;
drwav_uint16 dialect ;
drwav_uint16 codePage ;
/* Size of the string not including any null terminator. */
drwav_uint32 stringLength ;
/* The string. The *init_with_metadata functions null terminate this for convenience. */
char * pString ;
} drwav_list_labelled_cue_region ;
/*
Unknown Metadata
This chunk just represents a type of chunk that dr_wav does not understand .
Unknown metadata has a location attached to it . This is because wav files can have a LIST chunk
that contains subchunks . These LIST chunks can be one of two types . An adtl list , or an INFO
list . This enum is used to specify the location of a chunk that dr_wav currently doesn ' t support .
*/
typedef enum
{
drwav_metadata_location_invalid ,
drwav_metadata_location_top_level ,
drwav_metadata_location_inside_info_list ,
drwav_metadata_location_inside_adtl_list
} drwav_metadata_location ;
typedef struct
{
drwav_uint8 id [ 4 ] ;
drwav_metadata_location chunkLocation ;
drwav_uint32 dataSizeInBytes ;
drwav_uint8 * pData ;
} drwav_unknown_metadata ;
/*
Metadata is saved as a union of all the supported types .
*/
typedef struct
{
/* Determines which item in the union is valid. */
drwav_metadata_type type ;
union
{
drwav_cue cue ;
drwav_smpl smpl ;
drwav_acid acid ;
drwav_inst inst ;
drwav_bext bext ;
drwav_list_label_or_note labelOrNote ; /* List label or list note. */
drwav_list_labelled_cue_region labelledCueRegion ;
drwav_list_info_text infoText ; /* Any of the list info types. */
drwav_unknown_metadata unknown ;
} data ;
} drwav_metadata ;
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typedef struct
{
/* A pointer to the function to call when more data is needed. */
drwav_read_proc onRead ;
/* A pointer to the function to call when data needs to be written. Only used when the drwav object is opened in write mode. */
drwav_write_proc onWrite ;
/* A pointer to the function to call when the wav file needs to be seeked. */
drwav_seek_proc onSeek ;
/* The user data to pass to callbacks. */
void * pUserData ;
/* Allocation callbacks. */
drwav_allocation_callbacks allocationCallbacks ;
/* Whether or not the WAV file is formatted as a standard RIFF file or W64. */
drwav_container container ;
/* Structure containing format information exactly as specified by the wav file. */
drwav_fmt fmt ;
/* The sample rate. Will be set to something like 44100. */
drwav_uint32 sampleRate ;
/* The number of channels. This will be set to 1 for monaural streams, 2 for stereo, etc. */
drwav_uint16 channels ;
/* The bits per sample. Will be set to something like 16, 24, etc. */
drwav_uint16 bitsPerSample ;
/* Equal to fmt.formatTag, or the value specified by fmt.subFormat if fmt.formatTag is equal to 65534 (WAVE_FORMAT_EXTENSIBLE). */
drwav_uint16 translatedFormatTag ;
/* The total number of PCM frames making up the audio data. */
drwav_uint64 totalPCMFrameCount ;
/* The size in bytes of the data chunk. */
drwav_uint64 dataChunkDataSize ;
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/* The position in the stream of the first data byte of the data chunk. This is used for seeking. */
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drwav_uint64 dataChunkDataPos ;
/* The number of bytes remaining in the data chunk. */
drwav_uint64 bytesRemaining ;
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/* The current read position in PCM frames. */
drwav_uint64 readCursorInPCMFrames ;
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/*
Only used in sequential write mode . Keeps track of the desired size of the " data " chunk at the point of initialization time . Always
set to 0 for non - sequential writes and when the drwav object is opened in read mode . Used for validation .
*/
drwav_uint64 dataChunkDataSizeTargetWrite ;
/* Keeps track of whether or not the wav writer was initialized in sequential mode. */
drwav_bool32 isSequentialWrite ;
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/* A array of metadata. This is valid after the *init_with_metadata call returns. It will be valid until drwav_uninit() is called. You can take ownership of this data with drwav_take_ownership_of_metadata(). */
drwav_metadata * pMetadata ;
drwav_uint32 metadataCount ;
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/* A hack to avoid a DRWAV_MALLOC() when opening a decoder with drwav_init_memory(). */
drwav__memory_stream memoryStream ;
drwav__memory_stream_write memoryStreamWrite ;
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/* Microsoft ADPCM specific data. */
struct
{
drwav_uint32 bytesRemainingInBlock ;
drwav_uint16 predictor [ 2 ] ;
drwav_int32 delta [ 2 ] ;
drwav_int32 cachedFrames [ 4 ] ; /* Samples are stored in this cache during decoding. */
drwav_uint32 cachedFrameCount ;
drwav_int32 prevFrames [ 2 ] [ 2 ] ; /* The previous 2 samples for each channel (2 channels at most). */
} msadpcm ;
/* IMA ADPCM specific data. */
struct
{
drwav_uint32 bytesRemainingInBlock ;
drwav_int32 predictor [ 2 ] ;
drwav_int32 stepIndex [ 2 ] ;
drwav_int32 cachedFrames [ 16 ] ; /* Samples are stored in this cache during decoding. */
drwav_uint32 cachedFrameCount ;
} ima ;
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/* AIFF specific data. */
struct
{
drwav_bool8 isLE ; /* Will be set to true if the audio data is little-endian encoded. */
drwav_bool8 isUnsigned ; /* Only used for 8-bit samples. When set to true, will be treated as unsigned. */
} aiff ;
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} drwav ;
/*
Initializes a pre - allocated drwav object for reading .
pWav [ out ] A pointer to the drwav object being initialized .
onRead [ in ] The function to call when data needs to be read from the client .
onSeek [ in ] The function to call when the read position of the client data needs to move .
onChunk [ in , optional ] The function to call when a chunk is enumerated at initialized time .
pUserData , pReadSeekUserData [ in , optional ] A pointer to application defined data that will be passed to onRead and onSeek .
pChunkUserData [ in , optional ] A pointer to application defined data that will be passed to onChunk .
flags [ in , optional ] A set of flags for controlling how things are loaded .
Returns true if successful ; false otherwise .
Close the loader with drwav_uninit ( ) .
This is the lowest level function for initializing a WAV file . You can also use drwav_init_file ( ) and drwav_init_memory ( )
to open the stream from a file or from a block of memory respectively .
Possible values for flags :
DRWAV_SEQUENTIAL : Never perform a backwards seek while loading . This disables the chunk callback and will cause this function
to return as soon as the data chunk is found . Any chunks after the data chunk will be ignored .
drwav_init ( ) is equivalent to " drwav_init_ex(pWav, onRead, onSeek, NULL, pUserData, NULL, 0); " .
The onChunk callback is not called for the WAVE or FMT chunks . The contents of the FMT chunk can be read from pWav - > fmt
after the function returns .
See also : drwav_init_file ( ) , drwav_init_memory ( ) , drwav_uninit ( )
*/
DRWAV_API drwav_bool32 drwav_init ( drwav * pWav , drwav_read_proc onRead , drwav_seek_proc onSeek , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_ex ( drwav * pWav , drwav_read_proc onRead , drwav_seek_proc onSeek , drwav_chunk_proc onChunk , void * pReadSeekUserData , void * pChunkUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
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DRWAV_API drwav_bool32 drwav_init_with_metadata ( drwav * pWav , drwav_read_proc onRead , drwav_seek_proc onSeek , void * pUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
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/*
Initializes a pre - allocated drwav object for writing .
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onWrite [ in ] The function to call when data needs to be written .
onSeek [ in ] The function to call when the write position needs to move .
pUserData [ in , optional ] A pointer to application defined data that will be passed to onWrite and onSeek .
metadata , numMetadata [ in , optional ] An array of metadata objects that should be written to the file . The array is not edited . You are responsible for this metadata memory and it must maintain valid until drwav_uninit ( ) is called .
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Returns true if successful ; false otherwise .
Close the writer with drwav_uninit ( ) .
This is the lowest level function for initializing a WAV file . You can also use drwav_init_file_write ( ) and drwav_init_memory_write ( )
to open the stream from a file or from a block of memory respectively .
If the total sample count is known , you can use drwav_init_write_sequential ( ) . This avoids the need for dr_wav to perform
a post - processing step for storing the total sample count and the size of the data chunk which requires a backwards seek .
See also : drwav_init_file_write ( ) , drwav_init_memory_write ( ) , drwav_uninit ( )
*/
DRWAV_API drwav_bool32 drwav_init_write ( drwav * pWav , const drwav_data_format * pFormat , drwav_write_proc onWrite , drwav_seek_proc onSeek , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_write_sequential ( drwav * pWav , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , drwav_write_proc onWrite , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_write_sequential_pcm_frames ( drwav * pWav , const drwav_data_format * pFormat , drwav_uint64 totalPCMFrameCount , drwav_write_proc onWrite , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
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DRWAV_API drwav_bool32 drwav_init_write_with_metadata ( drwav * pWav , const drwav_data_format * pFormat , drwav_write_proc onWrite , drwav_seek_proc onSeek , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks , drwav_metadata * pMetadata , drwav_uint32 metadataCount ) ;
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/*
Utility function to determine the target size of the entire data to be written ( including all headers and chunks ) .
Returns the target size in bytes .
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The metadata argument can be NULL meaning no metadata exists .
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Useful if the application needs to know the size to allocate .
Only writing to the RIFF chunk and one data chunk is currently supported .
See also : drwav_init_write ( ) , drwav_init_file_write ( ) , drwav_init_memory_write ( )
*/
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DRWAV_API drwav_uint64 drwav_target_write_size_bytes ( const drwav_data_format * pFormat , drwav_uint64 totalFrameCount , drwav_metadata * pMetadata , drwav_uint32 metadataCount ) ;
/*
Take ownership of the metadata objects that were allocated via one of the init_with_metadata ( ) function calls . The init_with_metdata functions perform a single heap allocation for this metadata .
Useful if you want the data to persist beyond the lifetime of the drwav object .
You must free the data returned from this function using drwav_free ( ) .
*/
DRWAV_API drwav_metadata * drwav_take_ownership_of_metadata ( drwav * pWav ) ;
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/*
Uninitializes the given drwav object .
Use this only for objects initialized with drwav_init * ( ) functions ( drwav_init ( ) , drwav_init_ex ( ) , drwav_init_write ( ) , drwav_init_write_sequential ( ) ) .
*/
DRWAV_API drwav_result drwav_uninit ( drwav * pWav ) ;
/*
Reads raw audio data .
This is the lowest level function for reading audio data . It simply reads the given number of
bytes of the raw internal sample data .
Consider using drwav_read_pcm_frames_s16 ( ) , drwav_read_pcm_frames_s32 ( ) or drwav_read_pcm_frames_f32 ( ) for
reading sample data in a consistent format .
pBufferOut can be NULL in which case a seek will be performed .
Returns the number of bytes actually read .
*/
DRWAV_API size_t drwav_read_raw ( drwav * pWav , size_t bytesToRead , void * pBufferOut ) ;
/*
Reads up to the specified number of PCM frames from the WAV file .
The output data will be in the file ' s internal format , converted to native - endian byte order . Use
drwav_read_pcm_frames_s16 / f32 / s32 ( ) to read data in a specific format .
If the return value is less than < framesToRead > it means the end of the file has been reached or
you have requested more PCM frames than can possibly fit in the output buffer .
This function will only work when sample data is of a fixed size and uncompressed . If you are
using a compressed format consider using drwav_read_raw ( ) or drwav_read_pcm_frames_s16 / s32 / f32 ( ) .
pBufferOut can be NULL in which case a seek will be performed .
*/
DRWAV_API drwav_uint64 drwav_read_pcm_frames ( drwav * pWav , drwav_uint64 framesToRead , void * pBufferOut ) ;
DRWAV_API drwav_uint64 drwav_read_pcm_frames_le ( drwav * pWav , drwav_uint64 framesToRead , void * pBufferOut ) ;
DRWAV_API drwav_uint64 drwav_read_pcm_frames_be ( drwav * pWav , drwav_uint64 framesToRead , void * pBufferOut ) ;
/*
Seeks to the given PCM frame .
Returns true if successful ; false otherwise .
*/
DRWAV_API drwav_bool32 drwav_seek_to_pcm_frame ( drwav * pWav , drwav_uint64 targetFrameIndex ) ;
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/*
Retrieves the current read position in pcm frames .
*/
DRWAV_API drwav_result drwav_get_cursor_in_pcm_frames ( drwav * pWav , drwav_uint64 * pCursor ) ;
/*
Retrieves the length of the file .
*/
DRWAV_API drwav_result drwav_get_length_in_pcm_frames ( drwav * pWav , drwav_uint64 * pLength ) ;
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/*
Writes raw audio data .
Returns the number of bytes actually written . If this differs from bytesToWrite , it indicates an error .
*/
DRWAV_API size_t drwav_write_raw ( drwav * pWav , size_t bytesToWrite , const void * pData ) ;
/*
Writes PCM frames .
Returns the number of PCM frames written .
Input samples need to be in native - endian byte order . On big - endian architectures the input data will be converted to
little - endian . Use drwav_write_raw ( ) to write raw audio data without performing any conversion .
*/
DRWAV_API drwav_uint64 drwav_write_pcm_frames ( drwav * pWav , drwav_uint64 framesToWrite , const void * pData ) ;
DRWAV_API drwav_uint64 drwav_write_pcm_frames_le ( drwav * pWav , drwav_uint64 framesToWrite , const void * pData ) ;
DRWAV_API drwav_uint64 drwav_write_pcm_frames_be ( drwav * pWav , drwav_uint64 framesToWrite , const void * pData ) ;
/* Conversion Utilities */
# ifndef DR_WAV_NO_CONVERSION_API
/*
Reads a chunk of audio data and converts it to signed 16 - bit PCM samples .
pBufferOut can be NULL in which case a seek will be performed .
Returns the number of PCM frames actually read .
If the return value is less than < framesToRead > it means the end of the file has been reached .
*/
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s16 ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut ) ;
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s16le ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut ) ;
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s16be ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut ) ;
/* Low-level function for converting unsigned 8-bit PCM samples to signed 16-bit PCM samples. */
DRWAV_API void drwav_u8_to_s16 ( drwav_int16 * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/* Low-level function for converting signed 24-bit PCM samples to signed 16-bit PCM samples. */
DRWAV_API void drwav_s24_to_s16 ( drwav_int16 * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/* Low-level function for converting signed 32-bit PCM samples to signed 16-bit PCM samples. */
DRWAV_API void drwav_s32_to_s16 ( drwav_int16 * pOut , const drwav_int32 * pIn , size_t sampleCount ) ;
/* Low-level function for converting IEEE 32-bit floating point samples to signed 16-bit PCM samples. */
DRWAV_API void drwav_f32_to_s16 ( drwav_int16 * pOut , const float * pIn , size_t sampleCount ) ;
/* Low-level function for converting IEEE 64-bit floating point samples to signed 16-bit PCM samples. */
DRWAV_API void drwav_f64_to_s16 ( drwav_int16 * pOut , const double * pIn , size_t sampleCount ) ;
/* Low-level function for converting A-law samples to signed 16-bit PCM samples. */
DRWAV_API void drwav_alaw_to_s16 ( drwav_int16 * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/* Low-level function for converting u-law samples to signed 16-bit PCM samples. */
DRWAV_API void drwav_mulaw_to_s16 ( drwav_int16 * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/*
Reads a chunk of audio data and converts it to IEEE 32 - bit floating point samples .
pBufferOut can be NULL in which case a seek will be performed .
Returns the number of PCM frames actually read .
If the return value is less than < framesToRead > it means the end of the file has been reached .
*/
DRWAV_API drwav_uint64 drwav_read_pcm_frames_f32 ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut ) ;
DRWAV_API drwav_uint64 drwav_read_pcm_frames_f32le ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut ) ;
DRWAV_API drwav_uint64 drwav_read_pcm_frames_f32be ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut ) ;
/* Low-level function for converting unsigned 8-bit PCM samples to IEEE 32-bit floating point samples. */
DRWAV_API void drwav_u8_to_f32 ( float * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/* Low-level function for converting signed 16-bit PCM samples to IEEE 32-bit floating point samples. */
DRWAV_API void drwav_s16_to_f32 ( float * pOut , const drwav_int16 * pIn , size_t sampleCount ) ;
/* Low-level function for converting signed 24-bit PCM samples to IEEE 32-bit floating point samples. */
DRWAV_API void drwav_s24_to_f32 ( float * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/* Low-level function for converting signed 32-bit PCM samples to IEEE 32-bit floating point samples. */
DRWAV_API void drwav_s32_to_f32 ( float * pOut , const drwav_int32 * pIn , size_t sampleCount ) ;
/* Low-level function for converting IEEE 64-bit floating point samples to IEEE 32-bit floating point samples. */
DRWAV_API void drwav_f64_to_f32 ( float * pOut , const double * pIn , size_t sampleCount ) ;
/* Low-level function for converting A-law samples to IEEE 32-bit floating point samples. */
DRWAV_API void drwav_alaw_to_f32 ( float * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/* Low-level function for converting u-law samples to IEEE 32-bit floating point samples. */
DRWAV_API void drwav_mulaw_to_f32 ( float * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/*
Reads a chunk of audio data and converts it to signed 32 - bit PCM samples .
pBufferOut can be NULL in which case a seek will be performed .
Returns the number of PCM frames actually read .
If the return value is less than < framesToRead > it means the end of the file has been reached .
*/
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s32 ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut ) ;
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s32le ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut ) ;
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s32be ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut ) ;
/* Low-level function for converting unsigned 8-bit PCM samples to signed 32-bit PCM samples. */
DRWAV_API void drwav_u8_to_s32 ( drwav_int32 * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/* Low-level function for converting signed 16-bit PCM samples to signed 32-bit PCM samples. */
DRWAV_API void drwav_s16_to_s32 ( drwav_int32 * pOut , const drwav_int16 * pIn , size_t sampleCount ) ;
/* Low-level function for converting signed 24-bit PCM samples to signed 32-bit PCM samples. */
DRWAV_API void drwav_s24_to_s32 ( drwav_int32 * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/* Low-level function for converting IEEE 32-bit floating point samples to signed 32-bit PCM samples. */
DRWAV_API void drwav_f32_to_s32 ( drwav_int32 * pOut , const float * pIn , size_t sampleCount ) ;
/* Low-level function for converting IEEE 64-bit floating point samples to signed 32-bit PCM samples. */
DRWAV_API void drwav_f64_to_s32 ( drwav_int32 * pOut , const double * pIn , size_t sampleCount ) ;
/* Low-level function for converting A-law samples to signed 32-bit PCM samples. */
DRWAV_API void drwav_alaw_to_s32 ( drwav_int32 * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
/* Low-level function for converting u-law samples to signed 32-bit PCM samples. */
DRWAV_API void drwav_mulaw_to_s32 ( drwav_int32 * pOut , const drwav_uint8 * pIn , size_t sampleCount ) ;
# endif /* DR_WAV_NO_CONVERSION_API */
/* High-Level Convenience Helpers */
# ifndef DR_WAV_NO_STDIO
/*
Helper for initializing a wave file for reading using stdio .
This holds the internal FILE object until drwav_uninit ( ) is called . Keep this in mind if you ' re caching drwav
objects because the operating system may restrict the number of file handles an application can have open at
any given time .
*/
DRWAV_API drwav_bool32 drwav_init_file ( drwav * pWav , const char * filename , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_file_ex ( drwav * pWav , const char * filename , drwav_chunk_proc onChunk , void * pChunkUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_file_w ( drwav * pWav , const wchar_t * filename , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_file_ex_w ( drwav * pWav , const wchar_t * filename , drwav_chunk_proc onChunk , void * pChunkUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
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DRWAV_API drwav_bool32 drwav_init_file_with_metadata ( drwav * pWav , const char * filename , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_file_with_metadata_w ( drwav * pWav , const wchar_t * filename , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
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/*
Helper for initializing a wave file for writing using stdio .
This holds the internal FILE object until drwav_uninit ( ) is called . Keep this in mind if you ' re caching drwav
objects because the operating system may restrict the number of file handles an application can have open at
any given time .
*/
DRWAV_API drwav_bool32 drwav_init_file_write ( drwav * pWav , const char * filename , const drwav_data_format * pFormat , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_file_write_sequential ( drwav * pWav , const char * filename , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_file_write_sequential_pcm_frames ( drwav * pWav , const char * filename , const drwav_data_format * pFormat , drwav_uint64 totalPCMFrameCount , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_file_write_w ( drwav * pWav , const wchar_t * filename , const drwav_data_format * pFormat , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_file_write_sequential_w ( drwav * pWav , const wchar_t * filename , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_file_write_sequential_pcm_frames_w ( drwav * pWav , const wchar_t * filename , const drwav_data_format * pFormat , drwav_uint64 totalPCMFrameCount , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
# endif /* DR_WAV_NO_STDIO */
/*
Helper for initializing a loader from a pre - allocated memory buffer .
This does not create a copy of the data . It is up to the application to ensure the buffer remains valid for
the lifetime of the drwav object .
The buffer should contain the contents of the entire wave file , not just the sample data .
*/
DRWAV_API drwav_bool32 drwav_init_memory ( drwav * pWav , const void * data , size_t dataSize , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_memory_ex ( drwav * pWav , const void * data , size_t dataSize , drwav_chunk_proc onChunk , void * pChunkUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
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DRWAV_API drwav_bool32 drwav_init_memory_with_metadata ( drwav * pWav , const void * data , size_t dataSize , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
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/*
Helper for initializing a writer which outputs data to a memory buffer .
dr_wav will manage the memory allocations , however it is up to the caller to free the data with drwav_free ( ) .
The buffer will remain allocated even after drwav_uninit ( ) is called . The buffer should not be considered valid
until after drwav_uninit ( ) has been called .
*/
DRWAV_API drwav_bool32 drwav_init_memory_write ( drwav * pWav , void * * ppData , size_t * pDataSize , const drwav_data_format * pFormat , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_memory_write_sequential ( drwav * pWav , void * * ppData , size_t * pDataSize , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_bool32 drwav_init_memory_write_sequential_pcm_frames ( drwav * pWav , void * * ppData , size_t * pDataSize , const drwav_data_format * pFormat , drwav_uint64 totalPCMFrameCount , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
# ifndef DR_WAV_NO_CONVERSION_API
/*
Opens and reads an entire wav file in a single operation .
The return value is a heap - allocated buffer containing the audio data . Use drwav_free ( ) to free the buffer .
*/
DRWAV_API drwav_int16 * drwav_open_and_read_pcm_frames_s16 ( drwav_read_proc onRead , drwav_seek_proc onSeek , void * pUserData , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API float * drwav_open_and_read_pcm_frames_f32 ( drwav_read_proc onRead , drwav_seek_proc onSeek , void * pUserData , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_int32 * drwav_open_and_read_pcm_frames_s32 ( drwav_read_proc onRead , drwav_seek_proc onSeek , void * pUserData , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
# ifndef DR_WAV_NO_STDIO
/*
Opens and decodes an entire wav file in a single operation .
The return value is a heap - allocated buffer containing the audio data . Use drwav_free ( ) to free the buffer .
*/
DRWAV_API drwav_int16 * drwav_open_file_and_read_pcm_frames_s16 ( const char * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API float * drwav_open_file_and_read_pcm_frames_f32 ( const char * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_int32 * drwav_open_file_and_read_pcm_frames_s32 ( const char * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_int16 * drwav_open_file_and_read_pcm_frames_s16_w ( const wchar_t * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API float * drwav_open_file_and_read_pcm_frames_f32_w ( const wchar_t * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_int32 * drwav_open_file_and_read_pcm_frames_s32_w ( const wchar_t * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
# endif
/*
Opens and decodes an entire wav file from a block of memory in a single operation .
The return value is a heap - allocated buffer containing the audio data . Use drwav_free ( ) to free the buffer .
*/
DRWAV_API drwav_int16 * drwav_open_memory_and_read_pcm_frames_s16 ( const void * data , size_t dataSize , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API float * drwav_open_memory_and_read_pcm_frames_f32 ( const void * data , size_t dataSize , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
DRWAV_API drwav_int32 * drwav_open_memory_and_read_pcm_frames_s32 ( const void * data , size_t dataSize , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
# endif
/* Frees data that was allocated internally by dr_wav. */
DRWAV_API void drwav_free ( void * p , const drwav_allocation_callbacks * pAllocationCallbacks ) ;
/* Converts bytes from a wav stream to a sized type of native endian. */
DRWAV_API drwav_uint16 drwav_bytes_to_u16 ( const drwav_uint8 * data ) ;
DRWAV_API drwav_int16 drwav_bytes_to_s16 ( const drwav_uint8 * data ) ;
DRWAV_API drwav_uint32 drwav_bytes_to_u32 ( const drwav_uint8 * data ) ;
DRWAV_API drwav_int32 drwav_bytes_to_s32 ( const drwav_uint8 * data ) ;
DRWAV_API drwav_uint64 drwav_bytes_to_u64 ( const drwav_uint8 * data ) ;
DRWAV_API drwav_int64 drwav_bytes_to_s64 ( const drwav_uint8 * data ) ;
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DRWAV_API float drwav_bytes_to_f32 ( const drwav_uint8 * data ) ;
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/* Compares a GUID for the purpose of checking the type of a Wave64 chunk. */
DRWAV_API drwav_bool32 drwav_guid_equal ( const drwav_uint8 a [ 16 ] , const drwav_uint8 b [ 16 ] ) ;
/* Compares a four-character-code for the purpose of checking the type of a RIFF chunk. */
DRWAV_API drwav_bool32 drwav_fourcc_equal ( const drwav_uint8 * a , const char * b ) ;
# ifdef __cplusplus
}
# endif
# endif /* dr_wav_h */
/************************************************************************************************************************************************************
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
IMPLEMENTATION
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# if defined(DR_WAV_IMPLEMENTATION) || defined(DRWAV_IMPLEMENTATION)
# ifndef dr_wav_c
# define dr_wav_c
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# ifdef __MRC__
/* MrC currently doesn't compile dr_wav correctly with any optimizations enabled. */
# pragma options opt off
# endif
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# include <stdlib.h>
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# include <string.h>
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# include <limits.h> /* For INT_MAX */
# ifndef DR_WAV_NO_STDIO
# include <stdio.h>
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# ifndef DR_WAV_NO_WCHAR
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# include <wchar.h>
# endif
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# endif
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/* Standard library stuff. */
# ifndef DRWAV_ASSERT
# include <assert.h>
# define DRWAV_ASSERT(expression) assert(expression)
# endif
# ifndef DRWAV_MALLOC
# define DRWAV_MALLOC(sz) malloc((sz))
# endif
# ifndef DRWAV_REALLOC
# define DRWAV_REALLOC(p, sz) realloc((p), (sz))
# endif
# ifndef DRWAV_FREE
# define DRWAV_FREE(p) free((p))
# endif
# ifndef DRWAV_COPY_MEMORY
# define DRWAV_COPY_MEMORY(dst, src, sz) memcpy((dst), (src), (sz))
# endif
# ifndef DRWAV_ZERO_MEMORY
# define DRWAV_ZERO_MEMORY(p, sz) memset((p), 0, (sz))
# endif
# ifndef DRWAV_ZERO_OBJECT
# define DRWAV_ZERO_OBJECT(p) DRWAV_ZERO_MEMORY((p), sizeof(*p))
# endif
# define drwav_countof(x) (sizeof(x) / sizeof(x[0]))
# define drwav_align(x, a) ((((x) + (a) - 1) / (a)) * (a))
# define drwav_min(a, b) (((a) < (b)) ? (a) : (b))
# define drwav_max(a, b) (((a) > (b)) ? (a) : (b))
# define drwav_clamp(x, lo, hi) (drwav_max((lo), drwav_min((hi), (x))))
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# define drwav_offset_ptr(p, offset) (((drwav_uint8*)(p)) + (offset))
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# define DRWAV_MAX_SIMD_VECTOR_SIZE 32
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/* Architecture Detection */
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# if defined(__x86_64__) || defined(_M_X64)
# define DRWAV_X64
# elif defined(__i386) || defined(_M_IX86)
# define DRWAV_X86
# elif defined(__arm__) || defined(_M_ARM)
# define DRWAV_ARM
# endif
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/* End Architecture Detection */
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/* Inline */
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# ifdef _MSC_VER
# define DRWAV_INLINE __forceinline
# elif defined(__GNUC__)
/*
I ' ve had a bug report where GCC is emitting warnings about functions possibly not being inlineable . This warning happens when
the __attribute__ ( ( always_inline ) ) attribute is defined without an " inline " statement . I think therefore there must be some
case where " __inline__ " is not always defined , thus the compiler emitting these warnings . When using - std = c89 or - ansi on the
command line , we cannot use the " inline " keyword and instead need to use " __inline__ " . In an attempt to work around this issue
I am using " __inline__ " only when we ' re compiling in strict ANSI mode .
*/
# if defined(__STRICT_ANSI__)
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# define DRWAV_GNUC_INLINE_HINT __inline__
# else
# define DRWAV_GNUC_INLINE_HINT inline
# endif
# if (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 2)) || defined(__clang__)
# define DRWAV_INLINE DRWAV_GNUC_INLINE_HINT __attribute__((always_inline))
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# else
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# define DRWAV_INLINE DRWAV_GNUC_INLINE_HINT
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# endif
# elif defined(__WATCOMC__)
# define DRWAV_INLINE __inline
# else
# define DRWAV_INLINE
# endif
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/* End Inline */
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/* SIZE_MAX */
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# if defined(SIZE_MAX)
# define DRWAV_SIZE_MAX SIZE_MAX
# else
# if defined(_WIN64) || defined(_LP64) || defined(__LP64__)
# define DRWAV_SIZE_MAX ((drwav_uint64)0xFFFFFFFFFFFFFFFF)
# else
# define DRWAV_SIZE_MAX 0xFFFFFFFF
# endif
# endif
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/* End SIZE_MAX */
/* Weird bit manipulation is for C89 compatibility (no direct support for 64-bit integers). */
# define DRWAV_INT64_MIN ((drwav_int64) ((drwav_uint64)0x80000000 << 32))
# define DRWAV_INT64_MAX ((drwav_int64)(((drwav_uint64)0x7FFFFFFF << 32) | 0xFFFFFFFF))
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# if defined(_MSC_VER) && _MSC_VER >= 1400
# define DRWAV_HAS_BYTESWAP16_INTRINSIC
# define DRWAV_HAS_BYTESWAP32_INTRINSIC
# define DRWAV_HAS_BYTESWAP64_INTRINSIC
# elif defined(__clang__)
# if defined(__has_builtin)
# if __has_builtin(__builtin_bswap16)
# define DRWAV_HAS_BYTESWAP16_INTRINSIC
# endif
# if __has_builtin(__builtin_bswap32)
# define DRWAV_HAS_BYTESWAP32_INTRINSIC
# endif
# if __has_builtin(__builtin_bswap64)
# define DRWAV_HAS_BYTESWAP64_INTRINSIC
# endif
# endif
# elif defined(__GNUC__)
# if ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 3))
# define DRWAV_HAS_BYTESWAP32_INTRINSIC
# define DRWAV_HAS_BYTESWAP64_INTRINSIC
# endif
# if ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))
# define DRWAV_HAS_BYTESWAP16_INTRINSIC
# endif
# endif
DRWAV_API void drwav_version ( drwav_uint32 * pMajor , drwav_uint32 * pMinor , drwav_uint32 * pRevision )
{
if ( pMajor ) {
* pMajor = DRWAV_VERSION_MAJOR ;
}
if ( pMinor ) {
* pMinor = DRWAV_VERSION_MINOR ;
}
if ( pRevision ) {
* pRevision = DRWAV_VERSION_REVISION ;
}
}
DRWAV_API const char * drwav_version_string ( void )
{
return DRWAV_VERSION_STRING ;
}
/*
These limits are used for basic validation when initializing the decoder . If you exceed these limits , first of all : what on Earth are
you doing ? ! ( Let me know , I ' d be curious ! ) Second , you can adjust these by # define - ing them before the dr_wav implementation .
*/
# ifndef DRWAV_MAX_SAMPLE_RATE
# define DRWAV_MAX_SAMPLE_RATE 384000
# endif
# ifndef DRWAV_MAX_CHANNELS
# define DRWAV_MAX_CHANNELS 256
# endif
# ifndef DRWAV_MAX_BITS_PER_SAMPLE
# define DRWAV_MAX_BITS_PER_SAMPLE 64
# endif
static const drwav_uint8 drwavGUID_W64_RIFF [ 16 ] = { 0x72 , 0x69 , 0x66 , 0x66 , 0x2E , 0x91 , 0xCF , 0x11 , 0xA5 , 0xD6 , 0x28 , 0xDB , 0x04 , 0xC1 , 0x00 , 0x00 } ; /* 66666972-912E-11CF-A5D6-28DB04C10000 */
static const drwav_uint8 drwavGUID_W64_WAVE [ 16 ] = { 0x77 , 0x61 , 0x76 , 0x65 , 0xF3 , 0xAC , 0xD3 , 0x11 , 0x8C , 0xD1 , 0x00 , 0xC0 , 0x4F , 0x8E , 0xDB , 0x8A } ; /* 65766177-ACF3-11D3-8CD1-00C04F8EDB8A */
/*static const drwav_uint8 drwavGUID_W64_JUNK[16] = {0x6A,0x75,0x6E,0x6B, 0xF3,0xAC, 0xD3,0x11, 0x8C,0xD1, 0x00,0xC0,0x4F,0x8E,0xDB,0x8A};*/ /* 6B6E756A-ACF3-11D3-8CD1-00C04F8EDB8A */
static const drwav_uint8 drwavGUID_W64_FMT [ 16 ] = { 0x66 , 0x6D , 0x74 , 0x20 , 0xF3 , 0xAC , 0xD3 , 0x11 , 0x8C , 0xD1 , 0x00 , 0xC0 , 0x4F , 0x8E , 0xDB , 0x8A } ; /* 20746D66-ACF3-11D3-8CD1-00C04F8EDB8A */
static const drwav_uint8 drwavGUID_W64_FACT [ 16 ] = { 0x66 , 0x61 , 0x63 , 0x74 , 0xF3 , 0xAC , 0xD3 , 0x11 , 0x8C , 0xD1 , 0x00 , 0xC0 , 0x4F , 0x8E , 0xDB , 0x8A } ; /* 74636166-ACF3-11D3-8CD1-00C04F8EDB8A */
static const drwav_uint8 drwavGUID_W64_DATA [ 16 ] = { 0x64 , 0x61 , 0x74 , 0x61 , 0xF3 , 0xAC , 0xD3 , 0x11 , 0x8C , 0xD1 , 0x00 , 0xC0 , 0x4F , 0x8E , 0xDB , 0x8A } ; /* 61746164-ACF3-11D3-8CD1-00C04F8EDB8A */
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/*static const drwav_uint8 drwavGUID_W64_SMPL[16] = {0x73,0x6D,0x70,0x6C, 0xF3,0xAC, 0xD3,0x11, 0x8C,0xD1, 0x00,0xC0,0x4F,0x8E,0xDB,0x8A};*/ /* 6C706D73-ACF3-11D3-8CD1-00C04F8EDB8A */
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static DRWAV_INLINE int drwav__is_little_endian ( void )
{
# if defined(DRWAV_X86) || defined(DRWAV_X64)
return DRWAV_TRUE ;
# elif defined(__BYTE_ORDER) && defined(__LITTLE_ENDIAN) && __BYTE_ORDER == __LITTLE_ENDIAN
return DRWAV_TRUE ;
# else
int n = 1 ;
return ( * ( char * ) & n ) = = 1 ;
# endif
}
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static DRWAV_INLINE void drwav_bytes_to_guid ( const drwav_uint8 * data , drwav_uint8 * guid )
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{
int i ;
for ( i = 0 ; i < 16 ; + + i ) {
guid [ i ] = data [ i ] ;
}
}
static DRWAV_INLINE drwav_uint16 drwav__bswap16 ( drwav_uint16 n )
{
# ifdef DRWAV_HAS_BYTESWAP16_INTRINSIC
# if defined(_MSC_VER)
return _byteswap_ushort ( n ) ;
# elif defined(__GNUC__) || defined(__clang__)
return __builtin_bswap16 ( n ) ;
# else
# error "This compiler does not support the byte swap intrinsic."
# endif
# else
return ( ( n & 0xFF00 ) > > 8 ) |
( ( n & 0x00FF ) < < 8 ) ;
# endif
}
static DRWAV_INLINE drwav_uint32 drwav__bswap32 ( drwav_uint32 n )
{
# ifdef DRWAV_HAS_BYTESWAP32_INTRINSIC
# if defined(_MSC_VER)
return _byteswap_ulong ( n ) ;
# elif defined(__GNUC__) || defined(__clang__)
# if defined(DRWAV_ARM) && (defined(__ARM_ARCH) && __ARM_ARCH >= 6) && !defined(DRWAV_64BIT) /* <-- 64-bit inline assembly has not been tested, so disabling for now. */
/* Inline assembly optimized implementation for ARM. In my testing, GCC does not generate optimized code with __builtin_bswap32(). */
drwav_uint32 r ;
__asm__ __volatile__ (
# if defined(DRWAV_64BIT)
" rev %w[out], %w[in] " : [ out ] " =r " ( r ) : [ in ] " r " ( n ) /* <-- This is untested. If someone in the community could test this, that would be appreciated! */
# else
" rev %[out], %[in] " : [ out ] " =r " ( r ) : [ in ] " r " ( n )
# endif
) ;
return r ;
# else
return __builtin_bswap32 ( n ) ;
# endif
# else
# error "This compiler does not support the byte swap intrinsic."
# endif
# else
return ( ( n & 0xFF000000 ) > > 24 ) |
( ( n & 0x00FF0000 ) > > 8 ) |
( ( n & 0x0000FF00 ) < < 8 ) |
( ( n & 0x000000FF ) < < 24 ) ;
# endif
}
static DRWAV_INLINE drwav_uint64 drwav__bswap64 ( drwav_uint64 n )
{
# ifdef DRWAV_HAS_BYTESWAP64_INTRINSIC
# if defined(_MSC_VER)
return _byteswap_uint64 ( n ) ;
# elif defined(__GNUC__) || defined(__clang__)
return __builtin_bswap64 ( n ) ;
# else
# error "This compiler does not support the byte swap intrinsic."
# endif
# else
/* Weird "<< 32" bitshift is required for C89 because it doesn't support 64-bit constants. Should be optimized out by a good compiler. */
return ( ( n & ( ( drwav_uint64 ) 0xFF000000 < < 32 ) ) > > 56 ) |
( ( n & ( ( drwav_uint64 ) 0x00FF0000 < < 32 ) ) > > 40 ) |
( ( n & ( ( drwav_uint64 ) 0x0000FF00 < < 32 ) ) > > 24 ) |
( ( n & ( ( drwav_uint64 ) 0x000000FF < < 32 ) ) > > 8 ) |
( ( n & ( ( drwav_uint64 ) 0xFF000000 ) ) < < 8 ) |
( ( n & ( ( drwav_uint64 ) 0x00FF0000 ) ) < < 24 ) |
( ( n & ( ( drwav_uint64 ) 0x0000FF00 ) ) < < 40 ) |
( ( n & ( ( drwav_uint64 ) 0x000000FF ) ) < < 56 ) ;
# endif
}
static DRWAV_INLINE drwav_int16 drwav__bswap_s16 ( drwav_int16 n )
{
return ( drwav_int16 ) drwav__bswap16 ( ( drwav_uint16 ) n ) ;
}
static DRWAV_INLINE void drwav__bswap_samples_s16 ( drwav_int16 * pSamples , drwav_uint64 sampleCount )
{
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < sampleCount ; iSample + = 1 ) {
pSamples [ iSample ] = drwav__bswap_s16 ( pSamples [ iSample ] ) ;
}
}
static DRWAV_INLINE void drwav__bswap_s24 ( drwav_uint8 * p )
{
drwav_uint8 t ;
t = p [ 0 ] ;
p [ 0 ] = p [ 2 ] ;
p [ 2 ] = t ;
}
static DRWAV_INLINE void drwav__bswap_samples_s24 ( drwav_uint8 * pSamples , drwav_uint64 sampleCount )
{
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < sampleCount ; iSample + = 1 ) {
drwav_uint8 * pSample = pSamples + ( iSample * 3 ) ;
drwav__bswap_s24 ( pSample ) ;
}
}
static DRWAV_INLINE drwav_int32 drwav__bswap_s32 ( drwav_int32 n )
{
return ( drwav_int32 ) drwav__bswap32 ( ( drwav_uint32 ) n ) ;
}
static DRWAV_INLINE void drwav__bswap_samples_s32 ( drwav_int32 * pSamples , drwav_uint64 sampleCount )
{
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < sampleCount ; iSample + = 1 ) {
pSamples [ iSample ] = drwav__bswap_s32 ( pSamples [ iSample ] ) ;
}
}
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static DRWAV_INLINE drwav_int64 drwav__bswap_s64 ( drwav_int64 n )
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{
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return ( drwav_int64 ) drwav__bswap64 ( ( drwav_uint64 ) n ) ;
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}
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static DRWAV_INLINE void drwav__bswap_samples_s64 ( drwav_int64 * pSamples , drwav_uint64 sampleCount )
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{
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < sampleCount ; iSample + = 1 ) {
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pSamples [ iSample ] = drwav__bswap_s64 ( pSamples [ iSample ] ) ;
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}
}
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static DRWAV_INLINE float drwav__bswap_f32 ( float n )
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{
union {
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drwav_uint32 i ;
float f ;
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} x ;
x . f = n ;
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x . i = drwav__bswap32 ( x . i ) ;
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return x . f ;
}
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static DRWAV_INLINE void drwav__bswap_samples_f32 ( float * pSamples , drwav_uint64 sampleCount )
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{
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < sampleCount ; iSample + = 1 ) {
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pSamples [ iSample ] = drwav__bswap_f32 ( pSamples [ iSample ] ) ;
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}
}
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static DRWAV_INLINE void drwav__bswap_samples ( void * pSamples , drwav_uint64 sampleCount , drwav_uint32 bytesPerSample )
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{
switch ( bytesPerSample )
{
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case 1 :
{
/* No-op. */
} break ;
case 2 :
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{
drwav__bswap_samples_s16 ( ( drwav_int16 * ) pSamples , sampleCount ) ;
} break ;
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case 3 :
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{
drwav__bswap_samples_s24 ( ( drwav_uint8 * ) pSamples , sampleCount ) ;
} break ;
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case 4 :
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{
drwav__bswap_samples_s32 ( ( drwav_int32 * ) pSamples , sampleCount ) ;
} break ;
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case 8 :
{
drwav__bswap_samples_s64 ( ( drwav_int64 * ) pSamples , sampleCount ) ;
} break ;
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default :
{
/* Unsupported format. */
DRWAV_ASSERT ( DRWAV_FALSE ) ;
} break ;
}
}
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DRWAV_PRIVATE DRWAV_INLINE drwav_bool32 drwav_is_container_be ( drwav_container container )
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{
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if ( container = = drwav_container_rifx | | container = = drwav_container_aiff ) {
return DRWAV_TRUE ;
} else {
return DRWAV_FALSE ;
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}
}
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DRWAV_PRIVATE DRWAV_INLINE drwav_uint16 drwav_bytes_to_u16_le ( const drwav_uint8 * data )
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{
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return ( ( drwav_uint16 ) data [ 0 ] < < 0 ) | ( ( drwav_uint16 ) data [ 1 ] < < 8 ) ;
}
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DRWAV_PRIVATE DRWAV_INLINE drwav_uint16 drwav_bytes_to_u16_be ( const drwav_uint8 * data )
{
return ( ( drwav_uint16 ) data [ 1 ] < < 0 ) | ( ( drwav_uint16 ) data [ 0 ] < < 8 ) ;
}
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DRWAV_PRIVATE DRWAV_INLINE drwav_uint16 drwav_bytes_to_u16_ex ( const drwav_uint8 * data , drwav_container container )
{
if ( drwav_is_container_be ( container ) ) {
return drwav_bytes_to_u16_be ( data ) ;
} else {
return drwav_bytes_to_u16_le ( data ) ;
}
}
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DRWAV_PRIVATE DRWAV_INLINE drwav_uint32 drwav_bytes_to_u32_le ( const drwav_uint8 * data )
{
return ( ( drwav_uint32 ) data [ 0 ] < < 0 ) | ( ( drwav_uint32 ) data [ 1 ] < < 8 ) | ( ( drwav_uint32 ) data [ 2 ] < < 16 ) | ( ( drwav_uint32 ) data [ 3 ] < < 24 ) ;
}
DRWAV_PRIVATE DRWAV_INLINE drwav_uint32 drwav_bytes_to_u32_be ( const drwav_uint8 * data )
{
return ( ( drwav_uint32 ) data [ 3 ] < < 0 ) | ( ( drwav_uint32 ) data [ 2 ] < < 8 ) | ( ( drwav_uint32 ) data [ 1 ] < < 16 ) | ( ( drwav_uint32 ) data [ 0 ] < < 24 ) ;
}
DRWAV_PRIVATE DRWAV_INLINE drwav_uint32 drwav_bytes_to_u32_ex ( const drwav_uint8 * data , drwav_container container )
{
if ( drwav_is_container_be ( container ) ) {
return drwav_bytes_to_u32_be ( data ) ;
} else {
return drwav_bytes_to_u32_le ( data ) ;
}
}
DRWAV_PRIVATE drwav_int64 drwav_aiff_extented_to_s64 ( const drwav_uint8 * data )
{
drwav_uint32 exponent = ( ( drwav_uint32 ) data [ 0 ] < < 8 ) | data [ 1 ] ;
drwav_uint64 hi = ( ( drwav_uint64 ) data [ 2 ] < < 24 ) | ( ( drwav_uint64 ) data [ 3 ] < < 16 ) | ( ( drwav_uint64 ) data [ 4 ] < < 8 ) | ( ( drwav_uint64 ) data [ 5 ] < < 0 ) ;
drwav_uint64 lo = ( ( drwav_uint64 ) data [ 6 ] < < 24 ) | ( ( drwav_uint64 ) data [ 7 ] < < 16 ) | ( ( drwav_uint64 ) data [ 8 ] < < 8 ) | ( ( drwav_uint64 ) data [ 9 ] < < 0 ) ;
drwav_uint64 significand = ( hi < < 32 ) | lo ;
int sign = exponent > > 15 ;
/* Remove sign bit. */
exponent & = 0x7FFF ;
/* Special cases. */
if ( exponent = = 0 & & significand = = 0 ) {
return 0 ;
} else if ( exponent = = 0x7FFF ) {
return sign ? DRWAV_INT64_MIN : DRWAV_INT64_MAX ; /* Infinite. */
}
exponent - = 16383 ;
if ( exponent > 63 ) {
return sign ? DRWAV_INT64_MIN : DRWAV_INT64_MAX ; /* Too big for a 64-bit integer. */
} else if ( exponent < 1 ) {
return 0 ; /* Number is less than 1, so rounds down to 0. */
}
significand > > = ( 63 - exponent ) ;
if ( sign ) {
return - ( drwav_int64 ) significand ;
} else {
return ( drwav_int64 ) significand ;
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}
}
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DRWAV_PRIVATE void * drwav__malloc_default ( size_t sz , void * pUserData )
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{
( void ) pUserData ;
return DRWAV_MALLOC ( sz ) ;
}
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DRWAV_PRIVATE void * drwav__realloc_default ( void * p , size_t sz , void * pUserData )
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{
( void ) pUserData ;
return DRWAV_REALLOC ( p , sz ) ;
}
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DRWAV_PRIVATE void drwav__free_default ( void * p , void * pUserData )
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{
( void ) pUserData ;
DRWAV_FREE ( p ) ;
}
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DRWAV_PRIVATE void * drwav__malloc_from_callbacks ( size_t sz , const drwav_allocation_callbacks * pAllocationCallbacks )
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{
if ( pAllocationCallbacks = = NULL ) {
return NULL ;
}
if ( pAllocationCallbacks - > onMalloc ! = NULL ) {
return pAllocationCallbacks - > onMalloc ( sz , pAllocationCallbacks - > pUserData ) ;
}
/* Try using realloc(). */
if ( pAllocationCallbacks - > onRealloc ! = NULL ) {
return pAllocationCallbacks - > onRealloc ( NULL , sz , pAllocationCallbacks - > pUserData ) ;
}
return NULL ;
}
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DRWAV_PRIVATE void * drwav__realloc_from_callbacks ( void * p , size_t szNew , size_t szOld , const drwav_allocation_callbacks * pAllocationCallbacks )
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{
if ( pAllocationCallbacks = = NULL ) {
return NULL ;
}
if ( pAllocationCallbacks - > onRealloc ! = NULL ) {
return pAllocationCallbacks - > onRealloc ( p , szNew , pAllocationCallbacks - > pUserData ) ;
}
/* Try emulating realloc() in terms of malloc()/free(). */
if ( pAllocationCallbacks - > onMalloc ! = NULL & & pAllocationCallbacks - > onFree ! = NULL ) {
void * p2 ;
p2 = pAllocationCallbacks - > onMalloc ( szNew , pAllocationCallbacks - > pUserData ) ;
if ( p2 = = NULL ) {
return NULL ;
}
if ( p ! = NULL ) {
DRWAV_COPY_MEMORY ( p2 , p , szOld ) ;
pAllocationCallbacks - > onFree ( p , pAllocationCallbacks - > pUserData ) ;
}
return p2 ;
}
return NULL ;
}
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DRWAV_PRIVATE void drwav__free_from_callbacks ( void * p , const drwav_allocation_callbacks * pAllocationCallbacks )
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{
if ( p = = NULL | | pAllocationCallbacks = = NULL ) {
return ;
}
if ( pAllocationCallbacks - > onFree ! = NULL ) {
pAllocationCallbacks - > onFree ( p , pAllocationCallbacks - > pUserData ) ;
}
}
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DRWAV_PRIVATE drwav_allocation_callbacks drwav_copy_allocation_callbacks_or_defaults ( const drwav_allocation_callbacks * pAllocationCallbacks )
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{
if ( pAllocationCallbacks ! = NULL ) {
/* Copy. */
return * pAllocationCallbacks ;
} else {
/* Defaults. */
drwav_allocation_callbacks allocationCallbacks ;
allocationCallbacks . pUserData = NULL ;
allocationCallbacks . onMalloc = drwav__malloc_default ;
allocationCallbacks . onRealloc = drwav__realloc_default ;
allocationCallbacks . onFree = drwav__free_default ;
return allocationCallbacks ;
}
}
static DRWAV_INLINE drwav_bool32 drwav__is_compressed_format_tag ( drwav_uint16 formatTag )
{
return
formatTag = = DR_WAVE_FORMAT_ADPCM | |
formatTag = = DR_WAVE_FORMAT_DVI_ADPCM ;
}
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DRWAV_PRIVATE unsigned int drwav__chunk_padding_size_riff ( drwav_uint64 chunkSize )
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{
return ( unsigned int ) ( chunkSize % 2 ) ;
}
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DRWAV_PRIVATE unsigned int drwav__chunk_padding_size_w64 ( drwav_uint64 chunkSize )
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{
return ( unsigned int ) ( chunkSize % 8 ) ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s16__msadpcm ( drwav * pWav , drwav_uint64 samplesToRead , drwav_int16 * pBufferOut ) ;
DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s16__ima ( drwav * pWav , drwav_uint64 samplesToRead , drwav_int16 * pBufferOut ) ;
DRWAV_PRIVATE drwav_bool32 drwav_init_write__internal ( drwav * pWav , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount ) ;
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DRWAV_PRIVATE drwav_result drwav__read_chunk_header ( drwav_read_proc onRead , void * pUserData , drwav_container container , drwav_uint64 * pRunningBytesReadOut , drwav_chunk_header * pHeaderOut )
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{
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if ( container = = drwav_container_riff | | container = = drwav_container_rifx | | container = = drwav_container_rf64 | | container = = drwav_container_aiff ) {
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drwav_uint8 sizeInBytes [ 4 ] ;
if ( onRead ( pUserData , pHeaderOut - > id . fourcc , 4 ) ! = 4 ) {
return DRWAV_AT_END ;
}
if ( onRead ( pUserData , sizeInBytes , 4 ) ! = 4 ) {
return DRWAV_INVALID_FILE ;
}
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pHeaderOut - > sizeInBytes = drwav_bytes_to_u32_ex ( sizeInBytes , container ) ;
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pHeaderOut - > paddingSize = drwav__chunk_padding_size_riff ( pHeaderOut - > sizeInBytes ) ;
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* pRunningBytesReadOut + = 8 ;
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} else if ( container = = drwav_container_w64 ) {
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drwav_uint8 sizeInBytes [ 8 ] ;
if ( onRead ( pUserData , pHeaderOut - > id . guid , 16 ) ! = 16 ) {
return DRWAV_AT_END ;
}
if ( onRead ( pUserData , sizeInBytes , 8 ) ! = 8 ) {
return DRWAV_INVALID_FILE ;
}
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pHeaderOut - > sizeInBytes = drwav_bytes_to_u64 ( sizeInBytes ) - 24 ; /* <-- Subtract 24 because w64 includes the size of the header. */
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pHeaderOut - > paddingSize = drwav__chunk_padding_size_w64 ( pHeaderOut - > sizeInBytes ) ;
* pRunningBytesReadOut + = 24 ;
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} else {
return DRWAV_INVALID_FILE ;
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}
return DRWAV_SUCCESS ;
}
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DRWAV_PRIVATE drwav_bool32 drwav__seek_forward ( drwav_seek_proc onSeek , drwav_uint64 offset , void * pUserData )
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{
drwav_uint64 bytesRemainingToSeek = offset ;
while ( bytesRemainingToSeek > 0 ) {
if ( bytesRemainingToSeek > 0x7FFFFFFF ) {
if ( ! onSeek ( pUserData , 0x7FFFFFFF , drwav_seek_origin_current ) ) {
return DRWAV_FALSE ;
}
bytesRemainingToSeek - = 0x7FFFFFFF ;
} else {
if ( ! onSeek ( pUserData , ( int ) bytesRemainingToSeek , drwav_seek_origin_current ) ) {
return DRWAV_FALSE ;
}
bytesRemainingToSeek = 0 ;
}
}
return DRWAV_TRUE ;
}
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DRWAV_PRIVATE drwav_bool32 drwav__seek_from_start ( drwav_seek_proc onSeek , drwav_uint64 offset , void * pUserData )
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{
if ( offset < = 0x7FFFFFFF ) {
return onSeek ( pUserData , ( int ) offset , drwav_seek_origin_start ) ;
}
/* Larger than 32-bit seek. */
if ( ! onSeek ( pUserData , 0x7FFFFFFF , drwav_seek_origin_start ) ) {
return DRWAV_FALSE ;
}
offset - = 0x7FFFFFFF ;
for ( ; ; ) {
if ( offset < = 0x7FFFFFFF ) {
return onSeek ( pUserData , ( int ) offset , drwav_seek_origin_current ) ;
}
if ( ! onSeek ( pUserData , 0x7FFFFFFF , drwav_seek_origin_current ) ) {
return DRWAV_FALSE ;
}
offset - = 0x7FFFFFFF ;
}
/* Should never get here. */
/*return DRWAV_TRUE; */
}
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DRWAV_PRIVATE size_t drwav__on_read ( drwav_read_proc onRead , void * pUserData , void * pBufferOut , size_t bytesToRead , drwav_uint64 * pCursor )
{
size_t bytesRead ;
DRWAV_ASSERT ( onRead ! = NULL ) ;
DRWAV_ASSERT ( pCursor ! = NULL ) ;
bytesRead = onRead ( pUserData , pBufferOut , bytesToRead ) ;
* pCursor + = bytesRead ;
return bytesRead ;
}
#if 0
DRWAV_PRIVATE drwav_bool32 drwav__on_seek ( drwav_seek_proc onSeek , void * pUserData , int offset , drwav_seek_origin origin , drwav_uint64 * pCursor )
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{
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DRWAV_ASSERT ( onSeek ! = NULL ) ;
DRWAV_ASSERT ( pCursor ! = NULL ) ;
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if ( ! onSeek ( pUserData , offset , origin ) ) {
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return DRWAV_FALSE ;
}
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if ( origin = = drwav_seek_origin_start ) {
* pCursor = offset ;
} else {
* pCursor + = offset ;
}
return DRWAV_TRUE ;
}
# endif
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# define DRWAV_SMPL_BYTES 36
# define DRWAV_SMPL_LOOP_BYTES 24
# define DRWAV_INST_BYTES 7
# define DRWAV_ACID_BYTES 24
# define DRWAV_CUE_BYTES 4
# define DRWAV_BEXT_BYTES 602
# define DRWAV_BEXT_DESCRIPTION_BYTES 256
# define DRWAV_BEXT_ORIGINATOR_NAME_BYTES 32
# define DRWAV_BEXT_ORIGINATOR_REF_BYTES 32
# define DRWAV_BEXT_RESERVED_BYTES 180
# define DRWAV_BEXT_UMID_BYTES 64
# define DRWAV_CUE_POINT_BYTES 24
# define DRWAV_LIST_LABEL_OR_NOTE_BYTES 4
# define DRWAV_LIST_LABELLED_TEXT_BYTES 20
# define DRWAV_METADATA_ALIGNMENT 8
typedef enum
{
drwav__metadata_parser_stage_count ,
drwav__metadata_parser_stage_read
} drwav__metadata_parser_stage ;
typedef struct
{
drwav_read_proc onRead ;
drwav_seek_proc onSeek ;
void * pReadSeekUserData ;
drwav__metadata_parser_stage stage ;
drwav_metadata * pMetadata ;
drwav_uint32 metadataCount ;
drwav_uint8 * pData ;
drwav_uint8 * pDataCursor ;
drwav_uint64 metadataCursor ;
drwav_uint64 extraCapacity ;
} drwav__metadata_parser ;
DRWAV_PRIVATE size_t drwav__metadata_memory_capacity ( drwav__metadata_parser * pParser )
{
drwav_uint64 cap = sizeof ( drwav_metadata ) * ( drwav_uint64 ) pParser - > metadataCount + pParser - > extraCapacity ;
if ( cap > DRWAV_SIZE_MAX ) {
return 0 ; /* Too big. */
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}
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return ( size_t ) cap ; /* Safe cast thanks to the check above. */
}
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DRWAV_PRIVATE drwav_uint8 * drwav__metadata_get_memory ( drwav__metadata_parser * pParser , size_t size , size_t align )
{
drwav_uint8 * pResult ;
if ( align ) {
drwav_uintptr modulo = ( drwav_uintptr ) pParser - > pDataCursor % align ;
if ( modulo ! = 0 ) {
pParser - > pDataCursor + = align - modulo ;
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}
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}
pResult = pParser - > pDataCursor ;
/*
Getting to the point where this function is called means there should always be memory
available . Out of memory checks should have been done at an earlier stage .
*/
DRWAV_ASSERT ( ( pResult + size ) < = ( pParser - > pData + drwav__metadata_memory_capacity ( pParser ) ) ) ;
pParser - > pDataCursor + = size ;
return pResult ;
}
DRWAV_PRIVATE void drwav__metadata_request_extra_memory_for_stage_2 ( drwav__metadata_parser * pParser , size_t bytes , size_t align )
{
size_t extra = bytes + ( align ? ( align - 1 ) : 0 ) ;
pParser - > extraCapacity + = extra ;
}
DRWAV_PRIVATE drwav_result drwav__metadata_alloc ( drwav__metadata_parser * pParser , drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( pParser - > extraCapacity ! = 0 | | pParser - > metadataCount ! = 0 ) {
pAllocationCallbacks - > onFree ( pParser - > pData , pAllocationCallbacks - > pUserData ) ;
pParser - > pData = ( drwav_uint8 * ) pAllocationCallbacks - > onMalloc ( drwav__metadata_memory_capacity ( pParser ) , pAllocationCallbacks - > pUserData ) ;
pParser - > pDataCursor = pParser - > pData ;
if ( pParser - > pData = = NULL ) {
return DRWAV_OUT_OF_MEMORY ;
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}
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/*
We don ' t need to worry about specifying an alignment here because malloc always returns something
of suitable alignment . This also means pParser - > pMetadata is all that we need to store in order
for us to free when we are done .
*/
pParser - > pMetadata = ( drwav_metadata * ) drwav__metadata_get_memory ( pParser , sizeof ( drwav_metadata ) * pParser - > metadataCount , 1 ) ;
pParser - > metadataCursor = 0 ;
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}
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return DRWAV_SUCCESS ;
}
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DRWAV_PRIVATE size_t drwav__metadata_parser_read ( drwav__metadata_parser * pParser , void * pBufferOut , size_t bytesToRead , drwav_uint64 * pCursor )
{
if ( pCursor ! = NULL ) {
return drwav__on_read ( pParser - > onRead , pParser - > pReadSeekUserData , pBufferOut , bytesToRead , pCursor ) ;
} else {
return pParser - > onRead ( pParser - > pReadSeekUserData , pBufferOut , bytesToRead ) ;
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}
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}
DRWAV_PRIVATE drwav_uint64 drwav__read_smpl_to_metadata_obj ( drwav__metadata_parser * pParser , const drwav_chunk_header * pChunkHeader , drwav_metadata * pMetadata )
{
drwav_uint8 smplHeaderData [ DRWAV_SMPL_BYTES ] ;
drwav_uint64 totalBytesRead = 0 ;
size_t bytesJustRead ;
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if ( pMetadata = = NULL ) {
return 0 ;
}
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bytesJustRead = drwav__metadata_parser_read ( pParser , smplHeaderData , sizeof ( smplHeaderData ) , & totalBytesRead ) ;
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DRWAV_ASSERT ( pParser - > stage = = drwav__metadata_parser_stage_read ) ;
DRWAV_ASSERT ( pChunkHeader ! = NULL ) ;
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if ( pMetadata ! = NULL & & bytesJustRead = = sizeof ( smplHeaderData ) ) {
drwav_uint32 iSampleLoop ;
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pMetadata - > type = drwav_metadata_type_smpl ;
pMetadata - > data . smpl . manufacturerId = drwav_bytes_to_u32 ( smplHeaderData + 0 ) ;
pMetadata - > data . smpl . productId = drwav_bytes_to_u32 ( smplHeaderData + 4 ) ;
pMetadata - > data . smpl . samplePeriodNanoseconds = drwav_bytes_to_u32 ( smplHeaderData + 8 ) ;
pMetadata - > data . smpl . midiUnityNote = drwav_bytes_to_u32 ( smplHeaderData + 12 ) ;
pMetadata - > data . smpl . midiPitchFraction = drwav_bytes_to_u32 ( smplHeaderData + 16 ) ;
pMetadata - > data . smpl . smpteFormat = drwav_bytes_to_u32 ( smplHeaderData + 20 ) ;
pMetadata - > data . smpl . smpteOffset = drwav_bytes_to_u32 ( smplHeaderData + 24 ) ;
pMetadata - > data . smpl . sampleLoopCount = drwav_bytes_to_u32 ( smplHeaderData + 28 ) ;
pMetadata - > data . smpl . samplerSpecificDataSizeInBytes = drwav_bytes_to_u32 ( smplHeaderData + 32 ) ;
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/*
The loop count needs to be validated against the size of the chunk for safety so we don ' t
attempt to read over the boundary of the chunk .
*/
if ( pMetadata - > data . smpl . sampleLoopCount = = ( pChunkHeader - > sizeInBytes - DRWAV_SMPL_BYTES ) / DRWAV_SMPL_LOOP_BYTES ) {
pMetadata - > data . smpl . pLoops = ( drwav_smpl_loop * ) drwav__metadata_get_memory ( pParser , sizeof ( drwav_smpl_loop ) * pMetadata - > data . smpl . sampleLoopCount , DRWAV_METADATA_ALIGNMENT ) ;
for ( iSampleLoop = 0 ; iSampleLoop < pMetadata - > data . smpl . sampleLoopCount ; + + iSampleLoop ) {
drwav_uint8 smplLoopData [ DRWAV_SMPL_LOOP_BYTES ] ;
bytesJustRead = drwav__metadata_parser_read ( pParser , smplLoopData , sizeof ( smplLoopData ) , & totalBytesRead ) ;
if ( bytesJustRead = = sizeof ( smplLoopData ) ) {
pMetadata - > data . smpl . pLoops [ iSampleLoop ] . cuePointId = drwav_bytes_to_u32 ( smplLoopData + 0 ) ;
pMetadata - > data . smpl . pLoops [ iSampleLoop ] . type = drwav_bytes_to_u32 ( smplLoopData + 4 ) ;
pMetadata - > data . smpl . pLoops [ iSampleLoop ] . firstSampleByteOffset = drwav_bytes_to_u32 ( smplLoopData + 8 ) ;
pMetadata - > data . smpl . pLoops [ iSampleLoop ] . lastSampleByteOffset = drwav_bytes_to_u32 ( smplLoopData + 12 ) ;
pMetadata - > data . smpl . pLoops [ iSampleLoop ] . sampleFraction = drwav_bytes_to_u32 ( smplLoopData + 16 ) ;
pMetadata - > data . smpl . pLoops [ iSampleLoop ] . playCount = drwav_bytes_to_u32 ( smplLoopData + 20 ) ;
} else {
break ;
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}
}
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if ( pMetadata - > data . smpl . samplerSpecificDataSizeInBytes > 0 ) {
pMetadata - > data . smpl . pSamplerSpecificData = drwav__metadata_get_memory ( pParser , pMetadata - > data . smpl . samplerSpecificDataSizeInBytes , 1 ) ;
DRWAV_ASSERT ( pMetadata - > data . smpl . pSamplerSpecificData ! = NULL ) ;
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drwav__metadata_parser_read ( pParser , pMetadata - > data . smpl . pSamplerSpecificData , pMetadata - > data . smpl . samplerSpecificDataSizeInBytes , & totalBytesRead ) ;
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}
}
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}
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return totalBytesRead ;
}
DRWAV_PRIVATE drwav_uint64 drwav__read_cue_to_metadata_obj ( drwav__metadata_parser * pParser , const drwav_chunk_header * pChunkHeader , drwav_metadata * pMetadata )
{
drwav_uint8 cueHeaderSectionData [ DRWAV_CUE_BYTES ] ;
drwav_uint64 totalBytesRead = 0 ;
size_t bytesJustRead ;
if ( pMetadata = = NULL ) {
return 0 ;
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}
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bytesJustRead = drwav__metadata_parser_read ( pParser , cueHeaderSectionData , sizeof ( cueHeaderSectionData ) , & totalBytesRead ) ;
DRWAV_ASSERT ( pParser - > stage = = drwav__metadata_parser_stage_read ) ;
if ( bytesJustRead = = sizeof ( cueHeaderSectionData ) ) {
pMetadata - > type = drwav_metadata_type_cue ;
pMetadata - > data . cue . cuePointCount = drwav_bytes_to_u32 ( cueHeaderSectionData ) ;
/*
We need to validate the cue point count against the size of the chunk so we don ' t read
beyond the chunk .
*/
if ( pMetadata - > data . cue . cuePointCount = = ( pChunkHeader - > sizeInBytes - DRWAV_CUE_BYTES ) / DRWAV_CUE_POINT_BYTES ) {
pMetadata - > data . cue . pCuePoints = ( drwav_cue_point * ) drwav__metadata_get_memory ( pParser , sizeof ( drwav_cue_point ) * pMetadata - > data . cue . cuePointCount , DRWAV_METADATA_ALIGNMENT ) ;
DRWAV_ASSERT ( pMetadata - > data . cue . pCuePoints ! = NULL ) ;
if ( pMetadata - > data . cue . cuePointCount > 0 ) {
drwav_uint32 iCuePoint ;
for ( iCuePoint = 0 ; iCuePoint < pMetadata - > data . cue . cuePointCount ; + + iCuePoint ) {
drwav_uint8 cuePointData [ DRWAV_CUE_POINT_BYTES ] ;
bytesJustRead = drwav__metadata_parser_read ( pParser , cuePointData , sizeof ( cuePointData ) , & totalBytesRead ) ;
if ( bytesJustRead = = sizeof ( cuePointData ) ) {
pMetadata - > data . cue . pCuePoints [ iCuePoint ] . id = drwav_bytes_to_u32 ( cuePointData + 0 ) ;
pMetadata - > data . cue . pCuePoints [ iCuePoint ] . playOrderPosition = drwav_bytes_to_u32 ( cuePointData + 4 ) ;
pMetadata - > data . cue . pCuePoints [ iCuePoint ] . dataChunkId [ 0 ] = cuePointData [ 8 ] ;
pMetadata - > data . cue . pCuePoints [ iCuePoint ] . dataChunkId [ 1 ] = cuePointData [ 9 ] ;
pMetadata - > data . cue . pCuePoints [ iCuePoint ] . dataChunkId [ 2 ] = cuePointData [ 10 ] ;
pMetadata - > data . cue . pCuePoints [ iCuePoint ] . dataChunkId [ 3 ] = cuePointData [ 11 ] ;
pMetadata - > data . cue . pCuePoints [ iCuePoint ] . chunkStart = drwav_bytes_to_u32 ( cuePointData + 12 ) ;
pMetadata - > data . cue . pCuePoints [ iCuePoint ] . blockStart = drwav_bytes_to_u32 ( cuePointData + 16 ) ;
pMetadata - > data . cue . pCuePoints [ iCuePoint ] . sampleByteOffset = drwav_bytes_to_u32 ( cuePointData + 20 ) ;
} else {
break ;
}
}
}
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}
}
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return totalBytesRead ;
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}
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DRWAV_PRIVATE drwav_uint64 drwav__read_inst_to_metadata_obj ( drwav__metadata_parser * pParser , drwav_metadata * pMetadata )
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{
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drwav_uint8 instData [ DRWAV_INST_BYTES ] ;
drwav_uint64 bytesRead ;
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if ( pMetadata = = NULL ) {
return 0 ;
}
bytesRead = drwav__metadata_parser_read ( pParser , instData , sizeof ( instData ) , NULL ) ;
DRWAV_ASSERT ( pParser - > stage = = drwav__metadata_parser_stage_read ) ;
if ( bytesRead = = sizeof ( instData ) ) {
pMetadata - > type = drwav_metadata_type_inst ;
pMetadata - > data . inst . midiUnityNote = ( drwav_int8 ) instData [ 0 ] ;
pMetadata - > data . inst . fineTuneCents = ( drwav_int8 ) instData [ 1 ] ;
pMetadata - > data . inst . gainDecibels = ( drwav_int8 ) instData [ 2 ] ;
pMetadata - > data . inst . lowNote = ( drwav_int8 ) instData [ 3 ] ;
pMetadata - > data . inst . highNote = ( drwav_int8 ) instData [ 4 ] ;
pMetadata - > data . inst . lowVelocity = ( drwav_int8 ) instData [ 5 ] ;
pMetadata - > data . inst . highVelocity = ( drwav_int8 ) instData [ 6 ] ;
}
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return bytesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav__read_acid_to_metadata_obj ( drwav__metadata_parser * pParser , drwav_metadata * pMetadata )
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{
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drwav_uint8 acidData [ DRWAV_ACID_BYTES ] ;
drwav_uint64 bytesRead ;
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if ( pMetadata = = NULL ) {
return 0 ;
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}
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bytesRead = drwav__metadata_parser_read ( pParser , acidData , sizeof ( acidData ) , NULL ) ;
DRWAV_ASSERT ( pParser - > stage = = drwav__metadata_parser_stage_read ) ;
if ( bytesRead = = sizeof ( acidData ) ) {
pMetadata - > type = drwav_metadata_type_acid ;
pMetadata - > data . acid . flags = drwav_bytes_to_u32 ( acidData + 0 ) ;
pMetadata - > data . acid . midiUnityNote = drwav_bytes_to_u16 ( acidData + 4 ) ;
pMetadata - > data . acid . reserved1 = drwav_bytes_to_u16 ( acidData + 6 ) ;
pMetadata - > data . acid . reserved2 = drwav_bytes_to_f32 ( acidData + 8 ) ;
pMetadata - > data . acid . numBeats = drwav_bytes_to_u32 ( acidData + 12 ) ;
pMetadata - > data . acid . meterDenominator = drwav_bytes_to_u16 ( acidData + 16 ) ;
pMetadata - > data . acid . meterNumerator = drwav_bytes_to_u16 ( acidData + 18 ) ;
pMetadata - > data . acid . tempo = drwav_bytes_to_f32 ( acidData + 20 ) ;
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}
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return bytesRead ;
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}
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DRWAV_PRIVATE size_t drwav__strlen ( const char * str )
{
size_t result = 0 ;
while ( * str + + ) {
result + = 1 ;
}
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return result ;
}
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DRWAV_PRIVATE size_t drwav__strlen_clamped ( const char * str , size_t maxToRead )
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{
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size_t result = 0 ;
while ( * str + + & & result < maxToRead ) {
result + = 1 ;
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}
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return result ;
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}
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DRWAV_PRIVATE char * drwav__metadata_copy_string ( drwav__metadata_parser * pParser , const char * str , size_t maxToRead )
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{
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size_t len = drwav__strlen_clamped ( str , maxToRead ) ;
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if ( len ) {
char * result = ( char * ) drwav__metadata_get_memory ( pParser , len + 1 , 1 ) ;
DRWAV_ASSERT ( result ! = NULL ) ;
DRWAV_COPY_MEMORY ( result , str , len ) ;
result [ len ] = ' \0 ' ;
return result ;
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} else {
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return NULL ;
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}
}
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typedef struct
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{
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const void * pBuffer ;
size_t sizeInBytes ;
size_t cursor ;
} drwav_buffer_reader ;
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DRWAV_PRIVATE drwav_result drwav_buffer_reader_init ( const void * pBuffer , size_t sizeInBytes , drwav_buffer_reader * pReader )
{
DRWAV_ASSERT ( pBuffer ! = NULL ) ;
DRWAV_ASSERT ( pReader ! = NULL ) ;
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DRWAV_ZERO_OBJECT ( pReader ) ;
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pReader - > pBuffer = pBuffer ;
pReader - > sizeInBytes = sizeInBytes ;
pReader - > cursor = 0 ;
return DRWAV_SUCCESS ;
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}
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DRWAV_PRIVATE const void * drwav_buffer_reader_ptr ( const drwav_buffer_reader * pReader )
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{
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DRWAV_ASSERT ( pReader ! = NULL ) ;
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return drwav_offset_ptr ( pReader - > pBuffer , pReader - > cursor ) ;
}
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DRWAV_PRIVATE drwav_result drwav_buffer_reader_seek ( drwav_buffer_reader * pReader , size_t bytesToSeek )
{
DRWAV_ASSERT ( pReader ! = NULL ) ;
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if ( pReader - > cursor + bytesToSeek > pReader - > sizeInBytes ) {
return DRWAV_BAD_SEEK ; /* Seeking too far forward. */
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}
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pReader - > cursor + = bytesToSeek ;
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return DRWAV_SUCCESS ;
}
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DRWAV_PRIVATE drwav_result drwav_buffer_reader_read ( drwav_buffer_reader * pReader , void * pDst , size_t bytesToRead , size_t * pBytesRead )
{
drwav_result result = DRWAV_SUCCESS ;
size_t bytesRemaining ;
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DRWAV_ASSERT ( pReader ! = NULL ) ;
if ( pBytesRead ! = NULL ) {
* pBytesRead = 0 ;
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}
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bytesRemaining = ( pReader - > sizeInBytes - pReader - > cursor ) ;
if ( bytesToRead > bytesRemaining ) {
bytesToRead = bytesRemaining ;
}
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if ( pDst = = NULL ) {
/* Seek. */
result = drwav_buffer_reader_seek ( pReader , bytesToRead ) ;
} else {
/* Read. */
DRWAV_COPY_MEMORY ( pDst , drwav_buffer_reader_ptr ( pReader ) , bytesToRead ) ;
pReader - > cursor + = bytesToRead ;
}
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DRWAV_ASSERT ( pReader - > cursor < = pReader - > sizeInBytes ) ;
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if ( result = = DRWAV_SUCCESS ) {
if ( pBytesRead ! = NULL ) {
* pBytesRead = bytesToRead ;
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}
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}
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return DRWAV_SUCCESS ;
}
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DRWAV_PRIVATE drwav_result drwav_buffer_reader_read_u16 ( drwav_buffer_reader * pReader , drwav_uint16 * pDst )
{
drwav_result result ;
size_t bytesRead ;
drwav_uint8 data [ 2 ] ;
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DRWAV_ASSERT ( pReader ! = NULL ) ;
DRWAV_ASSERT ( pDst ! = NULL ) ;
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* pDst = 0 ; /* Safety. */
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result = drwav_buffer_reader_read ( pReader , data , sizeof ( * pDst ) , & bytesRead ) ;
if ( result ! = DRWAV_SUCCESS | | bytesRead ! = sizeof ( * pDst ) ) {
return result ;
}
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* pDst = drwav_bytes_to_u16 ( data ) ;
return DRWAV_SUCCESS ;
}
DRWAV_PRIVATE drwav_result drwav_buffer_reader_read_u32 ( drwav_buffer_reader * pReader , drwav_uint32 * pDst )
{
drwav_result result ;
size_t bytesRead ;
drwav_uint8 data [ 4 ] ;
DRWAV_ASSERT ( pReader ! = NULL ) ;
DRWAV_ASSERT ( pDst ! = NULL ) ;
* pDst = 0 ; /* Safety. */
result = drwav_buffer_reader_read ( pReader , data , sizeof ( * pDst ) , & bytesRead ) ;
if ( result ! = DRWAV_SUCCESS | | bytesRead ! = sizeof ( * pDst ) ) {
return result ;
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}
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* pDst = drwav_bytes_to_u32 ( data ) ;
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return DRWAV_SUCCESS ;
}
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DRWAV_PRIVATE drwav_uint64 drwav__read_bext_to_metadata_obj ( drwav__metadata_parser * pParser , drwav_metadata * pMetadata , drwav_uint64 chunkSize )
{
drwav_uint8 bextData [ DRWAV_BEXT_BYTES ] ;
size_t bytesRead = drwav__metadata_parser_read ( pParser , bextData , sizeof ( bextData ) , NULL ) ;
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DRWAV_ASSERT ( pParser - > stage = = drwav__metadata_parser_stage_read ) ;
if ( bytesRead = = sizeof ( bextData ) ) {
drwav_buffer_reader reader ;
drwav_uint32 timeReferenceLow ;
drwav_uint32 timeReferenceHigh ;
size_t extraBytes ;
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pMetadata - > type = drwav_metadata_type_bext ;
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if ( drwav_buffer_reader_init ( bextData , bytesRead , & reader ) = = DRWAV_SUCCESS ) {
pMetadata - > data . bext . pDescription = drwav__metadata_copy_string ( pParser , ( const char * ) drwav_buffer_reader_ptr ( & reader ) , DRWAV_BEXT_DESCRIPTION_BYTES ) ;
drwav_buffer_reader_seek ( & reader , DRWAV_BEXT_DESCRIPTION_BYTES ) ;
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pMetadata - > data . bext . pOriginatorName = drwav__metadata_copy_string ( pParser , ( const char * ) drwav_buffer_reader_ptr ( & reader ) , DRWAV_BEXT_ORIGINATOR_NAME_BYTES ) ;
drwav_buffer_reader_seek ( & reader , DRWAV_BEXT_ORIGINATOR_NAME_BYTES ) ;
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pMetadata - > data . bext . pOriginatorReference = drwav__metadata_copy_string ( pParser , ( const char * ) drwav_buffer_reader_ptr ( & reader ) , DRWAV_BEXT_ORIGINATOR_REF_BYTES ) ;
drwav_buffer_reader_seek ( & reader , DRWAV_BEXT_ORIGINATOR_REF_BYTES ) ;
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drwav_buffer_reader_read ( & reader , pMetadata - > data . bext . pOriginationDate , sizeof ( pMetadata - > data . bext . pOriginationDate ) , NULL ) ;
drwav_buffer_reader_read ( & reader , pMetadata - > data . bext . pOriginationTime , sizeof ( pMetadata - > data . bext . pOriginationTime ) , NULL ) ;
drwav_buffer_reader_read_u32 ( & reader , & timeReferenceLow ) ;
drwav_buffer_reader_read_u32 ( & reader , & timeReferenceHigh ) ;
pMetadata - > data . bext . timeReference = ( ( drwav_uint64 ) timeReferenceHigh < < 32 ) + timeReferenceLow ;
drwav_buffer_reader_read_u16 ( & reader , & pMetadata - > data . bext . version ) ;
pMetadata - > data . bext . pUMID = drwav__metadata_get_memory ( pParser , DRWAV_BEXT_UMID_BYTES , 1 ) ;
drwav_buffer_reader_read ( & reader , pMetadata - > data . bext . pUMID , DRWAV_BEXT_UMID_BYTES , NULL ) ;
drwav_buffer_reader_read_u16 ( & reader , & pMetadata - > data . bext . loudnessValue ) ;
drwav_buffer_reader_read_u16 ( & reader , & pMetadata - > data . bext . loudnessRange ) ;
drwav_buffer_reader_read_u16 ( & reader , & pMetadata - > data . bext . maxTruePeakLevel ) ;
drwav_buffer_reader_read_u16 ( & reader , & pMetadata - > data . bext . maxMomentaryLoudness ) ;
drwav_buffer_reader_read_u16 ( & reader , & pMetadata - > data . bext . maxShortTermLoudness ) ;
DRWAV_ASSERT ( ( drwav_offset_ptr ( drwav_buffer_reader_ptr ( & reader ) , DRWAV_BEXT_RESERVED_BYTES ) ) = = ( bextData + DRWAV_BEXT_BYTES ) ) ;
extraBytes = ( size_t ) ( chunkSize - DRWAV_BEXT_BYTES ) ;
if ( extraBytes > 0 ) {
pMetadata - > data . bext . pCodingHistory = ( char * ) drwav__metadata_get_memory ( pParser , extraBytes + 1 , 1 ) ;
DRWAV_ASSERT ( pMetadata - > data . bext . pCodingHistory ! = NULL ) ;
bytesRead + = drwav__metadata_parser_read ( pParser , pMetadata - > data . bext . pCodingHistory , extraBytes , NULL ) ;
pMetadata - > data . bext . codingHistorySize = ( drwav_uint32 ) drwav__strlen ( pMetadata - > data . bext . pCodingHistory ) ;
} else {
pMetadata - > data . bext . pCodingHistory = NULL ;
pMetadata - > data . bext . codingHistorySize = 0 ;
}
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}
}
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return bytesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav__read_list_label_or_note_to_metadata_obj ( drwav__metadata_parser * pParser , drwav_metadata * pMetadata , drwav_uint64 chunkSize , drwav_metadata_type type )
{
drwav_uint8 cueIDBuffer [ DRWAV_LIST_LABEL_OR_NOTE_BYTES ] ;
drwav_uint64 totalBytesRead = 0 ;
size_t bytesJustRead = drwav__metadata_parser_read ( pParser , cueIDBuffer , sizeof ( cueIDBuffer ) , & totalBytesRead ) ;
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DRWAV_ASSERT ( pParser - > stage = = drwav__metadata_parser_stage_read ) ;
if ( bytesJustRead = = sizeof ( cueIDBuffer ) ) {
drwav_uint32 sizeIncludingNullTerminator ;
pMetadata - > type = type ;
pMetadata - > data . labelOrNote . cuePointId = drwav_bytes_to_u32 ( cueIDBuffer ) ;
sizeIncludingNullTerminator = ( drwav_uint32 ) chunkSize - DRWAV_LIST_LABEL_OR_NOTE_BYTES ;
if ( sizeIncludingNullTerminator > 0 ) {
pMetadata - > data . labelOrNote . stringLength = sizeIncludingNullTerminator - 1 ;
pMetadata - > data . labelOrNote . pString = ( char * ) drwav__metadata_get_memory ( pParser , sizeIncludingNullTerminator , 1 ) ;
DRWAV_ASSERT ( pMetadata - > data . labelOrNote . pString ! = NULL ) ;
drwav__metadata_parser_read ( pParser , pMetadata - > data . labelOrNote . pString , sizeIncludingNullTerminator , & totalBytesRead ) ;
} else {
pMetadata - > data . labelOrNote . stringLength = 0 ;
pMetadata - > data . labelOrNote . pString = NULL ;
}
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}
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return totalBytesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav__read_list_labelled_cue_region_to_metadata_obj ( drwav__metadata_parser * pParser , drwav_metadata * pMetadata , drwav_uint64 chunkSize )
{
drwav_uint8 buffer [ DRWAV_LIST_LABELLED_TEXT_BYTES ] ;
drwav_uint64 totalBytesRead = 0 ;
size_t bytesJustRead = drwav__metadata_parser_read ( pParser , buffer , sizeof ( buffer ) , & totalBytesRead ) ;
DRWAV_ASSERT ( pParser - > stage = = drwav__metadata_parser_stage_read ) ;
if ( bytesJustRead = = sizeof ( buffer ) ) {
drwav_uint32 sizeIncludingNullTerminator ;
pMetadata - > type = drwav_metadata_type_list_labelled_cue_region ;
pMetadata - > data . labelledCueRegion . cuePointId = drwav_bytes_to_u32 ( buffer + 0 ) ;
pMetadata - > data . labelledCueRegion . sampleLength = drwav_bytes_to_u32 ( buffer + 4 ) ;
pMetadata - > data . labelledCueRegion . purposeId [ 0 ] = buffer [ 8 ] ;
pMetadata - > data . labelledCueRegion . purposeId [ 1 ] = buffer [ 9 ] ;
pMetadata - > data . labelledCueRegion . purposeId [ 2 ] = buffer [ 10 ] ;
pMetadata - > data . labelledCueRegion . purposeId [ 3 ] = buffer [ 11 ] ;
pMetadata - > data . labelledCueRegion . country = drwav_bytes_to_u16 ( buffer + 12 ) ;
pMetadata - > data . labelledCueRegion . language = drwav_bytes_to_u16 ( buffer + 14 ) ;
pMetadata - > data . labelledCueRegion . dialect = drwav_bytes_to_u16 ( buffer + 16 ) ;
pMetadata - > data . labelledCueRegion . codePage = drwav_bytes_to_u16 ( buffer + 18 ) ;
sizeIncludingNullTerminator = ( drwav_uint32 ) chunkSize - DRWAV_LIST_LABELLED_TEXT_BYTES ;
if ( sizeIncludingNullTerminator > 0 ) {
pMetadata - > data . labelledCueRegion . stringLength = sizeIncludingNullTerminator - 1 ;
pMetadata - > data . labelledCueRegion . pString = ( char * ) drwav__metadata_get_memory ( pParser , sizeIncludingNullTerminator , 1 ) ;
DRWAV_ASSERT ( pMetadata - > data . labelledCueRegion . pString ! = NULL ) ;
drwav__metadata_parser_read ( pParser , pMetadata - > data . labelledCueRegion . pString , sizeIncludingNullTerminator , & totalBytesRead ) ;
} else {
pMetadata - > data . labelledCueRegion . stringLength = 0 ;
pMetadata - > data . labelledCueRegion . pString = NULL ;
}
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}
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return totalBytesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav__metadata_process_info_text_chunk ( drwav__metadata_parser * pParser , drwav_uint64 chunkSize , drwav_metadata_type type )
{
drwav_uint64 bytesRead = 0 ;
drwav_uint32 stringSizeWithNullTerminator = ( drwav_uint32 ) chunkSize ;
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if ( pParser - > stage = = drwav__metadata_parser_stage_count ) {
pParser - > metadataCount + = 1 ;
drwav__metadata_request_extra_memory_for_stage_2 ( pParser , stringSizeWithNullTerminator , 1 ) ;
} else {
drwav_metadata * pMetadata = & pParser - > pMetadata [ pParser - > metadataCursor ] ;
pMetadata - > type = type ;
if ( stringSizeWithNullTerminator > 0 ) {
pMetadata - > data . infoText . stringLength = stringSizeWithNullTerminator - 1 ;
pMetadata - > data . infoText . pString = ( char * ) drwav__metadata_get_memory ( pParser , stringSizeWithNullTerminator , 1 ) ;
DRWAV_ASSERT ( pMetadata - > data . infoText . pString ! = NULL ) ;
bytesRead = drwav__metadata_parser_read ( pParser , pMetadata - > data . infoText . pString , ( size_t ) stringSizeWithNullTerminator , NULL ) ;
if ( bytesRead = = chunkSize ) {
pParser - > metadataCursor + = 1 ;
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} else {
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/* Failed to parse. */
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}
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} else {
pMetadata - > data . infoText . stringLength = 0 ;
pMetadata - > data . infoText . pString = NULL ;
pParser - > metadataCursor + = 1 ;
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}
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}
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return bytesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav__metadata_process_unknown_chunk ( drwav__metadata_parser * pParser , const drwav_uint8 * pChunkId , drwav_uint64 chunkSize , drwav_metadata_location location )
{
drwav_uint64 bytesRead = 0 ;
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if ( location = = drwav_metadata_location_invalid ) {
return 0 ;
}
if ( drwav_fourcc_equal ( pChunkId , " data " ) | | drwav_fourcc_equal ( pChunkId , " fmt " ) | | drwav_fourcc_equal ( pChunkId , " fact " ) ) {
return 0 ;
}
if ( pParser - > stage = = drwav__metadata_parser_stage_count ) {
pParser - > metadataCount + = 1 ;
drwav__metadata_request_extra_memory_for_stage_2 ( pParser , ( size_t ) chunkSize , 1 ) ;
} else {
drwav_metadata * pMetadata = & pParser - > pMetadata [ pParser - > metadataCursor ] ;
pMetadata - > type = drwav_metadata_type_unknown ;
pMetadata - > data . unknown . chunkLocation = location ;
pMetadata - > data . unknown . id [ 0 ] = pChunkId [ 0 ] ;
pMetadata - > data . unknown . id [ 1 ] = pChunkId [ 1 ] ;
pMetadata - > data . unknown . id [ 2 ] = pChunkId [ 2 ] ;
pMetadata - > data . unknown . id [ 3 ] = pChunkId [ 3 ] ;
pMetadata - > data . unknown . dataSizeInBytes = ( drwav_uint32 ) chunkSize ;
pMetadata - > data . unknown . pData = ( drwav_uint8 * ) drwav__metadata_get_memory ( pParser , ( size_t ) chunkSize , 1 ) ;
DRWAV_ASSERT ( pMetadata - > data . unknown . pData ! = NULL ) ;
bytesRead = drwav__metadata_parser_read ( pParser , pMetadata - > data . unknown . pData , pMetadata - > data . unknown . dataSizeInBytes , NULL ) ;
if ( bytesRead = = pMetadata - > data . unknown . dataSizeInBytes ) {
pParser - > metadataCursor + = 1 ;
} else {
/* Failed to read. */
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}
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}
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return bytesRead ;
}
DRWAV_PRIVATE drwav_bool32 drwav__chunk_matches ( drwav_metadata_type allowedMetadataTypes , const drwav_uint8 * pChunkID , drwav_metadata_type type , const char * pID )
{
return ( allowedMetadataTypes & type ) & & drwav_fourcc_equal ( pChunkID , pID ) ;
}
DRWAV_PRIVATE drwav_uint64 drwav__metadata_process_chunk ( drwav__metadata_parser * pParser , const drwav_chunk_header * pChunkHeader , drwav_metadata_type allowedMetadataTypes )
{
const drwav_uint8 * pChunkID = pChunkHeader - > id . fourcc ;
drwav_uint64 bytesRead = 0 ;
if ( drwav__chunk_matches ( allowedMetadataTypes , pChunkID , drwav_metadata_type_smpl , " smpl " ) ) {
if ( pChunkHeader - > sizeInBytes > = DRWAV_SMPL_BYTES ) {
if ( pParser - > stage = = drwav__metadata_parser_stage_count ) {
drwav_uint8 buffer [ 4 ] ;
size_t bytesJustRead ;
if ( ! pParser - > onSeek ( pParser - > pReadSeekUserData , 28 , drwav_seek_origin_current ) ) {
return bytesRead ;
}
bytesRead + = 28 ;
bytesJustRead = drwav__metadata_parser_read ( pParser , buffer , sizeof ( buffer ) , & bytesRead ) ;
if ( bytesJustRead = = sizeof ( buffer ) ) {
drwav_uint32 loopCount = drwav_bytes_to_u32 ( buffer ) ;
drwav_uint64 calculatedLoopCount ;
/* The loop count must be validated against the size of the chunk. */
calculatedLoopCount = ( pChunkHeader - > sizeInBytes - DRWAV_SMPL_BYTES ) / DRWAV_SMPL_LOOP_BYTES ;
if ( calculatedLoopCount = = loopCount ) {
bytesJustRead = drwav__metadata_parser_read ( pParser , buffer , sizeof ( buffer ) , & bytesRead ) ;
if ( bytesJustRead = = sizeof ( buffer ) ) {
drwav_uint32 samplerSpecificDataSizeInBytes = drwav_bytes_to_u32 ( buffer ) ;
pParser - > metadataCount + = 1 ;
drwav__metadata_request_extra_memory_for_stage_2 ( pParser , sizeof ( drwav_smpl_loop ) * loopCount , DRWAV_METADATA_ALIGNMENT ) ;
drwav__metadata_request_extra_memory_for_stage_2 ( pParser , samplerSpecificDataSizeInBytes , 1 ) ;
}
} else {
/* Loop count in header does not match the size of the chunk. */
}
}
} else {
bytesRead = drwav__read_smpl_to_metadata_obj ( pParser , pChunkHeader , & pParser - > pMetadata [ pParser - > metadataCursor ] ) ;
if ( bytesRead = = pChunkHeader - > sizeInBytes ) {
pParser - > metadataCursor + = 1 ;
} else {
/* Failed to parse. */
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}
}
} else {
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/* Incorrectly formed chunk. */
}
} else if ( drwav__chunk_matches ( allowedMetadataTypes , pChunkID , drwav_metadata_type_inst , " inst " ) ) {
if ( pChunkHeader - > sizeInBytes = = DRWAV_INST_BYTES ) {
if ( pParser - > stage = = drwav__metadata_parser_stage_count ) {
pParser - > metadataCount + = 1 ;
} else {
bytesRead = drwav__read_inst_to_metadata_obj ( pParser , & pParser - > pMetadata [ pParser - > metadataCursor ] ) ;
if ( bytesRead = = pChunkHeader - > sizeInBytes ) {
pParser - > metadataCursor + = 1 ;
} else {
/* Failed to parse. */
}
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}
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} else {
/* Incorrectly formed chunk. */
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}
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} else if ( drwav__chunk_matches ( allowedMetadataTypes , pChunkID , drwav_metadata_type_acid , " acid " ) ) {
if ( pChunkHeader - > sizeInBytes = = DRWAV_ACID_BYTES ) {
if ( pParser - > stage = = drwav__metadata_parser_stage_count ) {
pParser - > metadataCount + = 1 ;
} else {
bytesRead = drwav__read_acid_to_metadata_obj ( pParser , & pParser - > pMetadata [ pParser - > metadataCursor ] ) ;
if ( bytesRead = = pChunkHeader - > sizeInBytes ) {
pParser - > metadataCursor + = 1 ;
} else {
/* Failed to parse. */
}
}
} else {
/* Incorrectly formed chunk. */
}
} else if ( drwav__chunk_matches ( allowedMetadataTypes , pChunkID , drwav_metadata_type_cue , " cue " ) ) {
if ( pChunkHeader - > sizeInBytes > = DRWAV_CUE_BYTES ) {
if ( pParser - > stage = = drwav__metadata_parser_stage_count ) {
size_t cueCount ;
pParser - > metadataCount + = 1 ;
cueCount = ( size_t ) ( pChunkHeader - > sizeInBytes - DRWAV_CUE_BYTES ) / DRWAV_CUE_POINT_BYTES ;
drwav__metadata_request_extra_memory_for_stage_2 ( pParser , sizeof ( drwav_cue_point ) * cueCount , DRWAV_METADATA_ALIGNMENT ) ;
} else {
bytesRead = drwav__read_cue_to_metadata_obj ( pParser , pChunkHeader , & pParser - > pMetadata [ pParser - > metadataCursor ] ) ;
if ( bytesRead = = pChunkHeader - > sizeInBytes ) {
pParser - > metadataCursor + = 1 ;
} else {
/* Failed to parse. */
}
}
} else {
/* Incorrectly formed chunk. */
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}
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} else if ( drwav__chunk_matches ( allowedMetadataTypes , pChunkID , drwav_metadata_type_bext , " bext " ) ) {
if ( pChunkHeader - > sizeInBytes > = DRWAV_BEXT_BYTES ) {
if ( pParser - > stage = = drwav__metadata_parser_stage_count ) {
/* The description field is the largest one in a bext chunk, so that is the max size of this temporary buffer. */
char buffer [ DRWAV_BEXT_DESCRIPTION_BYTES + 1 ] ;
size_t allocSizeNeeded = DRWAV_BEXT_UMID_BYTES ; /* We know we will need SMPTE umid size. */
size_t bytesJustRead ;
buffer [ DRWAV_BEXT_DESCRIPTION_BYTES ] = ' \0 ' ;
bytesJustRead = drwav__metadata_parser_read ( pParser , buffer , DRWAV_BEXT_DESCRIPTION_BYTES , & bytesRead ) ;
if ( bytesJustRead ! = DRWAV_BEXT_DESCRIPTION_BYTES ) {
return bytesRead ;
}
allocSizeNeeded + = drwav__strlen ( buffer ) + 1 ;
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buffer [ DRWAV_BEXT_ORIGINATOR_NAME_BYTES ] = ' \0 ' ;
bytesJustRead = drwav__metadata_parser_read ( pParser , buffer , DRWAV_BEXT_ORIGINATOR_NAME_BYTES , & bytesRead ) ;
if ( bytesJustRead ! = DRWAV_BEXT_ORIGINATOR_NAME_BYTES ) {
return bytesRead ;
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}
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allocSizeNeeded + = drwav__strlen ( buffer ) + 1 ;
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buffer [ DRWAV_BEXT_ORIGINATOR_REF_BYTES ] = ' \0 ' ;
bytesJustRead = drwav__metadata_parser_read ( pParser , buffer , DRWAV_BEXT_ORIGINATOR_REF_BYTES , & bytesRead ) ;
if ( bytesJustRead ! = DRWAV_BEXT_ORIGINATOR_REF_BYTES ) {
return bytesRead ;
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}
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allocSizeNeeded + = drwav__strlen ( buffer ) + 1 ;
allocSizeNeeded + = ( size_t ) pChunkHeader - > sizeInBytes - DRWAV_BEXT_BYTES ; /* Coding history. */
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drwav__metadata_request_extra_memory_for_stage_2 ( pParser , allocSizeNeeded , 1 ) ;
pParser - > metadataCount + = 1 ;
} else {
bytesRead = drwav__read_bext_to_metadata_obj ( pParser , & pParser - > pMetadata [ pParser - > metadataCursor ] , pChunkHeader - > sizeInBytes ) ;
if ( bytesRead = = pChunkHeader - > sizeInBytes ) {
pParser - > metadataCursor + = 1 ;
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} else {
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/* Failed to parse. */
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}
}
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} else {
/* Incorrectly formed chunk. */
}
} else if ( drwav_fourcc_equal ( pChunkID , " LIST " ) | | drwav_fourcc_equal ( pChunkID , " list " ) ) {
drwav_metadata_location listType = drwav_metadata_location_invalid ;
while ( bytesRead < pChunkHeader - > sizeInBytes ) {
drwav_uint8 subchunkId [ 4 ] ;
drwav_uint8 subchunkSizeBuffer [ 4 ] ;
drwav_uint64 subchunkDataSize ;
drwav_uint64 subchunkBytesRead = 0 ;
drwav_uint64 bytesJustRead = drwav__metadata_parser_read ( pParser , subchunkId , sizeof ( subchunkId ) , & bytesRead ) ;
if ( bytesJustRead ! = sizeof ( subchunkId ) ) {
break ;
}
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/*
The first thing in a list chunk should be " adtl " or " INFO " .
- adtl means this list is a Associated Data List Chunk and will contain labels , notes
or labelled cue regions .
- INFO means this list is an Info List Chunk containing info text chunks such as IPRD
which would specifies the album of this wav file .
No data follows the adtl or INFO id so we just make note of what type this list is and
continue .
*/
if ( drwav_fourcc_equal ( subchunkId , " adtl " ) ) {
listType = drwav_metadata_location_inside_adtl_list ;
continue ;
} else if ( drwav_fourcc_equal ( subchunkId , " INFO " ) ) {
listType = drwav_metadata_location_inside_info_list ;
continue ;
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}
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bytesJustRead = drwav__metadata_parser_read ( pParser , subchunkSizeBuffer , sizeof ( subchunkSizeBuffer ) , & bytesRead ) ;
if ( bytesJustRead ! = sizeof ( subchunkSizeBuffer ) ) {
break ;
}
subchunkDataSize = drwav_bytes_to_u32 ( subchunkSizeBuffer ) ;
if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_label , " labl " ) | | drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_note , " note " ) ) {
if ( subchunkDataSize > = DRWAV_LIST_LABEL_OR_NOTE_BYTES ) {
drwav_uint64 stringSizeWithNullTerm = subchunkDataSize - DRWAV_LIST_LABEL_OR_NOTE_BYTES ;
if ( pParser - > stage = = drwav__metadata_parser_stage_count ) {
pParser - > metadataCount + = 1 ;
drwav__metadata_request_extra_memory_for_stage_2 ( pParser , ( size_t ) stringSizeWithNullTerm , 1 ) ;
} else {
subchunkBytesRead = drwav__read_list_label_or_note_to_metadata_obj ( pParser , & pParser - > pMetadata [ pParser - > metadataCursor ] , subchunkDataSize , drwav_fourcc_equal ( subchunkId , " labl " ) ? drwav_metadata_type_list_label : drwav_metadata_type_list_note ) ;
if ( subchunkBytesRead = = subchunkDataSize ) {
pParser - > metadataCursor + = 1 ;
} else {
/* Failed to parse. */
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}
}
} else {
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/* Incorrectly formed chunk. */
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}
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} else if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_labelled_cue_region , " ltxt " ) ) {
if ( subchunkDataSize > = DRWAV_LIST_LABELLED_TEXT_BYTES ) {
drwav_uint64 stringSizeWithNullTerminator = subchunkDataSize - DRWAV_LIST_LABELLED_TEXT_BYTES ;
if ( pParser - > stage = = drwav__metadata_parser_stage_count ) {
pParser - > metadataCount + = 1 ;
drwav__metadata_request_extra_memory_for_stage_2 ( pParser , ( size_t ) stringSizeWithNullTerminator , 1 ) ;
} else {
subchunkBytesRead = drwav__read_list_labelled_cue_region_to_metadata_obj ( pParser , & pParser - > pMetadata [ pParser - > metadataCursor ] , subchunkDataSize ) ;
if ( subchunkBytesRead = = subchunkDataSize ) {
pParser - > metadataCursor + = 1 ;
} else {
/* Failed to parse. */
}
}
} else {
/* Incorrectly formed chunk. */
}
} else if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_info_software , " ISFT " ) ) {
subchunkBytesRead = drwav__metadata_process_info_text_chunk ( pParser , subchunkDataSize , drwav_metadata_type_list_info_software ) ;
} else if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_info_copyright , " ICOP " ) ) {
subchunkBytesRead = drwav__metadata_process_info_text_chunk ( pParser , subchunkDataSize , drwav_metadata_type_list_info_copyright ) ;
} else if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_info_title , " INAM " ) ) {
subchunkBytesRead = drwav__metadata_process_info_text_chunk ( pParser , subchunkDataSize , drwav_metadata_type_list_info_title ) ;
} else if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_info_artist , " IART " ) ) {
subchunkBytesRead = drwav__metadata_process_info_text_chunk ( pParser , subchunkDataSize , drwav_metadata_type_list_info_artist ) ;
} else if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_info_comment , " ICMT " ) ) {
subchunkBytesRead = drwav__metadata_process_info_text_chunk ( pParser , subchunkDataSize , drwav_metadata_type_list_info_comment ) ;
} else if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_info_date , " ICRD " ) ) {
subchunkBytesRead = drwav__metadata_process_info_text_chunk ( pParser , subchunkDataSize , drwav_metadata_type_list_info_date ) ;
} else if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_info_genre , " IGNR " ) ) {
subchunkBytesRead = drwav__metadata_process_info_text_chunk ( pParser , subchunkDataSize , drwav_metadata_type_list_info_genre ) ;
} else if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_info_album , " IPRD " ) ) {
subchunkBytesRead = drwav__metadata_process_info_text_chunk ( pParser , subchunkDataSize , drwav_metadata_type_list_info_album ) ;
} else if ( drwav__chunk_matches ( allowedMetadataTypes , subchunkId , drwav_metadata_type_list_info_tracknumber , " ITRK " ) ) {
subchunkBytesRead = drwav__metadata_process_info_text_chunk ( pParser , subchunkDataSize , drwav_metadata_type_list_info_tracknumber ) ;
} else if ( ( allowedMetadataTypes & drwav_metadata_type_unknown ) ! = 0 ) {
subchunkBytesRead = drwav__metadata_process_unknown_chunk ( pParser , subchunkId , subchunkDataSize , listType ) ;
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}
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bytesRead + = subchunkBytesRead ;
DRWAV_ASSERT ( subchunkBytesRead < = subchunkDataSize ) ;
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if ( subchunkBytesRead < subchunkDataSize ) {
drwav_uint64 bytesToSeek = subchunkDataSize - subchunkBytesRead ;
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if ( ! pParser - > onSeek ( pParser - > pReadSeekUserData , ( int ) bytesToSeek , drwav_seek_origin_current ) ) {
break ;
}
bytesRead + = bytesToSeek ;
}
if ( ( subchunkDataSize % 2 ) = = 1 ) {
if ( ! pParser - > onSeek ( pParser - > pReadSeekUserData , 1 , drwav_seek_origin_current ) ) {
break ;
}
bytesRead + = 1 ;
}
}
} else if ( ( allowedMetadataTypes & drwav_metadata_type_unknown ) ! = 0 ) {
bytesRead = drwav__metadata_process_unknown_chunk ( pParser , pChunkID , pChunkHeader - > sizeInBytes , drwav_metadata_location_top_level ) ;
}
return bytesRead ;
}
DRWAV_PRIVATE drwav_uint32 drwav_get_bytes_per_pcm_frame ( drwav * pWav )
{
drwav_uint32 bytesPerFrame ;
/*
The bytes per frame is a bit ambiguous . It can be either be based on the bits per sample , or the block align . The way I ' m doing it here
is that if the bits per sample is a multiple of 8 , use floor ( bitsPerSample * channels / 8 ) , otherwise fall back to the block align .
*/
if ( ( pWav - > bitsPerSample & 0x7 ) = = 0 ) {
/* Bits per sample is a multiple of 8. */
bytesPerFrame = ( pWav - > bitsPerSample * pWav - > fmt . channels ) > > 3 ;
} else {
bytesPerFrame = pWav - > fmt . blockAlign ;
}
/* Validation for known formats. a-law and mu-law should be 1 byte per channel. If it's not, it's not decodable. */
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ALAW | | pWav - > translatedFormatTag = = DR_WAVE_FORMAT_MULAW ) {
if ( bytesPerFrame ! = pWav - > fmt . channels ) {
return 0 ; /* Invalid file. */
}
}
return bytesPerFrame ;
}
DRWAV_API drwav_uint16 drwav_fmt_get_format ( const drwav_fmt * pFMT )
{
if ( pFMT = = NULL ) {
return 0 ;
}
if ( pFMT - > formatTag ! = DR_WAVE_FORMAT_EXTENSIBLE ) {
return pFMT - > formatTag ;
} else {
return drwav_bytes_to_u16 ( pFMT - > subFormat ) ; /* Only the first two bytes are required. */
}
}
DRWAV_PRIVATE drwav_bool32 drwav_preinit ( drwav * pWav , drwav_read_proc onRead , drwav_seek_proc onSeek , void * pReadSeekUserData , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( pWav = = NULL | | onRead = = NULL | | onSeek = = NULL ) {
return DRWAV_FALSE ;
}
DRWAV_ZERO_MEMORY ( pWav , sizeof ( * pWav ) ) ;
pWav - > onRead = onRead ;
pWav - > onSeek = onSeek ;
pWav - > pUserData = pReadSeekUserData ;
pWav - > allocationCallbacks = drwav_copy_allocation_callbacks_or_defaults ( pAllocationCallbacks ) ;
if ( pWav - > allocationCallbacks . onFree = = NULL | | ( pWav - > allocationCallbacks . onMalloc = = NULL & & pWav - > allocationCallbacks . onRealloc = = NULL ) ) {
return DRWAV_FALSE ; /* Invalid allocation callbacks. */
}
return DRWAV_TRUE ;
}
DRWAV_PRIVATE drwav_bool32 drwav_init__internal ( drwav * pWav , drwav_chunk_proc onChunk , void * pChunkUserData , drwav_uint32 flags )
{
/* This function assumes drwav_preinit() has been called beforehand. */
drwav_result result ;
drwav_uint64 cursor ; /* <-- Keeps track of the byte position so we can seek to specific locations. */
drwav_bool32 sequential ;
drwav_uint8 riff [ 4 ] ;
drwav_fmt fmt ;
unsigned short translatedFormatTag ;
drwav_uint64 dataChunkSize = 0 ; /* <-- Important! Don't explicitly set this to 0 anywhere else. Calculation of the size of the data chunk is performed in different paths depending on the container. */
drwav_uint64 sampleCountFromFactChunk = 0 ; /* Same as dataChunkSize - make sure this is the only place this is initialized to 0. */
drwav_uint64 metadataStartPos ;
drwav__metadata_parser metadataParser ;
drwav_bool8 isProcessingMetadata = DRWAV_FALSE ;
drwav_bool8 foundChunk_fmt = DRWAV_FALSE ;
drwav_bool8 foundChunk_data = DRWAV_FALSE ;
drwav_bool8 isAIFCFormType = DRWAV_FALSE ; /* Only used with AIFF. */
drwav_uint64 aiffFrameCount = 0 ;
cursor = 0 ;
sequential = ( flags & DRWAV_SEQUENTIAL ) ! = 0 ;
DRWAV_ZERO_OBJECT ( & fmt ) ;
/* The first 4 bytes should be the RIFF identifier. */
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , riff , sizeof ( riff ) , & cursor ) ! = sizeof ( riff ) ) {
return DRWAV_FALSE ;
}
/*
The first 4 bytes can be used to identify the container . For RIFF files it will start with " RIFF " and for
w64 it will start with " riff " .
*/
if ( drwav_fourcc_equal ( riff , " RIFF " ) ) {
pWav - > container = drwav_container_riff ;
} else if ( drwav_fourcc_equal ( riff , " RIFX " ) ) {
pWav - > container = drwav_container_rifx ;
} else if ( drwav_fourcc_equal ( riff , " riff " ) ) {
int i ;
drwav_uint8 riff2 [ 12 ] ;
pWav - > container = drwav_container_w64 ;
/* Check the rest of the GUID for validity. */
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , riff2 , sizeof ( riff2 ) , & cursor ) ! = sizeof ( riff2 ) ) {
return DRWAV_FALSE ;
}
for ( i = 0 ; i < 12 ; + + i ) {
if ( riff2 [ i ] ! = drwavGUID_W64_RIFF [ i + 4 ] ) {
return DRWAV_FALSE ;
}
}
} else if ( drwav_fourcc_equal ( riff , " RF64 " ) ) {
pWav - > container = drwav_container_rf64 ;
} else if ( drwav_fourcc_equal ( riff , " FORM " ) ) {
pWav - > container = drwav_container_aiff ;
} else {
return DRWAV_FALSE ; /* Unknown or unsupported container. */
}
if ( pWav - > container = = drwav_container_riff | | pWav - > container = = drwav_container_rifx | | pWav - > container = = drwav_container_rf64 ) {
drwav_uint8 chunkSizeBytes [ 4 ] ;
drwav_uint8 wave [ 4 ] ;
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , chunkSizeBytes , sizeof ( chunkSizeBytes ) , & cursor ) ! = sizeof ( chunkSizeBytes ) ) {
return DRWAV_FALSE ;
}
if ( pWav - > container = = drwav_container_riff | | pWav - > container = = drwav_container_rifx ) {
if ( drwav_bytes_to_u32_ex ( chunkSizeBytes , pWav - > container ) < 36 ) {
/*
I ' ve had a report of a WAV file failing to load when the size of the WAVE chunk is not encoded
and is instead just set to 0. I ' m going to relax the validation here to allow these files to
load . Considering the chunk size isn ' t actually used this should be safe . With this change my
test suite still passes .
*/
/*return DRWAV_FALSE;*/ /* Chunk size should always be at least 36 bytes. */
}
} else if ( pWav - > container = = drwav_container_rf64 ) {
if ( drwav_bytes_to_u32_le ( chunkSizeBytes ) ! = 0xFFFFFFFF ) {
return DRWAV_FALSE ; /* Chunk size should always be set to -1/0xFFFFFFFF for RF64. The actual size is retrieved later. */
}
} else {
return DRWAV_FALSE ; /* Should never hit this. */
}
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , wave , sizeof ( wave ) , & cursor ) ! = sizeof ( wave ) ) {
return DRWAV_FALSE ;
}
if ( ! drwav_fourcc_equal ( wave , " WAVE " ) ) {
return DRWAV_FALSE ; /* Expecting "WAVE". */
}
} else if ( pWav - > container = = drwav_container_w64 ) {
drwav_uint8 chunkSizeBytes [ 8 ] ;
drwav_uint8 wave [ 16 ] ;
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , chunkSizeBytes , sizeof ( chunkSizeBytes ) , & cursor ) ! = sizeof ( chunkSizeBytes ) ) {
return DRWAV_FALSE ;
}
if ( drwav_bytes_to_u64 ( chunkSizeBytes ) < 80 ) {
return DRWAV_FALSE ;
}
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , wave , sizeof ( wave ) , & cursor ) ! = sizeof ( wave ) ) {
return DRWAV_FALSE ;
}
if ( ! drwav_guid_equal ( wave , drwavGUID_W64_WAVE ) ) {
return DRWAV_FALSE ;
}
} else if ( pWav - > container = = drwav_container_aiff ) {
drwav_uint8 chunkSizeBytes [ 4 ] ;
drwav_uint8 aiff [ 4 ] ;
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , chunkSizeBytes , sizeof ( chunkSizeBytes ) , & cursor ) ! = sizeof ( chunkSizeBytes ) ) {
return DRWAV_FALSE ;
}
if ( drwav_bytes_to_u32_be ( chunkSizeBytes ) < 18 ) {
return DRWAV_FALSE ;
}
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , aiff , sizeof ( aiff ) , & cursor ) ! = sizeof ( aiff ) ) {
return DRWAV_FALSE ;
}
if ( drwav_fourcc_equal ( aiff , " AIFF " ) ) {
isAIFCFormType = DRWAV_FALSE ;
} else if ( drwav_fourcc_equal ( aiff , " AIFC " ) ) {
isAIFCFormType = DRWAV_TRUE ;
} else {
return DRWAV_FALSE ; /* Expecting "AIFF" or "AIFC". */
}
} else {
return DRWAV_FALSE ;
}
/* For RF64, the "ds64" chunk must come next, before the "fmt " chunk. */
if ( pWav - > container = = drwav_container_rf64 ) {
drwav_uint8 sizeBytes [ 8 ] ;
drwav_uint64 bytesRemainingInChunk ;
drwav_chunk_header header ;
result = drwav__read_chunk_header ( pWav - > onRead , pWav - > pUserData , pWav - > container , & cursor , & header ) ;
if ( result ! = DRWAV_SUCCESS ) {
return DRWAV_FALSE ;
}
if ( ! drwav_fourcc_equal ( header . id . fourcc , " ds64 " ) ) {
return DRWAV_FALSE ; /* Expecting "ds64". */
}
bytesRemainingInChunk = header . sizeInBytes + header . paddingSize ;
/* We don't care about the size of the RIFF chunk - skip it. */
if ( ! drwav__seek_forward ( pWav - > onSeek , 8 , pWav - > pUserData ) ) {
return DRWAV_FALSE ;
}
bytesRemainingInChunk - = 8 ;
cursor + = 8 ;
/* Next 8 bytes is the size of the "data" chunk. */
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , sizeBytes , sizeof ( sizeBytes ) , & cursor ) ! = sizeof ( sizeBytes ) ) {
return DRWAV_FALSE ;
}
bytesRemainingInChunk - = 8 ;
dataChunkSize = drwav_bytes_to_u64 ( sizeBytes ) ;
/* Next 8 bytes is the same count which we would usually derived from the FACT chunk if it was available. */
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , sizeBytes , sizeof ( sizeBytes ) , & cursor ) ! = sizeof ( sizeBytes ) ) {
return DRWAV_FALSE ;
}
bytesRemainingInChunk - = 8 ;
sampleCountFromFactChunk = drwav_bytes_to_u64 ( sizeBytes ) ;
/* Skip over everything else. */
if ( ! drwav__seek_forward ( pWav - > onSeek , bytesRemainingInChunk , pWav - > pUserData ) ) {
return DRWAV_FALSE ;
}
cursor + = bytesRemainingInChunk ;
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}
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metadataStartPos = cursor ;
/*
Whether or not we are processing metadata controls how we load . We can load more efficiently when
metadata is not being processed , but we also cannot process metadata for Wave64 because I have not
been able to test it . If someone is able to test this and provide a patch I ' m happy to enable it .
Seqential mode cannot support metadata because it involves seeking backwards .
*/
isProcessingMetadata = ! sequential & & ( ( flags & DRWAV_WITH_METADATA ) ! = 0 ) ;
/* Don't allow processing of metadata with untested containers. */
if ( pWav - > container ! = drwav_container_riff & & pWav - > container ! = drwav_container_rf64 ) {
isProcessingMetadata = DRWAV_FALSE ;
}
DRWAV_ZERO_MEMORY ( & metadataParser , sizeof ( metadataParser ) ) ;
if ( isProcessingMetadata ) {
metadataParser . onRead = pWav - > onRead ;
metadataParser . onSeek = pWav - > onSeek ;
metadataParser . pReadSeekUserData = pWav - > pUserData ;
metadataParser . stage = drwav__metadata_parser_stage_count ;
}
/*
From here on out , chunks might be in any order . In order to robustly handle metadata we ' ll need
to loop through every chunk and handle them as we find them . In sequential mode we need to get
out of the loop as soon as we find the data chunk because we won ' t be able to seek back .
*/
for ( ; ; ) { /* For each chunk... */
drwav_chunk_header header ;
drwav_uint64 chunkSize ;
result = drwav__read_chunk_header ( pWav - > onRead , pWav - > pUserData , pWav - > container , & cursor , & header ) ;
if ( result ! = DRWAV_SUCCESS ) {
break ;
}
chunkSize = header . sizeInBytes ;
/*
Always tell the caller about this chunk . We cannot do this in sequential mode because the
callback is allowed to read from the file , in which case we ' ll need to rewind .
*/
if ( ! sequential & & onChunk ! = NULL ) {
drwav_uint64 callbackBytesRead = onChunk ( pChunkUserData , pWav - > onRead , pWav - > onSeek , pWav - > pUserData , & header , pWav - > container , & fmt ) ;
/*
dr_wav may need to read the contents of the chunk , so we now need to seek back to the position before
we called the callback .
*/
if ( callbackBytesRead > 0 ) {
if ( drwav__seek_from_start ( pWav - > onSeek , cursor , pWav - > pUserData ) = = DRWAV_FALSE ) {
return DRWAV_FALSE ;
}
}
}
/* Explicitly handle known chunks first. */
/* "fmt " */
if ( ( ( pWav - > container = = drwav_container_riff | | pWav - > container = = drwav_container_rifx | | pWav - > container = = drwav_container_rf64 ) & & drwav_fourcc_equal ( header . id . fourcc , " fmt " ) ) | |
( ( pWav - > container = = drwav_container_w64 ) & & drwav_guid_equal ( header . id . guid , drwavGUID_W64_FMT ) ) ) {
drwav_uint8 fmtData [ 16 ] ;
foundChunk_fmt = DRWAV_TRUE ;
if ( pWav - > onRead ( pWav - > pUserData , fmtData , sizeof ( fmtData ) ) ! = sizeof ( fmtData ) ) {
return DRWAV_FALSE ;
}
cursor + = sizeof ( fmtData ) ;
fmt . formatTag = drwav_bytes_to_u16_ex ( fmtData + 0 , pWav - > container ) ;
fmt . channels = drwav_bytes_to_u16_ex ( fmtData + 2 , pWav - > container ) ;
fmt . sampleRate = drwav_bytes_to_u32_ex ( fmtData + 4 , pWav - > container ) ;
fmt . avgBytesPerSec = drwav_bytes_to_u32_ex ( fmtData + 8 , pWav - > container ) ;
fmt . blockAlign = drwav_bytes_to_u16_ex ( fmtData + 12 , pWav - > container ) ;
fmt . bitsPerSample = drwav_bytes_to_u16_ex ( fmtData + 14 , pWav - > container ) ;
fmt . extendedSize = 0 ;
fmt . validBitsPerSample = 0 ;
fmt . channelMask = 0 ;
DRWAV_ZERO_MEMORY ( fmt . subFormat , sizeof ( fmt . subFormat ) ) ;
if ( header . sizeInBytes > 16 ) {
drwav_uint8 fmt_cbSize [ 2 ] ;
int bytesReadSoFar = 0 ;
if ( pWav - > onRead ( pWav - > pUserData , fmt_cbSize , sizeof ( fmt_cbSize ) ) ! = sizeof ( fmt_cbSize ) ) {
return DRWAV_FALSE ; /* Expecting more data. */
}
cursor + = sizeof ( fmt_cbSize ) ;
bytesReadSoFar = 18 ;
fmt . extendedSize = drwav_bytes_to_u16_ex ( fmt_cbSize , pWav - > container ) ;
if ( fmt . extendedSize > 0 ) {
/* Simple validation. */
if ( fmt . formatTag = = DR_WAVE_FORMAT_EXTENSIBLE ) {
if ( fmt . extendedSize ! = 22 ) {
return DRWAV_FALSE ;
}
}
if ( fmt . formatTag = = DR_WAVE_FORMAT_EXTENSIBLE ) {
drwav_uint8 fmtext [ 22 ] ;
if ( pWav - > onRead ( pWav - > pUserData , fmtext , fmt . extendedSize ) ! = fmt . extendedSize ) {
return DRWAV_FALSE ; /* Expecting more data. */
}
fmt . validBitsPerSample = drwav_bytes_to_u16_ex ( fmtext + 0 , pWav - > container ) ;
fmt . channelMask = drwav_bytes_to_u32_ex ( fmtext + 2 , pWav - > container ) ;
drwav_bytes_to_guid ( fmtext + 6 , fmt . subFormat ) ;
} else {
if ( pWav - > onSeek ( pWav - > pUserData , fmt . extendedSize , drwav_seek_origin_current ) = = DRWAV_FALSE ) {
return DRWAV_FALSE ;
}
}
cursor + = fmt . extendedSize ;
bytesReadSoFar + = fmt . extendedSize ;
}
/* Seek past any leftover bytes. For w64 the leftover will be defined based on the chunk size. */
if ( pWav - > onSeek ( pWav - > pUserData , ( int ) ( header . sizeInBytes - bytesReadSoFar ) , drwav_seek_origin_current ) = = DRWAV_FALSE ) {
return DRWAV_FALSE ;
}
cursor + = ( header . sizeInBytes - bytesReadSoFar ) ;
}
if ( header . paddingSize > 0 ) {
if ( drwav__seek_forward ( pWav - > onSeek , header . paddingSize , pWav - > pUserData ) = = DRWAV_FALSE ) {
break ;
}
cursor + = header . paddingSize ;
}
/* Go to the next chunk. Don't include this chunk in metadata. */
continue ;
}
/* "data" */
if ( ( ( pWav - > container = = drwav_container_riff | | pWav - > container = = drwav_container_rifx | | pWav - > container = = drwav_container_rf64 ) & & drwav_fourcc_equal ( header . id . fourcc , " data " ) ) | |
( ( pWav - > container = = drwav_container_w64 ) & & drwav_guid_equal ( header . id . guid , drwavGUID_W64_DATA ) ) ) {
foundChunk_data = DRWAV_TRUE ;
pWav - > dataChunkDataPos = cursor ;
if ( pWav - > container ! = drwav_container_rf64 ) { /* The data chunk size for RF64 will always be set to 0xFFFFFFFF here. It was set to it's true value earlier. */
dataChunkSize = chunkSize ;
}
/* If we're running in sequential mode, or we're not reading metadata, we have enough now that we can get out of the loop. */
if ( sequential | | ! isProcessingMetadata ) {
break ; /* No need to keep reading beyond the data chunk. */
} else {
chunkSize + = header . paddingSize ; /* <-- Make sure we seek past the padding. */
if ( drwav__seek_forward ( pWav - > onSeek , chunkSize , pWav - > pUserData ) = = DRWAV_FALSE ) {
break ;
}
cursor + = chunkSize ;
continue ; /* There may be some more metadata to read. */
}
}
/* "fact". This is optional. Can use this to get the sample count which is useful for compressed formats. For RF64 we retrieved the sample count from the ds64 chunk earlier. */
if ( ( ( pWav - > container = = drwav_container_riff | | pWav - > container = = drwav_container_rifx | | pWav - > container = = drwav_container_rf64 ) & & drwav_fourcc_equal ( header . id . fourcc , " fact " ) ) | |
( ( pWav - > container = = drwav_container_w64 ) & & drwav_guid_equal ( header . id . guid , drwavGUID_W64_FACT ) ) ) {
if ( pWav - > container = = drwav_container_riff | | pWav - > container = = drwav_container_rifx ) {
drwav_uint8 sampleCount [ 4 ] ;
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , & sampleCount , 4 , & cursor ) ! = 4 ) {
return DRWAV_FALSE ;
}
chunkSize - = 4 ;
/*
The sample count in the " fact " chunk is either unreliable , or I ' m not understanding it properly . For now I am only enabling this
for Microsoft ADPCM formats .
*/
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ADPCM ) {
sampleCountFromFactChunk = drwav_bytes_to_u32_ex ( sampleCount , pWav - > container ) ;
} else {
sampleCountFromFactChunk = 0 ;
}
} else if ( pWav - > container = = drwav_container_w64 ) {
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , & sampleCountFromFactChunk , 8 , & cursor ) ! = 8 ) {
return DRWAV_FALSE ;
}
chunkSize - = 8 ;
} else if ( pWav - > container = = drwav_container_rf64 ) {
/* We retrieved the sample count from the ds64 chunk earlier so no need to do that here. */
}
/* Seek to the next chunk in preparation for the next iteration. */
chunkSize + = header . paddingSize ; /* <-- Make sure we seek past the padding. */
if ( drwav__seek_forward ( pWav - > onSeek , chunkSize , pWav - > pUserData ) = = DRWAV_FALSE ) {
break ;
}
cursor + = chunkSize ;
continue ;
}
/* "COMM". AIFF/AIFC only. */
if ( pWav - > container = = drwav_container_aiff & & drwav_fourcc_equal ( header . id . fourcc , " COMM " ) ) {
drwav_uint8 commData [ 24 ] ;
drwav_uint32 commDataBytesToRead ;
drwav_uint16 channels ;
drwav_uint32 frameCount ;
drwav_uint16 sampleSizeInBits ;
drwav_int64 sampleRate ;
drwav_uint16 compressionFormat ;
foundChunk_fmt = DRWAV_TRUE ;
if ( isAIFCFormType ) {
commDataBytesToRead = 24 ;
if ( header . sizeInBytes < commDataBytesToRead ) {
return DRWAV_FALSE ; /* Invalid COMM chunk. */
}
} else {
commDataBytesToRead = 18 ;
if ( header . sizeInBytes ! = commDataBytesToRead ) {
return DRWAV_FALSE ; /* INVALID COMM chunk. */
}
}
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , commData , commDataBytesToRead , & cursor ) ! = commDataBytesToRead ) {
return DRWAV_FALSE ;
}
channels = drwav_bytes_to_u16_ex ( commData + 0 , pWav - > container ) ;
frameCount = drwav_bytes_to_u32_ex ( commData + 2 , pWav - > container ) ;
sampleSizeInBits = drwav_bytes_to_u16_ex ( commData + 6 , pWav - > container ) ;
sampleRate = drwav_aiff_extented_to_s64 ( commData + 8 ) ;
if ( sampleRate < 0 | | sampleRate > 0xFFFFFFFF ) {
return DRWAV_FALSE ; /* Invalid sample rate. */
}
if ( isAIFCFormType ) {
const drwav_uint8 * type = commData + 18 ;
if ( drwav_fourcc_equal ( type , " NONE " ) ) {
compressionFormat = DR_WAVE_FORMAT_PCM ; /* PCM, big-endian. */
} else if ( drwav_fourcc_equal ( type , " raw " ) ) {
compressionFormat = DR_WAVE_FORMAT_PCM ;
/* In my testing, it looks like when the "raw " compression type is used, 8-bit samples should be considered unsigned. */
if ( sampleSizeInBits = = 8 ) {
pWav - > aiff . isUnsigned = DRWAV_TRUE ;
}
} else if ( drwav_fourcc_equal ( type , " sowt " ) ) {
compressionFormat = DR_WAVE_FORMAT_PCM ; /* PCM, little-endian. */
pWav - > aiff . isLE = DRWAV_TRUE ;
} else if ( drwav_fourcc_equal ( type , " fl32 " ) | | drwav_fourcc_equal ( type , " fl64 " ) | | drwav_fourcc_equal ( type , " FL32 " ) | | drwav_fourcc_equal ( type , " FL64 " ) ) {
compressionFormat = DR_WAVE_FORMAT_IEEE_FLOAT ;
} else if ( drwav_fourcc_equal ( type , " alaw " ) | | drwav_fourcc_equal ( type , " ALAW " ) ) {
compressionFormat = DR_WAVE_FORMAT_ALAW ;
} else if ( drwav_fourcc_equal ( type , " ulaw " ) | | drwav_fourcc_equal ( type , " ULAW " ) ) {
compressionFormat = DR_WAVE_FORMAT_MULAW ;
} else if ( drwav_fourcc_equal ( type , " ima4 " ) ) {
compressionFormat = DR_WAVE_FORMAT_DVI_ADPCM ;
sampleSizeInBits = 4 ;
/*
I haven ' t been able to figure out how to get correct decoding for IMA ADPCM . Until this is figured out
we ' ll need to abort when we encounter such an encoding . Advice welcome !
*/
return DRWAV_FALSE ;
} else {
return DRWAV_FALSE ; /* Unknown or unsupported compression format. Need to abort. */
}
} else {
compressionFormat = DR_WAVE_FORMAT_PCM ; /* It's a standard AIFF form which is always compressed. */
}
/* With AIFF we want to use the explicitly defined frame count rather than deriving it from the size of the chunk. */
aiffFrameCount = frameCount ;
/* We should now have enough information to fill out our fmt structure. */
fmt . formatTag = compressionFormat ;
fmt . channels = channels ;
fmt . sampleRate = ( drwav_uint32 ) sampleRate ;
fmt . bitsPerSample = sampleSizeInBits ;
fmt . blockAlign = ( drwav_uint16 ) ( fmt . channels * fmt . bitsPerSample / 8 ) ;
fmt . avgBytesPerSec = fmt . blockAlign * fmt . sampleRate ;
if ( fmt . blockAlign = = 0 & & compressionFormat = = DR_WAVE_FORMAT_DVI_ADPCM ) {
fmt . blockAlign = 34 * fmt . channels ;
}
/*
Weird one . I ' ve seen some alaw and ulaw encoded files that for some reason set the bits per sample to 16 when
it should be 8. To get this working I need to explicitly check for this and change it .
*/
if ( compressionFormat = = DR_WAVE_FORMAT_ALAW | | compressionFormat = = DR_WAVE_FORMAT_MULAW ) {
if ( fmt . bitsPerSample > 8 ) {
fmt . bitsPerSample = 8 ;
fmt . blockAlign = fmt . channels ;
}
}
/* In AIFF, samples are padded to 8 byte boundaries. We need to round up our bits per sample here. */
fmt . bitsPerSample + = ( fmt . bitsPerSample & 7 ) ;
/* If the form type is AIFC there will be some additional data in the chunk. We need to seek past it. */
if ( isAIFCFormType ) {
if ( drwav__seek_forward ( pWav - > onSeek , ( chunkSize - commDataBytesToRead ) , pWav - > pUserData ) = = DRWAV_FALSE ) {
return DRWAV_FALSE ;
}
cursor + = ( chunkSize - commDataBytesToRead ) ;
}
/* Don't fall through or else we'll end up treating this chunk as metadata which is incorrect. */
continue ;
}
/* "SSND". AIFF/AIFC only. This is the AIFF equivalent of the "data" chunk. */
if ( pWav - > container = = drwav_container_aiff & & drwav_fourcc_equal ( header . id . fourcc , " SSND " ) ) {
drwav_uint8 offsetAndBlockSizeData [ 8 ] ;
drwav_uint32 offset ;
foundChunk_data = DRWAV_TRUE ;
if ( drwav__on_read ( pWav - > onRead , pWav - > pUserData , offsetAndBlockSizeData , sizeof ( offsetAndBlockSizeData ) , & cursor ) ! = sizeof ( offsetAndBlockSizeData ) ) {
return DRWAV_FALSE ;
}
/* We need to seek forward by the offset. */
offset = drwav_bytes_to_u32_ex ( offsetAndBlockSizeData + 0 , pWav - > container ) ;
if ( drwav__seek_forward ( pWav - > onSeek , offset , pWav - > pUserData ) = = DRWAV_FALSE ) {
return DRWAV_FALSE ;
}
cursor + = offset ;
pWav - > dataChunkDataPos = cursor ;
dataChunkSize = chunkSize ;
/* If we're running in sequential mode, or we're not reading metadata, we have enough now that we can get out of the loop. */
if ( sequential | | ! isProcessingMetadata ) {
break ; /* No need to keep reading beyond the data chunk. */
} else {
if ( drwav__seek_forward ( pWav - > onSeek , chunkSize , pWav - > pUserData ) = = DRWAV_FALSE ) {
break ;
}
cursor + = chunkSize ;
continue ; /* There may be some more metadata to read. */
}
}
/* Getting here means it's not a chunk that we care about internally, but might need to be handled as metadata by the caller. */
if ( isProcessingMetadata ) {
drwav__metadata_process_chunk ( & metadataParser , & header , drwav_metadata_type_all_including_unknown ) ;
/* Go back to the start of the chunk so we can normalize the position of the cursor. */
if ( drwav__seek_from_start ( pWav - > onSeek , cursor , pWav - > pUserData ) = = DRWAV_FALSE ) {
break ; /* Failed to seek. Can't reliable read the remaining chunks. Get out. */
}
}
/* Make sure we skip past the content of this chunk before we go to the next one. */
chunkSize + = header . paddingSize ; /* <-- Make sure we seek past the padding. */
if ( drwav__seek_forward ( pWav - > onSeek , chunkSize , pWav - > pUserData ) = = DRWAV_FALSE ) {
break ;
}
cursor + = chunkSize ;
}
/* There's some mandatory chunks that must exist. If they were not found in the iteration above we must abort. */
if ( ! foundChunk_fmt | | ! foundChunk_data ) {
return DRWAV_FALSE ;
}
/* Basic validation. */
if ( ( fmt . sampleRate = = 0 | | fmt . sampleRate > DRWAV_MAX_SAMPLE_RATE ) | |
( fmt . channels = = 0 | | fmt . channels > DRWAV_MAX_CHANNELS ) | |
( fmt . bitsPerSample = = 0 | | fmt . bitsPerSample > DRWAV_MAX_BITS_PER_SAMPLE ) | |
fmt . blockAlign = = 0 ) {
return DRWAV_FALSE ; /* Probably an invalid WAV file. */
}
/* Translate the internal format. */
translatedFormatTag = fmt . formatTag ;
if ( translatedFormatTag = = DR_WAVE_FORMAT_EXTENSIBLE ) {
translatedFormatTag = drwav_bytes_to_u16_ex ( fmt . subFormat + 0 , pWav - > container ) ;
}
/* We may have moved passed the data chunk. If so we need to move back. If running in sequential mode we can assume we are already sitting on the data chunk. */
if ( ! sequential ) {
if ( ! drwav__seek_from_start ( pWav - > onSeek , pWav - > dataChunkDataPos , pWav - > pUserData ) ) {
return DRWAV_FALSE ;
}
cursor = pWav - > dataChunkDataPos ;
}
/*
At this point we should have done the initial parsing of each of our chunks , but we now need to
do a second pass to extract the actual contents of the metadata ( the first pass just calculated
the length of the memory allocation ) .
We only do this if we ' ve actually got metadata to parse .
*/
if ( isProcessingMetadata & & metadataParser . metadataCount > 0 ) {
if ( drwav__seek_from_start ( pWav - > onSeek , metadataStartPos , pWav - > pUserData ) = = DRWAV_FALSE ) {
return DRWAV_FALSE ;
}
result = drwav__metadata_alloc ( & metadataParser , & pWav - > allocationCallbacks ) ;
if ( result ! = DRWAV_SUCCESS ) {
return DRWAV_FALSE ;
}
metadataParser . stage = drwav__metadata_parser_stage_read ;
for ( ; ; ) {
drwav_chunk_header header ;
drwav_uint64 metadataBytesRead ;
result = drwav__read_chunk_header ( pWav - > onRead , pWav - > pUserData , pWav - > container , & cursor , & header ) ;
if ( result ! = DRWAV_SUCCESS ) {
break ;
}
metadataBytesRead = drwav__metadata_process_chunk ( & metadataParser , & header , drwav_metadata_type_all_including_unknown ) ;
/* Move to the end of the chunk so we can keep iterating. */
if ( drwav__seek_forward ( pWav - > onSeek , ( header . sizeInBytes + header . paddingSize ) - metadataBytesRead , pWav - > pUserData ) = = DRWAV_FALSE ) {
drwav_free ( metadataParser . pMetadata , & pWav - > allocationCallbacks ) ;
return DRWAV_FALSE ;
}
}
/* Getting here means we're finished parsing the metadata. */
pWav - > pMetadata = metadataParser . pMetadata ;
pWav - > metadataCount = metadataParser . metadataCount ;
}
/* At this point we should be sitting on the first byte of the raw audio data. */
/*
I ' ve seen a WAV file in the wild where a RIFF - ecapsulated file has the size of it ' s " RIFF " and
" data " chunks set to 0xFFFFFFFF when the file is definitely not that big . In this case we ' re
going to have to calculate the size by reading and discarding bytes , and then seeking back . We
cannot do this in sequential mode . We just assume that the rest of the file is audio data .
*/
if ( dataChunkSize = = 0xFFFFFFFF & & ( pWav - > container = = drwav_container_riff | | pWav - > container = = drwav_container_rifx ) & & pWav - > isSequentialWrite = = DRWAV_FALSE ) {
dataChunkSize = 0 ;
for ( ; ; ) {
drwav_uint8 temp [ 4096 ] ;
size_t bytesRead = pWav - > onRead ( pWav - > pUserData , temp , sizeof ( temp ) ) ;
dataChunkSize + = bytesRead ;
if ( bytesRead < sizeof ( temp ) ) {
break ;
}
2022-09-25 18:23:15 +00:00
}
}
2024-10-04 08:04:51 +00:00
if ( drwav__seek_from_start ( pWav - > onSeek , pWav - > dataChunkDataPos , pWav - > pUserData ) = = DRWAV_FALSE ) {
drwav_free ( pWav - > pMetadata , & pWav - > allocationCallbacks ) ;
return DRWAV_FALSE ;
}
2022-09-25 18:23:15 +00:00
pWav - > fmt = fmt ;
pWav - > sampleRate = fmt . sampleRate ;
pWav - > channels = fmt . channels ;
pWav - > bitsPerSample = fmt . bitsPerSample ;
pWav - > bytesRemaining = dataChunkSize ;
pWav - > translatedFormatTag = translatedFormatTag ;
pWav - > dataChunkDataSize = dataChunkSize ;
if ( sampleCountFromFactChunk ! = 0 ) {
pWav - > totalPCMFrameCount = sampleCountFromFactChunk ;
2024-10-04 08:04:51 +00:00
} else if ( aiffFrameCount ! = 0 ) {
pWav - > totalPCMFrameCount = aiffFrameCount ;
2022-09-25 18:23:15 +00:00
} else {
2024-10-04 08:04:51 +00:00
drwav_uint32 bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
drwav_free ( pWav - > pMetadata , & pWav - > allocationCallbacks ) ;
return DRWAV_FALSE ; /* Invalid file. */
}
pWav - > totalPCMFrameCount = dataChunkSize / bytesPerFrame ;
2022-09-25 18:23:15 +00:00
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ADPCM ) {
drwav_uint64 totalBlockHeaderSizeInBytes ;
drwav_uint64 blockCount = dataChunkSize / fmt . blockAlign ;
/* Make sure any trailing partial block is accounted for. */
if ( ( blockCount * fmt . blockAlign ) < dataChunkSize ) {
blockCount + = 1 ;
}
/* We decode two samples per byte. There will be blockCount headers in the data chunk. This is enough to know how to calculate the total PCM frame count. */
totalBlockHeaderSizeInBytes = blockCount * ( 6 * fmt . channels ) ;
pWav - > totalPCMFrameCount = ( ( dataChunkSize - totalBlockHeaderSizeInBytes ) * 2 ) / fmt . channels ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_DVI_ADPCM ) {
drwav_uint64 totalBlockHeaderSizeInBytes ;
drwav_uint64 blockCount = dataChunkSize / fmt . blockAlign ;
/* Make sure any trailing partial block is accounted for. */
if ( ( blockCount * fmt . blockAlign ) < dataChunkSize ) {
blockCount + = 1 ;
}
2024-10-04 08:04:51 +00:00
/* We decode two samples per byte. There will be blockCount headers in the data chunk. This is enough to know how to calculate the total PCM frame count. */
totalBlockHeaderSizeInBytes = blockCount * ( 4 * fmt . channels ) ;
pWav - > totalPCMFrameCount = ( ( dataChunkSize - totalBlockHeaderSizeInBytes ) * 2 ) / fmt . channels ;
/* The header includes a decoded sample for each channel which acts as the initial predictor sample. */
pWav - > totalPCMFrameCount + = blockCount ;
}
}
/* Some formats only support a certain number of channels. */
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ADPCM | | pWav - > translatedFormatTag = = DR_WAVE_FORMAT_DVI_ADPCM ) {
if ( pWav - > channels > 2 ) {
drwav_free ( pWav - > pMetadata , & pWav - > allocationCallbacks ) ;
return DRWAV_FALSE ;
}
}
/* The number of bytes per frame must be known. If not, it's an invalid file and not decodable. */
if ( drwav_get_bytes_per_pcm_frame ( pWav ) = = 0 ) {
drwav_free ( pWav - > pMetadata , & pWav - > allocationCallbacks ) ;
return DRWAV_FALSE ;
}
# ifdef DR_WAV_LIBSNDFILE_COMPAT
/*
I use libsndfile as a benchmark for testing , however in the version I ' m using ( from the Windows installer on the libsndfile website ) ,
it appears the total sample count libsndfile uses for MS - ADPCM is incorrect . It would seem they are computing the total sample count
from the number of blocks , however this results in the inclusion of extra silent samples at the end of the last block . The correct
way to know the total sample count is to inspect the " fact " chunk , which should always be present for compressed formats , and should
always include the sample count . This little block of code below is only used to emulate the libsndfile logic so I can properly run my
correctness tests against libsndfile , and is disabled by default .
*/
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ADPCM ) {
drwav_uint64 blockCount = dataChunkSize / fmt . blockAlign ;
pWav - > totalPCMFrameCount = ( ( ( blockCount * ( fmt . blockAlign - ( 6 * pWav - > channels ) ) ) * 2 ) ) / fmt . channels ; /* x2 because two samples per byte. */
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_DVI_ADPCM ) {
drwav_uint64 blockCount = dataChunkSize / fmt . blockAlign ;
pWav - > totalPCMFrameCount = ( ( ( blockCount * ( fmt . blockAlign - ( 4 * pWav - > channels ) ) ) * 2 ) + ( blockCount * pWav - > channels ) ) / fmt . channels ;
}
# endif
return DRWAV_TRUE ;
}
DRWAV_API drwav_bool32 drwav_init ( drwav * pWav , drwav_read_proc onRead , drwav_seek_proc onSeek , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks )
{
return drwav_init_ex ( pWav , onRead , onSeek , NULL , pUserData , NULL , 0 , pAllocationCallbacks ) ;
}
DRWAV_API drwav_bool32 drwav_init_ex ( drwav * pWav , drwav_read_proc onRead , drwav_seek_proc onSeek , drwav_chunk_proc onChunk , void * pReadSeekUserData , void * pChunkUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( ! drwav_preinit ( pWav , onRead , onSeek , pReadSeekUserData , pAllocationCallbacks ) ) {
return DRWAV_FALSE ;
}
return drwav_init__internal ( pWav , onChunk , pChunkUserData , flags ) ;
}
DRWAV_API drwav_bool32 drwav_init_with_metadata ( drwav * pWav , drwav_read_proc onRead , drwav_seek_proc onSeek , void * pUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( ! drwav_preinit ( pWav , onRead , onSeek , pUserData , pAllocationCallbacks ) ) {
return DRWAV_FALSE ;
}
return drwav_init__internal ( pWav , NULL , NULL , flags | DRWAV_WITH_METADATA ) ;
}
DRWAV_API drwav_metadata * drwav_take_ownership_of_metadata ( drwav * pWav )
{
drwav_metadata * result = pWav - > pMetadata ;
pWav - > pMetadata = NULL ;
pWav - > metadataCount = 0 ;
return result ;
}
DRWAV_PRIVATE size_t drwav__write ( drwav * pWav , const void * pData , size_t dataSize )
{
DRWAV_ASSERT ( pWav ! = NULL ) ;
DRWAV_ASSERT ( pWav - > onWrite ! = NULL ) ;
/* Generic write. Assumes no byte reordering required. */
return pWav - > onWrite ( pWav - > pUserData , pData , dataSize ) ;
}
DRWAV_PRIVATE size_t drwav__write_byte ( drwav * pWav , drwav_uint8 byte )
{
DRWAV_ASSERT ( pWav ! = NULL ) ;
DRWAV_ASSERT ( pWav - > onWrite ! = NULL ) ;
return pWav - > onWrite ( pWav - > pUserData , & byte , 1 ) ;
}
DRWAV_PRIVATE size_t drwav__write_u16ne_to_le ( drwav * pWav , drwav_uint16 value )
{
DRWAV_ASSERT ( pWav ! = NULL ) ;
DRWAV_ASSERT ( pWav - > onWrite ! = NULL ) ;
if ( ! drwav__is_little_endian ( ) ) {
value = drwav__bswap16 ( value ) ;
}
return drwav__write ( pWav , & value , 2 ) ;
}
DRWAV_PRIVATE size_t drwav__write_u32ne_to_le ( drwav * pWav , drwav_uint32 value )
{
DRWAV_ASSERT ( pWav ! = NULL ) ;
DRWAV_ASSERT ( pWav - > onWrite ! = NULL ) ;
if ( ! drwav__is_little_endian ( ) ) {
value = drwav__bswap32 ( value ) ;
}
return drwav__write ( pWav , & value , 4 ) ;
}
DRWAV_PRIVATE size_t drwav__write_u64ne_to_le ( drwav * pWav , drwav_uint64 value )
{
DRWAV_ASSERT ( pWav ! = NULL ) ;
DRWAV_ASSERT ( pWav - > onWrite ! = NULL ) ;
if ( ! drwav__is_little_endian ( ) ) {
value = drwav__bswap64 ( value ) ;
}
return drwav__write ( pWav , & value , 8 ) ;
}
DRWAV_PRIVATE size_t drwav__write_f32ne_to_le ( drwav * pWav , float value )
{
union {
drwav_uint32 u32 ;
float f32 ;
} u ;
DRWAV_ASSERT ( pWav ! = NULL ) ;
DRWAV_ASSERT ( pWav - > onWrite ! = NULL ) ;
u . f32 = value ;
if ( ! drwav__is_little_endian ( ) ) {
u . u32 = drwav__bswap32 ( u . u32 ) ;
}
return drwav__write ( pWav , & u . u32 , 4 ) ;
}
DRWAV_PRIVATE size_t drwav__write_or_count ( drwav * pWav , const void * pData , size_t dataSize )
{
if ( pWav = = NULL ) {
return dataSize ;
}
return drwav__write ( pWav , pData , dataSize ) ;
}
DRWAV_PRIVATE size_t drwav__write_or_count_byte ( drwav * pWav , drwav_uint8 byte )
{
if ( pWav = = NULL ) {
return 1 ;
}
return drwav__write_byte ( pWav , byte ) ;
}
DRWAV_PRIVATE size_t drwav__write_or_count_u16ne_to_le ( drwav * pWav , drwav_uint16 value )
{
if ( pWav = = NULL ) {
return 2 ;
}
return drwav__write_u16ne_to_le ( pWav , value ) ;
}
DRWAV_PRIVATE size_t drwav__write_or_count_u32ne_to_le ( drwav * pWav , drwav_uint32 value )
{
if ( pWav = = NULL ) {
return 4 ;
}
return drwav__write_u32ne_to_le ( pWav , value ) ;
}
#if 0 /* Unused for now. */
DRWAV_PRIVATE size_t drwav__write_or_count_u64ne_to_le ( drwav * pWav , drwav_uint64 value )
{
if ( pWav = = NULL ) {
return 8 ;
}
return drwav__write_u64ne_to_le ( pWav , value ) ;
}
# endif
DRWAV_PRIVATE size_t drwav__write_or_count_f32ne_to_le ( drwav * pWav , float value )
{
if ( pWav = = NULL ) {
return 4 ;
}
return drwav__write_f32ne_to_le ( pWav , value ) ;
}
DRWAV_PRIVATE size_t drwav__write_or_count_string_to_fixed_size_buf ( drwav * pWav , char * str , size_t bufFixedSize )
{
size_t len ;
if ( pWav = = NULL ) {
return bufFixedSize ;
}
len = drwav__strlen_clamped ( str , bufFixedSize ) ;
drwav__write_or_count ( pWav , str , len ) ;
if ( len < bufFixedSize ) {
size_t i ;
for ( i = 0 ; i < bufFixedSize - len ; + + i ) {
drwav__write_byte ( pWav , 0 ) ;
}
}
return bufFixedSize ;
}
/* pWav can be NULL meaning just count the bytes that would be written. */
DRWAV_PRIVATE size_t drwav__write_or_count_metadata ( drwav * pWav , drwav_metadata * pMetadatas , drwav_uint32 metadataCount )
{
size_t bytesWritten = 0 ;
drwav_bool32 hasListAdtl = DRWAV_FALSE ;
drwav_bool32 hasListInfo = DRWAV_FALSE ;
drwav_uint32 iMetadata ;
if ( pMetadatas = = NULL | | metadataCount = = 0 ) {
return 0 ;
}
for ( iMetadata = 0 ; iMetadata < metadataCount ; + + iMetadata ) {
drwav_metadata * pMetadata = & pMetadatas [ iMetadata ] ;
drwav_uint32 chunkSize = 0 ;
if ( ( pMetadata - > type & drwav_metadata_type_list_all_info_strings ) | | ( pMetadata - > type = = drwav_metadata_type_unknown & & pMetadata - > data . unknown . chunkLocation = = drwav_metadata_location_inside_info_list ) ) {
hasListInfo = DRWAV_TRUE ;
}
if ( ( pMetadata - > type & drwav_metadata_type_list_all_adtl ) | | ( pMetadata - > type = = drwav_metadata_type_unknown & & pMetadata - > data . unknown . chunkLocation = = drwav_metadata_location_inside_adtl_list ) ) {
hasListAdtl = DRWAV_TRUE ;
}
switch ( pMetadata - > type ) {
case drwav_metadata_type_smpl :
{
drwav_uint32 iLoop ;
chunkSize = DRWAV_SMPL_BYTES + DRWAV_SMPL_LOOP_BYTES * pMetadata - > data . smpl . sampleLoopCount + pMetadata - > data . smpl . samplerSpecificDataSizeInBytes ;
bytesWritten + = drwav__write_or_count ( pWav , " smpl " , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , chunkSize ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . manufacturerId ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . productId ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . samplePeriodNanoseconds ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . midiUnityNote ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . midiPitchFraction ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . smpteFormat ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . smpteOffset ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . sampleLoopCount ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . samplerSpecificDataSizeInBytes ) ;
for ( iLoop = 0 ; iLoop < pMetadata - > data . smpl . sampleLoopCount ; + + iLoop ) {
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . pLoops [ iLoop ] . cuePointId ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . pLoops [ iLoop ] . type ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . pLoops [ iLoop ] . firstSampleByteOffset ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . pLoops [ iLoop ] . lastSampleByteOffset ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . pLoops [ iLoop ] . sampleFraction ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . smpl . pLoops [ iLoop ] . playCount ) ;
}
if ( pMetadata - > data . smpl . samplerSpecificDataSizeInBytes > 0 ) {
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . smpl . pSamplerSpecificData , pMetadata - > data . smpl . samplerSpecificDataSizeInBytes ) ;
}
} break ;
case drwav_metadata_type_inst :
{
chunkSize = DRWAV_INST_BYTES ;
bytesWritten + = drwav__write_or_count ( pWav , " inst " , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , chunkSize ) ;
bytesWritten + = drwav__write_or_count ( pWav , & pMetadata - > data . inst . midiUnityNote , 1 ) ;
bytesWritten + = drwav__write_or_count ( pWav , & pMetadata - > data . inst . fineTuneCents , 1 ) ;
bytesWritten + = drwav__write_or_count ( pWav , & pMetadata - > data . inst . gainDecibels , 1 ) ;
bytesWritten + = drwav__write_or_count ( pWav , & pMetadata - > data . inst . lowNote , 1 ) ;
bytesWritten + = drwav__write_or_count ( pWav , & pMetadata - > data . inst . highNote , 1 ) ;
bytesWritten + = drwav__write_or_count ( pWav , & pMetadata - > data . inst . lowVelocity , 1 ) ;
bytesWritten + = drwav__write_or_count ( pWav , & pMetadata - > data . inst . highVelocity , 1 ) ;
} break ;
case drwav_metadata_type_cue :
{
drwav_uint32 iCuePoint ;
chunkSize = DRWAV_CUE_BYTES + DRWAV_CUE_POINT_BYTES * pMetadata - > data . cue . cuePointCount ;
bytesWritten + = drwav__write_or_count ( pWav , " cue " , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , chunkSize ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . cue . cuePointCount ) ;
for ( iCuePoint = 0 ; iCuePoint < pMetadata - > data . cue . cuePointCount ; + + iCuePoint ) {
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . cue . pCuePoints [ iCuePoint ] . id ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . cue . pCuePoints [ iCuePoint ] . playOrderPosition ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . cue . pCuePoints [ iCuePoint ] . dataChunkId , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . cue . pCuePoints [ iCuePoint ] . chunkStart ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . cue . pCuePoints [ iCuePoint ] . blockStart ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . cue . pCuePoints [ iCuePoint ] . sampleByteOffset ) ;
}
} break ;
case drwav_metadata_type_acid :
{
chunkSize = DRWAV_ACID_BYTES ;
bytesWritten + = drwav__write_or_count ( pWav , " acid " , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , chunkSize ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . acid . flags ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . acid . midiUnityNote ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . acid . reserved1 ) ;
bytesWritten + = drwav__write_or_count_f32ne_to_le ( pWav , pMetadata - > data . acid . reserved2 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . acid . numBeats ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . acid . meterDenominator ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . acid . meterNumerator ) ;
bytesWritten + = drwav__write_or_count_f32ne_to_le ( pWav , pMetadata - > data . acid . tempo ) ;
} break ;
case drwav_metadata_type_bext :
{
char reservedBuf [ DRWAV_BEXT_RESERVED_BYTES ] ;
drwav_uint32 timeReferenceLow ;
drwav_uint32 timeReferenceHigh ;
chunkSize = DRWAV_BEXT_BYTES + pMetadata - > data . bext . codingHistorySize ;
bytesWritten + = drwav__write_or_count ( pWav , " bext " , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , chunkSize ) ;
bytesWritten + = drwav__write_or_count_string_to_fixed_size_buf ( pWav , pMetadata - > data . bext . pDescription , DRWAV_BEXT_DESCRIPTION_BYTES ) ;
bytesWritten + = drwav__write_or_count_string_to_fixed_size_buf ( pWav , pMetadata - > data . bext . pOriginatorName , DRWAV_BEXT_ORIGINATOR_NAME_BYTES ) ;
bytesWritten + = drwav__write_or_count_string_to_fixed_size_buf ( pWav , pMetadata - > data . bext . pOriginatorReference , DRWAV_BEXT_ORIGINATOR_REF_BYTES ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . bext . pOriginationDate , sizeof ( pMetadata - > data . bext . pOriginationDate ) ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . bext . pOriginationTime , sizeof ( pMetadata - > data . bext . pOriginationTime ) ) ;
timeReferenceLow = ( drwav_uint32 ) ( pMetadata - > data . bext . timeReference & 0xFFFFFFFF ) ;
timeReferenceHigh = ( drwav_uint32 ) ( pMetadata - > data . bext . timeReference > > 32 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , timeReferenceLow ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , timeReferenceHigh ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . bext . version ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . bext . pUMID , DRWAV_BEXT_UMID_BYTES ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . bext . loudnessValue ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . bext . loudnessRange ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . bext . maxTruePeakLevel ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . bext . maxMomentaryLoudness ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . bext . maxShortTermLoudness ) ;
DRWAV_ZERO_MEMORY ( reservedBuf , sizeof ( reservedBuf ) ) ;
bytesWritten + = drwav__write_or_count ( pWav , reservedBuf , sizeof ( reservedBuf ) ) ;
if ( pMetadata - > data . bext . codingHistorySize > 0 ) {
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . bext . pCodingHistory , pMetadata - > data . bext . codingHistorySize ) ;
}
} break ;
case drwav_metadata_type_unknown :
{
if ( pMetadata - > data . unknown . chunkLocation = = drwav_metadata_location_top_level ) {
chunkSize = pMetadata - > data . unknown . dataSizeInBytes ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . unknown . id , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , chunkSize ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . unknown . pData , pMetadata - > data . unknown . dataSizeInBytes ) ;
}
} break ;
default : break ;
}
if ( ( chunkSize % 2 ) ! = 0 ) {
bytesWritten + = drwav__write_or_count_byte ( pWav , 0 ) ;
}
}
if ( hasListInfo ) {
drwav_uint32 chunkSize = 4 ; /* Start with 4 bytes for "INFO". */
for ( iMetadata = 0 ; iMetadata < metadataCount ; + + iMetadata ) {
drwav_metadata * pMetadata = & pMetadatas [ iMetadata ] ;
if ( ( pMetadata - > type & drwav_metadata_type_list_all_info_strings ) ) {
chunkSize + = 8 ; /* For id and string size. */
chunkSize + = pMetadata - > data . infoText . stringLength + 1 ; /* Include null terminator. */
} else if ( pMetadata - > type = = drwav_metadata_type_unknown & & pMetadata - > data . unknown . chunkLocation = = drwav_metadata_location_inside_info_list ) {
chunkSize + = 8 ; /* For id string size. */
chunkSize + = pMetadata - > data . unknown . dataSizeInBytes ;
}
if ( ( chunkSize % 2 ) ! = 0 ) {
chunkSize + = 1 ;
}
}
bytesWritten + = drwav__write_or_count ( pWav , " LIST " , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , chunkSize ) ;
bytesWritten + = drwav__write_or_count ( pWav , " INFO " , 4 ) ;
for ( iMetadata = 0 ; iMetadata < metadataCount ; + + iMetadata ) {
drwav_metadata * pMetadata = & pMetadatas [ iMetadata ] ;
drwav_uint32 subchunkSize = 0 ;
if ( pMetadata - > type & drwav_metadata_type_list_all_info_strings ) {
const char * pID = NULL ;
switch ( pMetadata - > type ) {
case drwav_metadata_type_list_info_software : pID = " ISFT " ; break ;
case drwav_metadata_type_list_info_copyright : pID = " ICOP " ; break ;
case drwav_metadata_type_list_info_title : pID = " INAM " ; break ;
case drwav_metadata_type_list_info_artist : pID = " IART " ; break ;
case drwav_metadata_type_list_info_comment : pID = " ICMT " ; break ;
case drwav_metadata_type_list_info_date : pID = " ICRD " ; break ;
case drwav_metadata_type_list_info_genre : pID = " IGNR " ; break ;
case drwav_metadata_type_list_info_album : pID = " IPRD " ; break ;
case drwav_metadata_type_list_info_tracknumber : pID = " ITRK " ; break ;
default : break ;
}
DRWAV_ASSERT ( pID ! = NULL ) ;
if ( pMetadata - > data . infoText . stringLength ) {
subchunkSize = pMetadata - > data . infoText . stringLength + 1 ;
bytesWritten + = drwav__write_or_count ( pWav , pID , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , subchunkSize ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . infoText . pString , pMetadata - > data . infoText . stringLength ) ;
bytesWritten + = drwav__write_or_count_byte ( pWav , ' \0 ' ) ;
}
} else if ( pMetadata - > type = = drwav_metadata_type_unknown & & pMetadata - > data . unknown . chunkLocation = = drwav_metadata_location_inside_info_list ) {
if ( pMetadata - > data . unknown . dataSizeInBytes ) {
subchunkSize = pMetadata - > data . unknown . dataSizeInBytes ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . unknown . id , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . unknown . dataSizeInBytes ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . unknown . pData , subchunkSize ) ;
}
}
if ( ( subchunkSize % 2 ) ! = 0 ) {
bytesWritten + = drwav__write_or_count_byte ( pWav , 0 ) ;
}
}
}
if ( hasListAdtl ) {
drwav_uint32 chunkSize = 4 ; /* start with 4 bytes for "adtl" */
for ( iMetadata = 0 ; iMetadata < metadataCount ; + + iMetadata ) {
drwav_metadata * pMetadata = & pMetadatas [ iMetadata ] ;
switch ( pMetadata - > type )
{
case drwav_metadata_type_list_label :
case drwav_metadata_type_list_note :
{
chunkSize + = 8 ; /* for id and chunk size */
chunkSize + = DRWAV_LIST_LABEL_OR_NOTE_BYTES ;
if ( pMetadata - > data . labelOrNote . stringLength > 0 ) {
chunkSize + = pMetadata - > data . labelOrNote . stringLength + 1 ;
}
} break ;
case drwav_metadata_type_list_labelled_cue_region :
{
chunkSize + = 8 ; /* for id and chunk size */
chunkSize + = DRWAV_LIST_LABELLED_TEXT_BYTES ;
if ( pMetadata - > data . labelledCueRegion . stringLength > 0 ) {
chunkSize + = pMetadata - > data . labelledCueRegion . stringLength + 1 ;
}
} break ;
case drwav_metadata_type_unknown :
{
if ( pMetadata - > data . unknown . chunkLocation = = drwav_metadata_location_inside_adtl_list ) {
chunkSize + = 8 ; /* for id and chunk size */
chunkSize + = pMetadata - > data . unknown . dataSizeInBytes ;
}
} break ;
default : break ;
}
if ( ( chunkSize % 2 ) ! = 0 ) {
chunkSize + = 1 ;
}
}
bytesWritten + = drwav__write_or_count ( pWav , " LIST " , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , chunkSize ) ;
bytesWritten + = drwav__write_or_count ( pWav , " adtl " , 4 ) ;
for ( iMetadata = 0 ; iMetadata < metadataCount ; + + iMetadata ) {
drwav_metadata * pMetadata = & pMetadatas [ iMetadata ] ;
drwav_uint32 subchunkSize = 0 ;
switch ( pMetadata - > type )
{
case drwav_metadata_type_list_label :
case drwav_metadata_type_list_note :
{
if ( pMetadata - > data . labelOrNote . stringLength > 0 ) {
const char * pID = NULL ;
if ( pMetadata - > type = = drwav_metadata_type_list_label ) {
pID = " labl " ;
}
else if ( pMetadata - > type = = drwav_metadata_type_list_note ) {
pID = " note " ;
}
DRWAV_ASSERT ( pID ! = NULL ) ;
DRWAV_ASSERT ( pMetadata - > data . labelOrNote . pString ! = NULL ) ;
subchunkSize = DRWAV_LIST_LABEL_OR_NOTE_BYTES ;
bytesWritten + = drwav__write_or_count ( pWav , pID , 4 ) ;
subchunkSize + = pMetadata - > data . labelOrNote . stringLength + 1 ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , subchunkSize ) ;
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bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . labelOrNote . cuePointId ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . labelOrNote . pString , pMetadata - > data . labelOrNote . stringLength ) ;
bytesWritten + = drwav__write_or_count_byte ( pWav , ' \0 ' ) ;
}
} break ;
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case drwav_metadata_type_list_labelled_cue_region :
{
subchunkSize = DRWAV_LIST_LABELLED_TEXT_BYTES ;
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bytesWritten + = drwav__write_or_count ( pWav , " ltxt " , 4 ) ;
if ( pMetadata - > data . labelledCueRegion . stringLength > 0 ) {
subchunkSize + = pMetadata - > data . labelledCueRegion . stringLength + 1 ;
}
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , subchunkSize ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . labelledCueRegion . cuePointId ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , pMetadata - > data . labelledCueRegion . sampleLength ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . labelledCueRegion . purposeId , 4 ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . labelledCueRegion . country ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . labelledCueRegion . language ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . labelledCueRegion . dialect ) ;
bytesWritten + = drwav__write_or_count_u16ne_to_le ( pWav , pMetadata - > data . labelledCueRegion . codePage ) ;
if ( pMetadata - > data . labelledCueRegion . stringLength > 0 ) {
DRWAV_ASSERT ( pMetadata - > data . labelledCueRegion . pString ! = NULL ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . labelledCueRegion . pString , pMetadata - > data . labelledCueRegion . stringLength ) ;
bytesWritten + = drwav__write_or_count_byte ( pWav , ' \0 ' ) ;
}
} break ;
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case drwav_metadata_type_unknown :
{
if ( pMetadata - > data . unknown . chunkLocation = = drwav_metadata_location_inside_adtl_list ) {
subchunkSize = pMetadata - > data . unknown . dataSizeInBytes ;
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DRWAV_ASSERT ( pMetadata - > data . unknown . pData ! = NULL ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . unknown . id , 4 ) ;
bytesWritten + = drwav__write_or_count_u32ne_to_le ( pWav , subchunkSize ) ;
bytesWritten + = drwav__write_or_count ( pWav , pMetadata - > data . unknown . pData , subchunkSize ) ;
}
} break ;
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default : break ;
}
if ( ( subchunkSize % 2 ) ! = 0 ) {
bytesWritten + = drwav__write_or_count_byte ( pWav , 0 ) ;
}
}
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}
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DRWAV_ASSERT ( ( bytesWritten % 2 ) = = 0 ) ;
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return bytesWritten ;
}
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DRWAV_PRIVATE drwav_uint32 drwav__riff_chunk_size_riff ( drwav_uint64 dataChunkSize , drwav_metadata * pMetadata , drwav_uint32 metadataCount )
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{
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drwav_uint64 chunkSize = 4 + 24 + ( drwav_uint64 ) drwav__write_or_count_metadata ( NULL , pMetadata , metadataCount ) + 8 + dataChunkSize + drwav__chunk_padding_size_riff ( dataChunkSize ) ; /* 4 = "WAVE". 24 = "fmt " chunk. 8 = "data" + u32 data size. */
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if ( chunkSize > 0xFFFFFFFFUL ) {
chunkSize = 0xFFFFFFFFUL ;
}
return ( drwav_uint32 ) chunkSize ; /* Safe cast due to the clamp above. */
}
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DRWAV_PRIVATE drwav_uint32 drwav__data_chunk_size_riff ( drwav_uint64 dataChunkSize )
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{
if ( dataChunkSize < = 0xFFFFFFFFUL ) {
return ( drwav_uint32 ) dataChunkSize ;
} else {
return 0xFFFFFFFFUL ;
}
}
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DRWAV_PRIVATE drwav_uint64 drwav__riff_chunk_size_w64 ( drwav_uint64 dataChunkSize )
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{
drwav_uint64 dataSubchunkPaddingSize = drwav__chunk_padding_size_w64 ( dataChunkSize ) ;
return 80 + 24 + dataChunkSize + dataSubchunkPaddingSize ; /* +24 because W64 includes the size of the GUID and size fields. */
}
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DRWAV_PRIVATE drwav_uint64 drwav__data_chunk_size_w64 ( drwav_uint64 dataChunkSize )
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{
return 24 + dataChunkSize ; /* +24 because W64 includes the size of the GUID and size fields. */
}
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DRWAV_PRIVATE drwav_uint64 drwav__riff_chunk_size_rf64 ( drwav_uint64 dataChunkSize , drwav_metadata * metadata , drwav_uint32 numMetadata )
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{
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drwav_uint64 chunkSize = 4 + 36 + 24 + ( drwav_uint64 ) drwav__write_or_count_metadata ( NULL , metadata , numMetadata ) + 8 + dataChunkSize + drwav__chunk_padding_size_riff ( dataChunkSize ) ; /* 4 = "WAVE". 36 = "ds64" chunk. 24 = "fmt " chunk. 8 = "data" + u32 data size. */
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if ( chunkSize > 0xFFFFFFFFUL ) {
chunkSize = 0xFFFFFFFFUL ;
}
return chunkSize ;
}
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DRWAV_PRIVATE drwav_uint64 drwav__data_chunk_size_rf64 ( drwav_uint64 dataChunkSize )
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{
return dataChunkSize ;
}
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DRWAV_PRIVATE drwav_bool32 drwav_preinit_write ( drwav * pWav , const drwav_data_format * pFormat , drwav_bool32 isSequential , drwav_write_proc onWrite , drwav_seek_proc onSeek , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks )
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{
if ( pWav = = NULL | | onWrite = = NULL ) {
return DRWAV_FALSE ;
}
if ( ! isSequential & & onSeek = = NULL ) {
return DRWAV_FALSE ; /* <-- onSeek is required when in non-sequential mode. */
}
/* Not currently supporting compressed formats. Will need to add support for the "fact" chunk before we enable this. */
if ( pFormat - > format = = DR_WAVE_FORMAT_EXTENSIBLE ) {
return DRWAV_FALSE ;
}
if ( pFormat - > format = = DR_WAVE_FORMAT_ADPCM | | pFormat - > format = = DR_WAVE_FORMAT_DVI_ADPCM ) {
return DRWAV_FALSE ;
}
DRWAV_ZERO_MEMORY ( pWav , sizeof ( * pWav ) ) ;
pWav - > onWrite = onWrite ;
pWav - > onSeek = onSeek ;
pWav - > pUserData = pUserData ;
pWav - > allocationCallbacks = drwav_copy_allocation_callbacks_or_defaults ( pAllocationCallbacks ) ;
if ( pWav - > allocationCallbacks . onFree = = NULL | | ( pWav - > allocationCallbacks . onMalloc = = NULL & & pWav - > allocationCallbacks . onRealloc = = NULL ) ) {
return DRWAV_FALSE ; /* Invalid allocation callbacks. */
}
pWav - > fmt . formatTag = ( drwav_uint16 ) pFormat - > format ;
pWav - > fmt . channels = ( drwav_uint16 ) pFormat - > channels ;
pWav - > fmt . sampleRate = pFormat - > sampleRate ;
pWav - > fmt . avgBytesPerSec = ( drwav_uint32 ) ( ( pFormat - > bitsPerSample * pFormat - > sampleRate * pFormat - > channels ) / 8 ) ;
pWav - > fmt . blockAlign = ( drwav_uint16 ) ( ( pFormat - > channels * pFormat - > bitsPerSample ) / 8 ) ;
pWav - > fmt . bitsPerSample = ( drwav_uint16 ) pFormat - > bitsPerSample ;
pWav - > fmt . extendedSize = 0 ;
pWav - > isSequentialWrite = isSequential ;
return DRWAV_TRUE ;
}
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DRWAV_PRIVATE drwav_bool32 drwav_init_write__internal ( drwav * pWav , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount )
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{
/* The function assumes drwav_preinit_write() was called beforehand. */
size_t runningPos = 0 ;
drwav_uint64 initialDataChunkSize = 0 ;
drwav_uint64 chunkSizeFMT ;
/*
The initial values for the " RIFF " and " data " chunks depends on whether or not we are initializing in sequential mode or not . In
sequential mode we set this to its final values straight away since they can be calculated from the total sample count . In non -
sequential mode we initialize it all to zero and fill it out in drwav_uninit ( ) using a backwards seek .
*/
if ( pWav - > isSequentialWrite ) {
initialDataChunkSize = ( totalSampleCount * pWav - > fmt . bitsPerSample ) / 8 ;
/*
The RIFF container has a limit on the number of samples . drwav is not allowing this . There ' s no practical limits for Wave64
so for the sake of simplicity I ' m not doing any validation for that .
*/
if ( pFormat - > container = = drwav_container_riff ) {
if ( initialDataChunkSize > ( 0xFFFFFFFFUL - 36 ) ) {
return DRWAV_FALSE ; /* Not enough room to store every sample. */
}
}
}
pWav - > dataChunkDataSizeTargetWrite = initialDataChunkSize ;
/* "RIFF" chunk. */
if ( pFormat - > container = = drwav_container_riff ) {
drwav_uint32 chunkSizeRIFF = 28 + ( drwav_uint32 ) initialDataChunkSize ; /* +28 = "WAVE" + [sizeof "fmt " chunk] */
runningPos + = drwav__write ( pWav , " RIFF " , 4 ) ;
runningPos + = drwav__write_u32ne_to_le ( pWav , chunkSizeRIFF ) ;
runningPos + = drwav__write ( pWav , " WAVE " , 4 ) ;
} else if ( pFormat - > container = = drwav_container_w64 ) {
drwav_uint64 chunkSizeRIFF = 80 + 24 + initialDataChunkSize ; /* +24 because W64 includes the size of the GUID and size fields. */
runningPos + = drwav__write ( pWav , drwavGUID_W64_RIFF , 16 ) ;
runningPos + = drwav__write_u64ne_to_le ( pWav , chunkSizeRIFF ) ;
runningPos + = drwav__write ( pWav , drwavGUID_W64_WAVE , 16 ) ;
} else if ( pFormat - > container = = drwav_container_rf64 ) {
runningPos + = drwav__write ( pWav , " RF64 " , 4 ) ;
runningPos + = drwav__write_u32ne_to_le ( pWav , 0xFFFFFFFF ) ; /* Always 0xFFFFFFFF for RF64. Set to a proper value in the "ds64" chunk. */
runningPos + = drwav__write ( pWav , " WAVE " , 4 ) ;
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} else {
return DRWAV_FALSE ; /* Container not supported for writing. */
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}
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/* "ds64" chunk (RF64 only). */
if ( pFormat - > container = = drwav_container_rf64 ) {
drwav_uint32 initialds64ChunkSize = 28 ; /* 28 = [Size of RIFF (8 bytes)] + [Size of DATA (8 bytes)] + [Sample Count (8 bytes)] + [Table Length (4 bytes)]. Table length always set to 0. */
drwav_uint64 initialRiffChunkSize = 8 + initialds64ChunkSize + initialDataChunkSize ; /* +8 for the ds64 header. */
runningPos + = drwav__write ( pWav , " ds64 " , 4 ) ;
runningPos + = drwav__write_u32ne_to_le ( pWav , initialds64ChunkSize ) ; /* Size of ds64. */
runningPos + = drwav__write_u64ne_to_le ( pWav , initialRiffChunkSize ) ; /* Size of RIFF. Set to true value at the end. */
runningPos + = drwav__write_u64ne_to_le ( pWav , initialDataChunkSize ) ; /* Size of DATA. Set to true value at the end. */
runningPos + = drwav__write_u64ne_to_le ( pWav , totalSampleCount ) ; /* Sample count. */
runningPos + = drwav__write_u32ne_to_le ( pWav , 0 ) ; /* Table length. Always set to zero in our case since we're not doing any other chunks than "DATA". */
}
/* "fmt " chunk. */
if ( pFormat - > container = = drwav_container_riff | | pFormat - > container = = drwav_container_rf64 ) {
chunkSizeFMT = 16 ;
runningPos + = drwav__write ( pWav , " fmt " , 4 ) ;
runningPos + = drwav__write_u32ne_to_le ( pWav , ( drwav_uint32 ) chunkSizeFMT ) ;
} else if ( pFormat - > container = = drwav_container_w64 ) {
chunkSizeFMT = 40 ;
runningPos + = drwav__write ( pWav , drwavGUID_W64_FMT , 16 ) ;
runningPos + = drwav__write_u64ne_to_le ( pWav , chunkSizeFMT ) ;
}
runningPos + = drwav__write_u16ne_to_le ( pWav , pWav - > fmt . formatTag ) ;
runningPos + = drwav__write_u16ne_to_le ( pWav , pWav - > fmt . channels ) ;
runningPos + = drwav__write_u32ne_to_le ( pWav , pWav - > fmt . sampleRate ) ;
runningPos + = drwav__write_u32ne_to_le ( pWav , pWav - > fmt . avgBytesPerSec ) ;
runningPos + = drwav__write_u16ne_to_le ( pWav , pWav - > fmt . blockAlign ) ;
runningPos + = drwav__write_u16ne_to_le ( pWav , pWav - > fmt . bitsPerSample ) ;
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/* TODO: is a 'fact' chunk required for DR_WAVE_FORMAT_IEEE_FLOAT? */
if ( ! pWav - > isSequentialWrite & & pWav - > pMetadata ! = NULL & & pWav - > metadataCount > 0 & & ( pFormat - > container = = drwav_container_riff | | pFormat - > container = = drwav_container_rf64 ) ) {
runningPos + = drwav__write_or_count_metadata ( pWav , pWav - > pMetadata , pWav - > metadataCount ) ;
}
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pWav - > dataChunkDataPos = runningPos ;
/* "data" chunk. */
if ( pFormat - > container = = drwav_container_riff ) {
drwav_uint32 chunkSizeDATA = ( drwav_uint32 ) initialDataChunkSize ;
runningPos + = drwav__write ( pWav , " data " , 4 ) ;
runningPos + = drwav__write_u32ne_to_le ( pWav , chunkSizeDATA ) ;
} else if ( pFormat - > container = = drwav_container_w64 ) {
drwav_uint64 chunkSizeDATA = 24 + initialDataChunkSize ; /* +24 because W64 includes the size of the GUID and size fields. */
runningPos + = drwav__write ( pWav , drwavGUID_W64_DATA , 16 ) ;
runningPos + = drwav__write_u64ne_to_le ( pWav , chunkSizeDATA ) ;
} else if ( pFormat - > container = = drwav_container_rf64 ) {
runningPos + = drwav__write ( pWav , " data " , 4 ) ;
runningPos + = drwav__write_u32ne_to_le ( pWav , 0xFFFFFFFF ) ; /* Always set to 0xFFFFFFFF for RF64. The true size of the data chunk is specified in the ds64 chunk. */
}
/* Set some properties for the client's convenience. */
pWav - > container = pFormat - > container ;
pWav - > channels = ( drwav_uint16 ) pFormat - > channels ;
pWav - > sampleRate = pFormat - > sampleRate ;
pWav - > bitsPerSample = ( drwav_uint16 ) pFormat - > bitsPerSample ;
pWav - > translatedFormatTag = ( drwav_uint16 ) pFormat - > format ;
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pWav - > dataChunkDataPos = runningPos ;
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return DRWAV_TRUE ;
}
DRWAV_API drwav_bool32 drwav_init_write ( drwav * pWav , const drwav_data_format * pFormat , drwav_write_proc onWrite , drwav_seek_proc onSeek , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( ! drwav_preinit_write ( pWav , pFormat , DRWAV_FALSE , onWrite , onSeek , pUserData , pAllocationCallbacks ) ) {
return DRWAV_FALSE ;
}
return drwav_init_write__internal ( pWav , pFormat , 0 ) ; /* DRWAV_FALSE = Not Sequential */
}
DRWAV_API drwav_bool32 drwav_init_write_sequential ( drwav * pWav , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , drwav_write_proc onWrite , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( ! drwav_preinit_write ( pWav , pFormat , DRWAV_TRUE , onWrite , NULL , pUserData , pAllocationCallbacks ) ) {
return DRWAV_FALSE ;
}
return drwav_init_write__internal ( pWav , pFormat , totalSampleCount ) ; /* DRWAV_TRUE = Sequential */
}
DRWAV_API drwav_bool32 drwav_init_write_sequential_pcm_frames ( drwav * pWav , const drwav_data_format * pFormat , drwav_uint64 totalPCMFrameCount , drwav_write_proc onWrite , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( pFormat = = NULL ) {
return DRWAV_FALSE ;
}
return drwav_init_write_sequential ( pWav , pFormat , totalPCMFrameCount * pFormat - > channels , onWrite , pUserData , pAllocationCallbacks ) ;
}
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DRWAV_API drwav_bool32 drwav_init_write_with_metadata ( drwav * pWav , const drwav_data_format * pFormat , drwav_write_proc onWrite , drwav_seek_proc onSeek , void * pUserData , const drwav_allocation_callbacks * pAllocationCallbacks , drwav_metadata * pMetadata , drwav_uint32 metadataCount )
{
if ( ! drwav_preinit_write ( pWav , pFormat , DRWAV_FALSE , onWrite , onSeek , pUserData , pAllocationCallbacks ) ) {
return DRWAV_FALSE ;
}
pWav - > pMetadata = pMetadata ;
pWav - > metadataCount = metadataCount ;
return drwav_init_write__internal ( pWav , pFormat , 0 ) ;
}
DRWAV_API drwav_uint64 drwav_target_write_size_bytes ( const drwav_data_format * pFormat , drwav_uint64 totalFrameCount , drwav_metadata * pMetadata , drwav_uint32 metadataCount )
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{
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/* Casting totalFrameCount to drwav_int64 for VC6 compatibility. No issues in practice because nobody is going to exhaust the whole 63 bits. */
drwav_uint64 targetDataSizeBytes = ( drwav_uint64 ) ( ( drwav_int64 ) totalFrameCount * pFormat - > channels * pFormat - > bitsPerSample / 8.0 ) ;
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drwav_uint64 riffChunkSizeBytes ;
drwav_uint64 fileSizeBytes = 0 ;
if ( pFormat - > container = = drwav_container_riff ) {
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riffChunkSizeBytes = drwav__riff_chunk_size_riff ( targetDataSizeBytes , pMetadata , metadataCount ) ;
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fileSizeBytes = ( 8 + riffChunkSizeBytes ) ; /* +8 because WAV doesn't include the size of the ChunkID and ChunkSize fields. */
} else if ( pFormat - > container = = drwav_container_w64 ) {
riffChunkSizeBytes = drwav__riff_chunk_size_w64 ( targetDataSizeBytes ) ;
fileSizeBytes = riffChunkSizeBytes ;
} else if ( pFormat - > container = = drwav_container_rf64 ) {
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riffChunkSizeBytes = drwav__riff_chunk_size_rf64 ( targetDataSizeBytes , pMetadata , metadataCount ) ;
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fileSizeBytes = ( 8 + riffChunkSizeBytes ) ; /* +8 because WAV doesn't include the size of the ChunkID and ChunkSize fields. */
}
return fileSizeBytes ;
}
# ifndef DR_WAV_NO_STDIO
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/* Errno */
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/* drwav_result_from_errno() is only used for fopen() and wfopen() so putting it inside DR_WAV_NO_STDIO for now. If something else needs this later we can move it out. */
# include <errno.h>
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DRWAV_PRIVATE drwav_result drwav_result_from_errno ( int e )
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{
switch ( e )
{
case 0 : return DRWAV_SUCCESS ;
# ifdef EPERM
case EPERM : return DRWAV_INVALID_OPERATION ;
# endif
# ifdef ENOENT
case ENOENT : return DRWAV_DOES_NOT_EXIST ;
# endif
# ifdef ESRCH
case ESRCH : return DRWAV_DOES_NOT_EXIST ;
# endif
# ifdef EINTR
case EINTR : return DRWAV_INTERRUPT ;
# endif
# ifdef EIO
case EIO : return DRWAV_IO_ERROR ;
# endif
# ifdef ENXIO
case ENXIO : return DRWAV_DOES_NOT_EXIST ;
# endif
# ifdef E2BIG
case E2BIG : return DRWAV_INVALID_ARGS ;
# endif
# ifdef ENOEXEC
case ENOEXEC : return DRWAV_INVALID_FILE ;
# endif
# ifdef EBADF
case EBADF : return DRWAV_INVALID_FILE ;
# endif
# ifdef ECHILD
case ECHILD : return DRWAV_ERROR ;
# endif
# ifdef EAGAIN
case EAGAIN : return DRWAV_UNAVAILABLE ;
# endif
# ifdef ENOMEM
case ENOMEM : return DRWAV_OUT_OF_MEMORY ;
# endif
# ifdef EACCES
case EACCES : return DRWAV_ACCESS_DENIED ;
# endif
# ifdef EFAULT
case EFAULT : return DRWAV_BAD_ADDRESS ;
# endif
# ifdef ENOTBLK
case ENOTBLK : return DRWAV_ERROR ;
# endif
# ifdef EBUSY
case EBUSY : return DRWAV_BUSY ;
# endif
# ifdef EEXIST
case EEXIST : return DRWAV_ALREADY_EXISTS ;
# endif
# ifdef EXDEV
case EXDEV : return DRWAV_ERROR ;
# endif
# ifdef ENODEV
case ENODEV : return DRWAV_DOES_NOT_EXIST ;
# endif
# ifdef ENOTDIR
case ENOTDIR : return DRWAV_NOT_DIRECTORY ;
# endif
# ifdef EISDIR
case EISDIR : return DRWAV_IS_DIRECTORY ;
# endif
# ifdef EINVAL
case EINVAL : return DRWAV_INVALID_ARGS ;
# endif
# ifdef ENFILE
case ENFILE : return DRWAV_TOO_MANY_OPEN_FILES ;
# endif
# ifdef EMFILE
case EMFILE : return DRWAV_TOO_MANY_OPEN_FILES ;
# endif
# ifdef ENOTTY
case ENOTTY : return DRWAV_INVALID_OPERATION ;
# endif
# ifdef ETXTBSY
case ETXTBSY : return DRWAV_BUSY ;
# endif
# ifdef EFBIG
case EFBIG : return DRWAV_TOO_BIG ;
# endif
# ifdef ENOSPC
case ENOSPC : return DRWAV_NO_SPACE ;
# endif
# ifdef ESPIPE
case ESPIPE : return DRWAV_BAD_SEEK ;
# endif
# ifdef EROFS
case EROFS : return DRWAV_ACCESS_DENIED ;
# endif
# ifdef EMLINK
case EMLINK : return DRWAV_TOO_MANY_LINKS ;
# endif
# ifdef EPIPE
case EPIPE : return DRWAV_BAD_PIPE ;
# endif
# ifdef EDOM
case EDOM : return DRWAV_OUT_OF_RANGE ;
# endif
# ifdef ERANGE
case ERANGE : return DRWAV_OUT_OF_RANGE ;
# endif
# ifdef EDEADLK
case EDEADLK : return DRWAV_DEADLOCK ;
# endif
# ifdef ENAMETOOLONG
case ENAMETOOLONG : return DRWAV_PATH_TOO_LONG ;
# endif
# ifdef ENOLCK
case ENOLCK : return DRWAV_ERROR ;
# endif
# ifdef ENOSYS
case ENOSYS : return DRWAV_NOT_IMPLEMENTED ;
# endif
# ifdef ENOTEMPTY
case ENOTEMPTY : return DRWAV_DIRECTORY_NOT_EMPTY ;
# endif
# ifdef ELOOP
case ELOOP : return DRWAV_TOO_MANY_LINKS ;
# endif
# ifdef ENOMSG
case ENOMSG : return DRWAV_NO_MESSAGE ;
# endif
# ifdef EIDRM
case EIDRM : return DRWAV_ERROR ;
# endif
# ifdef ECHRNG
case ECHRNG : return DRWAV_ERROR ;
# endif
# ifdef EL2NSYNC
case EL2NSYNC : return DRWAV_ERROR ;
# endif
# ifdef EL3HLT
case EL3HLT : return DRWAV_ERROR ;
# endif
# ifdef EL3RST
case EL3RST : return DRWAV_ERROR ;
# endif
# ifdef ELNRNG
case ELNRNG : return DRWAV_OUT_OF_RANGE ;
# endif
# ifdef EUNATCH
case EUNATCH : return DRWAV_ERROR ;
# endif
# ifdef ENOCSI
case ENOCSI : return DRWAV_ERROR ;
# endif
# ifdef EL2HLT
case EL2HLT : return DRWAV_ERROR ;
# endif
# ifdef EBADE
case EBADE : return DRWAV_ERROR ;
# endif
# ifdef EBADR
case EBADR : return DRWAV_ERROR ;
# endif
# ifdef EXFULL
case EXFULL : return DRWAV_ERROR ;
# endif
# ifdef ENOANO
case ENOANO : return DRWAV_ERROR ;
# endif
# ifdef EBADRQC
case EBADRQC : return DRWAV_ERROR ;
# endif
# ifdef EBADSLT
case EBADSLT : return DRWAV_ERROR ;
# endif
# ifdef EBFONT
case EBFONT : return DRWAV_INVALID_FILE ;
# endif
# ifdef ENOSTR
case ENOSTR : return DRWAV_ERROR ;
# endif
# ifdef ENODATA
case ENODATA : return DRWAV_NO_DATA_AVAILABLE ;
# endif
# ifdef ETIME
case ETIME : return DRWAV_TIMEOUT ;
# endif
# ifdef ENOSR
case ENOSR : return DRWAV_NO_DATA_AVAILABLE ;
# endif
# ifdef ENONET
case ENONET : return DRWAV_NO_NETWORK ;
# endif
# ifdef ENOPKG
case ENOPKG : return DRWAV_ERROR ;
# endif
# ifdef EREMOTE
case EREMOTE : return DRWAV_ERROR ;
# endif
# ifdef ENOLINK
case ENOLINK : return DRWAV_ERROR ;
# endif
# ifdef EADV
case EADV : return DRWAV_ERROR ;
# endif
# ifdef ESRMNT
case ESRMNT : return DRWAV_ERROR ;
# endif
# ifdef ECOMM
case ECOMM : return DRWAV_ERROR ;
# endif
# ifdef EPROTO
case EPROTO : return DRWAV_ERROR ;
# endif
# ifdef EMULTIHOP
case EMULTIHOP : return DRWAV_ERROR ;
# endif
# ifdef EDOTDOT
case EDOTDOT : return DRWAV_ERROR ;
# endif
# ifdef EBADMSG
case EBADMSG : return DRWAV_BAD_MESSAGE ;
# endif
# ifdef EOVERFLOW
case EOVERFLOW : return DRWAV_TOO_BIG ;
# endif
# ifdef ENOTUNIQ
case ENOTUNIQ : return DRWAV_NOT_UNIQUE ;
# endif
# ifdef EBADFD
case EBADFD : return DRWAV_ERROR ;
# endif
# ifdef EREMCHG
case EREMCHG : return DRWAV_ERROR ;
# endif
# ifdef ELIBACC
case ELIBACC : return DRWAV_ACCESS_DENIED ;
# endif
# ifdef ELIBBAD
case ELIBBAD : return DRWAV_INVALID_FILE ;
# endif
# ifdef ELIBSCN
case ELIBSCN : return DRWAV_INVALID_FILE ;
# endif
# ifdef ELIBMAX
case ELIBMAX : return DRWAV_ERROR ;
# endif
# ifdef ELIBEXEC
case ELIBEXEC : return DRWAV_ERROR ;
# endif
# ifdef EILSEQ
case EILSEQ : return DRWAV_INVALID_DATA ;
# endif
# ifdef ERESTART
case ERESTART : return DRWAV_ERROR ;
# endif
# ifdef ESTRPIPE
case ESTRPIPE : return DRWAV_ERROR ;
# endif
# ifdef EUSERS
case EUSERS : return DRWAV_ERROR ;
# endif
# ifdef ENOTSOCK
case ENOTSOCK : return DRWAV_NOT_SOCKET ;
# endif
# ifdef EDESTADDRREQ
case EDESTADDRREQ : return DRWAV_NO_ADDRESS ;
# endif
# ifdef EMSGSIZE
case EMSGSIZE : return DRWAV_TOO_BIG ;
# endif
# ifdef EPROTOTYPE
case EPROTOTYPE : return DRWAV_BAD_PROTOCOL ;
# endif
# ifdef ENOPROTOOPT
case ENOPROTOOPT : return DRWAV_PROTOCOL_UNAVAILABLE ;
# endif
# ifdef EPROTONOSUPPORT
case EPROTONOSUPPORT : return DRWAV_PROTOCOL_NOT_SUPPORTED ;
# endif
# ifdef ESOCKTNOSUPPORT
case ESOCKTNOSUPPORT : return DRWAV_SOCKET_NOT_SUPPORTED ;
# endif
# ifdef EOPNOTSUPP
case EOPNOTSUPP : return DRWAV_INVALID_OPERATION ;
# endif
# ifdef EPFNOSUPPORT
case EPFNOSUPPORT : return DRWAV_PROTOCOL_FAMILY_NOT_SUPPORTED ;
# endif
# ifdef EAFNOSUPPORT
case EAFNOSUPPORT : return DRWAV_ADDRESS_FAMILY_NOT_SUPPORTED ;
# endif
# ifdef EADDRINUSE
case EADDRINUSE : return DRWAV_ALREADY_IN_USE ;
# endif
# ifdef EADDRNOTAVAIL
case EADDRNOTAVAIL : return DRWAV_ERROR ;
# endif
# ifdef ENETDOWN
case ENETDOWN : return DRWAV_NO_NETWORK ;
# endif
# ifdef ENETUNREACH
case ENETUNREACH : return DRWAV_NO_NETWORK ;
# endif
# ifdef ENETRESET
case ENETRESET : return DRWAV_NO_NETWORK ;
# endif
# ifdef ECONNABORTED
case ECONNABORTED : return DRWAV_NO_NETWORK ;
# endif
# ifdef ECONNRESET
case ECONNRESET : return DRWAV_CONNECTION_RESET ;
# endif
# ifdef ENOBUFS
case ENOBUFS : return DRWAV_NO_SPACE ;
# endif
# ifdef EISCONN
case EISCONN : return DRWAV_ALREADY_CONNECTED ;
# endif
# ifdef ENOTCONN
case ENOTCONN : return DRWAV_NOT_CONNECTED ;
# endif
# ifdef ESHUTDOWN
case ESHUTDOWN : return DRWAV_ERROR ;
# endif
# ifdef ETOOMANYREFS
case ETOOMANYREFS : return DRWAV_ERROR ;
# endif
# ifdef ETIMEDOUT
case ETIMEDOUT : return DRWAV_TIMEOUT ;
# endif
# ifdef ECONNREFUSED
case ECONNREFUSED : return DRWAV_CONNECTION_REFUSED ;
# endif
# ifdef EHOSTDOWN
case EHOSTDOWN : return DRWAV_NO_HOST ;
# endif
# ifdef EHOSTUNREACH
case EHOSTUNREACH : return DRWAV_NO_HOST ;
# endif
# ifdef EALREADY
case EALREADY : return DRWAV_IN_PROGRESS ;
# endif
# ifdef EINPROGRESS
case EINPROGRESS : return DRWAV_IN_PROGRESS ;
# endif
# ifdef ESTALE
case ESTALE : return DRWAV_INVALID_FILE ;
# endif
# ifdef EUCLEAN
case EUCLEAN : return DRWAV_ERROR ;
# endif
# ifdef ENOTNAM
case ENOTNAM : return DRWAV_ERROR ;
# endif
# ifdef ENAVAIL
case ENAVAIL : return DRWAV_ERROR ;
# endif
# ifdef EISNAM
case EISNAM : return DRWAV_ERROR ;
# endif
# ifdef EREMOTEIO
case EREMOTEIO : return DRWAV_IO_ERROR ;
# endif
# ifdef EDQUOT
case EDQUOT : return DRWAV_NO_SPACE ;
# endif
# ifdef ENOMEDIUM
case ENOMEDIUM : return DRWAV_DOES_NOT_EXIST ;
# endif
# ifdef EMEDIUMTYPE
case EMEDIUMTYPE : return DRWAV_ERROR ;
# endif
# ifdef ECANCELED
case ECANCELED : return DRWAV_CANCELLED ;
# endif
# ifdef ENOKEY
case ENOKEY : return DRWAV_ERROR ;
# endif
# ifdef EKEYEXPIRED
case EKEYEXPIRED : return DRWAV_ERROR ;
# endif
# ifdef EKEYREVOKED
case EKEYREVOKED : return DRWAV_ERROR ;
# endif
# ifdef EKEYREJECTED
case EKEYREJECTED : return DRWAV_ERROR ;
# endif
# ifdef EOWNERDEAD
case EOWNERDEAD : return DRWAV_ERROR ;
# endif
# ifdef ENOTRECOVERABLE
case ENOTRECOVERABLE : return DRWAV_ERROR ;
# endif
# ifdef ERFKILL
case ERFKILL : return DRWAV_ERROR ;
# endif
# ifdef EHWPOISON
case EHWPOISON : return DRWAV_ERROR ;
# endif
default : return DRWAV_ERROR ;
}
}
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/* End Errno */
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/* fopen */
DRWAV_PRIVATE drwav_result drwav_fopen ( FILE * * ppFile , const char * pFilePath , const char * pOpenMode )
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{
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# if defined(_MSC_VER) && _MSC_VER >= 1400
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errno_t err ;
# endif
if ( ppFile ! = NULL ) {
* ppFile = NULL ; /* Safety. */
}
if ( pFilePath = = NULL | | pOpenMode = = NULL | | ppFile = = NULL ) {
return DRWAV_INVALID_ARGS ;
}
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# if defined(_MSC_VER) && _MSC_VER >= 1400
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err = fopen_s ( ppFile , pFilePath , pOpenMode ) ;
if ( err ! = 0 ) {
return drwav_result_from_errno ( err ) ;
}
# else
# if defined(_WIN32) || defined(__APPLE__)
* ppFile = fopen ( pFilePath , pOpenMode ) ;
# else
# if defined(_FILE_OFFSET_BITS) && _FILE_OFFSET_BITS == 64 && defined(_LARGEFILE64_SOURCE)
* ppFile = fopen64 ( pFilePath , pOpenMode ) ;
# else
* ppFile = fopen ( pFilePath , pOpenMode ) ;
# endif
# endif
if ( * ppFile = = NULL ) {
drwav_result result = drwav_result_from_errno ( errno ) ;
if ( result = = DRWAV_SUCCESS ) {
result = DRWAV_ERROR ; /* Just a safety check to make sure we never ever return success when pFile == NULL. */
}
return result ;
}
# endif
return DRWAV_SUCCESS ;
}
/*
_wfopen ( ) isn ' t always available in all compilation environments .
* Windows only .
* MSVC seems to support it universally as far back as VC6 from what I can tell ( haven ' t checked further back ) .
* MinGW - 64 ( both 32 - and 64 - bit ) seems to support it .
* MinGW wraps it in ! defined ( __STRICT_ANSI__ ) .
* OpenWatcom wraps it in ! defined ( _NO_EXT_KEYS ) .
This can be reviewed as compatibility issues arise . The preference is to use _wfopen_s ( ) and _wfopen ( ) as opposed to the wcsrtombs ( )
fallback , so if you notice your compiler not detecting this properly I ' m happy to look at adding support .
*/
# if defined(_WIN32)
# if defined(_MSC_VER) || defined(__MINGW64__) || (!defined(__STRICT_ANSI__) && !defined(_NO_EXT_KEYS))
# define DRWAV_HAS_WFOPEN
# endif
# endif
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# ifndef DR_WAV_NO_WCHAR
DRWAV_PRIVATE drwav_result drwav_wfopen ( FILE * * ppFile , const wchar_t * pFilePath , const wchar_t * pOpenMode , const drwav_allocation_callbacks * pAllocationCallbacks )
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{
if ( ppFile ! = NULL ) {
* ppFile = NULL ; /* Safety. */
}
if ( pFilePath = = NULL | | pOpenMode = = NULL | | ppFile = = NULL ) {
return DRWAV_INVALID_ARGS ;
}
# if defined(DRWAV_HAS_WFOPEN)
{
/* Use _wfopen() on Windows. */
# if defined(_MSC_VER) && _MSC_VER >= 1400
errno_t err = _wfopen_s ( ppFile , pFilePath , pOpenMode ) ;
if ( err ! = 0 ) {
return drwav_result_from_errno ( err ) ;
}
# else
* ppFile = _wfopen ( pFilePath , pOpenMode ) ;
if ( * ppFile = = NULL ) {
return drwav_result_from_errno ( errno ) ;
}
# endif
( void ) pAllocationCallbacks ;
}
# else
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/*
Use fopen ( ) on anything other than Windows . Requires a conversion . This is annoying because
fopen ( ) is locale specific . The only real way I can think of to do this is with wcsrtombs ( ) . Note
that wcstombs ( ) is apparently not thread - safe because it uses a static global mbstate_t object for
maintaining state . I ' ve checked this with - std = c89 and it works , but if somebody get ' s a compiler
error I ' ll look into improving compatibility .
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*/
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/*
Some compilers don ' t support wchar_t or wcsrtombs ( ) which we ' re using below . In this case we just
need to abort with an error . If you encounter a compiler lacking such support , add it to this list
and submit a bug report and it ' ll be added to the library upstream .
*/
# if defined(__DJGPP__)
{
/* Nothing to do here. This will fall through to the error check below. */
}
# else
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{
mbstate_t mbs ;
size_t lenMB ;
const wchar_t * pFilePathTemp = pFilePath ;
char * pFilePathMB = NULL ;
char pOpenModeMB [ 32 ] = { 0 } ;
/* Get the length first. */
DRWAV_ZERO_OBJECT ( & mbs ) ;
lenMB = wcsrtombs ( NULL , & pFilePathTemp , 0 , & mbs ) ;
if ( lenMB = = ( size_t ) - 1 ) {
return drwav_result_from_errno ( errno ) ;
}
pFilePathMB = ( char * ) drwav__malloc_from_callbacks ( lenMB + 1 , pAllocationCallbacks ) ;
if ( pFilePathMB = = NULL ) {
return DRWAV_OUT_OF_MEMORY ;
}
pFilePathTemp = pFilePath ;
DRWAV_ZERO_OBJECT ( & mbs ) ;
wcsrtombs ( pFilePathMB , & pFilePathTemp , lenMB + 1 , & mbs ) ;
/* The open mode should always consist of ASCII characters so we should be able to do a trivial conversion. */
{
size_t i = 0 ;
for ( ; ; ) {
if ( pOpenMode [ i ] = = 0 ) {
pOpenModeMB [ i ] = ' \0 ' ;
break ;
}
pOpenModeMB [ i ] = ( char ) pOpenMode [ i ] ;
i + = 1 ;
}
}
* ppFile = fopen ( pFilePathMB , pOpenModeMB ) ;
drwav__free_from_callbacks ( pFilePathMB , pAllocationCallbacks ) ;
}
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# endif
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if ( * ppFile = = NULL ) {
return DRWAV_ERROR ;
}
# endif
return DRWAV_SUCCESS ;
}
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# endif
/* End fopen */
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DRWAV_PRIVATE size_t drwav__on_read_stdio ( void * pUserData , void * pBufferOut , size_t bytesToRead )
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{
return fread ( pBufferOut , 1 , bytesToRead , ( FILE * ) pUserData ) ;
}
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DRWAV_PRIVATE size_t drwav__on_write_stdio ( void * pUserData , const void * pData , size_t bytesToWrite )
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{
return fwrite ( pData , 1 , bytesToWrite , ( FILE * ) pUserData ) ;
}
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DRWAV_PRIVATE drwav_bool32 drwav__on_seek_stdio ( void * pUserData , int offset , drwav_seek_origin origin )
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{
return fseek ( ( FILE * ) pUserData , offset , ( origin = = drwav_seek_origin_current ) ? SEEK_CUR : SEEK_SET ) = = 0 ;
}
DRWAV_API drwav_bool32 drwav_init_file ( drwav * pWav , const char * filename , const drwav_allocation_callbacks * pAllocationCallbacks )
{
return drwav_init_file_ex ( pWav , filename , NULL , NULL , 0 , pAllocationCallbacks ) ;
}
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DRWAV_PRIVATE drwav_bool32 drwav_init_file__internal_FILE ( drwav * pWav , FILE * pFile , drwav_chunk_proc onChunk , void * pChunkUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks )
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{
drwav_bool32 result ;
result = drwav_preinit ( pWav , drwav__on_read_stdio , drwav__on_seek_stdio , ( void * ) pFile , pAllocationCallbacks ) ;
if ( result ! = DRWAV_TRUE ) {
fclose ( pFile ) ;
return result ;
}
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result = drwav_init__internal ( pWav , onChunk , pChunkUserData , flags ) ;
if ( result ! = DRWAV_TRUE ) {
fclose ( pFile ) ;
return result ;
}
return DRWAV_TRUE ;
}
DRWAV_API drwav_bool32 drwav_init_file_ex ( drwav * pWav , const char * filename , drwav_chunk_proc onChunk , void * pChunkUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks )
{
FILE * pFile ;
if ( drwav_fopen ( & pFile , filename , " rb " ) ! = DRWAV_SUCCESS ) {
return DRWAV_FALSE ;
}
/* This takes ownership of the FILE* object. */
return drwav_init_file__internal_FILE ( pWav , pFile , onChunk , pChunkUserData , flags , pAllocationCallbacks ) ;
}
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# ifndef DR_WAV_NO_WCHAR
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DRWAV_API drwav_bool32 drwav_init_file_w ( drwav * pWav , const wchar_t * filename , const drwav_allocation_callbacks * pAllocationCallbacks )
{
return drwav_init_file_ex_w ( pWav , filename , NULL , NULL , 0 , pAllocationCallbacks ) ;
}
DRWAV_API drwav_bool32 drwav_init_file_ex_w ( drwav * pWav , const wchar_t * filename , drwav_chunk_proc onChunk , void * pChunkUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks )
{
FILE * pFile ;
if ( drwav_wfopen ( & pFile , filename , L " rb " , pAllocationCallbacks ) ! = DRWAV_SUCCESS ) {
return DRWAV_FALSE ;
}
/* This takes ownership of the FILE* object. */
return drwav_init_file__internal_FILE ( pWav , pFile , onChunk , pChunkUserData , flags , pAllocationCallbacks ) ;
}
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# endif
DRWAV_API drwav_bool32 drwav_init_file_with_metadata ( drwav * pWav , const char * filename , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks )
{
FILE * pFile ;
if ( drwav_fopen ( & pFile , filename , " rb " ) ! = DRWAV_SUCCESS ) {
return DRWAV_FALSE ;
}
/* This takes ownership of the FILE* object. */
return drwav_init_file__internal_FILE ( pWav , pFile , NULL , NULL , flags | DRWAV_WITH_METADATA , pAllocationCallbacks ) ;
}
# ifndef DR_WAV_NO_WCHAR
DRWAV_API drwav_bool32 drwav_init_file_with_metadata_w ( drwav * pWav , const wchar_t * filename , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks )
{
FILE * pFile ;
if ( drwav_wfopen ( & pFile , filename , L " rb " , pAllocationCallbacks ) ! = DRWAV_SUCCESS ) {
return DRWAV_FALSE ;
}
/* This takes ownership of the FILE* object. */
return drwav_init_file__internal_FILE ( pWav , pFile , NULL , NULL , flags | DRWAV_WITH_METADATA , pAllocationCallbacks ) ;
}
# endif
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DRWAV_PRIVATE drwav_bool32 drwav_init_file_write__internal_FILE ( drwav * pWav , FILE * pFile , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , drwav_bool32 isSequential , const drwav_allocation_callbacks * pAllocationCallbacks )
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{
drwav_bool32 result ;
result = drwav_preinit_write ( pWav , pFormat , isSequential , drwav__on_write_stdio , drwav__on_seek_stdio , ( void * ) pFile , pAllocationCallbacks ) ;
if ( result ! = DRWAV_TRUE ) {
fclose ( pFile ) ;
return result ;
}
result = drwav_init_write__internal ( pWav , pFormat , totalSampleCount ) ;
if ( result ! = DRWAV_TRUE ) {
fclose ( pFile ) ;
return result ;
}
return DRWAV_TRUE ;
}
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DRWAV_PRIVATE drwav_bool32 drwav_init_file_write__internal ( drwav * pWav , const char * filename , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , drwav_bool32 isSequential , const drwav_allocation_callbacks * pAllocationCallbacks )
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{
FILE * pFile ;
if ( drwav_fopen ( & pFile , filename , " wb " ) ! = DRWAV_SUCCESS ) {
return DRWAV_FALSE ;
}
/* This takes ownership of the FILE* object. */
return drwav_init_file_write__internal_FILE ( pWav , pFile , pFormat , totalSampleCount , isSequential , pAllocationCallbacks ) ;
}
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# ifndef DR_WAV_NO_WCHAR
DRWAV_PRIVATE drwav_bool32 drwav_init_file_write_w__internal ( drwav * pWav , const wchar_t * filename , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , drwav_bool32 isSequential , const drwav_allocation_callbacks * pAllocationCallbacks )
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{
FILE * pFile ;
if ( drwav_wfopen ( & pFile , filename , L " wb " , pAllocationCallbacks ) ! = DRWAV_SUCCESS ) {
return DRWAV_FALSE ;
}
/* This takes ownership of the FILE* object. */
return drwav_init_file_write__internal_FILE ( pWav , pFile , pFormat , totalSampleCount , isSequential , pAllocationCallbacks ) ;
}
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# endif
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DRWAV_API drwav_bool32 drwav_init_file_write ( drwav * pWav , const char * filename , const drwav_data_format * pFormat , const drwav_allocation_callbacks * pAllocationCallbacks )
{
return drwav_init_file_write__internal ( pWav , filename , pFormat , 0 , DRWAV_FALSE , pAllocationCallbacks ) ;
}
DRWAV_API drwav_bool32 drwav_init_file_write_sequential ( drwav * pWav , const char * filename , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , const drwav_allocation_callbacks * pAllocationCallbacks )
{
return drwav_init_file_write__internal ( pWav , filename , pFormat , totalSampleCount , DRWAV_TRUE , pAllocationCallbacks ) ;
}
DRWAV_API drwav_bool32 drwav_init_file_write_sequential_pcm_frames ( drwav * pWav , const char * filename , const drwav_data_format * pFormat , drwav_uint64 totalPCMFrameCount , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( pFormat = = NULL ) {
return DRWAV_FALSE ;
}
return drwav_init_file_write_sequential ( pWav , filename , pFormat , totalPCMFrameCount * pFormat - > channels , pAllocationCallbacks ) ;
}
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# ifndef DR_WAV_NO_WCHAR
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DRWAV_API drwav_bool32 drwav_init_file_write_w ( drwav * pWav , const wchar_t * filename , const drwav_data_format * pFormat , const drwav_allocation_callbacks * pAllocationCallbacks )
{
return drwav_init_file_write_w__internal ( pWav , filename , pFormat , 0 , DRWAV_FALSE , pAllocationCallbacks ) ;
}
DRWAV_API drwav_bool32 drwav_init_file_write_sequential_w ( drwav * pWav , const wchar_t * filename , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , const drwav_allocation_callbacks * pAllocationCallbacks )
{
return drwav_init_file_write_w__internal ( pWav , filename , pFormat , totalSampleCount , DRWAV_TRUE , pAllocationCallbacks ) ;
}
DRWAV_API drwav_bool32 drwav_init_file_write_sequential_pcm_frames_w ( drwav * pWav , const wchar_t * filename , const drwav_data_format * pFormat , drwav_uint64 totalPCMFrameCount , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( pFormat = = NULL ) {
return DRWAV_FALSE ;
}
return drwav_init_file_write_sequential_w ( pWav , filename , pFormat , totalPCMFrameCount * pFormat - > channels , pAllocationCallbacks ) ;
}
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# endif
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# endif /* DR_WAV_NO_STDIO */
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DRWAV_PRIVATE size_t drwav__on_read_memory ( void * pUserData , void * pBufferOut , size_t bytesToRead )
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{
drwav * pWav = ( drwav * ) pUserData ;
size_t bytesRemaining ;
DRWAV_ASSERT ( pWav ! = NULL ) ;
DRWAV_ASSERT ( pWav - > memoryStream . dataSize > = pWav - > memoryStream . currentReadPos ) ;
bytesRemaining = pWav - > memoryStream . dataSize - pWav - > memoryStream . currentReadPos ;
if ( bytesToRead > bytesRemaining ) {
bytesToRead = bytesRemaining ;
}
if ( bytesToRead > 0 ) {
DRWAV_COPY_MEMORY ( pBufferOut , pWav - > memoryStream . data + pWav - > memoryStream . currentReadPos , bytesToRead ) ;
pWav - > memoryStream . currentReadPos + = bytesToRead ;
}
return bytesToRead ;
}
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DRWAV_PRIVATE drwav_bool32 drwav__on_seek_memory ( void * pUserData , int offset , drwav_seek_origin origin )
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{
drwav * pWav = ( drwav * ) pUserData ;
DRWAV_ASSERT ( pWav ! = NULL ) ;
if ( origin = = drwav_seek_origin_current ) {
if ( offset > 0 ) {
if ( pWav - > memoryStream . currentReadPos + offset > pWav - > memoryStream . dataSize ) {
return DRWAV_FALSE ; /* Trying to seek too far forward. */
}
} else {
if ( pWav - > memoryStream . currentReadPos < ( size_t ) - offset ) {
return DRWAV_FALSE ; /* Trying to seek too far backwards. */
}
}
/* This will never underflow thanks to the clamps above. */
pWav - > memoryStream . currentReadPos + = offset ;
} else {
if ( ( drwav_uint32 ) offset < = pWav - > memoryStream . dataSize ) {
pWav - > memoryStream . currentReadPos = offset ;
} else {
return DRWAV_FALSE ; /* Trying to seek too far forward. */
}
}
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return DRWAV_TRUE ;
}
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DRWAV_PRIVATE size_t drwav__on_write_memory ( void * pUserData , const void * pDataIn , size_t bytesToWrite )
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{
drwav * pWav = ( drwav * ) pUserData ;
size_t bytesRemaining ;
DRWAV_ASSERT ( pWav ! = NULL ) ;
DRWAV_ASSERT ( pWav - > memoryStreamWrite . dataCapacity > = pWav - > memoryStreamWrite . currentWritePos ) ;
bytesRemaining = pWav - > memoryStreamWrite . dataCapacity - pWav - > memoryStreamWrite . currentWritePos ;
if ( bytesRemaining < bytesToWrite ) {
/* Need to reallocate. */
void * pNewData ;
size_t newDataCapacity = ( pWav - > memoryStreamWrite . dataCapacity = = 0 ) ? 256 : pWav - > memoryStreamWrite . dataCapacity * 2 ;
/* If doubling wasn't enough, just make it the minimum required size to write the data. */
if ( ( newDataCapacity - pWav - > memoryStreamWrite . currentWritePos ) < bytesToWrite ) {
newDataCapacity = pWav - > memoryStreamWrite . currentWritePos + bytesToWrite ;
}
pNewData = drwav__realloc_from_callbacks ( * pWav - > memoryStreamWrite . ppData , newDataCapacity , pWav - > memoryStreamWrite . dataCapacity , & pWav - > allocationCallbacks ) ;
if ( pNewData = = NULL ) {
return 0 ;
}
* pWav - > memoryStreamWrite . ppData = pNewData ;
pWav - > memoryStreamWrite . dataCapacity = newDataCapacity ;
}
DRWAV_COPY_MEMORY ( ( ( drwav_uint8 * ) ( * pWav - > memoryStreamWrite . ppData ) ) + pWav - > memoryStreamWrite . currentWritePos , pDataIn , bytesToWrite ) ;
pWav - > memoryStreamWrite . currentWritePos + = bytesToWrite ;
if ( pWav - > memoryStreamWrite . dataSize < pWav - > memoryStreamWrite . currentWritePos ) {
pWav - > memoryStreamWrite . dataSize = pWav - > memoryStreamWrite . currentWritePos ;
}
* pWav - > memoryStreamWrite . pDataSize = pWav - > memoryStreamWrite . dataSize ;
return bytesToWrite ;
}
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DRWAV_PRIVATE drwav_bool32 drwav__on_seek_memory_write ( void * pUserData , int offset , drwav_seek_origin origin )
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{
drwav * pWav = ( drwav * ) pUserData ;
DRWAV_ASSERT ( pWav ! = NULL ) ;
if ( origin = = drwav_seek_origin_current ) {
if ( offset > 0 ) {
if ( pWav - > memoryStreamWrite . currentWritePos + offset > pWav - > memoryStreamWrite . dataSize ) {
offset = ( int ) ( pWav - > memoryStreamWrite . dataSize - pWav - > memoryStreamWrite . currentWritePos ) ; /* Trying to seek too far forward. */
}
} else {
if ( pWav - > memoryStreamWrite . currentWritePos < ( size_t ) - offset ) {
offset = - ( int ) pWav - > memoryStreamWrite . currentWritePos ; /* Trying to seek too far backwards. */
}
}
/* This will never underflow thanks to the clamps above. */
pWav - > memoryStreamWrite . currentWritePos + = offset ;
} else {
if ( ( drwav_uint32 ) offset < = pWav - > memoryStreamWrite . dataSize ) {
pWav - > memoryStreamWrite . currentWritePos = offset ;
} else {
pWav - > memoryStreamWrite . currentWritePos = pWav - > memoryStreamWrite . dataSize ; /* Trying to seek too far forward. */
}
}
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return DRWAV_TRUE ;
}
DRWAV_API drwav_bool32 drwav_init_memory ( drwav * pWav , const void * data , size_t dataSize , const drwav_allocation_callbacks * pAllocationCallbacks )
{
return drwav_init_memory_ex ( pWav , data , dataSize , NULL , NULL , 0 , pAllocationCallbacks ) ;
}
DRWAV_API drwav_bool32 drwav_init_memory_ex ( drwav * pWav , const void * data , size_t dataSize , drwav_chunk_proc onChunk , void * pChunkUserData , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( data = = NULL | | dataSize = = 0 ) {
return DRWAV_FALSE ;
}
if ( ! drwav_preinit ( pWav , drwav__on_read_memory , drwav__on_seek_memory , pWav , pAllocationCallbacks ) ) {
return DRWAV_FALSE ;
}
pWav - > memoryStream . data = ( const drwav_uint8 * ) data ;
pWav - > memoryStream . dataSize = dataSize ;
pWav - > memoryStream . currentReadPos = 0 ;
return drwav_init__internal ( pWav , onChunk , pChunkUserData , flags ) ;
}
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DRWAV_API drwav_bool32 drwav_init_memory_with_metadata ( drwav * pWav , const void * data , size_t dataSize , drwav_uint32 flags , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( data = = NULL | | dataSize = = 0 ) {
return DRWAV_FALSE ;
}
if ( ! drwav_preinit ( pWav , drwav__on_read_memory , drwav__on_seek_memory , pWav , pAllocationCallbacks ) ) {
return DRWAV_FALSE ;
}
pWav - > memoryStream . data = ( const drwav_uint8 * ) data ;
pWav - > memoryStream . dataSize = dataSize ;
pWav - > memoryStream . currentReadPos = 0 ;
return drwav_init__internal ( pWav , NULL , NULL , flags | DRWAV_WITH_METADATA ) ;
}
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DRWAV_PRIVATE drwav_bool32 drwav_init_memory_write__internal ( drwav * pWav , void * * ppData , size_t * pDataSize , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , drwav_bool32 isSequential , const drwav_allocation_callbacks * pAllocationCallbacks )
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{
if ( ppData = = NULL | | pDataSize = = NULL ) {
return DRWAV_FALSE ;
}
* ppData = NULL ; /* Important because we're using realloc()! */
* pDataSize = 0 ;
if ( ! drwav_preinit_write ( pWav , pFormat , isSequential , drwav__on_write_memory , drwav__on_seek_memory_write , pWav , pAllocationCallbacks ) ) {
return DRWAV_FALSE ;
}
pWav - > memoryStreamWrite . ppData = ppData ;
pWav - > memoryStreamWrite . pDataSize = pDataSize ;
pWav - > memoryStreamWrite . dataSize = 0 ;
pWav - > memoryStreamWrite . dataCapacity = 0 ;
pWav - > memoryStreamWrite . currentWritePos = 0 ;
return drwav_init_write__internal ( pWav , pFormat , totalSampleCount ) ;
}
DRWAV_API drwav_bool32 drwav_init_memory_write ( drwav * pWav , void * * ppData , size_t * pDataSize , const drwav_data_format * pFormat , const drwav_allocation_callbacks * pAllocationCallbacks )
{
return drwav_init_memory_write__internal ( pWav , ppData , pDataSize , pFormat , 0 , DRWAV_FALSE , pAllocationCallbacks ) ;
}
DRWAV_API drwav_bool32 drwav_init_memory_write_sequential ( drwav * pWav , void * * ppData , size_t * pDataSize , const drwav_data_format * pFormat , drwav_uint64 totalSampleCount , const drwav_allocation_callbacks * pAllocationCallbacks )
{
return drwav_init_memory_write__internal ( pWav , ppData , pDataSize , pFormat , totalSampleCount , DRWAV_TRUE , pAllocationCallbacks ) ;
}
DRWAV_API drwav_bool32 drwav_init_memory_write_sequential_pcm_frames ( drwav * pWav , void * * ppData , size_t * pDataSize , const drwav_data_format * pFormat , drwav_uint64 totalPCMFrameCount , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( pFormat = = NULL ) {
return DRWAV_FALSE ;
}
return drwav_init_memory_write_sequential ( pWav , ppData , pDataSize , pFormat , totalPCMFrameCount * pFormat - > channels , pAllocationCallbacks ) ;
}
DRWAV_API drwav_result drwav_uninit ( drwav * pWav )
{
drwav_result result = DRWAV_SUCCESS ;
if ( pWav = = NULL ) {
return DRWAV_INVALID_ARGS ;
}
/*
If the drwav object was opened in write mode we ' ll need to finalize a few things :
- Make sure the " data " chunk is aligned to 16 - bits for RIFF containers , or 64 bits for W64 containers .
- Set the size of the " data " chunk .
*/
if ( pWav - > onWrite ! = NULL ) {
drwav_uint32 paddingSize = 0 ;
/* Padding. Do not adjust pWav->dataChunkDataSize - this should not include the padding. */
if ( pWav - > container = = drwav_container_riff | | pWav - > container = = drwav_container_rf64 ) {
paddingSize = drwav__chunk_padding_size_riff ( pWav - > dataChunkDataSize ) ;
} else {
paddingSize = drwav__chunk_padding_size_w64 ( pWav - > dataChunkDataSize ) ;
}
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if ( paddingSize > 0 ) {
drwav_uint64 paddingData = 0 ;
drwav__write ( pWav , & paddingData , paddingSize ) ; /* Byte order does not matter for this. */
}
/*
Chunk sizes . When using sequential mode , these will have been filled in at initialization time . We only need
to do this when using non - sequential mode .
*/
if ( pWav - > onSeek & & ! pWav - > isSequentialWrite ) {
if ( pWav - > container = = drwav_container_riff ) {
/* The "RIFF" chunk size. */
if ( pWav - > onSeek ( pWav - > pUserData , 4 , drwav_seek_origin_start ) ) {
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drwav_uint32 riffChunkSize = drwav__riff_chunk_size_riff ( pWav - > dataChunkDataSize , pWav - > pMetadata , pWav - > metadataCount ) ;
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drwav__write_u32ne_to_le ( pWav , riffChunkSize ) ;
}
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/* The "data" chunk size. */
if ( pWav - > onSeek ( pWav - > pUserData , ( int ) pWav - > dataChunkDataPos - 4 , drwav_seek_origin_start ) ) {
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drwav_uint32 dataChunkSize = drwav__data_chunk_size_riff ( pWav - > dataChunkDataSize ) ;
drwav__write_u32ne_to_le ( pWav , dataChunkSize ) ;
}
} else if ( pWav - > container = = drwav_container_w64 ) {
/* The "RIFF" chunk size. */
if ( pWav - > onSeek ( pWav - > pUserData , 16 , drwav_seek_origin_start ) ) {
drwav_uint64 riffChunkSize = drwav__riff_chunk_size_w64 ( pWav - > dataChunkDataSize ) ;
drwav__write_u64ne_to_le ( pWav , riffChunkSize ) ;
}
/* The "data" chunk size. */
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if ( pWav - > onSeek ( pWav - > pUserData , ( int ) pWav - > dataChunkDataPos - 8 , drwav_seek_origin_start ) ) {
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drwav_uint64 dataChunkSize = drwav__data_chunk_size_w64 ( pWav - > dataChunkDataSize ) ;
drwav__write_u64ne_to_le ( pWav , dataChunkSize ) ;
}
} else if ( pWav - > container = = drwav_container_rf64 ) {
/* We only need to update the ds64 chunk. The "RIFF" and "data" chunks always have their sizes set to 0xFFFFFFFF for RF64. */
int ds64BodyPos = 12 + 8 ;
/* The "RIFF" chunk size. */
if ( pWav - > onSeek ( pWav - > pUserData , ds64BodyPos + 0 , drwav_seek_origin_start ) ) {
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drwav_uint64 riffChunkSize = drwav__riff_chunk_size_rf64 ( pWav - > dataChunkDataSize , pWav - > pMetadata , pWav - > metadataCount ) ;
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drwav__write_u64ne_to_le ( pWav , riffChunkSize ) ;
}
/* The "data" chunk size. */
if ( pWav - > onSeek ( pWav - > pUserData , ds64BodyPos + 8 , drwav_seek_origin_start ) ) {
drwav_uint64 dataChunkSize = drwav__data_chunk_size_rf64 ( pWav - > dataChunkDataSize ) ;
drwav__write_u64ne_to_le ( pWav , dataChunkSize ) ;
}
}
}
/* Validation for sequential mode. */
if ( pWav - > isSequentialWrite ) {
if ( pWav - > dataChunkDataSize ! = pWav - > dataChunkDataSizeTargetWrite ) {
result = DRWAV_INVALID_FILE ;
}
}
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} else {
drwav_free ( pWav - > pMetadata , & pWav - > allocationCallbacks ) ;
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}
# ifndef DR_WAV_NO_STDIO
/*
If we opened the file with drwav_open_file ( ) we will want to close the file handle . We can know whether or not drwav_open_file ( )
was used by looking at the onRead and onSeek callbacks .
*/
if ( pWav - > onRead = = drwav__on_read_stdio | | pWav - > onWrite = = drwav__on_write_stdio ) {
fclose ( ( FILE * ) pWav - > pUserData ) ;
}
# endif
return result ;
}
DRWAV_API size_t drwav_read_raw ( drwav * pWav , size_t bytesToRead , void * pBufferOut )
{
size_t bytesRead ;
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drwav_uint32 bytesPerFrame ;
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if ( pWav = = NULL | | bytesToRead = = 0 ) {
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return 0 ; /* Invalid args. */
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}
if ( bytesToRead > pWav - > bytesRemaining ) {
bytesToRead = ( size_t ) pWav - > bytesRemaining ;
}
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if ( bytesToRead = = 0 ) {
return 0 ; /* At end. */
}
bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
return 0 ; /* Could not determine the bytes per frame. */
}
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if ( pBufferOut ! = NULL ) {
bytesRead = pWav - > onRead ( pWav - > pUserData , pBufferOut , bytesToRead ) ;
} else {
/* We need to seek. If we fail, we need to read-and-discard to make sure we get a good byte count. */
bytesRead = 0 ;
while ( bytesRead < bytesToRead ) {
size_t bytesToSeek = ( bytesToRead - bytesRead ) ;
if ( bytesToSeek > 0x7FFFFFFF ) {
bytesToSeek = 0x7FFFFFFF ;
}
if ( pWav - > onSeek ( pWav - > pUserData , ( int ) bytesToSeek , drwav_seek_origin_current ) = = DRWAV_FALSE ) {
break ;
}
bytesRead + = bytesToSeek ;
}
/* When we get here we may need to read-and-discard some data. */
while ( bytesRead < bytesToRead ) {
drwav_uint8 buffer [ 4096 ] ;
size_t bytesSeeked ;
size_t bytesToSeek = ( bytesToRead - bytesRead ) ;
if ( bytesToSeek > sizeof ( buffer ) ) {
bytesToSeek = sizeof ( buffer ) ;
}
bytesSeeked = pWav - > onRead ( pWav - > pUserData , buffer , bytesToSeek ) ;
bytesRead + = bytesSeeked ;
if ( bytesSeeked < bytesToSeek ) {
break ; /* Reached the end. */
}
}
}
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pWav - > readCursorInPCMFrames + = bytesRead / bytesPerFrame ;
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pWav - > bytesRemaining - = bytesRead ;
return bytesRead ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_le ( drwav * pWav , drwav_uint64 framesToRead , void * pBufferOut )
{
drwav_uint32 bytesPerFrame ;
drwav_uint64 bytesToRead ; /* Intentionally uint64 instead of size_t so we can do a check that we're not reading too much on 32-bit builds. */
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drwav_uint64 framesRemainingInFile ;
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if ( pWav = = NULL | | framesToRead = = 0 ) {
return 0 ;
}
/* Cannot use this function for compressed formats. */
if ( drwav__is_compressed_format_tag ( pWav - > translatedFormatTag ) ) {
return 0 ;
}
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framesRemainingInFile = pWav - > totalPCMFrameCount - pWav - > readCursorInPCMFrames ;
if ( framesToRead > framesRemainingInFile ) {
framesToRead = framesRemainingInFile ;
}
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bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
return 0 ;
}
/* Don't try to read more samples than can potentially fit in the output buffer. */
bytesToRead = framesToRead * bytesPerFrame ;
if ( bytesToRead > DRWAV_SIZE_MAX ) {
bytesToRead = ( DRWAV_SIZE_MAX / bytesPerFrame ) * bytesPerFrame ; /* Round the number of bytes to read to a clean frame boundary. */
}
/*
Doing an explicit check here just to make it clear that we don ' t want to be attempt to read anything if there ' s no bytes to read . There
* could * be a time where it evaluates to 0 due to overflowing .
*/
if ( bytesToRead = = 0 ) {
return 0 ;
}
return drwav_read_raw ( pWav , ( size_t ) bytesToRead , pBufferOut ) / bytesPerFrame ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_be ( drwav * pWav , drwav_uint64 framesToRead , void * pBufferOut )
{
drwav_uint64 framesRead = drwav_read_pcm_frames_le ( pWav , framesToRead , pBufferOut ) ;
if ( pBufferOut ! = NULL ) {
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drwav_uint32 bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
return 0 ; /* Could not get the bytes per frame which means bytes per sample cannot be determined and we don't know how to byte swap. */
}
drwav__bswap_samples ( pBufferOut , framesRead * pWav - > channels , bytesPerFrame / pWav - > channels ) ;
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}
return framesRead ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames ( drwav * pWav , drwav_uint64 framesToRead , void * pBufferOut )
{
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drwav_uint64 framesRead = 0 ;
if ( drwav_is_container_be ( pWav - > container ) ) {
/*
Special case for AIFF . AIFF is a big - endian encoded format , but it supports a format that is
PCM in little - endian encoding . In this case , we fall through this branch and treate it as
little - endian .
*/
if ( pWav - > container ! = drwav_container_aiff | | pWav - > aiff . isLE = = DRWAV_FALSE ) {
if ( drwav__is_little_endian ( ) ) {
framesRead = drwav_read_pcm_frames_be ( pWav , framesToRead , pBufferOut ) ;
} else {
framesRead = drwav_read_pcm_frames_le ( pWav , framesToRead , pBufferOut ) ;
}
goto post_process ;
}
}
/* Getting here means the data should be considered little-endian. */
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if ( drwav__is_little_endian ( ) ) {
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framesRead = drwav_read_pcm_frames_le ( pWav , framesToRead , pBufferOut ) ;
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} else {
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framesRead = drwav_read_pcm_frames_be ( pWav , framesToRead , pBufferOut ) ;
}
/*
Here is where we check if we need to do a signed / unsigned conversion for AIFF . The reason we need to do this
is because dr_wav always assumes an 8 - bit sample is unsigned , whereas AIFF can have signed 8 - bit formats .
*/
post_process :
{
if ( pWav - > container = = drwav_container_aiff & & pWav - > bitsPerSample = = 8 & & pWav - > aiff . isUnsigned = = DRWAV_FALSE ) {
if ( pBufferOut ! = NULL ) {
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < framesRead * pWav - > channels ; iSample + = 1 ) {
( ( drwav_uint8 * ) pBufferOut ) [ iSample ] + = 128 ;
}
}
}
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}
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return framesRead ;
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}
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DRWAV_PRIVATE drwav_bool32 drwav_seek_to_first_pcm_frame ( drwav * pWav )
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{
if ( pWav - > onWrite ! = NULL ) {
return DRWAV_FALSE ; /* No seeking in write mode. */
}
if ( ! pWav - > onSeek ( pWav - > pUserData , ( int ) pWav - > dataChunkDataPos , drwav_seek_origin_start ) ) {
return DRWAV_FALSE ;
}
if ( drwav__is_compressed_format_tag ( pWav - > translatedFormatTag ) ) {
/* Cached data needs to be cleared for compressed formats. */
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ADPCM ) {
DRWAV_ZERO_OBJECT ( & pWav - > msadpcm ) ;
} else if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_DVI_ADPCM ) {
DRWAV_ZERO_OBJECT ( & pWav - > ima ) ;
} else {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* If this assertion is triggered it means I've implemented a new compressed format but forgot to add a branch for it here. */
}
}
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pWav - > readCursorInPCMFrames = 0 ;
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pWav - > bytesRemaining = pWav - > dataChunkDataSize ;
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return DRWAV_TRUE ;
}
DRWAV_API drwav_bool32 drwav_seek_to_pcm_frame ( drwav * pWav , drwav_uint64 targetFrameIndex )
{
/* Seeking should be compatible with wave files > 2GB. */
if ( pWav = = NULL | | pWav - > onSeek = = NULL ) {
return DRWAV_FALSE ;
}
/* No seeking in write mode. */
if ( pWav - > onWrite ! = NULL ) {
return DRWAV_FALSE ;
}
/* If there are no samples, just return DRWAV_TRUE without doing anything. */
if ( pWav - > totalPCMFrameCount = = 0 ) {
return DRWAV_TRUE ;
}
/* Make sure the sample is clamped. */
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if ( targetFrameIndex > pWav - > totalPCMFrameCount ) {
targetFrameIndex = pWav - > totalPCMFrameCount ;
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}
/*
For compressed formats we just use a slow generic seek . If we are seeking forward we just seek forward . If we are going backwards we need
to seek back to the start .
*/
if ( drwav__is_compressed_format_tag ( pWav - > translatedFormatTag ) ) {
/* TODO: This can be optimized. */
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/*
If we ' re seeking forward it ' s simple - just keep reading samples until we hit the sample we ' re requesting . If we ' re seeking backwards ,
we first need to seek back to the start and then just do the same thing as a forward seek .
*/
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if ( targetFrameIndex < pWav - > readCursorInPCMFrames ) {
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if ( ! drwav_seek_to_first_pcm_frame ( pWav ) ) {
return DRWAV_FALSE ;
}
}
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if ( targetFrameIndex > pWav - > readCursorInPCMFrames ) {
drwav_uint64 offsetInFrames = targetFrameIndex - pWav - > readCursorInPCMFrames ;
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drwav_int16 devnull [ 2048 ] ;
while ( offsetInFrames > 0 ) {
drwav_uint64 framesRead = 0 ;
drwav_uint64 framesToRead = offsetInFrames ;
if ( framesToRead > drwav_countof ( devnull ) / pWav - > channels ) {
framesToRead = drwav_countof ( devnull ) / pWav - > channels ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ADPCM ) {
framesRead = drwav_read_pcm_frames_s16__msadpcm ( pWav , framesToRead , devnull ) ;
} else if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_DVI_ADPCM ) {
framesRead = drwav_read_pcm_frames_s16__ima ( pWav , framesToRead , devnull ) ;
} else {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* If this assertion is triggered it means I've implemented a new compressed format but forgot to add a branch for it here. */
}
if ( framesRead ! = framesToRead ) {
return DRWAV_FALSE ;
}
offsetInFrames - = framesRead ;
}
}
} else {
drwav_uint64 totalSizeInBytes ;
drwav_uint64 currentBytePos ;
drwav_uint64 targetBytePos ;
drwav_uint64 offset ;
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drwav_uint32 bytesPerFrame ;
bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
return DRWAV_FALSE ; /* Not able to calculate offset. */
}
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totalSizeInBytes = pWav - > totalPCMFrameCount * bytesPerFrame ;
/*DRWAV_ASSERT(totalSizeInBytes >= pWav->bytesRemaining);*/
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currentBytePos = totalSizeInBytes - pWav - > bytesRemaining ;
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targetBytePos = targetFrameIndex * bytesPerFrame ;
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if ( currentBytePos < targetBytePos ) {
/* Offset forwards. */
offset = ( targetBytePos - currentBytePos ) ;
} else {
/* Offset backwards. */
if ( ! drwav_seek_to_first_pcm_frame ( pWav ) ) {
return DRWAV_FALSE ;
}
offset = targetBytePos ;
}
while ( offset > 0 ) {
int offset32 = ( ( offset > INT_MAX ) ? INT_MAX : ( int ) offset ) ;
if ( ! pWav - > onSeek ( pWav - > pUserData , offset32 , drwav_seek_origin_current ) ) {
return DRWAV_FALSE ;
}
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pWav - > readCursorInPCMFrames + = offset32 / bytesPerFrame ;
pWav - > bytesRemaining - = offset32 ;
offset - = offset32 ;
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}
}
return DRWAV_TRUE ;
}
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DRWAV_API drwav_result drwav_get_cursor_in_pcm_frames ( drwav * pWav , drwav_uint64 * pCursor )
{
if ( pCursor = = NULL ) {
return DRWAV_INVALID_ARGS ;
}
* pCursor = 0 ; /* Safety. */
if ( pWav = = NULL ) {
return DRWAV_INVALID_ARGS ;
}
* pCursor = pWav - > readCursorInPCMFrames ;
return DRWAV_SUCCESS ;
}
DRWAV_API drwav_result drwav_get_length_in_pcm_frames ( drwav * pWav , drwav_uint64 * pLength )
{
if ( pLength = = NULL ) {
return DRWAV_INVALID_ARGS ;
}
* pLength = 0 ; /* Safety. */
if ( pWav = = NULL ) {
return DRWAV_INVALID_ARGS ;
}
* pLength = pWav - > totalPCMFrameCount ;
return DRWAV_SUCCESS ;
}
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DRWAV_API size_t drwav_write_raw ( drwav * pWav , size_t bytesToWrite , const void * pData )
{
size_t bytesWritten ;
if ( pWav = = NULL | | bytesToWrite = = 0 | | pData = = NULL ) {
return 0 ;
}
bytesWritten = pWav - > onWrite ( pWav - > pUserData , pData , bytesToWrite ) ;
pWav - > dataChunkDataSize + = bytesWritten ;
return bytesWritten ;
}
DRWAV_API drwav_uint64 drwav_write_pcm_frames_le ( drwav * pWav , drwav_uint64 framesToWrite , const void * pData )
{
drwav_uint64 bytesToWrite ;
drwav_uint64 bytesWritten ;
const drwav_uint8 * pRunningData ;
if ( pWav = = NULL | | framesToWrite = = 0 | | pData = = NULL ) {
return 0 ;
}
bytesToWrite = ( ( framesToWrite * pWav - > channels * pWav - > bitsPerSample ) / 8 ) ;
if ( bytesToWrite > DRWAV_SIZE_MAX ) {
return 0 ;
}
bytesWritten = 0 ;
pRunningData = ( const drwav_uint8 * ) pData ;
while ( bytesToWrite > 0 ) {
size_t bytesJustWritten ;
drwav_uint64 bytesToWriteThisIteration ;
bytesToWriteThisIteration = bytesToWrite ;
DRWAV_ASSERT ( bytesToWriteThisIteration < = DRWAV_SIZE_MAX ) ; /* <-- This is checked above. */
bytesJustWritten = drwav_write_raw ( pWav , ( size_t ) bytesToWriteThisIteration , pRunningData ) ;
if ( bytesJustWritten = = 0 ) {
break ;
}
bytesToWrite - = bytesJustWritten ;
bytesWritten + = bytesJustWritten ;
pRunningData + = bytesJustWritten ;
}
return ( bytesWritten * 8 ) / pWav - > bitsPerSample / pWav - > channels ;
}
DRWAV_API drwav_uint64 drwav_write_pcm_frames_be ( drwav * pWav , drwav_uint64 framesToWrite , const void * pData )
{
drwav_uint64 bytesToWrite ;
drwav_uint64 bytesWritten ;
drwav_uint32 bytesPerSample ;
const drwav_uint8 * pRunningData ;
if ( pWav = = NULL | | framesToWrite = = 0 | | pData = = NULL ) {
return 0 ;
}
bytesToWrite = ( ( framesToWrite * pWav - > channels * pWav - > bitsPerSample ) / 8 ) ;
if ( bytesToWrite > DRWAV_SIZE_MAX ) {
return 0 ;
}
bytesWritten = 0 ;
pRunningData = ( const drwav_uint8 * ) pData ;
bytesPerSample = drwav_get_bytes_per_pcm_frame ( pWav ) / pWav - > channels ;
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if ( bytesPerSample = = 0 ) {
return 0 ; /* Cannot determine bytes per sample, or bytes per sample is less than one byte. */
}
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while ( bytesToWrite > 0 ) {
drwav_uint8 temp [ 4096 ] ;
drwav_uint32 sampleCount ;
size_t bytesJustWritten ;
drwav_uint64 bytesToWriteThisIteration ;
bytesToWriteThisIteration = bytesToWrite ;
DRWAV_ASSERT ( bytesToWriteThisIteration < = DRWAV_SIZE_MAX ) ; /* <-- This is checked above. */
/*
WAV files are always little - endian . We need to byte swap on big - endian architectures . Since our input buffer is read - only we need
to use an intermediary buffer for the conversion .
*/
sampleCount = sizeof ( temp ) / bytesPerSample ;
if ( bytesToWriteThisIteration > ( ( drwav_uint64 ) sampleCount ) * bytesPerSample ) {
bytesToWriteThisIteration = ( ( drwav_uint64 ) sampleCount ) * bytesPerSample ;
}
DRWAV_COPY_MEMORY ( temp , pRunningData , ( size_t ) bytesToWriteThisIteration ) ;
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drwav__bswap_samples ( temp , sampleCount , bytesPerSample ) ;
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bytesJustWritten = drwav_write_raw ( pWav , ( size_t ) bytesToWriteThisIteration , temp ) ;
if ( bytesJustWritten = = 0 ) {
break ;
}
bytesToWrite - = bytesJustWritten ;
bytesWritten + = bytesJustWritten ;
pRunningData + = bytesJustWritten ;
}
return ( bytesWritten * 8 ) / pWav - > bitsPerSample / pWav - > channels ;
}
DRWAV_API drwav_uint64 drwav_write_pcm_frames ( drwav * pWav , drwav_uint64 framesToWrite , const void * pData )
{
if ( drwav__is_little_endian ( ) ) {
return drwav_write_pcm_frames_le ( pWav , framesToWrite , pData ) ;
} else {
return drwav_write_pcm_frames_be ( pWav , framesToWrite , pData ) ;
}
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s16__msadpcm ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut )
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{
drwav_uint64 totalFramesRead = 0 ;
DRWAV_ASSERT ( pWav ! = NULL ) ;
DRWAV_ASSERT ( framesToRead > 0 ) ;
/* TODO: Lots of room for optimization here. */
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while ( pWav - > readCursorInPCMFrames < pWav - > totalPCMFrameCount ) {
DRWAV_ASSERT ( framesToRead > 0 ) ; /* This loop iteration will never get hit with framesToRead == 0 because it's asserted at the top, and we check for 0 inside the loop just below. */
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/* If there are no cached frames we need to load a new block. */
if ( pWav - > msadpcm . cachedFrameCount = = 0 & & pWav - > msadpcm . bytesRemainingInBlock = = 0 ) {
if ( pWav - > channels = = 1 ) {
/* Mono. */
drwav_uint8 header [ 7 ] ;
if ( pWav - > onRead ( pWav - > pUserData , header , sizeof ( header ) ) ! = sizeof ( header ) ) {
return totalFramesRead ;
}
pWav - > msadpcm . bytesRemainingInBlock = pWav - > fmt . blockAlign - sizeof ( header ) ;
pWav - > msadpcm . predictor [ 0 ] = header [ 0 ] ;
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pWav - > msadpcm . delta [ 0 ] = drwav_bytes_to_s16 ( header + 1 ) ;
pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] = ( drwav_int32 ) drwav_bytes_to_s16 ( header + 3 ) ;
pWav - > msadpcm . prevFrames [ 0 ] [ 0 ] = ( drwav_int32 ) drwav_bytes_to_s16 ( header + 5 ) ;
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pWav - > msadpcm . cachedFrames [ 2 ] = pWav - > msadpcm . prevFrames [ 0 ] [ 0 ] ;
pWav - > msadpcm . cachedFrames [ 3 ] = pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] ;
pWav - > msadpcm . cachedFrameCount = 2 ;
} else {
/* Stereo. */
drwav_uint8 header [ 14 ] ;
if ( pWav - > onRead ( pWav - > pUserData , header , sizeof ( header ) ) ! = sizeof ( header ) ) {
return totalFramesRead ;
}
pWav - > msadpcm . bytesRemainingInBlock = pWav - > fmt . blockAlign - sizeof ( header ) ;
pWav - > msadpcm . predictor [ 0 ] = header [ 0 ] ;
pWav - > msadpcm . predictor [ 1 ] = header [ 1 ] ;
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pWav - > msadpcm . delta [ 0 ] = drwav_bytes_to_s16 ( header + 2 ) ;
pWav - > msadpcm . delta [ 1 ] = drwav_bytes_to_s16 ( header + 4 ) ;
pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] = ( drwav_int32 ) drwav_bytes_to_s16 ( header + 6 ) ;
pWav - > msadpcm . prevFrames [ 1 ] [ 1 ] = ( drwav_int32 ) drwav_bytes_to_s16 ( header + 8 ) ;
pWav - > msadpcm . prevFrames [ 0 ] [ 0 ] = ( drwav_int32 ) drwav_bytes_to_s16 ( header + 10 ) ;
pWav - > msadpcm . prevFrames [ 1 ] [ 0 ] = ( drwav_int32 ) drwav_bytes_to_s16 ( header + 12 ) ;
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pWav - > msadpcm . cachedFrames [ 0 ] = pWav - > msadpcm . prevFrames [ 0 ] [ 0 ] ;
pWav - > msadpcm . cachedFrames [ 1 ] = pWav - > msadpcm . prevFrames [ 1 ] [ 0 ] ;
pWav - > msadpcm . cachedFrames [ 2 ] = pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] ;
pWav - > msadpcm . cachedFrames [ 3 ] = pWav - > msadpcm . prevFrames [ 1 ] [ 1 ] ;
pWav - > msadpcm . cachedFrameCount = 2 ;
}
}
/* Output anything that's cached. */
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while ( framesToRead > 0 & & pWav - > msadpcm . cachedFrameCount > 0 & & pWav - > readCursorInPCMFrames < pWav - > totalPCMFrameCount ) {
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if ( pBufferOut ! = NULL ) {
drwav_uint32 iSample = 0 ;
for ( iSample = 0 ; iSample < pWav - > channels ; iSample + = 1 ) {
pBufferOut [ iSample ] = ( drwav_int16 ) pWav - > msadpcm . cachedFrames [ ( drwav_countof ( pWav - > msadpcm . cachedFrames ) - ( pWav - > msadpcm . cachedFrameCount * pWav - > channels ) ) + iSample ] ;
}
pBufferOut + = pWav - > channels ;
}
framesToRead - = 1 ;
totalFramesRead + = 1 ;
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pWav - > readCursorInPCMFrames + = 1 ;
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pWav - > msadpcm . cachedFrameCount - = 1 ;
}
if ( framesToRead = = 0 ) {
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break ;
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}
/*
If there ' s nothing left in the cache , just go ahead and load more . If there ' s nothing left to load in the current block we just continue to the next
loop iteration which will trigger the loading of a new block .
*/
if ( pWav - > msadpcm . cachedFrameCount = = 0 ) {
if ( pWav - > msadpcm . bytesRemainingInBlock = = 0 ) {
continue ;
} else {
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static drwav_int32 adaptationTable [ ] = {
230 , 230 , 230 , 230 , 307 , 409 , 512 , 614 ,
768 , 614 , 512 , 409 , 307 , 230 , 230 , 230
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} ;
static drwav_int32 coeff1Table [ ] = { 256 , 512 , 0 , 192 , 240 , 460 , 392 } ;
static drwav_int32 coeff2Table [ ] = { 0 , - 256 , 0 , 64 , 0 , - 208 , - 232 } ;
drwav_uint8 nibbles ;
drwav_int32 nibble0 ;
drwav_int32 nibble1 ;
if ( pWav - > onRead ( pWav - > pUserData , & nibbles , 1 ) ! = 1 ) {
return totalFramesRead ;
}
pWav - > msadpcm . bytesRemainingInBlock - = 1 ;
/* TODO: Optimize away these if statements. */
nibble0 = ( ( nibbles & 0xF0 ) > > 4 ) ; if ( ( nibbles & 0x80 ) ) { nibble0 | = 0xFFFFFFF0UL ; }
nibble1 = ( ( nibbles & 0x0F ) > > 0 ) ; if ( ( nibbles & 0x08 ) ) { nibble1 | = 0xFFFFFFF0UL ; }
if ( pWav - > channels = = 1 ) {
/* Mono. */
drwav_int32 newSample0 ;
drwav_int32 newSample1 ;
newSample0 = ( ( pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] * coeff1Table [ pWav - > msadpcm . predictor [ 0 ] ] ) + ( pWav - > msadpcm . prevFrames [ 0 ] [ 0 ] * coeff2Table [ pWav - > msadpcm . predictor [ 0 ] ] ) ) > > 8 ;
newSample0 + = nibble0 * pWav - > msadpcm . delta [ 0 ] ;
newSample0 = drwav_clamp ( newSample0 , - 32768 , 32767 ) ;
pWav - > msadpcm . delta [ 0 ] = ( adaptationTable [ ( ( nibbles & 0xF0 ) > > 4 ) ] * pWav - > msadpcm . delta [ 0 ] ) > > 8 ;
if ( pWav - > msadpcm . delta [ 0 ] < 16 ) {
pWav - > msadpcm . delta [ 0 ] = 16 ;
}
pWav - > msadpcm . prevFrames [ 0 ] [ 0 ] = pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] ;
pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] = newSample0 ;
newSample1 = ( ( pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] * coeff1Table [ pWav - > msadpcm . predictor [ 0 ] ] ) + ( pWav - > msadpcm . prevFrames [ 0 ] [ 0 ] * coeff2Table [ pWav - > msadpcm . predictor [ 0 ] ] ) ) > > 8 ;
newSample1 + = nibble1 * pWav - > msadpcm . delta [ 0 ] ;
newSample1 = drwav_clamp ( newSample1 , - 32768 , 32767 ) ;
pWav - > msadpcm . delta [ 0 ] = ( adaptationTable [ ( ( nibbles & 0x0F ) > > 0 ) ] * pWav - > msadpcm . delta [ 0 ] ) > > 8 ;
if ( pWav - > msadpcm . delta [ 0 ] < 16 ) {
pWav - > msadpcm . delta [ 0 ] = 16 ;
}
pWav - > msadpcm . prevFrames [ 0 ] [ 0 ] = pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] ;
pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] = newSample1 ;
pWav - > msadpcm . cachedFrames [ 2 ] = newSample0 ;
pWav - > msadpcm . cachedFrames [ 3 ] = newSample1 ;
pWav - > msadpcm . cachedFrameCount = 2 ;
} else {
/* Stereo. */
drwav_int32 newSample0 ;
drwav_int32 newSample1 ;
/* Left. */
newSample0 = ( ( pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] * coeff1Table [ pWav - > msadpcm . predictor [ 0 ] ] ) + ( pWav - > msadpcm . prevFrames [ 0 ] [ 0 ] * coeff2Table [ pWav - > msadpcm . predictor [ 0 ] ] ) ) > > 8 ;
newSample0 + = nibble0 * pWav - > msadpcm . delta [ 0 ] ;
newSample0 = drwav_clamp ( newSample0 , - 32768 , 32767 ) ;
pWav - > msadpcm . delta [ 0 ] = ( adaptationTable [ ( ( nibbles & 0xF0 ) > > 4 ) ] * pWav - > msadpcm . delta [ 0 ] ) > > 8 ;
if ( pWav - > msadpcm . delta [ 0 ] < 16 ) {
pWav - > msadpcm . delta [ 0 ] = 16 ;
}
pWav - > msadpcm . prevFrames [ 0 ] [ 0 ] = pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] ;
pWav - > msadpcm . prevFrames [ 0 ] [ 1 ] = newSample0 ;
/* Right. */
newSample1 = ( ( pWav - > msadpcm . prevFrames [ 1 ] [ 1 ] * coeff1Table [ pWav - > msadpcm . predictor [ 1 ] ] ) + ( pWav - > msadpcm . prevFrames [ 1 ] [ 0 ] * coeff2Table [ pWav - > msadpcm . predictor [ 1 ] ] ) ) > > 8 ;
newSample1 + = nibble1 * pWav - > msadpcm . delta [ 1 ] ;
newSample1 = drwav_clamp ( newSample1 , - 32768 , 32767 ) ;
pWav - > msadpcm . delta [ 1 ] = ( adaptationTable [ ( ( nibbles & 0x0F ) > > 0 ) ] * pWav - > msadpcm . delta [ 1 ] ) > > 8 ;
if ( pWav - > msadpcm . delta [ 1 ] < 16 ) {
pWav - > msadpcm . delta [ 1 ] = 16 ;
}
pWav - > msadpcm . prevFrames [ 1 ] [ 0 ] = pWav - > msadpcm . prevFrames [ 1 ] [ 1 ] ;
pWav - > msadpcm . prevFrames [ 1 ] [ 1 ] = newSample1 ;
pWav - > msadpcm . cachedFrames [ 2 ] = newSample0 ;
pWav - > msadpcm . cachedFrames [ 3 ] = newSample1 ;
pWav - > msadpcm . cachedFrameCount = 1 ;
}
}
}
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s16__ima ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut )
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{
drwav_uint64 totalFramesRead = 0 ;
drwav_uint32 iChannel ;
static drwav_int32 indexTable [ 16 ] = {
- 1 , - 1 , - 1 , - 1 , 2 , 4 , 6 , 8 ,
- 1 , - 1 , - 1 , - 1 , 2 , 4 , 6 , 8
} ;
static drwav_int32 stepTable [ 89 ] = {
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7 , 8 , 9 , 10 , 11 , 12 , 13 , 14 , 16 , 17 ,
19 , 21 , 23 , 25 , 28 , 31 , 34 , 37 , 41 , 45 ,
50 , 55 , 60 , 66 , 73 , 80 , 88 , 97 , 107 , 118 ,
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130 , 143 , 157 , 173 , 190 , 209 , 230 , 253 , 279 , 307 ,
337 , 371 , 408 , 449 , 494 , 544 , 598 , 658 , 724 , 796 ,
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876 , 963 , 1060 , 1166 , 1282 , 1411 , 1552 , 1707 , 1878 , 2066 ,
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2272 , 2499 , 2749 , 3024 , 3327 , 3660 , 4026 , 4428 , 4871 , 5358 ,
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5894 , 6484 , 7132 , 7845 , 8630 , 9493 , 10442 , 11487 , 12635 , 13899 ,
15289 , 16818 , 18500 , 20350 , 22385 , 24623 , 27086 , 29794 , 32767
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} ;
DRWAV_ASSERT ( pWav ! = NULL ) ;
DRWAV_ASSERT ( framesToRead > 0 ) ;
/* TODO: Lots of room for optimization here. */
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while ( pWav - > readCursorInPCMFrames < pWav - > totalPCMFrameCount ) {
DRWAV_ASSERT ( framesToRead > 0 ) ; /* This loop iteration will never get hit with framesToRead == 0 because it's asserted at the top, and we check for 0 inside the loop just below. */
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/* If there are no cached samples we need to load a new block. */
if ( pWav - > ima . cachedFrameCount = = 0 & & pWav - > ima . bytesRemainingInBlock = = 0 ) {
if ( pWav - > channels = = 1 ) {
/* Mono. */
drwav_uint8 header [ 4 ] ;
if ( pWav - > onRead ( pWav - > pUserData , header , sizeof ( header ) ) ! = sizeof ( header ) ) {
return totalFramesRead ;
}
pWav - > ima . bytesRemainingInBlock = pWav - > fmt . blockAlign - sizeof ( header ) ;
if ( header [ 2 ] > = drwav_countof ( stepTable ) ) {
pWav - > onSeek ( pWav - > pUserData , pWav - > ima . bytesRemainingInBlock , drwav_seek_origin_current ) ;
pWav - > ima . bytesRemainingInBlock = 0 ;
return totalFramesRead ; /* Invalid data. */
}
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pWav - > ima . predictor [ 0 ] = ( drwav_int16 ) drwav_bytes_to_u16 ( header + 0 ) ;
pWav - > ima . stepIndex [ 0 ] = drwav_clamp ( header [ 2 ] , 0 , ( drwav_int32 ) drwav_countof ( stepTable ) - 1 ) ; /* Clamp not necessary because we checked above, but adding here to silence a static analysis warning. */
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pWav - > ima . cachedFrames [ drwav_countof ( pWav - > ima . cachedFrames ) - 1 ] = pWav - > ima . predictor [ 0 ] ;
pWav - > ima . cachedFrameCount = 1 ;
} else {
/* Stereo. */
drwav_uint8 header [ 8 ] ;
if ( pWav - > onRead ( pWav - > pUserData , header , sizeof ( header ) ) ! = sizeof ( header ) ) {
return totalFramesRead ;
}
pWav - > ima . bytesRemainingInBlock = pWav - > fmt . blockAlign - sizeof ( header ) ;
if ( header [ 2 ] > = drwav_countof ( stepTable ) | | header [ 6 ] > = drwav_countof ( stepTable ) ) {
pWav - > onSeek ( pWav - > pUserData , pWav - > ima . bytesRemainingInBlock , drwav_seek_origin_current ) ;
pWav - > ima . bytesRemainingInBlock = 0 ;
return totalFramesRead ; /* Invalid data. */
}
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pWav - > ima . predictor [ 0 ] = drwav_bytes_to_s16 ( header + 0 ) ;
pWav - > ima . stepIndex [ 0 ] = drwav_clamp ( header [ 2 ] , 0 , ( drwav_int32 ) drwav_countof ( stepTable ) - 1 ) ; /* Clamp not necessary because we checked above, but adding here to silence a static analysis warning. */
pWav - > ima . predictor [ 1 ] = drwav_bytes_to_s16 ( header + 4 ) ;
pWav - > ima . stepIndex [ 1 ] = drwav_clamp ( header [ 6 ] , 0 , ( drwav_int32 ) drwav_countof ( stepTable ) - 1 ) ; /* Clamp not necessary because we checked above, but adding here to silence a static analysis warning. */
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pWav - > ima . cachedFrames [ drwav_countof ( pWav - > ima . cachedFrames ) - 2 ] = pWav - > ima . predictor [ 0 ] ;
pWav - > ima . cachedFrames [ drwav_countof ( pWav - > ima . cachedFrames ) - 1 ] = pWav - > ima . predictor [ 1 ] ;
pWav - > ima . cachedFrameCount = 1 ;
}
}
/* Output anything that's cached. */
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while ( framesToRead > 0 & & pWav - > ima . cachedFrameCount > 0 & & pWav - > readCursorInPCMFrames < pWav - > totalPCMFrameCount ) {
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if ( pBufferOut ! = NULL ) {
drwav_uint32 iSample ;
for ( iSample = 0 ; iSample < pWav - > channels ; iSample + = 1 ) {
pBufferOut [ iSample ] = ( drwav_int16 ) pWav - > ima . cachedFrames [ ( drwav_countof ( pWav - > ima . cachedFrames ) - ( pWav - > ima . cachedFrameCount * pWav - > channels ) ) + iSample ] ;
}
pBufferOut + = pWav - > channels ;
}
framesToRead - = 1 ;
totalFramesRead + = 1 ;
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pWav - > readCursorInPCMFrames + = 1 ;
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pWav - > ima . cachedFrameCount - = 1 ;
}
if ( framesToRead = = 0 ) {
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break ;
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}
/*
If there ' s nothing left in the cache , just go ahead and load more . If there ' s nothing left to load in the current block we just continue to the next
loop iteration which will trigger the loading of a new block .
*/
if ( pWav - > ima . cachedFrameCount = = 0 ) {
if ( pWav - > ima . bytesRemainingInBlock = = 0 ) {
continue ;
} else {
/*
From what I can tell with stereo streams , it looks like every 4 bytes ( 8 samples ) is for one channel . So it goes 4 bytes for the
left channel , 4 bytes for the right channel .
*/
pWav - > ima . cachedFrameCount = 8 ;
for ( iChannel = 0 ; iChannel < pWav - > channels ; + + iChannel ) {
drwav_uint32 iByte ;
drwav_uint8 nibbles [ 4 ] ;
if ( pWav - > onRead ( pWav - > pUserData , & nibbles , 4 ) ! = 4 ) {
pWav - > ima . cachedFrameCount = 0 ;
return totalFramesRead ;
}
pWav - > ima . bytesRemainingInBlock - = 4 ;
for ( iByte = 0 ; iByte < 4 ; + + iByte ) {
drwav_uint8 nibble0 = ( ( nibbles [ iByte ] & 0x0F ) > > 0 ) ;
drwav_uint8 nibble1 = ( ( nibbles [ iByte ] & 0xF0 ) > > 4 ) ;
drwav_int32 step = stepTable [ pWav - > ima . stepIndex [ iChannel ] ] ;
drwav_int32 predictor = pWav - > ima . predictor [ iChannel ] ;
drwav_int32 diff = step > > 3 ;
if ( nibble0 & 1 ) diff + = step > > 2 ;
if ( nibble0 & 2 ) diff + = step > > 1 ;
if ( nibble0 & 4 ) diff + = step ;
if ( nibble0 & 8 ) diff = - diff ;
predictor = drwav_clamp ( predictor + diff , - 32768 , 32767 ) ;
pWav - > ima . predictor [ iChannel ] = predictor ;
pWav - > ima . stepIndex [ iChannel ] = drwav_clamp ( pWav - > ima . stepIndex [ iChannel ] + indexTable [ nibble0 ] , 0 , ( drwav_int32 ) drwav_countof ( stepTable ) - 1 ) ;
pWav - > ima . cachedFrames [ ( drwav_countof ( pWav - > ima . cachedFrames ) - ( pWav - > ima . cachedFrameCount * pWav - > channels ) ) + ( iByte * 2 + 0 ) * pWav - > channels + iChannel ] = predictor ;
step = stepTable [ pWav - > ima . stepIndex [ iChannel ] ] ;
predictor = pWav - > ima . predictor [ iChannel ] ;
diff = step > > 3 ;
if ( nibble1 & 1 ) diff + = step > > 2 ;
if ( nibble1 & 2 ) diff + = step > > 1 ;
if ( nibble1 & 4 ) diff + = step ;
if ( nibble1 & 8 ) diff = - diff ;
predictor = drwav_clamp ( predictor + diff , - 32768 , 32767 ) ;
pWav - > ima . predictor [ iChannel ] = predictor ;
pWav - > ima . stepIndex [ iChannel ] = drwav_clamp ( pWav - > ima . stepIndex [ iChannel ] + indexTable [ nibble1 ] , 0 , ( drwav_int32 ) drwav_countof ( stepTable ) - 1 ) ;
pWav - > ima . cachedFrames [ ( drwav_countof ( pWav - > ima . cachedFrames ) - ( pWav - > ima . cachedFrameCount * pWav - > channels ) ) + ( iByte * 2 + 1 ) * pWav - > channels + iChannel ] = predictor ;
}
}
}
}
}
return totalFramesRead ;
}
# ifndef DR_WAV_NO_CONVERSION_API
static unsigned short g_drwavAlawTable [ 256 ] = {
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0xEA80 , 0xEB80 , 0xE880 , 0xE980 , 0xEE80 , 0xEF80 , 0xEC80 , 0xED80 , 0xE280 , 0xE380 , 0xE080 , 0xE180 , 0xE680 , 0xE780 , 0xE480 , 0xE580 ,
0xF540 , 0xF5C0 , 0xF440 , 0xF4C0 , 0xF740 , 0xF7C0 , 0xF640 , 0xF6C0 , 0xF140 , 0xF1C0 , 0xF040 , 0xF0C0 , 0xF340 , 0xF3C0 , 0xF240 , 0xF2C0 ,
0xAA00 , 0xAE00 , 0xA200 , 0xA600 , 0xBA00 , 0xBE00 , 0xB200 , 0xB600 , 0x8A00 , 0x8E00 , 0x8200 , 0x8600 , 0x9A00 , 0x9E00 , 0x9200 , 0x9600 ,
0xD500 , 0xD700 , 0xD100 , 0xD300 , 0xDD00 , 0xDF00 , 0xD900 , 0xDB00 , 0xC500 , 0xC700 , 0xC100 , 0xC300 , 0xCD00 , 0xCF00 , 0xC900 , 0xCB00 ,
0xFEA8 , 0xFEB8 , 0xFE88 , 0xFE98 , 0xFEE8 , 0xFEF8 , 0xFEC8 , 0xFED8 , 0xFE28 , 0xFE38 , 0xFE08 , 0xFE18 , 0xFE68 , 0xFE78 , 0xFE48 , 0xFE58 ,
0xFFA8 , 0xFFB8 , 0xFF88 , 0xFF98 , 0xFFE8 , 0xFFF8 , 0xFFC8 , 0xFFD8 , 0xFF28 , 0xFF38 , 0xFF08 , 0xFF18 , 0xFF68 , 0xFF78 , 0xFF48 , 0xFF58 ,
0xFAA0 , 0xFAE0 , 0xFA20 , 0xFA60 , 0xFBA0 , 0xFBE0 , 0xFB20 , 0xFB60 , 0xF8A0 , 0xF8E0 , 0xF820 , 0xF860 , 0xF9A0 , 0xF9E0 , 0xF920 , 0xF960 ,
0xFD50 , 0xFD70 , 0xFD10 , 0xFD30 , 0xFDD0 , 0xFDF0 , 0xFD90 , 0xFDB0 , 0xFC50 , 0xFC70 , 0xFC10 , 0xFC30 , 0xFCD0 , 0xFCF0 , 0xFC90 , 0xFCB0 ,
0x1580 , 0x1480 , 0x1780 , 0x1680 , 0x1180 , 0x1080 , 0x1380 , 0x1280 , 0x1D80 , 0x1C80 , 0x1F80 , 0x1E80 , 0x1980 , 0x1880 , 0x1B80 , 0x1A80 ,
0x0AC0 , 0x0A40 , 0x0BC0 , 0x0B40 , 0x08C0 , 0x0840 , 0x09C0 , 0x0940 , 0x0EC0 , 0x0E40 , 0x0FC0 , 0x0F40 , 0x0CC0 , 0x0C40 , 0x0DC0 , 0x0D40 ,
0x5600 , 0x5200 , 0x5E00 , 0x5A00 , 0x4600 , 0x4200 , 0x4E00 , 0x4A00 , 0x7600 , 0x7200 , 0x7E00 , 0x7A00 , 0x6600 , 0x6200 , 0x6E00 , 0x6A00 ,
0x2B00 , 0x2900 , 0x2F00 , 0x2D00 , 0x2300 , 0x2100 , 0x2700 , 0x2500 , 0x3B00 , 0x3900 , 0x3F00 , 0x3D00 , 0x3300 , 0x3100 , 0x3700 , 0x3500 ,
0x0158 , 0x0148 , 0x0178 , 0x0168 , 0x0118 , 0x0108 , 0x0138 , 0x0128 , 0x01D8 , 0x01C8 , 0x01F8 , 0x01E8 , 0x0198 , 0x0188 , 0x01B8 , 0x01A8 ,
0x0058 , 0x0048 , 0x0078 , 0x0068 , 0x0018 , 0x0008 , 0x0038 , 0x0028 , 0x00D8 , 0x00C8 , 0x00F8 , 0x00E8 , 0x0098 , 0x0088 , 0x00B8 , 0x00A8 ,
0x0560 , 0x0520 , 0x05E0 , 0x05A0 , 0x0460 , 0x0420 , 0x04E0 , 0x04A0 , 0x0760 , 0x0720 , 0x07E0 , 0x07A0 , 0x0660 , 0x0620 , 0x06E0 , 0x06A0 ,
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0x02B0 , 0x0290 , 0x02F0 , 0x02D0 , 0x0230 , 0x0210 , 0x0270 , 0x0250 , 0x03B0 , 0x0390 , 0x03F0 , 0x03D0 , 0x0330 , 0x0310 , 0x0370 , 0x0350
} ;
static unsigned short g_drwavMulawTable [ 256 ] = {
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0x8284 , 0x8684 , 0x8A84 , 0x8E84 , 0x9284 , 0x9684 , 0x9A84 , 0x9E84 , 0xA284 , 0xA684 , 0xAA84 , 0xAE84 , 0xB284 , 0xB684 , 0xBA84 , 0xBE84 ,
0xC184 , 0xC384 , 0xC584 , 0xC784 , 0xC984 , 0xCB84 , 0xCD84 , 0xCF84 , 0xD184 , 0xD384 , 0xD584 , 0xD784 , 0xD984 , 0xDB84 , 0xDD84 , 0xDF84 ,
0xE104 , 0xE204 , 0xE304 , 0xE404 , 0xE504 , 0xE604 , 0xE704 , 0xE804 , 0xE904 , 0xEA04 , 0xEB04 , 0xEC04 , 0xED04 , 0xEE04 , 0xEF04 , 0xF004 ,
0xF0C4 , 0xF144 , 0xF1C4 , 0xF244 , 0xF2C4 , 0xF344 , 0xF3C4 , 0xF444 , 0xF4C4 , 0xF544 , 0xF5C4 , 0xF644 , 0xF6C4 , 0xF744 , 0xF7C4 , 0xF844 ,
0xF8A4 , 0xF8E4 , 0xF924 , 0xF964 , 0xF9A4 , 0xF9E4 , 0xFA24 , 0xFA64 , 0xFAA4 , 0xFAE4 , 0xFB24 , 0xFB64 , 0xFBA4 , 0xFBE4 , 0xFC24 , 0xFC64 ,
0xFC94 , 0xFCB4 , 0xFCD4 , 0xFCF4 , 0xFD14 , 0xFD34 , 0xFD54 , 0xFD74 , 0xFD94 , 0xFDB4 , 0xFDD4 , 0xFDF4 , 0xFE14 , 0xFE34 , 0xFE54 , 0xFE74 ,
0xFE8C , 0xFE9C , 0xFEAC , 0xFEBC , 0xFECC , 0xFEDC , 0xFEEC , 0xFEFC , 0xFF0C , 0xFF1C , 0xFF2C , 0xFF3C , 0xFF4C , 0xFF5C , 0xFF6C , 0xFF7C ,
0xFF88 , 0xFF90 , 0xFF98 , 0xFFA0 , 0xFFA8 , 0xFFB0 , 0xFFB8 , 0xFFC0 , 0xFFC8 , 0xFFD0 , 0xFFD8 , 0xFFE0 , 0xFFE8 , 0xFFF0 , 0xFFF8 , 0x0000 ,
0x7D7C , 0x797C , 0x757C , 0x717C , 0x6D7C , 0x697C , 0x657C , 0x617C , 0x5D7C , 0x597C , 0x557C , 0x517C , 0x4D7C , 0x497C , 0x457C , 0x417C ,
0x3E7C , 0x3C7C , 0x3A7C , 0x387C , 0x367C , 0x347C , 0x327C , 0x307C , 0x2E7C , 0x2C7C , 0x2A7C , 0x287C , 0x267C , 0x247C , 0x227C , 0x207C ,
0x1EFC , 0x1DFC , 0x1CFC , 0x1BFC , 0x1AFC , 0x19FC , 0x18FC , 0x17FC , 0x16FC , 0x15FC , 0x14FC , 0x13FC , 0x12FC , 0x11FC , 0x10FC , 0x0FFC ,
0x0F3C , 0x0EBC , 0x0E3C , 0x0DBC , 0x0D3C , 0x0CBC , 0x0C3C , 0x0BBC , 0x0B3C , 0x0ABC , 0x0A3C , 0x09BC , 0x093C , 0x08BC , 0x083C , 0x07BC ,
0x075C , 0x071C , 0x06DC , 0x069C , 0x065C , 0x061C , 0x05DC , 0x059C , 0x055C , 0x051C , 0x04DC , 0x049C , 0x045C , 0x041C , 0x03DC , 0x039C ,
0x036C , 0x034C , 0x032C , 0x030C , 0x02EC , 0x02CC , 0x02AC , 0x028C , 0x026C , 0x024C , 0x022C , 0x020C , 0x01EC , 0x01CC , 0x01AC , 0x018C ,
0x0174 , 0x0164 , 0x0154 , 0x0144 , 0x0134 , 0x0124 , 0x0114 , 0x0104 , 0x00F4 , 0x00E4 , 0x00D4 , 0x00C4 , 0x00B4 , 0x00A4 , 0x0094 , 0x0084 ,
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0x0078 , 0x0070 , 0x0068 , 0x0060 , 0x0058 , 0x0050 , 0x0048 , 0x0040 , 0x0038 , 0x0030 , 0x0028 , 0x0020 , 0x0018 , 0x0010 , 0x0008 , 0x0000
} ;
static DRWAV_INLINE drwav_int16 drwav__alaw_to_s16 ( drwav_uint8 sampleIn )
{
return ( short ) g_drwavAlawTable [ sampleIn ] ;
}
static DRWAV_INLINE drwav_int16 drwav__mulaw_to_s16 ( drwav_uint8 sampleIn )
{
return ( short ) g_drwavMulawTable [ sampleIn ] ;
}
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DRWAV_PRIVATE void drwav__pcm_to_s16 ( drwav_int16 * pOut , const drwav_uint8 * pIn , size_t totalSampleCount , unsigned int bytesPerSample )
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{
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size_t i ;
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/* Special case for 8-bit sample data because it's treated as unsigned. */
if ( bytesPerSample = = 1 ) {
drwav_u8_to_s16 ( pOut , pIn , totalSampleCount ) ;
return ;
}
/* Slightly more optimal implementation for common formats. */
if ( bytesPerSample = = 2 ) {
for ( i = 0 ; i < totalSampleCount ; + + i ) {
* pOut + + = ( ( const drwav_int16 * ) pIn ) [ i ] ;
}
return ;
}
if ( bytesPerSample = = 3 ) {
drwav_s24_to_s16 ( pOut , pIn , totalSampleCount ) ;
return ;
}
if ( bytesPerSample = = 4 ) {
drwav_s32_to_s16 ( pOut , ( const drwav_int32 * ) pIn , totalSampleCount ) ;
return ;
}
/* Anything more than 64 bits per sample is not supported. */
if ( bytesPerSample > 8 ) {
DRWAV_ZERO_MEMORY ( pOut , totalSampleCount * sizeof ( * pOut ) ) ;
return ;
}
/* Generic, slow converter. */
for ( i = 0 ; i < totalSampleCount ; + + i ) {
drwav_uint64 sample = 0 ;
unsigned int shift = ( 8 - bytesPerSample ) * 8 ;
unsigned int j ;
for ( j = 0 ; j < bytesPerSample ; j + = 1 ) {
DRWAV_ASSERT ( j < 8 ) ;
sample | = ( drwav_uint64 ) ( pIn [ j ] ) < < shift ;
shift + = 8 ;
}
pIn + = j ;
* pOut + + = ( drwav_int16 ) ( ( drwav_int64 ) sample > > 48 ) ;
}
}
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DRWAV_PRIVATE void drwav__ieee_to_s16 ( drwav_int16 * pOut , const drwav_uint8 * pIn , size_t totalSampleCount , unsigned int bytesPerSample )
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{
if ( bytesPerSample = = 4 ) {
drwav_f32_to_s16 ( pOut , ( const float * ) pIn , totalSampleCount ) ;
return ;
} else if ( bytesPerSample = = 8 ) {
drwav_f64_to_s16 ( pOut , ( const double * ) pIn , totalSampleCount ) ;
return ;
} else {
/* Only supporting 32- and 64-bit float. Output silence in all other cases. Contributions welcome for 16-bit float. */
DRWAV_ZERO_MEMORY ( pOut , totalSampleCount * sizeof ( * pOut ) ) ;
return ;
}
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s16__pcm ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
drwav_uint32 bytesPerFrame ;
drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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/* Fast path. */
if ( ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_PCM & & pWav - > bitsPerSample = = 16 ) | | pBufferOut = = NULL ) {
return drwav_read_pcm_frames ( pWav , framesToRead , pBufferOut ) ;
}
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bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
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while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
break ;
}
drwav__pcm_to_s16 ( pBufferOut , sampleData , ( size_t ) samplesRead , bytesPerSample ) ;
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pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s16__ieee ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
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drwav_uint32 bytesPerFrame ;
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drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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if ( pBufferOut = = NULL ) {
return drwav_read_pcm_frames ( pWav , framesToRead , NULL ) ;
}
bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
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while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
break ;
}
drwav__ieee_to_s16 ( pBufferOut , sampleData , ( size_t ) samplesRead , bytesPerSample ) ; /* Safe cast. */
pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s16__alaw ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
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drwav_uint32 bytesPerFrame ;
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drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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if ( pBufferOut = = NULL ) {
return drwav_read_pcm_frames ( pWav , framesToRead , NULL ) ;
}
bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
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while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
break ;
}
drwav_alaw_to_s16 ( pBufferOut , sampleData , ( size_t ) samplesRead ) ;
/*
For some reason libsndfile seems to be returning samples of the opposite sign for a - law , but only
with AIFF files . For WAV files it seems to be the same as dr_wav . This is resulting in dr_wav ' s
automated tests failing . I ' m not sure which is correct , but will assume dr_wav . If we ' re enforcing
libsndfile compatibility we ' ll swap the signs here .
*/
# ifdef DR_WAV_LIBSNDFILE_COMPAT
{
if ( pWav - > container = = drwav_container_aiff ) {
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < samplesRead ; iSample + = 1 ) {
pBufferOut [ iSample ] = - pBufferOut [ iSample ] ;
}
}
}
# endif
pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s16__mulaw ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
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drwav_uint32 bytesPerFrame ;
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drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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if ( pBufferOut = = NULL ) {
return drwav_read_pcm_frames ( pWav , framesToRead , NULL ) ;
}
bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
break ;
}
drwav_mulaw_to_s16 ( pBufferOut , sampleData , ( size_t ) samplesRead ) ;
/*
Just like with alaw , for some reason the signs between libsndfile and dr_wav are opposite . We just need to
swap the sign if we ' re compiling with libsndfile compatiblity so our automated tests don ' t fail .
*/
# ifdef DR_WAV_LIBSNDFILE_COMPAT
{
if ( pWav - > container = = drwav_container_aiff ) {
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < samplesRead ; iSample + = 1 ) {
pBufferOut [ iSample ] = - pBufferOut [ iSample ] ;
}
}
}
# endif
pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s16 ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut )
{
if ( pWav = = NULL | | framesToRead = = 0 ) {
return 0 ;
}
if ( pBufferOut = = NULL ) {
return drwav_read_pcm_frames ( pWav , framesToRead , NULL ) ;
}
/* Don't try to read more samples than can potentially fit in the output buffer. */
if ( framesToRead * pWav - > channels * sizeof ( drwav_int16 ) > DRWAV_SIZE_MAX ) {
framesToRead = DRWAV_SIZE_MAX / sizeof ( drwav_int16 ) / pWav - > channels ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_PCM ) {
return drwav_read_pcm_frames_s16__pcm ( pWav , framesToRead , pBufferOut ) ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_IEEE_FLOAT ) {
return drwav_read_pcm_frames_s16__ieee ( pWav , framesToRead , pBufferOut ) ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ALAW ) {
return drwav_read_pcm_frames_s16__alaw ( pWav , framesToRead , pBufferOut ) ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_MULAW ) {
return drwav_read_pcm_frames_s16__mulaw ( pWav , framesToRead , pBufferOut ) ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ADPCM ) {
return drwav_read_pcm_frames_s16__msadpcm ( pWav , framesToRead , pBufferOut ) ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_DVI_ADPCM ) {
return drwav_read_pcm_frames_s16__ima ( pWav , framesToRead , pBufferOut ) ;
}
return 0 ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s16le ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut )
{
drwav_uint64 framesRead = drwav_read_pcm_frames_s16 ( pWav , framesToRead , pBufferOut ) ;
if ( pBufferOut ! = NULL & & drwav__is_little_endian ( ) = = DRWAV_FALSE ) {
drwav__bswap_samples_s16 ( pBufferOut , framesRead * pWav - > channels ) ;
}
return framesRead ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s16be ( drwav * pWav , drwav_uint64 framesToRead , drwav_int16 * pBufferOut )
{
drwav_uint64 framesRead = drwav_read_pcm_frames_s16 ( pWav , framesToRead , pBufferOut ) ;
if ( pBufferOut ! = NULL & & drwav__is_little_endian ( ) = = DRWAV_TRUE ) {
drwav__bswap_samples_s16 ( pBufferOut , framesRead * pWav - > channels ) ;
}
return framesRead ;
}
DRWAV_API void drwav_u8_to_s16 ( drwav_int16 * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
int r ;
size_t i ;
for ( i = 0 ; i < sampleCount ; + + i ) {
int x = pIn [ i ] ;
r = x < < 8 ;
r = r - 32768 ;
pOut [ i ] = ( short ) r ;
}
}
DRWAV_API void drwav_s24_to_s16 ( drwav_int16 * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
int r ;
size_t i ;
for ( i = 0 ; i < sampleCount ; + + i ) {
int x = ( ( int ) ( ( ( unsigned int ) ( ( ( const drwav_uint8 * ) pIn ) [ i * 3 + 0 ] ) < < 8 ) | ( ( unsigned int ) ( ( ( const drwav_uint8 * ) pIn ) [ i * 3 + 1 ] ) < < 16 ) | ( ( unsigned int ) ( ( ( const drwav_uint8 * ) pIn ) [ i * 3 + 2 ] ) ) < < 24 ) ) > > 8 ;
r = x > > 8 ;
pOut [ i ] = ( short ) r ;
}
}
DRWAV_API void drwav_s32_to_s16 ( drwav_int16 * pOut , const drwav_int32 * pIn , size_t sampleCount )
{
int r ;
size_t i ;
for ( i = 0 ; i < sampleCount ; + + i ) {
int x = pIn [ i ] ;
r = x > > 16 ;
pOut [ i ] = ( short ) r ;
}
}
DRWAV_API void drwav_f32_to_s16 ( drwav_int16 * pOut , const float * pIn , size_t sampleCount )
{
int r ;
size_t i ;
for ( i = 0 ; i < sampleCount ; + + i ) {
float x = pIn [ i ] ;
float c ;
c = ( ( x < - 1 ) ? - 1 : ( ( x > 1 ) ? 1 : x ) ) ;
c = c + 1 ;
r = ( int ) ( c * 32767.5f ) ;
r = r - 32768 ;
pOut [ i ] = ( short ) r ;
}
}
DRWAV_API void drwav_f64_to_s16 ( drwav_int16 * pOut , const double * pIn , size_t sampleCount )
{
int r ;
size_t i ;
for ( i = 0 ; i < sampleCount ; + + i ) {
double x = pIn [ i ] ;
double c ;
c = ( ( x < - 1 ) ? - 1 : ( ( x > 1 ) ? 1 : x ) ) ;
c = c + 1 ;
r = ( int ) ( c * 32767.5 ) ;
r = r - 32768 ;
pOut [ i ] = ( short ) r ;
}
}
DRWAV_API void drwav_alaw_to_s16 ( drwav_int16 * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
size_t i ;
for ( i = 0 ; i < sampleCount ; + + i ) {
pOut [ i ] = drwav__alaw_to_s16 ( pIn [ i ] ) ;
}
}
DRWAV_API void drwav_mulaw_to_s16 ( drwav_int16 * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
size_t i ;
for ( i = 0 ; i < sampleCount ; + + i ) {
pOut [ i ] = drwav__mulaw_to_s16 ( pIn [ i ] ) ;
}
}
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DRWAV_PRIVATE void drwav__pcm_to_f32 ( float * pOut , const drwav_uint8 * pIn , size_t sampleCount , unsigned int bytesPerSample )
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{
unsigned int i ;
/* Special case for 8-bit sample data because it's treated as unsigned. */
if ( bytesPerSample = = 1 ) {
drwav_u8_to_f32 ( pOut , pIn , sampleCount ) ;
return ;
}
/* Slightly more optimal implementation for common formats. */
if ( bytesPerSample = = 2 ) {
drwav_s16_to_f32 ( pOut , ( const drwav_int16 * ) pIn , sampleCount ) ;
return ;
}
if ( bytesPerSample = = 3 ) {
drwav_s24_to_f32 ( pOut , pIn , sampleCount ) ;
return ;
}
if ( bytesPerSample = = 4 ) {
drwav_s32_to_f32 ( pOut , ( const drwav_int32 * ) pIn , sampleCount ) ;
return ;
}
/* Anything more than 64 bits per sample is not supported. */
if ( bytesPerSample > 8 ) {
DRWAV_ZERO_MEMORY ( pOut , sampleCount * sizeof ( * pOut ) ) ;
return ;
}
/* Generic, slow converter. */
for ( i = 0 ; i < sampleCount ; + + i ) {
drwav_uint64 sample = 0 ;
unsigned int shift = ( 8 - bytesPerSample ) * 8 ;
unsigned int j ;
for ( j = 0 ; j < bytesPerSample ; j + = 1 ) {
DRWAV_ASSERT ( j < 8 ) ;
sample | = ( drwav_uint64 ) ( pIn [ j ] ) < < shift ;
shift + = 8 ;
}
pIn + = j ;
* pOut + + = ( float ) ( ( drwav_int64 ) sample / 9223372036854775807.0 ) ;
}
}
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DRWAV_PRIVATE void drwav__ieee_to_f32 ( float * pOut , const drwav_uint8 * pIn , size_t sampleCount , unsigned int bytesPerSample )
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{
if ( bytesPerSample = = 4 ) {
unsigned int i ;
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = ( ( const float * ) pIn ) [ i ] ;
}
return ;
} else if ( bytesPerSample = = 8 ) {
drwav_f64_to_f32 ( pOut , ( const double * ) pIn , sampleCount ) ;
return ;
} else {
/* Only supporting 32- and 64-bit float. Output silence in all other cases. Contributions welcome for 16-bit float. */
DRWAV_ZERO_MEMORY ( pOut , sampleCount * sizeof ( * pOut ) ) ;
return ;
}
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_f32__pcm ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
drwav_uint32 bytesPerFrame ;
drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
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if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
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break ;
}
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drwav__pcm_to_f32 ( pBufferOut , sampleData , ( size_t ) samplesRead , bytesPerSample ) ;
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pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_f32__msadpcm_ima ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut )
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{
/*
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We ' re just going to borrow the implementation from the drwav_read_s16 ( ) since ADPCM is a little bit more complicated than other formats and I don ' t
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want to duplicate that code .
*/
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drwav_uint64 totalFramesRead ;
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drwav_int16 samples16 [ 2048 ] ;
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totalFramesRead = 0 ;
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while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , drwav_countof ( samples16 ) / pWav - > channels ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames_s16 ( pWav , framesToReadThisIteration , samples16 ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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drwav_s16_to_f32 ( pBufferOut , samples16 , ( size_t ) ( framesRead * pWav - > channels ) ) ; /* <-- Safe cast because we're clamping to 2048. */
pBufferOut + = framesRead * pWav - > channels ;
framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_f32__ieee ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
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drwav_uint32 bytesPerFrame ;
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drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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/* Fast path. */
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_IEEE_FLOAT & & pWav - > bitsPerSample = = 32 ) {
return drwav_read_pcm_frames ( pWav , framesToRead , pBufferOut ) ;
}
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bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
break ;
}
drwav__ieee_to_f32 ( pBufferOut , sampleData , ( size_t ) samplesRead , bytesPerSample ) ;
pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_f32__alaw ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
drwav_uint32 bytesPerFrame ;
drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
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if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
break ;
}
drwav_alaw_to_f32 ( pBufferOut , sampleData , ( size_t ) samplesRead ) ;
# ifdef DR_WAV_LIBSNDFILE_COMPAT
{
if ( pWav - > container = = drwav_container_aiff ) {
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < samplesRead ; iSample + = 1 ) {
pBufferOut [ iSample ] = - pBufferOut [ iSample ] ;
}
}
}
# endif
pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_f32__mulaw ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
drwav_uint32 bytesPerFrame ;
drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
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if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
break ;
}
drwav_mulaw_to_f32 ( pBufferOut , sampleData , ( size_t ) samplesRead ) ;
# ifdef DR_WAV_LIBSNDFILE_COMPAT
{
if ( pWav - > container = = drwav_container_aiff ) {
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < samplesRead ; iSample + = 1 ) {
pBufferOut [ iSample ] = - pBufferOut [ iSample ] ;
}
}
}
# endif
pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_f32 ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut )
{
if ( pWav = = NULL | | framesToRead = = 0 ) {
return 0 ;
}
if ( pBufferOut = = NULL ) {
return drwav_read_pcm_frames ( pWav , framesToRead , NULL ) ;
}
/* Don't try to read more samples than can potentially fit in the output buffer. */
if ( framesToRead * pWav - > channels * sizeof ( float ) > DRWAV_SIZE_MAX ) {
framesToRead = DRWAV_SIZE_MAX / sizeof ( float ) / pWav - > channels ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_PCM ) {
return drwav_read_pcm_frames_f32__pcm ( pWav , framesToRead , pBufferOut ) ;
}
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if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ADPCM | | pWav - > translatedFormatTag = = DR_WAVE_FORMAT_DVI_ADPCM ) {
return drwav_read_pcm_frames_f32__msadpcm_ima ( pWav , framesToRead , pBufferOut ) ;
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}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_IEEE_FLOAT ) {
return drwav_read_pcm_frames_f32__ieee ( pWav , framesToRead , pBufferOut ) ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ALAW ) {
return drwav_read_pcm_frames_f32__alaw ( pWav , framesToRead , pBufferOut ) ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_MULAW ) {
return drwav_read_pcm_frames_f32__mulaw ( pWav , framesToRead , pBufferOut ) ;
}
return 0 ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_f32le ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut )
{
drwav_uint64 framesRead = drwav_read_pcm_frames_f32 ( pWav , framesToRead , pBufferOut ) ;
if ( pBufferOut ! = NULL & & drwav__is_little_endian ( ) = = DRWAV_FALSE ) {
drwav__bswap_samples_f32 ( pBufferOut , framesRead * pWav - > channels ) ;
}
return framesRead ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_f32be ( drwav * pWav , drwav_uint64 framesToRead , float * pBufferOut )
{
drwav_uint64 framesRead = drwav_read_pcm_frames_f32 ( pWav , framesToRead , pBufferOut ) ;
if ( pBufferOut ! = NULL & & drwav__is_little_endian ( ) = = DRWAV_TRUE ) {
drwav__bswap_samples_f32 ( pBufferOut , framesRead * pWav - > channels ) ;
}
return framesRead ;
}
DRWAV_API void drwav_u8_to_f32 ( float * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
# ifdef DR_WAV_LIBSNDFILE_COMPAT
/*
It appears libsndfile uses slightly different logic for the u8 - > f32 conversion to dr_wav , which in my opinion is incorrect . It appears
libsndfile performs the conversion something like " f32 = (u8 / 256) * 2 - 1 " , however I think it should be " f32 = (u8 / 255) * 2 - 1 " ( note
the divisor of 256 vs 255 ) . I use libsndfile as a benchmark for testing , so I ' m therefore leaving this block here just for my automated
correctness testing . This is disabled by default .
*/
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = ( pIn [ i ] / 256.0f ) * 2 - 1 ;
}
# else
for ( i = 0 ; i < sampleCount ; + + i ) {
float x = pIn [ i ] ;
x = x * 0.00784313725490196078f ; /* 0..255 to 0..2 */
x = x - 1 ; /* 0..2 to -1..1 */
* pOut + + = x ;
}
# endif
}
DRWAV_API void drwav_s16_to_f32 ( float * pOut , const drwav_int16 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = pIn [ i ] * 0.000030517578125f ;
}
}
DRWAV_API void drwav_s24_to_f32 ( float * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
double x ;
drwav_uint32 a = ( ( drwav_uint32 ) ( pIn [ i * 3 + 0 ] ) < < 8 ) ;
drwav_uint32 b = ( ( drwav_uint32 ) ( pIn [ i * 3 + 1 ] ) < < 16 ) ;
drwav_uint32 c = ( ( drwav_uint32 ) ( pIn [ i * 3 + 2 ] ) < < 24 ) ;
x = ( double ) ( ( drwav_int32 ) ( a | b | c ) > > 8 ) ;
* pOut + + = ( float ) ( x * 0.00000011920928955078125 ) ;
}
}
DRWAV_API void drwav_s32_to_f32 ( float * pOut , const drwav_int32 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = ( float ) ( pIn [ i ] / 2147483648.0 ) ;
}
}
DRWAV_API void drwav_f64_to_f32 ( float * pOut , const double * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = ( float ) pIn [ i ] ;
}
}
DRWAV_API void drwav_alaw_to_f32 ( float * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = drwav__alaw_to_s16 ( pIn [ i ] ) / 32768.0f ;
}
}
DRWAV_API void drwav_mulaw_to_f32 ( float * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = drwav__mulaw_to_s16 ( pIn [ i ] ) / 32768.0f ;
}
}
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DRWAV_PRIVATE void drwav__pcm_to_s32 ( drwav_int32 * pOut , const drwav_uint8 * pIn , size_t totalSampleCount , unsigned int bytesPerSample )
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{
unsigned int i ;
/* Special case for 8-bit sample data because it's treated as unsigned. */
if ( bytesPerSample = = 1 ) {
drwav_u8_to_s32 ( pOut , pIn , totalSampleCount ) ;
return ;
}
/* Slightly more optimal implementation for common formats. */
if ( bytesPerSample = = 2 ) {
drwav_s16_to_s32 ( pOut , ( const drwav_int16 * ) pIn , totalSampleCount ) ;
return ;
}
if ( bytesPerSample = = 3 ) {
drwav_s24_to_s32 ( pOut , pIn , totalSampleCount ) ;
return ;
}
if ( bytesPerSample = = 4 ) {
for ( i = 0 ; i < totalSampleCount ; + + i ) {
* pOut + + = ( ( const drwav_int32 * ) pIn ) [ i ] ;
}
return ;
}
/* Anything more than 64 bits per sample is not supported. */
if ( bytesPerSample > 8 ) {
DRWAV_ZERO_MEMORY ( pOut , totalSampleCount * sizeof ( * pOut ) ) ;
return ;
}
/* Generic, slow converter. */
for ( i = 0 ; i < totalSampleCount ; + + i ) {
drwav_uint64 sample = 0 ;
unsigned int shift = ( 8 - bytesPerSample ) * 8 ;
unsigned int j ;
for ( j = 0 ; j < bytesPerSample ; j + = 1 ) {
DRWAV_ASSERT ( j < 8 ) ;
sample | = ( drwav_uint64 ) ( pIn [ j ] ) < < shift ;
shift + = 8 ;
}
pIn + = j ;
* pOut + + = ( drwav_int32 ) ( ( drwav_int64 ) sample > > 32 ) ;
}
}
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DRWAV_PRIVATE void drwav__ieee_to_s32 ( drwav_int32 * pOut , const drwav_uint8 * pIn , size_t totalSampleCount , unsigned int bytesPerSample )
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{
if ( bytesPerSample = = 4 ) {
drwav_f32_to_s32 ( pOut , ( const float * ) pIn , totalSampleCount ) ;
return ;
} else if ( bytesPerSample = = 8 ) {
drwav_f64_to_s32 ( pOut , ( const double * ) pIn , totalSampleCount ) ;
return ;
} else {
/* Only supporting 32- and 64-bit float. Output silence in all other cases. Contributions welcome for 16-bit float. */
DRWAV_ZERO_MEMORY ( pOut , totalSampleCount * sizeof ( * pOut ) ) ;
return ;
}
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s32__pcm ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
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drwav_uint32 bytesPerFrame ;
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drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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/* Fast path. */
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_PCM & & pWav - > bitsPerSample = = 32 ) {
return drwav_read_pcm_frames ( pWav , framesToRead , pBufferOut ) ;
}
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bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
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break ;
}
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drwav__pcm_to_s32 ( pBufferOut , sampleData , ( size_t ) samplesRead , bytesPerSample ) ;
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pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s32__msadpcm_ima ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut )
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{
/*
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We ' re just going to borrow the implementation from the drwav_read_s16 ( ) since ADPCM is a little bit more complicated than other formats and I don ' t
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want to duplicate that code .
*/
drwav_uint64 totalFramesRead = 0 ;
drwav_int16 samples16 [ 2048 ] ;
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while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , drwav_countof ( samples16 ) / pWav - > channels ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames_s16 ( pWav , framesToReadThisIteration , samples16 ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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drwav_s16_to_s32 ( pBufferOut , samples16 , ( size_t ) ( framesRead * pWav - > channels ) ) ; /* <-- Safe cast because we're clamping to 2048. */
pBufferOut + = framesRead * pWav - > channels ;
framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s32__ieee ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
drwav_uint32 bytesPerFrame ;
drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
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if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
break ;
}
drwav__ieee_to_s32 ( pBufferOut , sampleData , ( size_t ) samplesRead , bytesPerSample ) ;
pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s32__alaw ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
drwav_uint32 bytesPerFrame ;
drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
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if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
break ;
}
drwav_alaw_to_s32 ( pBufferOut , sampleData , ( size_t ) samplesRead ) ;
# ifdef DR_WAV_LIBSNDFILE_COMPAT
{
if ( pWav - > container = = drwav_container_aiff ) {
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < samplesRead ; iSample + = 1 ) {
pBufferOut [ iSample ] = - pBufferOut [ iSample ] ;
}
}
}
# endif
pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
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DRWAV_PRIVATE drwav_uint64 drwav_read_pcm_frames_s32__mulaw ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut )
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{
drwav_uint64 totalFramesRead ;
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drwav_uint8 sampleData [ 4096 ] = { 0 } ;
drwav_uint32 bytesPerFrame ;
drwav_uint32 bytesPerSample ;
drwav_uint64 samplesRead ;
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bytesPerFrame = drwav_get_bytes_per_pcm_frame ( pWav ) ;
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if ( bytesPerFrame = = 0 ) {
return 0 ;
}
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bytesPerSample = bytesPerFrame / pWav - > channels ;
if ( bytesPerSample = = 0 | | ( bytesPerFrame % pWav - > channels ) ! = 0 ) {
return 0 ; /* Only byte-aligned formats are supported. */
}
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totalFramesRead = 0 ;
while ( framesToRead > 0 ) {
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drwav_uint64 framesToReadThisIteration = drwav_min ( framesToRead , sizeof ( sampleData ) / bytesPerFrame ) ;
drwav_uint64 framesRead = drwav_read_pcm_frames ( pWav , framesToReadThisIteration , sampleData ) ;
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if ( framesRead = = 0 ) {
break ;
}
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DRWAV_ASSERT ( framesRead < = framesToReadThisIteration ) ; /* If this fails it means there's a bug in drwav_read_pcm_frames(). */
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/* Validation to ensure we don't read too much from out intermediary buffer. This is to protect from invalid files. */
samplesRead = framesRead * pWav - > channels ;
if ( ( samplesRead * bytesPerSample ) > sizeof ( sampleData ) ) {
DRWAV_ASSERT ( DRWAV_FALSE ) ; /* This should never happen with a valid file. */
break ;
}
drwav_mulaw_to_s32 ( pBufferOut , sampleData , ( size_t ) samplesRead ) ;
# ifdef DR_WAV_LIBSNDFILE_COMPAT
{
if ( pWav - > container = = drwav_container_aiff ) {
drwav_uint64 iSample ;
for ( iSample = 0 ; iSample < samplesRead ; iSample + = 1 ) {
pBufferOut [ iSample ] = - pBufferOut [ iSample ] ;
}
}
}
# endif
pBufferOut + = samplesRead ;
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framesToRead - = framesRead ;
totalFramesRead + = framesRead ;
}
return totalFramesRead ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s32 ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut )
{
if ( pWav = = NULL | | framesToRead = = 0 ) {
return 0 ;
}
if ( pBufferOut = = NULL ) {
return drwav_read_pcm_frames ( pWav , framesToRead , NULL ) ;
}
/* Don't try to read more samples than can potentially fit in the output buffer. */
if ( framesToRead * pWav - > channels * sizeof ( drwav_int32 ) > DRWAV_SIZE_MAX ) {
framesToRead = DRWAV_SIZE_MAX / sizeof ( drwav_int32 ) / pWav - > channels ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_PCM ) {
return drwav_read_pcm_frames_s32__pcm ( pWav , framesToRead , pBufferOut ) ;
}
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if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ADPCM | | pWav - > translatedFormatTag = = DR_WAVE_FORMAT_DVI_ADPCM ) {
return drwav_read_pcm_frames_s32__msadpcm_ima ( pWav , framesToRead , pBufferOut ) ;
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}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_IEEE_FLOAT ) {
return drwav_read_pcm_frames_s32__ieee ( pWav , framesToRead , pBufferOut ) ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_ALAW ) {
return drwav_read_pcm_frames_s32__alaw ( pWav , framesToRead , pBufferOut ) ;
}
if ( pWav - > translatedFormatTag = = DR_WAVE_FORMAT_MULAW ) {
return drwav_read_pcm_frames_s32__mulaw ( pWav , framesToRead , pBufferOut ) ;
}
return 0 ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s32le ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut )
{
drwav_uint64 framesRead = drwav_read_pcm_frames_s32 ( pWav , framesToRead , pBufferOut ) ;
if ( pBufferOut ! = NULL & & drwav__is_little_endian ( ) = = DRWAV_FALSE ) {
drwav__bswap_samples_s32 ( pBufferOut , framesRead * pWav - > channels ) ;
}
return framesRead ;
}
DRWAV_API drwav_uint64 drwav_read_pcm_frames_s32be ( drwav * pWav , drwav_uint64 framesToRead , drwav_int32 * pBufferOut )
{
drwav_uint64 framesRead = drwav_read_pcm_frames_s32 ( pWav , framesToRead , pBufferOut ) ;
if ( pBufferOut ! = NULL & & drwav__is_little_endian ( ) = = DRWAV_TRUE ) {
drwav__bswap_samples_s32 ( pBufferOut , framesRead * pWav - > channels ) ;
}
return framesRead ;
}
DRWAV_API void drwav_u8_to_s32 ( drwav_int32 * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = ( ( int ) pIn [ i ] - 128 ) < < 24 ;
}
}
DRWAV_API void drwav_s16_to_s32 ( drwav_int32 * pOut , const drwav_int16 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = pIn [ i ] < < 16 ;
}
}
DRWAV_API void drwav_s24_to_s32 ( drwav_int32 * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
unsigned int s0 = pIn [ i * 3 + 0 ] ;
unsigned int s1 = pIn [ i * 3 + 1 ] ;
unsigned int s2 = pIn [ i * 3 + 2 ] ;
drwav_int32 sample32 = ( drwav_int32 ) ( ( s0 < < 8 ) | ( s1 < < 16 ) | ( s2 < < 24 ) ) ;
* pOut + + = sample32 ;
}
}
DRWAV_API void drwav_f32_to_s32 ( drwav_int32 * pOut , const float * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
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* pOut + + = ( drwav_int32 ) ( 2147483648.0f * pIn [ i ] ) ;
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}
}
DRWAV_API void drwav_f64_to_s32 ( drwav_int32 * pOut , const double * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = ( drwav_int32 ) ( 2147483648.0 * pIn [ i ] ) ;
}
}
DRWAV_API void drwav_alaw_to_s32 ( drwav_int32 * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = ( ( drwav_int32 ) drwav__alaw_to_s16 ( pIn [ i ] ) ) < < 16 ;
}
}
DRWAV_API void drwav_mulaw_to_s32 ( drwav_int32 * pOut , const drwav_uint8 * pIn , size_t sampleCount )
{
size_t i ;
if ( pOut = = NULL | | pIn = = NULL ) {
return ;
}
for ( i = 0 ; i < sampleCount ; + + i ) {
* pOut + + = ( ( drwav_int32 ) drwav__mulaw_to_s16 ( pIn [ i ] ) ) < < 16 ;
}
}
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DRWAV_PRIVATE drwav_int16 * drwav__read_pcm_frames_and_close_s16 ( drwav * pWav , unsigned int * channels , unsigned int * sampleRate , drwav_uint64 * totalFrameCount )
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{
drwav_uint64 sampleDataSize ;
drwav_int16 * pSampleData ;
drwav_uint64 framesRead ;
DRWAV_ASSERT ( pWav ! = NULL ) ;
sampleDataSize = pWav - > totalPCMFrameCount * pWav - > channels * sizeof ( drwav_int16 ) ;
if ( sampleDataSize > DRWAV_SIZE_MAX ) {
drwav_uninit ( pWav ) ;
return NULL ; /* File's too big. */
}
pSampleData = ( drwav_int16 * ) drwav__malloc_from_callbacks ( ( size_t ) sampleDataSize , & pWav - > allocationCallbacks ) ; /* <-- Safe cast due to the check above. */
if ( pSampleData = = NULL ) {
drwav_uninit ( pWav ) ;
return NULL ; /* Failed to allocate memory. */
}
framesRead = drwav_read_pcm_frames_s16 ( pWav , ( size_t ) pWav - > totalPCMFrameCount , pSampleData ) ;
if ( framesRead ! = pWav - > totalPCMFrameCount ) {
drwav__free_from_callbacks ( pSampleData , & pWav - > allocationCallbacks ) ;
drwav_uninit ( pWav ) ;
return NULL ; /* There was an error reading the samples. */
}
drwav_uninit ( pWav ) ;
if ( sampleRate ) {
* sampleRate = pWav - > sampleRate ;
}
if ( channels ) {
* channels = pWav - > channels ;
}
if ( totalFrameCount ) {
* totalFrameCount = pWav - > totalPCMFrameCount ;
}
return pSampleData ;
}
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DRWAV_PRIVATE float * drwav__read_pcm_frames_and_close_f32 ( drwav * pWav , unsigned int * channels , unsigned int * sampleRate , drwav_uint64 * totalFrameCount )
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{
drwav_uint64 sampleDataSize ;
float * pSampleData ;
drwav_uint64 framesRead ;
DRWAV_ASSERT ( pWav ! = NULL ) ;
sampleDataSize = pWav - > totalPCMFrameCount * pWav - > channels * sizeof ( float ) ;
if ( sampleDataSize > DRWAV_SIZE_MAX ) {
drwav_uninit ( pWav ) ;
return NULL ; /* File's too big. */
}
pSampleData = ( float * ) drwav__malloc_from_callbacks ( ( size_t ) sampleDataSize , & pWav - > allocationCallbacks ) ; /* <-- Safe cast due to the check above. */
if ( pSampleData = = NULL ) {
drwav_uninit ( pWav ) ;
return NULL ; /* Failed to allocate memory. */
}
framesRead = drwav_read_pcm_frames_f32 ( pWav , ( size_t ) pWav - > totalPCMFrameCount , pSampleData ) ;
if ( framesRead ! = pWav - > totalPCMFrameCount ) {
drwav__free_from_callbacks ( pSampleData , & pWav - > allocationCallbacks ) ;
drwav_uninit ( pWav ) ;
return NULL ; /* There was an error reading the samples. */
}
drwav_uninit ( pWav ) ;
if ( sampleRate ) {
* sampleRate = pWav - > sampleRate ;
}
if ( channels ) {
* channels = pWav - > channels ;
}
if ( totalFrameCount ) {
* totalFrameCount = pWav - > totalPCMFrameCount ;
}
return pSampleData ;
}
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DRWAV_PRIVATE drwav_int32 * drwav__read_pcm_frames_and_close_s32 ( drwav * pWav , unsigned int * channels , unsigned int * sampleRate , drwav_uint64 * totalFrameCount )
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{
drwav_uint64 sampleDataSize ;
drwav_int32 * pSampleData ;
drwav_uint64 framesRead ;
DRWAV_ASSERT ( pWav ! = NULL ) ;
sampleDataSize = pWav - > totalPCMFrameCount * pWav - > channels * sizeof ( drwav_int32 ) ;
if ( sampleDataSize > DRWAV_SIZE_MAX ) {
drwav_uninit ( pWav ) ;
return NULL ; /* File's too big. */
}
pSampleData = ( drwav_int32 * ) drwav__malloc_from_callbacks ( ( size_t ) sampleDataSize , & pWav - > allocationCallbacks ) ; /* <-- Safe cast due to the check above. */
if ( pSampleData = = NULL ) {
drwav_uninit ( pWav ) ;
return NULL ; /* Failed to allocate memory. */
}
framesRead = drwav_read_pcm_frames_s32 ( pWav , ( size_t ) pWav - > totalPCMFrameCount , pSampleData ) ;
if ( framesRead ! = pWav - > totalPCMFrameCount ) {
drwav__free_from_callbacks ( pSampleData , & pWav - > allocationCallbacks ) ;
drwav_uninit ( pWav ) ;
return NULL ; /* There was an error reading the samples. */
}
drwav_uninit ( pWav ) ;
if ( sampleRate ) {
* sampleRate = pWav - > sampleRate ;
}
if ( channels ) {
* channels = pWav - > channels ;
}
if ( totalFrameCount ) {
* totalFrameCount = pWav - > totalPCMFrameCount ;
}
return pSampleData ;
}
DRWAV_API drwav_int16 * drwav_open_and_read_pcm_frames_s16 ( drwav_read_proc onRead , drwav_seek_proc onSeek , void * pUserData , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init ( & wav , onRead , onSeek , pUserData , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_s16 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
DRWAV_API float * drwav_open_and_read_pcm_frames_f32 ( drwav_read_proc onRead , drwav_seek_proc onSeek , void * pUserData , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init ( & wav , onRead , onSeek , pUserData , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_f32 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
DRWAV_API drwav_int32 * drwav_open_and_read_pcm_frames_s32 ( drwav_read_proc onRead , drwav_seek_proc onSeek , void * pUserData , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init ( & wav , onRead , onSeek , pUserData , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_s32 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
# ifndef DR_WAV_NO_STDIO
DRWAV_API drwav_int16 * drwav_open_file_and_read_pcm_frames_s16 ( const char * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init_file ( & wav , filename , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_s16 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
DRWAV_API float * drwav_open_file_and_read_pcm_frames_f32 ( const char * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init_file ( & wav , filename , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_f32 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
DRWAV_API drwav_int32 * drwav_open_file_and_read_pcm_frames_s32 ( const char * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init_file ( & wav , filename , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_s32 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
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# ifndef DR_WAV_NO_WCHAR
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DRWAV_API drwav_int16 * drwav_open_file_and_read_pcm_frames_s16_w ( const wchar_t * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init_file_w ( & wav , filename , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_s16 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
DRWAV_API float * drwav_open_file_and_read_pcm_frames_f32_w ( const wchar_t * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init_file_w ( & wav , filename , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_f32 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
DRWAV_API drwav_int32 * drwav_open_file_and_read_pcm_frames_s32_w ( const wchar_t * filename , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init_file_w ( & wav , filename , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_s32 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
2024-10-04 08:04:51 +00:00
# endif /* DR_WAV_NO_WCHAR */
# endif /* DR_WAV_NO_STDIO */
2022-09-25 18:23:15 +00:00
DRWAV_API drwav_int16 * drwav_open_memory_and_read_pcm_frames_s16 ( const void * data , size_t dataSize , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init_memory ( & wav , data , dataSize , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_s16 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
DRWAV_API float * drwav_open_memory_and_read_pcm_frames_f32 ( const void * data , size_t dataSize , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init_memory ( & wav , data , dataSize , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_f32 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
DRWAV_API drwav_int32 * drwav_open_memory_and_read_pcm_frames_s32 ( const void * data , size_t dataSize , unsigned int * channelsOut , unsigned int * sampleRateOut , drwav_uint64 * totalFrameCountOut , const drwav_allocation_callbacks * pAllocationCallbacks )
{
drwav wav ;
if ( channelsOut ) {
* channelsOut = 0 ;
}
if ( sampleRateOut ) {
* sampleRateOut = 0 ;
}
if ( totalFrameCountOut ) {
* totalFrameCountOut = 0 ;
}
if ( ! drwav_init_memory ( & wav , data , dataSize , pAllocationCallbacks ) ) {
return NULL ;
}
return drwav__read_pcm_frames_and_close_s32 ( & wav , channelsOut , sampleRateOut , totalFrameCountOut ) ;
}
# endif /* DR_WAV_NO_CONVERSION_API */
DRWAV_API void drwav_free ( void * p , const drwav_allocation_callbacks * pAllocationCallbacks )
{
if ( pAllocationCallbacks ! = NULL ) {
drwav__free_from_callbacks ( p , pAllocationCallbacks ) ;
} else {
drwav__free_default ( p , NULL ) ;
}
}
DRWAV_API drwav_uint16 drwav_bytes_to_u16 ( const drwav_uint8 * data )
{
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return ( ( drwav_uint16 ) data [ 0 ] < < 0 ) | ( ( drwav_uint16 ) data [ 1 ] < < 8 ) ;
2022-09-25 18:23:15 +00:00
}
DRWAV_API drwav_int16 drwav_bytes_to_s16 ( const drwav_uint8 * data )
{
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return ( drwav_int16 ) drwav_bytes_to_u16 ( data ) ;
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}
DRWAV_API drwav_uint32 drwav_bytes_to_u32 ( const drwav_uint8 * data )
{
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return drwav_bytes_to_u32_le ( data ) ;
}
DRWAV_API float drwav_bytes_to_f32 ( const drwav_uint8 * data )
{
union {
drwav_uint32 u32 ;
float f32 ;
} value ;
value . u32 = drwav_bytes_to_u32 ( data ) ;
return value . f32 ;
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}
DRWAV_API drwav_int32 drwav_bytes_to_s32 ( const drwav_uint8 * data )
{
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return ( drwav_int32 ) drwav_bytes_to_u32 ( data ) ;
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}
DRWAV_API drwav_uint64 drwav_bytes_to_u64 ( const drwav_uint8 * data )
{
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return
( ( drwav_uint64 ) data [ 0 ] < < 0 ) | ( ( drwav_uint64 ) data [ 1 ] < < 8 ) | ( ( drwav_uint64 ) data [ 2 ] < < 16 ) | ( ( drwav_uint64 ) data [ 3 ] < < 24 ) |
( ( drwav_uint64 ) data [ 4 ] < < 32 ) | ( ( drwav_uint64 ) data [ 5 ] < < 40 ) | ( ( drwav_uint64 ) data [ 6 ] < < 48 ) | ( ( drwav_uint64 ) data [ 7 ] < < 56 ) ;
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}
DRWAV_API drwav_int64 drwav_bytes_to_s64 ( const drwav_uint8 * data )
{
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return ( drwav_int64 ) drwav_bytes_to_u64 ( data ) ;
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}
DRWAV_API drwav_bool32 drwav_guid_equal ( const drwav_uint8 a [ 16 ] , const drwav_uint8 b [ 16 ] )
{
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int i ;
for ( i = 0 ; i < 16 ; i + = 1 ) {
if ( a [ i ] ! = b [ i ] ) {
return DRWAV_FALSE ;
}
}
return DRWAV_TRUE ;
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}
DRWAV_API drwav_bool32 drwav_fourcc_equal ( const drwav_uint8 * a , const char * b )
{
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return
a [ 0 ] = = b [ 0 ] & &
a [ 1 ] = = b [ 1 ] & &
a [ 2 ] = = b [ 2 ] & &
a [ 3 ] = = b [ 3 ] ;
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}
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# ifdef __MRC__
/* Undo the pragma at the beginning of this file. */
# pragma options opt reset
# endif
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# endif /* dr_wav_c */
# endif /* DR_WAV_IMPLEMENTATION */
/*
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REVISION HISTORY
= = = = = = = = = = = = = = = =
v0 .13 .16 - 2024 - 02 - 27
- Fix a Wdouble - promotion warning .
2022-09-25 18:23:15 +00:00
2024-10-04 08:04:51 +00:00
v0 .13 .15 - 2024 - 01 - 23
- Relax some unnecessary validation that prevented some files from loading .
2022-09-25 18:23:15 +00:00
2024-10-04 08:04:51 +00:00
v0 .13 .14 - 2023 - 12 - 02
- Fix a warning about an unused variable .
2022-09-25 18:23:15 +00:00
2024-10-04 08:04:51 +00:00
v0 .13 .13 - 2023 - 11 - 02
- Fix a warning when compiling with Clang .
2022-09-25 18:23:15 +00:00
2024-10-04 08:04:51 +00:00
v0 .13 .12 - 2023 - 08 - 07
- Fix a possible crash in drwav_read_pcm_frames ( ) .
2022-09-25 18:23:15 +00:00
2024-10-04 08:04:51 +00:00
v0 .13 .11 - 2023 - 07 - 07
- AIFF compatibility improvements .
v0 .13 .10 - 2023 - 05 - 29
- Fix a bug where drwav_init_with_metadata ( ) does not decode any frames after initializtion .
v0 .13 .9 - 2023 - 05 - 22
- Add support for AIFF decoding ( writing and metadata not supported ) .
- Add support for RIFX decoding ( writing and metadata not supported ) .
- Fix a bug where metadata is not processed if it ' s located before the " fmt " chunk .
- Add a workaround for a type of malformed WAV file where the size of the " RIFF " and " data " chunks
are incorrectly set to 0xFFFFFFFF .
v0 .13 .8 - 2023 - 03 - 25
- Fix a possible null pointer dereference .
- Fix a crash when loading files with badly formed metadata .
v0 .13 .7 - 2022 - 09 - 17
- Fix compilation with DJGPP .
- Add support for disabling wchar_t with DR_WAV_NO_WCHAR .
v0 .13 .6 - 2022 - 04 - 10
- Fix compilation error on older versions of GCC .
- Remove some dependencies on the standard library .
v0 .13 .5 - 2022 - 01 - 26
- Fix an error when seeking to the end of the file .
v0 .13 .4 - 2021 - 12 - 08
- Fix some static analysis warnings .
v0 .13 .3 - 2021 - 11 - 24
- Fix an incorrect assertion when trying to endian swap 1 - byte sample formats . This is now a no - op
rather than a failed assertion .
- Fix a bug with parsing of the bext chunk .
- Fix some static analysis warnings .
v0 .13 .2 - 2021 - 10 - 02
- Fix a possible buffer overflow when reading from compressed formats .
v0 .13 .1 - 2021 - 07 - 31
- Fix platform detection for ARM64 .
v0 .13 .0 - 2021 - 07 - 01
- Improve support for reading and writing metadata . Use the ` _with_metadata ( ) ` APIs to initialize
a WAV decoder and store the metadata within the ` drwav ` object . Use the ` pMetadata ` and
` metadataCount ` members of the ` drwav ` object to read the data . The old way of handling metadata
via a callback is still usable and valid .
- API CHANGE : drwav_target_write_size_bytes ( ) now takes extra parameters for calculating the
required write size when writing metadata .
- Add drwav_get_cursor_in_pcm_frames ( )
- Add drwav_get_length_in_pcm_frames ( )
- Fix a bug where drwav_read_raw ( ) can call the read callback with a byte count of zero .
v0 .12 .20 - 2021 - 06 - 11
- Fix some undefined behavior .
v0 .12 .19 - 2021 - 02 - 21
- Fix a warning due to referencing _MSC_VER when it is undefined .
- Minor improvements to the management of some internal state concerning the data chunk cursor .
v0 .12 .18 - 2021 - 01 - 31
- Clean up some static analysis warnings .
v0 .12 .17 - 2021 - 01 - 17
- Minor fix to sample code in documentation .
- Correctly qualify a private API as private rather than public .
- Code cleanup .
2022-09-25 18:23:15 +00:00
v0 .12 .16 - 2020 - 12 - 02
- Fix a bug when trying to read more bytes than can fit in a size_t .
v0 .12 .15 - 2020 - 11 - 21
- Fix compilation with OpenWatcom .
v0 .12 .14 - 2020 - 11 - 13
- Minor code clean up .
v0 .12 .13 - 2020 - 11 - 01
- Improve compiler support for older versions of GCC .
v0 .12 .12 - 2020 - 09 - 28
- Add support for RF64 .
- Fix a bug in writing mode where the size of the RIFF chunk incorrectly includes the header section .
v0 .12 .11 - 2020 - 09 - 08
- Fix a compilation error on older compilers .
v0 .12 .10 - 2020 - 08 - 24
- Fix a bug when seeking with ADPCM formats .
v0 .12 .9 - 2020 - 08 - 02
- Simplify sized types .
v0 .12 .8 - 2020 - 07 - 25
- Fix a compilation warning .
v0 .12 .7 - 2020 - 07 - 15
- Fix some bugs on big - endian architectures .
- Fix an error in s24 to f32 conversion .
v0 .12 .6 - 2020 - 06 - 23
- Change drwav_read_ * ( ) to allow NULL to be passed in as the output buffer which is equivalent to a forward seek .
- Fix a buffer overflow when trying to decode invalid IMA - ADPCM files .
- Add include guard for the implementation section .
v0 .12 .5 - 2020 - 05 - 27
- Minor documentation fix .
v0 .12 .4 - 2020 - 05 - 16
- Replace assert ( ) with DRWAV_ASSERT ( ) .
- Add compile - time and run - time version querying .
- DRWAV_VERSION_MINOR
- DRWAV_VERSION_MAJOR
- DRWAV_VERSION_REVISION
- DRWAV_VERSION_STRING
- drwav_version ( )
- drwav_version_string ( )
v0 .12 .3 - 2020 - 04 - 30
- Fix compilation errors with VC6 .
v0 .12 .2 - 2020 - 04 - 21
- Fix a bug where drwav_init_file ( ) does not close the file handle after attempting to load an erroneous file .
v0 .12 .1 - 2020 - 04 - 13
- Fix some pedantic warnings .
v0 .12 .0 - 2020 - 04 - 04
- API CHANGE : Add container and format parameters to the chunk callback .
- Minor documentation updates .
v0 .11 .5 - 2020 - 03 - 07
- Fix compilation error with Visual Studio . NET 2003.
v0 .11 .4 - 2020 - 01 - 29
- Fix some static analysis warnings .
- Fix a bug when reading f32 samples from an A - law encoded stream .
v0 .11 .3 - 2020 - 01 - 12
- Minor changes to some f32 format conversion routines .
- Minor bug fix for ADPCM conversion when end of file is reached .
v0 .11 .2 - 2019 - 12 - 02
- Fix a possible crash when using custom memory allocators without a custom realloc ( ) implementation .
- Fix an integer overflow bug .
- Fix a null pointer dereference bug .
- Add limits to sample rate , channels and bits per sample to tighten up some validation .
v0 .11 .1 - 2019 - 10 - 07
- Internal code clean up .
v0 .11 .0 - 2019 - 10 - 06
- API CHANGE : Add support for user defined memory allocation routines . This system allows the program to specify their own memory allocation
routines with a user data pointer for client - specific contextual data . This adds an extra parameter to the end of the following APIs :
- drwav_init ( )
- drwav_init_ex ( )
- drwav_init_file ( )
- drwav_init_file_ex ( )
- drwav_init_file_w ( )
- drwav_init_file_w_ex ( )
- drwav_init_memory ( )
- drwav_init_memory_ex ( )
- drwav_init_write ( )
- drwav_init_write_sequential ( )
- drwav_init_write_sequential_pcm_frames ( )
- drwav_init_file_write ( )
- drwav_init_file_write_sequential ( )
- drwav_init_file_write_sequential_pcm_frames ( )
- drwav_init_file_write_w ( )
- drwav_init_file_write_sequential_w ( )
- drwav_init_file_write_sequential_pcm_frames_w ( )
- drwav_init_memory_write ( )
- drwav_init_memory_write_sequential ( )
- drwav_init_memory_write_sequential_pcm_frames ( )
- drwav_open_and_read_pcm_frames_s16 ( )
- drwav_open_and_read_pcm_frames_f32 ( )
- drwav_open_and_read_pcm_frames_s32 ( )
- drwav_open_file_and_read_pcm_frames_s16 ( )
- drwav_open_file_and_read_pcm_frames_f32 ( )
- drwav_open_file_and_read_pcm_frames_s32 ( )
- drwav_open_file_and_read_pcm_frames_s16_w ( )
- drwav_open_file_and_read_pcm_frames_f32_w ( )
- drwav_open_file_and_read_pcm_frames_s32_w ( )
- drwav_open_memory_and_read_pcm_frames_s16 ( )
- drwav_open_memory_and_read_pcm_frames_f32 ( )
- drwav_open_memory_and_read_pcm_frames_s32 ( )
Set this extra parameter to NULL to use defaults which is the same as the previous behaviour . Setting this NULL will use
DRWAV_MALLOC , DRWAV_REALLOC and DRWAV_FREE .
- Add support for reading and writing PCM frames in an explicit endianness . New APIs :
- drwav_read_pcm_frames_le ( )
- drwav_read_pcm_frames_be ( )
- drwav_read_pcm_frames_s16le ( )
- drwav_read_pcm_frames_s16be ( )
- drwav_read_pcm_frames_f32le ( )
- drwav_read_pcm_frames_f32be ( )
- drwav_read_pcm_frames_s32le ( )
- drwav_read_pcm_frames_s32be ( )
- drwav_write_pcm_frames_le ( )
- drwav_write_pcm_frames_be ( )
- Remove deprecated APIs .
- API CHANGE : The following APIs now return native - endian data . Previously they returned little - endian data .
- drwav_read_pcm_frames ( )
- drwav_read_pcm_frames_s16 ( )
- drwav_read_pcm_frames_s32 ( )
- drwav_read_pcm_frames_f32 ( )
- drwav_open_and_read_pcm_frames_s16 ( )
- drwav_open_and_read_pcm_frames_s32 ( )
- drwav_open_and_read_pcm_frames_f32 ( )
- drwav_open_file_and_read_pcm_frames_s16 ( )
- drwav_open_file_and_read_pcm_frames_s32 ( )
- drwav_open_file_and_read_pcm_frames_f32 ( )
- drwav_open_file_and_read_pcm_frames_s16_w ( )
- drwav_open_file_and_read_pcm_frames_s32_w ( )
- drwav_open_file_and_read_pcm_frames_f32_w ( )
- drwav_open_memory_and_read_pcm_frames_s16 ( )
- drwav_open_memory_and_read_pcm_frames_s32 ( )
- drwav_open_memory_and_read_pcm_frames_f32 ( )
v0 .10 .1 - 2019 - 08 - 31
- Correctly handle partial trailing ADPCM blocks .
v0 .10 .0 - 2019 - 08 - 04
- Remove deprecated APIs .
- Add wchar_t variants for file loading APIs :
drwav_init_file_w ( )
drwav_init_file_ex_w ( )
drwav_init_file_write_w ( )
drwav_init_file_write_sequential_w ( )
- Add drwav_target_write_size_bytes ( ) which calculates the total size in bytes of a WAV file given a format and sample count .
- Add APIs for specifying the PCM frame count instead of the sample count when opening in sequential write mode :
drwav_init_write_sequential_pcm_frames ( )
drwav_init_file_write_sequential_pcm_frames ( )
drwav_init_file_write_sequential_pcm_frames_w ( )
drwav_init_memory_write_sequential_pcm_frames ( )
- Deprecate drwav_open * ( ) and drwav_close ( ) :
drwav_open ( )
drwav_open_ex ( )
drwav_open_write ( )
drwav_open_write_sequential ( )
drwav_open_file ( )
drwav_open_file_ex ( )
drwav_open_file_write ( )
drwav_open_file_write_sequential ( )
drwav_open_memory ( )
drwav_open_memory_ex ( )
drwav_open_memory_write ( )
drwav_open_memory_write_sequential ( )
drwav_close ( )
- Minor documentation updates .
v0 .9 .2 - 2019 - 05 - 21
- Fix warnings .
v0 .9 .1 - 2019 - 05 - 05
- Add support for C89 .
- Change license to choice of public domain or MIT - 0.
v0 .9 .0 - 2018 - 12 - 16
- API CHANGE : Add new reading APIs for reading by PCM frames instead of samples . Old APIs have been deprecated and
will be removed in v0 .10 .0 . Deprecated APIs and their replacements :
drwav_read ( ) - > drwav_read_pcm_frames ( )
drwav_read_s16 ( ) - > drwav_read_pcm_frames_s16 ( )
drwav_read_f32 ( ) - > drwav_read_pcm_frames_f32 ( )
drwav_read_s32 ( ) - > drwav_read_pcm_frames_s32 ( )
drwav_seek_to_sample ( ) - > drwav_seek_to_pcm_frame ( )
drwav_write ( ) - > drwav_write_pcm_frames ( )
drwav_open_and_read_s16 ( ) - > drwav_open_and_read_pcm_frames_s16 ( )
drwav_open_and_read_f32 ( ) - > drwav_open_and_read_pcm_frames_f32 ( )
drwav_open_and_read_s32 ( ) - > drwav_open_and_read_pcm_frames_s32 ( )
drwav_open_file_and_read_s16 ( ) - > drwav_open_file_and_read_pcm_frames_s16 ( )
drwav_open_file_and_read_f32 ( ) - > drwav_open_file_and_read_pcm_frames_f32 ( )
drwav_open_file_and_read_s32 ( ) - > drwav_open_file_and_read_pcm_frames_s32 ( )
drwav_open_memory_and_read_s16 ( ) - > drwav_open_memory_and_read_pcm_frames_s16 ( )
drwav_open_memory_and_read_f32 ( ) - > drwav_open_memory_and_read_pcm_frames_f32 ( )
drwav_open_memory_and_read_s32 ( ) - > drwav_open_memory_and_read_pcm_frames_s32 ( )
drwav : : totalSampleCount - > drwav : : totalPCMFrameCount
- API CHANGE : Rename drwav_open_and_read_file_ * ( ) to drwav_open_file_and_read_ * ( ) .
- API CHANGE : Rename drwav_open_and_read_memory_ * ( ) to drwav_open_memory_and_read_ * ( ) .
- Add built - in support for smpl chunks .
- Add support for firing a callback for each chunk in the file at initialization time .
- This is enabled through the drwav_init_ex ( ) , etc . family of APIs .
- Handle invalid FMT chunks more robustly .
v0 .8 .5 - 2018 - 09 - 11
- Const correctness .
- Fix a potential stack overflow .
v0 .8 .4 - 2018 - 08 - 07
- Improve 64 - bit detection .
v0 .8 .3 - 2018 - 08 - 05
- Fix C + + build on older versions of GCC .
v0 .8 .2 - 2018 - 08 - 02
- Fix some big - endian bugs .
v0 .8 .1 - 2018 - 06 - 29
- Add support for sequential writing APIs .
- Disable seeking in write mode .
- Fix bugs with Wave64 .
- Fix typos .
v0 .8 - 2018 - 04 - 27
- Bug fix .
- Start using major . minor . revision versioning .
v0 .7f - 2018 - 02 - 05
- Restrict ADPCM formats to a maximum of 2 channels .
v0 .7 e - 2018 - 02 - 02
- Fix a crash .
v0 .7 d - 2018 - 02 - 01
- Fix a crash .
v0 .7 c - 2018 - 02 - 01
- Set drwav . bytesPerSample to 0 for all compressed formats .
- Fix a crash when reading 16 - bit floating point WAV files . In this case dr_wav will output silence for
all format conversion reading APIs ( * _s16 , * _s32 , * _f32 APIs ) .
- Fix some divide - by - zero errors .
v0 .7 b - 2018 - 01 - 22
- Fix errors with seeking of compressed formats .
- Fix compilation error when DR_WAV_NO_CONVERSION_API
v0 .7 a - 2017 - 11 - 17
- Fix some GCC warnings .
v0 .7 - 2017 - 11 - 04
- Add writing APIs .
v0 .6 - 2017 - 08 - 16
- API CHANGE : Rename dr_ * types to drwav_ * .
- Add support for custom implementations of malloc ( ) , realloc ( ) , etc .
- Add support for Microsoft ADPCM .
- Add support for IMA ADPCM ( DVI , format code 0x11 ) .
- Optimizations to drwav_read_s16 ( ) .
- Bug fixes .
v0 .5 g - 2017 - 07 - 16
- Change underlying type for booleans to unsigned .
v0 .5f - 2017 - 04 - 04
- Fix a minor bug with drwav_open_and_read_s16 ( ) and family .
v0 .5 e - 2016 - 12 - 29
- Added support for reading samples as signed 16 - bit integers . Use the _s16 ( ) family of APIs for this .
- Minor fixes to documentation .
v0 .5 d - 2016 - 12 - 28
- Use drwav_int * and drwav_uint * sized types to improve compiler support .
v0 .5 c - 2016 - 11 - 11
- Properly handle JUNK chunks that come before the FMT chunk .
v0 .5 b - 2016 - 10 - 23
- A minor change to drwav_bool8 and drwav_bool32 types .
v0 .5 a - 2016 - 10 - 11
- Fixed a bug with drwav_open_and_read ( ) and family due to incorrect argument ordering .
- Improve A - law and mu - law efficiency .
v0 .5 - 2016 - 09 - 29
- API CHANGE . Swap the order of " channels " and " sampleRate " parameters in drwav_open_and_read * ( ) . Rationale for this is to
keep it consistent with dr_audio and dr_flac .
v0 .4 b - 2016 - 09 - 18
- Fixed a typo in documentation .
v0 .4 a - 2016 - 09 - 18
- Fixed a typo .
- Change date format to ISO 8601 ( YYYY - MM - DD )
v0 .4 - 2016 - 07 - 13
- API CHANGE . Make onSeek consistent with dr_flac .
- API CHANGE . Rename drwav_seek ( ) to drwav_seek_to_sample ( ) for clarity and consistency with dr_flac .
- Added support for Sony Wave64 .
v0 .3 a - 2016 - 05 - 28
- API CHANGE . Return drwav_bool32 instead of int in onSeek callback .
- Fixed a memory leak .
v0 .3 - 2016 - 05 - 22
- Lots of API changes for consistency .
v0 .2 a - 2016 - 05 - 16
- Fixed Linux / GCC build .
v0 .2 - 2016 - 05 - 11
- Added support for reading data as signed 32 - bit PCM for consistency with dr_flac .
v0 .1 a - 2016 - 05 - 07
- Fixed a bug in drwav_open_file ( ) where the file handle would not be closed if the loader failed to initialize .
v0 .1 - 2016 - 05 - 04
- Initial versioned release .
*/
/*
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2024-10-04 08:04:51 +00:00
Copyright 2023 David Reid
2022-09-25 18:23:15 +00:00
Permission is hereby granted , free of charge , to any person obtaining a copy of
this software and associated documentation files ( the " Software " ) , to deal in
the Software without restriction , including without limitation the rights to
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of the Software , and to permit persons to whom the Software is furnished to do
so .
THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER
LIABILITY , WHETHER IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM ,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE .
2024-10-04 08:04:51 +00:00
*/