reactos/base/applications/sndrec32/audio_membuffer.hpp

199 lines
6.9 KiB
C++

/* PROJECT: ReactOS sndrec32
* LICENSE: GPL - See COPYING in the top level directory
* FILE: base/applications/sndrec32/audio_membuffer.hpp
* PURPOSE: Allocs audio buffer
* PROGRAMMERS: Marco Pagliaricci (irc: rendar)
*/
#ifndef _AUDIOMEMBUFFER__H_
#define _AUDIOMEMBUFFER__H_
#include "audio_receiver.hpp"
#include "audio_format.hpp"
#include "audio_producer.hpp"
_AUDIO_NAMESPACE_START_
class audio_membuffer : public audio_receiver, public audio_producer
{
protected:
BYTE * audio_data;
audio_format aud_info;
unsigned int buf_size;
unsigned int init_size;
/* Protected Functions */
/* allocs N bytes for the audio buffer */
void alloc_mem_(unsigned int);
/* frees memory */
void free_mem_(void);
/* resizes memory, and copies old audio data to new-size memory */
void resize_mem_(unsigned int);
/* truncates and discards unused memory. `buf_size' will be the same as `bytes_received' */
void truncate_(void);
public:
void (* audio_arrival)(unsigned int);
void (* buffer_resized)(unsigned int);
/* Ctors */
audio_membuffer(void) : audio_data(0),
aud_info(_AUDIO_DEFAULT_FORMAT),
buf_size(0),
init_size(0)
{
/* Allocs memory for at least 1 or some seconds of recording */
init_size = (unsigned int)((float)aud_info.byte_rate() * _AUDIO_DEFAULT_BUFSECS);
alloc_mem_(init_size);
}
audio_membuffer(audio_format aud_fmt) : audio_data(0),
aud_info(aud_fmt),
buf_size(0),
init_size(0)
{
/* Allocs memory for at least 1 or some seconds of recording */
init_size = (unsigned int)((float)aud_info.byte_rate() * _AUDIO_DEFAULT_BUFSECS);
alloc_mem_(init_size);
}
audio_membuffer(audio_format aud_fmt, unsigned int seconds) : audio_data(0),
aud_info(aud_fmt),
buf_size(0),
init_size(0)
{
/* Allocs memory for audio recording the specified number of seconds */
init_size = aud_info.byte_rate() * seconds;
alloc_mem_(init_size);
}
audio_membuffer(audio_format aud_fmt, float seconds) : audio_data(0),
aud_info(aud_fmt),
buf_size(0),
init_size(0)
{
/* Allocs memory for audio recording the specified number of seconds */
init_size = (unsigned int)((float)aud_info.byte_rate() * seconds <= 0 ? 1 : seconds);
alloc_mem_(init_size);
}
audio_membuffer(unsigned int bytes) : audio_data(0),
aud_info(_AUDIO_DEFAULT_FORMAT),
buf_size(0),
init_size(0)
{
/* Allocs memory for the specified bytes */
init_size = bytes;
alloc_mem_(init_size);
}
/* Dtor */
virtual ~audio_membuffer(void)
{
/* Frees memory and reset values */
clear();
}
/* Public functions */
/* returns the audio buffer size in bytes */
unsigned int mem_size(void) const
{
return buf_size;
}
/* returns how many audio data has been received, in bytes */
unsigned int bytes_recorded(void) const
{
return bytes_received;
}
/* returns the integer number of seconds that the buffer can record */
unsigned int seconds_total(void) const
{
return buf_size / aud_info.byte_rate();
}
/* returns the integer number of seconds that the buffer can record */
unsigned int seconds_recorded(void) const
{
return bytes_received / aud_info.byte_rate();
}
/* returns the float number of seconds that the buffer can record */
float fseconds_total(void) const
{
return (float)((float) buf_size / (float)aud_info.byte_rate());
}
/* returns the float number of seconds that has been recorded */
float fseconds_recorded(void) const
{
return (float)((float)bytes_received / (float)aud_info.byte_rate());
}
unsigned int total_samples(void) const
{
return (aud_info.samples_in_seconds(fseconds_total()));
}
unsigned int samples_received(void) const
{
return (aud_info.samples_in_bytes(bytes_received));
}
/* returns a pointer to the audio buffer */
BYTE * audio_buffer(void) const
{
return audio_data;
}
/* frees memory and resets values */
void clear(void);
audio_format & audinfo(void)
{
return aud_info;
}
/* discard audio data, resets values, but, instead of clear() which
frees memory, reset the memory to the initial size, ready for
receiving "new" audio data. */
void reset(void);
/* truncates and discards unused memory. `buf_size' will be the same as `bytes_received' */
void truncate(void)
{
truncate_();
} /* TODO: fare truncate N bytes */
/* if there is a buffer, discards current buffer memory and realloc
a new memory buffer with a new size expressed in bytes. */
void alloc_bytes(unsigned int);
/* if there is a buffer, discards current buffer memory and realloc
a new memory buffer with a new size expressed in seconds, integer and float. */
void alloc_seconds(unsigned int);
void alloc_seconds(float);
/* resizes in bytes the current buffer, without discarding
previously audio data received */
void resize_bytes(unsigned int);
/* resizes in seconds the current buffer, without discarding
previously audio data received */
void resize_seconds( unsigned int );
void resize_seconds( float );
/* Inherited Functions from `audio_receiver' */
void audio_receive(unsigned char *, unsigned int);
/* Inherited Functions from `audio_buffer' */
unsigned int read(BYTE *, unsigned int);
bool finished(void);
};
_AUDIO_NAMESPACE_END_
#endif /* _AUDIOMEMBUFFER__H_ */