winamp/Src/Agave/DecodeFile/api_decodefile.h

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2024-09-24 12:54:57 +00:00
#ifndef NULLSOFT_AGAVE_API_DECODEFILE_H
#define NULLSOFT_AGAVE_API_DECODEFILE_H
#include <bfc/dispatch.h>
#include <bfc/platform/types.h>
#include "ifc_audiostream.h"
enum
{
API_DECODEFILE_SUCCESS = 0,
API_DECODEFILE_FAILURE = 1,
API_DECODEFILE_UNSUPPORTED = 2, // type is unsupported
API_DECODEFILE_NO_INTERFACE = 3, // type is supported, but plugin does provide any interfaces for direct decoding
API_DECODEFILE_WINAMP_PRO = 4, // user has to pay $$$ to do this
API_DECODEFILE_NO_RIGHTS = 5, // user is not allowed to decode this file (e.g. DRM)
API_DECODEFILE_BAD_RESAMPLE = 6, // Winamp is unable to resample this file to CDDA format (stereo 16bit 44.1kHz)
API_DECODEFILE_FAIL_NO_WARN = 7, // we have already informed the user of an issue so do not show again e.g. CD playing so cannot also do a rip
};
enum
{
AUDIOPARAMETERS_FLOAT = 1,
AUDIOPARAMETERS_MAXCHANNELS = 2, // set this if channels is meant to define an upper limit
// (e.g. setting channels=2 and flags |= AUDIOPARAMETERS_MAXCHANNELS means 1 or 2 channels is OK, but not more)
AUDIOPARAMETERS_MAXSAMPLERATE = 4, // like AUDIOPARAMETERS_MAXCHANNELS but for sample rate
AUDIOPARAMETERS_NON_INTERLEAVED = 8, // audio data is stored as separate buffers per channel. not currently implemented
};
struct AudioParameters
{
public:
AudioParameters() : bitsPerSample(0), channels(0), sampleRate(0), sampleRateReal(0.f), flags(0), sizeBytes((size_t) - 1), errorCode(API_DECODEFILE_SUCCESS)
{}
uint32_t bitsPerSample;
uint32_t channels;
uint32_t sampleRate;
float sampleRateReal; // yes this is duplicate.
int flags;
size_t sizeBytes; // total size of decoded file, (size_t)-1 means don't know
int errorCode;
};
class api_decodefile : public Dispatchable
{
public:
/* OpenAudioBackground gives you back an ifc_audiostream that you can use to get decompressed bits
* if it returns 0, check parameters->errorCode for the failure reason
* fill parameters with desired values (0 if you don't care)
* the decoder will _do its best_ to satisfy your passed-in audio parameters
* but this API does not guarantee them, so be sure to check the parameters struct after the function returns
* it's **UP TO YOU** to do any necessary conversion (sample rate, channels, bits-per-sample) if the decoder can't do it
*/
ifc_audiostream *OpenAudioBackground(const wchar_t *filename, AudioParameters *parameters);
/* OpenAudio is the same as OpenAudioBackground
* but, it will use the input plugin system to decode if necessary
* so it's best to use this in a separate winamp.exe
* to be honest, it was designed for internal use in the CD burner
* so it's best not to use this one at all
*/
ifc_audiostream *OpenAudio(const wchar_t *filename, AudioParameters *parameters);
void CloseAudio(ifc_audiostream *audioStream);
/* verifies that a decoder exists to decompress this filename.
this is not a guarantee that the file is openable, just that it can be matched to a decoder */
bool DecoderExists(const wchar_t *filename);
public:
DISPATCH_CODES
{
API_DECODEFILE_OPENAUDIO = 10,
API_DECODEFILE_OPENAUDIO2 = 11,
API_DECODEFILE_CLOSEAUDIO = 20,
API_DECODEFILE_DECODEREXISTS = 30,
};
};
inline ifc_audiostream *api_decodefile::OpenAudio(const wchar_t *filename, AudioParameters *parameters)
{
return _call(API_DECODEFILE_OPENAUDIO, (ifc_audiostream *)0, filename, parameters);
}
inline ifc_audiostream *api_decodefile::OpenAudioBackground(const wchar_t *filename, AudioParameters *parameters)
{
return _call(API_DECODEFILE_OPENAUDIO2, (ifc_audiostream *)0, filename, parameters);
}
inline void api_decodefile::CloseAudio(ifc_audiostream *audioStream)
{
_voidcall(API_DECODEFILE_CLOSEAUDIO, audioStream);
}
inline bool api_decodefile::DecoderExists(const wchar_t *filename)
{
return _call(API_DECODEFILE_DECODEREXISTS, (bool)true, filename); // we default to true so that an old implementation doesn't break completely
}
// {9B4188F5-4295-48ab-B50C-F2B0BB56D242}
static const GUID decodeFileGUID =
{
0x9b4188f5, 0x4295, 0x48ab, { 0xb5, 0xc, 0xf2, 0xb0, 0xbb, 0x56, 0xd2, 0x42 }
};
#endif