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{
This file is part of Acinerella.
Acinerella is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Acinerella is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Acinerella. If not, see <http://www.gnu.org/licenses/>.
}
{Pascal header translation for the Acinerella media decoder system. Acinerella
wraps around FFMpeg and allows easy use in other programming languages.}
unit acinerella;
{$IFDEF FPC}
{$MODE DELPHI}
{$ENDIF}
interface
{$MINENUMSIZE 1}
{$IFDEF WIN32}
{$ALIGN 8}
{$ELSE}
{$ALIGN 4}
{$ENDIF}
const
{$IFDEF WIN32}
ac_dll = 'acinerella.dll';
{$ELSE}
{$IFDEF UNIX}
ac_dll = 'libacinerella.so';
{$ELSE}
{$MESSAGE Error 'Plattform not supported by Acinerella.'}
{$ENDIF}
{$ENDIF}
type
{Defines the type of an Acinerella media stream. Currently only video and
audio streams are supported, subtitle and data streams will be marked as
"unknown".}
TAc_stream_type = (
{The type of the media stream is not known. This kind of stream can not be
decoded.}
AC_STREAM_TYPE_UNKNOWN = -1,
{This media stream is a video stream.}
AC_STREAM_TYPE_VIDEO = 0,
{This media stream is an audio stream.}
AC_STREAM_TYPE_AUDIO = 1
);
{Defines the type of an Acinerella media decoder.}
TAc_decoder_type = (
{This decoder is used to decode a video stream.}
AC_DECODER_TYPE_VIDEO = 0,
{This decoder is used to decode an audio stram.}
AC_DECODER_TYPE_AUDIO = 1
);
{Defines the format video/image data is outputted in}
TAc_output_format = (
AC_OUTPUT_RGB24 = 0,
AC_OUTPUT_BGR24 = 1,
AC_OUTPUT_RGBA32 = 2,
AC_OUTPUT_BGRA32 = 3
);
TAc_infostr = array[0..511] of AnsiChar;
TAc_infostr2 = array[0..31] of AnsiChar;
{Contains information about the whole file/stream that has been opened. Default
values are "" for strings and -1 for integer values.}
TAc_file_info = record
title: TAc_infostr;
author: TAc_infostr;
copyright: TAc_infostr;
comment: TAc_infostr;
album: TAc_infostr;
year: integer;
track: integer;
genre: TAc_infostr2;
duration: int64;
bitrate: integer;
end;
{TAc_instance represents an Acinerella instance. Each instance can open and
decode one file at once. There can be only 26 Acinerella instances opened at
once.}
TAc_instance = record
{If true, the instance currently opened a media file.}
opened: boolean;
{Contains the count of streams the media file has. This value is available
after calling the ac_open function.}
stream_count: integer;
{Set this value to change the image output format}
output_format: TAc_output_format;
{Contains information about the opened stream/file}
info: TAc_file_info;
end;
{Pointer on the Acinerella instance record.}
PAc_instance = ^TAc_instance;
{Contains information about an Acinerella audio stream.}
TAc_audio_stream_info = record
{Samples per second. Default values are 44100 or 48000.}
samples_per_second: integer;
{Bits per sample. Can be 8 or 16 Bit.}
bit_depth: integer;
{Count of channels in the audio stream.}
channel_count: integer;
end;
{Contains information about an Acinerella video stream.}
TAc_video_stream_info = record
{The width of one frame.}
frame_width: integer;
{The height of one frame.}
frame_height: integer;
{The width of one pixel. 1.07 for 4:3 format, 1,42 for the 16:9 format}
pixel_aspect: single;
{Frames per second that should be played.}
frames_per_second: double;
end;
{Contains additional info about the video stream. Use "video_info" when the stream
is an video stream, "audio_info" when the stream is an audio stream.}
TAd_additional_info = record
case byte of
0: (video_info: TAc_video_stream_info);
1: (audio_info: TAc_audio_stream_info);
end;
{Contains information about an Acinerella stream.}
TAc_stream_info = record
{Contains the type of the stream.}
stream_type: TAc_stream_type;
{Additional info about the stream}
additional_info: TAd_additional_info;
end;
{Pointer on TAc_stream_info}
PAc_stream_info = ^TAc_stream_info;
{Contains information about an Acinerella video/audio decoder.}
TAc_decoder = record
{Pointer on the Acinerella instance}
pAcInstance: pAc_instance;
{Contains the type of the decoder.}
dec_type: TAc_decoder_type;
{The timecode of the currently decoded picture in seconds.}
timecode: double;
video_clock: double;
{Contains information about the stream the decoder is attached to.}
stream_info: TAc_stream_info;
{The index of the stream the decoder is attached to.}
stream_index: integer;
{Pointer to the buffer which contains the data.}
buffer: PByte;
{Size of the data in the buffer.}
buffer_size: integer;
end;
{Pointer on TAc_decoder.}
PAc_decoder = ^TAc_decoder;
{Contains information about an Acinerella package.}
TAc_package = record
{The stream the package belongs to.}
stream_index: integer;
end;
{Pointer on TAc_package}
PAc_package = ^TAc_package;
PAc_proberesult = Pointer;
{Callback function used to ask the application to read data. Should return
the number of bytes read or an value smaller than zero if an error occured.}
TAc_read_callback = function(sender: Pointer; buf: PByte; size: integer): integer; cdecl;
{Callback function used to ask the application to seek. return 0 if succeed , -1 on failure.}
TAc_seek_callback = function(sender: Pointer; pos: int64; whence: integer): int64; cdecl;
{Callback function that is used to notify the application when the data stream
is opened or closed. For example the file pointer should be resetted to zero
when the "open" function is called.}
TAc_openclose_callback = function(sender: Pointer): integer; cdecl;
{Initializes an Acinerella instance.}
function ac_init(): PAc_instance; cdecl; external ac_dll;
{Frees an Acinerella instance.}
procedure ac_free(inst: PAc_instance); cdecl; external ac_dll;
{Opens a media file.
@param(inst specifies the Acinerella Instance the stream should be opened for)
@param(sender specifies a pointer that is sent to all callback functions to
allow you to do object orientated programming. May be NULL.)
@param(open_proc specifies the callback function that is called, when the
media file is opened. May be NULL.)
@param(close_proc specifies the callback function that is called when the media
file is closed. May be NULL.)}
function ac_open(
inst: PAc_instance;
sender: Pointer;
open_proc: TAc_openclose_callback;
read_proc: TAc_read_callback;
seek_proc: TAc_seek_callback;
close_proc: TAc_openclose_callback;
proberesult: PAc_proberesult): integer; cdecl; external ac_dll;
{Closes an opened media file.}
procedure ac_close(inst: PAc_instance);cdecl; external ac_dll;
{Stores information in "pInfo" about stream number "nb".}
procedure ac_get_stream_info(
inst: PAc_instance; nb: integer; pinfo: PAc_stream_info); cdecl; external ac_dll;
{Reads a package from an opened media file.}
function ac_read_package(inst: PAc_instance): PAc_package; cdecl; external ac_dll;
{Frees a package that has been read.}
procedure ac_free_package(package: PAc_package); cdecl; external ac_dll;
{Creates an decoder for the specified stream number. Returns NIL if no decoder
could be found.}
function ac_create_decoder(pacInstance: PAc_instance; nb: integer): PAc_decoder; cdecl; external ac_dll;
{Frees an created decoder.}
procedure ac_free_decoder(pDecoder: PAc_decoder); cdecl; external ac_dll;
{Decodes a package using the specified decoder. The decodec data is stored in the
"buffer" property of the decoder.}
function ac_decode_package(pPackage: PAc_package; pDecoder: PAc_decoder): integer; cdecl; external ac_dll;
{Seeks to the given target position in the file. The seek funtion is not able to seek a single audio/video stream
but seeks the whole file forward. The deocder parameter is only used as an timecode reference.
The parameter "dir" specifies the seek direction: 0 for forward, -1 for backward.
The target_pos paremeter is in milliseconds. Returns 1 if the functions succeded.}
function ac_seek(pDecoder: PAc_decoder; dir: integer; target_pos: int64): integer; cdecl; external ac_dll;
function ac_probe_input_buffer(buf: PChar; bufsize: Integer; filename: PChar;
var score_max: Integer): PAc_proberesult; cdecl; external ac_dll;
implementation
{Connect the library memory management to the host application. This happens
automatically when the application gets initialized and nobody has to care
about it.}
function ac_mem_mgr(
ptr_malloc: Pointer;
ptr_realloc: Pointer;
ptr_free: Pointer): PAc_instance; cdecl; external ac_dll;
function malloc(size: integer): Pointer; cdecl;
begin
result := GetMemory(size);
end;
function realloc(ptr: Pointer; size: integer): pointer; cdecl;
begin
result := ReallocMemory(ptr, size);
end;
procedure free(ptr: Pointer); cdecl;
begin
FreeMemory(ptr);
end;
initialization
ac_mem_mgr(@malloc, @realloc, @free);
end.
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