wiiqt/thp_player/gcvid.h

/***************************************************************************
 * Copyright (C) 2010
 * by thakis
 *
 * Modification and adjustment for the Wii by Dimok
 *
 * This software is provided 'as-is', without any express or implied
 * warranty. In no event will the authors be held liable for any
 * damages arising from the use of this software.
 *
 * Permission is granted to anyone to use this software for any
 * purpose, including commercial applications, and to alter it and
 * redistribute it freely, subject to the following restrictions:
 *
 * 1. The origin of this software must not be misrepresented; you
 * must not claim that you wrote the original software. If you use
 * this software in a product, an acknowledgment in the product
 * documentation would be appreciated but is not required.
 *
 * 2. Altered source versions must be plainly marked as such, and
 * must not be misrepresented as being the original software.
 *
 * 3. This notice may not be removed or altered from any source
 * distribution.
 *
 * gcvid.h
 ***************************************************************************/

#ifndef THAKIS_GCVID_H
#define THAKIS_GCVID_H THAKIS_GCVID_H

#include <stdio.h> //FILE*
#include <string>
#include <vector>

//typedef unsigned char boolean;
typedef unsigned char u8;
typedef short s16;
typedef unsigned short u16;
typedef int s32;
typedef unsigned int u32;
typedef long long s64;
typedef float f32;

#pragma pack(push, 1)

/////////////////////////////////////////////////////////////////////
//THP

struct ThpHeader
{
	char tag[4]; //'THP\0'

	//from monk's thp player:
	u32 version; //0x00011000 = 1.1, 0x00010000 = 1.0
	u32 maxBufferSize;
	u32 maxAudioSamples; //!= 0 if sound is stored in file


	float fps; //usually 29.something (=0x41efc28f) for ntsc
	u32 numFrames;
	u32 firstFrameSize; //size of first frame

	u32 dataSize; //size of file - ThpHeader.offset

	//from monk's thp player:
	u32 componentDataOffset; //ThpComponents stored here
	u32 offsetsDataOffset; //?? if != 0, offset to table with offsets of all frames?

	u32 firstFrameOffset;
	u32 lastFrameOffset;
};

//monk:

struct ThpComponents
{
	u32 numComponents; //usually 1 or 2 (video or video + audio)

	//component type 0 is video, type 1 is audio,
	//type 0xff is "no component" (numComponent many entries
	//are != 0xff)
	u8 componentTypes[16];
};

struct ThpVideoInfo
{
	u32 width;
	u32 height;
	u32 unknown; //only for version 1.1 thp files
};

struct ThpAudioInfo
{
	u32 numChannels;
	u32 frequency;
	u32 numSamples;
	u32 numData; //only for version 1.1 - that many
	//audio blocks are after each video block
	//(for surround sound?)
};

//endmonk


//a frame image is basically a normal jpeg image (without
//the jfif application marker), the only important difference
//is that after the image start marker (0xff 0xda) values
//of 0xff are simply written as 0xff whereas the jpeg
//standard requires them to be written as 0xff 0x00 because
//0xff is the start of a 2-byte control code in jpeg

//frame (offsets relative to frame start):
//u32 total (image, sound, etc) size of NEXT frame
//u32 size1 at 0x04 (total size of PREV frame according to monk)
//u32 image data size at 0x08
//size of one audio block ONLY IF THE FILE HAS SOUND. ThpAudioInfo.numData
//many audio blocks after jpeg data
//jpeg data
//audio block(s)

struct ThpAudioBlockHeader
{
	//size 80 byte
	u32 channelSize; //size of one channel in bytes
	u32 numSamples; //number of samples/channel
	s16 table1[16]; //table for first channel
	s16 table2[16]; //table for second channel
	s16 channel1Prev1;
	s16 channel1Prev2;
	s16 channel2Prev1;
	s16 channel2Prev2;
};

//audio block:
//u32 size of this audioblock
//
//u32 numBytes/channel of audioblock - that many bytes per channel after adpcm table)
//
//u32 number of samples per channel
//
//2*16 shorts adpcm table (one per channel - always stored both,
//even for mono files), 5.11 fixed point values
//
//4 s16: 2 shorts prev1 and prev2 for each channel (even for mono files)
//
//sound data

//sound data:
//8 byte are 14 samples:
//the first byte stores index (upper nibble) and shift (lower nibble),
//the following 7 bytes contain 14o samples a 4 bit each


/////////////////////////////////////////////////////////////////////
//MTH ("mute thp"?)

//similar to a thp file, but without sound

struct MthHeader
{
	//one of the unknown has to be fps in some form

	char tag[4]; //'MTHP'
	u32 unknown;
	u32 unknown2;
	u32 maxFrameSize;

	u32 width;
	u32 height;
	u32 fps;
	u32 numFrames;

	u32 offset;
	u32 unknown5;
	u32 firstFrameSize;

	//5 padding u32's follow
};

//frame:
//u32 size of NEXT frame
//jpeg data

//see thp (above) for jpeg format. there's a small difference, though:
//mth jpegs end with 0xff 0xd9 0xff instead of 0xff 0xd9

#pragma pack(pop)

//little helper class that represents one frame of video
//data is 24 bpp, scanlines aligned to 4 byte boundary
class VideoFrame
{
public:
	VideoFrame();
	~VideoFrame();

	void resize(int width, int height);

	int getWidth() const;
	int getHeight() const;
	int getPitch() const;
	u8* getData();
	const u8* getData() const;

	void dealloc();

private:
	u8* _data;
	int _w;
	int _h;
	int _p; //pitch in bytes

	//copy constructor and asignment operator are not allowed
	//VideoFrame(const VideoFrame& f);
	VideoFrame& operator=(const VideoFrame& f);
};

//swaps red and blue channel of a video frame
void swapRB(VideoFrame& f);


class VideoFile
{
public:
	VideoFile(FILE* f);
	virtual ~VideoFile();


	virtual int getWidth() const;
	virtual int getHeight() const;
	virtual float getFps() const;
	virtual int getFrameCount() const;
	virtual int getCurrentFrameNr() const;

	virtual void loadNextFrame();

	virtual void getCurrentFrame(VideoFrame& frame) const;
	virtual void SetFrameNo( u32 frameNo );

	//sound support:
	virtual bool hasSound() const;
	virtual int getNumChannels() const;
	virtual int getFrequency() const;
	virtual int getMaxAudioSamples() const;
	virtual int getCurrentBuffer(s16* data) const;


protected:

	FILE* _f;

	//void loadFrame(long offset, int size);
	void loadFrame(VideoFrame& frame, const u8* data, int size) const;

};

VideoFile* openVideo(const std::string& fileName);
void closeVideo(VideoFile*& vf);


class ThpVideoFile : public VideoFile
{
public:
	ThpVideoFile(FILE* f);

	virtual int getWidth() const;
	virtual int getHeight() const;
	virtual float getFps() const;
	virtual int getFrameCount() const;

	virtual int getCurrentFrameNr() const;

	virtual void loadNextFrame();

	virtual void getCurrentFrame(VideoFrame& frame) const;
	virtual void SetFrameNo( u32 frameNo );

	virtual bool hasSound() const;
	virtual int getNumChannels() const;
	virtual int getFrequency() const;
	virtual int getMaxAudioSamples() const;
	virtual int getCurrentBuffer(s16* data) const;


protected:
	ThpHeader _head;
	ThpComponents _components;
	ThpVideoInfo _videoInfo;
	ThpAudioInfo _audioInfo;
	int _numInts;

	int _currFrameNr;
	int _nextFrameOffset;
	int _nextFrameSize;
	std::vector<u8> _currFrameData;
};

class MthVideoFile : public VideoFile
{
public:
	MthVideoFile(FILE* f);

	virtual int getWidth() const;
	virtual int getHeight() const;
	virtual float getFps() const;
	virtual int getFrameCount() const;

	virtual int getCurrentFrameNr() const;
	virtual void SetFrameNo( u32 frameNo );

	virtual void loadNextFrame();

	virtual void getCurrentFrame(VideoFrame& frame) const;

protected:
	MthHeader _head;

	int _currFrameNr;
	int _nextFrameOffset;
	int _nextFrameSize;
	int _thisFrameSize;
	std::vector<u8> _currFrameData;
};

class JpgVideoFile : public VideoFile
{
public:
	JpgVideoFile(FILE* f);

	virtual int getWidth() const;
	virtual int getHeight() const;
	virtual int getFrameCount() const;

	virtual void getCurrentFrame(VideoFrame& frame) const;

private:
	VideoFrame _currFrame;
};

#endif //THAKIS_GCVID_H