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/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program 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 2
* of the License, or (at your option) any later version.
* This program 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 this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* $URL$
* $Id$
*
*/
/* Song iterator declarations */
#ifndef SCI_SFX_SFX_ITERATOR_H
#define SCI_SFX_SFX_ITERATOR_H
#include "sci/sfx/sfx_pcm.h"
namespace Audio {
class AudioStream;
}
namespace Sci {
enum SongIteratorStatus {
SI_FINISHED = -1, /**< Song finished playing */
SI_LOOP = -2, /**< Song just looped */
SI_ABSOLUTE_CUE = -3, /**< Found a song cue (absolute) */
SI_RELATIVE_CUE = -4, /**< Found a song cue (relative) */
SI_PCM = -5, /**< Found a PCM */
SI_IGNORE = -6, /**< This event got edited out by the remapper */
SI_MORPH = -255 /**< Song iterator requested self-morph. */
};
#define FADE_ACTION_NONE 0
#define FADE_ACTION_FADE_AND_STOP 1
#define FADE_ACTION_FADE_AND_CONT 2
struct fade_params_t {
int ticks_per_step;
int final_volume;
int step_size;
int action;
};
/* Helper defs for messages */
enum {
_SIMSG_BASE, /* Any base decoder */
_SIMSG_PLASTICWRAP /* Any "Plastic" (discardable) wrapper decoder */
};
/* Base messages */
enum {
_SIMSG_BASEMSG_SET_LOOPS, /* Set loops */
_SIMSG_BASEMSG_SET_PLAYMASK, /* Set the current playmask for filtering */
_SIMSG_BASEMSG_SET_RHYTHM, /* Activate/deactivate rhythm channel */
_SIMSG_BASEMSG_ACK_MORPH, /* Acknowledge self-morph */
_SIMSG_BASEMSG_STOP, /* Stop iterator */
_SIMSG_BASEMSG_PRINT, /* Print self to stderr, after printing param1 tabs */
_SIMSG_BASEMSG_SET_HOLD, /* Set value of hold parameter to expect */
_SIMSG_BASEMSG_SET_FADE /* Set fade parameters */
};
/* "Plastic" (discardable) wrapper messages */
enum {
_SIMSG_PLASTICWRAP_ACK_MORPH = _SIMSG_BASEMSG_ACK_MORPH /* Acknowledge self-morph */
};
/* Messages */
#define SIMSG_SET_LOOPS(x) _SIMSG_BASE,_SIMSG_BASEMSG_SET_LOOPS,(x)
#define SIMSG_SET_PLAYMASK(x) _SIMSG_BASE,_SIMSG_BASEMSG_SET_PLAYMASK,(x)
#define SIMSG_SET_RHYTHM(x) _SIMSG_BASE,_SIMSG_BASEMSG_SET_RHYTHM,(x)
#define SIMSG_ACK_MORPH _SIMSG_PLASTICWRAP,_SIMSG_PLASTICWRAP_ACK_MORPH,0
#define SIMSG_STOP _SIMSG_BASE,_SIMSG_BASEMSG_STOP,0
#define SIMSG_PRINT(indentation) _SIMSG_BASE,_SIMSG_BASEMSG_PRINT,(indentation)
#define SIMSG_SET_HOLD(x) _SIMSG_BASE,_SIMSG_BASEMSG_SET_HOLD,(x)
/* Message transmission macro: Takes song reference, message reference */
#define SIMSG_SEND(o, m) songit_handle_message(&(o), SongIterator::Message((o)->ID, m))
#define SIMSG_SEND_FADE(o, m) songit_handle_message(&(o), SongIterator::Message((o)->ID, _SIMSG_BASE, _SIMSG_BASEMSG_SET_FADE, m))
typedef unsigned long songit_id_t;
#define SONGIT_MAX_LISTENERS 2
class TeeSongIterator;
class SongIterator {
public:
struct Message {
songit_id_t ID;
uint _class; /* Type of iterator supposed to receive this */
uint _type;
union {
uint i;
void *p;
} _arg;
Message() : ID(0), _class(0xFFFF), _type(0xFFFF) {}
/**
* Create a song iterator message.
*
* @param id: song ID the message is targeted to
* @param recipient_class: Message recipient class
* @param type message type
* @param a argument
*
* @note You should only use this with the SIMSG_* macros
*/
Message(songit_id_t id, int recipient_class, int type, int a)
: ID(id), _class(recipient_class), _type(type) {
_arg.i = a;
}
/**
* Create a song iterator message, wherein the first parameter is a pointer.
*
* @param id: song ID the message is targeted to
* @param recipient_class: Message recipient class
* @param type message type
* @param a argument
*
* @note You should only use this with the SIMSG_* macros
*/
Message(songit_id_t id, int recipient_class, int type, void *a)
: ID(id), _class(recipient_class), _type(type) {
_arg.p = a;
}
};
public:
songit_id_t ID;
uint16 channel_mask; /* Bitmask of all channels this iterator will use */
fade_params_t fade;
int priority;
/* Death listeners */
/* These are not reset during initialisation */
TeeSongIterator *_deathListeners[SONGIT_MAX_LISTENERS];
/* See songit_* for the constructor and non-virtual member functions */
public:
SongIterator();
SongIterator(const SongIterator &);
virtual ~SongIterator();
/**
* Resets/initializes the sound iterator.
*/
virtual void init() {}
/**
* Reads the next MIDI operation _or_ delta time.
* @param buf The buffer to write to (needs to be able to store at least 4 bytes)
* @param result Number of bytes written to the buffer
* (equals the number of bytes that need to be passed
* to the lower layers) for 0, the cue value for SI_CUE,
* or the number of loops remaining for SI_LOOP.
* @return zero if a MIDI operation was written, SI_FINISHED
* if the song has finished playing, SI_LOOP if looping
* (after updating the loop variable), SI_CUE if we found
* a cue, SI_PCM if a PCM was found, or the number of ticks
* to wait before this function should be called next.
*
* @note If SI_PCM is returned, get_pcm() may be used to retrieve the associated
* PCM, but this must be done before any subsequent calls to next().
*
* @todo The actual buffer size should either be specified or passed in, so that
* we can detect buffer overruns.
*/
virtual int nextCommand(byte *buf, int *result) = 0;
/**
Checks for the presence of a pcm sample.
* @return NULL if no PCM data was found, an AudioStream otherwise.
*/
virtual Audio::AudioStream *getAudioStream() = 0;
/**
* Handles a message to the song iterator.
* @param msg the message to handle
* @return NULL if the message was not understood,
* this if the message could be handled, or a new song iterator
* if the current iterator had to be morphed (but the message could
* still be handled)
*
* @note This function is not supposed to be called directly; use
* songit_handle_message() instead. It should not recurse, since songit_handle_message()
* takes care of that and makes sure that its delegate received the message (and
* was morphed) before self.
*/
virtual SongIterator *handleMessage(Message msg) = 0;
/**
* Gets the song position to store in a savegame.
*/
virtual int getTimepos() = 0;
/**
* Clone this song iterator.
* @param delta number of ticks that still need to elapse until the
* next item should be read from the song iterator
*/
virtual SongIterator *clone(int delta) = 0;
private:
// Make the assignment operator unreachable, just in case...
SongIterator& operator=(const SongIterator&);
};
/********************************/
/*-- Song iterator operations --*/
/********************************/
enum SongIteratorType {
SCI_SONG_ITERATOR_TYPE_SCI0 = 0,
SCI_SONG_ITERATOR_TYPE_SCI1 = 1
};
#define IT_READER_MASK_MIDI (1 << 0)
#define IT_READER_MASK_DELAY (1 << 1)
#define IT_READER_MASK_LOOP (1 << 2)
#define IT_READER_MASK_CUE (1 << 3)
#define IT_READER_MASK_PCM (1 << 4)
#define IT_READER_MAY_FREE (1 << 10) /* Free SI_FINISHED iterators */
#define IT_READER_MAY_CLEAN (1 << 11)
/* MAY_CLEAN: May instantiate cleanup iterators
** (use for players; this closes open channels at the end of a song) */
#define IT_READER_MASK_ALL ( IT_READER_MASK_MIDI \
| IT_READER_MASK_DELAY \
| IT_READER_MASK_LOOP \
| IT_READER_MASK_CUE \
| IT_READER_MASK_PCM )
int songit_next(SongIterator **it, byte *buf, int *result, int mask);
/* Convenience wrapper around it->next
** Parameters: (SongIterator **it) Reference to the iterator to access
** (byte *) buf: The buffer to write to (needs to be able to
** store at least 4 bytes)
** (int) mask: IT_READER_MASK options specifying the events to
** listen for
** Returns : (int) zero if a MIDI operation was written, SI_FINISHED
** if the song has finished playing, SI_LOOP if looping
** (after updating the loop variable), SI_CUE if we found
** a cue, SI_PCM if a PCM was found, or the number of ticks
** to wait before this function should be called next.
** (int) *result: Number of bytes written to the buffer
** (equals the number of bytes that need to be passed
** to the lower layers) for 0, the cue value for SI_CUE,
** or the number of loops remaining for SI_LOOP.
*/
SongIterator *songit_new(byte *data, uint size, SongIteratorType type, songit_id_t id);
/* Constructs a new song iterator object
** Parameters: (byte *) data: The song data to iterate over
** (uint) size: Number of bytes in the song
** (int) type: One of the SCI_SONG_ITERATOR_TYPEs
** (songit_id_t) id: An ID for addressing the song iterator
** Returns : (SongIterator *) A newly allocated but uninitialized song
** iterator, or NULL if 'type' was invalid or unsupported
*/
int songit_handle_message(SongIterator **it_reg, SongIterator::Message msg);
/* Handles a message to the song iterator
** Parameters: (SongIterator **): A reference to the variable storing the song iterator
** Returns : (int) Non-zero if the message was understood
** The song iterator may polymorph as result of msg, so a writeable reference is required.
*/
int sfx_play_iterator_pcm(SongIterator *it, unsigned long handle);
/* Plays a song iterator that found a PCM through a PCM device, if possible
** Parameters: (SongIterator *) it: The iterator to play
** (song_handle_t) handle: Debug handle
** Returns : (int) 0 if the effect will not be played, nonzero if it will
** This assumes that the last call to 'it->next()' returned SI_PCM.
*/
SongIterator *new_fast_forward_iterator(SongIterator *it, int delta);
/* Creates a new song iterator which fast-forwards
** Parameters: (SongIterator *) it: The iterator to wrap
** (int) delta: The number of ticks to skip
** Returns : (SongIterator) A newly created song iterator
** which skips all delta times
** until 'delta' has been used up
*/
} // End of namespace Sci
#endif // SCI_SFX_SFX_ITERATOR_H
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