centos build workarounds

[goodguy/history.git] / cinelerra-5.0 / cinelerra / autos.h

/*
 * CINELERRA
 * Copyright (C) 2008 Adam Williams <broadcast at earthling dot net>
 * 
 * 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., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 * 
 */

#ifndef AUTOS_H
#define AUTOS_H

#include <stdio.h>
#include <stdint.h>

// Base class for automation lists.
// Units are the native units for the track data type.

#include "auto.h"
#include "edl.inc"
#include "guicast.h"
#include "filexml.inc"
#include "track.inc"

#define AUTOS_VIRTUAL_HEIGHT 160

class Autos : public List<Auto>
{
public:
        Autos(EDL *edl, Track *track);
                
        virtual ~Autos();

        void resample(double old_rate, double new_rate);

        virtual void create_objects();
        void equivalent_output(Autos *autos, int64_t startproject, int64_t *result);
        void copy_from(Autos *autos);
        virtual Auto* new_auto();
// Get existing auto on or before position.
// If use_default is true, return default_auto if none exists 
// on or before position.
// Return 0 if none exists and use_default is false.
// If &current is nonzero it is used as a starting point for searching.
        Auto* get_prev_auto(int64_t position, int direction, Auto* &current, int use_default = 1);
        Auto* get_prev_auto(int direction, Auto* &current);
        Auto* get_next_auto(int64_t position, int direction, Auto* &current, int use_default = 1);
// Determine if a keyframe exists before creating it.
        int auto_exists_for_editing(double position);
// Returns auto at exact position, null if non-existent. ignores autokeyframming and align on frames
        Auto* get_auto_at_position(double position = -1);

// Get keyframe for editing with automatic creation if enabled
        Auto* get_auto_for_editing(double position = -1);

// Insert keyframe at the point if it doesn't exist
        Auto* insert_auto(int64_t position);
        void insert_track(Autos *automation, 
                int64_t start_unit, 
                int64_t length_units,
                int replace_default);
        virtual int load(FileXML *xml);
        void remove_nonsequential(Auto *keyframe);
        void optimize();

// Returns a type enumeration
        int get_type();
        int64_t get_length();
        virtual void get_extents(float *min, 
                float *max,
                int *coords_undefined,
                int64_t unit_start,
                int64_t unit_end);

        EDL *edl;
        Track *track;
// Default settings if no autos.
// Having a persistent keyframe created problems when files were loaded and
// we wanted to keep only 1 auto.
// Default auto has position 0 except in effects, where multiple default autos
// exist.
        Auto *default_auto;

        int type;
        enum
        {
                AUTOMATION_TYPE_FLOAT,
                AUTOMATION_TYPE_MASK,
                AUTOMATION_TYPE_INT,
                AUTOMATION_TYPE_PAN,
                AUTOMATION_TYPE_PLUGIN
        };



        virtual void dump(FILE *fp);






        int clear_all();
        int insert(int64_t start, int64_t end);
        int paste_silence(int64_t start, int64_t end);
// Copy for keyframe clipboard & drag & drop
// default_only - only copy the default keyframe
        int copy(int64_t start, 
                int64_t end, 
                FileXML *xml, 
                int default_only,
                int active_only);
// Paste for keyframe clipboard & drag & drop
// default_only - only paste the default keyframe
        void paste(int64_t start, 
                int64_t length, 
                double scale, 
                FileXML *file, 
                int default_only,
                int active_only);
// Stores the background rendering position in result
        void clear(int64_t start, 
                int64_t end, 
                int shift_autos);
        virtual void set_automation_mode(int64_t start, int64_t end, int mode);
        int clear_auto(int64_t position);
        int save(FileXML *xml);
        virtual int slope_adjustment(int64_t ax, double slope);
        int release_auto();
        virtual int release_auto_derived() { return 0; }
        Auto* append_auto();
        int scale_time(float rate_scale, int scale_edits, int scale_autos, int64_t start, int64_t end);

// rendering utilities
        int get_neighbors(int64_t start, int64_t end, Auto **before, Auto **after);
// 1 if automation doesn't change
        virtual int automation_is_constant(int64_t start, int64_t end);       
        virtual double get_automation_constant(int64_t start, int64_t end);
        int init_automation(int64_t &buffer_position,
                                int64_t &input_start, 
                                int64_t &input_end, 
                                int &automate, 
                                double &constant, 
                                int64_t input_position,
                                int64_t buffer_len,
                                Auto **before, 
                                Auto **after,
                                int reverse);

        int init_slope(Auto **current_auto, 
                                double &slope_start, 
                                double &slope_value,
                                double &slope_position, 
                                int64_t &input_start, 
                                int64_t &input_end, 
                                Auto **before, 
                                Auto **after,
                                int reverse);

        int get_slope(Auto **current_auto, 
                                double &slope_start, 
                                double &slope_end, 
                                double &slope_value,
                                double &slope, 
                                int64_t buffer_len, 
                                int64_t buffer_position,
                                int reverse);

        int advance_slope(Auto **current_auto, 
                                double &slope_start, 
                                double &slope_value,
                                double &slope_position, 
                                int reverse);

        Auto* autoof(int64_t position);   // return nearest auto equal to or after position
                                                                                                  // 0 if after all autos
        Auto* nearest_before(int64_t position);    // return nearest auto before or 0
        Auto* nearest_after(int64_t position);     // return nearest auto after or 0

        Auto *selected;
        int skip_selected;      // if selected was added
        int64_t selected_position, selected_position_;      // original position for moves
        double selected_value, selected_value_;      // original position for moves
        float virtual_h;  // height cursor moves to cover entire range when track height is less than this
        int virtual_center;
        int stack_number;
        int stack_total;
};






#endif