version update

[goodguy/cinelerra.git] / cinelerra-5.1 / cinelerra / vmodule.C

/*
 * CINELERRA
 * Copyright (C) 2009-2013 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
 *
 */

#include "asset.h"
#include "bchash.h"
#include "bcpbuffer.h"
#include "bcsignals.h"
#include "cache.h"
#include "clip.h"
#include "commonrender.h"
#include "edits.h"
#include "edl.h"
#include "edlsession.h"
#include "file.h"
#include "filexml.h"
#include "floatautos.h"
#include "maskauto.h"
#include "maskautos.h"
#include "mwindow.h"
#include "overlayframe.h"
#include "patch.h"
#include "pluginarray.h"
#include "preferences.h"
#include "renderengine.h"
#include "sharedlocation.h"
#include "tracks.h"
#include "transition.h"
#include "transportque.h"
#include "units.h"
#include "vattachmentpoint.h"
#include "vdevicex11.h"
#include "vedit.h"
#include "vframe.h"
#include "videodevice.h"
#include "virtualvconsole.h"
#include "vmodule.h"
#include "vrender.h"
#include "vplugin.h"
#include "vtrack.h"
#include <string.h>
#include "maskengine.h"
#include "automation.h"

VModule::VModule(RenderEngine *renderengine,
        CommonRender *commonrender,
        PluginArray *plugin_array,
        Track *track)
 : Module(renderengine, commonrender, plugin_array, track)
{
        data_type = TRACK_VIDEO;
        overlay_temp = 0;
        input_temp = 0;
        transition_temp = 0;
        masker = 0;
}

VModule::~VModule()
{
        if( overlay_temp ) delete overlay_temp;
        if( input_temp ) delete input_temp;
        if( transition_temp ) delete transition_temp;
        delete masker;
}


AttachmentPoint* VModule::new_attachment(Plugin *plugin)
{
        return new VAttachmentPoint(renderengine, plugin);
}

int VModule::get_buffer_size()
{
        return 1;
}

CICache* VModule::get_cache()
{
        if( renderengine )
                return renderengine->get_vcache();
        else
                return cache;
}


int VModule::import_frame(VFrame *output, VEdit *current_edit,
        int64_t input_position, double frame_rate, int direction, int use_opengl)
{
        int64_t direction_position;
// Translation of edit
        float in_x, in_y, in_w, in_h;
        float out_x, out_y, out_w, out_h;
        int result = 0;
        const int debug = 0;
        double edl_rate = get_edl()->session->frame_rate;

        int64_t input_position_project = Units::to_int64(input_position *
                edl_rate / frame_rate + 0.001);

        if( !output ) printf("VModule::import_frame %d output=%p\n", __LINE__, output);
        //output->dump_params();

        if( debug ) printf("VModule::import_frame %d this=%p input_position=%lld direction=%d\n",
                __LINE__, this, (long long)input_position, direction);

// Convert to position corrected for direction
        direction_position = input_position;
        if( direction == PLAY_REVERSE ) {
                if( direction_position > 0 ) direction_position--;
                if( input_position_project > 0 ) input_position_project--;
        }
        if( !output ) printf("VModule::import_frame %d output=%p\n", __LINE__, output);

        VDeviceX11 *x11_device = 0;
        if( use_opengl ) {
                if( renderengine && renderengine->video ) {
                        x11_device = (VDeviceX11*)renderengine->video->get_output_base();
                        output->set_opengl_state(VFrame::RAM);
                        if( !x11_device ) use_opengl = 0;
                }
        }

        if( !output ) printf("VModule::import_frame %d output=%p x11_device=%p nested_edl=%p\n",
                __LINE__, output, x11_device, nested_edl);

        if( debug ) printf("VModule::import_frame %d current_edit=%p\n",
                __LINE__, current_edit);

// Load frame into output

// Create objects for nested EDL
        if( current_edit && current_edit->nested_edl ) {
                int command;
                if( debug ) printf("VModule::import_frame %d nested_edl=%p current_edit->nested_edl=%p\n",
                        __LINE__, nested_edl, current_edit->nested_edl);

// Convert requested direction to command
                if( renderengine->command->command == CURRENT_FRAME ||
                    renderengine->command->command == LAST_FRAME ) {
                        command = renderengine->command->command;
                }
                else
                if( direction == PLAY_REVERSE ) {
                        if( renderengine->command->single_frame() )
                                command = SINGLE_FRAME_REWIND;
                        else
                                command = NORMAL_REWIND;
                }
                else {
                        if( renderengine->command->single_frame() )
                                command = SINGLE_FRAME_FWD;
                        else
                                command = NORMAL_FWD;
                }

                if( !nested_edl || nested_edl->id != current_edit->nested_edl->id ) {
                        nested_edl = current_edit->nested_edl;
                        if( nested_renderengine ) {
                                delete nested_renderengine;
                                nested_renderengine = 0;
                        }
                        if( !nested_command )
                                nested_command = new TransportCommand;
                        nested_command->command = command;
                        nested_command->get_edl()->copy_all(nested_edl);
                        nested_command->change_type = CHANGE_ALL;
                        nested_command->realtime = renderengine->command->realtime;
                        nested_renderengine = new RenderEngine(0, get_preferences(), 0, 1);
                        nested_renderengine->set_vcache(get_cache());
                        nested_renderengine->arm_command(nested_command);
                }
                else {

// Update nested command
                        nested_renderengine->command->command = command;
                        nested_command->realtime = renderengine->command->realtime;
                }

// Update nested video driver for opengl
                nested_renderengine->video = renderengine->video;
        }
        else {
                nested_edl = 0;
        }
        if( debug ) printf("VModule::import_frame %d\n", __LINE__);

        if( output ) {
                if( use_opengl )
                        x11_device->clear_input(output);
                else
                        output->clear_frame();
        }
        else
                printf("VModule::import_frame %d output=%p\n", __LINE__, output);

        if( current_edit &&
                (current_edit->asset ||
                (current_edit->nested_edl && nested_renderengine->vrender)) ) {
                File *file = 0;

//printf("VModule::import_frame %d cache=%p\n", __LINE__, get_cache());
                if( current_edit->asset ) {
                        get_cache()->age();
                        file = get_cache()->check_out(current_edit->asset, get_edl());
//                      get_cache()->dump();
                }

// File found
                if( file || nested_edl ) {
                        int64_t nested_position = 0;
// Source position going forward, in edl framerate
                        int64_t pos = Units::to_int64((double)direction_position / frame_rate * edl_rate);
                        int64_t len = pos - current_edit->startproject;
                        FloatAutos *speed_autos = !track->has_speed() ? 0 :
                                (FloatAutos*)track->automation->autos[AUTOMATION_SPEED];
                        if( speed_autos && len > 0 )
                                len = speed_autos->automation_integral(current_edit->startproject, len, PLAY_FORWARD);
                        pos = current_edit->startsource + len;
// Make positions based on requested frame rate.
                        int64_t position = Units::to_int64((double)pos * frame_rate / edl_rate);

                        int64_t max_position;
                        int asset_w, asset_h;
                        if( file ) {
                                asset_w = current_edit->asset->width;
                                asset_h = current_edit->asset->height;
                                max_position = Units::to_int64((double)file->get_video_length() *
                                        frame_rate / current_edit->asset->frame_rate - 1);
                        }
                        else {
                                asset_w = nested_edl->session->output_w;
                                asset_h = nested_edl->session->output_h;
                                max_position = Units::to_int64(nested_edl->tracks->total_length() *
                                        frame_rate - 1);
                        }
                        if( max_position < 0 ) max_position = 0;
// if we hit the end of stream, freeze at last frame
                        CLAMP(position, 0, max_position);

                        VFrame *&input = commonrender ?
                                ((VRender*)commonrender)->input_temp : // Realtime playback
                                input_temp ; // Menu effect
                        VFrame::get_temp(input, asset_w, asset_h, get_edl()->session->color_model);

                        int use_cache = renderengine->command->single_frame() ? 1 :
                                renderengine->command->get_direction() == PLAY_REVERSE ? -1 : 0;

//                      int use_asynchronous = !use_cache &&
//                              renderengine &&
// Try to make rendering go faster.
// But converts some formats to YUV420, which may degrade input format.
////                            renderengine->command->realtime &&
//                              renderengine->get_edl()->session->video_asynchronous;

                        if( file ) {
                                if( debug ) printf("VModule::import_frame %d\n", __LINE__);
//                              if( use_asynchronous )
//                                      file->start_video_decode_thread();
//                              else
                                        file->stop_video_thread();

                                VEdit *vnext = (VEdit *)current_edit->next;
                                pos = Units::to_int64((double)input_position / frame_rate * edl_rate);
                                if( renderengine->preferences->cache_transitions && !use_cache &&
// cache transitions, not caching and inside transition 
                                    vnext && vnext->transition && file->get_video_length() >= 0 &&
                                    pos >= vnext->startproject &&
                                    pos < vnext->startproject + vnext->transition->length ) {
                                        file->set_cache_frames(0);
                                        file->set_layer(current_edit->channel);
                                        VEdit *vnext = (VEdit *)current_edit->next;
                                        Track *track = current_edit->track;
                                        FloatAutos *speed_autos = (FloatAutos*)(track->has_speed() ?
                                                track->automation->autos[AUTOMATION_SPEED] : 0);
                                        int64_t end = vnext->startproject + vnext->transition->length;
                                        int first_frame = 1;
                                        int count = renderengine->preferences->cache_size /
                                                input->get_data_size() / 2;  // try to burn only 1/2 of cache
                                        while( !result && pos < end && count > 0 ) {
                                                int64_t curr_pos = pos - current_edit->startproject;
                                                if( curr_pos > 0 && speed_autos )
                                                        curr_pos = speed_autos->automation_integral(
                                                                current_edit->startproject, curr_pos, PLAY_FORWARD);
                                                curr_pos += current_edit->startsource;
                                                int64_t norm_pos = Units::to_int64((double)curr_pos *
                                                        current_edit->asset->frame_rate / edl_rate);
                                                if( first_frame ) {
                                                        if( file->get_cache_frame(input, norm_pos) )
                                                                break;  // if inside a cache run
                                                        first_frame = 0;
                                                        file->purge_cache(); // start new run
                                                }
                                                file->set_cache_frames(1);
                                                file->set_video_position(norm_pos, 0);
                                                result = file->read_frame(input);
                                                ++pos;  --count;
                                        }
                                        use_cache = 1;
                                }

                                int64_t normalized_position = Units::to_int64((double)position *
                                        current_edit->asset->frame_rate / frame_rate);
//printf("VModule::import_frame %d %lld %lld\n", __LINE__, position, normalized_position);
                                file->set_layer(current_edit->channel);
                                file->set_video_position(normalized_position, 0);
                        }
                        else {
                                if( debug ) printf("VModule::import_frame %d\n", __LINE__);
// Get source position in nested frame rate in direction of playback.
                                nested_position = Units::to_int64(position *
                                        nested_edl->session->frame_rate /
                                        frame_rate);
                                if( direction == PLAY_REVERSE )
                                        nested_position++;
                        }


// Auto scale if required
                        if( output->get_params()->get("AUTOSCALE", 0) ) {
                                float autoscale_w = output->get_params()->get("AUTOSCALE_W", 1024);
                                float autoscale_h = output->get_params()->get("AUTOSCALE_H", 1024);
                                float x_scale = autoscale_w / asset_w;
                                float y_scale = autoscale_h / asset_h;

// Overriding camera
                                in_x = 0;
                                in_y = 0;
                                in_w = asset_w;
                                in_h = asset_h;

                                if( x_scale < y_scale ) {
                                        out_w = in_w * x_scale;
                                        out_h = in_h * x_scale;
                                }
                                else {
                                        out_w = in_w * y_scale;
                                        out_h = in_h * y_scale;
                                }

                                out_x = track->track_w / 2 - out_w / 2;
                                out_y = track->track_h / 2 - out_h / 2;
                        }
                        else {
// Apply camera
                                ((VTrack*)track)->calculate_input_transfer(asset_w,
                                        asset_h, input_position_project, direction,
                                        in_x, in_y, in_w, in_h,
                                        out_x, out_y, out_w, out_h);
                        }

// printf("VModule::import_frame %d %f %d %f %d\n",
// __LINE__, in_w, asset_w, in_h, asset_h);

// file -> temp -> output
                        if( !EQUIV(in_x, 0) ||
                                !EQUIV(in_y, 0) ||
                                !EQUIV(in_w, track->track_w) ||
                                !EQUIV(in_h, track->track_h) ||
                                !EQUIV(out_x, 0) ||
                                !EQUIV(out_y, 0) ||
                                !EQUIV(out_w, track->track_w) ||
                                !EQUIV(out_h, track->track_h) ||
                                !EQUIV(in_w, asset_w) ||
                                !EQUIV(in_h, asset_h)) {
//printf("VModule::import_frame %d file -> temp -> output\n", __LINE__);
// Get temporary input buffer
                                VFrame **input = commonrender ?  // Realtime playback
                                        &((VRender*)commonrender)->input_temp :
                                        &input_temp ; // Menu effect
                                VFrame::get_temp(*input, asset_w, asset_h,
                                                get_edl()->session->color_model);
                                (*input)->copy_stacks(output);
// file -> temp
// Cache for single frame, reverse playback
                                if( file ) {
                                        if( debug ) printf("VModule::import_frame %d this=%p file=%s\n",
                                                __LINE__,
                                                this,
                                                current_edit->asset->path);
                                        if( use_cache )
                                                file->set_cache_frames(use_cache);
                                        result = file->read_frame((*input));
                                        if( use_cache )
                                                file->set_cache_frames(0);
                                        (*input)->set_opengl_state(VFrame::RAM);
                                }
                                else
                                if( nested_edl ) {
// If the colormodels differ, change input to nested colormodel
                                        int nested_cmodel = nested_renderengine->get_edl()->session->color_model;
                                        int current_cmodel = output->get_color_model();
                                        int output_w = output->get_w();
                                        int output_h = output->get_h();
                                        VFrame *input2 = (*input);

                                        if( nested_cmodel != current_cmodel ) {
// If opengl, input -> input -> output
                                                if( use_opengl ) { }
                                                else {
// If software, input2 -> input -> output
// Use output as a temporary.
                                                        input2 = output;
                                                }

                                                if( debug ) printf("VModule::import_frame %d this=%p nested_cmodel=%d\n",
                                                        __LINE__,
                                                        this,
                                                        nested_cmodel);
                                                input2->dump();
                                                input2->reallocate(0, -1, 0, 0, 0,
                                                        (*input)->get_w(), (*input)->get_h(),
                                                        nested_cmodel, -1);
                                                input2->dump();
                                        }


                                        if( debug ) printf("VModule::import_frame %d this=%p nested_edl=%s input2=%p\n",
                                                __LINE__, this, nested_edl->path, input2);

                                        result = nested_renderengine->vrender->process_buffer(
                                                input2, nested_position, use_opengl);

                                        if( debug ) printf("VModule::import_frame %d this=%p nested_edl=%s\n",
                                                __LINE__,
                                                this,
                                                nested_edl->path);

                                        if( nested_cmodel != current_cmodel ) {
                                                if( debug ) printf("VModule::import_frame %d\n", __LINE__);
                                                if( use_opengl ) {
// Change colormodel in hardware.
                                                        if( debug ) printf("VModule::import_frame %d\n", __LINE__);
                                                        x11_device->convert_cmodel(input2,
                                                                current_cmodel);

// The converted color model is now in hardware, so return the input2 buffer
// to the expected color model.
                                                        input2->reallocate(0, -1, 0, 0, 0,
                                                                (*input)->get_w(), (*input)->get_h(),
                                                                current_cmodel, -1);
                                                }
                                                else {
// Transfer from input2 to input
if( debug ) printf("VModule::import_frame %d nested_cmodel=%d current_cmodel=%d input2=%p input=%p output=%p\n",
  __LINE__, nested_cmodel, current_cmodel, input2, (*input), output);
                                                        BC_CModels::transfer((*input)->get_rows(), input2->get_rows(),
                                                                0, 0, 0, 0, 0, 0,
                                                                0, 0, input2->get_w(), input2->get_h(),
                                                                0, 0, (*input)->get_w(), (*input)->get_h(),
                                                                nested_cmodel, current_cmodel, 0,
                                                                input2->get_w(), (*input)->get_w());
//printf("VModule::import_frame %d\n", __LINE__);

// input2 was the output buffer, so it must be restored
                                                input2->reallocate(0, -1, 0, 0, 0,
                                                        output_w, output_h, current_cmodel, -1);
//printf("VModule::import_frame %d\n", __LINE__);
                                                }
                                        }

                                }

// Find an overlayer object to perform the camera transformation
                                OverlayFrame *overlayer = 0;

// OpenGL playback uses hardware
                                if( use_opengl ) {
//printf("VModule::import_frame %d\n", __LINE__);
                                }
                                else if( commonrender ) {
// Realtime playback
                                        VRender *vrender = (VRender*)commonrender;
                                        overlayer = vrender->overlayer;
                                }
                                else {
// Menu effect
                                        if( !plugin_array )
                                                printf("VModule::import_frame neither plugin_array nor commonrender is defined.\n");
                                        if( !overlay_temp ) {
                                                overlay_temp = new OverlayFrame(plugin_array->mwindow->preferences->processors);
                                        }

                                        overlayer = overlay_temp;
                                }
// printf("VModule::import_frame 1 %.2f %.2f %.2f %.2f %.2f %.2f %.2f %.2f\n",
//   in_x, in_y, in_w, in_h, out_x, out_y, out_w, out_h);

// temp -> output
// for( int j = 0; j < output->get_w() * 3 * 5; j++ )
//      output->get_rows()[0][j] = 255;

                                if( use_opengl ) {
                                        x11_device->do_camera(output, (*input),
                                                in_x, in_y, in_x + in_w, in_y + in_h,
                                                out_x, out_y, out_x + out_w, out_y + out_h);
if( debug ) printf("VModule::import_frame %d %d %d\n",
 __LINE__, output->get_opengl_state(), (*input)->get_opengl_state());
                                }
                                else {
                                        output->clear_frame();
// get_cache()->check_in(current_edit->asset);
// return;

// TRANSFER_REPLACE is the fastest transfer mode but it has the disadvantage
// of producing green borders in floating point translation of YUV
                                        int mode = TRANSFER_REPLACE;
                                        if( get_edl()->session->interpolation_type != NEAREST_NEIGHBOR &&
                                                BC_CModels::is_yuv(output->get_color_model()) )
                                                mode = TRANSFER_NORMAL;

                                        if( debug ) printf("VModule::import_frame %d temp -> output\n", __LINE__);
                                        overlayer->overlay(output, (*input),
                                                in_x, in_y, in_x + in_w, in_y + in_h,
                                                out_x, out_y, out_x + out_w, out_y + out_h,
                                                1, mode, get_edl()->session->interpolation_type);
                                }
                                result = 1;
                                
                                output->copy_stacks((*input));
                                
                                
//printf("VModule::import_frame %d\n", __LINE__); 
//(*input)->dump_params();
//output->dump_params();
                        }
                        else {
// file -> output
                                if( debug ) printf("VModule::import_frame %d file -> output nested_edl=%p file=%p\n",
                                        __LINE__, nested_edl, file);
                                if( nested_edl ) {
                                        VFrame **input = &output;
// If colormodels differ, reallocate output in nested colormodel.
                                        int nested_cmodel = nested_renderengine->get_edl()->session->color_model;
                                        int current_cmodel = output->get_color_model();

if( debug ) printf("VModule::import_frame %d nested_cmodel=%d current_cmodel=%d\n",
__LINE__,
nested_cmodel,
current_cmodel);

                                        if( nested_cmodel != current_cmodel ) {
                                                if( use_opengl ) { }
                                                else {
                                                        if( commonrender ) {
                                                                input = &((VRender*)commonrender)->input_temp;
                                                        }
                                                        else {
                                                                input = &input_temp;
                                                        }

                                                        if( !(*input) ) (*input) = new VFrame;
                                                }

                                                (*input)->reallocate(0, -1, 0, 0, 0,
                                                        output->get_w(), output->get_h(),
                                                        nested_cmodel, -1);
if( debug ) printf("VModule::import_frame %d\n", __LINE__);
//(*input)->dump();
//(*input)->clear_frame();
                                        }

if( debug ) printf("VModule::import_frame %d %p %p\n",
 __LINE__, (*input)->get_rows(), (*input));
                                        result = nested_renderengine->vrender->process_buffer(
                                                (*input), nested_position, use_opengl);
if( debug ) printf("VModule::import_frame %d\n",
__LINE__);

// If colormodels differ, change colormodels in opengl if possible.
// Swap output for temp if not possible.
                                        if( nested_cmodel != current_cmodel ) {
                                                if( use_opengl ) {
                                                        x11_device->convert_cmodel(output,
                                                                current_cmodel);

// The color model was changed in place, so return output buffer
                                                        output->reallocate(0, -1, 0, 0, 0,
                                                                output->get_w(), output->get_h(),
                                                                current_cmodel, -1);
                                                }
                                                else {
// Transfer from temporary to output
if( debug ) printf("VModule::import_frame %d %d %d %d %d %d %d\n",
  __LINE__, (*input)->get_w(), (*input)->get_h(),
  output->get_w(), output->get_h(), nested_cmodel, current_cmodel);
                                                        BC_CModels::transfer(output->get_rows(), (*input)->get_rows(),
                                                                0, 0, 0, 0, 0, 0,
                                                                0, 0, (*input)->get_w(), (*input)->get_h(),
                                                                0, 0, output->get_w(), output->get_h(),
                                                                nested_cmodel, current_cmodel, 0,
                                                                (*input)->get_w(), output->get_w());
                                                }

                                        }
                                }
                                else if( file ) {
// Cache single frames
//memset(output->get_rows()[0], 0xff, 1024);
                                        if( use_cache )
                                                file->set_cache_frames(use_cache);
                                        result = file->read_frame(output);
                                        if( use_cache )
                                                file->set_cache_frames(0);
                                        output->set_opengl_state(VFrame::RAM);
                                }
                        }

                        if( file ) {
                                get_cache()->check_in(current_edit->asset);
                                file = 0;
                        }
                }
                else {
// Source not found
                        result = 1;
                }

//              printf("VModule::import_frame %d cache=%p\n", 
//                      __LINE__,
//                      get_cache());

        }
        else {
// Source is silence
                if( debug ) printf("VModule::import_frame %d\n", __LINE__);
                if( use_opengl ) {
                        x11_device->clear_input(output);
                }
                else {
                        output->clear_frame();
                }
        }

        if( debug ) printf("VModule::import_frame %d done\n", __LINE__);

        return result;
}


int VModule::render(VFrame *output,
        int64_t start_position, int direction, double frame_rate,
        int use_nudge, int debug_render, int use_opengl)
{
        int result = 0;
        double edl_rate = get_edl()->session->frame_rate;

//printf("VModule::render %d %ld\n", __LINE__, start_position);

        if( use_nudge ) start_position += Units::to_int64(track->nudge *
                frame_rate / edl_rate);

        int64_t start_position_project = Units::to_int64(start_position *
                edl_rate / frame_rate + 0.5);

        update_transition(start_position_project, direction);

        VEdit* current_edit = (VEdit*)track->edits->editof(start_position_project,
                direction, 0);
        VEdit* previous_edit = 0;
//printf("VModule::render %d %p %ld %d\n", __LINE__, current_edit, start_position_project, direction);

        Plugin *transition = get_edl()->tracks->plugin_exists(transition_id);
        if( debug_render )
                printf("    VModule::render %d %d %jd %s transition=%p opengl=%d current_edit=%p output=%p\n",
                        __LINE__, use_nudge, start_position_project, track->title,
                        transition, use_opengl, current_edit, output);

        if( !current_edit ) {
                output->clear_frame();
                // We do not apply mask here, since alpha is 0, and neither substracting nor multypling changes it
                // Another mask mode - "addition" should be added to be able to create mask from empty frames
                // in this case we would call masking here too...
                return 0;
        }




// Process transition
        if( transition && transition->on ) {

// Get temporary buffer
                VFrame **transition_input = 0;
                if( commonrender ) {
                        VRender *vrender = (VRender*)commonrender;
                        transition_input = &vrender->transition_temp;
                }
                else {
                        transition_input = &transition_temp;
                }

                if( (*transition_input) &&
                        ((*transition_input)->get_w() != track->track_w ||
                        (*transition_input)->get_h() != track->track_h) ) {
                        delete (*transition_input);
                        (*transition_input) = 0;
                }

// Load incoming frame
                if( !(*transition_input) ) {
                        (*transition_input) =
                                new VFrame(track->track_w, track->track_h,
                                        get_edl()->session->color_model);
                }

                (*transition_input)->copy_stacks(output);

//printf("VModule::render %d\n", __LINE__);
                result = import_frame((*transition_input),
                        current_edit, start_position, frame_rate,
                        direction, use_opengl);


// Load transition buffer
                previous_edit = (VEdit*)current_edit->previous;

                result |= import_frame(output,
                        previous_edit, start_position, frame_rate,
                        direction, use_opengl);
//printf("VModule::render %d %p %p %p %p\n", __LINE__,
// (*transition_input), (*transition_input)->get_pbuffer(),
// output, output->get_pbuffer());

// Execute plugin with transition_input and output here
                if( renderengine )
                        transition_server->set_use_opengl(use_opengl, renderengine->video);
                transition_server->process_transition((*transition_input), output,
                        (direction == PLAY_FORWARD) ?
                                (start_position_project - current_edit->startproject) :
                                (start_position_project - current_edit->startproject - 1),
                        transition->length);
        }
        else {
// Load output buffer
                result = import_frame(output,
                        current_edit, start_position, frame_rate,
                        direction, use_opengl);
        }

        Auto *current = 0;
        MaskAutos *keyframe_set =
                (MaskAutos*)track->automation->autos[AUTOMATION_MASK];
        int64_t mask_position = !renderengine ? start_position :
                renderengine->vrender->current_position;
        MaskAuto *keyframe =
                (MaskAuto*)keyframe_set->get_prev_auto(mask_position, direction, current);

        if( keyframe->apply_before_plugins && keyframe->has_active_mask() ) {
                VDeviceX11 *x11_device = 0;
                if( use_opengl && renderengine && renderengine->video ) {
                        x11_device = (VDeviceX11*)renderengine->video->get_output_base();
                        if( !x11_device->can_mask(mask_position, keyframe_set) ) {
                                if( output->get_opengl_state() != VFrame::RAM ) {
                                        int w = output->get_w(), h = output->get_h();
                                        x11_device->do_camera(output, output,
                                                0,0,w,h, 0,0,w,h); // copy to ram
                                }
                                use_opengl = 0;
                        }
                }
                if( use_opengl && x11_device ) {
                        x11_device->do_mask(output, mask_position, keyframe_set,
                                        keyframe, keyframe);
                }
                else {
                        if( !masker ) {
                                int cpus = renderengine ?
                                        renderengine->preferences->processors :
                                        plugin_array->mwindow->preferences->processors;
                                masker = new MaskEngine(cpus);
                        }
                        masker->do_mask(output, mask_position, keyframe_set, keyframe, keyframe);
                }
        }

        return result;
}


void VModule::create_objects()
{
        Module::create_objects();
}