/*
* 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
- *
+ *
*/
#include "affine.h"
#include "filexml.h"
#include "keyframe.h"
#include "language.h"
+#include "mainerror.h"
#include "motion-cv.h"
#include "motionwindow-cv.h"
#include "mutex.h"
#include "rotateframe.h"
#include "transportque.h"
-
#include <errno.h>
#include <unistd.h>
REGISTER_PLUGIN(MotionCVMain)
-
//#undef DEBUG
-#ifndef DEBUG
-#define DEBUG
-#endif
-
-
MotionCVConfig::MotionCVConfig()
{
- global_range_w = 5;
- global_range_h = 5;
- rotation_range = 5;
+ global_range_w = 25; //5;
+ global_range_h = 25; //5;
+ rotation_range = 8; //5;
block_count = 1;
- global_block_w = MIN_BLOCK;
- global_block_h = MIN_BLOCK;
- rotation_block_w = MIN_BLOCK;
- rotation_block_h = MIN_BLOCK;
+ global_block_w = 33; //MIN_BLOCK;
+ global_block_h = 33; //MIN_BLOCK;
+ rotation_block_w = 16; //MIN_BLOCK;
+ rotation_block_h = 16; //MIN_BLOCK;
block_x = 50;
block_y = 50;
global_positions = 256;
- rotate_positions = 4;
+ rotate_positions = 8; // 4;
magnitude = 100;
- return_speed = 0;
+ return_speed = 5; //0;
mode1 = STABILIZE;
global = 1;
rotate = 1;
addtrackedframeoffset = 0;
strcpy(tracking_file, TRACKING_FILE);
- mode2 = RECALCULATE;
+ mode2 = SAVE; //NO_CALCULATE;
+ mode3 = TRACK_PREVIOUS; //TRACK_SINGLE;
draw_vectors = 1;
- mode3 = MotionCVConfig::TRACK_SINGLE;
track_frame = 0;
bottom_is_master = 1;
horizontal_only = 0;
global_range_h == that.global_range_h &&
rotation_range == that.rotation_range &&
mode1 == that.mode1 &&
- global == that.global &&
- rotate == that.rotate &&
+ global == that.global && rotate == that.rotate &&
addtrackedframeoffset == that.addtrackedframeoffset &&
!strcmp(tracking_file, that.tracking_file) &&
draw_vectors == that.draw_vectors &&
vertical_only = that.vertical_only;
}
-void MotionCVConfig::interpolate(MotionCVConfig &prev, MotionCVConfig &next,
- int64_t prev_frame, int64_t next_frame, int64_t current_frame)
+void MotionCVConfig::interpolate(MotionCVConfig &prev, MotionCVConfig &next,
+ int64_t prev_frame, int64_t next_frame, int64_t current_frame)
{
copy_from(prev);
}
global_target_src = 0;
global_target_dst = 0;
- active_fp = 0;
- active_file[0] = 0;
- tracking_frame = -1;
+ cache_file[0] = 0;
+ cache_fp = active_fp = 0;
+ cache_line[0] = 0;
+ cache_key = active_key = -1;
dx_offset = dy_offset = 0;
load_ok = 0;
save_dx = load_dx = 0;
save_dy = load_dy = 0;
save_dt = load_dt = 0;
+ tracking_frame = -1;
prev_rotate_ref = 0;
current_rotate_ref = 0;
MotionCVMain::~MotionCVMain()
{
-
delete engine;
delete overlayer;
- delete [] search_area;
+ delete[]search_area;
delete temp_frame;
delete rotate_engine;
delete motion_rotate;
delete global_target_src;
delete global_target_dst;
- if( active_fp ) fclose(active_fp);
+ reset_cache_file();
delete prev_rotate_ref;
delete current_rotate_ref;
delete rotate_target_dst;
}
-const char* MotionCVMain::plugin_title() { return _("MotionCV"); }
+const char *MotionCVMain::plugin_title() { return N_("MotionCV"); }
int MotionCVMain::is_realtime() { return 1; }
int MotionCVMain::is_multichannel() { return 1; }
-
NEW_WINDOW_MACRO(MotionCVMain, MotionCVWindow)
LOAD_CONFIGURATION_MACRO(MotionCVMain, MotionCVConfig)
-
-
void MotionCVMain::update_gui()
{
- if(thread)
- {
- if(load_configuration())
- {
- thread->window->lock_window("MotionCVMain::update_gui");
- MotionCVWindow *window = (MotionCVWindow *)thread->window;
-
- char string[BCTEXTLEN];
- sprintf(string, "%d", config.global_positions);
- window->global_search_positions->set_text(string);
- sprintf(string, "%d", config.rotate_positions);
- window->rotation_search_positions->set_text(string);
-
- window->global_block_w->update(config.global_block_w);
- window->global_block_h->update(config.global_block_h);
- window->rotation_block_w->update(config.rotation_block_w);
- window->rotation_block_h->update(config.rotation_block_h);
- window->block_x->update(config.block_x);
- window->block_y->update(config.block_y);
- window->block_x_text->update((float)config.block_x);
- window->block_y_text->update((float)config.block_y);
- window->magnitude->update(config.magnitude);
- window->return_speed->update(config.return_speed);
-
-
- window->track_single->update(config.mode3 == MotionCVConfig::TRACK_SINGLE);
- window->track_frame_number->update(config.track_frame);
- window->track_previous->update(config.mode3 == MotionCVConfig::TRACK_PREVIOUS);
- window->previous_same->update(config.mode3 == MotionCVConfig::PREVIOUS_SAME_BLOCK);
- if(config.mode3 != MotionCVConfig::TRACK_SINGLE)
- window->track_frame_number->disable();
- else
- window->track_frame_number->enable();
-
- window->mode1->set_text(
- Mode1::to_text(config.mode1));
- window->mode2->set_text(
- Mode2::to_text(config.mode2));
- window->mode3->set_text(
- Mode3::to_text(config.horizontal_only, config.vertical_only));
- window->master_layer->set_text(
- MasterLayer::to_text(config.bottom_is_master));
-
-
- window->update_mode();
- window->unlock_window();
- }
- }
+ if( thread ) return;
+ if( !load_configuration() ) return;
+ thread->window->lock_window("MotionCVMain::update_gui");
+ MotionCVWindow *window = (MotionCVWindow *) thread->window;
+
+ char string[BCTEXTLEN];
+ sprintf(string, "%d", config.global_positions);
+ window->global_search_positions->set_text(string);
+ sprintf(string, "%d", config.rotate_positions);
+ window->rotation_search_positions->set_text(string);
+
+ window->global_block_w->update(config.global_block_w);
+ window->global_block_h->update(config.global_block_h);
+ window->rotation_block_w->update(config.rotation_block_w);
+ window->rotation_block_h->update(config.rotation_block_h);
+ window->block_x->update(config.block_x);
+ window->block_y->update(config.block_y);
+ window->block_x_text->update((float)config.block_x);
+ window->block_y_text->update((float)config.block_y);
+ window->magnitude->update(config.magnitude);
+ window->return_speed->update(config.return_speed);
+
+ window->track_single->update(config.mode3 == MotionCVConfig::TRACK_SINGLE);
+ window->track_frame_number->update(config.track_frame);
+ window->track_previous->update(config.mode3 == MotionCVConfig::TRACK_PREVIOUS);
+ window->previous_same->update(config.mode3 == MotionCVConfig::PREVIOUS_SAME_BLOCK);
+ if( config.mode3 != MotionCVConfig::TRACK_SINGLE )
+ window->track_frame_number->disable();
+ else
+ window->track_frame_number->enable();
+
+ window->mode1->set_text(Mode1::to_text(config.mode1));
+ window->mode2->set_text(Mode2::to_text(config.mode2));
+ window->mode3->set_text(Mode3::to_text(config.horizontal_only, config.vertical_only));
+ window->master_layer->set_text(MasterLayer::to_text(config.bottom_is_master));
+ window->update_mode();
+ window->unlock_window();
}
-
-
-
void MotionCVMain::save_data(KeyFrame *keyframe)
{
FileXML output;
// cause data to be stored directly in text
- output.set_shared_output(keyframe->get_data(), MESSAGESIZE);
- output.tag.set_title("MOTION");
+ output.set_shared_output(keyframe->xbuf);
+ output.tag.set_title("MOTIONCV");
output.tag.set_property("BLOCK_COUNT", config.block_count);
output.tag.set_property("GLOBAL_POSITIONS", config.global_positions);
output.tag.set_property("HORIZONTAL_ONLY", config.horizontal_only);
output.tag.set_property("VERTICAL_ONLY", config.vertical_only);
output.append_tag();
- output.tag.set_title("/MOTION");
+ output.tag.set_title("/MOTIONCV");
output.append_tag();
output.terminate_string();
}
void MotionCVMain::read_data(KeyFrame *keyframe)
{
FileXML input;
-
- input.set_shared_input(keyframe->get_data(), strlen(keyframe->get_data()));
-
+ input.set_shared_input(keyframe->xbuf);
int result = 0;
- while(!result)
- {
- result = input.read_tag();
-
- if(!result)
- {
- if(input.tag.title_is("MOTION"))
- {
- config.block_count = input.tag.get_property("BLOCK_COUNT", config.block_count);
- config.global_positions = input.tag.get_property("GLOBAL_POSITIONS", config.global_positions);
- config.rotate_positions = input.tag.get_property("ROTATE_POSITIONS", config.rotate_positions);
- config.global_block_w = input.tag.get_property("GLOBAL_BLOCK_W", config.global_block_w);
- config.global_block_h = input.tag.get_property("GLOBAL_BLOCK_H", config.global_block_h);
- config.rotation_block_w = input.tag.get_property("ROTATION_BLOCK_W", config.rotation_block_w);
- config.rotation_block_h = input.tag.get_property("ROTATION_BLOCK_H", config.rotation_block_h);
- config.block_x = input.tag.get_property("BLOCK_X", config.block_x);
- config.block_y = input.tag.get_property("BLOCK_Y", config.block_y);
- config.global_range_w = input.tag.get_property("GLOBAL_RANGE_W", config.global_range_w);
- config.global_range_h = input.tag.get_property("GLOBAL_RANGE_H", config.global_range_h);
- config.rotation_range = input.tag.get_property("ROTATION_RANGE", config.rotation_range);
- config.magnitude = input.tag.get_property("MAGNITUDE", config.magnitude);
- config.return_speed = input.tag.get_property("RETURN_SPEED", config.return_speed);
- config.mode1 = input.tag.get_property("MODE1", config.mode1);
- config.global = input.tag.get_property("GLOBAL", config.global);
- config.rotate = input.tag.get_property("ROTATE", config.rotate);
- config.addtrackedframeoffset = input.tag.get_property("ADDTRACKEDFRAMEOFFSET", config.addtrackedframeoffset);
- input.tag.get_property("TRACKING_FILE", config.tracking_file);
- config.mode2 = input.tag.get_property("MODE2", config.mode2);
- config.draw_vectors = input.tag.get_property("DRAW_VECTORS", config.draw_vectors);
- config.mode3 = input.tag.get_property("MODE3", config.mode3);
- config.track_frame = input.tag.get_property("TRACK_FRAME", config.track_frame);
- config.bottom_is_master = input.tag.get_property("BOTTOM_IS_MASTER", config.bottom_is_master);
- config.horizontal_only = input.tag.get_property("HORIZONTAL_ONLY", config.horizontal_only);
- config.vertical_only = input.tag.get_property("VERTICAL_ONLY", config.vertical_only);
- }
+ while( !(result = input.read_tag()) ) {
+ if( input.tag.title_is("MOTIONCV") ) {
+ config.block_count = input.tag.get_property("BLOCK_COUNT", config.block_count);
+ config.global_positions = input.tag.get_property("GLOBAL_POSITIONS", config.global_positions);
+ config.rotate_positions = input.tag.get_property("ROTATE_POSITIONS", config.rotate_positions);
+ config.global_block_w = input.tag.get_property("GLOBAL_BLOCK_W", config.global_block_w);
+ config.global_block_h = input.tag.get_property("GLOBAL_BLOCK_H", config.global_block_h);
+ config.rotation_block_w = input.tag.get_property("ROTATION_BLOCK_W", config.rotation_block_w);
+ config.rotation_block_h = input.tag.get_property("ROTATION_BLOCK_H", config.rotation_block_h);
+ config.block_x = input.tag.get_property("BLOCK_X", config.block_x);
+ config.block_y = input.tag.get_property("BLOCK_Y", config.block_y);
+ config.global_range_w = input.tag.get_property("GLOBAL_RANGE_W", config.global_range_w);
+ config.global_range_h = input.tag.get_property("GLOBAL_RANGE_H", config.global_range_h);
+ config.rotation_range = input.tag.get_property("ROTATION_RANGE", config.rotation_range);
+ config.magnitude = input.tag.get_property("MAGNITUDE", config.magnitude);
+ config.return_speed = input.tag.get_property("RETURN_SPEED", config.return_speed);
+ config.mode1 = input.tag.get_property("MODE1", config.mode1);
+ config.global = input.tag.get_property("GLOBAL", config.global);
+ config.rotate = input.tag.get_property("ROTATE", config.rotate);
+ config.addtrackedframeoffset = input.tag.get_property("ADDTRACKEDFRAMEOFFSET", config.addtrackedframeoffset);
+ input.tag.get_property("TRACKING_FILE", config.tracking_file);
+ config.mode2 = input.tag.get_property("MODE2", config.mode2);
+ config.draw_vectors = input.tag.get_property("DRAW_VECTORS", config.draw_vectors);
+ config.mode3 = input.tag.get_property("MODE3", config.mode3);
+ config.track_frame = input.tag.get_property("TRACK_FRAME", config.track_frame);
+ config.bottom_is_master = input.tag.get_property("BOTTOM_IS_MASTER", config.bottom_is_master);
+ config.horizontal_only = input.tag.get_property("HORIZONTAL_ONLY", config.horizontal_only);
+ config.vertical_only = input.tag.get_property("VERTICAL_ONLY", config.vertical_only);
}
}
config.boundaries();
}
-
-
-
-
-
-
-
-
void MotionCVMain::allocate_temp(int w, int h, int color_model)
{
- if(temp_frame &&
- (temp_frame->get_w() != w ||
- temp_frame->get_h() != h))
- {
+ if( temp_frame &&
+ ( temp_frame->get_w() != w || temp_frame->get_h() != h ) ) {
delete temp_frame;
temp_frame = 0;
}
- if(!temp_frame)
- temp_frame = new VFrame(w, h, color_model);
+ if( !temp_frame )
+ temp_frame = new VFrame(w, h, color_model, 0);
}
-
-
void MotionCVMain::process_global()
{
- if(!engine) engine = new MotionCVScan(this,
- PluginClient::get_project_smp() + 1,
- PluginClient::get_project_smp() + 1);
+ if( !engine )
+ engine = new MotionCVScan(this,
+ PluginClient::get_project_smp() + 1,
+ PluginClient::get_project_smp() + 1);
// Get the current motion vector between the previous and current frame
engine->scan_frame(current_global_ref, prev_global_ref);
- current_dx = engine->dx_result;
- current_dy = engine->dy_result;
+ current_dx = (engine->dx_result += dx_offset);
+ current_dy = (engine->dy_result += dy_offset);
+
+// Write results
+ if( config.mode2 == MotionCVConfig::SAVE ) {
+ save_dx = engine->dx_result;
+ save_dy = engine->dy_result;
+ }
// Add current motion vector to accumulation vector.
- if(config.mode3 != MotionCVConfig::TRACK_SINGLE)
- {
+ if( config.mode3 != MotionCVConfig::TRACK_SINGLE ) {
// Retract over time
- total_dx = (int64_t)total_dx * (100 - config.return_speed) / 100;
- total_dy = (int64_t)total_dy * (100 - config.return_speed) / 100;
+ total_dx = (int64_t) total_dx *(100 - config.return_speed) / 100;
+ total_dy = (int64_t) total_dy *(100 - config.return_speed) / 100;
total_dx += engine->dx_result;
total_dy += engine->dy_result;
}
- else
// Make accumulation vector current
- {
+ else {
total_dx = engine->dx_result;
total_dy = engine->dy_result;
}
// Clamp accumulation vector
- if(config.magnitude < 100)
- {
- //int block_w = (int64_t)config.global_block_w *
- // current_global_ref->get_w() / 100;
- //int block_h = (int64_t)config.global_block_h *
- // current_global_ref->get_h() / 100;
- int block_x_orig = (int64_t)(config.block_x *
- current_global_ref->get_w() /
- 100);
- int block_y_orig = (int64_t)(config.block_y *
- current_global_ref->get_h() /
- 100);
-
- int max_block_x = (int64_t)(current_global_ref->get_w() - block_x_orig) *
- OVERSAMPLE *
- config.magnitude /
- 100;
- int max_block_y = (int64_t)(current_global_ref->get_h() - block_y_orig) *
- OVERSAMPLE *
- config.magnitude /
- 100;
- int min_block_x = (int64_t)-block_x_orig *
- OVERSAMPLE *
- config.magnitude /
- 100;
- int min_block_y = (int64_t)-block_y_orig *
- OVERSAMPLE *
- config.magnitude /
- 100;
+ if( config.magnitude < 100 ) {
+ int block_x_orig = (int64_t)(config.block_x * current_global_ref->get_w() / 100);
+ int block_y_orig = (int64_t)(config.block_y * current_global_ref->get_h() / 100);
+
+ int max_block_x = (int64_t) (current_global_ref->get_w() - block_x_orig)
+ * OVERSAMPLE * config.magnitude / 100;
+ int max_block_y = (int64_t) (current_global_ref->get_h() - block_y_orig)
+ * OVERSAMPLE * config.magnitude / 100;
+ int min_block_x = (int64_t)
+ -block_x_orig * OVERSAMPLE * config.magnitude / 100;
+ int min_block_y = (int64_t)
+ -block_y_orig * OVERSAMPLE * config.magnitude / 100;
CLAMP(total_dx, min_block_x, max_block_x);
CLAMP(total_dy, min_block_y, max_block_y);
}
-
#ifdef DEBUG
-printf("MotionCVMain::process_global 2 total_dx=%.02f total_dy=%.02f\n",
-(float)total_dx / OVERSAMPLE,
-(float)total_dy / OVERSAMPLE);
+printf("MotionCVMain::process_global 2 total_dx=%.02f total_dy=%.02f\n",
+ (float)total_dx / OVERSAMPLE, (float)total_dy / OVERSAMPLE);
#endif
- if(config.mode3 != MotionCVConfig::TRACK_SINGLE && !config.rotate)
- {
+ if( config.mode3 != MotionCVConfig::TRACK_SINGLE && !config.rotate ) {
// Transfer current reference frame to previous reference frame and update
// counter. Must wait for rotate to compare.
prev_global_ref->copy_from(current_global_ref);
previous_frame_number = get_source_position();
}
-
// Decide what to do with target based on requested operation
int interpolation = NEAREST_NEIGHBOR;
- float dx = 0;
- float dy = 0;
- switch(config.mode1)
- {
- case MotionCVConfig::NOTHING:
- global_target_dst->copy_from(global_target_src);
- break;
- case MotionCVConfig::TRACK_PIXEL:
- interpolation = NEAREST_NEIGHBOR;
- dx = (int)(total_dx / OVERSAMPLE);
- dy = (int)(total_dy / OVERSAMPLE);
- break;
- case MotionCVConfig::STABILIZE_PIXEL:
- interpolation = NEAREST_NEIGHBOR;
- dx = -(int)(total_dx / OVERSAMPLE);
- dy = -(int)(total_dy / OVERSAMPLE);
- break;
- break;
- case MotionCVConfig::TRACK:
- interpolation = CUBIC_LINEAR;
- dx = (float)total_dx / OVERSAMPLE;
- dy = (float)total_dy / OVERSAMPLE;
- break;
- case MotionCVConfig::STABILIZE:
- interpolation = CUBIC_LINEAR;
- dx = -(float)total_dx / OVERSAMPLE;
- dy = -(float)total_dy / OVERSAMPLE;
- break;
+ float dx = 0, dy = 0;
+ switch( config.mode1 ) {
+ case MotionCVConfig::NOTHING:
+ global_target_dst->copy_from(global_target_src);
+ break;
+ case MotionCVConfig::TRACK_PIXEL:
+ interpolation = NEAREST_NEIGHBOR;
+ dx = (int)(total_dx / OVERSAMPLE);
+ dy = (int)(total_dy / OVERSAMPLE);
+ break;
+ case MotionCVConfig::STABILIZE_PIXEL:
+ interpolation = NEAREST_NEIGHBOR;
+ dx = -(int)(total_dx / OVERSAMPLE);
+ dy = -(int)(total_dy / OVERSAMPLE);
+ break;
+ break;
+ case MotionCVConfig::TRACK:
+ interpolation = CUBIC_LINEAR;
+ dx = (float)total_dx / OVERSAMPLE;
+ dy = (float)total_dy / OVERSAMPLE;
+ break;
+ case MotionCVConfig::STABILIZE:
+ interpolation = CUBIC_LINEAR;
+ dx = -(float)total_dx / OVERSAMPLE;
+ dy = -(float)total_dy / OVERSAMPLE;
+ break;
}
-
- if(config.mode1 != MotionCVConfig::NOTHING)
- {
- if(!overlayer)
+ if( config.mode1 != MotionCVConfig::NOTHING ) {
+ if( !overlayer )
overlayer = new OverlayFrame(PluginClient::get_project_smp() + 1);
global_target_dst->clear_frame();
- overlayer->overlay(global_target_dst,
- global_target_src,
- 0,
- 0,
- global_target_src->get_w(),
- global_target_src->get_h(),
- dx,
- dy,
- (float)global_target_src->get_w() + dx,
- (float)global_target_src->get_h() + dy,
- 1,
- TRANSFER_REPLACE,
- interpolation);
+ overlayer->overlay(global_target_dst, global_target_src, 0, 0,
+ global_target_src->get_w(), global_target_src->get_h(),
+ dx, dy,
+ (float)global_target_src->get_w() + dx,
+ (float)global_target_src->get_h() + dy,
+ 1, TRANSFER_REPLACE, interpolation);
}
}
-
-
void MotionCVMain::process_rotation()
{
- int block_x;
- int block_y;
+ int block_x, block_y;
// Convert the previous global reference into the previous rotation reference.
// Convert global target destination into rotation target source.
- if(config.global)
- {
- if(!overlayer)
+ if( config.global ) {
+ if( !overlayer )
overlayer = new OverlayFrame(PluginClient::get_project_smp() + 1);
- float dx;
- float dy;
- if(config.mode3 == MotionCVConfig::TRACK_SINGLE)
- {
+ float dx, dy;
+ if( config.mode3 == MotionCVConfig::TRACK_SINGLE ) {
dx = (float)total_dx / OVERSAMPLE;
dy = (float)total_dy / OVERSAMPLE;
}
- else
- {
+ else {
dx = (float)current_dx / OVERSAMPLE;
dy = (float)current_dy / OVERSAMPLE;
}
prev_rotate_ref->clear_frame();
- overlayer->overlay(prev_rotate_ref,
- prev_global_ref,
- 0,
- 0,
- prev_global_ref->get_w(),
- prev_global_ref->get_h(),
- dx,
- dy,
+ overlayer->overlay(prev_rotate_ref, prev_global_ref,
+ 0, 0, prev_global_ref->get_w(), prev_global_ref->get_h(),
+ dx, dy,
(float)prev_global_ref->get_w() + dx,
(float)prev_global_ref->get_h() + dy,
- 1,
- TRANSFER_REPLACE,
- CUBIC_LINEAR);
+ 1, TRANSFER_REPLACE, CUBIC_LINEAR);
// Pivot is destination global position
- block_x = (int)(prev_rotate_ref->get_w() *
- config.block_x /
- 100 +
- (float)total_dx /
- OVERSAMPLE);
- block_y = (int)(prev_rotate_ref->get_h() *
- config.block_y /
- 100 +
- (float)total_dy /
- OVERSAMPLE);
+ block_x = (int)(prev_rotate_ref->get_w() *
+ config.block_x / 100 + (float)total_dx / OVERSAMPLE);
+ block_y = (int)(prev_rotate_ref->get_h() *
+ config.block_y / 100 + (float)total_dy / OVERSAMPLE);
// Use the global target output as the rotation target input
rotate_target_src->copy_from(global_target_dst);
// Transfer current reference frame to previous reference frame for global.
- if(config.mode3 != MotionCVConfig::TRACK_SINGLE)
- {
+ if( config.mode3 != MotionCVConfig::TRACK_SINGLE ) {
prev_global_ref->copy_from(current_global_ref);
previous_frame_number = get_source_position();
}
}
- else
- {
// Pivot is fixed
- block_x = (int)(prev_rotate_ref->get_w() *
- config.block_x /
- 100);
- block_y = (int)(prev_rotate_ref->get_h() *
- config.block_y /
- 100);
+ else {
+ block_x = (int)(prev_rotate_ref->get_w() * config.block_x / 100);
+ block_y = (int)(prev_rotate_ref->get_h() * config.block_y / 100);
}
-
-
// Get rotation
- if(!motion_rotate)
- motion_rotate = new RotateCVScan(this,
- get_project_smp() + 1,
- get_project_smp() + 1);
-
- current_angle = motion_rotate->scan_frame(prev_rotate_ref,
- current_rotate_ref,
- block_x,
- block_y);
-
+ if( !motion_rotate )
+ motion_rotate = new RotateCVScan(this,
+ get_project_smp() + 1, get_project_smp() + 1);
+ current_angle = motion_rotate->scan_frame(prev_rotate_ref, current_rotate_ref,
+ block_x, block_y);
// Add current rotation to accumulation
- if(config.mode3 != MotionCVConfig::TRACK_SINGLE)
- {
+ if( config.mode3 != MotionCVConfig::TRACK_SINGLE ) {
// Retract over time
total_angle = total_angle * (100 - config.return_speed) / 100;
total_angle += current_angle;
- if(!config.global)
- {
+ if( !config.global ) {
// Transfer current reference frame to previous reference frame and update
// counter.
prev_rotate_ref->copy_from(current_rotate_ref);
previous_frame_number = get_source_position();
}
}
- else
- {
+ else {
total_angle = current_angle;
}
printf("MotionCVMain::process_rotation total_angle=%f\n", total_angle);
#endif
-
// Calculate rotation parameters based on requested operation
float angle = 0;
- switch(config.mode1)
- {
- case MotionCVConfig::NOTHING:
- rotate_target_dst->copy_from(rotate_target_src);
- break;
- case MotionCVConfig::TRACK:
- case MotionCVConfig::TRACK_PIXEL:
- angle = total_angle;
- break;
- case MotionCVConfig::STABILIZE:
- case MotionCVConfig::STABILIZE_PIXEL:
- angle = -total_angle;
- break;
+ switch( config.mode1 ) {
+ case MotionCVConfig::NOTHING:
+ rotate_target_dst->copy_from(rotate_target_src);
+ break;
+ case MotionCVConfig::TRACK:
+ case MotionCVConfig::TRACK_PIXEL:
+ angle = total_angle;
+ break;
+ case MotionCVConfig::STABILIZE:
+ case MotionCVConfig::STABILIZE_PIXEL:
+ angle = -total_angle;
+ break;
}
-
-
- if(config.mode1 != MotionCVConfig::NOTHING)
- {
- if(!rotate_engine)
- rotate_engine = new AffineEngine(PluginClient::get_project_smp() + 1,
+ if( config.mode1 != MotionCVConfig::NOTHING ) {
+ if( !rotate_engine )
+ rotate_engine = new AffineEngine(
+ PluginClient::get_project_smp() + 1,
PluginClient::get_project_smp() + 1);
rotate_target_dst->clear_frame();
// Determine pivot based on a number of factors.
- switch(config.mode1)
- {
- case MotionCVConfig::TRACK:
- case MotionCVConfig::TRACK_PIXEL:
+ switch( config.mode1 ) {
+ case MotionCVConfig::TRACK:
+ case MotionCVConfig::TRACK_PIXEL:
// Use destination of global tracking.
- rotate_engine->set_pivot(block_x, block_y);
- break;
+ rotate_engine->set_pivot(block_x, block_y);
+ break;
- case MotionCVConfig::STABILIZE:
- case MotionCVConfig::STABILIZE_PIXEL:
- if(config.global)
- {
+ case MotionCVConfig::STABILIZE:
+ case MotionCVConfig::STABILIZE_PIXEL:
+ if( config.global ) {
// Use origin of global stabilize operation
- rotate_engine->set_pivot((int)(rotate_target_dst->get_w() *
- config.block_x /
- 100),
- (int)(rotate_target_dst->get_h() *
- config.block_y /
- 100));
-
- }
- else
- {
+ rotate_engine->set_pivot(
+ (int)(rotate_target_dst->get_w() * config.block_x / 100),
+ (int)(rotate_target_dst->get_h() * config.block_y / 100));
+ }
// Use origin
- rotate_engine->set_pivot(block_x, block_y);
- }
- break;
+ else {
+ rotate_engine->set_pivot(block_x, block_y);
+ }
+ break;
}
-
rotate_engine->rotate(rotate_target_dst, rotate_target_src, angle);
-// overlayer->overlay(rotate_target_dst,
-// prev_rotate_ref,
-// 0,
-// 0,
-// prev_rotate_ref->get_w(),
-// prev_rotate_ref->get_h(),
-// 0,
-// 0,
-// prev_rotate_ref->get_w(),
-// prev_rotate_ref->get_h(),
-// 1,
-// TRANSFER_NORMAL,
-// CUBIC_LINEAR);
-// overlayer->overlay(rotate_target_dst,
-// current_rotate_ref,
-// 0,
-// 0,
-// prev_rotate_ref->get_w(),
-// prev_rotate_ref->get_h(),
-// 0,
-// 0,
-// prev_rotate_ref->get_w(),
-// prev_rotate_ref->get_h(),
-// 1,
-// TRANSFER_NORMAL,
-// CUBIC_LINEAR);
-
-
+// overlayer->overlay(rotate_target_dst, prev_rotate_ref,
+// 0, 0, prev_rotate_ref->get_w(), prev_rotate_ref->get_h(),
+// 0, 0, prev_rotate_ref->get_w(), prev_rotate_ref->get_h(),
+// 1, TRANSFER_NORMAL, CUBIC_LINEAR);
+// overlayer->overlay(rotate_target_dst, current_rotate_ref,
+// 0, 0, prev_rotate_ref->get_w(), prev_rotate_ref->get_h(),
+// 0, 0, prev_rotate_ref->get_w(), prev_rotate_ref->get_h(),
+// 1, TRANSFER_NORMAL, CUBIC_LINEAR);
}
-
-
}
-
-
-
-
-
-
-
-
-int MotionCVMain::process_buffer(VFrame **frame,
- int64_t start_position,
- double frame_rate)
+int MotionCVMain::process_buffer(VFrame ** frame,
+ int64_t start_position, double frame_rate)
{
int prev_config_mode2 = config.mode2;
int need_reconfigure = load_configuration();
int color_model = frame[0]->get_color_model();
w = frame[0]->get_w();
h = frame[0]->get_h();
-
#ifdef DEBUG
printf("MotionCVMain::process_buffer 1 start_position=%jd\n", start_position);
#endif
-
// Calculate the source and destination pointers for each of the operations.
// Get the layer to track motion in.
reference_layer = config.bottom_is_master ?
- PluginClient::total_in_buffers - 1 :
- 0;
+ PluginClient::total_in_buffers - 1 : 0;
// Get the layer to apply motion in.
target_layer = config.bottom_is_master ?
- 0 :
- PluginClient::total_in_buffers - 1;
-
+ 0 : PluginClient::total_in_buffers - 1;
output_frame = frame[target_layer];
-
// Get the position of previous reference frame.
int64_t actual_previous_number;
// Skip if match frame not available
int skip_current = 0;
-
- if(config.mode3 == MotionCVConfig::TRACK_SINGLE)
- {
+ if( config.mode3 == MotionCVConfig::TRACK_SINGLE ) {
actual_previous_number = config.track_frame;
- if(get_direction() == PLAY_REVERSE)
+ if( get_direction() == PLAY_REVERSE )
actual_previous_number++;
- if(actual_previous_number == start_position)
+ if( actual_previous_number == start_position )
skip_current = 1;
}
- else
- {
+ else {
actual_previous_number = start_position;
- if(get_direction() == PLAY_FORWARD)
- {
+ if( get_direction() == PLAY_FORWARD ) {
actual_previous_number--;
- if(actual_previous_number < get_source_start())
+ if( actual_previous_number < get_source_start() )
skip_current = 1;
- else
- {
+ else {
KeyFrame *keyframe = get_prev_keyframe(start_position, 1);
- if(keyframe->position > 0 &&
- actual_previous_number < keyframe->position)
+ if( keyframe->position > 0 &&
+ actual_previous_number < keyframe->position )
skip_current = 1;
}
}
- else
- {
+ else {
actual_previous_number++;
- if(actual_previous_number >= get_source_start() + get_total_len())
+ if( actual_previous_number >= get_source_start() + get_total_len() )
skip_current = 1;
- else
- {
+ else {
KeyFrame *keyframe = get_next_keyframe(start_position, 1);
- if(keyframe->position > 0 &&
- actual_previous_number >= keyframe->position)
+ if( keyframe->position > 0 &&
+ actual_previous_number >= keyframe->position )
skip_current = 1;
}
}
-
// Only count motion since last keyframe
-
-
}
+ if( !config.global &&!config.rotate )
+ skip_current = 1;
- if(!config.global && !config.rotate) skip_current = 1;
-
-
-
-
-// printf("process_realtime %d %lld %lld\n",
-// skip_current,
-// previous_frame_number,
-// actual_previous_number);
-// Load match frame and reset vectors
- int need_reload = !skip_current &&
- (previous_frame_number != actual_previous_number ||
- need_reconfigure);
- if(need_reload)
- {
- total_dx = 0;
- total_dy = 0;
- total_angle = 0;
- previous_frame_number = actual_previous_number;
- }
+//printf("process_realtime: %jd %d %jd %jd\n", start_position,
+// skip_current, previous_frame_number, actual_previous_number);
if( prev_config_mode2 != MotionCVConfig::SAVE &&
config.mode2 == MotionCVConfig::SAVE ) {
+ reset_cache_file();
+ char save_file[BCTEXTLEN];
+ snprintf(save_file, sizeof(save_file), "%s.sav", config.tracking_file);
#ifdef DEBUG
-printf("MotionCVMain::process_buffer 2 remove tracking file: %s\n", config.tracking_file);
+printf("MotionCVMain::process_buffer 2 rename tracking file: %s to %s\n",
+ config.tracking_file, save_file);
#endif
- ::remove(config.tracking_file);
+ ::rename(config.tracking_file, save_file);
}
+ else if( !cache_file[0] || active_key > start_position )
+ reset_cache_file();
-
- if(skip_current)
- {
- total_dx = 0;
- total_dy = 0;
- current_dx = 0;
- current_dy = 0;
- total_angle = 0;
- current_angle = 0;
+// Load match frame and reset vectors
+ int need_reload = !skip_current &&
+ (previous_frame_number != actual_previous_number ||
+ need_reconfigure);
+ if( need_reload ) {
+ total_dx = total_dy = 0; total_angle = 0;
+ previous_frame_number = actual_previous_number;
}
-
-
+ if( skip_current ) {
+ total_dx = total_dy = 0;
+ current_dx = current_dy = 0;
+ total_angle = current_angle = 0;
+ }
// Get the global pointers. Here we walk through the sequence of events.
- if(config.global)
- {
+ if( config.global ) {
// Assume global only. Global reads previous frame and compares
// with current frame to get the current translation.
// The center of the search area is fixed in compensate mode or
// the user value + the accumulation vector in track mode.
- if(!prev_global_ref)
+ if( !prev_global_ref )
prev_global_ref = new VFrame(w, h, color_model);
- if(!current_global_ref)
+ if( !current_global_ref )
current_global_ref = new VFrame(w, h, color_model);
-// Global loads the current target frame into the src and
+// Global loads the current target frame into the src and
// writes it to the dst frame with desired translation.
- if(!global_target_src)
+ if( !global_target_src )
global_target_src = new VFrame(w, h, color_model);
- if(!global_target_dst)
+ if( !global_target_dst )
global_target_dst = new VFrame(w, h, color_model);
-
// Load the global frames
- if(need_reload)
- {
- read_frame(prev_global_ref,
- reference_layer,
- previous_frame_number,
- frame_rate,
- 0);
+ if( need_reload ) {
+ read_frame(prev_global_ref, reference_layer,
+ previous_frame_number, frame_rate, 0);
}
- read_frame(current_global_ref,
- reference_layer,
- start_position,
- frame_rate,
- 0);
- read_frame(global_target_src,
- target_layer,
- start_position,
- frame_rate,
- 0);
-
-
+ read_frame(current_global_ref, reference_layer,
+ start_position, frame_rate, 0);
+ read_frame(global_target_src, target_layer,
+ start_position, frame_rate, 0);
// Global followed by rotate
- if(config.rotate)
- {
+ if( config.rotate ) {
// Must translate the previous global reference by the current global
// accumulation vector to match the current global reference.
// The center of the search area is always the user value + the accumulation
// vector.
- if(!prev_rotate_ref)
+ if( !prev_rotate_ref )
prev_rotate_ref = new VFrame(w, h, color_model);
// The current global reference is the current rotation reference.
- if(!current_rotate_ref)
+ if( !current_rotate_ref )
current_rotate_ref = new VFrame(w, h, color_model);
current_rotate_ref->copy_from(current_global_ref);
// The global target destination is copied to the rotation target source
// then written to the rotation output with rotation.
-// The pivot for the rotation is the center of the search area
+// The pivot for the rotation is the center of the search area
// if we're tracking.
// The pivot is fixed to the user position if we're compensating.
- if(!rotate_target_src)
+ if( !rotate_target_src )
rotate_target_src = new VFrame(w, h, color_model);
- if(!rotate_target_dst)
- rotate_target_dst = new VFrame(w,h , color_model);
+ if( !rotate_target_dst )
+ rotate_target_dst = new VFrame(w, h, color_model);
}
}
- else
// Rotation only
- if(config.rotate)
- {
-// Rotation reads the previous reference frame and compares it with current
+ else if( config.rotate ) {
+// Rotation reads the previous reference frame and compares it with current
// reference frame.
- if(!prev_rotate_ref)
+ if( !prev_rotate_ref )
prev_rotate_ref = new VFrame(w, h, color_model);
- if(!current_rotate_ref)
+ if( !current_rotate_ref )
current_rotate_ref = new VFrame(w, h, color_model);
// Rotation loads target frame to temporary, rotates it, and writes it to the
// target frame. The pivot is always fixed.
- if(!rotate_target_src)
+ if( !rotate_target_src )
rotate_target_src = new VFrame(w, h, color_model);
- if(!rotate_target_dst)
- rotate_target_dst = new VFrame(w,h , color_model);
-
+ if( !rotate_target_dst )
+ rotate_target_dst = new VFrame(w, h, color_model);
// Load the rotate frames
- if(need_reload)
- {
- read_frame(prev_rotate_ref,
- reference_layer,
- previous_frame_number,
- frame_rate,
- 0);
+ if( need_reload ) {
+ read_frame(prev_rotate_ref,
+ reference_layer,
+ previous_frame_number, frame_rate, 0);
}
- read_frame(current_rotate_ref,
- reference_layer,
- start_position,
- frame_rate,
- 0);
+ read_frame(current_rotate_ref,
+ reference_layer, start_position, frame_rate, 0);
read_frame(rotate_target_src,
- target_layer,
- start_position,
- frame_rate,
- 0);
+ target_layer, start_position, frame_rate, 0);
}
- if(!skip_current)
- {
-
- if( config.mode2 == MotionCVConfig::LOAD ) {
- char line[BCTEXTLEN];
- int64_t frame_no, no; int dx, dy; float dt;
- if( config.addtrackedframeoffset && config.track_frame != tracking_frame ) {
- tracking_frame = frame_no = config.track_frame;
- if( !get_line_key(config.tracking_file, frame_no, line, sizeof(line)) &&
- sscanf(line, "%jd %d %d %f", &no, &dx, &dy, &dt) == 4 ) {
- dx_offset = dx; dy_offset = dy;
+ dx_offset = 0; dy_offset = 0;
+ if( config.mode2 == MotionCVConfig::LOAD ) {
+ if( config.addtrackedframeoffset ) {
+ if( config.track_frame != tracking_frame ) {
+ tracking_frame = config.track_frame;
+ int64_t no; int dx, dy; float dt;
+ if( !get_cache_line(tracking_frame) &&
+ sscanf(cache_line, "%jd %d %d %f", &no, &dx, &dy, &dt) == 4 ) {
+ dx_offset = dx; dy_offset = dy;
}
else {
-#ifdef DEBUG
- printf("MotionCVMain::process_buffer: no offset data frame %jd\n", frame_no);
-#endif
- dx_offset = 0; dy_offset = 0;
+ eprintf("no offset data frame %jd\n", tracking_frame);
}
}
+ }
+ else
+ tracking_frame = -1;
+ }
+
+ if( !skip_current ) {
+ load_ok = 0;
+ if( config.mode2 == MotionCVConfig::LOAD ||
+ config.mode2 == MotionCVConfig::SAVE ) {
+ int64_t no; int dx, dy; float dt;
+ int64_t frame_no = get_source_position();
// Load result from disk
- load_ok= 0;
- frame_no = get_source_position();
- if( !get_line_key(config.tracking_file, frame_no, line, sizeof(line)) &&
- sscanf(line, "%jd %d %d %f", &frame_no, &dx, &dy, &dt) == 4 ) {
- load_ok= 1; load_dx = dx; load_dy = dy; load_dt = dt;
+ if( !get_cache_line(frame_no) &&
+ sscanf(cache_line, "%jd %d %d %f", &no, &dx, &dy, &dt) == 4 ) {
+ load_ok = 1; load_dx = dx; load_dy = dy; load_dt = dt;
}
else {
#ifdef DEBUG
- printf("MotionCVMain::process_buffer: no tracking data frame %jd\n", frame_no);
+printf("MotionCVMain::process_buffer: no tracking data frame %jd\n", frame_no);
#endif
}
}
-
// Get position change from previous frame to current frame
- if(config.global) process_global();
+ if( config.global )
+ process_global();
// Get rotation change from previous frame to current frame
- if(config.rotate) process_rotation();
+ if( config.rotate )
+ process_rotation();
//frame[target_layer]->copy_from(prev_rotate_ref);
//frame[target_layer]->copy_from(current_rotate_ref);
// write results to disk
if( config.mode2 == MotionCVConfig::SAVE ) {
- FILE *output = fopen(config.tracking_file, "aw");
- if( output ) {
- int64_t frame_no = get_source_position();
- fprintf(output, "%jd %d %d %f\n", frame_no, save_dx, save_dy, save_dt);
- fclose(output);
- }
- else {
- perror("MotionCVMain::process buffer save");
- }
+ char line[BCSTRLEN];
+ int64_t frame_no = get_source_position();
+ snprintf(line, sizeof(line), "%jd %d %d %f\n",
+ frame_no, save_dx, save_dy, save_dt);
+ put_cache_line(line);
}
- }
-
// Transfer the relevant target frame to the output
- if(!skip_current)
- {
- if(config.rotate)
- {
+ if( config.rotate ) {
frame[target_layer]->copy_from(rotate_target_dst);
}
- else
- {
+ else {
frame[target_layer]->copy_from(global_target_dst);
}
}
- else
// Read the target destination directly
- {
+ else {
read_frame(frame[target_layer],
- target_layer,
- start_position,
- frame_rate,
- 0);
+ target_layer, start_position, frame_rate, 0);
}
- if(config.draw_vectors)
- {
+ if( config.draw_vectors ) {
draw_vectors(frame[target_layer]);
}
-
#ifdef DEBUG
-printf("MotionCVMain::process_buffer 100\n");
+ printf("MotionCVMain::process_buffer 100\n");
#endif
return 0;
}
-
-void MotionCVMain::clamp_scan(int w,
- int h,
- int *block_x1,
- int *block_y1,
- int *block_x2,
- int *block_y2,
- int *scan_x1,
- int *scan_y1,
- int *scan_x2,
- int *scan_y2,
- int use_absolute)
+void MotionCVMain::clamp_scan(int w, int h,
+ int *block_x1, int *block_y1, int *block_x2, int *block_y2,
+ int *scan_x1, int *scan_y1, int *scan_x2, int *scan_y2,
+ int use_absolute)
{
-// printf("MotionCVMain::clamp_scan 1 w=%d h=%d block=%d %d %d %d scan=%d %d %d %d absolute=%d\n",
-// w,
-// h,
-// *block_x1,
-// *block_y1,
-// *block_x2,
-// *block_y2,
-// *scan_x1,
-// *scan_y1,
-// *scan_x2,
-// *scan_y2,
-// use_absolute);
-
- if(use_absolute)
- {
+// printf("MotionCVMain::clamp_scan 1 w=%d h=%d block=%d %d %d"
+// " %d scan=%d %d %d %d absolute=%d\n",
+// w, h, *block_x1, *block_y1, *block_x2, *block_y2,
+// *scan_x1, *scan_y1, *scan_x2, *scan_y2, use_absolute);
+
+ if( use_absolute ) {
// scan is always out of range before block.
- if(*scan_x1 < 0)
- {
+ if( *scan_x1 < 0 ) {
int difference = -*scan_x1;
*block_x1 += difference;
*scan_x1 = 0;
}
- if(*scan_y1 < 0)
- {
+ if( *scan_y1 < 0 ) {
int difference = -*scan_y1;
*block_y1 += difference;
*scan_y1 = 0;
}
- if(*scan_x2 > w)
- {
+ if( *scan_x2 > w ) {
int difference = *scan_x2 - w;
*block_x2 -= difference;
*scan_x2 -= difference;
}
- if(*scan_y2 > h)
- {
+ if( *scan_y2 > h ) {
int difference = *scan_y2 - h;
*block_y2 -= difference;
*scan_y2 -= difference;
CLAMP(*scan_x2, 0, w);
CLAMP(*scan_y2, 0, h);
}
- else
- {
- if(*scan_x1 < 0)
- {
+ else {
+ if( *scan_x1 < 0 ) {
int difference = -*scan_x1;
*block_x1 += difference;
*scan_x2 += difference;
*scan_x1 = 0;
}
- if(*scan_y1 < 0)
- {
+ if( *scan_y1 < 0 ) {
int difference = -*scan_y1;
*block_y1 += difference;
*scan_y2 += difference;
*scan_y1 = 0;
}
- if(*scan_x2 - *block_x1 + *block_x2 > w)
- {
+ if( *scan_x2 - *block_x1 + *block_x2 > w ) {
int difference = *scan_x2 - *block_x1 + *block_x2 - w;
*block_x2 -= difference;
}
- if(*scan_y2 - *block_y1 + *block_y2 > h)
- {
+ if( *scan_y2 - *block_y1 + *block_y2 > h ) {
int difference = *scan_y2 - *block_y1 + *block_y2 - h;
*block_y2 -= difference;
}
-
-// CLAMP(*scan_x1, 0, w - (*block_x2 - *block_x1));
-// CLAMP(*scan_y1, 0, h - (*block_y2 - *block_y1));
-// CLAMP(*scan_x2, 0, w - (*block_x2 - *block_x1));
-// CLAMP(*scan_y2, 0, h - (*block_y2 - *block_y1));
+// CLAMP(*scan_x1, 0, w - (*block_x2 - *block_x1));
+// CLAMP(*scan_y1, 0, h - (*block_y2 - *block_y1));
+// CLAMP(*scan_x2, 0, w - (*block_x2 - *block_x1));
+// CLAMP(*scan_y2, 0, h - (*block_y2 - *block_y1));
}
// Sanity checks which break the calculation but should never happen if the
CLAMP(*block_y1, 0, h);
CLAMP(*block_y2, 0, h);
-// printf("MotionCVMain::clamp_scan 2 w=%d h=%d block=%d %d %d %d scan=%d %d %d %d absolute=%d\n",
-// w,
-// h,
-// *block_x1,
-// *block_y1,
-// *block_x2,
-// *block_y2,
-// *scan_x1,
-// *scan_y1,
-// *scan_x2,
-// *scan_y2,
-// use_absolute);
+// printf("MotionCVMain::clamp_scan 2 w=%d h=%d"
+// " block=%d %d %d %d scan=%d %d %d %d absolute=%d\n",
+// w, h, *block_x1, *block_y1, *block_x2, *block_y2,
+// *scan_x1, *scan_y1, *scan_x2, *scan_y2, use_absolute);
}
-
-
void MotionCVMain::draw_vectors(VFrame *frame)
{
- int w = frame->get_w();
- int h = frame->get_h();
- int global_x1, global_y1;
- int global_x2, global_y2;
- int block_x, block_y;
- int block_w, block_h;
- int block_x1, block_y1;
- int block_x2, block_y2;
- int block_x3, block_y3;
- int block_x4, block_y4;
+ int w = frame->get_w(), h = frame->get_h();
+ int global_x1, global_y1, global_x2, global_y2;
+ int block_x, block_y, block_w, block_h;
+ int block_x1, block_y1, block_x2, block_y2;
+ int block_x3, block_y3, block_x4, block_y4;
+ int search_x1, search_y1, search_x2, search_y2;
int search_w, search_h;
- int search_x1, search_y1;
- int search_x2, search_y2;
- //int search_x3, search_y3;
- //int search_x4, search_y4;
- if(config.global)
- {
+ if( config.global ) {
// Get vector
// Start of vector is center of previous block.
// End of vector is total accumulation.
- if(config.mode3 == MotionCVConfig::TRACK_SINGLE)
- {
- global_x1 = (int64_t)(config.block_x *
- w /
- 100);
- global_y1 = (int64_t)(config.block_y *
- h /
- 100);
+ if( config.mode3 == MotionCVConfig::TRACK_SINGLE ) {
+ global_x1 = (int64_t) (config.block_x * w / 100);
+ global_y1 = (int64_t) (config.block_y * h / 100);
global_x2 = global_x1 + total_dx / OVERSAMPLE;
global_y2 = global_y1 + total_dy / OVERSAMPLE;
-//printf("MotionCVMain::draw_vectors %d %d %d %d %d %d\n", total_dx, total_dy, global_x1, global_y1, global_x2, global_y2);
+//printf("MotionCVMain::draw_vectors %d %d %d %d %d %d\n",
+// total_dx, total_dy, global_x1, global_y1, global_x2, global_y2);
}
- else
// Start of vector is center of previous block.
// End of vector is current change.
- if(config.mode3 == MotionCVConfig::PREVIOUS_SAME_BLOCK)
- {
- global_x1 = (int64_t)(config.block_x *
- w /
- 100);
- global_y1 = (int64_t)(config.block_y *
- h /
- 100);
+ else if( config.mode3 == MotionCVConfig::PREVIOUS_SAME_BLOCK ) {
+ global_x1 = (int64_t) (config.block_x * w / 100);
+ global_y1 = (int64_t) (config.block_y * h / 100);
global_x2 = global_x1 + current_dx / OVERSAMPLE;
global_y2 = global_y1 + current_dy / OVERSAMPLE;
}
- else
- {
- global_x1 = (int64_t)(config.block_x *
- w /
- 100 +
- (total_dx - current_dx) /
- OVERSAMPLE);
- global_y1 = (int64_t)(config.block_y *
- h /
- 100 +
- (total_dy - current_dy) /
- OVERSAMPLE);
- global_x2 = (int64_t)(config.block_x *
- w /
- 100 +
- total_dx /
- OVERSAMPLE);
- global_y2 = (int64_t)(config.block_y *
- h /
- 100 +
- total_dy /
- OVERSAMPLE);
+ else {
+ global_x1 = (int64_t) (config.block_x * w / 100
+ + (total_dx - current_dx) / OVERSAMPLE);
+ global_y1 = (int64_t) (config.block_y * h / 100
+ + (total_dy - current_dy) / OVERSAMPLE);
+ global_x2 = (int64_t) (config.block_x * w / 100
+ + total_dx / OVERSAMPLE);
+ global_y2 = (int64_t) (config.block_y * h / 100
+ + total_dy / OVERSAMPLE);
}
block_x = global_x1;
search_y2 = block_y2 + search_h / 2;
// printf("MotionCVMain::draw_vectors %d %d %d %d %d %d %d %d %d %d %d %d\n",
-// global_x1,
-// global_y1,
-// block_w,
-// block_h,
-// block_x1,
-// block_y1,
-// block_x2,
-// block_y2,
-// search_x1,
-// search_y1,
-// search_x2,
-// search_y2);
-
- clamp_scan(w,
- h,
- &block_x1,
- &block_y1,
- &block_x2,
- &block_y2,
- &search_x1,
- &search_y1,
- &search_x2,
- &search_y2,
- 1);
+// global_x1, global_y1, block_w, block_h, block_x1, block_y1, block_x2, block_y2,
+// search_x1, search_y1, search_x2, search_y2);
+ clamp_scan(w, h,
+ &block_x1, &block_y1, &block_x2, &block_y2,
+ &search_x1, &search_y1, &search_x2, &search_y2, 1);
// Vector
draw_arrow(frame, global_x1, global_y1, global_x2, global_y2);
draw_line(frame, block_x2, block_y2, block_x1, block_y2);
draw_line(frame, block_x1, block_y2, block_x1, block_y1);
-
// Search area
draw_line(frame, search_x1, search_y1, search_x2, search_y1);
draw_line(frame, search_x2, search_y1, search_x2, search_y2);
draw_line(frame, search_x1, search_y2, search_x1, search_y1);
// Block should be endpoint of motion
- if(config.rotate)
- {
+ if( config.rotate ) {
block_x = global_x2;
block_y = global_y2;
}
}
- else
- {
- block_x = (int64_t)(config.block_x * w / 100);
- block_y = (int64_t)(config.block_y * h / 100);
+ else {
+ block_x = (int64_t) (config.block_x * w / 100);
+ block_y = (int64_t) (config.block_y * h / 100);
}
block_w = config.rotation_block_w * w / 100;
block_h = config.rotation_block_h * h / 100;
- if(config.rotate)
- {
+ if( config.rotate ) {
float angle = total_angle * 2 * M_PI / 360;
double base_angle1 = atan((float)block_h / block_w);
double base_angle2 = atan((float)block_w / block_h);
draw_line(frame, block_x4, block_y4, block_x3, block_y3);
draw_line(frame, block_x3, block_y3, block_x1, block_y1);
-
// Center
- if(!config.global)
- {
+ if( !config.global ) {
draw_line(frame, block_x, block_y - 5, block_x, block_y + 6);
draw_line(frame, block_x - 5, block_y, block_x + 6, block_y);
}
}
-
-void MotionCVMain::draw_pixel(VFrame *frame, int x, int y)
+MotionCvVVFrame::MotionCvVVFrame(VFrame *vfrm, int n)
+ : VFrame(vfrm->get_data(), -1, vfrm->get_y()-vfrm->get_data(),
+ vfrm->get_u()-vfrm->get_data(), vfrm->get_v()-vfrm->get_data(),
+ vfrm->get_w(), vfrm->get_h(), vfrm->get_color_model(),
+ vfrm->get_bytes_per_line())
{
- if(!(x >= 0 && y >= 0 && x < frame->get_w() && y < frame->get_h())) return;
-
-#define DRAW_PIXEL(x, y, components, do_yuv, max, type) \
-{ \
- type **rows = (type**)frame->get_rows(); \
- rows[y][x * components] = max - rows[y][x * components]; \
- if(!do_yuv) \
- { \
- rows[y][x * components + 1] = max - rows[y][x * components + 1]; \
- rows[y][x * components + 2] = max - rows[y][x * components + 2]; \
- } \
- else \
- { \
- rows[y][x * components + 1] = (max / 2 + 1) - rows[y][x * components + 1]; \
- rows[y][x * components + 2] = (max / 2 + 1) - rows[y][x * components + 2]; \
- } \
- if(components == 4) \
- rows[y][x * components + 3] = max; \
+ this->n = n;
}
-
- switch(frame->get_color_model())
- {
- case BC_RGB888:
- DRAW_PIXEL(x, y, 3, 0, 0xff, unsigned char);
- break;
- case BC_RGBA8888:
- DRAW_PIXEL(x, y, 4, 0, 0xff, unsigned char);
- break;
- case BC_RGB_FLOAT:
- DRAW_PIXEL(x, y, 3, 0, 1.0, float);
- break;
- case BC_RGBA_FLOAT:
- DRAW_PIXEL(x, y, 4, 0, 1.0, float);
- break;
- case BC_YUV888:
- DRAW_PIXEL(x, y, 3, 1, 0xff, unsigned char);
- break;
- case BC_YUVA8888:
- DRAW_PIXEL(x, y, 4, 1, 0xff, unsigned char);
- break;
- case BC_RGB161616:
- DRAW_PIXEL(x, y, 3, 0, 0xffff, uint16_t);
- break;
- case BC_YUV161616:
- DRAW_PIXEL(x, y, 3, 1, 0xffff, uint16_t);
- break;
- case BC_RGBA16161616:
- DRAW_PIXEL(x, y, 4, 0, 0xffff, uint16_t);
- break;
- case BC_YUVA16161616:
- DRAW_PIXEL(x, y, 4, 1, 0xffff, uint16_t);
- break;
+int MotionCvVVFrame::draw_pixel(int x, int y)
+{
+ VFrame::draw_pixel(x+0, y+0);
+ for( int i=1; i<n; ++i ) {
+ VFrame::draw_pixel(x-i, y-i);
+ VFrame::draw_pixel(x+i, y+i);
}
+ return 0;
}
void MotionCVMain::draw_line(VFrame *frame, int x1, int y1, int x2, int y2)
{
- int w = labs(x2 - x1);
- int h = labs(y2 - y1);
-//printf("MotionCVMain::draw_line 1 %d %d %d %d\n", x1, y1, x2, y2);
-
- if(!w && !h)
- {
- draw_pixel(frame, x1, y1);
- }
- else
- if(w > h)
- {
-// Flip coordinates so x1 < x2
- if(x2 < x1)
- {
- y2 ^= y1;
- y1 ^= y2;
- y2 ^= y1;
- x1 ^= x2;
- x2 ^= x1;
- x1 ^= x2;
- }
- int numerator = y2 - y1;
- int denominator = x2 - x1;
- for(int i = x1; i < x2; i++)
- {
- int y = y1 + (int64_t)(i - x1) * (int64_t)numerator / (int64_t)denominator;
- draw_pixel(frame, i, y);
- }
- }
- else
- {
-// Flip coordinates so y1 < y2
- if(y2 < y1)
- {
- y2 ^= y1;
- y1 ^= y2;
- y2 ^= y1;
- x1 ^= x2;
- x2 ^= x1;
- x1 ^= x2;
- }
- int numerator = x2 - x1;
- int denominator = y2 - y1;
- for(int i = y1; i < y2; i++)
- {
- int x = x1 + (int64_t)(i - y1) * (int64_t)numerator / (int64_t)denominator;
- draw_pixel(frame, x, i);
- }
- }
-//printf("MotionCVMain::draw_line 2\n");
+ int iw = frame->get_w(), ih = frame->get_h();
+ int mx = iw > ih ? iw : ih;
+ int n = mx/800 + 1;
+ MotionCvVVFrame vfrm(frame, n);
+ vfrm.set_pixel_color(WHITE);
+ int m = 2; while( m < n ) m <<= 1;
+ vfrm.set_stiple(2*m);
+ vfrm.draw_line(x1,y1, x2,y2);
}
#define ARROW_SIZE 10
double angle = atan((float)(y2 - y1) / (float)(x2 - x1));
double angle1 = angle + (float)145 / 360 * 2 * 3.14159265;
double angle2 = angle - (float)145 / 360 * 2 * 3.14159265;
- int x3;
- int y3;
- int x4;
- int y4;
- if(x2 < x1)
- {
+ int x3, y3, x4, y4;
+ if( x2 < x1 ) {
x3 = x2 - (int)(ARROW_SIZE * cos(angle1));
y3 = y2 - (int)(ARROW_SIZE * sin(angle1));
x4 = x2 - (int)(ARROW_SIZE * cos(angle2));
y4 = y2 - (int)(ARROW_SIZE * sin(angle2));
}
- else
- {
+ else {
x3 = x2 + (int)(ARROW_SIZE * cos(angle1));
y3 = y2 + (int)(ARROW_SIZE * sin(angle1));
x4 = x2 + (int)(ARROW_SIZE * cos(angle2));
// Main vector
draw_line(frame, x1, y1, x2, y2);
-// draw_line(frame, x1, y1 + 1, x2, y2 + 1);
+// draw_line(frame, x1, y1 + 1, x2, y2 + 1);
// Arrow line
- if(abs(y2 - y1) || abs(x2 - x1)) draw_line(frame, x2, y2, x3, y3);
-// draw_line(frame, x2, y2 + 1, x3, y3 + 1);
+ if( abs(y2 - y1) || abs(x2 - x1) )
+ draw_line(frame, x2, y2, x3, y3);
+// draw_line(frame, x2, y2 + 1, x3, y3 + 1);
// Arrow line
- if(abs(y2 - y1) || abs(x2 - x1)) draw_line(frame, x2, y2, x4, y4);
-// draw_line(frame, x2, y2 + 1, x4, y4 + 1);
+ if( abs(y2 - y1) || abs(x2 - x1) )
+ draw_line(frame, x2, y2, x4, y4);
+// draw_line(frame, x2, y2 + 1, x4, y4 + 1);
}
-
-
-
-#define ABS_DIFF(type, temp_type, multiplier, components) \
-{ \
+#define ABS_DIFF(model, type, temp_type, multiplier, components) \
+case model: { \
temp_type result_temp = 0; \
- for(int i = 0; i < h; i++) \
- { \
+ for( int i = 0; i < h; i++ ) { \
type *prev_row = (type*)prev_ptr; \
type *current_row = (type*)current_ptr; \
- for(int j = 0; j < w; j++) \
- { \
- for(int k = 0; k < 3; k++) \
- { \
+ for( int j = 0; j < w; j++ ) { \
+ for( int k = 0; k < 3; k++ ) { \
temp_type difference; \
difference = *prev_row++ - *current_row++; \
- if(difference < 0) \
+ if( difference < 0 ) \
result_temp -= difference; \
else \
result_temp += difference; \
} \
- if(components == 4) \
- { \
+ if( components == 4 ) { \
prev_row++; \
current_row++; \
} \
current_ptr += row_bytes; \
} \
result = (int64_t)(result_temp * multiplier); \
-}
+} break
-int64_t MotionCVMain::abs_diff(unsigned char *prev_ptr,
- unsigned char *current_ptr,
- int row_bytes,
- int w,
- int h,
- int color_model)
+int64_t MotionCVMain::abs_diff(unsigned char *prev_ptr, unsigned char *current_ptr,
+ int row_bytes, int w, int h, int color_model)
{
int64_t result = 0;
- switch(color_model)
- {
- case BC_RGB888:
- ABS_DIFF(unsigned char, int64_t, 1, 3)
- break;
- case BC_RGBA8888:
- ABS_DIFF(unsigned char, int64_t, 1, 4)
- break;
- case BC_RGB_FLOAT:
- ABS_DIFF(float, double, 0x10000, 3)
- break;
- case BC_RGBA_FLOAT:
- ABS_DIFF(float, double, 0x10000, 4)
- break;
- case BC_YUV888:
- ABS_DIFF(unsigned char, int64_t, 1, 3)
- break;
- case BC_YUVA8888:
- ABS_DIFF(unsigned char, int64_t, 1, 4)
- break;
- case BC_YUV161616:
- ABS_DIFF(uint16_t, int64_t, 1, 3)
- break;
- case BC_YUVA16161616:
- ABS_DIFF(uint16_t, int64_t, 1, 4)
- break;
+ switch( color_model ) {
+ ABS_DIFF(BC_RGB888,unsigned char, int64_t, 1, 3);
+ ABS_DIFF(BC_RGBA8888,unsigned char, int64_t, 1, 4);
+ ABS_DIFF(BC_RGB_FLOAT,float, double, 0x10000, 3);
+ ABS_DIFF(BC_RGBA_FLOAT,float, double, 0x10000, 4);
+ ABS_DIFF(BC_YUV888,unsigned char, int64_t, 1, 3);
+ ABS_DIFF(BC_YUVA8888,unsigned char, int64_t, 1, 4);
+ ABS_DIFF(BC_YUV161616,uint16_t, int64_t, 1, 3);
+ ABS_DIFF(BC_YUVA16161616,uint16_t, int64_t, 1, 4);
}
return result;
}
-
-
-#define ABS_DIFF_SUB(type, temp_type, multiplier, components) \
-{ \
+#define ABS_DIFF_SUB(model, type, temp_type, multiplier, components) \
+case model: { \
temp_type result_temp = 0; \
temp_type y2_fraction = sub_y * 0x100 / OVERSAMPLE; \
temp_type y1_fraction = 0x100 - y2_fraction; \
temp_type x2_fraction = sub_x * 0x100 / OVERSAMPLE; \
temp_type x1_fraction = 0x100 - x2_fraction; \
- for(int i = 0; i < h_sub; i++) \
- { \
+ for( int i = 0; i < h_sub; i++ ) { \
type *prev_row1 = (type*)prev_ptr; \
type *prev_row2 = (type*)prev_ptr + components; \
type *prev_row3 = (type*)(prev_ptr + row_bytes); \
type *prev_row4 = (type*)(prev_ptr + row_bytes) + components; \
type *current_row = (type*)current_ptr; \
- for(int j = 0; j < w_sub; j++) \
- { \
- for(int k = 0; k < 3; k++) \
- { \
+ for( int j = 0; j < w_sub; j++ ) { \
+ for( int k = 0; k < 3; k++ ) { \
temp_type difference; \
temp_type prev_value = \
(*prev_row1++ * x1_fraction * y1_fraction + \
0x100 / 0x100; \
temp_type current_value = *current_row++; \
difference = prev_value - current_value; \
- if(difference < 0) \
+ if( difference < 0 ) \
result_temp -= difference; \
else \
result_temp += difference; \
} \
\
- if(components == 4) \
- { \
- prev_row1++; \
- prev_row2++; \
- prev_row3++; \
- prev_row4++; \
+ if( components == 4 ) { \
+ prev_row1++; prev_row2++; \
+ prev_row3++; prev_row4++; \
current_row++; \
} \
} \
current_ptr += row_bytes; \
} \
result = (int64_t)(result_temp * multiplier); \
-}
+} break
-
-
-
-int64_t MotionCVMain::abs_diff_sub(unsigned char *prev_ptr,
- unsigned char *current_ptr,
- int row_bytes,
- int w,
- int h,
- int color_model,
- int sub_x,
- int sub_y)
+int64_t MotionCVMain::abs_diff_sub(unsigned char *prev_ptr, unsigned char *current_ptr,
+ int row_bytes, int w, int h, int color_model, int sub_x, int sub_y)
{
int h_sub = h - 1;
int w_sub = w - 1;
int64_t result = 0;
- switch(color_model)
- {
- case BC_RGB888:
- ABS_DIFF_SUB(unsigned char, int64_t, 1, 3)
- break;
- case BC_RGBA8888:
- ABS_DIFF_SUB(unsigned char, int64_t, 1, 4)
- break;
- case BC_RGB_FLOAT:
- ABS_DIFF_SUB(float, double, 0x10000, 3)
- break;
- case BC_RGBA_FLOAT:
- ABS_DIFF_SUB(float, double, 0x10000, 4)
- break;
- case BC_YUV888:
- ABS_DIFF_SUB(unsigned char, int64_t, 1, 3)
- break;
- case BC_YUVA8888:
- ABS_DIFF_SUB(unsigned char, int64_t, 1, 4)
- break;
- case BC_YUV161616:
- ABS_DIFF_SUB(uint16_t, int64_t, 1, 3)
- break;
- case BC_YUVA16161616:
- ABS_DIFF_SUB(uint16_t, int64_t, 1, 4)
- break;
+ switch( color_model ) {
+ ABS_DIFF_SUB(BC_RGB888,unsigned char, int64_t, 1, 3);
+ ABS_DIFF_SUB(BC_RGBA8888,unsigned char, int64_t, 1, 4);
+ ABS_DIFF_SUB(BC_RGB_FLOAT,float, double, 0x10000, 3);
+ ABS_DIFF_SUB(BC_RGBA_FLOAT,float, double, 0x10000, 4);
+ ABS_DIFF_SUB(BC_YUV888,unsigned char, int64_t, 1, 3);
+ ABS_DIFF_SUB(BC_YUVA8888,unsigned char, int64_t, 1, 4);
+ ABS_DIFF_SUB(BC_YUV161616,uint16_t, int64_t, 1, 3);
+ ABS_DIFF_SUB(BC_YUVA16161616,uint16_t, int64_t, 1, 4);
}
return result;
}
-int MotionCVMain::get_line_key(const char *filename, int64_t key, char *line, int len)
+
+int MotionCVMain::open_cache_file()
+{
+ if( cache_fp ) return 0;
+ if( !cache_file[0] ) return 1;
+ if( !(cache_fp = fopen(cache_file, "r")) ) return 1;
+ return 0;
+}
+
+void MotionCVMain::close_cache_file()
{
- if( active_fp && strcmp(active_file, filename) ) {
- fclose(active_fp); active_fp = 0; active_file[0] = 0;
+ if( !cache_fp ) return;
+ fclose(cache_fp);
+ cache_fp = 0; cache_key = -1; tracking_frame = -1;
+}
+
+int MotionCVMain::load_cache_line()
+{
+ cache_key = -1;
+ if( open_cache_file() ) return 1;
+ if( !fgets(cache_line, sizeof(cache_line), cache_fp) ) return 1;
+ cache_key = strtol(cache_line, 0, 0);
+ return 0;
+}
+
+int MotionCVMain::get_cache_line(int64_t key)
+{
+ if( cache_key == key ) return 0;
+ if( open_cache_file() ) return 1;
+ if( cache_key >= 0 && key > cache_key ) {
+ if( load_cache_line() ) return 1;
+ if( cache_key == key ) return 0;
+ if( cache_key > key ) return 1;
}
- if( !active_fp ) {
- if( !(active_fp = fopen(filename, "r")) ) {
- perror("open motion file");
- fprintf(stderr,"err reading key %jd\n", key);
+// binary search file
+ fseek(cache_fp, 0, SEEK_END);
+ int64_t l = -1, r = ftell(cache_fp);
+ while( (r - l) > 1 ) {
+ int64_t m = (l + r) / 2;
+ fseek(cache_fp, m, SEEK_SET);
+ if( m > 0 && !fgets(cache_line, sizeof(cache_line), cache_fp) )
return -1;
+ if( !load_cache_line() ) {
+ if( cache_key == key )
+ return 0;
+ if( cache_key < key ) { l = m; continue; }
}
- strcpy(active_file, filename);
- tracking_frame = -1;
+ r = m;
}
- int64_t recd = 0;
- if( fgets(line, len, active_fp) && (recd=strtol(line,0,0)) == key )
- return 0;
-// binary search file
- fseek(active_fp, 0, SEEK_END);
- int64_t l = -1, r = ftell(active_fp);
- while( (r-l) > 1 ) {
- int64_t m = (l+r) / 2;
- fseek(active_fp, m, SEEK_SET);
- if( m > 0 && !fgets(line, len, active_fp) ) {
- fprintf(stderr,"err reading key %jd\n", key);
+ return 1;
+}
+
+int MotionCVMain::locate_cache_line(int64_t key)
+{
+ int ret = 1;
+ if( key < 0 || !(ret=get_cache_line(key)) ||
+ ( cache_key >= 0 && cache_key < key ) )
+ ret = load_cache_line();
+ return ret;
+}
+
+int MotionCVMain::put_cache_line(const char *line)
+{
+ int64_t key = strtol(line, 0, 0);
+ if( key == active_key ) return 1;
+ if( !active_fp ) {
+ close_cache_file();
+ snprintf(cache_file, sizeof(cache_file), "%s.bak", config.tracking_file);
+ ::rename(config.tracking_file, cache_file);
+ if( !(active_fp = fopen(config.tracking_file, "w")) ) {
+ perror(config.tracking_file);
+ fprintf(stderr, "err writing key %jd\n", key);
return -1;
}
- if( fgets(line, len, active_fp) ) {
- recd = strtol(line,0,0);
- if( recd == key ) return 0;
- if( recd < key ) { l = m; continue; }
+ active_key = -1;
+ }
+
+ if( active_key < key ) {
+ locate_cache_line(active_key);
+ while( cache_key >= 0 && key >= cache_key ) {
+ if( key > cache_key )
+ fputs(cache_line, active_fp);
+ load_cache_line();
}
- r = m;
}
- return 1;
+
+ active_key = key;
+ fputs(line, active_fp);
+ fflush(active_fp);
+ return 0;
}
+void MotionCVMain::reset_cache_file()
+{
+ if( active_fp ) {
+ locate_cache_line(active_key);
+ while( cache_key >= 0 ) {
+ fputs(cache_line, active_fp);
+ load_cache_line();
+ }
+ close_cache_file(); ::remove(cache_file);
+ fclose(active_fp); active_fp = 0; active_key = -1;
+ }
+ else
+ close_cache_file();
+ strcpy(cache_file, config.tracking_file);
+}
MotionCVScanPackage::MotionCVScanPackage()
valid = 1;
}
-
-MotionCVScanUnit::MotionCVScanUnit(MotionCVScan *server,
- MotionCVMain *plugin)
+MotionCVScanUnit::MotionCVScanUnit(MotionCVScan *server, MotionCVMain *plugin)
: LoadClient(server)
{
this->plugin = plugin;
delete cache_lock;
}
-
-
void MotionCVScanUnit::process_package(LoadPackage *package)
{
- MotionCVScanPackage *pkg = (MotionCVScanPackage*)package;
+ MotionCVScanPackage *pkg = (MotionCVScanPackage *) package;
//int w = server->current_frame->get_w();
//int h = server->current_frame->get_h();
int color_model = server->current_frame->get_color_model();
int row_bytes = server->current_frame->get_bytes_per_line();
// Single pixel
- if(!server->subpixel)
- {
+ if( !server->subpixel ) {
int search_x = pkg->scan_x1 + (pkg->pixel % (pkg->scan_x2 - pkg->scan_x1));
int search_y = pkg->scan_y1 + (pkg->pixel / (pkg->scan_x2 - pkg->scan_x1));
// Try cache
pkg->difference1 = server->get_cache(search_x, search_y);
- if(pkg->difference1 < 0)
- {
-//printf("MotionCVScanUnit::process_package 1 %d %d\n",
-//search_x, search_y, pkg->block_x2 - pkg->block_x1, pkg->block_y2 - pkg->block_y1);
+ if( pkg->difference1 < 0 ) {
+//printf("MotionCVScanUnit::process_package 1 %d %d\n",
+// search_x, search_y, pkg->block_x2 - pkg->block_x1, pkg->block_y2 - pkg->block_y1);
// Pointers to first pixel in each block
- unsigned char *prev_ptr = server->previous_frame->get_rows()[
- search_y] +
- search_x * pixel_size;
- unsigned char *current_ptr = server->current_frame->get_rows()[
- pkg->block_y1] +
- pkg->block_x1 * pixel_size;
+ unsigned char *prev_ptr =
+ server->previous_frame->get_rows()[search_y]
+ + search_x * pixel_size;
+ unsigned char *current_ptr =
+ server->current_frame->get_rows()[pkg->block_y1]
+ + pkg->block_x1 * pixel_size;
// Scan block
- pkg->difference1 = plugin->abs_diff(prev_ptr,
- current_ptr,
- row_bytes,
- pkg->block_x2 - pkg->block_x1,
- pkg->block_y2 - pkg->block_y1,
- color_model);
+ pkg->difference1 = plugin->abs_diff(prev_ptr, current_ptr, row_bytes,
+ pkg->block_x2 - pkg->block_x1, pkg->block_y2 - pkg->block_y1,
+ color_model);
//printf("MotionCVScanUnit::process_package 2\n");
server->put_cache(search_x, search_y, pkg->difference1);
}
}
- else
// Sub pixel
- {
+ else {
int sub_x = pkg->pixel % (OVERSAMPLE * 2 - 1) + 1;
int sub_y = pkg->pixel / (OVERSAMPLE * 2 - 1) + 1;
- if(plugin->config.horizontal_only)
- {
- sub_y = 0;
- }
-
- if(plugin->config.vertical_only)
- {
- sub_x = 0;
- }
+ if( plugin->config.horizontal_only ) sub_y = 0;
+ if( plugin->config.vertical_only ) sub_x = 0;
int search_x = pkg->scan_x1 + sub_x / OVERSAMPLE;
int search_y = pkg->scan_y1 + sub_y / OVERSAMPLE;
sub_x %= OVERSAMPLE;
sub_y %= OVERSAMPLE;
-
- unsigned char *prev_ptr = server->previous_frame->get_rows()[
- search_y] +
- search_x * pixel_size;
- unsigned char *current_ptr = server->current_frame->get_rows()[
- pkg->block_y1] +
- pkg->block_x1 * pixel_size;
+ unsigned char *prev_ptr =
+ server->previous_frame->get_rows()[search_y]
+ + search_x * pixel_size;
+ unsigned char *current_ptr =
+ server->current_frame->get_rows()[pkg->block_y1]
+ + pkg->block_x1 * pixel_size;
// With subpixel, there are two ways to compare each position, one by shifting
// the previous frame and two by shifting the current frame.
- pkg->difference1 = plugin->abs_diff_sub(prev_ptr,
- current_ptr,
- row_bytes,
- pkg->block_x2 - pkg->block_x1,
- pkg->block_y2 - pkg->block_y1,
- color_model,
- sub_x,
- sub_y);
- pkg->difference2 = plugin->abs_diff_sub(current_ptr,
- prev_ptr,
- row_bytes,
- pkg->block_x2 - pkg->block_x1,
- pkg->block_y2 - pkg->block_y1,
- color_model,
- sub_x,
- sub_y);
-// printf("MotionCVScanUnit::process_package sub_x=%d sub_y=%d search_x=%d search_y=%d diff1=%lld diff2=%lld\n",
-// sub_x,
-// sub_y,
-// search_x,
-// search_y,
-// pkg->difference1,
-// pkg->difference2);
+ pkg->difference1 = plugin->abs_diff_sub(prev_ptr, current_ptr, row_bytes,
+ pkg->block_x2 - pkg->block_x1, pkg->block_y2 - pkg->block_y1,
+ color_model, sub_x, sub_y);
+ pkg->difference2 =
+ plugin->abs_diff_sub(current_ptr, prev_ptr, row_bytes,
+ pkg->block_x2 - pkg->block_x1, pkg->block_y2 - pkg->block_y1,
+ color_model, sub_x, sub_y);
+//printf("MotionCVScanUnit::process_package sub_x=%d sub_y=%d"
+// " search_x=%d search_y=%d diff1=%jd diff2=%jd\n",
+// sub_x, sub_y, search_x, search_y, pkg->difference1, pkg->difference2);
}
-
-
-
}
-
-
-
-
-
-
-
-
-
int64_t MotionCVScanUnit::get_cache(int x, int y)
{
int64_t result = -1;
cache_lock->lock("MotionCVScanUnit::get_cache");
- for(int i = 0; i < cache.total; i++)
- {
+ for( int i = 0; i < cache.total; i++ ) {
MotionCVScanCache *ptr = cache.values[i];
- if(ptr->x == x && ptr->y == y)
- {
+ if( ptr->x == x && ptr->y == y ) {
result = ptr->difference;
break;
}
cache_lock->unlock();
}
-
-
-
-
-
-
-
-
-
-
-MotionCVScan::MotionCVScan(MotionCVMain *plugin,
- int total_clients,
- int total_packages)
- : LoadServer(
-//1, 1
-total_clients, total_packages
-)
+MotionCVScan::MotionCVScan(MotionCVMain *plugin,
+ int total_clients, int total_packages)
+:LoadServer( //1, 1
+ total_clients, total_packages)
{
this->plugin = plugin;
cache_lock = new Mutex("MotionCVScan::cache_lock");
delete cache_lock;
}
-
void MotionCVScan::init_packages()
{
// Set package coords
- for(int i = 0; i < get_total_packages(); i++)
- {
- MotionCVScanPackage *pkg = (MotionCVScanPackage*)get_package(i);
-
- pkg->block_x1 = block_x1;
- pkg->block_x2 = block_x2;
- pkg->block_y1 = block_y1;
- pkg->block_y2 = block_y2;
- pkg->scan_x1 = scan_x1;
- pkg->scan_x2 = scan_x2;
- pkg->scan_y1 = scan_y1;
- pkg->scan_y2 = scan_y2;
- pkg->pixel = (int64_t)i * (int64_t)total_pixels / (int64_t)total_steps;
- pkg->difference1 = 0;
- pkg->difference2 = 0;
- pkg->dx = 0;
- pkg->dy = 0;
+ for( int i = 0; i < get_total_packages(); i++ ) {
+ MotionCVScanPackage *pkg = (MotionCVScanPackage *) get_package(i);
+
+ pkg->block_x1 = block_x1; pkg->block_x2 = block_x2;
+ pkg->block_y1 = block_y1; pkg->block_y2 = block_y2;
+ pkg->scan_x1 = scan_x1; pkg->scan_x2 = scan_x2;
+ pkg->scan_y1 = scan_y1; pkg->scan_y2 = scan_y2;
+ pkg->pixel = (int64_t) i *(int64_t) total_pixels / (int64_t) total_steps;
+ pkg->difference1 = 0; pkg->difference2 = 0;
+ pkg->dx = pkg->dy = 0;
pkg->valid = 1;
}
}
-LoadClient* MotionCVScan::new_client()
+LoadClient *MotionCVScan::new_client()
{
return new MotionCVScanUnit(this, plugin);
}
-LoadPackage* MotionCVScan::new_package()
+LoadPackage *MotionCVScan::new_package()
{
return new MotionCVScanPackage;
}
-
-void MotionCVScan::scan_frame(VFrame *previous_frame,
- VFrame *current_frame)
+void MotionCVScan::scan_frame(VFrame *previous_frame, VFrame *current_frame)
{
this->previous_frame = previous_frame;
this->current_frame = current_frame;
cache.remove_all_objects();
-
// Single macroblock
int w = current_frame->get_w();
int h = current_frame->get_h();
// Offset to location of previous block. This offset needn't be very accurate
// since it's the offset of the previous image and current image we want.
- if(plugin->config.mode3 == MotionCVConfig::TRACK_PREVIOUS)
- {
+ if( plugin->config.mode3 == MotionCVConfig::TRACK_PREVIOUS ) {
block_x1 += plugin->total_dx / OVERSAMPLE;
block_y1 += plugin->total_dy / OVERSAMPLE;
block_x2 += plugin->total_dx / OVERSAMPLE;
skip = 0;
- switch(plugin->config.mode2)
- {
+ switch( plugin->config.mode2 ) {
// Don't calculate
- case MotionCVConfig::NO_CALCULATE:
- dx_result = 0;
- dy_result = 0;
+ case MotionCVConfig::NO_CALCULATE:
+ dx_result = dy_result = 0;
+ skip = 1;
+ break;
+
+ case MotionCVConfig::LOAD:
+ case MotionCVConfig::SAVE:
+ if( plugin->load_ok ) {
+ dx_result = plugin->load_dx;
+ dy_result = plugin->load_dy;
skip = 1;
- break;
-
- case MotionCVConfig::LOAD:
- {
- if( plugin->load_ok ) {
- dx_result = plugin->load_dx;
- dy_result = plugin->load_dy;
- skip = 1;
- }
- break;
}
+ break;
// Scan from scratch
- default:
- skip = 0;
- break;
+ default:
+ skip = 0;
+ break;
}
// Perform scan
- if(!skip)
- {
+ if( !skip ) {
// Location of block in current frame
int x_result = block_x1;
int y_result = block_y1;
-// printf("MotionCVScan::scan_frame 1 %d %d %d %d %d %d %d %d\n",
-// block_x1 + block_w / 2,
-// block_y1 + block_h / 2,
-// block_w,
-// block_h,
-// block_x1,
-// block_y1,
-// block_x2,
-// block_y2);
-
- while(1)
- {
+//printf("MotionCVScan::scan_frame 1 %d %d %d %d %d %d %d %d\n",
+// block_x1 + block_w / 2, block_y1 + block_h / 2,
+// block_w, block_h, block_x1, block_y1, block_x2, block_y2);
+
+ while( 1 ) {
scan_x1 = x_result - scan_w / 2;
scan_y1 = y_result - scan_h / 2;
scan_x2 = x_result + scan_w / 2;
scan_y2 = y_result + scan_h / 2;
-
-
// Zero out requested values
- if(plugin->config.horizontal_only)
- {
+ if( plugin->config.horizontal_only ) {
scan_y1 = block_y1;
scan_y2 = block_y1 + 1;
}
- if(plugin->config.vertical_only)
- {
+ if( plugin->config.vertical_only ) {
scan_x1 = block_x1;
scan_x2 = block_x1 + 1;
}
-
// printf("MotionCVScan::scan_frame 1 %d %d %d %d %d %d %d %d\n",
-// block_x1,
-// block_y1,
-// block_x2,
-// block_y2,
-// scan_x1,
-// scan_y1,
-// scan_x2,
-// scan_y2);
+// block_x1, block_y1, block_x2, block_y2, scan_x1, scan_y1, scan_x2, scan_y2);
// Clamp the block coords before the scan so we get useful scan coords.
- MotionCVMain::clamp_scan(w,
- h,
- &block_x1,
- &block_y1,
- &block_x2,
- &block_y2,
- &scan_x1,
- &scan_y1,
- &scan_x2,
- &scan_y2,
- 0);
-// printf("MotionCVScan::scan_frame 1\n block_x1=%d block_y1=%d block_x2=%d block_y2=%d\n scan_x1=%d scan_y1=%d scan_x2=%d scan_y2=%d\n x_result=%d y_result=%d\n",
-// block_x1,
-// block_y1,
-// block_x2,
-// block_y2,
-// scan_x1,
-// scan_y1,
-// scan_x2,
-// scan_y2,
-// x_result,
-// y_result);
-
+ MotionCVMain::clamp_scan(w, h,
+ &block_x1, &block_y1, &block_x2, &block_y2,
+ &scan_x1, &scan_y1, &scan_x2, &scan_y2, 0);
+//printf("MotionCVScan::scan_frame 1\n"
+// " block_x1=%d block_y1=%d block_x2=%d block_y2=%d\n"
+// " scan_x1=%d scan_y1=%d scan_x2=%d scan_y2=%d\n"
+// " x_result=%d y_result=%d\n",
+// block_x1, block_y1, block_x2, block_y2,
+// scan_x1, scan_y1, scan_x2, scan_y2, x_result, y_result);
// Give up if invalid coords.
- if(scan_y2 <= scan_y1 ||
- scan_x2 <= scan_x1 ||
- block_x2 <= block_x1 ||
- block_y2 <= block_y1)
+ if( scan_y2 <= scan_y1 || scan_x2 <= scan_x1 ||
+ block_x2 <= block_x1 || block_y2 <= block_y1 )
break;
// For subpixel, the top row and left column are skipped
- if(subpixel)
- {
- if(plugin->config.horizontal_only ||
- plugin->config.vertical_only)
- {
- total_pixels = 4 * OVERSAMPLE * OVERSAMPLE - 4 * OVERSAMPLE;
+ if( subpixel ) {
+ if( plugin->config.horizontal_only ||
+ plugin->config.vertical_only ) {
+ total_pixels = 4 * OVERSAMPLE * OVERSAMPLE
+ - 4 * OVERSAMPLE;
}
- else
- {
+ else {
total_pixels = 4 * OVERSAMPLE;
}
total_steps = total_pixels;
-
set_package_count(total_steps);
process_packages();
// Get least difference
int64_t min_difference = -1;
- for(int i = 0; i < get_total_packages(); i++)
- {
- MotionCVScanPackage *pkg = (MotionCVScanPackage*)get_package(i);
- if(pkg->difference1 < min_difference || min_difference == -1)
- {
+ for(int i = 0; i < get_total_packages(); i++ ) {
+ MotionCVScanPackage *pkg = (MotionCVScanPackage *) get_package(i);
+ if( pkg->difference1 < min_difference || min_difference == -1 ) {
min_difference = pkg->difference1;
- if(plugin->config.vertical_only)
+ if( plugin->config. vertical_only )
x_result = scan_x1 * OVERSAMPLE;
else
- x_result = scan_x1 * OVERSAMPLE +
- (pkg->pixel % (OVERSAMPLE * 2 - 1)) + 1;
-
- if(plugin->config.horizontal_only)
+ x_result = scan_x1 * OVERSAMPLE
+ + (pkg->pixel % (OVERSAMPLE * 2 - 1)) + 1;
+
+ if( plugin->config. horizontal_only )
y_result = scan_y1 * OVERSAMPLE;
else
- y_result = scan_y1 * OVERSAMPLE +
- (pkg->pixel / (OVERSAMPLE * 2 - 1)) + 1;
-
+ y_result = scan_y1 * OVERSAMPLE
+ + (pkg->pixel / (OVERSAMPLE * 2 - 1)) + 1;
// Fill in results
dx_result = block_x1 * OVERSAMPLE - x_result;
dy_result = block_y1 * OVERSAMPLE - y_result;
}
- if(pkg->difference2 < min_difference)
- {
+ if( pkg->difference2 < min_difference ) {
min_difference = pkg->difference2;
- if(plugin->config.vertical_only)
+ if( plugin->config. vertical_only )
x_result = scan_x1 * OVERSAMPLE;
else
- x_result = scan_x2 * OVERSAMPLE -
- ((pkg->pixel % (OVERSAMPLE * 2 - 1)) + 1);
+ x_result = scan_x2 * OVERSAMPLE
+ - ((pkg->pixel % (OVERSAMPLE * 2 - 1)) + 1);
- if(plugin->config.horizontal_only)
+ if( plugin->config. horizontal_only )
y_result = scan_y1 * OVERSAMPLE;
else
- y_result = scan_y2 * OVERSAMPLE -
- ((pkg->pixel / (OVERSAMPLE * 2 - 1)) + 1);
+ y_result = scan_y2 * OVERSAMPLE
+ - ((pkg->pixel / (OVERSAMPLE * 2 - 1)) + 1);
dx_result = block_x1 * OVERSAMPLE - x_result;
dy_result = block_y1 * OVERSAMPLE - y_result;
//printf("MotionCVScan::scan_frame 1 %d %d %d %d\n", block_x1, block_y1, x_result, y_result);
break;
}
- else
- {
+ else {
total_pixels = (scan_x2 - scan_x1) * (scan_y2 - scan_y1);
total_steps = MIN(plugin->config.global_positions, total_pixels);
// Get least difference
int64_t min_difference = -1;
- for(int i = 0; i < get_total_packages(); i++)
- {
- MotionCVScanPackage *pkg = (MotionCVScanPackage*)get_package(i);
- if(pkg->difference1 < min_difference || min_difference == -1)
- {
+ for( int i = 0; i < get_total_packages(); i++ ) {
+ MotionCVScanPackage *pkg = (MotionCVScanPackage *) get_package(i);
+ if( pkg->difference1 < min_difference || min_difference == -1 ) {
min_difference = pkg->difference1;
x_result = scan_x1 + (pkg->pixel % (scan_x2 - scan_x1));
y_result = scan_y1 + (pkg->pixel / (scan_x2 - scan_x1));
}
}
-// printf("MotionCVScan::scan_frame 10 total_steps=%d total_pixels=%d subpixel=%d\n",
-// total_steps,
-// total_pixels,
-// subpixel);
-//
-// printf(" scan w=%d h=%d scan x1=%d y1=%d x2=%d y2=%d\n",
-// scan_w,
-// scan_h,
-// scan_x1,
-// scan_y1,
-// scan_x2,
-// scan_y2);
-//
-// printf("MotionCVScan::scan_frame 2 block x1=%d y1=%d x2=%d y2=%d result x=%.2f y=%.2f\n",
-// block_x1,
-// block_y1,
-// block_x2,
-// block_y2,
-// (float)x_result / 4,
-// (float)y_result / 4);
-
+//printf("MotionCVScan::scan_frame 10 total_steps=%d total_pixels=%d subpixel=%d\n",
+// total_steps, total_pixels, subpixel);
+//
+//printf(" scan w=%d h=%d scan x1=%d y1=%d x2=%d y2=%d\n",
+// scan_w, scan_h, scan_x1, scan_y1, scan_x2, scan_y2);
+//
+// printf("MotionCVScan::scan_frame 2 block x1=%d y1=%d x2=%d y2=%d result x=%.2f y=%.2f\n",
+// block_x1, block_y1, block_x2, block_y2, (float)x_result / 4, (float)y_result / 4);
// If a new search is required, rescale results back to pixels.
- if(total_steps >= total_pixels)
- {
+ if( total_steps >= total_pixels ) {
// Single pixel accuracy reached. Now do exhaustive subpixel search.
- if(plugin->config.mode1 == MotionCVConfig::STABILIZE ||
- plugin->config.mode1 == MotionCVConfig::TRACK ||
- plugin->config.mode1 == MotionCVConfig::NOTHING)
- {
+ if( plugin->config.mode1 == MotionCVConfig::STABILIZE ||
+ plugin->config.mode1 == MotionCVConfig::TRACK ||
+ plugin->config.mode1 == MotionCVConfig::NOTHING ) {
x_result /= OVERSAMPLE;
y_result /= OVERSAMPLE;
- scan_w = 2;
- scan_h = 2;
+ scan_w = scan_h = 2;
subpixel = 1;
}
- else
- {
// Fill in results and quit
+ else {
dx_result = block_x1 * OVERSAMPLE - x_result;
dy_result = block_y1 * OVERSAMPLE - y_result;
break;
}
}
- else
// Reduce scan area and try again
- {
+ else {
scan_w = (scan_x2 - scan_x1) / 2;
scan_h = (scan_y2 - scan_y1) / 2;
x_result /= OVERSAMPLE;
}
// Add offsets from the "tracked single frame"
- dx_result = plugin->dx_offset - dx_result;
- dy_result = plugin->dy_offset - dy_result;
-
- if(plugin->config.mode2 == MotionCVConfig::SAVE)
- {
- plugin->save_dx = dx_result;
- plugin->save_dy = dy_result;
- }
+ dx_result = -dx_result;
+ dy_result = -dy_result;
}
-
#ifdef DEBUG
-printf("MotionCVScan::scan_frame 10 dx=%.2f dy=%.2f\n",
-(float)this->dx_result / OVERSAMPLE,
-(float)this->dy_result / OVERSAMPLE);
+printf("MotionCVScan::scan_frame 10 dx=%.2f dy=%.2f\n",
+ (float)this->dx_result / OVERSAMPLE, (float)this->dy_result / OVERSAMPLE);
#endif
}
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
int64_t MotionCVScan::get_cache(int x, int y)
{
int64_t result = -1;
cache_lock->lock("MotionCVScan::get_cache");
- for(int i = 0; i < cache.total; i++)
- {
+ for( int i = 0; i < cache.total; i++ ) {
MotionCVScanCache *ptr = cache.values[i];
- if(ptr->x == x && ptr->y == y)
- {
+ if( ptr->x == x && ptr->y == y ) {
result = ptr->difference;
break;
}
cache_lock->unlock();
}
-
-
-
-
MotionCVScanCache::MotionCVScanCache(int x, int y, int64_t difference)
{
- this->x = x;
- this->y = y;
+ this->x = x; this->y = y;
this->difference = difference;
}
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RotateCVScanPackage::RotateCVScanPackage()
{
}
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RotateCVScanUnit::RotateCVScanUnit(RotateCVScan *server, MotionCVMain *plugin)
: LoadClient(server)
{
void RotateCVScanUnit::process_package(LoadPackage *package)
{
- if(server->skip) return;
- RotateCVScanPackage *pkg = (RotateCVScanPackage*)package;
+ if( server->skip )
+ return;
+ RotateCVScanPackage *pkg = (RotateCVScanPackage *) package;
- if((pkg->difference = server->get_cache(pkg->angle)) < 0)
- {
+ if( (pkg->difference = server->get_cache(pkg->angle)) < 0 ) {
//printf("RotateCVScanUnit::process_package 1\n");
int color_model = server->previous_frame->get_color_model();
int pixel_size = BC_CModels::calculate_pixelsize(color_model);
int row_bytes = server->previous_frame->get_bytes_per_line();
- if(!rotater)
+ if( !rotater )
rotater = new AffineEngine(1, 1);
- if(!temp) temp = new VFrame(
- server->previous_frame->get_w(),
- server->previous_frame->get_h(),
- color_model);
-
+ if( !temp )
+ temp = new VFrame(server->previous_frame->get_w(),
+ server->previous_frame->get_h(),
+ color_model);
// RotateCV original block size
- rotater->set_viewport(server->block_x1,
- server->block_y1,
+ rotater->set_viewport(server->block_x1, server->block_y1,
server->block_x2 - server->block_x1,
server->block_y2 - server->block_y1);
rotater->set_pivot(server->block_x, server->block_y);
//pkg->angle = 2;
- rotater->rotate(temp,
- server->previous_frame,
- pkg->angle);
+ rotater->rotate(temp, server->previous_frame, pkg->angle);
// Clamp coordinates
int x1 = server->scan_x;
int y1 = server->scan_y;
y2 = MIN(temp->get_h(), y2);
x2 = MIN(server->current_frame->get_w(), x2);
y2 = MIN(server->current_frame->get_h(), y2);
- x1 = MAX(0, x1);
- y1 = MAX(0, y1);
+ x1 = MAX(0, x1); y1 = MAX(0, y1);
- if(x2 > x1 && y2 > y1)
- {
+ if( x2 > x1 && y2 > y1 ) {
pkg->difference = plugin->abs_diff(
temp->get_rows()[y1] + x1 * pixel_size,
- server->current_frame->get_rows()[y1] + x1 * pixel_size,
- row_bytes,
- x2 - x1,
- y2 - y1,
- color_model);
+ server->current_frame-> get_rows()[y1] + x1 * pixel_size,
+ row_bytes, x2 - x1, y2 - y1, color_model);
//printf("RotateCVScanUnit::process_package %d\n", __LINE__);
server->put_cache(pkg->angle, pkg->difference);
- }
-
-// printf("RotateCVScanUnit::process_package 10 x=%d y=%d w=%d h=%d block_x=%d block_y=%d angle=%f scan_w=%d scan_h=%d diff=%lld\n",
-// server->block_x1,
-// server->block_y1,
-// server->block_x2 - server->block_x1,
-// server->block_y2 - server->block_y1,
-// server->block_x,
-// server->block_y,
-// pkg->angle,
-// server->scan_w,
-// server->scan_h,
+ }
+//printf("RotateCVScanUnit::process_package 10 x=%d y=%d w=%d h=%d"
+// " block_x=%d block_y=%d angle=%f scan_w=%d scan_h=%d diff=%lld\n",
+// server->block_x1, server->block_y1,
+// server->block_x2 - server->block_x1, server->block_y2 - server->block_y1,
+// server->block_x, server->block_y, pkg->angle, server->scan_w, server->scan_h,
// pkg->difference);
}
}
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-RotateCVScan::RotateCVScan(MotionCVMain *plugin,
- int total_clients,
- int total_packages)
- : LoadServer(
-//1, 1
-total_clients, total_packages
-)
+RotateCVScan::RotateCVScan(MotionCVMain *plugin,
+ int total_clients, int total_packages)
+:LoadServer( //1, 1
+ total_clients, total_packages)
{
this->plugin = plugin;
cache_lock = new Mutex("RotateCVScan::cache_lock");
}
-
RotateCVScan::~RotateCVScan()
{
delete cache_lock;
void RotateCVScan::init_packages()
{
- for(int i = 0; i < get_total_packages(); i++)
- {
- RotateCVScanPackage *pkg = (RotateCVScanPackage*)get_package(i);
- pkg->angle = i *
- (scan_angle2 - scan_angle1) /
- (total_steps - 1) +
- scan_angle1;
+ for( int i = 0; i < get_total_packages(); i++ ) {
+ RotateCVScanPackage *pkg = (RotateCVScanPackage *) get_package(i);
+ pkg->angle = i * (scan_angle2 - scan_angle1) / (total_steps - 1)
+ + scan_angle1;
}
}
-LoadClient* RotateCVScan::new_client()
+LoadClient *RotateCVScan::new_client()
{
return new RotateCVScanUnit(this, plugin);
}
-LoadPackage* RotateCVScan::new_package()
+LoadPackage *RotateCVScan::new_package()
{
return new RotateCVScanPackage;
}
-
float RotateCVScan::scan_frame(VFrame *previous_frame,
- VFrame *current_frame,
- int block_x,
- int block_y)
+ VFrame *current_frame, int block_x, int block_y)
{
skip = 0;
this->block_x = block_x;
this->block_y = block_y;
- switch(plugin->config.mode2)
- {
- case MotionCVConfig::NO_CALCULATE:
- result = 0;
- skip = 1;
- break;
+ switch( plugin->config.mode2 ) {
+ case MotionCVConfig::NO_CALCULATE:
+ result = 0;
+ skip = 1;
+ break;
- case MotionCVConfig::LOAD:
- {
- if( plugin->load_ok ) {
- result = plugin->load_dt;
- skip = 1;
- }
- break;
+ case MotionCVConfig::LOAD:
+ case MotionCVConfig::SAVE:
+ if( plugin->load_ok ) {
+ result = plugin->load_dt;
+ skip = 1;
}
+ break;
}
-
this->previous_frame = previous_frame;
this->current_frame = current_frame;
int w = current_frame->get_w();
int block_w = w * plugin->config.rotation_block_w / 100;
int block_h = h * plugin->config.rotation_block_h / 100;
- if(this->block_x - block_w / 2 < 0) block_w = this->block_x * 2;
- if(this->block_y - block_h / 2 < 0) block_h = this->block_y * 2;
- if(this->block_x + block_w / 2 > w) block_w = (w - this->block_x) * 2;
- if(this->block_y + block_h / 2 > h) block_h = (h - this->block_y) * 2;
+ if( this->block_x - block_w / 2 < 0 ) block_w = this->block_x * 2;
+ if( this->block_y - block_h / 2 < 0 ) block_h = this->block_y * 2;
+ if( this->block_x + block_w / 2 > w ) block_w = (w - this->block_x) * 2;
+ if( this->block_y + block_h / 2 > h ) block_h = (h - this->block_y) * 2;
block_x1 = this->block_x - block_w / 2;
block_x2 = this->block_x + block_w / 2;
block_y1 = this->block_y - block_h / 2;
block_y2 = this->block_y + block_h / 2;
-
// Calculate the maximum area available to scan after rotation.
// Must be calculated from the starting range because of cache.
// Get coords of rectangle after rotation.
double max_area1 = 0;
//double max_x1 = 0;
double max_y1 = 0;
- for(double x = x1; x < x2; x++)
- {
+ for( double x = x1; x < x2; x++ ) {
double y = y1 + (y2 - y1) * (x - x1) / (x2 - x1);
- if(x >= center_x && x < block_x2 && y >= block_y1 && y < center_y)
- {
+ if( x >= center_x && x < block_x2 && y >= block_y1 && y < center_y ) {
double area = fabs(x - center_x) * fabs(y - center_y);
- if(area > max_area1)
- {
+ if( area > max_area1 ) {
max_area1 = area;
//max_x1 = x;
max_y1 = y;
double max_area2 = 0;
double max_x2 = 0;
//double max_y2 = 0;
- for(double y = y1; y < y3; y++)
- {
+ for( double y = y1; y < y3; y++ ) {
double x = x1 + (x3 - x1) * (y - y1) / (y3 - y1);
- if(x >= block_x1 && x < center_x && y >= block_y1 && y < center_y)
- {
+ if( x >= block_x1 && x < center_x && y >= block_y1 && y < center_y ) {
double area = fabs(x - center_x) * fabs(y - center_y);
- if(area > max_area2)
- {
+ if( area > max_area2 ) {
max_area2 = area;
max_x2 = x;
//max_y2 = y;
scan_h = (int)(fabs(max_y - center_y) * 2);
scan_x = (int)(center_x - scan_w / 2);
scan_y = (int)(center_y - scan_h / 2);
-// printf("RotateCVScan::scan_frame center=%d,%d scan=%d,%d %dx%d\n",
+// printf("RotateCVScan::scan_frame center=%d,%d scan=%d,%d %dx%d\n",
// this->block_x, this->block_y, scan_x, scan_y, scan_w, scan_h);
// printf(" angle_range=%f block= %d,%d,%d,%d\n", max_angle, block_x1, block_y1, block_x2, block_y2);
#endif
cache.remove_all_objects();
- if(!skip)
- {
+ if( !skip ) {
// Initial search range
float angle_range = (float)plugin->config.rotation_range;
result = 0;
total_steps = plugin->config.rotate_positions;
-
- while(angle_range >= min_angle * total_steps)
- {
+ while( angle_range >= min_angle * total_steps ) {
scan_angle1 = result - angle_range;
scan_angle2 = result + angle_range;
-
set_package_count(total_steps);
//set_package_count(1);
process_packages();
int64_t min_difference = -1;
- for(int i = 0; i < get_total_packages(); i++)
- {
- RotateCVScanPackage *pkg = (RotateCVScanPackage*)get_package(i);
- if(pkg->difference < min_difference || min_difference == -1)
- {
+ for( int i = 0; i < get_total_packages(); i++ ) {
+ RotateCVScanPackage *pkg = (RotateCVScanPackage *) get_package(i);
+ if( pkg->difference < min_difference || min_difference == -1 ) {
min_difference = pkg->difference;
result = pkg->angle;
}
//break;
}
+ }
- if(plugin->config.mode2 == MotionCVConfig::SAVE) {
- plugin->save_dt = result;
- }
+ if( plugin->config.mode2 == MotionCVConfig::SAVE ) {
+ plugin->save_dt = result;
}
#ifdef DEBUG
printf("RotateCVScan::scan_frame 10 angle=%f\n", result);
#endif
-
return result;
}
{
int64_t result = -1;
cache_lock->lock("RotateCVScan::get_cache");
- for(int i = 0; i < cache.total; i++)
- {
+ for( int i = 0; i < cache.total; i++ ) {
RotateCVScanCache *ptr = cache.values[i];
- if(fabs(ptr->angle - angle) <= MIN_ANGLE)
- {
+ if( fabs(ptr->angle - angle) <= MIN_ANGLE ) {
result = ptr->difference;
break;
}
cache_lock->unlock();
}
-
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-
-
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RotateCVScanCache::RotateCVScanCache(float angle, int64_t difference)
{
this->angle = angle;
}
-