#![allow(unused_variables)] #![allow(dead_code)] mod examples { use super::*; use opencv::prelude::*; use opencv::{highgui, imgproc, videoio, Result}; pub fn corner_rectangle() -> Result<()> { let window = "video capture"; highgui::named_window(window, highgui::WINDOW_AUTOSIZE)?; let mut cap = videoio::VideoCapture::new(0, videoio::CAP_ANY)?; if !cap.is_opened()? { panic!("Unable to open default cam") } let detector = hands::HandDetector::default(); loop { let mut frame = Mat::default(); cap.read(&mut frame)?; let size = frame.size()?; if size.width > 0 { highgui::imshow(window, &mut frame)? } let key = highgui::wait_key(10)?; if key > 0 && key != 255 { break; } } Ok(()) } pub fn face_mesh() -> Result<()> { let window = "video capture"; highgui::named_window(window, highgui::WINDOW_AUTOSIZE)?; let mut cap = videoio::VideoCapture::new(0, videoio::CAP_ANY)?; if !cap.is_opened()? { panic!("Unable to open default cam") } cap.set(videoio::CAP_PROP_FRAME_WIDTH, 640.0)?; cap.set(videoio::CAP_PROP_FRAME_HEIGHT, 480.0)?; cap.set(videoio::CAP_PROP_FPS, 30.0)?; let mut mesh = FaceMesh::default(); let mut detector = face_mesh::FaceMeshDetector::default(); let mut raw_frame = Mat::default(); let mut rgb_frame = Mat::default(); let mut flip_frame = Mat::default(); loop { cap.read(&mut raw_frame)?; let size = raw_frame.size()?; if size.width > 0 && !raw_frame.empty() { imgproc::cvt_color(&raw_frame, &mut rgb_frame, imgproc::COLOR_BGR2RGB, 0)?; opencv::core::flip(&rgb_frame, &mut flip_frame, 1)?; // horizontal println!("processing"); detector.process(&flip_frame, &mut mesh); highgui::imshow(window, &mut flip_frame)?; println!( "LANDMARK: {} {} {}", mesh.data[0].x, mesh.data[0].y, mesh.data[0].z ); } else { println!("WARN: Skip empty frame"); } let key = highgui::wait_key(10)?; if key > 0 && key != 255 { break; } } Ok(()) } pub fn hand_tracking() -> Result<()> { let window = "video capture"; highgui::named_window(window, highgui::WINDOW_AUTOSIZE)?; let mut cap = videoio::VideoCapture::new(0, videoio::CAP_ANY)?; if !cap.is_opened()? { panic!("Unable to open default cam") } cap.set(videoio::CAP_PROP_FRAME_WIDTH, 640.0)?; cap.set(videoio::CAP_PROP_FRAME_HEIGHT, 480.0)?; cap.set(videoio::CAP_PROP_FPS, 30.0)?; let mut left = Hand::default(); let mut right = Hand::default(); let mut detector = hands::HandDetector::default(); let mut raw_frame = Mat::default(); let mut rgb_frame = Mat::default(); let mut flip_frame = Mat::default(); loop { cap.read(&mut raw_frame)?; let size = raw_frame.size()?; if size.width > 0 && !raw_frame.empty() { imgproc::cvt_color(&raw_frame, &mut rgb_frame, imgproc::COLOR_BGR2RGB, 0)?; opencv::core::flip(&rgb_frame, &mut flip_frame, 1)?; // horizontal detector.process(&flip_frame, &mut left, &mut right); highgui::imshow(window, &mut flip_frame)?; println!( "LANDMARK: {} {} {}", left.data[0].x, left.data[0].y, left.data[0].z ); } else { println!("WARN: Skip empty frame"); } let key = highgui::wait_key(10)?; if key > 0 && key != 255 { break; } } Ok(()) } pub fn pose_estimation() -> Result<()> { let window = "video capture"; highgui::named_window(window, highgui::WINDOW_AUTOSIZE)?; let mut cap = videoio::VideoCapture::new(0, videoio::CAP_ANY)?; if !cap.is_opened()? { panic!("Unable to open default cam") } cap.set(videoio::CAP_PROP_FRAME_WIDTH, 640.0)?; cap.set(videoio::CAP_PROP_FRAME_HEIGHT, 480.0)?; cap.set(videoio::CAP_PROP_FPS, 30.0)?; let mut pose = Pose::default(); let mut detector = pose::PoseDetector::default(); let mut raw_frame = Mat::default(); let mut rgb_frame = Mat::default(); let mut flip_frame = Mat::default(); loop { cap.read(&mut raw_frame)?; let size = raw_frame.size()?; if size.width > 0 && !raw_frame.empty() { imgproc::cvt_color(&raw_frame, &mut rgb_frame, imgproc::COLOR_BGR2RGB, 0)?; opencv::core::flip(&rgb_frame, &mut flip_frame, 1)?; // horizontal detector.process(&rgb_frame, &mut pose); highgui::imshow(window, &mut rgb_frame)?; println!( "LANDMARK: {} {} {}", pose.data[0].x, pose.data[0].y, pose.data[0].z ); } else { println!("WARN: Skip empty frame"); } let key = highgui::wait_key(10)?; if key > 0 && key != 255 { break; } } Ok(()) } } fn main() { // examples::pose_estimation().unwrap() // examples::hand_tracking().unwrap() examples::face_mesh().unwrap() }