mediapipe-rs/examples/hello.rs

#![allow(unused_variables)]
#![allow(dead_code)]

use mediapipe::*;

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_detection() -> 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 = mediapipe::face_detection::FaceDetector::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

                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()
}
code fill 2022-03-01 13:04:01 +01:00			`#![allow(unused_variables)]`
			`#![allow(dead_code)]`

			`use mediapipe::*;`

			`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_detection() -> 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 = mediapipe::face_detection::FaceDetector::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`

			`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()`
			`}`