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wip: update pipeline

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This commit is contained in:
Timo Schneider
2025-05-11 14:36:59 +02:00
parent 57cb97fcd0
commit 8ec107cf29
6 changed files with 93 additions and 117 deletions
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140
src/main.rs
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@@ -1,5 +1,6 @@
mod pipeline;
use hdbscan::{Hdbscan, HdbscanHyperParams}; use hdbscan::{Hdbscan, HdbscanHyperParams};
use image::{DynamicImage, ImageReader, Rgb, RgbImage};
use rand::Rng; use rand::Rng;
use rayon::prelude::*; use rayon::prelude::*;
use show_image::{create_window, ImageInfo, ImageView, PixelFormat}; use show_image::{create_window, ImageInfo, ImageView, PixelFormat};
@@ -8,47 +9,13 @@ use std::iter::zip;
use std::sync::mpsc::Receiver; use std::sync::mpsc::Receiver;
use std::sync::{mpsc, Arc, Mutex}; use std::sync::{mpsc, Arc, Mutex};
use std::thread; use std::thread;
use std::thread::sleep;
use std::time::{Duration, Instant}; use std::time::{Duration, Instant};
use indicatif::{MultiProgress, ProgressBar, ProgressStyle}; use indicatif::{MultiProgress, ProgressBar, ProgressStyle};
use nalgebra::{DMatrix}; use nalgebra::{DMatrix};
use ndarray::{Array1, Array2}; use ndarray::{Array1, Array2};
use r2r::QosProfile; use r2r::QosProfile;
use futures::{executor::LocalPool, future, stream::StreamExt, task::LocalSpawnExt}; use futures::{executor::LocalPool, future, stream::StreamExt, task::LocalSpawnExt};
use crate::pipeline::highlight_extractor::{create_extract_thread, Pointcloud};
fn create_extract_thread(image_rx: Receiver<Arc<Vec<u8>>>, width: u32, threshold: u8, downsample: f64) -> (Receiver<Arc<Vec<Vec<f64>>>>, Arc<Mutex<(Duration, Duration)>>) {
let (tx, rx) = mpsc::sync_channel::<Arc<Vec<Vec<f64>>>>(1);
let usage = Arc::new(Mutex::new((Duration::ZERO, Duration::ZERO)));
let local_usage = usage.clone();
thread::spawn(move || {
let mut t_loop = Instant::now();
for image in image_rx {
let start = Instant::now();
let max_rng = (u32::MAX as f64 * downsample) as u32;
let poi = image
.par_iter()
.enumerate()
.filter(|(_, pixel)| pixel > &&threshold)
.filter(|_| {
let mut rng = rand::rng();
rng.random::<u32>() < max_rng
})
.map(|(i, _)| {
vec![ i as f64 % width as f64, i as f64 / width as f64 ]
});
let mut vec = Vec::new();
vec.par_extend(poi);
let end = Instant::now();
tx.send(Arc::new(vec)).expect("TODO: panic message");
*local_usage.lock().unwrap() = (end - start, t_loop.elapsed());
t_loop = Instant::now();
}
});
(rx, usage)
}
fn create_pointcloud_labels_thread(pointcloud_rx: Receiver<Arc<Vec<Vec<f64>>>>) -> (Receiver<(Arc<Vec<Vec<f64>>>, Arc<Vec<i32>>)>, Arc<Mutex<(Duration, Duration)>>) { fn create_pointcloud_labels_thread(pointcloud_rx: Receiver<Arc<Vec<Vec<f64>>>>) -> (Receiver<(Arc<Vec<Vec<f64>>>, Arc<Vec<i32>>)>, Arc<Mutex<(Duration, Duration)>>) {
let (pointcloud_labels_tx, pointcloud_labels_rx) = mpsc::sync_channel::<(Arc<Vec<Vec<f64>>>, Arc<Vec<i32>>)>(1); let (pointcloud_labels_tx, pointcloud_labels_rx) = mpsc::sync_channel::<(Arc<Vec<Vec<f64>>>, Arc<Vec<i32>>)>(1);
@@ -58,12 +25,13 @@ fn create_pointcloud_labels_thread(pointcloud_rx: Receiver<Arc<Vec<Vec<f64>>>>)
thread::spawn(move || { thread::spawn(move || {
let mut t_loop = Instant::now(); let mut t_loop = Instant::now();
for pointcloud in pointcloud_rx { for pointcloud in pointcloud_rx {
if pointcloud.len() < 2 {continue;}
let start = Instant::now(); let start = Instant::now();
let params = HdbscanHyperParams::builder() let params = HdbscanHyperParams::builder()
.epsilon(1000.0) .epsilon(1000.0)
.min_samples(3) .min_samples(3)
.allow_single_cluster(false) .allow_single_cluster(false)
.min_cluster_size(pointcloud.len() / 10) .min_cluster_size(2)
.build(); .build();
let labels = Arc::new(Hdbscan::new(&pointcloud, params).cluster().unwrap()); let labels = Arc::new(Hdbscan::new(&pointcloud, params).cluster().unwrap());
let end = Instant::now(); let end = Instant::now();
@@ -132,51 +100,6 @@ fn create_isolate_lane_thread(clusters_rx: Receiver<Arc<HashMap<i32, Vec<Vec<f64
} }
fn create_transform_thread(pointcloud_rx : Receiver<Arc<Vec<Vec<f64>>>>) -> (Receiver<Arc<Vec<Vec<f64>>>>, Arc<Mutex<(Duration, Duration)>>) {
let (projection_tx, projection_rx) = mpsc::sync_channel::<Arc<Vec<Vec<f64>>>>(1);
let usage = Arc::new(Mutex::new((Duration::ZERO, Duration::ZERO)));
let local_usage = usage.clone();
thread::spawn(move || {
let h_i = [
[-7.74914499e-03, 3.95733793e-18, 3.10353257e00],
[8.56519716e-18, 9.42313768e-05, -1.86052093e00],
[2.57498016e-18, -2.73825295e-03, 1.00000000e00],
];
let mut t_loop = Instant::now();
for pointcloud in pointcloud_rx {
let start = Instant::now();
let projection = pointcloud
.iter()
.map(|pt| {
let x = pt[0];
let y = pt[1];
// Convert to homogeneous coordinates
let u = h_i[0][0] * x + h_i[0][1] * y + h_i[0][2];
let v = h_i[1][0] * x + h_i[1][1] * y + h_i[1][2];
let w = h_i[2][0] * x + h_i[2][1] * y + h_i[2][2];
let u_norm = u / w;
let v_norm = v / w;
vec![u_norm, v_norm]
})
.filter(|point| point[0].abs() <= 5.0)
.collect();
let end = Instant::now();
projection_tx.send(Arc::new(projection)).unwrap();
*local_usage.lock().unwrap() = (end - start, t_loop.elapsed());
t_loop = Instant::now();
}
});
(projection_rx, usage)
}
fn create_mestimator_thread(lanes_rx: Receiver<Arc<[Vec<Vec<f64>>; 2]>>) -> (Receiver<(Arc<Vec<f64>>, Arc<[Vec<Vec<f64>>; 2]>)>, Arc<Mutex<(Duration, Duration)>>) { fn create_mestimator_thread(lanes_rx: Receiver<Arc<[Vec<Vec<f64>>; 2]>>) -> (Receiver<(Arc<Vec<f64>>, Arc<[Vec<Vec<f64>>; 2]>)>, Arc<Mutex<(Duration, Duration)>>) {
let (z_tx, z_rx) = mpsc::sync_channel::<(Arc<Vec<f64>>, Arc<[Vec<Vec<f64>>; 2]>)>(1); let (z_tx, z_rx) = mpsc::sync_channel::<(Arc<Vec<f64>>, Arc<[Vec<Vec<f64>>; 2]>)>(1);
let usage = Arc::new(Mutex::new((Duration::ZERO, Duration::ZERO))); let usage = Arc::new(Mutex::new((Duration::ZERO, Duration::ZERO)));
@@ -253,22 +176,6 @@ fn create_mestimator_thread(lanes_rx: Receiver<Arc<[Vec<Vec<f64>>; 2]>>) -> (Rec
} }
fn dummy_image_spawner_thread() -> Receiver<Arc<Vec<u8>>> {
let img: DynamicImage = ImageReader::open("./images/lane_detection_loop_80.png").unwrap().decode().unwrap();
let img_data: Vec<u8> = img.clone().into_bytes();
let (img_tx, img_rx) = mpsc::sync_channel::<Arc<Vec<u8>>>(1);
thread::spawn(move || {
loop {
img_tx.send(Arc::new(img_data.clone())).unwrap();
//sleep(Duration::from_millis(16));
}
});
img_rx
}
#[show_image::main] #[show_image::main]
fn main() { fn main() {
let ctx = r2r::Context::create().unwrap(); let ctx = r2r::Context::create().unwrap();
@@ -276,25 +183,14 @@ fn main() {
let subscriber = node.subscribe::<r2r::sensor_msgs::msg::Image>("/camera/front", QosProfile::default()).unwrap(); let subscriber = node.subscribe::<r2r::sensor_msgs::msg::Image>("/camera/front", QosProfile::default()).unwrap();
let mut timer = node.create_wall_timer(Duration::from_millis(1000)).unwrap(); let mut timer = node.create_wall_timer(Duration::from_millis(1000)).unwrap();
let (img_tx, img_rx) = mpsc::sync_channel::<Arc<Vec<u8>>>(1); let (img_tx, img_rx) = mpsc::sync_channel::<Arc<r2r::sensor_msgs::msg::Image>>(1);
// Set up a simple task executor. // Set up a simple task executor.
let mut pool = LocalPool::new(); let mut pool = LocalPool::new();
let spawner = pool.spawner(); let spawner = pool.spawner();
// Run the subscriber in one task, printing the messages let (pointcloud_rx, usage_extract) = create_extract_thread(img_rx, 160, 0.025);
spawner.spawn_local(async move { let (cluster_labels_rx, usage_cluster) = create_pointcloud_labels_thread(pointcloud_rx);
subscriber
.for_each(|msg| {
img_tx.send(Arc::new(msg.data)).unwrap();
future::ready(())
})
.await
}).unwrap();
let (pointcloud_rx, usage_extract) = create_extract_thread(img_rx, 800, 196, 0.025);
let (projection_rx, usage_transform) = create_transform_thread(pointcloud_rx);
let (cluster_labels_rx, usage_cluster) = create_pointcloud_labels_thread(projection_rx);
let (clusters_rx, usage_split) = create_cluster_separator_thread(cluster_labels_rx); let (clusters_rx, usage_split) = create_cluster_separator_thread(cluster_labels_rx);
let (lanes_rx, usage_isolate) = create_isolate_lane_thread(clusters_rx); let (lanes_rx, usage_isolate) = create_isolate_lane_thread(clusters_rx);
let (z_rx, usage_detect) = create_mestimator_thread(lanes_rx); let (z_rx, usage_detect) = create_mestimator_thread(lanes_rx);
@@ -302,7 +198,6 @@ fn main() {
let multi_stats = MultiProgress::new(); let multi_stats = MultiProgress::new();
let p_style = ProgressStyle::default_bar().template("{prefix:15} {bar:50.gray/white} {pos:>6} us | {len:>6} us").unwrap(); let p_style = ProgressStyle::default_bar().template("{prefix:15} {bar:50.gray/white} {pos:>6} us | {len:>6} us").unwrap();
let p_extract = multi_stats.add(ProgressBar::new(100).with_prefix("Extract").with_style(p_style.clone())); let p_extract = multi_stats.add(ProgressBar::new(100).with_prefix("Extract").with_style(p_style.clone()));
let p_transform = multi_stats.add(ProgressBar::new(100).with_prefix("Transform").with_style(p_style.clone()));
let p_cluster = multi_stats.add(ProgressBar::new(100).with_prefix("Cluster").with_style(p_style.clone())); let p_cluster = multi_stats.add(ProgressBar::new(100).with_prefix("Cluster").with_style(p_style.clone()));
let p_split = multi_stats.add(ProgressBar::new(100).with_prefix("Split").with_style(p_style.clone())); let p_split = multi_stats.add(ProgressBar::new(100).with_prefix("Split").with_style(p_style.clone()));
let p_isolate = multi_stats.add(ProgressBar::new(100).with_prefix("Isolate").with_style(p_style.clone())); let p_isolate = multi_stats.add(ProgressBar::new(100).with_prefix("Isolate").with_style(p_style.clone()));
@@ -316,23 +211,34 @@ fn main() {
let mut t: VecDeque<Duration> = VecDeque::with_capacity(25); let mut t: VecDeque<Duration> = VecDeque::with_capacity(25);
let mut now: Instant = Instant::now(); let mut now: Instant = Instant::now();
// Run the subscriber in one task, printing the messages
spawner.spawn_local(async move {
subscriber
.for_each(|msg| {
img_tx.send(Arc::new(msg)).unwrap();
future::ready(())
})
.await
}).unwrap();
thread::spawn(move || {
for _ in z_rx {}
});
loop { loop {
node.spin_once(Duration::from_millis(10)); node.spin_once(Duration::from_millis(10));
pool.run_until_stalled(); pool.run_until_stalled();
let u_extract = *usage_extract.lock().unwrap(); let u_extract = *usage_extract.lock().unwrap();
let u_transform = *usage_transform.lock().unwrap();
let u_cluster = *usage_cluster.lock().unwrap(); let u_cluster = *usage_cluster.lock().unwrap();
let u_split = *usage_split.lock().unwrap(); let u_split = *usage_split.lock().unwrap();
let u_isolate = *usage_isolate.lock().unwrap(); let u_isolate = *usage_isolate.lock().unwrap();
let u_detect = *usage_detect.lock().unwrap(); let u_detect = *usage_detect.lock().unwrap();
let u_vec = vec![u_extract, u_transform, u_cluster, u_split, u_isolate, u_detect]; let u_vec = vec![u_extract, u_cluster, u_split, u_isolate, u_detect];
p_extract.set_length(u_extract.1.as_micros() as u64); p_extract.set_length(u_extract.1.as_micros() as u64);
p_extract.set_position(u_extract.0.as_micros() as u64); p_extract.set_position(u_extract.0.as_micros() as u64);
p_transform.set_length(u_transform.1.as_micros() as u64);
p_transform.set_position(u_transform.0.as_micros() as u64);
p_cluster.set_length(u_cluster.1.as_micros() as u64); p_cluster.set_length(u_cluster.1.as_micros() as u64);
p_cluster.set_position(u_cluster.0.as_micros() as u64); p_cluster.set_position(u_cluster.0.as_micros() as u64);
p_split.set_length(u_split.1.as_micros() as u64); p_split.set_length(u_split.1.as_micros() as u64);

1
src/pipeline.rs Normal file
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@@ -0,0 +1 @@
pub mod highlight_extractor;

69
src/pipeline/highlight_extractor.rs Normal file
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@@ -0,0 +1,69 @@
use std::sync::{mpsc, Arc, Mutex};
use std::sync::mpsc::Receiver;
use std::thread;
use std::time::{Duration, Instant};
use rand::Rng;
use r2r::sensor_msgs::msg::Image;
use rayon::prelude::IntoParallelRefIterator;
pub type Pointcloud = Arc<Vec<Vec<f64>>>;
trait ExtractHighlights {
fn get_highlights(&self, threshold: u8, downsample: f64) -> Pointcloud;
}
impl ExtractHighlights for Image {
fn get_highlights(&self, threshold: u8, downsample: f64) -> Pointcloud {
let h_i = [
[-7.74914499e-03, 3.95733793e-18, 3.10353257e00],
[8.56519716e-18, 9.42313768e-05, -1.86052093e00],
[2.57498016e-18, -2.73825295e-03, 1.00000000e00],
];
let max_rng = (u32::MAX as f64 * downsample) as u32;
Arc::new(self.data
.iter()
.enumerate()
.filter(|(i, _)| *i as u32 / self.width >= self.height / 2)
.filter(|(_, pixel)| **pixel > threshold)
.filter(|_| {
let mut rng = rand::rng();
rng.random::<u32>() < max_rng
})
.map(|(i, _)| {
let x = i as f64 % self.width as f64;
let y = i as f64 / self.width as f64;
// Convert to homogeneous coordinates
let u = h_i[0][0] * x + h_i[0][1] * y + h_i[0][2];
let v = h_i[1][0] * x + h_i[1][1] * y + h_i[1][2];
let w = h_i[2][0] * x + h_i[2][1] * y + h_i[2][2];
let u_norm = u / w;
let v_norm = v / w;
vec![u_norm, v_norm]
})
.filter(|point| point[0].abs() <= 5.0)
.collect())
}
}
pub fn create_extract_thread(image_rx: Receiver<Arc<Image>>, threshold: u8, downsample: f64) -> (Receiver<Pointcloud>, Arc<Mutex<(Duration, Duration)>>) {
let (tx, rx) = mpsc::sync_channel::<Pointcloud>(1);
let usage = Arc::new(Mutex::new((Duration::ZERO, Duration::ZERO)));
let local_usage = usage.clone();
thread::spawn(move || {
let mut t_loop = Instant::now();
for image in image_rx {
let start = Instant::now();
let poi = image.get_highlights(threshold, downsample);
let end = Instant::now();
tx.send(poi).unwrap();
*local_usage.lock().unwrap() = (end - start, t_loop.elapsed());
t_loop = Instant::now();
}
});
(rx, usage)
}

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src/pipeline/m_estimator.rs Normal file
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src/pipeline/pointcloud_clusterer.rs Normal file
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src/pipeline/ros_interface.rs Normal file
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