break submodules out into separate files

This commit is contained in:
Jules Youngberg 2022-06-13 20:57:57 -07:00
parent c9df4410fb
commit 9e7abe0945
5 changed files with 223 additions and 219 deletions

37
src/face_mesh.rs Normal file
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@ -0,0 +1,37 @@
//! Face detection utilities.
use super::*;
pub struct FaceMeshDetector {
graph: Detector,
}
impl FaceMeshDetector {
pub fn new() -> Self {
let graph = Detector::new(
FACE_GRAPH_TYPE,
include_str!("graphs/face_mesh_desktop_live.pbtxt"),
"multi_face_landmarks",
);
Self { graph }
}
/// Processes the input frame, returns a face mesh if detected.
pub fn process(&mut self, input: &Mat) -> Option<FaceMesh> {
let landmarks = self.graph.process(input);
if landmarks.is_empty() {
return None;
}
let mut face_mesh = FaceMesh::default();
face_mesh.data.copy_from_slice(landmarks);
Some(face_mesh)
}
}
impl Default for FaceMeshDetector {
fn default() -> Self {
Self::new()
}
}

65
src/hands.rs Normal file
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@ -0,0 +1,65 @@
//! Hand detection utilities.
use super::*;
/// Hand landmark indices.
pub enum HandLandmark {
WRIST = 0,
THUMB_CMC = 1,
THUMB_MCP = 2,
THUMB_IP = 3,
THUMB_TIP = 4,
INDEX_FINGER_MCP = 5,
INDEX_FINGER_PIP = 6,
INDEX_FINGER_DIP = 7,
INDEX_FINGER_TIP = 8,
MIDDLE_FINGER_MCP = 9,
MIDDLE_FINGER_PIP = 10,
MIDDLE_FINGER_DIP = 11,
MIDDLE_FINGER_TIP = 12,
RING_FINGER_MCP = 13,
RING_FINGER_PIP = 14,
RING_FINGER_DIP = 15,
RING_FINGER_TIP = 16,
PINKY_MCP = 17,
PINKY_PIP = 18,
PINKY_DIP = 19,
PINKY_TIP = 20,
}
pub struct HandDetector {
graph: Detector,
}
impl HandDetector {
pub fn new() -> Self {
let graph = Detector::new(
HANDS_GRAPH_TYPE,
include_str!("graphs/hand_tracking_desktop_live.pbtxt"),
"hand_landmarks",
);
Self { graph }
}
/// Processes the input frame, returns a tuple of hands if detected.
pub fn process(&mut self, input: &Mat) -> Option<[Hand; 2]> {
let landmarks = self.graph.process(input);
if landmarks.is_empty() {
return None;
}
let mut lh = Hand::default();
let mut rh = Hand::default();
lh.data.copy_from_slice(&landmarks[0..21]);
rh.data.copy_from_slice(&landmarks[21..42]);
Some([lh, rh])
}
}
impl Default for HandDetector {
fn default() -> Self {
Self::new()
}
}

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@ -15,6 +15,10 @@ use opencv::prelude::*;
use std::ffi::CString;
mod bindings;
pub mod face_mesh;
pub mod hands;
pub mod pose;
pub mod segmentation;
use bindings::*;
@ -151,15 +155,27 @@ impl Effect {
/// Processes the input frame, returns a slice of landmarks if any are detected.
pub fn process(&mut self, input: &Mat) -> Mat {
let mut data = input.clone();
let cols = data.cols();
let rows = data.rows();
let typ = data.typ();
let out_data = unsafe {
mediagraph_Effect_Process(
self.graph as *mut std::ffi::c_void,
data.data_mut(),
data.cols(),
data.rows(),
cols,
rows,
)
};
unsafe { Mat::from_raw(out_data as *mut std::ffi::c_void) }
unsafe {
Mat::new_rows_cols_with_data(
rows,
cols,
typ,
out_data as *mut std::ffi::c_void,
opencv::core::Mat_AUTO_STEP,
)
.unwrap()
}
}
}
@ -170,219 +186,3 @@ impl Drop for Effect {
}
}
}
pub mod pose {
//! Pose detection utilities.
use super::*;
/// Pose landmark indices.
pub enum PoseLandmark {
NOSE = 0,
LEFT_EYE_INNER = 1,
LEFT_EYE = 2,
LEFT_EYE_OUTER = 3,
RIGHT_EYE_INNER = 4,
RIGHT_EYE = 5,
RIGHT_EYE_OUTER = 6,
LEFT_EAR = 7,
RIGHT_EAR = 8,
MOUTH_LEFT = 9,
MOUTH_RIGHT = 10,
LEFT_SHOULDER = 11,
RIGHT_SHOULDER = 12,
LEFT_ELBOW = 13,
RIGHT_ELBOW = 14,
LEFT_WRIST = 15,
RIGHT_WRIST = 16,
LEFT_PINKY = 17,
RIGHT_PINKY = 18,
LEFT_INDEX = 19,
RIGHT_INDEX = 20,
LEFT_THUMB = 21,
RIGHT_THUMB = 22,
LEFT_HIP = 23,
RIGHT_HIP = 24,
LEFT_KNEE = 25,
RIGHT_KNEE = 26,
LEFT_ANKLE = 27,
RIGHT_ANKLE = 28,
LEFT_HEEL = 29,
RIGHT_HEEL = 30,
LEFT_FOOT_INDEX = 31,
RIGHT_FOOT_INDEX = 32,
}
pub struct PoseDetector {
graph: Detector,
}
impl PoseDetector {
pub fn new() -> Self {
let graph = Detector::new(
POSE_GRAPH_TYPE,
include_str!("graphs/pose_tracking_cpu.pbtxt"),
"pose_landmarks",
);
Self { graph }
}
/// Processes the input frame, returns a pose if detected.
pub fn process(&mut self, input: &Mat) -> Option<Pose> {
let landmarks = self.graph.process(input);
if landmarks.is_empty() {
return None;
}
let mut pose = Pose::default();
pose.data.copy_from_slice(landmarks);
Some(pose)
}
}
impl Default for PoseDetector {
fn default() -> Self {
Self::new()
}
}
}
pub mod face_mesh {
//! Face detection utilities.
use super::*;
pub struct FaceMeshDetector {
graph: Detector,
}
impl FaceMeshDetector {
pub fn new() -> Self {
let graph = Detector::new(
FACE_GRAPH_TYPE,
include_str!("graphs/face_mesh_desktop_live.pbtxt"),
"multi_face_landmarks",
);
Self { graph }
}
/// Processes the input frame, returns a face mesh if detected.
pub fn process(&mut self, input: &Mat) -> Option<FaceMesh> {
let landmarks = self.graph.process(input);
if landmarks.is_empty() {
return None;
}
let mut face_mesh = FaceMesh::default();
face_mesh.data.copy_from_slice(landmarks);
Some(face_mesh)
}
}
impl Default for FaceMeshDetector {
fn default() -> Self {
Self::new()
}
}
}
pub mod hands {
//! Hand detection utilities.
use super::*;
/// Hand landmark indices.
pub enum HandLandmark {
WRIST = 0,
THUMB_CMC = 1,
THUMB_MCP = 2,
THUMB_IP = 3,
THUMB_TIP = 4,
INDEX_FINGER_MCP = 5,
INDEX_FINGER_PIP = 6,
INDEX_FINGER_DIP = 7,
INDEX_FINGER_TIP = 8,
MIDDLE_FINGER_MCP = 9,
MIDDLE_FINGER_PIP = 10,
MIDDLE_FINGER_DIP = 11,
MIDDLE_FINGER_TIP = 12,
RING_FINGER_MCP = 13,
RING_FINGER_PIP = 14,
RING_FINGER_DIP = 15,
RING_FINGER_TIP = 16,
PINKY_MCP = 17,
PINKY_PIP = 18,
PINKY_DIP = 19,
PINKY_TIP = 20,
}
pub struct HandDetector {
graph: Detector,
}
impl HandDetector {
pub fn new() -> Self {
let graph = Detector::new(
HANDS_GRAPH_TYPE,
include_str!("graphs/hand_tracking_desktop_live.pbtxt"),
"hand_landmarks",
);
Self { graph }
}
/// Processes the input frame, returns a tuple of hands if detected.
pub fn process(&mut self, input: &Mat) -> Option<[Hand; 2]> {
let landmarks = self.graph.process(input);
if landmarks.is_empty() {
return None;
}
let mut lh = Hand::default();
let mut rh = Hand::default();
lh.data.copy_from_slice(&landmarks[0..21]);
rh.data.copy_from_slice(&landmarks[21..42]);
Some([lh, rh])
}
}
impl Default for HandDetector {
fn default() -> Self {
Self::new()
}
}
}
pub mod segmentation {
//! Selfie segmentation utilities.
use super::*;
pub struct Segmentor {
graph: Effect,
}
impl Segmentor {
pub fn new() -> Self {
let graph = Effect::new(
include_str!("graphs/selfie_segmentation_cpu.pbtxt"),
"output_video",
);
Self { graph }
}
/// Processes the input frame, returns the output frame.
pub fn process(&mut self, input: &Mat) -> Mat {
self.graph.process(input)
}
}
impl Default for Segmentor {
fn default() -> Self {
Self::new()
}
}
}

74
src/pose.rs Normal file
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@ -0,0 +1,74 @@
//! Pose detection utilities.
use super::*;
/// Pose landmark indices.
pub enum PoseLandmark {
NOSE = 0,
LEFT_EYE_INNER = 1,
LEFT_EYE = 2,
LEFT_EYE_OUTER = 3,
RIGHT_EYE_INNER = 4,
RIGHT_EYE = 5,
RIGHT_EYE_OUTER = 6,
LEFT_EAR = 7,
RIGHT_EAR = 8,
MOUTH_LEFT = 9,
MOUTH_RIGHT = 10,
LEFT_SHOULDER = 11,
RIGHT_SHOULDER = 12,
LEFT_ELBOW = 13,
RIGHT_ELBOW = 14,
LEFT_WRIST = 15,
RIGHT_WRIST = 16,
LEFT_PINKY = 17,
RIGHT_PINKY = 18,
LEFT_INDEX = 19,
RIGHT_INDEX = 20,
LEFT_THUMB = 21,
RIGHT_THUMB = 22,
LEFT_HIP = 23,
RIGHT_HIP = 24,
LEFT_KNEE = 25,
RIGHT_KNEE = 26,
LEFT_ANKLE = 27,
RIGHT_ANKLE = 28,
LEFT_HEEL = 29,
RIGHT_HEEL = 30,
LEFT_FOOT_INDEX = 31,
RIGHT_FOOT_INDEX = 32,
}
pub struct PoseDetector {
graph: Detector,
}
impl PoseDetector {
pub fn new() -> Self {
let graph = Detector::new(
POSE_GRAPH_TYPE,
include_str!("graphs/pose_tracking_cpu.pbtxt"),
"pose_landmarks",
);
Self { graph }
}
/// Processes the input frame, returns a pose if detected.
pub fn process(&mut self, input: &Mat) -> Option<Pose> {
let landmarks = self.graph.process(input);
if landmarks.is_empty() {
return None;
}
let mut pose = Pose::default();
pose.data.copy_from_slice(landmarks);
Some(pose)
}
}
impl Default for PoseDetector {
fn default() -> Self {
Self::new()
}
}

28
src/segmentation.rs Normal file
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@ -0,0 +1,28 @@
//! Selfie segmentation utilities.
use super::*;
pub struct Segmentor {
graph: Effect,
}
impl Segmentor {
pub fn new() -> Self {
let graph = Effect::new(
include_str!("graphs/selfie_segmentation_cpu.pbtxt"),
"output_video",
);
Self { graph }
}
/// Processes the input frame, returns the output frame.
pub fn process(&mut self, input: &Mat) -> Mat {
self.graph.process(input)
}
}
impl Default for Segmentor {
fn default() -> Self {
Self::new()
}
}