pub struct ServoChannel {
pub id: usize,
pub name: String,
pub angle: f32,
pub spec: ServoSpec,
}Expand description
Represents a single servo channel
Fields§
§id: usize§name: String§angle: f32§spec: ServoSpecImplementations§
Source§impl ServoChannel
impl ServoChannel
Sourcepub fn new(id: usize, name: &str, spec: ServoSpec) -> Self
pub fn new(id: usize, name: &str, spec: ServoSpec) -> Self
Examples found in repository?
More examples
examples/basic.rs (line 11)
3fn main() {
4 println!("\n");
5 println!("--- Servo Controller Basic Example ---");
6
7 // MG996R spec create
8 let spec = ServoSpec::mg996r();
9
10 // MG996R 6 channels robot arms example
11 let mut servo0 = ServoChannel::new(0, "base", spec.clone());
12 let mut servo1 = ServoChannel::new(1, "shoulder", spec.clone());
13 let mut servo2 = ServoChannel::new(2, "elbow", spec.clone());
14 let mut servo3 = ServoChannel::new(3, "wrist_pitch", spec.clone());
15 let mut servo4 = ServoChannel::new(4, "wrist_roll", spec.clone());
16 let mut servo5 = ServoChannel::new(5, "gripper", spec.clone());
17
18 // angle init
19 servo0.set_angle(90.0);
20 servo1.set_angle(90.0);
21 servo2.set_angle(90.0);
22 servo3.set_angle(90.0);
23 servo4.set_angle(90.0);
24 servo5.set_angle(90.0);
25
26 println!(
27 "{}: angle {:.1}° → pulse {}",
28 servo0.name,
29 servo0.angle,
30 servo0.get_pulse()
31 );
32 println!(
33 "{}: angle {:.1}° → pulse {}",
34 servo1.name,
35 servo1.angle,
36 servo1.get_pulse()
37 );
38 println!(
39 "{}: angle {:.1}° → pulse {}",
40 servo2.name,
41 servo2.angle,
42 servo2.get_pulse()
43 );
44 println!(
45 "{}: angle {:.1}° → pulse {}",
46 servo3.name,
47 servo3.angle,
48 servo3.get_pulse()
49 );
50 println!(
51 "{}: angle {:.1}° → pulse {}",
52 servo4.name,
53 servo4.angle,
54 servo4.get_pulse()
55 );
56 println!(
57 "{}: angle {:.1}° → pulse {}",
58 servo5.name,
59 servo5.angle,
60 servo5.get_pulse()
61 );
62
63 // pulse -> angle convert test
64 servo0.set_pulse(350);
65 println!(
66 "{}: pulse {} → angle {:.1}°",
67 servo0.name,
68 servo0.get_pulse(),
69 servo0.angle
70 );
71 servo1.set_pulse(400);
72 println!(
73 "{}: pulse {} → angle {:.1}°",
74 servo1.name,
75 servo1.get_pulse(),
76 servo1.angle
77 );
78 servo2.set_pulse(450);
79 println!(
80 "{}: pulse {} → angle {:.1}°",
81 servo2.name,
82 servo2.get_pulse(),
83 servo2.angle
84 );
85 servo3.set_pulse(500);
86 println!(
87 "{}: pulse {} → angle {:.1}°",
88 servo3.name,
89 servo3.get_pulse(),
90 servo3.angle
91 );
92 servo4.set_pulse(550);
93 println!(
94 "{}: pulse {} → angle {:.1}°",
95 servo4.name,
96 servo4.get_pulse(),
97 servo4.angle
98 );
99 servo5.set_pulse(600);
100 println!(
101 "{}: pulse {} → angle {:.1}°",
102 servo5.name,
103 servo5.get_pulse(),
104 servo5.angle
105 );
106
107 println!("\n");
108 // increment / decrement
109 servo0.increment(10.0);
110 println!("{} incremented → {:.1}°", servo1.name, servo1.angle);
111
112 servo1.decrement(30.0);
113 println!("{} decremented → {:.1}°", servo1.name, servo1.angle);
114
115 servo2.increment(20.0);
116 println!("{} incremented → {:.1}°", servo2.name, servo2.angle);
117
118 servo3.decrement(40.0);
119 println!("{} decremented → {:.1}°", servo2.name, servo2.angle);
120
121 servo4.increment(20.0);
122 println!("{} incremented → {:.1}°", servo4.name, servo4.angle);
123
124 servo5.decrement(15.0);
125 println!("{} decremented → {:.1}°", servo5.name, servo5.angle);
126
127 // ServoSystem Add channels
128 let mut system = ServoSystem::new();
129 system.add_channel(servo0);
130 system.add_channel(servo1);
131
132 println!("\n--- ServoSystem status ---");
133 for servo in &system.channels {
134 println!(
135 "Channel {} ({}): angle {:.1}° → pulse {}",
136 servo.id,
137 servo.name,
138 servo.angle,
139 servo.get_pulse()
140 );
141 }
142
143 // get_channel_mut 예제
144 if let Some(shoulder) = system.get_channel_mut(1) {
145 shoulder.set_angle(120.0);
146 println!(
147 "\nafter update {}: angle {:.1}° → pulse {}",
148 shoulder.name,
149 shoulder.angle,
150 shoulder.get_pulse()
151 );
152 }
153}Sourcepub fn set_angle(&mut self, angle: f32)
pub fn set_angle(&mut self, angle: f32)
Examples found in repository?
examples/egui_demo.rs (line 38)
22 fn update(&mut self, ctx: &egui::Context, _frame: &mut eframe::Frame) {
23 egui::CentralPanel::default().show(ctx, |ui| {
24 ui.heading("Servo Simulator Demo (egui 0.32.3)");
25
26 for servo in &mut self.system.channels {
27 ui.group(|ui| {
28 ui.label(format!("Channel {}: {}", servo.id, servo.name));
29
30 let mut angle = servo.angle;
31 if ui
32 .add(egui::Slider::new(
33 &mut angle,
34 servo.spec.min_angle..=servo.spec.max_angle,
35 ))
36 .changed()
37 {
38 servo.set_angle(angle);
39 }
40
41 ui.label(format!(
42 "Angle: {:.1}° → Pulse: {}",
43 servo.angle,
44 servo.get_pulse()
45 ));
46
47 // === 시각화 ===
48 let (rect, _) =
49 ui.allocate_exact_size(egui::vec2(100.0, 100.0), egui::Sense::hover());
50
51 let center = rect.center();
52 let radius = 40.0;
53 let angle_rad = servo.angle.to_radians();
54
55 let end = egui::pos2(
56 center.x + radius * angle_rad.cos(),
57 center.y - radius * angle_rad.sin(),
58 );
59
60 let line = egui::Shape::line_segment(
61 [center, end],
62 egui::Stroke::new(2.0, egui::Color32::LIGHT_BLUE),
63 );
64
65 ui.painter().add(line);
66 ui.painter()
67 .circle_stroke(center, radius, egui::Stroke::new(1.0, egui::Color32::GRAY));
68 });
69 }
70 });
71 }More examples
examples/basic.rs (line 19)
3fn main() {
4 println!("\n");
5 println!("--- Servo Controller Basic Example ---");
6
7 // MG996R spec create
8 let spec = ServoSpec::mg996r();
9
10 // MG996R 6 channels robot arms example
11 let mut servo0 = ServoChannel::new(0, "base", spec.clone());
12 let mut servo1 = ServoChannel::new(1, "shoulder", spec.clone());
13 let mut servo2 = ServoChannel::new(2, "elbow", spec.clone());
14 let mut servo3 = ServoChannel::new(3, "wrist_pitch", spec.clone());
15 let mut servo4 = ServoChannel::new(4, "wrist_roll", spec.clone());
16 let mut servo5 = ServoChannel::new(5, "gripper", spec.clone());
17
18 // angle init
19 servo0.set_angle(90.0);
20 servo1.set_angle(90.0);
21 servo2.set_angle(90.0);
22 servo3.set_angle(90.0);
23 servo4.set_angle(90.0);
24 servo5.set_angle(90.0);
25
26 println!(
27 "{}: angle {:.1}° → pulse {}",
28 servo0.name,
29 servo0.angle,
30 servo0.get_pulse()
31 );
32 println!(
33 "{}: angle {:.1}° → pulse {}",
34 servo1.name,
35 servo1.angle,
36 servo1.get_pulse()
37 );
38 println!(
39 "{}: angle {:.1}° → pulse {}",
40 servo2.name,
41 servo2.angle,
42 servo2.get_pulse()
43 );
44 println!(
45 "{}: angle {:.1}° → pulse {}",
46 servo3.name,
47 servo3.angle,
48 servo3.get_pulse()
49 );
50 println!(
51 "{}: angle {:.1}° → pulse {}",
52 servo4.name,
53 servo4.angle,
54 servo4.get_pulse()
55 );
56 println!(
57 "{}: angle {:.1}° → pulse {}",
58 servo5.name,
59 servo5.angle,
60 servo5.get_pulse()
61 );
62
63 // pulse -> angle convert test
64 servo0.set_pulse(350);
65 println!(
66 "{}: pulse {} → angle {:.1}°",
67 servo0.name,
68 servo0.get_pulse(),
69 servo0.angle
70 );
71 servo1.set_pulse(400);
72 println!(
73 "{}: pulse {} → angle {:.1}°",
74 servo1.name,
75 servo1.get_pulse(),
76 servo1.angle
77 );
78 servo2.set_pulse(450);
79 println!(
80 "{}: pulse {} → angle {:.1}°",
81 servo2.name,
82 servo2.get_pulse(),
83 servo2.angle
84 );
85 servo3.set_pulse(500);
86 println!(
87 "{}: pulse {} → angle {:.1}°",
88 servo3.name,
89 servo3.get_pulse(),
90 servo3.angle
91 );
92 servo4.set_pulse(550);
93 println!(
94 "{}: pulse {} → angle {:.1}°",
95 servo4.name,
96 servo4.get_pulse(),
97 servo4.angle
98 );
99 servo5.set_pulse(600);
100 println!(
101 "{}: pulse {} → angle {:.1}°",
102 servo5.name,
103 servo5.get_pulse(),
104 servo5.angle
105 );
106
107 println!("\n");
108 // increment / decrement
109 servo0.increment(10.0);
110 println!("{} incremented → {:.1}°", servo1.name, servo1.angle);
111
112 servo1.decrement(30.0);
113 println!("{} decremented → {:.1}°", servo1.name, servo1.angle);
114
115 servo2.increment(20.0);
116 println!("{} incremented → {:.1}°", servo2.name, servo2.angle);
117
118 servo3.decrement(40.0);
119 println!("{} decremented → {:.1}°", servo2.name, servo2.angle);
120
121 servo4.increment(20.0);
122 println!("{} incremented → {:.1}°", servo4.name, servo4.angle);
123
124 servo5.decrement(15.0);
125 println!("{} decremented → {:.1}°", servo5.name, servo5.angle);
126
127 // ServoSystem Add channels
128 let mut system = ServoSystem::new();
129 system.add_channel(servo0);
130 system.add_channel(servo1);
131
132 println!("\n--- ServoSystem status ---");
133 for servo in &system.channels {
134 println!(
135 "Channel {} ({}): angle {:.1}° → pulse {}",
136 servo.id,
137 servo.name,
138 servo.angle,
139 servo.get_pulse()
140 );
141 }
142
143 // get_channel_mut 예제
144 if let Some(shoulder) = system.get_channel_mut(1) {
145 shoulder.set_angle(120.0);
146 println!(
147 "\nafter update {}: angle {:.1}° → pulse {}",
148 shoulder.name,
149 shoulder.angle,
150 shoulder.get_pulse()
151 );
152 }
153}Sourcepub fn increment(&mut self, delta: f32)
pub fn increment(&mut self, delta: f32)
Examples found in repository?
examples/basic.rs (line 109)
3fn main() {
4 println!("\n");
5 println!("--- Servo Controller Basic Example ---");
6
7 // MG996R spec create
8 let spec = ServoSpec::mg996r();
9
10 // MG996R 6 channels robot arms example
11 let mut servo0 = ServoChannel::new(0, "base", spec.clone());
12 let mut servo1 = ServoChannel::new(1, "shoulder", spec.clone());
13 let mut servo2 = ServoChannel::new(2, "elbow", spec.clone());
14 let mut servo3 = ServoChannel::new(3, "wrist_pitch", spec.clone());
15 let mut servo4 = ServoChannel::new(4, "wrist_roll", spec.clone());
16 let mut servo5 = ServoChannel::new(5, "gripper", spec.clone());
17
18 // angle init
19 servo0.set_angle(90.0);
20 servo1.set_angle(90.0);
21 servo2.set_angle(90.0);
22 servo3.set_angle(90.0);
23 servo4.set_angle(90.0);
24 servo5.set_angle(90.0);
25
26 println!(
27 "{}: angle {:.1}° → pulse {}",
28 servo0.name,
29 servo0.angle,
30 servo0.get_pulse()
31 );
32 println!(
33 "{}: angle {:.1}° → pulse {}",
34 servo1.name,
35 servo1.angle,
36 servo1.get_pulse()
37 );
38 println!(
39 "{}: angle {:.1}° → pulse {}",
40 servo2.name,
41 servo2.angle,
42 servo2.get_pulse()
43 );
44 println!(
45 "{}: angle {:.1}° → pulse {}",
46 servo3.name,
47 servo3.angle,
48 servo3.get_pulse()
49 );
50 println!(
51 "{}: angle {:.1}° → pulse {}",
52 servo4.name,
53 servo4.angle,
54 servo4.get_pulse()
55 );
56 println!(
57 "{}: angle {:.1}° → pulse {}",
58 servo5.name,
59 servo5.angle,
60 servo5.get_pulse()
61 );
62
63 // pulse -> angle convert test
64 servo0.set_pulse(350);
65 println!(
66 "{}: pulse {} → angle {:.1}°",
67 servo0.name,
68 servo0.get_pulse(),
69 servo0.angle
70 );
71 servo1.set_pulse(400);
72 println!(
73 "{}: pulse {} → angle {:.1}°",
74 servo1.name,
75 servo1.get_pulse(),
76 servo1.angle
77 );
78 servo2.set_pulse(450);
79 println!(
80 "{}: pulse {} → angle {:.1}°",
81 servo2.name,
82 servo2.get_pulse(),
83 servo2.angle
84 );
85 servo3.set_pulse(500);
86 println!(
87 "{}: pulse {} → angle {:.1}°",
88 servo3.name,
89 servo3.get_pulse(),
90 servo3.angle
91 );
92 servo4.set_pulse(550);
93 println!(
94 "{}: pulse {} → angle {:.1}°",
95 servo4.name,
96 servo4.get_pulse(),
97 servo4.angle
98 );
99 servo5.set_pulse(600);
100 println!(
101 "{}: pulse {} → angle {:.1}°",
102 servo5.name,
103 servo5.get_pulse(),
104 servo5.angle
105 );
106
107 println!("\n");
108 // increment / decrement
109 servo0.increment(10.0);
110 println!("{} incremented → {:.1}°", servo1.name, servo1.angle);
111
112 servo1.decrement(30.0);
113 println!("{} decremented → {:.1}°", servo1.name, servo1.angle);
114
115 servo2.increment(20.0);
116 println!("{} incremented → {:.1}°", servo2.name, servo2.angle);
117
118 servo3.decrement(40.0);
119 println!("{} decremented → {:.1}°", servo2.name, servo2.angle);
120
121 servo4.increment(20.0);
122 println!("{} incremented → {:.1}°", servo4.name, servo4.angle);
123
124 servo5.decrement(15.0);
125 println!("{} decremented → {:.1}°", servo5.name, servo5.angle);
126
127 // ServoSystem Add channels
128 let mut system = ServoSystem::new();
129 system.add_channel(servo0);
130 system.add_channel(servo1);
131
132 println!("\n--- ServoSystem status ---");
133 for servo in &system.channels {
134 println!(
135 "Channel {} ({}): angle {:.1}° → pulse {}",
136 servo.id,
137 servo.name,
138 servo.angle,
139 servo.get_pulse()
140 );
141 }
142
143 // get_channel_mut 예제
144 if let Some(shoulder) = system.get_channel_mut(1) {
145 shoulder.set_angle(120.0);
146 println!(
147 "\nafter update {}: angle {:.1}° → pulse {}",
148 shoulder.name,
149 shoulder.angle,
150 shoulder.get_pulse()
151 );
152 }
153}Sourcepub fn decrement(&mut self, delta: f32)
pub fn decrement(&mut self, delta: f32)
Examples found in repository?
examples/basic.rs (line 112)
3fn main() {
4 println!("\n");
5 println!("--- Servo Controller Basic Example ---");
6
7 // MG996R spec create
8 let spec = ServoSpec::mg996r();
9
10 // MG996R 6 channels robot arms example
11 let mut servo0 = ServoChannel::new(0, "base", spec.clone());
12 let mut servo1 = ServoChannel::new(1, "shoulder", spec.clone());
13 let mut servo2 = ServoChannel::new(2, "elbow", spec.clone());
14 let mut servo3 = ServoChannel::new(3, "wrist_pitch", spec.clone());
15 let mut servo4 = ServoChannel::new(4, "wrist_roll", spec.clone());
16 let mut servo5 = ServoChannel::new(5, "gripper", spec.clone());
17
18 // angle init
19 servo0.set_angle(90.0);
20 servo1.set_angle(90.0);
21 servo2.set_angle(90.0);
22 servo3.set_angle(90.0);
23 servo4.set_angle(90.0);
24 servo5.set_angle(90.0);
25
26 println!(
27 "{}: angle {:.1}° → pulse {}",
28 servo0.name,
29 servo0.angle,
30 servo0.get_pulse()
31 );
32 println!(
33 "{}: angle {:.1}° → pulse {}",
34 servo1.name,
35 servo1.angle,
36 servo1.get_pulse()
37 );
38 println!(
39 "{}: angle {:.1}° → pulse {}",
40 servo2.name,
41 servo2.angle,
42 servo2.get_pulse()
43 );
44 println!(
45 "{}: angle {:.1}° → pulse {}",
46 servo3.name,
47 servo3.angle,
48 servo3.get_pulse()
49 );
50 println!(
51 "{}: angle {:.1}° → pulse {}",
52 servo4.name,
53 servo4.angle,
54 servo4.get_pulse()
55 );
56 println!(
57 "{}: angle {:.1}° → pulse {}",
58 servo5.name,
59 servo5.angle,
60 servo5.get_pulse()
61 );
62
63 // pulse -> angle convert test
64 servo0.set_pulse(350);
65 println!(
66 "{}: pulse {} → angle {:.1}°",
67 servo0.name,
68 servo0.get_pulse(),
69 servo0.angle
70 );
71 servo1.set_pulse(400);
72 println!(
73 "{}: pulse {} → angle {:.1}°",
74 servo1.name,
75 servo1.get_pulse(),
76 servo1.angle
77 );
78 servo2.set_pulse(450);
79 println!(
80 "{}: pulse {} → angle {:.1}°",
81 servo2.name,
82 servo2.get_pulse(),
83 servo2.angle
84 );
85 servo3.set_pulse(500);
86 println!(
87 "{}: pulse {} → angle {:.1}°",
88 servo3.name,
89 servo3.get_pulse(),
90 servo3.angle
91 );
92 servo4.set_pulse(550);
93 println!(
94 "{}: pulse {} → angle {:.1}°",
95 servo4.name,
96 servo4.get_pulse(),
97 servo4.angle
98 );
99 servo5.set_pulse(600);
100 println!(
101 "{}: pulse {} → angle {:.1}°",
102 servo5.name,
103 servo5.get_pulse(),
104 servo5.angle
105 );
106
107 println!("\n");
108 // increment / decrement
109 servo0.increment(10.0);
110 println!("{} incremented → {:.1}°", servo1.name, servo1.angle);
111
112 servo1.decrement(30.0);
113 println!("{} decremented → {:.1}°", servo1.name, servo1.angle);
114
115 servo2.increment(20.0);
116 println!("{} incremented → {:.1}°", servo2.name, servo2.angle);
117
118 servo3.decrement(40.0);
119 println!("{} decremented → {:.1}°", servo2.name, servo2.angle);
120
121 servo4.increment(20.0);
122 println!("{} incremented → {:.1}°", servo4.name, servo4.angle);
123
124 servo5.decrement(15.0);
125 println!("{} decremented → {:.1}°", servo5.name, servo5.angle);
126
127 // ServoSystem Add channels
128 let mut system = ServoSystem::new();
129 system.add_channel(servo0);
130 system.add_channel(servo1);
131
132 println!("\n--- ServoSystem status ---");
133 for servo in &system.channels {
134 println!(
135 "Channel {} ({}): angle {:.1}° → pulse {}",
136 servo.id,
137 servo.name,
138 servo.angle,
139 servo.get_pulse()
140 );
141 }
142
143 // get_channel_mut 예제
144 if let Some(shoulder) = system.get_channel_mut(1) {
145 shoulder.set_angle(120.0);
146 println!(
147 "\nafter update {}: angle {:.1}° → pulse {}",
148 shoulder.name,
149 shoulder.angle,
150 shoulder.get_pulse()
151 );
152 }
153}Sourcepub fn get_pulse(&self) -> u32
pub fn get_pulse(&self) -> u32
Examples found in repository?
examples/egui_demo.rs (line 44)
22 fn update(&mut self, ctx: &egui::Context, _frame: &mut eframe::Frame) {
23 egui::CentralPanel::default().show(ctx, |ui| {
24 ui.heading("Servo Simulator Demo (egui 0.32.3)");
25
26 for servo in &mut self.system.channels {
27 ui.group(|ui| {
28 ui.label(format!("Channel {}: {}", servo.id, servo.name));
29
30 let mut angle = servo.angle;
31 if ui
32 .add(egui::Slider::new(
33 &mut angle,
34 servo.spec.min_angle..=servo.spec.max_angle,
35 ))
36 .changed()
37 {
38 servo.set_angle(angle);
39 }
40
41 ui.label(format!(
42 "Angle: {:.1}° → Pulse: {}",
43 servo.angle,
44 servo.get_pulse()
45 ));
46
47 // === 시각화 ===
48 let (rect, _) =
49 ui.allocate_exact_size(egui::vec2(100.0, 100.0), egui::Sense::hover());
50
51 let center = rect.center();
52 let radius = 40.0;
53 let angle_rad = servo.angle.to_radians();
54
55 let end = egui::pos2(
56 center.x + radius * angle_rad.cos(),
57 center.y - radius * angle_rad.sin(),
58 );
59
60 let line = egui::Shape::line_segment(
61 [center, end],
62 egui::Stroke::new(2.0, egui::Color32::LIGHT_BLUE),
63 );
64
65 ui.painter().add(line);
66 ui.painter()
67 .circle_stroke(center, radius, egui::Stroke::new(1.0, egui::Color32::GRAY));
68 });
69 }
70 });
71 }More examples
examples/basic.rs (line 30)
3fn main() {
4 println!("\n");
5 println!("--- Servo Controller Basic Example ---");
6
7 // MG996R spec create
8 let spec = ServoSpec::mg996r();
9
10 // MG996R 6 channels robot arms example
11 let mut servo0 = ServoChannel::new(0, "base", spec.clone());
12 let mut servo1 = ServoChannel::new(1, "shoulder", spec.clone());
13 let mut servo2 = ServoChannel::new(2, "elbow", spec.clone());
14 let mut servo3 = ServoChannel::new(3, "wrist_pitch", spec.clone());
15 let mut servo4 = ServoChannel::new(4, "wrist_roll", spec.clone());
16 let mut servo5 = ServoChannel::new(5, "gripper", spec.clone());
17
18 // angle init
19 servo0.set_angle(90.0);
20 servo1.set_angle(90.0);
21 servo2.set_angle(90.0);
22 servo3.set_angle(90.0);
23 servo4.set_angle(90.0);
24 servo5.set_angle(90.0);
25
26 println!(
27 "{}: angle {:.1}° → pulse {}",
28 servo0.name,
29 servo0.angle,
30 servo0.get_pulse()
31 );
32 println!(
33 "{}: angle {:.1}° → pulse {}",
34 servo1.name,
35 servo1.angle,
36 servo1.get_pulse()
37 );
38 println!(
39 "{}: angle {:.1}° → pulse {}",
40 servo2.name,
41 servo2.angle,
42 servo2.get_pulse()
43 );
44 println!(
45 "{}: angle {:.1}° → pulse {}",
46 servo3.name,
47 servo3.angle,
48 servo3.get_pulse()
49 );
50 println!(
51 "{}: angle {:.1}° → pulse {}",
52 servo4.name,
53 servo4.angle,
54 servo4.get_pulse()
55 );
56 println!(
57 "{}: angle {:.1}° → pulse {}",
58 servo5.name,
59 servo5.angle,
60 servo5.get_pulse()
61 );
62
63 // pulse -> angle convert test
64 servo0.set_pulse(350);
65 println!(
66 "{}: pulse {} → angle {:.1}°",
67 servo0.name,
68 servo0.get_pulse(),
69 servo0.angle
70 );
71 servo1.set_pulse(400);
72 println!(
73 "{}: pulse {} → angle {:.1}°",
74 servo1.name,
75 servo1.get_pulse(),
76 servo1.angle
77 );
78 servo2.set_pulse(450);
79 println!(
80 "{}: pulse {} → angle {:.1}°",
81 servo2.name,
82 servo2.get_pulse(),
83 servo2.angle
84 );
85 servo3.set_pulse(500);
86 println!(
87 "{}: pulse {} → angle {:.1}°",
88 servo3.name,
89 servo3.get_pulse(),
90 servo3.angle
91 );
92 servo4.set_pulse(550);
93 println!(
94 "{}: pulse {} → angle {:.1}°",
95 servo4.name,
96 servo4.get_pulse(),
97 servo4.angle
98 );
99 servo5.set_pulse(600);
100 println!(
101 "{}: pulse {} → angle {:.1}°",
102 servo5.name,
103 servo5.get_pulse(),
104 servo5.angle
105 );
106
107 println!("\n");
108 // increment / decrement
109 servo0.increment(10.0);
110 println!("{} incremented → {:.1}°", servo1.name, servo1.angle);
111
112 servo1.decrement(30.0);
113 println!("{} decremented → {:.1}°", servo1.name, servo1.angle);
114
115 servo2.increment(20.0);
116 println!("{} incremented → {:.1}°", servo2.name, servo2.angle);
117
118 servo3.decrement(40.0);
119 println!("{} decremented → {:.1}°", servo2.name, servo2.angle);
120
121 servo4.increment(20.0);
122 println!("{} incremented → {:.1}°", servo4.name, servo4.angle);
123
124 servo5.decrement(15.0);
125 println!("{} decremented → {:.1}°", servo5.name, servo5.angle);
126
127 // ServoSystem Add channels
128 let mut system = ServoSystem::new();
129 system.add_channel(servo0);
130 system.add_channel(servo1);
131
132 println!("\n--- ServoSystem status ---");
133 for servo in &system.channels {
134 println!(
135 "Channel {} ({}): angle {:.1}° → pulse {}",
136 servo.id,
137 servo.name,
138 servo.angle,
139 servo.get_pulse()
140 );
141 }
142
143 // get_channel_mut 예제
144 if let Some(shoulder) = system.get_channel_mut(1) {
145 shoulder.set_angle(120.0);
146 println!(
147 "\nafter update {}: angle {:.1}° → pulse {}",
148 shoulder.name,
149 shoulder.angle,
150 shoulder.get_pulse()
151 );
152 }
153}Sourcepub fn set_pulse(&mut self, pulse: u32)
pub fn set_pulse(&mut self, pulse: u32)
Examples found in repository?
examples/basic.rs (line 64)
3fn main() {
4 println!("\n");
5 println!("--- Servo Controller Basic Example ---");
6
7 // MG996R spec create
8 let spec = ServoSpec::mg996r();
9
10 // MG996R 6 channels robot arms example
11 let mut servo0 = ServoChannel::new(0, "base", spec.clone());
12 let mut servo1 = ServoChannel::new(1, "shoulder", spec.clone());
13 let mut servo2 = ServoChannel::new(2, "elbow", spec.clone());
14 let mut servo3 = ServoChannel::new(3, "wrist_pitch", spec.clone());
15 let mut servo4 = ServoChannel::new(4, "wrist_roll", spec.clone());
16 let mut servo5 = ServoChannel::new(5, "gripper", spec.clone());
17
18 // angle init
19 servo0.set_angle(90.0);
20 servo1.set_angle(90.0);
21 servo2.set_angle(90.0);
22 servo3.set_angle(90.0);
23 servo4.set_angle(90.0);
24 servo5.set_angle(90.0);
25
26 println!(
27 "{}: angle {:.1}° → pulse {}",
28 servo0.name,
29 servo0.angle,
30 servo0.get_pulse()
31 );
32 println!(
33 "{}: angle {:.1}° → pulse {}",
34 servo1.name,
35 servo1.angle,
36 servo1.get_pulse()
37 );
38 println!(
39 "{}: angle {:.1}° → pulse {}",
40 servo2.name,
41 servo2.angle,
42 servo2.get_pulse()
43 );
44 println!(
45 "{}: angle {:.1}° → pulse {}",
46 servo3.name,
47 servo3.angle,
48 servo3.get_pulse()
49 );
50 println!(
51 "{}: angle {:.1}° → pulse {}",
52 servo4.name,
53 servo4.angle,
54 servo4.get_pulse()
55 );
56 println!(
57 "{}: angle {:.1}° → pulse {}",
58 servo5.name,
59 servo5.angle,
60 servo5.get_pulse()
61 );
62
63 // pulse -> angle convert test
64 servo0.set_pulse(350);
65 println!(
66 "{}: pulse {} → angle {:.1}°",
67 servo0.name,
68 servo0.get_pulse(),
69 servo0.angle
70 );
71 servo1.set_pulse(400);
72 println!(
73 "{}: pulse {} → angle {:.1}°",
74 servo1.name,
75 servo1.get_pulse(),
76 servo1.angle
77 );
78 servo2.set_pulse(450);
79 println!(
80 "{}: pulse {} → angle {:.1}°",
81 servo2.name,
82 servo2.get_pulse(),
83 servo2.angle
84 );
85 servo3.set_pulse(500);
86 println!(
87 "{}: pulse {} → angle {:.1}°",
88 servo3.name,
89 servo3.get_pulse(),
90 servo3.angle
91 );
92 servo4.set_pulse(550);
93 println!(
94 "{}: pulse {} → angle {:.1}°",
95 servo4.name,
96 servo4.get_pulse(),
97 servo4.angle
98 );
99 servo5.set_pulse(600);
100 println!(
101 "{}: pulse {} → angle {:.1}°",
102 servo5.name,
103 servo5.get_pulse(),
104 servo5.angle
105 );
106
107 println!("\n");
108 // increment / decrement
109 servo0.increment(10.0);
110 println!("{} incremented → {:.1}°", servo1.name, servo1.angle);
111
112 servo1.decrement(30.0);
113 println!("{} decremented → {:.1}°", servo1.name, servo1.angle);
114
115 servo2.increment(20.0);
116 println!("{} incremented → {:.1}°", servo2.name, servo2.angle);
117
118 servo3.decrement(40.0);
119 println!("{} decremented → {:.1}°", servo2.name, servo2.angle);
120
121 servo4.increment(20.0);
122 println!("{} incremented → {:.1}°", servo4.name, servo4.angle);
123
124 servo5.decrement(15.0);
125 println!("{} decremented → {:.1}°", servo5.name, servo5.angle);
126
127 // ServoSystem Add channels
128 let mut system = ServoSystem::new();
129 system.add_channel(servo0);
130 system.add_channel(servo1);
131
132 println!("\n--- ServoSystem status ---");
133 for servo in &system.channels {
134 println!(
135 "Channel {} ({}): angle {:.1}° → pulse {}",
136 servo.id,
137 servo.name,
138 servo.angle,
139 servo.get_pulse()
140 );
141 }
142
143 // get_channel_mut 예제
144 if let Some(shoulder) = system.get_channel_mut(1) {
145 shoulder.set_angle(120.0);
146 println!(
147 "\nafter update {}: angle {:.1}° → pulse {}",
148 shoulder.name,
149 shoulder.angle,
150 shoulder.get_pulse()
151 );
152 }
153}Trait Implementations§
Source§impl Clone for ServoChannel
impl Clone for ServoChannel
Source§fn clone(&self) -> ServoChannel
fn clone(&self) -> ServoChannel
Returns a duplicate of the value. Read more
1.0.0 · Source§fn clone_from(&mut self, source: &Self)
fn clone_from(&mut self, source: &Self)
Performs copy-assignment from
source. Read moreSource§impl Debug for ServoChannel
impl Debug for ServoChannel
Source§impl<'de> Deserialize<'de> for ServoChannel
impl<'de> Deserialize<'de> for ServoChannel
Source§fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error>where
__D: Deserializer<'de>,
fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error>where
__D: Deserializer<'de>,
Deserialize this value from the given Serde deserializer. Read more
Auto Trait Implementations§
impl Freeze for ServoChannel
impl RefUnwindSafe for ServoChannel
impl Send for ServoChannel
impl Sync for ServoChannel
impl Unpin for ServoChannel
impl UnwindSafe for ServoChannel
Blanket Implementations§
Source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
Source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more