pub trait FnMutatorOps<T>: Fn(&mut T) + Sized {
// Provided method
fn and_then<C>(self, next: C) -> BoxMutator<T>
where Self: 'static,
C: Mutator<T> + 'static,
T: 'static { ... }
}Expand description
Extension trait providing mutator composition methods for closures
Provides and_then and other composition methods for all closures that
implement Fn(&mut T), enabling direct method chaining on closures
without explicit wrapper types.
§Features
- Natural Syntax: Chain operations directly on closures
- Returns BoxMutator: Composition results are
BoxMutator<T>for continued chaining - Zero Cost: No overhead when composing closures
- Automatic Implementation: All
Fn(&mut T)closures get these methods automatically
§Examples
use qubit_function::{Mutator, FnMutatorOps};
let chained = (|x: &mut i32| *x *= 2)
.and_then(|x: &mut i32| *x += 10);
let mut value = 5;
chained.apply(&mut value);
assert_eq!(value, 20); // (5 * 2) + 10Provided Methods§
Sourcefn and_then<C>(self, next: C) -> BoxMutator<T>where
Self: 'static,
C: Mutator<T> + 'static,
T: 'static,
fn and_then<C>(self, next: C) -> BoxMutator<T>where
Self: 'static,
C: Mutator<T> + 'static,
T: 'static,
Chains another mutator in sequence
Returns a new mutator that first executes the current operation, then
executes the next operation. Consumes the current closure and returns
BoxMutator<T>.
§Parameters
next- The mutator to execute after the current operation. Note: This parameter is passed by value and will transfer ownership. If you need to preserve the original mutator, clone it first (if it implementsClone). Can be:- A closure:
|x: &mut T| - A
BoxMutator<T> - An
ArcMutator<T> - An
RcMutator<T> - Any type implementing
Mutator<T>
- A closure:
§Returns
Returns the composed BoxMutator<T>
§Examples
use qubit_function::{Mutator, FnMutatorOps};
let chained = (|x: &mut i32| *x *= 2)
.and_then(|x: &mut i32| *x += 10);
let mut value = 5;
chained.apply(&mut value);
assert_eq!(value, 20);Examples found in repository?
examples/mutators/mutator_demo.rs (line 71)
27fn main() {
28 println!("=== Mutator Demo ===\n");
29
30 // ========================================================================
31 // Example 1: BoxMutator Basic Usage
32 // ========================================================================
33 println!("Example 1: BoxMutator Basic Usage");
34 println!("{}", "-".repeat(50));
35
36 let mutator = BoxMutator::new(|x: &mut i32| {
37 *x *= 2;
38 });
39 let mut value = 5;
40 println!("Initial value: {}", value);
41 mutator.apply(&mut value);
42 println!("After BoxMutator execution: {}\n", value);
43
44 // ========================================================================
45 // Example 2: BoxMutator Method Chaining
46 // ========================================================================
47 println!("Example 2: BoxMutator Method Chaining");
48 println!("{}", "-".repeat(50));
49
50 let chained = BoxMutator::new(|x: &mut i32| {
51 *x *= 2; // multiply by 2
52 })
53 .and_then(|x: &mut i32| {
54 *x += 10; // add 10
55 })
56 .and_then(|x: &mut i32| {
57 *x = *x * *x; // square
58 });
59
60 let mut value = 5;
61 println!("Initial value: {}", value);
62 chained.apply(&mut value);
63 println!("Result: {} (5 * 2 + 10 = 20, 20 * 20 = 400)\n", value);
64
65 // ========================================================================
66 // Example 3: Closure Extension Methods
67 // ========================================================================
68 println!("Example 3: Direct Use of Closure Extension Methods");
69 println!("{}", "-".repeat(50));
70
71 let closure_chain = (|x: &mut i32| *x *= 2).and_then(|x: &mut i32| *x += 10);
72
73 let mut value = 5;
74 println!("Initial value: {}", value);
75 closure_chain.apply(&mut value);
76 println!("Result: {} (5 * 2 + 10 = 20)\n", value);
77
78 // ========================================================================
79 // Example 4: BoxMutator Factory Methods
80 // ========================================================================
81 println!("Example 4: BoxMutator Factory Methods");
82 println!("{}", "-".repeat(50));
83
84 // noop
85 let noop = BoxMutator::<i32>::noop();
86 let mut value = 42;
87 println!("Before noop: {}", value);
88 noop.apply(&mut value);
89 println!("After noop: {} (unchanged)\n", value);
90
91 // ========================================================================
92 // Example 5: Conditional Mutator
93 // ========================================================================
94 println!("Example 5: Conditional Mutator");
95 println!("{}", "-".repeat(50));
96
97 // when (conditional execution)
98 let increment_if_positive = BoxMutator::new(|x: &mut i32| *x += 1).when(|x: &i32| *x > 0);
99
100 let mut positive = 5;
101 let mut negative = -5;
102 println!("Before when - positive: {}, negative: {}", positive, negative);
103 increment_if_positive.apply(&mut positive);
104 increment_if_positive.apply(&mut negative);
105 println!("After when - positive: {}, negative: {}\n", positive, negative);
106
107 // when().or_else() (conditional branching)
108 let adjust = BoxMutator::new(|x: &mut i32| *x *= 2)
109 .when(|x: &i32| *x > 0)
110 .or_else(|x: &mut i32| *x = -*x);
111
112 let mut positive = 10;
113 let mut negative = -10;
114 println!(
115 "Before when().or_else() - positive: {}, negative: {}",
116 positive, negative
117 );
118 adjust.apply(&mut positive);
119 adjust.apply(&mut negative);
120 println!(
121 "After when().or_else() - positive: {}, negative: {}\n",
122 positive, negative
123 );
124
125 // ========================================================================
126 // Example 6: ArcMutator - Multi-threaded Sharing
127 // ========================================================================
128 println!("Example 6: ArcMutator - Multi-threaded Sharing");
129 println!("{}", "-".repeat(50));
130
131 let shared = ArcMutator::new(|x: &mut i32| *x *= 2);
132
133 // Clone for another thread
134 let shared_clone = shared.clone();
135 let handle = thread::spawn(move || {
136 let mut value = 5;
137 let mutator = shared_clone;
138 mutator.apply(&mut value);
139 println!("In thread: 5 * 2 = {}", value);
140 value
141 });
142
143 // Use in main thread
144 let mut value = 3;
145 let mutator = shared;
146 mutator.apply(&mut value);
147 println!("Main thread: 3 * 2 = {}", value);
148
149 let thread_result = handle.join().expect("thread should not panic");
150 println!("Thread result: {}\n", thread_result);
151
152 // ========================================================================
153 // Example 7: ArcMutator Composition (without consuming original mutator)
154 // ========================================================================
155 println!("Example 7: ArcMutator Composition (borrowing &self)");
156 println!("{}", "-".repeat(50));
157
158 let double = ArcMutator::new(|x: &mut i32| *x *= 2);
159 let add_ten = ArcMutator::new(|x: &mut i32| *x += 10);
160
161 // Composition doesn't consume the original mutator
162 let pipeline1 = double.and_then(add_ten.clone());
163 let pipeline2 = add_ten.and_then(double.clone());
164
165 let mut value1 = 5;
166 let p1 = pipeline1;
167 p1.apply(&mut value1);
168 println!("pipeline1 (double then add): 5 -> {}", value1);
169
170 let mut value2 = 5;
171 let p2 = pipeline2;
172 p2.apply(&mut value2);
173 println!("pipeline2 (add then double): 5 -> {}", value2);
174
175 // double and add_ten are still available
176 let mut value3 = 10;
177 let d = double;
178 d.apply(&mut value3);
179 println!("Original double still available: 10 -> {}\n", value3);
180
181 // ========================================================================
182 // Example 8: RcMutator - Single-threaded Sharing
183 // ========================================================================
184 println!("Example 8: RcMutator - Single-threaded Sharing");
185 println!("{}", "-".repeat(50));
186
187 let rc_mutator = RcMutator::new(|x: &mut i32| *x *= 2);
188
189 // Clone multiple copies
190 let clone1 = rc_mutator.clone();
191 let clone2 = rc_mutator.clone();
192
193 let mut value1 = 5;
194 let c1 = clone1;
195 c1.apply(&mut value1);
196 println!("clone1: 5 -> {}", value1);
197
198 let mut value2 = 3;
199 let c2 = clone2;
200 c2.apply(&mut value2);
201 println!("clone2: 3 -> {}", value2);
202
203 let mut value3 = 7;
204 let c3 = rc_mutator;
205 c3.apply(&mut value3);
206 println!("Original: 7 -> {}\n", value3);
207
208 // ========================================================================
209 // Example 9: RcMutator Composition (borrowing &self)
210 // ========================================================================
211 println!("Example 9: RcMutator Composition (borrowing &self)");
212 println!("{}", "-".repeat(50));
213
214 let double = RcMutator::new(|x: &mut i32| *x *= 2);
215 let add_ten = RcMutator::new(|x: &mut i32| *x += 10);
216
217 let pipeline1 = double.and_then(add_ten.clone());
218 let pipeline2 = add_ten.and_then(double.clone());
219
220 let mut value1 = 5;
221 let p1 = pipeline1;
222 p1.apply(&mut value1);
223 println!("pipeline1 (double then add): 5 -> {}", value1);
224
225 let mut value2 = 5;
226 let p2 = pipeline2;
227 p2.apply(&mut value2);
228 println!("pipeline2 (add then double): 5 -> {}\n", value2);
229
230 // ========================================================================
231 // Example 10: Unified Mutator trait
232 // ========================================================================
233 println!("Example 10: Unified Mutator trait");
234 println!("{}", "-".repeat(50));
235
236 fn apply_to_all<M: Mutator<i32>>(mutator: &mut M, values: &mut [i32]) {
237 for value in values.iter_mut() {
238 mutator.apply(value);
239 }
240 }
241
242 let mut values1 = vec![1, 2, 3, 4, 5];
243 let mut box_mut = BoxMutator::new(|x: &mut i32| *x *= 2);
244 println!("Using BoxMutator: {:?}", values1);
245 apply_to_all(&mut box_mut, &mut values1);
246 println!("Result: {:?}", values1);
247
248 let mut values2 = vec![1, 2, 3, 4, 5];
249 let mut arc_mut = ArcMutator::new(|x: &mut i32| *x *= 2);
250 println!("Using ArcMutator: {:?}", values2);
251 apply_to_all(&mut arc_mut, &mut values2);
252 println!("Result: {:?}", values2);
253
254 let mut values3 = vec![1, 2, 3, 4, 5];
255 let mut rc_mut = RcMutator::new(|x: &mut i32| *x *= 2);
256 println!("Using RcMutator: {:?}", values3);
257 apply_to_all(&mut rc_mut, &mut values3);
258 println!("Result: {:?}", values3);
259
260 let mut values4 = vec![1, 2, 3, 4, 5];
261 let mut closure = |x: &mut i32| *x *= 2;
262 println!("Using closure: {:?}", values4);
263 apply_to_all(&mut closure, &mut values4);
264 println!("Result: {:?}\n", values4);
265
266 // ========================================================================
267 // Example 11: Complex Data Processing Pipeline
268 // ========================================================================
269 println!("Example 11: Complex Data Processing Pipeline");
270 println!("{}", "-".repeat(50));
271
272 let pipeline = BoxMutator::new(|x: &mut i32| {
273 // Validation: clamp to 0-100
274 *x = (*x).clamp(0, 100);
275 })
276 .and_then(|x: &mut i32| {
277 // Normalization: scale to 0-10
278 *x /= 10;
279 })
280 .and_then(|x: &mut i32| {
281 // Transformation: square
282 *x = *x * *x;
283 });
284
285 let mut value1 = -50;
286 pipeline.apply(&mut value1);
287 println!("-50 -> {}", value1);
288
289 let mut value2 = 200;
290 pipeline.apply(&mut value2);
291 println!("200 -> {}", value2);
292
293 let mut value3 = 30;
294 pipeline.apply(&mut value3);
295 println!("30 -> {}\n", value3);
296
297 // ========================================================================
298 // Example 12: String Processing
299 // ========================================================================
300 println!("Example 12: String Processing");
301 println!("{}", "-".repeat(50));
302
303 let string_processor = BoxMutator::new(|s: &mut String| s.retain(|c| !c.is_whitespace()))
304 .and_then(|s: &mut String| *s = s.to_lowercase())
305 .and_then(|s: &mut String| s.push_str("!!!"));
306
307 let mut text = String::from("Hello World");
308 println!("Original: {}", text);
309 string_processor.apply(&mut text);
310 println!("After processing: {}\n", text);
311
312 // ========================================================================
313 // Example 13: Type Conversion
314 // ========================================================================
315 println!("Example 13: Type Conversion");
316 println!("{}", "-".repeat(50));
317
318 // Closure -> BoxMutator
319 let closure = |x: &mut i32| *x *= 2;
320 let box_mut = closure.into_box();
321 let mut value = 5;
322 box_mut.apply(&mut value);
323 println!("Closure -> BoxMutator: 5 -> {}", value);
324
325 // Closure -> RcMutator
326 let closure = |x: &mut i32| *x *= 2;
327 let rc_mut = closure.into_rc();
328 let mut value = 5;
329 rc_mut.apply(&mut value);
330 println!("Closure -> RcMutator: 5 -> {}", value);
331
332 // Closure -> ArcMutator
333 let closure = |x: &mut i32| *x *= 2;
334 let arc_mut = closure.into_arc();
335 let mut value = 5;
336 arc_mut.apply(&mut value);
337 println!("Closure -> ArcMutator: 5 -> {}", value);
338
339 // BoxMutator -> RcMutator
340 let box_mut = BoxMutator::new(|x: &mut i32| *x *= 2);
341 let rc_mut = box_mut.into_rc();
342 let mut value = 5;
343 rc_mut.apply(&mut value);
344 println!("BoxMutator -> RcMutator: 5 -> {}", value);
345
346 // RcMutator -> BoxMutator
347 let rc_mut = RcMutator::new(|x: &mut i32| *x *= 2);
348 let box_mut = rc_mut.into_box();
349 let mut value = 5;
350 box_mut.apply(&mut value);
351 println!("RcMutator -> BoxMutator: 5 -> {}\n", value);
352
353 // ========================================================================
354 // Example 14: Custom Types
355 // ========================================================================
356 println!("Example 14: Custom Types");
357 println!("{}", "-".repeat(50));
358
359 #[derive(Debug, Clone)]
360 struct Point {
361 x: i32,
362 y: i32,
363 }
364
365 let processor = BoxMutator::new(|p: &mut Point| p.x *= 2)
366 .and_then(|p: &mut Point| p.y *= 2)
367 .and_then(|p: &mut Point| p.x += p.y);
368
369 let mut point = Point { x: 3, y: 4 };
370 println!("Original point: {:?}", point);
371 processor.apply(&mut point);
372 println!("After processing: {:?}\n", point);
373
374 println!("=== All Examples Completed ===");
375}Dyn Compatibility§
This trait is not dyn compatible.
In older versions of Rust, dyn compatibility was called "object safety".
Implementors§
impl<T, F> FnMutatorOps<T> for F
Implements FnMutatorOps for all closure types