Struct ArcPredicate

Source

pub struct ArcPredicate<T> { /* private fields */ }

Expand description

An Arc-based predicate with thread-safe shared ownership.

This type is suitable for scenarios where the predicate needs to be shared across threads. Composition methods borrow &self, allowing the original predicate to remain usable after composition.

§Examples

use qubit_function::{Predicate, ArcPredicate};

let pred = ArcPredicate::new(|x: &i32| *x > 0);
assert!(pred.test(&5));

// Original predicate remains usable after composition
let combined = pred.and(ArcPredicate::new(|x| x % 2 == 0));
assert!(pred.test(&5));  // Still works

// Can be cloned and sent across threads
let pred_clone = pred.clone();
std::thread::spawn(move || {
    assert!(pred_clone.test(&10));
}).join().expect("thread should not panic");

Implementations§

Source §

impl<T> ArcPredicate<T>

Source

pub fn new<F>(f: F) -> Self
where F: Fn(&T) -> bool + Send + Sync + 'static,

Creates a new predicate.

Wraps the provided closure in the appropriate smart pointer type for this predicate implementation.

Examples found in repository ?

examples/predicates/predicate_fn_mut_demo.rs (line 89)

86fn demo_thread_safe() {
87    println!("4. Thread-safe usage");
88
89    let pred = ArcPredicate::new(|x: &i32| *x > 0);
90    // clone and convert into a 'static closure so it can be moved to another thread
91    let closure = pred.clone().into_fn();
92
93    // Closure can be passed between threads
94    let handle = std::thread::spawn(move || {
95        let numbers = [-2, -1, 0, 1, 2, 3];
96        numbers.iter().copied().filter(closure).count()
97    });
98
99    let count = handle.join().expect("thread should not panic");
100    println!("   Filtered result count in thread: {}", count);
101    assert_eq!(count, 3);
102
103    // Original predicate is still available
104    assert!(pred.test(&5));
105    println!("   ✓ ArcPredicate::to_fn() returns a thread-safe closure");
106    println!("   ✓ Original predicate is still available in main thread\n");
107}

More examples

Hide additional examples

examples/predicates/predicate_demo.rs (line 130)

127fn arc_predicate_examples() {
128    println!("--- 4. ArcPredicate Examples (Multi-threaded Scenarios) ---");
129
130    let is_positive = ArcPredicate::new(|x: &i32| *x > 0);
131    let is_even = ArcPredicate::new(|x: &i32| x % 2 == 0);
132
133    // Create combined predicate
134    let combined = is_positive.and(is_even);
135
136    // Use in multiple threads
137    let handles: Vec<_> = (0..3)
138        .map(|i| {
139            let pred = combined.clone();
140            std::thread::spawn(move || {
141                let value = i * 2;
142                println!("  Thread {} testing {}: {}", i, value, pred.test(&value));
143            })
144        })
145        .collect();
146
147    for handle in handles {
148        handle.join().expect("thread should not panic");
149    }
150
151    // Original predicates still usable
152    println!("Original predicates still available in main thread:");
153    println!("  is_positive.test(&5) = {}", is_positive.test(&5));
154}
155
156/// Logical composition examples
157fn logical_composition_examples() {
158    println!("--- 5. Logical Composition Examples ---");
159
160    let positive = RcPredicate::new_with_name("positive", |x: &i32| *x > 0);
161    let even = RcPredicate::new_with_name("even", |x: &i32| x % 2 == 0);
162    let less_than_ten = RcPredicate::new_with_name("less_than_ten", |x: &i32| *x < 10);
163
164    // AND composition
165    let positive_and_even = positive.and(even.clone());
166    println!("positive AND even: name={:?}", positive_and_even.name());
167    println!("  Test 4: {}", positive_and_even.test(&4));
168    println!("  Test 5: {}", positive_and_even.test(&5));
169
170    // OR composition
171    let positive_or_even = positive.or(even.clone());
172    println!("positive OR even: name={:?}", positive_or_even.name());
173    println!("  Test -2: {}", positive_or_even.test(&-2));
174    println!("  Test 5: {}", positive_or_even.test(&5));
175
176    // NOT composition
177    let not_positive = !&positive;
178    println!("NOT positive: name={:?}", not_positive.name());
179    println!("  Test 5: {}", not_positive.test(&5));
180    println!("  Test -3: {}", not_positive.test(&-3));
181
182    // NAND composition
183    let nand = positive.nand(even.clone());
184    println!("positive NAND even: name={:?}", nand.name());
185    println!("  Test 3: {}", nand.test(&3)); // true NAND false = true
186    println!("  Test 4: {}", nand.test(&4)); // true NAND true = false
187
188    // XOR composition
189    let xor = positive.xor(even.clone());
190    println!("positive XOR even: name={:?}", xor.name());
191    println!("  Test 3: {}", xor.test(&3)); // true XOR false = true
192    println!("  Test 4: {}", xor.test(&4)); // true XOR true = false
193    println!("  Test -2: {}", xor.test(&-2)); // false XOR true = true
194
195    // NOR composition
196    let nor = positive.nor(even.clone());
197    println!("positive NOR even: name={:?}", nor.name());
198    println!("  Test -3: {}", nor.test(&-3)); // false NOR false = true
199    println!("  Test 3: {}", nor.test(&3)); // true NOR false = false
200    println!("  Test -2: {}", nor.test(&-2)); // false NOR true = false
201    println!("  Test 4: {}", nor.test(&4)); // true NOR true = false
202
203    // Complex composition
204    let complex = positive.and(even.clone()).and(less_than_ten.clone());
205    println!("Complex composition: name={:?}", complex.name());
206    println!("  Test 4: {}", complex.test(&4));
207    println!("  Test 12: {}", complex.test(&12));
208}
209
210/// Interior mutability examples
211fn interior_mutability_examples() {
212    println!("--- 6. Interior Mutability Examples ---");
213
214    // BoxPredicate with counter (RefCell)
215    println!("BoxPredicate with counter:");
216    let count = RefCell::new(0);
217    let pred = BoxPredicate::new(move |x: &i32| {
218        *count.borrow_mut() += 1;
219        *x > 0
220    });
221    println!("  Test 5: {}", pred.test(&5));
222    println!("  Test -3: {}", pred.test(&-3));
223    println!("  Test 10: {}", pred.test(&10));
224    // Note: count is moved into the closure, so we can't access it here
225
226    // RcPredicate with cache (RefCell + HashMap)
227    println!("\nRcPredicate with cache:");
228    let cache: RefCell<HashMap<i32, bool>> = RefCell::new(HashMap::new());
229    let expensive_pred = RcPredicate::new(move |x: &i32| {
230        let mut c = cache.borrow_mut();
231        *c.entry(*x).or_insert_with(|| {
232            println!("    Computing result for {} (expensive operation)", x);
233            *x > 0 && x % 2 == 0
234        })
235    });
236
237    println!("  First test 4:");
238    println!("    Result: {}", expensive_pred.test(&4));
239    println!("  Test 4 again (using cache):");
240    println!("    Result: {}", expensive_pred.test(&4));
241    println!("  Test 3:");
242    println!("    Result: {}", expensive_pred.test(&3));
243
244    // ArcPredicate with thread-safe counter (Mutex)
245    println!("\nArcPredicate with thread-safe counter:");
246    let counter = Arc::new(Mutex::new(0));
247    let pred = ArcPredicate::new({
248        let counter = Arc::clone(&counter);
249        move |x: &i32| {
250            let mut c = counter.lock().expect("mutex should not be poisoned");
251            *c += 1;
252            *x > 0
253        }
254    });
255
256    let pred_clone = pred.clone();
257    let counter_clone = Arc::clone(&counter);
258
259    let handle = std::thread::spawn(move || {
260        pred_clone.test(&5);
261        pred_clone.test(&10);
262    });
263
264    pred.test(&3);
265    handle.join().expect("thread should not panic");
266
267    println!(
268        "  Total call count: {}",
269        counter_clone.lock().expect("mutex should not be poisoned")
270    );
271}

examples/predicates/predicate_set_name_demo.rs (line 93)

81fn demo_arc_predicate() {
82    println!("3. ArcPredicate Naming Functionality (Thread-Safe)");
83
84    // Using new_with_name
85    let pred1 = ArcPredicate::new_with_name("is_uppercase", |s: &String| {
86        s.chars().all(|c| c.is_uppercase() || !c.is_alphabetic())
87    });
88    println!("   Using new_with_name:");
89    println!("     Name: {:?}", pred1.name());
90    println!("     Test 'HELLO': {}", pred1.test(&"HELLO".to_string()));
91
92    // Using set_name
93    let mut pred2 = ArcPredicate::new(|s: &String| s.len() > 5);
94    println!("\n   Using set_name:");
95    println!("     Initial name: {:?}", pred2.name());
96    pred2.set_name("longer_than_5");
97    println!("     Name after setting: {:?}", pred2.name());
98    println!("     Test 'Hello World': {}", pred2.test(&"Hello World".to_string()));
99
100    // Name is preserved when sharing between threads
101    let pred3 = pred2.clone();
102    let handle = std::thread::spawn(move || {
103        let name = pred3.name().map(str::to_string);
104        let result = pred3.test(&"Threading".to_string());
105        (name, result)
106    });
107
108    let (name, result) = handle.join().expect("thread should not panic");
109    println!("\n   Accessing from thread:");
110    println!("     Name in thread: {:?}", name);
111    println!("     Test 'Threading' in thread: {}", result);
112
113    // Original predicate is still available
114    println!("\n   Original predicate still available:");
115    println!("     Original name: {:?}", pred2.name());
116    println!("     Test 'Rust': {}\n", pred2.test(&"Rust".to_string()));
117}

Source

pub fn new_with_name<F>(name: &str, f: F) -> Self
where F: Fn(&T) -> bool + Send + Sync + 'static,

Creates a new named predicate.

Wraps the provided closure and assigns it a name, which is useful for debugging and logging purposes.

Examples found in repository ?

examples/predicates/predicate_set_name_demo.rs (lines 85-87)

81fn demo_arc_predicate() {
82    println!("3. ArcPredicate Naming Functionality (Thread-Safe)");
83
84    // Using new_with_name
85    let pred1 = ArcPredicate::new_with_name("is_uppercase", |s: &String| {
86        s.chars().all(|c| c.is_uppercase() || !c.is_alphabetic())
87    });
88    println!("   Using new_with_name:");
89    println!("     Name: {:?}", pred1.name());
90    println!("     Test 'HELLO': {}", pred1.test(&"HELLO".to_string()));
91
92    // Using set_name
93    let mut pred2 = ArcPredicate::new(|s: &String| s.len() > 5);
94    println!("\n   Using set_name:");
95    println!("     Initial name: {:?}", pred2.name());
96    pred2.set_name("longer_than_5");
97    println!("     Name after setting: {:?}", pred2.name());
98    println!("     Test 'Hello World': {}", pred2.test(&"Hello World".to_string()));
99
100    // Name is preserved when sharing between threads
101    let pred3 = pred2.clone();
102    let handle = std::thread::spawn(move || {
103        let name = pred3.name().map(str::to_string);
104        let result = pred3.test(&"Threading".to_string());
105        (name, result)
106    });
107
108    let (name, result) = handle.join().expect("thread should not panic");
109    println!("\n   Accessing from thread:");
110    println!("     Name in thread: {:?}", name);
111    println!("     Test 'Threading' in thread: {}", result);
112
113    // Original predicate is still available
114    println!("\n   Original predicate still available:");
115    println!("     Original name: {:?}", pred2.name());
116    println!("     Test 'Rust': {}\n", pred2.test(&"Rust".to_string()));
117}

Source

pub fn new_with_optional_name<F>(f: F, name: Option<String>) -> Self
where F: Fn(&T) -> bool + Send + Sync + 'static,

Creates a new named predicate with an optional name.

Wraps the provided closure and assigns it an optional name.

Source

pub fn name(&self) -> Option<&str>

Gets the name of this predicate.

§Returns

Returns Some(&str) if a name was set, None otherwise.

Examples found in repository ?

examples/predicates/predicate_set_name_demo.rs (line 89)

81fn demo_arc_predicate() {
82    println!("3. ArcPredicate Naming Functionality (Thread-Safe)");
83
84    // Using new_with_name
85    let pred1 = ArcPredicate::new_with_name("is_uppercase", |s: &String| {
86        s.chars().all(|c| c.is_uppercase() || !c.is_alphabetic())
87    });
88    println!("   Using new_with_name:");
89    println!("     Name: {:?}", pred1.name());
90    println!("     Test 'HELLO': {}", pred1.test(&"HELLO".to_string()));
91
92    // Using set_name
93    let mut pred2 = ArcPredicate::new(|s: &String| s.len() > 5);
94    println!("\n   Using set_name:");
95    println!("     Initial name: {:?}", pred2.name());
96    pred2.set_name("longer_than_5");
97    println!("     Name after setting: {:?}", pred2.name());
98    println!("     Test 'Hello World': {}", pred2.test(&"Hello World".to_string()));
99
100    // Name is preserved when sharing between threads
101    let pred3 = pred2.clone();
102    let handle = std::thread::spawn(move || {
103        let name = pred3.name().map(str::to_string);
104        let result = pred3.test(&"Threading".to_string());
105        (name, result)
106    });
107
108    let (name, result) = handle.join().expect("thread should not panic");
109    println!("\n   Accessing from thread:");
110    println!("     Name in thread: {:?}", name);
111    println!("     Test 'Threading' in thread: {}", result);
112
113    // Original predicate is still available
114    println!("\n   Original predicate still available:");
115    println!("     Original name: {:?}", pred2.name());
116    println!("     Test 'Rust': {}\n", pred2.test(&"Rust".to_string()));
117}

More examples

Hide additional examples

examples/predicates/always_predicate_demo.rs (line 68)

17fn main() {
18    println!("=== BoxPredicate always_true/always_false Demo ===\n");
19
20    // BoxPredicate::always_true
21    let always_true: BoxPredicate<i32> = BoxPredicate::always_true();
22    println!("BoxPredicate::always_true():");
23    println!("  test(&42): {}", always_true.test(&42));
24    println!("  test(&-1): {}", always_true.test(&-1));
25    println!("  test(&0): {}", always_true.test(&0));
26    println!("  name: {:?}", always_true.name());
27
28    // BoxPredicate::always_false
29    let always_false: BoxPredicate<i32> = BoxPredicate::always_false();
30    println!("\nBoxPredicate::always_false():");
31    println!("  test(&42): {}", always_false.test(&42));
32    println!("  test(&-1): {}", always_false.test(&-1));
33    println!("  test(&0): {}", always_false.test(&0));
34    println!("  name: {:?}", always_false.name());
35
36    println!("\n=== RcPredicate always_true/always_false Demo ===\n");
37
38    // RcPredicate::always_true
39    let rc_always_true: RcPredicate<String> = RcPredicate::always_true();
40    println!("RcPredicate::always_true():");
41    println!("  test(&\"hello\"): {}", rc_always_true.test(&"hello".to_string()));
42    println!("  test(&\"world\"): {}", rc_always_true.test(&"world".to_string()));
43    println!("  name: {:?}", rc_always_true.name());
44
45    // RcPredicate::always_false
46    let rc_always_false: RcPredicate<String> = RcPredicate::always_false();
47    println!("\nRcPredicate::always_false():");
48    println!("  test(&\"hello\"): {}", rc_always_false.test(&"hello".to_string()));
49    println!("  test(&\"world\"): {}", rc_always_false.test(&"world".to_string()));
50    println!("  name: {:?}", rc_always_false.name());
51
52    // Can be cloned and reused
53    let rc_clone = rc_always_true.clone();
54    println!("\nAfter cloning, still usable:");
55    println!(
56        "  Original: test(&\"test\"): {}",
57        rc_always_true.test(&"test".to_string())
58    );
59    println!("  Clone: test(&\"test\"): {}", rc_clone.test(&"test".to_string()));
60
61    println!("\n=== ArcPredicate always_true/always_false Demo ===\n");
62
63    // ArcPredicate::always_true
64    let arc_always_true: ArcPredicate<i32> = ArcPredicate::always_true();
65    println!("ArcPredicate::always_true():");
66    println!("  test(&100): {}", arc_always_true.test(&100));
67    println!("  test(&-100): {}", arc_always_true.test(&-100));
68    println!("  name: {:?}", arc_always_true.name());
69
70    // ArcPredicate::always_false
71    let arc_always_false: ArcPredicate<i32> = ArcPredicate::always_false();
72    println!("\nArcPredicate::always_false():");
73    println!("  test(&100): {}", arc_always_false.test(&100));
74    println!("  test(&-100): {}", arc_always_false.test(&-100));
75    println!("  name: {:?}", arc_always_false.name());
76
77    println!("\n=== Combining with other predicates ===\n");
78
79    // Combining with always_true (AND)
80    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
81    let combined_and_true = is_positive.and(BoxPredicate::always_true());
82    println!("is_positive AND always_true:");
83    println!("  test(&5): {} (equivalent to is_positive)", combined_and_true.test(&5));
84    println!(
85        "  test(&-3): {} (equivalent to is_positive)",
86        combined_and_true.test(&-3)
87    );
88
89    // Combining with always_false (AND)
90    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
91    let combined_and_false = is_positive.and(BoxPredicate::always_false());
92    println!("\nis_positive AND always_false:");
93    println!("  test(&5): {} (always false)", combined_and_false.test(&5));
94    println!("  test(&-3): {} (always false)", combined_and_false.test(&-3));
95
96    // Combining with always_true (OR)
97    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
98    let combined_or_true = is_positive.or(BoxPredicate::always_true());
99    println!("\nis_positive OR always_true:");
100    println!("  test(&5): {} (always true)", combined_or_true.test(&5));
101    println!("  test(&-3): {} (always true)", combined_or_true.test(&-3));
102
103    // Combining with always_false (OR)
104    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
105    let combined_or_false = is_positive.or(BoxPredicate::always_false());
106    println!("\nis_positive OR always_false:");
107    println!("  test(&5): {} (equivalent to is_positive)", combined_or_false.test(&5));
108    println!(
109        "  test(&-3): {} (equivalent to is_positive)",
110        combined_or_false.test(&-3)
111    );
112
113    println!("\n=== Practical scenarios: Default pass/reject filters ===\n");
114
115    // Scenario 1: Default pass-all filter
116    let numbers = vec![1, 2, 3, 4, 5];
117    let pass_all = BoxPredicate::<i32>::always_true();
118    let filtered: Vec<_> = numbers.iter().copied().filter(pass_all.into_fn()).collect();
119    println!("Default pass all elements: {:?} -> {:?}", numbers, filtered);
120
121    // Scenario 2: Default reject-all filter
122    let numbers = vec![1, 2, 3, 4, 5];
123    let reject_all = BoxPredicate::<i32>::always_false();
124    let filtered: Vec<_> = numbers.iter().copied().filter(reject_all.into_fn()).collect();
125    println!("Default reject all elements: {:?} -> {:?}", numbers, filtered);
126
127    // Scenario 3: Configurable filter
128    fn configurable_filter(enable_filter: bool) -> BoxPredicate<i32> {
129        if enable_filter {
130            BoxPredicate::new(|x: &i32| *x > 3)
131        } else {
132            BoxPredicate::always_true()
133        }
134    }
135
136    let numbers = vec![1, 2, 3, 4, 5];
137
138    let filter_enabled = configurable_filter(true);
139    let filtered: Vec<_> = numbers.iter().copied().filter(filter_enabled.into_fn()).collect();
140    println!("\nFilter enabled: {:?} -> {:?}", numbers, filtered);
141
142    let filter_disabled = configurable_filter(false);
143    let filtered: Vec<_> = numbers.iter().copied().filter(filter_disabled.into_fn()).collect();
144    println!("Filter disabled: {:?} -> {:?}", numbers, filtered);
145}

Source

pub fn set_name(&mut self, name: &str)

Sets the name of this predicate.

§Parameters

name - The name to set for this predicate

Examples found in repository ?

examples/predicates/predicate_set_name_demo.rs (line 96)

81fn demo_arc_predicate() {
82    println!("3. ArcPredicate Naming Functionality (Thread-Safe)");
83
84    // Using new_with_name
85    let pred1 = ArcPredicate::new_with_name("is_uppercase", |s: &String| {
86        s.chars().all(|c| c.is_uppercase() || !c.is_alphabetic())
87    });
88    println!("   Using new_with_name:");
89    println!("     Name: {:?}", pred1.name());
90    println!("     Test 'HELLO': {}", pred1.test(&"HELLO".to_string()));
91
92    // Using set_name
93    let mut pred2 = ArcPredicate::new(|s: &String| s.len() > 5);
94    println!("\n   Using set_name:");
95    println!("     Initial name: {:?}", pred2.name());
96    pred2.set_name("longer_than_5");
97    println!("     Name after setting: {:?}", pred2.name());
98    println!("     Test 'Hello World': {}", pred2.test(&"Hello World".to_string()));
99
100    // Name is preserved when sharing between threads
101    let pred3 = pred2.clone();
102    let handle = std::thread::spawn(move || {
103        let name = pred3.name().map(str::to_string);
104        let result = pred3.test(&"Threading".to_string());
105        (name, result)
106    });
107
108    let (name, result) = handle.join().expect("thread should not panic");
109    println!("\n   Accessing from thread:");
110    println!("     Name in thread: {:?}", name);
111    println!("     Test 'Threading' in thread: {}", result);
112
113    // Original predicate is still available
114    println!("\n   Original predicate still available:");
115    println!("     Original name: {:?}", pred2.name());
116    println!("     Test 'Rust': {}\n", pred2.test(&"Rust".to_string()));
117}

Source

pub fn clear_name(&mut self)

Clears the name of this predicate.

Source

pub fn always_true() -> Self

Creates a predicate that always returns true.

§Returns

A new ArcPredicate that always returns true.

Examples found in repository ?

examples/predicates/always_predicate_demo.rs (line 64)

17fn main() {
18    println!("=== BoxPredicate always_true/always_false Demo ===\n");
19
20    // BoxPredicate::always_true
21    let always_true: BoxPredicate<i32> = BoxPredicate::always_true();
22    println!("BoxPredicate::always_true():");
23    println!("  test(&42): {}", always_true.test(&42));
24    println!("  test(&-1): {}", always_true.test(&-1));
25    println!("  test(&0): {}", always_true.test(&0));
26    println!("  name: {:?}", always_true.name());
27
28    // BoxPredicate::always_false
29    let always_false: BoxPredicate<i32> = BoxPredicate::always_false();
30    println!("\nBoxPredicate::always_false():");
31    println!("  test(&42): {}", always_false.test(&42));
32    println!("  test(&-1): {}", always_false.test(&-1));
33    println!("  test(&0): {}", always_false.test(&0));
34    println!("  name: {:?}", always_false.name());
35
36    println!("\n=== RcPredicate always_true/always_false Demo ===\n");
37
38    // RcPredicate::always_true
39    let rc_always_true: RcPredicate<String> = RcPredicate::always_true();
40    println!("RcPredicate::always_true():");
41    println!("  test(&\"hello\"): {}", rc_always_true.test(&"hello".to_string()));
42    println!("  test(&\"world\"): {}", rc_always_true.test(&"world".to_string()));
43    println!("  name: {:?}", rc_always_true.name());
44
45    // RcPredicate::always_false
46    let rc_always_false: RcPredicate<String> = RcPredicate::always_false();
47    println!("\nRcPredicate::always_false():");
48    println!("  test(&\"hello\"): {}", rc_always_false.test(&"hello".to_string()));
49    println!("  test(&\"world\"): {}", rc_always_false.test(&"world".to_string()));
50    println!("  name: {:?}", rc_always_false.name());
51
52    // Can be cloned and reused
53    let rc_clone = rc_always_true.clone();
54    println!("\nAfter cloning, still usable:");
55    println!(
56        "  Original: test(&\"test\"): {}",
57        rc_always_true.test(&"test".to_string())
58    );
59    println!("  Clone: test(&\"test\"): {}", rc_clone.test(&"test".to_string()));
60
61    println!("\n=== ArcPredicate always_true/always_false Demo ===\n");
62
63    // ArcPredicate::always_true
64    let arc_always_true: ArcPredicate<i32> = ArcPredicate::always_true();
65    println!("ArcPredicate::always_true():");
66    println!("  test(&100): {}", arc_always_true.test(&100));
67    println!("  test(&-100): {}", arc_always_true.test(&-100));
68    println!("  name: {:?}", arc_always_true.name());
69
70    // ArcPredicate::always_false
71    let arc_always_false: ArcPredicate<i32> = ArcPredicate::always_false();
72    println!("\nArcPredicate::always_false():");
73    println!("  test(&100): {}", arc_always_false.test(&100));
74    println!("  test(&-100): {}", arc_always_false.test(&-100));
75    println!("  name: {:?}", arc_always_false.name());
76
77    println!("\n=== Combining with other predicates ===\n");
78
79    // Combining with always_true (AND)
80    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
81    let combined_and_true = is_positive.and(BoxPredicate::always_true());
82    println!("is_positive AND always_true:");
83    println!("  test(&5): {} (equivalent to is_positive)", combined_and_true.test(&5));
84    println!(
85        "  test(&-3): {} (equivalent to is_positive)",
86        combined_and_true.test(&-3)
87    );
88
89    // Combining with always_false (AND)
90    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
91    let combined_and_false = is_positive.and(BoxPredicate::always_false());
92    println!("\nis_positive AND always_false:");
93    println!("  test(&5): {} (always false)", combined_and_false.test(&5));
94    println!("  test(&-3): {} (always false)", combined_and_false.test(&-3));
95
96    // Combining with always_true (OR)
97    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
98    let combined_or_true = is_positive.or(BoxPredicate::always_true());
99    println!("\nis_positive OR always_true:");
100    println!("  test(&5): {} (always true)", combined_or_true.test(&5));
101    println!("  test(&-3): {} (always true)", combined_or_true.test(&-3));
102
103    // Combining with always_false (OR)
104    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
105    let combined_or_false = is_positive.or(BoxPredicate::always_false());
106    println!("\nis_positive OR always_false:");
107    println!("  test(&5): {} (equivalent to is_positive)", combined_or_false.test(&5));
108    println!(
109        "  test(&-3): {} (equivalent to is_positive)",
110        combined_or_false.test(&-3)
111    );
112
113    println!("\n=== Practical scenarios: Default pass/reject filters ===\n");
114
115    // Scenario 1: Default pass-all filter
116    let numbers = vec![1, 2, 3, 4, 5];
117    let pass_all = BoxPredicate::<i32>::always_true();
118    let filtered: Vec<_> = numbers.iter().copied().filter(pass_all.into_fn()).collect();
119    println!("Default pass all elements: {:?} -> {:?}", numbers, filtered);
120
121    // Scenario 2: Default reject-all filter
122    let numbers = vec![1, 2, 3, 4, 5];
123    let reject_all = BoxPredicate::<i32>::always_false();
124    let filtered: Vec<_> = numbers.iter().copied().filter(reject_all.into_fn()).collect();
125    println!("Default reject all elements: {:?} -> {:?}", numbers, filtered);
126
127    // Scenario 3: Configurable filter
128    fn configurable_filter(enable_filter: bool) -> BoxPredicate<i32> {
129        if enable_filter {
130            BoxPredicate::new(|x: &i32| *x > 3)
131        } else {
132            BoxPredicate::always_true()
133        }
134    }
135
136    let numbers = vec![1, 2, 3, 4, 5];
137
138    let filter_enabled = configurable_filter(true);
139    let filtered: Vec<_> = numbers.iter().copied().filter(filter_enabled.into_fn()).collect();
140    println!("\nFilter enabled: {:?} -> {:?}", numbers, filtered);
141
142    let filter_disabled = configurable_filter(false);
143    let filtered: Vec<_> = numbers.iter().copied().filter(filter_disabled.into_fn()).collect();
144    println!("Filter disabled: {:?} -> {:?}", numbers, filtered);
145}

Source

pub fn always_false() -> Self

Creates a predicate that always returns false.

§Returns

A new ArcPredicate that always returns false.

Examples found in repository ?

examples/predicates/always_predicate_demo.rs (line 71)

17fn main() {
18    println!("=== BoxPredicate always_true/always_false Demo ===\n");
19
20    // BoxPredicate::always_true
21    let always_true: BoxPredicate<i32> = BoxPredicate::always_true();
22    println!("BoxPredicate::always_true():");
23    println!("  test(&42): {}", always_true.test(&42));
24    println!("  test(&-1): {}", always_true.test(&-1));
25    println!("  test(&0): {}", always_true.test(&0));
26    println!("  name: {:?}", always_true.name());
27
28    // BoxPredicate::always_false
29    let always_false: BoxPredicate<i32> = BoxPredicate::always_false();
30    println!("\nBoxPredicate::always_false():");
31    println!("  test(&42): {}", always_false.test(&42));
32    println!("  test(&-1): {}", always_false.test(&-1));
33    println!("  test(&0): {}", always_false.test(&0));
34    println!("  name: {:?}", always_false.name());
35
36    println!("\n=== RcPredicate always_true/always_false Demo ===\n");
37
38    // RcPredicate::always_true
39    let rc_always_true: RcPredicate<String> = RcPredicate::always_true();
40    println!("RcPredicate::always_true():");
41    println!("  test(&\"hello\"): {}", rc_always_true.test(&"hello".to_string()));
42    println!("  test(&\"world\"): {}", rc_always_true.test(&"world".to_string()));
43    println!("  name: {:?}", rc_always_true.name());
44
45    // RcPredicate::always_false
46    let rc_always_false: RcPredicate<String> = RcPredicate::always_false();
47    println!("\nRcPredicate::always_false():");
48    println!("  test(&\"hello\"): {}", rc_always_false.test(&"hello".to_string()));
49    println!("  test(&\"world\"): {}", rc_always_false.test(&"world".to_string()));
50    println!("  name: {:?}", rc_always_false.name());
51
52    // Can be cloned and reused
53    let rc_clone = rc_always_true.clone();
54    println!("\nAfter cloning, still usable:");
55    println!(
56        "  Original: test(&\"test\"): {}",
57        rc_always_true.test(&"test".to_string())
58    );
59    println!("  Clone: test(&\"test\"): {}", rc_clone.test(&"test".to_string()));
60
61    println!("\n=== ArcPredicate always_true/always_false Demo ===\n");
62
63    // ArcPredicate::always_true
64    let arc_always_true: ArcPredicate<i32> = ArcPredicate::always_true();
65    println!("ArcPredicate::always_true():");
66    println!("  test(&100): {}", arc_always_true.test(&100));
67    println!("  test(&-100): {}", arc_always_true.test(&-100));
68    println!("  name: {:?}", arc_always_true.name());
69
70    // ArcPredicate::always_false
71    let arc_always_false: ArcPredicate<i32> = ArcPredicate::always_false();
72    println!("\nArcPredicate::always_false():");
73    println!("  test(&100): {}", arc_always_false.test(&100));
74    println!("  test(&-100): {}", arc_always_false.test(&-100));
75    println!("  name: {:?}", arc_always_false.name());
76
77    println!("\n=== Combining with other predicates ===\n");
78
79    // Combining with always_true (AND)
80    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
81    let combined_and_true = is_positive.and(BoxPredicate::always_true());
82    println!("is_positive AND always_true:");
83    println!("  test(&5): {} (equivalent to is_positive)", combined_and_true.test(&5));
84    println!(
85        "  test(&-3): {} (equivalent to is_positive)",
86        combined_and_true.test(&-3)
87    );
88
89    // Combining with always_false (AND)
90    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
91    let combined_and_false = is_positive.and(BoxPredicate::always_false());
92    println!("\nis_positive AND always_false:");
93    println!("  test(&5): {} (always false)", combined_and_false.test(&5));
94    println!("  test(&-3): {} (always false)", combined_and_false.test(&-3));
95
96    // Combining with always_true (OR)
97    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
98    let combined_or_true = is_positive.or(BoxPredicate::always_true());
99    println!("\nis_positive OR always_true:");
100    println!("  test(&5): {} (always true)", combined_or_true.test(&5));
101    println!("  test(&-3): {} (always true)", combined_or_true.test(&-3));
102
103    // Combining with always_false (OR)
104    let is_positive = BoxPredicate::new(|x: &i32| *x > 0);
105    let combined_or_false = is_positive.or(BoxPredicate::always_false());
106    println!("\nis_positive OR always_false:");
107    println!("  test(&5): {} (equivalent to is_positive)", combined_or_false.test(&5));
108    println!(
109        "  test(&-3): {} (equivalent to is_positive)",
110        combined_or_false.test(&-3)
111    );
112
113    println!("\n=== Practical scenarios: Default pass/reject filters ===\n");
114
115    // Scenario 1: Default pass-all filter
116    let numbers = vec![1, 2, 3, 4, 5];
117    let pass_all = BoxPredicate::<i32>::always_true();
118    let filtered: Vec<_> = numbers.iter().copied().filter(pass_all.into_fn()).collect();
119    println!("Default pass all elements: {:?} -> {:?}", numbers, filtered);
120
121    // Scenario 2: Default reject-all filter
122    let numbers = vec![1, 2, 3, 4, 5];
123    let reject_all = BoxPredicate::<i32>::always_false();
124    let filtered: Vec<_> = numbers.iter().copied().filter(reject_all.into_fn()).collect();
125    println!("Default reject all elements: {:?} -> {:?}", numbers, filtered);
126
127    // Scenario 3: Configurable filter
128    fn configurable_filter(enable_filter: bool) -> BoxPredicate<i32> {
129        if enable_filter {
130            BoxPredicate::new(|x: &i32| *x > 3)
131        } else {
132            BoxPredicate::always_true()
133        }
134    }
135
136    let numbers = vec![1, 2, 3, 4, 5];
137
138    let filter_enabled = configurable_filter(true);
139    let filtered: Vec<_> = numbers.iter().copied().filter(filter_enabled.into_fn()).collect();
140    println!("\nFilter enabled: {:?} -> {:?}", numbers, filtered);
141
142    let filter_disabled = configurable_filter(false);
143    let filtered: Vec<_> = numbers.iter().copied().filter(filter_disabled.into_fn()).collect();
144    println!("Filter disabled: {:?} -> {:?}", numbers, filtered);
145}

Source

pub fn and(&self, other: P) -> ArcPredicate<T>
where T: 'static, P: Predicate<T> + Send + Sync + 'static,

Returns a predicate that represents the logical AND of this predicate and another.

This method borrows self; the original shared predicate remains usable.

§Parameters

other - The other predicate to combine with.

§Returns

A new predicate representing the logical AND.

Examples found in repository ?

examples/predicates/predicate_demo.rs (line 134)

127fn arc_predicate_examples() {
128    println!("--- 4. ArcPredicate Examples (Multi-threaded Scenarios) ---");
129
130    let is_positive = ArcPredicate::new(|x: &i32| *x > 0);
131    let is_even = ArcPredicate::new(|x: &i32| x % 2 == 0);
132
133    // Create combined predicate
134    let combined = is_positive.and(is_even);
135
136    // Use in multiple threads
137    let handles: Vec<_> = (0..3)
138        .map(|i| {
139            let pred = combined.clone();
140            std::thread::spawn(move || {
141                let value = i * 2;
142                println!("  Thread {} testing {}: {}", i, value, pred.test(&value));
143            })
144        })
145        .collect();
146
147    for handle in handles {
148        handle.join().expect("thread should not panic");
149    }
150
151    // Original predicates still usable
152    println!("Original predicates still available in main thread:");
153    println!("  is_positive.test(&5) = {}", is_positive.test(&5));
154}