pub struct BoxBiConsumer<T, U> { /* private fields */ }Expand description
BoxBiConsumer struct
A non-mutating bi-consumer implementation based on Box<dyn Fn(&T, &U)>
for single ownership scenarios.
§Features
- Single Ownership: Not cloneable, ownership moves on use
- Zero Overhead: No reference counting or locking
- Shared-reference API: Invoked through
&selfand shared input references - No Wrapper Interior Mutability: No need for Mutex or RefCell in the wrapper
§Use Cases
Choose BoxBiConsumer when:
- The non-mutating bi-consumer is used only once or in a linear flow
- No need to share the consumer across contexts
- Pure observation operations like logging
§Examples
use qubit_function::{BiConsumer, BoxBiConsumer};
let consumer = BoxBiConsumer::new(|x: &i32, y: &i32| {
println!("Sum: {}", x + y);
});
consumer.accept(&5, &3);§Author
Haixing Hu
Implementations§
Source§impl<T, U> BoxBiConsumer<T, U>
impl<T, U> BoxBiConsumer<T, U>
Sourcepub fn new<F>(f: F) -> Self
pub fn new<F>(f: F) -> Self
Creates a new bi-consumer.
Wraps the provided closure in the appropriate smart pointer type for this bi-consumer implementation.
Examples found in repository?
examples/consumers/bi_consumer_observation_demo.rs (lines 34-36)
29fn main() {
30 println!("=== BiConsumer Observation Demo ===\n");
31
32 // 1. BoxBiConsumer - Single ownership
33 println!("1. BoxBiConsumer - Single ownership:");
34 let box_consumer = BoxBiConsumer::new(|x: &i32, y: &i32| {
35 println!(" Values: x={}, y={}, sum={}", x, y, x + y);
36 });
37 box_consumer.accept(&10, &5);
38 println!();
39
40 // 2. Method chaining with BoxBiConsumer
41 println!("2. BoxBiConsumer with method chaining:");
42 let chained = BoxBiConsumer::new(|x: &i32, y: &i32| {
43 println!(" First operation: x={}, y={}", x, y);
44 })
45 .and_then(|x: &i32, y: &i32| {
46 println!(" Second operation: sum={}", x + y);
47 })
48 .and_then(|x: &i32, y: &i32| {
49 println!(" Third operation: product={}", x * y);
50 });
51 chained.accept(&5, &3);
52 println!();
53
54 // 3. ArcBiConsumer - Thread-safe shared ownership
55 println!("3. ArcBiConsumer - Thread-safe shared ownership:");
56 let counter = Arc::new(AtomicUsize::new(0));
57 let c = counter.clone();
58 let arc_consumer = ArcBiConsumer::new(move |x: &i32, y: &i32| {
59 c.fetch_add(1, Ordering::SeqCst);
60 println!(" Thread {:?}: sum={}", thread::current().id(), x + y);
61 });
62
63 let consumer1 = arc_consumer.clone();
64 let consumer2 = arc_consumer.clone();
65
66 let handle1 = thread::spawn(move || {
67 consumer1.accept(&10, &5);
68 });
69
70 let handle2 = thread::spawn(move || {
71 consumer2.accept(&20, &8);
72 });
73
74 handle1.join().unwrap();
75 handle2.join().unwrap();
76 println!(" Total calls: {}\n", counter.load(Ordering::SeqCst));
77
78 // 4. RcBiConsumer - Single-threaded shared ownership
79 println!("4. RcBiConsumer - Single-threaded shared ownership:");
80 let counter = Rc::new(std::cell::Cell::new(0));
81 let c = counter.clone();
82 let rc_consumer = RcBiConsumer::new(move |x: &i32, y: &i32| {
83 c.set(c.get() + 1);
84 println!(" Call {}: sum={}", c.get(), x + y);
85 });
86
87 let clone1 = rc_consumer.clone();
88 let clone2 = rc_consumer.clone();
89
90 clone1.accept(&5, &3);
91 clone2.accept(&7, &2);
92 println!(" Total calls: {}\n", counter.get());
93
94 // 5. Working with closures directly
95 println!("5. Working with closures directly:");
96 let closure = |x: &i32, y: &i32| {
97 println!(" x={}, y={}, product={}", x, y, x * y);
98 };
99 closure.accept(&10, &20);
100 println!();
101
102 // 6. Pure observation - logging
103 println!("6. Pure observation - logging:");
104 let logger = BoxBiConsumer::new(|x: &i32, y: &i32| {
105 println!(" [LOG] Processing pair: ({}, {})", x, y);
106 });
107 logger.accept(&5, &3);
108 logger.accept(&10, &7);
109 println!();
110
111 // 7. Chaining observations
112 println!("7. Chaining observations:");
113 let log_input = BoxBiConsumer::new(|x: &i32, y: &i32| {
114 println!(" [INPUT] x={}, y={}", x, y);
115 });
116 let log_sum = BoxBiConsumer::new(|x: &i32, y: &i32| {
117 println!(" [SUM] {}", x + y);
118 });
119 let log_product = BoxBiConsumer::new(|x: &i32, y: &i32| {
120 println!(" [PRODUCT] {}", x * y);
121 });
122
123 let chained = log_input.and_then(log_sum).and_then(log_product);
124 chained.accept(&5, &3);
125 println!();
126
127 // 8. ArcBiConsumer - Reusability
128 println!("8. ArcBiConsumer - Reusability:");
129 let first = ArcBiConsumer::new(|x: &i32, y: &i32| {
130 println!(" First: x={}, y={}", x, y);
131 });
132 let second = ArcBiConsumer::new(|x: &i32, y: &i32| {
133 println!(" Second: sum={}", x + y);
134 });
135
136 // Both first and second can be reused after chaining
137 let chained1 = first.and_then(second.clone());
138 let chained2 = first.and_then(second.clone());
139
140 println!(" Using chained1:");
141 chained1.accept(&5, &3);
142
143 println!(" Using chained2:");
144 chained2.accept(&10, &2);
145 println!();
146
147 // 9. Name support
148 println!("9. Name support:");
149 let mut named_consumer = BoxBiConsumer::<i32, i32>::noop();
150 println!(" Initial name: {:?}", named_consumer.name());
151
152 named_consumer.set_name("sum_logger");
153 println!(" After setting name: {:?}", named_consumer.name());
154 println!(" Display: {}\n", named_consumer);
155
156 // 10. No-op consumer
157 println!("10. No-op consumer:");
158 let noop = BoxBiConsumer::<i32, i32>::noop();
159 noop.accept(&42, &10);
160 println!(" No-op completed (no output expected)\n");
161
162 println!("=== Demo Complete ===");
163}More examples
examples/consumers/bi_consumer_demo.rs (lines 38-41)
31fn main() {
32 println!("=== BiConsumer Demo ===\n");
33
34 // 1. BoxBiConsumer - Single ownership
35 println!("1. BoxBiConsumer - Single ownership:");
36 let log = Arc::new(Mutex::new(Vec::new()));
37 let l = log.clone();
38 let box_consumer = BoxBiConsumer::new(move |x: &i32, y: &i32| {
39 println!(" Processing: x={}, y={}", x, y);
40 l.lock().unwrap().push(*x + *y);
41 });
42 box_consumer.accept(&10, &5);
43 println!(" Result log: {:?}\n", *log.lock().unwrap());
44
45 // 2. Method chaining with BoxBiConsumer
46 println!("2. BoxBiConsumer with method chaining:");
47 let log = Arc::new(Mutex::new(Vec::new()));
48 let l1 = log.clone();
49 let l2 = log.clone();
50 let chained = BoxBiConsumer::new(move |x: &i32, y: &i32| {
51 l1.lock().unwrap().push(*x + *y);
52 println!(" After first operation: sum = {}", x + y);
53 })
54 .and_then(move |x: &i32, y: &i32| {
55 l2.lock().unwrap().push(*x * *y);
56 println!(" After second operation: product = {}", x * y);
57 });
58 chained.accept(&5, &3);
59 println!(" Final log: {:?}\n", *log.lock().unwrap());
60
61 // 3. ArcBiConsumer - Thread-safe shared ownership
62 println!("3. ArcBiConsumer - Thread-safe shared ownership:");
63 let log = Arc::new(Mutex::new(Vec::new()));
64 let l = log.clone();
65 let arc_consumer = ArcBiConsumer::new(move |x: &i32, y: &i32| {
66 l.lock().unwrap().push(*x + *y);
67 println!(" Thread {:?}: sum = {}", thread::current().id(), x + y);
68 });
69
70 let consumer1 = arc_consumer.clone();
71 let consumer2 = arc_consumer.clone();
72
73 let handle1 = thread::spawn(move || {
74 let c = consumer1;
75 c.accept(&10, &5);
76 });
77
78 let handle2 = thread::spawn(move || {
79 let c = consumer2;
80 c.accept(&20, &8);
81 });
82
83 handle1.join().unwrap();
84 handle2.join().unwrap();
85 println!(" Final log: {:?}\n", *log.lock().unwrap());
86
87 // 4. RcBiConsumer - Single-threaded shared ownership
88 println!("4. RcBiConsumer - Single-threaded shared ownership:");
89 let log = Rc::new(RefCell::new(Vec::new()));
90 let l = log.clone();
91 let rc_consumer = RcBiConsumer::new(move |x: &i32, y: &i32| {
92 l.borrow_mut().push(*x + *y);
93 });
94
95 let clone1 = rc_consumer.clone();
96 let clone2 = rc_consumer.clone();
97
98 clone1.accept(&5, &3);
99 println!(" After first use: {:?}", *log.borrow());
100
101 clone2.accept(&7, &2);
102 println!(" After second use: {:?}\n", *log.borrow());
103
104 // 5. Working with closures directly
105 println!("5. Working with closures directly:");
106 let log = Arc::new(Mutex::new(Vec::new()));
107 let l = log.clone();
108 let closure = move |x: &i32, y: &i32| {
109 let sum = *x + *y;
110 l.lock().unwrap().push(sum);
111 };
112 closure.accept(&10, &20);
113 println!(" After closure: {:?}\n", *log.lock().unwrap());
114
115 // 6. Conditional BiConsumer
116 println!("6. Conditional BiConsumer:");
117 let log = Arc::new(Mutex::new(Vec::new()));
118 let l = log.clone();
119 let mut conditional = BoxStatefulBiConsumer::new(move |x: &i32, y: &i32| {
120 l.lock().unwrap().push(*x + *y);
121 })
122 .when(|x: &i32, y: &i32| *x > 0 && *y > 0);
123
124 conditional.accept(&5, &3);
125 println!(" Positive values: {:?}", *log.lock().unwrap());
126
127 conditional.accept(&-5, &3);
128 println!(" Negative value (unchanged): {:?}\n", *log.lock().unwrap());
129
130 // 7. Conditional branch BiConsumer
131 println!("7. Conditional branch BiConsumer:");
132 let log = Arc::new(Mutex::new(Vec::new()));
133 let l1 = log.clone();
134 let l2 = log.clone();
135 let mut branch = BoxStatefulBiConsumer::new(move |x: &i32, _y: &i32| {
136 l1.lock().unwrap().push(*x);
137 })
138 .when(|x: &i32, y: &i32| *x > *y)
139 .or_else(move |_x: &i32, y: &i32| {
140 l2.lock().unwrap().push(*y);
141 });
142
143 branch.accept(&15, &10);
144 println!(" When x > y: {:?}", *log.lock().unwrap());
145
146 branch.accept(&5, &10);
147 println!(" When x <= y: {:?}\n", *log.lock().unwrap());
148
149 // 8. Accumulating statistics
150 println!("8. Accumulating statistics:");
151 let count = Arc::new(Mutex::new(0));
152 let sum = Arc::new(Mutex::new(0));
153 let c = count.clone();
154 let s = sum.clone();
155 let stats_consumer = BoxBiConsumer::new(move |x: &i32, y: &i32| {
156 *c.lock().unwrap() += 1;
157 *s.lock().unwrap() += x + y;
158 });
159
160 stats_consumer.accept(&5, &3);
161 stats_consumer.accept(&10, &2);
162 stats_consumer.accept(&7, &8);
163
164 println!(" Count: {}", *count.lock().unwrap());
165 println!(" Sum: {}\n", *sum.lock().unwrap());
166
167 // 9. Name support
168 println!("9. Name support:");
169 let mut named_consumer = BoxBiConsumer::<i32, i32>::noop();
170 println!(" Initial name: {:?}", named_consumer.name());
171
172 named_consumer.set_name("sum_calculator");
173 println!(" After setting name: {:?}", named_consumer.name());
174 println!(" Display: {}\n", named_consumer);
175
176 println!("=== Demo Complete ===");
177}Sourcepub fn new_with_name<F>(name: &str, f: F) -> Self
pub fn new_with_name<F>(name: &str, f: F) -> Self
Creates a new named bi-consumer.
Wraps the provided closure and assigns it a name, which is useful for debugging and logging purposes.
Sourcepub fn new_with_optional_name<F>(f: F, name: Option<String>) -> Self
pub fn new_with_optional_name<F>(f: F, name: Option<String>) -> Self
Creates a new named bi-consumer with an optional name.
Wraps the provided closure and assigns it an optional name.
Sourcepub fn name(&self) -> Option<&str>
pub fn name(&self) -> Option<&str>
Examples found in repository?
examples/consumers/bi_consumer_observation_demo.rs (line 150)
29fn main() {
30 println!("=== BiConsumer Observation Demo ===\n");
31
32 // 1. BoxBiConsumer - Single ownership
33 println!("1. BoxBiConsumer - Single ownership:");
34 let box_consumer = BoxBiConsumer::new(|x: &i32, y: &i32| {
35 println!(" Values: x={}, y={}, sum={}", x, y, x + y);
36 });
37 box_consumer.accept(&10, &5);
38 println!();
39
40 // 2. Method chaining with BoxBiConsumer
41 println!("2. BoxBiConsumer with method chaining:");
42 let chained = BoxBiConsumer::new(|x: &i32, y: &i32| {
43 println!(" First operation: x={}, y={}", x, y);
44 })
45 .and_then(|x: &i32, y: &i32| {
46 println!(" Second operation: sum={}", x + y);
47 })
48 .and_then(|x: &i32, y: &i32| {
49 println!(" Third operation: product={}", x * y);
50 });
51 chained.accept(&5, &3);
52 println!();
53
54 // 3. ArcBiConsumer - Thread-safe shared ownership
55 println!("3. ArcBiConsumer - Thread-safe shared ownership:");
56 let counter = Arc::new(AtomicUsize::new(0));
57 let c = counter.clone();
58 let arc_consumer = ArcBiConsumer::new(move |x: &i32, y: &i32| {
59 c.fetch_add(1, Ordering::SeqCst);
60 println!(" Thread {:?}: sum={}", thread::current().id(), x + y);
61 });
62
63 let consumer1 = arc_consumer.clone();
64 let consumer2 = arc_consumer.clone();
65
66 let handle1 = thread::spawn(move || {
67 consumer1.accept(&10, &5);
68 });
69
70 let handle2 = thread::spawn(move || {
71 consumer2.accept(&20, &8);
72 });
73
74 handle1.join().unwrap();
75 handle2.join().unwrap();
76 println!(" Total calls: {}\n", counter.load(Ordering::SeqCst));
77
78 // 4. RcBiConsumer - Single-threaded shared ownership
79 println!("4. RcBiConsumer - Single-threaded shared ownership:");
80 let counter = Rc::new(std::cell::Cell::new(0));
81 let c = counter.clone();
82 let rc_consumer = RcBiConsumer::new(move |x: &i32, y: &i32| {
83 c.set(c.get() + 1);
84 println!(" Call {}: sum={}", c.get(), x + y);
85 });
86
87 let clone1 = rc_consumer.clone();
88 let clone2 = rc_consumer.clone();
89
90 clone1.accept(&5, &3);
91 clone2.accept(&7, &2);
92 println!(" Total calls: {}\n", counter.get());
93
94 // 5. Working with closures directly
95 println!("5. Working with closures directly:");
96 let closure = |x: &i32, y: &i32| {
97 println!(" x={}, y={}, product={}", x, y, x * y);
98 };
99 closure.accept(&10, &20);
100 println!();
101
102 // 6. Pure observation - logging
103 println!("6. Pure observation - logging:");
104 let logger = BoxBiConsumer::new(|x: &i32, y: &i32| {
105 println!(" [LOG] Processing pair: ({}, {})", x, y);
106 });
107 logger.accept(&5, &3);
108 logger.accept(&10, &7);
109 println!();
110
111 // 7. Chaining observations
112 println!("7. Chaining observations:");
113 let log_input = BoxBiConsumer::new(|x: &i32, y: &i32| {
114 println!(" [INPUT] x={}, y={}", x, y);
115 });
116 let log_sum = BoxBiConsumer::new(|x: &i32, y: &i32| {
117 println!(" [SUM] {}", x + y);
118 });
119 let log_product = BoxBiConsumer::new(|x: &i32, y: &i32| {
120 println!(" [PRODUCT] {}", x * y);
121 });
122
123 let chained = log_input.and_then(log_sum).and_then(log_product);
124 chained.accept(&5, &3);
125 println!();
126
127 // 8. ArcBiConsumer - Reusability
128 println!("8. ArcBiConsumer - Reusability:");
129 let first = ArcBiConsumer::new(|x: &i32, y: &i32| {
130 println!(" First: x={}, y={}", x, y);
131 });
132 let second = ArcBiConsumer::new(|x: &i32, y: &i32| {
133 println!(" Second: sum={}", x + y);
134 });
135
136 // Both first and second can be reused after chaining
137 let chained1 = first.and_then(second.clone());
138 let chained2 = first.and_then(second.clone());
139
140 println!(" Using chained1:");
141 chained1.accept(&5, &3);
142
143 println!(" Using chained2:");
144 chained2.accept(&10, &2);
145 println!();
146
147 // 9. Name support
148 println!("9. Name support:");
149 let mut named_consumer = BoxBiConsumer::<i32, i32>::noop();
150 println!(" Initial name: {:?}", named_consumer.name());
151
152 named_consumer.set_name("sum_logger");
153 println!(" After setting name: {:?}", named_consumer.name());
154 println!(" Display: {}\n", named_consumer);
155
156 // 10. No-op consumer
157 println!("10. No-op consumer:");
158 let noop = BoxBiConsumer::<i32, i32>::noop();
159 noop.accept(&42, &10);
160 println!(" No-op completed (no output expected)\n");
161
162 println!("=== Demo Complete ===");
163}More examples
examples/consumers/bi_consumer_demo.rs (line 170)
31fn main() {
32 println!("=== BiConsumer Demo ===\n");
33
34 // 1. BoxBiConsumer - Single ownership
35 println!("1. BoxBiConsumer - Single ownership:");
36 let log = Arc::new(Mutex::new(Vec::new()));
37 let l = log.clone();
38 let box_consumer = BoxBiConsumer::new(move |x: &i32, y: &i32| {
39 println!(" Processing: x={}, y={}", x, y);
40 l.lock().unwrap().push(*x + *y);
41 });
42 box_consumer.accept(&10, &5);
43 println!(" Result log: {:?}\n", *log.lock().unwrap());
44
45 // 2. Method chaining with BoxBiConsumer
46 println!("2. BoxBiConsumer with method chaining:");
47 let log = Arc::new(Mutex::new(Vec::new()));
48 let l1 = log.clone();
49 let l2 = log.clone();
50 let chained = BoxBiConsumer::new(move |x: &i32, y: &i32| {
51 l1.lock().unwrap().push(*x + *y);
52 println!(" After first operation: sum = {}", x + y);
53 })
54 .and_then(move |x: &i32, y: &i32| {
55 l2.lock().unwrap().push(*x * *y);
56 println!(" After second operation: product = {}", x * y);
57 });
58 chained.accept(&5, &3);
59 println!(" Final log: {:?}\n", *log.lock().unwrap());
60
61 // 3. ArcBiConsumer - Thread-safe shared ownership
62 println!("3. ArcBiConsumer - Thread-safe shared ownership:");
63 let log = Arc::new(Mutex::new(Vec::new()));
64 let l = log.clone();
65 let arc_consumer = ArcBiConsumer::new(move |x: &i32, y: &i32| {
66 l.lock().unwrap().push(*x + *y);
67 println!(" Thread {:?}: sum = {}", thread::current().id(), x + y);
68 });
69
70 let consumer1 = arc_consumer.clone();
71 let consumer2 = arc_consumer.clone();
72
73 let handle1 = thread::spawn(move || {
74 let c = consumer1;
75 c.accept(&10, &5);
76 });
77
78 let handle2 = thread::spawn(move || {
79 let c = consumer2;
80 c.accept(&20, &8);
81 });
82
83 handle1.join().unwrap();
84 handle2.join().unwrap();
85 println!(" Final log: {:?}\n", *log.lock().unwrap());
86
87 // 4. RcBiConsumer - Single-threaded shared ownership
88 println!("4. RcBiConsumer - Single-threaded shared ownership:");
89 let log = Rc::new(RefCell::new(Vec::new()));
90 let l = log.clone();
91 let rc_consumer = RcBiConsumer::new(move |x: &i32, y: &i32| {
92 l.borrow_mut().push(*x + *y);
93 });
94
95 let clone1 = rc_consumer.clone();
96 let clone2 = rc_consumer.clone();
97
98 clone1.accept(&5, &3);
99 println!(" After first use: {:?}", *log.borrow());
100
101 clone2.accept(&7, &2);
102 println!(" After second use: {:?}\n", *log.borrow());
103
104 // 5. Working with closures directly
105 println!("5. Working with closures directly:");
106 let log = Arc::new(Mutex::new(Vec::new()));
107 let l = log.clone();
108 let closure = move |x: &i32, y: &i32| {
109 let sum = *x + *y;
110 l.lock().unwrap().push(sum);
111 };
112 closure.accept(&10, &20);
113 println!(" After closure: {:?}\n", *log.lock().unwrap());
114
115 // 6. Conditional BiConsumer
116 println!("6. Conditional BiConsumer:");
117 let log = Arc::new(Mutex::new(Vec::new()));
118 let l = log.clone();
119 let mut conditional = BoxStatefulBiConsumer::new(move |x: &i32, y: &i32| {
120 l.lock().unwrap().push(*x + *y);
121 })
122 .when(|x: &i32, y: &i32| *x > 0 && *y > 0);
123
124 conditional.accept(&5, &3);
125 println!(" Positive values: {:?}", *log.lock().unwrap());
126
127 conditional.accept(&-5, &3);
128 println!(" Negative value (unchanged): {:?}\n", *log.lock().unwrap());
129
130 // 7. Conditional branch BiConsumer
131 println!("7. Conditional branch BiConsumer:");
132 let log = Arc::new(Mutex::new(Vec::new()));
133 let l1 = log.clone();
134 let l2 = log.clone();
135 let mut branch = BoxStatefulBiConsumer::new(move |x: &i32, _y: &i32| {
136 l1.lock().unwrap().push(*x);
137 })
138 .when(|x: &i32, y: &i32| *x > *y)
139 .or_else(move |_x: &i32, y: &i32| {
140 l2.lock().unwrap().push(*y);
141 });
142
143 branch.accept(&15, &10);
144 println!(" When x > y: {:?}", *log.lock().unwrap());
145
146 branch.accept(&5, &10);
147 println!(" When x <= y: {:?}\n", *log.lock().unwrap());
148
149 // 8. Accumulating statistics
150 println!("8. Accumulating statistics:");
151 let count = Arc::new(Mutex::new(0));
152 let sum = Arc::new(Mutex::new(0));
153 let c = count.clone();
154 let s = sum.clone();
155 let stats_consumer = BoxBiConsumer::new(move |x: &i32, y: &i32| {
156 *c.lock().unwrap() += 1;
157 *s.lock().unwrap() += x + y;
158 });
159
160 stats_consumer.accept(&5, &3);
161 stats_consumer.accept(&10, &2);
162 stats_consumer.accept(&7, &8);
163
164 println!(" Count: {}", *count.lock().unwrap());
165 println!(" Sum: {}\n", *sum.lock().unwrap());
166
167 // 9. Name support
168 println!("9. Name support:");
169 let mut named_consumer = BoxBiConsumer::<i32, i32>::noop();
170 println!(" Initial name: {:?}", named_consumer.name());
171
172 named_consumer.set_name("sum_calculator");
173 println!(" After setting name: {:?}", named_consumer.name());
174 println!(" Display: {}\n", named_consumer);
175
176 println!("=== Demo Complete ===");
177}Sourcepub fn set_name(&mut self, name: &str)
pub fn set_name(&mut self, name: &str)
Examples found in repository?
examples/consumers/bi_consumer_observation_demo.rs (line 152)
29fn main() {
30 println!("=== BiConsumer Observation Demo ===\n");
31
32 // 1. BoxBiConsumer - Single ownership
33 println!("1. BoxBiConsumer - Single ownership:");
34 let box_consumer = BoxBiConsumer::new(|x: &i32, y: &i32| {
35 println!(" Values: x={}, y={}, sum={}", x, y, x + y);
36 });
37 box_consumer.accept(&10, &5);
38 println!();
39
40 // 2. Method chaining with BoxBiConsumer
41 println!("2. BoxBiConsumer with method chaining:");
42 let chained = BoxBiConsumer::new(|x: &i32, y: &i32| {
43 println!(" First operation: x={}, y={}", x, y);
44 })
45 .and_then(|x: &i32, y: &i32| {
46 println!(" Second operation: sum={}", x + y);
47 })
48 .and_then(|x: &i32, y: &i32| {
49 println!(" Third operation: product={}", x * y);
50 });
51 chained.accept(&5, &3);
52 println!();
53
54 // 3. ArcBiConsumer - Thread-safe shared ownership
55 println!("3. ArcBiConsumer - Thread-safe shared ownership:");
56 let counter = Arc::new(AtomicUsize::new(0));
57 let c = counter.clone();
58 let arc_consumer = ArcBiConsumer::new(move |x: &i32, y: &i32| {
59 c.fetch_add(1, Ordering::SeqCst);
60 println!(" Thread {:?}: sum={}", thread::current().id(), x + y);
61 });
62
63 let consumer1 = arc_consumer.clone();
64 let consumer2 = arc_consumer.clone();
65
66 let handle1 = thread::spawn(move || {
67 consumer1.accept(&10, &5);
68 });
69
70 let handle2 = thread::spawn(move || {
71 consumer2.accept(&20, &8);
72 });
73
74 handle1.join().unwrap();
75 handle2.join().unwrap();
76 println!(" Total calls: {}\n", counter.load(Ordering::SeqCst));
77
78 // 4. RcBiConsumer - Single-threaded shared ownership
79 println!("4. RcBiConsumer - Single-threaded shared ownership:");
80 let counter = Rc::new(std::cell::Cell::new(0));
81 let c = counter.clone();
82 let rc_consumer = RcBiConsumer::new(move |x: &i32, y: &i32| {
83 c.set(c.get() + 1);
84 println!(" Call {}: sum={}", c.get(), x + y);
85 });
86
87 let clone1 = rc_consumer.clone();
88 let clone2 = rc_consumer.clone();
89
90 clone1.accept(&5, &3);
91 clone2.accept(&7, &2);
92 println!(" Total calls: {}\n", counter.get());
93
94 // 5. Working with closures directly
95 println!("5. Working with closures directly:");
96 let closure = |x: &i32, y: &i32| {
97 println!(" x={}, y={}, product={}", x, y, x * y);
98 };
99 closure.accept(&10, &20);
100 println!();
101
102 // 6. Pure observation - logging
103 println!("6. Pure observation - logging:");
104 let logger = BoxBiConsumer::new(|x: &i32, y: &i32| {
105 println!(" [LOG] Processing pair: ({}, {})", x, y);
106 });
107 logger.accept(&5, &3);
108 logger.accept(&10, &7);
109 println!();
110
111 // 7. Chaining observations
112 println!("7. Chaining observations:");
113 let log_input = BoxBiConsumer::new(|x: &i32, y: &i32| {
114 println!(" [INPUT] x={}, y={}", x, y);
115 });
116 let log_sum = BoxBiConsumer::new(|x: &i32, y: &i32| {
117 println!(" [SUM] {}", x + y);
118 });
119 let log_product = BoxBiConsumer::new(|x: &i32, y: &i32| {
120 println!(" [PRODUCT] {}", x * y);
121 });
122
123 let chained = log_input.and_then(log_sum).and_then(log_product);
124 chained.accept(&5, &3);
125 println!();
126
127 // 8. ArcBiConsumer - Reusability
128 println!("8. ArcBiConsumer - Reusability:");
129 let first = ArcBiConsumer::new(|x: &i32, y: &i32| {
130 println!(" First: x={}, y={}", x, y);
131 });
132 let second = ArcBiConsumer::new(|x: &i32, y: &i32| {
133 println!(" Second: sum={}", x + y);
134 });
135
136 // Both first and second can be reused after chaining
137 let chained1 = first.and_then(second.clone());
138 let chained2 = first.and_then(second.clone());
139
140 println!(" Using chained1:");
141 chained1.accept(&5, &3);
142
143 println!(" Using chained2:");
144 chained2.accept(&10, &2);
145 println!();
146
147 // 9. Name support
148 println!("9. Name support:");
149 let mut named_consumer = BoxBiConsumer::<i32, i32>::noop();
150 println!(" Initial name: {:?}", named_consumer.name());
151
152 named_consumer.set_name("sum_logger");
153 println!(" After setting name: {:?}", named_consumer.name());
154 println!(" Display: {}\n", named_consumer);
155
156 // 10. No-op consumer
157 println!("10. No-op consumer:");
158 let noop = BoxBiConsumer::<i32, i32>::noop();
159 noop.accept(&42, &10);
160 println!(" No-op completed (no output expected)\n");
161
162 println!("=== Demo Complete ===");
163}More examples
examples/consumers/bi_consumer_demo.rs (line 172)
31fn main() {
32 println!("=== BiConsumer Demo ===\n");
33
34 // 1. BoxBiConsumer - Single ownership
35 println!("1. BoxBiConsumer - Single ownership:");
36 let log = Arc::new(Mutex::new(Vec::new()));
37 let l = log.clone();
38 let box_consumer = BoxBiConsumer::new(move |x: &i32, y: &i32| {
39 println!(" Processing: x={}, y={}", x, y);
40 l.lock().unwrap().push(*x + *y);
41 });
42 box_consumer.accept(&10, &5);
43 println!(" Result log: {:?}\n", *log.lock().unwrap());
44
45 // 2. Method chaining with BoxBiConsumer
46 println!("2. BoxBiConsumer with method chaining:");
47 let log = Arc::new(Mutex::new(Vec::new()));
48 let l1 = log.clone();
49 let l2 = log.clone();
50 let chained = BoxBiConsumer::new(move |x: &i32, y: &i32| {
51 l1.lock().unwrap().push(*x + *y);
52 println!(" After first operation: sum = {}", x + y);
53 })
54 .and_then(move |x: &i32, y: &i32| {
55 l2.lock().unwrap().push(*x * *y);
56 println!(" After second operation: product = {}", x * y);
57 });
58 chained.accept(&5, &3);
59 println!(" Final log: {:?}\n", *log.lock().unwrap());
60
61 // 3. ArcBiConsumer - Thread-safe shared ownership
62 println!("3. ArcBiConsumer - Thread-safe shared ownership:");
63 let log = Arc::new(Mutex::new(Vec::new()));
64 let l = log.clone();
65 let arc_consumer = ArcBiConsumer::new(move |x: &i32, y: &i32| {
66 l.lock().unwrap().push(*x + *y);
67 println!(" Thread {:?}: sum = {}", thread::current().id(), x + y);
68 });
69
70 let consumer1 = arc_consumer.clone();
71 let consumer2 = arc_consumer.clone();
72
73 let handle1 = thread::spawn(move || {
74 let c = consumer1;
75 c.accept(&10, &5);
76 });
77
78 let handle2 = thread::spawn(move || {
79 let c = consumer2;
80 c.accept(&20, &8);
81 });
82
83 handle1.join().unwrap();
84 handle2.join().unwrap();
85 println!(" Final log: {:?}\n", *log.lock().unwrap());
86
87 // 4. RcBiConsumer - Single-threaded shared ownership
88 println!("4. RcBiConsumer - Single-threaded shared ownership:");
89 let log = Rc::new(RefCell::new(Vec::new()));
90 let l = log.clone();
91 let rc_consumer = RcBiConsumer::new(move |x: &i32, y: &i32| {
92 l.borrow_mut().push(*x + *y);
93 });
94
95 let clone1 = rc_consumer.clone();
96 let clone2 = rc_consumer.clone();
97
98 clone1.accept(&5, &3);
99 println!(" After first use: {:?}", *log.borrow());
100
101 clone2.accept(&7, &2);
102 println!(" After second use: {:?}\n", *log.borrow());
103
104 // 5. Working with closures directly
105 println!("5. Working with closures directly:");
106 let log = Arc::new(Mutex::new(Vec::new()));
107 let l = log.clone();
108 let closure = move |x: &i32, y: &i32| {
109 let sum = *x + *y;
110 l.lock().unwrap().push(sum);
111 };
112 closure.accept(&10, &20);
113 println!(" After closure: {:?}\n", *log.lock().unwrap());
114
115 // 6. Conditional BiConsumer
116 println!("6. Conditional BiConsumer:");
117 let log = Arc::new(Mutex::new(Vec::new()));
118 let l = log.clone();
119 let mut conditional = BoxStatefulBiConsumer::new(move |x: &i32, y: &i32| {
120 l.lock().unwrap().push(*x + *y);
121 })
122 .when(|x: &i32, y: &i32| *x > 0 && *y > 0);
123
124 conditional.accept(&5, &3);
125 println!(" Positive values: {:?}", *log.lock().unwrap());
126
127 conditional.accept(&-5, &3);
128 println!(" Negative value (unchanged): {:?}\n", *log.lock().unwrap());
129
130 // 7. Conditional branch BiConsumer
131 println!("7. Conditional branch BiConsumer:");
132 let log = Arc::new(Mutex::new(Vec::new()));
133 let l1 = log.clone();
134 let l2 = log.clone();
135 let mut branch = BoxStatefulBiConsumer::new(move |x: &i32, _y: &i32| {
136 l1.lock().unwrap().push(*x);
137 })
138 .when(|x: &i32, y: &i32| *x > *y)
139 .or_else(move |_x: &i32, y: &i32| {
140 l2.lock().unwrap().push(*y);
141 });
142
143 branch.accept(&15, &10);
144 println!(" When x > y: {:?}", *log.lock().unwrap());
145
146 branch.accept(&5, &10);
147 println!(" When x <= y: {:?}\n", *log.lock().unwrap());
148
149 // 8. Accumulating statistics
150 println!("8. Accumulating statistics:");
151 let count = Arc::new(Mutex::new(0));
152 let sum = Arc::new(Mutex::new(0));
153 let c = count.clone();
154 let s = sum.clone();
155 let stats_consumer = BoxBiConsumer::new(move |x: &i32, y: &i32| {
156 *c.lock().unwrap() += 1;
157 *s.lock().unwrap() += x + y;
158 });
159
160 stats_consumer.accept(&5, &3);
161 stats_consumer.accept(&10, &2);
162 stats_consumer.accept(&7, &8);
163
164 println!(" Count: {}", *count.lock().unwrap());
165 println!(" Sum: {}\n", *sum.lock().unwrap());
166
167 // 9. Name support
168 println!("9. Name support:");
169 let mut named_consumer = BoxBiConsumer::<i32, i32>::noop();
170 println!(" Initial name: {:?}", named_consumer.name());
171
172 named_consumer.set_name("sum_calculator");
173 println!(" After setting name: {:?}", named_consumer.name());
174 println!(" Display: {}\n", named_consumer);
175
176 println!("=== Demo Complete ===");
177}Sourcepub fn clear_name(&mut self)
pub fn clear_name(&mut self)
Clears the name of this bi-consumer.
Sourcepub fn noop() -> Self
pub fn noop() -> Self
Creates a no-operation bi-consumer.
Creates a bi-consumer that does nothing when called. Useful for default values or placeholder implementations.
§Returns
Returns a new bi-consumer instance that performs no operation.
Examples found in repository?
examples/consumers/bi_consumer_observation_demo.rs (line 149)
29fn main() {
30 println!("=== BiConsumer Observation Demo ===\n");
31
32 // 1. BoxBiConsumer - Single ownership
33 println!("1. BoxBiConsumer - Single ownership:");
34 let box_consumer = BoxBiConsumer::new(|x: &i32, y: &i32| {
35 println!(" Values: x={}, y={}, sum={}", x, y, x + y);
36 });
37 box_consumer.accept(&10, &5);
38 println!();
39
40 // 2. Method chaining with BoxBiConsumer
41 println!("2. BoxBiConsumer with method chaining:");
42 let chained = BoxBiConsumer::new(|x: &i32, y: &i32| {
43 println!(" First operation: x={}, y={}", x, y);
44 })
45 .and_then(|x: &i32, y: &i32| {
46 println!(" Second operation: sum={}", x + y);
47 })
48 .and_then(|x: &i32, y: &i32| {
49 println!(" Third operation: product={}", x * y);
50 });
51 chained.accept(&5, &3);
52 println!();
53
54 // 3. ArcBiConsumer - Thread-safe shared ownership
55 println!("3. ArcBiConsumer - Thread-safe shared ownership:");
56 let counter = Arc::new(AtomicUsize::new(0));
57 let c = counter.clone();
58 let arc_consumer = ArcBiConsumer::new(move |x: &i32, y: &i32| {
59 c.fetch_add(1, Ordering::SeqCst);
60 println!(" Thread {:?}: sum={}", thread::current().id(), x + y);
61 });
62
63 let consumer1 = arc_consumer.clone();
64 let consumer2 = arc_consumer.clone();
65
66 let handle1 = thread::spawn(move || {
67 consumer1.accept(&10, &5);
68 });
69
70 let handle2 = thread::spawn(move || {
71 consumer2.accept(&20, &8);
72 });
73
74 handle1.join().unwrap();
75 handle2.join().unwrap();
76 println!(" Total calls: {}\n", counter.load(Ordering::SeqCst));
77
78 // 4. RcBiConsumer - Single-threaded shared ownership
79 println!("4. RcBiConsumer - Single-threaded shared ownership:");
80 let counter = Rc::new(std::cell::Cell::new(0));
81 let c = counter.clone();
82 let rc_consumer = RcBiConsumer::new(move |x: &i32, y: &i32| {
83 c.set(c.get() + 1);
84 println!(" Call {}: sum={}", c.get(), x + y);
85 });
86
87 let clone1 = rc_consumer.clone();
88 let clone2 = rc_consumer.clone();
89
90 clone1.accept(&5, &3);
91 clone2.accept(&7, &2);
92 println!(" Total calls: {}\n", counter.get());
93
94 // 5. Working with closures directly
95 println!("5. Working with closures directly:");
96 let closure = |x: &i32, y: &i32| {
97 println!(" x={}, y={}, product={}", x, y, x * y);
98 };
99 closure.accept(&10, &20);
100 println!();
101
102 // 6. Pure observation - logging
103 println!("6. Pure observation - logging:");
104 let logger = BoxBiConsumer::new(|x: &i32, y: &i32| {
105 println!(" [LOG] Processing pair: ({}, {})", x, y);
106 });
107 logger.accept(&5, &3);
108 logger.accept(&10, &7);
109 println!();
110
111 // 7. Chaining observations
112 println!("7. Chaining observations:");
113 let log_input = BoxBiConsumer::new(|x: &i32, y: &i32| {
114 println!(" [INPUT] x={}, y={}", x, y);
115 });
116 let log_sum = BoxBiConsumer::new(|x: &i32, y: &i32| {
117 println!(" [SUM] {}", x + y);
118 });
119 let log_product = BoxBiConsumer::new(|x: &i32, y: &i32| {
120 println!(" [PRODUCT] {}", x * y);
121 });
122
123 let chained = log_input.and_then(log_sum).and_then(log_product);
124 chained.accept(&5, &3);
125 println!();
126
127 // 8. ArcBiConsumer - Reusability
128 println!("8. ArcBiConsumer - Reusability:");
129 let first = ArcBiConsumer::new(|x: &i32, y: &i32| {
130 println!(" First: x={}, y={}", x, y);
131 });
132 let second = ArcBiConsumer::new(|x: &i32, y: &i32| {
133 println!(" Second: sum={}", x + y);
134 });
135
136 // Both first and second can be reused after chaining
137 let chained1 = first.and_then(second.clone());
138 let chained2 = first.and_then(second.clone());
139
140 println!(" Using chained1:");
141 chained1.accept(&5, &3);
142
143 println!(" Using chained2:");
144 chained2.accept(&10, &2);
145 println!();
146
147 // 9. Name support
148 println!("9. Name support:");
149 let mut named_consumer = BoxBiConsumer::<i32, i32>::noop();
150 println!(" Initial name: {:?}", named_consumer.name());
151
152 named_consumer.set_name("sum_logger");
153 println!(" After setting name: {:?}", named_consumer.name());
154 println!(" Display: {}\n", named_consumer);
155
156 // 10. No-op consumer
157 println!("10. No-op consumer:");
158 let noop = BoxBiConsumer::<i32, i32>::noop();
159 noop.accept(&42, &10);
160 println!(" No-op completed (no output expected)\n");
161
162 println!("=== Demo Complete ===");
163}More examples
examples/consumers/bi_consumer_demo.rs (line 169)
31fn main() {
32 println!("=== BiConsumer Demo ===\n");
33
34 // 1. BoxBiConsumer - Single ownership
35 println!("1. BoxBiConsumer - Single ownership:");
36 let log = Arc::new(Mutex::new(Vec::new()));
37 let l = log.clone();
38 let box_consumer = BoxBiConsumer::new(move |x: &i32, y: &i32| {
39 println!(" Processing: x={}, y={}", x, y);
40 l.lock().unwrap().push(*x + *y);
41 });
42 box_consumer.accept(&10, &5);
43 println!(" Result log: {:?}\n", *log.lock().unwrap());
44
45 // 2. Method chaining with BoxBiConsumer
46 println!("2. BoxBiConsumer with method chaining:");
47 let log = Arc::new(Mutex::new(Vec::new()));
48 let l1 = log.clone();
49 let l2 = log.clone();
50 let chained = BoxBiConsumer::new(move |x: &i32, y: &i32| {
51 l1.lock().unwrap().push(*x + *y);
52 println!(" After first operation: sum = {}", x + y);
53 })
54 .and_then(move |x: &i32, y: &i32| {
55 l2.lock().unwrap().push(*x * *y);
56 println!(" After second operation: product = {}", x * y);
57 });
58 chained.accept(&5, &3);
59 println!(" Final log: {:?}\n", *log.lock().unwrap());
60
61 // 3. ArcBiConsumer - Thread-safe shared ownership
62 println!("3. ArcBiConsumer - Thread-safe shared ownership:");
63 let log = Arc::new(Mutex::new(Vec::new()));
64 let l = log.clone();
65 let arc_consumer = ArcBiConsumer::new(move |x: &i32, y: &i32| {
66 l.lock().unwrap().push(*x + *y);
67 println!(" Thread {:?}: sum = {}", thread::current().id(), x + y);
68 });
69
70 let consumer1 = arc_consumer.clone();
71 let consumer2 = arc_consumer.clone();
72
73 let handle1 = thread::spawn(move || {
74 let c = consumer1;
75 c.accept(&10, &5);
76 });
77
78 let handle2 = thread::spawn(move || {
79 let c = consumer2;
80 c.accept(&20, &8);
81 });
82
83 handle1.join().unwrap();
84 handle2.join().unwrap();
85 println!(" Final log: {:?}\n", *log.lock().unwrap());
86
87 // 4. RcBiConsumer - Single-threaded shared ownership
88 println!("4. RcBiConsumer - Single-threaded shared ownership:");
89 let log = Rc::new(RefCell::new(Vec::new()));
90 let l = log.clone();
91 let rc_consumer = RcBiConsumer::new(move |x: &i32, y: &i32| {
92 l.borrow_mut().push(*x + *y);
93 });
94
95 let clone1 = rc_consumer.clone();
96 let clone2 = rc_consumer.clone();
97
98 clone1.accept(&5, &3);
99 println!(" After first use: {:?}", *log.borrow());
100
101 clone2.accept(&7, &2);
102 println!(" After second use: {:?}\n", *log.borrow());
103
104 // 5. Working with closures directly
105 println!("5. Working with closures directly:");
106 let log = Arc::new(Mutex::new(Vec::new()));
107 let l = log.clone();
108 let closure = move |x: &i32, y: &i32| {
109 let sum = *x + *y;
110 l.lock().unwrap().push(sum);
111 };
112 closure.accept(&10, &20);
113 println!(" After closure: {:?}\n", *log.lock().unwrap());
114
115 // 6. Conditional BiConsumer
116 println!("6. Conditional BiConsumer:");
117 let log = Arc::new(Mutex::new(Vec::new()));
118 let l = log.clone();
119 let mut conditional = BoxStatefulBiConsumer::new(move |x: &i32, y: &i32| {
120 l.lock().unwrap().push(*x + *y);
121 })
122 .when(|x: &i32, y: &i32| *x > 0 && *y > 0);
123
124 conditional.accept(&5, &3);
125 println!(" Positive values: {:?}", *log.lock().unwrap());
126
127 conditional.accept(&-5, &3);
128 println!(" Negative value (unchanged): {:?}\n", *log.lock().unwrap());
129
130 // 7. Conditional branch BiConsumer
131 println!("7. Conditional branch BiConsumer:");
132 let log = Arc::new(Mutex::new(Vec::new()));
133 let l1 = log.clone();
134 let l2 = log.clone();
135 let mut branch = BoxStatefulBiConsumer::new(move |x: &i32, _y: &i32| {
136 l1.lock().unwrap().push(*x);
137 })
138 .when(|x: &i32, y: &i32| *x > *y)
139 .or_else(move |_x: &i32, y: &i32| {
140 l2.lock().unwrap().push(*y);
141 });
142
143 branch.accept(&15, &10);
144 println!(" When x > y: {:?}", *log.lock().unwrap());
145
146 branch.accept(&5, &10);
147 println!(" When x <= y: {:?}\n", *log.lock().unwrap());
148
149 // 8. Accumulating statistics
150 println!("8. Accumulating statistics:");
151 let count = Arc::new(Mutex::new(0));
152 let sum = Arc::new(Mutex::new(0));
153 let c = count.clone();
154 let s = sum.clone();
155 let stats_consumer = BoxBiConsumer::new(move |x: &i32, y: &i32| {
156 *c.lock().unwrap() += 1;
157 *s.lock().unwrap() += x + y;
158 });
159
160 stats_consumer.accept(&5, &3);
161 stats_consumer.accept(&10, &2);
162 stats_consumer.accept(&7, &8);
163
164 println!(" Count: {}", *count.lock().unwrap());
165 println!(" Sum: {}\n", *sum.lock().unwrap());
166
167 // 9. Name support
168 println!("9. Name support:");
169 let mut named_consumer = BoxBiConsumer::<i32, i32>::noop();
170 println!(" Initial name: {:?}", named_consumer.name());
171
172 named_consumer.set_name("sum_calculator");
173 println!(" After setting name: {:?}", named_consumer.name());
174 println!(" Display: {}\n", named_consumer);
175
176 println!("=== Demo Complete ===");
177}Sourcepub fn when<P>(self, predicate: P) -> BoxConditionalBiConsumer<T, U>where
T: 'static,
U: 'static,
P: BiPredicate<T, U> + 'static,
pub fn when<P>(self, predicate: P) -> BoxConditionalBiConsumer<T, U>where
T: 'static,
U: 'static,
P: BiPredicate<T, U> + 'static,
Creates a conditional two-parameter consumer that executes based on bi-predicate result.
§Parameters
predicate- The bi-predicate to determine whether to execute the consumption operation
§Returns
Returns a conditional two-parameter consumer that only executes
when the predicate returns true.
§Examples
use std::sync::Arc;
use std::sync::atomic::{AtomicI32, Ordering};
use qubit_function::consumers::*;
let counter = Arc::new(AtomicI32::new(0));
let bi_consumer = BoxBiConsumer::new({
let counter = Arc::clone(&counter);
move |key: &String, value: &i32| {
if key == "increment" {
counter.fetch_add(*value, Ordering::SeqCst);
}
}
});
let conditional = bi_consumer.when(|key: &String, value: &i32| *value > 0);
conditional.accept(&"increment".to_string(), &5); // counter = 5
conditional.accept(&"increment".to_string(), &-2); // not executedSourcepub fn and_then<C>(self, after: C) -> BoxBiConsumer<T, U>where
Self: Sized + 'static,
T: 'static,
U: 'static,
C: BiConsumer<T, U> + 'static,
pub fn and_then<C>(self, after: C) -> BoxBiConsumer<T, U>where
Self: Sized + 'static,
T: 'static,
U: 'static,
C: BiConsumer<T, U> + 'static,
Chains execution with another two-parameter consumer, executing the current consumer first, then the subsequent consumer.
§Parameters
after- The subsequent two-parameter consumer to execute after the current consumer completes
§Returns
Returns a new two-parameter consumer that executes the current consumer and the subsequent consumer in sequence.
§Examples
use std::sync::Arc;
use std::sync::atomic::{AtomicI32, Ordering};
use qubit_function::consumers::*;
let counter1 = Arc::new(AtomicI32::new(0));
let counter2 = Arc::new(AtomicI32::new(0));
let bi_consumer1 = BoxBiConsumer::new({
let counter = Arc::clone(&counter1);
move |key: &String, value: &i32| {
counter.fetch_add(*value, Ordering::SeqCst);
}
});
let bi_consumer2 = BoxBiConsumer::new({
let counter = Arc::clone(&counter2);
move |key: &String, value: &i32| {
counter.fetch_add(*value * 2, Ordering::SeqCst);
}
});
let chained = bi_consumer1.and_then(bi_consumer2);
chained.accept(&"test".to_string(), &3);
// counter1 = 3, counter2 = 6Examples found in repository?
examples/consumers/bi_consumer_observation_demo.rs (lines 45-47)
29fn main() {
30 println!("=== BiConsumer Observation Demo ===\n");
31
32 // 1. BoxBiConsumer - Single ownership
33 println!("1. BoxBiConsumer - Single ownership:");
34 let box_consumer = BoxBiConsumer::new(|x: &i32, y: &i32| {
35 println!(" Values: x={}, y={}, sum={}", x, y, x + y);
36 });
37 box_consumer.accept(&10, &5);
38 println!();
39
40 // 2. Method chaining with BoxBiConsumer
41 println!("2. BoxBiConsumer with method chaining:");
42 let chained = BoxBiConsumer::new(|x: &i32, y: &i32| {
43 println!(" First operation: x={}, y={}", x, y);
44 })
45 .and_then(|x: &i32, y: &i32| {
46 println!(" Second operation: sum={}", x + y);
47 })
48 .and_then(|x: &i32, y: &i32| {
49 println!(" Third operation: product={}", x * y);
50 });
51 chained.accept(&5, &3);
52 println!();
53
54 // 3. ArcBiConsumer - Thread-safe shared ownership
55 println!("3. ArcBiConsumer - Thread-safe shared ownership:");
56 let counter = Arc::new(AtomicUsize::new(0));
57 let c = counter.clone();
58 let arc_consumer = ArcBiConsumer::new(move |x: &i32, y: &i32| {
59 c.fetch_add(1, Ordering::SeqCst);
60 println!(" Thread {:?}: sum={}", thread::current().id(), x + y);
61 });
62
63 let consumer1 = arc_consumer.clone();
64 let consumer2 = arc_consumer.clone();
65
66 let handle1 = thread::spawn(move || {
67 consumer1.accept(&10, &5);
68 });
69
70 let handle2 = thread::spawn(move || {
71 consumer2.accept(&20, &8);
72 });
73
74 handle1.join().unwrap();
75 handle2.join().unwrap();
76 println!(" Total calls: {}\n", counter.load(Ordering::SeqCst));
77
78 // 4. RcBiConsumer - Single-threaded shared ownership
79 println!("4. RcBiConsumer - Single-threaded shared ownership:");
80 let counter = Rc::new(std::cell::Cell::new(0));
81 let c = counter.clone();
82 let rc_consumer = RcBiConsumer::new(move |x: &i32, y: &i32| {
83 c.set(c.get() + 1);
84 println!(" Call {}: sum={}", c.get(), x + y);
85 });
86
87 let clone1 = rc_consumer.clone();
88 let clone2 = rc_consumer.clone();
89
90 clone1.accept(&5, &3);
91 clone2.accept(&7, &2);
92 println!(" Total calls: {}\n", counter.get());
93
94 // 5. Working with closures directly
95 println!("5. Working with closures directly:");
96 let closure = |x: &i32, y: &i32| {
97 println!(" x={}, y={}, product={}", x, y, x * y);
98 };
99 closure.accept(&10, &20);
100 println!();
101
102 // 6. Pure observation - logging
103 println!("6. Pure observation - logging:");
104 let logger = BoxBiConsumer::new(|x: &i32, y: &i32| {
105 println!(" [LOG] Processing pair: ({}, {})", x, y);
106 });
107 logger.accept(&5, &3);
108 logger.accept(&10, &7);
109 println!();
110
111 // 7. Chaining observations
112 println!("7. Chaining observations:");
113 let log_input = BoxBiConsumer::new(|x: &i32, y: &i32| {
114 println!(" [INPUT] x={}, y={}", x, y);
115 });
116 let log_sum = BoxBiConsumer::new(|x: &i32, y: &i32| {
117 println!(" [SUM] {}", x + y);
118 });
119 let log_product = BoxBiConsumer::new(|x: &i32, y: &i32| {
120 println!(" [PRODUCT] {}", x * y);
121 });
122
123 let chained = log_input.and_then(log_sum).and_then(log_product);
124 chained.accept(&5, &3);
125 println!();
126
127 // 8. ArcBiConsumer - Reusability
128 println!("8. ArcBiConsumer - Reusability:");
129 let first = ArcBiConsumer::new(|x: &i32, y: &i32| {
130 println!(" First: x={}, y={}", x, y);
131 });
132 let second = ArcBiConsumer::new(|x: &i32, y: &i32| {
133 println!(" Second: sum={}", x + y);
134 });
135
136 // Both first and second can be reused after chaining
137 let chained1 = first.and_then(second.clone());
138 let chained2 = first.and_then(second.clone());
139
140 println!(" Using chained1:");
141 chained1.accept(&5, &3);
142
143 println!(" Using chained2:");
144 chained2.accept(&10, &2);
145 println!();
146
147 // 9. Name support
148 println!("9. Name support:");
149 let mut named_consumer = BoxBiConsumer::<i32, i32>::noop();
150 println!(" Initial name: {:?}", named_consumer.name());
151
152 named_consumer.set_name("sum_logger");
153 println!(" After setting name: {:?}", named_consumer.name());
154 println!(" Display: {}\n", named_consumer);
155
156 // 10. No-op consumer
157 println!("10. No-op consumer:");
158 let noop = BoxBiConsumer::<i32, i32>::noop();
159 noop.accept(&42, &10);
160 println!(" No-op completed (no output expected)\n");
161
162 println!("=== Demo Complete ===");
163}More examples
examples/consumers/bi_consumer_demo.rs (lines 54-57)
31fn main() {
32 println!("=== BiConsumer Demo ===\n");
33
34 // 1. BoxBiConsumer - Single ownership
35 println!("1. BoxBiConsumer - Single ownership:");
36 let log = Arc::new(Mutex::new(Vec::new()));
37 let l = log.clone();
38 let box_consumer = BoxBiConsumer::new(move |x: &i32, y: &i32| {
39 println!(" Processing: x={}, y={}", x, y);
40 l.lock().unwrap().push(*x + *y);
41 });
42 box_consumer.accept(&10, &5);
43 println!(" Result log: {:?}\n", *log.lock().unwrap());
44
45 // 2. Method chaining with BoxBiConsumer
46 println!("2. BoxBiConsumer with method chaining:");
47 let log = Arc::new(Mutex::new(Vec::new()));
48 let l1 = log.clone();
49 let l2 = log.clone();
50 let chained = BoxBiConsumer::new(move |x: &i32, y: &i32| {
51 l1.lock().unwrap().push(*x + *y);
52 println!(" After first operation: sum = {}", x + y);
53 })
54 .and_then(move |x: &i32, y: &i32| {
55 l2.lock().unwrap().push(*x * *y);
56 println!(" After second operation: product = {}", x * y);
57 });
58 chained.accept(&5, &3);
59 println!(" Final log: {:?}\n", *log.lock().unwrap());
60
61 // 3. ArcBiConsumer - Thread-safe shared ownership
62 println!("3. ArcBiConsumer - Thread-safe shared ownership:");
63 let log = Arc::new(Mutex::new(Vec::new()));
64 let l = log.clone();
65 let arc_consumer = ArcBiConsumer::new(move |x: &i32, y: &i32| {
66 l.lock().unwrap().push(*x + *y);
67 println!(" Thread {:?}: sum = {}", thread::current().id(), x + y);
68 });
69
70 let consumer1 = arc_consumer.clone();
71 let consumer2 = arc_consumer.clone();
72
73 let handle1 = thread::spawn(move || {
74 let c = consumer1;
75 c.accept(&10, &5);
76 });
77
78 let handle2 = thread::spawn(move || {
79 let c = consumer2;
80 c.accept(&20, &8);
81 });
82
83 handle1.join().unwrap();
84 handle2.join().unwrap();
85 println!(" Final log: {:?}\n", *log.lock().unwrap());
86
87 // 4. RcBiConsumer - Single-threaded shared ownership
88 println!("4. RcBiConsumer - Single-threaded shared ownership:");
89 let log = Rc::new(RefCell::new(Vec::new()));
90 let l = log.clone();
91 let rc_consumer = RcBiConsumer::new(move |x: &i32, y: &i32| {
92 l.borrow_mut().push(*x + *y);
93 });
94
95 let clone1 = rc_consumer.clone();
96 let clone2 = rc_consumer.clone();
97
98 clone1.accept(&5, &3);
99 println!(" After first use: {:?}", *log.borrow());
100
101 clone2.accept(&7, &2);
102 println!(" After second use: {:?}\n", *log.borrow());
103
104 // 5. Working with closures directly
105 println!("5. Working with closures directly:");
106 let log = Arc::new(Mutex::new(Vec::new()));
107 let l = log.clone();
108 let closure = move |x: &i32, y: &i32| {
109 let sum = *x + *y;
110 l.lock().unwrap().push(sum);
111 };
112 closure.accept(&10, &20);
113 println!(" After closure: {:?}\n", *log.lock().unwrap());
114
115 // 6. Conditional BiConsumer
116 println!("6. Conditional BiConsumer:");
117 let log = Arc::new(Mutex::new(Vec::new()));
118 let l = log.clone();
119 let mut conditional = BoxStatefulBiConsumer::new(move |x: &i32, y: &i32| {
120 l.lock().unwrap().push(*x + *y);
121 })
122 .when(|x: &i32, y: &i32| *x > 0 && *y > 0);
123
124 conditional.accept(&5, &3);
125 println!(" Positive values: {:?}", *log.lock().unwrap());
126
127 conditional.accept(&-5, &3);
128 println!(" Negative value (unchanged): {:?}\n", *log.lock().unwrap());
129
130 // 7. Conditional branch BiConsumer
131 println!("7. Conditional branch BiConsumer:");
132 let log = Arc::new(Mutex::new(Vec::new()));
133 let l1 = log.clone();
134 let l2 = log.clone();
135 let mut branch = BoxStatefulBiConsumer::new(move |x: &i32, _y: &i32| {
136 l1.lock().unwrap().push(*x);
137 })
138 .when(|x: &i32, y: &i32| *x > *y)
139 .or_else(move |_x: &i32, y: &i32| {
140 l2.lock().unwrap().push(*y);
141 });
142
143 branch.accept(&15, &10);
144 println!(" When x > y: {:?}", *log.lock().unwrap());
145
146 branch.accept(&5, &10);
147 println!(" When x <= y: {:?}\n", *log.lock().unwrap());
148
149 // 8. Accumulating statistics
150 println!("8. Accumulating statistics:");
151 let count = Arc::new(Mutex::new(0));
152 let sum = Arc::new(Mutex::new(0));
153 let c = count.clone();
154 let s = sum.clone();
155 let stats_consumer = BoxBiConsumer::new(move |x: &i32, y: &i32| {
156 *c.lock().unwrap() += 1;
157 *s.lock().unwrap() += x + y;
158 });
159
160 stats_consumer.accept(&5, &3);
161 stats_consumer.accept(&10, &2);
162 stats_consumer.accept(&7, &8);
163
164 println!(" Count: {}", *count.lock().unwrap());
165 println!(" Sum: {}\n", *sum.lock().unwrap());
166
167 // 9. Name support
168 println!("9. Name support:");
169 let mut named_consumer = BoxBiConsumer::<i32, i32>::noop();
170 println!(" Initial name: {:?}", named_consumer.name());
171
172 named_consumer.set_name("sum_calculator");
173 println!(" After setting name: {:?}", named_consumer.name());
174 println!(" Display: {}\n", named_consumer);
175
176 println!("=== Demo Complete ===");
177}Trait Implementations§
Source§impl<T, U> BiConsumer<T, U> for BoxBiConsumer<T, U>
impl<T, U> BiConsumer<T, U> for BoxBiConsumer<T, U>
Source§fn accept(&self, first: &T, second: &U)
fn accept(&self, first: &T, second: &U)
Performs the non-mutating consumption operation Read more
Source§fn into_box(self) -> BoxBiConsumer<T, U>
fn into_box(self) -> BoxBiConsumer<T, U>
Converts to BoxBiConsumer Read more
Source§fn into_rc(self) -> RcBiConsumer<T, U>where
Self: 'static,
fn into_rc(self) -> RcBiConsumer<T, U>where
Self: 'static,
Converts to RcBiConsumer Read more
Source§fn into_once(self) -> BoxBiConsumerOnce<T, U>where
Self: 'static,
fn into_once(self) -> BoxBiConsumerOnce<T, U>where
Self: 'static,
Convert to BiConsumerOnce Read more
Source§impl<T, U> Debug for BoxBiConsumer<T, U>
impl<T, U> Debug for BoxBiConsumer<T, U>
Auto Trait Implementations§
impl<T, U> Freeze for BoxBiConsumer<T, U>
impl<T, U> !RefUnwindSafe for BoxBiConsumer<T, U>
impl<T, U> !Send for BoxBiConsumer<T, U>
impl<T, U> !Sync for BoxBiConsumer<T, U>
impl<T, U> Unpin for BoxBiConsumer<T, U>
impl<T, U> UnsafeUnpin for BoxBiConsumer<T, U>
impl<T, U> !UnwindSafe for BoxBiConsumer<T, U>
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