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bi_consumer_demo/
bi_consumer_demo.rs

1/*******************************************************************************
2 *
3 *    Copyright (c) 2025 - 2026.
4 *    Haixing Hu, Qubit Co. Ltd.
5 *
6 *    All rights reserved.
7 *
8 ******************************************************************************/
9
10//! BiConsumer demonstration
11//!
12//! This example demonstrates the usage of BiConsumer types after
13//! refactoring to use &T, &U semantics (not modifying input values).
14
15use qubit_function::{
16    ArcBiConsumer,
17    BiConsumer,
18    BoxBiConsumer,
19    BoxStatefulBiConsumer,
20    RcBiConsumer,
21    StatefulBiConsumer,
22};
23use std::cell::RefCell;
24use std::rc::Rc;
25use std::sync::{
26    Arc,
27    Mutex,
28};
29use std::thread;
30
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}