use redis::{self, transaction, Commands}; use std::collections::HashMap; /// This function demonstrates how a return value can be coerced into a /// hashmap of tuples. This is particularly useful for responses like /// CONFIG GET or all most H functions which will return responses in /// such list of implied tuples. fn do_print_max_entry_limits(con: &mut redis::Connection) -> redis::RedisResult<()> { // since rust cannot know what format we actually want we need to be // explicit here and define the type of our response. In this case // String -> int fits all the items we query for. let config: HashMap = redis::cmd("CONFIG") .arg("GET") .arg("*-max-*-entries") .query(con)?; println!("Max entry limits:"); println!( " max-intset: {}", config.get("set-max-intset-entries").unwrap_or(&0) ); println!( " hash-max-ziplist: {}", config.get("hash-max-ziplist-entries").unwrap_or(&0) ); println!( " list-max-ziplist: {}", config.get("list-max-ziplist-entries").unwrap_or(&0) ); println!( " zset-max-ziplist: {}", config.get("zset-max-ziplist-entries").unwrap_or(&0) ); Ok(()) } /// This is a pretty stupid example that demonstrates how to create a large /// set through a pipeline and how to iterate over it through implied /// cursors. fn do_show_scanning(con: &mut redis::Connection) -> redis::RedisResult<()> { // This makes a large pipeline of commands. Because the pipeline is // modified in place we can just ignore the return value upon the end // of each iteration. let mut pipe = redis::pipe(); for num in 0..1000 { pipe.cmd("SADD").arg("my_set").arg(num).ignore(); } // since we don't care about the return value of the pipeline we can // just cast it into the unit type. pipe.query(con)?; // since rust currently does not track temporaries for us, we need to // store it in a local variable. let mut cmd = redis::cmd("SSCAN"); cmd.arg("my_set").cursor_arg(0); // as a simple exercise we just sum up the iterator. Since the fold // method carries an initial value we do not need to define the // type of the iterator, rust will figure "int" out for us. let sum: i32 = cmd.iter::(con)?.sum(); println!("The sum of all numbers in the set 0-1000: {}", sum); Ok(()) } /// Demonstrates how to do an atomic increment in a very low level way. fn do_atomic_increment_lowlevel(con: &mut redis::Connection) -> redis::RedisResult<()> { let key = "the_key"; println!("Run low-level atomic increment:"); // set the initial value so we have something to test with. redis::cmd("SET").arg(key).arg(42).query(con)?; loop { // we need to start watching the key we care about, so that our // exec fails if the key changes. redis::cmd("WATCH").arg(key).query(con)?; // load the old value, so we know what to increment. let val: isize = redis::cmd("GET").arg(key).query(con)?; // at this point we can go into an atomic pipe (a multi block) // and set up the keys. let response: Option<(isize,)> = redis::pipe() .atomic() .cmd("SET") .arg(key) .arg(val + 1) .ignore() .cmd("GET") .arg(key) .query(con)?; match response { None => { continue; } Some(response) => { let (new_val,) = response; println!(" New value: {}", new_val); break; } } } Ok(()) } /// Demonstrates how to do an atomic increment with transaction support. fn do_atomic_increment(con: &mut redis::Connection) -> redis::RedisResult<()> { let key = "the_key"; println!("Run high-level atomic increment:"); // set the initial value so we have something to test with. con.set(key, 42)?; // run the transaction block. let (new_val,): (isize,) = transaction(con, &[key], |con, pipe| { // load the old value, so we know what to increment. let val: isize = con.get(key)?; // increment pipe.set(key, val + 1).ignore().get(key).query(con) })?; // and print the result println!("New value: {}", new_val); Ok(()) } /// Runs all the examples and propagates errors up. fn do_redis_code() -> redis::RedisResult<()> { // general connection handling let client = redis::Client::open("redis://127.0.0.1/")?; let mut con = client.get_connection()?; // read some config and print it. do_print_max_entry_limits(&mut con)?; // demonstrate how scanning works. do_show_scanning(&mut con)?; // shows an atomic increment. do_atomic_increment_lowlevel(&mut con)?; do_atomic_increment(&mut con)?; Ok(()) } fn main() { // at this point the errors are fatal, let's just fail hard. match do_redis_code() { Err(err) => { println!("Could not execute example:"); println!(" {}: {}", err.category(), err); } Ok(()) => {} } }