That's a nice source, from where up your ass did you find it ?
Go's GC is absolutely awful and leads to nondeterministic pauses and catastrophic latency spikes, especially when the memory pressure and capacity is high. Throw the go GC against a 256GB heap, see how well it survives.
Technologies have strong and weak points. Go's strong points are small, targeted pieces of software and having 66% of a binary basically be if err != nil return err. Rust's strong points are that you get to have the symbol<():soup<_, |_| of { c++ }>> while not saying you're writing c++ and feeling really smug when you say that you only needed to use 5 Arc<Mutex<T>> and rewrote your entire software three times but at least it runs almost as fast as some shitty C that does fgets() in the middle of a hot loop. Java lets you spawn spring boot and instantiate a string through reflection because why not.
I promise you, I can write allocation heavy FizzBuzzEnterpriseFactoryFactories in Rust too.
Go's GC is absolutely awful and leads to nondeterministic pauses and catastrophic latency spikes, especially when the memory pressure and capacity is high. Throw the go GC against a 256GB heap, see how well it survives.
Technologies have strong and weak points. Go's strong points are small, targeted pieces of software and having 66% of a binary basically be if err != nil return err. Rust's strong points are that you get to have the symbol<():soup<_, |_| of { c++ }>> while not saying you're writing c++ and feeling really smug when you say that you only needed to use 5 Arc<Mutex<T>> and rewrote your entire software three times but at least it runs almost as fast as some shitty C that does fgets() in the middle of a hot loop. Java lets you spawn spring boot and instantiate a string through reflection because why not.
I promise you, I can write allocation heavy FizzBuzzEnterpriseFactoryFactories in Rust too.