Script - Peroxide

Zero GC spikes. This is a game-changer for fighting games, rhythm games, or any title requiring sub-millisecond frame consistency. 3. Native Entity Component System (ECS) Integration Peroxide isn’t general-purpose—it’s built for ECS. The language has first-class support for Archetypes and Queries .

archetype Player { health: f32, position: Vec3, inventory: List<Item> } system "damage_over_time" { query (mut health, @tag "burning") for each { health.current -= 5.0 * delta_time } } Peroxide Script

// To commit the bleach back: enemy_health <-! preview // Stabilizes the change Zero GC spikes

For two decades, modding has been a war between accessibility and power. Lua is friendly but slow. C++ is fast but unforgiving. Peroxide Script, a new open-source embedded scripting language, claims to offer the best of both worlds—with a chemical twist. preview // Stabilizes the change For two decades,

This allows modders to simulate "what-if" scenarios (damage prediction, UI previews, network rollback) without cluttering the live game state. It’s like Git for game variables. Most scripting languages pause the world to clean up memory. Peroxide uses reactive reference counting with a twist: objects self-destruct when their last stable reference disappears. The Bleach Operator creates ephemeral references that vanish automatically after the current frame.

But what makes it "peroxide"? The name hints at its core mechanism: . Let’s break it down. 1. The Bleach Operator: !> The headline feature of Peroxide is the Bleach Operator ( !> ). In traditional scripting, if you modify an object, all references see that change. In Peroxide, mutation is opt-in and temporary .

channel "UI_Events" -> (event_type: string, payload: any) spawn fn update_health_bar() { loop { match recv("UI_Events", timeout=0) { ("damage_taken", val) => animate_red_flash(val) _ => skip } } }