//! Module defining interfaces to native-Rust functions. use super::call::FnCallArgs; use crate::ast::FnCallHashes; use crate::eval::{EvalState, GlobalRuntimeState}; use crate::plugin::PluginFunction; use crate::tokenizer::{Token, TokenizeState}; use crate::types::dynamic::Variant; use crate::{ calc_fn_hash, Dynamic, Engine, EvalContext, FuncArgs, Module, Position, RhaiResult, RhaiResultOf, StaticVec, ERR, }; use std::any::type_name; #[cfg(feature = "no_std")] use std::prelude::v1::*; /// Trait that maps to `Send + Sync` only under the `sync` feature. #[cfg(feature = "sync")] pub trait SendSync: Send + Sync {} /// Trait that maps to `Send + Sync` only under the `sync` feature. #[cfg(feature = "sync")] impl SendSync for T {} /// Trait that maps to `Send + Sync` only under the `sync` feature. #[cfg(not(feature = "sync"))] pub trait SendSync {} /// Trait that maps to `Send + Sync` only under the `sync` feature. #[cfg(not(feature = "sync"))] impl SendSync for T {} /// Immutable reference-counted container. #[cfg(not(feature = "sync"))] pub use std::rc::Rc as Shared; /// Immutable reference-counted container. #[cfg(feature = "sync")] pub use std::sync::Arc as Shared; /// Synchronized shared object. #[cfg(not(feature = "sync"))] #[allow(dead_code)] pub use std::cell::RefCell as Locked; /// Lock guard for synchronized shared object. #[cfg(not(feature = "sync"))] #[allow(dead_code)] pub type LockGuard<'a, T> = std::cell::RefMut<'a, T>; /// Synchronized shared object. #[cfg(feature = "sync")] #[allow(dead_code)] pub use std::sync::RwLock as Locked; /// Lock guard for synchronized shared object. #[cfg(feature = "sync")] #[allow(dead_code)] pub type LockGuard<'a, T> = std::sync::RwLockWriteGuard<'a, T>; /// Context of a native Rust function call. #[derive(Debug)] pub struct NativeCallContext<'a> { /// The current [`Engine`]. engine: &'a Engine, /// Name of function called. fn_name: &'a str, /// Function source, if any. source: Option<&'a str>, /// The current [`GlobalRuntimeState`], if any. global: Option<&'a GlobalRuntimeState<'a>>, /// The current stack of loaded [modules][Module]. lib: &'a [&'a Module], /// [Position] of the function call. pos: Position, } impl<'a, M: AsRef<[&'a Module]> + ?Sized, S: AsRef + 'a + ?Sized> From<( &'a Engine, &'a S, Option<&'a S>, &'a GlobalRuntimeState<'a>, &'a M, Position, )> for NativeCallContext<'a> { #[inline(always)] fn from( value: ( &'a Engine, &'a S, Option<&'a S>, &'a GlobalRuntimeState, &'a M, Position, ), ) -> Self { Self { engine: value.0, fn_name: value.1.as_ref(), source: value.2.map(S::as_ref), global: Some(value.3), lib: value.4.as_ref(), pos: value.5, } } } impl<'a, M: AsRef<[&'a Module]> + ?Sized, S: AsRef + 'a + ?Sized> From<(&'a Engine, &'a S, &'a M)> for NativeCallContext<'a> { #[inline(always)] fn from(value: (&'a Engine, &'a S, &'a M)) -> Self { Self { engine: value.0, fn_name: value.1.as_ref(), source: None, global: None, lib: value.2.as_ref(), pos: Position::NONE, } } } impl<'a> NativeCallContext<'a> { /// _(internals)_ Create a new [`NativeCallContext`]. /// Exported under the `metadata` feature only. #[deprecated( since = "1.3.0", note = "`NativeCallContext::new` will be moved under `internals`. Use `FnPtr::call` to call a function pointer directly." )] #[inline(always)] #[must_use] pub fn new( engine: &'a Engine, fn_name: &'a (impl AsRef + 'a + ?Sized), lib: &'a [&Module], ) -> Self { Self { engine, fn_name: fn_name.as_ref(), source: None, global: None, lib, pos: Position::NONE, } } /// _(internals)_ Create a new [`NativeCallContext`]. /// Exported under the `internals` feature only. /// /// Not available under `no_module`. #[cfg(feature = "internals")] #[cfg(not(feature = "no_module"))] #[inline(always)] #[must_use] pub fn new_with_all_fields( engine: &'a Engine, fn_name: &'a (impl AsRef + 'a + ?Sized), source: Option<&'a (impl AsRef + 'a + ?Sized)>, global: &'a GlobalRuntimeState, lib: &'a [&Module], pos: Position, ) -> Self { Self { engine, fn_name: fn_name.as_ref(), source: source.map(<_>::as_ref), global: Some(global), lib, pos, } } /// The current [`Engine`]. #[inline(always)] #[must_use] pub const fn engine(&self) -> &Engine { self.engine } /// Name of the function called. #[inline(always)] #[must_use] pub const fn fn_name(&self) -> &str { self.fn_name } /// [Position] of the function call. #[inline(always)] #[must_use] pub const fn position(&self) -> Position { self.pos } /// The current source. #[inline(always)] #[must_use] pub const fn source(&self) -> Option<&str> { self.source } /// Get an iterator over the current set of modules imported via `import` statements /// in reverse order. /// /// Not available under `no_module`. #[cfg(not(feature = "no_module"))] #[inline] pub fn iter_imports(&self) -> impl Iterator { self.global.iter().flat_map(|&m| m.iter_imports()) } /// Get an iterator over the current set of modules imported via `import` statements in reverse order. #[cfg(not(feature = "no_module"))] #[allow(dead_code)] #[inline] pub(crate) fn iter_imports_raw( &self, ) -> impl Iterator)> { self.global.iter().flat_map(|&m| m.iter_imports_raw()) } /// _(internals)_ The current [`GlobalRuntimeState`], if any. /// Exported under the `internals` feature only. /// /// Not available under `no_module`. #[cfg(feature = "internals")] #[cfg(not(feature = "no_module"))] #[inline(always)] #[must_use] pub const fn global_runtime_state(&self) -> Option<&GlobalRuntimeState> { self.global } /// Get an iterator over the namespaces containing definitions of all script-defined functions /// in reverse order. #[inline] pub fn iter_namespaces(&self) -> impl Iterator { self.lib.iter().rev().cloned() } /// _(internals)_ The current set of namespaces containing definitions of all script-defined functions. /// Exported under the `internals` feature only. #[cfg(feature = "internals")] #[inline(always)] #[must_use] pub const fn namespaces(&self) -> &[&Module] { self.lib } /// Call a function inside the call context with the provided arguments. #[inline] pub fn call_fn( &self, fn_name: impl AsRef, args: impl FuncArgs, ) -> RhaiResultOf { let mut arg_values = StaticVec::new_const(); args.parse(&mut arg_values); let mut args: StaticVec<_> = arg_values.iter_mut().collect(); let result = self.call_fn_raw(fn_name, false, false, &mut args)?; let typ = self.engine().map_type_name(result.type_name()); result.try_cast().ok_or_else(|| { ERR::ErrorMismatchOutputType( self.engine().map_type_name(type_name::()).into(), typ.into(), Position::NONE, ) .into() }) } /// Call a function inside the call context. /// /// If `is_method_call` is [`true`], the first argument is assumed to be the `this` pointer for /// a script-defined function (or the object of a method call). /// /// # WARNING - Low Level API /// /// This function is very low level. /// /// # Arguments /// /// All arguments may be _consumed_, meaning that they may be replaced by `()`. This is to avoid /// unnecessarily cloning the arguments. /// /// **DO NOT** reuse the arguments after this call. If they are needed afterwards, clone them /// _before_ calling this function. /// /// If `is_ref_mut` is [`true`], the first argument is assumed to be passed by reference and is /// not consumed. pub fn call_fn_raw( &self, fn_name: impl AsRef, is_ref_mut: bool, is_method_call: bool, args: &mut [&mut Dynamic], ) -> RhaiResult { let fn_name = fn_name.as_ref(); let len = args.len(); let hash = if is_method_call { FnCallHashes::from_all( #[cfg(not(feature = "no_function"))] calc_fn_hash(fn_name, len - 1), calc_fn_hash(fn_name, len), ) } else { calc_fn_hash(fn_name, len).into() }; self.engine() .exec_fn_call( &mut self .global .cloned() .unwrap_or_else(|| GlobalRuntimeState::new()), &mut EvalState::new(), self.lib, fn_name, hash, args, is_ref_mut, is_method_call, Position::NONE, None, 0, ) .map(|(r, _)| r) } } /// Consume a [`Shared`] resource and return a mutable reference to the wrapped value. /// If the resource is shared (i.e. has other outstanding references), a cloned copy is used. #[inline(always)] #[must_use] #[allow(dead_code)] pub fn shared_make_mut(value: &mut Shared) -> &mut T { Shared::make_mut(value) } /// Consume a [`Shared`] resource if is unique (i.e. not shared), or clone it otherwise. #[inline] #[must_use] #[allow(dead_code)] pub fn shared_take_or_clone(value: Shared) -> T { shared_try_take(value).unwrap_or_else(|v| v.as_ref().clone()) } /// Consume a [`Shared`] resource if is unique (i.e. not shared). #[inline(always)] #[allow(dead_code)] pub fn shared_try_take(value: Shared) -> Result> { Shared::try_unwrap(value) } /// Consume a [`Shared`] resource, assuming that it is unique (i.e. not shared). /// /// # Panics /// /// Panics if the resource is shared (i.e. has other outstanding references). #[inline] #[must_use] #[allow(dead_code)] pub fn shared_take(value: Shared) -> T { shared_try_take(value).ok().expect("not shared") } /// Lock a [`Shared`] resource. #[inline(always)] #[must_use] #[allow(dead_code)] pub fn shared_write_lock<'a, T>(value: &'a Locked) -> LockGuard<'a, T> { #[cfg(not(feature = "sync"))] return value.borrow_mut(); #[cfg(feature = "sync")] return value.write().unwrap(); } /// A general function trail object. #[cfg(not(feature = "sync"))] pub type FnAny = dyn Fn(NativeCallContext, &mut FnCallArgs) -> RhaiResult; /// A general function trail object. #[cfg(feature = "sync")] pub type FnAny = dyn Fn(NativeCallContext, &mut FnCallArgs) -> RhaiResult + Send + Sync; /// A trail object for built-in functions. pub type FnBuiltin = fn(NativeCallContext, &mut FnCallArgs) -> RhaiResult; /// A standard function that gets an iterator from a type. pub type IteratorFn = fn(Dynamic) -> Box>; #[cfg(not(feature = "sync"))] pub type FnPlugin = dyn PluginFunction; #[cfg(feature = "sync")] pub type FnPlugin = dyn PluginFunction + Send + Sync; /// A standard callback function for progress reporting. #[cfg(not(feature = "unchecked"))] #[cfg(not(feature = "sync"))] pub type OnProgressCallback = Box Option + 'static>; /// A standard callback function for progress reporting. #[cfg(not(feature = "unchecked"))] #[cfg(feature = "sync")] pub type OnProgressCallback = Box Option + Send + Sync + 'static>; /// A standard callback function for printing. #[cfg(not(feature = "sync"))] pub type OnPrintCallback = Box; /// A standard callback function for printing. #[cfg(feature = "sync")] pub type OnPrintCallback = Box; /// A standard callback function for debugging. #[cfg(not(feature = "sync"))] pub type OnDebugCallback = Box, Position) + 'static>; /// A standard callback function for debugging. #[cfg(feature = "sync")] pub type OnDebugCallback = Box, Position) + Send + Sync + 'static>; /// A standard callback function for mapping tokens during parsing. #[cfg(not(feature = "sync"))] pub type OnParseTokenCallback = dyn Fn(Token, Position, &TokenizeState) -> Token; /// A standard callback function for mapping tokens during parsing. #[cfg(feature = "sync")] pub type OnParseTokenCallback = dyn Fn(Token, Position, &TokenizeState) -> Token + Send + Sync + 'static; /// A standard callback function for variable access. #[cfg(not(feature = "sync"))] pub type OnVarCallback = Box RhaiResultOf> + 'static>; /// A standard callback function for variable access. #[cfg(feature = "sync")] pub type OnVarCallback = Box RhaiResultOf> + Send + Sync + 'static>;