Add array API with closure variation that binds to this.

This commit is contained in:
Stephen Chung 2022-12-24 19:37:06 +08:00
parent ffa1f5fb4a
commit fd401f3048
6 changed files with 162 additions and 70 deletions

View File

@ -55,6 +55,11 @@ Net features
* A compact script compresses better than one with liberal whitespaces and comments. * A compact script compresses better than one with liberal whitespaces and comments.
* Unlike some uglifiers or minifiers, `Engine::compact_script` does not optimize the script in any way, nor does it rename variables. * Unlike some uglifiers or minifiers, `Engine::compact_script` does not optimize the script in any way, nor does it rename variables.
### Enhanced array API
* Array methods that take a function pointer, usually a closure (e.g. `map`, `filter`, `index_of` etc.), can now provide a closure with one few parameter but binds the first parameter to `this`.
* This vastly improves performance when working with arrays of object maps by avoiding unnecessary cloning of large types.
Enhancements Enhancements
------------ ------------

View File

@ -674,7 +674,7 @@ pub mod deprecated_array_functions {
#[rhai_fn(name = "map", return_raw)] #[rhai_fn(name = "map", return_raw)]
pub fn map_by_fn_name( pub fn map_by_fn_name(
ctx: NativeCallContext, ctx: NativeCallContext,
array: Array, array: &mut Array,
mapper: &str, mapper: &str,
) -> RhaiResultOf<Array> { ) -> RhaiResultOf<Array> {
map(ctx, array, FnPtr::new(mapper)?) map(ctx, array, FnPtr::new(mapper)?)
@ -712,7 +712,7 @@ pub mod deprecated_array_functions {
#[rhai_fn(name = "filter", return_raw)] #[rhai_fn(name = "filter", return_raw)]
pub fn filter_by_fn_name( pub fn filter_by_fn_name(
ctx: NativeCallContext, ctx: NativeCallContext,
array: Array, array: &mut Array,
filter_func: &str, filter_func: &str,
) -> RhaiResultOf<Array> { ) -> RhaiResultOf<Array> {
filter(ctx, array, FnPtr::new(filter_func)?) filter(ctx, array, FnPtr::new(filter_func)?)

View File

@ -471,13 +471,8 @@ impl Engine {
if chain_type == ChainType::Dotting && !x.is_qualified() => if chain_type == ChainType::Dotting && !x.is_qualified() =>
{ {
for expr in &x.args { for expr in &x.args {
let arg_value = self.get_arg_value( let tp = this_ptr.as_deref_mut();
global, let arg_value = self.get_arg_value(global, caches, scope, tp, expr)?;
caches,
scope,
this_ptr.as_deref_mut(),
expr,
)?;
_arg_values.push(arg_value.0.flatten()); _arg_values.push(arg_value.0.flatten());
} }
} }
@ -529,7 +524,7 @@ impl Engine {
&self, &self,
global: &mut GlobalRuntimeState, global: &mut GlobalRuntimeState,
caches: &mut Caches, caches: &mut Caches,
mut this_ptr: Option<&mut Dynamic>, this_ptr: Option<&mut Dynamic>,
root: &Expr, root: &Expr,
parent: &Expr, parent: &Expr,
target: &mut Target, target: &mut Target,
@ -540,6 +535,9 @@ impl Engine {
let is_ref_mut = target.is_ref(); let is_ref_mut = target.is_ref();
let op_pos = parent.position(); let op_pos = parent.position();
#[cfg(feature = "debugging")]
let mut this_ptr = this_ptr;
#[cfg(feature = "debugging")] #[cfg(feature = "debugging")]
let scope = &mut Scope::new(); let scope = &mut Scope::new();
@ -838,17 +836,13 @@ impl Engine {
// {xxx:map}.sub_lhs[expr] | {xxx:map}.sub_lhs.expr // {xxx:map}.sub_lhs[expr] | {xxx:map}.sub_lhs.expr
Expr::Index(x, ..) | Expr::Dot(x, ..) if target.is_map() => { Expr::Index(x, ..) | Expr::Dot(x, ..) if target.is_map() => {
let _node = &x.lhs; let _node = &x.lhs;
let mut _this_ptr = this_ptr;
let _tp = _this_ptr.as_deref_mut();
let val_target = &mut match x.lhs { let val_target = &mut match x.lhs {
Expr::Property(ref p, pos) => { Expr::Property(ref p, pos) => {
#[cfg(feature = "debugging")] #[cfg(feature = "debugging")]
self.run_debugger( self.run_debugger(global, caches, scope, _tp, _node)?;
global,
caches,
scope,
this_ptr.as_deref_mut(),
_node,
)?;
let index = &mut p.2.clone().into(); let index = &mut p.2.clone().into();
self.get_indexed_mut( self.get_indexed_mut(
@ -858,13 +852,8 @@ impl Engine {
// {xxx:map}.fn_name(arg_expr_list)[expr] | {xxx:map}.fn_name(arg_expr_list).expr // {xxx:map}.fn_name(arg_expr_list)[expr] | {xxx:map}.fn_name(arg_expr_list).expr
Expr::MethodCall(ref x, pos) if !x.is_qualified() => { Expr::MethodCall(ref x, pos) if !x.is_qualified() => {
#[cfg(feature = "debugging")] #[cfg(feature = "debugging")]
let reset = self.run_debugger_with_reset( let reset = self
global, .run_debugger_with_reset(global, caches, scope, _tp, _node)?;
caches,
scope,
this_ptr.as_deref_mut(),
_node,
)?;
#[cfg(feature = "debugging")] #[cfg(feature = "debugging")]
auto_restore!(global if Some(reset) => move |g| g.debugger_mut().reset_status(reset)); auto_restore!(global if Some(reset) => move |g| g.debugger_mut().reset_status(reset));
@ -893,25 +882,21 @@ impl Engine {
}; };
self.eval_dot_index_chain_raw( self.eval_dot_index_chain_raw(
global, caches, this_ptr, root, rhs, val_target, &x.rhs, idx_values, global, caches, _this_ptr, root, rhs, val_target, &x.rhs, idx_values,
new_val, new_val,
) )
} }
// xxx.sub_lhs[expr] | xxx.sub_lhs.expr // xxx.sub_lhs[expr] | xxx.sub_lhs.expr
Expr::Index(x, ..) | Expr::Dot(x, ..) => { Expr::Index(x, ..) | Expr::Dot(x, ..) => {
let _node = &x.lhs; let _node = &x.lhs;
let mut _this_ptr = this_ptr;
let _tp = _this_ptr.as_deref_mut();
match x.lhs { match x.lhs {
// xxx.prop[expr] | xxx.prop.expr // xxx.prop[expr] | xxx.prop.expr
Expr::Property(ref p, pos) => { Expr::Property(ref p, pos) => {
#[cfg(feature = "debugging")] #[cfg(feature = "debugging")]
self.run_debugger( self.run_debugger(global, caches, scope, _tp, _node)?;
global,
caches,
scope,
this_ptr.as_deref_mut(),
_node,
)?;
let ((getter, hash_get), (setter, hash_set), name) = &**p; let ((getter, hash_get), (setter, hash_set), name) = &**p;
let args = &mut [target.as_mut()]; let args = &mut [target.as_mut()];
@ -943,7 +928,7 @@ impl Engine {
let val = &mut (&mut val).into(); let val = &mut (&mut val).into();
let (result, may_be_changed) = self.eval_dot_index_chain_raw( let (result, may_be_changed) = self.eval_dot_index_chain_raw(
global, caches, this_ptr, root, rhs, val, &x.rhs, idx_values, global, caches, _this_ptr, root, rhs, val, &x.rhs, idx_values,
new_val, new_val,
)?; )?;
@ -987,11 +972,7 @@ impl Engine {
let val = { let val = {
#[cfg(feature = "debugging")] #[cfg(feature = "debugging")]
let reset = self.run_debugger_with_reset( let reset = self.run_debugger_with_reset(
global, global, caches, scope, _tp, _node,
caches,
scope,
this_ptr.as_deref_mut(),
_node,
)?; )?;
#[cfg(feature = "debugging")] #[cfg(feature = "debugging")]
auto_restore!(global if Some(reset) => move |g| g.debugger_mut().reset_status(reset)); auto_restore!(global if Some(reset) => move |g| g.debugger_mut().reset_status(reset));
@ -1015,7 +996,7 @@ impl Engine {
let val = &mut val.into(); let val = &mut val.into();
self.eval_dot_index_chain_raw( self.eval_dot_index_chain_raw(
global, caches, this_ptr, root, rhs, val, &x.rhs, idx_values, global, caches, _this_ptr, root, rhs, val, &x.rhs, idx_values,
new_val, new_val,
) )
} }

View File

@ -647,6 +647,10 @@ pub mod array_functions {
/// Iterate through all the elements in the array, applying a `mapper` function to each element /// Iterate through all the elements in the array, applying a `mapper` function to each element
/// in turn, and return the results as a new array. /// in turn, and return the results as a new array.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -666,17 +670,17 @@ pub mod array_functions {
/// print(y); // prints "[0, 2, 6, 12, 20]" /// print(y); // prints "[0, 2, 6, 12, 20]"
/// ``` /// ```
#[rhai_fn(return_raw)] #[rhai_fn(return_raw)]
pub fn map(ctx: NativeCallContext, array: Array, map: FnPtr) -> RhaiResultOf<Array> { pub fn map(ctx: NativeCallContext, array: &mut Array, map: FnPtr) -> RhaiResultOf<Array> {
if array.is_empty() { if array.is_empty() {
return Ok(array); return Ok(Array::new());
} }
let mut ar = Array::with_capacity(array.len()); let mut ar = Array::with_capacity(array.len());
for (i, item) in array.into_iter().enumerate() { for (i, item) in array.iter_mut().enumerate() {
let ex = [(i as INT).into()]; let ex = [(i as INT).into()];
ar.push(map.call_raw_with_extra_args("map", &ctx, None, [item], ex)?); ar.push(map.call_raw_with_extra_args("map", &ctx, Some(item), [], ex)?);
} }
Ok(ar) Ok(ar)
@ -685,6 +689,10 @@ pub mod array_functions {
/// Iterate through all the elements in the array, applying a `filter` function to each element /// Iterate through all the elements in the array, applying a `filter` function to each element
/// in turn, and return a copy of all elements (in order) that return `true` as a new array. /// in turn, and return a copy of all elements (in order) that return `true` as a new array.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -704,22 +712,22 @@ pub mod array_functions {
/// print(y); // prints "[12, 20]" /// print(y); // prints "[12, 20]"
/// ``` /// ```
#[rhai_fn(return_raw)] #[rhai_fn(return_raw)]
pub fn filter(ctx: NativeCallContext, array: Array, filter: FnPtr) -> RhaiResultOf<Array> { pub fn filter(ctx: NativeCallContext, array: &mut Array, filter: FnPtr) -> RhaiResultOf<Array> {
if array.is_empty() { if array.is_empty() {
return Ok(array); return Ok(Array::new());
} }
let mut ar = Array::new(); let mut ar = Array::new();
for (i, item) in array.into_iter().enumerate() { for (i, item) in array.iter_mut().enumerate() {
let ex = [(i as INT).into()]; let ex = [(i as INT).into()];
if filter if filter
.call_raw_with_extra_args("filter", &ctx, None, [item.clone()], ex)? .call_raw_with_extra_args("filter", &ctx, Some(item), [], ex)?
.as_bool() .as_bool()
.unwrap_or(false) .unwrap_or(false)
{ {
ar.push(item); ar.push(item.clone());
} }
} }
@ -871,6 +879,10 @@ pub mod array_functions {
/// in turn, and return the index of the first element that returns `true`. /// in turn, and return the index of the first element that returns `true`.
/// If no element returns `true`, `-1` is returned. /// If no element returns `true`, `-1` is returned.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -907,6 +919,10 @@ pub mod array_functions {
/// * If `start` < -length of array, position counts from the beginning of the array. /// * If `start` < -length of array, position counts from the beginning of the array.
/// * If `start` ≥ length of array, `-1` is returned. /// * If `start` ≥ length of array, `-1` is returned.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -942,11 +958,11 @@ pub mod array_functions {
let (start, ..) = calc_offset_len(array.len(), start, 0); let (start, ..) = calc_offset_len(array.len(), start, 0);
for (i, item) in array.iter().enumerate().skip(start) { for (i, item) in array.iter_mut().enumerate().skip(start) {
let ex = [(i as INT).into()]; let ex = [(i as INT).into()];
if filter if filter
.call_raw_with_extra_args("index_of", &ctx, None, [item.clone()], ex)? .call_raw_with_extra_args("index_of", &ctx, Some(item), [], ex)?
.as_bool() .as_bool()
.unwrap_or(false) .unwrap_or(false)
{ {
@ -960,6 +976,10 @@ pub mod array_functions {
/// in turn, and return a copy of the first element that returns `true`. If no element returns /// in turn, and return a copy of the first element that returns `true`. If no element returns
/// `true`, `()` is returned. /// `true`, `()` is returned.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -972,7 +992,7 @@ pub mod array_functions {
/// ///
/// print(x.find(|v| v > 3)); // prints 5: 5 > 3 /// print(x.find(|v| v > 3)); // prints 5: 5 > 3
/// ///
/// x.find(|v| v > 13) ?? print("not found"); // prints "not found": nothing is > 13 /// print(x.find(|v| v > 13) ?? "not found"); // prints "not found": nothing is > 13
/// ///
/// print(x.find(|v, i| v * i > 13)); // prints 5: 3 * 5 > 13 /// print(x.find(|v, i| v * i > 13)); // prints 5: 3 * 5 > 13
/// ``` /// ```
@ -988,6 +1008,10 @@ pub mod array_functions {
/// * If `start` < -length of array, position counts from the beginning of the array. /// * If `start` < -length of array, position counts from the beginning of the array.
/// * If `start` ≥ length of array, `-1` is returned. /// * If `start` ≥ length of array, `-1` is returned.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -1000,9 +1024,9 @@ pub mod array_functions {
/// ///
/// print(x.find(|v| v > 1, 2)); // prints 3: 3 > 1 /// print(x.find(|v| v > 1, 2)); // prints 3: 3 > 1
/// ///
/// x.find(|v| v < 2, 3) ?? print("not found"); // prints "not found": nothing < 2 past index 3 /// print(x.find(|v| v < 2, 3) ?? "not found"); // prints "not found": nothing < 2 past index 3
/// ///
/// x.find(|v| v > 1, 8) ?? print("not found"); // prints "not found": nothing found past end of array /// print(x.find(|v| v > 1, 8) ?? "not found"); // prints "not found": nothing found past end of array
/// ///
/// print(x.find(|v| v > 1, -3)); // prints 5: -3 = start from index 4 /// print(x.find(|v| v > 1, -3)); // prints 5: -3 = start from index 4
/// ///
@ -1028,6 +1052,10 @@ pub mod array_functions {
/// Iterate through all the elements in the array, applying a `mapper` function to each element /// Iterate through all the elements in the array, applying a `mapper` function to each element
/// in turn, and return the first result that is not `()`. Otherwise, `()` is returned. /// in turn, and return the first result that is not `()`. Otherwise, `()` is returned.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -1040,7 +1068,9 @@ pub mod array_functions {
/// ///
/// print(x.find_map(|v| v.alice)); // prints 1 /// print(x.find_map(|v| v.alice)); // prints 1
/// ///
/// x.find_map(|v| v.dave) ?? print("not found"); // prints "not found" /// print(x.find_map(|v| v.dave) ?? "not found"); // prints "not found"
///
/// print(x.find_map(|| this.dave) ?? "not found"); // prints "not found"
/// ``` /// ```
#[rhai_fn(return_raw, pure)] #[rhai_fn(return_raw, pure)]
pub fn find_map(ctx: NativeCallContext, array: &mut Array, filter: FnPtr) -> RhaiResult { pub fn find_map(ctx: NativeCallContext, array: &mut Array, filter: FnPtr) -> RhaiResult {
@ -1054,6 +1084,10 @@ pub mod array_functions {
/// * If `start` < -length of array, position counts from the beginning of the array. /// * If `start` < -length of array, position counts from the beginning of the array.
/// * If `start` ≥ length of array, `-1` is returned. /// * If `start` ≥ length of array, `-1` is returned.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -1066,13 +1100,17 @@ pub mod array_functions {
/// ///
/// print(x.find_map(|v| v.alice, 2)); // prints 0 /// print(x.find_map(|v| v.alice, 2)); // prints 0
/// ///
/// x.find_map(|v| v.bob, 4) ?? print("not found"); // prints "not found" /// print(x.find_map(|v| v.bob, 4) ?? "not found"); // prints "not found"
/// ///
/// x.find_map(|v| v.alice, 8) ?? print("not found"); // prints "not found" /// print(x.find_map(|v| v.alice, 8) ?? "not found"); // prints "not found"
///
/// print(x.find_map(|| this.alice, 8) ?? "not found"); // prints "not found"
/// ///
/// print(x.find_map(|v| v.bob, -4)); // prints 3: -4 = start from index 2 /// print(x.find_map(|v| v.bob, -4)); // prints 3: -4 = start from index 2
/// ///
/// print(x.find_map(|v| v.alice, -99)); // prints 1: -99 = start from beginning /// print(x.find_map(|v| v.alice, -99)); // prints 1: -99 = start from beginning
///
/// print(x.find_map(|| this.alice, -99)); // prints 1: -99 = start from beginning
/// ``` /// ```
#[rhai_fn(name = "find_map", return_raw, pure)] #[rhai_fn(name = "find_map", return_raw, pure)]
pub fn find_map_starting_from( pub fn find_map_starting_from(
@ -1087,11 +1125,10 @@ pub mod array_functions {
let (start, ..) = calc_offset_len(array.len(), start, 0); let (start, ..) = calc_offset_len(array.len(), start, 0);
for (i, item) in array.iter().enumerate().skip(start) { for (i, item) in array.iter_mut().enumerate().skip(start) {
let ex = [(i as INT).into()]; let ex = [(i as INT).into()];
let value = let value = filter.call_raw_with_extra_args("find_map", &ctx, Some(item), [], ex)?;
filter.call_raw_with_extra_args("find_map", &ctx, None, [item.clone()], ex)?;
if !value.is_unit() { if !value.is_unit() {
return Ok(value); return Ok(value);
@ -1102,6 +1139,10 @@ pub mod array_functions {
} }
/// Return `true` if any element in the array that returns `true` when applied the `filter` function. /// Return `true` if any element in the array that returns `true` when applied the `filter` function.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -1124,11 +1165,11 @@ pub mod array_functions {
return Ok(false); return Ok(false);
} }
for (i, item) in array.iter().enumerate() { for (i, item) in array.iter_mut().enumerate() {
let ex = [(i as INT).into()]; let ex = [(i as INT).into()];
if filter if filter
.call_raw_with_extra_args("some", &ctx, None, [item.clone()], ex)? .call_raw_with_extra_args("some", &ctx, Some(item), [], ex)?
.as_bool() .as_bool()
.unwrap_or(false) .unwrap_or(false)
{ {
@ -1140,6 +1181,10 @@ pub mod array_functions {
} }
/// Return `true` if all elements in the array return `true` when applied the `filter` function. /// Return `true` if all elements in the array return `true` when applied the `filter` function.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -1162,11 +1207,11 @@ pub mod array_functions {
return Ok(true); return Ok(true);
} }
for (i, item) in array.iter().enumerate() { for (i, item) in array.iter_mut().enumerate() {
let ex = [(i as INT).into()]; let ex = [(i as INT).into()];
if !filter if !filter
.call_raw_with_extra_args("all", &ctx, None, [item.clone()], ex)? .call_raw_with_extra_args("all", &ctx, Some(item), [], ex)?
.as_bool() .as_bool()
.unwrap_or(false) .unwrap_or(false)
{ {
@ -1516,6 +1561,10 @@ pub mod array_functions {
/// Remove all elements in the array that returns `true` when applied the `filter` function and /// Remove all elements in the array that returns `true` when applied the `filter` function and
/// return them as a new array. /// return them as a new array.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -1553,7 +1602,7 @@ pub mod array_functions {
let ex = [(i as INT).into()]; let ex = [(i as INT).into()];
if filter if filter
.call_raw_with_extra_args("drain", &ctx, None, [array[x].clone()], ex)? .call_raw_with_extra_args("drain", &ctx, Some(&mut array[x]), [], ex)?
.as_bool() .as_bool()
.unwrap_or(false) .unwrap_or(false)
{ {
@ -1659,6 +1708,10 @@ pub mod array_functions {
/// Remove all elements in the array that do not return `true` when applied the `filter` /// Remove all elements in the array that do not return `true` when applied the `filter`
/// function and return them as a new array. /// function and return them as a new array.
/// ///
/// # No Function Parameter
///
/// Array element (mutable) is bound to `this`.
///
/// # Function Parameters /// # Function Parameters
/// ///
/// * `element`: copy of array element /// * `element`: copy of array element
@ -1696,7 +1749,7 @@ pub mod array_functions {
let ex = [(i as INT).into()]; let ex = [(i as INT).into()];
if filter if filter
.call_raw_with_extra_args("retain", &ctx, None, [array[x].clone()], ex)? .call_raw_with_extra_args("retain", &ctx, Some(&mut array[x]), [], ex)?
.as_bool() .as_bool()
.unwrap_or(false) .unwrap_or(false)
{ {

View File

@ -359,6 +359,9 @@ impl FnPtr {
/// Make a call to a function pointer with either a specified number of arguments, or with extra /// Make a call to a function pointer with either a specified number of arguments, or with extra
/// arguments attached. /// arguments attached.
/// ///
/// If `this_ptr` is provided, it is first provided to script-defined functions bound to `this`.
/// When an appropriate function is not found, it is then removed and mapped to the first parameter.
///
/// This is useful for calling predicate closures within an iteration loop where the extra argument /// This is useful for calling predicate closures within an iteration loop where the extra argument
/// is the current element's index. /// is the current element's index.
/// ///
@ -380,6 +383,9 @@ impl FnPtr {
/// or with extra arguments attached. /// or with extra arguments attached.
/// Exported under the `internals` feature only. /// Exported under the `internals` feature only.
/// ///
/// If `this_ptr` is provided, it is first provided to script-defined functions bound to `this`.
/// When an appropriate function is not found, it is then removed and mapped to the first parameter.
///
/// This is useful for calling predicate closures within an iteration loop where the extra /// This is useful for calling predicate closures within an iteration loop where the extra
/// argument is the current element's index. /// argument is the current element's index.
/// ///
@ -409,8 +415,14 @@ impl FnPtr {
) -> RhaiResult { ) -> RhaiResult {
#[cfg(not(feature = "no_function"))] #[cfg(not(feature = "no_function"))]
if let Some(arity) = self.fn_def().map(|f| f.params.len()) { if let Some(arity) = self.fn_def().map(|f| f.params.len()) {
if arity == N + 1 && this_ptr.is_some() {
let mut args = FnArgsVec::with_capacity(items.len() + 1);
args.push(this_ptr.as_mut().unwrap().clone());
args.extend(items);
return self.call_raw(ctx, None, args);
}
if arity == N { if arity == N {
return self.call_raw(ctx, None, items); return self.call_raw(ctx, this_ptr, items);
} }
if arity == N + E { if arity == N + E {
let mut items2 = FnArgsVec::with_capacity(items.len() + extras.len()); let mut items2 = FnArgsVec::with_capacity(items.len() + extras.len());
@ -421,12 +433,28 @@ impl FnPtr {
} }
self.call_raw(ctx, this_ptr.as_deref_mut(), items.clone()) self.call_raw(ctx, this_ptr.as_deref_mut(), items.clone())
.or_else(|err| match *err {
ERR::ErrorFunctionNotFound(sig, ..)
if this_ptr.is_some() && sig.starts_with(self.fn_name()) =>
{
let mut args = FnArgsVec::with_capacity(items.len() + 1);
args.push(this_ptr.as_mut().unwrap().clone());
args.extend(IntoIterator::into_iter(items.clone()));
self.call_raw(ctx, this_ptr.as_deref_mut(), args)
}
_ => Err(err),
})
.or_else(|err| match *err { .or_else(|err| match *err {
ERR::ErrorFunctionNotFound(sig, ..) if sig.starts_with(self.fn_name()) => { ERR::ErrorFunctionNotFound(sig, ..) if sig.starts_with(self.fn_name()) => {
let mut items2 = FnArgsVec::with_capacity(items.len() + extras.len()); let mut args = FnArgsVec::with_capacity(
items2.extend(IntoIterator::into_iter(items)); items.len() + extras.len() + if this_ptr.is_some() { 1 } else { 0 },
items2.extend(IntoIterator::into_iter(extras)); );
self.call_raw(ctx, this_ptr, items2) if let Some(ref mut this_ptr) = this_ptr {
args.push(this_ptr.clone());
}
args.extend(IntoIterator::into_iter(items));
args.extend(IntoIterator::into_iter(extras));
self.call_raw(ctx, this_ptr, args)
} }
_ => Err(err), _ => Err(err),
}) })

View File

@ -298,6 +298,7 @@ fn test_arrays_map_reduce() -> Result<(), Box<EvalAltResult>> {
let engine = Engine::new(); let engine = Engine::new();
assert_eq!(engine.eval::<INT>("[1].map(|x| x + 41)[0]")?, 42); assert_eq!(engine.eval::<INT>("[1].map(|x| x + 41)[0]")?, 42);
assert_eq!(engine.eval::<INT>("[1].map(|| this + 41)[0]")?, 42);
assert_eq!(engine.eval::<INT>("([1].map(|x| x + 41))[0]")?, 42); assert_eq!(engine.eval::<INT>("([1].map(|x| x + 41))[0]")?, 42);
assert_eq!( assert_eq!(
engine.eval::<INT>("let c = 40; let y = 1; [1].map(|x, i| c + x + y + i)[0]")?, engine.eval::<INT>("let c = 40; let y = 1; [1].map(|x, i| c + x + y + i)[0]")?,
@ -316,6 +317,18 @@ fn test_arrays_map_reduce() -> Result<(), Box<EvalAltResult>> {
[3] [3]
); );
assert_eq!(
engine
.eval::<Dynamic>(
"
let x = [1, 2, 3];
x.filter(|| this > 2)
"
)?
.into_typed_array::<INT>()?,
[3]
);
assert_eq!( assert_eq!(
engine engine
.eval::<Dynamic>( .eval::<Dynamic>(
@ -340,6 +353,18 @@ fn test_arrays_map_reduce() -> Result<(), Box<EvalAltResult>> {
[2, 4, 6] [2, 4, 6]
); );
assert_eq!(
engine
.eval::<Dynamic>(
"
let x = [1, 2, 3];
x.map(|| this * 2)
"
)?
.into_typed_array::<INT>()?,
[2, 4, 6]
);
assert_eq!( assert_eq!(
engine engine
.eval::<Dynamic>( .eval::<Dynamic>(