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rhai/src/engine.rs
Stephen Chung b23fd6e20a Reshuffle code sections.
2020-04-19 18:33:02 +08:00

1638 lines
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//! Main module defining the script evaluation `Engine`.
use crate::any::{Dynamic, Union};
use crate::error::ParseErrorType;
use crate::optimize::OptimizationLevel;
use crate::parser::{Expr, FnDef, ReturnType, Stmt, INT};
use crate::result::EvalAltResult;
use crate::scope::{EntryRef as ScopeSource, EntryType as ScopeEntryType, Scope};
use crate::token::Position;
use crate::stdlib::{
any::TypeId,
boxed::Box,
collections::{hash_map::DefaultHasher, HashMap},
format,
hash::{Hash, Hasher},
iter::once,
ops::{Deref, DerefMut},
rc::Rc,
string::{String, ToString},
sync::Arc,
vec::Vec,
};
/// An dynamic array of `Dynamic` values.
///
/// Not available under the `no_index` feature.
pub type Array = Vec<Dynamic>;
/// An dynamic hash map of `Dynamic` values with `String` keys.
///
/// Not available under the `no_object` feature.
pub type Map = HashMap<String, Dynamic>;
pub type FnCallArgs<'a> = [&'a mut Dynamic];
#[cfg(feature = "sync")]
pub type FnAny =
dyn Fn(&mut FnCallArgs, Position) -> Result<Dynamic, Box<EvalAltResult>> + Send + Sync;
#[cfg(not(feature = "sync"))]
pub type FnAny = dyn Fn(&mut FnCallArgs, Position) -> Result<Dynamic, Box<EvalAltResult>>;
#[cfg(feature = "sync")]
type IteratorFn = dyn Fn(&Dynamic) -> Box<dyn Iterator<Item = Dynamic>> + Send + Sync;
#[cfg(not(feature = "sync"))]
type IteratorFn = dyn Fn(&Dynamic) -> Box<dyn Iterator<Item = Dynamic>>;
#[cfg(debug_assertions)]
pub const MAX_CALL_STACK_DEPTH: usize = 28;
#[cfg(not(debug_assertions))]
pub const MAX_CALL_STACK_DEPTH: usize = 256;
pub const KEYWORD_PRINT: &str = "print";
pub const KEYWORD_DEBUG: &str = "debug";
pub const KEYWORD_TYPE_OF: &str = "type_of";
pub const KEYWORD_EVAL: &str = "eval";
pub const FUNC_TO_STRING: &str = "to_string";
pub const FUNC_GETTER: &str = "get$";
pub const FUNC_SETTER: &str = "set$";
#[cfg(not(feature = "only_i32"))]
#[cfg(not(feature = "only_i64"))]
const FUNCTIONS_COUNT: usize = 512;
#[cfg(any(feature = "only_i32", feature = "only_i64"))]
const FUNCTIONS_COUNT: usize = 256;
#[derive(Debug, Eq, PartialEq, Hash, Clone)]
enum IndexValue {
Num(usize),
Str(String),
}
impl IndexValue {
fn from_num(idx: INT) -> Self {
Self::Num(idx as usize)
}
fn from_str(name: String) -> Self {
Self::Str(name)
}
fn as_num(self) -> usize {
match self {
Self::Num(n) => n,
_ => panic!("index value is numeric"),
}
}
fn as_str(self) -> String {
match self {
Self::Str(s) => s,
_ => panic!("index value is string"),
}
}
}
#[derive(Debug)]
enum Target<'a> {
Scope(ScopeSource<'a>),
Value(&'a mut Dynamic),
}
impl<'a> Target<'a> {
fn get_mut(self, scope: &'a mut Scope) -> &'a mut Dynamic {
match self {
Self::Value(t) => t,
Self::Scope(src) => scope.get_mut(src),
}
}
}
impl<'a> From<ScopeSource<'a>> for Target<'a> {
fn from(src: ScopeSource<'a>) -> Self {
Self::Scope(src)
}
}
impl<'a> From<&'a mut Dynamic> for Target<'a> {
fn from(value: &'a mut Dynamic) -> Self {
Self::Value(value)
}
}
/// A type that holds a library of script-defined functions.
///
/// Since script-defined functions have `Dynamic` parameters, functions with the same name
/// and number of parameters are considered equivalent.
///
/// Since the key is a combination of the function name (a String) plus the number of parameters,
/// we cannot use a `HashMap` because we don't want to clone the function name string just
/// to search for it.
///
/// So instead this is implemented as a sorted list and binary searched.
#[derive(Debug, Clone)]
pub struct FunctionsLib(
#[cfg(feature = "sync")] HashMap<u64, Arc<FnDef>>,
#[cfg(not(feature = "sync"))] HashMap<u64, Rc<FnDef>>,
);
impl FunctionsLib {
/// Create a new `FunctionsLib`.
pub fn new() -> Self {
FunctionsLib(HashMap::new())
}
/// Create a new `FunctionsLib` from a collection of `FnDef`.
pub fn from_vec(vec: Vec<FnDef>) -> Self {
FunctionsLib(
vec.into_iter()
.map(|f| {
let hash = calc_fn_def(&f.name, f.params.len());
#[cfg(feature = "sync")]
{
(hash, Arc::new(f))
}
#[cfg(not(feature = "sync"))]
{
(hash, Rc::new(f))
}
})
.collect(),
)
}
/// Does a certain function exist in the `FunctionsLib`?
pub fn has_function(&self, name: &str, params: usize) -> bool {
self.contains_key(&calc_fn_def(name, params))
}
/// Get a function definition from the `FunctionsLib`.
pub fn get_function(&self, name: &str, params: usize) -> Option<&FnDef> {
self.get(&calc_fn_def(name, params)).map(|f| f.as_ref())
}
/// Merge another `FunctionsLib` into this `FunctionsLib`.
pub fn merge(&self, other: &Self) -> Self {
if self.is_empty() {
other.clone()
} else if other.is_empty() {
self.clone()
} else {
let mut functions = self.clone();
functions.extend(other.iter().map(|(hash, fn_def)| (*hash, fn_def.clone())));
functions
}
}
}
impl Deref for FunctionsLib {
#[cfg(feature = "sync")]
type Target = HashMap<u64, Arc<FnDef>>;
#[cfg(not(feature = "sync"))]
type Target = HashMap<u64, Rc<FnDef>>;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl DerefMut for FunctionsLib {
#[cfg(feature = "sync")]
fn deref_mut(&mut self) -> &mut HashMap<u64, Arc<FnDef>> {
&mut self.0
}
#[cfg(not(feature = "sync"))]
fn deref_mut(&mut self) -> &mut HashMap<u64, Rc<FnDef>> {
&mut self.0
}
}
/// Rhai main scripting engine.
///
/// ```
/// # fn main() -> Result<(), rhai::EvalAltResult> {
/// use rhai::Engine;
///
/// let engine = Engine::new();
///
/// let result = engine.eval::<i64>("40 + 2")?;
///
/// println!("Answer: {}", result); // prints 42
/// # Ok(())
/// # }
/// ```
///
/// Currently, `Engine` is neither `Send` nor `Sync`. Turn on the `sync` feature to make it `Send + Sync`.
pub struct Engine {
/// A hashmap containing all compiled functions known to the engine.
pub(crate) functions: HashMap<u64, Box<FnAny>>,
/// A hashmap containing all iterators known to the engine.
pub(crate) type_iterators: HashMap<TypeId, Box<IteratorFn>>,
/// A hashmap mapping type names to pretty-print names.
pub(crate) type_names: Option<HashMap<String, String>>,
/// Closure for implementing the `print` command.
#[cfg(feature = "sync")]
pub(crate) on_print: Option<Box<dyn Fn(&str) + Send + Sync + 'static>>,
/// Closure for implementing the `print` command.
#[cfg(not(feature = "sync"))]
pub(crate) on_print: Option<Box<dyn Fn(&str) + 'static>>,
/// Closure for implementing the `debug` command.
#[cfg(feature = "sync")]
pub(crate) on_debug: Option<Box<dyn Fn(&str) + Send + Sync + 'static>>,
/// Closure for implementing the `debug` command.
#[cfg(not(feature = "sync"))]
pub(crate) on_debug: Option<Box<dyn Fn(&str) + 'static>>,
/// Optimize the AST after compilation.
pub(crate) optimization_level: OptimizationLevel,
/// Maximum levels of call-stack to prevent infinite recursion.
///
/// Defaults to 28 for debug builds and 256 for non-debug builds.
pub(crate) max_call_stack_depth: usize,
}
impl Default for Engine {
fn default() -> Self {
// Create the new scripting Engine
let mut engine = Engine {
functions: HashMap::with_capacity(FUNCTIONS_COUNT),
type_iterators: HashMap::new(),
type_names: None,
// default print/debug implementations
on_print: Some(Box::new(default_print)),
on_debug: Some(Box::new(default_print)),
// optimization level
#[cfg(feature = "no_optimize")]
optimization_level: OptimizationLevel::None,
#[cfg(not(feature = "no_optimize"))]
#[cfg(not(feature = "optimize_full"))]
optimization_level: OptimizationLevel::Simple,
#[cfg(not(feature = "no_optimize"))]
#[cfg(feature = "optimize_full")]
optimization_level: OptimizationLevel::Full,
max_call_stack_depth: MAX_CALL_STACK_DEPTH,
};
engine.register_core_lib();
#[cfg(not(feature = "no_stdlib"))]
engine.register_stdlib();
engine
}
}
/// Make getter function
pub fn make_getter(id: &str) -> String {
format!("{}{}", FUNC_GETTER, id)
}
/// Extract the property name from a getter function name.
fn extract_prop_from_getter(fn_name: &str) -> Option<&str> {
#[cfg(not(feature = "no_object"))]
{
if fn_name.starts_with(FUNC_GETTER) {
Some(&fn_name[FUNC_GETTER.len()..])
} else {
None
}
}
#[cfg(feature = "no_object")]
{
None
}
}
/// Make setter function
pub fn make_setter(id: &str) -> String {
format!("{}{}", FUNC_SETTER, id)
}
/// Extract the property name from a setter function name.
fn extract_prop_from_setter(fn_name: &str) -> Option<&str> {
#[cfg(not(feature = "no_object"))]
{
if fn_name.starts_with(FUNC_SETTER) {
Some(&fn_name[FUNC_SETTER.len()..])
} else {
None
}
}
#[cfg(feature = "no_object")]
{
None
}
}
pub(crate) fn calc_fn_spec(fn_name: &str, params: impl Iterator<Item = TypeId>) -> u64 {
let mut s = DefaultHasher::new();
fn_name.hash(&mut s);
params.for_each(|t| t.hash(&mut s));
s.finish()
}
pub(crate) fn calc_fn_def(fn_name: &str, params: usize) -> u64 {
let mut s = DefaultHasher::new();
fn_name.hash(&mut s);
params.hash(&mut s);
s.finish()
}
/// Print/debug to stdout
fn default_print(s: &str) {
#[cfg(not(feature = "no_std"))]
println!("{}", s);
}
/// Search for a variable within the scope, returning its value and index inside the Scope
fn search_scope<'a>(
scope: &'a Scope,
id: &str,
begin: Position,
) -> Result<(ScopeSource<'a>, Dynamic), Box<EvalAltResult>> {
scope
.get(id)
.ok_or_else(|| Box::new(EvalAltResult::ErrorVariableNotFound(id.into(), begin)))
}
/// Replace a character at an index position in a mutable string
fn str_replace_char(s: &mut String, idx: usize, new_ch: char) {
let mut chars: Vec<char> = s.chars().collect();
let ch = *chars.get(idx).expect("string index out of bounds");
// See if changed - if so, update the String
if ch != new_ch {
chars[idx] = new_ch;
s.clear();
chars.iter().for_each(|&ch| s.push(ch));
}
}
/// Update the value at an index position
fn update_indexed_val(
mut target: Dynamic,
idx: IndexValue,
new_val: Dynamic,
pos: Position,
) -> Result<Dynamic, Box<EvalAltResult>> {
match target.get_mut() {
Union::Array(arr) => {
arr[idx.as_num()] = new_val;
}
Union::Map(map) => {
map.insert(idx.as_str(), new_val);
}
Union::Str(s) => {
// Value must be a character
let ch = new_val
.as_char()
.map_err(|_| EvalAltResult::ErrorCharMismatch(pos))?;
str_replace_char(s, idx.as_num(), ch);
}
// All other variable types should be an error
_ => panic!("invalid type for indexing: {}", target.type_name()),
}
Ok(target)
}
/// Update the value at an index position in a variable inside the scope
fn update_indexed_scope_var(
scope: &mut Scope,
src: ScopeSource,
idx: IndexValue,
new_val: Dynamic,
pos: Position,
) -> Result<Dynamic, Box<EvalAltResult>> {
let target = scope.get_mut(src);
match target.get_mut() {
// array_id[idx] = val
Union::Array(arr) => {
arr[idx.as_num()] = new_val;
}
// map_id[idx] = val
Union::Map(map) => {
map.insert(idx.as_str(), new_val);
}
// string_id[idx] = val
Union::Str(s) => {
// Value must be a character
let ch = new_val
.as_char()
.map_err(|_| EvalAltResult::ErrorCharMismatch(pos))?;
str_replace_char(s, idx.as_num(), ch);
}
// All other variable types should be an error
_ => panic!("invalid type for indexing: {}", target.type_name()),
}
Ok(Dynamic::from_unit())
}
impl Engine {
/// Create a new `Engine`
pub fn new() -> Self {
Default::default()
}
/// Create a new `Engine` with minimal configurations without the standard library etc.
pub fn new_raw() -> Self {
let mut engine = Engine {
functions: HashMap::with_capacity(FUNCTIONS_COUNT / 2),
type_iterators: HashMap::new(),
type_names: None,
on_print: None,
on_debug: None,
#[cfg(feature = "no_optimize")]
optimization_level: OptimizationLevel::None,
#[cfg(not(feature = "no_optimize"))]
#[cfg(not(feature = "optimize_full"))]
optimization_level: OptimizationLevel::Simple,
#[cfg(not(feature = "no_optimize"))]
#[cfg(feature = "optimize_full")]
optimization_level: OptimizationLevel::Full,
max_call_stack_depth: MAX_CALL_STACK_DEPTH,
};
engine.register_core_lib();
engine
}
/// Control whether and how the `Engine` will optimize an AST after compilation
///
/// Not available under the `no_optimize` feature.
#[cfg(not(feature = "no_optimize"))]
pub fn set_optimization_level(&mut self, optimization_level: OptimizationLevel) {
self.optimization_level = optimization_level
}
/// Set the maximum levels of function calls allowed for a script in order to avoid
/// infinite recursion and stack overflows.
pub fn set_max_call_levels(&mut self, levels: usize) {
self.max_call_stack_depth = levels
}
/// Universal method for calling functions either registered with the `Engine` or written in Rhai
pub(crate) fn call_fn_raw(
&self,
scope: Option<&mut Scope>,
fn_lib: Option<&FunctionsLib>,
fn_name: &str,
args: &mut FnCallArgs,
def_val: Option<&Dynamic>,
pos: Position,
level: usize,
) -> Result<Dynamic, Box<EvalAltResult>> {
// Check for stack overflow
if level > self.max_call_stack_depth {
return Err(Box::new(EvalAltResult::ErrorStackOverflow(pos)));
}
#[cfg(feature = "no_function")]
const fn_lib: Option<&FunctionsLib> = None;
// First search in script-defined functions (can override built-in)
if let Some(fn_def) = fn_lib.and_then(|lib| lib.get_function(fn_name, args.len())) {
match scope {
// Extern scope passed in which is not empty
Some(scope) if scope.len() > 0 => {
let scope_len = scope.len();
scope.extend(
// Put arguments into scope as variables - variable name is copied
// TODO - avoid copying variable name
fn_def
.params
.iter()
.zip(args.into_iter().map(|v| v.clone()))
.map(|(name, value)| (name.clone(), ScopeEntryType::Normal, value)),
);
// Evaluate the function at one higher level of call depth
let result = self
.eval_stmt(scope, fn_lib, &fn_def.body, level + 1)
.or_else(|err| match *err {
// Convert return statement to return value
EvalAltResult::Return(x, _) => Ok(x),
err => Err(Box::new(err.set_position(pos))),
});
scope.rewind(scope_len);
return result;
}
// No new scope - create internal scope
_ => {
let mut scope = Scope::new();
scope.extend(
// Put arguments into scope as variables
fn_def
.params
.iter()
.zip(args.into_iter().map(|v| v.clone()))
.map(|(name, value)| (name, ScopeEntryType::Normal, value)),
);
// Evaluate the function at one higher level of call depth
return self
.eval_stmt(&mut scope, fn_lib, &fn_def.body, level + 1)
.or_else(|err| match *err {
// Convert return statement to return value
EvalAltResult::Return(x, _) => Ok(x),
err => Err(Box::new(err.set_position(pos))),
});
}
}
}
// Argument must be a string
fn cast_to_string(r: &Dynamic, pos: Position) -> Result<&str, Box<EvalAltResult>> {
r.as_str().map_err(|type_name| {
Box::new(EvalAltResult::ErrorMismatchOutputType(
type_name.into(),
pos,
))
})
}
// Search built-in's and external functions
let fn_spec = calc_fn_spec(fn_name, args.iter().map(|a| a.type_id()));
if let Some(func) = self.functions.get(&fn_spec) {
// Run external function
let result = func(args, pos)?;
// See if the function match print/debug (which requires special processing)
return match fn_name {
KEYWORD_PRINT if self.on_print.is_some() => {
self.on_print.as_ref().unwrap()(cast_to_string(&result, pos)?);
Ok(Dynamic::from_unit())
}
KEYWORD_DEBUG if self.on_debug.is_some() => {
self.on_debug.as_ref().unwrap()(cast_to_string(&result, pos)?);
Ok(Dynamic::from_unit())
}
KEYWORD_PRINT | KEYWORD_DEBUG => Ok(Dynamic::from_unit()),
_ => Ok(result),
};
}
if let Some(prop) = extract_prop_from_getter(fn_name) {
return match args[0] {
// Map property access
Dynamic(Union::Map(map)) => Ok(map
.get(prop)
.cloned()
.unwrap_or_else(|| Dynamic::from_unit())),
// Getter function not found
_ => Err(Box::new(EvalAltResult::ErrorDotExpr(
format!("- property '{}' unknown or write-only", prop),
pos,
))),
};
}
if let Some(prop) = extract_prop_from_setter(fn_name) {
let (arg, value) = args.split_at_mut(1);
return match arg[0] {
// Map property update
Dynamic(Union::Map(map)) => {
map.insert(prop.to_string(), value[0].clone());
Ok(Dynamic::from_unit())
}
// Setter function not found
_ => Err(Box::new(EvalAltResult::ErrorDotExpr(
format!("- property '{}' unknown or read-only", prop),
pos,
))),
};
}
if let Some(val) = def_val {
// Return default value
return Ok(val.clone());
}
// Raise error
let types_list: Vec<_> = args
.iter()
.map(|x| x.type_name())
.map(|name| self.map_type_name(name))
.collect();
Err(Box::new(EvalAltResult::ErrorFunctionNotFound(
format!("{} ({})", fn_name, types_list.join(", ")),
pos,
)))
}
/// Chain-evaluate a dot setter.
fn dot_get_helper(
&self,
scope: &mut Scope,
fn_lib: Option<&FunctionsLib>,
target: Target,
dot_rhs: &Expr,
level: usize,
) -> Result<Dynamic, Box<EvalAltResult>> {
match dot_rhs {
// xxx.fn_name(arg_expr_list)
Expr::FunctionCall(fn_name, arg_expr_list, def_val, pos) => {
let mut values = arg_expr_list
.iter()
.map(|arg_expr| self.eval_expr(scope, fn_lib, arg_expr, level))
.collect::<Result<Vec<_>, _>>()?;
let mut args: Vec<_> = once(target.get_mut(scope))
.chain(values.iter_mut())
.collect();
let def_val = def_val.as_ref();
self.call_fn_raw(None, fn_lib, fn_name, &mut args, def_val, *pos, 0)
}
// xxx.id
Expr::Property(id, pos) => {
let mut args = [target.get_mut(scope)];
self.call_fn_raw(None, fn_lib, &make_getter(id), &mut args, None, *pos, 0)
}
// xxx.idx_lhs[idx_expr]
Expr::Index(idx_lhs, idx_expr, op_pos) => {
let lhs_value = match idx_lhs.as_ref() {
// xxx.id[idx_expr]
Expr::Property(id, pos) => {
let mut args = [target.get_mut(scope)];
self.call_fn_raw(None, fn_lib, &make_getter(id), &mut args, None, *pos, 0)?
}
// xxx.???[???][idx_expr]
Expr::Index(_, _, _) => {
// Chain the indexing
self.dot_get_helper(scope, fn_lib, target, idx_lhs, level)?
}
// Syntax error
_ => {
return Err(Box::new(EvalAltResult::ErrorDotExpr(
"".to_string(),
dot_rhs.position(),
)))
}
};
self.get_indexed_val(scope, fn_lib, &lhs_value, idx_expr, *op_pos, level, false)
.map(|(val, _)| val)
}
// xxx.dot_lhs.rhs
Expr::Dot(dot_lhs, rhs, _) => match dot_lhs.as_ref() {
// xxx.id.rhs
Expr::Property(id, pos) => {
let mut args = [target.get_mut(scope)];
self.call_fn_raw(None, fn_lib, &make_getter(id), &mut args, None, *pos, 0)
.and_then(|mut val| {
self.dot_get_helper(scope, fn_lib, (&mut val).into(), rhs, level)
})
}
// xxx.idx_lhs[idx_expr].rhs
Expr::Index(idx_lhs, idx_expr, op_pos) => {
let val = match idx_lhs.as_ref() {
// xxx.id[idx_expr].rhs
Expr::Property(id, pos) => {
let fn_name = make_getter(id);
let mut args = [target.get_mut(scope)];
self.call_fn_raw(None, fn_lib, &fn_name, &mut args, None, *pos, 0)?
}
// xxx.???[???][idx_expr].rhs
Expr::Index(_, _, _) => {
self.dot_get_helper(scope, fn_lib, target, idx_lhs, level)?
}
// Syntax error
_ => {
return Err(Box::new(EvalAltResult::ErrorDotExpr(
"".to_string(),
dot_rhs.position(),
)))
}
};
self.get_indexed_val(scope, fn_lib, &val, idx_expr, *op_pos, level, false)
.and_then(|(mut val, _)| {
self.dot_get_helper(scope, fn_lib, (&mut val).into(), rhs, level)
})
}
// Syntax error
_ => Err(Box::new(EvalAltResult::ErrorDotExpr(
"".to_string(),
dot_lhs.position(),
))),
},
// Syntax error
_ => Err(Box::new(EvalAltResult::ErrorDotExpr(
"".to_string(),
dot_rhs.position(),
))),
}
}
/// Evaluate a dot chain getter
fn dot_get(
&self,
scope: &mut Scope,
fn_lib: Option<&FunctionsLib>,
dot_lhs: &Expr,
dot_rhs: &Expr,
level: usize,
) -> Result<Dynamic, Box<EvalAltResult>> {
match dot_lhs {
// id.???
Expr::Variable(id, pos) => {
let (entry, _) = search_scope(scope, id, *pos)?;
// Avoid referencing scope which is used below as mut
let entry = ScopeSource { name: id, ..entry };
// This is a variable property access (potential function call).
// Use a direct index into `scope` to directly mutate the variable value.
self.dot_get_helper(scope, fn_lib, entry.into(), dot_rhs, level)
}
// idx_lhs[idx_expr].???
Expr::Index(idx_lhs, idx_expr, op_pos) => {
let (src, index, mut val) =
self.eval_index_expr(scope, fn_lib, idx_lhs, idx_expr, *op_pos, level)?;
let value = self.dot_get_helper(scope, fn_lib, (&mut val).into(), dot_rhs, level);
// In case the expression mutated `target`, we need to update it back into the scope because it is cloned.
if let Some(src) = src {
match src.typ {
ScopeEntryType::Constant => {
return Err(Box::new(EvalAltResult::ErrorAssignmentToConstant(
src.name.to_string(),
idx_lhs.position(),
)));
}
ScopeEntryType::Normal => {
update_indexed_scope_var(scope, src, index, val, dot_rhs.position())?;
}
}
}
value
}
// {expr}.???
expr => {
let mut val = self.eval_expr(scope, fn_lib, expr, level)?;
self.dot_get_helper(scope, fn_lib, (&mut val).into(), dot_rhs, level)
}
}
}
/// Get the value at the indexed position of a base type
fn get_indexed_val(
&self,
scope: &mut Scope,
fn_lib: Option<&FunctionsLib>,
val: &Dynamic,
idx_expr: &Expr,
op_pos: Position,
level: usize,
only_index: bool,
) -> Result<(Dynamic, IndexValue), Box<EvalAltResult>> {
let idx_pos = idx_expr.position();
let type_name = self.map_type_name(val.type_name());
match val.get_ref() {
Union::Array(arr) => {
// val_array[idx]
let index = self
.eval_expr(scope, fn_lib, idx_expr, level)?
.as_int()
.map_err(|_| EvalAltResult::ErrorNumericIndexExpr(idx_expr.position()))?;
let arr_len = arr.len();
if index >= 0 {
arr.get(index as usize)
.map(|v| {
(
if only_index {
Dynamic::from_unit()
} else {
v.clone()
},
IndexValue::from_num(index),
)
})
.ok_or_else(|| {
Box::new(EvalAltResult::ErrorArrayBounds(arr_len, index, idx_pos))
})
} else {
Err(Box::new(EvalAltResult::ErrorArrayBounds(
arr_len, index, idx_pos,
)))
}
}
Union::Map(map) => {
// val_map[idx]
let index = self
.eval_expr(scope, fn_lib, idx_expr, level)?
.take_string()
.map_err(|_| EvalAltResult::ErrorStringIndexExpr(idx_expr.position()))?;
Ok((
map.get(&index)
.map(|v| {
if only_index {
Dynamic::from_unit()
} else {
v.clone()
}
})
.unwrap_or_else(|| Dynamic::from_unit()),
IndexValue::from_str(index),
))
}
Union::Str(s) => {
// val_string[idx]
let index = self
.eval_expr(scope, fn_lib, idx_expr, level)?
.as_int()
.map_err(|_| EvalAltResult::ErrorNumericIndexExpr(idx_expr.position()))?;
let num_chars = s.chars().count();
if index >= 0 {
s.chars()
.nth(index as usize)
.map(|ch| (Dynamic::from_char(ch), IndexValue::from_num(index)))
.ok_or_else(|| {
Box::new(EvalAltResult::ErrorStringBounds(num_chars, index, idx_pos))
})
} else {
Err(Box::new(EvalAltResult::ErrorStringBounds(
num_chars, index, idx_pos,
)))
}
}
// Error - cannot be indexed
_ => Err(Box::new(EvalAltResult::ErrorIndexingType(
type_name.to_string(),
op_pos,
))),
}
}
/// Evaluate an index expression
fn eval_index_expr<'a>(
&self,
scope: &mut Scope,
fn_lib: Option<&FunctionsLib>,
lhs: &'a Expr,
idx_expr: &Expr,
op_pos: Position,
level: usize,
) -> Result<(Option<ScopeSource<'a>>, IndexValue, Dynamic), Box<EvalAltResult>> {
match lhs {
// id[idx_expr]
Expr::Variable(name, _) => {
let (ScopeSource { typ, index, .. }, val) =
search_scope(scope, &name, lhs.position())?;
let (val, idx) =
self.get_indexed_val(scope, fn_lib, &val, idx_expr, op_pos, level, false)?;
Ok((Some(ScopeSource { name, typ, index }), idx, val))
}
// (expr)[idx_expr]
expr => {
let val = self.eval_expr(scope, fn_lib, expr, level)?;
self.get_indexed_val(scope, fn_lib, &val, idx_expr, op_pos, level, false)
.map(|(val, index)| (None, index, val))
}
}
}
/// Chain-evaluate a dot setter
fn dot_set_helper(
&self,
scope: &mut Scope,
fn_lib: Option<&FunctionsLib>,
this_ptr: &mut Dynamic,
dot_rhs: &Expr,
new_val: &mut Dynamic,
val_pos: Position,
level: usize,
) -> Result<Dynamic, Box<EvalAltResult>> {
match dot_rhs {
// xxx.id
Expr::Property(id, pos) => {
let mut args = [this_ptr, new_val];
self.call_fn_raw(None, fn_lib, &make_setter(id), &mut args, None, *pos, 0)
}
// xxx.lhs[idx_expr]
// TODO - Allow chaining of indexing!
Expr::Index(lhs, idx_expr, op_pos) => match lhs.as_ref() {
// xxx.id[idx_expr]
Expr::Property(id, pos) => {
let fn_name = make_getter(id);
self.call_fn_raw(None, fn_lib, &fn_name, &mut [this_ptr], None, *pos, 0)
.and_then(|val| {
let (_, index) = self.get_indexed_val(
scope, fn_lib, &val, idx_expr, *op_pos, level, true,
)?;
update_indexed_val(val, index, new_val.clone(), val_pos)
})
.and_then(|mut val| {
let fn_name = make_setter(id);
let mut args = [this_ptr, &mut val];
self.call_fn_raw(None, fn_lib, &fn_name, &mut args, None, *pos, 0)
})
}
// All others - syntax error for setters chain
_ => Err(Box::new(EvalAltResult::ErrorDotExpr(
"for assignment".to_string(),
*op_pos,
))),
},
// xxx.lhs.{...}
Expr::Dot(lhs, rhs, _) => match lhs.as_ref() {
// xxx.id.rhs
Expr::Property(id, pos) => {
let fn_name = make_getter(id);
self.call_fn_raw(None, fn_lib, &fn_name, &mut [this_ptr], None, *pos, 0)
.and_then(|mut val| {
self.dot_set_helper(
scope, fn_lib, &mut val, rhs, new_val, val_pos, level,
)?;
Ok(val)
})
.and_then(|mut val| {
let fn_name = make_setter(id);
let mut args = [this_ptr, &mut val];
self.call_fn_raw(None, fn_lib, &fn_name, &mut args, None, *pos, 0)
})
}
// xxx.lhs[idx_expr].rhs
// TODO - Allow chaining of indexing!
Expr::Index(lhs, idx_expr, op_pos) => match lhs.as_ref() {
// xxx.id[idx_expr].rhs
Expr::Property(id, pos) => {
let fn_name = make_getter(id);
self.call_fn_raw(None, fn_lib, &fn_name, &mut [this_ptr], None, *pos, 0)
.and_then(|v| {
let (mut value, index) = self.get_indexed_val(
scope, fn_lib, &v, idx_expr, *op_pos, level, false,
)?;
self.dot_set_helper(
scope, fn_lib, &mut value, rhs, new_val, val_pos, level,
)?;
// In case the expression mutated `target`, we need to update it back into the scope because it is cloned.
update_indexed_val(v, index, value, val_pos)
})
.and_then(|mut v| {
let fn_name = make_setter(id);
let mut args = [this_ptr, &mut v];
self.call_fn_raw(None, fn_lib, &fn_name, &mut args, None, *pos, 0)
})
}
// All others - syntax error for setters chain
_ => Err(Box::new(EvalAltResult::ErrorDotExpr(
"for assignment".to_string(),
*op_pos,
))),
},
// All others - syntax error for setters chain
_ => Err(Box::new(EvalAltResult::ErrorDotExpr(
"for assignment".to_string(),
lhs.position(),
))),
},
// Syntax error
_ => Err(Box::new(EvalAltResult::ErrorDotExpr(
"for assignment".to_string(),
dot_rhs.position(),
))),
}
}
// Evaluate a dot chain setter
fn dot_set(
&self,
scope: &mut Scope,
fn_lib: Option<&FunctionsLib>,
dot_lhs: &Expr,
dot_rhs: &Expr,
new_val: &mut Dynamic,
val_pos: Position,
op_pos: Position,
level: usize,
) -> Result<Dynamic, Box<EvalAltResult>> {
match dot_lhs {
// id.???
Expr::Variable(id, pos) => {
let (src, mut target) = search_scope(scope, id, *pos)?;
match src.typ {
ScopeEntryType::Constant => Err(Box::new(
EvalAltResult::ErrorAssignmentToConstant(id.to_string(), op_pos),
)),
_ => {
// Avoid referencing scope which is used below as mut
let entry = ScopeSource { name: id, ..src };
let this_ptr = &mut target;
let value = self.dot_set_helper(
scope, fn_lib, this_ptr, dot_rhs, new_val, val_pos, level,
);
// In case the expression mutated `target`, we need to update it back into the scope because it is cloned.
*scope.get_mut(entry) = target;
value
}
}
}
// lhs[idx_expr].???
// TODO - Allow chaining of indexing!
Expr::Index(lhs, idx_expr, op_pos) => {
let (src, index, mut target) =
self.eval_index_expr(scope, fn_lib, lhs, idx_expr, *op_pos, level)?;
let this_ptr = &mut target;
let value =
self.dot_set_helper(scope, fn_lib, this_ptr, dot_rhs, new_val, val_pos, level);
// In case the expression mutated `target`, we need to update it back into the scope because it is cloned.
if let Some(src) = src {
match src.typ {
ScopeEntryType::Constant => {
return Err(Box::new(EvalAltResult::ErrorAssignmentToConstant(
src.name.to_string(),
lhs.position(),
)));
}
ScopeEntryType::Normal => {
update_indexed_scope_var(scope, src, index, target, val_pos)?;
}
}
}
value
}
// Syntax error
_ => Err(Box::new(EvalAltResult::ErrorDotExpr(
"for assignment".to_string(),
dot_lhs.position(),
))),
}
}
// Evaluate an 'in' expression
fn eval_in_expr(
&self,
scope: &mut Scope,
fn_lib: Option<&FunctionsLib>,
lhs: &Expr,
rhs: &Expr,
level: usize,
) -> Result<Dynamic, Box<EvalAltResult>> {
let mut lhs_value = self.eval_expr(scope, fn_lib, lhs, level)?;
let rhs_value = self.eval_expr(scope, fn_lib, rhs, level)?;
match rhs_value {
Dynamic(Union::Array(mut rhs_value)) => {
let def_value = Dynamic::from_bool(false);
let mut result = false;
// Call the '==' operator to compare each value
for value in rhs_value.iter_mut() {
let args = &mut [&mut lhs_value, value];
let def_value = Some(&def_value);
if self
.call_fn_raw(None, fn_lib, "==", args, def_value, rhs.position(), level)?
.as_bool()
.unwrap_or(false)
{
result = true;
break;
}
}
Ok(Dynamic::from_bool(result))
}
Dynamic(Union::Map(rhs_value)) => {
// Only allows String or char
match lhs_value {
Dynamic(Union::Str(s)) => {
Ok(Dynamic::from_bool(rhs_value.contains_key(s.as_ref())))
}
Dynamic(Union::Char(c)) => {
Ok(Dynamic::from_bool(rhs_value.contains_key(&c.to_string())))
}
_ => Err(Box::new(EvalAltResult::ErrorInExpr(lhs.position()))),
}
}
Dynamic(Union::Str(rhs_value)) => {
// Only allows String or char
match lhs_value {
Dynamic(Union::Str(s)) => {
Ok(Dynamic::from_bool(rhs_value.contains(s.as_ref())))
}
Dynamic(Union::Char(c)) => Ok(Dynamic::from_bool(rhs_value.contains(c))),
_ => Err(Box::new(EvalAltResult::ErrorInExpr(lhs.position()))),
}
}
_ => Err(Box::new(EvalAltResult::ErrorInExpr(rhs.position()))),
}
}
/// Evaluate an expression
fn eval_expr(
&self,
scope: &mut Scope,
fn_lib: Option<&FunctionsLib>,
expr: &Expr,
level: usize,
) -> Result<Dynamic, Box<EvalAltResult>> {
match expr {
Expr::IntegerConstant(i, _) => Ok(Dynamic::from_int(*i)),
#[cfg(not(feature = "no_float"))]
Expr::FloatConstant(f, _) => Ok(Dynamic::from_float(*f)),
Expr::StringConstant(s, _) => Ok(Dynamic::from_string(s.to_string())),
Expr::CharConstant(c, _) => Ok(Dynamic::from_char(*c)),
Expr::Variable(id, pos) => search_scope(scope, id, *pos).map(|(_, val)| val),
Expr::Property(_, _) => panic!("unexpected property."),
// Statement block
Expr::Stmt(stmt, _) => self.eval_stmt(scope, fn_lib, stmt, level),
// lhs = rhs
Expr::Assignment(lhs, rhs, op_pos) => {
let mut rhs_val = self.eval_expr(scope, fn_lib, rhs, level)?;
match lhs.as_ref() {
// name = rhs
Expr::Variable(name, pos) => match scope.get(name) {
None => {
return Err(Box::new(EvalAltResult::ErrorVariableNotFound(
name.to_string(),
*pos,
)))
}
Some((
entry
@
ScopeSource {
typ: ScopeEntryType::Normal,
..
},
_,
)) => {
// Avoid referencing scope which is used below as mut
let entry = ScopeSource { name, ..entry };
*scope.get_mut(entry) = rhs_val.clone();
Ok(rhs_val)
}
Some((
ScopeSource {
typ: ScopeEntryType::Constant,
..
},
_,
)) => Err(Box::new(EvalAltResult::ErrorAssignmentToConstant(
name.to_string(),
*op_pos,
))),
},
// idx_lhs[idx_expr] = rhs
#[cfg(not(feature = "no_index"))]
Expr::Index(idx_lhs, idx_expr, op_pos) => {
let (src, index, _) =
self.eval_index_expr(scope, fn_lib, idx_lhs, idx_expr, *op_pos, level)?;
if let Some(src) = src {
match src.typ {
ScopeEntryType::Constant => {
Err(Box::new(EvalAltResult::ErrorAssignmentToConstant(
src.name.to_string(),
idx_lhs.position(),
)))
}
ScopeEntryType::Normal => {
let pos = rhs.position();
Ok(update_indexed_scope_var(scope, src, index, rhs_val, pos)?)
}
}
} else {
Err(Box::new(EvalAltResult::ErrorAssignmentToUnknownLHS(
idx_lhs.position(),
)))
}
}
// dot_lhs.dot_rhs = rhs
#[cfg(not(feature = "no_object"))]
Expr::Dot(dot_lhs, dot_rhs, _) => {
let new_val = &mut rhs_val;
let val_pos = rhs.position();
self.dot_set(
scope, fn_lib, dot_lhs, dot_rhs, new_val, val_pos, *op_pos, level,
)
}
// Error assignment to constant
expr if expr.is_constant() => {
Err(Box::new(EvalAltResult::ErrorAssignmentToConstant(
expr.get_constant_str(),
lhs.position(),
)))
}
// Syntax error
_ => Err(Box::new(EvalAltResult::ErrorAssignmentToUnknownLHS(
lhs.position(),
))),
}
}
// lhs[idx_expr]
#[cfg(not(feature = "no_index"))]
Expr::Index(lhs, idx_expr, op_pos) => self
.eval_index_expr(scope, fn_lib, lhs, idx_expr, *op_pos, level)
.map(|(_, _, x)| x),
#[cfg(not(feature = "no_object"))]
Expr::Dot(lhs, rhs, _) => self.dot_get(scope, fn_lib, lhs, rhs, level),
#[cfg(not(feature = "no_index"))]
Expr::Array(contents, _) => {
let mut arr = Array::new();
contents.into_iter().try_for_each(|item| {
self.eval_expr(scope, fn_lib, item, level)
.map(|val| arr.push(val))
})?;
Ok(Dynamic(Union::Array(Box::new(arr))))
}
#[cfg(not(feature = "no_object"))]
Expr::Map(contents, _) => {
let mut map = Map::new();
contents.into_iter().try_for_each(|(key, expr, _)| {
self.eval_expr(scope, fn_lib, &expr, level).map(|val| {
map.insert(key.clone(), val);
})
})?;
Ok(Dynamic(Union::Map(Box::new(map))))
}
Expr::FunctionCall(fn_name, args_expr_list, def_val, pos) => {
// Has a system function an override?
fn has_override(
engine: &Engine,
fn_lib: Option<&FunctionsLib>,
name: &str,
) -> bool {
engine
.functions
.contains_key(&calc_fn_spec(name, once(TypeId::of::<String>())))
|| fn_lib.map_or(false, |lib| lib.has_function(name, 1))
}
match fn_name.as_ref() {
// type_of
KEYWORD_TYPE_OF
if args_expr_list.len() == 1
&& !has_override(self, fn_lib, KEYWORD_TYPE_OF) =>
{
let result = self.eval_expr(scope, fn_lib, &args_expr_list[0], level)?;
Ok(Dynamic::from_string(
self.map_type_name(result.type_name()).to_string(),
))
}
// eval
KEYWORD_EVAL
if args_expr_list.len() == 1
&& !has_override(self, fn_lib, KEYWORD_EVAL) =>
{
let pos = args_expr_list[0].position();
let result = self.eval_expr(scope, fn_lib, &args_expr_list[0], level)?;
// Get the script text by evaluating the expression
let script = result.as_str().map_err(|type_name| {
EvalAltResult::ErrorMismatchOutputType(type_name.into(), pos)
})?;
// Compile the script text
// No optimizations because we only run it once
let mut ast = self
.compile_with_scope_and_optimization_level(
&Scope::new(),
script,
OptimizationLevel::None,
)
.map_err(|err| EvalAltResult::ErrorParsing(Box::new(err)))?;
// If new functions are defined within the eval string, it is an error
if ast.1.len() > 0 {
return Err(Box::new(EvalAltResult::ErrorParsing(
ParseErrorType::WrongFnDefinition.into_err(pos),
)));
}
if let Some(lib) = fn_lib {
#[cfg(feature = "sync")]
{
ast.1 = Arc::new(lib.clone());
}
#[cfg(not(feature = "sync"))]
{
ast.1 = Rc::new(lib.clone());
}
}
// Evaluate the AST
self.eval_ast_with_scope_raw(scope, &ast)
.map_err(|err| Box::new(err.set_position(pos)))
}
// Normal function call
_ => {
let mut arg_values = args_expr_list
.iter()
.map(|expr| self.eval_expr(scope, fn_lib, expr, level))
.collect::<Result<Vec<_>, _>>()?;
let mut args: Vec<_> = arg_values.iter_mut().collect();
let def_val = def_val.as_ref();
self.call_fn_raw(None, fn_lib, fn_name, &mut args, def_val, *pos, level)
}
}
}
Expr::In(lhs, rhs, _) => {
self.eval_in_expr(scope, fn_lib, lhs.as_ref(), rhs.as_ref(), level)
}
Expr::And(lhs, rhs, _) => Ok(Dynamic::from_bool(
self
.eval_expr(scope, fn_lib,lhs.as_ref(), level)?
.as_bool()
.map_err(|_| {
EvalAltResult::ErrorBooleanArgMismatch("AND".into(), lhs.position())
})?
&& // Short-circuit using &&
self
.eval_expr(scope, fn_lib,rhs.as_ref(), level)?
.as_bool()
.map_err(|_| {
EvalAltResult::ErrorBooleanArgMismatch("AND".into(), rhs.position())
})?,
)),
Expr::Or(lhs, rhs, _) => Ok(Dynamic::from_bool(
self
.eval_expr(scope,fn_lib, lhs.as_ref(), level)?
.as_bool()
.map_err(|_| {
EvalAltResult::ErrorBooleanArgMismatch("OR".into(), lhs.position())
})?
|| // Short-circuit using ||
self
.eval_expr(scope,fn_lib, rhs.as_ref(), level)?
.as_bool()
.map_err(|_| {
EvalAltResult::ErrorBooleanArgMismatch("OR".into(), rhs.position())
})?,
)),
Expr::True(_) => Ok(Dynamic::from_bool(true)),
Expr::False(_) => Ok(Dynamic::from_bool(false)),
Expr::Unit(_) => Ok(Dynamic::from_unit()),
_ => panic!("should not appear: {:?}", expr),
}
}
/// Evaluate a statement
pub(crate) fn eval_stmt(
&self,
scope: &mut Scope,
fn_lib: Option<&FunctionsLib>,
stmt: &Stmt,
level: usize,
) -> Result<Dynamic, Box<EvalAltResult>> {
match stmt {
// No-op
Stmt::Noop(_) => Ok(Dynamic::from_unit()),
// Expression as statement
Stmt::Expr(expr) => {
let result = self.eval_expr(scope, fn_lib, expr, level)?;
Ok(if !matches!(expr.as_ref(), Expr::Assignment(_, _, _)) {
result
} else {
// If it is an assignment, erase the result at the root
Dynamic::from_unit()
})
}
// Block scope
Stmt::Block(block, _) => {
let prev_len = scope.len();
let result = block.iter().try_fold(Dynamic::from_unit(), |_, stmt| {
self.eval_stmt(scope, fn_lib, stmt, level)
});
scope.rewind(prev_len);
result
}
// If-else statement
Stmt::IfThenElse(guard, if_body, else_body) => self
.eval_expr(scope, fn_lib, guard, level)?
.as_bool()
.map_err(|_| Box::new(EvalAltResult::ErrorLogicGuard(guard.position())))
.and_then(|guard_val| {
if guard_val {
self.eval_stmt(scope, fn_lib, if_body, level)
} else if let Some(stmt) = else_body {
self.eval_stmt(scope, fn_lib, stmt.as_ref(), level)
} else {
Ok(Dynamic::from_unit())
}
}),
// While loop
Stmt::While(guard, body) => loop {
match self.eval_expr(scope, fn_lib, guard, level)?.as_bool() {
Ok(true) => match self.eval_stmt(scope, fn_lib, body, level) {
Ok(_) => (),
Err(err) => match *err {
EvalAltResult::ErrorLoopBreak(false, _) => (),
EvalAltResult::ErrorLoopBreak(true, _) => {
return Ok(Dynamic::from_unit())
}
_ => return Err(err),
},
},
Ok(false) => return Ok(Dynamic::from_unit()),
Err(_) => {
return Err(Box::new(EvalAltResult::ErrorLogicGuard(guard.position())))
}
}
},
// Loop statement
Stmt::Loop(body) => loop {
match self.eval_stmt(scope, fn_lib, body, level) {
Ok(_) => (),
Err(err) => match *err {
EvalAltResult::ErrorLoopBreak(false, _) => (),
EvalAltResult::ErrorLoopBreak(true, _) => return Ok(Dynamic::from_unit()),
_ => return Err(err),
},
}
},
// For loop
Stmt::For(name, expr, body) => {
let arr = self.eval_expr(scope, fn_lib, expr, level)?;
let tid = arr.type_id();
if let Some(iter_fn) = self.type_iterators.get(&tid) {
// Add the loop variable - variable name is copied
// TODO - avoid copying variable name
scope.push(name.clone(), ());
let entry = ScopeSource {
name,
index: scope.len() - 1,
typ: ScopeEntryType::Normal,
};
for a in iter_fn(&arr) {
*scope.get_mut(entry) = a;
match self.eval_stmt(scope, fn_lib, body, level) {
Ok(_) => (),
Err(err) => match *err {
EvalAltResult::ErrorLoopBreak(false, _) => (),
EvalAltResult::ErrorLoopBreak(true, _) => break,
_ => return Err(err),
},
}
}
scope.rewind(scope.len() - 1);
Ok(Dynamic::from_unit())
} else {
Err(Box::new(EvalAltResult::ErrorFor(expr.position())))
}
}
// Continue statement
Stmt::Continue(pos) => Err(Box::new(EvalAltResult::ErrorLoopBreak(false, *pos))),
// Break statement
Stmt::Break(pos) => Err(Box::new(EvalAltResult::ErrorLoopBreak(true, *pos))),
// Empty return
Stmt::ReturnWithVal(None, ReturnType::Return, pos) => {
Err(Box::new(EvalAltResult::Return(Dynamic::from_unit(), *pos)))
}
// Return value
Stmt::ReturnWithVal(Some(a), ReturnType::Return, pos) => Err(Box::new(
EvalAltResult::Return(self.eval_expr(scope, fn_lib, a, level)?, *pos),
)),
// Empty throw
Stmt::ReturnWithVal(None, ReturnType::Exception, pos) => {
Err(Box::new(EvalAltResult::ErrorRuntime("".into(), *pos)))
}
// Throw value
Stmt::ReturnWithVal(Some(a), ReturnType::Exception, pos) => {
let val = self.eval_expr(scope, fn_lib, a, level)?;
Err(Box::new(EvalAltResult::ErrorRuntime(
val.take_string().unwrap_or_else(|_| "".to_string()),
*pos,
)))
}
// Let statement
Stmt::Let(name, Some(expr), _) => {
let val = self.eval_expr(scope, fn_lib, expr, level)?;
// TODO - avoid copying variable name in inner block?
scope.push_dynamic_value(name.clone(), ScopeEntryType::Normal, val, false);
Ok(Dynamic::from_unit())
}
Stmt::Let(name, None, _) => {
// TODO - avoid copying variable name in inner block?
scope.push(name.clone(), ());
Ok(Dynamic::from_unit())
}
// Const statement
Stmt::Const(name, expr, _) if expr.is_constant() => {
let val = self.eval_expr(scope, fn_lib, expr, level)?;
// TODO - avoid copying variable name in inner block?
scope.push_dynamic_value(name.clone(), ScopeEntryType::Constant, val, true);
Ok(Dynamic::from_unit())
}
Stmt::Const(_, _, _) => panic!("constant expression not constant!"),
}
}
/// Map a type_name into a pretty-print name
pub(crate) fn map_type_name<'a>(&'a self, name: &'a str) -> &'a str {
self.type_names
.as_ref()
.and_then(|list| list.get(name).map(String::as_str))
.unwrap_or(name)
}
}
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