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use serde ::{ Deserialize , Serialize } ;
use std ::{
collections ::BTreeMap ,
fmt ::{ self , Display , Formatter } ,
} ;
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use crate ::{ value ::Value , Error , Result , Table , TOOL_LIST } ;
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/// A context that stores its mappings in hash maps.
#[ derive(Clone, Debug, PartialEq, PartialOrd, Ord, Eq, Serialize, Deserialize) ]
pub struct VariableMap {
variables : BTreeMap < String , Value > ,
}
impl VariableMap {
/// Creates a new instace.
pub fn new ( ) -> Self {
VariableMap {
variables : BTreeMap ::new ( ) ,
}
}
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/// Invokes built-in tools or user-defined functions based on the identifier and passes the
/// argument. Returns an error a tool is called with the wrong inputs or if the identifier does
/// not match any tools or functions.
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pub fn call_function ( & self , identifier : & str , argument : & Value ) -> Result < Value > {
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for macro_item in TOOL_LIST {
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let valid_input_types = macro_item . info ( ) . inputs ;
if identifier = = macro_item . info ( ) . identifier {
let input_type = argument . value_type ( ) ;
if valid_input_types . contains ( & input_type ) {
return macro_item . run ( argument ) ;
} else {
return Err ( Error ::MacroArgumentType {
macro_info : macro_item . info ( ) ,
actual : argument . clone ( ) ,
} ) ;
}
}
}
for ( key , value ) in & self . variables {
if identifier = = key {
if let Ok ( function ) = value . as_function ( ) {
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let mut context = self . clone ( ) ;
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context . set_value ( " input " , argument . clone ( ) ) ? ;
return function . run_with_context ( & mut context ) ;
}
}
}
Err ( Error ::FunctionIdentifierNotFound ( identifier . to_string ( ) ) )
}
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/// Returns a Value assigned to the identifer, allowing dot notation to retrieve Values that are /// nested in Lists or Maps. Returns None if there is no variable with a key matching the /// identifier. Returns an error if a Map or List is indexed incorrectly.
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pub fn get_value ( & self , identifier : & str ) -> Result < Option < Value > > {
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let split = identifier . rsplit_once ( '.' ) ;
let ( found_value , next_identifier ) = if let Some ( ( identifier , next_identifier ) ) = split {
if identifier . contains ( '.' ) {
( self . get_value ( identifier ) ? , next_identifier )
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} else {
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( self . variables . get ( identifier ) . cloned ( ) , next_identifier )
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}
} else {
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return Ok ( self . variables . get ( identifier ) . cloned ( ) ) ;
} ;
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if let Some ( value ) = found_value {
if let Value ::List ( list ) = value {
let index = if let Ok ( index ) = next_identifier . parse ::< usize > ( ) {
index
} else {
return Err ( Error ::expected_int ( Value ::String (
next_identifier . to_string ( ) ,
) ) ) ;
} ;
Ok ( list . get ( index ) . cloned ( ) )
} else if let Value ::Map ( map ) = value {
map . get_value ( next_identifier )
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} else {
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Ok ( Some ( value ) )
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}
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} else {
Ok ( None )
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}
}
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/// Assigns a variable with a Value and the identifier as its key, allowing dot notation to
/// assign nested lists and maps. Returns an error if a List or Map is indexed incorrectly.
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pub fn set_value ( & mut self , identifier : & str , value : Value ) -> Result < ( ) > {
let split = identifier . split_once ( '.' ) ;
if let Some ( ( map_name , next_identifier ) ) = split {
let get_value = self . variables . get_mut ( map_name ) ;
if let Some ( map_value ) = get_value {
if let Value ::Map ( map ) = map_value {
map . set_value ( next_identifier , value )
} else {
Err ( Error ::ExpectedMap {
actual : map_value . clone ( ) ,
} )
}
} else {
let mut new_map = VariableMap ::new ( ) ;
new_map . set_value ( next_identifier , value ) ? ;
self . variables
. insert ( map_name . to_string ( ) , Value ::Map ( new_map ) ) ;
Ok ( ( ) )
}
} else {
self . variables . insert ( identifier . to_string ( ) , value ) ;
Ok ( ( ) )
}
}
/// Returns a reference to the inner BTreeMap.
pub fn inner ( & self ) -> & BTreeMap < String , Value > {
& self . variables
}
/// Returns the number of stored variables.
pub fn len ( & self ) -> usize {
self . variables . len ( )
}
/// Returns true if the length is zero.
pub fn is_empty ( & self ) -> bool {
self . variables . is_empty ( )
}
}
impl Default for VariableMap {
fn default ( ) -> Self {
Self ::new ( )
}
}
impl Display for VariableMap {
fn fmt ( & self , f : & mut Formatter < '_ > ) -> fmt ::Result {
Table ::from ( self ) . fmt ( f )
}
}
impl From < & Table > for VariableMap {
fn from ( value : & Table ) -> Self {
let mut map = VariableMap ::new ( ) ;
for ( row_index , row ) in value . rows ( ) . iter ( ) . enumerate ( ) {
map . set_value ( & row_index . to_string ( ) , Value ::List ( row . clone ( ) ) )
. unwrap ( ) ;
}
map
}
}
#[ cfg(test) ]
mod tests {
use super ::* ;
#[ test ]
fn get_and_set_simple_value ( ) {
let mut map = VariableMap ::new ( ) ;
map . set_value ( " x " , Value ::Integer ( 1 ) ) . unwrap ( ) ;
assert_eq! ( Value ::Integer ( 1 ) , map . get_value ( " x " ) . unwrap ( ) . unwrap ( ) ) ;
}
#[ test ]
fn get_and_set_nested_maps ( ) {
let mut map = VariableMap ::new ( ) ;
map . set_value ( " x " , Value ::Map ( VariableMap ::new ( ) ) ) . unwrap ( ) ;
map . set_value ( " x.x " , Value ::Map ( VariableMap ::new ( ) ) )
. unwrap ( ) ;
map . set_value ( " x.x.x " , Value ::Map ( VariableMap ::new ( ) ) )
. unwrap ( ) ;
map . set_value ( " x.x.x.x " , Value ::Map ( VariableMap ::new ( ) ) )
. unwrap ( ) ;
assert_eq! (
Value ::Map ( VariableMap ::new ( ) ) ,
map . get_value ( " x.x.x.x " ) . unwrap ( ) . unwrap ( )
) ;
}
}