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use full_moon::ast::{
BinOp, BinOpRhs, Expression, Index, Prefix, Suffix, UnOp, Value, Var, VarExpression,
};
use full_moon::tokenizer::TokenReference;
use std::boxed::Box;
use crate::formatters::CodeFormatter;
#[macro_export]
macro_rules! fmt_op {
($fmter:expr, $enum:ident, $value:ident, { $($operator:ident = $output:expr,)+ }) => {
match $value {
$(
$enum::$operator(token) => $enum::$operator(crate::fmt_symbol!($fmter, token, $output)),
)+
}
};
}
impl CodeFormatter {
pub fn format_binop<'ast>(&self, binop: &BinOp<'ast>) -> BinOp<'ast> {
fmt_op!(self, BinOp, binop, {
And = " and ",
Caret = " ^ ",
GreaterThan = " > ",
GreaterThanEqual = " >= ",
LessThan = " < ",
LessThanEqual = " <= ",
Minus = " - ",
Or = " or ",
Percent = " % ",
Plus = " + ",
Slash = " / ",
Star = " * ",
TildeEqual = " ~= ",
TwoDots = " .. ",
TwoEqual = " == ",
})
}
pub fn format_bin_op_rhs<'ast>(&mut self, bin_op_rhs: &BinOpRhs<'ast>) -> BinOpRhs<'ast> {
BinOpRhs::new(
self.format_binop(bin_op_rhs.bin_op()),
Box::new(self.format_expression(bin_op_rhs.rhs())),
)
}
pub fn format_expression<'ast>(&mut self, expression: &Expression<'ast>) -> Expression<'ast> {
match expression {
Expression::Value {
value,
binop,
#[cfg(feature = "luau")]
as_assertion,
} => Expression::Value {
value: Box::new(self.format_value(value)),
binop: match binop {
Some(value) => Some(self.format_bin_op_rhs(value)),
None => None,
},
#[cfg(feature = "luau")]
as_assertion: match as_assertion {
Some(assertion) => Some(self.format_as_assertion(assertion)),
None => None,
},
},
Expression::Parentheses {
contained,
expression,
} => Expression::Parentheses {
contained: self.format_contained_span(&contained),
expression: Box::new(self.format_expression(expression)),
},
Expression::UnaryOperator { unop, expression } => Expression::UnaryOperator {
unop: self.format_unop(unop),
expression: Box::new(self.format_expression(expression)),
},
}
}
pub fn format_index<'ast>(&mut self, index: &Index<'ast>) -> Index<'ast> {
match index {
Index::Brackets {
brackets,
expression,
} => Index::Brackets {
brackets: self.format_contained_span(&brackets),
expression: self.format_expression(expression),
},
Index::Dot { dot, name } => Index::Dot {
dot: self.format_token_reference(dot),
name: self.format_token_reference(name),
},
}
}
pub fn format_prefix<'ast>(&mut self, prefix: &Prefix<'ast>) -> Prefix<'ast> {
match prefix {
Prefix::Expression(expression) => {
Prefix::Expression(self.format_expression(expression))
}
Prefix::Name(token_reference) => {
Prefix::Name(self.format_token_reference(token_reference))
}
}
}
pub fn format_suffix<'ast>(&mut self, suffix: &Suffix<'ast>) -> Suffix<'ast> {
match suffix {
Suffix::Call(call) => Suffix::Call(self.format_call(call)),
Suffix::Index(index) => Suffix::Index(self.format_index(index)),
}
}
pub fn format_value<'ast>(&mut self, value: &Value<'ast>) -> Value<'ast> {
match value {
Value::Function((token_reference, function_body)) => {
Value::Function(self.format_anonymous_function(token_reference, function_body))
}
Value::FunctionCall(function_call) => {
Value::FunctionCall(self.format_function_call(function_call))
}
Value::Number(token_reference) => {
Value::Number(self.format_token_reference(token_reference))
}
Value::ParseExpression(expression) => {
Value::ParseExpression(self.format_expression(expression))
}
Value::String(token_reference) => {
Value::String(self.format_token_reference(token_reference))
}
Value::Symbol(token_reference) => {
Value::Symbol(self.format_token_reference(token_reference))
}
Value::TableConstructor(table_constructor) => {
Value::TableConstructor(self.format_table_constructor(table_constructor))
}
Value::Var(var) => Value::Var(self.format_var(var)),
}
}
pub fn format_var<'ast>(&mut self, var: &Var<'ast>) -> Var<'ast> {
match var {
Var::Name(token_reference) => Var::Name(self.format_token_reference(token_reference)),
Var::Expression(var_expression) => {
Var::Expression(self.format_var_expression(var_expression))
}
}
}
pub fn format_var_expression<'ast>(
&mut self,
var_expression: &VarExpression<'ast>,
) -> VarExpression<'ast> {
let formatted_prefix = self.format_prefix(var_expression.prefix());
let formatted_suffixes = var_expression
.iter_suffixes()
.map(|x| self.format_suffix(x))
.collect();
VarExpression::new(formatted_prefix).with_suffixes(formatted_suffixes)
}
pub fn format_unop<'ast>(&self, unop: &UnOp<'ast>) -> UnOp<'ast> {
fmt_op!(self, UnOp, unop, {
Minus = "-",
Not = "not ",
Hash = "#",
})
}
}