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use crate::{
comments::{rewrite_with_comments, write_comments},
config::user_def::FieldAlignment,
formatter::{
shape::{ExprKind, LineStyle},
*,
},
utils::{
map::byte_span::{ByteSpan, LeafSpans},
CurlyBrace,
},
};
use std::fmt::Write;
use sway_ast::ItemStruct;
use sway_types::{ast::Delimiter, Spanned};
#[cfg(test)]
mod tests;
impl Format for ItemStruct {
fn format(
&self,
formatted_code: &mut FormattedCode,
formatter: &mut Formatter,
) -> Result<(), FormatterError> {
formatter.with_shape(
formatter
.shape
.with_code_line_from(LineStyle::Multiline, ExprKind::default()),
|formatter| -> Result<(), FormatterError> {
// Required for comment formatting
let start_len = formatted_code.len();
// If there is a visibility token add it to the formatted_code with a ` ` after it.
if let Some(visibility) = &self.visibility {
write!(formatted_code, "{} ", visibility.span().as_str())?;
}
// Add struct token and name
write!(formatted_code, "{} ", self.struct_token.span().as_str())?;
self.name.format(formatted_code, formatter)?;
// Format `GenericParams`, if any
if let Some(generics) = &self.generics {
generics.format(formatted_code, formatter)?;
}
if let Some(where_clause) = &self.where_clause_opt {
writeln!(formatted_code)?;
where_clause.format(formatted_code, formatter)?;
formatter.shape.code_line.update_where_clause(true);
}
let fields = self.fields.get();
// Handle opening brace
Self::open_curly_brace(formatted_code, formatter)?;
if fields.final_value_opt.is_none() && fields.value_separator_pairs.is_empty() {
write_comments(formatted_code, self.span().into(), formatter)?;
}
formatter.shape.code_line.update_expr_new_line(true);
// Determine alignment tactic
match formatter.config.structures.field_alignment {
FieldAlignment::AlignFields(enum_variant_align_threshold) => {
writeln!(formatted_code)?;
let value_pairs = &fields
.value_separator_pairs
.iter()
// TODO: Handle annotations instead of stripping them
.map(|(type_field, comma_token)| (&type_field.value, comma_token))
.collect::<Vec<_>>();
// In first iteration we are going to be collecting the lengths of the struct variants.
// We need to include the `pub` keyword in the length, if the field is public,
// together with one space character between the `pub` and the name.
let variant_length: Vec<usize> = value_pairs
.iter()
.map(|(type_field, _)| {
type_field
.visibility
.as_ref()
// We don't want to hard code the token here to `pub` or just hardcode 4.
// This is in case we introduce e.g. `pub(crate)` one day.
.map_or(0, |token| token.span().as_str().len() + 1)
+ type_field.name.as_str().len()
})
.collect();
// Find the maximum length in the variant_length vector that is still smaller than struct_field_align_threshold.
let mut max_valid_variant_length = 0;
variant_length.iter().for_each(|length| {
if *length > max_valid_variant_length
&& *length < enum_variant_align_threshold
{
max_valid_variant_length = *length;
}
});
let value_pairs_iter = value_pairs.iter().enumerate();
for (var_index, (type_field, comma_token)) in value_pairs_iter.clone() {
write!(formatted_code, "{}", formatter.indent_to_str()?)?;
// If there is a visibility token add it to the formatted_code with a ` ` after it.
if let Some(visibility) = &type_field.visibility {
write!(formatted_code, "{} ", visibility.span().as_str())?;
}
// Add name
type_field.name.format(formatted_code, formatter)?;
let current_variant_length = variant_length[var_index];
if current_variant_length < max_valid_variant_length {
// We need to add alignment between : and ty
// max_valid_variant_length: the length of the variant that we are taking as a reference to align
// current_variant_length: the length of the current variant that we are trying to format
let mut required_alignment =
max_valid_variant_length - current_variant_length;
while required_alignment != 0 {
write!(formatted_code, " ")?;
required_alignment -= 1;
}
}
// Add `:`, ty & `CommaToken`
write!(
formatted_code,
" {} ",
type_field.colon_token.span().as_str(),
)?;
type_field.ty.format(formatted_code, formatter)?;
writeln!(formatted_code, "{}", comma_token.span().as_str())?;
}
if let Some(final_value) = &fields.final_value_opt {
// TODO: Handle annotation
let final_value = &final_value.value;
write!(formatted_code, "{}", final_value.span().as_str())?;
}
}
FieldAlignment::Off => {
fields.format(formatted_code, formatter)?;
}
}
// Handle closing brace
Self::close_curly_brace(formatted_code, formatter)?;
rewrite_with_comments::<ItemStruct>(
formatter,
self.span(),
self.leaf_spans(),
formatted_code,
start_len,
)?;
Ok(())
},
)?;
Ok(())
}
}
impl CurlyBrace for ItemStruct {
fn open_curly_brace(
line: &mut String,
formatter: &mut Formatter,
) -> Result<(), FormatterError> {
formatter.indent();
let open_brace = Delimiter::Brace.as_open_char();
match formatter.shape.code_line.has_where_clause {
true => {
write!(line, "{open_brace}")?;
formatter.shape.code_line.update_where_clause(false);
}
false => {
write!(line, " {open_brace}")?;
}
}
Ok(())
}
fn close_curly_brace(
line: &mut String,
formatter: &mut Formatter,
) -> Result<(), FormatterError> {
// If shape is becoming left-most alligned or - indent just have the defualt shape
formatter.unindent();
write!(
line,
"{}{}",
formatter.indent_to_str()?,
Delimiter::Brace.as_close_char()
)?;
Ok(())
}
}
impl LeafSpans for ItemStruct {
fn leaf_spans(&self) -> Vec<ByteSpan> {
let mut collected_spans = Vec::new();
if let Some(visibility) = &self.visibility {
collected_spans.push(ByteSpan::from(visibility.span()));
}
collected_spans.push(ByteSpan::from(self.struct_token.span()));
collected_spans.push(ByteSpan::from(self.name.span()));
if let Some(generics) = &self.generics {
collected_spans.push(ByteSpan::from(generics.parameters.span()))
}
collected_spans.append(&mut self.fields.leaf_spans());
collected_spans
}
}