// Copyright: Ankitects Pty Ltd and contributors // License: GNU AGPL, version 3 or later; http://www.gnu.org/licenses/agpl.html // copied from https://github.com/projectfluent/fluent-rs/pull/241 use std::fmt; use std::fmt::Error; use std::fmt::Write; use fluent_syntax::ast::*; use fluent_syntax::parser::Slice; pub fn serialize<'s, S: Slice<'s>>(resource: &Resource) -> String { serialize_with_options(resource, Options::default()) } pub fn serialize_with_options<'s, S: Slice<'s>>( resource: &Resource, options: Options, ) -> String { let mut ser = Serializer::new(options); ser.serialize_resource(resource) .expect("Writing to an in-memory buffer never fails"); ser.into_serialized_text() } #[derive(Debug)] pub struct Serializer { writer: TextWriter, options: Options, state: State, } impl Serializer { pub fn new(options: Options) -> Self { Serializer { writer: TextWriter::default(), options, state: State::default(), } } pub fn serialize_resource<'s, S: Slice<'s>>(&mut self, res: &Resource) -> Result<(), Error> { for entry in &res.body { match entry { Entry::Message(msg) => self.serialize_message(msg)?, Entry::Term(term) => self.serialize_term(term)?, Entry::Comment(comment) => self.serialize_free_comment(comment, "#")?, Entry::GroupComment(comment) => self.serialize_free_comment(comment, "##")?, Entry::ResourceComment(comment) => self.serialize_free_comment(comment, "###")?, Entry::Junk { content } if self.options.with_junk => { self.serialize_junk(content.as_ref())? } Entry::Junk { .. } => continue, } self.state.has_entries = true; } Ok(()) } pub fn into_serialized_text(self) -> String { self.writer.buffer } fn serialize_junk(&mut self, junk: &str) -> Result<(), Error> { self.writer.write_literal(junk) } fn serialize_free_comment<'s, S: Slice<'s>>( &mut self, comment: &Comment, prefix: &str, ) -> Result<(), Error> { if self.state.has_entries { self.writer.newline(); } self.serialize_comment(comment, prefix)?; self.writer.newline(); Ok(()) } fn serialize_comment<'s, S: Slice<'s>>( &mut self, comment: &Comment, prefix: &str, ) -> Result<(), Error> { for line in &comment.content { self.writer.write_literal(prefix)?; if !line.as_ref().trim().is_empty() { self.writer.write_literal(" ")?; self.writer.write_literal(line.as_ref())?; } self.writer.newline(); } Ok(()) } fn serialize_message<'s, S: Slice<'s>>(&mut self, msg: &Message) -> Result<(), Error> { if let Some(comment) = msg.comment.as_ref() { self.serialize_comment(comment, "#")?; } self.writer.write_literal(msg.id.name.as_ref())?; self.writer.write_literal(" =")?; if let Some(value) = msg.value.as_ref() { self.serialize_pattern(value)?; } self.serialize_attributes(&msg.attributes)?; self.writer.newline(); Ok(()) } fn serialize_term<'s, S: Slice<'s>>(&mut self, term: &Term) -> Result<(), Error> { if let Some(comment) = term.comment.as_ref() { self.serialize_comment(comment, "#")?; } self.writer.write_literal("-")?; self.writer.write_literal(term.id.name.as_ref())?; self.writer.write_literal(" =")?; self.serialize_pattern(&term.value)?; self.serialize_attributes(&term.attributes)?; self.writer.newline(); Ok(()) } fn serialize_pattern<'s, S: Slice<'s>>(&mut self, pattern: &Pattern) -> Result<(), Error> { let start_on_newline = pattern.elements.iter().any(|elem| match elem { PatternElement::TextElement { value } => value.as_ref().contains('\n'), PatternElement::Placeable { expression } => is_select_expr(expression), }); if start_on_newline { self.writer.newline(); self.writer.indent(); } else { self.writer.write_literal(" ")?; } for element in &pattern.elements { self.serialize_element(element)?; } if start_on_newline { self.writer.dedent(); } Ok(()) } fn serialize_attributes<'s, S: Slice<'s>>( &mut self, attrs: &[Attribute], ) -> Result<(), Error> { if attrs.is_empty() { return Ok(()); } self.writer.indent(); for attr in attrs { self.writer.newline(); self.serialize_attribute(attr)?; } self.writer.dedent(); Ok(()) } fn serialize_attribute<'s, S: Slice<'s>>(&mut self, attr: &Attribute) -> Result<(), Error> { self.writer.write_literal(".")?; self.writer.write_literal(attr.id.name.as_ref())?; self.writer.write_literal(" =")?; self.serialize_pattern(&attr.value)?; Ok(()) } fn serialize_element<'s, S: Slice<'s>>( &mut self, elem: &PatternElement, ) -> Result<(), Error> { match elem { PatternElement::TextElement { value } => self.writer.write_literal(value.as_ref()), PatternElement::Placeable { expression } => match expression { Expression::Inline(InlineExpression::Placeable { expression }) => { // A placeable inside a placeable is a special case because we // don't want the braces to look silly (e.g. "{ { Foo() } }"). self.writer.write_literal("{{ ")?; self.serialize_expression(expression)?; self.writer.write_literal(" }}")?; Ok(()) } Expression::Select { .. } => { // select adds its own newline and indent, emit the brace // *without* a space so we don't get 5 spaces instead of 4 self.writer.write_literal("{ ")?; self.serialize_expression(expression)?; self.writer.write_literal("}")?; Ok(()) } Expression::Inline(_) => { self.writer.write_literal("{ ")?; self.serialize_expression(expression)?; self.writer.write_literal(" }")?; Ok(()) } }, } } fn serialize_expression<'s, S: Slice<'s>>( &mut self, expr: &Expression, ) -> Result<(), Error> { match expr { Expression::Inline(inline) => self.serialize_inline_expression(inline), Expression::Select { selector, variants } => { self.serialize_select_expression(selector, variants) } } } fn serialize_inline_expression<'s, S: Slice<'s>>( &mut self, expr: &InlineExpression, ) -> Result<(), Error> { match expr { InlineExpression::StringLiteral { value } => { self.writer.write_literal("\"")?; self.writer.write_literal(value.as_ref())?; self.writer.write_literal("\"")?; Ok(()) } InlineExpression::NumberLiteral { value } => self.writer.write_literal(value.as_ref()), InlineExpression::VariableReference { id: Identifier { name: value }, } => { self.writer.write_literal("$")?; self.writer.write_literal(value.as_ref())?; Ok(()) } InlineExpression::FunctionReference { id, arguments } => { self.writer.write_literal(id.name.as_ref())?; self.serialize_call_arguments(arguments)?; Ok(()) } InlineExpression::MessageReference { id, attribute } => { self.writer.write_literal(id.name.as_ref())?; if let Some(attr) = attribute.as_ref() { self.writer.write_literal(".")?; self.writer.write_literal(attr.name.as_ref())?; } Ok(()) } InlineExpression::TermReference { id, attribute, arguments, } => { self.writer.write_literal("-")?; self.writer.write_literal(id.name.as_ref())?; if let Some(attr) = attribute.as_ref() { self.writer.write_literal(".")?; self.writer.write_literal(attr.name.as_ref())?; } if let Some(args) = arguments.as_ref() { self.serialize_call_arguments(args)?; } Ok(()) } InlineExpression::Placeable { expression } => { self.writer.write_literal("{")?; self.serialize_expression(expression)?; self.writer.write_literal("}")?; Ok(()) } } } fn serialize_select_expression<'s, S: Slice<'s>>( &mut self, selector: &InlineExpression, variants: &[Variant], ) -> Result<(), Error> { self.serialize_inline_expression(selector)?; self.writer.write_literal(" ->")?; self.writer.newline(); self.writer.indent(); for variant in variants { self.serialize_variant(variant)?; self.writer.newline(); } self.writer.dedent(); Ok(()) } fn serialize_variant<'s, S: Slice<'s>>(&mut self, variant: &Variant) -> Result<(), Error> { if variant.default { self.writer.write_char_into_indent('*'); } self.writer.write_literal("[")?; self.serialize_variant_key(&variant.key)?; self.writer.write_literal("]")?; self.serialize_pattern(&variant.value)?; Ok(()) } fn serialize_variant_key<'s, S: Slice<'s>>( &mut self, key: &VariantKey, ) -> Result<(), Error> { match key { VariantKey::NumberLiteral { value } | VariantKey::Identifier { name: value } => { self.writer.write_literal(value.as_ref()) } } } fn serialize_call_arguments<'s, S: Slice<'s>>( &mut self, args: &CallArguments, ) -> Result<(), Error> { let mut argument_written = false; self.writer.write_literal("(")?; for positional in &args.positional { if argument_written { self.writer.write_literal(", ")?; } self.serialize_inline_expression(positional)?; argument_written = true; } for named in &args.named { if argument_written { self.writer.write_literal(", ")?; } self.writer.write_literal(named.name.name.as_ref())?; self.writer.write_literal(": ")?; self.serialize_inline_expression(&named.value)?; argument_written = true; } self.writer.write_literal(")")?; Ok(()) } } fn is_select_expr<'s, S: Slice<'s>>(expr: &Expression) -> bool { match expr { Expression::Select { .. } => true, Expression::Inline(InlineExpression::Placeable { expression }) => { is_select_expr(expression) } Expression::Inline(_) => false, } } #[derive(Debug, Default, Copy, Clone, PartialEq, Eq)] pub struct Options { pub with_junk: bool, } #[derive(Debug, Default, PartialEq)] struct State { has_entries: bool, } #[derive(Debug, Clone, Default)] struct TextWriter { buffer: String, indent_level: usize, } impl TextWriter { fn indent(&mut self) { self.indent_level += 1; } fn dedent(&mut self) { self.indent_level = self .indent_level .checked_sub(1) .expect("Dedenting without a corresponding indent"); } fn write_indent(&mut self) { for _ in 0..self.indent_level { self.buffer.push_str(" "); } } fn newline(&mut self) { self.buffer.push('\n'); } fn write_literal(&mut self, mut item: &str) -> fmt::Result { if self.buffer.ends_with('\n') { // we've just added a newline, make sure it's properly indented self.write_indent(); // we've just added indentation, so we don't care about leading // spaces item = item.trim_start_matches(' '); } write!(self.buffer, "{}", item) } fn write_char_into_indent(&mut self, ch: char) { if self.buffer.ends_with('\n') { self.write_indent(); } self.buffer.pop(); self.buffer.push(ch); } }