use parser::Node; use std::str; struct Generator { buf: String, indent: u8, start: bool, } impl Generator { fn new() -> Generator { Generator { buf: String::new(), indent: 0, start: true } } fn init(&mut self, name: &str) { self.write("impl askama::Template for "); self.write(name); self.writeln(" {"); self.indent(); self.writeln("fn render(&self) -> String {"); self.indent(); self.writeln("let mut buf = String::new();"); } fn indent(&mut self) { self.indent += 1; } fn dedent(&mut self) { self.indent -= 1; } fn write(&mut self, s: &str) { if self.start { for _ in 0..(self.indent * 4) { self.buf.push(' '); } self.start = false; } self.buf.push_str(s); } fn writeln(&mut self, s: &str) { if s.is_empty() { return; } self.write(s); self.buf.push('\n'); self.start = true; } fn visit_lit(&mut self, s: &[u8]) { self.write("buf.push_str("); self.write(&format!("{:#?}", str::from_utf8(s).unwrap())); self.writeln(");"); } fn visit_expr(&mut self, s: &[u8]) { let var_name = str::from_utf8(s).unwrap(); let code = format!("std::fmt::Write::write_fmt(\ &mut buf, format_args!(\"{{}}\", self.{})).unwrap();", var_name); self.writeln(&code); } fn handle(&mut self, tokens: &Vec) { for n in tokens { match n { &Node::Lit(val) => { self.visit_lit(val); }, &Node::Expr(val) => { self.visit_expr(val); }, } } } fn finalize(&mut self) { self.writeln("buf"); self.dedent(); self.writeln("}"); self.dedent(); self.writeln("}"); } fn result(self) -> String { self.buf } } pub fn generate(ctx_name: &str, tokens: &Vec) -> String { let mut gen = Generator::new(); gen.init(ctx_name); gen.handle(tokens); gen.finalize(); gen.result() }