| #![allow(bad_style)] |
| |
| use std::collections::HashMap; |
| use std::rc::Rc; |
| |
| use html5ever::driver::ParseOpts; |
| use html5ever::parse_document; |
| use html5ever::rcdom::{Node, NodeData, RcDom}; |
| use html5ever::tendril::TendrilSink; |
| use html5ever::tree_builder::TreeBuilderOpts; |
| |
| struct Function { |
| name: &'static str, |
| arguments: &'static [&'static Type], |
| ret: Option<&'static Type>, |
| target_feature: Option<&'static str>, |
| instrs: &'static [&'static str], |
| file: &'static str, |
| required_const: &'static [usize], |
| } |
| |
| static F16: Type = Type::PrimFloat(16); |
| static F32: Type = Type::PrimFloat(32); |
| static F64: Type = Type::PrimFloat(64); |
| static I16: Type = Type::PrimSigned(16); |
| static I32: Type = Type::PrimSigned(32); |
| static I64: Type = Type::PrimSigned(64); |
| static I8: Type = Type::PrimSigned(8); |
| static U16: Type = Type::PrimUnsigned(16); |
| static U32: Type = Type::PrimUnsigned(32); |
| static U64: Type = Type::PrimUnsigned(64); |
| static U8: Type = Type::PrimUnsigned(8); |
| static NEVER: Type = Type::Never; |
| |
| static F16X4: Type = Type::F(16, 4, 1); |
| static F16X4X2: Type = Type::F(16, 4, 2); |
| static F16X4X3: Type = Type::F(16, 4, 3); |
| static F16X4X4: Type = Type::F(16, 4, 4); |
| static F16X8: Type = Type::F(16, 8, 1); |
| static F16X8X2: Type = Type::F(16, 8, 2); |
| static F16X8X3: Type = Type::F(16, 8, 3); |
| static F16X8X4: Type = Type::F(16, 8, 4); |
| static F32X2: Type = Type::F(32, 2, 1); |
| static F32X2X2: Type = Type::F(32, 2, 2); |
| static F32X2X3: Type = Type::F(32, 2, 3); |
| static F32X2X4: Type = Type::F(32, 2, 4); |
| static F32X4: Type = Type::F(32, 4, 1); |
| static F32X4X2: Type = Type::F(32, 4, 2); |
| static F32X4X3: Type = Type::F(32, 4, 3); |
| static F32X4X4: Type = Type::F(32, 4, 4); |
| static F64X1: Type = Type::F(64, 1, 1); |
| static F64X1X2: Type = Type::F(64, 1, 2); |
| static F64X1X3: Type = Type::F(64, 1, 3); |
| static F64X1X4: Type = Type::F(64, 1, 4); |
| static F64X2: Type = Type::F(64, 2, 1); |
| static F64X2X2: Type = Type::F(64, 2, 2); |
| static F64X2X3: Type = Type::F(64, 2, 3); |
| static F64X2X4: Type = Type::F(64, 2, 4); |
| static I16X2: Type = Type::I(16, 2, 1); |
| static I16X4: Type = Type::I(16, 4, 1); |
| static I16X4X2: Type = Type::I(16, 4, 2); |
| static I16X4X3: Type = Type::I(16, 4, 3); |
| static I16X4X4: Type = Type::I(16, 4, 4); |
| static I16X8: Type = Type::I(16, 8, 1); |
| static I16X8X2: Type = Type::I(16, 8, 2); |
| static I16X8X3: Type = Type::I(16, 8, 3); |
| static I16X8X4: Type = Type::I(16, 8, 4); |
| static I32X2: Type = Type::I(32, 2, 1); |
| static I32X2X2: Type = Type::I(32, 2, 2); |
| static I32X2X3: Type = Type::I(32, 2, 3); |
| static I32X2X4: Type = Type::I(32, 2, 4); |
| static I32X4: Type = Type::I(32, 4, 1); |
| static I32X4X2: Type = Type::I(32, 4, 2); |
| static I32X4X3: Type = Type::I(32, 4, 3); |
| static I32X4X4: Type = Type::I(32, 4, 4); |
| static I64X1: Type = Type::I(64, 1, 1); |
| static I64X1X2: Type = Type::I(64, 1, 2); |
| static I64X1X3: Type = Type::I(64, 1, 3); |
| static I64X1X4: Type = Type::I(64, 1, 4); |
| static I64X2: Type = Type::I(64, 2, 1); |
| static I64X2X2: Type = Type::I(64, 2, 2); |
| static I64X2X3: Type = Type::I(64, 2, 3); |
| static I64X2X4: Type = Type::I(64, 2, 4); |
| static I8X16: Type = Type::I(8, 16, 1); |
| static I8X16X2: Type = Type::I(8, 16, 2); |
| static I8X16X3: Type = Type::I(8, 16, 3); |
| static I8X16X4: Type = Type::I(8, 16, 4); |
| static I8X4: Type = Type::I(8, 4, 1); |
| static I8X8: Type = Type::I(8, 8, 1); |
| static I8X8X2: Type = Type::I(8, 8, 2); |
| static I8X8X3: Type = Type::I(8, 8, 3); |
| static I8X8X4: Type = Type::I(8, 8, 4); |
| static P128: Type = Type::PrimPoly(128); |
| static P16: Type = Type::PrimPoly(16); |
| static P16X4X2: Type = Type::P(16, 4, 2); |
| static P16X4X3: Type = Type::P(16, 4, 3); |
| static P16X4X4: Type = Type::P(16, 4, 4); |
| static P16X8X2: Type = Type::P(16, 8, 2); |
| static P16X8X3: Type = Type::P(16, 8, 3); |
| static P16X8X4: Type = Type::P(16, 8, 4); |
| static P64: Type = Type::PrimPoly(64); |
| static P64X1X2: Type = Type::P(64, 1, 2); |
| static P64X1X3: Type = Type::P(64, 1, 3); |
| static P64X1X4: Type = Type::P(64, 1, 4); |
| static P64X2X2: Type = Type::P(64, 2, 2); |
| static P64X2X3: Type = Type::P(64, 2, 3); |
| static P64X2X4: Type = Type::P(64, 2, 4); |
| static P8: Type = Type::PrimPoly(8); |
| static POLY16X4: Type = Type::P(16, 4, 1); |
| static POLY16X8: Type = Type::P(16, 8, 1); |
| static POLY64X1: Type = Type::P(64, 1, 1); |
| static POLY64X2: Type = Type::P(64, 2, 1); |
| static POLY8X16: Type = Type::P(8, 16, 1); |
| static POLY8X16X2: Type = Type::P(8, 16, 2); |
| static POLY8X16X3: Type = Type::P(8, 16, 3); |
| static POLY8X16X4: Type = Type::P(8, 16, 4); |
| static POLY8X8: Type = Type::P(8, 8, 1); |
| static POLY8X8X2: Type = Type::P(8, 8, 2); |
| static POLY8X8X3: Type = Type::P(8, 8, 3); |
| static POLY8X8X4: Type = Type::P(8, 8, 4); |
| static U16X4: Type = Type::U(16, 4, 1); |
| static U16X4X2: Type = Type::U(16, 4, 2); |
| static U16X4X3: Type = Type::U(16, 4, 3); |
| static U16X4X4: Type = Type::U(16, 4, 4); |
| static U16X8: Type = Type::U(16, 8, 1); |
| static U16X8X2: Type = Type::U(16, 8, 2); |
| static U16X8X3: Type = Type::U(16, 8, 3); |
| static U16X8X4: Type = Type::U(16, 8, 4); |
| static U32X2: Type = Type::U(32, 2, 1); |
| static U32X2X2: Type = Type::U(32, 2, 2); |
| static U32X2X3: Type = Type::U(32, 2, 3); |
| static U32X2X4: Type = Type::U(32, 2, 4); |
| static U32X4: Type = Type::U(32, 4, 1); |
| static U32X4X2: Type = Type::U(32, 4, 2); |
| static U32X4X3: Type = Type::U(32, 4, 3); |
| static U32X4X4: Type = Type::U(32, 4, 4); |
| static U64X1: Type = Type::U(64, 1, 1); |
| static U64X1X2: Type = Type::U(64, 1, 2); |
| static U64X1X3: Type = Type::U(64, 1, 3); |
| static U64X1X4: Type = Type::U(64, 1, 4); |
| static U64X2: Type = Type::U(64, 2, 1); |
| static U64X2X2: Type = Type::U(64, 2, 2); |
| static U64X2X3: Type = Type::U(64, 2, 3); |
| static U64X2X4: Type = Type::U(64, 2, 4); |
| static U8X16: Type = Type::U(8, 16, 1); |
| static U8X16X2: Type = Type::U(8, 16, 2); |
| static U8X16X3: Type = Type::U(8, 16, 3); |
| static U8X16X4: Type = Type::U(8, 16, 4); |
| static U8X8: Type = Type::U(8, 8, 1); |
| static U8X8X2: Type = Type::U(8, 8, 2); |
| static U8X8X3: Type = Type::U(8, 8, 3); |
| static U8X8X4: Type = Type::U(8, 8, 4); |
| |
| #[derive(Debug, Copy, Clone, PartialEq)] |
| enum Type { |
| PrimFloat(u8), |
| PrimSigned(u8), |
| PrimUnsigned(u8), |
| PrimPoly(u8), |
| MutPtr(&'static Type), |
| ConstPtr(&'static Type), |
| I(u8, u8, u8), |
| U(u8, u8, u8), |
| P(u8, u8, u8), |
| F(u8, u8, u8), |
| Never, |
| } |
| |
| stdsimd_verify::arm_functions!(static FUNCTIONS); |
| |
| macro_rules! bail { |
| ($($t:tt)*) => (return Err(format!($($t)*))) |
| } |
| |
| #[test] |
| fn verify_all_signatures() { |
| // This is a giant HTML blob downloaded from |
| // https://developer.arm.com/technologies/neon/intrinsics which contains all |
| // NEON intrinsics at least. We do manual HTML parsing below. |
| let html = include_bytes!("../arm-intrinsics.html"); |
| let mut html = &html[..]; |
| let opts = ParseOpts { |
| tree_builder: TreeBuilderOpts { |
| drop_doctype: true, |
| ..Default::default() |
| }, |
| ..Default::default() |
| }; |
| let dom = parse_document(RcDom::default(), opts) |
| .from_utf8() |
| .read_from(&mut html) |
| .unwrap(); |
| |
| let accordion = find_accordion(&dom.document).unwrap(); |
| let map = parse_intrinsics(&accordion); |
| |
| let mut all_valid = true; |
| 'outer: for rust in FUNCTIONS { |
| // Skip some intrinsics that aren't NEON and are located in different |
| // places than the whitelists below. |
| match rust.name { |
| "brk" | "__breakpoint" | "udf" => continue, |
| _ => {} |
| } |
| let arm = match map.get(rust.name) { |
| Some(i) => i, |
| None => { |
| // Skip all these intrinsics as they're not listed in NEON |
| // descriptions online. |
| // |
| // TODO: we still need to verify these intrinsics or find a |
| // reference for them, need to figure out where though! |
| if !rust.file.ends_with("dsp.rs\"") |
| && !rust.file.ends_with("cmsis.rs\"") |
| && !rust.file.ends_with("v6.rs\"") |
| && !rust.file.ends_with("v7.rs\"") |
| && !rust.file.ends_with("v8.rs\"") |
| { |
| println!( |
| "missing arm definition for {:?} in {}", |
| rust.name, rust.file |
| ); |
| all_valid = false; |
| } |
| continue; |
| } |
| }; |
| |
| if let Err(e) = matches(rust, arm) { |
| println!("failed to verify `{}`", rust.name); |
| println!(" * {}", e); |
| all_valid = false; |
| } |
| } |
| assert!(all_valid); |
| } |
| |
| fn matches(rust: &Function, arm: &Intrinsic) -> Result<(), String> { |
| if rust.ret != arm.ret.as_ref() { |
| bail!("mismatched return value") |
| } |
| if rust.arguments.len() != arm.arguments.len() { |
| bail!("mismatched argument lengths"); |
| } |
| |
| let mut nconst = 0; |
| let iter = rust.arguments.iter().zip(&arm.arguments).enumerate(); |
| for (i, (rust_ty, (arm, arm_const))) in iter { |
| if *rust_ty != arm { |
| bail!("mismatched arguments") |
| } |
| if *arm_const { |
| nconst += 1; |
| if !rust.required_const.contains(&i) { |
| bail!("argument const mismatch"); |
| } |
| } |
| } |
| if nconst != rust.required_const.len() { |
| bail!("wrong number of const arguments"); |
| } |
| |
| if rust.instrs.is_empty() { |
| bail!( |
| "instruction not listed for `{}`, but arm lists {:?}", |
| rust.name, |
| arm.instruction |
| ); |
| } else if false |
| /* not super reliable, but can be used to manually check */ |
| { |
| for instr in rust.instrs { |
| if arm.instruction.starts_with(instr) { |
| continue; |
| } |
| // sometimes arm says `foo` and disassemblers say `vfoo`, or |
| // sometimes disassemblers say `vfoo` and arm says `sfoo` or `ffoo` |
| if instr.starts_with("v") |
| && (arm.instruction.starts_with(&instr[1..]) |
| || arm.instruction[1..].starts_with(&instr[1..])) |
| { |
| continue; |
| } |
| bail!( |
| "arm failed to list `{}` as an instruction for `{}` in {:?}", |
| instr, |
| rust.name, |
| arm.instruction, |
| ); |
| } |
| } |
| |
| // TODO: verify `target_feature`. |
| |
| Ok(()) |
| } |
| |
| fn find_accordion(node: &Rc<Node>) -> Option<Rc<Node>> { |
| if let NodeData::Element { attrs, .. } = &node.data { |
| for attr in attrs.borrow().iter() { |
| if attr.name.local.eq_str_ignore_ascii_case("class") { |
| if attr.value.to_string() == "intrinsic-accordion" { |
| return Some(node.clone()); |
| } |
| } |
| } |
| } |
| |
| node.children |
| .borrow() |
| .iter() |
| .filter_map(|node| find_accordion(node)) |
| .next() |
| } |
| |
| #[derive(PartialEq)] |
| struct Intrinsic { |
| name: String, |
| ret: Option<Type>, |
| arguments: Vec<(Type, bool)>, |
| instruction: String, |
| } |
| |
| fn parse_intrinsics(node: &Rc<Node>) -> HashMap<String, Intrinsic> { |
| let mut ret = HashMap::new(); |
| for child in node.children.borrow().iter() { |
| if let NodeData::Element { .. } = child.data { |
| let f = parse_intrinsic(child); |
| ret.insert(f.name.clone(), f); |
| } |
| } |
| return ret; |
| } |
| |
| fn parse_intrinsic(node: &Rc<Node>) -> Intrinsic { |
| // <div class='intrinsic'> |
| // <input>...</input> |
| // <label for=$name> |
| // <div> |
| // $signature... |
| // <article> |
| // ... |
| |
| let children = node.children.borrow(); |
| let mut children = children.iter().filter(|node| match node.data { |
| NodeData::Element { .. } => true, |
| _ => false, |
| }); |
| let _input = children.next().expect("no <input>"); |
| let label = children.next().expect("no <label>"); |
| let article = children.next().expect("no <article>"); |
| assert!(children.next().is_none()); |
| |
| // Find `for="..."` in `<label>` |
| let name = match &label.data { |
| NodeData::Element { attrs, .. } => attrs |
| .borrow() |
| .iter() |
| .filter(|attr| attr.name.local.eq_str_ignore_ascii_case("for")) |
| .map(|attr| attr.value.to_string()) |
| .next() |
| .expect("no `for` attribute"), |
| _ => panic!(), |
| }; |
| |
| // Find contents of inner `<div>` in `<label>` |
| let label_children = label.children.borrow(); |
| let mut label_children = label_children.iter().filter(|node| match node.data { |
| NodeData::Element { .. } => true, |
| _ => false, |
| }); |
| let label_div = label_children.next().expect("no <div> in <label>"); |
| assert!(label_children.next().is_none()); |
| let text = label_div.children.borrow(); |
| let mut text = text.iter().filter_map(|node| match &node.data { |
| NodeData::Text { contents } => Some(contents.borrow().to_string()), |
| _ => None, |
| }); |
| let ret = text.next().unwrap(); |
| let ret = ret.trim(); |
| let args = text.next().unwrap(); |
| let args = args.trim(); |
| assert!(text.next().is_none()); |
| |
| // Find the instruction within the article |
| let article_children = article.children.borrow(); |
| let mut article_children = article_children.iter().filter(|node| match node.data { |
| NodeData::Element { .. } => true, |
| _ => false, |
| }); |
| let mut instruction = None; |
| while let Some(child) = article_children.next() { |
| let mut header = String::new(); |
| collect_text(&mut header, child); |
| if !header.ends_with(" Instruction") { |
| continue; |
| } |
| let next = article_children.next().expect("no next child"); |
| assert!(instruction.is_none()); |
| let mut instr = String::new(); |
| collect_text(&mut instr, &next); |
| instruction = Some(instr); |
| } |
| |
| let instruction = match instruction { |
| Some(s) => s.trim().to_lowercase(), |
| None => panic!("can't find instruction for `{}`", name), |
| }; |
| |
| Intrinsic { |
| name, |
| ret: if ret == "void" { |
| None |
| } else { |
| Some(parse_ty(ret)) |
| }, |
| instruction, |
| arguments: args // "(...)" |
| .trim_start_matches("(") // "...)" |
| .trim_end_matches(")") // "..." |
| .split(",") // " Type name ", ".." |
| .map(|s| s.trim()) // "Type name" |
| .map(|s| s.rsplitn(2, ' ').nth(1).unwrap()) // "Type" |
| .map(|s| { |
| let const_ = "const "; |
| if s.starts_with(const_) { |
| (parse_ty(&s[const_.len()..]), true) |
| } else { |
| (parse_ty(s), false) |
| } |
| }) |
| .collect(), |
| } |
| } |
| |
| fn parse_ty(s: &str) -> Type { |
| let suffix = " const *"; |
| if s.ends_with(suffix) { |
| Type::ConstPtr(parse_ty_base(&s[..s.len() - suffix.len()])) |
| } else if s.ends_with(" *") { |
| Type::MutPtr(parse_ty_base(&s[..s.len() - 2])) |
| } else { |
| *parse_ty_base(s) |
| } |
| } |
| |
| fn parse_ty_base(s: &str) -> &'static Type { |
| match s { |
| "float16_t" => &F16, |
| "float16x4_t" => &F16X4, |
| "float16x4x2_t" => &F16X4X2, |
| "float16x4x3_t" => &F16X4X3, |
| "float16x4x4_t" => &F16X4X4, |
| "float16x8_t" => &F16X8, |
| "float16x8x2_t" => &F16X8X2, |
| "float16x8x3_t" => &F16X8X3, |
| "float16x8x4_t" => &F16X8X4, |
| "float32_t" => &F32, |
| "float32x2_t" => &F32X2, |
| "float32x2x2_t" => &F32X2X2, |
| "float32x2x3_t" => &F32X2X3, |
| "float32x2x4_t" => &F32X2X4, |
| "float32x4_t" => &F32X4, |
| "float32x4x2_t" => &F32X4X2, |
| "float32x4x3_t" => &F32X4X3, |
| "float32x4x4_t" => &F32X4X4, |
| "float64_t" => &F64, |
| "float64x1_t" => &F64X1, |
| "float64x1x2_t" => &F64X1X2, |
| "float64x1x3_t" => &F64X1X3, |
| "float64x1x4_t" => &F64X1X4, |
| "float64x2_t" => &F64X2, |
| "float64x2x2_t" => &F64X2X2, |
| "float64x2x3_t" => &F64X2X3, |
| "float64x2x4_t" => &F64X2X4, |
| "int16_t" => &I16, |
| "int16x2_t" => &I16X2, |
| "int16x4_t" => &I16X4, |
| "int16x4x2_t" => &I16X4X2, |
| "int16x4x3_t" => &I16X4X3, |
| "int16x4x4_t" => &I16X4X4, |
| "int16x8_t" => &I16X8, |
| "int16x8x2_t" => &I16X8X2, |
| "int16x8x3_t" => &I16X8X3, |
| "int16x8x4_t" => &I16X8X4, |
| "int32_t" | "int" => &I32, |
| "int32x2_t" => &I32X2, |
| "int32x2x2_t" => &I32X2X2, |
| "int32x2x3_t" => &I32X2X3, |
| "int32x2x4_t" => &I32X2X4, |
| "int32x4_t" => &I32X4, |
| "int32x4x2_t" => &I32X4X2, |
| "int32x4x3_t" => &I32X4X3, |
| "int32x4x4_t" => &I32X4X4, |
| "int64_t" => &I64, |
| "int64x1_t" => &I64X1, |
| "int64x1x2_t" => &I64X1X2, |
| "int64x1x3_t" => &I64X1X3, |
| "int64x1x4_t" => &I64X1X4, |
| "int64x2_t" => &I64X2, |
| "int64x2x2_t" => &I64X2X2, |
| "int64x2x3_t" => &I64X2X3, |
| "int64x2x4_t" => &I64X2X4, |
| "int8_t" => &I8, |
| "int8x16_t" => &I8X16, |
| "int8x16x2_t" => &I8X16X2, |
| "int8x16x3_t" => &I8X16X3, |
| "int8x16x4_t" => &I8X16X4, |
| "int8x4_t" => &I8X4, |
| "int8x8_t" => &I8X8, |
| "int8x8x2_t" => &I8X8X2, |
| "int8x8x3_t" => &I8X8X3, |
| "int8x8x4_t" => &I8X8X4, |
| "poly128_t" => &P128, |
| "poly16_t" => &P16, |
| "poly16x4_t" => &POLY16X4, |
| "poly16x4x2_t" => &P16X4X2, |
| "poly16x4x3_t" => &P16X4X3, |
| "poly16x4x4_t" => &P16X4X4, |
| "poly16x8_t" => &POLY16X8, |
| "poly16x8x2_t" => &P16X8X2, |
| "poly16x8x3_t" => &P16X8X3, |
| "poly16x8x4_t" => &P16X8X4, |
| "poly64_t" => &P64, |
| "poly64x1_t" => &POLY64X1, |
| "poly64x1x2_t" => &P64X1X2, |
| "poly64x1x3_t" => &P64X1X3, |
| "poly64x1x4_t" => &P64X1X4, |
| "poly64x2_t" => &POLY64X2, |
| "poly64x2x2_t" => &P64X2X2, |
| "poly64x2x3_t" => &P64X2X3, |
| "poly64x2x4_t" => &P64X2X4, |
| "poly8_t" => &P8, |
| "poly8x16_t" => &POLY8X16, |
| "poly8x16x2_t" => &POLY8X16X2, |
| "poly8x16x3_t" => &POLY8X16X3, |
| "poly8x16x4_t" => &POLY8X16X4, |
| "poly8x8_t" => &POLY8X8, |
| "poly8x8x2_t" => &POLY8X8X2, |
| "poly8x8x3_t" => &POLY8X8X3, |
| "poly8x8x4_t" => &POLY8X8X4, |
| "uint16_t" => &U16, |
| "uint16x4_t" => &U16X4, |
| "uint16x4x2_t" => &U16X4X2, |
| "uint16x4x3_t" => &U16X4X3, |
| "uint16x4x4_t" => &U16X4X4, |
| "uint16x8_t" => &U16X8, |
| "uint16x8x2_t" => &U16X8X2, |
| "uint16x8x3_t" => &U16X8X3, |
| "uint16x8x4_t" => &U16X8X4, |
| "uint32_t" => &U32, |
| "uint32x2_t" => &U32X2, |
| "uint32x2x2_t" => &U32X2X2, |
| "uint32x2x3_t" => &U32X2X3, |
| "uint32x2x4_t" => &U32X2X4, |
| "uint32x4_t" => &U32X4, |
| "uint32x4x2_t" => &U32X4X2, |
| "uint32x4x3_t" => &U32X4X3, |
| "uint32x4x4_t" => &U32X4X4, |
| "uint64_t" => &U64, |
| "uint64x1_t" => &U64X1, |
| "uint64x1x2_t" => &U64X1X2, |
| "uint64x1x3_t" => &U64X1X3, |
| "uint64x1x4_t" => &U64X1X4, |
| "uint64x2_t" => &U64X2, |
| "uint64x2x2_t" => &U64X2X2, |
| "uint64x2x3_t" => &U64X2X3, |
| "uint64x2x4_t" => &U64X2X4, |
| "uint8_t" => &U8, |
| "uint8x16_t" => &U8X16, |
| "uint8x16x2_t" => &U8X16X2, |
| "uint8x16x3_t" => &U8X16X3, |
| "uint8x16x4_t" => &U8X16X4, |
| "uint8x8_t" => &U8X8, |
| "uint8x8x2_t" => &U8X8X2, |
| "uint8x8x3_t" => &U8X8X3, |
| "uint8x8x4_t" => &U8X8X4, |
| |
| _ => panic!("failed to parse html type {:?}", s), |
| } |
| } |
| |
| fn collect_text(s: &mut String, node: &Node) { |
| if let NodeData::Text { contents } = &node.data { |
| s.push_str(" "); |
| s.push_str(&contents.borrow().to_string()); |
| } |
| for child in node.children.borrow().iter() { |
| collect_text(s, child); |
| } |
| } |