use crate::component::WastVal; use crate::core::{WastArgCore, WastRetCore}; use crate::kw; use crate::parser::{self, Cursor, Parse, ParseBuffer, Parser, Peek, Result}; use crate::token::{Id, Span}; use crate::{Error, Wat}; /// A parsed representation of a `*.wast` file. /// /// WAST files are not officially specified but are used in the official test /// suite to write official spec tests for wasm. This type represents a parsed /// `*.wast` file which parses a list of directives in a file. #[derive(Debug)] pub struct Wast<'a> { #[allow(missing_docs)] pub directives: Vec>, } impl<'a> Parse<'a> for Wast<'a> { fn parse(parser: Parser<'a>) -> Result { let mut directives = Vec::new(); // If it looks like a directive token is in the stream then we parse a // bunch of directives, otherwise assume this is an inline module. if parser.peek2::() { while !parser.is_empty() { directives.push(parser.parens(|p| p.parse())?); } } else { let module = parser.parse::()?; directives.push(WastDirective::Wat(QuoteWat::Wat(module))); } Ok(Wast { directives }) } } struct WastDirectiveToken; impl Peek for WastDirectiveToken { fn peek(cursor: Cursor<'_>) -> bool { let kw = match cursor.keyword() { Some((kw, _)) => kw, None => return false, }; kw.starts_with("assert_") || kw == "module" || kw == "component" || kw == "register" || kw == "invoke" } fn display() -> &'static str { unimplemented!() } } /// The different kinds of directives found in a `*.wast` file. /// /// It's not entirely clear to me what all of these are per se, but they're only /// really interesting to test harnesses mostly. #[allow(missing_docs)] #[derive(Debug)] pub enum WastDirective<'a> { Wat(QuoteWat<'a>), AssertMalformed { span: Span, module: QuoteWat<'a>, message: &'a str, }, AssertInvalid { span: Span, module: QuoteWat<'a>, message: &'a str, }, Register { span: Span, name: &'a str, module: Option>, }, Invoke(WastInvoke<'a>), AssertTrap { span: Span, exec: WastExecute<'a>, message: &'a str, }, AssertReturn { span: Span, exec: WastExecute<'a>, results: Vec>, }, AssertExhaustion { span: Span, call: WastInvoke<'a>, message: &'a str, }, AssertUnlinkable { span: Span, module: Wat<'a>, message: &'a str, }, AssertException { span: Span, exec: WastExecute<'a>, }, } impl WastDirective<'_> { /// Returns the location in the source that this directive was defined at pub fn span(&self) -> Span { match self { WastDirective::Wat(QuoteWat::Wat(Wat::Module(m))) => m.span, WastDirective::Wat(QuoteWat::Wat(Wat::Component(c))) => c.span, WastDirective::Wat(QuoteWat::QuoteModule(span, _)) => *span, WastDirective::Wat(QuoteWat::QuoteComponent(span, _)) => *span, WastDirective::AssertMalformed { span, .. } | WastDirective::Register { span, .. } | WastDirective::AssertTrap { span, .. } | WastDirective::AssertReturn { span, .. } | WastDirective::AssertExhaustion { span, .. } | WastDirective::AssertUnlinkable { span, .. } | WastDirective::AssertInvalid { span, .. } | WastDirective::AssertException { span, .. } => *span, WastDirective::Invoke(i) => i.span, } } } impl<'a> Parse<'a> for WastDirective<'a> { fn parse(parser: Parser<'a>) -> Result { let mut l = parser.lookahead1(); if l.peek::() || l.peek::() { Ok(WastDirective::Wat(parser.parse()?)) } else if l.peek::() { let span = parser.parse::()?.0; Ok(WastDirective::AssertMalformed { span, module: parser.parens(|p| p.parse())?, message: parser.parse()?, }) } else if l.peek::() { let span = parser.parse::()?.0; Ok(WastDirective::AssertInvalid { span, module: parser.parens(|p| p.parse())?, message: parser.parse()?, }) } else if l.peek::() { let span = parser.parse::()?.0; Ok(WastDirective::Register { span, name: parser.parse()?, module: parser.parse()?, }) } else if l.peek::() { Ok(WastDirective::Invoke(parser.parse()?)) } else if l.peek::() { let span = parser.parse::()?.0; Ok(WastDirective::AssertTrap { span, exec: parser.parens(|p| p.parse())?, message: parser.parse()?, }) } else if l.peek::() { let span = parser.parse::()?.0; let exec = parser.parens(|p| p.parse())?; let mut results = Vec::new(); while !parser.is_empty() { results.push(parser.parens(|p| p.parse())?); } Ok(WastDirective::AssertReturn { span, exec, results, }) } else if l.peek::() { let span = parser.parse::()?.0; Ok(WastDirective::AssertExhaustion { span, call: parser.parens(|p| p.parse())?, message: parser.parse()?, }) } else if l.peek::() { let span = parser.parse::()?.0; Ok(WastDirective::AssertUnlinkable { span, module: parser.parens(parse_wat)?, message: parser.parse()?, }) } else if l.peek::() { let span = parser.parse::()?.0; Ok(WastDirective::AssertException { span, exec: parser.parens(|p| p.parse())?, }) } else { Err(l.error()) } } } #[allow(missing_docs)] #[derive(Debug)] pub enum WastExecute<'a> { Invoke(WastInvoke<'a>), Wat(Wat<'a>), Get { module: Option>, global: &'a str, }, } impl<'a> Parse<'a> for WastExecute<'a> { fn parse(parser: Parser<'a>) -> Result { let mut l = parser.lookahead1(); if l.peek::() { Ok(WastExecute::Invoke(parser.parse()?)) } else if l.peek::() || l.peek::() { Ok(WastExecute::Wat(parse_wat(parser)?)) } else if l.peek::() { parser.parse::()?; Ok(WastExecute::Get { module: parser.parse()?, global: parser.parse()?, }) } else { Err(l.error()) } } } fn parse_wat(parser: Parser) -> Result { // Note that this doesn't use `Parse for Wat` since the `parser` provided // has already peeled back the first layer of parentheses while `Parse for // Wat` expects to be the top layer which means it also tries to peel off // the parens. Instead we can skip the sugar that `Wat` has for simply a // list of fields (no `(module ...)` container) and just parse the `Module` // itself. if parser.peek::() { Ok(Wat::Component(parser.parse()?)) } else { Ok(Wat::Module(parser.parse()?)) } } #[allow(missing_docs)] #[derive(Debug)] pub struct WastInvoke<'a> { pub span: Span, pub module: Option>, pub name: &'a str, pub args: Vec>, } impl<'a> Parse<'a> for WastInvoke<'a> { fn parse(parser: Parser<'a>) -> Result { let span = parser.parse::()?.0; let module = parser.parse()?; let name = parser.parse()?; let mut args = Vec::new(); while !parser.is_empty() { args.push(parser.parens(|p| p.parse())?); } Ok(WastInvoke { span, module, name, args, }) } } #[allow(missing_docs)] #[derive(Debug)] pub enum QuoteWat<'a> { Wat(Wat<'a>), QuoteModule(Span, Vec<(Span, &'a [u8])>), QuoteComponent(Span, Vec<(Span, &'a [u8])>), } impl QuoteWat<'_> { /// Encodes this module to bytes, either by encoding the module directly or /// parsing the contents and then encoding it. pub fn encode(&mut self) -> Result, Error> { let (source, prefix) = match self { QuoteWat::Wat(m) => return m.encode(), QuoteWat::QuoteModule(_, source) => (source, None), QuoteWat::QuoteComponent(_, source) => (source, Some("(component")), }; let mut ret = String::new(); for (span, src) in source { match std::str::from_utf8(src) { Ok(s) => ret.push_str(s), Err(_) => { return Err(Error::new(*span, "malformed UTF-8 encoding".to_string())); } } ret.push(' '); } if let Some(prefix) = prefix { ret.insert_str(0, prefix); ret.push(')'); } let buf = ParseBuffer::new(&ret)?; let mut wat = parser::parse::>(&buf)?; wat.encode() } } impl<'a> Parse<'a> for QuoteWat<'a> { fn parse(parser: Parser<'a>) -> Result { if parser.peek2::() { let ctor = if parser.peek::() { parser.parse::()?; QuoteWat::QuoteComponent } else { parser.parse::()?; QuoteWat::QuoteModule }; let span = parser.parse::()?.0; let mut src = Vec::new(); while !parser.is_empty() { let span = parser.cur_span(); let string = parser.parse()?; src.push((span, string)); } Ok(ctor(span, src)) } else { Ok(QuoteWat::Wat(parse_wat(parser)?)) } } } #[derive(Debug)] #[allow(missing_docs)] pub enum WastArg<'a> { Core(WastArgCore<'a>), Component(WastVal<'a>), } impl<'a> Parse<'a> for WastArg<'a> { fn parse(parser: Parser<'a>) -> Result { if parser.peek::>() { Ok(WastArg::Core(parser.parse()?)) } else { Ok(WastArg::Component(parser.parse()?)) } } } #[derive(Debug)] #[allow(missing_docs)] pub enum WastRet<'a> { Core(WastRetCore<'a>), Component(WastVal<'a>), } impl<'a> Parse<'a> for WastRet<'a> { fn parse(parser: Parser<'a>) -> Result { if parser.peek::>() { Ok(WastRet::Core(parser.parse()?)) } else { Ok(WastRet::Component(parser.parse()?)) } } }