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feat(trixy-lang_parser): Add type checking (2nd stage parsing)

This commit is contained in:
Benedikt Peetz 2023-12-22 14:57:39 +01:00
parent 370aac4395
commit 3503e5250c
Signed by: bpeetz
GPG Key ID: A5E94010C3A642AD
16 changed files with 815 additions and 208 deletions

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@ -0,0 +1,10 @@
struct Callback {
func: Function,
timeout: Integer,
};
fn execute_callback(callback: Name);
// That's a flat out lie, but it results in a rather nice syntax highlight compared to nothing:
// vim: syntax=rust

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@ -2,7 +2,7 @@
// HACK(@soispha): The stdlib Lua `print()` function has stdout as output hardcoded, // HACK(@soispha): The stdlib Lua `print()` function has stdout as output hardcoded,
// redirecting stdout seems too much like a hack thus we are just redefining the print function // redirecting stdout seems too much like a hack thus we are just redefining the print function
// to output to a controlled output. <2023-09-09> // to output to a controlled output. <2023-09-09>
fn print(input: CommandTransferValue); //fn print(input: CommandTransferValue);
nasp trinitrix { nasp trinitrix {
/// Language specific functions, which mirror the `trinitrix.api` namespace. /// Language specific functions, which mirror the `trinitrix.api` namespace.
@ -14,11 +14,21 @@ nasp trinitrix {
/// Debug only functions, these are effectively useless /// Debug only functions, these are effectively useless
nasp debug { nasp debug {
enum UserGreet {
Friendly,
Angrily,
Hastly
};
struct GreetedUser {
names: Vec<String>,
new: GreetedUser,
state: UserGreet
};
/// Greets the user /// Greets the user
fn greet(input: String) -> String; fn greet(input: String) -> String;
/// Returns a table of greeted users /// Returns a table of greeted users
fn greet_multiple() -> Table; fn greet_multiple() -> GreetedUser;
} }
/// General API to change stuff in Trinitrix /// General API to change stuff in Trinitrix

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@ -1,29 +1,92 @@
//! This module contains the already type checked types. //! This module contains the already type checked types.
//!
//!
use crate::lexing::{Keyword, TokenKind}; use std::fmt::Display;
pub enum PrimitiveTypes {
String, use crate::lexing::TokenKind;
/// Nothing
Void, /// These are the "primitive" types used in trixy, you can use any of them to create new structures
pub const BASE_TYPES: [ConstIdentifier; 8] = [
Identifier::from("Integer"),
Identifier::from("Float"),
Identifier::from("Decimal"),
Identifier::from("String"),
Identifier::from("Function"),
Identifier::from("Option"),
Identifier::from("Result"),
Identifier::from("Vec"),
];
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)]
pub struct Namespace {
pub name: Identifier,
pub functions: Vec<Function>,
pub structures: Vec<Structure>,
pub enumerations: Vec<Enumeration>,
pub namespaces: Vec<Namespace>,
}
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)]
pub struct CommandSpec {
pub structures: Vec<Structure>,
pub enumerations: Vec<Enumeration>,
pub functions: Vec<Function>,
pub namespaces: Vec<Namespace>,
}
impl From<Namespace> for CommandSpec {
fn from(value: Namespace) -> Self {
Self {
structures: value.structures,
enumerations: value.enumerations,
functions: value.functions,
namespaces: value.namespaces,
}
}
}
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)]
pub struct Structure {
pub identifier: Identifier,
pub contents: Vec<NamedType>,
}
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)]
pub struct Enumeration {
pub identifier: Identifier,
pub states: Vec<Identifier>,
}
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)]
pub struct Function {
pub identifier: Identifier,
pub inputs: Vec<NamedType>,
pub output: Option<Type>,
}
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)]
pub struct Type {
pub identifier: Identifier,
pub generic_args: Vec<Type>,
}
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)]
pub struct NamedType {
pub name: Identifier,
pub r#type: Type,
} }
impl From<TokenKind> for Identifier { impl From<TokenKind> for Identifier {
fn from(value: TokenKind) -> Self { fn from(value: TokenKind) -> Self {
match value { match value {
TokenKind::Identifier(ident) => Identifier(ident), TokenKind::Identifier(ident) => Identifier { name: ident },
TokenKind::Keyword(_) _ => {
| TokenKind::Colon panic!(
| TokenKind::Semicolon "Tried to convert a non Identifier TokenKind to a Identefier. This is a bug
| TokenKind::Comma Token was: '{}'
| TokenKind::Arrow ",
| TokenKind::BraceOpen value
| TokenKind::BraceClose )
| TokenKind::ParenOpen
| TokenKind::Dummy
| TokenKind::ParenClose => {
panic!("Tried to convert a non Identifier TokenKind to a Identefier. This is a bug")
} }
} }
} }
@ -34,25 +97,26 @@ impl From<TokenKind> for Identifier {
/// - Variable names /// - Variable names
/// - Function names /// - Function names
/// - Namespace names /// - Namespace names
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] /// - Type names
pub struct Identifier(String); #[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Clone)]
pub struct Identifier {
pub name: String,
}
impl From<TokenKind> for Keyword { /// A const version of [Identifier]
fn from(value: TokenKind) -> Self { #[derive(Debug, PartialEq, Eq, PartialOrd, Ord)]
match value { pub struct ConstIdentifier {
TokenKind::Keyword(keyword) => keyword, pub name: &'static str,
TokenKind::Identifier(_) }
| TokenKind::Colon
| TokenKind::Semicolon impl Display for Identifier {
| TokenKind::Comma fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
| TokenKind::Arrow f.write_str(&self.name)
| TokenKind::BraceOpen }
| TokenKind::BraceClose }
| TokenKind::ParenOpen
| TokenKind::Dummy impl Identifier {
| TokenKind::ParenClose => { const fn from(value: &'static str) -> ConstIdentifier {
panic!("Tried to convert a non Keyword TokenKind to a Keyword. This is a bug") ConstIdentifier { name: value }
}
}
} }
} }

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@ -1,2 +1,2 @@
// pub mod checked; pub mod checked;
pub mod unchecked; pub mod unchecked;

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@ -2,82 +2,101 @@
//! These are generated on the first pass of the parser, to be later converted into the checked //! These are generated on the first pass of the parser, to be later converted into the checked
//! ones. //! ones.
use std::fmt::{Display, Write};
use crate::lexing::Token; use crate::lexing::Token;
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] #[derive(Debug, Default, PartialEq, Eq, PartialOrd, Ord)]
pub struct CommandSpec { pub struct CommandSpec {
pub declarations: Vec<Declaration>, pub structures: Vec<Structure>,
pub enumerations: Vec<Enumeration>,
pub functions: Vec<Function>,
pub namespaces: Vec<Namespace>,
} }
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] impl From<CommandSpec> for Namespace {
pub struct Declaration { fn from(value: CommandSpec) -> Self {
pub namespace: Vec<Token>, // Will later be turned into Namespace Self {
pub genus: Genus, name: Token::get_dummy(),
} functions: value.functions,
structures: value.structures,
impl Declaration { enumerations: value.enumerations,
pub fn new_function(function: Function, namespace: Vec<Token>) -> Self { namespaces: value.namespaces,
Declaration {
namespace,
genus: Genus::Function(function),
}
}
pub fn new_structure(structure: Structure, namespace: Vec<Token>) -> Self {
Declaration {
namespace,
genus: Genus::Structure(structure),
}
}
pub fn new_enumeration(r#enum: Enumeration, namespace: Vec<Token>) -> Self {
Declaration {
namespace,
genus: Genus::Enumeration(r#enum),
} }
} }
} }
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] #[derive(Debug, Default, PartialEq, Eq, PartialOrd, Ord, Clone)]
pub struct Namespace { pub struct Namespace {
pub name: Token, // Will later become an Identifier pub name: Token, // Will later become an Identifier
pub functions: Vec<Function>,
pub structures: Vec<Structure>,
pub enumerations: Vec<Enumeration>,
pub namespaces: Vec<Namespace>,
} }
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] #[derive(Debug, PartialEq, Eq, PartialOrd, Ord)]
pub enum Genus { pub enum Declaration {
/// Not actually a genus, but used in parsing to accommodate multiple errors
Dummy,
/// A function
Function(Function), Function(Function),
Structure(Structure), Structure(Structure),
Enumeration(Enumeration), Enumeration(Enumeration),
Namespace(Namespace),
} }
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] #[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Clone)]
pub struct Function { pub struct Function {
pub identifier: Token, // Will later become an Identifier pub identifier: Token, // Will later become an Identifier
pub inputs: Vec<NamedType>, pub inputs: Vec<NamedType>,
pub output: Option<Type>, pub output: Option<Type>,
} }
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] #[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Clone)]
pub struct Structure { pub struct Structure {
pub identifier: Token, // Will later become an Identifier pub identifier: Token, // Will later become an Identifier
pub contents: Vec<NamedType>, pub contents: Vec<NamedType>,
} }
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] #[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Clone)]
pub struct Enumeration { pub struct Enumeration {
pub identifier: Token, // Will later become an Identifier pub identifier: Token, // Will later become an Identifier
pub states: Vec<Token>, // Will later become an Identifier pub states: Vec<Token>, // Will later become an Identifier
} }
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] #[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Clone)]
pub struct NamedType { pub struct NamedType {
pub name: Token, // Will later become an Identifier pub name: Token, // Will later become an Identifier
pub r#type: Type, pub r#type: Type,
} }
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] #[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Clone)]
pub struct Type { pub struct Type {
pub identifier: Token, // Will later become an Identifier pub identifier: Token, // Will later become an Identifier
pub generic_args: Vec<Type>, pub generic_args: Vec<Type>,
} }
impl Display for Type {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let ident = match self.identifier.kind() {
crate::lexing::TokenKind::Identifier(ident) => ident,
_ => panic!("Tried to display a non identifier token in the Type display implementation. This is a bug"),
};
f.write_str(ident)?;
if !self.generic_args.is_empty() {
f.write_char('<')?;
let mut first_run = true;
for arg in &self.generic_args {
if !first_run {
f.write_str(", ")?;
} else {
first_run = false;
}
write!(f, "{}", arg)?;
}
f.write_char('>')
} else {
f.write_str("")
}
}
}

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@ -11,7 +11,7 @@ pub enum TrixyError {
} }
/// The context of an Error. /// The context of an Error.
#[derive(Debug)] #[derive(Debug, Clone)]
pub struct ErrorContext { pub struct ErrorContext {
/// The span of the error in the source file /// The span of the error in the source file
pub span: TokenSpan, pub span: TokenSpan,

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@ -72,7 +72,7 @@ impl TokenStream {
/// } /// }
/// ``` /// ```
/// signals, that the token starts at the 20th char in the source file and ends on the 23rd. /// signals, that the token starts at the 20th char in the source file and ends on the 23rd.
#[derive(Debug, PartialEq, PartialOrd, Ord, Eq, Clone, Copy)] #[derive(Debug, Default, PartialEq, PartialOrd, Ord, Eq, Clone, Copy)]
pub struct TokenSpan { pub struct TokenSpan {
/// The start of the token span /// The start of the token span
pub start: usize, pub start: usize,
@ -81,7 +81,7 @@ pub struct TokenSpan {
} }
/// A Token /// A Token
#[derive(Debug, PartialEq, PartialOrd, Ord, Eq, Clone)] #[derive(Debug, Default, PartialEq, PartialOrd, Ord, Eq, Clone)]
pub struct Token { pub struct Token {
/// The token's original location in the source file /// The token's original location in the source file
pub span: TokenSpan, pub span: TokenSpan,
@ -109,7 +109,7 @@ impl Token {
} }
/// Possibly kinds of tokens /// Possibly kinds of tokens
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Clone)] #[derive(Debug, Default, PartialEq, Eq, PartialOrd, Ord, Clone)]
pub enum TokenKind { pub enum TokenKind {
Keyword(Keyword), Keyword(Keyword),
Identifier(String), Identifier(String),
@ -124,6 +124,7 @@ pub enum TokenKind {
SquareOpen, SquareOpen,
SquareClose, SquareClose,
/// This is not a real TokenKind, but only used for error handling /// This is not a real TokenKind, but only used for error handling
#[default]
Dummy, Dummy,
} }

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@ -23,11 +23,18 @@ pub enum Command {
/// The file containing the trixy code to tokenize /// The file containing the trixy code to tokenize
file: PathBuf, file: PathBuf,
}, },
/// Check syntax, without type checking
Parse { Parse {
#[clap(value_parser)] #[clap(value_parser)]
/// The file containing the trixy code to parse /// The file containing the trixy code to parse
file: PathBuf, file: PathBuf,
}, },
/// Type check
Process {
#[clap(value_parser)]
/// The file containing the trixy code to process
file: PathBuf,
},
} }
pub fn main() { pub fn main() {
@ -68,5 +75,36 @@ pub fn main() {
}; };
println!("{:#?}", parsed); println!("{:#?}", parsed);
} }
Command::Process { file } => {
let input = fs::read_to_string(file).unwrap();
let input_tokens = match TokenStream::lex(&input) {
Ok(ok) => ok,
Err(err) => {
eprintln!("Error while tokenizing:");
eprintln!("{}", err);
exit(1);
}
};
let parsed = match input_tokens.parse_unchecked() {
Ok(ok) => ok,
Err(err) => {
eprintln!("Error while doing the first (unchecked) parsing run:");
eprintln!("{}", err);
exit(1)
}
};
let processed = match parsed.process(input) {
Ok(ok) => ok,
Err(err) => {
eprintln!("Error while doing the seconde (checked) parsing run:");
eprintln!("{}", err);
exit(1)
}
};
println!("{:#?}", processed);
},
} }
} }

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@ -0,0 +1,82 @@
use thiserror::Error;
use std::{error::Error, fmt::Display};
use crate::{
command_spec::checked::Identifier,
error::{AdditionalHelp, ErrorContext, ErrorContextDisplay},
lexing::TokenSpan,
parsing::unchecked::error::SpannedParsingError as OldSpannedParsingError,
};
#[derive(Error, Debug)]
pub enum ParsingError {
#[error("The type ('{r#type}') was not declared before!")]
TypeNotDeclared { r#type: Identifier, span: TokenSpan },
#[error(transparent)]
PreParseError(#[from] OldSpannedParsingError),
}
impl ParsingError {
pub fn span(&self) -> &TokenSpan {
match self {
ParsingError::TypeNotDeclared { span, .. } => span,
ParsingError::PreParseError(err) => err.source.span(),
}
}
}
impl AdditionalHelp for ParsingError {
fn additional_help(&self) -> String {
match self {
ParsingError::TypeNotDeclared { .. } => "This type should have been mentioned in the namespaces above, or in the namespace of this type usage".to_owned(),
ParsingError::PreParseError(err) => ErrorContextDisplay::source(err).additional_help(),
}
}
}
#[derive(Debug)]
pub struct SpannedParsingError {
pub source: ParsingError,
pub context: ErrorContext,
}
impl Error for SpannedParsingError {
fn source(&self) -> Option<&(dyn Error + 'static)> {
Some(&self.source)
}
}
impl Display for SpannedParsingError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
self.error_fmt(f)
}
}
impl ErrorContextDisplay for SpannedParsingError {
type Error = ParsingError;
fn context(&self) -> &crate::error::ErrorContext {
&self.context
}
fn line_number(&self) -> usize {
self.context.line_number
}
fn line_above(&self) -> &str {
&self.context.line_above
}
fn line_below(&self) -> &str {
&self.context.line_below
}
fn line(&self) -> &str {
&self.context.line
}
fn source(&self) -> &<SpannedParsingError as ErrorContextDisplay>::Error {
&self.source
}
}

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@ -0,0 +1,230 @@
use std::mem;
use crate::{
command_spec::{
checked::{
CommandSpec, Enumeration, Function, Identifier, NamedType, Namespace, Structure, Type,
BASE_TYPES,
},
unchecked::{
CommandSpec as UncheckedCommandSpec, Enumeration as UncheckedEnumeration,
Function as UncheckedFunction, NamedType as UncheckedNamedType,
Namespace as UncheckedNamespace, Structure as UncheckedStructure,
Type as UncheckedType,
},
},
error::ErrorContext,
lexing::{TokenKind, TokenStream},
};
use self::error::{ParsingError, SpannedParsingError};
mod error;
#[cfg(test)]
mod test;
struct Parser {
command_spec: UncheckedCommandSpec,
structures: Vec<UncheckedStructure>,
enumerations: Vec<UncheckedEnumeration>,
original_file: String,
}
impl TokenStream {
pub fn parse(mut self) -> Result<CommandSpec, SpannedParsingError> {
let original_file = mem::take(&mut self.original_file);
let unchecked = self.parse_unchecked().map_err(|err| {
let span = *err.source.span();
SpannedParsingError {
source: ParsingError::from(err),
context: ErrorContext::from_span(span, &original_file),
}
})?;
let checked = Parser {
command_spec: unchecked,
structures: vec![],
enumerations: vec![],
original_file,
}
.parse()?;
Ok(checked)
}
}
impl UncheckedCommandSpec {
pub fn process(self, original_file: String) -> Result<CommandSpec, SpannedParsingError> {
let checked = Parser {
command_spec: self,
structures: vec![],
enumerations: vec![],
original_file,
}
.parse()?;
Ok(checked)
}
}
impl Parser {
fn parse(mut self) -> Result<CommandSpec, SpannedParsingError> {
let namespace: UncheckedNamespace =
UncheckedNamespace::from(mem::take(&mut self.command_spec));
let namespace = self.process_namespace(namespace).map_err(|err| {
let span = *err.span();
SpannedParsingError {
source: err,
context: ErrorContext::from_span(span, &self.original_file),
}
})?;
Ok(namespace.into())
}
fn process_namespace(
&mut self,
namespace: UncheckedNamespace,
) -> Result<Namespace, ParsingError> {
let name = match namespace.name.kind {
TokenKind::Identifier(ident) => Identifier { name: ident },
// This is not really used, so the value put here does not matter
TokenKind::Dummy => Identifier {
name: "".to_owned(),
},
_ => unreachable!("This should never be more than these two enum veriants"),
};
let mut enumerations = vec![];
let mut enumerations_counter = 0;
for enumeration in namespace.enumerations {
enumerations.push(self.process_enumeration(enumeration)?);
enumerations_counter += 1;
}
let mut structures = vec![];
let mut structures_counter = 0;
for structure in namespace.structures {
structures.push(self.process_structure(structure)?);
structures_counter += 1;
}
let mut functions = vec![];
for function in namespace.functions {
functions.push(self.process_function(function)?);
}
let mut namespaces = vec![];
for namespace in namespace.namespaces {
namespaces.push(self.process_namespace(namespace)?);
}
// Remove added enums and structs again
(0..structures_counter).for_each(|_| {
self.structures.pop();
});
(0..enumerations_counter).for_each(|_| {
self.enumerations.pop();
});
Ok(Namespace {
name,
functions,
structures,
enumerations,
namespaces,
})
}
fn process_function(
&mut self,
mut function: UncheckedFunction,
) -> Result<Function, ParsingError> {
let identifier = mem::take(&mut function.identifier.kind).into();
let mut inputs = vec![];
for input in function.inputs {
inputs.push(self.process_named_type(input)?);
}
let output = if let Some(r#type) = function.output {
Some(self.process_type(r#type)?)
} else {
None
};
Ok(Function {
identifier,
inputs,
output,
})
}
fn process_enumeration(
&mut self,
mut enumeration: UncheckedEnumeration,
) -> Result<Enumeration, ParsingError> {
self.enumerations.push(enumeration.clone());
let identifier = mem::take(&mut enumeration.identifier.kind).into();
let mut states = vec![];
for mut state in enumeration.states {
states.push(mem::take(&mut state.kind).into())
}
Ok(Enumeration { identifier, states })
}
fn process_structure(
&mut self,
mut structure: UncheckedStructure,
) -> Result<Structure, ParsingError> {
self.structures.push(structure.clone());
let identifier: Identifier = mem::take(&mut structure.identifier.kind).into();
let mut contents = vec![];
for named_type in structure.contents {
contents.push(self.process_named_type(named_type)?);
}
Ok(Structure {
identifier,
contents,
})
}
fn process_named_type(
&mut self,
mut named_type: UncheckedNamedType,
) -> Result<NamedType, ParsingError> {
let name: Identifier = mem::take(&mut named_type.name.kind).into();
let r#type: Type = self.process_type(named_type.r#type)?;
Ok(NamedType { name, r#type })
}
fn process_type(&mut self, mut r#type: UncheckedType) -> Result<Type, ParsingError> {
let identifier: Identifier = mem::take(&mut r#type.identifier.kind).into();
if !self
.structures
.iter()
.map(|r#struct| Into::<Identifier>::into(r#struct.identifier.kind.clone()))
.any(|ident| ident == identifier)
&& !self
.enumerations
.iter()
.map(|r#enum| Into::<Identifier>::into(r#enum.identifier.kind.clone()))
.any(|ident| ident == identifier)
&& !BASE_TYPES.iter().any(|ident| ident.name == identifier.name)
{
return Err(ParsingError::TypeNotDeclared {
r#type: identifier,
span: r#type.identifier.span,
});
}
let mut generic_args = vec![];
for generic_arg in r#type.generic_args {
generic_args.push(self.process_type(generic_arg)?);
}
Ok(Type {
identifier,
generic_args,
})
}
}

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@ -0,0 +1,134 @@
use crate::command_spec::checked::{
CommandSpec, Enumeration, Function, Identifier, NamedType, Namespace, Structure, Type,
};
use crate::lexing::TokenStream;
#[test]
fn test_full() {
let input = "nasp trinitrix {
struct Callback {
func: Function,
timeout: Integer,
};
enum CallbackPriority {
High,
Medium,
Low,
};
fn execute_callback(callback: Callback, priority: CallbackPriority);
}";
let output = TokenStream::lex(&input).unwrap().parse().unwrap();
let expected = CommandSpec {
structures: vec![],
enumerations: vec![],
functions: vec![],
namespaces: vec![Namespace {
name: Identifier {
name: "trinitrix".to_owned(),
},
functions: vec![Function {
identifier: Identifier {
name: "execute_callback".to_owned(),
},
inputs: vec![
NamedType {
name: Identifier {
name: "callback".to_owned(),
},
r#type: Type {
identifier: Identifier {
name: "Callback".to_owned(),
},
generic_args: vec![],
},
},
NamedType {
name: Identifier {
name: "priority".to_owned(),
},
r#type: Type {
identifier: Identifier {
name: "CallbackPriority".to_owned(),
},
generic_args: vec![],
},
},
],
output: None,
}],
structures: vec![Structure {
identifier: Identifier {
name: "Callback".to_owned(),
},
contents: vec![
NamedType {
name: Identifier {
name: "func".to_owned(),
},
r#type: Type {
identifier: Identifier {
name: "Function".to_owned(),
},
generic_args: vec![],
},
},
NamedType {
name: Identifier {
name: "timeout".to_owned(),
},
r#type: Type {
identifier: Identifier {
name: "Integer".to_owned(),
},
generic_args: vec![],
},
},
],
}],
enumerations: vec![Enumeration {
identifier: Identifier {
name: "CallbackPriority".to_owned(),
},
states: vec![
Identifier {
name: "High".to_owned(),
},
Identifier {
name: "Medium".to_owned(),
},
Identifier {
name: "Low".to_owned(),
},
],
}],
namespaces: vec![],
}],
};
assert_eq!(output, expected);
}
#[test]
fn test_failing() {
let input = "struct Callback {
func: Function,
timeout: Integer,
};
// The type \"Name\" should not be defined
fn execute_callback(callback: Name);
";
let output = TokenStream::lex(&input).unwrap().parse();
match output.unwrap_err().source {
super::error::ParsingError::TypeNotDeclared { r#type, .. } => {
assert_eq!(
r#type,
Identifier {
name: "Name".to_owned()
}
)
}
_ => panic!("Wrong error in test!"),
};
}

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@ -1,4 +1,2 @@
mod error;
mod unchecked; mod unchecked;
#[cfg(test)] mod checked;
mod test;

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@ -1,88 +0,0 @@
use crate::{
command_spec::unchecked::{CommandSpec, Declaration, Function, FunctionInput, Genus},
lexing::{Token, TokenKind, TokenSpan, TokenStream},
};
use super::error::ParsingError;
use pretty_assertions::assert_eq;
#[test]
fn test_failing() {
let input = "
fn print(message: CommandTransferValue);
nasp trinitrix { {}
fn hi honner(name: String) -> String; ;
}
";
let parsed = TokenStream::lex(input).unwrap().parse_unchecked();
let err = parsed.unwrap_err().source;
match err {
ParsingError::ExpectedDifferentToken { .. } => panic!("Wrong error"),
ParsingError::ExpectedKeyword { .. } => {}
}
}
#[test]
fn test_full() {
let input = "fn print(message: CommandTransferValue);
nasp trinitrix {
fn hi(name: String) -> String;
}
";
let parsed = TokenStream::lex(input).unwrap().parse_unchecked().unwrap();
let expected = CommandSpec {
declarations: vec![
Declaration {
namespace: vec![],
genus: Genus::Function(Function {
identifier: Token {
span: TokenSpan { start: 3, end: 8 },
kind: TokenKind::Identifier("print".to_owned()),
},
inputs: vec![FunctionInput {
name: Token {
span: TokenSpan { start: 9, end: 16 },
kind: TokenKind::Identifier("message".to_owned()),
},
r#type: Token {
span: TokenSpan { start: 18, end: 38 },
kind: TokenKind::Identifier("CommandTransferValue".to_owned()),
},
}],
output: None,
}),
},
Declaration {
namespace: vec![Token {
span: TokenSpan { start: 47, end: 56 },
kind: TokenKind::Identifier("trinitrix".to_owned()),
}],
genus: Genus::Function(Function {
identifier: Token {
span: TokenSpan { start: 66, end: 68 },
kind: TokenKind::Identifier("hi".to_owned()),
},
inputs: vec![FunctionInput {
name: Token {
span: TokenSpan { start: 69, end: 73 },
kind: TokenKind::Identifier("name".to_owned()),
},
r#type: Token {
span: TokenSpan { start: 75, end: 81 },
kind: TokenKind::Identifier("String".to_owned()),
},
}],
output: Some(Token {
span: TokenSpan { start: 86, end: 92 },
kind: TokenKind::Identifier("String".to_owned()),
}),
}),
},
],
};
assert_eq!(parsed, expected);
}

View File

@ -6,7 +6,7 @@ use crate::{
lexing::{TokenKind, TokenSpan}, lexing::{TokenKind, TokenSpan},
}; };
#[derive(Error, Debug)] #[derive(Error, Debug, Clone)]
pub enum ParsingError { pub enum ParsingError {
#[error("Expected '{expected}' but received '{actual}'")] #[error("Expected '{expected}' but received '{actual}'")]
ExpectedDifferentToken { ExpectedDifferentToken {
@ -18,6 +18,14 @@ pub enum ParsingError {
#[error("Expected a Keyword to start a new declaration, but found: '{actual}'")] #[error("Expected a Keyword to start a new declaration, but found: '{actual}'")]
ExpectedKeyword { actual: TokenKind, span: TokenSpan }, ExpectedKeyword { actual: TokenKind, span: TokenSpan },
} }
impl ParsingError {
pub fn span(&self) -> &TokenSpan {
match self {
ParsingError::ExpectedDifferentToken { span, .. } => span,
ParsingError::ExpectedKeyword { span, .. } => span,
}
}
}
impl ParsingError { impl ParsingError {
pub fn get_span(&self) -> TokenSpan { pub fn get_span(&self) -> TokenSpan {
@ -46,7 +54,7 @@ impl AdditionalHelp for ParsingError {
} }
} }
#[derive(Debug)] #[derive(Debug, Clone)]
pub struct SpannedParsingError { pub struct SpannedParsingError {
pub source: ParsingError, pub source: ParsingError,
pub context: ErrorContext, pub context: ErrorContext,

View File

@ -1,13 +1,17 @@
use crate::{ use crate::{
command_spec::unchecked::{ command_spec::unchecked::{
CommandSpec, Declaration, Enumeration, Function, NamedType, Structure, Type, CommandSpec, Declaration, Enumeration, Function, NamedType, Namespace, Structure, Type,
}, },
error::ErrorContext, error::ErrorContext,
lexing::{Token, TokenKind, TokenStream}, lexing::{Token, TokenKind, TokenStream},
token, token,
}; };
use super::error::{ParsingError, SpannedParsingError}; use self::error::{ParsingError, SpannedParsingError};
pub mod error;
#[cfg(test)]
mod test;
impl TokenStream { impl TokenStream {
pub fn parse_unchecked(self) -> Result<CommandSpec, SpannedParsingError> { pub fn parse_unchecked(self) -> Result<CommandSpec, SpannedParsingError> {
@ -18,50 +22,41 @@ impl TokenStream {
pub(super) struct Parser { pub(super) struct Parser {
token_stream: TokenStream, token_stream: TokenStream,
current_namespaces: Vec<Token>, // This should in the second pass turn into Identifiers
} }
impl Parser { impl Parser {
fn new(mut token_stream: TokenStream) -> Self { fn new(mut token_stream: TokenStream) -> Self {
token_stream.reverse(); token_stream.reverse();
Self { Self { token_stream }
token_stream,
current_namespaces: vec![],
}
} }
fn parse(&mut self) -> Result<CommandSpec, SpannedParsingError> { fn parse(&mut self) -> Result<CommandSpec, SpannedParsingError> {
let mut declarations = vec![]; let mut output = CommandSpec::default();
while !self.token_stream.is_empty() { while !self.token_stream.is_empty() {
let mut next = self.parse_next().map_err(|err| { let next = self.parse_next().map_err(|err| {
let span = err.get_span(); let span = err.get_span();
SpannedParsingError { SpannedParsingError {
source: err, source: err,
context: ErrorContext::from_span(span, &self.token_stream.original_file), context: ErrorContext::from_span(span, &self.token_stream.original_file),
} }
})?; })?;
match next {
declarations.append(&mut next); Declaration::Function(function) => output.functions.push(function),
Declaration::Structure(structure) => output.structures.push(structure),
Declaration::Enumeration(enumeration) => output.enumerations.push(enumeration),
Declaration::Namespace(namespace) => output.namespaces.push(namespace),
}
} }
Ok(CommandSpec { declarations }) Ok(output)
} }
fn parse_next(&mut self) -> Result<Vec<Declaration>, ParsingError> { fn parse_next(&mut self) -> Result<Declaration, ParsingError> {
match self.peek().kind() { match self.peek().kind() {
token![nasp] => Ok(self.parse_namespace()?), token![nasp] => Ok(Declaration::Namespace(self.parse_namespace()?)),
token![fn] => Ok(vec![Declaration::new_function( token![fn] => Ok(Declaration::Function(self.parse_function()?)),
self.parse_function()?, token![struct] => Ok(Declaration::Structure(self.parse_structure()?)),
self.current_namespaces.clone(), token![enum] => Ok(Declaration::Enumeration(self.parse_enumeration()?)),
)]),
token![struct] => Ok(vec![Declaration::new_structure(
self.parse_structure()?,
self.current_namespaces.clone(),
)]),
token![enum] => Ok(vec![Declaration::new_enumeration(
self.parse_enumeration()?,
self.current_namespaces.clone(),
)]),
_ => { _ => {
let err = ParsingError::ExpectedKeyword { let err = ParsingError::ExpectedKeyword {
span: *self.peek().span(), span: *self.peek().span(),
@ -93,20 +88,28 @@ impl Parser {
}) })
} }
fn parse_namespace(&mut self) -> Result<Vec<Declaration>, ParsingError> { fn parse_namespace(&mut self) -> Result<Namespace, ParsingError> {
self.expect(token![nasp])?; self.expect(token![nasp])?;
let namespace_name = self.expect(token![Ident])?;
self.current_namespaces.push(namespace_name); let mut namespace = Namespace::default();
namespace.name = self.expect(token![Ident])?;
self.expect(token![BraceOpen])?; self.expect(token![BraceOpen])?;
let mut declarations = vec![];
while !self.expect_peek(token![BraceClose]) { while !self.expect_peek(token![BraceClose]) {
declarations.append(&mut self.parse_next()?); let next = self.parse_next()?;
match next {
Declaration::Function(function) => namespace.functions.push(function),
Declaration::Structure(structure) => namespace.structures.push(structure),
Declaration::Enumeration(enumeration) => namespace.enumerations.push(enumeration),
Declaration::Namespace(input_namespace) => {
namespace.namespaces.push(input_namespace)
}
}
} }
self.expect(token![BraceClose])?; self.expect(token![BraceClose])?;
self.current_namespaces.pop(); Ok(namespace)
Ok(declarations)
} }
fn parse_enumeration(&mut self) -> Result<Enumeration, ParsingError> { fn parse_enumeration(&mut self) -> Result<Enumeration, ParsingError> {

View File

@ -0,0 +1,98 @@
use pretty_assertions::assert_eq;
use crate::{
command_spec::unchecked::{CommandSpec, Function, NamedType, Namespace, Type},
lexing::{Token, TokenKind, TokenSpan, TokenStream},
};
use super::error::ParsingError;
#[test]
fn test_failing() {
let input = "
fn print(message: CommandTransferValue);
nasp trinitrix { {}
fn hi honner(name: String) -> String; ;
}
";
let parsed = TokenStream::lex(input).unwrap().parse_unchecked();
let err = parsed.unwrap_err().source;
match err {
ParsingError::ExpectedDifferentToken { .. } => panic!("Wrong error"),
ParsingError::ExpectedKeyword { .. } => {}
}
}
#[test]
fn test_full() {
let input = "fn print(message: CommandTransferValue);
nasp trinitrix {
fn hi(name: String) -> String;
}
";
let parsed = TokenStream::lex(input).unwrap().parse_unchecked().unwrap();
let expected = CommandSpec {
structures: vec![],
enumerations: vec![],
functions: vec![Function {
identifier: Token {
span: TokenSpan { start: 3, end: 8 },
kind: TokenKind::Identifier("print".to_owned()),
},
inputs: vec![NamedType {
name: Token {
span: TokenSpan { start: 9, end: 16 },
kind: TokenKind::Identifier("message".to_owned()),
},
r#type: Type {
identifier: Token {
span: TokenSpan { start: 18, end: 38 },
kind: TokenKind::Identifier("CommandTransferValue".to_owned()),
},
generic_args: vec![],
},
}],
output: None,
}],
namespaces: vec![Namespace {
name: Token {
span: TokenSpan { start: 47, end: 56 },
kind: TokenKind::Identifier("trinitrix".to_owned()),
},
functions: vec![Function {
identifier: Token {
span: TokenSpan { start: 66, end: 68 },
kind: TokenKind::Identifier("hi".to_owned()),
},
inputs: vec![NamedType {
name: Token {
span: TokenSpan { start: 69, end: 73 },
kind: TokenKind::Identifier("name".to_owned()),
},
r#type: Type {
identifier: Token {
span: TokenSpan { start: 75, end: 81 },
kind: TokenKind::Identifier("String".to_owned()),
},
generic_args: vec![],
},
}],
output: Some(Type {
identifier: Token {
span: TokenSpan { start: 86, end: 92 },
kind: TokenKind::Identifier("String".to_owned()),
},
generic_args: vec![],
}),
}],
structures: vec![],
enumerations: vec![],
namespaces: vec![],
}],
};
assert_eq!(parsed, expected);
}