add: integer_node_parser
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@ -1 +1,2 @@
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pub mod tokenizer;
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pub mod parser;
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3
src/parser.rs
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3
src/parser.rs
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mod syntax_tree;
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mod grammar_parser;
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32
src/parser/grammar_parser.rs
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32
src/parser/grammar_parser.rs
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use crate::parser::syntax_tree::SyntaxNode;
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use crate::tokenizer::{LexicalTokenSpan, LexicalTokenType};
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use nom::bytes::complete::tag;
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use nom::combinator::map;
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use nom::{IResult};
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fn integer_node_parser(input: LexicalTokenSpan) -> IResult<LexicalTokenSpan, SyntaxNode> {
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map(tag(LexicalTokenType::ConstInteger(0)),
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|t: LexicalTokenSpan| {
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if let LexicalTokenType::ConstInteger(number) = t.span[0].token_type {
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SyntaxNode::const_integer(number, t)
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} else {
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panic!("Illegal integer constant: {}", t.as_str())
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}
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})(input)
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}
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#[cfg(test)]
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mod test {
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use super::*;
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use crate::parser::syntax_tree::SyntaxNodeType;
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use crate::tokenizer::lexical_parser;
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#[test]
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fn number_parser_test() {
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let (_, input) = lexical_parser("123").unwrap();
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dbg!(&input);
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let (_, node) = integer_node_parser((&input).into()).unwrap();
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assert_eq!(SyntaxNodeType::ConstIntegerNode(123), node.node_type);
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}
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}
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22
src/parser/syntax_tree.rs
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22
src/parser/syntax_tree.rs
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@ -0,0 +1,22 @@
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use crate::tokenizer::LexicalTokenSpan;
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#[derive(Debug, Copy, Clone, PartialEq)]
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pub enum SyntaxNodeType {
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ConstIntegerNode(u32),
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ConstFloatNode(f32),
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}
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#[derive(Debug, Copy, Clone, PartialEq)]
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pub struct SyntaxNode<'a> {
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pub node_type: SyntaxNodeType,
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pub lexical_tokens: LexicalTokenSpan<'a>
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}
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impl<'a> SyntaxNode<'a> {
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pub fn const_integer(number: u32, span: LexicalTokenSpan<'a>) -> Self {
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SyntaxNode {
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node_type: SyntaxNodeType::ConstIntegerNode(number),
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lexical_tokens: span
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}
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}
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}
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@ -1,9 +1,10 @@
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use nom::IResult;
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use crate::tokenizer::parser::{combine_parser, junk_parser};
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use crate::tokenizer::lexical_parser::{combine_parser, junk_parser};
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mod parser;
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mod lexical_parser;
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mod lexical_token;
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#[derive(PartialEq, Debug, Copy, Clone)]
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#[derive(Debug, Copy, Clone)]
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pub enum LexicalTokenType {
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Identifier,
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ConstInteger(u32),
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@ -19,6 +20,11 @@ pub struct LexicalToken<'a> {
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pub literal_value: &'a str,
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}
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#[derive(Debug, Copy, Clone, PartialEq)]
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pub struct LexicalTokenSpan<'a> {
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pub span: &'a [LexicalToken<'a>]
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}
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pub fn lexical_parser(mut input: &str) -> IResult<&str, Vec<LexicalToken>> {
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let mut array = vec![];
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143
src/tokenizer/lexical_token.rs
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143
src/tokenizer/lexical_token.rs
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@ -0,0 +1,143 @@
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use crate::tokenizer::{LexicalToken, LexicalTokenSpan, LexicalTokenType};
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use nom::{Compare, CompareResult, InputLength, InputTake};
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impl<'a> LexicalTokenSpan<'a> {
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pub fn new(span: &'a [LexicalToken]) -> Self {
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Self {
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span
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}
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}
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}
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impl<'a> From<&'a [LexicalToken<'a>]> for LexicalTokenSpan<'a> {
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fn from(value: &'a [LexicalToken<'a>]) -> Self {
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LexicalTokenSpan::new(value)
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}
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}
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impl<'a> From<&'a Vec<LexicalToken<'a>>> for LexicalTokenSpan<'a> {
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fn from(value: &'a Vec<LexicalToken<'a>>) -> Self {
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LexicalTokenSpan::new(value.as_slice())
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}
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}
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impl LexicalTokenSpan<'_> {
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pub fn as_str(&self) -> &str {
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self.span[0].literal_value
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}
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}
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impl PartialEq for LexicalTokenType {
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fn eq(&self, other: &Self) -> bool {
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match self {
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LexicalTokenType::ConstInteger(_) => {
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match other {
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LexicalTokenType::ConstInteger(_) => true,
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_ => false
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}
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}
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LexicalTokenType::ConstFloat(_) => {
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match other {
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LexicalTokenType::ConstFloat(_) => true,
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_ => false
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}
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}
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LexicalTokenType::Keyword => {
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match other {
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LexicalTokenType::Keyword => true,
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_ => false
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}
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}
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LexicalTokenType::Identifier => {
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match other {
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LexicalTokenType::Identifier => true,
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_ => false
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}
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}
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LexicalTokenType::Delimiter => {
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match other {
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LexicalTokenType::Delimiter => true,
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_ => false
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}
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}
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LexicalTokenType::Operator => {
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match other {
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LexicalTokenType::Operator => true,
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_ => false
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}
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}
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}
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}
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}
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impl InputLength for LexicalTokenType {
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fn input_len(&self) -> usize {
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1
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}
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}
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impl InputLength for LexicalToken<'_> {
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fn input_len(&self) -> usize {
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1
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}
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}
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impl Compare<LexicalTokenType> for LexicalTokenSpan<'_> {
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fn compare(&self, t: LexicalTokenType) -> CompareResult {
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if self.span.is_empty() {
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CompareResult::Incomplete
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} else if self.span[0].token_type == t {
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CompareResult::Ok
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} else {
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CompareResult::Error
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}
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}
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fn compare_no_case(&self, t: LexicalTokenType) -> CompareResult {
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self.compare(t)
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}
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}
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impl<'a> Compare<LexicalToken<'a>> for LexicalTokenSpan<'a> {
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fn compare(&self, t: LexicalToken) -> CompareResult {
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if self.span.is_empty() {
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CompareResult::Incomplete
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} else if self.span[0] == t {
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CompareResult::Ok
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} else {
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CompareResult::Error
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}
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}
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fn compare_no_case(&self, t: LexicalToken) -> CompareResult {
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self.compare(t)
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}
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}
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impl InputTake for LexicalTokenSpan<'_> {
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fn take(&self, count: usize) -> Self {
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LexicalTokenSpan::new(&self.span[..count])
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}
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fn take_split(&self, count: usize) -> (Self, Self) {
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let (prefix, suffix) = self.span.split_at(count);
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// 先返回suffix,再返回prefix
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// 这TM谁能第一次写对
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(LexicalTokenSpan::new(suffix), LexicalTokenSpan::new(prefix))
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}
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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#[test]
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fn lexical_token_type_test() {
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assert_eq!(LexicalTokenType::Identifier, LexicalTokenType::Identifier);
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assert_eq!(LexicalTokenType::ConstInteger(1), LexicalTokenType::ConstInteger(2));
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assert_eq!(LexicalTokenType::ConstFloat(3.0), LexicalTokenType::ConstFloat(3.0));
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assert_ne!(LexicalTokenType::Identifier, LexicalTokenType::Keyword);
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assert_ne!(LexicalTokenType::ConstInteger(1), LexicalTokenType::Operator);
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}
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}
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@ -14,10 +14,12 @@ fn validate_tokens(input: &'static str, tokens: Vec<LexicalTokenType>) {
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#[test]
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fn main_test() {
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validate_tokens("int main { return 0; }", vec![
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validate_tokens("int main() { return 0; }", vec![
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Keyword,
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Identifier,
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Delimiter,
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Delimiter,
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Delimiter,
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Keyword,
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ConstInteger(0),
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Delimiter,
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]);
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}
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#[test]
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fn number_test() {
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validate_tokens("123", vec![
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ConstInteger(123)
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])
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}
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#[test]
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fn hexadecimal_test() {
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validate_tokens("// test hexadecimal define
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