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36d877be4a
VScode will typically send a `textDocument/semanticTokens/full` request followed by `textDocument/semanticTokens/range`, and occassionally request semantic tokens even when we know nothing has changed. Semantic tokens also get refreshed on each change. Computing semantic tokens is relatively heavy in TSC, so we should avoid it as much as possible. Caches the semantic tokens for open documents, to avoid making TSC do unnecessary work. Results in a noticeable improvement in local benchmarking before: ``` Starting Deno benchmark -> Start benchmarking lsp - Simple Startup/Shutdown (10 runs, mean: 383ms) - Big Document/Several Edits (5 runs, mean: 1079ms) - Find/Replace (10 runs, mean: 59ms) - Code Lens (10 runs, mean: 440ms) - deco-cx/apps Multiple Edits + Navigation (5 runs, mean: 9921ms) <- End benchmarking lsp ``` after: ``` Starting Deno benchmark -> Start benchmarking lsp - Simple Startup/Shutdown (10 runs, mean: 395ms) - Big Document/Several Edits (5 runs, mean: 1024ms) - Find/Replace (10 runs, mean: 56ms) - Code Lens (10 runs, mean: 438ms) - deco-cx/apps Multiple Edits + Navigation (5 runs, mean: 8927ms) <- End benchmarking lsp ```
529 lines
13 KiB
Rust
529 lines
13 KiB
Rust
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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// The logic of this module is heavily influenced by
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// https://github.com/microsoft/vscode/blob/main/extensions/typescript-language-features/src/languageFeatures/semanticTokens.ts
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// and https://github.com/microsoft/vscode/blob/main/src/vs/workbench/api/common/extHostTypes.ts
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// for the SemanticTokensBuilder implementation.
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use std::ops::Index;
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use std::ops::IndexMut;
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use tower_lsp::lsp_types as lsp;
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use tower_lsp::lsp_types::SemanticToken;
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use tower_lsp::lsp_types::SemanticTokenModifier;
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use tower_lsp::lsp_types::SemanticTokenType;
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use tower_lsp::lsp_types::SemanticTokens;
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use tower_lsp::lsp_types::SemanticTokensLegend;
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pub const MODIFIER_MASK: u32 = 255;
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pub const TYPE_OFFSET: u32 = 8;
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enum TokenType {
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Class = 0,
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Enum = 1,
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Interface = 2,
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Namespace = 3,
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TypeParameter = 4,
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Type = 5,
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Parameter = 6,
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Variable = 7,
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EnumMember = 8,
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Property = 9,
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Function = 10,
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Method = 11,
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}
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impl<T> Index<TokenType> for Vec<T> {
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type Output = T;
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fn index(&self, idx: TokenType) -> &T {
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&self[idx as usize]
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}
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}
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impl<T> IndexMut<TokenType> for Vec<T> {
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fn index_mut(&mut self, idx: TokenType) -> &mut T {
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&mut self[idx as usize]
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}
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}
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enum TokenModifier {
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Declaration = 0,
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Static = 1,
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Async = 2,
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Readonly = 3,
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DefaultLibrary = 4,
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Local = 5,
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}
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impl<T> Index<TokenModifier> for Vec<T> {
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type Output = T;
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fn index(&self, idx: TokenModifier) -> &T {
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&self[idx as usize]
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}
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}
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impl<T> IndexMut<TokenModifier> for Vec<T> {
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fn index_mut(&mut self, idx: TokenModifier) -> &mut T {
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&mut self[idx as usize]
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}
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}
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pub fn get_legend() -> SemanticTokensLegend {
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let mut token_types = vec![SemanticTokenType::from(""); 12];
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token_types[TokenType::Class] = "class".into();
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token_types[TokenType::Enum] = "enum".into();
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token_types[TokenType::Interface] = "interface".into();
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token_types[TokenType::Namespace] = "namespace".into();
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token_types[TokenType::TypeParameter] = "typeParameter".into();
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token_types[TokenType::Type] = "type".into();
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token_types[TokenType::Parameter] = "parameter".into();
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token_types[TokenType::Variable] = "variable".into();
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token_types[TokenType::EnumMember] = "enumMember".into();
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token_types[TokenType::Property] = "property".into();
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token_types[TokenType::Function] = "function".into();
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token_types[TokenType::Method] = "method".into();
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let mut token_modifiers = vec![SemanticTokenModifier::from(""); 6];
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token_modifiers[TokenModifier::Async] = "async".into();
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token_modifiers[TokenModifier::Declaration] = "declaration".into();
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token_modifiers[TokenModifier::Readonly] = "readonly".into();
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token_modifiers[TokenModifier::Static] = "static".into();
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token_modifiers[TokenModifier::Local] = "local".into();
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token_modifiers[TokenModifier::DefaultLibrary] = "defaultLibrary".into();
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SemanticTokensLegend {
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token_types,
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token_modifiers,
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}
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}
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pub struct SemanticTokensBuilder {
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prev_line: u32,
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prev_char: u32,
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data_is_sorted_and_delta_encoded: bool,
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data: Vec<u32>,
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}
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impl SemanticTokensBuilder {
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pub fn new() -> Self {
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Self {
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prev_line: 0,
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prev_char: 0,
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data_is_sorted_and_delta_encoded: true,
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data: Vec::new(),
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}
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}
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pub fn push(
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&mut self,
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line: u32,
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char: u32,
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length: u32,
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token_type: u32,
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token_modifiers: u32,
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) {
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if self.data_is_sorted_and_delta_encoded
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&& (line < self.prev_line
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|| (line == self.prev_line && char < self.prev_char))
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{
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// push calls were ordered and are no longer ordered
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self.data_is_sorted_and_delta_encoded = false;
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// Remove delta encoding from data
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let token_count = self.data.len() / 5;
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let mut prev_line = 0;
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let mut prev_char = 0;
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for i in 0..token_count {
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let mut line = self.data[5 * i];
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let mut char = self.data[5 * i + 1];
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if line == 0 {
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// on the same line as previous token
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line = prev_line;
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char += prev_char;
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} else {
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// on a different line than previous token
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line += prev_line;
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}
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self.data[5 * i] = line;
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self.data[5 * i + 1] = char;
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prev_line = line;
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prev_char = char;
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}
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}
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let mut push_line = line;
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let mut push_char = char;
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if self.data_is_sorted_and_delta_encoded && !self.data.is_empty() {
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push_line -= self.prev_line;
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if push_line == 0 {
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push_char -= self.prev_char;
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}
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}
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self.data.reserve(5);
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self.data.push(push_line);
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self.data.push(push_char);
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self.data.push(length);
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self.data.push(token_type);
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self.data.push(token_modifiers);
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self.prev_line = line;
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self.prev_char = char;
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}
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fn data_to_semantic_token_vec(
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data: &[u32],
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data_is_sorted_and_delta_encoded: bool,
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) -> Vec<SemanticToken> {
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let token_count = data.len() / 5;
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let mut result: Vec<SemanticToken> = Vec::with_capacity(token_count);
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if data_is_sorted_and_delta_encoded {
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for i in 0..token_count {
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let src_offset = 5 * i;
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result.push(SemanticToken {
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delta_line: data[src_offset],
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delta_start: data[src_offset + 1],
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length: data[src_offset + 2],
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token_type: data[src_offset + 3],
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token_modifiers_bitset: data[src_offset + 4],
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});
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}
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return result;
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}
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let mut pos: Vec<usize> = (0..token_count).collect();
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pos.sort_by(|a, b| {
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let a_line = data[5 * a];
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let b_line = data[5 * b];
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if a_line == b_line {
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let a_char = data[5 * a + 1];
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let b_char = data[5 * b + 1];
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return a_char.cmp(&b_char);
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}
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a_line.cmp(&b_line)
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});
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let mut prev_line = 0;
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let mut prev_char = 0;
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for i in pos.iter() {
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let src_offset = 5 * i;
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let line = data[src_offset];
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let char = data[src_offset + 1];
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let length = data[src_offset + 2];
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let token_type = data[src_offset + 3];
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let token_modifiers_bitset = data[src_offset + 4];
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let delta_line = line - prev_line;
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let delta_start = if delta_line == 0 {
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char - prev_char
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} else {
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char
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};
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result.push(SemanticToken {
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delta_line,
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delta_start,
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length,
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token_type,
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token_modifiers_bitset,
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});
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prev_line = line;
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prev_char = char;
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}
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result
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}
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pub fn build(&self, result_id: Option<String>) -> SemanticTokens {
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SemanticTokens {
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result_id,
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data: SemanticTokensBuilder::data_to_semantic_token_vec(
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&self.data,
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self.data_is_sorted_and_delta_encoded,
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),
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}
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}
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}
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pub fn tokens_within_range(
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tokens: &SemanticTokens,
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range: lsp::Range,
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) -> SemanticTokens {
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let mut line = 0;
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let mut character = 0;
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let mut first_token_line = 0;
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let mut first_token_char = 0;
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let mut keep_start_idx = tokens.data.len();
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let mut keep_end_idx = keep_start_idx;
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for (i, token) in tokens.data.iter().enumerate() {
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if token.delta_line != 0 {
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character = 0;
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}
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line += token.delta_line;
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character += token.delta_start;
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let token_start = lsp::Position::new(line, character);
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if i < keep_start_idx && token_start >= range.start {
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keep_start_idx = i;
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first_token_line = line;
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first_token_char = character;
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}
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if token_start > range.end {
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keep_end_idx = i;
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break;
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}
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}
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if keep_end_idx == keep_start_idx {
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return SemanticTokens {
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result_id: None,
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data: Vec::new(),
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};
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}
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let mut data = tokens.data[keep_start_idx..keep_end_idx].to_vec();
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// we need to adjust the delta_line and delta_start on the first token
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// as it is relative to 0 now, not the previous token
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let first_token = &mut data[0];
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first_token.delta_line = first_token_line;
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first_token.delta_start = first_token_char;
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SemanticTokens {
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result_id: None,
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data,
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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 test_semantic_tokens_builder_simple() {
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let mut builder = SemanticTokensBuilder::new();
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builder.push(1, 0, 5, 1, 1);
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builder.push(1, 10, 4, 2, 2);
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builder.push(2, 2, 3, 2, 2);
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assert_eq!(
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builder.build(None).data,
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vec![
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SemanticToken {
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delta_line: 1,
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delta_start: 0,
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length: 5,
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token_type: 1,
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token_modifiers_bitset: 1
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},
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SemanticToken {
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delta_line: 0,
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delta_start: 10,
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length: 4,
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token_type: 2,
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token_modifiers_bitset: 2
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},
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SemanticToken {
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delta_line: 1,
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delta_start: 2,
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length: 3,
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token_type: 2,
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token_modifiers_bitset: 2
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}
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]
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);
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}
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#[test]
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fn test_semantic_tokens_builder_out_of_order_1() {
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let mut builder = SemanticTokensBuilder::new();
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builder.push(2, 0, 5, 1, 1);
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builder.push(2, 10, 1, 2, 2);
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builder.push(2, 15, 2, 3, 3);
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builder.push(1, 0, 4, 4, 4);
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assert_eq!(
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builder.build(None).data,
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vec![
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SemanticToken {
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delta_line: 1,
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delta_start: 0,
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length: 4,
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token_type: 4,
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token_modifiers_bitset: 4
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},
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SemanticToken {
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delta_line: 1,
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delta_start: 0,
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length: 5,
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token_type: 1,
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token_modifiers_bitset: 1
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},
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SemanticToken {
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delta_line: 0,
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delta_start: 10,
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length: 1,
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token_type: 2,
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token_modifiers_bitset: 2
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},
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SemanticToken {
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delta_line: 0,
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delta_start: 5,
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length: 2,
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token_type: 3,
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token_modifiers_bitset: 3
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}
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]
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);
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}
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#[test]
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fn test_semantic_tokens_builder_out_of_order_2() {
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let mut builder = SemanticTokensBuilder::new();
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builder.push(2, 10, 5, 1, 1);
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builder.push(2, 2, 4, 2, 2);
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assert_eq!(
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builder.build(None).data,
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vec![
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SemanticToken {
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delta_line: 2,
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delta_start: 2,
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length: 4,
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token_type: 2,
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token_modifiers_bitset: 2
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},
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SemanticToken {
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delta_line: 0,
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delta_start: 8,
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length: 5,
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token_type: 1,
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token_modifiers_bitset: 1
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}
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]
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);
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}
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#[test]
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fn test_tokens_within_range() {
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let mut builder = SemanticTokensBuilder::new();
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builder.push(1, 0, 5, 0, 0);
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builder.push(2, 1, 1, 1, 0);
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builder.push(2, 2, 3, 2, 0);
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builder.push(2, 5, 5, 3, 0);
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builder.push(3, 0, 4, 4, 0);
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builder.push(5, 2, 3, 5, 0);
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let tokens = builder.build(None);
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let range = lsp::Range {
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start: lsp::Position {
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line: 2,
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character: 2,
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},
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end: lsp::Position {
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line: 4,
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character: 0,
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},
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};
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let result = tokens_within_range(&tokens, range);
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assert_eq!(
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result.data,
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vec![
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// line 2 char 2
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SemanticToken {
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delta_line: 2,
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delta_start: 2,
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length: 3,
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token_type: 2,
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token_modifiers_bitset: 0
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},
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// line 2 char 5
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SemanticToken {
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delta_line: 0,
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delta_start: 3,
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length: 5,
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token_type: 3,
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token_modifiers_bitset: 0
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},
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// line 3 char 0
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SemanticToken {
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delta_line: 1,
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delta_start: 0,
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length: 4,
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token_type: 4,
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token_modifiers_bitset: 0
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}
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]
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);
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}
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#[test]
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fn test_tokens_within_range_include_end() {
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let mut builder = SemanticTokensBuilder::new();
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builder.push(1, 0, 1, 0, 0);
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builder.push(2, 1, 2, 1, 0);
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builder.push(2, 3, 3, 2, 0);
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builder.push(3, 0, 4, 3, 0);
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let tokens = builder.build(None);
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let range = lsp::Range {
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start: lsp::Position {
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line: 2,
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character: 2,
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},
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end: lsp::Position {
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line: 3,
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character: 4,
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},
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};
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let result = tokens_within_range(&tokens, range);
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assert_eq!(
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result.data,
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vec![
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// line 2 char 3
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SemanticToken {
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delta_line: 2,
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delta_start: 3,
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length: 3,
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token_type: 2,
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token_modifiers_bitset: 0
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},
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// line 3 char 0
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SemanticToken {
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delta_line: 1,
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delta_start: 0,
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length: 4,
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token_type: 3,
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token_modifiers_bitset: 0
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}
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]
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);
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}
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#[test]
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fn test_tokens_within_range_empty() {
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let mut builder = SemanticTokensBuilder::new();
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builder.push(1, 0, 1, 0, 0);
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builder.push(2, 1, 2, 1, 0);
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builder.push(2, 3, 3, 2, 0);
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builder.push(3, 0, 4, 3, 0);
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let tokens = builder.build(None);
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let range = lsp::Range {
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start: lsp::Position {
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line: 3,
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character: 2,
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},
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end: lsp::Position {
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line: 3,
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character: 4,
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},
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};
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let result = tokens_within_range(&tokens, range);
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assert_eq!(result.data, vec![]);
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assert_eq!(
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tokens_within_range(&SemanticTokens::default(), range).data,
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vec![]
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);
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}
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}
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