Merge pull request #316 from InterplanetaryEngineer/master

Simplify semantic_tokens, fix off-by-one error in identifierFromPosition
This commit is contained in:
Alexandros Naskos 2021-05-03 15:09:20 +03:00 committed by GitHub
commit d73d7fc748
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3 changed files with 139 additions and 236 deletions

View File

@ -559,17 +559,20 @@ pub fn identifierFromPosition(pos_index: usize, handle: DocumentStore.Handle) []
if (pos_index + 1 >= text.len) return &[0]u8{};
var start_idx = pos_index;
while (start_idx > 0 and
(std.ascii.isAlNum(text[start_idx]) or text[start_idx] == '_')) : (start_idx -= 1)
{}
while (start_idx > 0 and isSymbolChar(text[start_idx-1])) {
start_idx -= 1;
}
var end_idx = pos_index;
while (end_idx < handle.document.text.len and
(std.ascii.isAlNum(text[end_idx]) or text[end_idx] == '_')) : (end_idx += 1)
{}
while (end_idx < handle.document.text.len and isSymbolChar(text[end_idx])) {
end_idx += 1;
}
if (end_idx <= start_idx) return &[0]u8{};
return text[start_idx + 1 .. end_idx];
return text[start_idx .. end_idx];
}
fn isSymbolChar(char: u8) bool {
return std.ascii.isAlNum(char) or char == '_';
}
fn gotoDefinitionSymbol(id: types.RequestId, arena: *std.heap.ArenaAllocator, decl_handle: analysis.DeclWithHandle, resolve_alias: bool) !void {
@ -1366,7 +1369,7 @@ fn closeDocumentHandler(arena: *std.heap.ArenaAllocator, id: types.RequestId, re
document_store.closeDocument(req.params.textDocument.uri);
}
fn semanticTokensFullHandler(arena: *std.heap.ArenaAllocator, id: types.RequestId, req: requests.SemanticTokensFull, config: Config) (error{OutOfMemory} || std.fs.File.WriteError)!void {
fn semanticTokensFullHandler(arena: *std.heap.ArenaAllocator, id: types.RequestId, req: requests.SemanticTokensFull, config: Config) !void {
if (config.enable_semantic_tokens) blk: {
const handle = document_store.getHandle(req.params.textDocument.uri) orelse {
logger.warn("Trying to get semantic tokens of non existent document {s}", .{req.params.textDocument.uri});

View File

@ -3,6 +3,7 @@ const offsets = @import("offsets.zig");
const DocumentStore = @import("document_store.zig");
const analysis = @import("analysis.zig");
const ast = std.zig.ast;
const log = std.log.scoped(.semantic_tokens);
usingnamespace @import("ast.zig");
pub const TokenType = enum(u32) {
@ -49,135 +50,117 @@ pub const TokenModifiers = packed struct {
}
};
const Comment = struct {
/// Length of the comment
length: u32,
/// Source index of the comment
start: u32,
};
const CommentList = std.ArrayList(Comment);
const Builder = struct {
handle: *DocumentStore.Handle,
current_token: ?ast.TokenIndex,
previous_position: usize = 0,
previous_token: ?ast.TokenIndex = null,
arr: std.ArrayList(u32),
encoding: offsets.Encoding,
comments: CommentList,
fn init(allocator: *std.mem.Allocator, handle: *DocumentStore.Handle, encoding: offsets.Encoding) Builder {
return Builder{
.handle = handle,
.current_token = null,
.arr = std.ArrayList(u32).init(allocator),
.encoding = encoding,
.comments = CommentList.init(allocator),
};
}
fn highlightComment(
self: *Builder,
prev_end: usize,
comment_start: usize,
comment_end: usize,
token_modifiers: TokenModifiers,
) !void {
const comment_delta = offsets.tokenRelativeLocation(
self.handle.tree,
prev_end,
comment_start,
self.encoding,
) catch return;
const comment_length = offsets.lineSectionLength(
self.handle.tree,
comment_start,
comment_end,
self.encoding,
) catch return;
try self.arr.appendSlice(&.{
@truncate(u32, comment_delta.line),
@truncate(u32, comment_delta.column),
@truncate(u32, comment_length),
@enumToInt(TokenType.comment),
token_modifiers.toInt(),
});
}
fn add(self: *Builder, token: ast.TokenIndex, token_type: TokenType, token_modifiers: TokenModifiers) !void {
const starts = self.handle.tree.tokens.items(.start);
var start_idx = if (self.current_token) |current_token|
starts[current_token]
else
0;
const tree = self.handle.tree;
const starts = tree.tokens.items(.start);
const tags = tree.tokens.items(.tag);
const next_start = starts[token];
if (start_idx > starts[token])
if (next_start < self.previous_position) {
log.err(
"Moved backwards from {} at position {} to {} at {}.",
.{ tags[self.previous_token orelse 0], self.previous_position, tags[token], next_start },
);
return;
var comments_end: usize = start_idx;
var comments_start: usize = start_idx;
// Highlight comments in the gap
{
const source = self.handle.tree.source;
var state: enum { none, comment, doc_comment, comment_start } = .none;
var prev_byte = source[start_idx];
var i: usize = start_idx + 1;
while (i < starts[token]) : ({
prev_byte = source[i];
i += 1;
}) {
if (prev_byte == '/' and source[i] == '/') {
switch (state) {
.none => {
comments_start = i - 1;
state = .comment_start;
},
.comment_start => state = .doc_comment,
else => {},
}
continue;
} else if (prev_byte == '/' and source[i] == '!' and state == .comment_start) {
state = .doc_comment;
continue;
}
if (source[i] == '\n' and state != .none) {
try self.highlightComment(comments_end, comments_start, i, switch (state) {
.comment, .comment_start => .{},
.doc_comment => .{ .documentation = true },
else => unreachable,
});
comments_end = i;
state = .none;
} else if (state == .comment_start) {
state = .comment;
}
}
if (state != .none) {
try self.highlightComment(comments_end, comments_start, i, switch (state) {
.comment, .comment_start => .{},
.doc_comment => .{ .documentation = true },
else => unreachable,
});
}
}
if (self.previous_token) |prev| {
// Highlight gaps between AST nodes. These can contain comments or malformed code.
var i = prev + 1;
while (i < token) : (i += 1) {
try handleComments(self, starts[i - 1], starts[i]);
try handleToken(self, i);
}
}
self.previous_token = token;
if (token > 0) {
try handleComments(self, starts[token - 1], next_start);
}
const length = offsets.tokenLength(tree, token, self.encoding);
try self.addDirect(token_type, token_modifiers, next_start, length);
}
/// Highlight a token without semantic context.
fn handleToken(self: *Builder, tok: ast.TokenIndex) !void {
const tree = self.handle.tree;
// TODO More highlighting here
const tok_id = tree.tokens.items(.tag)[tok];
const tok_type: TokenType = switch (tok_id) {
.keyword_true, .keyword_false, .keyword_null, .keyword_undefined, .keyword_unreachable => .keywordLiteral,
.integer_literal, .float_literal => .number,
.string_literal, .multiline_string_literal_line, .char_literal => .string,
.period, .comma, .r_paren, .l_paren, .r_brace, .l_brace, .semicolon, .colon => return,
else => blk: {
const id = @enumToInt(tok_id);
if (id >= @enumToInt(std.zig.Token.Tag.keyword_align) and
id <= @enumToInt(std.zig.Token.Tag.keyword_while))
break :blk TokenType.keyword;
if (id >= @enumToInt(std.zig.Token.Tag.bang) and
id <= @enumToInt(std.zig.Token.Tag.tilde))
break :blk TokenType.operator;
return;
},
};
const start = tree.tokens.items(.start)[tok];
const length = offsets.tokenLength(tree, tok, self.encoding);
try self.addDirect(tok_type, .{}, start, length);
}
/// Highlight normal comments and doc comments.
fn handleComments(self: *Builder, from: usize, to: usize) !void {
const source = self.handle.tree.source;
var i: usize = from;
while (i < to - 1) : (i += 1) {
if (source[i] != '/' or source[i + 1] != '/')
continue;
const comment_start = i;
var mods = TokenModifiers{};
if (i + 2 < to and (source[i + 2] == '!' or source[i + 2] == '/'))
mods.documentation = true;
while (i < to and source[i] != '\n') : (i += 1) {}
const length = try offsets.lineSectionLength(self.handle.tree, comment_start, i, self.encoding);
try self.addDirect(TokenType.comment, mods, comment_start, length);
}
}
fn addDirect(self: *Builder, tok_type: TokenType, tok_mod: TokenModifiers, start: usize, length: usize) !void {
const delta = offsets.tokenRelativeLocation(
self.handle.tree,
comments_start,
starts[token],
self.previous_position,
start,
self.encoding,
) catch return;
try self.arr.appendSlice(&.{
@truncate(u32, delta.line),
@truncate(u32, delta.column),
@truncate(u32, offsets.tokenLength(self.handle.tree, token, self.encoding)),
@enumToInt(token_type),
token_modifiers.toInt(),
@truncate(u32, length),
@enumToInt(tok_type),
tok_mod.toInt(),
});
self.current_token = token;
self.previous_position = start;
}
fn toOwnedSlice(self: *Builder) []u32 {
@ -227,71 +210,6 @@ fn fieldTokenType(container_decl: ast.Node.Index, handle: *DocumentStore.Handle)
});
}
/// This is used to highlight gaps between AST nodes.
/// These gaps can be just gaps between statements/declarations with comments inside them
/// Or malformed code.
const GapHighlighter = struct {
builder: *Builder,
current_idx: ast.TokenIndex,
// TODO More highlighting here
fn handleTok(self: *GapHighlighter, tok: ast.TokenIndex) !void {
const tok_id = self.builder.handle.tree.tokens.items(.tag)[tok];
if (tok_id == .container_doc_comment or tok_id == .doc_comment) {
try writeTokenMod(self.builder, tok, .comment, .{ .documentation = true });
} else if (@enumToInt(tok_id) >= @enumToInt(std.zig.Token.Tag.keyword_align) and
@enumToInt(tok_id) <= @enumToInt(std.zig.Token.Tag.keyword_while))
{
const tok_type: TokenType = switch (tok_id) {
.keyword_true,
.keyword_false,
.keyword_null,
.keyword_undefined,
.keyword_unreachable,
=> .keywordLiteral,
else => .keyword,
};
try writeToken(self.builder, tok, tok_type);
} else if (@enumToInt(tok_id) >= @enumToInt(std.zig.Token.Tag.bang) and
@enumToInt(tok_id) <= @enumToInt(std.zig.Token.Tag.tilde) and
tok_id != .period and tok_id != .comma and tok_id != .r_paren and
tok_id != .l_paren and tok_id != .r_brace and tok_id != .l_brace and
tok_id != .semicolon and tok_id != .colon)
{
try writeToken(self.builder, tok, .operator);
} else if (tok_id == .integer_literal or tok_id == .float_literal) {
try writeToken(self.builder, tok, .number);
} else if (tok_id == .string_literal or tok_id == .multiline_string_literal_line or tok_id == .char_literal) {
try writeToken(self.builder, tok, .string);
}
}
fn init(builder: *Builder, start: ast.TokenIndex) GapHighlighter {
return .{ .builder = builder, .current_idx = start };
}
fn next(self: *GapHighlighter, node: ast.Node.Index) !void {
const tree = self.builder.handle.tree;
if (self.current_idx > 0 and tree.tokens.items(.tag)[self.current_idx - 1] == .container_doc_comment) {
try self.handleTok(self.current_idx - 1);
}
var i = self.current_idx;
while (i < tree.firstToken(node)) : (i += 1) {
try self.handleTok(i);
}
self.current_idx = lastToken(tree, node) + 1;
}
fn end(self: *GapHighlighter, last: ast.TokenIndex) !void {
var i = self.current_idx;
while (i < last) : (i += 1) {
try self.handleTok(i);
}
}
};
fn colorIdentifierBasedOnType(builder: *Builder, type_node: analysis.TypeWithHandle, target_tok: ast.TokenIndex, tok_mod: TokenModifiers) !void {
const tree = builder.handle.tree;
if (type_node.type.is_type_val) {
@ -321,12 +239,22 @@ fn colorIdentifierBasedOnType(builder: *Builder, type_node: analysis.TypeWithHan
}
}
const WriteTokensError = error{
OutOfMemory,
Utf8InvalidStartByte,
CodepointTooLong,
Utf8ExpectedContinuation,
Utf8OverlongEncoding,
Utf8EncodesSurrogateHalf,
Utf8CodepointTooLarge,
};
fn writeNodeTokens(
builder: *Builder,
arena: *std.heap.ArenaAllocator,
store: *DocumentStore,
maybe_node: ?ast.Node.Index,
) error{OutOfMemory}!void {
) WriteTokensError!void {
const node = maybe_node orelse return;
const handle = builder.handle;
@ -372,7 +300,6 @@ fn writeNodeTokens(
break :block main_token + 1;
} else 0;
var gap_highlighter = GapHighlighter.init(builder, first_tok);
const statements: []const ast.Node.Index = switch (tag) {
.block, .block_semicolon => tree.extra_data[node_data[node].lhs..node_data[node].rhs],
.block_two, .block_two_semicolon => blk: {
@ -389,15 +316,12 @@ fn writeNodeTokens(
};
for (statements) |child| {
try gap_highlighter.next(child);
if (node_tags[child].isContainerField()) {
try writeContainerField(builder, arena, store, child, .field, child_frame);
} else {
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, child });
}
}
try gap_highlighter.end(lastToken(tree, node));
},
.global_var_decl,
.local_var_decl,
@ -419,15 +343,12 @@ fn writeNodeTokens(
} else {
try writeTokenMod(builder, var_decl.ast.mut_token + 1, .variable, .{ .declaration = true });
}
if (var_decl.ast.type_node != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, var_decl.ast.type_node });
if (var_decl.ast.align_node != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, var_decl.ast.align_node });
if (var_decl.ast.section_node != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, var_decl.ast.section_node });
try writeToken(builder, var_decl.ast.mut_token + 2, .operator);
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, var_decl.ast.type_node });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, var_decl.ast.align_node });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, var_decl.ast.section_node });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, var_decl.ast.init_node });
},
.@"usingnamespace" => {
@ -469,22 +390,19 @@ fn writeNodeTokens(
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, decl.ast.arg })
else
try writeToken(builder, enum_token, .keyword);
} else if (decl.ast.arg != 0) try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, decl.ast.arg });
} else try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, decl.ast.arg });
var gap_highlighter = GapHighlighter.init(builder, main_token + 1);
const field_token_type = fieldTokenType(node, handle);
for (decl.ast.members) |child| {
try gap_highlighter.next(child);
if (node_tags[child].isContainerField()) {
try writeContainerField(builder, arena, store, child, field_token_type, child_frame);
} else {
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, child });
}
}
try gap_highlighter.end(lastToken(tree, node));
},
.error_value => {
if (node_data[node].lhs != 0) {
if (node_data[node].lhs > 0) {
try writeToken(builder, node_data[node].lhs - 1, .keyword);
}
try writeToken(builder, node_data[node].rhs, .errorTag);
@ -548,18 +466,14 @@ fn writeNodeTokens(
try writeTokenMod(builder, param_decl.name_token, .parameter, .{ .declaration = true });
if (param_decl.anytype_ellipsis3) |any_token| {
try writeToken(builder, any_token, .type);
} else if (param_decl.type_expr != 0) try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, param_decl.type_expr });
} else try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, param_decl.type_expr });
}
if (fn_proto.ast.align_expr != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, fn_proto.ast.align_expr });
if (fn_proto.ast.section_expr != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, fn_proto.ast.section_expr });
if (fn_proto.ast.callconv_expr != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, fn_proto.ast.callconv_expr });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, fn_proto.ast.align_expr });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, fn_proto.ast.section_expr });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, fn_proto.ast.callconv_expr });
if (fn_proto.ast.return_type != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, fn_proto.ast.return_type });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, fn_proto.ast.return_type });
if (tag == .fn_decl)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, node_data[node].rhs });
@ -591,12 +505,9 @@ fn writeNodeTokens(
const extra = tree.extraData(node_data[node].rhs, ast.Node.SubRange);
const cases = tree.extra_data[extra.start..extra.end];
var gap_highlighter = GapHighlighter.init(builder, lastToken(tree, node_data[node].lhs) + 1);
for (cases) |case_node| {
try gap_highlighter.next(case_node);
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, case_node });
}
try gap_highlighter.end(lastToken(tree, node));
},
.switch_case_one,
.switch_case,
@ -607,8 +518,8 @@ fn writeNodeTokens(
if (switch_case.ast.values.len == 0) try writeToken(builder, switch_case.ast.arrow_token - 1, .keyword);
try writeToken(builder, switch_case.ast.arrow_token, .operator);
if (switch_case.payload_token) |payload_token| {
const p_token = @boolToInt(token_tags[payload_token] == .asterisk);
try writeToken(builder, p_token, .variable);
const actual_payload = payload_token + @boolToInt(token_tags[payload_token] == .asterisk);
try writeToken(builder, actual_payload, .variable);
}
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, switch_case.ast.target_expr });
},
@ -634,8 +545,7 @@ fn writeNodeTokens(
}
try writeToken(builder, r_pipe, .operator);
}
if (while_node.ast.cont_expr != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, while_node.ast.cont_expr });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, while_node.ast.cont_expr });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, while_node.ast.then_expr });
@ -695,8 +605,7 @@ fn writeNodeTokens(
else => unreachable,
};
if (array_init.ast.type_expr != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, array_init.ast.type_expr });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, array_init.ast.type_expr });
for (array_init.ast.elements) |elem| try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, elem });
},
.struct_init,
@ -734,17 +643,13 @@ fn writeNodeTokens(
} else null;
}
var gap_highlighter = GapHighlighter.init(builder, struct_init.ast.lbrace);
for (struct_init.ast.fields) |field_init| {
try gap_highlighter.next(field_init);
const init_token = tree.firstToken(field_init);
try writeToken(builder, init_token - 3, field_token_type orelse .field); // '.'
try writeToken(builder, init_token - 2, field_token_type orelse .field); // name
try writeToken(builder, init_token - 1, .operator); // '='
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, field_init });
}
try gap_highlighter.end(lastToken(tree, node));
},
.call,
.call_comma,
@ -765,8 +670,8 @@ fn writeNodeTokens(
try writeToken(builder, call.async_token, .keyword);
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, call.ast.fn_expr });
if (builder.current_token) |curr_tok| {
if (curr_tok != lastToken(tree, call.ast.fn_expr) and token_tags[lastToken(tree, call.ast.fn_expr)] == .identifier) {
if (builder.previous_token) |prev| {
if (prev != lastToken(tree, call.ast.fn_expr) and token_tags[lastToken(tree, call.ast.fn_expr)] == .identifier) {
try writeToken(builder, lastToken(tree, call.ast.fn_expr), .function);
}
}
@ -787,10 +692,8 @@ fn writeNodeTokens(
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, slice.ast.start });
try writeToken(builder, lastToken(tree, slice.ast.start) + 1, .operator);
if (slice.ast.end != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, slice.ast.end });
if (slice.ast.sentinel != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, slice.ast.sentinel });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, slice.ast.end });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, slice.ast.sentinel });
},
.array_access => {
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, node_data[node].lhs });
@ -813,13 +716,11 @@ fn writeNodeTokens(
try writeToken(builder, main_token, .keyword);
if (node_data[node].lhs != 0)
try writeToken(builder, node_data[node].lhs, .label);
if (node_data[node].rhs != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, node_data[node].rhs });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, node_data[node].rhs });
},
.@"suspend", .@"return" => {
try writeToken(builder, main_token, .keyword);
if (node_data[node].lhs != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, node_data[node].lhs });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, node_data[node].lhs });
},
.integer_literal,
.float_literal,
@ -958,8 +859,7 @@ fn writeNodeTokens(
};
try writeToken(builder, main_token, token_type);
if (node_data[node].rhs != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, node_data[node].rhs });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, node_data[node].rhs });
},
.field_access => {
const data = node_data[node];
@ -1059,8 +959,7 @@ fn writeNodeTokens(
tree.arrayTypeSentinel(node);
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, array_type.ast.elem_count });
if (array_type.ast.sentinel != 0)
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, array_type.ast.sentinel });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, array_type.ast.sentinel });
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, array_type.ast.elem_type });
},
@ -1126,19 +1025,20 @@ fn writeContainerField(
}
// TODO Range version, edit version.
pub fn writeAllSemanticTokens(arena: *std.heap.ArenaAllocator, store: *DocumentStore, handle: *DocumentStore.Handle, encoding: offsets.Encoding) ![]u32 {
pub fn writeAllSemanticTokens(
arena: *std.heap.ArenaAllocator,
store: *DocumentStore,
handle: *DocumentStore.Handle,
encoding: offsets.Encoding,
) ![]u32 {
var builder = Builder.init(arena.child_allocator, handle, encoding);
errdefer builder.arr.deinit();
// reverse the ast from the root declarations
var gap_highlighter = GapHighlighter.init(&builder, 0);
var buf: [2]ast.Node.Index = undefined;
for (declMembers(handle.tree, 0, &buf)) |child| {
try gap_highlighter.next(child);
try writeNodeTokens(&builder, arena, store, child);
}
try gap_highlighter.end(@truncate(u32, handle.tree.tokens.len) - 1);
return builder.toOwnedSlice();
}