Merge pull request #1103 from Techatrix/refactor-semantic-tokens

provide more semantic token information + refactor and fixes
This commit is contained in:
Lee Cannon 2023-05-21 13:52:30 -07:00 committed by GitHub
commit af65197cc2
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3 changed files with 166 additions and 199 deletions

View File

@ -562,22 +562,8 @@ fn initializeHandler(server: *Server, request: types.InitializeParams) Error!typ
.full = .{ .bool = true }, .full = .{ .bool = true },
.range = .{ .bool = true }, .range = .{ .bool = true },
.legend = .{ .legend = .{
.tokenTypes = comptime block: { .tokenTypes = std.meta.fieldNames(semantic_tokens.TokenType),
const tokTypeFields = std.meta.fields(semantic_tokens.TokenType); .tokenModifiers = std.meta.fieldNames(semantic_tokens.TokenModifiers),
var names: [tokTypeFields.len][]const u8 = undefined;
for (tokTypeFields, &names) |field, *name| {
name.* = field.name;
}
break :block &names;
},
.tokenModifiers = comptime block: {
const tokModFields = std.meta.fields(semantic_tokens.TokenModifiers);
var names: [tokModFields.len][]const u8 = undefined;
for (tokModFields, &names) |field, *name| {
name.* = field.name;
}
break :block &names;
},
}, },
}, },
}, },

View File

@ -13,7 +13,7 @@ pub const TokenType = enum(u32) {
parameter, parameter,
variable, variable,
enumMember, enumMember,
field, property,
errorTag, errorTag,
function, function,
keyword, keyword,
@ -24,19 +24,27 @@ pub const TokenType = enum(u32) {
builtin, builtin,
label, label,
keywordLiteral, keywordLiteral,
namespace,
@"struct",
@"enum",
@"union",
@"opaque",
}; };
pub const TokenModifiers = packed struct(u16) { pub const TokenModifiers = packed struct(u16) {
namespace: bool = false,
@"struct": bool = false,
@"enum": bool = false,
@"union": bool = false,
@"opaque": bool = false,
declaration: bool = false, declaration: bool = false,
definition: bool = false,
readonly: bool = false,
static: bool = false,
deprecated: bool = false,
abstract: bool = false,
@"async": bool = false, @"async": bool = false,
modification: bool = false,
documentation: bool = false, documentation: bool = false,
defaultLibrary: bool = false,
generic: bool = false, generic: bool = false,
_: u7 = 0, _: u5 = 0,
}; };
const Builder = struct { const Builder = struct {
@ -44,88 +52,26 @@ const Builder = struct {
analyser: *Analyser, analyser: *Analyser,
handle: *const DocumentStore.Handle, handle: *const DocumentStore.Handle,
previous_source_index: usize = 0, previous_source_index: usize = 0,
previous_token: ?Ast.TokenIndex = null,
token_buffer: std.ArrayListUnmanaged(u32) = .{}, token_buffer: std.ArrayListUnmanaged(u32) = .{},
encoding: offsets.Encoding, encoding: offsets.Encoding,
limited: bool, limited: bool,
fn add(self: *Builder, token: Ast.TokenIndex, token_type: TokenType, token_modifiers: TokenModifiers) !void { fn add(self: *Builder, token: Ast.TokenIndex, token_type: TokenType, token_modifiers: TokenModifiers) error{OutOfMemory}!void {
switch (token_type) {
.type,
.parameter,
.variable,
.enumMember,
.field,
.errorTag,
.function,
.label,
=> {},
else => if (self.limited) return,
}
const tree = self.handle.tree; const tree = self.handle.tree;
const starts = tree.tokens.items(.start); const starts = tree.tokens.items(.start);
if (starts[token] < self.previous_source_index) return; try self.handleComments(self.previous_source_index, starts[token]);
try self.addDirect(token_type, token_modifiers, offsets.tokenToLoc(tree, token));
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]);
}
}
self.previous_token = token;
try self.handleComments(starts[token -| 1], starts[token]);
const length = offsets.tokenLength(tree, token, self.encoding);
try self.addDirect(token_type, token_modifiers, starts[token], length);
} }
fn finish(self: *Builder) error{OutOfMemory}!types.SemanticTokens { fn finish(self: *Builder) error{OutOfMemory}!types.SemanticTokens {
const starts = self.handle.tree.tokens.items(.start); try self.handleComments(self.previous_source_index, self.handle.tree.source.len);
const last_token = self.previous_token orelse 0;
var i = last_token + 1;
while (i < starts.len) : (i += 1) {
try handleComments(self, starts[i - 1], starts[i]);
}
try self.handleComments(starts[starts.len - 1], self.handle.tree.source.len);
return .{ .data = try self.token_buffer.toOwnedSlice(self.arena) }; return .{ .data = try self.token_buffer.toOwnedSlice(self.arena) };
} }
/// 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_unreachable => .keywordLiteral,
.number_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. /// Highlight normal comments and doc comments.
fn handleComments(self: *Builder, from: usize, to: usize) !void { fn handleComments(self: *Builder, from: usize, to: usize) error{OutOfMemory}!void {
if (from == to) return; if (from >= to) return;
std.debug.assert(from < to);
const source = self.handle.tree.source; const source = self.handle.tree.source;
@ -165,19 +111,19 @@ const Builder = struct {
while (i < to and source[i] != '\n') : (i += 1) {} while (i < to and source[i] != '\n') : (i += 1) {}
const length = offsets.locLength(self.handle.tree.source, .{ .start = comment_start, .end = i }, self.encoding); try self.addDirect(.comment, mods, .{ .start = comment_start, .end = i });
try self.addDirect(TokenType.comment, mods, comment_start, length);
} }
} }
fn addDirect(self: *Builder, tok_type: TokenType, tok_mod: TokenModifiers, start: usize, length: usize) !void { fn addDirect(self: *Builder, token_type: TokenType, token_modifiers: TokenModifiers, loc: offsets.Loc) error{OutOfMemory}!void {
if (start < self.previous_source_index) return; std.debug.assert(loc.start <= loc.end);
switch (tok_type) { if (loc.start < self.previous_source_index) return;
switch (token_type) {
.type, .type,
.parameter, .parameter,
.variable, .variable,
.enumMember, .enumMember,
.field, .property,
.errorTag, .errorTag,
.function, .function,
.label, .label,
@ -185,17 +131,18 @@ const Builder = struct {
else => if (self.limited) return, else => if (self.limited) return,
} }
const text = self.handle.tree.source[self.previous_source_index..start]; const delta_text = self.handle.tree.source[self.previous_source_index..loc.start];
const delta = offsets.indexToPosition(text, text.len, self.encoding); const delta = offsets.indexToPosition(delta_text, delta_text.len, self.encoding);
const length = offsets.locLength(self.handle.tree.source, loc, self.encoding);
try self.token_buffer.appendSlice(self.arena, &.{ try self.token_buffer.appendSlice(self.arena, &.{
@truncate(u32, delta.line), @truncate(u32, delta.line),
@truncate(u32, delta.character), @truncate(u32, delta.character),
@truncate(u32, length), @truncate(u32, length),
@enumToInt(tok_type), @enumToInt(token_type),
@bitCast(u16, tok_mod), @bitCast(u16, token_modifiers),
}); });
self.previous_source_index = start; self.previous_source_index = loc.start;
} }
}; };
@ -223,8 +170,9 @@ fn fieldTokenType(container_decl: Ast.Node.Index, handle: *const DocumentStore.H
const main_token = handle.tree.nodes.items(.main_token)[container_decl]; const main_token = handle.tree.nodes.items(.main_token)[container_decl];
if (main_token > handle.tree.tokens.len) return null; if (main_token > handle.tree.tokens.len) return null;
return @as(?TokenType, switch (handle.tree.tokens.items(.tag)[main_token]) { return @as(?TokenType, switch (handle.tree.tokens.items(.tag)[main_token]) {
.keyword_struct => .field, .keyword_struct, .keyword_union => .property,
.keyword_union, .keyword_enum => .enumMember, .keyword_enum => .enumMember,
.keyword_error => .errorTag,
else => null, else => null,
}); });
} }
@ -232,18 +180,22 @@ fn fieldTokenType(container_decl: Ast.Node.Index, handle: *const DocumentStore.H
fn colorIdentifierBasedOnType(builder: *Builder, type_node: Analyser.TypeWithHandle, target_tok: Ast.TokenIndex, tok_mod: TokenModifiers) !void { fn colorIdentifierBasedOnType(builder: *Builder, type_node: Analyser.TypeWithHandle, target_tok: Ast.TokenIndex, tok_mod: TokenModifiers) !void {
if (type_node.type.is_type_val) { if (type_node.type.is_type_val) {
var new_tok_mod = tok_mod; var new_tok_mod = tok_mod;
if (type_node.isNamespace())
new_tok_mod.namespace = true
else if (type_node.isStructType())
new_tok_mod.@"struct" = true
else if (type_node.isEnumType())
new_tok_mod.@"enum" = true
else if (type_node.isUnionType())
new_tok_mod.@"union" = true
else if (type_node.isOpaqueType())
new_tok_mod.@"opaque" = true;
try writeTokenMod(builder, target_tok, .type, new_tok_mod); const token_type: TokenType =
if (type_node.isNamespace())
.namespace
else if (type_node.isStructType())
.@"struct"
else if (type_node.isEnumType())
.@"enum"
else if (type_node.isUnionType())
.@"union"
else if (type_node.isOpaqueType())
.@"opaque"
else
.type;
try writeTokenMod(builder, target_tok, token_type, new_tok_mod);
} else if (type_node.isTypeFunc()) { } else if (type_node.isTypeFunc()) {
try writeTokenMod(builder, target_tok, .type, tok_mod); try writeTokenMod(builder, target_tok, .type, tok_mod);
} else if (type_node.isFunc()) { } else if (type_node.isFunc()) {
@ -290,7 +242,7 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
.container_field, .container_field,
.container_field_align, .container_field_align,
.container_field_init, .container_field_init,
=> try writeContainerField(builder, node, .field), => try writeContainerField(builder, node, 0),
.@"errdefer" => { .@"errdefer" => {
try writeToken(builder, main_token, .keyword); try writeToken(builder, main_token, .keyword);
@ -313,12 +265,8 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
const statements = ast.blockStatements(tree, node, &buffer).?; const statements = ast.blockStatements(tree, node, &buffer).?;
for (statements) |child| { for (statements) |child| {
if (node_tags[child].isContainerField()) {
try writeContainerField(builder, child, .field);
} else {
try callWriteNodeTokens(allocator, .{ builder, child }); try callWriteNodeTokens(allocator, .{ builder, child });
} }
}
}, },
.global_var_decl, .global_var_decl,
.local_var_decl, .local_var_decl,
@ -326,9 +274,6 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
.aligned_var_decl, .aligned_var_decl,
=> { => {
const var_decl = tree.fullVarDecl(node).?; const var_decl = tree.fullVarDecl(node).?;
if (Analyser.getDocCommentTokenIndex(token_tags, main_token)) |comment_idx|
try writeDocComments(builder, tree, comment_idx);
try writeToken(builder, var_decl.visib_token, .keyword); try writeToken(builder, var_decl.visib_token, .keyword);
try writeToken(builder, var_decl.extern_export_token, .keyword); try writeToken(builder, var_decl.extern_export_token, .keyword);
try writeToken(builder, var_decl.threadlocal_token, .keyword); try writeToken(builder, var_decl.threadlocal_token, .keyword);
@ -387,10 +332,9 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
try writeToken(builder, enum_token, .keyword); try writeToken(builder, enum_token, .keyword);
} else try callWriteNodeTokens(allocator, .{ builder, decl.ast.arg }); } else try callWriteNodeTokens(allocator, .{ builder, decl.ast.arg });
const field_token_type = fieldTokenType(node, handle);
for (decl.ast.members) |child| { for (decl.ast.members) |child| {
if (node_tags[child].isContainerField()) { if (node_tags[child].isContainerField()) {
try writeContainerField(builder, child, field_token_type); try writeContainerField(builder, child, node);
} else { } else {
try callWriteNodeTokens(allocator, .{ builder, child }); try callWriteNodeTokens(allocator, .{ builder, child });
} }
@ -447,8 +391,6 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
=> { => {
var buf: [1]Ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const fn_proto: Ast.full.FnProto = tree.fullFnProto(&buf, node).?; const fn_proto: Ast.full.FnProto = tree.fullFnProto(&buf, node).?;
if (Analyser.getDocCommentTokenIndex(token_tags, main_token)) |docs|
try writeDocComments(builder, tree, docs);
try writeToken(builder, fn_proto.visib_token, .keyword); try writeToken(builder, fn_proto.visib_token, .keyword);
try writeToken(builder, fn_proto.extern_export_inline_token, .keyword); try writeToken(builder, fn_proto.extern_export_inline_token, .keyword);
@ -487,22 +429,10 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
if (tag == .fn_decl) if (tag == .fn_decl)
try callWriteNodeTokens(allocator, .{ builder, node_data[node].rhs }); try callWriteNodeTokens(allocator, .{ builder, node_data[node].rhs });
}, },
.anyframe_type => { .anyframe_type, .@"defer" => {
try writeToken(builder, main_token, .keyword); try writeToken(builder, main_token, .keyword);
try callWriteNodeTokens(allocator, .{ builder, node_data[node].rhs }); try callWriteNodeTokens(allocator, .{ builder, node_data[node].rhs });
}, },
.@"defer" => {
try writeToken(builder, main_token, .keyword);
try callWriteNodeTokens(allocator, .{ builder, node_data[node].rhs });
},
.@"comptime",
.@"nosuspend",
=> {
if (Analyser.getDocCommentTokenIndex(token_tags, main_token)) |doc|
try writeDocComments(builder, tree, doc);
try writeToken(builder, main_token, .keyword);
try callWriteNodeTokens(allocator, .{ builder, node_data[node].lhs });
},
.@"switch", .@"switch",
.switch_comma, .switch_comma,
=> { => {
@ -593,8 +523,10 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
try writeToken(builder, if_node.ast.if_token, .keyword); try writeToken(builder, if_node.ast.if_token, .keyword);
try callWriteNodeTokens(allocator, .{ builder, if_node.ast.cond_expr }); try callWriteNodeTokens(allocator, .{ builder, if_node.ast.cond_expr });
if (if_node.payload_token) |payload| { if (if_node.payload_token) |payload_token| {
try writeTokenMod(builder, payload, .variable, .{ .declaration = true }); const capture_is_ref = token_tags[payload_token] == .asterisk;
const actual_payload = payload_token + @boolToInt(capture_is_ref);
try writeTokenMod(builder, actual_payload, .variable, .{ .declaration = true });
} }
try callWriteNodeTokens(allocator, .{ builder, if_node.ast.then_expr }); try callWriteNodeTokens(allocator, .{ builder, if_node.ast.then_expr });
@ -651,8 +583,8 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
for (struct_init.ast.fields) |field_init| { for (struct_init.ast.fields) |field_init| {
const init_token = tree.firstToken(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 - 3, field_token_type orelse .property); // '.'
try writeToken(builder, init_token - 2, field_token_type orelse .field); // name try writeToken(builder, init_token - 2, field_token_type orelse .property); // name
try writeToken(builder, init_token - 1, .operator); // '=' try writeToken(builder, init_token - 1, .operator); // '='
try callWriteNodeTokens(allocator, .{ builder, field_init }); try callWriteNodeTokens(allocator, .{ builder, field_init });
} }
@ -672,11 +604,6 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
try writeToken(builder, call.async_token, .keyword); try writeToken(builder, call.async_token, .keyword);
try callWriteNodeTokens(allocator, .{ builder, call.ast.fn_expr }); try callWriteNodeTokens(allocator, .{ builder, call.ast.fn_expr });
if (builder.previous_token) |prev| {
if (prev != ast.lastToken(tree, call.ast.fn_expr) and token_tags[ast.lastToken(tree, call.ast.fn_expr)] == .identifier) {
try writeToken(builder, ast.lastToken(tree, call.ast.fn_expr), .function);
}
}
for (call.ast.params) |param| try callWriteNodeTokens(allocator, .{ builder, param }); for (call.ast.params) |param| try callWriteNodeTokens(allocator, .{ builder, param });
}, },
.slice, .slice,
@ -712,7 +639,7 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
if (node_data[node].lhs != 0) if (node_data[node].lhs != 0)
try writeToken(builder, node_data[node].lhs, .label); try writeToken(builder, node_data[node].lhs, .label);
}, },
.@"suspend", .@"return" => { .@"comptime", .@"nosuspend", .@"suspend", .@"return" => {
try writeToken(builder, main_token, .keyword); try writeToken(builder, main_token, .keyword);
try callWriteNodeTokens(allocator, .{ builder, node_data[node].lhs }); try callWriteNodeTokens(allocator, .{ builder, node_data[node].lhs });
}, },
@ -797,9 +724,6 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
.asm_input, .asm_input,
=> unreachable, => unreachable,
.test_decl => { .test_decl => {
if (Analyser.getDocCommentTokenIndex(token_tags, main_token)) |doc|
try writeDocComments(builder, tree, doc);
try writeToken(builder, main_token, .keyword); try writeToken(builder, main_token, .keyword);
switch (token_tags[node_data[node].lhs]) { switch (token_tags[node_data[node].lhs]) {
.string_literal => try writeToken(builder, node_data[node].lhs, .string), .string_literal => try writeToken(builder, node_data[node].lhs, .string),
@ -909,7 +833,7 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
const tok_type: ?TokenType = if (ast.isContainer(lhs_type.handle.tree, left_type_node)) const tok_type: ?TokenType = if (ast.isContainer(lhs_type.handle.tree, left_type_node))
fieldTokenType(decl_node, lhs_type.handle) fieldTokenType(decl_node, lhs_type.handle)
else if (left_type_node == 0) else if (left_type_node == 0)
TokenType.field .property
else else
null; null;
@ -993,20 +917,23 @@ fn writeNodeTokens(builder: *Builder, node: Ast.Node.Index) error{OutOfMemory}!v
} }
} }
fn writeContainerField(builder: *Builder, node: Ast.Node.Index, field_token_type: ?TokenType) !void { fn writeContainerField(builder: *Builder, node: Ast.Node.Index, container_decl: Ast.Node.Index) !void {
const tree = builder.handle.tree; const tree = builder.handle.tree;
const container_field = tree.fullContainerField(node).?;
const base = tree.nodes.items(.main_token)[node];
const tokens = tree.tokens.items(.tag);
var allocator = builder.arena; var allocator = builder.arena;
if (Analyser.getDocCommentTokenIndex(tokens, base)) |docs| var container_field = tree.fullContainerField(node).?;
try writeDocComments(builder, tree, docs); const field_token_type = fieldTokenType(container_decl, builder.handle) orelse .property;
const token_tags = tree.tokens.items(.tag);
const main_tokens = tree.nodes.items(.main_token);
if (container_decl != 0 and token_tags[main_tokens[container_decl]] != .keyword_struct) {
container_field.convertToNonTupleLike(tree.nodes);
}
try writeToken(builder, container_field.comptime_token, .keyword); try writeToken(builder, container_field.comptime_token, .keyword);
if (!container_field.ast.tuple_like) { if (!container_field.ast.tuple_like) {
if (field_token_type) |tok_type| try writeToken(builder, container_field.ast.main_token, tok_type); try writeToken(builder, container_field.ast.main_token, field_token_type);
} }
if (container_field.ast.type_expr != 0) { if (container_field.ast.type_expr != 0) {
@ -1017,13 +944,13 @@ fn writeContainerField(builder: *Builder, node: Ast.Node.Index, field_token_type
} }
} }
if (container_field.ast.value_expr != 0) block: { if (container_field.ast.value_expr != 0) {
const eq_tok: Ast.TokenIndex = if (container_field.ast.align_expr != 0) const eq_tok: Ast.TokenIndex = if (container_field.ast.align_expr != 0)
ast.lastToken(tree, container_field.ast.align_expr) + 2 ast.lastToken(tree, container_field.ast.align_expr) + 2
else if (container_field.ast.type_expr != 0) else if (container_field.ast.type_expr != 0)
ast.lastToken(tree, container_field.ast.type_expr) + 1 ast.lastToken(tree, container_field.ast.type_expr) + 1
else else
break :block; container_field.ast.main_token + 1;
try writeToken(builder, eq_tok, .operator); try writeToken(builder, eq_tok, .operator);
try callWriteNodeTokens(allocator, .{ builder, container_field.ast.value_expr }); try callWriteNodeTokens(allocator, .{ builder, container_field.ast.value_expr });

View File

@ -15,7 +15,6 @@ test "semantic tokens - empty" {
} }
test "semantic tokens - comment" { test "semantic tokens - comment" {
if (true) return error.SkipZigTest; // TODO
try testSemanticTokens( try testSemanticTokens(
\\// hello world \\// hello world
, &.{ , &.{
@ -27,6 +26,14 @@ test "semantic tokens - comment" {
, &.{ , &.{
.{ "//! hello world", .comment, .{ .documentation = true } }, .{ "//! hello world", .comment, .{ .documentation = true } },
}); });
try testSemanticTokens(
\\//! first line
\\//! second line
\\
, &.{
.{ "//! first line", .comment, .{ .documentation = true } },
.{ "//! second line", .comment, .{ .documentation = true } },
});
try testSemanticTokens( try testSemanticTokens(
\\/// hello world \\/// hello world
\\const a; \\const a;
@ -190,12 +197,13 @@ test "semantic tokens - operators" {
} }
test "semantic tokens - field access" { test "semantic tokens - field access" {
if (builtin.target.isWasm()) return error.SkipZigTest;
// this will make sure that the std module can be resolved // this will make sure that the std module can be resolved
try testSemanticTokens( try testSemanticTokens(
\\const std = @import("std"); \\const std = @import("std");
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "std", .type, .{ .namespace = true, .declaration = true } }, .{ "std", .namespace, .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "@import", .builtin, .{} }, .{ "@import", .builtin, .{} },
.{ "\"std\"", .string, .{} }, .{ "\"std\"", .string, .{} },
@ -205,17 +213,53 @@ test "semantic tokens - field access" {
\\const Ast = std.zig.Ast; \\const Ast = std.zig.Ast;
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "std", .type, .{ .namespace = true, .declaration = true } }, .{ "std", .namespace, .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "@import", .builtin, .{} }, .{ "@import", .builtin, .{} },
.{ "\"std\"", .string, .{} }, .{ "\"std\"", .string, .{} },
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Ast", .type, .{ .@"struct" = true, .declaration = true } }, .{ "Ast", .@"struct", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "std", .type, .{ .namespace = true } }, .{ "std", .namespace, .{} },
.{ "zig", .type, .{ .namespace = true } }, .{ "zig", .namespace, .{} },
.{ "Ast", .type, .{ .@"struct" = true } }, .{ "Ast", .@"struct", .{} },
});
}
test "semantic tokens - call" {
try testSemanticTokens(
\\fn foo() void {}
\\const alpha = foo();
, &.{
.{ "fn", .keyword, .{} },
.{ "foo", .function, .{ .declaration = true } },
.{ "void", .type, .{} },
.{ "const", .keyword, .{} },
.{ "alpha", .variable, .{ .declaration = true } },
.{ "=", .operator, .{} },
.{ "foo", .function, .{} },
});
try testSemanticTokens(
\\const ns = struct {
\\ fn foo() void {}
\\};
\\const alpha = ns.foo();
, &.{
.{ "const", .keyword, .{} },
.{ "ns", .namespace, .{ .declaration = true } },
.{ "=", .operator, .{} },
.{ "struct", .keyword, .{} },
.{ "fn", .keyword, .{} },
.{ "foo", .function, .{ .declaration = true } },
.{ "void", .type, .{} },
.{ "const", .keyword, .{} },
.{ "alpha", .variable, .{ .declaration = true } },
.{ "=", .operator, .{} },
.{ "ns", .namespace, .{} },
.{ "foo", .function, .{} },
}); });
} }
@ -449,7 +493,7 @@ test "semantic tokens - struct" {
\\const Foo = struct {}; \\const Foo = struct {};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .namespace = true, .declaration = true } }, .{ "Foo", .namespace, .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "struct", .keyword, .{} }, .{ "struct", .keyword, .{} },
}); });
@ -457,7 +501,7 @@ test "semantic tokens - struct" {
\\const Foo = packed struct(u32) {}; \\const Foo = packed struct(u32) {};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .namespace = true, .declaration = true } }, .{ "Foo", .namespace, .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "packed", .keyword, .{} }, .{ "packed", .keyword, .{} },
.{ "struct", .keyword, .{} }, .{ "struct", .keyword, .{} },
@ -470,12 +514,12 @@ test "semantic tokens - struct" {
\\}; \\};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"struct" = true, .declaration = true } }, .{ "Foo", .@"struct", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "struct", .keyword, .{} }, .{ "struct", .keyword, .{} },
.{ "alpha", .field, .{} }, .{ "alpha", .property, .{} },
.{ "u32", .type, .{} }, .{ "u32", .type, .{} },
.{ "beta", .field, .{} }, .{ "beta", .property, .{} },
.{ "void", .type, .{} }, .{ "void", .type, .{} },
}); });
try testSemanticTokens( try testSemanticTokens(
@ -485,15 +529,15 @@ test "semantic tokens - struct" {
\\}; \\};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"struct" = true, .declaration = true } }, .{ "Foo", .@"struct", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "struct", .keyword, .{} }, .{ "struct", .keyword, .{} },
.{ "alpha", .field, .{} }, .{ "alpha", .property, .{} },
.{ "u32", .type, .{} }, .{ "u32", .type, .{} },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "3", .number, .{} }, .{ "3", .number, .{} },
.{ "comptime", .keyword, .{} }, .{ "comptime", .keyword, .{} },
.{ "beta", .field, .{} }, .{ "beta", .property, .{} },
.{ "void", .type, .{} }, .{ "void", .type, .{} },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
}); });
@ -509,7 +553,7 @@ test "semantic tokens - struct" {
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "u32", .type, .{} }, .{ "u32", .type, .{} },
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"struct" = true, .declaration = true } }, .{ "Foo", .@"struct", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "struct", .keyword, .{} }, .{ "struct", .keyword, .{} },
.{ "u32", .type, .{} }, .{ "u32", .type, .{} },
@ -524,7 +568,7 @@ test "semantic tokens - union" {
\\const Foo = union {}; \\const Foo = union {};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"union" = true, .declaration = true } }, .{ "Foo", .@"union", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "union", .keyword, .{} }, .{ "union", .keyword, .{} },
}); });
@ -532,24 +576,23 @@ test "semantic tokens - union" {
\\const Foo = packed union(enum) {}; \\const Foo = packed union(enum) {};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"union" = true, .declaration = true } }, .{ "Foo", .@"union", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "packed", .keyword, .{} }, .{ "packed", .keyword, .{} },
.{ "union", .keyword, .{} }, .{ "union", .keyword, .{} },
.{ "enum", .keyword, .{} }, .{ "enum", .keyword, .{} },
}); });
if (true) return error.SkipZigTest; // TODO
try testSemanticTokens( try testSemanticTokens(
\\const Foo = union(E) { \\const Foo = union(E) {
\\ alpha, \\ alpha,
\\}; \\};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"union" = true, .declaration = true } }, .{ "Foo", .@"union", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "union", .keyword, .{} }, .{ "union", .keyword, .{} },
.{ "E", .variable, .{} }, .{ "E", .variable, .{} },
.{ "alpha", .field, .{} }, .{ "alpha", .property, .{} },
}); });
try testSemanticTokens( try testSemanticTokens(
\\const Foo = union(E) { \\const Foo = union(E) {
@ -558,13 +601,13 @@ test "semantic tokens - union" {
\\}; \\};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"union" = true, .declaration = true } }, .{ "Foo", .@"union", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "union", .keyword, .{} }, .{ "union", .keyword, .{} },
.{ "E", .variable, .{} }, .{ "E", .variable, .{} },
.{ "alpha", .field, .{} }, .{ "alpha", .property, .{} },
.{ "beta", .field, .{} }, .{ "beta", .property, .{} },
.{ "void", .keyword, .{} }, .{ "void", .type, .{} },
}); });
try testSemanticTokens( try testSemanticTokens(
\\const Foo = union(E) { \\const Foo = union(E) {
@ -572,45 +615,46 @@ test "semantic tokens - union" {
\\}; \\};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"union" = true, .declaration = true } }, .{ "Foo", .@"union", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "union", .keyword, .{} }, .{ "union", .keyword, .{} },
.{ "E", .variable, .{} }, .{ "E", .variable, .{} },
.{ "alpha", .field, .{} }, .{ "alpha", .property, .{} },
.{ "void", .keyword, .{} }, .{ "void", .type, .{} },
.{ "align", .keyword, .{} }, .{ "align", .keyword, .{} },
.{ "2", .number, .{} }, .{ "2", .number, .{} },
}); });
} }
test "semantic tokens - enum" { test "semantic tokens - enum" {
if (true) return error.SkipZigTest; // TODO
try testSemanticTokens( try testSemanticTokens(
\\const Foo = enum {}; \\const Foo = enum {};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"enum" = true, .declaration = true } }, .{ "Foo", .@"enum", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "enum", .keyword, .{} }, .{ "enum", .keyword, .{} },
}); });
try testSemanticTokens( try testSemanticTokens(
\\const Foo = enum { \\const Foo = enum {
\\ alpha, \\ alpha = 3,
\\ beta, \\ beta,
\\}; \\};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"enum" = true, .declaration = true } }, .{ "Foo", .@"enum", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "enum", .keyword, .{} }, .{ "enum", .keyword, .{} },
.{ "alpha", .enumMember, .{} }, .{ "alpha", .enumMember, .{} },
.{ "=", .operator, .{} },
.{ "3", .number, .{} },
.{ "beta", .enumMember, .{} }, .{ "beta", .enumMember, .{} },
}); });
try testSemanticTokens( try testSemanticTokens(
\\const Foo = enum(u4) {}; \\const Foo = enum(u4) {};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"enum" = true, .declaration = true } }, .{ "Foo", .@"enum", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "enum", .keyword, .{} }, .{ "enum", .keyword, .{} },
.{ "u4", .type, .{} }, .{ "u4", .type, .{} },
@ -644,7 +688,7 @@ test "semantic tokens - opaque" {
\\const Foo = opaque {}; \\const Foo = opaque {};
, &.{ , &.{
.{ "const", .keyword, .{} }, .{ "const", .keyword, .{} },
.{ "Foo", .type, .{ .@"opaque" = true, .declaration = true } }, .{ "Foo", .@"opaque", .{ .declaration = true } },
.{ "=", .operator, .{} }, .{ "=", .operator, .{} },
.{ "opaque", .keyword, .{} }, .{ "opaque", .keyword, .{} },
}); });
@ -765,6 +809,16 @@ test "semantic tokens - if" {
.{ "err", .variable, .{ .declaration = true } }, .{ "err", .variable, .{ .declaration = true } },
.{ "err", .variable, .{} }, .{ "err", .variable, .{} },
}); });
try testSemanticTokens(
\\const foo = if (null) |*value| {};
, &.{
.{ "const", .keyword, .{} },
.{ "foo", .variable, .{ .declaration = true } },
.{ "=", .operator, .{} },
.{ "if", .keyword, .{} },
.{ "null", .keywordLiteral, .{} },
.{ "value", .variable, .{ .declaration = true } },
});
} }
test "semantic tokens - while" { test "semantic tokens - while" {