zls/src/Server.zig

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const Server = @This();
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const std = @import("std");
const zig_builtin = @import("builtin");
const build_options = @import("build_options");
const Config = @import("Config.zig");
const DocumentStore = @import("DocumentStore.zig");
const requests = @import("requests.zig");
const types = @import("types.zig");
const analysis = @import("analysis.zig");
const ast = @import("ast.zig");
const references = @import("references.zig");
const offsets = @import("offsets.zig");
const semantic_tokens = @import("semantic_tokens.zig");
const inlay_hints = @import("inlay_hints.zig");
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const code_actions = @import("code_actions.zig");
const shared = @import("shared.zig");
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const Ast = std.zig.Ast;
const tracy = @import("tracy.zig");
const uri_utils = @import("uri.zig");
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const diff = @import("diff.zig");
const ComptimeInterpreter = @import("ComptimeInterpreter.zig");
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const data = @import("data/data.zig");
const snipped_data = @import("data/snippets.zig");
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const log = std.log.scoped(.server);
// Server fields
config: *Config,
allocator: std.mem.Allocator = undefined,
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arena: std.heap.ArenaAllocator = undefined,
document_store: DocumentStore = undefined,
builtin_completions: std.ArrayListUnmanaged(types.CompletionItem),
client_capabilities: ClientCapabilities = .{},
offset_encoding: offsets.Encoding = .utf16,
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status: enum {
/// the server has not received a `initialize` request
uninitialized,
/// the server has recieved a `initialize` request and is awaiting the `initialized` notification
initializing,
/// the server has been initialized and is ready to received requests
initialized,
/// the server has been shutdown and can't handle any more requests
shutdown,
},
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// Code was based off of https://github.com/andersfr/zig-lsp/blob/master/server.zig
const ClientCapabilities = struct {
supports_snippets: bool = false,
supports_semantic_tokens: bool = false,
supports_inlay_hints: bool = false,
hover_supports_md: bool = false,
completion_doc_supports_md: bool = false,
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label_details_support: bool = false,
supports_configuration: bool = false,
};
const not_implemented_response =
\\,"error":{"code":-32601,"message":"NotImplemented"}}
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;
const null_result_response =
\\,"result":null}
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;
const empty_result_response =
\\,"result":{}}
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;
const empty_array_response =
\\,"result":[]}
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;
const edit_not_applied_response =
\\,"result":{"applied":false,"failureReason":"feature not implemented"}}
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;
const no_completions_response =
\\,"result":{"isIncomplete":false,"items":[]}}
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;
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const no_signatures_response =
\\,"result":{"signatures":[]}}
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;
const no_semantic_tokens_response =
\\,"result":{"data":[]}}
;
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/// Sends a request or response
fn send(writer: anytype, allocator: std.mem.Allocator, reqOrRes: anytype) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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var arr = std.ArrayListUnmanaged(u8){};
defer arr.deinit(allocator);
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try std.json.stringify(reqOrRes, .{}, arr.writer(allocator));
try writer.print("Content-Length: {}\r\n\r\n", .{arr.items.len});
try writer.writeAll(arr.items);
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}
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pub fn sendErrorResponse(writer: anytype, allocator: std.mem.Allocator, code: types.ErrorCodes, message: []const u8) !void {
try send(writer, allocator, .{
.@"error" = types.ResponseError{
.code = @enumToInt(code),
.message = message,
.data = .Null,
},
});
}
fn respondGeneric(writer: anytype, id: types.RequestId, response: []const u8) !void {
var buffered_writer = std.io.bufferedWriter(writer);
const buf_writer = buffered_writer.writer();
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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const id_len = switch (id) {
.Integer => |id_val| blk: {
if (id_val == 0) break :blk 1;
var digits: usize = 1;
var value = @divTrunc(id_val, 10);
while (value != 0) : (value = @divTrunc(value, 10)) {
digits += 1;
}
break :blk digits;
},
.String => |str_val| str_val.len + 2,
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};
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// Numbers of character that will be printed from this string: len - 1 brackets
const json_fmt = "{{\"jsonrpc\":\"2.0\",\"id\":";
try buf_writer.print("Content-Length: {}\r\n\r\n" ++ json_fmt, .{response.len + id_len + json_fmt.len - 1});
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switch (id) {
.Integer => |int| try buf_writer.print("{}", .{int}),
.String => |str| try buf_writer.print("\"{s}\"", .{str}),
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}
try buf_writer.writeAll(response);
try buffered_writer.flush();
}
fn showMessage(server: *Server, writer: anytype, message_type: types.MessageType, message: []const u8) !void {
try send(writer, server.arena.allocator(), types.Notification{
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.method = "window/showMessage",
.params = .{
.ShowMessage = .{
.type = message_type,
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.message = message,
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},
},
});
}
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fn publishDiagnostics(server: *Server, writer: anytype, handle: DocumentStore.Handle) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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const tree = handle.tree;
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var allocator = server.arena.allocator();
var diagnostics = std.ArrayListUnmanaged(types.Diagnostic){};
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for (tree.errors) |err| {
var mem_buffer: [256]u8 = undefined;
var fbs = std.io.fixedBufferStream(&mem_buffer);
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try tree.renderError(err, fbs.writer());
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try diagnostics.append(allocator, .{
.range = offsets.tokenToRange(tree, err.token, server.offset_encoding),
.severity = .Error,
.code = @tagName(err.tag),
.source = "zls",
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.message = try server.arena.allocator().dupe(u8, fbs.getWritten()),
// .relatedInformation = undefined
});
}
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for (handle.cimports.items(.hash)) |hash, i| {
const result = server.document_store.cimports.get(hash) orelse continue;
if (result != .failure) continue;
const stderr = std.mem.trim(u8, result.failure, " ");
var pos_and_diag_iterator = std.mem.split(u8, stderr, ":");
_ = pos_and_diag_iterator.next(); // skip file path
_ = pos_and_diag_iterator.next(); // skip line
_ = pos_and_diag_iterator.next(); // skip character
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const node = handle.cimports.items(.node)[i];
try diagnostics.append(allocator, .{
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.range = offsets.nodeToRange(handle.tree, node, server.offset_encoding),
.severity = .Error,
.code = "cImport",
.source = "zls",
.message = try allocator.dupe(u8, pos_and_diag_iterator.rest()),
});
}
if (server.config.enable_ast_check_diagnostics and tree.errors.len == 0) {
try getAstCheckDiagnostics(server, handle, &diagnostics);
}
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if (server.config.warn_style) {
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var node: u32 = 0;
while (node < tree.nodes.len) : (node += 1) {
if (ast.isBuiltinCall(tree, node)) {
const builtin_token = tree.nodes.items(.main_token)[node];
const call_name = tree.tokenSlice(builtin_token);
if (!std.mem.eql(u8, call_name, "@import")) continue;
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var buffer: [2]Ast.Node.Index = undefined;
const params = ast.builtinCallParams(tree, node, &buffer).?;
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if (params.len != 1) continue;
const import_str_token = tree.nodes.items(.main_token)[params[0]];
const import_str = tree.tokenSlice(import_str_token);
if (std.mem.startsWith(u8, import_str, "\"./")) {
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try diagnostics.append(allocator, .{
.range = offsets.tokenToRange(tree, import_str_token, server.offset_encoding),
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.severity = .Hint,
.code = "dot_slash_import",
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.source = "zls",
.message = "A ./ is not needed in imports",
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});
}
}
}
// TODO: style warnings for types, values and declarations below root scope
if (tree.errors.len == 0) {
for (tree.rootDecls()) |decl_idx| {
const decl = tree.nodes.items(.tag)[decl_idx];
switch (decl) {
.fn_proto,
.fn_proto_multi,
.fn_proto_one,
.fn_proto_simple,
.fn_decl,
=> blk: {
var buf: [1]Ast.Node.Index = undefined;
const func = ast.fnProto(tree, decl_idx, &buf).?;
if (func.extern_export_inline_token != null) break :blk;
if (func.name_token) |name_token| {
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const is_type_function = analysis.isTypeFunction(tree, func);
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const func_name = tree.tokenSlice(name_token);
if (!is_type_function and !analysis.isCamelCase(func_name)) {
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try diagnostics.append(allocator, .{
.range = offsets.tokenToRange(tree, name_token, server.offset_encoding),
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.severity = .Hint,
.code = "bad_style",
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.source = "zls",
.message = "Functions should be camelCase",
});
} else if (is_type_function and !analysis.isPascalCase(func_name)) {
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try diagnostics.append(allocator, .{
.range = offsets.tokenToRange(tree, name_token, server.offset_encoding),
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.severity = .Hint,
.code = "bad_style",
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.source = "zls",
.message = "Type functions should be PascalCase",
});
}
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}
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},
else => {},
}
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}
}
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}
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for (handle.cimports.items(.hash)) |hash, i| {
const result = server.document_store.cimports.get(hash) orelse continue;
if (result != .failure) continue;
const stderr = std.mem.trim(u8, result.failure, " ");
var pos_and_diag_iterator = std.mem.split(u8, stderr, ":");
_ = pos_and_diag_iterator.next(); // skip file path
_ = pos_and_diag_iterator.next(); // skip line
_ = pos_and_diag_iterator.next(); // skip character
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const node = handle.cimports.items(.node)[i];
try diagnostics.append(allocator, .{
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.range = offsets.nodeToRange(handle.tree, node, server.offset_encoding),
.severity = .Error,
.code = "cImport",
.source = "zls",
.message = try allocator.dupe(u8, pos_and_diag_iterator.rest()),
});
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}
if (server.config.highlight_global_var_declarations) {
const main_tokens = tree.nodes.items(.main_token);
const tags = tree.tokens.items(.tag);
for (tree.rootDecls()) |decl| {
const decl_tag = tree.nodes.items(.tag)[decl];
const decl_main_token = tree.nodes.items(.main_token)[decl];
switch (decl_tag) {
.simple_var_decl,
.aligned_var_decl,
.local_var_decl,
.global_var_decl,
=> {
if (tags[main_tokens[decl]] != .keyword_var) continue; // skip anything immutable
// uncomment this to get a list :)
//log.debug("possible global variable \"{s}\"", .{tree.tokenSlice(decl_main_token + 1)});
try diagnostics.append(allocator, .{
.range = offsets.tokenToRange(tree, decl_main_token, server.offset_encoding),
.severity = .Hint,
.code = "highlight_global_var_declarations",
.source = "zls",
.message = "Global var declaration",
});
},
else => {},
}
}
}
if (handle.interpreter) |int| {
try diagnostics.ensureUnusedCapacity(allocator, int.errors.count());
var err_it = int.errors.iterator();
while (err_it.next()) |err| {
try diagnostics.append(allocator, .{
.range = offsets.nodeToRange(tree, err.key_ptr.*, server.offset_encoding),
.severity = .Error,
.code = err.value_ptr.code,
.source = "zls",
.message = err.value_ptr.message,
});
}
}
// try diagnostics.appendSlice(allocator, handle.interpreter.?.diagnostics.items);
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try send(writer, server.arena.allocator(), types.Notification{
.method = "textDocument/publishDiagnostics",
.params = .{
.PublishDiagnostics = .{
.uri = handle.uri,
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.diagnostics = diagnostics.items,
},
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},
});
}
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fn getAstCheckDiagnostics(
server: *Server,
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handle: DocumentStore.Handle,
diagnostics: *std.ArrayListUnmanaged(types.Diagnostic),
) !void {
var allocator = server.arena.allocator();
const zig_exe_path = server.config.zig_exe_path orelse return;
var process = std.ChildProcess.init(&[_][]const u8{ zig_exe_path, "ast-check", "--color", "off" }, server.allocator);
process.stdin_behavior = .Pipe;
process.stderr_behavior = .Pipe;
process.spawn() catch |err| {
log.warn("Failed to spawn zig ast-check process, error: {}", .{err});
return;
};
try process.stdin.?.writeAll(handle.text);
process.stdin.?.close();
process.stdin = null;
const stderr_bytes = try process.stderr.?.reader().readAllAlloc(server.allocator, std.math.maxInt(usize));
defer server.allocator.free(stderr_bytes);
const term = process.wait() catch |err| {
log.warn("Failed to await zig ast-check process, error: {}", .{err});
return;
};
if (term != .Exited) return;
// NOTE: I believe that with color off it's one diag per line; is this correct?
var line_iterator = std.mem.split(u8, stderr_bytes, "\n");
while (line_iterator.next()) |line| lin: {
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if (!std.mem.startsWith(u8, line, "<stdin>")) continue;
var pos_and_diag_iterator = std.mem.split(u8, line, ":");
const maybe_first = pos_and_diag_iterator.next();
if (maybe_first) |first| {
if (first.len <= 1) break :lin;
} else break;
const utf8_position = types.Position{
.line = (try std.fmt.parseInt(u32, pos_and_diag_iterator.next().?, 10)) - 1,
.character = (try std.fmt.parseInt(u32, pos_and_diag_iterator.next().?, 10)) - 1,
};
// zig uses utf-8 encoding for character offsets
const position = offsets.convertPositionEncoding(handle.text, utf8_position, .utf8, server.offset_encoding);
const range = offsets.tokenPositionToRange(handle.text, position, server.offset_encoding);
const msg = pos_and_diag_iterator.rest()[1..];
if (std.mem.startsWith(u8, msg, "error: ")) {
try diagnostics.append(allocator, .{
.range = range,
.severity = .Error,
.code = "ast_check",
.source = "zls",
.message = try server.arena.allocator().dupe(u8, msg["error: ".len..]),
});
} else if (std.mem.startsWith(u8, msg, "note: ")) {
var latestDiag = &diagnostics.items[diagnostics.items.len - 1];
var fresh = if (latestDiag.relatedInformation) |related_information|
try server.arena.allocator().realloc(@ptrCast([]types.DiagnosticRelatedInformation, related_information), related_information.len + 1)
else
try server.arena.allocator().alloc(types.DiagnosticRelatedInformation, 1);
const location = types.Location{
.uri = handle.uri,
.range = range,
};
fresh[fresh.len - 1] = .{
.location = location,
.message = try server.arena.allocator().dupe(u8, msg["note: ".len..]),
};
latestDiag.relatedInformation = fresh;
} else {
try diagnostics.append(allocator, .{
.range = range,
.severity = .Error,
.code = "ast_check",
.source = "zls",
.message = try server.arena.allocator().dupe(u8, msg),
});
}
}
}
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fn typeToCompletion(
server: *Server,
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list: *std.ArrayListUnmanaged(types.CompletionItem),
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field_access: analysis.FieldAccessReturn,
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orig_handle: *const DocumentStore.Handle,
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) error{OutOfMemory}!void {
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var allocator = server.arena.allocator();
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const type_handle = field_access.original;
switch (type_handle.type.data) {
.slice => {
if (!type_handle.type.is_type_val) {
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try list.append(allocator, .{
.label = "len",
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.detail = "const len: usize",
.kind = .Field,
.insertText = "len",
.insertTextFormat = .PlainText,
});
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try list.append(allocator, .{
.label = "ptr",
.kind = .Field,
.insertText = "ptr",
.insertTextFormat = .PlainText,
});
}
},
.error_union => {},
.pointer => |n| {
if (server.config.operator_completions) {
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try list.append(allocator, .{
.label = "*",
.kind = .Operator,
.insertText = "*",
.insertTextFormat = .PlainText,
});
}
try server.nodeToCompletion(
list,
.{ .node = n, .handle = type_handle.handle },
null,
orig_handle,
type_handle.type.is_type_val,
null,
);
},
.other => |n| try server.nodeToCompletion(
list,
.{ .node = n, .handle = type_handle.handle },
field_access.unwrapped,
orig_handle,
type_handle.type.is_type_val,
null,
),
.primitive, .array_index => {},
.@"comptime" => |co| {
const ti = co.type.getTypeInfo();
switch (ti) {
.@"struct" => |st| {
var fit = st.fields.iterator();
while (fit.next()) |entry| {
try list.append(allocator, .{
.label = entry.key_ptr.*,
.kind = .Field,
.insertText = entry.key_ptr.*,
.insertTextFormat = .PlainText,
});
}
var it = st.scope.declarations.iterator();
while (it.next()) |entry| {
try list.append(allocator, .{
.label = entry.key_ptr.*,
.kind = if (entry.value_ptr.isConstant()) .Constant else .Variable,
.insertText = entry.key_ptr.*,
.insertTextFormat = .PlainText,
});
}
},
else => {},
}
},
}
}
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fn nodeToCompletion(
server: *Server,
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list: *std.ArrayListUnmanaged(types.CompletionItem),
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node_handle: analysis.NodeWithHandle,
unwrapped: ?analysis.TypeWithHandle,
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orig_handle: *const DocumentStore.Handle,
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is_type_val: bool,
parent_is_type_val: ?bool,
) error{OutOfMemory}!void {
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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var allocator = server.arena.allocator();
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const node = node_handle.node;
const handle = node_handle.handle;
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const tree = handle.tree;
const node_tags = tree.nodes.items(.tag);
const token_tags = tree.tokens.items(.tag);
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const doc_kind: types.MarkupContent.Kind = if (server.client_capabilities.completion_doc_supports_md)
.Markdown
else
.PlainText;
const doc = if (try analysis.getDocComments(
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allocator,
handle.tree,
node,
doc_kind,
)) |doc_comments|
types.MarkupContent{
.kind = doc_kind,
.value = doc_comments,
}
else
null;
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if (ast.isContainer(handle.tree, node)) {
const context = DeclToCompletionContext{
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.server = server,
.completions = list,
.orig_handle = orig_handle,
.parent_is_type_val = is_type_val,
};
try analysis.iterateSymbolsContainer(
&server.document_store,
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&server.arena,
node_handle,
orig_handle,
declToCompletion,
context,
!is_type_val,
);
}
if (is_type_val) return;
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switch (node_tags[node]) {
.fn_proto,
.fn_proto_multi,
.fn_proto_one,
.fn_proto_simple,
.fn_decl,
=> {
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var buf: [1]Ast.Node.Index = undefined;
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const func = ast.fnProto(tree, node, &buf).?;
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if (func.name_token) |name_token| {
const use_snippets = server.config.enable_snippets and server.client_capabilities.supports_snippets;
const insert_text = if (use_snippets) blk: {
const skip_self_param = !(parent_is_type_val orelse true) and
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try analysis.hasSelfParam(&server.arena, &server.document_store, handle, func);
break :blk try analysis.getFunctionSnippet(server.arena.allocator(), tree, func, skip_self_param);
} else tree.tokenSlice(func.name_token.?);
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const is_type_function = analysis.isTypeFunction(handle.tree, func);
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try list.append(allocator, .{
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.label = handle.tree.tokenSlice(name_token),
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.kind = if (is_type_function) .Struct else .Function,
.documentation = doc,
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.detail = analysis.getFunctionSignature(handle.tree, func),
.insertText = insert_text,
.insertTextFormat = if (use_snippets) .Snippet else .PlainText,
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});
}
},
.global_var_decl,
.local_var_decl,
.aligned_var_decl,
.simple_var_decl,
=> {
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const var_decl = ast.varDecl(tree, node).?;
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const is_const = token_tags[var_decl.ast.mut_token] == .keyword_const;
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if (try analysis.resolveVarDeclAlias(&server.document_store, &server.arena, node_handle)) |result| {
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const context = DeclToCompletionContext{
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.server = server,
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.completions = list,
.orig_handle = orig_handle,
};
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return try declToCompletion(context, result);
}
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try list.append(allocator, .{
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.label = handle.tree.tokenSlice(var_decl.ast.mut_token + 1),
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.kind = if (is_const) .Constant else .Variable,
.documentation = doc,
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.detail = analysis.getVariableSignature(tree, var_decl),
.insertText = tree.tokenSlice(var_decl.ast.mut_token + 1),
.insertTextFormat = .PlainText,
2020-05-17 15:23:04 +01:00
});
},
.container_field,
.container_field_align,
.container_field_init,
=> {
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const field = ast.containerField(tree, node).?;
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try list.append(allocator, .{
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.label = handle.tree.tokenSlice(field.ast.name_token),
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.kind = .Field,
.documentation = doc,
.detail = analysis.getContainerFieldSignature(handle.tree, field),
.insertText = tree.tokenSlice(field.ast.name_token),
.insertTextFormat = .PlainText,
2020-06-10 23:00:13 +01:00
});
},
.array_type,
.array_type_sentinel,
=> {
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try list.append(allocator, .{
.label = "len",
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.detail = "const len: usize",
.kind = .Field,
.insertText = "len",
.insertTextFormat = .PlainText,
});
},
.ptr_type,
.ptr_type_aligned,
.ptr_type_bit_range,
.ptr_type_sentinel,
=> {
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const ptr_type = ast.ptrType(tree, node).?;
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switch (ptr_type.size) {
.One, .C, .Many => if (server.config.operator_completions) {
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try list.append(allocator, .{
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.label = "*",
.kind = .Operator,
.insertText = "*",
.insertTextFormat = .PlainText,
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});
},
.Slice => {
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try list.append(allocator, .{
.label = "ptr",
.kind = .Field,
.insertText = "ptr",
.insertTextFormat = .PlainText,
});
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try list.append(allocator, .{
.label = "len",
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.detail = "const len: usize",
.kind = .Field,
.insertText = "len",
.insertTextFormat = .PlainText,
});
return;
},
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}
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if (unwrapped) |actual_type| {
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try server.typeToCompletion(list, .{ .original = actual_type }, orig_handle);
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}
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return;
},
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.optional_type => {
if (server.config.operator_completions) {
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try list.append(allocator, .{
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.label = "?",
.kind = .Operator,
.insertText = "?",
.insertTextFormat = .PlainText,
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});
}
return;
},
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.string_literal => {
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try list.append(allocator, .{
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.label = "len",
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.detail = "const len: usize",
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.kind = .Field,
.insertText = "len",
.insertTextFormat = .PlainText,
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});
},
else => if (analysis.nodeToString(tree, node)) |string| {
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try list.append(allocator, .{
.label = string,
.kind = .Field,
.documentation = doc,
.detail = offsets.nodeToSlice(tree, node),
.insertText = string,
.insertTextFormat = .PlainText,
2020-05-17 15:23:04 +01:00
});
},
}
}
pub fn identifierFromPosition(pos_index: usize, handle: DocumentStore.Handle) []const u8 {
if (pos_index + 1 >= handle.text.len) return "";
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var start_idx = pos_index;
while (start_idx > 0 and isSymbolChar(handle.text[start_idx - 1])) {
start_idx -= 1;
}
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var end_idx = pos_index;
while (end_idx < handle.text.len and isSymbolChar(handle.text[end_idx])) {
end_idx += 1;
}
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if (end_idx <= start_idx) return "";
return handle.text[start_idx..end_idx];
}
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fn isSymbolChar(char: u8) bool {
return std.ascii.isAlNum(char) or char == '_';
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}
fn gotoDefinitionSymbol(
server: *Server,
decl_handle: analysis.DeclWithHandle,
resolve_alias: bool,
) error{OutOfMemory}!?types.Location {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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var handle = decl_handle.handle;
const name_token = switch (decl_handle.decl.*) {
.ast_node => |node| block: {
if (resolve_alias) {
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if (try analysis.resolveVarDeclAlias(&server.document_store, &server.arena, .{ .node = node, .handle = handle })) |result| {
handle = result.handle;
break :block result.nameToken();
}
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}
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break :block analysis.getDeclNameToken(handle.tree, node) orelse return null;
},
else => decl_handle.nameToken(),
};
return types.Location{
.uri = handle.uri,
.range = offsets.tokenToRange(handle.tree, name_token, server.offset_encoding),
};
}
fn hoverSymbol(server: *Server, decl_handle: analysis.DeclWithHandle) error{OutOfMemory}!?types.Hover {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const handle = decl_handle.handle;
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const tree = handle.tree;
const hover_kind: types.MarkupContent.Kind = if (server.client_capabilities.hover_supports_md) .Markdown else .PlainText;
var doc_str: ?[]const u8 = null;
const def_str = switch (decl_handle.decl.*) {
.ast_node => |node| def: {
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if (try analysis.resolveVarDeclAlias(&server.document_store, &server.arena, .{ .node = node, .handle = handle })) |result| {
return try server.hoverSymbol(result);
2020-06-14 23:19:21 +01:00
}
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doc_str = try analysis.getDocComments(server.arena.allocator(), tree, node, hover_kind);
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var buf: [1]Ast.Node.Index = undefined;
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if (ast.varDecl(tree, node)) |var_decl| {
break :def analysis.getVariableSignature(tree, var_decl);
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} else if (ast.fnProto(tree, node, &buf)) |fn_proto| {
break :def analysis.getFunctionSignature(tree, fn_proto);
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} else if (ast.containerField(tree, node)) |field| {
break :def analysis.getContainerFieldSignature(tree, field);
} else {
break :def analysis.nodeToString(tree, node) orelse return null;
}
},
.param_payload => |pay| def: {
const param = pay.param;
if (param.first_doc_comment) |doc_comments| {
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doc_str = try analysis.collectDocComments(server.arena.allocator(), handle.tree, doc_comments, hover_kind, false);
}
const first_token = ast.paramFirstToken(tree, param);
const last_token = ast.paramLastToken(tree, param);
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const start = offsets.tokenToIndex(tree, first_token);
const end = offsets.tokenToLoc(tree, last_token).end;
break :def tree.source[start..end];
},
.pointer_payload => |payload| tree.tokenSlice(payload.name),
.array_payload => |payload| handle.tree.tokenSlice(payload.identifier),
.array_index => |payload| handle.tree.tokenSlice(payload),
.switch_payload => |payload| tree.tokenSlice(payload.node),
.label_decl => |label_decl| tree.tokenSlice(label_decl),
};
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var bound_type_params = analysis.BoundTypeParams{};
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const resolved_type = try decl_handle.resolveType(&server.document_store, &server.arena, &bound_type_params);
const resolved_type_str = if (resolved_type) |rt|
if (rt.type.is_type_val) switch (rt.type.data) {
.@"comptime" => |*co| try std.fmt.allocPrint(server.arena.allocator(), "{ }", .{co.interpreter.formatTypeInfo(co.type.getTypeInfo())}),
else => "type",
} else switch (rt.type.data) { // TODO: Investigate random weird numbers like 897 that cause index of bounds
.pointer,
.slice,
.error_union,
.primitive,
=> |p| if (p >= tree.nodes.len) "unknown" else offsets.nodeToSlice(tree, p),
.other => |p| if (p >= tree.nodes.len) "unknown" else switch (tree.nodes.items(.tag)[p]) {
.container_decl,
.container_decl_arg,
.container_decl_arg_trailing,
.container_decl_trailing,
.container_decl_two,
.container_decl_two_trailing,
.tagged_union,
.tagged_union_trailing,
.tagged_union_two,
.tagged_union_two_trailing,
.tagged_union_enum_tag,
.tagged_union_enum_tag_trailing,
=> tree.tokenSlice(tree.nodes.items(.main_token)[p] - 2), // NOTE: This is a hacky nightmare but it works :P
.fn_proto,
.fn_proto_multi,
.fn_proto_one,
.fn_proto_simple,
.fn_decl,
=> "fn", // TODO:(?) Add more info?
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.array_type,
.array_type_sentinel,
.ptr_type,
.ptr_type_aligned,
.ptr_type_bit_range,
.ptr_type_sentinel,
=> offsets.nodeToSlice(tree, p),
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else => "unknown", // TODO: Implement more "other" type expressions; better safe than sorry
},
else => "unknown",
}
else
"unknown";
var hover_text: []const u8 = undefined;
if (hover_kind == .Markdown) {
hover_text =
if (doc_str) |doc|
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try std.fmt.allocPrint(server.arena.allocator(), "```zig\n{s}\n```\n```zig\n({s})\n```\n{s}", .{ def_str, resolved_type_str, doc })
else
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try std.fmt.allocPrint(server.arena.allocator(), "```zig\n{s}\n```\n```zig\n({s})\n```", .{ def_str, resolved_type_str });
} else {
hover_text =
if (doc_str) |doc|
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try std.fmt.allocPrint(server.arena.allocator(), "{s} ({s})\n{s}", .{ def_str, resolved_type_str, doc })
else
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try std.fmt.allocPrint(server.arena.allocator(), "{s} ({s})", .{ def_str, resolved_type_str });
}
return types.Hover{
.contents = .{ .value = hover_text },
};
}
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fn getLabelGlobal(pos_index: usize, handle: *const DocumentStore.Handle) error{OutOfMemory}!?analysis.DeclWithHandle {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
2020-06-14 20:24:18 +01:00
const name = identifierFromPosition(pos_index, handle.*);
if (name.len == 0) return null;
return try analysis.lookupLabel(handle, name, pos_index);
}
fn getSymbolGlobal(
server: *Server,
pos_index: usize,
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handle: *const DocumentStore.Handle,
) error{OutOfMemory}!?analysis.DeclWithHandle {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const name = identifierFromPosition(pos_index, handle.*);
if (name.len == 0) return null;
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return try analysis.lookupSymbolGlobal(&server.document_store, &server.arena, handle, name, pos_index);
}
fn gotoDefinitionLabel(
server: *Server,
pos_index: usize,
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handle: *const DocumentStore.Handle,
) error{OutOfMemory}!?types.Location {
2022-06-06 04:50:17 +01:00
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const decl = (try getLabelGlobal(pos_index, handle)) orelse return null;
return try server.gotoDefinitionSymbol(decl, false);
2020-06-14 20:24:18 +01:00
}
fn gotoDefinitionGlobal(
server: *Server,
pos_index: usize,
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handle: *const DocumentStore.Handle,
resolve_alias: bool,
) error{OutOfMemory}!?types.Location {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const decl = (try server.getSymbolGlobal(pos_index, handle)) orelse return null;
return try server.gotoDefinitionSymbol(decl, resolve_alias);
}
2020-05-18 21:19:23 +01:00
2022-10-05 12:40:11 +01:00
fn hoverDefinitionLabel(server: *Server, pos_index: usize, handle: *const DocumentStore.Handle) error{OutOfMemory}!?types.Hover {
2022-06-06 04:50:17 +01:00
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const decl = (try getLabelGlobal(pos_index, handle)) orelse return null;
return try server.hoverSymbol(decl);
2020-06-14 20:24:18 +01:00
}
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fn hoverDefinitionBuiltin(server: *Server, pos_index: usize, handle: *const DocumentStore.Handle) error{OutOfMemory}!?types.Hover {
2022-06-06 04:50:17 +01:00
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
2020-11-04 22:54:47 +00:00
const name = identifierFromPosition(pos_index, handle.*);
if (name.len == 0) return null;
2020-11-04 22:54:47 +00:00
for (data.builtins) |builtin| {
2020-11-04 22:54:47 +00:00
if (std.mem.eql(u8, builtin.name[1..], name)) {
return types.Hover{
.contents = .{
.value = try std.fmt.allocPrint(
server.arena.allocator(),
"```zig\n{s}\n```\n{s}",
.{ builtin.signature, builtin.documentation },
),
2020-11-04 22:54:47 +00:00
},
};
2020-11-04 22:54:47 +00:00
}
}
return null;
2020-11-04 22:54:47 +00:00
}
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fn hoverDefinitionGlobal(server: *Server, pos_index: usize, handle: *const DocumentStore.Handle) error{OutOfMemory}!?types.Hover {
2022-06-06 04:50:17 +01:00
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const decl = (try server.getSymbolGlobal(pos_index, handle)) orelse return null;
return try server.hoverSymbol(decl);
2020-05-18 21:19:23 +01:00
}
fn getSymbolFieldAccess(
server: *Server,
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handle: *const DocumentStore.Handle,
source_index: usize,
loc: offsets.Loc,
) !?analysis.DeclWithHandle {
2022-06-06 04:50:17 +01:00
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const name = identifierFromPosition(source_index, handle.*);
if (name.len == 0) return null;
var held_range = try server.arena.allocator().dupeZ(u8, offsets.locToSlice(handle.text, loc));
var tokenizer = std.zig.Tokenizer.init(held_range);
if (try analysis.getFieldAccessType(&server.document_store, &server.arena, handle, source_index, &tokenizer)) |result| {
2020-07-07 21:50:32 +01:00
const container_handle = result.unwrapped orelse result.original;
const container_handle_node = switch (container_handle.type.data) {
.other => |n| n,
else => return null,
};
return try analysis.lookupSymbolContainer(
&server.document_store,
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&server.arena,
.{ .node = container_handle_node, .handle = container_handle.handle },
name,
true,
);
}
return null;
}
fn gotoDefinitionFieldAccess(
server: *Server,
2022-10-05 12:40:11 +01:00
handle: *const DocumentStore.Handle,
source_index: usize,
loc: offsets.Loc,
resolve_alias: bool,
) error{OutOfMemory}!?types.Location {
2022-06-06 04:50:17 +01:00
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const decl = (try server.getSymbolFieldAccess(handle, source_index, loc)) orelse return null;
return try server.gotoDefinitionSymbol(decl, resolve_alias);
}
2020-05-18 21:19:23 +01:00
fn hoverDefinitionFieldAccess(
server: *Server,
2022-10-05 12:40:11 +01:00
handle: *const DocumentStore.Handle,
source_index: usize,
loc: offsets.Loc,
) error{OutOfMemory}!?types.Hover {
2022-06-06 04:50:17 +01:00
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const decl = (try server.getSymbolFieldAccess(handle, source_index, loc)) orelse return null;
return try server.hoverSymbol(decl);
2020-05-18 21:19:23 +01:00
}
fn gotoDefinitionString(
server: *Server,
pos_index: usize,
2022-10-05 12:40:11 +01:00
handle: *const DocumentStore.Handle,
) error{OutOfMemory}!?types.Location {
2022-06-06 04:50:17 +01:00
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const import_str = analysis.getImportStr(handle.tree, 0, pos_index) orelse return null;
2022-10-05 12:23:38 +01:00
const uri = try server.document_store.uriFromImportStr(server.arena.allocator(), handle.*, import_str);
return types.Location{
.uri = uri orelse return null,
.range = .{
.start = .{ .line = 0, .character = 0 },
.end = .{ .line = 0, .character = 0 },
},
};
2021-03-01 13:32:19 +00:00
}
const DeclToCompletionContext = struct {
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server: *Server,
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completions: *std.ArrayListUnmanaged(types.CompletionItem),
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orig_handle: *const DocumentStore.Handle,
parent_is_type_val: ?bool = null,
};
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fn declToCompletion(context: DeclToCompletionContext, decl_handle: analysis.DeclWithHandle) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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var allocator = context.server.arena.allocator();
const tree = decl_handle.handle.tree;
switch (decl_handle.decl.*) {
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.ast_node => |node| try context.server.nodeToCompletion(
context.completions,
.{ .node = node, .handle = decl_handle.handle },
null,
context.orig_handle,
false,
context.parent_is_type_val,
),
.param_payload => |pay| {
const param = pay.param;
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const doc_kind: types.MarkupContent.Kind = if (context.server.client_capabilities.completion_doc_supports_md) .Markdown else .PlainText;
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const doc = if (param.first_doc_comment) |doc_comments|
types.MarkupContent{
.kind = doc_kind,
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.value = try analysis.collectDocComments(allocator, tree, doc_comments, doc_kind, false),
}
else
null;
const first_token = ast.paramFirstToken(tree, param);
const last_token = ast.paramLastToken(tree, param);
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try context.completions.append(allocator, .{
.label = tree.tokenSlice(param.name_token.?),
.kind = .Constant,
.documentation = doc,
.detail = tree.source[offsets.tokenToIndex(tree, first_token)..offsets.tokenToLoc(tree, last_token).end],
.insertText = tree.tokenSlice(param.name_token.?),
.insertTextFormat = .PlainText,
});
},
.pointer_payload => |payload| {
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try context.completions.append(allocator, .{
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.label = tree.tokenSlice(payload.name),
.kind = .Variable,
.insertText = tree.tokenSlice(payload.name),
.insertTextFormat = .PlainText,
});
},
.array_payload => |payload| {
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try context.completions.append(allocator, .{
.label = tree.tokenSlice(payload.identifier),
.kind = .Variable,
.insertText = tree.tokenSlice(payload.identifier),
.insertTextFormat = .PlainText,
});
},
.array_index => |payload| {
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try context.completions.append(allocator, .{
.label = tree.tokenSlice(payload),
.kind = .Variable,
.insertText = tree.tokenSlice(payload),
.insertTextFormat = .PlainText,
});
},
.switch_payload => |payload| {
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try context.completions.append(allocator, .{
.label = tree.tokenSlice(payload.node),
.kind = .Variable,
.insertText = tree.tokenSlice(payload.node),
.insertTextFormat = .PlainText,
});
},
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.label_decl => |label_decl| {
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try context.completions.append(allocator, .{
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.label = tree.tokenSlice(label_decl),
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.kind = .Variable,
.insertText = tree.tokenSlice(label_decl),
.insertTextFormat = .PlainText,
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});
},
}
}
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fn completeLabel(
server: *Server,
pos_index: usize,
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handle: *const DocumentStore.Handle,
) ![]types.CompletionItem {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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var completions = std.ArrayListUnmanaged(types.CompletionItem){};
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const context = DeclToCompletionContext{
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.server = server,
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.completions = &completions,
.orig_handle = handle,
};
try analysis.iterateLabels(handle, pos_index, declToCompletion, context);
return completions.toOwnedSlice(server.arena.allocator());
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}
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fn populateSnippedCompletions(
allocator: std.mem.Allocator,
completions: *std.ArrayListUnmanaged(types.CompletionItem),
snippets: []const snipped_data.Snipped,
config: Config,
start_with: ?[]const u8,
) error{OutOfMemory}!void {
try completions.ensureUnusedCapacity(allocator, snippets.len);
for (snippets) |snipped| {
if (start_with) |needle| {
if (!std.mem.startsWith(u8, snipped.label, needle)) continue;
}
completions.appendAssumeCapacity(.{
.label = snipped.label,
.kind = snipped.kind,
.detail = if (config.enable_snippets) snipped.text else null,
.insertText = if (config.enable_snippets) snipped.text else null,
.insertTextFormat = if (config.enable_snippets and snipped.text != null) .Snippet else .PlainText,
});
}
}
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fn completeGlobal(server: *Server, pos_index: usize, handle: *const DocumentStore.Handle) ![]types.CompletionItem {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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var completions = std.ArrayListUnmanaged(types.CompletionItem){};
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const context = DeclToCompletionContext{
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.server = server,
.completions = &completions,
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.orig_handle = handle,
};
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try analysis.iterateSymbolsGlobal(&server.document_store, &server.arena, handle, pos_index, declToCompletion, context);
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try populateSnippedCompletions(server.arena.allocator(), &completions, &snipped_data.generic, server.config.*, null);
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if (server.client_capabilities.label_details_support) {
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for (completions.items) |*item| {
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try formatDetailledLabel(item, server.arena.allocator());
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}
}
return completions.toOwnedSlice(server.arena.allocator());
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}
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fn completeFieldAccess(server: *Server, handle: *const DocumentStore.Handle, source_index: usize, loc: offsets.Loc) !?[]types.CompletionItem {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const allocator = server.arena.allocator();
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var completions = std.ArrayListUnmanaged(types.CompletionItem){};
var held_loc = try allocator.dupeZ(u8, offsets.locToSlice(handle.text, loc));
var tokenizer = std.zig.Tokenizer.init(held_loc);
const result = (try analysis.getFieldAccessType(&server.document_store, &server.arena, handle, source_index, &tokenizer)) orelse return null;
try server.typeToCompletion(&completions, result, handle);
if (server.client_capabilities.label_details_support) {
for (completions.items) |*item| {
try formatDetailledLabel(item, allocator);
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}
}
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return completions.toOwnedSlice(allocator);
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}
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fn formatDetailledLabel(item: *types.CompletionItem, alloc: std.mem.Allocator) !void {
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// NOTE: this is not ideal, we should build a detailled label like we do for label/detail
// because this implementation is very loose, nothing is formated properly so we need to clean
// things a little bit, wich is quite messy
// but it works, it provide decent results
if (item.detail == null)
return;
var detailLen: usize = item.detail.?.len;
var it: []u8 = try alloc.alloc(u8, detailLen);
detailLen -= std.mem.replace(u8, item.detail.?, " ", " ", it) * 3;
it = it[0..detailLen];
// HACK: for enums 'MyEnum.', item.detail shows everything, we don't want that
const isValue = std.mem.startsWith(u8, item.label, it);
const isVar = std.mem.startsWith(u8, it, "var ");
const isConst = std.mem.startsWith(u8, it, "const ");
// we don't want the entire content of things, see the NOTE above
if (std.mem.indexOf(u8, it, "{")) |end| {
it = it[0..end];
}
if (std.mem.indexOf(u8, it, "}")) |end| {
it = it[0..end];
}
if (std.mem.indexOf(u8, it, ";")) |end| {
it = it[0..end];
}
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// loggerger.info("## label: {s} it: {s} kind: {} isValue: {}", .{item.label, it, item.kind, isValue});
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if (std.mem.startsWith(u8, it, "fn ") or std.mem.startsWith(u8, it, "@")) {
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var s: usize = std.mem.indexOf(u8, it, "(") orelse return;
var e: usize = std.mem.lastIndexOf(u8, it, ")") orelse return;
if (e < s) {
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log.warn("something wrong when trying to build label detail for {s} kind: {}", .{ it, item.kind });
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return;
}
item.detail = item.label;
item.labelDetails = .{ .detail = it[s .. e + 1], .description = it[e + 1 ..] };
if (item.kind == .Constant) {
if (std.mem.indexOf(u8, it, "= struct")) |_| {
item.labelDetails.?.description = "struct";
} else if (std.mem.indexOf(u8, it, "= union")) |_| {
var us: usize = std.mem.indexOf(u8, it, "(") orelse return;
var ue: usize = std.mem.lastIndexOf(u8, it, ")") orelse return;
if (ue < us) {
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log.warn("something wrong when trying to build label detail for a .Constant|union {s}", .{it});
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return;
}
item.labelDetails.?.description = it[us - 5 .. ue + 1];
}
}
} else if ((item.kind == .Variable or item.kind == .Constant) and (isVar or isConst)) {
item.insertText = item.label;
item.insertTextFormat = .PlainText;
item.detail = item.label;
const eqlPos = std.mem.indexOf(u8, it, "=");
if (std.mem.indexOf(u8, it, ":")) |start| {
if (eqlPos != null) {
if (start > eqlPos.?) return;
}
var e: usize = eqlPos orelse it.len;
item.labelDetails = .{
.detail = "", // left
.description = it[start + 1 .. e], // right
};
} else if (std.mem.indexOf(u8, it, "= .")) |start| {
item.labelDetails = .{
.detail = "", // left
.description = it[start + 2 .. it.len], // right
};
} else if (eqlPos) |start| {
item.labelDetails = .{
.detail = "", // left
.description = it[start + 2 .. it.len], // right
};
}
} else if (item.kind == .Variable) {
var s: usize = std.mem.indexOf(u8, it, ":") orelse return;
var e: usize = std.mem.indexOf(u8, it, "=") orelse return;
if (e < s) {
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log.warn("something wrong when trying to build label detail for a .Variable {s}", .{it});
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return;
}
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// loggerger.info("s: {} -> {}", .{s, e});
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item.insertText = item.label;
item.insertTextFormat = .PlainText;
item.detail = item.label;
item.labelDetails = .{
.detail = "", // left
.description = it[s + 1 .. e], // right
};
} else if (std.mem.indexOf(u8, it, "@import") != null) {
item.insertText = item.label;
item.insertTextFormat = .PlainText;
item.detail = item.label;
item.labelDetails = .{
.detail = "", // left
.description = it, // right
};
} else if (item.kind == .Constant or item.kind == .Field) {
var s: usize = std.mem.indexOf(u8, it, " ") orelse return;
var e: usize = std.mem.indexOf(u8, it, "=") orelse it.len;
if (e < s) {
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log.warn("something wrong when trying to build label detail for a .Variable {s}", .{it});
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return;
}
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// loggerger.info("s: {} -> {}", .{s, e});
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item.insertText = item.label;
item.insertTextFormat = .PlainText;
item.detail = item.label;
item.labelDetails = .{
.detail = "", // left
.description = it[s + 1 .. e], // right
};
if (std.mem.indexOf(u8, it, "= union(")) |_| {
var us: usize = std.mem.indexOf(u8, it, "(") orelse return;
var ue: usize = std.mem.lastIndexOf(u8, it, ")") orelse return;
if (ue < us) {
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log.warn("something wrong when trying to build label detail for a .Constant|union {s}", .{it});
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return;
}
item.labelDetails.?.description = it[us - 5 .. ue + 1];
} else if (std.mem.indexOf(u8, it, "= enum(")) |_| {
var es: usize = std.mem.indexOf(u8, it, "(") orelse return;
var ee: usize = std.mem.lastIndexOf(u8, it, ")") orelse return;
if (ee < es) {
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log.warn("something wrong when trying to build label detail for a .Constant|enum {s}", .{it});
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return;
}
item.labelDetails.?.description = it[es - 4 .. ee + 1];
} else if (std.mem.indexOf(u8, it, "= struct")) |_| {
item.labelDetails.?.description = "struct";
} else if (std.mem.indexOf(u8, it, "= union")) |_| {
item.labelDetails.?.description = "union";
} else if (std.mem.indexOf(u8, it, "= enum")) |_| {
item.labelDetails.?.description = "enum";
}
} else if (item.kind == .Field and isValue) {
item.insertText = item.label;
item.insertTextFormat = .PlainText;
item.detail = item.label;
item.labelDetails = .{
.detail = "", // left
.description = item.label, // right
};
} else {
// TODO: if something is missing, it neecs to be implemented here
}
// if (item.labelDetails != null)
// logger.info("labelDetails: {s} :: {s}", .{item.labelDetails.?.detail, item.labelDetails.?.description});
}
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fn completeError(server: *Server, handle: *const DocumentStore.Handle) ![]types.CompletionItem {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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return try server.document_store.errorCompletionItems(server.arena.allocator(), handle.*);
}
fn kindToSortScore(kind: types.CompletionItem.Kind) ?[]const u8 {
return switch (kind) {
.Module => "1_", // use for packages
.Folder => "2_",
.File => "3_",
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.Constant => "1_",
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.Variable => "2_",
.Field => "3_",
.Function => "4_",
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.Keyword, .Snippet, .EnumMember => "5_",
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.Class,
.Interface,
.Struct,
// Union?
.TypeParameter,
=> "6_",
else => {
std.log.debug(@typeName(types.CompletionItem.Kind) ++ "{s} has no sort score specified!", .{@tagName(kind)});
return null;
},
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};
}
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fn completeDot(server: *Server, handle: *const DocumentStore.Handle) ![]types.CompletionItem {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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var completions = try server.document_store.enumCompletionItems(server.arena.allocator(), handle.*);
return completions;
}
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fn completeFileSystemStringLiteral(allocator: std.mem.Allocator, store: *const DocumentStore, handle: *const DocumentStore.Handle, completing: []const u8, is_import: bool) ![]types.CompletionItem {
var subpath_present = false;
var completions = std.ArrayListUnmanaged(types.CompletionItem){};
fsc: {
var document_path = try uri_utils.parse(allocator, handle.uri);
var document_dir_path = std.fs.openIterableDirAbsolute(std.fs.path.dirname(document_path) orelse break :fsc, .{}) catch break :fsc;
defer document_dir_path.close();
if (std.mem.lastIndexOfScalar(u8, completing, '/')) |subpath_index| {
var subpath = completing[0..subpath_index];
if (std.mem.startsWith(u8, subpath, "./") and subpath_index > 2) {
subpath = completing[2..subpath_index];
} else if (std.mem.startsWith(u8, subpath, ".") and subpath_index > 1) {
subpath = completing[1..subpath_index];
}
var old = document_dir_path;
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document_dir_path = document_dir_path.dir.openIterableDir(subpath, .{}) catch break :fsc; // NOTE: Is this even safe lol?
old.close();
subpath_present = true;
}
var dir_iterator = document_dir_path.iterate();
while (try dir_iterator.next()) |entry| {
if (std.mem.startsWith(u8, entry.name, ".")) continue;
if (entry.kind == .File and is_import and !std.mem.endsWith(u8, entry.name, ".zig")) continue;
const l = try allocator.dupe(u8, entry.name);
try completions.append(allocator, types.CompletionItem{
.label = l,
.insertText = l,
.kind = if (entry.kind == .File) .File else .Folder,
});
}
}
if (!subpath_present and is_import) {
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if (handle.associated_build_file) |uri| {
const build_file = store.build_files.get(uri).?;
try completions.ensureUnusedCapacity(allocator, build_file.config.packages.len);
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for (build_file.config.packages) |pkg| {
completions.appendAssumeCapacity(.{
.label = pkg.name,
.kind = .Module,
});
}
}
}
return completions.toOwnedSlice(allocator);
}
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fn documentSymbol(server: *Server, writer: anytype, id: types.RequestId, handle: *const DocumentStore.Handle) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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try send(writer, server.arena.allocator(), types.Response{
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.id = id,
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.result = .{ .DocumentSymbols = try analysis.getDocumentSymbols(server.arena.allocator(), handle.tree, server.offset_encoding) },
});
}
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fn initializeHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.Initialize) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
if (req.params.capabilities.general) |general| {
var supports_utf8 = false;
var supports_utf16 = false;
var supports_utf32 = false;
for (general.positionEncodings.value) |encoding| {
if (std.mem.eql(u8, encoding, "utf-8")) {
supports_utf8 = true;
} else if (std.mem.eql(u8, encoding, "utf-16")) {
supports_utf16 = true;
} else if (std.mem.eql(u8, encoding, "utf-32")) {
supports_utf32 = true;
}
}
if (supports_utf8) {
server.offset_encoding = .utf8;
} else if (supports_utf32) {
server.offset_encoding = .utf32;
} else {
server.offset_encoding = .utf16;
}
}
if (req.params.capabilities.textDocument) |textDocument| {
server.client_capabilities.supports_semantic_tokens = textDocument.semanticTokens.exists;
server.client_capabilities.supports_inlay_hints = textDocument.inlayHint.exists;
if (textDocument.hover) |hover| {
for (hover.contentFormat.value) |format| {
if (std.mem.eql(u8, "markdown", format)) {
server.client_capabilities.hover_supports_md = true;
}
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}
}
if (textDocument.completion) |completion| {
if (completion.completionItem) |completionItem| {
server.client_capabilities.label_details_support = completionItem.labelDetailsSupport.value;
server.client_capabilities.supports_snippets = completionItem.snippetSupport.value;
for (completionItem.documentationFormat.value) |documentationFormat| {
if (std.mem.eql(u8, "markdown", documentationFormat)) {
server.client_capabilities.completion_doc_supports_md = true;
}
}
}
}
}
// NOTE: everything is initialized, we got the client capabilities
// so we can now format the prebuilt builtins items for labelDetails
if (server.client_capabilities.label_details_support) {
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for (server.builtin_completions.items) |*item| {
try formatDetailledLabel(item, std.heap.page_allocator);
}
}
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try send(writer, server.arena.allocator(), types.Response{
.id = id,
.result = .{
.InitializeResult = .{
.serverInfo = .{
.name = "zls",
.version = build_options.version,
},
.capabilities = .{
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.positionEncoding = server.offset_encoding,
.signatureHelpProvider = .{
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.triggerCharacters = &.{"("},
.retriggerCharacters = &.{","},
},
.textDocumentSync = .{
.openClose = true,
.change = .Incremental,
.save = true,
},
.renameProvider = true,
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.completionProvider = .{ .resolveProvider = false, .triggerCharacters = &[_][]const u8{ ".", ":", "@", "]" }, .completionItem = .{ .labelDetailsSupport = true } },
.documentHighlightProvider = true,
.hoverProvider = true,
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.codeActionProvider = true,
.declarationProvider = true,
.definitionProvider = true,
.typeDefinitionProvider = true,
.implementationProvider = false,
.referencesProvider = true,
.documentSymbolProvider = true,
.colorProvider = false,
.documentFormattingProvider = true,
.documentRangeFormattingProvider = false,
.foldingRangeProvider = true,
.selectionRangeProvider = false,
.workspaceSymbolProvider = false,
.rangeProvider = false,
.documentProvider = true,
.workspace = .{
.workspaceFolders = .{
.supported = false,
.changeNotifications = false,
},
},
.semanticTokensProvider = .{
.full = true,
.range = false,
.legend = .{
.tokenTypes = comptime block: {
const tokTypeFields = std.meta.fields(semantic_tokens.TokenType);
var names: [tokTypeFields.len][]const u8 = undefined;
for (tokTypeFields) |field, i| {
names[i] = 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) |field, i| {
names[i] = field.name;
}
break :block &names;
},
},
},
.inlayHintProvider = true,
},
},
},
});
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server.status = .initializing;
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if (req.params.capabilities.workspace) |workspace| {
server.client_capabilities.supports_configuration = workspace.configuration.value;
if (workspace.didChangeConfiguration != null and workspace.didChangeConfiguration.?.dynamicRegistration.value) {
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try server.registerCapability(writer, "workspace/didChangeConfiguration");
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}
}
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log.info("zls initializing", .{});
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log.info("{}", .{server.client_capabilities});
log.info("Using offset encoding: {s}", .{std.meta.tagName(server.offset_encoding)});
// TODO avoid having to call getZigEnv twice
// once in init and here
const env = Config.getZigEnv(server.allocator, server.config.zig_exe_path.?) orelse return;
defer std.json.parseFree(Config.Env, env, .{ .allocator = server.allocator });
const zig_exe_version = std.SemanticVersion.parse(env.version) catch return;
if (zig_builtin.zig_version.order(zig_exe_version) == .gt) {
const version_mismatch_message = try std.fmt.allocPrint(server.arena.allocator(), "ZLS was built with Zig {}, but your Zig version is {s}. Update Zig to avoid unexpected behavior.", .{ zig_builtin.zig_version, env.version });
try server.showMessage(writer, .Warning, version_mismatch_message);
}
}
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fn initializedHandler(server: *Server, writer: anytype, id: types.RequestId) !void {
_ = id;
if (server.status != .initializing) {
std.log.warn("received a initialized notification but the server has not send a initialize request!", .{});
}
server.status = .initialized;
if (server.client_capabilities.supports_configuration)
try server.requestConfiguration(writer);
}
fn shutdownHandler(server: *Server, writer: anytype, id: types.RequestId) !void {
if (server.status != .initialized) {
return try sendErrorResponse(
writer,
server.arena.allocator(),
types.ErrorCodes.InvalidRequest,
"received a shutdown request but the server is not initialized!",
);
}
// Technically we should deinitialize first and send possible errors to the client
return try respondGeneric(writer, id, null_result_response);
}
fn exitHandler(server: *Server, writer: anytype, id: types.RequestId) noreturn {
_ = writer;
_ = id;
log.info("Server exiting...", .{});
// Technically we should deinitialize first and send possible errors to the client
const error_code: u8 = switch (server.status) {
.uninitialized, .shutdown => 0,
else => 1,
};
std.os.exit(error_code);
}
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fn registerCapability(server: *Server, writer: anytype, method: []const u8) !void {
const id = try std.fmt.allocPrint(server.arena.allocator(), "register-{s}", .{method});
log.debug("Dynamically registering method '{s}'", .{method});
if (zig_builtin.zig_backend == .stage1) {
const reg = types.RegistrationParams.Registration{
.id = id,
.method = method,
};
const registrations = [1]types.RegistrationParams.Registration{reg};
const params = types.RegistrationParams{
.registrations = &registrations,
};
const respp = types.ResponseParams{
.RegistrationParams = params,
};
const req = types.Request{
.id = .{ .String = id },
.method = "client/registerCapability",
.params = respp,
};
try send(writer, server.arena.allocator(), req);
} else {
try send(writer, server.arena.allocator(), types.Request{
.id = .{ .String = id },
.method = "client/registerCapability",
.params = types.ResponseParams{
.RegistrationParams = types.RegistrationParams{
.registrations = &.{
.{
.id = id,
.method = method,
},
},
},
},
});
}
}
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fn requestConfiguration(server: *Server, writer: anytype) !void {
const configuration_items = comptime confi: {
var comp_confi: [std.meta.fields(Config).len]types.ConfigurationParams.ConfigurationItem = undefined;
inline for (std.meta.fields(Config)) |field, index| {
comp_confi[index] = .{
.section = "zls." ++ field.name,
};
}
break :confi comp_confi;
};
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try send(writer, server.arena.allocator(), types.Request{
.id = .{ .String = "i_haz_configuration" },
.method = "workspace/configuration",
.params = types.ResponseParams{
.ConfigurationParams = .{
.items = &configuration_items,
},
},
});
}
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fn openDocumentHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.OpenDocument) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
_ = id;
const handle = try server.document_store.openDocument(req.params.textDocument.uri, req.params.textDocument.text);
try server.publishDiagnostics(writer, handle);
}
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fn changeDocumentHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.ChangeDocument) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
_ = id;
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const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse return;
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const new_text = try diff.applyTextEdits(server.allocator, handle.text, req.params.contentChanges, server.offset_encoding);
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try server.document_store.refreshDocument(handle.uri, new_text);
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try server.publishDiagnostics(writer, handle.*);
}
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fn saveDocumentHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.SaveDocument) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
_ = id;
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const allocator = server.arena.allocator();
const uri = req.params.textDocument.uri;
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const handle = server.document_store.getHandle(uri) orelse return;
try server.document_store.applySave(handle);
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if (handle.tree.errors.len != 0) return;
if (!server.config.enable_ast_check_diagnostics) return;
if (!server.config.enable_autofix) return;
var diagnostics = std.ArrayListUnmanaged(types.Diagnostic){};
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try getAstCheckDiagnostics(server, handle.*, &diagnostics);
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var builder = code_actions.Builder{
.arena = &server.arena,
.document_store = &server.document_store,
.handle = handle,
.offset_encoding = server.offset_encoding,
};
var actions = std.ArrayListUnmanaged(types.CodeAction){};
for (diagnostics.items) |diagnostic| {
try builder.generateCodeAction(diagnostic, &actions);
}
var text_edits = std.ArrayListUnmanaged(types.TextEdit){};
for (actions.items) |action| {
if (action.kind != .SourceFixAll) continue;
if (action.edit.changes.size != 1) continue;
const edits = action.edit.changes.get(uri) orelse continue;
try text_edits.appendSlice(allocator, edits.items);
}
var workspace_edit = types.WorkspaceEdit{ .changes = .{} };
try workspace_edit.changes.putNoClobber(allocator, uri, text_edits);
// NOTE: stage1 moment
const params = types.ResponseParams{
.ApplyEdit = types.ApplyWorkspaceEditParams{
.label = "autofix",
.edit = workspace_edit,
},
};
try send(writer, allocator, types.Request{
.id = .{ .String = "apply_edit" },
.method = "workspace/applyEdit",
.params = params,
});
}
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fn closeDocumentHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.CloseDocument) error{}!void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
_ = id;
_ = writer;
server.document_store.closeDocument(req.params.textDocument.uri);
}
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fn semanticTokensFullHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.SemanticTokensFull) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
if (!server.config.enable_semantic_tokens) return try respondGeneric(writer, id, no_semantic_tokens_response);
const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse {
return try respondGeneric(writer, id, no_semantic_tokens_response);
};
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const token_array = try semantic_tokens.writeAllSemanticTokens(&server.arena, &server.document_store, handle, server.offset_encoding);
return try send(writer, server.arena.allocator(), types.Response{
.id = id,
.result = .{ .SemanticTokensFull = .{ .data = token_array } },
});
}
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fn completionHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.Completion) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse {
return try respondGeneric(writer, id, no_completions_response);
};
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if (req.params.position.character == 0) {
var completions = std.ArrayListUnmanaged(types.CompletionItem){};
try populateSnippedCompletions(server.arena.allocator(), &completions, &snipped_data.top_level_decl_data, server.config.*, null);
return try send(writer, server.arena.allocator(), types.Response{
.id = id,
.result = .{
.CompletionList = .{ .isIncomplete = false, .items = completions.items },
},
});
}
const source_index = offsets.positionToIndex(handle.text, req.params.position, server.offset_encoding);
const pos_context = try analysis.getPositionContext(server.arena.allocator(), handle.text, source_index);
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const maybe_completions = switch (pos_context) {
.builtin => server.builtin_completions.items,
.var_access, .empty => try server.completeGlobal(source_index, handle),
.field_access => |loc| try server.completeFieldAccess(handle, source_index, loc),
.global_error_set => try server.completeError(handle),
.enum_literal => try server.completeDot(handle),
.label => try server.completeLabel(source_index, handle),
.import_string_literal, .embedfile_string_literal => |loc| blk: {
if (!server.config.enable_import_embedfile_argument_completions) break :blk null;
const completing = offsets.locToSlice(handle.tree.source, loc);
const is_import = pos_context == .import_string_literal;
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break :blk try completeFileSystemStringLiteral(server.arena.allocator(), &server.document_store, handle, completing, is_import);
},
else => null,
};
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const completions = maybe_completions orelse return try respondGeneric(writer, id, no_completions_response);
// truncate completions
for (completions) |*item| {
if (item.detail) |det| {
if (det.len > server.config.max_detail_length) {
item.detail = det[0..server.config.max_detail_length];
}
}
}
// TODO: config for sorting rule?
for (completions) |*c| {
const prefix = kindToSortScore(c.kind) orelse continue;
c.sortText = try std.fmt.allocPrint(server.arena.allocator(), "{s}{s}", .{ prefix, c.label });
}
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try send(writer, server.arena.allocator(), types.Response{
.id = id,
.result = .{
.CompletionList = .{
.isIncomplete = false,
.items = completions,
},
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},
});
}
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fn signatureHelpHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.SignatureHelp) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const getSignatureInfo = @import("signature_help.zig").getSignatureInfo;
const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse {
return try respondGeneric(writer, id, no_signatures_response);
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};
if (req.params.position.character == 0)
return try respondGeneric(writer, id, no_signatures_response);
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const source_index = offsets.positionToIndex(handle.text, req.params.position, server.offset_encoding);
if (try getSignatureInfo(
&server.document_store,
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&server.arena,
handle,
source_index,
data,
)) |sig_info| {
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return try send(writer, server.arena.allocator(), types.Response{
.id = id,
.result = .{
.SignatureHelp = .{
.signatures = &[1]types.SignatureInformation{sig_info},
.activeSignature = 0,
.activeParameter = sig_info.activeParameter,
},
},
});
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}
return try respondGeneric(writer, id, no_signatures_response);
}
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fn gotoHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.GotoDefinition, resolve_alias: bool) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse {
return try respondGeneric(writer, id, null_result_response);
};
if (req.params.position.character == 0) return try respondGeneric(writer, id, null_result_response);
const source_index = offsets.positionToIndex(handle.text, req.params.position, server.offset_encoding);
const pos_context = try analysis.getPositionContext(server.arena.allocator(), handle.text, source_index);
const maybe_location = switch (pos_context) {
.var_access => try server.gotoDefinitionGlobal(source_index, handle, resolve_alias),
.field_access => |loc| try server.gotoDefinitionFieldAccess(handle, source_index, loc, resolve_alias),
.import_string_literal => try server.gotoDefinitionString(source_index, handle),
.label => try server.gotoDefinitionLabel(source_index, handle),
else => null,
};
const location = maybe_location orelse return try respondGeneric(writer, id, null_result_response);
try send(writer, server.arena.allocator(), types.Response{
.id = id,
.result = .{ .Location = location },
});
}
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fn gotoDefinitionHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.GotoDefinition) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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try server.gotoHandler(writer, id, req, true);
}
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fn gotoDeclarationHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.GotoDeclaration) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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try server.gotoHandler(writer, id, req, false);
}
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fn hoverHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.Hover) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse {
return try respondGeneric(writer, id, null_result_response);
};
if (req.params.position.character == 0) return try respondGeneric(writer, id, null_result_response);
const source_index = offsets.positionToIndex(handle.text, req.params.position, server.offset_encoding);
const pos_context = try analysis.getPositionContext(server.arena.allocator(), handle.text, source_index);
const maybe_hover = switch (pos_context) {
.builtin => try server.hoverDefinitionBuiltin(source_index, handle),
.var_access => try server.hoverDefinitionGlobal(source_index, handle),
.field_access => |loc| try server.hoverDefinitionFieldAccess(handle, source_index, loc),
.label => try server.hoverDefinitionLabel(source_index, handle),
else => null,
};
const hover = maybe_hover orelse return try respondGeneric(writer, id, null_result_response);
// TODO: Figure out a better solution for comptime interpreter diags
try server.publishDiagnostics(writer, handle.*);
try send(writer, server.arena.allocator(), types.Response{
.id = id,
.result = .{ .Hover = hover },
});
}
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fn documentSymbolsHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.DocumentSymbols) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse {
return try respondGeneric(writer, id, null_result_response);
};
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try server.documentSymbol(writer, id, handle);
}
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fn formattingHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.Formatting) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse {
return try respondGeneric(writer, id, null_result_response);
};
if (handle.tree.errors.len != 0) {
return try respondGeneric(writer, id, null_result_response);
}
const formatted = try handle.tree.render(server.allocator);
defer server.allocator.free(formatted);
if (std.mem.eql(u8, handle.text, formatted)) return try respondGeneric(writer, id, null_result_response);
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// avoid computing diffs if the output is small
const maybe_edits = if (formatted.len <= 512) null else diff.edits(server.arena.allocator(), handle.text, formatted) catch null;
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const edits = maybe_edits orelse {
// if edits have been computed we replace the entire file with the formatted text
return try send(writer, server.arena.allocator(), types.Response{
.id = id,
.result = .{
.TextEdits = &[1]types.TextEdit{.{
.range = offsets.locToRange(handle.text, .{ .start = 0, .end = handle.text.len }, server.offset_encoding),
.newText = formatted,
}},
},
});
};
// Convert from `[]diff.Edit` to `[]types.TextEdit`
var text_edits = try std.ArrayListUnmanaged(types.TextEdit).initCapacity(server.arena.allocator(), edits.items.len);
for (edits.items) |edit| {
text_edits.appendAssumeCapacity(.{
.range = edit.range,
.newText = edit.newText.items,
});
}
return try send(
writer,
server.arena.allocator(),
types.Response{
.id = id,
.result = .{ .TextEdits = text_edits.items },
},
);
}
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fn didChangeConfigurationHandler(server: *Server, writer: anytype, id: types.RequestId, req: Config.DidChangeConfigurationParams) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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_ = id;
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// NOTE: VS Code seems to always respond with null
if (req.settings) |configuration| {
inline for (std.meta.fields(Config.Configuration)) |field| {
if (@field(configuration, field.name)) |value| {
blk: {
if (@TypeOf(value) == []const u8) {
if (value.len == 0) {
break :blk;
}
}
@field(server.config, field.name) = if (@TypeOf(value) == []const u8) try server.allocator.dupe(u8, value) else value;
log.debug("setting configuration option '{s}' to '{any}'", .{ field.name, value });
}
}
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}
try server.config.configChanged(server.allocator, null);
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} else if (server.client_capabilities.supports_configuration) {
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try server.requestConfiguration(writer);
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}
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}
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fn renameHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.Rename) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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try generalReferencesHandler(server, writer, id, .{ .rename = req });
}
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fn referencesHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.References) !void {
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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try generalReferencesHandler(server, writer, id, .{ .references = req });
}
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fn documentHighlightHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.DocumentHighlight) !void {
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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try generalReferencesHandler(server, writer, id, .{ .highlight = req });
}
const GeneralReferencesRequest = union(enum) {
rename: requests.Rename,
references: requests.References,
highlight: requests.DocumentHighlight,
pub fn uri(self: @This()) []const u8 {
return switch (self) {
.rename => |rename| rename.params.textDocument.uri,
.references => |ref| ref.params.textDocument.uri,
.highlight => |highlight| highlight.params.textDocument.uri,
};
}
pub fn position(self: @This()) types.Position {
return switch (self) {
.rename => |rename| rename.params.position,
.references => |ref| ref.params.position,
.highlight => |highlight| highlight.params.position,
};
}
};
fn generalReferencesHandler(server: *Server, writer: anytype, id: types.RequestId, req: GeneralReferencesRequest) !void {
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
const allocator = server.arena.allocator();
const handle = server.document_store.getHandle(req.uri()) orelse {
return try respondGeneric(writer, id, null_result_response);
};
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if (req.position().character <= 0) return try respondGeneric(writer, id, null_result_response);
const source_index = offsets.positionToIndex(handle.text, req.position(), server.offset_encoding);
const pos_context = try analysis.getPositionContext(server.arena.allocator(), handle.text, source_index);
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const decl = switch (pos_context) {
.var_access => try server.getSymbolGlobal(source_index, handle),
.field_access => |range| try server.getSymbolFieldAccess(handle, source_index, range),
.label => try getLabelGlobal(source_index, handle),
else => null,
} orelse return try respondGeneric(writer, id, null_result_response);
const include_decl = switch (req) {
.references => |ref| ref.params.context.includeDeclaration,
else => true,
};
const locations = if (pos_context == .label)
// FIXME https://github.com/zigtools/zls/issues/728
// try references.labelReferences(allocator, decl, server.offset_encoding, include_decl)
std.ArrayListUnmanaged(types.Location){}
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else
try references.symbolReferences(
&server.arena,
&server.document_store,
decl,
server.offset_encoding,
include_decl,
server.config.skip_std_references,
req != .highlight, // scan the entire workspace except for highlight
);
const result: types.ResponseParams = switch (req) {
.rename => |rename| blk: {
var edits: types.WorkspaceEdit = .{ .changes = .{} };
for (locations.items) |loc| {
const gop = try edits.changes.getOrPutValue(allocator, loc.uri, .{});
try gop.value_ptr.append(allocator, .{
.range = loc.range,
.newText = rename.params.newName,
});
}
break :blk .{ .WorkspaceEdit = edits };
},
.references => .{ .Locations = locations.items },
.highlight => blk: {
var highlights = try std.ArrayListUnmanaged(types.DocumentHighlight).initCapacity(allocator, locations.items.len);
const uri = handle.uri;
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for (locations.items) |loc| {
if (!std.mem.eql(u8, loc.uri, uri)) continue;
highlights.appendAssumeCapacity(.{
.range = loc.range,
.kind = .Text,
});
}
break :blk .{ .DocumentHighlight = highlights.items };
},
};
try send(writer, allocator, types.Response{
.id = id,
.result = result,
});
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}
fn isPositionBefore(lhs: types.Position, rhs: types.Position) bool {
if (lhs.line == rhs.line) {
return lhs.character < rhs.character;
} else {
return lhs.line < rhs.line;
}
}
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fn inlayHintHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.InlayHint) !void {
const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
if (!server.config.enable_inlay_hints) return try respondGeneric(writer, id, null_result_response);
const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse {
return try respondGeneric(writer, id, null_result_response);
};
const hover_kind: types.MarkupContent.Kind = if (server.client_capabilities.hover_supports_md) .Markdown else .PlainText;
// TODO cache hints per document
// because the function could be stored in a different document
// we need the regenerate hints when the document itself or its imported documents change
// with caching it would also make sense to generate all hints instead of only the visible ones
const hints = try inlay_hints.writeRangeInlayHint(
&server.arena,
server.config.*,
&server.document_store,
handle,
req.params.range,
hover_kind,
server.offset_encoding,
);
defer {
for (hints) |hint| {
server.allocator.free(hint.tooltip.value);
}
server.allocator.free(hints);
}
// and only convert and return all hints in range for every request
var visible_hints = hints;
// small_hints should roughly be sorted by position
for (hints) |hint, i| {
if (isPositionBefore(hint.position, req.params.range.start)) continue;
visible_hints = hints[i..];
break;
}
for (visible_hints) |hint, i| {
if (isPositionBefore(hint.position, req.params.range.end)) continue;
visible_hints = visible_hints[0..i];
break;
}
return try send(writer, server.arena.allocator(), types.Response{
.id = id,
.result = .{ .InlayHint = visible_hints },
});
}
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fn codeActionHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.CodeAction) !void {
const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse {
return try respondGeneric(writer, id, null_result_response);
};
const allocator = server.arena.allocator();
var builder = code_actions.Builder{
.arena = &server.arena,
.document_store = &server.document_store,
.handle = handle,
.offset_encoding = server.offset_encoding,
};
var actions = std.ArrayListUnmanaged(types.CodeAction){};
for (req.params.context.diagnostics) |diagnostic| {
try builder.generateCodeAction(diagnostic, &actions);
}
for (actions.items) |*action| {
// TODO query whether SourceFixAll is supported by the server
if (action.kind == .SourceFixAll) action.kind = .QuickFix;
}
return try send(writer, allocator, types.Response{
.id = id,
.result = .{ .CodeAction = actions.items },
});
}
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fn foldingRangeHandler(server: *Server, writer: anytype, id: types.RequestId, req: requests.FoldingRange) !void {
const Token = std.zig.Token;
const Node = Ast.Node;
const allocator = server.arena.allocator();
const handle = server.document_store.getHandle(req.params.textDocument.uri) orelse {
log.warn("Trying to get folding ranges of non existent document {s}", .{req.params.textDocument.uri});
return try respondGeneric(writer, id, null_result_response);
};
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const helper = struct {
const Inclusivity = enum { inclusive, exclusive };
/// Returns true if added.
fn maybeAddTokRange(
p_ranges: *std.ArrayList(types.FoldingRange),
tree: Ast,
start: Ast.TokenIndex,
end: Ast.TokenIndex,
end_reach: Inclusivity,
) std.mem.Allocator.Error!bool {
const can_add = !tree.tokensOnSameLine(start, end);
if (can_add) {
try addTokRange(p_ranges, tree, start, end, end_reach);
}
return can_add;
}
fn addTokRange(
p_ranges: *std.ArrayList(types.FoldingRange),
tree: Ast,
start: Ast.TokenIndex,
end: Ast.TokenIndex,
end_reach: Inclusivity,
) std.mem.Allocator.Error!void {
std.debug.assert(!std.debug.runtime_safety or !tree.tokensOnSameLine(start, end));
const start_loc = tree.tokenLocation(0, start);
const end_loc_rel = tree.tokenLocation(@intCast(Ast.ByteOffset, start_loc.line_start), end);
std.debug.assert(end_loc_rel.line != 0);
try p_ranges.append(.{
.startLine = start_loc.line,
.endLine = (start_loc.line + end_loc_rel.line) -
@boolToInt(end_reach == .exclusive),
});
}
};
// Used to store the result
var ranges = std.ArrayList(types.FoldingRange).init(allocator);
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const token_tags: []const Token.Tag = handle.tree.tokens.items(.tag);
const node_tags: []const Node.Tag = handle.tree.nodes.items(.tag);
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if (token_tags.len == 0) return;
if (token_tags[0] == .container_doc_comment) {
var tok: Ast.TokenIndex = 1;
while (tok < token_tags.len) : (tok += 1) {
if (token_tags[tok] != .container_doc_comment) {
break;
}
}
if (tok > 1) { // each container doc comment has its own line, so each one counts for a line
try ranges.append(.{
.startLine = 0,
.endLine = tok - 1,
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});
}
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}
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for (node_tags) |node_tag, i| {
const node = @intCast(Node.Index, i);
switch (node_tag) {
// only fold the expression pertaining to the if statement, and the else statement, each respectively.
// TODO: Should folding multiline condition expressions also be supported? Ditto for the other control flow structures.
.@"if", .if_simple => {
const if_full = ast.ifFull(handle.tree, node);
const start_tok_1 = handle.tree.lastToken(if_full.ast.cond_expr);
const end_tok_1 = handle.tree.lastToken(if_full.ast.then_expr);
_ = try helper.maybeAddTokRange(&ranges, handle.tree, start_tok_1, end_tok_1, .inclusive);
if (if_full.ast.else_expr == 0) continue;
const start_tok_2 = if_full.else_token;
const end_tok_2 = handle.tree.lastToken(if_full.ast.else_expr);
_ = try helper.maybeAddTokRange(&ranges, handle.tree, start_tok_2, end_tok_2, .inclusive);
},
// same as if/else
.@"for",
.for_simple,
.@"while",
.while_cont,
.while_simple,
=> {
const loop_full = ast.whileAst(handle.tree, node).?;
const start_tok_1 = handle.tree.lastToken(loop_full.ast.cond_expr);
const end_tok_1 = handle.tree.lastToken(loop_full.ast.then_expr);
_ = try helper.maybeAddTokRange(&ranges, handle.tree, start_tok_1, end_tok_1, .inclusive);
if (loop_full.ast.else_expr == 0) continue;
const start_tok_2 = loop_full.else_token;
const end_tok_2 = handle.tree.lastToken(loop_full.ast.else_expr);
_ = try helper.maybeAddTokRange(&ranges, handle.tree, start_tok_2, end_tok_2, .inclusive);
},
.global_var_decl,
.simple_var_decl,
.aligned_var_decl,
.container_field_init,
.container_field_align,
.container_field,
.fn_proto,
.fn_proto_multi,
.fn_proto_one,
.fn_proto_simple,
.fn_decl,
=> decl_node_blk: {
doc_comment_range: {
const first_tok: Ast.TokenIndex = handle.tree.firstToken(node);
if (first_tok == 0) break :doc_comment_range;
const end_doc_tok = first_tok - 1;
if (token_tags[end_doc_tok] != .doc_comment) break :doc_comment_range;
var start_doc_tok = end_doc_tok;
while (start_doc_tok != 0) {
if (token_tags[start_doc_tok - 1] != .doc_comment) break;
start_doc_tok -= 1;
}
_ = try helper.maybeAddTokRange(&ranges, handle.tree, start_doc_tok, end_doc_tok, .inclusive);
}
// Function prototype folding regions
var fn_proto_buffer: [1]Node.Index = undefined;
const fn_proto = ast.fnProto(handle.tree, node, fn_proto_buffer[0..]) orelse
break :decl_node_blk;
const list_start_tok: Ast.TokenIndex = fn_proto.lparen;
const list_end_tok: Ast.TokenIndex = handle.tree.lastToken(fn_proto.ast.proto_node);
if (handle.tree.tokensOnSameLine(list_start_tok, list_end_tok)) break :decl_node_blk;
try ranges.ensureUnusedCapacity(1 + fn_proto.ast.params.len); // best guess, doesn't include anytype params
helper.addTokRange(&ranges, handle.tree, list_start_tok, list_end_tok, .exclusive) catch |err| switch (err) {
error.OutOfMemory => unreachable,
};
var it = fn_proto.iterate(&handle.tree);
while (ast.nextFnParam(&it)) |param| {
const doc_start_tok = param.first_doc_comment orelse continue;
var doc_end_tok = doc_start_tok;
while (token_tags[doc_end_tok + 1] == .doc_comment)
doc_end_tok += 1;
_ = try helper.maybeAddTokRange(&ranges, handle.tree, doc_start_tok, doc_end_tok, .inclusive);
}
},
.@"catch",
.@"orelse",
.multiline_string_literal,
// TODO: Similar to condition expressions in control flow structures, should folding multiline grouped expressions be enabled?
// .grouped_expression,
=> {
const start_tok = handle.tree.firstToken(node);
const end_tok = handle.tree.lastToken(node);
_ = try helper.maybeAddTokRange(&ranges, handle.tree, start_tok, end_tok, .inclusive);
},
// most other trivial cases can go through here.
else => {
switch (node_tag) {
.array_init,
.array_init_one,
.array_init_dot_two,
.array_init_one_comma,
.array_init_dot_two_comma,
.array_init_dot,
.array_init_dot_comma,
.array_init_comma,
.struct_init,
.struct_init_one,
.struct_init_one_comma,
.struct_init_dot_two,
.struct_init_dot_two_comma,
.struct_init_dot,
.struct_init_dot_comma,
.struct_init_comma,
.@"switch",
.switch_comma,
=> {},
else => disallow_fold: {
if (ast.isBlock(handle.tree, node))
break :disallow_fold;
if (ast.isCall(handle.tree, node))
break :disallow_fold;
if (ast.isBuiltinCall(handle.tree, node))
break :disallow_fold;
if (ast.isContainer(handle.tree, node) and node_tag != .root)
break :disallow_fold;
continue; // no conditions met, continue iterating without adding this potential folding range
},
}
const start_tok = handle.tree.firstToken(node);
const end_tok = handle.tree.lastToken(node);
_ = try helper.maybeAddTokRange(&ranges, handle.tree, start_tok, end_tok, .exclusive);
},
}
}
// Iterate over the source code and look for code regions with #region #endregion
{
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// We add opened folding regions to a stack as we go and pop one off when we find a closing brace.
// As an optimization we start with a reasonable capacity, which should work well in most cases since
// people will almost never have nesting that deep.
var stack = try std.ArrayList(usize).initCapacity(allocator, 10);
var i: usize = 0;
var lines_count: usize = 0;
while (i < handle.tree.source.len) : (i += 1) {
const slice = handle.tree.source[i..];
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if (slice[0] == '\n') {
lines_count += 1;
}
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if (std.mem.startsWith(u8, slice, "//#region")) {
try stack.append(lines_count);
}
if (std.mem.startsWith(u8, slice, "//#endregion") and stack.items.len > 0) {
const start_line = stack.pop();
const end_line = lines_count;
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// Add brace pairs but discard those from the same line, no need to waste memory on them
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if (start_line != end_line) {
try ranges.append(.{
.startLine = start_line,
.endLine = end_line,
});
}
}
}
}
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try send(writer, allocator, types.Response{
.id = id,
.result = .{ .FoldingRange = ranges.items },
});
}
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// Needed for the hack seen below.
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fn extractErr(val: anytype) anyerror {
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val catch |e| return e;
return error.HackDone;
}
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pub fn processJsonRpc(server: *Server, writer: anytype, json: []const u8) !void {
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const tracy_zone = tracy.trace(@src());
defer tracy_zone.end();
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server.arena = std.heap.ArenaAllocator.init(server.allocator);
defer server.arena.deinit();
var parser = std.json.Parser.init(server.arena.allocator(), false);
defer parser.deinit();
var tree = try parser.parse(json);
defer tree.deinit();
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const id = if (tree.root.Object.get("id")) |id| switch (id) {
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.Integer => |int| types.RequestId{ .Integer = @intCast(i32, int) },
.String => |str| types.RequestId{ .String = str },
else => types.RequestId{ .Integer = 0 },
} else types.RequestId{ .Integer = 0 };
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if (id == .String and std.mem.startsWith(u8, id.String, "register"))
return;
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if (id == .String and std.mem.startsWith(u8, id.String, "apply_edit"))
return;
if (id == .String and std.mem.eql(u8, id.String, "i_haz_configuration")) {
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log.info("Setting configuration...", .{});
// NOTE: Does this work with other editors?
// Yes, String ids are officially supported by LSP
// but not sure how standard this "standard" really is
if (tree.root.Object.get("error")) |_| return;
const result = tree.root.Object.get("result").?.Array;
inline for (std.meta.fields(Config)) |field, index| {
const value = result.items[index];
const ft = if (@typeInfo(field.field_type) == .Optional)
@typeInfo(field.field_type).Optional.child
else
field.field_type;
const ti = @typeInfo(ft);
if (value != .Null) {
const new_value: field.field_type = switch (ft) {
[]const u8 => switch (value) {
.String => |s| blk: {
if (s.len == 0) {
if (field.field_type == ?[]const u8) {
break :blk null;
} else {
break :blk s;
}
}
var nv = try server.allocator.dupe(u8, s);
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if (@field(server.config, field.name)) |prev_val| server.allocator.free(prev_val);
break :blk nv;
}, // TODO: Allocation model? (same with didChangeConfiguration); imo this isn't *that* bad but still
else => @panic("Invalid configuration value"), // TODO: Handle this
},
else => switch (ti) {
.Int => switch (value) {
.Integer => |s| std.math.cast(ft, s) orelse @panic("Invalid configuration value"),
else => @panic("Invalid configuration value"), // TODO: Handle this
},
.Bool => switch (value) {
.Bool => |b| b,
else => @panic("Invalid configuration value"), // TODO: Handle this
},
else => @compileError("Not implemented for " ++ @typeName(ft)),
},
};
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log.debug("setting configuration option '{s}' to '{any}'", .{ field.name, new_value });
@field(server.config, field.name) = new_value;
}
}
try server.config.configChanged(server.allocator, null);
return;
}
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const method = tree.root.Object.get("method").?.String;
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switch (server.status) {
.uninitialized => blk: {
if (std.mem.eql(u8, method, "initialize")) break :blk;
if (std.mem.eql(u8, method, "exit")) break :blk;
// ignore notifications
if (tree.root.Object.get("id") == null) break :blk;
return try sendErrorResponse(writer, server.arena.allocator(), .ServerNotInitialized, "server received a request before being initialized!");
},
.initializing => blk: {
if (std.mem.eql(u8, method, "initialized")) break :blk;
if (std.mem.eql(u8, method, "$/progress")) break :blk;
return try sendErrorResponse(writer, server.arena.allocator(), .InvalidRequest, "server received a request during initialization!");
},
.initialized => {},
.shutdown => return try sendErrorResponse(writer, server.arena.allocator(), .InvalidRequest, "server received a request after shutdown!"),
}
const start_time = std.time.milliTimestamp();
defer {
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// makes `zig build test` look nice
if (!zig_builtin.is_test and !std.mem.eql(u8, method, "shutdown")) {
const end_time = std.time.milliTimestamp();
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log.debug("Took {}ms to process method {s}", .{ end_time - start_time, method });
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}
}
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const method_map = .{
.{ "initialized", void, initializedHandler },
.{"$/cancelRequest"},
.{"textDocument/willSave"},
.{ "initialize", requests.Initialize, initializeHandler },
.{ "shutdown", void, shutdownHandler },
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.{ "exit", void, exitHandler },
.{ "textDocument/didOpen", requests.OpenDocument, openDocumentHandler },
.{ "textDocument/didChange", requests.ChangeDocument, changeDocumentHandler },
.{ "textDocument/didSave", requests.SaveDocument, saveDocumentHandler },
.{ "textDocument/didClose", requests.CloseDocument, closeDocumentHandler },
.{ "textDocument/semanticTokens/full", requests.SemanticTokensFull, semanticTokensFullHandler },
.{ "textDocument/inlayHint", requests.InlayHint, inlayHintHandler },
.{ "textDocument/completion", requests.Completion, completionHandler },
.{ "textDocument/signatureHelp", requests.SignatureHelp, signatureHelpHandler },
.{ "textDocument/definition", requests.GotoDefinition, gotoDefinitionHandler },
.{ "textDocument/typeDefinition", requests.GotoDefinition, gotoDefinitionHandler },
.{ "textDocument/implementation", requests.GotoDefinition, gotoDefinitionHandler },
.{ "textDocument/declaration", requests.GotoDeclaration, gotoDeclarationHandler },
.{ "textDocument/hover", requests.Hover, hoverHandler },
.{ "textDocument/documentSymbol", requests.DocumentSymbols, documentSymbolsHandler },
.{ "textDocument/formatting", requests.Formatting, formattingHandler },
.{ "textDocument/rename", requests.Rename, renameHandler },
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.{ "textDocument/references", requests.References, referencesHandler },
.{ "textDocument/documentHighlight", requests.DocumentHighlight, documentHighlightHandler },
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.{ "textDocument/codeAction", requests.CodeAction, codeActionHandler },
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.{ "workspace/didChangeConfiguration", Config.DidChangeConfigurationParams, didChangeConfigurationHandler },
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.{ "textDocument/foldingRange", requests.FoldingRange, foldingRangeHandler },
};
if (zig_builtin.zig_backend == .stage1) {
// Hack to avoid `return`ing in the inline for, which causes bugs.
var done: ?anyerror = null;
inline for (method_map) |method_info| {
if (done == null and std.mem.eql(u8, method, method_info[0])) {
if (method_info.len == 1) {
log.warn("method not mapped: {s}", .{method});
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done = error.HackDone;
} else if (method_info[1] != void) {
const ReqT = method_info[1];
if (requests.fromDynamicTree(&server.arena, ReqT, tree.root)) |request_obj| {
done = error.HackDone;
done = extractErr(method_info[2](server, writer, id, request_obj));
} else |err| {
if (err == error.MalformedJson) {
log.warn("Could not create request type {s} from JSON {s}", .{ @typeName(ReqT), json });
}
done = err;
}
} else {
done = error.HackDone;
(method_info[2])(server, writer, id) catch |err| {
done = err;
};
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}
}
}
if (done) |err| switch (err) {
error.MalformedJson => return try respondGeneric(writer, id, null_result_response),
error.HackDone => return,
else => return err,
};
} else {
inline for (method_map) |method_info| {
if (std.mem.eql(u8, method, method_info[0])) {
if (method_info.len == 1) {
log.warn("method not mapped: {s}", .{method});
} else if (method_info[1] != void) {
const ReqT = method_info[1];
const request_obj = try requests.fromDynamicTree(&server.arena, ReqT, tree.root);
method_info[2](server, writer, id, request_obj) catch |err| {
log.err("failed to process request: {s}", .{@errorName(err)});
};
} else {
method_info[2](server, writer, id) catch |err| {
log.err("failed to process request: {s}", .{@errorName(err)});
};
}
return;
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}
}
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}
// Boolean value is true if the method is a request (and thus the client
// needs a response) or false if the method is a notification (in which
// case it should be silently ignored)
const unimplemented_map = std.ComptimeStringMap(bool, .{
.{ "textDocument/codeLens", true },
.{ "textDocument/documentLink", true },
.{ "textDocument/rangeFormatting", true },
.{ "textDocument/onTypeFormatting", true },
.{ "textDocument/prepareRename", true },
.{ "textDocument/selectionRange", true },
.{ "textDocument/semanticTokens/range", true },
.{ "workspace/didChangeWorkspaceFolders", false },
});
if (unimplemented_map.get(method)) |request| {
// TODO: Unimplemented methods, implement them and add them to server capabilities.
if (request) {
return try respondGeneric(writer, id, null_result_response);
}
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log.debug("Notification method {s} is not implemented", .{method});
return;
}
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if (tree.root.Object.get("id")) |_| {
return try respondGeneric(writer, id, not_implemented_response);
}
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log.debug("Method without return value not implemented: {s}", .{method});
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}
pub fn init(
allocator: std.mem.Allocator,
config: *Config,
config_path: ?[]const u8,
) !Server {
// TODO replace global with something like an Analyser struct
// which contains using_trail & resolve_trail and place it inside Server
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// see: https://github.com/zigtools/zls/issues/536
analysis.init(allocator);
try config.configChanged(allocator, config_path);
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var document_store = DocumentStore{
.allocator = allocator,
.config = config,
};
errdefer document_store.deinit();
var builtin_completions = try std.ArrayListUnmanaged(types.CompletionItem).initCapacity(allocator, data.builtins.len);
errdefer builtin_completions.deinit(allocator);
for (data.builtins) |builtin| {
const insert_text = if (config.enable_snippets) builtin.snippet else builtin.name;
builtin_completions.appendAssumeCapacity(.{
.label = builtin.name,
.kind = .Function,
.filterText = builtin.name[1..],
.detail = builtin.signature,
.insertText = if (config.include_at_in_builtins) insert_text else insert_text[1..],
.insertTextFormat = if (config.enable_snippets) .Snippet else .PlainText,
.documentation = .{
.kind = .Markdown,
.value = builtin.documentation,
},
});
}
return Server{
.config = config,
.allocator = allocator,
.document_store = document_store,
.builtin_completions = builtin_completions,
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.status = .uninitialized,
};
}
pub fn deinit(server: *Server) void {
server.document_store.deinit();
analysis.deinit();
server.builtin_completions.deinit(server.allocator);
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}