800 lines
30 KiB
Zig
800 lines
30 KiB
Zig
const std = @import("std");
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const types = @import("./types.zig");
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const URI = @import("./uri.zig");
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const analysis = @import("./analysis.zig");
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const offsets = @import("./offsets.zig");
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const log = std.log.scoped(.doc_store);
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const Ast = std.zig.Ast;
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const BuildAssociatedConfig = @import("./BuildAssociatedConfig.zig");
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const DocumentStore = @This();
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const BuildFile = struct {
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const Pkg = struct {
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name: []const u8,
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uri: []const u8,
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};
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refs: usize,
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uri: []const u8,
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packages: std.ArrayListUnmanaged(Pkg),
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builtin_uri: ?[]const u8 = null,
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pub fn destroy(self: *BuildFile, allocator: std.mem.Allocator) void {
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if (self.builtin_uri) |builtin_uri| allocator.free(builtin_uri);
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allocator.destroy(self);
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}
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};
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pub const Handle = struct {
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document: types.TextDocument,
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count: usize,
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/// Contains one entry for every import in the document
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import_uris: []const []const u8,
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/// Items in this array list come from `import_uris`
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imports_used: std.ArrayListUnmanaged([]const u8),
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tree: Ast,
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document_scope: analysis.DocumentScope,
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associated_build_file: ?*BuildFile,
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is_build_file: ?*BuildFile,
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pub fn uri(handle: Handle) []const u8 {
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return handle.document.uri;
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}
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};
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allocator: std.mem.Allocator,
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handles: std.StringHashMap(*Handle),
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zig_exe_path: ?[]const u8,
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build_files: std.ArrayListUnmanaged(*BuildFile),
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build_runner_path: []const u8,
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build_runner_cache_path: []const u8,
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std_uri: ?[]const u8,
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zig_cache_root: []const u8,
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zig_global_cache_root: []const u8,
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builtin_path: ?[]const u8,
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pub fn init(
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self: *DocumentStore,
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allocator: std.mem.Allocator,
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zig_exe_path: ?[]const u8,
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build_runner_path: []const u8,
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build_runner_cache_path: []const u8,
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zig_lib_path: ?[]const u8,
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zig_cache_root: []const u8,
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zig_global_cache_root: []const u8,
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builtin_path: ?[]const u8,
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) !void {
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self.allocator = allocator;
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self.handles = std.StringHashMap(*Handle).init(allocator);
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self.zig_exe_path = zig_exe_path;
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self.build_files = .{};
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self.build_runner_path = build_runner_path;
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self.build_runner_cache_path = build_runner_cache_path;
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self.std_uri = try stdUriFromLibPath(allocator, zig_lib_path);
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self.zig_cache_root = zig_cache_root;
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self.zig_global_cache_root = zig_global_cache_root;
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self.builtin_path = builtin_path;
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}
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fn loadBuildAssociatedConfiguration(allocator: std.mem.Allocator, build_file: *BuildFile, build_file_path: []const u8) !void {
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const directory_path = build_file_path[0 .. build_file_path.len - "build.zig".len];
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const options = std.json.ParseOptions{ .allocator = allocator };
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const build_associated_config = blk: {
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const config_file_path = try std.fs.path.join(allocator, &[_][]const u8{ directory_path, "zls.build.json" });
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defer allocator.free(config_file_path);
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var config_file = std.fs.cwd().openFile(config_file_path, .{}) catch |err| {
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if (err == error.FileNotFound) return;
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return err;
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};
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defer config_file.close();
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const file_buf = try config_file.readToEndAlloc(allocator, 0x1000000);
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defer allocator.free(file_buf);
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break :blk try std.json.parse(BuildAssociatedConfig, &std.json.TokenStream.init(file_buf), options);
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};
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defer std.json.parseFree(BuildAssociatedConfig, build_associated_config, options);
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if (build_associated_config.relative_builtin_path) |relative_builtin_path| {
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var absolute_builtin_path = try std.mem.concat(allocator, u8, &.{ directory_path, relative_builtin_path });
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defer allocator.free(absolute_builtin_path);
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build_file.builtin_uri = try URI.fromPath(allocator, absolute_builtin_path);
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}
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}
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const LoadPackagesContext = struct {
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build_file: *BuildFile,
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allocator: std.mem.Allocator,
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build_runner_path: []const u8,
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build_runner_cache_path: []const u8,
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zig_exe_path: []const u8,
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build_file_path: ?[]const u8 = null,
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cache_root: []const u8,
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global_cache_root: []const u8,
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};
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fn loadPackages(context: LoadPackagesContext) !void {
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const allocator = context.allocator;
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const build_file = context.build_file;
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const build_runner_path = context.build_runner_path;
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const build_runner_cache_path = context.build_runner_cache_path;
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const zig_exe_path = context.zig_exe_path;
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const build_file_path = context.build_file_path orelse try URI.parse(allocator, build_file.uri);
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defer if (context.build_file_path == null) allocator.free(build_file_path);
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const directory_path = build_file_path[0 .. build_file_path.len - "build.zig".len];
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const zig_run_result = try std.ChildProcess.exec(.{
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.allocator = allocator,
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.argv = &[_][]const u8{
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zig_exe_path,
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"run",
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build_runner_path,
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"--cache-dir",
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build_runner_cache_path,
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"--pkg-begin",
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"@build@",
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build_file_path,
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"--pkg-end",
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"--",
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zig_exe_path,
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directory_path,
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context.cache_root,
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context.global_cache_root,
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},
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});
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defer {
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allocator.free(zig_run_result.stdout);
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allocator.free(zig_run_result.stderr);
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}
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switch (zig_run_result.term) {
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.Exited => |exit_code| {
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if (exit_code == 0) {
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log.debug("Finished zig run for build file {s}", .{build_file.uri});
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for (build_file.packages.items) |old_pkg| {
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allocator.free(old_pkg.name);
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allocator.free(old_pkg.uri);
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}
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build_file.packages.shrinkAndFree(allocator, 0);
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var line_it = std.mem.split(u8, zig_run_result.stdout, "\n");
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while (line_it.next()) |line| {
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if (std.mem.indexOfScalar(u8, line, '\x00')) |zero_byte_idx| {
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const name = line[0..zero_byte_idx];
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const rel_path = line[zero_byte_idx + 1 ..];
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const pkg_abs_path = try std.fs.path.resolve(allocator, &[_][]const u8{ directory_path, rel_path });
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defer allocator.free(pkg_abs_path);
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const pkg_uri = try URI.fromPath(allocator, pkg_abs_path);
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errdefer allocator.free(pkg_uri);
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const duped_name = try allocator.dupe(u8, name);
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errdefer allocator.free(duped_name);
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(try build_file.packages.addOne(allocator)).* = .{
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.name = duped_name,
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.uri = pkg_uri,
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};
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}
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}
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}
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},
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else => return error.RunFailed,
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}
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}
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/// This function asserts the document is not open yet and takes ownership
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/// of the uri and text passed in.
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fn newDocument(self: *DocumentStore, uri: []const u8, text: [:0]u8) anyerror!*Handle {
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log.debug("Opened document: {s}", .{uri});
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var handle = try self.allocator.create(Handle);
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errdefer self.allocator.destroy(handle);
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var tree = try std.zig.parse(self.allocator, text);
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errdefer tree.deinit(self.allocator);
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var document_scope = try analysis.makeDocumentScope(self.allocator, tree);
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errdefer document_scope.deinit(self.allocator);
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handle.* = Handle{
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.count = 1,
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.import_uris = &.{},
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.imports_used = .{},
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.document = .{
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.uri = uri,
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.text = text,
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// Extra +1 to include the null terminator
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.mem = text.ptr[0 .. text.len + 1],
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},
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.tree = tree,
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.document_scope = document_scope,
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.associated_build_file = null,
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.is_build_file = null,
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};
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// TODO: Better logic for detecting std or subdirectories?
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const in_std = std.mem.indexOf(u8, uri, "/std/") != null;
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if (self.zig_exe_path != null and std.mem.endsWith(u8, uri, "/build.zig") and !in_std) {
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log.debug("Document is a build file, extracting packages...", .{});
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// This is a build file.
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var build_file = try self.allocator.create(BuildFile);
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errdefer build_file.destroy(self.allocator);
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build_file.* = .{
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.refs = 1,
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.uri = try self.allocator.dupe(u8, uri),
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.packages = .{},
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};
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const build_file_path = try URI.parse(self.allocator, build_file.uri);
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defer self.allocator.free(build_file_path);
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loadBuildAssociatedConfiguration(self.allocator, build_file, build_file_path) catch |err| {
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log.debug("Failed to load config associated with build file {s} (error: {})", .{ build_file.uri, err });
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};
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if (build_file.builtin_uri == null) {
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if (self.builtin_path != null) {
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build_file.builtin_uri = try URI.fromPath(self.allocator, self.builtin_path.?);
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log.info("builtin config not found, falling back to default: {s}", .{build_file.builtin_uri});
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}
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}
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// TODO: Do this in a separate thread?
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// It can take quite long.
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loadPackages(.{
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.build_file = build_file,
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.allocator = self.allocator,
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.build_runner_path = self.build_runner_path,
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.build_runner_cache_path = self.build_runner_cache_path,
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.zig_exe_path = self.zig_exe_path.?,
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.build_file_path = build_file_path,
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.cache_root = self.zig_cache_root,
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.global_cache_root = self.zig_global_cache_root,
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}) catch |err| {
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log.debug("Failed to load packages of build file {s} (error: {})", .{ build_file.uri, err });
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};
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try self.build_files.append(self.allocator, build_file);
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handle.is_build_file = build_file;
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} else if (self.zig_exe_path != null and !in_std) {
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// Look into build files and keep the one that lives closest to the document in the directory structure
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var candidate: ?*BuildFile = null;
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{
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var uri_chars_matched: usize = 0;
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for (self.build_files.items) |build_file| {
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const build_file_base_uri = build_file.uri[0 .. std.mem.lastIndexOfScalar(u8, build_file.uri, '/').? + 1];
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if (build_file_base_uri.len > uri_chars_matched and std.mem.startsWith(u8, uri, build_file_base_uri)) {
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uri_chars_matched = build_file_base_uri.len;
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candidate = build_file;
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}
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}
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if (candidate) |build_file| {
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log.debug("Found a candidate associated build file: `{s}`", .{build_file.uri});
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}
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}
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// Then, try to find the closest build file.
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var curr_path = try URI.parse(self.allocator, uri);
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defer self.allocator.free(curr_path);
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while (true) {
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if (curr_path.len == 0) break;
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if (std.mem.lastIndexOfScalar(u8, curr_path[0 .. curr_path.len - 1], std.fs.path.sep)) |idx| {
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// This includes the last separator
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curr_path = curr_path[0 .. idx + 1];
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// Try to open the folder, then the file.
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var folder = std.fs.cwd().openDir(curr_path, .{}) catch |err| switch (err) {
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error.FileNotFound => continue,
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else => return err,
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};
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defer folder.close();
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var build_file = folder.openFile("build.zig", .{}) catch |err| switch (err) {
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error.FileNotFound, error.AccessDenied => continue,
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else => return err,
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};
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defer build_file.close();
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// Calculate build file's URI
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var candidate_path = try std.mem.concat(self.allocator, u8, &.{ curr_path, "build.zig" });
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defer self.allocator.free(candidate_path);
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const build_file_uri = try URI.fromPath(self.allocator, candidate_path);
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errdefer self.allocator.free(build_file_uri);
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if (candidate) |candidate_build_file| {
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// Check if it is the same as the current candidate we got from the existing build files.
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// If it isn't, we need to read the file and make a new build file.
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if (std.mem.eql(u8, candidate_build_file.uri, build_file_uri)) {
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self.allocator.free(build_file_uri);
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break;
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}
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}
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// Check if the build file already exists
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if (self.handles.get(build_file_uri)) |build_file_handle| {
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candidate = build_file_handle.is_build_file.?;
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break;
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}
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// Read the build file, create a new document, set the candidate to the new build file.
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const build_file_text = try build_file.readToEndAllocOptions(
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self.allocator,
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std.math.maxInt(usize),
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null,
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@alignOf(u8),
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0,
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);
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errdefer self.allocator.free(build_file_text);
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const build_file_handle = try self.newDocument(build_file_uri, build_file_text);
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candidate = build_file_handle.is_build_file.?;
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break;
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} else break;
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}
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// Finally, associate the candidate build file, if any, to the new document.
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if (candidate) |build_file| {
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build_file.refs += 1;
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handle.associated_build_file = build_file;
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log.debug("Associated build file `{s}` to document `{s}`", .{ build_file.uri, handle.uri() });
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}
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}
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handle.import_uris = try self.collectImportUris(handle);
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errdefer {
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for (handle.import_uris) |imp_uri| {
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self.allocator.free(imp_uri);
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}
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self.allocator.free(handle.import_uris);
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}
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try self.handles.putNoClobber(uri, handle);
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return handle;
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}
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pub fn openDocument(self: *DocumentStore, uri: []const u8, text: []const u8) !*Handle {
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if (self.handles.getEntry(uri)) |entry| {
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log.debug("Document already open: {s}, incrementing count", .{uri});
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entry.value_ptr.*.count += 1;
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if (entry.value_ptr.*.is_build_file) |build_file| {
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build_file.refs += 1;
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}
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log.debug("New count: {}", .{entry.value_ptr.*.count});
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return entry.value_ptr.*;
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}
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const duped_text = try self.allocator.dupeZ(u8, text);
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errdefer self.allocator.free(duped_text);
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const duped_uri = try self.allocator.dupeZ(u8, uri);
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errdefer self.allocator.free(duped_uri);
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return try self.newDocument(duped_uri, duped_text);
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}
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fn decrementBuildFileRefs(self: *DocumentStore, build_file: *BuildFile) void {
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build_file.refs -= 1;
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if (build_file.refs == 0) {
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log.debug("Freeing build file {s}", .{build_file.uri});
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for (build_file.packages.items) |pkg| {
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self.allocator.free(pkg.name);
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self.allocator.free(pkg.uri);
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}
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build_file.packages.deinit(self.allocator);
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// Decrement count of the document since one count comes
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// from the build file existing.
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self.decrementCount(build_file.uri);
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self.allocator.free(build_file.uri);
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// Remove the build file from the array list
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_ = self.build_files.swapRemove(std.mem.indexOfScalar(*BuildFile, self.build_files.items, build_file).?);
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build_file.destroy(self.allocator);
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}
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}
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fn decrementCount(self: *DocumentStore, uri: []const u8) void {
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if (self.handles.getEntry(uri)) |entry| {
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const handle = entry.value_ptr.*;
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if (handle.count == 0) return;
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handle.count -= 1;
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if (handle.count > 0)
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return;
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log.debug("Freeing document: {s}", .{uri});
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if (handle.associated_build_file) |build_file| {
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self.decrementBuildFileRefs(build_file);
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}
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if (handle.is_build_file) |build_file| {
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self.decrementBuildFileRefs(build_file);
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}
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handle.tree.deinit(self.allocator);
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self.allocator.free(handle.document.mem);
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for (handle.imports_used.items) |import_uri| {
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self.decrementCount(import_uri);
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}
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for (handle.import_uris) |import_uri| {
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self.allocator.free(import_uri);
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}
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handle.document_scope.deinit(self.allocator);
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handle.imports_used.deinit(self.allocator);
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self.allocator.free(handle.import_uris);
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self.allocator.destroy(handle);
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const uri_key = entry.key_ptr.*;
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std.debug.assert(self.handles.remove(uri));
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self.allocator.free(uri_key);
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}
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}
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pub fn closeDocument(self: *DocumentStore, uri: []const u8) void {
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self.decrementCount(uri);
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}
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pub fn getHandle(self: *DocumentStore, uri: []const u8) ?*Handle {
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return self.handles.get(uri);
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}
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fn collectImportUris(self: *DocumentStore, handle: *Handle) ![]const []const u8 {
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var new_imports = std.ArrayList([]const u8).init(self.allocator);
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errdefer {
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for (new_imports.items) |imp| {
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self.allocator.free(imp);
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}
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new_imports.deinit();
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}
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try analysis.collectImports(&new_imports, handle.tree);
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// Convert to URIs
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var i: usize = 0;
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while (i < new_imports.items.len) {
|
|
if (try self.uriFromImportStr(self.allocator, handle.*, new_imports.items[i])) |uri| {
|
|
// The raw import strings are owned by the document and do not need to be freed here.
|
|
new_imports.items[i] = uri;
|
|
i += 1;
|
|
} else {
|
|
_ = new_imports.swapRemove(i);
|
|
}
|
|
}
|
|
return new_imports.toOwnedSlice();
|
|
}
|
|
|
|
fn refreshDocument(self: *DocumentStore, handle: *Handle) !void {
|
|
log.debug("New text for document {s}", .{handle.uri()});
|
|
handle.tree.deinit(self.allocator);
|
|
handle.tree = try std.zig.parse(self.allocator, handle.document.text);
|
|
|
|
handle.document_scope.deinit(self.allocator);
|
|
handle.document_scope = try analysis.makeDocumentScope(self.allocator, handle.tree);
|
|
|
|
const new_imports = try self.collectImportUris(handle);
|
|
errdefer {
|
|
for (new_imports) |imp| {
|
|
self.allocator.free(imp);
|
|
}
|
|
self.allocator.free(new_imports);
|
|
}
|
|
|
|
const old_imports = handle.import_uris;
|
|
handle.import_uris = new_imports;
|
|
defer {
|
|
for (old_imports) |uri| {
|
|
self.allocator.free(uri);
|
|
}
|
|
self.allocator.free(old_imports);
|
|
}
|
|
|
|
var i: usize = 0;
|
|
while (i < handle.imports_used.items.len) {
|
|
const old = handle.imports_used.items[i];
|
|
still_exists: {
|
|
for (new_imports) |new| {
|
|
if (std.mem.eql(u8, new, old)) {
|
|
handle.imports_used.items[i] = new;
|
|
break :still_exists;
|
|
}
|
|
}
|
|
log.debug("Import removed: {s}", .{old});
|
|
self.decrementCount(old);
|
|
_ = handle.imports_used.swapRemove(i);
|
|
continue;
|
|
}
|
|
i += 1;
|
|
}
|
|
}
|
|
|
|
pub fn applySave(self: *DocumentStore, handle: *Handle) !void {
|
|
if (handle.is_build_file) |build_file| {
|
|
loadPackages(.{
|
|
.build_file = build_file,
|
|
.allocator = self.allocator,
|
|
.build_runner_path = self.build_runner_path,
|
|
.build_runner_cache_path = self.build_runner_cache_path,
|
|
.zig_exe_path = self.zig_exe_path.?,
|
|
.cache_root = self.zig_cache_root,
|
|
.global_cache_root = self.zig_global_cache_root,
|
|
}) catch |err| {
|
|
log.debug("Failed to load packages of build file {s} (error: {})", .{ build_file.uri, err });
|
|
};
|
|
}
|
|
}
|
|
|
|
pub fn applyChanges(self: *DocumentStore, handle: *Handle, content_changes: std.json.Array, offset_encoding: offsets.Encoding) !void {
|
|
const document = &handle.document;
|
|
|
|
for (content_changes.items) |change| {
|
|
if (change.Object.get("range")) |range| {
|
|
std.debug.assert(@ptrCast([*]const u8, document.text.ptr) == document.mem.ptr);
|
|
|
|
// TODO: add tests and validate the JSON
|
|
const start_obj = range.Object.get("start").?.Object;
|
|
const start_pos = types.Position{
|
|
.line = start_obj.get("line").?.Integer,
|
|
.character = start_obj.get("character").?.Integer,
|
|
};
|
|
const end_obj = range.Object.get("end").?.Object;
|
|
const end_pos = types.Position{
|
|
.line = end_obj.get("line").?.Integer,
|
|
.character = end_obj.get("character").?.Integer,
|
|
};
|
|
|
|
const change_text = change.Object.get("text").?.String;
|
|
const start_index = (try offsets.documentPosition(document.*, start_pos, offset_encoding)).absolute_index;
|
|
const end_index = (try offsets.documentPosition(document.*, end_pos, offset_encoding)).absolute_index;
|
|
|
|
const old_len = document.text.len;
|
|
const new_len = old_len - (end_index - start_index) + change_text.len;
|
|
if (new_len >= document.mem.len) {
|
|
// We need to reallocate memory.
|
|
// We reallocate twice the current filesize or the new length, if it's more than that
|
|
// so that we can reduce the amount of realloc calls.
|
|
// We can tune this to find a better size if needed.
|
|
const realloc_len = std.math.max(2 * old_len, new_len + 1);
|
|
document.mem = try self.allocator.realloc(document.mem, realloc_len);
|
|
}
|
|
|
|
// The first part of the string, [0 .. start_index] need not be changed.
|
|
// We then copy the last part of the string, [end_index ..] to its
|
|
// new position, [start_index + change_len .. ]
|
|
if (new_len < old_len) {
|
|
std.mem.copy(u8, document.mem[start_index + change_text.len ..][0 .. old_len - end_index], document.mem[end_index..old_len]);
|
|
} else {
|
|
std.mem.copyBackwards(u8, document.mem[start_index + change_text.len ..][0 .. old_len - end_index], document.mem[end_index..old_len]);
|
|
}
|
|
// Finally, we copy the changes over.
|
|
std.mem.copy(u8, document.mem[start_index..][0..change_text.len], change_text);
|
|
|
|
// Reset the text substring.
|
|
document.mem[new_len] = 0;
|
|
document.text = document.mem[0..new_len :0];
|
|
} else {
|
|
const change_text = change.Object.get("text").?.String;
|
|
const old_len = document.text.len;
|
|
|
|
if (change_text.len >= document.mem.len) {
|
|
// Like above.
|
|
const realloc_len = std.math.max(2 * old_len, change_text.len + 1);
|
|
document.mem = try self.allocator.realloc(document.mem, realloc_len);
|
|
}
|
|
|
|
std.mem.copy(u8, document.mem[0..change_text.len], change_text);
|
|
document.mem[change_text.len] = 0;
|
|
document.text = document.mem[0..change_text.len :0];
|
|
}
|
|
}
|
|
|
|
try self.refreshDocument(handle);
|
|
}
|
|
|
|
pub fn uriFromImportStr(self: *DocumentStore, allocator: std.mem.Allocator, handle: Handle, import_str: []const u8) !?[]const u8 {
|
|
if (std.mem.eql(u8, import_str, "std")) {
|
|
if (self.std_uri) |uri| return try allocator.dupe(u8, uri) else {
|
|
log.debug("Cannot resolve std library import, path is null.", .{});
|
|
return null;
|
|
}
|
|
} else if (std.mem.eql(u8, import_str, "builtin")) {
|
|
if (handle.associated_build_file) |build_file| {
|
|
if (build_file.builtin_uri) |builtin_uri| {
|
|
return try allocator.dupe(u8, builtin_uri);
|
|
}
|
|
}
|
|
if (self.builtin_path) |_| {
|
|
return try URI.fromPath(allocator, self.builtin_path.?);
|
|
}
|
|
return null;
|
|
} else if (!std.mem.endsWith(u8, import_str, ".zig")) {
|
|
if (handle.associated_build_file) |build_file| {
|
|
for (build_file.packages.items) |pkg| {
|
|
if (std.mem.eql(u8, import_str, pkg.name)) {
|
|
return try allocator.dupe(u8, pkg.uri);
|
|
}
|
|
}
|
|
}
|
|
return null;
|
|
} else {
|
|
const base = handle.uri();
|
|
var base_len = base.len;
|
|
while (base[base_len - 1] != '/' and base_len > 0) {
|
|
base_len -= 1;
|
|
}
|
|
base_len -= 1;
|
|
if (base_len <= 0) {
|
|
return error.UriBadScheme;
|
|
}
|
|
return try URI.pathRelative(allocator, base[0..base_len], import_str);
|
|
}
|
|
}
|
|
|
|
pub fn resolveImport(self: *DocumentStore, handle: *Handle, import_str: []const u8) !?*Handle {
|
|
const allocator = self.allocator;
|
|
const final_uri = (try self.uriFromImportStr(
|
|
self.allocator,
|
|
handle.*,
|
|
import_str,
|
|
)) orelse return null;
|
|
defer allocator.free(final_uri);
|
|
|
|
for (handle.imports_used.items) |uri| {
|
|
if (std.mem.eql(u8, uri, final_uri)) {
|
|
return self.getHandle(final_uri).?;
|
|
}
|
|
}
|
|
// The URI must be somewhere in the import_uris or the package uris
|
|
const handle_uri = find_uri: {
|
|
for (handle.import_uris) |uri| {
|
|
if (std.mem.eql(u8, uri, final_uri)) {
|
|
break :find_uri uri;
|
|
}
|
|
}
|
|
if (handle.associated_build_file) |bf| {
|
|
for (bf.packages.items) |pkg| {
|
|
if (std.mem.eql(u8, pkg.uri, final_uri)) {
|
|
break :find_uri pkg.uri;
|
|
}
|
|
}
|
|
}
|
|
return null;
|
|
};
|
|
|
|
// New import.
|
|
// Check if the import is already opened by others.
|
|
if (self.getHandle(final_uri)) |new_handle| {
|
|
// If it is, append it to our imports, increment the count, set our new handle
|
|
// and return the parsed tree root node.
|
|
try handle.imports_used.append(self.allocator, handle_uri);
|
|
new_handle.count += 1;
|
|
return new_handle;
|
|
}
|
|
|
|
// New document, read the file then call into openDocument.
|
|
const file_path = try URI.parse(allocator, final_uri);
|
|
defer allocator.free(file_path);
|
|
|
|
var file = std.fs.cwd().openFile(file_path, .{}) catch {
|
|
log.debug("Cannot open import file {s}", .{file_path});
|
|
return null;
|
|
};
|
|
|
|
defer file.close();
|
|
{
|
|
const file_contents = file.readToEndAllocOptions(
|
|
allocator,
|
|
std.math.maxInt(usize),
|
|
null,
|
|
@alignOf(u8),
|
|
0,
|
|
) catch |err| switch (err) {
|
|
error.OutOfMemory => return error.OutOfMemory,
|
|
else => {
|
|
log.debug("Could not read from file {s}", .{file_path});
|
|
return null;
|
|
},
|
|
};
|
|
errdefer allocator.free(file_contents);
|
|
|
|
// Add to import table of current handle.
|
|
try handle.imports_used.append(self.allocator, handle_uri);
|
|
// Swap handles.
|
|
// This takes ownership of the passed uri and text.
|
|
const duped_final_uri = try allocator.dupe(u8, final_uri);
|
|
errdefer allocator.free(duped_final_uri);
|
|
return try self.newDocument(duped_final_uri, file_contents);
|
|
}
|
|
}
|
|
|
|
fn stdUriFromLibPath(allocator: std.mem.Allocator, zig_lib_path: ?[]const u8) !?[]const u8 {
|
|
if (zig_lib_path) |zpath| {
|
|
const std_path = std.fs.path.resolve(allocator, &[_][]const u8{
|
|
zpath, "./std/std.zig",
|
|
}) catch |err| {
|
|
log.debug("Failed to resolve zig std library path, error: {}", .{err});
|
|
return null;
|
|
};
|
|
|
|
defer allocator.free(std_path);
|
|
// Get the std_path as a URI, so we can just append to it!
|
|
return try URI.fromPath(allocator, std_path);
|
|
}
|
|
|
|
return null;
|
|
}
|
|
|
|
pub fn deinit(self: *DocumentStore) void {
|
|
var entry_iterator = self.handles.iterator();
|
|
while (entry_iterator.next()) |entry| {
|
|
entry.value_ptr.*.document_scope.deinit(self.allocator);
|
|
entry.value_ptr.*.tree.deinit(self.allocator);
|
|
self.allocator.free(entry.value_ptr.*.document.mem);
|
|
for (entry.value_ptr.*.import_uris) |uri| {
|
|
self.allocator.free(uri);
|
|
}
|
|
self.allocator.free(entry.value_ptr.*.import_uris);
|
|
entry.value_ptr.*.imports_used.deinit(self.allocator);
|
|
self.allocator.free(entry.key_ptr.*);
|
|
self.allocator.destroy(entry.value_ptr.*);
|
|
}
|
|
|
|
self.handles.deinit();
|
|
for (self.build_files.items) |build_file| {
|
|
for (build_file.packages.items) |pkg| {
|
|
self.allocator.free(pkg.name);
|
|
self.allocator.free(pkg.uri);
|
|
}
|
|
build_file.packages.deinit(self.allocator);
|
|
self.allocator.free(build_file.uri);
|
|
build_file.destroy(self.allocator);
|
|
}
|
|
if (self.std_uri) |std_uri| {
|
|
self.allocator.free(std_uri);
|
|
}
|
|
self.allocator.free(self.build_runner_path);
|
|
self.allocator.free(self.build_runner_cache_path);
|
|
self.build_files.deinit(self.allocator);
|
|
}
|
|
|
|
fn tagStoreCompletionItems(self: DocumentStore, arena: *std.heap.ArenaAllocator, base: *DocumentStore.Handle, comptime name: []const u8) ![]types.CompletionItem {
|
|
// TODO Better solution for deciding what tags to include
|
|
var max_len: usize = @field(base.document_scope, name).count();
|
|
for (base.imports_used.items) |uri| {
|
|
max_len += @field(self.handles.get(uri).?.document_scope, name).count();
|
|
}
|
|
|
|
var result_set = analysis.CompletionSet{};
|
|
try result_set.ensureTotalCapacity(arena.allocator(), max_len);
|
|
for (@field(base.document_scope, name).entries.items(.key)) |completion| {
|
|
result_set.putAssumeCapacityNoClobber(completion, {});
|
|
}
|
|
|
|
for (base.imports_used.items) |uri| {
|
|
const curr_set = &@field(self.handles.get(uri).?.document_scope, name);
|
|
for (curr_set.entries.items(.key)) |completion| {
|
|
result_set.putAssumeCapacity(completion, {});
|
|
}
|
|
}
|
|
return result_set.entries.items(.key);
|
|
}
|
|
|
|
pub fn errorCompletionItems(self: DocumentStore, arena: *std.heap.ArenaAllocator, base: *DocumentStore.Handle) ![]types.CompletionItem {
|
|
return try self.tagStoreCompletionItems(arena, base, "error_completions");
|
|
}
|
|
|
|
pub fn enumCompletionItems(self: DocumentStore, arena: *std.heap.ArenaAllocator, base: *DocumentStore.Handle) ![]types.CompletionItem {
|
|
return try self.tagStoreCompletionItems(arena, base, "enum_completions");
|
|
}
|