Merge branch 'zigtools:master' into master

This commit is contained in:
jefftime 2022-08-22 20:18:02 -04:00 committed by GitHub
commit 5804454334
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
18 changed files with 1136 additions and 448 deletions

48
.github/ISSUE_TEMPLATE/bug.yml vendored Normal file
View File

@ -0,0 +1,48 @@
name: Bug Report
description: File a bug report
labels: ["bug"]
body:
- type: markdown
attributes:
value: |
A bug is when something works differently than it is expected to.
## Remember to search before filing a new report
Please search for this bug in the issue tracker, and use a bug report title that
would have made your bug report turn up in the search results for your search query.
- type: input
id: zig-version
attributes:
label: Zig Version
description: "The output of `zig version`"
placeholder: "0.9.0-dev.1275+ac52e0056"
validations:
required: true
- type: input
id: zls-version
attributes:
label: Zig Language Server Version
description: "Your zls release or commit"
placeholder: "b21039d51261923c665d3bc58fadc4b4d5e221ea"
validations:
required: true
- type: textarea
id: repro
attributes:
label: Steps to Reproduce
description: What exactly can someone else do, in order to observe the problem that you observed?
validations:
required: true
- type: textarea
id: expected
attributes:
label: Expected Behavior
description: What did you expect to happen?
validations:
required: true
- type: textarea
id: actual
attributes:
label: Actual Behavior
description: What happened instead? Be sure to include all error messages if any.
validations:
required: true

8
.github/ISSUE_TEMPLATE/enhancement.md vendored Normal file
View File

@ -0,0 +1,8 @@
---
name: Improvement
about: Enhance the zls experience
labels: enhancement
---
## Remember to search before filing a new report

View File

@ -19,7 +19,7 @@ Zig Language Server, or `zls`, is a language server for Zig. The Zig wiki states
- [Updating Data Files](#updating-data-files) - [Updating Data Files](#updating-data-files)
- [Configuration Options](#configuration-options) - [Configuration Options](#configuration-options)
- [Features](#features) - [Features](#features)
- [VS Code](#vscode) - [VS Code](#vs-code)
- [Sublime Text](#sublime-text) - [Sublime Text](#sublime-text)
- [Sublime Text 3](#sublime-text-3) - [Sublime Text 3](#sublime-text-3)
- [Sublime Text 4](#sublime-text-4) - [Sublime Text 4](#sublime-text-4)
@ -70,7 +70,7 @@ Building `zls` is very easy. You will need [a build of Zig master](https://zigla
git clone --recurse-submodules https://github.com/zigtools/zls git clone --recurse-submodules https://github.com/zigtools/zls
cd zls cd zls
zig build -Drelease-safe zig build -Drelease-safe
./zig-out/bin/zls config # Configure ZLS ./zig-out/bin/zls --config # Configure ZLS
``` ```
*For detailed building instructions, see the Wiki page about [Cloning With Git](https://github.com/zigtools/zls/wiki/Downloading-and-Building-ZLS#cloning-with-git).* *For detailed building instructions, see the Wiki page about [Cloning With Git](https://github.com/zigtools/zls/wiki/Downloading-and-Building-ZLS#cloning-with-git).*
@ -92,7 +92,7 @@ There is also a `generate-data.js` in the `src/data` folder, you'll need to run
### Configuration Options ### Configuration Options
You can configure zls by running `zls config` or manually creating your own `zls.json` configuration file. You can configure zls by running `zls --config` or manually creating your own `zls.json` configuration file.
zls will look for a zls.json configuration file in multiple locations with the following priority: zls will look for a zls.json configuration file in multiple locations with the following priority:
- In the local configuration folder of your OS (as provided by [known-folders](https://github.com/ziglibs/known-folders/blob/master/RESOURCES.md#folder-list)) - In the local configuration folder of your OS (as provided by [known-folders](https://github.com/ziglibs/known-folders/blob/master/RESOURCES.md#folder-list))
- In the global configuration folder of your OS (as provided by [known-folders](https://github.com/ziglibs/known-folders/blob/master/RESOURCES.md#folder-list)) - In the global configuration folder of your OS (as provided by [known-folders](https://github.com/ziglibs/known-folders/blob/master/RESOURCES.md#folder-list))
@ -108,7 +108,7 @@ The following options are currently available.
| `zig_exe_path` | `?[]const u8` | `null` | zig executable path, e.g. `/path/to/zig/zig`, used to run the custom build runner. If `null`, zig is looked up in `PATH`. Will be used to infer the zig standard library path if none is provided. | | `zig_exe_path` | `?[]const u8` | `null` | zig executable path, e.g. `/path/to/zig/zig`, used to run the custom build runner. If `null`, zig is looked up in `PATH`. Will be used to infer the zig standard library path if none is provided. |
| `warn_style` | `bool` | `false` | Enables warnings for style *guideline* mismatches | | `warn_style` | `bool` | `false` | Enables warnings for style *guideline* mismatches |
| `build_runner_path` | `?[]const u8` | `null` | Path to the build_runner.zig file provided by zls. `null` is equivalent to `${executable_directory}/build_runner.zig` | | `build_runner_path` | `?[]const u8` | `null` | Path to the build_runner.zig file provided by zls. `null` is equivalent to `${executable_directory}/build_runner.zig` |
| `build_runner_cache_path` | `?[]const u8` | `null` | Path to a directroy that will be used as zig's cache when running `zig run build_runner.zig ...`. `null` is equivalent to `${KnownFloders.Cache}/zls` | | `global_cache_path` | `?[]const u8` | `null` | Path to a directroy that will be used as zig's cache. `null` is equivalent to `${KnownFloders.Cache}/zls` |
| `enable_semantic_tokens` | `bool` | `true` | Enables semantic token support when the client also supports it. | | `enable_semantic_tokens` | `bool` | `true` | Enables semantic token support when the client also supports it. |
| `enable_inlay_hints` | `bool` | `false` | Enables inlay hint support when the client also supports it. | | `enable_inlay_hints` | `bool` | `false` | Enables inlay hint support when the client also supports it. |
| `operator_completions` | `bool` | `true` | Enables `*` and `?` operators in completion lists. | | `operator_completions` | `bool` | `true` | Enables `*` and `?` operators in completion lists. |
@ -118,8 +118,8 @@ The following options are currently available.
## Features ## Features
`zls` supports most language features, including simple type function support, using namespace, payload capture type resolution, custom packages and others. `zls` supports most language features, including simple type function support, using namespace, payload capture type resolution, custom packages, `cImport` and others.
Notable language features that are not currently implemented include `@cImport` as well as most forms of compile time evaluation. Currently there is no support for compile time evaluation.
The following LSP features are supported: The following LSP features are supported:
- Completions - Completions

View File

@ -7,6 +7,7 @@ pub fn build(b: *std.build.Builder) !void {
const mode = b.standardReleaseOptions(); const mode = b.standardReleaseOptions();
const exe = b.addExecutable("zls", "src/main.zig"); const exe = b.addExecutable("zls", "src/main.zig");
exe.use_stage1 = true;
const exe_options = b.addOptions(); const exe_options = b.addOptions();
exe.addOptions("build_options", exe_options); exe.addOptions("build_options", exe_options);
@ -76,11 +77,13 @@ pub fn build(b: *std.build.Builder) !void {
test_step.dependOn(b.getInstallStep()); test_step.dependOn(b.getInstallStep());
var unit_tests = b.addTest("src/unit_tests.zig"); var unit_tests = b.addTest("src/unit_tests.zig");
unit_tests.use_stage1 = true;
unit_tests.setBuildMode(.Debug); unit_tests.setBuildMode(.Debug);
unit_tests.setTarget(target); unit_tests.setTarget(target);
test_step.dependOn(&unit_tests.step); test_step.dependOn(&unit_tests.step);
var session_tests = b.addTest("tests/sessions.zig"); var session_tests = b.addTest("tests/sessions.zig");
session_tests.use_stage1 = true;
session_tests.addPackage(.{ .name = "header", .source = .{ .path = "src/header.zig" } }); session_tests.addPackage(.{ .name = "header", .source = .{ .path = "src/header.zig" } });
session_tests.addPackage(.{ .name = "server", .source = .{ .path = "src/Server.zig" }, .dependencies = exe.packages.items }); session_tests.addPackage(.{ .name = "server", .source = .{ .path = "src/Server.zig" }, .dependencies = exe.packages.items });
session_tests.setBuildMode(.Debug); session_tests.setBuildMode(.Debug);

View File

@ -32,8 +32,8 @@ warn_style: bool = false,
/// Path to the build_runner.zig file. /// Path to the build_runner.zig file.
build_runner_path: ?[]const u8 = null, build_runner_path: ?[]const u8 = null,
/// Path to a directory that will be used as cache when `zig run`ning the build runner /// Path to the global cache directory
build_runner_cache_path: ?[]const u8 = null, global_cache_path: ?[]const u8 = null,
/// Semantic token support /// Semantic token support
enable_semantic_tokens: bool = true, enable_semantic_tokens: bool = true,
@ -208,7 +208,7 @@ pub fn configChanged(config: *Config, allocator: std.mem.Allocator, builtin_crea
break :blk try std.fs.path.resolve(allocator, &[_][]const u8{ exe_dir_path, "build_runner.zig" }); break :blk try std.fs.path.resolve(allocator, &[_][]const u8{ exe_dir_path, "build_runner.zig" });
}; };
config.build_runner_cache_path = if (config.build_runner_cache_path) |p| config.global_cache_path = if (config.global_cache_path) |p|
try allocator.dupe(u8, p) try allocator.dupe(u8, p)
else blk: { else blk: {
const cache_dir_path = (try known_folders.getPath(allocator, .cache)) orelse { const cache_dir_path = (try known_folders.getPath(allocator, .cache)) orelse {

View File

@ -6,21 +6,22 @@ const offsets = @import("offsets.zig");
const log = std.log.scoped(.doc_store); const log = std.log.scoped(.doc_store);
const Ast = std.zig.Ast; const Ast = std.zig.Ast;
const BuildAssociatedConfig = @import("BuildAssociatedConfig.zig"); const BuildAssociatedConfig = @import("BuildAssociatedConfig.zig");
const BuildConfig = @import("special/build_runner.zig").BuildConfig;
const tracy = @import("tracy.zig"); const tracy = @import("tracy.zig");
const Config = @import("Config.zig"); const Config = @import("Config.zig");
const translate_c = @import("translate_c.zig");
const DocumentStore = @This(); const DocumentStore = @This();
const BuildFile = struct { pub const Hasher = std.crypto.auth.siphash.SipHash128(1, 3);
const Pkg = struct {
name: []const u8,
uri: []const u8,
};
/// Initial state, that can be copied.
pub const hasher_init: Hasher = Hasher.init(&[_]u8{0} ** Hasher.key_length);
const BuildFile = struct {
refs: usize, refs: usize,
uri: []const u8, uri: []const u8,
packages: std.ArrayListUnmanaged(Pkg), config: BuildFileConfig,
builtin_uri: ?[]const u8 = null, builtin_uri: ?[]const u8 = null,
pub fn destroy(self: *BuildFile, allocator: std.mem.Allocator) void { pub fn destroy(self: *BuildFile, allocator: std.mem.Allocator) void {
@ -29,12 +30,39 @@ const BuildFile = struct {
} }
}; };
pub const BuildFileConfig = struct {
packages: []Pkg,
include_dirs: []IncludeDir,
pub fn deinit(self: BuildFileConfig, allocator: std.mem.Allocator) void {
for (self.packages) |pkg| {
allocator.free(pkg.name);
allocator.free(pkg.uri);
}
allocator.free(self.packages);
for (self.include_dirs) |dir| {
allocator.free(dir.path);
}
allocator.free(self.include_dirs);
}
pub const Pkg = struct {
name: []const u8,
uri: []const u8,
};
pub const IncludeDir = BuildConfig.IncludeDir;
};
pub const Handle = struct { pub const Handle = struct {
document: types.TextDocument, document: types.TextDocument,
count: usize, count: usize,
/// Contains one entry for every import in the document /// Contains one entry for every import in the document
import_uris: []const []const u8, import_uris: []const []const u8,
/// Items in this array list come from `import_uris` /// Contains one entry for every cimport in the document
cimports: []CImportHandle,
/// Items in this array list come from `import_uris` and `cimports`
imports_used: std.ArrayListUnmanaged([]const u8), imports_used: std.ArrayListUnmanaged([]const u8),
tree: Ast, tree: Ast,
document_scope: analysis.DocumentScope, document_scope: analysis.DocumentScope,
@ -110,25 +138,25 @@ fn loadBuildAssociatedConfiguration(allocator: std.mem.Allocator, build_file: *B
} }
} }
const LoadPackagesContext = struct { const LoadBuildConfigContext = struct {
build_file: *BuildFile, build_file: *BuildFile,
allocator: std.mem.Allocator, allocator: std.mem.Allocator,
build_runner_path: []const u8, build_runner_path: []const u8,
build_runner_cache_path: []const u8, global_cache_path: []const u8,
zig_exe_path: []const u8, zig_exe_path: []const u8,
build_file_path: ?[]const u8 = null, build_file_path: ?[]const u8 = null,
cache_root: []const u8, cache_root: []const u8,
global_cache_root: []const u8, global_cache_root: []const u8,
}; };
fn loadPackages(context: LoadPackagesContext) !void { fn loadBuildConfiguration(context: LoadBuildConfigContext) !void {
const tracy_zone = tracy.trace(@src()); const tracy_zone = tracy.trace(@src());
defer tracy_zone.end(); defer tracy_zone.end();
const allocator = context.allocator; const allocator = context.allocator;
const build_file = context.build_file; const build_file = context.build_file;
const build_runner_path = context.build_runner_path; const build_runner_path = context.build_runner_path;
const build_runner_cache_path = context.build_runner_cache_path; const global_cache_path = context.global_cache_path;
const zig_exe_path = context.zig_exe_path; const zig_exe_path = context.zig_exe_path;
const build_file_path = context.build_file_path orelse try URI.parse(allocator, build_file.uri); const build_file_path = context.build_file_path orelse try URI.parse(allocator, build_file.uri);
@ -140,7 +168,7 @@ fn loadPackages(context: LoadPackagesContext) !void {
"run", "run",
build_runner_path, build_runner_path,
"--cache-dir", "--cache-dir",
build_runner_cache_path, global_cache_path,
"--pkg-begin", "--pkg-begin",
"@build@", "@build@",
build_file_path, build_file_path,
@ -167,46 +195,67 @@ fn loadPackages(context: LoadPackagesContext) !void {
defer allocator.free(joined); defer allocator.free(joined);
log.err( log.err(
"Failed to execute build runner to collect packages, command:\n{s}\nError: {s}", "Failed to execute build runner to collect build configuration, command:\n{s}\nError: {s}",
.{ joined, zig_run_result.stderr }, .{ joined, zig_run_result.stderr },
); );
} }
switch (zig_run_result.term) { switch (zig_run_result.term) {
.Exited => |exit_code| { .Exited => |exit_code| {
if (exit_code == 0) { if (exit_code != 0) return error.RunFailed;
log.debug("Finished zig run for build file {s}", .{build_file.uri});
for (build_file.packages.items) |old_pkg| { const parse_options = std.json.ParseOptions{ .allocator = allocator };
allocator.free(old_pkg.name);
allocator.free(old_pkg.uri); build_file.config.deinit(allocator);
const config: BuildConfig = std.json.parse(
BuildConfig,
&std.json.TokenStream.init(zig_run_result.stdout),
parse_options,
) catch return error.RunFailed;
defer std.json.parseFree(BuildConfig, config, parse_options);
var packages = try std.ArrayListUnmanaged(BuildFileConfig.Pkg).initCapacity(allocator, config.packages.len);
errdefer {
for (packages.items) |pkg| {
allocator.free(pkg.name);
allocator.free(pkg.uri);
} }
packages.deinit(allocator);
build_file.packages.shrinkAndFree(allocator, 0);
var line_it = std.mem.split(u8, zig_run_result.stdout, "\n");
while (line_it.next()) |line| {
if (std.mem.indexOfScalar(u8, line, '\x00')) |zero_byte_idx| {
const name = line[0..zero_byte_idx];
const rel_path = line[zero_byte_idx + 1 ..];
const pkg_abs_path = try std.fs.path.resolve(allocator, &[_][]const u8{ directory_path, rel_path });
defer allocator.free(pkg_abs_path);
const pkg_uri = try URI.fromPath(allocator, pkg_abs_path);
errdefer allocator.free(pkg_uri);
const duped_name = try allocator.dupe(u8, name);
errdefer allocator.free(duped_name);
(try build_file.packages.addOne(allocator)).* = .{
.name = duped_name,
.uri = pkg_uri,
};
}
}
} else {
return error.RunFailed;
} }
var include_dirs = try std.ArrayListUnmanaged(BuildFileConfig.IncludeDir).initCapacity(allocator, config.include_dirs.len);
errdefer {
for (include_dirs.items) |dir| {
allocator.free(dir.path);
}
include_dirs.deinit(allocator);
}
for (config.packages) |pkg| {
const pkg_abs_path = try std.fs.path.resolve(allocator, &[_][]const u8{ directory_path, pkg.path });
defer allocator.free(pkg_abs_path);
const uri = try URI.fromPath(allocator, pkg_abs_path);
errdefer allocator.free(uri);
const name = try allocator.dupe(u8, pkg.name);
errdefer allocator.free(name);
packages.appendAssumeCapacity(.{ .name = name, .uri = uri });
}
for (config.include_dirs) |dir| {
const path = try allocator.dupe(u8, dir.path);
errdefer allocator.free(path);
include_dirs.appendAssumeCapacity(.{ .path = path, .system = dir.system });
}
build_file.config = .{
.packages = packages.toOwnedSlice(allocator),
.include_dirs = include_dirs.toOwnedSlice(allocator),
};
}, },
else => return error.RunFailed, else => return error.RunFailed,
} }
@ -232,6 +281,7 @@ fn newDocument(self: *DocumentStore, uri: []const u8, text: [:0]u8) anyerror!*Ha
handle.* = Handle{ handle.* = Handle{
.count = 1, .count = 1,
.import_uris = &.{}, .import_uris = &.{},
.cimports = &.{},
.imports_used = .{}, .imports_used = .{},
.document = .{ .document = .{
.uri = uri, .uri = uri,
@ -256,7 +306,10 @@ fn newDocument(self: *DocumentStore, uri: []const u8, text: [:0]u8) anyerror!*Ha
build_file.* = .{ build_file.* = .{
.refs = 1, .refs = 1,
.uri = try self.allocator.dupe(u8, uri), .uri = try self.allocator.dupe(u8, uri),
.packages = .{}, .config = .{
.packages = &.{},
.include_dirs = &.{},
},
}; };
const build_file_path = try URI.parse(self.allocator, build_file.uri); const build_file_path = try URI.parse(self.allocator, build_file.uri);
@ -274,11 +327,11 @@ fn newDocument(self: *DocumentStore, uri: []const u8, text: [:0]u8) anyerror!*Ha
// TODO: Do this in a separate thread? // TODO: Do this in a separate thread?
// It can take quite long. // It can take quite long.
loadPackages(.{ loadBuildConfiguration(.{
.build_file = build_file, .build_file = build_file,
.allocator = self.allocator, .allocator = self.allocator,
.build_runner_path = self.config.build_runner_path.?, .build_runner_path = self.config.build_runner_path.?,
.build_runner_cache_path = self.config.build_runner_cache_path.?, .global_cache_path = self.config.global_cache_path.?,
.zig_exe_path = self.config.zig_exe_path.?, .zig_exe_path = self.config.zig_exe_path.?,
.build_file_path = build_file_path, .build_file_path = build_file_path,
.cache_root = self.zig_cache_root, .cache_root = self.zig_cache_root,
@ -382,6 +435,14 @@ fn newDocument(self: *DocumentStore, uri: []const u8, text: [:0]u8) anyerror!*Ha
self.allocator.free(handle.import_uris); self.allocator.free(handle.import_uris);
} }
handle.cimports = try self.collectCIncludes(handle);
errdefer {
for (handle.cimports) |item| {
self.allocator.free(item.uri);
}
self.allocator.free(handle.cimports);
}
try self.handles.putNoClobber(self.allocator, uri, handle); try self.handles.putNoClobber(self.allocator, uri, handle);
return handle; return handle;
} }
@ -409,11 +470,8 @@ fn decrementBuildFileRefs(self: *DocumentStore, build_file: *BuildFile) void {
build_file.refs -= 1; build_file.refs -= 1;
if (build_file.refs == 0) { if (build_file.refs == 0) {
log.debug("Freeing build file {s}", .{build_file.uri}); log.debug("Freeing build file {s}", .{build_file.uri});
for (build_file.packages.items) |pkg| {
self.allocator.free(pkg.name); build_file.config.deinit(self.allocator);
self.allocator.free(pkg.uri);
}
build_file.packages.deinit(self.allocator);
// Decrement count of the document since one count comes // Decrement count of the document since one count comes
// from the build file existing. // from the build file existing.
@ -456,9 +514,14 @@ fn decrementCount(self: *DocumentStore, uri: []const u8) void {
self.allocator.free(import_uri); self.allocator.free(import_uri);
} }
for (handle.cimports) |item| {
self.allocator.free(item.uri);
}
handle.document_scope.deinit(self.allocator); handle.document_scope.deinit(self.allocator);
handle.imports_used.deinit(self.allocator); handle.imports_used.deinit(self.allocator);
self.allocator.free(handle.import_uris); self.allocator.free(handle.import_uris);
self.allocator.free(handle.cimports);
self.allocator.destroy(handle); self.allocator.destroy(handle);
const uri_key = entry.key_ptr.*; const uri_key = entry.key_ptr.*;
std.debug.assert(self.handles.remove(uri)); std.debug.assert(self.handles.remove(uri));
@ -475,27 +538,149 @@ pub fn getHandle(self: *DocumentStore, uri: []const u8) ?*Handle {
} }
fn collectImportUris(self: *DocumentStore, handle: *Handle) ![]const []const u8 { fn collectImportUris(self: *DocumentStore, handle: *Handle) ![]const []const u8 {
var new_imports = std.ArrayList([]const u8).init(self.allocator); const collected_imports = try analysis.collectImports(self.allocator, handle.tree);
var imports = std.ArrayList([]const u8).fromOwnedSlice(self.allocator, collected_imports);
errdefer { errdefer {
for (new_imports.items) |imp| { for (imports.items) |imp| {
self.allocator.free(imp); self.allocator.free(imp);
} }
new_imports.deinit(); imports.deinit();
} }
try analysis.collectImports(&new_imports, handle.tree);
// Convert to URIs // Convert to URIs
var i: usize = 0; var i: usize = 0;
while (i < new_imports.items.len) { while (i < imports.items.len) {
if (try self.uriFromImportStr(self.allocator, handle.*, new_imports.items[i])) |uri| { if (try self.uriFromImportStr(self.allocator, handle.*, imports.items[i])) |uri| {
// The raw import strings are owned by the document and do not need to be freed here. // The raw import strings are owned by the document and do not need to be freed here.
new_imports.items[i] = uri; imports.items[i] = uri;
i += 1; i += 1;
} else { } else {
_ = new_imports.swapRemove(i); _ = imports.swapRemove(i);
} }
} }
return new_imports.toOwnedSlice(); return imports.toOwnedSlice();
}
pub const CImportSource = struct {
/// the `@cInclude` node
node: Ast.Node.Index,
/// hash of c source file
hash: [Hasher.mac_length]u8,
/// c source file
source: []const u8,
};
/// Collects all `@cImport` nodes and converts them into c source code
/// the translation process is defined in `translate_c.convertCInclude`
/// Caller owns returned memory.
fn collectCIncludeSources(self: *DocumentStore, handle: *Handle) ![]CImportSource {
var cimport_nodes = try analysis.collectCImportNodes(self.allocator, handle.tree);
defer self.allocator.free(cimport_nodes);
var sources = try std.ArrayListUnmanaged(CImportSource).initCapacity(self.allocator, cimport_nodes.len);
errdefer {
for (sources.items) |item| {
self.allocator.free(item.source);
}
sources.deinit(self.allocator);
}
for (cimport_nodes) |node| {
const c_source = translate_c.convertCInclude(self.allocator, handle.tree, node) catch |err| switch (err) {
error.Unsupported => continue,
error.OutOfMemory => return error.OutOfMemory,
};
var hasher = hasher_init;
hasher.update(c_source);
var hash: [Hasher.mac_length]u8 = undefined;
hasher.final(&hash);
sources.appendAssumeCapacity(.{
.node = node,
.hash = hash,
.source = c_source,
});
}
return sources.toOwnedSlice(self.allocator);
}
pub const CImportHandle = struct {
/// the `@cInclude` node
node: Ast.Node.Index,
/// hash of the c source file
hash: [Hasher.mac_length]u8,
/// uri to a zig source file generated with translate-c
uri: []const u8,
};
/// Collects all `@cImport` nodes and converts them into zig files using translate-c
/// Caller owns returned memory.
fn collectCIncludes(self: *DocumentStore, handle: *Handle) ![]CImportHandle {
var cimport_nodes = try analysis.collectCImportNodes(self.allocator, handle.tree);
defer self.allocator.free(cimport_nodes);
var uris = try std.ArrayListUnmanaged(CImportHandle).initCapacity(self.allocator, cimport_nodes.len);
errdefer {
for (uris.items) |item| {
self.allocator.free(item.uri);
}
uris.deinit(self.allocator);
}
for (cimport_nodes) |node| {
const c_source = translate_c.convertCInclude(self.allocator, handle.tree, node) catch |err| switch (err) {
error.Unsupported => continue,
error.OutOfMemory => return error.OutOfMemory,
};
defer self.allocator.free(c_source);
const uri = self.translate(handle, c_source) catch |err| {
std.log.warn("failed to translate cInclude: {}", .{err});
continue;
} orelse continue;
errdefer self.allocator.free(uri);
var hasher = hasher_init;
hasher.update(c_source);
var hash: [Hasher.mac_length]u8 = undefined;
hasher.final(&hash);
uris.appendAssumeCapacity(.{
.node = node,
.hash = hash,
.uri = uri,
});
}
return uris.toOwnedSlice(self.allocator);
}
fn translate(self: *DocumentStore, handle: *Handle, source: []const u8) !?[]const u8 {
const dirs: []BuildConfig.IncludeDir = if (handle.associated_build_file) |build_file| build_file.config.include_dirs else &.{};
const include_dirs = blk: {
var result = try self.allocator.alloc([]const u8, dirs.len);
errdefer self.allocator.free(result);
for (dirs) |dir, i| {
result[i] = dir.path;
}
break :blk result;
};
defer self.allocator.free(include_dirs);
const file_path = (try translate_c.translate(
self.allocator,
self.config,
include_dirs,
source,
)) orelse return null;
defer self.allocator.free(file_path);
return try URI.fromPath(self.allocator, file_path);
} }
fn refreshDocument(self: *DocumentStore, handle: *Handle) !void { fn refreshDocument(self: *DocumentStore, handle: *Handle) !void {
@ -506,28 +691,37 @@ fn refreshDocument(self: *DocumentStore, handle: *Handle) !void {
handle.document_scope.deinit(self.allocator); handle.document_scope.deinit(self.allocator);
handle.document_scope = try analysis.makeDocumentScope(self.allocator, handle.tree); handle.document_scope = try analysis.makeDocumentScope(self.allocator, handle.tree);
const new_imports = try self.collectImportUris(handle); var old_imports = handle.import_uris;
errdefer { var old_cimports = handle.cimports;
for (new_imports) |imp| {
self.allocator.free(imp); handle.import_uris = try self.collectImportUris(handle);
}
self.allocator.free(new_imports); handle.cimports = try self.refreshDocumentCIncludes(handle);
}
const old_imports = handle.import_uris;
handle.import_uris = new_imports;
defer { defer {
for (old_imports) |uri| { for (old_imports) |uri| {
self.allocator.free(uri); self.allocator.free(uri);
} }
self.allocator.free(old_imports); self.allocator.free(old_imports);
for (old_cimports) |old_cimport| {
self.allocator.free(old_cimport.uri);
}
self.allocator.free(old_cimports);
} }
var i: usize = 0; var i: usize = 0;
while (i < handle.imports_used.items.len) { while (i < handle.imports_used.items.len) {
const old = handle.imports_used.items[i]; const old = handle.imports_used.items[i];
still_exists: { still_exists: {
for (new_imports) |new| { for (handle.import_uris) |new| {
if (std.mem.eql(u8, new, old)) {
handle.imports_used.items[i] = new;
break :still_exists;
}
}
for (handle.cimports) |cimport| {
const new = cimport.uri;
if (std.mem.eql(u8, new, old)) { if (std.mem.eql(u8, new, old)) {
handle.imports_used.items[i] = new; handle.imports_used.items[i] = new;
break :still_exists; break :still_exists;
@ -542,18 +736,104 @@ fn refreshDocument(self: *DocumentStore, handle: *Handle) !void {
} }
} }
fn refreshDocumentCIncludes(self: *DocumentStore, handle: *Handle) ![]CImportHandle {
const new_sources: []CImportSource = try self.collectCIncludeSources(handle);
defer {
for (new_sources) |new_source| {
self.allocator.free(new_source.source);
}
self.allocator.free(new_sources);
}
var old_cimports = handle.cimports;
var new_cimports = try std.ArrayListUnmanaged(CImportHandle).initCapacity(self.allocator, new_sources.len);
errdefer {
for (new_cimports.items) |new_cimport| {
self.allocator.free(new_cimport.uri);
}
new_cimports.deinit(self.allocator);
}
for (new_sources) |new_source| {
const maybe_old_cimport: ?CImportHandle = blk: {
const old_cimport: CImportHandle = found: {
for (old_cimports) |old_cimport| {
if (new_source.node == old_cimport.node) {
break :found old_cimport;
}
}
break :blk null;
};
// avoid re-translating if the source didn't change
if (std.mem.eql(u8, &new_source.hash, &old_cimport.hash)) {
break :blk CImportHandle{
.node = old_cimport.node,
.hash = old_cimport.hash,
.uri = try self.allocator.dupe(u8, old_cimport.uri),
};
}
const new_uri = self.translate(handle, new_source.source) catch |err| {
std.log.warn("failed to translate cInclude: {}", .{err});
continue;
} orelse continue;
errdefer self.allocator.free(new_uri);
break :blk CImportHandle{
.node = old_cimport.node,
.hash = old_cimport.hash,
.uri = new_uri,
};
};
if (maybe_old_cimport) |cimport| {
new_cimports.appendAssumeCapacity(cimport);
continue;
}
const c_source = translate_c.convertCInclude(self.allocator, handle.tree, new_source.node) catch |err| switch (err) {
error.Unsupported => continue,
error.OutOfMemory => return error.OutOfMemory,
};
defer self.allocator.free(c_source);
var hasher = hasher_init;
var hash: [Hasher.mac_length]u8 = undefined;
hasher.update(c_source);
hasher.final(&hash);
const new_uri = self.translate(
handle,
c_source,
) catch |err| {
std.log.warn("failed to translate cInclude: {}", .{err});
continue;
} orelse continue;
errdefer self.allocator.free(new_uri);
new_cimports.appendAssumeCapacity(.{
.node = new_source.node,
.hash = hash,
.uri = new_uri,
});
}
return new_cimports.toOwnedSlice(self.allocator);
}
pub fn applySave(self: *DocumentStore, handle: *Handle) !void { pub fn applySave(self: *DocumentStore, handle: *Handle) !void {
if (handle.is_build_file) |build_file| { if (handle.is_build_file) |build_file| {
loadPackages(.{ loadBuildConfiguration(.{
.build_file = build_file, .build_file = build_file,
.allocator = self.allocator, .allocator = self.allocator,
.build_runner_path = self.config.build_runner_path.?, .build_runner_path = self.config.build_runner_path.?,
.build_runner_cache_path = self.config.build_runner_cache_path.?, .global_cache_path = self.config.global_cache_path.?,
.zig_exe_path = self.config.zig_exe_path.?, .zig_exe_path = self.config.zig_exe_path.?,
.cache_root = self.zig_cache_root, .cache_root = self.zig_cache_root,
.global_cache_root = self.zig_global_cache_root, .global_cache_root = self.zig_global_cache_root,
}) catch |err| { }) catch |err| {
log.err("Failed to load packages of build file {s} (error: {})", .{ build_file.uri, err }); log.err("Failed to load build configuration for {s} (error: {})", .{ build_file.uri, err });
}; };
} }
} }
@ -643,7 +923,7 @@ pub fn uriFromImportStr(self: *DocumentStore, allocator: std.mem.Allocator, hand
return null; return null;
} else if (!std.mem.endsWith(u8, import_str, ".zig")) { } else if (!std.mem.endsWith(u8, import_str, ".zig")) {
if (handle.associated_build_file) |build_file| { if (handle.associated_build_file) |build_file| {
for (build_file.packages.items) |pkg| { for (build_file.config.packages) |pkg| {
if (std.mem.eql(u8, import_str, pkg.name)) { if (std.mem.eql(u8, import_str, pkg.name)) {
return try allocator.dupe(u8, pkg.uri); return try allocator.dupe(u8, pkg.uri);
} }
@ -686,7 +966,7 @@ pub fn resolveImport(self: *DocumentStore, handle: *Handle, import_str: []const
} }
} }
if (handle.associated_build_file) |bf| { if (handle.associated_build_file) |bf| {
for (bf.packages.items) |pkg| { for (bf.config.packages) |pkg| {
if (std.mem.eql(u8, pkg.uri, final_uri)) { if (std.mem.eql(u8, pkg.uri, final_uri)) {
break :find_uri pkg.uri; break :find_uri pkg.uri;
} }
@ -706,48 +986,80 @@ pub fn resolveImport(self: *DocumentStore, handle: *Handle, import_str: []const
} }
// New document, read the file then call into openDocument. // New document, read the file then call into openDocument.
const file_path = try URI.parse(allocator, final_uri); var document_handle = try self.newDocumentFromUri(final_uri);
defer allocator.free(file_path);
var file = std.fs.cwd().openFile(file_path, .{}) catch { // Add to import table of current handle.
log.debug("Cannot open import file {s}", .{file_path}); try handle.imports_used.append(allocator, handle_uri);
return document_handle;
}
pub fn resolveCImport(self: *DocumentStore, handle: *Handle, node: Ast.Node.Index) !?*Handle {
const uri = blk: {
for (handle.cimports) |item| {
if (item.node == node) break :blk item.uri;
}
return null; return null;
}; };
defer file.close(); // Check if the import is already opened by others.
{ if (self.getHandle(uri)) |new_handle| {
const file_contents = file.readToEndAllocOptions( // If it is, append it to our imports, increment the count, set our new handle
allocator, // and return the parsed tree root node.
std.math.maxInt(usize), try handle.imports_used.append(self.allocator, uri);
null, new_handle.count += 1;
@alignOf(u8), return new_handle;
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);
} }
// New document, read the file then call into openDocument.
var document_handle = try self.newDocumentFromUri(uri);
// Add to cimport table of current handle.
try handle.imports_used.append(self.allocator, uri);
return document_handle;
}
fn newDocumentFromUri(self: *DocumentStore, uri: []const u8) !?*Handle {
const file_path = try URI.parse(self.allocator, uri);
defer self.allocator.free(file_path);
var file = std.fs.openFileAbsolute(file_path, .{}) catch |err| {
log.debug("Cannot open file '{s}': {}", .{ file_path, err });
return null;
};
defer file.close();
const file_contents = file.readToEndAllocOptions(
self.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 self.allocator.free(file_contents);
return try self.newDocument(try self.allocator.dupe(u8, uri), file_contents);
} }
fn stdUriFromLibPath(allocator: std.mem.Allocator, zig_lib_path: ?[]const u8) !?[]const u8 { fn stdUriFromLibPath(allocator: std.mem.Allocator, zig_lib_path: ?[]const u8) !?[]const u8 {
if (zig_lib_path) |zpath| { if (zig_lib_path) |zpath| {
const std_path = std.fs.path.resolve(allocator, &[_][]const u8{ const std_path = std.fs.path.resolve(allocator, &[_][]const u8{
zpath, "./std/std.zig", zpath, "./std/std.zig",
}) catch |err| { }) catch |first_std_err| blk: {
log.debug("Failed to resolve zig std library path, error: {}", .{err}); // workaround for https://github.com/ziglang/zig/issues/12516
return null; break :blk std.fs.path.resolve(allocator, &[_][]const u8{
zpath, "./zig/std/std.zig",
}) catch {
log.debug("Failed to resolve zig std library path, error: {}", .{first_std_err});
return null;
};
}; };
defer allocator.free(std_path); defer allocator.free(std_path);
@ -768,6 +1080,10 @@ pub fn deinit(self: *DocumentStore) void {
self.allocator.free(uri); self.allocator.free(uri);
} }
self.allocator.free(entry.value_ptr.*.import_uris); self.allocator.free(entry.value_ptr.*.import_uris);
for (entry.value_ptr.*.cimports) |cimport| {
self.allocator.free(cimport.uri);
}
self.allocator.free(entry.value_ptr.*.cimports);
entry.value_ptr.*.imports_used.deinit(self.allocator); entry.value_ptr.*.imports_used.deinit(self.allocator);
self.allocator.free(entry.key_ptr.*); self.allocator.free(entry.key_ptr.*);
self.allocator.destroy(entry.value_ptr.*); self.allocator.destroy(entry.value_ptr.*);
@ -775,11 +1091,7 @@ pub fn deinit(self: *DocumentStore) void {
self.handles.deinit(self.allocator); self.handles.deinit(self.allocator);
for (self.build_files.items) |build_file| { for (self.build_files.items) |build_file| {
for (build_file.packages.items) |pkg| { build_file.config.deinit(self.allocator);
self.allocator.free(pkg.name);
self.allocator.free(pkg.uri);
}
build_file.packages.deinit(self.allocator);
self.allocator.free(build_file.uri); self.allocator.free(build_file.uri);
build_file.destroy(self.allocator); build_file.destroy(self.allocator);
} }
@ -808,6 +1120,7 @@ fn tagStoreCompletionItems(self: DocumentStore, arena: *std.heap.ArenaAllocator,
result_set.putAssumeCapacity(completion, {}); result_set.putAssumeCapacity(completion, {});
} }
} }
return result_set.entries.items(.key); return result_set.entries.items(.key);
} }

View File

@ -240,11 +240,7 @@ fn publishDiagnostics(server: *Server, writer: anytype, handle: DocumentStore.Ha
scopes: for (handle.document_scope.scopes) |scope| { scopes: for (handle.document_scope.scopes) |scope| {
const scope_data = switch (scope.data) { const scope_data = switch (scope.data) {
.function => |f| b: { .function => |f| b: {
var buf: [1]std.zig.Ast.Node.Index = undefined; if (!ast.fnProtoHasBody(tree, f).?) continue :scopes;
var proto = ast.fnProto(tree, f, &buf) orelse break :b f;
if (proto.extern_export_inline_token) |tok| {
if (std.mem.eql(u8, tree.tokenSlice(tok), "extern")) continue :scopes;
}
break :b f; break :b f;
}, },
.block => |b| b, .block => |b| b,
@ -255,7 +251,7 @@ fn publishDiagnostics(server: *Server, writer: anytype, handle: DocumentStore.Ha
while (decl_iterator.next()) |decl| { while (decl_iterator.next()) |decl| {
var identifier_count: usize = 0; var identifier_count: usize = 0;
var name_token_index = switch (decl.value_ptr.*) { const name_token_index = switch (decl.value_ptr.*) {
.ast_node => |an| s: { .ast_node => |an| s: {
const an_tag = tree.nodes.items(.tag)[an]; const an_tag = tree.nodes.items(.tag)[an];
switch (an_tag) { switch (an_tag) {
@ -275,8 +271,27 @@ fn publishDiagnostics(server: *Server, writer: anytype, handle: DocumentStore.Ha
const pit_start = tree.firstToken(scope_data); const pit_start = tree.firstToken(scope_data);
const pit_end = ast.lastToken(tree, scope_data); const pit_end = ast.lastToken(tree, scope_data);
for (tree.tokens.items(.tag)[pit_start..pit_end]) |tag, index| { const tags = tree.tokens.items(.tag)[pit_start..pit_end];
if (tag == .identifier and std.mem.eql(u8, tree.tokenSlice(pit_start + @intCast(u32, index)), tree.tokenSlice(name_token_index))) identifier_count += 1; for (tags) |tag, index| {
if (tag != .identifier) continue;
if (!std.mem.eql(u8, tree.tokenSlice(pit_start + @intCast(u32, index)), tree.tokenSlice(name_token_index))) continue;
if (index -| 1 > 0 and tags[index - 1] == .period) continue;
if (index +| 2 < tags.len and tags[index + 1] == .colon) switch (tags[index + 2]) {
.l_brace,
.keyword_inline,
.keyword_while,
.keyword_for,
.keyword_switch,
=> continue,
else => {},
};
if (index -| 2 > 0 and tags[index - 1] == .colon) switch (tags[index - 2]) {
.keyword_break,
.keyword_continue,
=> continue,
else => {},
};
identifier_count += 1;
} }
if (identifier_count <= 1) if (identifier_count <= 1)
@ -300,17 +315,8 @@ fn publishDiagnostics(server: *Server, writer: anytype, handle: DocumentStore.Ha
if (!std.mem.eql(u8, call_name, "@import")) continue; if (!std.mem.eql(u8, call_name, "@import")) continue;
const node_data = tree.nodes.items(.data)[node]; var buffer: [2]Ast.Node.Index = undefined;
const params = switch (tree.nodes.items(.tag)[node]) { const params = ast.builtinCallParams(tree, node, &buffer).?;
.builtin_call, .builtin_call_comma => tree.extra_data[node_data.lhs..node_data.rhs],
.builtin_call_two, .builtin_call_two_comma => if (node_data.lhs == 0)
&[_]Ast.Node.Index{}
else if (node_data.rhs == 0)
&[_]Ast.Node.Index{node_data.lhs}
else
&[_]Ast.Node.Index{ node_data.lhs, node_data.rhs },
else => unreachable,
};
if (params.len != 1) continue; if (params.len != 1) continue;
@ -1145,11 +1151,14 @@ fn referencesDefinitionGlobal(
const result: types.ResponseParams = if (highlight) result: { const result: types.ResponseParams = if (highlight) result: {
var highlights = try std.ArrayList(types.DocumentHighlight).initCapacity(server.arena.allocator(), locs.items.len); var highlights = try std.ArrayList(types.DocumentHighlight).initCapacity(server.arena.allocator(), locs.items.len);
const uri = handle.uri();
for (locs.items) |loc| { for (locs.items) |loc| {
highlights.appendAssumeCapacity(.{ if (std.mem.eql(u8, loc.uri, uri)) {
.range = loc.range, highlights.appendAssumeCapacity(.{
.kind = .Text, .range = loc.range,
}); .kind = .Text,
});
}
} }
break :result .{ .DocumentHighlight = highlights.items }; break :result .{ .DocumentHighlight = highlights.items };
} else .{ .Locations = locs.items }; } else .{ .Locations = locs.items };
@ -1188,11 +1197,14 @@ fn referencesDefinitionFieldAccess(
); );
const result: types.ResponseParams = if (highlight) result: { const result: types.ResponseParams = if (highlight) result: {
var highlights = try std.ArrayList(types.DocumentHighlight).initCapacity(server.arena.allocator(), locs.items.len); var highlights = try std.ArrayList(types.DocumentHighlight).initCapacity(server.arena.allocator(), locs.items.len);
const uri = handle.uri();
for (locs.items) |loc| { for (locs.items) |loc| {
highlights.appendAssumeCapacity(.{ if (std.mem.eql(u8, loc.uri, uri)) {
.range = loc.range, highlights.appendAssumeCapacity(.{
.kind = .Text, .range = loc.range,
}); .kind = .Text,
});
}
} }
break :result .{ .DocumentHighlight = highlights.items }; break :result .{ .DocumentHighlight = highlights.items };
} else .{ .Locations = locs.items }; } else .{ .Locations = locs.items };
@ -1219,11 +1231,14 @@ fn referencesDefinitionLabel(
try references.labelReferences(&server.arena, decl, server.offset_encoding, include_decl, &locs, std.ArrayList(types.Location).append); try references.labelReferences(&server.arena, decl, server.offset_encoding, include_decl, &locs, std.ArrayList(types.Location).append);
const result: types.ResponseParams = if (highlight) result: { const result: types.ResponseParams = if (highlight) result: {
var highlights = try std.ArrayList(types.DocumentHighlight).initCapacity(server.arena.allocator(), locs.items.len); var highlights = try std.ArrayList(types.DocumentHighlight).initCapacity(server.arena.allocator(), locs.items.len);
const uri = handle.uri();
for (locs.items) |loc| { for (locs.items) |loc| {
highlights.appendAssumeCapacity(.{ if (std.mem.eql(u8, loc.uri, uri)) {
.range = loc.range, highlights.appendAssumeCapacity(.{
.kind = .Text, .range = loc.range,
}); .kind = .Text,
});
}
} }
break :result .{ .DocumentHighlight = highlights.items }; break :result .{ .DocumentHighlight = highlights.items };
} else .{ .Locations = locs.items }; } else .{ .Locations = locs.items };
@ -1778,7 +1793,7 @@ fn initializeHandler(server: *Server, writer: anytype, id: types.RequestId, req:
}, },
.textDocumentSync = .Full, .textDocumentSync = .Full,
.renameProvider = true, .renameProvider = true,
.completionProvider = .{ .resolveProvider = false, .triggerCharacters = &[_][]const u8{ ".", ":", "@" }, .completionItem = .{ .labelDetailsSupport = true } }, .completionProvider = .{ .resolveProvider = false, .triggerCharacters = &[_][]const u8{ ".", ":", "@", "]" }, .completionItem = .{ .labelDetailsSupport = true } },
.documentHighlightProvider = true, .documentHighlightProvider = true,
.hoverProvider = true, .hoverProvider = true,
.codeActionProvider = false, .codeActionProvider = false,
@ -2049,9 +2064,9 @@ fn completionHandler(server: *Server, writer: anytype, id: types.RequestId, req:
if (!subpath_present and pos_context == .import_string_literal) { if (!subpath_present and pos_context == .import_string_literal) {
if (handle.associated_build_file) |bf| { if (handle.associated_build_file) |bf| {
try fsl_completions.ensureUnusedCapacity(server.arena.allocator(), bf.packages.items.len); try fsl_completions.ensureUnusedCapacity(server.arena.allocator(), bf.config.packages.len);
for (bf.packages.items) |pkg| { for (bf.config.packages) |pkg| {
try fsl_completions.append(server.arena.allocator(), .{ try fsl_completions.append(server.arena.allocator(), .{
.label = pkg.name, .label = pkg.name,
.kind = .Module, .kind = .Module,
@ -2480,7 +2495,6 @@ pub fn processJsonRpc(server: *Server, writer: anytype, json: []const u8) !void
return; return;
} }
std.debug.assert(tree.root.Object.get("method") != null);
const method = tree.root.Object.get("method").?.String; const method = tree.root.Object.get("method").?.String;
const start_time = std.time.milliTimestamp(); const start_time = std.time.milliTimestamp();
@ -2520,6 +2534,7 @@ pub fn processJsonRpc(server: *Server, writer: anytype, json: []const u8) !void
}; };
// Hack to avoid `return`ing in the inline for, which causes bugs. // Hack to avoid `return`ing in the inline for, which causes bugs.
// TODO: Change once stage2 is shipped and more stable?
var done: ?anyerror = null; var done: ?anyerror = null;
inline for (method_map) |method_info| { inline for (method_map) |method_info| {
if (done == null and std.mem.eql(u8, method, method_info[0])) { if (done == null and std.mem.eql(u8, method, method_info[0])) {

View File

@ -203,7 +203,7 @@ pub fn hasSelfParam(arena: *std.heap.ArenaAllocator, document_store: *DocumentSt
return true; return true;
} }
if (isPtrType(tree, param.type_expr)) { if (ast.isPtrType(tree, param.type_expr)) {
if (try resolveTypeOfNode(document_store, arena, .{ if (try resolveTypeOfNode(document_store, arena, .{
.node = token_data[param.type_expr].rhs, .node = token_data[param.type_expr].rhs,
.handle = handle, .handle = handle,
@ -222,6 +222,9 @@ pub fn getVariableSignature(tree: Ast, var_decl: Ast.full.VarDecl) []const u8 {
} }
pub fn getContainerFieldSignature(tree: Ast, field: Ast.full.ContainerField) []const u8 { pub fn getContainerFieldSignature(tree: Ast, field: Ast.full.ContainerField) []const u8 {
if(field.ast.value_expr == 0 and field.ast.type_expr == 0 and field.ast.align_expr == 0) {
return ""; // TODO display the container's type
}
const start = offsets.tokenLocation(tree, field.ast.name_token).start; const start = offsets.tokenLocation(tree, field.ast.name_token).start;
const end_node = if (field.ast.value_expr != 0) field.ast.value_expr else field.ast.type_expr; const end_node = if (field.ast.value_expr != 0) field.ast.value_expr else field.ast.type_expr;
const end = offsets.tokenLocation(tree, ast.lastToken(tree, end_node)).end; const end = offsets.tokenLocation(tree, ast.lastToken(tree, end_node)).end;
@ -311,13 +314,6 @@ fn getDeclName(tree: Ast, node: Ast.Node.Index) ?[]const u8 {
}; };
} }
fn isContainerDecl(decl_handle: DeclWithHandle) bool {
return switch (decl_handle.decl.*) {
.ast_node => |inner_node| ast.isContainer(decl_handle.handle.tree.nodes.items(.tag)[inner_node]),
else => false,
};
}
fn resolveVarDeclAliasInternal(store: *DocumentStore, arena: *std.heap.ArenaAllocator, node_handle: NodeWithHandle, root: bool) error{OutOfMemory}!?DeclWithHandle { fn resolveVarDeclAliasInternal(store: *DocumentStore, arena: *std.heap.ArenaAllocator, node_handle: NodeWithHandle, root: bool) error{OutOfMemory}!?DeclWithHandle {
_ = root; _ = root;
const handle = node_handle.handle; const handle = node_handle.handle;
@ -341,7 +337,8 @@ fn resolveVarDeclAliasInternal(store: *DocumentStore, arena: *std.heap.ArenaAllo
const lhs = datas[node_handle.node].lhs; const lhs = datas[node_handle.node].lhs;
const container_node = if (ast.isBuiltinCall(tree, lhs)) block: { const container_node = if (ast.isBuiltinCall(tree, lhs)) block: {
if (!std.mem.eql(u8, tree.tokenSlice(main_tokens[lhs]), "@import")) const name = tree.tokenSlice(main_tokens[lhs]);
if (!std.mem.eql(u8, name, "@import") and !std.mem.eql(u8, name, "@cImport"))
return null; return null;
const inner_node = (try resolveTypeOfNode(store, arena, .{ .node = lhs, .handle = handle })) orelse return null; const inner_node = (try resolveTypeOfNode(store, arena, .{ .node = lhs, .handle = handle })) orelse return null;
@ -394,39 +391,14 @@ pub fn resolveVarDeclAlias(store: *DocumentStore, arena: *std.heap.ArenaAllocato
return null; return null;
} }
fn isBlock(tree: Ast, node: Ast.Node.Index) bool {
return switch (tree.nodes.items(.tag)[node]) {
.block,
.block_semicolon,
.block_two,
.block_two_semicolon,
=> true,
else => false,
};
}
fn findReturnStatementInternal(tree: Ast, fn_decl: Ast.full.FnProto, body: Ast.Node.Index, already_found: *bool) ?Ast.Node.Index { fn findReturnStatementInternal(tree: Ast, fn_decl: Ast.full.FnProto, body: Ast.Node.Index, already_found: *bool) ?Ast.Node.Index {
var result: ?Ast.Node.Index = null; var result: ?Ast.Node.Index = null;
const node_tags = tree.nodes.items(.tag); const node_tags = tree.nodes.items(.tag);
const datas = tree.nodes.items(.data); const datas = tree.nodes.items(.data);
if (!isBlock(tree, body)) return null; var buffer: [2]Ast.Node.Index = undefined;
const statements = ast.blockStatements(tree, body, &buffer) orelse return null;
const statements: []const Ast.Node.Index = switch (node_tags[body]) {
.block, .block_semicolon => tree.extra_data[datas[body].lhs..datas[body].rhs],
.block_two, .block_two_semicolon => blk: {
const statements = &[_]Ast.Node.Index{ datas[body].lhs, datas[body].rhs };
const len: usize = if (datas[body].lhs == 0)
@as(usize, 0)
else if (datas[body].rhs == 0)
@as(usize, 1)
else
@as(usize, 2);
break :blk statements[0..len];
},
else => unreachable,
};
for (statements) |child_idx| { for (statements) |child_idx| {
if (node_tags[child_idx] == .@"return") { if (node_tags[child_idx] == .@"return") {
@ -532,17 +504,6 @@ fn resolveUnwrapErrorType(store: *DocumentStore, arena: *std.heap.ArenaAllocator
return null; return null;
} }
pub fn isPtrType(tree: Ast, node: Ast.Node.Index) bool {
return switch (tree.nodes.items(.tag)[node]) {
.ptr_type,
.ptr_type_aligned,
.ptr_type_bit_range,
.ptr_type_sentinel,
=> true,
else => false,
};
}
/// Resolves the child type of a deref type /// Resolves the child type of a deref type
fn resolveDerefType(store: *DocumentStore, arena: *std.heap.ArenaAllocator, deref: TypeWithHandle, bound_type_params: *BoundTypeParams) !?TypeWithHandle { fn resolveDerefType(store: *DocumentStore, arena: *std.heap.ArenaAllocator, deref: TypeWithHandle, bound_type_params: *BoundTypeParams) !?TypeWithHandle {
const deref_node = switch (deref.type.data) { const deref_node = switch (deref.type.data) {
@ -560,7 +521,7 @@ fn resolveDerefType(store: *DocumentStore, arena: *std.heap.ArenaAllocator, dere
const main_token = tree.nodes.items(.main_token)[deref_node]; const main_token = tree.nodes.items(.main_token)[deref_node];
const token_tag = tree.tokens.items(.tag)[main_token]; const token_tag = tree.tokens.items(.tag)[main_token];
if (isPtrType(tree, deref_node)) { if (ast.isPtrType(tree, deref_node)) {
const ptr_type = ast.ptrType(tree, deref_node).?; const ptr_type = ast.ptrType(tree, deref_node).?;
switch (token_tag) { switch (token_tag) {
.asterisk => { .asterisk => {
@ -900,17 +861,8 @@ pub fn resolveTypeOfNodeInternal(store: *DocumentStore, arena: *std.heap.ArenaAl
.builtin_call_two, .builtin_call_two,
.builtin_call_two_comma, .builtin_call_two_comma,
=> { => {
const data = datas[node]; var buffer: [2]Ast.Node.Index = undefined;
const params = switch (node_tags[node]) { const params = ast.builtinCallParams(tree, node, &buffer).?;
.builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs],
.builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0)
&[_]Ast.Node.Index{}
else if (data.rhs == 0)
&[_]Ast.Node.Index{data.lhs}
else
&[_]Ast.Node.Index{ data.lhs, data.rhs },
else => unreachable,
};
const call_name = tree.tokenSlice(main_tokens[node]); const call_name = tree.tokenSlice(main_tokens[node]);
if (std.mem.eql(u8, call_name, "@This")) { if (std.mem.eql(u8, call_name, "@This")) {
@ -953,20 +905,28 @@ pub fn resolveTypeOfNodeInternal(store: *DocumentStore, arena: *std.heap.ArenaAl
return resolved_type; return resolved_type;
} }
if (!std.mem.eql(u8, call_name, "@import")) return null; if (std.mem.eql(u8, call_name, "@import")) {
if (params.len == 0) return null; if (params.len == 0) return null;
const import_param = params[0];
if (node_tags[import_param] != .string_literal) return null;
const import_param = params[0]; const import_str = tree.tokenSlice(main_tokens[import_param]);
if (node_tags[import_param] != .string_literal) return null; const new_handle = (store.resolveImport(handle, import_str[1 .. import_str.len - 1]) catch |err| {
log.debug("Error {} while processing import {s}", .{ err, import_str });
return null;
}) orelse return null;
const import_str = tree.tokenSlice(main_tokens[import_param]); // reference to node '0' which is root
const new_handle = (store.resolveImport(handle, import_str[1 .. import_str.len - 1]) catch |err| { return TypeWithHandle.typeVal(.{ .node = 0, .handle = new_handle });
log.debug("Error {} while processing import {s}", .{ err, import_str }); } else if (std.mem.eql(u8, call_name, "@cImport")) {
return null; const new_handle = (store.resolveCImport(handle, node) catch |err| {
}) orelse return null; log.debug("Error {} while processing cImport", .{err}); // TODO improve
return null;
}) orelse return null;
// reference to node '0' which is root // reference to node '0' which is root
return TypeWithHandle.typeVal(.{ .node = 0, .handle = new_handle }); return TypeWithHandle.typeVal(.{ .node = 0, .handle = new_handle });
}
}, },
.fn_proto, .fn_proto,
.fn_proto_multi, .fn_proto_multi,
@ -1126,8 +1086,17 @@ pub fn resolveTypeOfNode(store: *DocumentStore, arena: *std.heap.ArenaAllocator,
return resolveTypeOfNodeInternal(store, arena, node_handle, &bound_type_params); return resolveTypeOfNodeInternal(store, arena, node_handle, &bound_type_params);
} }
/// Collects all imports we can find into a slice of import paths (without quotes). /// Collects all `@import`'s we can find into a slice of import paths (without quotes).
pub fn collectImports(import_arr: *std.ArrayList([]const u8), tree: Ast) !void { /// Caller owns returned memory.
pub fn collectImports(allocator: std.mem.Allocator, tree: Ast) error{OutOfMemory}![][]const u8 {
var imports = std.ArrayListUnmanaged([]const u8){};
errdefer {
for (imports.items) |imp| {
allocator.free(imp);
}
imports.deinit(allocator);
}
const tags = tree.tokens.items(.tag); const tags = tree.tokens.items(.tag);
var i: usize = 0; var i: usize = 0;
@ -1147,9 +1116,33 @@ pub fn collectImports(import_arr: *std.ArrayList([]const u8), tree: Ast) !void {
continue; continue;
const str = tree.tokenSlice(@intCast(u32, i + 2)); const str = tree.tokenSlice(@intCast(u32, i + 2));
try import_arr.append(str[1 .. str.len - 1]); try imports.append(allocator, str[1 .. str.len - 1]);
} }
} }
return imports.toOwnedSlice(allocator);
}
/// Collects all `@cImport` nodes
/// Caller owns returned memory.
pub fn collectCImportNodes(allocator: std.mem.Allocator, tree: Ast) error{OutOfMemory}![]Ast.Node.Index {
var import_nodes = std.ArrayListUnmanaged(Ast.Node.Index){};
errdefer import_nodes.deinit(allocator);
const node_tags = tree.nodes.items(.tag);
const main_tokens = tree.nodes.items(.main_token);
var i: usize = 0;
while (i < node_tags.len) : (i += 1) {
const node = @intCast(Ast.Node.Index, i);
if (!ast.isBuiltinCall(tree, node)) continue;
if (!std.mem.eql(u8, Ast.tokenSlice(tree, main_tokens[node]), "@cImport")) continue;
try import_nodes.append(allocator, node);
}
return import_nodes.toOwnedSlice(allocator);
} }
pub const NodeWithHandle = struct { pub const NodeWithHandle = struct {
@ -1390,34 +1383,22 @@ pub fn getImportStr(tree: Ast, node: Ast.Node.Index, source_index: usize) ?[]con
return getImportStr(tree, tree.nodes.items(.data)[node].lhs, source_index); return getImportStr(tree, tree.nodes.items(.data)[node].lhs, source_index);
} }
if (!nodeContainsSourceIndex(tree, node, source_index)) { if (!nodeContainsSourceIndex(tree, node, source_index)) return null;
return null;
}
if (ast.isBuiltinCall(tree, node)) { if (!ast.isBuiltinCall(tree, node)) return null;
const builtin_token = tree.nodes.items(.main_token)[node];
const call_name = tree.tokenSlice(builtin_token);
if (!std.mem.eql(u8, call_name, "@import")) return null; const builtin_token = tree.nodes.items(.main_token)[node];
const data = tree.nodes.items(.data)[node]; const call_name = tree.tokenSlice(builtin_token);
const params = switch (node_tags[node]) {
.builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs],
.builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0)
&[_]Ast.Node.Index{}
else if (data.rhs == 0)
&[_]Ast.Node.Index{data.lhs}
else
&[_]Ast.Node.Index{ data.lhs, data.rhs },
else => unreachable,
};
if (params.len != 1) return null; if (!std.mem.eql(u8, call_name, "@import")) return null;
const import_str = tree.tokenSlice(tree.nodes.items(.main_token)[params[0]]); var buffer: [2]Ast.Node.Index = undefined;
return import_str[1 .. import_str.len - 1]; const params = ast.builtinCallParams(tree, node, &buffer).?;
}
return null; if (params.len != 1) return null;
const import_str = tree.tokenSlice(tree.nodes.items(.main_token)[params[0]]);
return import_str[1 .. import_str.len - 1];
} }
pub const SourceRange = std.zig.Token.Loc; pub const SourceRange = std.zig.Token.Loc;
@ -2522,21 +2503,8 @@ fn makeInnerScope(allocator: std.mem.Allocator, context: ScopeContext, node_idx:
} }
} }
const container_decl = switch (node_tag) { var buffer: [2]Ast.Node.Index = undefined;
.container_decl, .container_decl_trailing => tree.containerDecl(node_idx), const container_decl = ast.containerDecl(tree, node_idx, &buffer);
.container_decl_arg, .container_decl_arg_trailing => tree.containerDeclArg(node_idx),
.container_decl_two, .container_decl_two_trailing => blk: {
var buffer: [2]Ast.Node.Index = undefined;
break :blk tree.containerDeclTwo(&buffer, node_idx);
},
.tagged_union, .tagged_union_trailing => tree.taggedUnion(node_idx),
.tagged_union_enum_tag, .tagged_union_enum_tag_trailing => tree.taggedUnionEnumTag(node_idx),
.tagged_union_two, .tagged_union_two_trailing => blk: {
var buffer: [2]Ast.Node.Index = undefined;
break :blk tree.taggedUnionTwo(&buffer, node_idx);
},
else => null,
};
// Only tagged unions and enums should pass this // Only tagged unions and enums should pass this
const can_have_enum_completions = if (container_decl) |container| blk: { const can_have_enum_completions = if (container_decl) |container| blk: {
@ -2717,20 +2685,8 @@ fn makeScopeInternal(allocator: std.mem.Allocator, context: ScopeContext, node_i
uses.deinit(); uses.deinit();
} }
const statements: []const Ast.Node.Index = switch (node_tag) { var buffer: [2]Ast.Node.Index = undefined;
.block, .block_semicolon => tree.extra_data[data[node_idx].lhs..data[node_idx].rhs], const statements = ast.blockStatements(tree, node_idx, &buffer).?;
.block_two, .block_two_semicolon => blk: {
const statements = &[_]Ast.Node.Index{ data[node_idx].lhs, data[node_idx].rhs };
const len: usize = if (data[node_idx].lhs == 0)
@as(usize, 0)
else if (data[node_idx].rhs == 0)
@as(usize, 1)
else
@as(usize, 2);
break :blk statements[0..len];
},
else => unreachable,
};
for (statements) |idx| { for (statements) |idx| {
if (tags[idx] == .@"usingnamespace") { if (tags[idx] == .@"usingnamespace") {
@ -3058,17 +3014,8 @@ fn makeScopeInternal(allocator: std.mem.Allocator, context: ScopeContext, node_i
.builtin_call_two, .builtin_call_two,
.builtin_call_two_comma, .builtin_call_two_comma,
=> { => {
const b_data = data[node_idx]; var buffer: [2]Ast.Node.Index = undefined;
const params = switch (node_tag) { const params = ast.builtinCallParams(tree, node_idx, &buffer).?;
.builtin_call, .builtin_call_comma => tree.extra_data[b_data.lhs..b_data.rhs],
.builtin_call_two, .builtin_call_two_comma => if (b_data.lhs == 0)
&[_]Ast.Node.Index{}
else if (b_data.rhs == 0)
&[_]Ast.Node.Index{b_data.lhs}
else
&[_]Ast.Node.Index{ b_data.lhs, b_data.rhs },
else => unreachable,
};
for (params) |param| { for (params) |param| {
try makeScopeInternal(allocator, context, param); try makeScopeInternal(allocator, context, param);

View File

@ -948,6 +948,18 @@ pub fn isContainer(tree: Ast, node: Ast.Node.Index) bool {
}; };
} }
pub fn containerDecl(tree: Ast, node_idx: Ast.Node.Index, buffer: *[2]Ast.Node.Index) ?full.ContainerDecl {
return switch (tree.nodes.items(.tag)[node_idx]) {
.container_decl, .container_decl_trailing => tree.containerDecl(node_idx),
.container_decl_arg, .container_decl_arg_trailing => tree.containerDeclArg(node_idx),
.container_decl_two, .container_decl_two_trailing => tree.containerDeclTwo(buffer, node_idx),
.tagged_union, .tagged_union_trailing => tree.taggedUnion(node_idx),
.tagged_union_enum_tag, .tagged_union_enum_tag_trailing => tree.taggedUnionEnumTag(node_idx),
.tagged_union_two, .tagged_union_two_trailing => tree.taggedUnionTwo(buffer, node_idx),
else => null,
};
}
/// Returns the member indices of a given declaration container. /// Returns the member indices of a given declaration container.
/// Asserts given `tag` is a container node /// Asserts given `tag` is a container node
pub fn declMembers(tree: Ast, node_idx: Ast.Node.Index, buffer: *[2]Ast.Node.Index) []const Ast.Node.Index { pub fn declMembers(tree: Ast, node_idx: Ast.Node.Index, buffer: *[2]Ast.Node.Index) []const Ast.Node.Index {
@ -977,6 +989,17 @@ pub fn varDecl(tree: Ast, node_idx: Ast.Node.Index) ?Ast.full.VarDecl {
}; };
} }
pub fn isPtrType(tree: Ast, node: Ast.Node.Index) bool {
return switch (tree.nodes.items(.tag)[node]) {
.ptr_type,
.ptr_type_aligned,
.ptr_type_bit_range,
.ptr_type_sentinel,
=> true,
else => false,
};
}
pub fn isBuiltinCall(tree: Ast, node: Ast.Node.Index) bool { pub fn isBuiltinCall(tree: Ast, node: Ast.Node.Index) bool {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.builtin_call, .builtin_call,
@ -1003,6 +1026,29 @@ pub fn isCall(tree: Ast, node: Ast.Node.Index) bool {
}; };
} }
pub fn isBlock(tree: Ast, node: Ast.Node.Index) bool {
return switch (tree.nodes.items(.tag)[node]) {
.block_two,
.block_two_semicolon,
.block,
.block_semicolon,
=> true,
else => false,
};
}
pub fn fnProtoHasBody(tree: Ast, node: Ast.Node.Index) ?bool {
return switch (tree.nodes.items(.tag)[node]) {
.fn_proto,
.fn_proto_multi,
.fn_proto_one,
.fn_proto_simple,
=> false,
.fn_decl => true,
else => null,
};
}
pub fn fnProto(tree: Ast, node: Ast.Node.Index, buf: *[1]Ast.Node.Index) ?Ast.full.FnProto { pub fn fnProto(tree: Ast, node: Ast.Node.Index, buf: *[1]Ast.Node.Index) ?Ast.full.FnProto {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.fn_proto => tree.fnProto(node), .fn_proto => tree.fnProto(node),
@ -1029,3 +1075,47 @@ pub fn callFull(tree: Ast, node: Ast.Node.Index, buf: *[1]Ast.Node.Index) ?Ast.f
else => null, else => null,
}; };
} }
/// returns a list of parameters
pub fn builtinCallParams(tree: Ast, node: Ast.Node.Index, buf: *[2]Ast.Node.Index) ?[]const Node.Index {
const node_data = tree.nodes.items(.data);
return switch (tree.nodes.items(.tag)[node]) {
.builtin_call_two, .builtin_call_two_comma => {
buf[0] = node_data[node].lhs;
buf[1] = node_data[node].rhs;
if (node_data[node].lhs == 0) {
return buf[0..0];
} else if (node_data[node].rhs == 0) {
return buf[0..1];
} else {
return buf[0..2];
}
},
.builtin_call,
.builtin_call_comma,
=> tree.extra_data[node_data[node].lhs..node_data[node].rhs],
else => return null,
};
}
/// returns a list of statements
pub fn blockStatements(tree: Ast, node: Ast.Node.Index, buf: *[2]Ast.Node.Index) ?[]const Node.Index {
const node_data = tree.nodes.items(.data);
return switch (tree.nodes.items(.tag)[node]) {
.block_two, .block_two_semicolon => {
buf[0] = node_data[node].lhs;
buf[1] = node_data[node].rhs;
if (node_data[node].lhs == 0) {
return buf[0..0];
} else if (node_data[node].rhs == 0) {
return buf[0..1];
} else {
return buf[0..2];
}
},
.block,
.block_semicolon,
=> tree.extra_data[node_data[node].lhs..node_data[node].rhs],
else => return null,
};
}

View File

@ -133,7 +133,7 @@ fn writeCallHint(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *Doc
} }
/// takes parameter nodes from the ast and function parameter names from `Builtin.arguments` and writes parameter hints into `builder.hints` /// takes parameter nodes from the ast and function parameter names from `Builtin.arguments` and writes parameter hints into `builder.hints`
fn writeBuiltinHint(builder: *Builder, parameters: []Ast.Node.Index, arguments: []const []const u8) !void { fn writeBuiltinHint(builder: *Builder, parameters: []const Ast.Node.Index, arguments: []const []const u8) !void {
if (parameters.len == 0) return; if (parameters.len == 0) return;
const handle = builder.handle; const handle = builder.handle;
@ -290,25 +290,9 @@ fn writeNodeInlayHint(builder: *Builder, arena: *std.heap.ArenaAllocator, store:
.builtin_call_comma, .builtin_call_comma,
=> { => {
var buffer: [2]Ast.Node.Index = undefined; var buffer: [2]Ast.Node.Index = undefined;
const parameters: []Ast.Node.Index = switch (tag) { const params = ast.builtinCallParams(tree, node, &buffer).?;
.builtin_call_two, .builtin_call_two_comma => blk: {
buffer[0] = node_data[node].lhs;
buffer[1] = node_data[node].rhs;
var size: usize = 0; if (builder.config.inlay_hints_show_builtin and params.len > 1) {
if (node_data[node].rhs != 0) {
size = 2;
} else if (node_data[node].lhs != 0) {
size = 1;
}
break :blk buffer[0..size];
},
.builtin_call, .builtin_call_comma => tree.extra_data[node_data[node].lhs..node_data[node].rhs],
else => unreachable,
};
if (builder.config.inlay_hints_show_builtin and parameters.len > 1) {
const name = tree.tokenSlice(main_tokens[node]); const name = tree.tokenSlice(main_tokens[node]);
outer: for (data.builtins) |builtin| { outer: for (data.builtins) |builtin| {
@ -318,12 +302,12 @@ fn writeNodeInlayHint(builder: *Builder, arena: *std.heap.ArenaAllocator, store:
if (std.mem.eql(u8, builtin_name, name)) break :outer; if (std.mem.eql(u8, builtin_name, name)) break :outer;
} }
try writeBuiltinHint(builder, parameters, builtin.arguments); try writeBuiltinHint(builder, params, builtin.arguments);
} }
} }
for (parameters) |param| { for (params) |param| {
if (parameters.len > inlay_hints_max_inline_children) { if (params.len > inlay_hints_max_inline_children) {
if (!isNodeInRange(tree, param, range)) continue; if (!isNodeInRange(tree, param, range)) continue;
} }
@ -623,15 +607,7 @@ fn writeNodeInlayHint(builder: *Builder, arena: *std.heap.ArenaAllocator, store:
.tagged_union_enum_tag_trailing, .tagged_union_enum_tag_trailing,
=> { => {
var buffer: [2]Ast.Node.Index = undefined; var buffer: [2]Ast.Node.Index = undefined;
const decl: Ast.full.ContainerDecl = switch (tag) { const decl: Ast.full.ContainerDecl = ast.containerDecl(tree, node, &buffer).?;
.container_decl, .container_decl_trailing => tree.containerDecl(node),
.container_decl_two, .container_decl_two_trailing => tree.containerDeclTwo(&buffer, node),
.container_decl_arg, .container_decl_arg_trailing => tree.containerDeclArg(node),
.tagged_union, .tagged_union_trailing => tree.taggedUnion(node),
.tagged_union_enum_tag, .tagged_union_enum_tag_trailing => tree.taggedUnionEnumTag(node),
.tagged_union_two, .tagged_union_two_trailing => tree.taggedUnionTwo(&buffer, node),
else => unreachable,
};
try await @asyncCall(child_frame, {}, writeNodeInlayHint, .{ builder, arena, store, decl.ast.arg, range }); try await @asyncCall(child_frame, {}, writeNodeInlayHint, .{ builder, arena, store, decl.ast.arg, range });

@ -1 +1 @@
Subproject commit 9db1b99219c767d5e24994b1525273fe4031e464 Subproject commit 24845b0103e611c108d6bc334231c464e699742c

View File

@ -32,8 +32,7 @@ fn loop(server: *Server) !void {
try reader.readNoEof(buffer); try reader.readNoEof(buffer);
var writer = std.io.getStdOut().writer(); const writer = std.io.getStdOut().writer();
try server.processJsonRpc(writer, buffer); try server.processJsonRpc(writer, buffer);
} }
} }
@ -43,8 +42,15 @@ const ConfigWithPath = struct {
config_path: ?[]const u8, config_path: ?[]const u8,
}; };
fn getConfig(allocator: std.mem.Allocator, config: ConfigWithPath) !ConfigWithPath { fn getConfig(
if (config.config_path) |path| { allocator: std.mem.Allocator,
config_path: ?[]const u8,
/// If true, and the provided config_path is non-null, frees
/// the aforementioned path, in the case that it is
/// not returned.
free_old_config_path: bool,
) !ConfigWithPath {
if (config_path) |path| {
if (Config.loadFromFile(allocator, path)) |conf| { if (Config.loadFromFile(allocator, path)) |conf| {
return ConfigWithPath{ return ConfigWithPath{
.config = conf, .config = conf,
@ -56,6 +62,9 @@ fn getConfig(allocator: std.mem.Allocator, config: ConfigWithPath) !ConfigWithPa
\\Falling back to a lookup in the local and global configuration folders \\Falling back to a lookup in the local and global configuration folders
\\ \\
, .{path}); , .{path});
if (free_old_config_path) {
allocator.free(path);
}
} }
if (try known_folders.getPath(allocator, .local_configuration)) |path| { if (try known_folders.getPath(allocator, .local_configuration)) |path| {
@ -65,6 +74,7 @@ fn getConfig(allocator: std.mem.Allocator, config: ConfigWithPath) !ConfigWithPa
.config_path = path, .config_path = path,
}; };
} }
allocator.free(path);
} }
if (try known_folders.getPath(allocator, .global_configuration)) |path| { if (try known_folders.getPath(allocator, .global_configuration)) |path| {
@ -74,6 +84,7 @@ fn getConfig(allocator: std.mem.Allocator, config: ConfigWithPath) !ConfigWithPa
.config_path = path, .config_path = path,
}; };
} }
allocator.free(path);
} }
return ConfigWithPath{ return ConfigWithPath{
@ -82,19 +93,130 @@ fn getConfig(allocator: std.mem.Allocator, config: ConfigWithPath) !ConfigWithPa
}; };
} }
const ParseArgsResult = enum { proceed, exit };
fn parseArgs(
allocator: std.mem.Allocator,
config: *ConfigWithPath,
) !ParseArgsResult {
const ArgId = enum {
help,
version,
config,
@"enable-debug-log",
@"config-path",
};
const arg_id_map = std.ComptimeStringMap(ArgId, comptime blk: {
const fields = @typeInfo(ArgId).Enum.fields;
const KV = std.meta.Tuple(&.{ []const u8, ArgId });
var pairs: [fields.len]KV = undefined;
for (pairs) |*pair, i| pair.* = .{ fields[i].name, @intToEnum(ArgId, fields[i].value) };
break :blk pairs[0..];
});
const help_message: []const u8 = comptime help_message: {
var help_message: []const u8 =
\\Usage: zls [command]
\\
\\Commands:
\\
\\
;
const InfoMap = std.enums.EnumArray(ArgId, []const u8);
var cmd_infos: InfoMap = InfoMap.init(.{
.help = "Prints this message.",
.version = "Prints the compiler version with which the server was compiled.",
.@"enable-debug-log" = "Enables debug logs.",
.@"config-path" = "Specify the path to a configuration file specifying LSP behaviour.",
.config = "Run the ZLS configuration wizard.",
});
var info_it = cmd_infos.iterator();
while (info_it.next()) |entry| {
help_message = help_message ++ std.fmt.comptimePrint(" --{s}: {s}\n", .{ @tagName(entry.key), entry.value.* });
}
help_message = help_message ++ "\n";
break :help_message help_message;
};
var args_it = try std.process.ArgIterator.initWithAllocator(allocator);
defer args_it.deinit();
if (!args_it.skip()) @panic("Could not find self argument");
// Makes behavior of enabling debug more logging consistent regardless of argument order.
var specified = std.enums.EnumArray(ArgId, bool).initFill(false);
var config_path: ?[]const u8 = null;
errdefer if (config_path) |path| allocator.free(path);
const stderr = std.io.getStdErr().writer();
while (args_it.next()) |tok| {
if (!std.mem.startsWith(u8, tok, "--") or tok.len == 2) {
try stderr.print("{s}\n", .{help_message});
try stderr.print("Unexpected positional argument '{s}'.\n", .{tok});
return .exit;
}
const argname = tok["--".len..];
const id = arg_id_map.get(argname) orelse {
try stderr.print("{s}\n", .{help_message});
try stderr.print("Unrecognized argument '{s}'.\n", .{argname});
return .exit;
};
if (specified.get(id)) {
try stderr.print("{s}\n", .{help_message});
try stderr.print("Duplicate argument '{s}'.\n", .{argname});
return .exit;
}
specified.set(id, true);
switch (id) {
.help => {},
.version => {},
.@"enable-debug-log" => {},
.config => {},
.@"config-path" => {
const path = args_it.next() orelse {
try stderr.print("Expected configuration file path after --config-path argument.\n", .{});
return .exit;
};
config.config_path = try allocator.dupe(u8, path);
},
}
}
if (specified.get(.help)) {
try stderr.print("{s}\n", .{help_message});
return .exit;
}
if (specified.get(.version)) {
try std.io.getStdOut().writer().print("Data Version: {s}\n", .{@tagName(build_options.data_version)});
return .exit;
}
if (specified.get(.config)) {
try setup.wizard(allocator);
return .exit;
}
if (specified.get(.@"enable-debug-log")) {
actual_log_level = .debug;
logger.info("Enabled debug logging.\n", .{});
}
if (specified.get(.@"config-path")) {
std.debug.assert(config.config_path != null);
}
return .proceed;
}
const stack_frames = switch (zig_builtin.mode) { const stack_frames = switch (zig_builtin.mode) {
.Debug => 10, .Debug => 10,
else => 0, else => 0,
}; };
pub fn main() anyerror!void { pub fn main() !void {
var gpa_state = std.heap.GeneralPurposeAllocator(.{ .stack_trace_frames = stack_frames }){}; var gpa_state = std.heap.GeneralPurposeAllocator(.{ .stack_trace_frames = stack_frames }){};
defer _ = gpa_state.deinit(); defer _ = gpa_state.deinit();
var tracy_state = if (tracy.enable_allocation) tracy.tracyAllocator(gpa_state.allocator()) else void{};
var allocator = gpa_state.allocator(); const allocator: std.mem.Allocator = if (tracy.enable_allocation) tracy_state.allocator() else gpa_state.allocator();
if (tracy.enable_allocation) {
allocator = tracy.tracyAllocator(allocator).allocator();
}
var config = ConfigWithPath{ var config = ConfigWithPath{
.config = undefined, .config = undefined,
@ -102,32 +224,12 @@ pub fn main() anyerror!void {
}; };
defer if (config.config_path) |path| allocator.free(path); defer if (config.config_path) |path| allocator.free(path);
// Check arguments. switch (try parseArgs(allocator, &config)) {
var args_it = try std.process.ArgIterator.initWithAllocator(allocator); .proceed => {},
defer args_it.deinit(); .exit => return,
if (!args_it.skip()) @panic("Could not find self argument");
while (args_it.next()) |arg| {
// TODO add --help --version
if (std.mem.eql(u8, arg, "--debug-log")) {
actual_log_level = .debug;
std.debug.print("Enabled debug logging\n", .{});
} else if (std.mem.eql(u8, arg, "--config-path")) {
var path = args_it.next() orelse {
std.debug.print("Expected configuration file path after --config-path argument\n", .{});
std.os.exit(1);
};
config.config_path = try allocator.dupe(u8, path);
} else if (std.mem.eql(u8, arg, "config") or std.mem.eql(u8, arg, "configure")) {
try setup.wizard(allocator);
return;
} else {
std.debug.print("Unrecognized argument {s}\n", .{arg});
std.os.exit(1);
}
} }
config = try getConfig(allocator, config); config = try getConfig(allocator, config.config_path, true);
if (config.config_path == null) { if (config.config_path == null) {
logger.info("No config file zls.json found.", .{}); logger.info("No config file zls.json found.", .{});
} }

View File

@ -67,20 +67,9 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
switch (node_tags[node]) { switch (node_tags[node]) {
.block, .block_semicolon, .block_two, .block_two_semicolon => { .block, .block_semicolon, .block_two, .block_two_semicolon => {
const statements: []const Ast.Node.Index = switch (node_tags[node]) { var buffer: [2]Ast.Node.Index = undefined;
.block, .block_semicolon => tree.extra_data[datas[node].lhs..datas[node].rhs], const statements = ast.blockStatements(tree, node, &buffer).?;
.block_two, .block_two_semicolon => blk: {
const statements = &[_]Ast.Node.Index{ datas[node].lhs, datas[node].rhs };
const len: usize = if (datas[node].lhs == 0)
@as(usize, 0)
else if (datas[node].rhs == 0)
@as(usize, 1)
else
@as(usize, 2);
break :blk statements[0..len];
},
else => unreachable,
};
for (statements) |stmt| for (statements) |stmt|
try symbolReferencesInternal(arena, store, .{ .node = stmt, .handle = handle }, decl, encoding, context, handler); try symbolReferencesInternal(arena, store, .{ .node = stmt, .handle = handle }, decl, encoding, context, handler);
}, },
@ -319,13 +308,10 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
.async_call_comma, .async_call_comma,
.async_call_one, .async_call_one,
.async_call_one_comma, .async_call_one_comma,
=> |c| { => {
var buf: [1]Ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const call: Ast.full.Call = switch (c) { const call = ast.callFull(tree, node, &buf).?;
.call, .call_comma, .async_call, .async_call_comma => tree.callFull(node),
.call_one, .call_one_comma, .async_call_one, .async_call_one_comma => tree.callOne(&buf, node),
else => unreachable,
};
if (call.ast.fn_expr != 0) if (call.ast.fn_expr != 0)
try symbolReferencesInternal(arena, store, .{ .node = call.ast.fn_expr, .handle = handle }, decl, encoding, context, handler); try symbolReferencesInternal(arena, store, .{ .node = call.ast.fn_expr, .handle = handle }, decl, encoding, context, handler);
@ -380,18 +366,9 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
.builtin_call_comma, .builtin_call_comma,
.builtin_call_two, .builtin_call_two,
.builtin_call_two_comma, .builtin_call_two_comma,
=> |builtin_tag| { => {
const data = datas[node]; var buffer: [2]Ast.Node.Index = undefined;
const params = switch (builtin_tag) { const params = ast.builtinCallParams(tree, node, &buffer).?;
.builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs],
.builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0)
&[_]Ast.Node.Index{}
else if (data.rhs == 0)
&[_]Ast.Node.Index{data.lhs}
else
&[_]Ast.Node.Index{ data.lhs, data.rhs },
else => unreachable,
};
for (params) |param| for (params) |param|
try symbolReferencesInternal(arena, store, .{ .node = param, .handle = handle }, decl, encoding, context, handler); try symbolReferencesInternal(arena, store, .{ .node = param, .handle = handle }, decl, encoding, context, handler);

View File

@ -282,7 +282,7 @@ pub const Configuration = struct {
zig_exe_path: ?[]const u8, zig_exe_path: ?[]const u8,
warn_style: ?bool, warn_style: ?bool,
build_runner_path: ?[]const u8, build_runner_path: ?[]const u8,
build_runner_cache_path: ?[]const u8, global_cache_path: ?[]const u8,
enable_semantic_tokens: ?bool, enable_semantic_tokens: ?bool,
enable_inlay_hints: ?bool, enable_inlay_hints: ?bool,
inlay_hints_show_builtin: ?bool, inlay_hints_show_builtin: ?bool,

View File

@ -317,20 +317,8 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
try writeToken(builder, main_token - 2, .label); try writeToken(builder, main_token - 2, .label);
} }
const statements: []const Ast.Node.Index = switch (tag) { var buffer: [2]Ast.Node.Index = undefined;
.block, .block_semicolon => tree.extra_data[node_data[node].lhs..node_data[node].rhs], const statements = ast.blockStatements(tree, node, &buffer).?;
.block_two, .block_two_semicolon => blk: {
const statements = &[_]Ast.Node.Index{ node_data[node].lhs, node_data[node].rhs };
const len: usize = if (node_data[node].lhs == 0)
@as(usize, 0)
else if (node_data[node].rhs == 0)
@as(usize, 1)
else
@as(usize, 2);
break :blk statements[0..len];
},
else => unreachable,
};
for (statements) |child| { for (statements) |child| {
if (node_tags[child].isContainerField()) { if (node_tags[child].isContainerField()) {
@ -390,15 +378,7 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.tagged_union_two_trailing, .tagged_union_two_trailing,
=> { => {
var buf: [2]Ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
const decl: Ast.full.ContainerDecl = switch (tag) { const decl: Ast.full.ContainerDecl = ast.containerDecl(tree, node, &buf).?;
.container_decl, .container_decl_trailing => tree.containerDecl(node),
.container_decl_two, .container_decl_two_trailing => tree.containerDeclTwo(&buf, node),
.container_decl_arg, .container_decl_arg_trailing => tree.containerDeclArg(node),
.tagged_union, .tagged_union_trailing => tree.taggedUnion(node),
.tagged_union_enum_tag, .tagged_union_enum_tag_trailing => tree.taggedUnionEnumTag(node),
.tagged_union_two, .tagged_union_two_trailing => tree.taggedUnionTwo(&buf, node),
else => unreachable,
};
try writeToken(builder, decl.layout_token, .keyword); try writeToken(builder, decl.layout_token, .keyword);
try writeToken(builder, decl.ast.main_token, .keyword); try writeToken(builder, decl.ast.main_token, .keyword);
@ -427,7 +407,7 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.identifier => { .identifier => {
const name = tree.getNodeSource(node); const name = tree.getNodeSource(node);
if(std.mem.eql(u8,name, "undefined")) { if (std.mem.eql(u8, name, "undefined")) {
return try writeToken(builder, main_token, .keywordLiteral); return try writeToken(builder, main_token, .keywordLiteral);
} else if (analysis.isTypeIdent(name)) { } else if (analysis.isTypeIdent(name)) {
return try writeToken(builder, main_token, .type); return try writeToken(builder, main_token, .type);
@ -682,11 +662,7 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.async_call_one_comma, .async_call_one_comma,
=> { => {
var params: [1]Ast.Node.Index = undefined; var params: [1]Ast.Node.Index = undefined;
const call: Ast.full.Call = switch (tag) { const call = ast.callFull(tree, node, &params).?;
.call, .call_comma, .async_call, .async_call_comma => tree.callFull(node),
.call_one, .call_one_comma, .async_call_one, .async_call_one_comma => tree.callOne(&params, node),
else => unreachable,
};
try writeToken(builder, call.async_token, .keyword); try writeToken(builder, call.async_token, .keyword);
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, call.ast.fn_expr }); try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, call.ast.fn_expr });
@ -757,17 +733,8 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.builtin_call_two, .builtin_call_two,
.builtin_call_two_comma, .builtin_call_two_comma,
=> { => {
const data = node_data[node]; var buffer: [2]Ast.Node.Index = undefined;
const params = switch (tag) { const params = ast.builtinCallParams(tree, node, &buffer).?;
.builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs],
.builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0)
&[_]Ast.Node.Index{}
else if (data.rhs == 0)
&[_]Ast.Node.Index{data.lhs}
else
&[_]Ast.Node.Index{ data.lhs, data.rhs },
else => unreachable,
};
try writeToken(builder, main_token, .builtin); try writeToken(builder, main_token, .builtin);
for (params) |param| for (params) |param|

View File

@ -1,18 +1,28 @@
const root = @import("@build@"); const root = @import("@build@");
const std = @import("std"); const std = @import("std");
const fmt = std.fmt;
const io = std.io;
const log = std.log; const log = std.log;
const process = std.process; const process = std.process;
const Builder = std.build.Builder; const Builder = std.build.Builder;
const Pkg = std.build.Pkg;
const InstallArtifactStep = std.build.InstallArtifactStep; const InstallArtifactStep = std.build.InstallArtifactStep;
const LibExeObjStep = std.build.LibExeObjStep; const LibExeObjStep = std.build.LibExeObjStep;
const ArrayList = std.ArrayList;
pub const BuildConfig = struct {
packages: []Pkg,
include_dirs: []IncludeDir,
pub const Pkg = struct {
name: []const u8,
path: []const u8,
};
pub const IncludeDir = struct {
path: []const u8,
system: bool,
};
};
///! This is a modified build runner to extract information out of build.zig ///! This is a modified build runner to extract information out of build.zig
///! Modified from the std.special.build_runner ///! Modified version of lib/build_runner.zig
pub fn main() !void { pub fn main() !void {
var arena = std.heap.ArenaAllocator.init(std.heap.page_allocator); var arena = std.heap.ArenaAllocator.init(std.heap.page_allocator);
defer arena.deinit(); defer arena.deinit();
@ -55,48 +65,97 @@ pub fn main() !void {
builder.resolveInstallPrefix(null, Builder.DirList{}); builder.resolveInstallPrefix(null, Builder.DirList{});
try runBuild(builder); try runBuild(builder);
const stdout_stream = io.getStdOut().writer(); var packages = std.ArrayList(BuildConfig.Pkg).init(allocator);
defer packages.deinit();
var include_dirs = std.ArrayList(BuildConfig.IncludeDir).init(allocator);
defer include_dirs.deinit();
// TODO: We currently add packages from every LibExeObj step that the install step depends on. // TODO: We currently add packages from every LibExeObj step that the install step depends on.
// Should we error out or keep one step or something similar? // Should we error out or keep one step or something similar?
// We also flatten them, we should probably keep the nested structure. // We also flatten them, we should probably keep the nested structure.
for (builder.top_level_steps.items) |tls| { for (builder.top_level_steps.items) |tls| {
for (tls.step.dependencies.items) |step| { for (tls.step.dependencies.items) |step| {
try processStep(stdout_stream, step); try processStep(&packages, &include_dirs, step);
} }
} }
try std.json.stringify(
BuildConfig{
.packages = packages.items,
.include_dirs = include_dirs.items,
},
.{ .whitespace = .{} },
std.io.getStdOut().writer(),
);
} }
fn processStep(stdout_stream: anytype, step: *std.build.Step) anyerror!void { fn processStep(
packages: *std.ArrayList(BuildConfig.Pkg),
include_dirs: *std.ArrayList(BuildConfig.IncludeDir),
step: *std.build.Step,
) anyerror!void {
if (step.cast(InstallArtifactStep)) |install_exe| { if (step.cast(InstallArtifactStep)) |install_exe| {
try processIncludeDirs(include_dirs, install_exe.artifact.include_dirs.items);
for (install_exe.artifact.packages.items) |pkg| { for (install_exe.artifact.packages.items) |pkg| {
try processPackage(stdout_stream, pkg); try processPackage(packages, pkg);
} }
} else if (step.cast(LibExeObjStep)) |exe| { } else if (step.cast(LibExeObjStep)) |exe| {
try processIncludeDirs(include_dirs, exe.include_dirs.items);
for (exe.packages.items) |pkg| { for (exe.packages.items) |pkg| {
try processPackage(stdout_stream, pkg); try processPackage(packages, pkg);
} }
} else { } else {
for (step.dependencies.items) |unknown_step| { for (step.dependencies.items) |unknown_step| {
try processStep(stdout_stream, unknown_step); try processStep(packages, include_dirs, unknown_step);
} }
} }
} }
fn processPackage(out_stream: anytype, pkg: Pkg) anyerror!void { fn processPackage(
const source = if (@hasField(Pkg, "source")) pkg.source else pkg.path; packages: *std.ArrayList(BuildConfig.Pkg),
switch (source) { pkg: std.build.Pkg,
.path => |path| try out_stream.print("{s}\x00{s}\n", .{ pkg.name, path }), ) anyerror!void {
.generated => |generated| if (generated.path != null) try out_stream.print("{s}\x00{s}\n", .{ pkg.name, generated.path.? }), for (packages.items) |package| {
if (std.mem.eql(u8, package.name, pkg.name)) return;
}
const source = if (@hasField(std.build.Pkg, "source")) pkg.source else pkg.path;
const maybe_path = switch (source) {
.path => |path| path,
.generated => |generated| generated.path,
};
if (maybe_path) |path| {
try packages.append(.{ .name = pkg.name, .path = path });
} }
if (pkg.dependencies) |dependencies| { if (pkg.dependencies) |dependencies| {
for (dependencies) |dep| { for (dependencies) |dep| {
try processPackage(out_stream, dep); try processPackage(packages, dep);
} }
} }
} }
fn processIncludeDirs(
include_dirs: *std.ArrayList(BuildConfig.IncludeDir),
dirs: []std.build.LibExeObjStep.IncludeDir,
) !void {
outer: for (dirs) |dir| {
const candidate: BuildConfig.IncludeDir = switch (dir) {
.raw_path => |path| .{ .path = path, .system = false },
.raw_path_system => |path| .{ .path = path, .system = true },
else => continue,
};
for (include_dirs.items) |include_dir| {
if (std.mem.eql(u8, candidate.path, include_dir.path)) continue :outer;
}
try include_dirs.append(candidate);
}
}
fn runBuild(builder: *Builder) anyerror!void { fn runBuild(builder: *Builder) anyerror!void {
switch (@typeInfo(@typeInfo(@TypeOf(root.build)).Fn.return_type.?)) { switch (@typeInfo(@typeInfo(@TypeOf(root.build)).Fn.return_type.?)) {
.Void => root.build(builder), .Void => root.build(builder),

@ -1 +1 @@
Subproject commit 2d8723b69b39721eadcc296451012828899c0f17 Subproject commit f493d4aa8ba8141d9680473fad007d8a6348628e

183
src/translate_c.zig Normal file
View File

@ -0,0 +1,183 @@
const std = @import("std");
const builtin = @import("builtin");
const Config = @import("Config.zig");
const ast = @import("ast.zig");
const Ast = std.zig.Ast;
const URI = @import("uri.zig");
/// converts a `@cInclude` node into an equivalent c header file
/// which can then be handed over to `zig translate-c`
/// Caller owns returned memory.
///
/// **Example**
/// ```zig
/// const glfw = @cImport(
/// @cDefine("GLFW_INCLUDE_VULKAN", {})
/// @cInclude("GLFW/glfw3.h")
/// );
/// ```
/// gets converted into:
/// ```c
/// #define GLFW_INCLUDE_VULKAN
/// #include "GLFW/glfw3.h"
/// ```
pub fn convertCInclude(allocator: std.mem.Allocator, tree: Ast, node: Ast.Node.Index) error{ OutOfMemory, Unsupported }![]const u8 {
const main_tokens = tree.nodes.items(.main_token);
std.debug.assert(ast.isBuiltinCall(tree, node));
std.debug.assert(std.mem.eql(u8, Ast.tokenSlice(tree, main_tokens[node]), "@cImport"));
var output = std.ArrayList(u8).init(allocator);
errdefer output.deinit();
var stack_allocator = std.heap.stackFallback(512, allocator);
var buffer: [2]Ast.Node.Index = undefined;
for (ast.builtinCallParams(tree, node, &buffer).?) |child| {
try convertCIncludeInternal(stack_allocator.get(), tree, child, &output);
}
return output.toOwnedSlice();
}
fn convertCIncludeInternal(allocator: std.mem.Allocator, tree: Ast, node: Ast.Node.Index, output: *std.ArrayList(u8)) error{ OutOfMemory, Unsupported }!void {
const node_tags = tree.nodes.items(.tag);
const main_tokens = tree.nodes.items(.main_token);
var buffer: [2]Ast.Node.Index = undefined;
if (ast.isBlock(tree, node)) {
const FrameSize = @sizeOf(@Frame(convertCIncludeInternal));
var child_frame = try allocator.alignedAlloc(u8, std.Target.stack_align, FrameSize);
defer allocator.free(child_frame);
for (ast.blockStatements(tree, node, &buffer).?) |statement| {
try await @asyncCall(child_frame, {}, convertCIncludeInternal, .{ allocator, tree, statement, output });
}
} else if (ast.builtinCallParams(tree, node, &buffer)) |params| {
if (params.len < 1) return;
const call_name = Ast.tokenSlice(tree, main_tokens[node]);
if (node_tags[params[0]] != .string_literal) return error.Unsupported;
const first = extractString(Ast.tokenSlice(tree, main_tokens[params[0]]));
if (std.mem.eql(u8, call_name, "@cInclude")) {
try output.writer().print("#include <{s}>\n", .{first});
} else if (std.mem.eql(u8, call_name, "@cDefine")) {
if (params.len < 2) return;
var buffer2: [2]Ast.Node.Index = undefined;
const is_void = if (ast.blockStatements(tree, params[1], &buffer2)) |block| block.len == 0 else false;
if (is_void) {
try output.writer().print("#define {s}\n", .{first});
} else {
if (node_tags[params[1]] != .string_literal) return error.Unsupported;
const second = extractString(Ast.tokenSlice(tree, main_tokens[params[1]]));
try output.writer().print("#define {s} {s}\n", .{ first, second });
}
} else if (std.mem.eql(u8, call_name, "@cUndef")) {
try output.writer().print("#undefine {s}\n", .{first});
} else {
return error.Unsupported;
}
}
}
/// takes a c header file and returns the result from calling `zig translate-c`
/// returns the file path to the generated zig file
/// Caller owns returned memory.
pub fn translate(allocator: std.mem.Allocator, config: Config, include_dirs: []const []const u8, source: []const u8) error{OutOfMemory}!?[]const u8 {
const file_path = try std.fs.path.join(allocator, &[_][]const u8{ config.global_cache_path.?, "cimport.h" });
defer allocator.free(file_path);
var file = std.fs.createFileAbsolute(file_path, .{}) catch |err| {
std.log.warn("failed to create file '{s}': {}", .{ file_path, err });
return null;
};
defer file.close();
defer std.fs.deleteFileAbsolute(file_path) catch |err| {
std.log.warn("failed to delete file '{s}': {}", .{ file_path, err });
};
_ = file.write(source) catch |err| {
std.log.warn("failed to write to '{s}': {}", .{ file_path, err });
};
const base_include_dirs = blk: {
const target_info = std.zig.system.NativeTargetInfo.detect(allocator, .{}) catch break :blk null;
var native_paths = std.zig.system.NativePaths.detect(allocator, target_info) catch break :blk null;
defer native_paths.deinit();
break :blk native_paths.include_dirs.toOwnedSlice();
};
defer if (base_include_dirs) |dirs| {
for (dirs) |path| {
allocator.free(path);
}
allocator.free(dirs);
};
const base_args = &[_][]const u8{
config.zig_exe_path.?,
"translate-c",
"--enable-cache",
"--zig-lib-dir",
config.zig_lib_path.?,
"--cache-dir",
config.global_cache_path.?,
};
const argc = base_args.len + 2 * (include_dirs.len + if (base_include_dirs) |dirs| dirs.len else 0) + 1;
var argv = try std.ArrayListUnmanaged([]const u8).initCapacity(allocator, argc);
defer argv.deinit(allocator);
argv.appendSliceAssumeCapacity(base_args);
if (base_include_dirs) |dirs| {
for (dirs) |include_dir| {
argv.appendAssumeCapacity("-I");
argv.appendAssumeCapacity(include_dir);
}
}
for (include_dirs) |include_dir| {
argv.appendAssumeCapacity("-I");
argv.appendAssumeCapacity(include_dir);
}
argv.appendAssumeCapacity(file_path);
const result = std.ChildProcess.exec(.{
.allocator = allocator,
.argv = argv.items,
}) catch |err| {
std.log.err("Failed to execute zig translate-c process, error: {}", .{err});
return null;
};
defer allocator.free(result.stdout);
defer allocator.free(result.stderr);
return switch (result.term) {
.Exited => |code| if (code == 0) {
return try allocator.dupe(u8, std.mem.sliceTo(result.stdout, '\n'));
} else {
// TODO convert failure to `textDocument/publishDiagnostics`
std.log.err("zig translate-c process failed, code: {}, stderr: '{s}'", .{ code, result.stderr });
return null;
},
else => {
std.log.err("zig translate-c process terminated '{}'", .{result.term});
return null;
},
};
}
fn extractString(str: []const u8) []const u8 {
if (std.mem.startsWith(u8, str, "\"") and std.mem.endsWith(u8, str, "\"")) {
return str[1 .. str.len - 1];
} else {
return str;
}
}