finish rename of usage of std.zig.Ast

This commit is contained in:
Meghan Denny 2021-09-30 18:44:06 -07:00
parent dc8affe122
commit 9e0f201283
7 changed files with 185 additions and 193 deletions

View File

@ -1,6 +1,6 @@
const std = @import("std"); const std = @import("std");
const DocumentStore = @import("./document_store.zig"); const DocumentStore = @import("./document_store.zig");
const ast = std.zig.Ast; const Ast = std.zig.Ast;
const types = @import("./types.zig"); const types = @import("./types.zig");
const offsets = @import("./offsets.zig"); const offsets = @import("./offsets.zig");
const log = std.log.scoped(.analysis); const log = std.log.scoped(.analysis);
@ -19,7 +19,7 @@ pub fn deinit() void {
} }
/// Gets a declaration's doc comments. Caller owns returned memory. /// Gets a declaration's doc comments. Caller owns returned memory.
pub fn getDocComments(allocator: *std.mem.Allocator, tree: Analysis.Tree, node: ast.Node.Index, format: types.MarkupContent.Kind) !?[]const u8 { pub fn getDocComments(allocator: *std.mem.Allocator, tree: Analysis.Tree, node: Ast.Node.Index, format: types.MarkupContent.Kind) !?[]const u8 {
const base = tree.nodes.items(.main_token)[node]; const base = tree.nodes.items(.main_token)[node];
const base_kind = tree.nodes.items(.tag)[node]; const base_kind = tree.nodes.items(.tag)[node];
const tokens = tree.tokens.items(.tag); const tokens = tree.tokens.items(.tag);
@ -48,7 +48,7 @@ pub fn getDocComments(allocator: *std.mem.Allocator, tree: Analysis.Tree, node:
} }
/// Get the first doc comment of a declaration. /// Get the first doc comment of a declaration.
pub fn getDocCommentTokenIndex(tokens: []std.zig.Token.Tag, base_token: ast.TokenIndex) ?ast.TokenIndex { pub fn getDocCommentTokenIndex(tokens: []std.zig.Token.Tag, base_token: Ast.TokenIndex) ?Ast.TokenIndex {
var idx = base_token; var idx = base_token;
if (idx == 0) return null; if (idx == 0) return null;
idx -= 1; idx -= 1;
@ -67,7 +67,7 @@ pub fn getDocCommentTokenIndex(tokens: []std.zig.Token.Tag, base_token: ast.Toke
} else idx + 1; } else idx + 1;
} }
pub fn collectDocComments(allocator: *std.mem.Allocator, tree: Analysis.Tree, doc_comments: ast.TokenIndex, format: types.MarkupContent.Kind, container_doc: bool) ![]const u8 { pub fn collectDocComments(allocator: *std.mem.Allocator, tree: Analysis.Tree, doc_comments: Ast.TokenIndex, format: types.MarkupContent.Kind, container_doc: bool) ![]const u8 {
var lines = std.ArrayList([]const u8).init(allocator); var lines = std.ArrayList([]const u8).init(allocator);
defer lines.deinit(); defer lines.deinit();
const tokens = tree.tokens.items(.tag); const tokens = tree.tokens.items(.tag);
@ -84,7 +84,7 @@ pub fn collectDocComments(allocator: *std.mem.Allocator, tree: Analysis.Tree, do
} }
/// Gets a function's keyword, name, arguments and return value. /// Gets a function's keyword, name, arguments and return value.
pub fn getFunctionSignature(tree: Analysis.Tree, func: ast.full.FnProto) []const u8 { pub fn getFunctionSignature(tree: Analysis.Tree, func: Ast.full.FnProto) []const u8 {
const start = offsets.tokenLocation(tree, func.ast.fn_token); const start = offsets.tokenLocation(tree, func.ast.fn_token);
const end = if (func.ast.return_type != 0) const end = if (func.ast.return_type != 0)
@ -95,7 +95,7 @@ pub fn getFunctionSignature(tree: Analysis.Tree, func: ast.full.FnProto) []const
} }
/// Creates snippet insert text for a function. Caller owns returned memory. /// Creates snippet insert text for a function. Caller owns returned memory.
pub fn getFunctionSnippet(allocator: *std.mem.Allocator, tree: Analysis.Tree, func: ast.full.FnProto, skip_self_param: bool) ![]const u8 { pub fn getFunctionSnippet(allocator: *std.mem.Allocator, tree: Analysis.Tree, func: Ast.full.FnProto, skip_self_param: bool) ![]const u8 {
const name_index = func.name_token.?; const name_index = func.name_token.?;
var buffer = std.ArrayList(u8).init(allocator); var buffer = std.ArrayList(u8).init(allocator);
@ -156,7 +156,7 @@ pub fn getFunctionSnippet(allocator: *std.mem.Allocator, tree: Analysis.Tree, fu
return buffer.toOwnedSlice(); return buffer.toOwnedSlice();
} }
pub fn hasSelfParam(arena: *std.heap.ArenaAllocator, document_store: *DocumentStore, handle: *DocumentStore.Handle, func: ast.full.FnProto) !bool { pub fn hasSelfParam(arena: *std.heap.ArenaAllocator, document_store: *DocumentStore, handle: *DocumentStore.Handle, func: Ast.full.FnProto) !bool {
// Non-decl prototypes cannot have a self parameter. // Non-decl prototypes cannot have a self parameter.
if (func.name_token == null) return false; if (func.name_token == null) return false;
if (func.ast.params.len == 0) return false; if (func.ast.params.len == 0) return false;
@ -190,13 +190,13 @@ pub fn hasSelfParam(arena: *std.heap.ArenaAllocator, document_store: *DocumentSt
return false; return false;
} }
pub fn getVariableSignature(tree: Analysis.Tree, var_decl: ast.full.VarDecl) []const u8 { pub fn getVariableSignature(tree: Analysis.Tree, var_decl: Ast.full.VarDecl) []const u8 {
const start = offsets.tokenLocation(tree, var_decl.ast.mut_token).start; const start = offsets.tokenLocation(tree, var_decl.ast.mut_token).start;
const end = offsets.tokenLocation(tree, Analysis.lastToken(tree, var_decl.ast.init_node)).end; const end = offsets.tokenLocation(tree, Analysis.lastToken(tree, var_decl.ast.init_node)).end;
return tree.source[start..end]; return tree.source[start..end];
} }
pub fn getContainerFieldSignature(tree: Analysis.Tree, field: ast.full.ContainerField) []const u8 { pub fn getContainerFieldSignature(tree: Analysis.Tree, field: Ast.full.ContainerField) []const u8 {
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, Analysis.lastToken(tree, end_node)).end; const end = offsets.tokenLocation(tree, Analysis.lastToken(tree, end_node)).end;
@ -204,18 +204,18 @@ pub fn getContainerFieldSignature(tree: Analysis.Tree, field: ast.full.Container
} }
/// The node is the meta-type `type` /// The node is the meta-type `type`
fn isMetaType(tree: Analysis.Tree, node: ast.Node.Index) bool { fn isMetaType(tree: Analysis.Tree, node: Ast.Node.Index) bool {
if (tree.nodes.items(.tag)[node] == .identifier) { if (tree.nodes.items(.tag)[node] == .identifier) {
return std.mem.eql(u8, tree.tokenSlice(tree.nodes.items(.main_token)[node]), "type"); return std.mem.eql(u8, tree.tokenSlice(tree.nodes.items(.main_token)[node]), "type");
} }
return false; return false;
} }
pub fn isTypeFunction(tree: Analysis.Tree, func: ast.full.FnProto) bool { pub fn isTypeFunction(tree: Analysis.Tree, func: Ast.full.FnProto) bool {
return isMetaType(tree, func.ast.return_type); return isMetaType(tree, func.ast.return_type);
} }
pub fn isGenericFunction(tree: Analysis.Tree, func: ast.full.FnProto) bool { pub fn isGenericFunction(tree: Analysis.Tree, func: Ast.full.FnProto) bool {
var it = func.iterate(tree); var it = func.iterate(tree);
while (it.next()) |param| { while (it.next()) |param| {
if (param.anytype_ellipsis3 != null or param.comptime_noalias != null) { if (param.anytype_ellipsis3 != null or param.comptime_noalias != null) {
@ -241,7 +241,7 @@ pub fn isSnakeCase(name: []const u8) bool {
// ANALYSIS ENGINE // ANALYSIS ENGINE
pub fn getDeclNameToken(tree: Analysis.Tree, node: ast.Node.Index) ?ast.TokenIndex { pub fn getDeclNameToken(tree: Analysis.Tree, node: Ast.Node.Index) ?Ast.TokenIndex {
const tags = tree.nodes.items(.tag); const tags = tree.nodes.items(.tag);
const main_token = tree.nodes.items(.main_token)[node]; const main_token = tree.nodes.items(.main_token)[node];
return switch (tags[node]) { return switch (tags[node]) {
@ -257,7 +257,7 @@ pub fn getDeclNameToken(tree: Analysis.Tree, node: ast.Node.Index) ?ast.TokenInd
.fn_proto_simple, .fn_proto_simple,
.fn_decl, .fn_decl,
=> blk: { => blk: {
var params: [1]ast.Node.Index = undefined; var params: [1]Ast.Node.Index = undefined;
break :blk Analysis.fnProto(tree, node, &params).?.name_token; break :blk Analysis.fnProto(tree, node, &params).?.name_token;
}, },
@ -278,7 +278,7 @@ pub fn getDeclNameToken(tree: Analysis.Tree, node: ast.Node.Index) ?ast.TokenInd
}; };
} }
fn getDeclName(tree: Analysis.Tree, node: ast.Node.Index) ?[]const u8 { fn getDeclName(tree: Analysis.Tree, node: Ast.Node.Index) ?[]const u8 {
const name = tree.tokenSlice(getDeclNameToken(tree, node) orelse return null); const name = tree.tokenSlice(getDeclNameToken(tree, node) orelse return null);
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.test_decl => name[1 .. name.len - 1], .test_decl => name[1 .. name.len - 1],
@ -369,7 +369,7 @@ pub fn resolveVarDeclAlias(store: *DocumentStore, arena: *std.heap.ArenaAllocato
return null; return null;
} }
fn isBlock(tree: Analysis.Tree, node: ast.Node.Index) bool { fn isBlock(tree: Analysis.Tree, node: Ast.Node.Index) bool {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.block, .block,
.block_semicolon, .block_semicolon,
@ -380,18 +380,18 @@ fn isBlock(tree: Analysis.Tree, node: ast.Node.Index) bool {
}; };
} }
fn findReturnStatementInternal(tree: Analysis.Tree, fn_decl: ast.full.FnProto, body: ast.Node.Index, already_found: *bool) ?ast.Node.Index { fn findReturnStatementInternal(tree: Analysis.Tree, 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; if (!isBlock(tree, body)) return null;
const statements: []const ast.Node.Index = switch (node_tags[body]) { const statements: []const Ast.Node.Index = switch (node_tags[body]) {
.block, .block_semicolon => tree.extra_data[datas[body].lhs..datas[body].rhs], .block, .block_semicolon => tree.extra_data[datas[body].lhs..datas[body].rhs],
.block_two, .block_two_semicolon => blk: { .block_two, .block_two_semicolon => blk: {
const statements = &[_]ast.Node.Index{ datas[body].lhs, datas[body].rhs }; const statements = &[_]Ast.Node.Index{ datas[body].lhs, datas[body].rhs };
const len: usize = if (datas[body].lhs == 0) const len: usize = if (datas[body].lhs == 0)
@as(usize, 0) @as(usize, 0)
else if (datas[body].rhs == 0) else if (datas[body].rhs == 0)
@ -429,12 +429,12 @@ fn findReturnStatementInternal(tree: Analysis.Tree, fn_decl: ast.full.FnProto, b
return result; return result;
} }
fn findReturnStatement(tree: Analysis.Tree, fn_decl: ast.full.FnProto, body: ast.Node.Index) ?ast.Node.Index { fn findReturnStatement(tree: Analysis.Tree, fn_decl: Ast.full.FnProto, body: Ast.Node.Index) ?Ast.Node.Index {
var already_found = false; var already_found = false;
return findReturnStatementInternal(tree, fn_decl, body, &already_found); return findReturnStatementInternal(tree, fn_decl, body, &already_found);
} }
pub fn resolveReturnType(store: *DocumentStore, arena: *std.heap.ArenaAllocator, fn_decl: ast.full.FnProto, handle: *DocumentStore.Handle, bound_type_params: *BoundTypeParams, fn_body: ?ast.Node.Index) !?TypeWithHandle { pub fn resolveReturnType(store: *DocumentStore, arena: *std.heap.ArenaAllocator, fn_decl: Ast.full.FnProto, handle: *DocumentStore.Handle, bound_type_params: *BoundTypeParams, fn_body: ?Ast.Node.Index) !?TypeWithHandle {
const tree = handle.tree; const tree = handle.tree;
if (isTypeFunction(tree, fn_decl) and fn_body != null) { if (isTypeFunction(tree, fn_decl) and fn_body != null) {
// If this is a type function and it only contains a single return statement that returns // If this is a type function and it only contains a single return statement that returns
@ -507,7 +507,7 @@ fn resolveUnwrapErrorType(store: *DocumentStore, arena: *std.heap.ArenaAllocator
return null; return null;
} }
pub fn isPtrType(tree: Analysis.Tree, node: ast.Node.Index) bool { pub fn isPtrType(tree: Analysis.Tree, node: Ast.Node.Index) bool {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.ptr_type, .ptr_type,
.ptr_type_aligned, .ptr_type_aligned,
@ -593,7 +593,7 @@ pub fn resolveFieldAccessLhsType(store: *DocumentStore, arena: *std.heap.ArenaAl
return (try resolveDerefType(store, arena, lhs, bound_type_params)) orelse lhs; return (try resolveDerefType(store, arena, lhs, bound_type_params)) orelse lhs;
} }
pub const BoundTypeParams = std.AutoHashMap(ast.full.FnProto.Param, TypeWithHandle); pub const BoundTypeParams = std.AutoHashMap(Ast.full.FnProto.Param, TypeWithHandle);
fn allDigits(str: []const u8) bool { fn allDigits(str: []const u8) bool {
for (str) |c| { for (str) |c| {
@ -602,7 +602,7 @@ fn allDigits(str: []const u8) bool {
return true; return true;
} }
pub fn isTypeIdent(tree: Analysis.Tree, token_idx: ast.TokenIndex) bool { pub fn isTypeIdent(tree: Analysis.Tree, token_idx: Ast.TokenIndex) bool {
const PrimitiveTypes = std.ComptimeStringMap(void, .{ const PrimitiveTypes = std.ComptimeStringMap(void, .{
.{"isize"}, .{"usize"}, .{"isize"}, .{"usize"},
.{"c_short"}, .{"c_ushort"}, .{"c_short"}, .{"c_ushort"},
@ -703,7 +703,7 @@ pub fn resolveTypeOfNodeInternal(store: *DocumentStore, arena: *std.heap.ArenaAl
.async_call_one, .async_call_one,
.async_call_one_comma, .async_call_one_comma,
=> { => {
var params: [1]ast.Node.Index = undefined; var params: [1]Ast.Node.Index = undefined;
const call = Analysis.callFull(tree, node, &params) orelse unreachable; const call = Analysis.callFull(tree, node, &params) orelse unreachable;
const callee = .{ .node = call.ast.fn_expr, .handle = handle }; const callee = .{ .node = call.ast.fn_expr, .handle = handle };
@ -715,7 +715,7 @@ pub fn resolveTypeOfNodeInternal(store: *DocumentStore, arena: *std.heap.ArenaAl
.other => |n| n, .other => |n| n,
else => return null, else => return null,
}; };
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const func_maybe = Analysis.fnProto(decl.handle.tree, decl_node, &buf); const func_maybe = Analysis.fnProto(decl.handle.tree, decl_node, &buf);
if (func_maybe) |fn_decl| { if (func_maybe) |fn_decl| {
@ -875,11 +875,11 @@ pub fn resolveTypeOfNodeInternal(store: *DocumentStore, arena: *std.heap.ArenaAl
const params = switch (node_tags[node]) { const params = switch (node_tags[node]) {
.builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs], .builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs],
.builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0) .builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0)
&[_]ast.Node.Index{} &[_]Ast.Node.Index{}
else if (data.rhs == 0) else if (data.rhs == 0)
&[_]ast.Node.Index{data.lhs} &[_]Ast.Node.Index{data.lhs}
else else
&[_]ast.Node.Index{ data.lhs, data.rhs }, &[_]Ast.Node.Index{ data.lhs, data.rhs },
else => unreachable, else => unreachable,
}; };
@ -945,7 +945,7 @@ pub fn resolveTypeOfNodeInternal(store: *DocumentStore, arena: *std.heap.ArenaAl
.fn_proto_simple, .fn_proto_simple,
.fn_decl, .fn_decl,
=> { => {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
// This is a function type // This is a function type
if (Analysis.fnProto(tree, node, &buf).?.name_token == null) { if (Analysis.fnProto(tree, node, &buf).?.name_token == null) {
return TypeWithHandle.typeVal(node_handle); return TypeWithHandle.typeVal(node_handle);
@ -971,10 +971,10 @@ pub fn resolveTypeOfNodeInternal(store: *DocumentStore, arena: *std.heap.ArenaAl
// TODO Make this better, nested levels of type vals // TODO Make this better, nested levels of type vals
pub const Type = struct { pub const Type = struct {
data: union(enum) { data: union(enum) {
pointer: ast.Node.Index, pointer: Ast.Node.Index,
slice: ast.Node.Index, slice: Ast.Node.Index,
error_union: ast.Node.Index, error_union: Ast.Node.Index,
other: ast.Node.Index, other: Ast.Node.Index,
primitive, primitive,
}, },
/// If true, the type `type`, the attached data is the value of the type value. /// If true, the type `type`, the attached data is the value of the type value.
@ -1031,7 +1031,7 @@ pub const TypeWithHandle = struct {
const node = self.type.data.other; const node = self.type.data.other;
const tags = tree.nodes.items(.tag); const tags = tree.nodes.items(.tag);
if (Analysis.isContainer(tree, node)) { if (Analysis.isContainer(tree, node)) {
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
for (Analysis.declMembers(tree, node, &buf)) |child| { for (Analysis.declMembers(tree, node, &buf)) |child| {
if (tags[child].isContainerField()) return false; if (tags[child].isContainerField()) return false;
} }
@ -1052,7 +1052,7 @@ pub const TypeWithHandle = struct {
} }
pub fn isTypeFunc(self: TypeWithHandle) bool { pub fn isTypeFunc(self: TypeWithHandle) bool {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const tree = self.handle.tree; const tree = self.handle.tree;
return switch (self.type.data) { return switch (self.type.data) {
.other => |n| if (Analysis.fnProto(tree, n, &buf)) |fn_proto| blk: { .other => |n| if (Analysis.fnProto(tree, n, &buf)) |fn_proto| blk: {
@ -1063,7 +1063,7 @@ pub const TypeWithHandle = struct {
} }
pub fn isGenericFunc(self: TypeWithHandle) bool { pub fn isGenericFunc(self: TypeWithHandle) bool {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const tree = self.handle.tree; const tree = self.handle.tree;
return switch (self.type.data) { return switch (self.type.data) {
.other => |n| if (Analysis.fnProto(tree, n, &buf)) |fn_proto| blk: { .other => |n| if (Analysis.fnProto(tree, n, &buf)) |fn_proto| blk: {
@ -1123,7 +1123,7 @@ pub fn collectImports(import_arr: *std.ArrayList([]const u8), tree: Analysis.Tre
} }
pub const NodeWithHandle = struct { pub const NodeWithHandle = struct {
node: ast.Node.Index, node: Ast.Node.Index,
handle: *DocumentStore.Handle, handle: *DocumentStore.Handle,
}; };
@ -1228,7 +1228,7 @@ pub fn getFieldAccessType(store: *DocumentStore, arena: *std.heap.ArenaAllocator
// Can't call a function type, we need a function type instance. // Can't call a function type, we need a function type instance.
if (current_type.type.is_type_val) return null; if (current_type.type.is_type_val) return null;
const cur_tree = current_type.handle.tree; const cur_tree = current_type.handle.tree;
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
if (Analysis.fnProto(cur_tree, current_type_node, &buf)) |func| { if (Analysis.fnProto(cur_tree, current_type_node, &buf)) |func| {
// Check if the function has a body and if so, pass it // Check if the function has a body and if so, pass it
// so the type can be resolved if it's a generic function returning // so the type can be resolved if it's a generic function returning
@ -1283,8 +1283,8 @@ pub fn getFieldAccessType(store: *DocumentStore, arena: *std.heap.ArenaAllocator
}; };
} }
pub fn isNodePublic(tree: Analysis.Tree, node: ast.Node.Index) bool { pub fn isNodePublic(tree: Analysis.Tree, node: Ast.Node.Index) bool {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.global_var_decl, .global_var_decl,
.local_var_decl, .local_var_decl,
@ -1301,10 +1301,10 @@ pub fn isNodePublic(tree: Analysis.Tree, node: ast.Node.Index) bool {
}; };
} }
pub fn nodeToString(tree: Analysis.Tree, node: ast.Node.Index) ?[]const u8 { pub fn nodeToString(tree: Analysis.Tree, node: Ast.Node.Index) ?[]const u8 {
const data = tree.nodes.items(.data); const data = tree.nodes.items(.data);
const main_token = tree.nodes.items(.main_token)[node]; const main_token = tree.nodes.items(.main_token)[node];
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
switch (tree.nodes.items(.tag)[node]) { switch (tree.nodes.items(.tag)[node]) {
.container_field => return tree.tokenSlice(tree.containerField(node).ast.name_token), .container_field => return tree.tokenSlice(tree.containerField(node).ast.name_token),
.container_field_init => return tree.tokenSlice(tree.containerFieldInit(node).ast.name_token), .container_field_init => return tree.tokenSlice(tree.containerFieldInit(node).ast.name_token),
@ -1337,15 +1337,15 @@ pub fn nodeToString(tree: Analysis.Tree, node: ast.Node.Index) ?[]const u8 {
return null; return null;
} }
fn nodeContainsSourceIndex(tree: Analysis.Tree, node: ast.Node.Index, source_index: usize) bool { fn nodeContainsSourceIndex(tree: Analysis.Tree, node: Ast.Node.Index, source_index: usize) bool {
const first_token = offsets.tokenLocation(tree, tree.firstToken(node)).start; const first_token = offsets.tokenLocation(tree, tree.firstToken(node)).start;
const last_token = offsets.tokenLocation(tree, Analysis.lastToken(tree, node)).end; const last_token = offsets.tokenLocation(tree, Analysis.lastToken(tree, node)).end;
return source_index >= first_token and source_index <= last_token; return source_index >= first_token and source_index <= last_token;
} }
pub fn getImportStr(tree: Analysis.Tree, node: ast.Node.Index, source_index: usize) ?[]const u8 { pub fn getImportStr(tree: Analysis.Tree, node: Ast.Node.Index, source_index: usize) ?[]const u8 {
const node_tags = tree.nodes.items(.tag); const node_tags = tree.nodes.items(.tag);
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
if (Analysis.isContainer(tree, node)) { if (Analysis.isContainer(tree, node)) {
const decls = Analysis.declMembers(tree, node, &buf); const decls = Analysis.declMembers(tree, node, &buf);
for (decls) |decl_idx| { for (decls) |decl_idx| {
@ -1373,11 +1373,11 @@ pub fn getImportStr(tree: Analysis.Tree, node: ast.Node.Index, source_index: usi
const params = switch (node_tags[node]) { const params = switch (node_tags[node]) {
.builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs], .builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs],
.builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0) .builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0)
&[_]ast.Node.Index{} &[_]Ast.Node.Index{}
else if (data.rhs == 0) else if (data.rhs == 0)
&[_]ast.Node.Index{data.lhs} &[_]Ast.Node.Index{data.lhs}
else else
&[_]ast.Node.Index{ data.lhs, data.rhs }, &[_]Ast.Node.Index{ data.lhs, data.rhs },
else => unreachable, else => unreachable,
}; };
@ -1578,7 +1578,7 @@ pub fn documentPositionContext(arena: *std.heap.ArenaAllocator, document: types.
}; };
} }
fn addOutlineNodes(allocator: *std.mem.Allocator, tree: Analysis.Tree, child: ast.Node.Index, context: *GetDocumentSymbolsContext) anyerror!void { fn addOutlineNodes(allocator: *std.mem.Allocator, tree: Analysis.Tree, child: Ast.Node.Index, context: *GetDocumentSymbolsContext) anyerror!void {
switch (tree.nodes.items(.tag)[child]) { switch (tree.nodes.items(.tag)[child]) {
.string_literal, .string_literal,
.integer_literal, .integer_literal,
@ -1709,7 +1709,7 @@ fn addOutlineNodes(allocator: *std.mem.Allocator, tree: Analysis.Tree, child: as
.tagged_union_two, .tagged_union_two,
.tagged_union_two_trailing, .tagged_union_two_trailing,
=> { => {
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
for (Analysis.declMembers(tree, child, &buf)) |member| for (Analysis.declMembers(tree, child, &buf)) |member|
try addOutlineNodes(allocator, tree, member, context); try addOutlineNodes(allocator, tree, member, context);
return; return;
@ -1729,7 +1729,7 @@ const GetDocumentSymbolsContext = struct {
encoding: offsets.Encoding, encoding: offsets.Encoding,
}; };
fn getDocumentSymbolsInternal(allocator: *std.mem.Allocator, tree: Analysis.Tree, node: ast.Node.Index, context: *GetDocumentSymbolsContext) anyerror!void { fn getDocumentSymbolsInternal(allocator: *std.mem.Allocator, tree: Analysis.Tree, node: Ast.Node.Index, context: *GetDocumentSymbolsContext) anyerror!void {
const name = getDeclName(tree, node) orelse return; const name = getDeclName(tree, node) orelse return;
if (name.len == 0) if (name.len == 0)
return; return;
@ -1799,7 +1799,7 @@ fn getDocumentSymbolsInternal(allocator: *std.mem.Allocator, tree: Analysis.Tree
}; };
if (Analysis.isContainer(tree, node)) { if (Analysis.isContainer(tree, node)) {
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
for (Analysis.declMembers(tree, node, &buf)) |child| for (Analysis.declMembers(tree, node, &buf)) |child|
try addOutlineNodes(allocator, tree, child, &child_context); try addOutlineNodes(allocator, tree, child, &child_context);
} }
@ -1830,31 +1830,31 @@ pub fn getDocumentSymbols(allocator: *std.mem.Allocator, tree: Analysis.Tree, en
pub const Declaration = union(enum) { pub const Declaration = union(enum) {
/// Index of the ast node /// Index of the ast node
ast_node: ast.Node.Index, ast_node: Ast.Node.Index,
/// Function parameter /// Function parameter
param_decl: ast.full.FnProto.Param, param_decl: Ast.full.FnProto.Param,
pointer_payload: struct { pointer_payload: struct {
name: ast.TokenIndex, name: Ast.TokenIndex,
condition: ast.Node.Index, condition: Ast.Node.Index,
}, },
array_payload: struct { array_payload: struct {
identifier: ast.TokenIndex, identifier: Ast.TokenIndex,
array_expr: ast.Node.Index, array_expr: Ast.Node.Index,
}, },
array_index: ast.TokenIndex, array_index: Ast.TokenIndex,
switch_payload: struct { switch_payload: struct {
node: ast.TokenIndex, node: Ast.TokenIndex,
switch_expr: ast.Node.Index, switch_expr: Ast.Node.Index,
items: []const ast.Node.Index, items: []const Ast.Node.Index,
}, },
label_decl: ast.TokenIndex, label_decl: Ast.TokenIndex,
}; };
pub const DeclWithHandle = struct { pub const DeclWithHandle = struct {
decl: *Declaration, decl: *Declaration,
handle: *DocumentStore.Handle, handle: *DocumentStore.Handle,
pub fn nameToken(self: DeclWithHandle) ast.TokenIndex { pub fn nameToken(self: DeclWithHandle) Ast.TokenIndex {
const tree = self.handle.tree; const tree = self.handle.tree;
return switch (self.decl.*) { return switch (self.decl.*) {
.ast_node => |n| getDeclNameToken(tree, n).?, .ast_node => |n| getDeclNameToken(tree, n).?,
@ -1988,7 +1988,7 @@ fn findContainerScope(container_handle: NodeWithHandle) ?*Scope {
} else null; } else null;
} }
fn iterateSymbolsContainerInternal(store: *DocumentStore, arena: *std.heap.ArenaAllocator, container_handle: NodeWithHandle, orig_handle: *DocumentStore.Handle, comptime callback: anytype, context: anytype, instance_access: bool, use_trail: *std.ArrayList(*const ast.Node.Index)) error{OutOfMemory}!void { fn iterateSymbolsContainerInternal(store: *DocumentStore, arena: *std.heap.ArenaAllocator, container_handle: NodeWithHandle, orig_handle: *DocumentStore.Handle, comptime callback: anytype, context: anytype, instance_access: bool, use_trail: *std.ArrayList(*const Ast.Node.Index)) error{OutOfMemory}!void {
const container = container_handle.node; const container = container_handle.node;
const handle = container_handle.handle; const handle = container_handle.handle;
@ -2029,7 +2029,7 @@ fn iterateSymbolsContainerInternal(store: *DocumentStore, arena: *std.heap.Arena
const use_token = tree.nodes.items(.main_token)[use.*]; const use_token = tree.nodes.items(.main_token)[use.*];
const is_pub = use_token > 0 and token_tags[use_token - 1] == .keyword_pub; const is_pub = use_token > 0 and token_tags[use_token - 1] == .keyword_pub;
if (handle != orig_handle and !is_pub) continue; if (handle != orig_handle and !is_pub) continue;
if (std.mem.indexOfScalar(*const ast.Node.Index, use_trail.items, use) != null) continue; if (std.mem.indexOfScalar(*const Ast.Node.Index, use_trail.items, use) != null) continue;
try use_trail.append(use); try use_trail.append(use);
const lhs = tree.nodes.items(.data)[use.*].lhs; const lhs = tree.nodes.items(.data)[use.*].lhs;
@ -2056,7 +2056,7 @@ fn iterateSymbolsContainerInternal(store: *DocumentStore, arena: *std.heap.Arena
} }
pub fn iterateSymbolsContainer(store: *DocumentStore, arena: *std.heap.ArenaAllocator, container_handle: NodeWithHandle, orig_handle: *DocumentStore.Handle, comptime callback: anytype, context: anytype, instance_access: bool) error{OutOfMemory}!void { pub fn iterateSymbolsContainer(store: *DocumentStore, arena: *std.heap.ArenaAllocator, container_handle: NodeWithHandle, orig_handle: *DocumentStore.Handle, comptime callback: anytype, context: anytype, instance_access: bool) error{OutOfMemory}!void {
var use_trail = std.ArrayList(*const ast.Node.Index).init(&arena.allocator); var use_trail = std.ArrayList(*const Ast.Node.Index).init(&arena.allocator);
return try iterateSymbolsContainerInternal(store, arena, container_handle, orig_handle, callback, context, instance_access, &use_trail); return try iterateSymbolsContainerInternal(store, arena, container_handle, orig_handle, callback, context, instance_access, &use_trail);
} }
@ -2076,7 +2076,7 @@ pub fn iterateLabels(handle: *DocumentStore.Handle, source_index: usize, comptim
} }
} }
fn iterateSymbolsGlobalInternal(store: *DocumentStore, arena: *std.heap.ArenaAllocator, handle: *DocumentStore.Handle, source_index: usize, comptime callback: anytype, context: anytype, use_trail: *std.ArrayList(*const ast.Node.Index)) error{OutOfMemory}!void { fn iterateSymbolsGlobalInternal(store: *DocumentStore, arena: *std.heap.ArenaAllocator, handle: *DocumentStore.Handle, source_index: usize, comptime callback: anytype, context: anytype, use_trail: *std.ArrayList(*const Ast.Node.Index)) error{OutOfMemory}!void {
for (handle.document_scope.scopes) |scope| { for (handle.document_scope.scopes) |scope| {
if (source_index >= scope.range.start and source_index <= scope.range.end) { if (source_index >= scope.range.start and source_index <= scope.range.end) {
var decl_it = scope.decls.iterator(); var decl_it = scope.decls.iterator();
@ -2088,7 +2088,7 @@ fn iterateSymbolsGlobalInternal(store: *DocumentStore, arena: *std.heap.ArenaAll
} }
for (scope.uses) |use| { for (scope.uses) |use| {
if (std.mem.indexOfScalar(*const ast.Node.Index, use_trail.items, use) != null) continue; if (std.mem.indexOfScalar(*const Ast.Node.Index, use_trail.items, use) != null) continue;
try use_trail.append(use); try use_trail.append(use);
const use_expr = (try resolveTypeOfNode( const use_expr = (try resolveTypeOfNode(
@ -2118,7 +2118,7 @@ fn iterateSymbolsGlobalInternal(store: *DocumentStore, arena: *std.heap.ArenaAll
} }
pub fn iterateSymbolsGlobal(store: *DocumentStore, arena: *std.heap.ArenaAllocator, handle: *DocumentStore.Handle, source_index: usize, comptime callback: anytype, context: anytype) error{OutOfMemory}!void { pub fn iterateSymbolsGlobal(store: *DocumentStore, arena: *std.heap.ArenaAllocator, handle: *DocumentStore.Handle, source_index: usize, comptime callback: anytype, context: anytype) error{OutOfMemory}!void {
var use_trail = std.ArrayList(*const ast.Node.Index).init(&arena.allocator); var use_trail = std.ArrayList(*const Ast.Node.Index).init(&arena.allocator);
return try iterateSymbolsGlobalInternal(store, arena, handle, source_index, callback, context, &use_trail); return try iterateSymbolsGlobalInternal(store, arena, handle, source_index, callback, context, &use_trail);
} }
@ -2138,7 +2138,7 @@ pub fn innermostBlockScopeIndex(handle: DocumentStore.Handle, source_index: usiz
return current; return current;
} }
pub fn innermostBlockScope(handle: DocumentStore.Handle, source_index: usize) ast.Node.Index { pub fn innermostBlockScope(handle: DocumentStore.Handle, source_index: usize) Ast.Node.Index {
return handle.document_scope.scopes[innermostBlockScopeIndex(handle, source_index)].toNodeIndex().?; return handle.document_scope.scopes[innermostBlockScopeIndex(handle, source_index)].toNodeIndex().?;
} }
@ -2158,7 +2158,7 @@ pub fn innermostContainer(handle: *DocumentStore.Handle, source_index: usize) Ty
return TypeWithHandle.typeVal(.{ .node = current, .handle = handle }); return TypeWithHandle.typeVal(.{ .node = current, .handle = handle });
} }
fn resolveUse(store: *DocumentStore, arena: *std.heap.ArenaAllocator, uses: []const *const ast.Node.Index, symbol: []const u8, handle: *DocumentStore.Handle) error{OutOfMemory}!?DeclWithHandle { fn resolveUse(store: *DocumentStore, arena: *std.heap.ArenaAllocator, uses: []const *const Ast.Node.Index, symbol: []const u8, handle: *DocumentStore.Handle) error{OutOfMemory}!?DeclWithHandle {
// If we were asked to resolve this symbol before, // If we were asked to resolve this symbol before,
// it is self-referential and we cannot resolve it. // it is self-referential and we cannot resolve it.
if (std.mem.indexOfScalar([*]const u8, using_trail.items, symbol.ptr) != null) if (std.mem.indexOfScalar([*]const u8, using_trail.items, symbol.ptr) != null)
@ -2349,20 +2349,20 @@ pub const DocumentScope = struct {
pub const Scope = struct { pub const Scope = struct {
pub const Data = union(enum) { pub const Data = union(enum) {
container: ast.Node.Index, // .tag is ContainerDecl or Root or ErrorSetDecl container: Ast.Node.Index, // .tag is ContainerDecl or Root or ErrorSetDecl
function: ast.Node.Index, // .tag is FnProto function: Ast.Node.Index, // .tag is FnProto
block: ast.Node.Index, // .tag is Block block: Ast.Node.Index, // .tag is Block
other, other,
}; };
range: SourceRange, range: SourceRange,
decls: std.StringHashMap(Declaration), decls: std.StringHashMap(Declaration),
tests: []const ast.Node.Index = &.{}, tests: []const Ast.Node.Index = &.{},
uses: []const *const ast.Node.Index = &.{}, uses: []const *const Ast.Node.Index = &.{},
data: Data, data: Data,
pub fn toNodeIndex(self: Scope) ?ast.Node.Index { pub fn toNodeIndex(self: Scope) ?Ast.Node.Index {
return switch (self.data) { return switch (self.data) {
.container, .function, .block => |idx| idx, .container, .function, .block => |idx| idx,
else => null, else => null,
@ -2401,7 +2401,7 @@ pub fn makeDocumentScope(allocator: *std.mem.Allocator, tree: Analysis.Tree) !Do
}; };
} }
fn nodeSourceRange(tree: Analysis.Tree, node: ast.Node.Index) SourceRange { fn nodeSourceRange(tree: Analysis.Tree, node: Ast.Node.Index) SourceRange {
const loc_start = offsets.tokenLocation(tree, tree.firstToken(node)); const loc_start = offsets.tokenLocation(tree, tree.firstToken(node));
const loc_end = offsets.tokenLocation(tree, Analysis.lastToken(tree, node)); const loc_end = offsets.tokenLocation(tree, Analysis.lastToken(tree, node));
@ -2418,7 +2418,7 @@ const ScopeContext = struct {
tree: Analysis.Tree, tree: Analysis.Tree,
}; };
fn makeInnerScope(allocator: *std.mem.Allocator, context: ScopeContext, node_idx: ast.Node.Index) error{OutOfMemory}!void { fn makeInnerScope(allocator: *std.mem.Allocator, context: ScopeContext, node_idx: Ast.Node.Index) error{OutOfMemory}!void {
const scopes = context.scopes; const scopes = context.scopes;
const tree = context.tree; const tree = context.tree;
const tags = tree.nodes.items(.tag); const tags = tree.nodes.items(.tag);
@ -2427,7 +2427,7 @@ fn makeInnerScope(allocator: *std.mem.Allocator, context: ScopeContext, node_idx
const main_tokens = tree.nodes.items(.main_token); const main_tokens = tree.nodes.items(.main_token);
const node_tag = tags[node_idx]; const node_tag = tags[node_idx];
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
const ast_decls = Analysis.declMembers(tree, node_idx, &buf); const ast_decls = Analysis.declMembers(tree, node_idx, &buf);
(try scopes.addOne(allocator)).* = .{ (try scopes.addOne(allocator)).* = .{
@ -2436,8 +2436,8 @@ fn makeInnerScope(allocator: *std.mem.Allocator, context: ScopeContext, node_idx
.data = .{ .container = node_idx }, .data = .{ .container = node_idx },
}; };
const scope_idx = scopes.items.len - 1; const scope_idx = scopes.items.len - 1;
var uses = std.ArrayListUnmanaged(*const ast.Node.Index){}; var uses = std.ArrayListUnmanaged(*const Ast.Node.Index){};
var tests = std.ArrayListUnmanaged(ast.Node.Index){}; var tests = std.ArrayListUnmanaged(Ast.Node.Index){};
errdefer { errdefer {
scopes.items[scope_idx].decls.deinit(); scopes.items[scope_idx].decls.deinit();
@ -2464,13 +2464,13 @@ fn makeInnerScope(allocator: *std.mem.Allocator, context: ScopeContext, node_idx
.container_decl, .container_decl_trailing => tree.containerDecl(node_idx), .container_decl, .container_decl_trailing => tree.containerDecl(node_idx),
.container_decl_arg, .container_decl_arg_trailing => tree.containerDeclArg(node_idx), .container_decl_arg, .container_decl_arg_trailing => tree.containerDeclArg(node_idx),
.container_decl_two, .container_decl_two_trailing => blk: { .container_decl_two, .container_decl_two_trailing => blk: {
var buffer: [2]ast.Node.Index = undefined; var buffer: [2]Ast.Node.Index = undefined;
break :blk tree.containerDeclTwo(&buffer, node_idx); break :blk tree.containerDeclTwo(&buffer, node_idx);
}, },
.tagged_union, .tagged_union_trailing => tree.taggedUnion(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_enum_tag, .tagged_union_enum_tag_trailing => tree.taggedUnionEnumTag(node_idx),
.tagged_union_two, .tagged_union_two_trailing => blk: { .tagged_union_two, .tagged_union_two_trailing => blk: {
var buffer: [2]ast.Node.Index = undefined; var buffer: [2]Ast.Node.Index = undefined;
break :blk tree.taggedUnionTwo(&buffer, node_idx); break :blk tree.taggedUnionTwo(&buffer, node_idx);
}, },
else => null, else => null,
@ -2534,7 +2534,7 @@ fn makeInnerScope(allocator: *std.mem.Allocator, context: ScopeContext, node_idx
// Whether we have already visited the root node. // Whether we have already visited the root node.
var had_root = true; var had_root = true;
fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_idx: ast.Node.Index) error{OutOfMemory}!void { fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_idx: Ast.Node.Index) error{OutOfMemory}!void {
const scopes = context.scopes; const scopes = context.scopes;
const tree = context.tree; const tree = context.tree;
const tags = tree.nodes.items(.tag); const tags = tree.nodes.items(.tag);
@ -2578,7 +2578,7 @@ fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_
.fn_proto_multi, .fn_proto_multi,
.fn_decl, .fn_decl,
=> |fn_tag| { => |fn_tag| {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const func = Analysis.fnProto(tree, node_idx, &buf).?; const func = Analysis.fnProto(tree, node_idx, &buf).?;
(try scopes.addOne(allocator)).* = .{ (try scopes.addOne(allocator)).* = .{
@ -2649,17 +2649,17 @@ fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_
.data = .{ .block = node_idx }, .data = .{ .block = node_idx },
}; };
var scope_idx = scopes.items.len - 1; var scope_idx = scopes.items.len - 1;
var uses = std.ArrayList(*const ast.Node.Index).init(allocator); var uses = std.ArrayList(*const Ast.Node.Index).init(allocator);
errdefer { errdefer {
scopes.items[scope_idx].decls.deinit(); scopes.items[scope_idx].decls.deinit();
uses.deinit(); uses.deinit();
} }
const statements: []const ast.Node.Index = switch (node_tag) { const statements: []const Ast.Node.Index = switch (node_tag) {
.block, .block_semicolon => tree.extra_data[data[node_idx].lhs..data[node_idx].rhs], .block, .block_semicolon => tree.extra_data[data[node_idx].lhs..data[node_idx].rhs],
.block_two, .block_two_semicolon => blk: { .block_two, .block_two_semicolon => blk: {
const statements = &[_]ast.Node.Index{ data[node_idx].lhs, data[node_idx].rhs }; const statements = &[_]Ast.Node.Index{ data[node_idx].lhs, data[node_idx].rhs };
const len: usize = if (data[node_idx].lhs == 0) const len: usize = if (data[node_idx].lhs == 0)
@as(usize, 0) @as(usize, 0)
else if (data[node_idx].rhs == 0) else if (data[node_idx].rhs == 0)
@ -2860,11 +2860,11 @@ fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_
.switch_comma, .switch_comma,
=> { => {
const cond = data[node_idx].lhs; const cond = data[node_idx].lhs;
const extra = tree.extraData(data[node_idx].rhs, ast.Node.SubRange); const extra = tree.extraData(data[node_idx].rhs, Ast.Node.SubRange);
const cases = tree.extra_data[extra.start..extra.end]; const cases = tree.extra_data[extra.start..extra.end];
for (cases) |case| { for (cases) |case| {
const switch_case: ast.full.SwitchCase = switch (tags[case]) { const switch_case: Ast.full.SwitchCase = switch (tags[case]) {
.switch_case => tree.switchCase(case), .switch_case => tree.switchCase(case),
.switch_case_one => tree.switchCaseOne(case), .switch_case_one => tree.switchCaseOne(case),
else => continue, else => continue,
@ -2927,7 +2927,7 @@ fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_
.async_call_one, .async_call_one,
.async_call_one_comma, .async_call_one_comma,
=> { => {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const call = Analysis.callFull(tree, node_idx, &buf).?; const call = Analysis.callFull(tree, node_idx, &buf).?;
try makeScopeInternal(allocator, context, call.ast.fn_expr); try makeScopeInternal(allocator, context, call.ast.fn_expr);
@ -2943,8 +2943,8 @@ fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_
.struct_init_one, .struct_init_one,
.struct_init_one_comma, .struct_init_one_comma,
=> { => {
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
const struct_init: ast.full.StructInit = switch (node_tag) { const struct_init: Ast.full.StructInit = switch (node_tag) {
.struct_init, .struct_init_comma => tree.structInit(node_idx), .struct_init, .struct_init_comma => tree.structInit(node_idx),
.struct_init_dot, .struct_init_dot_comma => tree.structInitDot(node_idx), .struct_init_dot, .struct_init_dot_comma => tree.structInitDot(node_idx),
.struct_init_dot_two, .struct_init_dot_two_comma => tree.structInitDotTwo(&buf, node_idx), .struct_init_dot_two, .struct_init_dot_two_comma => tree.structInitDotTwo(&buf, node_idx),
@ -2968,8 +2968,8 @@ fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_
.array_init_one, .array_init_one,
.array_init_one_comma, .array_init_one_comma,
=> { => {
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
const array_init: ast.full.ArrayInit = switch (node_tag) { const array_init: Ast.full.ArrayInit = switch (node_tag) {
.array_init, .array_init_comma => tree.arrayInit(node_idx), .array_init, .array_init_comma => tree.arrayInit(node_idx),
.array_init_dot, .array_init_dot_comma => tree.arrayInitDot(node_idx), .array_init_dot, .array_init_dot_comma => tree.arrayInitDot(node_idx),
.array_init_dot_two, .array_init_dot_two_comma => tree.arrayInitDotTwo(&buf, node_idx), .array_init_dot_two, .array_init_dot_two_comma => tree.arrayInitDotTwo(&buf, node_idx),
@ -3002,11 +3002,11 @@ fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_
const params = switch (node_tag) { const params = switch (node_tag) {
.builtin_call, .builtin_call_comma => tree.extra_data[b_data.lhs..b_data.rhs], .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) .builtin_call_two, .builtin_call_two_comma => if (b_data.lhs == 0)
&[_]ast.Node.Index{} &[_]Ast.Node.Index{}
else if (b_data.rhs == 0) else if (b_data.rhs == 0)
&[_]ast.Node.Index{b_data.lhs} &[_]Ast.Node.Index{b_data.lhs}
else else
&[_]ast.Node.Index{ b_data.lhs, b_data.rhs }, &[_]Ast.Node.Index{ b_data.lhs, b_data.rhs },
else => unreachable, else => unreachable,
}; };
@ -3019,7 +3019,7 @@ fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_
.ptr_type_bit_range, .ptr_type_bit_range,
.ptr_type_sentinel, .ptr_type_sentinel,
=> { => {
const ptr_type: ast.full.PtrType = Analysis.ptrType(tree, node_idx).?; const ptr_type: Ast.full.PtrType = Analysis.ptrType(tree, node_idx).?;
try makeScopeInternal(allocator, context, ptr_type.ast.sentinel); try makeScopeInternal(allocator, context, ptr_type.ast.sentinel);
try makeScopeInternal(allocator, context, ptr_type.ast.align_node); try makeScopeInternal(allocator, context, ptr_type.ast.align_node);
@ -3029,7 +3029,7 @@ fn makeScopeInternal(allocator: *std.mem.Allocator, context: ScopeContext, node_
.slice_open, .slice_open,
.slice_sentinel, .slice_sentinel,
=> { => {
const slice: ast.full.Slice = switch (node_tag) { const slice: Ast.full.Slice = switch (node_tag) {
.slice => tree.slice(node_idx), .slice => tree.slice(node_idx),
.slice_open => tree.sliceOpen(node_idx), .slice_open => tree.sliceOpen(node_idx),
.slice_sentinel => tree.sliceSentinel(node_idx), .slice_sentinel => tree.sliceSentinel(node_idx),

View File

@ -3,10 +3,10 @@
//! when there are parser errors. //! when there are parser errors.
const std = @import("std"); const std = @import("std");
const ast = std.zig.Ast; const Ast = std.zig.Ast;
pub const Tree = ast; pub const Tree = Ast;
const Node = ast.Node; const Node = Ast.Node;
const full = ast.full; const full = Ast.full;
const assert = std.debug.assert; const assert = std.debug.assert;
fn fullPtrType(tree: Tree, info: full.PtrType.Components) full.PtrType { fn fullPtrType(tree: Tree, info: full.PtrType.Components) full.PtrType {
@ -255,8 +255,8 @@ pub fn forFull(tree: Tree, node: Node.Index) full.While {
}); });
} }
pub fn lastToken(tree: Tree, node: ast.Node.Index) ast.TokenIndex { pub fn lastToken(tree: Tree, node: Ast.Node.Index) Ast.TokenIndex {
const TokenIndex = ast.TokenIndex; const TokenIndex = Ast.TokenIndex;
const tags = tree.nodes.items(.tag); const tags = tree.nodes.items(.tag);
const datas = tree.nodes.items(.data); const datas = tree.nodes.items(.data);
const main_tokens = tree.nodes.items(.main_token); const main_tokens = tree.nodes.items(.main_token);
@ -875,7 +875,7 @@ pub fn lastToken(tree: Tree, node: ast.Node.Index) ast.TokenIndex {
}; };
} }
pub fn containerField(tree: Tree, node: ast.Node.Index) ?ast.full.ContainerField { pub fn containerField(tree: Tree, node: Ast.Node.Index) ?Ast.full.ContainerField {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.container_field => tree.containerField(node), .container_field => tree.containerField(node),
.container_field_init => tree.containerFieldInit(node), .container_field_init => tree.containerFieldInit(node),
@ -884,7 +884,7 @@ pub fn containerField(tree: Tree, node: ast.Node.Index) ?ast.full.ContainerField
}; };
} }
pub fn ptrType(tree: Tree, node: ast.Node.Index) ?ast.full.PtrType { pub fn ptrType(tree: Tree, node: Ast.Node.Index) ?Ast.full.PtrType {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.ptr_type => ptrTypeSimple(tree, node), .ptr_type => ptrTypeSimple(tree, node),
.ptr_type_aligned => ptrTypeAligned(tree, node), .ptr_type_aligned => ptrTypeAligned(tree, node),
@ -894,7 +894,7 @@ pub fn ptrType(tree: Tree, node: ast.Node.Index) ?ast.full.PtrType {
}; };
} }
pub fn whileAst(tree: Tree, node: ast.Node.Index) ?ast.full.While { pub fn whileAst(tree: Tree, node: Ast.Node.Index) ?Ast.full.While {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.@"while" => whileFull(tree, node), .@"while" => whileFull(tree, node),
.while_simple => whileSimple(tree, node), .while_simple => whileSimple(tree, node),
@ -905,7 +905,7 @@ pub fn whileAst(tree: Tree, node: ast.Node.Index) ?ast.full.While {
}; };
} }
pub fn isContainer(tree: Tree, node: ast.Node.Index) bool { pub fn isContainer(tree: Tree, node: Ast.Node.Index) bool {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.container_decl, .container_decl,
.container_decl_trailing, .container_decl_trailing,
@ -928,7 +928,7 @@ pub fn isContainer(tree: Tree, node: ast.Node.Index) bool {
/// 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: Tree, node_idx: ast.Node.Index, buffer: *[2]ast.Node.Index) []const ast.Node.Index { pub fn declMembers(tree: Tree, node_idx: Ast.Node.Index, buffer: *[2]Ast.Node.Index) []const Ast.Node.Index {
std.debug.assert(isContainer(tree, node_idx)); std.debug.assert(isContainer(tree, node_idx));
return switch (tree.nodes.items(.tag)[node_idx]) { return switch (tree.nodes.items(.tag)[node_idx]) {
.container_decl, .container_decl_trailing => tree.containerDecl(node_idx).ast.members, .container_decl, .container_decl_trailing => tree.containerDecl(node_idx).ast.members,
@ -938,14 +938,14 @@ pub fn declMembers(tree: Tree, node_idx: ast.Node.Index, buffer: *[2]ast.Node.In
.tagged_union_enum_tag, .tagged_union_enum_tag_trailing => tree.taggedUnionEnumTag(node_idx).ast.members, .tagged_union_enum_tag, .tagged_union_enum_tag_trailing => tree.taggedUnionEnumTag(node_idx).ast.members,
.tagged_union_two, .tagged_union_two_trailing => tree.taggedUnionTwo(buffer, node_idx).ast.members, .tagged_union_two, .tagged_union_two_trailing => tree.taggedUnionTwo(buffer, node_idx).ast.members,
.root => tree.rootDecls(), .root => tree.rootDecls(),
.error_set_decl => &[_]ast.Node.Index{}, .error_set_decl => &[_]Ast.Node.Index{},
else => unreachable, else => unreachable,
}; };
} }
/// Returns an `ast.full.VarDecl` for a given node index. /// Returns an `ast.full.VarDecl` for a given node index.
/// Returns null if the tag doesn't match /// Returns null if the tag doesn't match
pub fn varDecl(tree: Tree, node_idx: ast.Node.Index) ?ast.full.VarDecl { pub fn varDecl(tree: Tree, node_idx: Ast.Node.Index) ?Ast.full.VarDecl {
return switch (tree.nodes.items(.tag)[node_idx]) { return switch (tree.nodes.items(.tag)[node_idx]) {
.global_var_decl => tree.globalVarDecl(node_idx), .global_var_decl => tree.globalVarDecl(node_idx),
.local_var_decl => tree.localVarDecl(node_idx), .local_var_decl => tree.localVarDecl(node_idx),
@ -955,7 +955,7 @@ pub fn varDecl(tree: Tree, node_idx: ast.Node.Index) ?ast.full.VarDecl {
}; };
} }
pub fn isBuiltinCall(tree: Tree, node: ast.Node.Index) bool { pub fn isBuiltinCall(tree: Tree, node: Ast.Node.Index) bool {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.builtin_call, .builtin_call,
.builtin_call_comma, .builtin_call_comma,
@ -966,7 +966,7 @@ pub fn isBuiltinCall(tree: Tree, node: ast.Node.Index) bool {
}; };
} }
pub fn isCall(tree: Tree, node: ast.Node.Index) bool { pub fn isCall(tree: Tree, node: Ast.Node.Index) bool {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.call, .call,
.call_comma, .call_comma,
@ -981,7 +981,7 @@ pub fn isCall(tree: Tree, node: ast.Node.Index) bool {
}; };
} }
pub fn fnProto(tree: Tree, node: ast.Node.Index, buf: *[1]ast.Node.Index) ?ast.full.FnProto { pub fn fnProto(tree: Tree, 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),
.fn_proto_multi => tree.fnProtoMulti(node), .fn_proto_multi => tree.fnProtoMulti(node),
@ -992,7 +992,7 @@ pub fn fnProto(tree: Tree, node: ast.Node.Index, buf: *[1]ast.Node.Index) ?ast.f
}; };
} }
pub fn callFull(tree: Tree, node: ast.Node.Index, buf: *[1]ast.Node.Index) ?ast.full.Call { pub fn callFull(tree: Tree, node: Ast.Node.Index, buf: *[1]Ast.Node.Index) ?Ast.full.Call {
return switch (tree.nodes.items(.tag)[node]) { return switch (tree.nodes.items(.tag)[node]) {
.call, .call,
.call_comma, .call_comma,

View File

@ -13,7 +13,7 @@ const rename = @import("./rename.zig");
const offsets = @import("./offsets.zig"); const offsets = @import("./offsets.zig");
const setup = @import("./setup.zig"); const setup = @import("./setup.zig");
const semantic_tokens = @import("./semantic_tokens.zig"); const semantic_tokens = @import("./semantic_tokens.zig");
const ast = std.zig.Ast; const Ast = std.zig.Ast;
const known_folders = @import("known-folders"); const known_folders = @import("known-folders");
const data = blk: { const data = blk: {
if (std.mem.eql(u8, build_options.data_version, "0.7.0")) break :blk @import("data/0.7.0.zig"); if (std.mem.eql(u8, build_options.data_version, "0.7.0")) break :blk @import("data/0.7.0.zig");
@ -203,7 +203,7 @@ fn showMessage(message_type: types.MessageType, message: []const u8) !void {
} }
// TODO: Is this correct or can we get a better end? // TODO: Is this correct or can we get a better end?
fn astLocationToRange(loc: ast.Location) types.Range { fn astLocationToRange(loc: Ast.Location) types.Range {
return .{ return .{
.start = .{ .start = .{
.line = @intCast(i64, loc.line), .line = @intCast(i64, loc.line),
@ -249,7 +249,7 @@ fn publishDiagnostics(arena: *std.heap.ArenaAllocator, handle: DocumentStore.Han
.fn_proto_simple, .fn_proto_simple,
.fn_decl, .fn_decl,
=> blk: { => blk: {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const func = analysis.fnProto(tree, decl_idx, &buf).?; const func = analysis.fnProto(tree, decl_idx, &buf).?;
if (func.extern_export_inline_token != null) break :blk; if (func.extern_export_inline_token != null) break :blk;
@ -403,7 +403,7 @@ fn nodeToCompletion(arena: *std.heap.ArenaAllocator, list: *std.ArrayList(types.
.fn_proto_simple, .fn_proto_simple,
.fn_decl, .fn_decl,
=> { => {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const func = analysis.fnProto(tree, node, &buf).?; const func = analysis.fnProto(tree, node, &buf).?;
if (func.name_token) |name_token| { if (func.name_token) |name_token| {
const use_snippets = config.enable_snippets and client_capabilities.supports_snippets; const use_snippets = config.enable_snippets and client_capabilities.supports_snippets;
@ -622,7 +622,7 @@ fn hoverSymbol(id: types.RequestId, arena: *std.heap.ArenaAllocator, decl_handle
} }
doc_str = try analysis.getDocComments(&arena.allocator, tree, node, hover_kind); doc_str = try analysis.getDocComments(&arena.allocator, tree, node, hover_kind);
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
if (analysis.varDecl(tree, node)) |var_decl| { if (analysis.varDecl(tree, node)) |var_decl| {
break :def analysis.getVariableSignature(tree, var_decl); break :def analysis.getVariableSignature(tree, var_decl);
@ -891,7 +891,7 @@ fn referencesDefinitionLabel(arena: *std.heap.ArenaAllocator, id: types.RequestI
}); });
} }
fn hasComment(tree: ast.Tree, start_token: ast.TokenIndex, end_token: ast.TokenIndex) bool { fn hasComment(tree: Ast.Tree, start_token: Ast.TokenIndex, end_token: Ast.TokenIndex) bool {
const token_starts = tree.tokens.items(.start); const token_starts = tree.tokens.items(.start);
const start = token_starts[start_token]; const start = token_starts[start_token];

View File

@ -1,7 +1,7 @@
const std = @import("std"); const std = @import("std");
const types = @import("./types.zig"); const types = @import("./types.zig");
const ast = std.zig.Ast; const Ast = std.zig.Ast;
const Tree = ast; const Tree = Ast;
pub const Encoding = enum { pub const Encoding = enum {
utf8, utf8,
@ -140,7 +140,7 @@ pub fn tokenRelativeLocation(tree: Tree, start_index: usize, token_start: usize,
} }
/// Asserts the token is comprised of valid utf8 /// Asserts the token is comprised of valid utf8
pub fn tokenLength(tree: Tree, token: ast.TokenIndex, encoding: Encoding) usize { pub fn tokenLength(tree: Tree, token: Ast.TokenIndex, encoding: Encoding) usize {
const token_loc = tokenLocation(tree, token); const token_loc = tokenLocation(tree, token);
if (encoding == .utf8) if (encoding == .utf8)
return token_loc.end - token_loc.start; return token_loc.end - token_loc.start;
@ -166,7 +166,7 @@ pub const Loc = struct {
end: usize, end: usize,
}; };
pub fn tokenLocation(tree: Tree, token_index: ast.TokenIndex) Loc { pub fn tokenLocation(tree: Tree, token_index: Ast.TokenIndex) Loc {
const start = tree.tokens.items(.start)[token_index]; const start = tree.tokens.items(.start)[token_index];
const tag = tree.tokens.items(.tag)[token_index]; const tag = tree.tokens.items(.tag)[token_index];

View File

@ -7,9 +7,9 @@ const log = std.log.scoped(.references);
const Reference = @This(); const Reference = @This();
usingnamespace @import("./ast.zig"); usingnamespace @import("./ast.zig");
const ast = std.zig.Ast; const Ast = std.zig.Ast;
fn tokenReference(handle: *DocumentStore.Handle, tok: ast.TokenIndex, encoding: offsets.Encoding, context: anytype, comptime handler: anytype) !void { fn tokenReference(handle: *DocumentStore.Handle, tok: Ast.TokenIndex, encoding: offsets.Encoding, context: anytype, comptime handler: anytype) !void {
const loc = offsets.tokenRelativeLocation(handle.tree, 0, handle.tree.tokens.items(.start)[tok], encoding) catch return; const loc = offsets.tokenRelativeLocation(handle.tree, 0, handle.tree.tokens.items(.start)[tok], encoding) catch return;
try handler(context, types.Location{ try handler(context, types.Location{
.uri = handle.uri(), .uri = handle.uri(),
@ -69,10 +69,10 @@ 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]) { const statements: []const Ast.Node.Index = switch (node_tags[node]) {
.block, .block_semicolon => tree.extra_data[datas[node].lhs..datas[node].rhs], .block, .block_semicolon => tree.extra_data[datas[node].lhs..datas[node].rhs],
.block_two, .block_two_semicolon => blk: { .block_two, .block_two_semicolon => blk: {
const statements = &[_]ast.Node.Index{ datas[node].lhs, datas[node].rhs }; const statements = &[_]Ast.Node.Index{ datas[node].lhs, datas[node].rhs };
const len: usize = if (datas[node].lhs == 0) const len: usize = if (datas[node].lhs == 0)
@as(usize, 0) @as(usize, 0)
else if (datas[node].rhs == 0) else if (datas[node].rhs == 0)
@ -101,7 +101,7 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
.root, .root,
.error_set_decl, .error_set_decl,
=> { => {
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
for (Reference.declMembers(tree, node, &buf)) |member| for (Reference.declMembers(tree, node, &buf)) |member|
try symbolReferencesInternal(arena, store, .{ .node = member, .handle = handle }, decl, encoding, context, handler); try symbolReferencesInternal(arena, store, .{ .node = member, .handle = handle }, decl, encoding, context, handler);
}, },
@ -146,7 +146,7 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
.fn_proto_simple, .fn_proto_simple,
.fn_decl, .fn_decl,
=> { => {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const fn_proto = Reference.fnProto(tree, node, &buf).?; const fn_proto = Reference.fnProto(tree, node, &buf).?;
var it = fn_proto.iterate(tree); var it = fn_proto.iterate(tree);
while (it.next()) |param| { while (it.next()) |param| {
@ -187,7 +187,7 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
=> { => {
// TODO When renaming a union(enum) field, also rename switch items that refer to it. // TODO When renaming a union(enum) field, also rename switch items that refer to it.
try symbolReferencesInternal(arena, store, .{ .node = datas[node].lhs, .handle = handle }, decl, encoding, context, handler); try symbolReferencesInternal(arena, store, .{ .node = datas[node].lhs, .handle = handle }, decl, encoding, context, handler);
const extra = tree.extraData(datas[node].rhs, ast.Node.SubRange); const extra = tree.extraData(datas[node].rhs, Ast.Node.SubRange);
const cases = tree.extra_data[extra.start..extra.end]; const cases = tree.extra_data[extra.start..extra.end];
for (cases) |case| { for (cases) |case| {
try symbolReferencesInternal(arena, store, .{ .node = case, .handle = handle }, decl, encoding, context, handler); try symbolReferencesInternal(arena, store, .{ .node = case, .handle = handle }, decl, encoding, context, handler);
@ -278,7 +278,7 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
.array_init_dot_two, .array_init_dot_two,
.array_init_dot_two_comma, .array_init_dot_two_comma,
=> |n| { => |n| {
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
const array_init = switch (n) { const array_init = switch (n) {
.array_init, .array_init_comma => tree.arrayInit(node), .array_init, .array_init_comma => tree.arrayInit(node),
.array_init_dot, .array_init_dot_comma => tree.arrayInitDot(node), .array_init_dot, .array_init_dot_comma => tree.arrayInitDot(node),
@ -300,8 +300,8 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
.struct_init_one, .struct_init_one,
.struct_init_one_comma, .struct_init_one_comma,
=> |n| { => |n| {
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
const struct_init: ast.full.StructInit = switch (n) { const struct_init: Ast.full.StructInit = switch (n) {
.struct_init, .struct_init_comma => tree.structInit(node), .struct_init, .struct_init_comma => tree.structInit(node),
.struct_init_dot, .struct_init_dot_comma => tree.structInitDot(node), .struct_init_dot, .struct_init_dot_comma => tree.structInitDot(node),
.struct_init_one, .struct_init_one_comma => tree.structInitOne(buf[0..1], node), .struct_init_one, .struct_init_one_comma => tree.structInitOne(buf[0..1], node),
@ -322,8 +322,8 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
.async_call_one, .async_call_one,
.async_call_one_comma, .async_call_one_comma,
=> |c| { => |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.full.Call = switch (c) {
.call, .call_comma, .async_call, .async_call_comma => tree.callFull(node), .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), .call_one, .call_one_comma, .async_call_one, .async_call_one_comma => tree.callOne(&buf, node),
else => unreachable, else => unreachable,
@ -339,7 +339,7 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
.slice_sentinel, .slice_sentinel,
.slice_open, .slice_open,
=> |s| { => |s| {
const slice: ast.full.Slice = switch (s) { const slice: Ast.full.Slice = switch (s) {
.slice => tree.slice(node), .slice => tree.slice(node),
.slice_open => tree.sliceOpen(node), .slice_open => tree.sliceOpen(node),
.slice_sentinel => tree.sliceSentinel(node), .slice_sentinel => tree.sliceSentinel(node),
@ -387,11 +387,11 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
const params = switch (builtin_tag) { const params = switch (builtin_tag) {
.builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs], .builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs],
.builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0) .builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0)
&[_]ast.Node.Index{} &[_]Ast.Node.Index{}
else if (data.rhs == 0) else if (data.rhs == 0)
&[_]ast.Node.Index{data.lhs} &[_]Ast.Node.Index{data.lhs}
else else
&[_]ast.Node.Index{ data.lhs, data.rhs }, &[_]Ast.Node.Index{ data.lhs, data.rhs },
else => unreachable, else => unreachable,
}; };
@ -401,7 +401,7 @@ fn symbolReferencesInternal(arena: *std.heap.ArenaAllocator, store: *DocumentSto
.@"asm", .@"asm",
.asm_simple, .asm_simple,
=> |a| { => |a| {
const _asm: ast.full.Asm = if (a == .@"asm") tree.asmFull(node) else tree.asmSimple(node); const _asm: Ast.full.Asm = if (a == .@"asm") tree.asmFull(node) else tree.asmSimple(node);
if (_asm.ast.items.len == 0) if (_asm.ast.items.len == 0)
try symbolReferencesInternal(arena, store, .{ .node = _asm.ast.template, .handle = handle }, decl, encoding, context, handler); try symbolReferencesInternal(arena, store, .{ .node = _asm.ast.template, .handle = handle }, decl, encoding, context, handler);
@ -544,10 +544,10 @@ pub fn symbolReferences(arena: *std.heap.ArenaAllocator, store: *DocumentStore,
}, },
.param_decl => |param| { .param_decl => |param| {
// Rename the param tok. // Rename the param tok.
const fn_node: ast.full.FnProto = loop: for (curr_handle.document_scope.scopes) |scope| { const fn_node: Ast.full.FnProto = loop: for (curr_handle.document_scope.scopes) |scope| {
switch (scope.data) { switch (scope.data) {
.function => |proto| { .function => |proto| {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const fn_proto = Reference.fnProto(curr_handle.tree, proto, &buf).?; const fn_proto = Reference.fnProto(curr_handle.tree, proto, &buf).?;
var it = fn_proto.iterate(curr_handle.tree); var it = fn_proto.iterate(curr_handle.tree);
while (it.next()) |candidate| { while (it.next()) |candidate| {

View File

@ -2,7 +2,7 @@ const std = @import("std");
const offsets = @import("./offsets.zig"); const offsets = @import("./offsets.zig");
const DocumentStore = @import("./document_store.zig"); const DocumentStore = @import("./document_store.zig");
const analysis = @import("./analysis.zig"); const analysis = @import("./analysis.zig");
const ast = std.zig.Ast; const Ast = std.zig.Ast;
const log = std.log.scoped(.semantic_tokens); const log = std.log.scoped(.semantic_tokens);
const SemanticToken = @This(); const SemanticToken = @This();
usingnamespace @import("./ast.zig"); usingnamespace @import("./ast.zig");
@ -54,7 +54,7 @@ pub const TokenModifiers = packed struct {
const Builder = struct { const Builder = struct {
handle: *DocumentStore.Handle, handle: *DocumentStore.Handle,
previous_position: usize = 0, previous_position: usize = 0,
previous_token: ?ast.TokenIndex = null, previous_token: ?Ast.TokenIndex = null,
arr: std.ArrayList(u32), arr: std.ArrayList(u32),
encoding: offsets.Encoding, encoding: offsets.Encoding,
@ -66,7 +66,7 @@ const Builder = struct {
}; };
} }
fn add(self: *Builder, token: ast.TokenIndex, token_type: TokenType, token_modifiers: TokenModifiers) !void { fn add(self: *Builder, token: Ast.TokenIndex, token_type: TokenType, token_modifiers: TokenModifiers) !void {
const tree = self.handle.tree; const tree = self.handle.tree;
const starts = tree.tokens.items(.start); const starts = tree.tokens.items(.start);
const next_start = starts[token]; const next_start = starts[token];
@ -103,7 +103,7 @@ const Builder = struct {
} }
/// Highlight a token without semantic context. /// Highlight a token without semantic context.
fn handleToken(self: *Builder, tok: ast.TokenIndex) !void { fn handleToken(self: *Builder, tok: Ast.TokenIndex) !void {
const tree = self.handle.tree; const tree = self.handle.tree;
// TODO More highlighting here // TODO More highlighting here
const tok_id = tree.tokens.items(.tag)[tok]; const tok_id = tree.tokens.items(.tag)[tok];
@ -177,17 +177,17 @@ const Builder = struct {
} }
}; };
inline fn writeToken(builder: *Builder, token_idx: ?ast.TokenIndex, tok_type: TokenType) !void { inline fn writeToken(builder: *Builder, token_idx: ?Ast.TokenIndex, tok_type: TokenType) !void {
return try writeTokenMod(builder, token_idx, tok_type, .{}); return try writeTokenMod(builder, token_idx, tok_type, .{});
} }
inline fn writeTokenMod(builder: *Builder, token_idx: ?ast.TokenIndex, tok_type: TokenType, tok_mod: TokenModifiers) !void { inline fn writeTokenMod(builder: *Builder, token_idx: ?Ast.TokenIndex, tok_type: TokenType, tok_mod: TokenModifiers) !void {
if (token_idx) |ti| { if (token_idx) |ti| {
try builder.add(ti, tok_type, tok_mod); try builder.add(ti, tok_type, tok_mod);
} }
} }
fn writeDocComments(builder: *Builder, tree: SemanticToken.Tree, doc: ast.TokenIndex) !void { fn writeDocComments(builder: *Builder, tree: SemanticToken.Tree, doc: Ast.TokenIndex) !void {
const token_tags = tree.tokens.items(.tag); const token_tags = tree.tokens.items(.tag);
var tok_idx = doc; var tok_idx = doc;
while (token_tags[tok_idx] == .doc_comment or while (token_tags[tok_idx] == .doc_comment or
@ -200,7 +200,7 @@ fn writeDocComments(builder: *Builder, tree: SemanticToken.Tree, doc: ast.TokenI
} }
} }
fn fieldTokenType(container_decl: ast.Node.Index, handle: *DocumentStore.Handle) ?TokenType { fn fieldTokenType(container_decl: Ast.Node.Index, handle: *DocumentStore.Handle) ?TokenType {
const main_token = handle.tree.nodes.items(.main_token)[container_decl]; const main_token = handle.tree.nodes.items(.main_token)[container_decl];
if (main_token > handle.tree.tokens.len) return null; if (main_token > handle.tree.tokens.len) return null;
return @as(?TokenType, switch (handle.tree.tokens.items(.tag)[main_token]) { return @as(?TokenType, switch (handle.tree.tokens.items(.tag)[main_token]) {
@ -210,7 +210,7 @@ fn fieldTokenType(container_decl: ast.Node.Index, handle: *DocumentStore.Handle)
}); });
} }
fn colorIdentifierBasedOnType(builder: *Builder, type_node: analysis.TypeWithHandle, target_tok: ast.TokenIndex, tok_mod: TokenModifiers) !void { fn colorIdentifierBasedOnType(builder: *Builder, type_node: analysis.TypeWithHandle, target_tok: Ast.TokenIndex, tok_mod: TokenModifiers) !void {
if (type_node.type.is_type_val) { if (type_node.type.is_type_val) {
var new_tok_mod = tok_mod; var new_tok_mod = tok_mod;
if (type_node.isNamespace()) if (type_node.isNamespace())
@ -249,7 +249,7 @@ const WriteTokensError = error{
MovedBackwards, MovedBackwards,
}; };
fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *DocumentStore, maybe_node: ?ast.Node.Index) WriteTokensError!void { fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *DocumentStore, maybe_node: ?Ast.Node.Index) WriteTokensError!void {
const node = maybe_node orelse return; const node = maybe_node orelse return;
const handle = builder.handle; const handle = builder.handle;
@ -294,10 +294,10 @@ 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) { const statements: []const Ast.Node.Index = switch (tag) {
.block, .block_semicolon => tree.extra_data[node_data[node].lhs..node_data[node].rhs], .block, .block_semicolon => tree.extra_data[node_data[node].lhs..node_data[node].rhs],
.block_two, .block_two_semicolon => blk: { .block_two, .block_two_semicolon => blk: {
const statements = &[_]ast.Node.Index{ node_data[node].lhs, node_data[node].rhs }; const statements = &[_]Ast.Node.Index{ node_data[node].lhs, node_data[node].rhs };
const len: usize = if (node_data[node].lhs == 0) const len: usize = if (node_data[node].lhs == 0)
@as(usize, 0) @as(usize, 0)
else if (node_data[node].rhs == 0) else if (node_data[node].rhs == 0)
@ -366,8 +366,8 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.tagged_union_two, .tagged_union_two,
.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 = switch (tag) {
.container_decl, .container_decl_trailing => tree.containerDecl(node), .container_decl, .container_decl_trailing => tree.containerDecl(node),
.container_decl_two, .container_decl_two_trailing => tree.containerDeclTwo(&buf, node), .container_decl_two, .container_decl_two_trailing => tree.containerDeclTwo(&buf, node),
.container_decl_arg, .container_decl_arg_trailing => tree.containerDeclArg(node), .container_decl_arg, .container_decl_arg_trailing => tree.containerDeclArg(node),
@ -430,8 +430,8 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.fn_proto_multi, .fn_proto_multi,
.fn_decl, .fn_decl,
=> { => {
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
const fn_proto: ast.full.FnProto = SemanticToken.fnProto(tree, node, &buf).?; const fn_proto: Ast.full.FnProto = SemanticToken.fnProto(tree, node, &buf).?;
if (analysis.getDocCommentTokenIndex(token_tags, main_token)) |docs| if (analysis.getDocCommentTokenIndex(token_tags, main_token)) |docs|
try writeDocComments(builder, tree, docs); try writeDocComments(builder, tree, docs);
@ -496,7 +496,7 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
=> { => {
try writeToken(builder, main_token, .keyword); try writeToken(builder, main_token, .keyword);
try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, node_data[node].lhs }); try await @asyncCall(child_frame, {}, writeNodeTokens, .{ builder, arena, store, node_data[node].lhs });
const extra = tree.extraData(node_data[node].rhs, ast.Node.SubRange); const extra = tree.extraData(node_data[node].rhs, Ast.Node.SubRange);
const cases = tree.extra_data[extra.start..extra.end]; const cases = tree.extra_data[extra.start..extra.end];
for (cases) |case_node| { for (cases) |case_node| {
@ -590,8 +590,8 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.array_init_dot_two, .array_init_dot_two,
.array_init_dot_two_comma, .array_init_dot_two_comma,
=> { => {
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
const array_init: ast.full.ArrayInit = switch (tag) { const array_init: Ast.full.ArrayInit = switch (tag) {
.array_init, .array_init_comma => tree.arrayInit(node), .array_init, .array_init_comma => tree.arrayInit(node),
.array_init_one, .array_init_one_comma => tree.arrayInitOne(buf[0..1], node), .array_init_one, .array_init_one_comma => tree.arrayInitOne(buf[0..1], node),
.array_init_dot, .array_init_dot_comma => tree.arrayInitDot(node), .array_init_dot, .array_init_dot_comma => tree.arrayInitDot(node),
@ -611,8 +611,8 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.struct_init_dot_two, .struct_init_dot_two,
.struct_init_dot_two_comma, .struct_init_dot_two_comma,
=> { => {
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
const struct_init: ast.full.StructInit = switch (tag) { const struct_init: Ast.full.StructInit = switch (tag) {
.struct_init, .struct_init_comma => tree.structInit(node), .struct_init, .struct_init_comma => tree.structInit(node),
.struct_init_dot, .struct_init_dot_comma => tree.structInitDot(node), .struct_init_dot, .struct_init_dot_comma => tree.structInitDot(node),
.struct_init_one, .struct_init_one_comma => tree.structInitOne(buf[0..1], node), .struct_init_one, .struct_init_one_comma => tree.structInitOne(buf[0..1], node),
@ -654,8 +654,8 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.async_call_one, .async_call_one,
.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.full.Call = switch (tag) {
.call, .call_comma, .async_call, .async_call_comma => tree.callFull(node), .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), .call_one, .call_one_comma, .async_call_one, .async_call_one_comma => tree.callOne(&params, node),
else => unreachable, else => unreachable,
@ -675,7 +675,7 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.slice_open, .slice_open,
.slice_sentinel, .slice_sentinel,
=> { => {
const slice: ast.full.Slice = switch (tag) { const slice: Ast.full.Slice = switch (tag) {
.slice => tree.slice(node), .slice => tree.slice(node),
.slice_open => tree.sliceOpen(node), .slice_open => tree.sliceOpen(node),
.slice_sentinel => tree.sliceSentinel(node), .slice_sentinel => tree.sliceSentinel(node),
@ -734,11 +734,11 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
const params = switch (tag) { const params = switch (tag) {
.builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs], .builtin_call, .builtin_call_comma => tree.extra_data[data.lhs..data.rhs],
.builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0) .builtin_call_two, .builtin_call_two_comma => if (data.lhs == 0)
&[_]ast.Node.Index{} &[_]Ast.Node.Index{}
else if (data.rhs == 0) else if (data.rhs == 0)
&[_]ast.Node.Index{data.lhs} &[_]Ast.Node.Index{data.lhs}
else else
&[_]ast.Node.Index{ data.lhs, data.rhs }, &[_]Ast.Node.Index{ data.lhs, data.rhs },
else => unreachable, else => unreachable,
}; };
@ -768,7 +768,7 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.asm_input, .asm_input,
.asm_simple, .asm_simple,
=> { => {
const asm_node: ast.full.Asm = switch (tag) { const asm_node: Ast.full.Asm = switch (tag) {
.@"asm" => tree.asmFull(node), .@"asm" => tree.asmFull(node),
.asm_simple => tree.asmSimple(node), .asm_simple => tree.asmSimple(node),
else => return, // TODO Inputs, outputs else => return, // TODO Inputs, outputs
@ -950,7 +950,7 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
.array_type, .array_type,
.array_type_sentinel, .array_type_sentinel,
=> { => {
const array_type: ast.full.ArrayType = if (tag == .array_type) const array_type: Ast.full.ArrayType = if (tag == .array_type)
tree.arrayType(node) tree.arrayType(node)
else else
tree.arrayTypeSentinel(node); tree.arrayTypeSentinel(node);
@ -981,7 +981,7 @@ fn writeNodeTokens(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *D
} }
} }
fn writeContainerField(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *DocumentStore, node: ast.Node.Index, field_token_type: ?TokenType, child_frame: anytype) !void { fn writeContainerField(builder: *Builder, arena: *std.heap.ArenaAllocator, store: *DocumentStore, node: Ast.Node.Index, field_token_type: ?TokenType, child_frame: anytype) !void {
const tree = builder.handle.tree; const tree = builder.handle.tree;
const container_field = SemanticToken.containerField(tree, node).?; const container_field = SemanticToken.containerField(tree, node).?;
const base = tree.nodes.items(.main_token)[node]; const base = tree.nodes.items(.main_token)[node];
@ -1002,7 +1002,7 @@ fn writeContainerField(builder: *Builder, arena: *std.heap.ArenaAllocator, store
} }
if (container_field.ast.value_expr != 0) block: { if (container_field.ast.value_expr != 0) block: {
const eq_tok: ast.TokenIndex = if (container_field.ast.align_expr != 0) const eq_tok: Ast.TokenIndex = if (container_field.ast.align_expr != 0)
SemanticToken.lastToken(tree, container_field.ast.align_expr) + 2 SemanticToken.lastToken(tree, container_field.ast.align_expr) + 2
else if (container_field.ast.type_expr != 0) else if (container_field.ast.type_expr != 0)
SemanticToken.lastToken(tree, container_field.ast.type_expr) + 1 SemanticToken.lastToken(tree, container_field.ast.type_expr) + 1
@ -1020,7 +1020,7 @@ pub fn writeAllSemanticTokens(arena: *std.heap.ArenaAllocator, store: *DocumentS
errdefer builder.arr.deinit(); errdefer builder.arr.deinit();
// reverse the ast from the root declarations // reverse the ast from the root declarations
var buf: [2]ast.Node.Index = undefined; var buf: [2]Ast.Node.Index = undefined;
for (SemanticToken.declMembers(handle.tree, 0, &buf)) |child| { for (SemanticToken.declMembers(handle.tree, 0, &buf)) |child| {
writeNodeTokens(&builder, arena, store, child) catch |err| switch (err) { writeNodeTokens(&builder, arena, store, child) catch |err| switch (err) {
error.MovedBackwards => break, error.MovedBackwards => break,

View File

@ -3,21 +3,13 @@ const analysis = @import("./analysis.zig");
const offsets = @import("./offsets.zig"); const offsets = @import("./offsets.zig");
const DocumentStore = @import("./document_store.zig"); const DocumentStore = @import("./document_store.zig");
const types = @import("./types.zig"); const types = @import("./types.zig");
const ast = std.zig.Ast; const Ast = std.zig.Ast;
const Token = std.zig.Token; const Token = std.zig.Token;
const identifierFromPosition = @import("./main.zig").identifierFromPosition; const identifierFromPosition = @import("./main.zig").identifierFromPosition;
const SignatureHelp = @This(); const SignatureHelp = @This();
usingnamespace @import("./ast.zig"); usingnamespace @import("./ast.zig");
fn fnProtoToSignatureInfo( fn fnProtoToSignatureInfo(document_store: *DocumentStore, arena: *std.heap.ArenaAllocator, commas: u32, skip_self_param: bool, handle: *DocumentStore.Handle, fn_node: Ast.Node.Index, proto: Ast.full.FnProto) !types.SignatureInformation {
document_store: *DocumentStore,
arena: *std.heap.ArenaAllocator,
commas: u32,
skip_self_param: bool,
handle: *DocumentStore.Handle,
fn_node: ast.Node.Index,
proto: ast.full.FnProto,
) !types.SignatureInformation {
const ParameterInformation = types.SignatureInformation.ParameterInformation; const ParameterInformation = types.SignatureInformation.ParameterInformation;
const tree = handle.tree; const tree = handle.tree;
@ -287,7 +279,7 @@ pub fn getSignatureInfo(
}, },
}; };
var buf: [1]ast.Node.Index = undefined; var buf: [1]Ast.Node.Index = undefined;
if (SignatureHelp.fnProto(type_handle.handle.tree, node, &buf)) |proto| { if (SignatureHelp.fnProto(type_handle.handle.tree, node, &buf)) |proto| {
return try fnProtoToSignatureInfo( return try fnProtoToSignatureInfo(
document_store, document_store,