Fix stack overflow and clean up a bit of resolveTypeOfNode (#297)
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parent
88d79a769c
commit
b03fb5ffe3
150
src/analysis.zig
150
src/analysis.zig
@ -147,7 +147,6 @@ pub fn getFunctionSnippet(
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return buffer.toOwnedSlice();
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}
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/// Returns true if a function has a `self` parameter
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pub fn hasSelfParam(
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arena: *std.heap.ArenaAllocator,
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document_store: *DocumentStore,
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@ -194,7 +193,6 @@ pub fn getVariableSignature(tree: ast.Tree, var_decl: ast.full.VarDecl) []const
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return tree.source[start..end];
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}
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// analysis.getContainerFieldSignature(handle.tree, field)
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pub fn getContainerFieldSignature(tree: ast.Tree, field: ast.full.ContainerField) []const u8 {
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const start = offsets.tokenLocation(tree, field.ast.name_token).start;
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const end_node = if (field.ast.value_expr != 0) field.ast.value_expr else field.ast.type_expr;
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@ -202,8 +200,8 @@ pub fn getContainerFieldSignature(tree: ast.Tree, field: ast.full.ContainerField
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return tree.source[start..end];
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}
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/// The type node is "type"
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fn typeIsType(tree: ast.Tree, node: ast.Node.Index) bool {
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/// The node is the meta-type `type`
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fn isMetaType(tree: ast.Tree, node: ast.Node.Index) bool {
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if (tree.nodes.items(.tag)[node] == .identifier) {
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return std.mem.eql(u8, tree.tokenSlice(tree.nodes.items(.main_token)[node]), "type");
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}
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@ -211,7 +209,7 @@ fn typeIsType(tree: ast.Tree, node: ast.Node.Index) bool {
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}
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pub fn isTypeFunction(tree: ast.Tree, func: ast.full.FnProto) bool {
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return typeIsType(tree, func.ast.return_type);
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return isMetaType(tree, func.ast.return_type);
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}
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pub fn isGenericFunction(tree: ast.Tree, func: ast.full.FnProto) bool {
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@ -380,7 +378,6 @@ pub fn resolveVarDeclAlias(store: *DocumentStore, arena: *std.heap.ArenaAllocato
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return null;
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}
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/// Returns `true` when the given `node` is one of the block tags
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fn isBlock(tree: ast.Tree, node: ast.Node.Index) bool {
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return switch (tree.nodes.items(.tag)[node]) {
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.block,
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@ -451,7 +448,6 @@ fn findReturnStatement(tree: ast.Tree, fn_decl: ast.full.FnProto, body: ast.Node
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return findReturnStatementInternal(tree, fn_decl, body, &already_found);
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}
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/// Resolves the return type of a function
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pub fn resolveReturnType(
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store: *DocumentStore,
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arena: *std.heap.ArenaAllocator,
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@ -692,6 +688,21 @@ pub fn resolveTypeOfNodeInternal(
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const handle = node_handle.handle;
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const tree = handle.tree;
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const state = struct {
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var resolve_trail = std.ArrayListUnmanaged(NodeWithHandle){};
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};
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// If we were asked to resolve this node before,
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// it is self-referential and we cannot resolve it.
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for (state.resolve_trail.items) |i| {
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if (i.node == node and i.handle == handle)
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return null;
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}
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// We use the backing allocator here because the ArrayList expects its
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// allocated memory to persist while it is empty.
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try state.resolve_trail.append(arena.child_allocator, node_handle);
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defer _ = state.resolve_trail.pop();
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const main_tokens = tree.nodes.items(.main_token);
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const node_tags = tree.nodes.items(.tag);
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const datas = tree.nodes.items(.data);
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@ -705,18 +716,16 @@ pub fn resolveTypeOfNodeInternal(
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.aligned_var_decl,
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=> {
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const var_decl = varDecl(tree, node).?;
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if (var_decl.ast.type_node != 0) block: {
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return ((try resolveTypeOfNodeInternal(
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store,
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arena,
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.{ .node = var_decl.ast.type_node, .handle = handle },
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bound_type_params,
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)) orelse break :block).instanceTypeVal();
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if (var_decl.ast.type_node != 0) {
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const decl_type = .{ .node = var_decl.ast.type_node, .handle = handle };
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if (try resolveTypeOfNodeInternal(store, arena, decl_type, bound_type_params)) |typ|
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return typ.instanceTypeVal();
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}
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return if (var_decl.ast.init_node != 0)
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try resolveTypeOfNodeInternal(store, arena, .{ .node = var_decl.ast.init_node, .handle = handle }, bound_type_params)
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else
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null;
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if (var_decl.ast.init_node == 0)
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return null;
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const value = .{ .node = var_decl.ast.init_node, .handle = handle };
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return try resolveTypeOfNodeInternal(store, arena, value, bound_type_params);
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},
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.identifier => {
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if (isTypeIdent(handle.tree, main_tokens[node])) {
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@ -737,7 +746,8 @@ pub fn resolveTypeOfNodeInternal(
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.ast_node => |n| {
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if (n == node) return null;
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if (varDecl(child.handle.tree, n)) |var_decl| {
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if (var_decl.ast.init_node != 0 and var_decl.ast.init_node == node) return null;
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if (var_decl.ast.init_node == node)
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return null;
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}
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},
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else => {},
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@ -758,12 +768,11 @@ pub fn resolveTypeOfNodeInternal(
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};
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if (field.ast.type_expr == 0) return null;
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return ((try resolveTypeOfNodeInternal(
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store,
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arena,
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.{ .node = field.ast.type_expr, .handle = handle },
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bound_type_params,
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)) orelse return null).instanceTypeVal();
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const field_type = .{ .node = field.ast.type_expr, .handle = handle };
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const typ = (try resolveTypeOfNodeInternal(store, arena, field_type, bound_type_params))
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orelse return null;
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return typ.instanceTypeVal();
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},
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.call,
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.call_comma,
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@ -775,18 +784,12 @@ pub fn resolveTypeOfNodeInternal(
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.async_call_one_comma,
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=> |c| {
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var params: [1]ast.Node.Index = undefined;
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const call: ast.full.Call = switch (c) {
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.call, .call_comma, .async_call, .async_call_comma => tree.callFull(node),
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.call_one, .call_one_comma, .async_call_one, .async_call_one_comma => tree.callOne(¶ms, node),
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else => unreachable,
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};
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const call = callFull(tree, node, ¶ms) orelse unreachable;
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const decl = (try resolveTypeOfNodeInternal(
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store,
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arena,
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.{ .node = call.ast.fn_expr, .handle = handle },
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bound_type_params,
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)) orelse return null;
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const callee = .{ .node = call.ast.fn_expr, .handle = handle };
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const decl =
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(try resolveTypeOfNodeInternal(store, arena, callee, bound_type_params))
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orelse return null;
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if (decl.type.is_type_val) return null;
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const decl_node = switch (decl.type.data) {
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@ -797,25 +800,32 @@ pub fn resolveTypeOfNodeInternal(
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const func_maybe = fnProto(decl.handle.tree, decl_node, &buf);
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if (func_maybe) |fn_decl| {
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// check for x.y(..). if '.' is found, it means first param should be skipped
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const has_self_param = token_tags[call.ast.lparen - 2] == .period;
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var expected_params = fn_decl.ast.params.len;
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// If we call as method, the first parameter should be skipped
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// TODO: Back-parse to extract the self argument?
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var it = fn_decl.iterate(decl.handle.tree);
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if (token_tags[call.ast.lparen - 2] == .period) {
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if (try hasSelfParam(arena, store, handle, fn_decl)) {
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_ = it.next();
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expected_params -= 1;
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}
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}
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// Bind type params to the expressions passed in txhe calls.
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const param_len = std.math.min(call.ast.params.len + @boolToInt(has_self_param), fn_decl.ast.params.len);
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// Bind type params to the arguments passed in the call.
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const param_len = std.math.min(call.ast.params.len, expected_params);
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var i: usize = 0;
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while (it.next()) |decl_param| : (i += 1) {
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if (i == 0 and has_self_param) continue;
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if (i >= param_len) break;
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if (!typeIsType(decl.handle.tree, decl_param.type_expr)) continue;
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if (!isMetaType(decl.handle.tree, decl_param.type_expr))
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continue;
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const call_param_type = (try resolveTypeOfNodeInternal(store, arena, .{
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.node = call.ast.params[i - @boolToInt(has_self_param)],
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.handle = handle,
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}, bound_type_params)) orelse continue;
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if (!call_param_type.type.is_type_val) continue;
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const argument = .{.node = call.ast.params[i], .handle = handle};
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const argument_type =
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(try resolveTypeOfNodeInternal(store, arena, argument, bound_type_params))
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orelse continue;
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if (!argument_type.type.is_type_val) continue;
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_ = try bound_type_params.put(decl_param, call_param_type);
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_ = try bound_type_params.put(decl_param, argument_type);
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}
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const has_body = decl.handle.tree.nodes.items(.tag)[decl_node] == .fn_decl;
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@ -1243,7 +1253,6 @@ pub fn getFieldAccessType(
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.handle = handle,
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});
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// TODO Actually bind params here when calling functions instead of just skipping args.
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var bound_type_params = BoundTypeParams.init(&arena.allocator);
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const tree = handle.tree;
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@ -1343,6 +1352,7 @@ pub fn getFieldAccessType(
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const has_body = cur_tree.nodes.items(.tag)[current_type_node] == .fn_decl;
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const body = cur_tree.nodes.items(.data)[current_type_node].rhs;
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// TODO Actually bind params here when calling functions instead of just skipping args.
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if (try resolveReturnType(store, arena, func, current_type.handle, &bound_type_params, if (has_body) body else null)) |ret| {
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current_type = ret;
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// Skip to the right paren
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@ -1989,7 +1999,7 @@ pub const DeclWithHandle = struct {
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bound_type_params,
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),
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.param_decl => |param_decl| {
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if (typeIsType(self.handle.tree, param_decl.type_expr)) {
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if (isMetaType(self.handle.tree, param_decl.type_expr)) {
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var bound_param_it = bound_type_params.iterator();
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while (bound_param_it.next()) |entry| {
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if (std.meta.eql(entry.key, param_decl)) return entry.value;
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@ -2294,38 +2304,36 @@ fn resolveUse(
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handle: *DocumentStore.Handle,
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) error{OutOfMemory}!?DeclWithHandle {
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const state = struct {
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var using_trail = std.ArrayListUnmanaged(*const ast.Node.Index){};
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var using_trail = std.ArrayListUnmanaged([*]const u8){};
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};
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for (uses) |use| {
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if (std.mem.indexOfScalar(*const ast.Node.Index, state.using_trail.items, use) != null) continue;
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// We use the child_allocator here because the ArrayList expects its
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// If we were asked to resolve this symbol before,
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// it is self-referential and we cannot resolve it.
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if (std.mem.indexOfScalar([*]const u8, state.using_trail.items, symbol.ptr) != null)
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return null;
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// We use the backing allocator here because the ArrayList expects its
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// allocated memory to persist while it is empty.
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try state.using_trail.append(arena.child_allocator, use);
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try state.using_trail.append(arena.child_allocator, symbol.ptr);
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defer _ = state.using_trail.pop();
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const use_expr = (try resolveTypeOfNode(
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store,
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arena,
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.{ .node = handle.tree.nodes.items(.data)[use.*].lhs, .handle = handle },
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)) orelse continue;
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for (uses) |use| {
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const expr = .{ .node = handle.tree.nodes.items(.data)[use.*].lhs, .handle = handle };
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const expr_type_node = (try resolveTypeOfNode(store, arena, expr))
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orelse continue;
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const use_expr_node = switch (use_expr.type.data) {
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const expr_type = .{
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.node = switch (expr_type_node.type.data) {
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.other => |n| n,
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else => continue,
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},
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.handle = expr_type_node.handle
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};
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if (try lookupSymbolContainer(
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store,
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arena,
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.{ .node = use_expr_node, .handle = use_expr.handle },
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symbol,
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false,
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)) |candidate| {
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if (candidate.handle != handle and !candidate.isPublic()) {
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continue;
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}
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if (try lookupSymbolContainer(store, arena, expr_type, symbol, false)) |candidate| {
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if (candidate.handle == handle or candidate.isPublic()) {
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return candidate;
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}
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}
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}
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return null;
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}
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@ -885,15 +885,15 @@ pub fn fnProto(tree: ast.Tree, node: ast.Node.Index, buf: *[1]ast.Node.Index) ?a
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pub fn callFull(tree: ast.Tree, node: ast.Node.Index, buf: *[1]ast.Node.Index) ?ast.full.Call {
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return switch (tree.nodes.items(.tag)[node]) {
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.async_call,
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.async_call_comma,
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.call,
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.call_comma,
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.async_call,
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.async_call_comma,
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=> tree.callFull(node),
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.async_call_one,
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.async_call_one_comma,
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.call_one,
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.call_one_comma,
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.async_call_one,
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.async_call_one_comma,
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=> tree.callOne(buf, node),
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else => null,
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};
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@ -23,7 +23,7 @@ pub const Handle = struct {
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count: usize,
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/// Contains one entry for every import in the document
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import_uris: []const []const u8,
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/// Items in thsi array list come from `import_uris`
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/// Items in this array list come from `import_uris`
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imports_used: std.ArrayListUnmanaged([]const u8),
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tree: std.zig.ast.Tree,
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document_scope: analysis.DocumentScope,
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