Merge pull request #118 from alexnask/master

Differentiate between values of a type and type values
This commit is contained in:
Alexandros Naskos 2020-06-17 15:46:23 +03:00 committed by GitHub
commit 5ddebe8ffc
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GPG Key ID: 4AEE18F83AFDEB23
2 changed files with 338 additions and 150 deletions

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@ -232,19 +232,22 @@ fn resolveVarDeclAliasInternal(
if (!std.mem.eql(u8, handle.tree.tokenSlice(builtin_call.builtin_token), "@import"))
return null;
const inner_node = (try resolveTypeOfNode(store, arena, .{ .node = infix_op.lhs, .handle = handle })) orelse return null;
std.debug.assert(inner_node.node.id == .Root);
break :block inner_node;
std.debug.assert(inner_node.type.data.other.id == .Root);
break :block NodeWithHandle{ .node = inner_node.type.data.other, .handle = inner_node.handle };
} else if (try resolveVarDeclAliasInternal(store, arena, .{ .node = infix_op.lhs, .handle = handle }, false)) |decl_handle| block: {
if (decl_handle.decl.* != .ast_node) return null;
const resolved = (try resolveTypeOfNode(store, arena, .{ .node = decl_handle.decl.ast_node, .handle = decl_handle.handle })) orelse return null;
if (resolved.node.id != .ContainerDecl and resolved.node.id != .Root) return null;
break :block resolved;
const resolved_node = switch (resolved.type.data) {
.other => |n| n,
else => return null,
};
if (resolved_node.id != .ContainerDecl and resolved_node.id != .Root) return null;
break :block NodeWithHandle{ .node = resolved_node, .handle = resolved.handle };
} else return null;
if (try lookupSymbolContainer(store, arena, container_node, handle.tree.tokenSlice(infix_op.rhs.firstToken()), false)) |inner_decl| {
if (root) return inner_decl;
// if (!root and !isContainerDecl(inner_decl)) return null;
return inner_decl;
}
}
@ -263,6 +266,7 @@ pub fn resolveVarDeclAlias(store: *DocumentStore, arena: *std.heap.ArenaAllocato
if (decl.cast(ast.Node.VarDecl)) |var_decl| {
if (var_decl.init_node == null) return null;
if (handle.tree.token_ids[var_decl.mut_token] != .Keyword_const) return null;
const base_expr = var_decl.init_node.?;
if (base_expr.cast(ast.Node.InfixOp)) |infix_op| {
@ -328,7 +332,7 @@ fn resolveReturnType(
fn_decl: *ast.Node.FnProto,
handle: *DocumentStore.Handle,
bound_type_params: *BoundTypeParams,
) !?NodeWithHandle {
) !?TypeWithHandle {
if (isTypeFunction(handle.tree, fn_decl) and fn_decl.body_node != null) {
// If this is a type function and it only contains a single return statement that returns
// a container declaration, we will return that declaration.
@ -349,12 +353,16 @@ fn resolveReturnType(
.node = return_type,
.handle = handle,
}, bound_type_params)) orelse return null;
break :block NodeWithHandle{ .node = try makeErrorUnionType(arena, child_type.node), .handle = child_type.handle };
const child_type_node = switch (child_type.type.data) {
.other => |n| n,
else => return null,
};
break :block TypeWithHandle{ .type = .{ .data = .{ .error_union = child_type_node }, .is_type_val = false }, .handle = child_type.handle };
},
.Explicit => |return_type| try resolveTypeOfNodeInternal(store, arena, .{
.Explicit => |return_type| ((try resolveTypeOfNodeInternal(store, arena, .{
.node = return_type,
.handle = handle,
}, bound_type_params),
}, bound_type_params)) orelse return null).instanceTypeVal(),
.Invalid => null,
};
}
@ -363,15 +371,20 @@ fn resolveReturnType(
fn resolveUnwrapOptionalType(
store: *DocumentStore,
arena: *std.heap.ArenaAllocator,
opt: NodeWithHandle,
opt: TypeWithHandle,
bound_type_params: *BoundTypeParams,
) !?NodeWithHandle {
if (opt.node.cast(ast.Node.PrefixOp)) |prefix_op| {
) !?TypeWithHandle {
const opt_node = switch (opt.type.data) {
.other => |n| n,
else => return null,
};
if (opt_node.cast(ast.Node.PrefixOp)) |prefix_op| {
if (prefix_op.op == .OptionalType) {
return try resolveTypeOfNodeInternal(store, arena, .{
return ((try resolveTypeOfNodeInternal(store, arena, .{
.node = prefix_op.rhs,
.handle = opt.handle,
}, bound_type_params);
}, bound_type_params)) orelse return null).instanceTypeVal();
}
}
@ -381,15 +394,24 @@ fn resolveUnwrapOptionalType(
fn resolveUnwrapErrorType(
store: *DocumentStore,
arena: *std.heap.ArenaAllocator,
rhs: NodeWithHandle,
rhs: TypeWithHandle,
bound_type_params: *BoundTypeParams,
) !?NodeWithHandle {
if (rhs.node.cast(ast.Node.InfixOp)) |infix_op| {
) !?TypeWithHandle {
const rhs_node = switch (rhs.type.data) {
.other => |n| n,
.error_union => |n| return TypeWithHandle{
.type = .{ .data = .{ .other = n }, .is_type_val = rhs.type.is_type_val },
.handle = rhs.handle,
},
.slice => return null,
};
if (rhs_node.cast(ast.Node.InfixOp)) |infix_op| {
if (infix_op.op == .ErrorUnion) {
return try resolveTypeOfNodeInternal(store, arena, .{
return ((try resolveTypeOfNodeInternal(store, arena, .{
.node = infix_op.rhs,
.handle = rhs.handle,
}, bound_type_params);
}, bound_type_params)) orelse return null).instanceTypeVal();
}
}
@ -400,17 +422,24 @@ fn resolveUnwrapErrorType(
fn resolveDerefType(
store: *DocumentStore,
arena: *std.heap.ArenaAllocator,
deref: NodeWithHandle,
deref: TypeWithHandle,
bound_type_params: *BoundTypeParams,
) !?NodeWithHandle {
if (deref.node.cast(ast.Node.PrefixOp)) |pop| {
) !?TypeWithHandle {
const deref_node = switch (deref.type.data) {
.other => |n| n,
else => return null,
};
if (deref_node.cast(ast.Node.PrefixOp)) |pop| {
if (pop.op == .PtrType) {
const op_token_id = deref.handle.tree.token_ids[pop.op_token];
switch (op_token_id) {
.Asterisk => return try resolveTypeOfNodeInternal(store, arena, .{
.node = pop.rhs,
.handle = deref.handle,
}, bound_type_params),
.Asterisk => {
return ((try resolveTypeOfNodeInternal(store, arena, .{
.node = pop.rhs,
.handle = deref.handle,
}, bound_type_params)) orelse return null).instanceTypeVal();
},
.LBracket, .AsteriskAsterisk => return null,
else => unreachable,
}
@ -419,74 +448,49 @@ fn resolveDerefType(
return null;
}
fn makeErrorUnionType(arena: *std.heap.ArenaAllocator, child_type: *ast.Node) !*ast.Node {
// TODO: Better values for fields, better way to do this?
var error_union_type = try arena.allocator.create(ast.Node.InfixOp);
error_union_type.* = .{
.op_token = child_type.firstToken(),
.op = .ErrorUnion,
.lhs = child_type, // This is a dummy value
.rhs = child_type,
};
return &error_union_type.base;
}
fn makeSliceType(arena: *std.heap.ArenaAllocator, child_type: *ast.Node) !*ast.Node {
// TODO: Better values for fields, better way to do this?
var slice_type = try arena.allocator.create(ast.Node.PrefixOp);
slice_type.* = .{
.op_token = child_type.firstToken(),
.op = .{
.SliceType = .{
.allowzero_token = null,
.align_info = null,
.const_token = null,
.volatile_token = null,
.sentinel = null,
},
},
.rhs = child_type,
};
return &slice_type.base;
}
/// Resolves bracket access type (both slicing and array access)
fn resolveBracketAccessType(
store: *DocumentStore,
arena: *std.heap.ArenaAllocator,
lhs: NodeWithHandle,
lhs: TypeWithHandle,
rhs: enum { Single, Range },
bound_type_params: *BoundTypeParams,
) !?NodeWithHandle {
if (lhs.node.cast(ast.Node.PrefixOp)) |pop| {
) !?TypeWithHandle {
const lhs_node = switch (lhs.type.data) {
.other => |n| n,
else => return null,
};
if (lhs_node.cast(ast.Node.PrefixOp)) |pop| {
switch (pop.op) {
.SliceType => {
if (rhs == .Single)
return try resolveTypeOfNodeInternal(store, arena, .{
return ((try resolveTypeOfNodeInternal(store, arena, .{
.node = pop.rhs,
.handle = lhs.handle,
}, bound_type_params);
}, bound_type_params)) orelse return null).instanceTypeVal();
return lhs;
},
.ArrayType => {
if (rhs == .Single)
return try resolveTypeOfNodeInternal(store, arena, .{
return ((try resolveTypeOfNodeInternal(store, arena, .{
.node = pop.rhs,
.handle = lhs.handle,
}, bound_type_params);
return NodeWithHandle{ .node = try makeSliceType(arena, pop.rhs), .handle = lhs.handle };
}, bound_type_params)) orelse return null).instanceTypeVal();
return TypeWithHandle{
.type = .{ .data = .{ .slice = pop.rhs }, .is_type_val = false },
.handle = lhs.handle,
};
},
.PtrType => {
if (pop.rhs.cast(std.zig.ast.Node.PrefixOp)) |child_pop| {
switch (child_pop.op) {
.ArrayType => {
if (rhs == .Single) {
return try resolveTypeOfNodeInternal(store, arena, .{
return ((try resolveTypeOfNodeInternal(store, arena, .{
.node = child_pop.rhs,
.handle = lhs.handle,
}, bound_type_params);
}, bound_type_params)) orelse return null).instanceTypeVal();
}
return lhs;
},
@ -504,13 +508,13 @@ fn resolveBracketAccessType(
fn resolveFieldAccessLhsType(
store: *DocumentStore,
arena: *std.heap.ArenaAllocator,
lhs: NodeWithHandle,
lhs: TypeWithHandle,
bound_type_params: *BoundTypeParams,
) !NodeWithHandle {
) !TypeWithHandle {
return (try resolveDerefType(store, arena, lhs, bound_type_params)) orelse lhs;
}
const BoundTypeParams = std.AutoHashMap(*const ast.Node.FnProto.ParamDecl, NodeWithHandle);
const BoundTypeParams = std.AutoHashMap(*const ast.Node.FnProto.ParamDecl, TypeWithHandle);
/// Resolves the type of a node
fn resolveTypeOfNodeInternal(
@ -518,14 +522,23 @@ fn resolveTypeOfNodeInternal(
arena: *std.heap.ArenaAllocator,
node_handle: NodeWithHandle,
bound_type_params: *BoundTypeParams,
) error{OutOfMemory}!?NodeWithHandle {
) error{OutOfMemory}!?TypeWithHandle {
const node = node_handle.node;
const handle = node_handle.handle;
switch (node.id) {
.VarDecl => {
const vari = node.cast(ast.Node.VarDecl).?;
return try resolveTypeOfNodeInternal(store, arena, .{ .node = vari.type_node orelse vari.init_node.?, .handle = handle }, bound_type_params);
if (vari.type_node) |type_node| block: {
return ((try resolveTypeOfNodeInternal(
store,
arena,
.{ .node = vari.type_node orelse break :block, .handle = handle },
bound_type_params,
)) orelse break :block).instanceTypeVal();
}
return try resolveTypeOfNodeInternal(store, arena, .{ .node = vari.init_node.?, .handle = handle }, bound_type_params);
},
.Identifier => {
if (try lookupSymbolGlobal(store, arena, handle, handle.tree.getNodeSource(node), handle.tree.token_locs[node.firstToken()].start)) |child| {
@ -535,13 +548,28 @@ fn resolveTypeOfNodeInternal(
},
.ContainerField => {
const field = node.cast(ast.Node.ContainerField).?;
return try resolveTypeOfNodeInternal(store, arena, .{ .node = field.type_expr orelse return null, .handle = handle }, bound_type_params);
return ((try resolveTypeOfNodeInternal(
store,
arena,
.{ .node = field.type_expr orelse return null, .handle = handle },
bound_type_params,
)) orelse return null).instanceTypeVal();
},
.Call => {
const call = node.cast(ast.Node.Call).?;
const decl = (try resolveTypeOfNodeInternal(
store,
arena,
.{ .node = call.lhs, .handle = handle },
bound_type_params,
)) orelse return null;
const decl = (try resolveTypeOfNodeInternal(store, arena, .{ .node = call.lhs, .handle = handle }, bound_type_params)) orelse return null;
if (decl.node.cast(ast.Node.FnProto)) |fn_decl| {
if (decl.type.is_type_val) return null;
const decl_node = switch (decl.type.data) {
.other => |n| n,
else => return null,
};
if (decl_node.cast(ast.Node.FnProto)) |fn_decl| {
var has_self_param: u8 = 0;
if (call.lhs.cast(ast.Node.InfixOp)) |lhs_infix_op| {
if (lhs_infix_op.op == .Period) {
@ -565,13 +593,14 @@ fn resolveTypeOfNodeInternal(
.node = call.paramsConst()[param_idx - has_self_param],
.handle = handle,
}, bound_type_params)) orelse continue;
if (!call_param_type.type.is_type_val) continue;
_ = try bound_type_params.put(decl_param, call_param_type);
}
return try resolveReturnType(store, arena, fn_decl, decl.handle, bound_type_params);
}
return decl;
return null;
},
.GroupedExpression => {
const grouped = node.cast(ast.Node.GroupedExpression).?;
@ -579,7 +608,12 @@ fn resolveTypeOfNodeInternal(
},
.StructInitializer => {
const struct_init = node.cast(ast.Node.StructInitializer).?;
return try resolveTypeOfNodeInternal(store, arena, .{ .node = struct_init.lhs, .handle = handle }, bound_type_params);
return ((try resolveTypeOfNodeInternal(
store,
arena,
.{ .node = struct_init.lhs, .handle = handle },
bound_type_params,
)) orelse return null).instanceTypeVal();
},
.ErrorSetDecl => {
const set = node.cast(ast.Node.ErrorSetDecl).?;
@ -587,7 +621,7 @@ fn resolveTypeOfNodeInternal(
while (set.iterate(i)) |decl| : (i += 1) {
try store.error_completions.add(handle.tree, decl);
}
return node_handle;
return TypeWithHandle.typeVal(node_handle);
},
.SuffixOp => {
const suffix_op = node.cast(ast.Node.SuffixOp).?;
@ -619,7 +653,18 @@ fn resolveTypeOfNodeInternal(
bound_type_params,
);
if (try lookupSymbolContainer(store, arena, left_type, rhs_str, true)) |child| {
const left_type_node = switch (left_type.type.data) {
.other => |n| n,
else => return null,
};
if (try lookupSymbolContainer(
store,
arena,
.{ .node = left_type_node, .handle = left_type.handle },
rhs_str,
!left_type.type.is_type_val,
)) |child| {
return try child.resolveType(store, arena, bound_type_params);
} else return null;
},
@ -637,7 +682,7 @@ fn resolveTypeOfNodeInternal(
}, bound_type_params)) orelse return null;
return try resolveUnwrapErrorType(store, arena, left_type, bound_type_params);
},
.ErrorUnion => return node_handle,
.ErrorUnion => return TypeWithHandle.typeVal(node_handle),
else => return null,
}
},
@ -648,7 +693,7 @@ fn resolveTypeOfNodeInternal(
.ArrayType,
.OptionalType,
.PtrType,
=> return node_handle,
=> return TypeWithHandle.typeVal(node_handle),
.Try => {
const rhs_type = (try resolveTypeOfNodeInternal(store, arena, .{
.node = prefix_op.rhs,
@ -682,10 +727,24 @@ fn resolveTypeOfNodeInternal(
});
if (cast_map.has(call_name)) {
if (builtin_call.params_len < 1) return null;
return try resolveTypeOfNodeInternal(store, arena, .{
return ((try resolveTypeOfNodeInternal(store, arena, .{
.node = builtin_call.paramsConst()[0],
.handle = handle,
}, bound_type_params);
}, bound_type_params)) orelse return null).instanceTypeVal();
}
// Almost the same as the above, return a type value though.
// TODO Do peer type resolution, we just keep the first for now.
if (std.mem.eql(u8, call_name, "@TypeOf")) {
if (builtin_call.params_len < 1) return null;
var resolved_type = (try resolveTypeOfNodeInternal(store, arena, .{
.node = builtin_call.paramsConst()[0],
.handle = handle,
}, bound_type_params)) orelse return null;
if (resolved_type.type.is_type_val) return null;
resolved_type.type.is_type_val = true;
return resolved_type;
}
if (!std.mem.eql(u8, call_name, "@import")) return null;
@ -700,14 +759,14 @@ fn resolveTypeOfNodeInternal(
return null;
}) orelse return null;
return NodeWithHandle{ .node = &new_handle.tree.root_node.base, .handle = new_handle };
return TypeWithHandle.typeVal(.{ .node = &new_handle.tree.root_node.base, .handle = new_handle });
},
.ContainerDecl => {
const container = node.cast(ast.Node.ContainerDecl).?;
const kind = handle.tree.token_ids[container.kind_token];
if (kind == .Keyword_struct or (kind == .Keyword_union and container.init_arg_expr == .None)) {
return node_handle;
return TypeWithHandle.typeVal(node_handle);
}
var i: usize = 0;
@ -715,15 +774,63 @@ fn resolveTypeOfNodeInternal(
if (decl.id != .ContainerField) continue;
try store.enum_completions.add(handle.tree, decl);
}
return node_handle;
return TypeWithHandle.typeVal(node_handle);
},
.FnProto => {
// This is a function type
if (node.cast(ast.Node.FnProto).?.name_token == null) {
return TypeWithHandle.typeVal(node_handle);
}
return TypeWithHandle{
.type = .{ .data = .{ .other = node }, .is_type_val = false },
.handle = handle,
};
},
.MultilineStringLiteral, .StringLiteral => return TypeWithHandle{
.type = .{ .data = .{ .other = node }, .is_type_val = false },
.handle = handle,
},
.MultilineStringLiteral, .StringLiteral, .FnProto => return node_handle,
else => std.debug.warn("Type resolution case not implemented; {}\n", .{node.id}),
}
return null;
}
pub fn resolveTypeOfNode(store: *DocumentStore, arena: *std.heap.ArenaAllocator, node_handle: NodeWithHandle) error{OutOfMemory}!?NodeWithHandle {
// TODO Reorganize this file, perhaps split into a couple as well
// TODO Make this better, nested levels of type vals
pub const Type = struct {
data: union(enum) {
slice: *ast.Node,
error_union: *ast.Node,
other: *ast.Node,
},
/// If true, the type `type`, the attached data is the value of the type value.
is_type_val: bool,
};
pub const TypeWithHandle = struct {
type: Type,
handle: *DocumentStore.Handle,
fn typeVal(node_handle: NodeWithHandle) TypeWithHandle {
return .{
.type = .{
.data = .{ .other = node_handle.node },
.is_type_val = true,
},
.handle = node_handle.handle,
};
}
fn instanceTypeVal(self: TypeWithHandle) ?TypeWithHandle {
if (!self.type.is_type_val) return null;
return TypeWithHandle{
.type = .{ .data = self.type.data, .is_type_val = false },
.handle = self.handle,
};
}
};
pub fn resolveTypeOfNode(store: *DocumentStore, arena: *std.heap.ArenaAllocator, node_handle: NodeWithHandle) error{OutOfMemory}!?TypeWithHandle {
var bound_type_params = BoundTypeParams.init(&arena.allocator);
return resolveTypeOfNodeInternal(store, arena, node_handle, &bound_type_params);
}
@ -773,17 +880,17 @@ pub const NodeWithHandle = struct {
handle: *DocumentStore.Handle,
};
pub fn getFieldAccessTypeNode(
pub fn getFieldAccessType(
store: *DocumentStore,
arena: *std.heap.ArenaAllocator,
handle: *DocumentStore.Handle,
source_index: usize,
tokenizer: *std.zig.Tokenizer,
) !?NodeWithHandle {
var current_node = NodeWithHandle{
) !?TypeWithHandle {
var current_type = TypeWithHandle.typeVal(.{
.node = &handle.tree.root_node.base,
.handle = handle,
};
});
// TODO Actually bind params here when calling functions instead of just skipping args.
var bound_type_params = BoundTypeParams.init(&arena.allocator);
@ -791,27 +898,38 @@ pub fn getFieldAccessTypeNode(
while (true) {
const tok = tokenizer.next();
switch (tok.id) {
.Eof => return try resolveFieldAccessLhsType(store, arena, current_node, &bound_type_params),
.Eof => return try resolveFieldAccessLhsType(store, arena, current_type, &bound_type_params),
.Identifier => {
if (try lookupSymbolGlobal(store, arena, current_node.handle, tokenizer.buffer[tok.loc.start..tok.loc.end], source_index)) |child| {
current_node = (try child.resolveType(store, arena, &bound_type_params)) orelse return null;
if (try lookupSymbolGlobal(store, arena, current_type.handle, tokenizer.buffer[tok.loc.start..tok.loc.end], source_index)) |child| {
current_type = (try child.resolveType(store, arena, &bound_type_params)) orelse return null;
} else return null;
},
.Period => {
const after_period = tokenizer.next();
switch (after_period.id) {
.Eof => return try resolveFieldAccessLhsType(store, arena, current_node, &bound_type_params),
.Eof => return try resolveFieldAccessLhsType(store, arena, current_type, &bound_type_params),
.Identifier => {
if (after_period.loc.end == tokenizer.buffer.len)
return try resolveFieldAccessLhsType(store, arena, current_node, &bound_type_params);
return try resolveFieldAccessLhsType(store, arena, current_type, &bound_type_params);
current_node = try resolveFieldAccessLhsType(store, arena, current_node, &bound_type_params);
if (try lookupSymbolContainer(store, arena, current_node, tokenizer.buffer[after_period.loc.start..after_period.loc.end], true)) |child| {
current_node = (try child.resolveType(store, arena, &bound_type_params)) orelse return null;
current_type = try resolveFieldAccessLhsType(store, arena, current_type, &bound_type_params);
const current_type_node = switch (current_type.type.data) {
.other => |n| n,
else => return null,
};
if (try lookupSymbolContainer(
store,
arena,
.{ .node = current_type_node, .handle = current_type.handle },
tokenizer.buffer[after_period.loc.start..after_period.loc.end],
!current_type.type.is_type_val,
)) |child| {
current_type = (try child.resolveType(store, arena, &bound_type_params)) orelse return null;
} else return null;
},
.QuestionMark => {
current_node = (try resolveUnwrapOptionalType(store, arena, current_node, &bound_type_params)) orelse return null;
current_type = (try resolveUnwrapOptionalType(store, arena, current_type, &bound_type_params)) orelse return null;
},
else => {
std.debug.warn("Unrecognized token {} after period.\n", .{after_period.id});
@ -820,29 +938,32 @@ pub fn getFieldAccessTypeNode(
}
},
.PeriodAsterisk => {
current_node = (try resolveDerefType(store, arena, current_node, &bound_type_params)) orelse return null;
current_type = (try resolveDerefType(store, arena, current_type, &bound_type_params)) orelse return null;
},
.LParen => {
switch (current_node.node.id) {
.FnProto => {
const func = current_node.node.cast(ast.Node.FnProto).?;
if (try resolveReturnType(store, arena, func, current_node.handle, &bound_type_params)) |ret| {
current_node = ret;
// Skip to the right paren
var paren_count: usize = 1;
var next = tokenizer.next();
while (next.id != .Eof) : (next = tokenizer.next()) {
if (next.id == .RParen) {
paren_count -= 1;
if (paren_count == 0) break;
} else if (next.id == .LParen) {
paren_count += 1;
}
} else return null;
const current_type_node = switch (current_type.type.data) {
.other => |n| n,
else => return null,
};
// Can't call a function type, we need a function type instance.
if (current_type.type.is_type_val) return null;
if (current_type_node.cast(ast.Node.FnProto)) |func| {
if (try resolveReturnType(store, arena, func, current_type.handle, &bound_type_params)) |ret| {
current_type = ret;
// Skip to the right paren
var paren_count: usize = 1;
var next = tokenizer.next();
while (next.id != .Eof) : (next = tokenizer.next()) {
if (next.id == .RParen) {
paren_count -= 1;
if (paren_count == 0) break;
} else if (next.id == .LParen) {
paren_count += 1;
}
} else return null;
},
else => {},
}
} else return null;
} else return null;
},
.LBracket => {
var brack_count: usize = 1;
@ -859,7 +980,7 @@ pub fn getFieldAccessTypeNode(
}
} else return null;
current_node = (try resolveBracketAccessType(store, arena, current_node, if (is_range) .Range else .Single, &bound_type_params)) orelse return null;
current_type = (try resolveBracketAccessType(store, arena, current_type, if (is_range) .Range else .Single, &bound_type_params)) orelse return null;
},
else => {
std.debug.warn("Unimplemented token: {}\n", .{tok.id});
@ -868,7 +989,7 @@ pub fn getFieldAccessTypeNode(
}
}
return try resolveFieldAccessLhsType(store, arena, current_node, &bound_type_params);
return try resolveFieldAccessLhsType(store, arena, current_type, &bound_type_params);
}
pub fn isNodePublic(tree: *ast.Tree, node: *ast.Node) bool {
@ -1053,6 +1174,8 @@ pub fn documentPositionContext(allocator: *std.mem.Allocator, document: types.Te
.Keyword_break, .Keyword_continue => curr_ctx.ctx = .pre_label,
.Colon => if (curr_ctx.ctx == .pre_label) {
curr_ctx.ctx = .label;
} else {
curr_ctx.ctx = .empty;
},
.QuestionMark => switch (curr_ctx.ctx) {
.field_access => {},
@ -1215,7 +1338,7 @@ pub const DeclWithHandle = struct {
};
}
fn resolveType(self: DeclWithHandle, store: *DocumentStore, arena: *std.heap.ArenaAllocator, bound_type_params: *BoundTypeParams) !?NodeWithHandle {
fn resolveType(self: DeclWithHandle, store: *DocumentStore, arena: *std.heap.ArenaAllocator, bound_type_params: *BoundTypeParams) !?TypeWithHandle {
return switch (self.decl.*) {
.ast_node => |node| try resolveTypeOfNodeInternal(store, arena, .{ .node = node, .handle = self.handle }, bound_type_params),
.param_decl => |param_decl| switch (param_decl.param_type) {
@ -1227,7 +1350,12 @@ pub const DeclWithHandle = struct {
}
return null;
}
return try resolveTypeOfNodeInternal(store, arena, .{ .node = type_node, .handle = self.handle }, bound_type_params);
return ((try resolveTypeOfNodeInternal(
store,
arena,
.{ .node = type_node, .handle = self.handle },
bound_type_params,
)) orelse return null).instanceTypeVal();
},
else => null,
},
@ -1304,7 +1432,11 @@ pub fn iterateSymbolsContainer(
for (container_scope.uses) |use| {
if (handle != orig_handle and use.visib_token == null) continue;
const use_expr = (try resolveTypeOfNode(store, arena, .{ .node = use.expr, .handle = handle })) orelse continue;
try iterateSymbolsContainer(store, arena, use_expr, orig_handle, callback, context, false);
const use_expr_node = switch (use_expr.type.data) {
.other => |n| n,
else => continue,
};
try iterateSymbolsContainer(store, arena, .{ .node = use_expr_node, .handle = use_expr.handle }, orig_handle, callback, context, false);
}
}
@ -1351,7 +1483,11 @@ pub fn iterateSymbolsGlobal(
for (scope.uses) |use| {
const use_expr = (try resolveTypeOfNode(store, arena, .{ .node = use.expr, .handle = handle })) orelse continue;
try iterateSymbolsContainer(store, arena, use_expr, handle, callback, context, false);
const use_expr_node = switch (use_expr.type.data) {
.other => |n| n,
else => continue,
};
try iterateSymbolsContainer(store, arena, .{ .node = use_expr_node, .handle = use_expr.handle }, handle, callback, context, false);
}
}
@ -1359,9 +1495,9 @@ pub fn iterateSymbolsGlobal(
}
}
pub fn innermostContainer(handle: *DocumentStore.Handle, source_index: usize) NodeWithHandle {
pub fn innermostContainer(handle: *DocumentStore.Handle, source_index: usize) TypeWithHandle {
var current = handle.document_scope.scopes[0].data.container;
if (handle.document_scope.scopes.len == 1) return .{ .node = current, .handle = handle };
if (handle.document_scope.scopes.len == 1) return TypeWithHandle.typeVal(.{ .node = current, .handle = handle });
for (handle.document_scope.scopes[1..]) |scope| {
if (source_index >= scope.range.start and source_index < scope.range.end) {
@ -1372,7 +1508,7 @@ pub fn innermostContainer(handle: *DocumentStore.Handle, source_index: usize) No
}
if (scope.range.start > source_index) break;
}
return .{ .node = current, .handle = handle };
return TypeWithHandle.typeVal(.{ .node = current, .handle = handle });
}
fn resolveUse(
@ -1384,7 +1520,11 @@ fn resolveUse(
) error{OutOfMemory}!?DeclWithHandle {
for (uses) |use| {
const use_expr = (try resolveTypeOfNode(store, arena, .{ .node = use.expr, .handle = handle })) orelse continue;
if (try lookupSymbolContainer(store, arena, use_expr, symbol, false)) |candidate| {
const use_expr_node = switch (use_expr.type.data) {
.other => |n| n,
else => continue,
};
if (try lookupSymbolContainer(store, arena, .{ .node = use_expr_node, .handle = use_expr.handle }, symbol, false)) |candidate| {
if (candidate.handle != handle and !candidate.isPublic()) {
continue;
}

View File

@ -202,11 +202,44 @@ fn publishDiagnostics(handle: DocumentStore.Handle, config: Config) !void {
});
}
fn typeToCompletion(
arena: *std.heap.ArenaAllocator,
list: *std.ArrayList(types.CompletionItem),
type_handle: analysis.TypeWithHandle,
orig_handle: *DocumentStore.Handle,
config: Config,
) error{OutOfMemory}!void {
switch (type_handle.type.data) {
.slice => {
if (!type_handle.type.is_type_val) {
try list.append(.{
.label = "len",
.kind = .Field,
});
try list.append(.{
.label = "ptr",
.kind = .Field,
});
}
},
.error_union => {},
.other => |n| try nodeToCompletion(
arena,
list,
.{ .node = n, .handle = type_handle.handle },
orig_handle,
type_handle.type.is_type_val,
config,
),
}
}
fn nodeToCompletion(
arena: *std.heap.ArenaAllocator,
list: *std.ArrayList(types.CompletionItem),
node_handle: analysis.NodeWithHandle,
orig_handle: *DocumentStore.Handle,
is_type_val: bool,
config: Config,
) error{OutOfMemory}!void {
const node = node_handle.node;
@ -226,31 +259,36 @@ fn nodeToCompletion(
else
null;
if (node.id == .ErrorSetDecl or node.id == .Root or node.id == .ContainerDecl) {
const context = DeclToCompletionContext{
.completions = list,
.config = &config,
.arena = arena,
.orig_handle = orig_handle,
};
try analysis.iterateSymbolsContainer(&document_store, arena, node_handle, orig_handle, declToCompletion, context, !is_type_val);
}
if (is_type_val) return;
switch (node.id) {
.ErrorSetDecl, .Root, .ContainerDecl => {
const context = DeclToCompletionContext{
.completions = list,
.config = &config,
.arena = arena,
.orig_handle = orig_handle,
};
try analysis.iterateSymbolsContainer(&document_store, arena, node_handle, orig_handle, declToCompletion, context, true);
},
.FnProto => {
const func = node.cast(std.zig.ast.Node.FnProto).?;
if (func.name_token) |name_token| {
const use_snippets = config.enable_snippets and client_capabilities.supports_snippets;
const insert_text = if (use_snippets) blk: {
// TODO Also check if we are dot accessing from a type val and dont skip in that case.
const skip_self_param = if (func.params_len > 0) param_check: {
const in_container = analysis.innermostContainer(handle, handle.tree.token_locs[func.firstToken()].start);
switch (func.paramsConst()[0].param_type) {
.type_expr => |type_node| {
if (try analysis.resolveTypeOfNode(&document_store, arena, .{
.node = type_node,
.handle = handle,
})) |resolved_type| {
if (in_container.node == resolved_type.node)
if (std.meta.eql(in_container, resolved_type))
break :param_check true;
}
@ -260,7 +298,7 @@ fn nodeToCompletion(
.node = prefix_op.rhs,
.handle = handle,
})) |resolved_prefix_op| {
if (in_container.node == resolved_prefix_op.node)
if (std.meta.eql(in_container, resolved_prefix_op))
break :param_check true;
}
}
@ -548,8 +586,18 @@ fn getSymbolFieldAccess(
const line = try handle.document.getLine(@intCast(usize, position.line));
var tokenizer = std.zig.Tokenizer.init(line[range.start..range.end]);
if (try analysis.getFieldAccessTypeNode(&document_store, arena, handle, pos_index, &tokenizer)) |container_handle| {
return try analysis.lookupSymbolContainer(&document_store, arena, container_handle, name, true);
if (try analysis.getFieldAccessType(&document_store, arena, handle, pos_index, &tokenizer)) |container_handle| {
const container_handle_node = switch (container_handle.type.data) {
.other => |n| n,
else => return null,
};
return try analysis.lookupSymbolContainer(
&document_store,
arena,
.{ .node = container_handle_node, .handle = container_handle.handle },
name,
true,
);
}
return null;
}
@ -621,7 +669,7 @@ fn declToCompletion(context: DeclToCompletionContext, decl_handle: analysis.Decl
const tree = decl_handle.handle.tree;
switch (decl_handle.decl.*) {
.ast_node => |node| try nodeToCompletion(context.arena, context.completions, .{ .node = node, .handle = decl_handle.handle }, context.orig_handle, context.config.*),
.ast_node => |node| try nodeToCompletion(context.arena, context.completions, .{ .node = node, .handle = decl_handle.handle }, context.orig_handle, false, context.config.*),
.param_decl => |param| {
const doc_kind: types.MarkupKind = if (client_capabilities.completion_doc_supports_md) .Markdown else .PlainText;
const doc = if (param.doc_comments) |doc_comments|
@ -728,8 +776,8 @@ fn completeFieldAccess(id: types.RequestId, handle: *DocumentStore.Handle, posit
var tokenizer = std.zig.Tokenizer.init(line[range.start..range.end]);
const pos_index = try handle.document.positionToIndex(position);
if (try analysis.getFieldAccessTypeNode(&document_store, &arena, handle, pos_index, &tokenizer)) |node| {
try nodeToCompletion(&arena, &completions, node, handle, config);
if (try analysis.getFieldAccessType(&document_store, &arena, handle, pos_index, &tokenizer)) |node| {
try typeToCompletion(&arena, &completions, node, handle, config);
}
try send(types.Response{