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implement field access in comptime interpreter

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Techatrix 2023-01-23 21:29:24 +01:00
parent 9dbae69288
commit 497f1e1b23
1 changed files with 197 additions and 48 deletions
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217
src/ComptimeInterpreter.zig
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@ -161,7 +161,7 @@ pub fn huntItDown(
namespace: NamespaceIndex, namespace: NamespaceIndex,
decl_name: []const u8, decl_name: []const u8,
options: InterpretOptions, options: InterpretOptions,
) error{IdentifierNotFound}!Decl { ) ?Decl {
_ = options; _ = options;
var current_namespace = namespace; var current_namespace = namespace;
@ -174,7 +174,7 @@ pub fn huntItDown(
} }
} }
return error.IdentifierNotFound; return null;
} }
// Might be useful in the future // Might be useful in the future
@ -303,15 +303,20 @@ pub fn interpret(
const decl = ast.varDecl(tree, node_idx).?; const decl = ast.varDecl(tree, node_idx).?;
if (decl.ast.init_node == 0) const type_value = if (decl.ast.type_node != 0) try ((try interpreter.interpret(decl.ast.type_node, namespace, .{})).getValue()) else null;
return InterpretResult{ .nothing = {} }; const init_value = if (decl.ast.init_node != 0) try ((try interpreter.interpret(decl.ast.init_node, namespace, .{})).getValue()) else null;
const init_type_value = try ((try interpreter.interpret(decl.ast.init_node, namespace, .{})).getValue()); if (type_value == null and init_value == null) return InterpretResult{ .nothing = {} };
if (type_value) |v| {
const type_type = try interpreter.ip.get(interpreter.allocator, IPKey{ .simple = .type });
if (v.ty != type_type) return InterpretResult{ .nothing = {} };
}
try decls.putNoClobber(interpreter.allocator, name, .{ try decls.putNoClobber(interpreter.allocator, name, .{
.name = name, .name = name,
.ty = init_type_value.ty, .ty = if (type_value) |v| v.val else init_value.?.ty,
.val = init_type_value.val, .val = if (init_value) |init| init.val else .none,
.alignment = 0, // TODO .alignment = 0, // TODO
.address_space = .generic, // TODO .address_space = .generic, // TODO
.is_pub = true, // TODO .is_pub = true, // TODO
@ -377,7 +382,7 @@ pub fn interpret(
return InterpretResult{ .nothing = {} }; return InterpretResult{ .nothing = {} };
}, },
.identifier => { .identifier => {
const value = offsets.nodeToSlice(tree, node_idx); const identifier = offsets.nodeToSlice(tree, node_idx);
const simples = std.ComptimeStringMap(InternPool.Simple, .{ const simples = std.ComptimeStringMap(InternPool.Simple, .{
.{ "anyerror", .anyerror }, .{ "anyerror", .anyerror },
@ -411,7 +416,7 @@ pub fn interpret(
.{ "void", .void }, .{ "void", .void },
}); });
if (simples.get(value)) |simple| { if (simples.get(identifier)) |simple| {
return InterpretResult{ .value = Value{ return InterpretResult{ .value = Value{
.interpreter = interpreter, .interpreter = interpreter,
.node_idx = node_idx, .node_idx = node_idx,
@ -420,65 +425,209 @@ pub fn interpret(
} }; } };
} }
if (value.len >= 2 and (value[0] == 'u' or value[0] == 'i')) blk: { if (identifier.len >= 2 and (identifier[0] == 'u' or identifier[0] == 'i')) blk: {
return InterpretResult{ .value = Value{ return InterpretResult{ .value = Value{
.interpreter = interpreter, .interpreter = interpreter,
.node_idx = node_idx, .node_idx = node_idx,
.ty = try interpreter.ip.get(interpreter.allocator, IPKey{ .simple = .type }), .ty = try interpreter.ip.get(interpreter.allocator, IPKey{ .simple = .type }),
.val = try interpreter.ip.get(interpreter.allocator, IPKey{ .int_type = .{ .val = try interpreter.ip.get(interpreter.allocator, IPKey{ .int_type = .{
.signedness = if (value[0] == 'u') .unsigned else .signed, .signedness = if (identifier[0] == 'u') .unsigned else .signed,
.bits = std.fmt.parseInt(u16, value[1..], 10) catch break :blk, .bits = std.fmt.parseInt(u16, identifier[1..], 10) catch break :blk,
} }), } }),
} }; } };
} }
// Logic to find identifiers in accessible scopes // Logic to find identifiers in accessible scopes
const decl = interpreter.huntItDown(namespace, value, options) catch |err| switch (err) { if (interpreter.huntItDown(namespace, identifier, options)) |decl| {
error.IdentifierNotFound => |e| {
try interpreter.recordError(
node_idx,
"undeclared_identifier",
"use of undeclared identifier '{s}'",
.{value},
);
return e;
},
};
return InterpretResult{ .value = Value{ return InterpretResult{ .value = Value{
.interpreter = interpreter, .interpreter = interpreter,
.node_idx = node_idx, .node_idx = node_idx,
.ty = decl.ty, .ty = decl.ty,
.val = decl.val, .val = decl.val,
} }; } };
}
try interpreter.recordError(
node_idx,
"undeclared_identifier",
"use of undeclared identifier '{s}'",
.{identifier},
);
return error.IdentifierNotFound;
}, },
.field_access => { .field_access => {
if (data[node_idx].rhs == 0) return error.CriticalAstFailure; if (data[node_idx].rhs == 0) return error.CriticalAstFailure;
const rhs_str = tree.tokenSlice(data[node_idx].rhs); const field_name = tree.tokenSlice(data[node_idx].rhs);
var ir = try interpreter.interpret(data[node_idx].lhs, namespace, options); var ir = try interpreter.interpret(data[node_idx].lhs, namespace, options);
var irv = try ir.getValue(); var irv = try ir.getValue();
const lhs_namespace = interpreter.ip.indexToKey(irv.val).getNamespace(); const lhs = interpreter.ip.indexToKey(irv.ty);
const inner_lhs = switch (lhs) {
.pointer_type => |info| if (info.size == .One) interpreter.ip.indexToKey(info.elem_type) else lhs,
else => lhs,
};
var scope_sub_decl = irv.interpreter.huntItDown(lhs_namespace, rhs_str, options) catch |err| switch (err) { const can_have_fields: bool = switch (inner_lhs) {
error.IdentifierNotFound => |e| { .simple => |simple| switch (simple) {
.type => blk: {
const ty_key = interpreter.ip.indexToKey(irv.val);
if (interpreter.huntItDown(ty_key.getNamespace(), field_name, options)) |decl| {
std.debug.print("here {s}: {}\n", .{field_name, decl.ty.fmtType(interpreter.ip)});
return InterpretResult{ .value = Value{
.interpreter = interpreter,
.node_idx = node_idx,
.ty = decl.ty,
.val = decl.val,
} };
}
switch (ty_key) {
.error_set_type => |error_set_info| { // TODO
_ = error_set_info;
},
.union_type => {}, // TODO
.enum_type => |enum_info| { // TODO
if (interpreter.ip.contains(IPKey{ .bytes = field_name })) |field_name_index| {
for (enum_info.fields) |field| {
if (field.name != field_name_index) continue;
return InterpretResult{
.value = Value{
.interpreter = interpreter,
.node_idx = data[node_idx].rhs,
.ty = irv.val,
.val = .none, // TODO resolve enum value
},
};
}
}
},
else => break :blk false,
}
break :blk true;
},
else => false,
},
.pointer_type => |pointer_info| blk: {
if (pointer_info.size == .Slice) {
if (std.mem.eql(u8, field_name, "ptr")) {
var many_ptr_info = InternPool.Key{ .pointer_type = pointer_info };
many_ptr_info.pointer_type.size = .Many;
return InterpretResult{
.value = Value{
.interpreter = interpreter,
.node_idx = data[node_idx].rhs,
.ty = try interpreter.ip.get(interpreter.allocator, many_ptr_info),
.val = .none, // TODO resolve ptr of Slice
},
};
} else if (std.mem.eql(u8, field_name, "len")) {
return InterpretResult{
.value = Value{
.interpreter = interpreter,
.node_idx = data[node_idx].rhs,
.ty = try interpreter.ip.get(interpreter.allocator, .{ .simple = .usize }),
.val = .none, // TODO resolve length of Slice
},
};
}
} else if (interpreter.ip.indexToKey(pointer_info.elem_type) == .array_type) {
if (std.mem.eql(u8, field_name, "len")) {
return InterpretResult{
.value = Value{
.interpreter = interpreter,
.node_idx = data[node_idx].rhs,
.ty = try interpreter.ip.get(interpreter.allocator, .{ .simple = .usize }),
.val = .none, // TODO resolve length of Slice
},
};
}
}
break :blk true;
},
.array_type => |array_info| blk: {
const len_value = try interpreter.ip.get(interpreter.allocator, .{ .int_u64_value = array_info.len });
if (std.mem.eql(u8, field_name, "len")) {
return InterpretResult{ .value = Value{
.interpreter = interpreter,
.node_idx = data[node_idx].rhs,
.ty = try interpreter.ip.get(interpreter.allocator, .{ .simple = .comptime_int }),
.val = len_value,
} };
}
break :blk true;
},
.optional_type => |optional_info| blk: {
if (!std.mem.eql(u8, field_name, "?")) break :blk false;
const null_value = try interpreter.ip.get(interpreter.allocator, .{ .simple = .null_value });
if (irv.val == null_value) {
try interpreter.recordError( try interpreter.recordError(
node_idx, node_idx,
"undeclared_identifier", "null_unwrap",
"`{}` has no member '{s}'", "tried to unwrap optional of type `{}` which was null",
.{ irv.ty.fmtType(interpreter.ip), rhs_str }, .{irv.ty.fmtType(interpreter.ip)},
); );
return e; return error.InvalidOperation;
} else {
return InterpretResult{ .value = Value{
.interpreter = interpreter,
.node_idx = data[node_idx].rhs,
.ty = optional_info.payload_type,
.val = irv.val,
} };
}
}, },
.struct_type => |struct_info| blk: {
// if the intern pool does not contain the field name, it is impossible that there is a field with the given name
const field_name_index = interpreter.ip.contains(IPKey{ .bytes = field_name }) orelse break :blk true;
for (struct_info.fields) |field, i| {
std.debug.print("field {} {}\n", .{field.ty, field.ty.fmtType(interpreter.ip)});
if (field.name != field_name_index) continue;
const val = found_val: {
if (irv.val == .none) break :found_val .none;
const val_key = interpreter.ip.indexToKey(irv.val);
if (val_key != .aggregate) break :found_val .none;
break :found_val val_key.aggregate[i];
}; };
return InterpretResult{ .value = Value{ return InterpretResult{ .value = Value{
.interpreter = interpreter, .interpreter = interpreter,
.node_idx = data[node_idx].rhs, .node_idx = data[node_idx].rhs,
.ty = scope_sub_decl.ty, .ty = field.ty,
.val = scope_sub_decl.val, .val = val,
} }; } };
}
break :blk true;
},
.enum_type => |enum_info| blk: { // TODO
_ = enum_info;
break :blk true;
},
.union_type => |union_info| blk: { // TODO
_ = union_info;
break :blk true;
},
else => false,
};
if (can_have_fields) {
try interpreter.recordError(
node_idx,
"undeclared_identifier",
"`{}` has no member '{s}'",
.{ irv.ty.fmtType(interpreter.ip), field_name },
);
} else {
try interpreter.recordError(
node_idx,
"invalid_field_access",
"`{}` does not support field access",
.{irv.ty.fmtType(interpreter.ip)},
);
}
return error.InvalidOperation;
}, },
.grouped_expression => { .grouped_expression => {
return try interpreter.interpret(data[node_idx].lhs, namespace, options); return try interpreter.interpret(data[node_idx].lhs, namespace, options);