//! This type exists only for legacy purposes, and will be removed in the future. //! It is a thin wrapper around a `Value` which also, redundantly, stores its `Type`. const std = @import("std"); const Type = @import("type.zig").Type; const Value = @import("Value.zig"); const Zcu = @import("Module.zig"); const Module = Zcu; const Sema = @import("Sema.zig"); const InternPool = @import("InternPool.zig"); const Allocator = std.mem.Allocator; const Target = std.Target; const max_aggregate_items = 100; const max_string_len = 256; const FormatContext = struct { val: Value, mod: *Module, opt_sema: ?*Sema, }; pub fn format( ctx: FormatContext, comptime fmt: []const u8, options: std.fmt.FormatOptions, writer: anytype, ) !void { _ = options; comptime std.debug.assert(fmt.len == 0); return print(ctx.val, writer, 3, ctx.mod, ctx.opt_sema) catch |err| switch (err) { error.OutOfMemory => @panic("OOM"), // We're not allowed to return this from a format function error.ComptimeBreak, error.ComptimeReturn => unreachable, error.AnalysisFail, error.NeededSourceLocation => unreachable, // TODO: re-evaluate when we use `opt_sema` more fully else => |e| return e, }; } pub fn print( val: Value, writer: anytype, level: u8, mod: *Module, /// If this `Sema` is provided, we will recurse through pointers where possible to provide friendly output. opt_sema: ?*Sema, ) (@TypeOf(writer).Error || Module.CompileError)!void { const ip = &mod.intern_pool; switch (ip.indexToKey(val.toIntern())) { .int_type, .ptr_type, .array_type, .vector_type, .opt_type, .anyframe_type, .error_union_type, .simple_type, .struct_type, .anon_struct_type, .union_type, .opaque_type, .enum_type, .func_type, .error_set_type, .inferred_error_set_type, => try Type.print(val.toType(), writer, mod), .undef => try writer.writeAll("undefined"), .simple_value => |simple_value| switch (simple_value) { .void => try writer.writeAll("{}"), .empty_struct => try writer.writeAll(".{}"), .generic_poison => try writer.writeAll("(generic poison)"), else => try writer.writeAll(@tagName(simple_value)), }, .variable => try writer.writeAll("(variable)"), .extern_func => |extern_func| try writer.print("(extern function '{}')", .{ mod.declPtr(extern_func.decl).name.fmt(ip), }), .func => |func| try writer.print("(function '{}')", .{ mod.declPtr(func.owner_decl).name.fmt(ip), }), .int => |int| switch (int.storage) { inline .u64, .i64, .big_int => |x| try writer.print("{}", .{x}), .lazy_align => |ty| if (opt_sema) |sema| { const a = (try Type.fromInterned(ty).abiAlignmentAdvanced(mod, .{ .sema = sema })).scalar; try writer.print("{}", .{a.toByteUnits() orelse 0}); } else try writer.print("@alignOf({})", .{Type.fromInterned(ty).fmt(mod)}), .lazy_size => |ty| if (opt_sema) |sema| { const s = (try Type.fromInterned(ty).abiSizeAdvanced(mod, .{ .sema = sema })).scalar; try writer.print("{}", .{s}); } else try writer.print("@sizeOf({})", .{Type.fromInterned(ty).fmt(mod)}), }, .err => |err| try writer.print("error.{}", .{ err.name.fmt(ip), }), .error_union => |error_union| switch (error_union.val) { .err_name => |err_name| try writer.print("error.{}", .{ err_name.fmt(ip), }), .payload => |payload| try print(Value.fromInterned(payload), writer, level, mod, opt_sema), }, .enum_literal => |enum_literal| try writer.print(".{}", .{ enum_literal.fmt(ip), }), .enum_tag => |enum_tag| { const enum_type = ip.loadEnumType(val.typeOf(mod).toIntern()); if (enum_type.tagValueIndex(ip, val.toIntern())) |tag_index| { return writer.print(".{i}", .{enum_type.names.get(ip)[tag_index].fmt(ip)}); } if (level == 0) { return writer.writeAll("@enumFromInt(...)"); } try writer.writeAll("@enumFromInt("); try print(Value.fromInterned(enum_tag.int), writer, level - 1, mod, opt_sema); try writer.writeAll(")"); }, .empty_enum_value => try writer.writeAll("(empty enum value)"), .float => |float| switch (float.storage) { inline else => |x| try writer.print("{d}", .{@as(f64, @floatCast(x))}), }, .slice => |slice| { const print_contents = switch (ip.getBackingAddrTag(slice.ptr).?) { .field, .arr_elem, .eu_payload, .opt_payload => unreachable, .anon_decl, .comptime_alloc, .comptime_field => true, .decl, .int => false, }; if (print_contents) { // TODO: eventually we want to load the slice as an array with `opt_sema`, but that's // currently not possible without e.g. triggering compile errors. } try printPtr(Value.fromInterned(slice.ptr), writer, level, mod, opt_sema); try writer.writeAll("[0.."); if (level == 0) { try writer.writeAll("(...)"); } else { try print(Value.fromInterned(slice.len), writer, level - 1, mod, opt_sema); } try writer.writeAll("]"); }, .ptr => { const print_contents = switch (ip.getBackingAddrTag(val.toIntern()).?) { .field, .arr_elem, .eu_payload, .opt_payload => unreachable, .anon_decl, .comptime_alloc, .comptime_field => true, .decl, .int => false, }; if (print_contents) { // TODO: eventually we want to load the pointer with `opt_sema`, but that's // currently not possible without e.g. triggering compile errors. } try printPtr(val, writer, level, mod, opt_sema); }, .opt => |opt| switch (opt.val) { .none => try writer.writeAll("null"), else => |payload| try print(Value.fromInterned(payload), writer, level, mod, opt_sema), }, .aggregate => |aggregate| try printAggregate(val, aggregate, false, writer, level, mod, opt_sema), .un => |un| { if (level == 0) { try writer.writeAll(".{ ... }"); return; } if (un.tag == .none) { const backing_ty = try val.typeOf(mod).unionBackingType(mod); try writer.print("@bitCast(@as({}, ", .{backing_ty.fmt(mod)}); try print(Value.fromInterned(un.val), writer, level - 1, mod, opt_sema); try writer.writeAll("))"); } else { try writer.writeAll(".{ "); try print(Value.fromInterned(un.tag), writer, level - 1, mod, opt_sema); try writer.writeAll(" = "); try print(Value.fromInterned(un.val), writer, level - 1, mod, opt_sema); try writer.writeAll(" }"); } }, .memoized_call => unreachable, } } fn printAggregate( val: Value, aggregate: InternPool.Key.Aggregate, is_ref: bool, writer: anytype, level: u8, zcu: *Zcu, opt_sema: ?*Sema, ) (@TypeOf(writer).Error || Module.CompileError)!void { if (level == 0) { if (is_ref) try writer.writeByte('&'); return writer.writeAll(".{ ... }"); } const ip = &zcu.intern_pool; const ty = Type.fromInterned(aggregate.ty); switch (ty.zigTypeTag(zcu)) { .Struct => if (!ty.isTuple(zcu)) { if (is_ref) try writer.writeByte('&'); if (ty.structFieldCount(zcu) == 0) { return writer.writeAll(".{}"); } try writer.writeAll(".{ "); const max_len = @min(ty.structFieldCount(zcu), max_aggregate_items); for (0..max_len) |i| { if (i != 0) try writer.writeAll(", "); const field_name = ty.structFieldName(@intCast(i), zcu).unwrap().?; try writer.print(".{i} = ", .{field_name.fmt(ip)}); try print(try val.fieldValue(zcu, i), writer, level - 1, zcu, opt_sema); } try writer.writeAll(" }"); return; }, .Array => { switch (aggregate.storage) { .bytes => |bytes| string: { const len = ty.arrayLenIncludingSentinel(zcu); if (len == 0) break :string; const slice = bytes.toSlice(if (bytes.at(len - 1, ip) == 0) len - 1 else len, ip); try writer.print("\"{}\"", .{std.zig.fmtEscapes(slice)}); if (!is_ref) try writer.writeAll(".*"); return; }, .elems, .repeated_elem => {}, } switch (ty.arrayLen(zcu)) { 0 => { if (is_ref) try writer.writeByte('&'); return writer.writeAll(".{}"); }, 1 => one_byte_str: { // The repr isn't `bytes`, but we might still be able to print this as a string if (ty.childType(zcu).toIntern() != .u8_type) break :one_byte_str; const elem_val = Value.fromInterned(aggregate.storage.values()[0]); if (elem_val.isUndef(zcu)) break :one_byte_str; const byte = elem_val.toUnsignedInt(zcu); try writer.print("\"{}\"", .{std.zig.fmtEscapes(&.{@intCast(byte)})}); if (!is_ref) try writer.writeAll(".*"); return; }, else => {}, } }, .Vector => if (ty.arrayLen(zcu) == 0) { if (is_ref) try writer.writeByte('&'); return writer.writeAll(".{}"); }, else => unreachable, } const len = ty.arrayLen(zcu); if (is_ref) try writer.writeByte('&'); try writer.writeAll(".{ "); const max_len = @min(len, max_aggregate_items); for (0..max_len) |i| { if (i != 0) try writer.writeAll(", "); try print(try val.fieldValue(zcu, i), writer, level - 1, zcu, opt_sema); } if (len > max_aggregate_items) { try writer.writeAll(", ..."); } return writer.writeAll(" }"); } fn printPtr(ptr_val: Value, writer: anytype, level: u8, zcu: *Zcu, opt_sema: ?*Sema) (@TypeOf(writer).Error || Module.CompileError)!void { const ptr = switch (zcu.intern_pool.indexToKey(ptr_val.toIntern())) { .undef => return writer.writeAll("undefined"), .ptr => |ptr| ptr, else => unreachable, }; if (ptr.base_addr == .anon_decl) { // If the value is an aggregate, we can potentially print it more nicely. switch (zcu.intern_pool.indexToKey(ptr.base_addr.anon_decl.val)) { .aggregate => |agg| return printAggregate( Value.fromInterned(ptr.base_addr.anon_decl.val), agg, true, writer, level, zcu, opt_sema, ), else => {}, } } var arena = std.heap.ArenaAllocator.init(zcu.gpa); defer arena.deinit(); const derivation = try ptr_val.pointerDerivationAdvanced(arena.allocator(), zcu, opt_sema); try printPtrDerivation(derivation, writer, level, zcu, opt_sema); } /// Print `derivation` as an lvalue, i.e. such that writing `&` before this gives the pointer value. fn printPtrDerivation(derivation: Value.PointerDeriveStep, writer: anytype, level: u8, zcu: *Zcu, opt_sema: ?*Sema) (@TypeOf(writer).Error || Module.CompileError)!void { const ip = &zcu.intern_pool; switch (derivation) { .int => |int| try writer.print("@as({}, @ptrFromInt({x})).*", .{ int.ptr_ty.fmt(zcu), int.addr, }), .decl_ptr => |decl| { try zcu.declPtr(decl).renderFullyQualifiedName(zcu, writer); }, .anon_decl_ptr => |anon| { const ty = Value.fromInterned(anon.val).typeOf(zcu); try writer.print("@as({}, ", .{ty.fmt(zcu)}); try print(Value.fromInterned(anon.val), writer, level - 1, zcu, opt_sema); try writer.writeByte(')'); }, .comptime_alloc_ptr => |info| { try writer.print("@as({}, ", .{info.val.typeOf(zcu).fmt(zcu)}); try print(info.val, writer, level - 1, zcu, opt_sema); try writer.writeByte(')'); }, .comptime_field_ptr => |val| { const ty = val.typeOf(zcu); try writer.print("@as({}, ", .{ty.fmt(zcu)}); try print(val, writer, level - 1, zcu, opt_sema); try writer.writeByte(')'); }, .eu_payload_ptr => |info| { try writer.writeByte('('); try printPtrDerivation(info.parent.*, writer, level, zcu, opt_sema); try writer.writeAll(" catch unreachable)"); }, .opt_payload_ptr => |info| { try printPtrDerivation(info.parent.*, writer, level, zcu, opt_sema); try writer.writeAll(".?"); }, .field_ptr => |field| { try printPtrDerivation(field.parent.*, writer, level, zcu, opt_sema); const agg_ty = (try field.parent.ptrType(zcu)).childType(zcu); switch (agg_ty.zigTypeTag(zcu)) { .Struct => if (agg_ty.structFieldName(field.field_idx, zcu).unwrap()) |field_name| { try writer.print(".{i}", .{field_name.fmt(ip)}); } else { try writer.print("[{d}]", .{field.field_idx}); }, .Union => { const tag_ty = agg_ty.unionTagTypeHypothetical(zcu); const field_name = tag_ty.enumFieldName(field.field_idx, zcu); try writer.print(".{i}", .{field_name.fmt(ip)}); }, .Pointer => switch (field.field_idx) { Value.slice_ptr_index => try writer.writeAll(".ptr"), Value.slice_len_index => try writer.writeAll(".len"), else => unreachable, }, else => unreachable, } }, .elem_ptr => |elem| { try printPtrDerivation(elem.parent.*, writer, level, zcu, opt_sema); try writer.print("[{d}]", .{elem.elem_idx}); }, .offset_and_cast => |oac| if (oac.byte_offset == 0) { try writer.print("@as({}, @ptrCast(", .{oac.new_ptr_ty.fmt(zcu)}); try printPtrDerivation(oac.parent.*, writer, level, zcu, opt_sema); try writer.writeAll("))"); } else { try writer.print("@as({}, @ptrFromInt(@intFromPtr(", .{oac.new_ptr_ty.fmt(zcu)}); try printPtrDerivation(oac.parent.*, writer, level, zcu, opt_sema); try writer.print(") + {d}))", .{oac.byte_offset}); }, } }