zig/src-self-hosted/type.zig

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const std = @import("std");
const Value = @import("value.zig").Value;
const assert = std.debug.assert;
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const Allocator = std.mem.Allocator;
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const Target = std.Target;
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/// This is the raw data, with no bookkeeping, no memory awareness, no de-duplication.
/// It's important for this struct to be small.
/// It is not copyable since it may contain references to its inner data.
/// Types are not de-duplicated, which helps with multi-threading since it obviates the requirement
/// of obtaining a lock on a global type table, as well as making the
/// garbage collection bookkeeping simpler.
/// This union takes advantage of the fact that the first page of memory
/// is unmapped, giving us 4096 possible enum tags that have no payload.
pub const Type = extern union {
/// If the tag value is less than Tag.no_payload_count, then no pointer
/// dereference is needed.
tag_if_small_enough: usize,
ptr_otherwise: *Payload,
pub fn zigTypeTag(self: Type) std.builtin.TypeId {
switch (self.tag()) {
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.u8,
.i8,
.isize,
.usize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble,
.int_signed,
.int_unsigned,
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=> return .Int,
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.f16,
.f32,
.f64,
.f128,
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=> return .Float,
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.c_void => return .Opaque,
.bool => return .Bool,
.void => return .Void,
.type => return .Type,
.anyerror => return .ErrorSet,
.comptime_int => return .ComptimeInt,
.comptime_float => return .ComptimeFloat,
.noreturn => return .NoReturn,
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.fn_naked_noreturn_no_args => return .Fn,
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.array, .array_u8_sentinel_0 => return .Array,
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.single_const_pointer => return .Pointer,
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.single_const_pointer_to_comptime_int => return .Pointer,
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.const_slice_u8 => return .Pointer,
}
}
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pub fn initTag(comptime small_tag: Tag) Type {
comptime assert(@enumToInt(small_tag) < Tag.no_payload_count);
return .{ .tag_if_small_enough = @enumToInt(small_tag) };
}
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pub fn initPayload(payload: *Payload) Type {
assert(@enumToInt(payload.tag) >= Tag.no_payload_count);
return .{ .ptr_otherwise = payload };
}
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pub fn tag(self: Type) Tag {
if (self.tag_if_small_enough < Tag.no_payload_count) {
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return @intToEnum(Tag, @intCast(@TagType(Tag), self.tag_if_small_enough));
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} else {
return self.ptr_otherwise.tag;
}
}
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pub fn cast(self: Type, comptime T: type) ?*T {
if (self.tag_if_small_enough < Tag.no_payload_count)
return null;
const expected_tag = std.meta.fieldInfo(T, "base").default_value.?.tag;
if (self.ptr_otherwise.tag != expected_tag)
return null;
return @fieldParentPtr(T, "base", self.ptr_otherwise);
}
pub fn eql(self: Type, other: Type) bool {
//std.debug.warn("test {} == {}\n", .{ self, other });
// As a shortcut, if the small tags / addresses match, we're done.
if (self.tag_if_small_enough == other.tag_if_small_enough)
return true;
const zig_tag_a = self.zigTypeTag();
const zig_tag_b = self.zigTypeTag();
if (zig_tag_a != zig_tag_b)
return false;
switch (zig_tag_a) {
.Type => return true,
.Void => return true,
.Bool => return true,
.NoReturn => return true,
.ComptimeFloat => return true,
.ComptimeInt => return true,
.Undefined => return true,
.Null => return true,
.Pointer => {
const is_slice_a = isSlice(self);
const is_slice_b = isSlice(other);
if (is_slice_a != is_slice_b)
return false;
@panic("TODO implement more pointer Type equality comparison");
},
.Int => {
if (self.tag() != other.tag()) {
// Detect that e.g. u64 != usize, even if the bits match on a particular target.
return false;
}
// The target will not be branched upon, because we handled target-dependent cases above.
const info_a = self.intInfo(@as(Target, undefined));
const info_b = self.intInfo(@as(Target, undefined));
return info_a.signed == info_b.signed and info_a.bits == info_b.bits;
},
.Float,
.Array,
.Struct,
.Optional,
.ErrorUnion,
.ErrorSet,
.Enum,
.Union,
.Fn,
.BoundFn,
.Opaque,
.Frame,
.AnyFrame,
.Vector,
.EnumLiteral,
=> @panic("TODO implement more Type equality comparison"),
}
}
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pub fn format(
self: Type,
comptime fmt: []const u8,
options: std.fmt.FormatOptions,
out_stream: var,
) !void {
comptime assert(fmt.len == 0);
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var ty = self;
while (true) {
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const t = ty.tag();
switch (t) {
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.u8,
.i8,
.isize,
.usize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble,
.c_void,
.f16,
.f32,
.f64,
.f128,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
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=> return out_stream.writeAll(@tagName(t)),
.const_slice_u8 => return out_stream.writeAll("[]const u8"),
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.fn_naked_noreturn_no_args => return out_stream.writeAll("fn() callconv(.Naked) noreturn"),
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.single_const_pointer_to_comptime_int => return out_stream.writeAll("*const comptime_int"),
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.array_u8_sentinel_0 => {
const payload = @fieldParentPtr(Payload.Array_u8_Sentinel0, "base", ty.ptr_otherwise);
return out_stream.print("[{}:0]u8", .{payload.len});
},
.array => {
const payload = @fieldParentPtr(Payload.Array, "base", ty.ptr_otherwise);
try out_stream.print("[{}]", .{payload.len});
ty = payload.elem_type;
continue;
},
.single_const_pointer => {
const payload = @fieldParentPtr(Payload.SingleConstPointer, "base", ty.ptr_otherwise);
try out_stream.writeAll("*const ");
ty = payload.pointee_type;
continue;
},
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.int_signed => {
const payload = @fieldParentPtr(Payload.IntSigned, "base", ty.ptr_otherwise);
return out_stream.print("i{}", .{payload.bits});
},
.int_unsigned => {
const payload = @fieldParentPtr(Payload.IntUnsigned, "base", ty.ptr_otherwise);
return out_stream.print("u{}", .{payload.bits});
},
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}
unreachable;
}
}
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pub fn toValue(self: Type, allocator: *Allocator) Allocator.Error!Value {
switch (self.tag()) {
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.u8 => return Value.initTag(.u8_type),
.i8 => return Value.initTag(.i8_type),
.isize => return Value.initTag(.isize_type),
.usize => return Value.initTag(.usize_type),
.c_short => return Value.initTag(.c_short_type),
.c_ushort => return Value.initTag(.c_ushort_type),
.c_int => return Value.initTag(.c_int_type),
.c_uint => return Value.initTag(.c_uint_type),
.c_long => return Value.initTag(.c_long_type),
.c_ulong => return Value.initTag(.c_ulong_type),
.c_longlong => return Value.initTag(.c_longlong_type),
.c_ulonglong => return Value.initTag(.c_ulonglong_type),
.c_longdouble => return Value.initTag(.c_longdouble_type),
.c_void => return Value.initTag(.c_void_type),
.f16 => return Value.initTag(.f16_type),
.f32 => return Value.initTag(.f32_type),
.f64 => return Value.initTag(.f64_type),
.f128 => return Value.initTag(.f128_type),
.bool => return Value.initTag(.bool_type),
.void => return Value.initTag(.void_type),
.type => return Value.initTag(.type_type),
.anyerror => return Value.initTag(.anyerror_type),
.comptime_int => return Value.initTag(.comptime_int_type),
.comptime_float => return Value.initTag(.comptime_float_type),
.noreturn => return Value.initTag(.noreturn_type),
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.fn_naked_noreturn_no_args => return Value.initTag(.fn_naked_noreturn_no_args_type),
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.single_const_pointer_to_comptime_int => return Value.initTag(.single_const_pointer_to_comptime_int_type),
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.const_slice_u8 => return Value.initTag(.const_slice_u8_type),
else => {
const ty_payload = try allocator.create(Value.Payload.Ty);
ty_payload.* = .{ .ty = self };
return Value.initPayload(&ty_payload.base);
},
}
}
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pub fn isSinglePointer(self: Type) bool {
return switch (self.tag()) {
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.u8,
.i8,
.isize,
.usize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble,
.f16,
.f32,
.f64,
.f128,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
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.array,
.array_u8_sentinel_0,
.const_slice_u8,
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.fn_naked_noreturn_no_args,
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.int_unsigned,
.int_signed,
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=> false,
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.single_const_pointer,
.single_const_pointer_to_comptime_int,
=> true,
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};
}
pub fn isSlice(self: Type) bool {
return switch (self.tag()) {
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.u8,
.i8,
.isize,
.usize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble,
.f16,
.f32,
.f64,
.f128,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
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.array,
.array_u8_sentinel_0,
.single_const_pointer,
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.single_const_pointer_to_comptime_int,
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.fn_naked_noreturn_no_args,
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.int_unsigned,
.int_signed,
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=> false,
.const_slice_u8 => true,
};
}
/// Asserts the type is a pointer type.
pub fn pointerIsConst(self: Type) bool {
return switch (self.tag()) {
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.u8,
.i8,
.isize,
.usize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble,
.f16,
.f32,
.f64,
.f128,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
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.array,
.array_u8_sentinel_0,
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.fn_naked_noreturn_no_args,
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.int_unsigned,
.int_signed,
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=> unreachable,
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.single_const_pointer,
.single_const_pointer_to_comptime_int,
.const_slice_u8,
=> true,
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};
}
/// Asserts the type is a pointer or array type.
pub fn elemType(self: Type) Type {
return switch (self.tag()) {
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.u8,
.i8,
.isize,
.usize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble,
.f16,
.f32,
.f64,
.f128,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
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.fn_naked_noreturn_no_args,
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.int_unsigned,
.int_signed,
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=> unreachable,
.array => self.cast(Payload.Array).?.elem_type,
.single_const_pointer => self.cast(Payload.SingleConstPointer).?.pointee_type,
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.array_u8_sentinel_0, .const_slice_u8 => Type.initTag(.u8),
.single_const_pointer_to_comptime_int => Type.initTag(.comptime_int),
};
}
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/// Asserts the type is an array or vector.
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pub fn arrayLen(self: Type) u64 {
return switch (self.tag()) {
.u8,
.i8,
.isize,
.usize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble,
.f16,
.f32,
.f64,
.f128,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
.fn_naked_noreturn_no_args,
.single_const_pointer,
.single_const_pointer_to_comptime_int,
.const_slice_u8,
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.int_unsigned,
.int_signed,
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=> unreachable,
.array => self.cast(Payload.Array).?.len,
.array_u8_sentinel_0 => self.cast(Payload.Array_u8_Sentinel0).?.len,
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};
}
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/// Returns true if and only if the type is a fixed-width, signed integer.
pub fn isSignedInt(self: Type) bool {
return switch (self.tag()) {
.f16,
.f32,
.f64,
.f128,
.c_longdouble,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
.fn_naked_noreturn_no_args,
.array,
.single_const_pointer,
.single_const_pointer_to_comptime_int,
.array_u8_sentinel_0,
.const_slice_u8,
.int_unsigned,
.u8,
.usize,
.c_ushort,
.c_uint,
.c_ulong,
.c_ulonglong,
=> false,
.int_signed,
.i8,
.isize,
.c_short,
.c_int,
.c_long,
.c_longlong,
=> true,
};
}
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/// Asserts the type is a fixed-width integer.
pub fn intInfo(self: Type, target: Target) struct { signed: bool, bits: u16 } {
return switch (self.tag()) {
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.f16,
.f32,
.f64,
.f128,
.c_longdouble,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
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.fn_naked_noreturn_no_args,
.array,
.single_const_pointer,
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.single_const_pointer_to_comptime_int,
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.array_u8_sentinel_0,
.const_slice_u8,
=> unreachable,
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.int_unsigned => .{ .signed = false, .bits = self.cast(Payload.IntUnsigned).?.bits },
.int_signed => .{ .signed = true, .bits = self.cast(Payload.IntSigned).?.bits },
.u8 => .{ .signed = false, .bits = 8 },
.i8 => .{ .signed = true, .bits = 8 },
.usize => .{ .signed = false, .bits = target.cpu.arch.ptrBitWidth() },
.isize => .{ .signed = true, .bits = target.cpu.arch.ptrBitWidth() },
.c_short => .{ .signed = true, .bits = CType.short.sizeInBits(target) },
.c_ushort => .{ .signed = false, .bits = CType.ushort.sizeInBits(target) },
.c_int => .{ .signed = true, .bits = CType.int.sizeInBits(target) },
.c_uint => .{ .signed = false, .bits = CType.uint.sizeInBits(target) },
.c_long => .{ .signed = true, .bits = CType.long.sizeInBits(target) },
.c_ulong => .{ .signed = false, .bits = CType.ulong.sizeInBits(target) },
.c_longlong => .{ .signed = true, .bits = CType.longlong.sizeInBits(target) },
.c_ulonglong => .{ .signed = false, .bits = CType.ulonglong.sizeInBits(target) },
};
}
pub fn isFloat(self: Type) bool {
return switch (self.tag()) {
.f16,
.f32,
.f64,
.f128,
.c_longdouble,
=> true,
else => false,
};
}
/// Asserts the type is a fixed-size float.
pub fn floatBits(self: Type, target: Target) u16 {
return switch (self.tag()) {
.f16 => 16,
.f32 => 32,
.f64 => 64,
.f128 => 128,
.c_longdouble => CType.longdouble.sizeInBits(target),
else => unreachable,
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};
}
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/// Asserts the type is a function.
pub fn fnParamLen(self: Type) usize {
return switch (self.tag()) {
.fn_naked_noreturn_no_args => 0,
.f16,
.f32,
.f64,
.f128,
.c_longdouble,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
.array,
.single_const_pointer,
.single_const_pointer_to_comptime_int,
.array_u8_sentinel_0,
.const_slice_u8,
.u8,
.i8,
.usize,
.isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
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.int_unsigned,
.int_signed,
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=> unreachable,
};
}
/// Asserts the type is a function. The length of the slice must be at least the length
/// given by `fnParamLen`.
pub fn fnParamTypes(self: Type, types: []Type) void {
switch (self.tag()) {
.fn_naked_noreturn_no_args => return,
.f16,
.f32,
.f64,
.f128,
.c_longdouble,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
.array,
.single_const_pointer,
.single_const_pointer_to_comptime_int,
.array_u8_sentinel_0,
.const_slice_u8,
.u8,
.i8,
.usize,
.isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
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.int_unsigned,
.int_signed,
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=> unreachable,
}
}
/// Asserts the type is a function.
pub fn fnReturnType(self: Type) Type {
return switch (self.tag()) {
.fn_naked_noreturn_no_args => Type.initTag(.noreturn),
.f16,
.f32,
.f64,
.f128,
.c_longdouble,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
.array,
.single_const_pointer,
.single_const_pointer_to_comptime_int,
.array_u8_sentinel_0,
.const_slice_u8,
.u8,
.i8,
.usize,
.isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
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.int_unsigned,
.int_signed,
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=> unreachable,
};
}
/// Asserts the type is a function.
pub fn fnCallingConvention(self: Type) std.builtin.CallingConvention {
return switch (self.tag()) {
.fn_naked_noreturn_no_args => .Naked,
.f16,
.f32,
.f64,
.f128,
.c_longdouble,
.c_void,
.bool,
.void,
.type,
.anyerror,
.comptime_int,
.comptime_float,
.noreturn,
.array,
.single_const_pointer,
.single_const_pointer_to_comptime_int,
.array_u8_sentinel_0,
.const_slice_u8,
.u8,
.i8,
.usize,
.isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
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.int_unsigned,
.int_signed,
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=> unreachable,
};
}
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pub fn isNumeric(self: Type) bool {
return switch (self.tag()) {
.f16,
.f32,
.f64,
.f128,
.c_longdouble,
.comptime_int,
.comptime_float,
.u8,
.i8,
.usize,
.isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.int_unsigned,
.int_signed,
=> true,
.c_void,
.bool,
.void,
.type,
.anyerror,
.noreturn,
.fn_naked_noreturn_no_args,
.array,
.single_const_pointer,
.single_const_pointer_to_comptime_int,
.array_u8_sentinel_0,
.const_slice_u8,
=> false,
};
}
pub fn onePossibleValue(self: Type) bool {
var ty = self;
while (true) switch (ty.tag()) {
.f16,
.f32,
.f64,
.f128,
.c_longdouble,
.comptime_int,
.comptime_float,
.u8,
.i8,
.usize,
.isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.bool,
.type,
.anyerror,
.fn_naked_noreturn_no_args,
.single_const_pointer_to_comptime_int,
.array_u8_sentinel_0,
.const_slice_u8,
=> return false,
.c_void,
.void,
.noreturn,
=> return true,
.int_unsigned => return ty.cast(Payload.IntUnsigned).?.bits == 0,
.int_signed => return ty.cast(Payload.IntSigned).?.bits == 0,
.array => {
const array = ty.cast(Payload.Array).?;
if (array.len == 0)
return true;
ty = array.elem_type;
continue;
},
.single_const_pointer => {
const ptr = ty.cast(Payload.SingleConstPointer).?;
ty = ptr.pointee_type;
continue;
},
};
}
pub fn isCPtr(self: Type) bool {
return switch (self.tag()) {
.f16,
.f32,
.f64,
.f128,
.c_longdouble,
.comptime_int,
.comptime_float,
.u8,
.i8,
.usize,
.isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.bool,
.type,
.anyerror,
.fn_naked_noreturn_no_args,
.single_const_pointer_to_comptime_int,
.array_u8_sentinel_0,
.const_slice_u8,
.c_void,
.void,
.noreturn,
.int_unsigned,
.int_signed,
.array,
.single_const_pointer,
=> return false,
};
}
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/// This enum does not directly correspond to `std.builtin.TypeId` because
/// it has extra enum tags in it, as a way of using less memory. For example,
/// even though Zig recognizes `*align(10) i32` and `*i32` both as Pointer types
/// but with different alignment values, in this data structure they are represented
/// with different enum tags, because the the former requires more payload data than the latter.
/// See `zigTypeTag` for the function that corresponds to `std.builtin.TypeId`.
pub const Tag = enum {
// The first section of this enum are tags that require no payload.
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u8,
i8,
isize,
usize,
c_short,
c_ushort,
c_int,
c_uint,
c_long,
c_ulong,
c_longlong,
c_ulonglong,
c_longdouble,
c_void,
f16,
f32,
f64,
f128,
bool,
void,
type,
anyerror,
comptime_int,
comptime_float,
noreturn,
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fn_naked_noreturn_no_args,
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single_const_pointer_to_comptime_int,
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const_slice_u8, // See last_no_payload_tag below.
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// After this, the tag requires a payload.
array_u8_sentinel_0,
array,
single_const_pointer,
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int_signed,
int_unsigned,
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pub const last_no_payload_tag = Tag.const_slice_u8;
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pub const no_payload_count = @enumToInt(last_no_payload_tag) + 1;
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};
pub const Payload = struct {
tag: Tag,
pub const Array_u8_Sentinel0 = struct {
base: Payload = Payload{ .tag = .array_u8_sentinel_0 },
len: u64,
};
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pub const Array = struct {
base: Payload = Payload{ .tag = .array },
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elem_type: Type,
len: u64,
};
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pub const SingleConstPointer = struct {
base: Payload = Payload{ .tag = .single_const_pointer },
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pointee_type: Type,
};
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pub const IntSigned = struct {
base: Payload = Payload{ .tag = .int_signed },
bits: u16,
};
pub const IntUnsigned = struct {
base: Payload = Payload{ .tag = .int_unsigned },
bits: u16,
};
};
};
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pub const CType = enum {
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short,
ushort,
int,
uint,
long,
ulong,
longlong,
ulonglong,
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longdouble,
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pub fn sizeInBits(self: CType, target: Target) u16 {
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const arch = target.cpu.arch;
switch (target.os.tag) {
.freestanding, .other => switch (target.cpu.arch) {
.msp430 => switch (self) {
.short,
.ushort,
.int,
.uint,
=> return 16,
.long,
.ulong,
=> return 32,
.longlong,
.ulonglong,
=> return 64,
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.longdouble => @panic("TODO figure out what kind of float `long double` is on this target"),
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},
else => switch (self) {
.short,
.ushort,
=> return 16,
.int,
.uint,
=> return 32,
.long,
.ulong,
=> return target.cpu.arch.ptrBitWidth(),
.longlong,
.ulonglong,
=> return 64,
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.longdouble => @panic("TODO figure out what kind of float `long double` is on this target"),
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},
},
.linux,
.macosx,
.freebsd,
.netbsd,
.dragonfly,
.openbsd,
.wasi,
.emscripten,
=> switch (self) {
.short,
.ushort,
=> return 16,
.int,
.uint,
=> return 32,
.long,
.ulong,
=> return target.cpu.arch.ptrBitWidth(),
.longlong,
.ulonglong,
=> return 64,
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.longdouble => @panic("TODO figure out what kind of float `long double` is on this target"),
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},
.windows, .uefi => switch (self) {
.short,
.ushort,
=> return 16,
.int,
.uint,
.long,
.ulong,
=> return 32,
.longlong,
.ulonglong,
=> return 64,
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.longdouble => @panic("TODO figure out what kind of float `long double` is on this target"),
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},
.ios => switch (self) {
.short,
.ushort,
=> return 16,
.int,
.uint,
=> return 32,
.long,
.ulong,
.longlong,
.ulonglong,
=> return 64,
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.longdouble => @panic("TODO figure out what kind of float `long double` is on this target"),
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},
.ananas,
.cloudabi,
.fuchsia,
.kfreebsd,
.lv2,
.solaris,
.haiku,
.minix,
.rtems,
.nacl,
.cnk,
.aix,
.cuda,
.nvcl,
.amdhsa,
.ps4,
.elfiamcu,
.tvos,
.watchos,
.mesa3d,
.contiki,
.amdpal,
.hermit,
.hurd,
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=> @panic("TODO specify the C integer and float type sizes for this OS"),
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}
}
};