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zig/src/TypedValue.zig
mlugg f26dda2117 all: migrate code to new cast builtin syntax 
Most of this migration was performed automatically with `zig fmt`. There
were a few exceptions which I had to manually fix:

* `@alignCast` and `@addrSpaceCast` cannot be automatically rewritten
* `@truncate`'s fixup is incorrect for vectors
* Test cases are not formatted, and their error locations change
2023-06-24 16:56:39 -07:00

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const std = @import("std");
const Type = @import("type.zig").Type;
const Value = @import("value.zig").Value;
const Module = @import("Module.zig");
const Allocator = std.mem.Allocator;
const TypedValue = @This();
const Target = std.Target;
ty: Type,
val: Value,
/// Memory management for TypedValue. The main purpose of this type
/// is to be small and have a deinit() function to free associated resources.
pub const Managed = struct {
/// If the tag value is less than Tag.no_payload_count, then no pointer
/// dereference is needed.
typed_value: TypedValue,
/// If this is `null` then there is no memory management needed.
arena: ?*std.heap.ArenaAllocator.State = null,
pub fn deinit(self: *Managed, allocator: Allocator) void {
if (self.arena) |a| a.promote(allocator).deinit();
self.* = undefined;
}
};
/// Assumes arena allocation. Does a recursive copy.
pub fn copy(self: TypedValue, arena: Allocator) error{OutOfMemory}!TypedValue {
return TypedValue{
.ty = self.ty,
.val = try self.val.copy(arena),
};
}
pub fn eql(a: TypedValue, b: TypedValue, mod: *Module) bool {
if (a.ty.toIntern() != b.ty.toIntern()) return false;
return a.val.eql(b.val, a.ty, mod);
}
pub fn hash(tv: TypedValue, hasher: *std.hash.Wyhash, mod: *Module) void {
return tv.val.hash(tv.ty, hasher, mod);
}
pub fn intFromEnum(tv: TypedValue, mod: *Module) Allocator.Error!Value {
return tv.val.intFromEnum(tv.ty, mod);
}
const max_aggregate_items = 100;
const max_string_len = 256;
const FormatContext = struct {
tv: TypedValue,
mod: *Module,
};
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 ctx.tv.print(writer, 3, ctx.mod) catch |err| switch (err) {
error.OutOfMemory => @panic("OOM"), // We're not allowed to return this from a format function
else => |e| return e,
};
}
/// Prints the Value according to the Type, not according to the Value Tag.
pub fn print(
tv: TypedValue,
writer: anytype,
level: u8,
mod: *Module,
) (@TypeOf(writer).Error || Allocator.Error)!void {
var val = tv.val;
var ty = tv.ty;
const ip = &mod.intern_pool;
while (true) switch (val.ip_index) {
.none => switch (val.tag()) {
.aggregate => return printAggregate(ty, val, writer, level, mod),
.@"union" => {
if (level == 0) {
return writer.writeAll(".{ ... }");
}
const union_val = val.castTag(.@"union").?.data;
try writer.writeAll(".{ ");
try print(.{
.ty = mod.unionPtr(ip.indexToKey(ty.toIntern()).union_type.index).tag_ty,
.val = union_val.tag,
}, writer, level - 1, mod);
try writer.writeAll(" = ");
try print(.{
.ty = ty.unionFieldType(union_val.tag, mod),
.val = union_val.val,
}, writer, level - 1, mod);
return writer.writeAll(" }");
},
.bytes => return writer.print("\"{}\"", .{std.zig.fmtEscapes(val.castTag(.bytes).?.data)}),
.repeated => {
if (level == 0) {
return writer.writeAll(".{ ... }");
}
var i: u32 = 0;
try writer.writeAll(".{ ");
const elem_tv = TypedValue{
.ty = ty.elemType2(mod),
.val = val.castTag(.repeated).?.data,
};
const len = ty.arrayLen(mod);
const max_len = @min(len, max_aggregate_items);
while (i < max_len) : (i += 1) {
if (i != 0) try writer.writeAll(", ");
try print(elem_tv, writer, level - 1, mod);
}
if (len > max_aggregate_items) {
try writer.writeAll(", ...");
}
return writer.writeAll(" }");
},
.slice => {
if (level == 0) {
return writer.writeAll(".{ ... }");
}
const payload = val.castTag(.slice).?.data;
const elem_ty = ty.elemType2(mod);
const len = payload.len.toUnsignedInt(mod);
if (elem_ty.eql(Type.u8, mod)) str: {
const max_len: usize = @min(len, max_string_len);
var buf: [max_string_len]u8 = undefined;
var i: u32 = 0;
while (i < max_len) : (i += 1) {
const elem_val = payload.ptr.elemValue(mod, i) catch |err| switch (err) {
error.OutOfMemory => @panic("OOM"), // TODO: eliminate this panic
};
if (elem_val.isUndef(mod)) break :str;
buf[i] = std.math.cast(u8, elem_val.toUnsignedInt(mod)) orelse break :str;
}
// TODO would be nice if this had a bit of unicode awareness.
const truncated = if (len > max_string_len) " (truncated)" else "";
return writer.print("\"{}{s}\"", .{ std.zig.fmtEscapes(buf[0..max_len]), truncated });
}
try writer.writeAll(".{ ");
const max_len = @min(len, max_aggregate_items);
var i: u32 = 0;
while (i < max_len) : (i += 1) {
if (i != 0) try writer.writeAll(", ");
const elem_val = payload.ptr.elemValue(mod, i) catch |err| switch (err) {
error.OutOfMemory => @panic("OOM"), // TODO: eliminate this panic
};
try print(.{
.ty = elem_ty,
.val = elem_val,
}, writer, level - 1, mod);
}
if (len > max_aggregate_items) {
try writer.writeAll(", ...");
}
return writer.writeAll(" }");
},
.eu_payload => {
val = val.castTag(.eu_payload).?.data;
ty = ty.errorUnionPayload(mod);
},
.opt_payload => {
val = val.castTag(.opt_payload).?.data;
ty = ty.optionalChild(mod);
},
},
else => 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,
=> return Type.print(val.toType(), writer, mod),
.undef => return writer.writeAll("undefined"),
.runtime_value => return writer.writeAll("(runtime value)"),
.simple_value => |simple_value| switch (simple_value) {
.empty_struct => return printAggregate(ty, val, writer, level, mod),
.generic_poison => return writer.writeAll("(generic poison)"),
else => return writer.writeAll(@tagName(simple_value)),
},
.variable => return writer.writeAll("(variable)"),
.extern_func => |extern_func| return writer.print("(extern function '{}')", .{
mod.declPtr(extern_func.decl).name.fmt(ip),
}),
.func => |func| return writer.print("(function '{}')", .{
mod.declPtr(mod.funcPtr(func.index).owner_decl).name.fmt(ip),
}),
.int => |int| switch (int.storage) {
inline .u64, .i64, .big_int => |x| return writer.print("{}", .{x}),
.lazy_align => |lazy_ty| return writer.print("{d}", .{
lazy_ty.toType().abiAlignment(mod),
}),
.lazy_size => |lazy_ty| return writer.print("{d}", .{
lazy_ty.toType().abiSize(mod),
}),
},
.err => |err| return writer.print("error.{}", .{
err.name.fmt(ip),
}),
.error_union => |error_union| switch (error_union.val) {
.err_name => |err_name| return writer.print("error.{}", .{
err_name.fmt(ip),
}),
.payload => |payload| {
val = payload.toValue();
ty = ty.errorUnionPayload(mod);
},
},
.enum_literal => |enum_literal| return writer.print(".{}", .{
enum_literal.fmt(ip),
}),
.enum_tag => |enum_tag| {
if (level == 0) {
return writer.writeAll("(enum)");
}
const enum_type = ip.indexToKey(ty.toIntern()).enum_type;
if (enum_type.tagValueIndex(ip, val.toIntern())) |tag_index| {
try writer.print(".{i}", .{enum_type.names[tag_index].fmt(ip)});
return;
}
try writer.writeAll("@enumFromInt(");
try print(.{
.ty = ip.typeOf(enum_tag.int).toType(),
.val = enum_tag.int.toValue(),
}, writer, level - 1, mod);
try writer.writeAll(")");
return;
},
.empty_enum_value => return writer.writeAll("(empty enum value)"),
.float => |float| switch (float.storage) {
inline else => |x| return writer.print("{d}", .{@as(f64, @floatCast(x))}),
},
.ptr => |ptr| {
if (ptr.addr == .int) {
const i = ip.indexToKey(ptr.addr.int).int;
switch (i.storage) {
inline else => |addr| return writer.print("{x:0>8}", .{addr}),
}
}
const ptr_ty = ip.indexToKey(ty.toIntern()).ptr_type;
if (ptr_ty.flags.size == .Slice) {
if (level == 0) {
return writer.writeAll(".{ ... }");
}
const elem_ty = ptr_ty.child.toType();
const len = ptr.len.toValue().toUnsignedInt(mod);
if (elem_ty.eql(Type.u8, mod)) str: {
const max_len = @min(len, max_string_len);
var buf: [max_string_len]u8 = undefined;
for (buf[0..max_len], 0..) |*c, i| {
const elem = try val.elemValue(mod, i);
if (elem.isUndef(mod)) break :str;
c.* = @as(u8, @intCast(elem.toUnsignedInt(mod)));
}
const truncated = if (len > max_string_len) " (truncated)" else "";
return writer.print("\"{}{s}\"", .{ std.zig.fmtEscapes(buf[0..max_len]), truncated });
}
try writer.writeAll(".{ ");
const max_len = @min(len, max_aggregate_items);
for (0..max_len) |i| {
if (i != 0) try writer.writeAll(", ");
try print(.{
.ty = elem_ty,
.val = try val.elemValue(mod, i),
}, writer, level - 1, mod);
}
if (len > max_aggregate_items) {
try writer.writeAll(", ...");
}
return writer.writeAll(" }");
}
switch (ptr.addr) {
.decl => |decl_index| {
const decl = mod.declPtr(decl_index);
if (level == 0) return writer.print("(decl '{}')", .{decl.name.fmt(ip)});
return print(.{
.ty = decl.ty,
.val = decl.val,
}, writer, level - 1, mod);
},
.mut_decl => |mut_decl| {
const decl = mod.declPtr(mut_decl.decl);
if (level == 0) return writer.print("(mut decl '{}')", .{decl.name.fmt(ip)});
return print(.{
.ty = decl.ty,
.val = decl.val,
}, writer, level - 1, mod);
},
.comptime_field => |field_val_ip| {
return print(.{
.ty = ip.typeOf(field_val_ip).toType(),
.val = field_val_ip.toValue(),
}, writer, level - 1, mod);
},
.int => unreachable,
.eu_payload => |eu_ip| {
try writer.writeAll("(payload of ");
try print(.{
.ty = ip.typeOf(eu_ip).toType(),
.val = eu_ip.toValue(),
}, writer, level - 1, mod);
try writer.writeAll(")");
},
.opt_payload => |opt_ip| {
try print(.{
.ty = ip.typeOf(opt_ip).toType(),
.val = opt_ip.toValue(),
}, writer, level - 1, mod);
try writer.writeAll(".?");
},
.elem => |elem| {
try print(.{
.ty = ip.typeOf(elem.base).toType(),
.val = elem.base.toValue(),
}, writer, level - 1, mod);
try writer.print("[{}]", .{elem.index});
},
.field => |field| {
const ptr_container_ty = ip.typeOf(field.base).toType();
try print(.{
.ty = ptr_container_ty,
.val = field.base.toValue(),
}, writer, level - 1, mod);
const container_ty = ptr_container_ty.childType(mod);
switch (container_ty.zigTypeTag(mod)) {
.Struct => {
if (container_ty.isTuple(mod)) {
try writer.print("[{d}]", .{field.index});
}
const field_name = container_ty.structFieldName(@as(usize, @intCast(field.index)), mod);
try writer.print(".{i}", .{field_name.fmt(ip)});
},
.Union => {
const field_name = container_ty.unionFields(mod).keys()[@as(usize, @intCast(field.index))];
try writer.print(".{i}", .{field_name.fmt(ip)});
},
.Pointer => {
std.debug.assert(container_ty.isSlice(mod));
try writer.writeAll(switch (field.index) {
Value.slice_ptr_index => ".ptr",
Value.slice_len_index => ".len",
else => unreachable,
});
},
else => unreachable,
}
},
}
return;
},
.opt => |opt| switch (opt.val) {
.none => return writer.writeAll("null"),
else => |payload| {
val = payload.toValue();
ty = ty.optionalChild(mod);
},
},
.aggregate => |aggregate| switch (aggregate.storage) {
.bytes => |bytes| {
// Strip the 0 sentinel off of strings before printing
const zero_sent = blk: {
const sent = ty.sentinel(mod) orelse break :blk false;
break :blk sent.eql(Value.zero_u8, Type.u8, mod);
};
const str = if (zero_sent) bytes[0 .. bytes.len - 1] else bytes;
return writer.print("\"{}\"", .{std.zig.fmtEscapes(str)});
},
.elems, .repeated_elem => return printAggregate(ty, val, writer, level, mod),
},
.un => |un| {
try writer.writeAll(".{ ");
if (level > 0) {
try print(.{
.ty = ty.unionTagTypeHypothetical(mod),
.val = un.tag.toValue(),
}, writer, level - 1, mod);
try writer.writeAll(" = ");
try print(.{
.ty = ty.unionFieldType(un.tag.toValue(), mod),
.val = un.val.toValue(),
}, writer, level - 1, mod);
} else try writer.writeAll("...");
return writer.writeAll(" }");
},
.memoized_call => unreachable,
},
};
}
fn printAggregate(
ty: Type,
val: Value,
writer: anytype,
level: u8,
mod: *Module,
) (@TypeOf(writer).Error || Allocator.Error)!void {
if (level == 0) {
return writer.writeAll(".{ ... }");
}
if (ty.zigTypeTag(mod) == .Struct) {
try writer.writeAll(".{");
const max_len = @min(ty.structFieldCount(mod), max_aggregate_items);
for (0..max_len) |i| {
if (i != 0) try writer.writeAll(", ");
const field_name = switch (mod.intern_pool.indexToKey(ty.toIntern())) {
.struct_type => |x| mod.structPtrUnwrap(x.index).?.fields.keys()[i].toOptional(),
.anon_struct_type => |x| if (x.isTuple()) .none else x.names[i].toOptional(),
else => unreachable,
};
if (field_name.unwrap()) |name| try writer.print(".{} = ", .{name.fmt(&mod.intern_pool)});
try print(.{
.ty = ty.structFieldType(i, mod),
.val = try val.fieldValue(mod, i),
}, writer, level - 1, mod);
}
if (ty.structFieldCount(mod) > max_aggregate_items) {
try writer.writeAll(", ...");
}
return writer.writeAll("}");
} else {
const elem_ty = ty.elemType2(mod);
const len = ty.arrayLen(mod);
if (elem_ty.eql(Type.u8, mod)) str: {
const max_len: usize = @min(len, max_string_len);
var buf: [max_string_len]u8 = undefined;
var i: u32 = 0;
while (i < max_len) : (i += 1) {
const elem = try val.fieldValue(mod, i);
if (elem.isUndef(mod)) break :str;
buf[i] = std.math.cast(u8, elem.toUnsignedInt(mod)) orelse break :str;
}
const truncated = if (len > max_string_len) " (truncated)" else "";
return writer.print("\"{}{s}\"", .{ std.zig.fmtEscapes(buf[0..max_len]), truncated });
}
try writer.writeAll(".{ ");
const max_len = @min(len, max_aggregate_items);
var i: u32 = 0;
while (i < max_len) : (i += 1) {
if (i != 0) try writer.writeAll(", ");
try print(.{
.ty = elem_ty,
.val = try val.fieldValue(mod, i),
}, writer, level - 1, mod);
}
if (len > max_aggregate_items) {
try writer.writeAll(", ...");
}
return writer.writeAll(" }");
}
}
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