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zig/src/TypedValue.zig
Andrew Kelley 69b7b91092 compiler: eliminate Decl.value_arena and Sema.perm_arena 
The main motivation for this commit is eliminating Decl.value_arena.
Everything else is dominoes.

Decl.name used to be stored in the GPA, now it is stored in InternPool.
It ended up being simpler to migrate other strings to be interned as
well, such as struct field names, union field names, and a few others.
This ended up requiring a big diff, sorry about that. But the changes
are pretty nice, we finally start to take advantage of InternPool's
existence.

global_error_set and error_name_list are simplified. Now it is a single
ArrayHashMap(NullTerminatedString, void) and the index is the error tag
value.

Module.tmp_hack_arena is re-introduced (it was removed in
eeff407941560ce8eb5b737b2436dfa93cfd3a0c) in order to deal with
comptime_args, optimized_order, and struct and union fields. After
structs and unions get moved into InternPool properly, tmp_hack_arena
can be deleted again.
2023-06-10 20:47:58 -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 enumToInt(tv: TypedValue, mod: *Module) Allocator.Error!Value {
return tv.val.enumToInt(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;
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(mod.intern_pool.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 = std.math.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 = @intCast(usize, std.math.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 = std.math.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 (mod.intern_pool.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 '{s}')", .{
mod.intern_pool.stringToSlice(mod.declPtr(extern_func.decl).name),
}),
.func => |func| return writer.print("(function '{d}')", .{
mod.intern_pool.stringToSlice(mod.declPtr(mod.funcPtr(func.index).owner_decl).name),
}),
.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.{s}", .{
mod.intern_pool.stringToSlice(err.name),
}),
.error_union => |error_union| switch (error_union.val) {
.err_name => |err_name| return writer.print("error.{s}", .{
mod.intern_pool.stringToSlice(err_name),
}),
.payload => |payload| {
val = payload.toValue();
ty = ty.errorUnionPayload(mod);
},
},
.enum_literal => |enum_literal| return writer.print(".{s}", .{
mod.intern_pool.stringToSlice(enum_literal),
}),
.enum_tag => |enum_tag| {
if (level == 0) {
return writer.writeAll("(enum)");
}
try writer.writeAll("@intToEnum(");
try print(.{
.ty = Type.type,
.val = enum_tag.ty.toValue(),
}, writer, level - 1, mod);
try writer.writeAll(", ");
try print(.{
.ty = mod.intern_pool.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("{}", .{x}),
},
.ptr => return writer.writeAll("(ptr)"),
.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| return writer.print("\"{}\"", .{std.zig.fmtEscapes(bytes)}),
.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_ip| try writer.print(".{s} = ", .{
mod.intern_pool.stringToSlice(name_ip),
});
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 = @intCast(usize, std.math.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 = std.math.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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