mirror of
https://github.com/ziglang/zig.git
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stage2: implement @boolToInt
This is the first commit in which some behavior tests are passing for both stage1 and stage2.
This commit is contained in:
parent
66e5920dc3
commit
dc88864c97
@ -7165,8 +7165,8 @@ fn func(y: *i32) void {
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{#header_open|@boolToInt#}
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<pre>{#syntax#}@boolToInt(value: bool) u1{#endsyntax#}</pre>
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<p>
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Converts {#syntax#}true{#endsyntax#} to {#syntax#}u1(1){#endsyntax#} and {#syntax#}false{#endsyntax#} to
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{#syntax#}u1(0){#endsyntax#}.
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Converts {#syntax#}true{#endsyntax#} to {#syntax#}@as(u1, 1){#endsyntax#} and {#syntax#}false{#endsyntax#} to
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{#syntax#}@as(u1, 0){#endsyntax#}.
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</p>
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<p>
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If the value is known at compile-time, the return type is {#syntax#}comptime_int{#endsyntax#}
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@ -189,6 +189,10 @@ pub const Inst = struct {
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/// Converts a pointer to its address. Result type is always `usize`.
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/// Uses the `un_op` field.
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ptrtoint,
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/// Given a boolean, returns 0 or 1.
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/// Result type is always `u1`.
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/// Uses the `un_op` field.
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bool_to_int,
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/// Stores a value onto the stack and returns a pointer to it.
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/// TODO audit where this AIR instruction is emitted, maybe it should instead be emitting
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/// alloca instruction and storing to the alloca.
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@ -490,6 +494,8 @@ pub fn typeOfIndex(air: Air, inst: Air.Inst.Index) Type {
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.slice_len,
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=> return Type.initTag(.usize),
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.bool_to_int => return Type.initTag(.u1),
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.call => {
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const callee_ty = air.typeOf(datas[inst].pl_op.operand);
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return callee_ty.fnReturnType();
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@ -7754,6 +7754,7 @@ pub const simple_types = std.ComptimeStringMap(Zir.Inst.Ref, .{
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.{ "u32", .u32_type },
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.{ "u64", .u64_type },
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.{ "u128", .u128_type },
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.{ "u1", .u1_type },
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.{ "u8", .u8_type },
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.{ "undefined", .undef },
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.{ "usize", .usize_type },
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@ -8400,6 +8401,7 @@ fn rvalue(
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const as_usize = @as(u64, @enumToInt(Zir.Inst.Ref.usize_type)) << 32;
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const as_void = @as(u64, @enumToInt(Zir.Inst.Ref.void_type)) << 32;
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switch ((@as(u64, @enumToInt(ty_inst)) << 32) | @as(u64, @enumToInt(result))) {
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as_ty | @enumToInt(Zir.Inst.Ref.u1_type),
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as_ty | @enumToInt(Zir.Inst.Ref.u8_type),
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as_ty | @enumToInt(Zir.Inst.Ref.i8_type),
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as_ty | @enumToInt(Zir.Inst.Ref.u16_type),
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@ -291,6 +291,7 @@ fn analyzeInst(
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.is_err_ptr,
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.is_non_err_ptr,
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.ptrtoint,
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.bool_to_int,
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.ret,
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=> {
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const operand = inst_datas[inst].un_op;
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11
src/Sema.zig
11
src/Sema.zig
@ -5848,8 +5848,14 @@ fn zirAlignOf(sema: *Sema, block: *Scope.Block, inst: Zir.Inst.Index) CompileErr
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fn zirBoolToInt(sema: *Sema, block: *Scope.Block, inst: Zir.Inst.Index) CompileError!Air.Inst.Ref {
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const inst_data = sema.code.instructions.items(.data)[inst].un_node;
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const src = inst_data.src();
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return sema.mod.fail(&block.base, src, "TODO: Sema.zirBoolToInt", .{});
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const operand_src: LazySrcLoc = .{ .node_offset_builtin_call_arg0 = inst_data.src_node };
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const operand = sema.resolveInst(inst_data.operand);
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if (try sema.resolveMaybeUndefVal(block, operand_src, operand)) |val| {
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if (val.isUndef()) return sema.addConstUndef(Type.initTag(.u1));
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const bool_ints = [2]Air.Inst.Ref{ .zero, .one };
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return bool_ints[@boolToInt(val.toBool())];
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}
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return block.addUnOp(.bool_to_int, operand);
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}
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fn zirEmbedFile(sema: *Sema, block: *Scope.Block, inst: Zir.Inst.Index) CompileError!Air.Inst.Ref {
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@ -8252,6 +8258,7 @@ fn typeHasOnePossibleValue(
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.c_longdouble,
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.comptime_int,
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.comptime_float,
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.u1,
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.u8,
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.i8,
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.u16,
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@ -1633,6 +1633,7 @@ pub const Inst = struct {
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/// value and may instead be used as a sentinel to indicate null.
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none,
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u1_type,
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u8_type,
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i8_type,
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u16_type,
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@ -1719,6 +1720,10 @@ pub const Inst = struct {
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pub const typed_value_map = std.enums.directEnumArray(Ref, TypedValue, 0, .{
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.none = undefined,
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.u1_type = .{
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.ty = Type.initTag(.type),
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.val = Value.initTag(.u1_type),
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},
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.u8_type = .{
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.ty = Type.initTag(.type),
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.val = Value.initTag(.u8_type),
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@ -835,6 +835,7 @@ fn Function(comptime arch: std.Target.Cpu.Arch) type {
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.dbg_stmt => try self.airDbgStmt(inst),
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.floatcast => try self.airFloatCast(inst),
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.intcast => try self.airIntCast(inst),
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.bool_to_int => try self.airBoolToInt(inst),
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.is_non_null => try self.airIsNonNull(inst),
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.is_non_null_ptr => try self.airIsNonNullPtr(inst),
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.is_null => try self.airIsNull(inst),
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@ -1110,6 +1111,13 @@ fn Function(comptime arch: std.Target.Cpu.Arch) type {
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return self.finishAir(inst, result, .{ ty_op.operand, .none, .none });
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}
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fn airBoolToInt(self: *Self, inst: Air.Inst.Index) !void {
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const un_op = self.air.instructions.items(.data)[inst].un_op;
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const operand = try self.resolveInst(un_op);
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const result: MCValue = if (self.liveness.isUnused(inst)) .dead else operand;
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return self.finishAir(inst, result, .{ un_op, .none, .none });
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}
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fn airNot(self: *Self, inst: Air.Inst.Index) !void {
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const ty_op = self.air.instructions.items(.data)[inst].ty_op;
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const result: MCValue = if (self.liveness.isUnused(inst)) .dead else result: {
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@ -925,6 +925,7 @@ fn genBody(o: *Object, body: []const Air.Inst.Index) error{ AnalysisFail, OutOfM
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.call => try airCall(o, inst),
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.dbg_stmt => try airDbgStmt(o, inst),
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.intcast => try airIntCast(o, inst),
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.bool_to_int => try airBoolToInt(o, inst),
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.load => try airLoad(o, inst),
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.ret => try airRet(o, inst),
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.store => try airStore(o, inst),
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@ -1083,6 +1084,20 @@ fn airIntCast(o: *Object, inst: Air.Inst.Index) !CValue {
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return local;
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}
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fn airBoolToInt(o: *Object, inst: Air.Inst.Index) !CValue {
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if (o.liveness.isUnused(inst))
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return CValue.none;
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const un_op = o.air.instructions.items(.data)[inst].un_op;
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const writer = o.writer();
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const inst_ty = o.air.typeOfIndex(inst);
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const operand = try o.resolveInst(un_op);
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const local = try o.allocLocal(inst_ty, .Const);
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try writer.writeAll(" = ");
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try o.writeCValue(writer, operand);
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try writer.writeAll(";\n");
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return local;
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}
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fn airStore(o: *Object, inst: Air.Inst.Index) !CValue {
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// *a = b;
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const bin_op = o.air.instructions.items(.data)[inst].bin_op;
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@ -961,6 +961,7 @@ pub const FuncGen = struct {
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.alloc => try self.airAlloc(inst),
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.arg => try self.airArg(inst),
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.bitcast => try self.airBitCast(inst),
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.bool_to_int=> try self.airBoolToInt(inst),
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.block => try self.airBlock(inst),
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.br => try self.airBr(inst),
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.switch_br => try self.airSwitchBr(inst),
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@ -1656,6 +1657,15 @@ pub const FuncGen = struct {
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return self.builder.buildBitCast(operand, dest_type, "");
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}
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fn airBoolToInt(self: *FuncGen, inst: Air.Inst.Index) !?*const llvm.Value {
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if (self.liveness.isUnused(inst))
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return null;
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const un_op = self.air.instructions.items(.data)[inst].un_op;
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const operand = try self.resolveInst(un_op);
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return operand;
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}
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fn airArg(self: *FuncGen, inst: Air.Inst.Index) !?*const llvm.Value {
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const arg_val = self.args[self.arg_index];
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self.arg_index += 1;
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@ -885,7 +885,7 @@ fn linkWithLLD(self: *Coff, comp: *Compilation) !void {
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// Both stage1 and stage2 LLVM backend put the object file in the cache directory.
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if (self.base.options.use_llvm) {
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// Stage2 has to call flushModule since that outputs the LLVM object file.
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if (!build_options.is_stage1) try self.flushModule(comp);
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if (!build_options.is_stage1 or !self.base.options.use_stage1) try self.flushModule(comp);
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const obj_basename = try std.zig.binNameAlloc(arena, .{
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.root_name = self.base.options.root_name,
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@ -1269,7 +1269,10 @@ fn linkWithLLD(self: *Coff, comp: *Compilation) !void {
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// TODO: remove when stage2 can build compiler_rt.zig, c.zig and ssp.zig
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// compiler-rt, libc and libssp
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if (is_exe_or_dyn_lib and !self.base.options.skip_linker_dependencies and build_options.is_stage1) {
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if (is_exe_or_dyn_lib and
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!self.base.options.skip_linker_dependencies and
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build_options.is_stage1 and self.base.options.use_stage1)
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{
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if (!self.base.options.link_libc) {
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try argv.append(comp.libc_static_lib.?.full_object_path);
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}
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@ -1257,7 +1257,7 @@ fn linkWithLLD(self: *Elf, comp: *Compilation) !void {
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// Both stage1 and stage2 LLVM backend put the object file in the cache directory.
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if (self.base.options.use_llvm) {
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// Stage2 has to call flushModule since that outputs the LLVM object file.
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if (!build_options.is_stage1) try self.flushModule(comp);
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if (!build_options.is_stage1 or !self.base.options.use_stage1) try self.flushModule(comp);
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const obj_basename = try std.zig.binNameAlloc(arena, .{
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.root_name = self.base.options.root_name,
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@ -1287,7 +1287,7 @@ fn linkWithLLD(self: *Elf, comp: *Compilation) !void {
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const allow_shlib_undefined = self.base.options.allow_shlib_undefined orelse !self.base.options.is_native_os;
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const compiler_rt_path: ?[]const u8 = if (self.base.options.include_compiler_rt) blk: {
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// TODO: remove when stage2 can build compiler_rt.zig
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if (!build_options.is_stage1) break :blk null;
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if (!build_options.is_stage1 or !self.base.options.use_stage1) break :blk null;
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// In the case of build-obj we include the compiler-rt symbols directly alongside
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// the symbols of the root source file, in the same compilation unit.
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@ -1605,7 +1605,8 @@ fn linkWithLLD(self: *Elf, comp: *Compilation) !void {
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if (is_exe_or_dyn_lib and
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!self.base.options.skip_linker_dependencies and
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!self.base.options.link_libc and
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build_options.is_stage1)
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build_options.is_stage1 and
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self.base.options.use_stage1)
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{
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try argv.append(comp.libc_static_lib.?.full_object_path);
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}
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@ -137,6 +137,7 @@ const Writer = struct {
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.is_err_ptr,
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.is_non_err_ptr,
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.ptrtoint,
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.bool_to_int,
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.ret,
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=> try w.writeUnOp(s, inst),
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17
src/type.zig
17
src/type.zig
@ -23,6 +23,7 @@ pub const Type = extern union {
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pub fn zigTypeTag(self: Type) std.builtin.TypeId {
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switch (self.tag()) {
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.u1,
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.u8,
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.i8,
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.u16,
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@ -638,6 +639,7 @@ pub const Type = extern union {
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if (self.tag_if_small_enough < Tag.no_payload_count) {
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return Type{ .tag_if_small_enough = self.tag_if_small_enough };
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} else switch (self.ptr_otherwise.tag) {
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.u1,
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.u8,
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.i8,
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.u16,
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@ -819,6 +821,7 @@ pub const Type = extern union {
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while (true) {
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const t = ty.tag();
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switch (t) {
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.u1,
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.u8,
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.i8,
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.u16,
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@ -1082,6 +1085,7 @@ pub const Type = extern union {
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pub fn toValue(self: Type, allocator: *Allocator) Allocator.Error!Value {
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switch (self.tag()) {
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.u1 => return Value.initTag(.u1_type),
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.u8 => return Value.initTag(.u8_type),
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.i8 => return Value.initTag(.i8_type),
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.u16 => return Value.initTag(.u16_type),
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@ -1141,6 +1145,7 @@ pub const Type = extern union {
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pub fn hasCodeGenBits(self: Type) bool {
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return switch (self.tag()) {
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.u1,
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.u8,
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.i8,
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.u16,
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@ -1321,6 +1326,7 @@ pub const Type = extern union {
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/// Asserts that hasCodeGenBits() is true.
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pub fn abiAlignment(self: Type, target: Target) u32 {
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return switch (self.tag()) {
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.u1,
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.u8,
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.i8,
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.bool,
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@ -1539,6 +1545,7 @@ pub const Type = extern union {
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@panic("TODO abiSize unions");
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},
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.u1,
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.u8,
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.i8,
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.bool,
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@ -1704,7 +1711,7 @@ pub const Type = extern union {
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.u8, .i8 => 8,
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.bool => 1,
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.bool, .u1 => 1,
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.vector => {
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const payload = self.castTag(.vector).?.data;
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@ -2217,12 +2224,13 @@ pub const Type = extern union {
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pub fn isUnsignedInt(self: Type) bool {
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return switch (self.tag()) {
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.int_unsigned,
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.u8,
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.usize,
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.c_ushort,
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.c_uint,
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.c_ulong,
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.c_ulonglong,
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.u1,
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.u8,
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.u16,
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.u32,
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.u64,
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@ -2244,6 +2252,7 @@ pub const Type = extern union {
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.signedness = .signed,
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.bits = self.castTag(.int_signed).?.data,
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},
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.u1 => .{ .signedness = .unsigned, .bits = 1 },
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.u8 => .{ .signedness = .unsigned, .bits = 8 },
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.i8 => .{ .signedness = .signed, .bits = 8 },
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.u16 => .{ .signedness = .unsigned, .bits = 16 },
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@ -2406,6 +2415,7 @@ pub const Type = extern union {
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.c_longdouble,
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.comptime_int,
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.comptime_float,
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.u1,
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.u8,
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.i8,
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.u16,
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@ -2446,6 +2456,7 @@ pub const Type = extern union {
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.c_longdouble,
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.comptime_int,
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.comptime_float,
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.u1,
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.u8,
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.i8,
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.u16,
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@ -2911,6 +2922,7 @@ pub const Type = extern union {
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/// See `zigTypeTag` for the function that corresponds to `std.builtin.TypeId`.
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pub const Tag = enum {
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// The first section of this enum are tags that require no payload.
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u1,
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u8,
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i8,
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u16,
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@ -3018,6 +3030,7 @@ pub const Type = extern union {
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pub fn Type(comptime t: Tag) type {
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return switch (t) {
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.u1,
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.u8,
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.i8,
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.u16,
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@ -22,6 +22,7 @@ pub const Value = extern union {
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pub const Tag = enum {
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// The first section of this enum are tags that require no payload.
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u1_type,
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u8_type,
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i8_type,
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u16_type,
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@ -138,6 +139,7 @@ pub const Value = extern union {
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pub fn Type(comptime t: Tag) type {
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return switch (t) {
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.u1_type,
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.u8_type,
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.i8_type,
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.u16_type,
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@ -314,6 +316,7 @@ pub const Value = extern union {
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if (self.tag_if_small_enough < Tag.no_payload_count) {
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return Value{ .tag_if_small_enough = self.tag_if_small_enough };
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} else switch (self.ptr_otherwise.tag) {
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.u1_type,
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.u8_type,
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.i8_type,
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.u16_type,
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@ -520,6 +523,7 @@ pub const Value = extern union {
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comptime assert(fmt.len == 0);
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var val = start_val;
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while (true) switch (val.tag()) {
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.u1_type => return out_stream.writeAll("u1"),
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.u8_type => return out_stream.writeAll("u8"),
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.i8_type => return out_stream.writeAll("i8"),
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.u16_type => return out_stream.writeAll("u16"),
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||||
@ -671,6 +675,7 @@ pub const Value = extern union {
|
||||
pub fn toType(self: Value, allocator: *Allocator) !Type {
|
||||
return switch (self.tag()) {
|
||||
.ty => self.castTag(.ty).?.data,
|
||||
.u1_type => Type.initTag(.u1),
|
||||
.u8_type => Type.initTag(.u8),
|
||||
.i8_type => Type.initTag(.i8),
|
||||
.u16_type => Type.initTag(.u16),
|
||||
@ -1150,6 +1155,7 @@ pub const Value = extern union {
|
||||
var hasher = std.hash.Wyhash.init(0);
|
||||
|
||||
switch (self.tag()) {
|
||||
.u1_type,
|
||||
.u8_type,
|
||||
.i8_type,
|
||||
.u16_type,
|
||||
@ -1502,6 +1508,7 @@ pub const Value = extern union {
|
||||
return switch (self.tag()) {
|
||||
.ty,
|
||||
.int_type,
|
||||
.u1_type,
|
||||
.u8_type,
|
||||
.i8_type,
|
||||
.u16_type,
|
||||
|
@ -2,11 +2,9 @@ const builtin = @import("builtin");
|
||||
|
||||
test {
|
||||
// Tests that pass for both.
|
||||
{}
|
||||
_ = @import("behavior/bool.zig");
|
||||
|
||||
if (builtin.zig_is_stage2) {
|
||||
// Tests that only pass for stage2.
|
||||
} else {
|
||||
if (!builtin.zig_is_stage2) {
|
||||
// Tests that only pass for stage1.
|
||||
_ = @import("behavior/align.zig");
|
||||
_ = @import("behavior/alignof.zig");
|
||||
@ -20,7 +18,6 @@ test {
|
||||
_ = @import("behavior/bit_shifting.zig");
|
||||
_ = @import("behavior/bitcast.zig");
|
||||
_ = @import("behavior/bitreverse.zig");
|
||||
_ = @import("behavior/bool.zig");
|
||||
_ = @import("behavior/bugs/1025.zig");
|
||||
_ = @import("behavior/bugs/1076.zig");
|
||||
_ = @import("behavior/bugs/1111.zig");
|
||||
|
Loading…
Reference in New Issue
Block a user