// Copyright 2013 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package ir // This file defines the Const SSA value type. import ( "fmt" "go/constant" "go/types" "strconv" ) // NewConst returns a new constant of the specified value and type. // val must be valid according to the specification of Const.Value. // func NewConst(val constant.Value, typ types.Type) *Const { return &Const{ register: register{ typ: typ, }, Value: val, } } // intConst returns an 'int' constant that evaluates to i. // (i is an int64 in case the host is narrower than the target.) func intConst(i int64) *Const { return NewConst(constant.MakeInt64(i), tInt) } // nilConst returns a nil constant of the specified type, which may // be any reference type, including interfaces. // func nilConst(typ types.Type) *Const { return NewConst(nil, typ) } // stringConst returns a 'string' constant that evaluates to s. func stringConst(s string) *Const { return NewConst(constant.MakeString(s), tString) } // zeroConst returns a new "zero" constant of the specified type, // which must not be an array or struct type: the zero values of // aggregates are well-defined but cannot be represented by Const. // func zeroConst(t types.Type) *Const { switch t := t.(type) { case *types.Basic: switch { case t.Info()&types.IsBoolean != 0: return NewConst(constant.MakeBool(false), t) case t.Info()&types.IsNumeric != 0: return NewConst(constant.MakeInt64(0), t) case t.Info()&types.IsString != 0: return NewConst(constant.MakeString(""), t) case t.Kind() == types.UnsafePointer: fallthrough case t.Kind() == types.UntypedNil: return nilConst(t) default: panic(fmt.Sprint("zeroConst for unexpected type:", t)) } case *types.Pointer, *types.Slice, *types.Interface, *types.Chan, *types.Map, *types.Signature: return nilConst(t) case *types.Named: return NewConst(zeroConst(t.Underlying()).Value, t) case *types.Array, *types.Struct, *types.Tuple: panic(fmt.Sprint("zeroConst applied to aggregate:", t)) } panic(fmt.Sprint("zeroConst: unexpected ", t)) } func (c *Const) RelString(from *types.Package) string { var p string if c.Value == nil { p = "nil" } else if c.Value.Kind() == constant.String { v := constant.StringVal(c.Value) const max = 20 // TODO(adonovan): don't cut a rune in half. if len(v) > max { v = v[:max-3] + "..." // abbreviate } p = strconv.Quote(v) } else { p = c.Value.String() } return fmt.Sprintf("Const <%s> {%s}", relType(c.Type(), from), p) } func (c *Const) String() string { return c.RelString(c.Parent().pkg()) } // IsNil returns true if this constant represents a typed or untyped nil value. func (c *Const) IsNil() bool { return c.Value == nil } // Int64 returns the numeric value of this constant truncated to fit // a signed 64-bit integer. // func (c *Const) Int64() int64 { switch x := constant.ToInt(c.Value); x.Kind() { case constant.Int: if i, ok := constant.Int64Val(x); ok { return i } return 0 case constant.Float: f, _ := constant.Float64Val(x) return int64(f) } panic(fmt.Sprintf("unexpected constant value: %T", c.Value)) } // Uint64 returns the numeric value of this constant truncated to fit // an unsigned 64-bit integer. // func (c *Const) Uint64() uint64 { switch x := constant.ToInt(c.Value); x.Kind() { case constant.Int: if u, ok := constant.Uint64Val(x); ok { return u } return 0 case constant.Float: f, _ := constant.Float64Val(x) return uint64(f) } panic(fmt.Sprintf("unexpected constant value: %T", c.Value)) } // Float64 returns the numeric value of this constant truncated to fit // a float64. // func (c *Const) Float64() float64 { f, _ := constant.Float64Val(c.Value) return f } // Complex128 returns the complex value of this constant truncated to // fit a complex128. // func (c *Const) Complex128() complex128 { re, _ := constant.Float64Val(constant.Real(c.Value)) im, _ := constant.Float64Val(constant.Imag(c.Value)) return complex(re, im) }