syncthing/vendor/github.com/cznic/ql/coerce.go

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2016-05-31 13:35:35 -07:00
// Copyright 2013 The ql Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// CAUTION: This file was generated automatically by
//
// $ go run helper/helper.go -o coerce.go
//
// DO NOT EDIT!
package ql
import (
"math"
"math/big"
"reflect"
"time"
)
func coerce(a, b interface{}) (x, y interface{}) {
if reflect.TypeOf(a) == reflect.TypeOf(b) {
return a, b
}
switch a.(type) {
case idealComplex, idealFloat, idealInt, idealRune, idealUint:
switch b.(type) {
case idealComplex, idealFloat, idealInt, idealRune, idealUint:
x, y = coerce1(a, b), b
if reflect.TypeOf(x) == reflect.TypeOf(y) {
return
}
return a, coerce1(b, a)
default:
return coerce1(a, b), b
}
default:
switch b.(type) {
case idealComplex, idealFloat, idealInt, idealRune, idealUint:
return a, coerce1(b, a)
default:
return a, b
}
}
}
func coerce1(inVal, otherVal interface{}) (coercedInVal interface{}) {
coercedInVal = inVal
if otherVal == nil {
return
}
switch x := inVal.(type) {
case nil:
return
case idealComplex:
switch otherVal.(type) {
//case idealComplex:
//case idealFloat:
//case idealInt:
//case idealRune:
//case idealUint:
//case bool:
case complex64:
return complex64(x)
case complex128:
return complex128(x)
//case float32:
//case float64:
//case int8:
//case int16:
//case int32:
//case int64:
//case string:
//case uint8:
//case uint16:
//case uint32:
//case uint64:
//case *big.Int:
//case *big.Rat:
//case time.Time:
//case time.Duration:
}
case idealFloat:
switch otherVal.(type) {
case idealComplex:
return idealComplex(complex(float64(x), 0))
case idealFloat:
return idealFloat(float64(x))
//case idealInt:
//case idealRune:
//case idealUint:
//case bool:
case complex64:
return complex64(complex(float32(x), 0))
case complex128:
return complex128(complex(float64(x), 0))
case float32:
return float32(float64(x))
case float64:
return float64(float64(x))
//case int8:
//case int16:
//case int32:
//case int64:
//case string:
//case uint8:
//case uint16:
//case uint32:
//case uint64:
//case *big.Int:
case *big.Rat:
return big.NewRat(1, 1).SetFloat64(float64(x))
//case time.Time:
//case time.Duration:
}
case idealInt:
switch otherVal.(type) {
case idealComplex:
return idealComplex(complex(float64(x), 0))
case idealFloat:
return idealFloat(int64(x))
case idealInt:
return idealInt(int64(x))
//case idealRune:
case idealUint:
if x >= 0 {
return idealUint(int64(x))
}
//case bool:
case complex64:
return complex64(complex(float32(x), 0))
case complex128:
return complex128(complex(float64(x), 0))
case float32:
return float32(int64(x))
case float64:
return float64(int64(x))
case int8:
if x >= math.MinInt8 && x <= math.MaxInt8 {
return int8(int64(x))
}
case int16:
if x >= math.MinInt16 && x <= math.MaxInt16 {
return int16(int64(x))
}
case int32:
if x >= math.MinInt32 && x <= math.MaxInt32 {
return int32(int64(x))
}
case int64:
return int64(int64(x))
//case string:
case uint8:
if x >= 0 && x <= math.MaxUint8 {
return uint8(int64(x))
}
case uint16:
if x >= 0 && x <= math.MaxUint16 {
return uint16(int64(x))
}
case uint32:
if x >= 0 && x <= math.MaxUint32 {
return uint32(int64(x))
}
case uint64:
if x >= 0 {
return uint64(int64(x))
}
case *big.Int:
return big.NewInt(int64(x))
case *big.Rat:
return big.NewRat(1, 1).SetInt64(int64(x))
//case time.Time:
case time.Duration:
return time.Duration(int64(x))
}
case idealRune:
switch otherVal.(type) {
case idealComplex:
return idealComplex(complex(float64(x), 0))
case idealFloat:
return idealFloat(int64(x))
case idealInt:
return idealInt(int64(x))
case idealRune:
return idealRune(int64(x))
case idealUint:
return idealUint(int64(x))
//case bool:
case complex64:
return complex64(complex(float32(x), 0))
case complex128:
return complex128(complex(float64(x), 0))
case float32:
return float32(int64(x))
case float64:
return float64(int64(x))
case int8:
return int8(int64(x))
case int16:
return int16(int64(x))
case int32:
return int32(int64(x))
case int64:
return int64(int64(x))
//case string:
case uint8:
return uint8(int64(x))
case uint16:
return uint16(int64(x))
case uint32:
return uint32(int64(x))
case uint64:
return uint64(int64(x))
case *big.Int:
return big.NewInt(int64(x))
case *big.Rat:
return big.NewRat(1, 1).SetInt64(int64(x))
//case time.Time:
case time.Duration:
return time.Duration(int64(x))
}
case idealUint:
switch otherVal.(type) {
case idealComplex:
return idealComplex(complex(float64(x), 0))
case idealFloat:
return idealFloat(uint64(x))
case idealInt:
if x <= math.MaxInt64 {
return idealInt(int64(x))
}
//case idealRune:
case idealUint:
return idealUint(uint64(x))
//case bool:
case complex64:
return complex64(complex(float32(x), 0))
case complex128:
return complex128(complex(float64(x), 0))
case float32:
return float32(uint64(x))
case float64:
return float64(uint64(x))
case int8:
if x <= math.MaxInt8 {
return int8(int64(x))
}
case int16:
if x <= math.MaxInt16 {
return int16(int64(x))
}
case int32:
if x <= math.MaxInt32 {
return int32(int64(x))
}
case int64:
if x <= math.MaxInt64 {
return int64(int64(x))
}
//case string:
case uint8:
if x >= 0 && x <= math.MaxUint8 {
return uint8(int64(x))
}
case uint16:
if x >= 0 && x <= math.MaxUint16 {
return uint16(int64(x))
}
case uint32:
if x >= 0 && x <= math.MaxUint32 {
return uint32(int64(x))
}
case uint64:
return uint64(uint64(x))
case *big.Int:
return big.NewInt(0).SetUint64(uint64(x))
case *big.Rat:
return big.NewRat(1, 1).SetInt(big.NewInt(0).SetUint64(uint64(x)))
//case time.Time:
case time.Duration:
if x <= math.MaxInt64 {
return time.Duration(int64(x))
}
}
}
return
}