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// Code generated by genlib2. DO NOT EDIT.
package tensor
import "github.com/pkg/errors"
func Neg(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if neger, ok := e.(Neger); ok {
return neger.Neg(a, opts...)
}
err = errors.Errorf("Engine does not perform Neg")
return
}
func Inv(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if inver, ok := e.(Inver); ok {
return inver.Inv(a, opts...)
}
err = errors.Errorf("Engine does not perform Inv")
return
}
func Square(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if squarer, ok := e.(Squarer); ok {
return squarer.Square(a, opts...)
}
err = errors.Errorf("Engine does not perform Square")
return
}
func Cube(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if cuber, ok := e.(Cuber); ok {
return cuber.Cube(a, opts...)
}
err = errors.Errorf("Engine does not perform Cube")
return
}
func Exp(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if exper, ok := e.(Exper); ok {
return exper.Exp(a, opts...)
}
err = errors.Errorf("Engine does not perform Exp")
return
}
func Tanh(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if tanher, ok := e.(Tanher); ok {
return tanher.Tanh(a, opts...)
}
err = errors.Errorf("Engine does not perform Tanh")
return
}
func Log(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if loger, ok := e.(Loger); ok {
return loger.Log(a, opts...)
}
err = errors.Errorf("Engine does not perform Log")
return
}
func Log2(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if log2er, ok := e.(Log2er); ok {
return log2er.Log2(a, opts...)
}
err = errors.Errorf("Engine does not perform Log2")
return
}
func Log10(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if log10er, ok := e.(Log10er); ok {
return log10er.Log10(a, opts...)
}
err = errors.Errorf("Engine does not perform Log10")
return
}
func Sqrt(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if sqrter, ok := e.(Sqrter); ok {
return sqrter.Sqrt(a, opts...)
}
err = errors.Errorf("Engine does not perform Sqrt")
return
}
func Cbrt(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if cbrter, ok := e.(Cbrter); ok {
return cbrter.Cbrt(a, opts...)
}
err = errors.Errorf("Engine does not perform Cbrt")
return
}
func InvSqrt(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if invsqrter, ok := e.(InvSqrter); ok {
return invsqrter.InvSqrt(a, opts...)
}
err = errors.Errorf("Engine does not perform InvSqrt")
return
}
func Abs(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if abser, ok := e.(Abser); ok {
return abser.Abs(a, opts...)
}
err = errors.Errorf("Engine does not perform Abs")
return
}
func Sign(a Tensor, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if signer, ok := e.(Signer); ok {
return signer.Sign(a, opts...)
}
err = errors.Errorf("Engine does not perform Sign")
return
}
func Clamp(a Tensor, min interface{}, max interface{}, opts ...FuncOpt) (retVal Tensor, err error) {
e := a.Engine()
if clamper, ok := e.(Clamper); ok {
return clamper.Clamp(a, min, max, opts...)
}
err = errors.Errorf("Engine does not perform Clamp")
return
}
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