/
rfunc_f64_gen.go
344 lines (305 loc) · 7.04 KB
/
rfunc_f64_gen.go
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// Copyright ©2020 The go-hep Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Automatically generated. DO NOT EDIT.
package rfunc
import (
"fmt"
)
// FuncI32ToF64 implements rfunc.Formula
type FuncI32ToF64 struct {
rvars []string
arg0 *int32
fct func(arg00 int32) float64
}
// NewFuncI32ToF64 return a new formula, from the provided function.
func NewFuncI32ToF64(rvars []string, fct func(arg00 int32) float64) *FuncI32ToF64 {
return &FuncI32ToF64{
rvars: rvars,
fct: fct,
}
}
// RVars implements rfunc.Formula
func (f *FuncI32ToF64) RVars() []string { return f.rvars }
// Bind implements rfunc.Formula
func (f *FuncI32ToF64) Bind(args []interface{}) error {
if got, want := len(args), 1; got != want {
return fmt.Errorf(
"rfunc: invalid number of bind arguments (got=%d, want=%d)",
got, want,
)
}
{
ptr, ok := args[0].(*int32)
if !ok {
return fmt.Errorf(
"rfunc: argument type 0 (name=%s) mismatch: got=%T, want=*int32",
f.rvars[0], args[0],
)
}
f.arg0 = ptr
}
return nil
}
// Func implements rfunc.Formula
func (f *FuncI32ToF64) Func() interface{} {
return func() float64 {
return f.fct(
*f.arg0,
)
}
}
var (
_ Formula = (*FuncI32ToF64)(nil)
)
// FuncF32ToF64 implements rfunc.Formula
type FuncF32ToF64 struct {
rvars []string
arg0 *float32
fct func(arg00 float32) float64
}
// NewFuncF32ToF64 return a new formula, from the provided function.
func NewFuncF32ToF64(rvars []string, fct func(arg00 float32) float64) *FuncF32ToF64 {
return &FuncF32ToF64{
rvars: rvars,
fct: fct,
}
}
// RVars implements rfunc.Formula
func (f *FuncF32ToF64) RVars() []string { return f.rvars }
// Bind implements rfunc.Formula
func (f *FuncF32ToF64) Bind(args []interface{}) error {
if got, want := len(args), 1; got != want {
return fmt.Errorf(
"rfunc: invalid number of bind arguments (got=%d, want=%d)",
got, want,
)
}
{
ptr, ok := args[0].(*float32)
if !ok {
return fmt.Errorf(
"rfunc: argument type 0 (name=%s) mismatch: got=%T, want=*float32",
f.rvars[0], args[0],
)
}
f.arg0 = ptr
}
return nil
}
// Func implements rfunc.Formula
func (f *FuncF32ToF64) Func() interface{} {
return func() float64 {
return f.fct(
*f.arg0,
)
}
}
var (
_ Formula = (*FuncF32ToF64)(nil)
)
// FuncToF64 implements rfunc.Formula
type FuncToF64 struct {
fct func() float64
}
// NewFuncToF64 return a new formula, from the provided function.
func NewFuncToF64(rvars []string, fct func() float64) *FuncToF64 {
return &FuncToF64{
fct: fct,
}
}
// RVars implements rfunc.Formula
func (f *FuncToF64) RVars() []string { return nil }
// Bind implements rfunc.Formula
func (f *FuncToF64) Bind(args []interface{}) error {
if got, want := len(args), 0; got != want {
return fmt.Errorf(
"rfunc: invalid number of bind arguments (got=%d, want=%d)",
got, want,
)
}
return nil
}
// Func implements rfunc.Formula
func (f *FuncToF64) Func() interface{} {
return func() float64 {
return f.fct()
}
}
var (
_ Formula = (*FuncToF64)(nil)
)
// FuncF64ToF64 implements rfunc.Formula
type FuncF64ToF64 struct {
rvars []string
arg0 *float64
fct func(arg00 float64) float64
}
// NewFuncF64ToF64 return a new formula, from the provided function.
func NewFuncF64ToF64(rvars []string, fct func(arg00 float64) float64) *FuncF64ToF64 {
return &FuncF64ToF64{
rvars: rvars,
fct: fct,
}
}
// RVars implements rfunc.Formula
func (f *FuncF64ToF64) RVars() []string { return f.rvars }
// Bind implements rfunc.Formula
func (f *FuncF64ToF64) Bind(args []interface{}) error {
if got, want := len(args), 1; got != want {
return fmt.Errorf(
"rfunc: invalid number of bind arguments (got=%d, want=%d)",
got, want,
)
}
{
ptr, ok := args[0].(*float64)
if !ok {
return fmt.Errorf(
"rfunc: argument type 0 (name=%s) mismatch: got=%T, want=*float64",
f.rvars[0], args[0],
)
}
f.arg0 = ptr
}
return nil
}
// Func implements rfunc.Formula
func (f *FuncF64ToF64) Func() interface{} {
return func() float64 {
return f.fct(
*f.arg0,
)
}
}
var (
_ Formula = (*FuncF64ToF64)(nil)
)
// FuncF64F64ToF64 implements rfunc.Formula
type FuncF64F64ToF64 struct {
rvars []string
arg0 *float64
arg1 *float64
fct func(arg00 float64, arg01 float64) float64
}
// NewFuncF64F64ToF64 return a new formula, from the provided function.
func NewFuncF64F64ToF64(rvars []string, fct func(arg00 float64, arg01 float64) float64) *FuncF64F64ToF64 {
return &FuncF64F64ToF64{
rvars: rvars,
fct: fct,
}
}
// RVars implements rfunc.Formula
func (f *FuncF64F64ToF64) RVars() []string { return f.rvars }
// Bind implements rfunc.Formula
func (f *FuncF64F64ToF64) Bind(args []interface{}) error {
if got, want := len(args), 2; got != want {
return fmt.Errorf(
"rfunc: invalid number of bind arguments (got=%d, want=%d)",
got, want,
)
}
{
ptr, ok := args[0].(*float64)
if !ok {
return fmt.Errorf(
"rfunc: argument type 0 (name=%s) mismatch: got=%T, want=*float64",
f.rvars[0], args[0],
)
}
f.arg0 = ptr
}
{
ptr, ok := args[1].(*float64)
if !ok {
return fmt.Errorf(
"rfunc: argument type 1 (name=%s) mismatch: got=%T, want=*float64",
f.rvars[1], args[1],
)
}
f.arg1 = ptr
}
return nil
}
// Func implements rfunc.Formula
func (f *FuncF64F64ToF64) Func() interface{} {
return func() float64 {
return f.fct(
*f.arg0,
*f.arg1,
)
}
}
var (
_ Formula = (*FuncF64F64ToF64)(nil)
)
// FuncF64F64F64ToF64 implements rfunc.Formula
type FuncF64F64F64ToF64 struct {
rvars []string
arg0 *float64
arg1 *float64
arg2 *float64
fct func(arg00 float64, arg01 float64, arg02 float64) float64
}
// NewFuncF64F64F64ToF64 return a new formula, from the provided function.
func NewFuncF64F64F64ToF64(rvars []string, fct func(arg00 float64, arg01 float64, arg02 float64) float64) *FuncF64F64F64ToF64 {
return &FuncF64F64F64ToF64{
rvars: rvars,
fct: fct,
}
}
// RVars implements rfunc.Formula
func (f *FuncF64F64F64ToF64) RVars() []string { return f.rvars }
// Bind implements rfunc.Formula
func (f *FuncF64F64F64ToF64) Bind(args []interface{}) error {
if got, want := len(args), 3; got != want {
return fmt.Errorf(
"rfunc: invalid number of bind arguments (got=%d, want=%d)",
got, want,
)
}
{
ptr, ok := args[0].(*float64)
if !ok {
return fmt.Errorf(
"rfunc: argument type 0 (name=%s) mismatch: got=%T, want=*float64",
f.rvars[0], args[0],
)
}
f.arg0 = ptr
}
{
ptr, ok := args[1].(*float64)
if !ok {
return fmt.Errorf(
"rfunc: argument type 1 (name=%s) mismatch: got=%T, want=*float64",
f.rvars[1], args[1],
)
}
f.arg1 = ptr
}
{
ptr, ok := args[2].(*float64)
if !ok {
return fmt.Errorf(
"rfunc: argument type 2 (name=%s) mismatch: got=%T, want=*float64",
f.rvars[2], args[2],
)
}
f.arg2 = ptr
}
return nil
}
// Func implements rfunc.Formula
func (f *FuncF64F64F64ToF64) Func() interface{} {
return func() float64 {
return f.fct(
*f.arg0,
*f.arg1,
*f.arg2,
)
}
}
var (
_ Formula = (*FuncF64F64F64ToF64)(nil)
)