test/go/src/common/printing_handler.go - packaging/sources/thrift - Gitiles

 /*
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements. See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership. The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License. You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied. See the License for the
  * specific language governing permissions and limitations
  * under the License.
  */

 package common

 import (
 	"errors"
 	"fmt"
 	"encoding/hex"
 	. "gen/thrifttest"
 	"time"
 )

 var PrintingHandler = &printingHandler{}

 type printingHandler struct{}

 // Prints "testVoid()" and returns nothing.
 func (p *printingHandler) TestVoid() (err error) {
 	fmt.Println("testVoid()")
 	return nil
 }

 // Prints 'testString("%s")' with thing as '%s'
 // @param string thing - the string to print
 // @return string - returns the string 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestString(thing string) (r string, err error) {
 	fmt.Printf("testString(\"%s\")\n", thing)
 	return thing, nil
 }

 // Prints 'testBool("%d")' with thing as 'true' or 'false'
 // @param bool thing - the bool to print
 // @return bool - returns the bool 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestBool(thing bool) (r bool, err error) {
 	fmt.Printf("testBool(%d)\n", thing)
 	return thing, nil
 }

 // Prints 'testByte("%d")' with thing as '%d'
 // @param byte thing - the byte to print
 // @return byte - returns the byte 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestByte(thing int8) (r int8, err error) {
 	fmt.Printf("testByte(%d)\n", thing)
 	return thing, nil
 }

 // Prints 'testI32("%d")' with thing as '%d'
 // @param i32 thing - the i32 to print
 // @return i32 - returns the i32 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestI32(thing int32) (r int32, err error) {
 	fmt.Printf("testI32(%d)\n", thing)
 	return thing, nil
 }

 // Prints 'testI64("%d")' with thing as '%d'
 // @param i64 thing - the i64 to print
 // @return i64 - returns the i64 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestI64(thing int64) (r int64, err error) {
 	fmt.Printf("testI64(%d)\n", thing)
 	return thing, nil
 }

 // Prints 'testDouble("%f")' with thing as '%f'
 // @param double thing - the double to print
 // @return double - returns the double 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestDouble(thing float64) (r float64, err error) {
 	fmt.Printf("testDouble(%f)\n", thing)
 	return thing, nil
 }

 // Prints 'testBinary("%s")' where '%s' is a hex-formatted string of thing's data
 // @param []byte thing - the binary to print
 // @return []byte - returns the binary 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestBinary(thing []byte) (r []byte, err error) {
 	fmt.Printf("testBinary(%s)\n", hex.EncodeToString(thing))
 	return thing, nil
 }

 // Prints 'testStruct("{%s}")' where thing has been formatted into a string of comma separated values
 // @param Xtruct thing - the Xtruct to print
 // @return Xtruct - returns the Xtruct 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestStruct(thing *Xtruct) (r *Xtruct, err error) {
 	fmt.Printf("testStruct({\"%s\", %d, %d, %d})\n", thing.StringThing, thing.ByteThing, thing.I32Thing, thing.I64Thing)
 	return thing, err
 }

 // Prints 'testNest("{%s}")' where thing has been formatted into a string of the nested struct
 // @param Xtruct2 thing - the Xtruct2 to print
 // @return Xtruct2 - returns the Xtruct2 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestNest(nest *Xtruct2) (r *Xtruct2, err error) {
 	thing := nest.StructThing
 	fmt.Printf("testNest({%d, {\"%s\", %d, %d, %d}, %d})\n", nest.ByteThing, thing.StringThing, thing.ByteThing, thing.I32Thing, thing.I64Thing, nest.I32Thing)
 	return nest, nil
 }

 // Prints 'testMap("{%s")' where thing has been formatted into a string of  'key => value' pairs
 //  separated by commas and new lines
 // @param map<i32,i32> thing - the map<i32,i32> to print
 // @return map<i32,i32> - returns the map<i32,i32> 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestMap(thing map[int32]int32) (r map[int32]int32, err error) {
 	fmt.Printf("testMap({")
 	first := true
 	for k, v := range thing {
 		if first {
 			first = false
 		} else {
 			fmt.Printf(", ")
 		}
 		fmt.Printf("%d => %d", k, v)
 	}
 	fmt.Printf("})\n")
 	return thing, nil
 }

 // Prints 'testStringMap("{%s}")' where thing has been formatted into a string of  'key => value' pairs
 //  separated by commas and new lines
 // @param map<string,string> thing - the map<string,string> to print
 // @return map<string,string> - returns the map<string,string> 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestStringMap(thing map[string]string) (r map[string]string, err error) {
 	fmt.Printf("testStringMap({")
 	first := true
 	for k, v := range thing {
 		if first {
 			first = false
 		} else {
 			fmt.Printf(", ")
 		}
 		fmt.Printf("%s => %s", k, v)
 	}
 	fmt.Printf("})\n")
 	return thing, nil
 }

 // Prints 'testSet("{%s}")' where thing has been formatted into a string of  values
 //  separated by commas and new lines
 // @param set<i32> thing - the set<i32> to print
 // @return set<i32> - returns the set<i32> 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestSet(thing map[int32]bool) (r map[int32]bool, err error) {
 	fmt.Printf("testSet({")
 	first := true
 	for k, _ := range thing {
 		if first {
 			first = false
 		} else {
 			fmt.Printf(", ")
 		}
 		fmt.Printf("%d", k)
 	}
 	fmt.Printf("})\n")
 	return thing, nil
 }

 // Prints 'testList("{%s}")' where thing has been formatted into a string of  values
 //  separated by commas and new lines
 // @param list<i32> thing - the list<i32> to print
 // @return list<i32> - returns the list<i32> 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestList(thing []int32) (r []int32, err error) {
 	fmt.Printf("testList({")
 	for i, v := range thing {
 		if i != 0 {
 			fmt.Printf(", ")
 		}
 		fmt.Printf("%d", v)
 	}
 	fmt.Printf("})\n")
 	return thing, nil
 }

 // Prints 'testEnum("%d")' where thing has been formatted into it's numeric value
 // @param Numberz thing - the Numberz to print
 // @return Numberz - returns the Numberz 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestEnum(thing Numberz) (r Numberz, err error) {
 	fmt.Printf("testEnum(%d)\n", thing)
 	return thing, nil
 }

 // Prints 'testTypedef("%d")' with thing as '%d'
 // @param UserId thing - the UserId to print
 // @return UserId - returns the UserId 'thing'
 //
 // Parameters:
 //  - Thing
 func (p *printingHandler) TestTypedef(thing UserId) (r UserId, err error) {
 	fmt.Printf("testTypedef(%d)\n", thing)
 	return thing, nil
 }

 // Prints 'testMapMap("%d")' with hello as '%d'
 // @param i32 hello - the i32 to print
 // @return map<i32,map<i32,i32>> - returns a dictionary with these values:
 //   {-4 => {-4 => -4, -3 => -3, -2 => -2, -1 => -1, }, 4 => {1 => 1, 2 => 2, 3 => 3, 4 => 4, }, }
 //
 // Parameters:
 //  - Hello
 func (p *printingHandler) TestMapMap(hello int32) (r map[int32]map[int32]int32, err error) {
 	fmt.Printf("testMapMap(%d)\n", hello)

 	r = map[int32]map[int32]int32{
 		-4: map[int32]int32{-4: -4, -3: -3, -2: -2, -1: -1},
 		4:  map[int32]int32{4: 4, 3: 3, 2: 2, 1: 1},
 	}
 	return
 }

 // So you think you've got this all worked, out eh?
 //
 // Creates a the returned map with these values and prints it out:
 //   { 1 => { 2 => argument,
 //            3 => argument,
 //          },
 //     2 => { 6 => <empty Insanity struct>, },
 //   }
 // @return map<UserId, map<Numberz,Insanity>> - a map with the above values
 //
 // Parameters:
 //  - Argument
 func (p *printingHandler) TestInsanity(argument *Insanity) (r map[UserId]map[Numberz]*Insanity, err error) {
 	fmt.Printf("testInsanity()\n")
 	r = make(map[UserId]map[Numberz]*Insanity)
 	r[1] = map[Numberz]*Insanity {
 		2: argument,
 		3: argument,
 	}
 	r[2] = map[Numberz]*Insanity {
 		6: NewInsanity(),
 	}
 	return
 }

 // Prints 'testMulti()'
 // @param byte arg0 -
 // @param i32 arg1 -
 // @param i64 arg2 -
 // @param map<i16, string> arg3 -
 // @param Numberz arg4 -
 // @param UserId arg5 -
 // @return Xtruct - returns an Xtruct with StringThing = "Hello2, ByteThing = arg0, I32Thing = arg1
 //    and I64Thing = arg2
 //
 // Parameters:
 //  - Arg0
 //  - Arg1
 //  - Arg2
 //  - Arg3
 //  - Arg4
 //  - Arg5
 func (p *printingHandler) TestMulti(arg0 int8, arg1 int32, arg2 int64, arg3 map[int16]string, arg4 Numberz, arg5 UserId) (r *Xtruct, err error) {
 	fmt.Printf("testMulti()\n")
 	r = NewXtruct()

 	r.StringThing = "Hello2"
 	r.ByteThing = arg0
 	r.I32Thing = arg1
 	r.I64Thing = arg2
 	return
 }

 // Print 'testException(%s)' with arg as '%s'
 // @param string arg - a string indication what type of exception to throw
 // if arg == "Xception" throw Xception with errorCode = 1001 and message = arg
 // elsen if arg == "TException" throw TException
 // else do not throw anything
 //
 // Parameters:
 //  - Arg
 func (p *printingHandler) TestException(arg string) (err error) {
 	fmt.Printf("testException(%s)\n", arg)
 	switch arg {
 	case "Xception":
 		e := NewXception()
 		e.ErrorCode = 1001
 		e.Message = arg
 		return e
 	case "TException":
 		return errors.New("Just TException")
 	}
 	return
 }

 // Print 'testMultiException(%s, %s)' with arg0 as '%s' and arg1 as '%s'
 // @param string arg - a string indication what type of exception to throw
 // if arg0 == "Xception" throw Xception with errorCode = 1001 and message = "This is an Xception"
 // elsen if arg0 == "Xception2" throw Xception2 with errorCode = 2002 and message = "This is an Xception2"
 // else do not throw anything
 // @return Xtruct - an Xtruct with StringThing = arg1
 //
 // Parameters:
 //  - Arg0
 //  - Arg1
 func (p *printingHandler) TestMultiException(arg0 string, arg1 string) (r *Xtruct, err error) {
 	fmt.Printf("testMultiException(%s, %s)\n", arg0, arg1)
 	switch arg0 {

 	case "Xception":
 		e := NewXception()
 		e.ErrorCode = 1001
 		e.Message = "This is an Xception"
 		return nil, e
 	case "Xception2":
 		e := NewXception2()
 		e.ErrorCode = 2002
 		e.StructThing = NewXtruct()
 		e.StructThing.StringThing = "This is an Xception2"
 		return nil, e
 	default:
 		r = NewXtruct()
 		r.StringThing = arg1
 		return
 	}
 }

 // Print 'testOneway(%d): Sleeping...' with secondsToSleep as '%d'
 // sleep 'secondsToSleep'
 // Print 'testOneway(%d): done sleeping!' with secondsToSleep as '%d'
 // @param i32 secondsToSleep - the number of seconds to sleep
 //
 // Parameters:
 //  - SecondsToSleep
 func (p *printingHandler) TestOneway(secondsToSleep int32) (err error) {
 	fmt.Printf("testOneway(%d): Sleeping...\n", secondsToSleep)
 	time.Sleep(time.Second * time.Duration(secondsToSleep))
 	fmt.Printf("testOneway(%d): done sleeping!\n", secondsToSleep)
 	return
 }
	/*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*/

	package common

	import (
	"errors"
	"fmt"
	"encoding/hex"
	. "gen/thrifttest"
	"time"
	)

	var PrintingHandler = &printingHandler{}

	type printingHandler struct{}

	// Prints "testVoid()" and returns nothing.
	func (p *printingHandler) TestVoid() (err error) {
	fmt.Println("testVoid()")
	return nil
	}

	// Prints 'testString("%s")' with thing as '%s'
	// @param string thing - the string to print
	// @return string - returns the string 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestString(thing string) (r string, err error) {
	fmt.Printf("testString(\"%s\")\n", thing)
	return thing, nil
	}

	// Prints 'testBool("%d")' with thing as 'true' or 'false'
	// @param bool thing - the bool to print
	// @return bool - returns the bool 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestBool(thing bool) (r bool, err error) {
	fmt.Printf("testBool(%d)\n", thing)
	return thing, nil
	}

	// Prints 'testByte("%d")' with thing as '%d'
	// @param byte thing - the byte to print
	// @return byte - returns the byte 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestByte(thing int8) (r int8, err error) {
	fmt.Printf("testByte(%d)\n", thing)
	return thing, nil
	}

	// Prints 'testI32("%d")' with thing as '%d'
	// @param i32 thing - the i32 to print
	// @return i32 - returns the i32 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestI32(thing int32) (r int32, err error) {
	fmt.Printf("testI32(%d)\n", thing)
	return thing, nil
	}

	// Prints 'testI64("%d")' with thing as '%d'
	// @param i64 thing - the i64 to print
	// @return i64 - returns the i64 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestI64(thing int64) (r int64, err error) {
	fmt.Printf("testI64(%d)\n", thing)
	return thing, nil
	}

	// Prints 'testDouble("%f")' with thing as '%f'
	// @param double thing - the double to print
	// @return double - returns the double 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestDouble(thing float64) (r float64, err error) {
	fmt.Printf("testDouble(%f)\n", thing)
	return thing, nil
	}

	// Prints 'testBinary("%s")' where '%s' is a hex-formatted string of thing's data
	// @param []byte thing - the binary to print
	// @return []byte - returns the binary 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestBinary(thing []byte) (r []byte, err error) {
	fmt.Printf("testBinary(%s)\n", hex.EncodeToString(thing))
	return thing, nil
	}

	// Prints 'testStruct("{%s}")' where thing has been formatted into a string of comma separated values
	// @param Xtruct thing - the Xtruct to print
	// @return Xtruct - returns the Xtruct 'thing'
	//
	// Parameters:
	// - Thing
	func (p printingHandler) TestStruct(thing Xtruct) (r *Xtruct, err error) {
	fmt.Printf("testStruct({\"%s\", %d, %d, %d})\n", thing.StringThing, thing.ByteThing, thing.I32Thing, thing.I64Thing)
	return thing, err
	}

	// Prints 'testNest("{%s}")' where thing has been formatted into a string of the nested struct
	// @param Xtruct2 thing - the Xtruct2 to print
	// @return Xtruct2 - returns the Xtruct2 'thing'
	//
	// Parameters:
	// - Thing
	func (p printingHandler) TestNest(nest Xtruct2) (r *Xtruct2, err error) {
	thing := nest.StructThing
	fmt.Printf("testNest({%d, {\"%s\", %d, %d, %d}, %d})\n", nest.ByteThing, thing.StringThing, thing.ByteThing, thing.I32Thing, thing.I64Thing, nest.I32Thing)
	return nest, nil
	}

	// Prints 'testMap("{%s")' where thing has been formatted into a string of 'key => value' pairs
	// separated by commas and new lines
	// @param map<i32,i32> thing - the map<i32,i32> to print
	// @return map<i32,i32> - returns the map<i32,i32> 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestMap(thing map[int32]int32) (r map[int32]int32, err error) {
	fmt.Printf("testMap({")
	first := true
	for k, v := range thing {
	if first {
	first = false
	} else {
	fmt.Printf(", ")
	}
	fmt.Printf("%d => %d", k, v)
	}
	fmt.Printf("})\n")
	return thing, nil
	}

	// Prints 'testStringMap("{%s}")' where thing has been formatted into a string of 'key => value' pairs
	// separated by commas and new lines
	// @param map<string,string> thing - the map<string,string> to print
	// @return map<string,string> - returns the map<string,string> 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestStringMap(thing map[string]string) (r map[string]string, err error) {
	fmt.Printf("testStringMap({")
	first := true
	for k, v := range thing {
	if first {
	first = false
	} else {
	fmt.Printf(", ")
	}
	fmt.Printf("%s => %s", k, v)
	}
	fmt.Printf("})\n")
	return thing, nil
	}

	// Prints 'testSet("{%s}")' where thing has been formatted into a string of values
	// separated by commas and new lines
	// @param set<i32> thing - the set<i32> to print
	// @return set<i32> - returns the set<i32> 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestSet(thing map[int32]bool) (r map[int32]bool, err error) {
	fmt.Printf("testSet({")
	first := true
	for k, _ := range thing {
	if first {
	first = false
	} else {
	fmt.Printf(", ")
	}
	fmt.Printf("%d", k)
	}
	fmt.Printf("})\n")
	return thing, nil
	}

	// Prints 'testList("{%s}")' where thing has been formatted into a string of values
	// separated by commas and new lines
	// @param list<i32> thing - the list<i32> to print
	// @return list<i32> - returns the list<i32> 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestList(thing []int32) (r []int32, err error) {
	fmt.Printf("testList({")
	for i, v := range thing {
	if i != 0 {
	fmt.Printf(", ")
	}
	fmt.Printf("%d", v)
	}
	fmt.Printf("})\n")
	return thing, nil
	}

	// Prints 'testEnum("%d")' where thing has been formatted into it's numeric value
	// @param Numberz thing - the Numberz to print
	// @return Numberz - returns the Numberz 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestEnum(thing Numberz) (r Numberz, err error) {
	fmt.Printf("testEnum(%d)\n", thing)
	return thing, nil
	}

	// Prints 'testTypedef("%d")' with thing as '%d'
	// @param UserId thing - the UserId to print
	// @return UserId - returns the UserId 'thing'
	//
	// Parameters:
	// - Thing
	func (p *printingHandler) TestTypedef(thing UserId) (r UserId, err error) {
	fmt.Printf("testTypedef(%d)\n", thing)
	return thing, nil
	}

	// Prints 'testMapMap("%d")' with hello as '%d'
	// @param i32 hello - the i32 to print
	// @return map<i32,map<i32,i32>> - returns a dictionary with these values:
	// {-4 => {-4 => -4, -3 => -3, -2 => -2, -1 => -1, }, 4 => {1 => 1, 2 => 2, 3 => 3, 4 => 4, }, }
	//
	// Parameters:
	// - Hello
	func (p *printingHandler) TestMapMap(hello int32) (r map[int32]map[int32]int32, err error) {
	fmt.Printf("testMapMap(%d)\n", hello)

	r = map[int32]map[int32]int32{
	-4: map[int32]int32{-4: -4, -3: -3, -2: -2, -1: -1},
	4: map[int32]int32{4: 4, 3: 3, 2: 2, 1: 1},
	}
	return
	}

	// So you think you've got this all worked, out eh?
	//
	// Creates a the returned map with these values and prints it out:
	// { 1 => { 2 => argument,
	// 3 => argument,
	// },
	// 2 => { 6 => <empty Insanity struct>, },
	// }
	// @return map<UserId, map<Numberz,Insanity>> - a map with the above values
	//
	// Parameters:
	// - Argument
	func (p printingHandler) TestInsanity(argument Insanity) (r map[UserId]map[Numberz]*Insanity, err error) {
	fmt.Printf("testInsanity()\n")
	r = make(map[UserId]map[Numberz]*Insanity)
	r[1] = map[Numberz]*Insanity {
	2: argument,
	3: argument,
	}
	r[2] = map[Numberz]*Insanity {
	6: NewInsanity(),
	}
	return
	}

	// Prints 'testMulti()'
	// @param byte arg0 -
	// @param i32 arg1 -
	// @param i64 arg2 -
	// @param map<i16, string> arg3 -
	// @param Numberz arg4 -
	// @param UserId arg5 -
	// @return Xtruct - returns an Xtruct with StringThing = "Hello2, ByteThing = arg0, I32Thing = arg1
	// and I64Thing = arg2
	//
	// Parameters:
	// - Arg0
	// - Arg1
	// - Arg2
	// - Arg3
	// - Arg4
	// - Arg5
	func (p printingHandler) TestMulti(arg0 int8, arg1 int32, arg2 int64, arg3 map[int16]string, arg4 Numberz, arg5 UserId) (r Xtruct, err error) {
	fmt.Printf("testMulti()\n")
	r = NewXtruct()

	r.StringThing = "Hello2"
	r.ByteThing = arg0
	r.I32Thing = arg1
	r.I64Thing = arg2
	return
	}

	// Print 'testException(%s)' with arg as '%s'
	// @param string arg - a string indication what type of exception to throw
	// if arg == "Xception" throw Xception with errorCode = 1001 and message = arg
	// elsen if arg == "TException" throw TException
	// else do not throw anything
	//
	// Parameters:
	// - Arg
	func (p *printingHandler) TestException(arg string) (err error) {
	fmt.Printf("testException(%s)\n", arg)
	switch arg {
	case "Xception":
	e := NewXception()
	e.ErrorCode = 1001
	e.Message = arg
	return e
	case "TException":
	return errors.New("Just TException")
	}
	return
	}

	// Print 'testMultiException(%s, %s)' with arg0 as '%s' and arg1 as '%s'
	// @param string arg - a string indication what type of exception to throw
	// if arg0 == "Xception" throw Xception with errorCode = 1001 and message = "This is an Xception"
	// elsen if arg0 == "Xception2" throw Xception2 with errorCode = 2002 and message = "This is an Xception2"
	// else do not throw anything
	// @return Xtruct - an Xtruct with StringThing = arg1
	//
	// Parameters:
	// - Arg0
	// - Arg1
	func (p printingHandler) TestMultiException(arg0 string, arg1 string) (r Xtruct, err error) {
	fmt.Printf("testMultiException(%s, %s)\n", arg0, arg1)
	switch arg0 {

	case "Xception":
	e := NewXception()
	e.ErrorCode = 1001
	e.Message = "This is an Xception"
	return nil, e
	case "Xception2":
	e := NewXception2()
	e.ErrorCode = 2002
	e.StructThing = NewXtruct()
	e.StructThing.StringThing = "This is an Xception2"
	return nil, e
	default:
	r = NewXtruct()
	r.StringThing = arg1
	return
	}
	}

	// Print 'testOneway(%d): Sleeping...' with secondsToSleep as '%d'
	// sleep 'secondsToSleep'
	// Print 'testOneway(%d): done sleeping!' with secondsToSleep as '%d'
	// @param i32 secondsToSleep - the number of seconds to sleep
	//
	// Parameters:
	// - SecondsToSleep
	func (p *printingHandler) TestOneway(secondsToSleep int32) (err error) {
	fmt.Printf("testOneway(%d): Sleeping...\n", secondsToSleep)
	time.Sleep(time.Second * time.Duration(secondsToSleep))
	fmt.Printf("testOneway(%d): done sleeping!\n", secondsToSleep)
	return
	}