/**
* Copyright 2011-2014 Asakusa Framework Team.
*
* Licensed 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 com.asakusafw.compiler.flow.processor.operator;
import java.util.Arrays;
import java.util.List;
import javax.annotation.Generated;
import com.asakusafw.compiler.flow.testing.model.Ex1;
import com.asakusafw.compiler.flow.testing.model.Ex2;
import com.asakusafw.vocabulary.flow.Operator;
import com.asakusafw.vocabulary.flow.Source;
import com.asakusafw.vocabulary.flow.graph.FlowBoundary;
import com.asakusafw.vocabulary.flow.graph.FlowElementResolver;
import com.asakusafw.vocabulary.flow.graph.OperatorDescription;
import com.asakusafw.vocabulary.flow.graph.OperatorHelper;
import com.asakusafw.vocabulary.flow.graph.ShuffleKey;
import com.asakusafw.vocabulary.operator.MasterBranch;
/**
* {@link MasterBranchFlow}に関する演算子ファクトリークラス。
*/
@Generated("OperatorFactoryClassGenerator:0.0.1") public class MasterBranchFlowFactory {
/**
* 通常の演算子。
*/
public static final class Simple implements Operator {
/**
* 速い。
*/
public final Source<Ex1> high;
/**
* 遅い。
*/
public final Source<Ex1> low;
/**
* 停止。
*/
public final Source<Ex1> stop;
Simple(Source<Ex2> master, Source<Ex1> model) {
OperatorDescription.Builder builder = new OperatorDescription.Builder(MasterBranch.class);
builder.declare(MasterBranchFlow.class, MasterBranchFlowImpl.class, "simple");
builder.declareParameter(Ex2.class);
builder.declareParameter(Ex1.class);
builder.addInput("master", Ex2.class, new ShuffleKey(Arrays.asList(new String[]{"string"}), Arrays.asList(
new ShuffleKey.Order[]{})));
builder.addInput("model", Ex1.class, new ShuffleKey(Arrays.asList(new String[]{"string"}), Arrays.asList(new
ShuffleKey.Order[]{})));
builder.addOutput("high", Ex1.class);
builder.addOutput("low", Ex1.class);
builder.addOutput("stop", Ex1.class);
builder.addAttribute(FlowBoundary.SHUFFLE);
FlowElementResolver resolver = builder.toResolver();
resolver.resolveInput("master", master);
resolver.resolveInput("model", model);
this.high = resolver.resolveOutput("high");
this.low = resolver.resolveOutput("low");
this.stop = resolver.resolveOutput("stop");
}
}
/**
* 通常の演算子。
* @param master マスタ
* @param model 対象のモデル
* @return 生成した演算子オブジェクト
*/
public MasterBranchFlowFactory.Simple simple(Source<Ex2> master, Source<Ex1> model) {
return new MasterBranchFlowFactory.Simple(master, model);
}
/**
* パラメーター付きの演算子。
*/
public static final class WithParameter implements Operator {
/**
* 速い。
*/
public final Source<Ex1> high;
/**
* 遅い。
*/
public final Source<Ex1> low;
/**
* 停止。
*/
public final Source<Ex1> stop;
WithParameter(Source<Ex2> master, Source<Ex1> model, int parameter) {
OperatorDescription.Builder builder0 = new OperatorDescription.Builder(MasterBranch.class);
builder0.declare(MasterBranchFlow.class, MasterBranchFlowImpl.class, "withParameter");
builder0.declareParameter(Ex2.class);
builder0.declareParameter(Ex1.class);
builder0.declareParameter(int.class);
builder0.addInput("master", Ex2.class, new ShuffleKey(Arrays.asList(new String[]{"string"}), Arrays.asList(
new ShuffleKey.Order[]{})));
builder0.addInput("model", Ex1.class, new ShuffleKey(Arrays.asList(new String[]{"string"}), Arrays.asList(
new ShuffleKey.Order[]{})));
builder0.addOutput("high", Ex1.class);
builder0.addOutput("low", Ex1.class);
builder0.addOutput("stop", Ex1.class);
builder0.addParameter("parameter", int.class, parameter);
builder0.addAttribute(FlowBoundary.SHUFFLE);
FlowElementResolver resolver0 = builder0.toResolver();
resolver0.resolveInput("master", master);
resolver0.resolveInput("model", model);
this.high = resolver0.resolveOutput("high");
this.low = resolver0.resolveOutput("low");
this.stop = resolver0.resolveOutput("stop");
}
}
/**
* パラメーター付きの演算子。
* @param master マスタ
* @param model 対象のモデル
* @param parameter 追加パラメータ
* @return 生成した演算子オブジェクト
*/
public MasterBranchFlowFactory.WithParameter withParameter(Source<Ex2> master, Source<Ex1> model, int parameter) {
return new MasterBranchFlowFactory.WithParameter(master, model, parameter);
}
/**
* セレクタつきの演算子。
*/
public static final class Selection implements Operator {
/**
* 速い。
*/
public final Source<Ex1> high;
/**
* 遅い。
*/
public final Source<Ex1> low;
/**
* 停止。
*/
public final Source<Ex1> stop;
Selection(Source<Ex2> master, Source<Ex1> model) {
OperatorDescription.Builder builder1 = new OperatorDescription.Builder(MasterBranch.class);
builder1.declare(MasterBranchFlow.class, MasterBranchFlowImpl.class, "selection");
builder1.declareParameter(Ex2.class);
builder1.declareParameter(Ex1.class);
builder1.addInput("master", Ex2.class, new ShuffleKey(Arrays.asList(new String[]{"string"}), Arrays.asList(
new ShuffleKey.Order[]{})));
builder1.addInput("model", Ex1.class, new ShuffleKey(Arrays.asList(new String[]{"string"}), Arrays.asList(
new ShuffleKey.Order[]{})));
builder1.addOutput("high", Ex1.class);
builder1.addOutput("low", Ex1.class);
builder1.addOutput("stop", Ex1.class);
builder1.addAttribute(new OperatorHelper("selector", Arrays.asList(new Class<?>[]{List.class, Ex1.class})));
builder1.addAttribute(FlowBoundary.SHUFFLE);
FlowElementResolver resolver1 = builder1.toResolver();
resolver1.resolveInput("master", master);
resolver1.resolveInput("model", model);
this.high = resolver1.resolveOutput("high");
this.low = resolver1.resolveOutput("low");
this.stop = resolver1.resolveOutput("stop");
}
}
/**
* セレクタつきの演算子。
* @param master マスタ
* @param model 対象のモデル
* @return 生成した演算子オブジェクト
*/
public MasterBranchFlowFactory.Selection selection(Source<Ex2> master, Source<Ex1> model) {
return new MasterBranchFlowFactory.Selection(master, model);
}
/**
* セレクタおよびパラメータつきの演算子 (セレクタのパラメータはなし)。
*/
public static final class SelectionWithParameter0 implements Operator {
/**
* 速い。
*/
public final Source<Ex1> high;
/**
* 遅い。
*/
public final Source<Ex1> low;
/**
* 停止。
*/
public final Source<Ex1> stop;
SelectionWithParameter0(Source<Ex2> master, Source<Ex1> model, int parameter) {
OperatorDescription.Builder builder2 = new OperatorDescription.Builder(MasterBranch.class);
builder2.declare(MasterBranchFlow.class, MasterBranchFlowImpl.class, "selectionWithParameter0");
builder2.declareParameter(Ex2.class);
builder2.declareParameter(Ex1.class);
builder2.declareParameter(int.class);
builder2.addInput("master", Ex2.class, new ShuffleKey(Arrays.asList(new String[]{"string"}), Arrays.asList(
new ShuffleKey.Order[]{})));
builder2.addInput("model", Ex1.class, new ShuffleKey(Arrays.asList(new String[]{"string"}), Arrays.asList(
new ShuffleKey.Order[]{})));
builder2.addOutput("high", Ex1.class);
builder2.addOutput("low", Ex1.class);
builder2.addOutput("stop", Ex1.class);
builder2.addParameter("parameter", int.class, parameter);
builder2.addAttribute(new OperatorHelper("selector", Arrays.asList(new Class<?>[]{List.class, Ex1.class})));
builder2.addAttribute(FlowBoundary.SHUFFLE);
FlowElementResolver resolver2 = builder2.toResolver();
resolver2.resolveInput("master", master);
resolver2.resolveInput("model", model);
this.high = resolver2.resolveOutput("high");
this.low = resolver2.resolveOutput("low");
this.stop = resolver2.resolveOutput("stop");
}
}
/**
* セレクタおよびパラメータつきの演算子 (セレクタのパラメータはなし)。
* @param master マスタ
* @param model 対象のモデル
* @param parameter 追加パラメータ
* @return 生成した演算子オブジェクト
*/
public MasterBranchFlowFactory.SelectionWithParameter0 selectionWithParameter0(Source<Ex2> master, Source<Ex1> model
, int parameter) {
return new MasterBranchFlowFactory.SelectionWithParameter0(master, model, parameter);
}
/**
* セレクタおよびパラメータつきの演算子 (セレクタのパラメータはなし)。
*/
public static final class SelectionWithParameter1 implements Operator {
/**
* 速い。
*/
public final Source<Ex1> high;
/**
* 遅い。
*/
public final Source<Ex1> low;
/**
* 停止。
*/
public final Source<Ex1> stop;
SelectionWithParameter1(Source<Ex2> master, Source<Ex1> model, int parameter) {
OperatorDescription.Builder builder3 = new OperatorDescription.Builder(MasterBranch.class);
builder3.declare(MasterBranchFlow.class, MasterBranchFlowImpl.class, "selectionWithParameter1");
builder3.declareParameter(Ex2.class);
builder3.declareParameter(Ex1.class);
builder3.declareParameter(int.class);
builder3.addInput("master", Ex2.class, new ShuffleKey(Arrays.asList(new String[]{"string"}), Arrays.asList(
new ShuffleKey.Order[]{})));
builder3.addInput("model", Ex1.class, new ShuffleKey(Arrays.asList(new String[]{"string"}), Arrays.asList(
new ShuffleKey.Order[]{})));
builder3.addOutput("high", Ex1.class);
builder3.addOutput("low", Ex1.class);
builder3.addOutput("stop", Ex1.class);
builder3.addParameter("parameter", int.class, parameter);
builder3.addAttribute(new OperatorHelper("selectorWithParameter", Arrays.asList(new Class<?>[]{List.class,
Ex1.class, int.class})));
builder3.addAttribute(FlowBoundary.SHUFFLE);
FlowElementResolver resolver3 = builder3.toResolver();
resolver3.resolveInput("master", master);
resolver3.resolveInput("model", model);
this.high = resolver3.resolveOutput("high");
this.low = resolver3.resolveOutput("low");
this.stop = resolver3.resolveOutput("stop");
}
}
/**
* セレクタおよびパラメータつきの演算子 (セレクタのパラメータはなし)。
* @param master マスタ
* @param model 対象のモデル
* @param parameter 追加パラメータ
* @return 生成した演算子オブジェクト
*/
public MasterBranchFlowFactory.SelectionWithParameter1 selectionWithParameter1(Source<Ex2> master, Source<Ex1> model
, int parameter) {
return new MasterBranchFlowFactory.SelectionWithParameter1(master, model, parameter);
}
}