/**@file AutogenLibOrder class. This class is to reorder library instance sequence according to library dependence. Copyright (c) 2006, Intel Corporation All rights reserved. This program and the accompanying materials are licensed and made available under the terms and conditions of the BSD License which accompanies this distribution. The full text of the license may be found at http://opensource.org/licenses/bsd-license.php THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. **/ package org.tianocore.build.autogen; import java.util.ArrayList; import java.util.HashMap; import java.util.List; import java.util.Map; import org.apache.xmlbeans.XmlObject; import org.tianocore.LibraryClassDocument.LibraryClass; import org.tianocore.build.global.GlobalData; import org.tianocore.build.global.SurfaceAreaQuery; import org.tianocore.build.id.ModuleIdentification; /** This class This class is to reorder library instance sequence according to library dependence. **/ public class AutogenLibOrder { /// /// The map of library class and its library instance. /// private Map libClassMap = new HashMap(); /// /// The map of library instance and its implemet libraryClass. /// private Map libInstanceMap = new HashMap(); /// /// List of library instance. It is String[3] list, String[0] is libraryName, /// String[1] is libraryConstructor name, String[2] is libDestructor name. /// private List libInstanceList = new ArrayList(); /** Constructor function This function mainly initialize some member variable. @param libraryList List of the library instance. @throws Exception **/ AutogenLibOrder(ModuleIdentification[] libraryList, String arch) throws Exception { LibraryInstanceNode libInstanceNode; String[] libClassDeclList = null; String[] libClassConsmList = null; for (int i = 0; i < libraryList.length; i++) { // // Add libraryInstance in to libInstanceList. // Map libDoc = GlobalData.getDoc(libraryList[i], arch); SurfaceAreaQuery.push(libDoc); libInstanceNode = new LibraryInstanceNode (libraryList[i],SurfaceAreaQuery.getLibConstructorName(), SurfaceAreaQuery.getLibDestructorName()); libInstanceList.add(libInstanceNode); // // Add library instance and consumed library class list to // libInstanceMap. // libClassConsmList = SurfaceAreaQuery .getLibraryClasses(CommonDefinition.AlwaysConsumed, arch); if (libClassConsmList != null) { String[] classStr = new String[libClassConsmList.length]; for (int k = 0; k < libClassConsmList.length; k++) { classStr[k] = libClassConsmList[k]; } if (this.libInstanceMap.containsKey(libraryList[i])) { throw new Exception( libraryList[i].getName() + "this library instance already exists, please check the library instance list!"); } else { this.libInstanceMap.put(libraryList[i], classStr); } } // // Add library class and library instance map. // libClassDeclList = SurfaceAreaQuery .getLibraryClasses(CommonDefinition.AlwaysProduced, arch); if (libClassDeclList != null) { for (int j = 0; j < libClassDeclList.length; j++) { if (this.libClassMap.containsKey(libClassDeclList[j])) { System.out.println(libClassDeclList[j] + " class is already implement by " + this.libClassMap.get(libClassDeclList[j])); throw new Exception("Library Class: " + libClassDeclList + " already has a library instance!"); } else { this.libClassMap.put(libClassDeclList[j], libraryList[i]); } } } SurfaceAreaQuery.pop(); } // // Check is the library instance list meet the require; // for (int s = 0; s < this.libInstanceList.size(); s++) { String[] libClass = this.libInstanceMap.get(this.libInstanceList .get(s)); if (libClass != null) { for (int t = 0; t < libClass.length; t++) { if (this.libClassMap.get(libClass[t]) == null) { // // Note: There exist a kind of module which depend on // library class with no instance or whose instance will // never be linked into the module. // For this satuation, the module has the description of // library class in MSA file but no description of // corresponding library instance in MBD file. There // will be a warnig message given here after a standard // log way has been decided. // } } } } } /** orderLibInstance This function reorder the library instance according the library class dependency. @return List which content the ordered library instance. **/ List orderLibInstance() { List orderList = new ArrayList(); // // Stack of node which track the library instance name ant its visiting // flag. // List stackList = new ArrayList(); int stackSize = 0; ModuleIdentification libInstanceId = null; if (libInstanceList.size() < 0) { return null; } // // Reorder the library instance. // for (int i = 0; i < libInstanceList.size(); i++) { // // If library instance is already in the order list skip it. // if (isInLibInstance(orderList, libInstanceList.get(i).libId)) { continue; } Node node = new Node(libInstanceList.get(i).libId, false); // // Use stack to reorder library instance. // Push node to stack. // stackList.add(node); while (stackList.size() > 0) { stackSize = stackList.size() - 1; // // Pop the first node in stack. If the node flag has been visited // add this node to orderlist and remove it from stack. // if (stackList.get(stackSize).isVisit) { if (!isInLibInstance(orderList, stackList.get(stackSize).nodeId)) { orderList.add(stackList.get(stackSize).nodeId); stackList.remove(stackSize); } } else { // // Get the node value and set visit flag as true. // stackList.get(stackList.size() - 1).isVisit = true; String[] libClassList = this.libInstanceMap.get(stackList .get(stackSize).nodeId); // // Push the node dependence library instance to the stack. // if (libClassList != null) { for (int j = 0; j < libClassList.length; j++) { libInstanceId = this.libClassMap.get(libClassList[j]); if (libInstanceId != null && !isInLibInstance(orderList, libInstanceId)) { // // If and only if the currently library instance // is not in stack and it have constructor or // destructor function, push this library // instacne in stack. // if (!isInStackList(stackList, this.libClassMap .get(libClassList[j])) && isHaveConsDestructor(libInstanceId)) { stackList.add(new Node(this.libClassMap .get(libClassList[j]), false)); } } } } } } } return orderList; } /** isInLibInstance This function check does the library instance already in the list. @param list List of the library instance. @param instanceName Name of library instance. @return "true" the library instance in list | "false" the library instance is not in list. **/ private boolean isInLibInstance(List list, ModuleIdentification instanceId) { for (int i = 0; i < list.size(); i++) { if (instanceId.equals(list.get(i))) { return true; } } return false; } /** isInStackList This function check if the node already in the stack. @param list Stack. @param nodeName Name of node. @return "true" if node have in stack | "false" if node don't in stack. **/ private boolean isInStackList(List list, ModuleIdentification instanceId) { for (int i = 0; i < list.size(); i++) { if (instanceId.equals(list.get(i).nodeId)) { return true; } } return false; } /** isHaveConsDestructor This function check if the library have constructor or destructor function. @param libName Name of library @return "true" if library have constructor or desconstructor | "false" if library don't have constructor and desconstructor. **/ private boolean isHaveConsDestructor (ModuleIdentification libNode){ for (int i = 0; i < libInstanceList.size(); i++){ if (libInstanceList.get(i).libId.equals(libNode)){ if (libInstanceList.get(i).constructorName != null || libInstanceList.get(i).deconstructorName != null){ return true; } } } return false; } } /** Node This class is used as stack node. **/ class Node { ModuleIdentification nodeId; boolean isVisit; Node(ModuleIdentification nodeId, boolean isVisit) { this.nodeId = nodeId; this.isVisit = false; } } /** LibraryInstance Node This class is used to store LibrayInstance and it's deconstructor and constructor **/ class LibraryInstanceNode { ModuleIdentification libId; String deconstructorName; String constructorName; LibraryInstanceNode (ModuleIdentification libId, String deconstructor, String constructor){ this.libId = libId; this.deconstructorName = deconstructor; this.constructorName = constructor; } }