From 663631f0456fcc245dd835889f86541d75161c53 Mon Sep 17 00:00:00 2001
From: Roman Shevchenko <roman.shevchenko@jetbrains.com>
Date: Thu, 28 Aug 2014 20:52:43 +0400
Subject: java-decompiler: post-import cleanup (classes moved)

---
 .../java/decompiler/main/AssertProcessor.java      | 321 +++++++++++++++++++++
 1 file changed, 321 insertions(+)
 create mode 100644 src/org/jetbrains/java/decompiler/main/AssertProcessor.java

(limited to 'src/org/jetbrains/java/decompiler/main/AssertProcessor.java')

diff --git a/src/org/jetbrains/java/decompiler/main/AssertProcessor.java b/src/org/jetbrains/java/decompiler/main/AssertProcessor.java
new file mode 100644
index 0000000..86e5c59
--- /dev/null
+++ b/src/org/jetbrains/java/decompiler/main/AssertProcessor.java
@@ -0,0 +1,321 @@
+/*
+ *    Fernflower - The Analytical Java Decompiler
+ *    http://www.reversed-java.com
+ *
+ *    (C) 2008 - 2010, Stiver
+ *
+ *    This software is NEITHER public domain NOR free software 
+ *    as per GNU License. See license.txt for more details.
+ *
+ *    This software is distributed WITHOUT ANY WARRANTY; without 
+ *    even the implied warranty of MERCHANTABILITY or FITNESS FOR 
+ *    A PARTICULAR PURPOSE. 
+ */
+
+package org.jetbrains.java.decompiler.main;
+
+import java.util.ArrayList;
+import java.util.Arrays;
+import java.util.List;
+
+import org.jetbrains.java.decompiler.code.CodeConstants;
+import org.jetbrains.java.decompiler.code.cfg.BasicBlock;
+import org.jetbrains.java.decompiler.main.ClassesProcessor.ClassNode;
+import org.jetbrains.java.decompiler.main.collectors.CounterContainer;
+import org.jetbrains.java.decompiler.main.extern.IFernflowerPreferences;
+import org.jetbrains.java.decompiler.main.rels.ClassWrapper;
+import org.jetbrains.java.decompiler.main.rels.MethodWrapper;
+import org.jetbrains.java.decompiler.modules.decompiler.SecondaryFunctionsHelper;
+import org.jetbrains.java.decompiler.modules.decompiler.StatEdge;
+import org.jetbrains.java.decompiler.modules.decompiler.exps.AssertExprent;
+import org.jetbrains.java.decompiler.modules.decompiler.exps.ConstExprent;
+import org.jetbrains.java.decompiler.modules.decompiler.exps.ExitExprent;
+import org.jetbrains.java.decompiler.modules.decompiler.exps.Exprent;
+import org.jetbrains.java.decompiler.modules.decompiler.exps.FieldExprent;
+import org.jetbrains.java.decompiler.modules.decompiler.exps.FunctionExprent;
+import org.jetbrains.java.decompiler.modules.decompiler.exps.InvocationExprent;
+import org.jetbrains.java.decompiler.modules.decompiler.exps.NewExprent;
+import org.jetbrains.java.decompiler.modules.decompiler.stats.BasicBlockStatement;
+import org.jetbrains.java.decompiler.modules.decompiler.stats.IfStatement;
+import org.jetbrains.java.decompiler.modules.decompiler.stats.RootStatement;
+import org.jetbrains.java.decompiler.modules.decompiler.stats.SequenceStatement;
+import org.jetbrains.java.decompiler.modules.decompiler.stats.Statement;
+import org.jetbrains.java.decompiler.struct.StructField;
+import org.jetbrains.java.decompiler.struct.gen.FieldDescriptor;
+import org.jetbrains.java.decompiler.struct.gen.VarType;
+import org.jetbrains.java.decompiler.util.InterpreterUtil;
+
+public class AssertProcessor {
+	
+	private static final VarType CLASS_ASSERTION_ERROR = new VarType(CodeConstants.TYPE_OBJECT, 0, "java/lang/AssertionError");  
+
+	public static void buildAssertions(ClassNode node) {
+
+		ClassWrapper wrapper = node.wrapper;
+
+		StructField field = findAssertionField(node);
+		
+		if(field != null) {
+
+			String key = InterpreterUtil.makeUniqueKey(field.getName(), field.getDescriptor());
+			
+			boolean res = false;
+			
+			for(MethodWrapper meth : wrapper.getMethods()) {
+				RootStatement root = meth.root;
+				if(root != null) {
+					res |= replaceAssertions(root, wrapper.getClassStruct().qualifiedName, key);
+				}
+			}
+			
+			if(res) {
+				// hide the helper field
+				wrapper.getHideMembers().add(key);
+			}
+		}
+		
+	}
+	
+	private static StructField findAssertionField(ClassNode node) {
+		
+		ClassWrapper wrapper = node.wrapper;
+		
+		boolean nosynthflag = DecompilerContext.getOption(IFernflowerPreferences.SYNTHETIC_NOT_SET); 
+
+		for(StructField fd: wrapper.getClassStruct().getFields()) {
+
+			String keyField = InterpreterUtil.makeUniqueKey(fd.getName(), fd.getDescriptor());
+			
+			// initializer exists
+			if(wrapper.getStaticFieldInitializers().containsKey(keyField)) {
+
+				int flags = fd.access_flags;
+				boolean isSynthetic = (flags & CodeConstants.ACC_SYNTHETIC) != 0 || fd.getAttributes().containsKey("Synthetic");
+
+				// access flags set
+				if((flags & CodeConstants.ACC_STATIC) != 0 && (flags & CodeConstants.ACC_FINAL) != 0 &&
+						(isSynthetic || nosynthflag)) {
+
+					// field type boolean
+					FieldDescriptor fdescr = FieldDescriptor.parseDescriptor(fd.getDescriptor());
+					if(VarType.VARTYPE_BOOLEAN.equals(fdescr.type)) {
+
+						Exprent initializer = wrapper.getStaticFieldInitializers().getWithKey(keyField);
+						if(initializer.type == Exprent.EXPRENT_FUNCTION) {
+							FunctionExprent fexpr = (FunctionExprent)initializer;
+							
+							if(fexpr.getFunctype() == FunctionExprent.FUNCTION_BOOLNOT && 
+									fexpr.getLstOperands().get(0).type == Exprent.EXPRENT_INVOCATION) {
+								
+								InvocationExprent invexpr = (InvocationExprent)fexpr.getLstOperands().get(0);
+								
+								if(invexpr.getInstance() != null && invexpr.getInstance().type == Exprent.EXPRENT_CONST && "desiredAssertionStatus".equals(invexpr.getName())
+										&& "java/lang/Class".equals(invexpr.getClassname()) && invexpr.getLstParameters().isEmpty()) {
+									
+									ConstExprent cexpr = (ConstExprent)invexpr.getInstance();
+									if(VarType.VARTYPE_CLASS.equals(cexpr.getConsttype())) {
+										
+										ClassNode nd = node;
+										while(nd != null) {
+											if(nd.wrapper.getClassStruct().qualifiedName.equals(cexpr.getValue())) {
+												break;
+											}
+											nd = nd.parent;
+										}
+										
+										if(nd != null) { // found enclosing class with the same name
+											return fd;
+										}
+									}
+								}
+							}
+						}
+					}
+				}				
+			}
+		}
+		
+		
+		return null;
+	}
+	
+	
+	private static boolean replaceAssertions(Statement statement, String classname, String key) {
+
+		boolean res = false;
+		
+		for(Statement st : statement.getStats()) {
+			res |= replaceAssertions(st, classname, key);
+		}
+		
+		boolean replaced = true;
+		while(replaced) {
+			replaced = false;
+			
+			for(Statement st : statement.getStats()) {
+				if(st.type == Statement.TYPE_IF) {
+					if(replaceAssertion(statement, (IfStatement)st, classname, key)) {
+						replaced = true;
+						break;
+					}
+				}
+			}
+			
+			res |= replaced;
+		}
+		
+		return res;
+	}
+	
+	private static boolean replaceAssertion(Statement parent, IfStatement stat, String classname, String key) {
+		
+		Statement ifstat = stat.getIfstat();
+		InvocationExprent throwError = isAssertionError(ifstat);
+		
+		if(throwError == null) {
+			return false;
+		}
+		
+		Object[] exprres = getAssertionExprent(stat.getHeadexprent().getCondition().copy(), classname, key);
+		if(!(Boolean)exprres[1]) {
+			return false;
+		}
+		
+		List<Exprent> lstParams = new ArrayList<Exprent>();
+		
+		Exprent ascond = null, retcond = null;
+		if(exprres[0] != null) {
+			ascond = new FunctionExprent(FunctionExprent.FUNCTION_BOOLNOT, 
+					Arrays.asList(new Exprent[]{(Exprent)exprres[0]}));
+			retcond = SecondaryFunctionsHelper.propagateBoolNot(ascond);
+		}
+		
+		lstParams.add(retcond==null?ascond:retcond);
+		if(!throwError.getLstParameters().isEmpty()) {
+			lstParams.add(throwError.getLstParameters().get(0));
+		}
+		
+		AssertExprent asexpr = new AssertExprent(lstParams); 
+		
+		Statement newstat = new BasicBlockStatement(new BasicBlock(
+				DecompilerContext.getCountercontainer().getCounterAndIncrement(CounterContainer.STATEMENT_COUNTER)));
+		newstat.setExprents(Arrays.asList(new Exprent[] {asexpr}));
+
+		Statement first = stat.getFirst();
+		
+		if(stat.iftype == IfStatement.IFTYPE_IFELSE || (first.getExprents() != null &&
+				!first.getExprents().isEmpty())) {
+
+			first.removeSuccessor(stat.getIfEdge());
+			first.removeSuccessor(stat.getElseEdge());
+			
+			List<Statement> lstStatements = new ArrayList<Statement>();
+			if(first.getExprents() != null && !first.getExprents().isEmpty()) {
+				lstStatements.add(first);
+			}
+			lstStatements.add(newstat);
+			if(stat.iftype == IfStatement.IFTYPE_IFELSE) {
+				lstStatements.add(stat.getElsestat());
+			}
+			
+			SequenceStatement sequence = new SequenceStatement(lstStatements);
+			sequence.setAllParent();
+
+			for(int i=0;i<sequence.getStats().size()-1;i++) {
+				sequence.getStats().get(i).addSuccessor(new StatEdge(StatEdge.TYPE_REGULAR, 
+						sequence.getStats().get(i), sequence.getStats().get(i+1)));
+			}
+			
+			if(stat.iftype == IfStatement.IFTYPE_IFELSE) {
+				Statement ifelse = stat.getElsestat();
+				
+				List<StatEdge> lstSuccs = ifelse.getAllSuccessorEdges(); 
+				if(!lstSuccs.isEmpty()) {
+					StatEdge endedge = lstSuccs.get(0);
+					if(endedge.closure == stat) {
+						sequence.addLabeledEdge(endedge);
+					}
+				}
+			}
+			
+			newstat = sequence;
+		}
+		
+		newstat.getVarDefinitions().addAll(stat.getVarDefinitions());
+		parent.replaceStatement(stat, newstat);
+		
+		return true;
+	}
+	
+	private static InvocationExprent isAssertionError(Statement stat) {
+		
+		if(stat == null || stat.getExprents() == null || stat.getExprents().size() !=1) {
+			return null;
+		}
+
+		Exprent expr = stat.getExprents().get(0);
+		
+		if(expr.type == Exprent.EXPRENT_EXIT) {
+			ExitExprent exexpr = (ExitExprent)expr;
+			if(exexpr.getExittype() == ExitExprent.EXIT_THROW && exexpr.getValue().type == Exprent.EXPRENT_NEW) {
+				NewExprent nexpr = (NewExprent)exexpr.getValue();
+				if(CLASS_ASSERTION_ERROR.equals(nexpr.getNewtype()) && nexpr.getConstructor() != null) {
+					return nexpr.getConstructor();
+				}
+			}
+		}		
+		
+		return null;
+	}
+	
+	private static Object[] getAssertionExprent(Exprent exprent, String classname, String key) {
+		
+		if(exprent.type == Exprent.EXPRENT_FUNCTION) {
+			FunctionExprent fexpr = (FunctionExprent)exprent;
+			if(fexpr.getFunctype() == FunctionExprent.FUNCTION_CADD) {
+				
+				for(int i=0;i<2;i++) {
+					Exprent param = fexpr.getLstOperands().get(i);
+					
+					if(isAssertionField(param, classname, key)) {
+						return new Object[] {fexpr.getLstOperands().get(1-i), true};
+					}
+				}
+				
+				for(int i=0;i<2;i++) {
+					Exprent param = fexpr.getLstOperands().get(i);
+					
+					Object[] res = getAssertionExprent(param, classname, key);
+					if((Boolean)res[1]) {
+						if(param != res[0]) {
+							fexpr.getLstOperands().set(i, (Exprent)res[0]);
+						}
+						return new Object[] {fexpr, true};
+					}
+				}
+			} else if(isAssertionField(fexpr, classname, key)) {
+				// assert false;
+				return new Object[] {null, true};
+			}
+		}
+		
+		return new Object[] {exprent, false};
+	}
+	
+	private static boolean isAssertionField(Exprent exprent, String classname, String key) {
+		
+		if(exprent.type == Exprent.EXPRENT_FUNCTION) {
+			FunctionExprent fparam = (FunctionExprent)exprent;
+			if(fparam.getFunctype() == FunctionExprent.FUNCTION_BOOLNOT &&
+					fparam.getLstOperands().get(0).type == Exprent.EXPRENT_FIELD) {
+				FieldExprent fdparam = (FieldExprent)fparam.getLstOperands().get(0);
+				if(classname.equals(fdparam.getClassname())
+						&& key.equals(InterpreterUtil.makeUniqueKey(fdparam.getName(), fdparam.getDescriptor().descriptorString))) {
+					return true;
+				}
+			}
+		}
+
+		return false;
+	}
+}
-- 
cgit v1.2.3