21 * questions. 22 */ 23 24 package jdk.test.lib.jittester.factories; 25 26 import jdk.test.lib.jittester.Block; 27 import jdk.test.lib.jittester.IRNode; 28 import jdk.test.lib.jittester.If; 29 import jdk.test.lib.jittester.ProductionFailedException; 30 import jdk.test.lib.jittester.ProductionParams; 31 import jdk.test.lib.jittester.Rule; 32 import jdk.test.lib.jittester.Switch; 33 import jdk.test.lib.jittester.SymbolTable; 34 import jdk.test.lib.jittester.Type; 35 import jdk.test.lib.jittester.TypeList; 36 import jdk.test.lib.jittester.utils.TypeUtil; 37 import jdk.test.lib.jittester.loops.DoWhile; 38 import jdk.test.lib.jittester.loops.For; 39 import jdk.test.lib.jittester.loops.While; 40 import jdk.test.lib.jittester.types.TypeKlass; 41 import jdk.test.lib.jittester.types.TypeVoid; 42 import jdk.test.lib.jittester.utils.PseudoRandom; 43 44 import java.util.ArrayList; 45 import java.util.List; 46 47 class BlockFactory extends Factory { 48 private final Type returnType; 49 private final long complexityLimit; 50 private final int statementLimit; 51 private final int operatorLimit; 52 private final boolean subBlock; 53 private final boolean canHaveBreaks; 54 private final boolean canHaveContinues; 55 private final boolean canHaveReturn; 56 private final boolean canHaveThrow; 57 private final int level; 58 private final TypeKlass ownerClass; 59 60 BlockFactory(TypeKlass klass, Type returnType, long complexityLimit, int statementLimit, 61 int operatorLimit, int level, boolean subBlock, boolean canHaveBreaks, 62 boolean canHaveContinues, boolean canHaveReturn, boolean canHaveThrows) { 63 this.ownerClass = klass; 64 this.returnType = returnType; 65 this.complexityLimit = complexityLimit; 66 this.statementLimit = statementLimit; 67 this.operatorLimit = operatorLimit; 68 this.level = level; 69 this.subBlock = subBlock; 70 this.canHaveBreaks = canHaveBreaks; 71 this.canHaveContinues = canHaveContinues; 72 this.canHaveReturn = canHaveReturn; 73 this.canHaveThrow = canHaveThrows; 74 } 75 76 @Override 77 public IRNode produce() throws ProductionFailedException { 78 if (statementLimit > 0 && complexityLimit > 0) { 79 List<IRNode> content = new ArrayList<>(); 80 int slimit = PseudoRandom.randomNotZero(statementLimit); 81 long climit = complexityLimit; 82 IRNodeBuilder builder = new IRNodeBuilder() 83 .setOperatorLimit(operatorLimit) 84 .setOwnerKlass(ownerClass) 85 .setResultType(returnType) 86 .setCanHaveReturn(canHaveReturn) 87 .setCanHaveThrow(canHaveThrow) 88 .setCanHaveBreaks(canHaveBreaks) 89 .setCanHaveContinues(canHaveContinues) 90 .setExceptionSafe(false) 91 .setNoConsts(false); 92 Rule rule; 93 SymbolTable.push(); 94 for (int i = 0; i < slimit && climit > 0; ) { 95 int subLimit = (int) (PseudoRandom.random() * (slimit - i - 1)); 96 builder.setComplexityLimit((long) (PseudoRandom.random() * climit)); 97 rule = new Rule("block"); 98 rule.add("statement", builder.getStatementFactory(), 5); 99 if (!ProductionParams.disableVarsInBlock.value()) { 100 rule.add("decl", builder.setIsLocal(true).getDeclarationFactory()); 101 } 102 if (subLimit > 0) { 103 builder.setStatementLimit(subLimit).setLevel(level + 1); 104 if (!ProductionParams.disableNestedBlocks.value()) { 105 rule.add("block", builder.setCanHaveReturn(false) 106 .setCanHaveThrow(false) 107 .setCanHaveBreaks(false) 108 .setCanHaveContinues(false) 109 .getBlockFactory()); 110 rule.add("try-catch", builder.getTryCatchBlockFactory(), 0.3); 111 builder.setCanHaveReturn(canHaveReturn) 112 .setCanHaveThrow(canHaveThrow) 113 .setCanHaveBreaks(canHaveBreaks) 114 .setCanHaveContinues(canHaveContinues); 115 } 116 addControlFlowDeviation(rule, builder); 117 } 118 try { 119 IRNode choiceResult = rule.produce(); 120 if (choiceResult instanceof If || choiceResult instanceof While || choiceResult instanceof DoWhile 121 || choiceResult instanceof For || choiceResult instanceof Switch) { 122 i += subLimit; 123 } else { 124 i++; 125 } 126 //climit -= subBlockComplLimit; // very approximate. to obnain a precise value, change to p.complexity() 127 climit -= choiceResult.complexity(); 128 content.add(choiceResult); 129 } catch (ProductionFailedException e) { 130 i++; 131 } 132 } 133 // Ok, if the block can end with break and continue. Generate the appropriate productions. 134 rule = new Rule("block_ending"); 135 if (canHaveBreaks && !subBlock) { 136 rule.add("break", builder.getBreakFactory()); 137 } 138 if (canHaveContinues && !subBlock) { 139 rule.add("continue", builder.getContinueFactory()); 140 } 141 if (canHaveReturn && !subBlock && !returnType.equals(new TypeVoid())) { 142 rule.add("return", builder.setComplexityLimit(climit).getReturnFactory()); 143 } 144 if (canHaveThrow && !subBlock) { 145 Type rtException = TypeList.find("java.lang.RuntimeException"); 146 rtException = PseudoRandom.randomElement(TypeUtil.getImplicitlyCastable(TypeList.getAll(), rtException)); 147 rule.add("throw", builder.setResultType(rtException) 148 .setComplexityLimit(Math.max(climit, 5)) 149 .setOperatorLimit(Math.max(operatorLimit, 5)) 150 .getThrowFactory()); 151 } 152 153 try { 154 if (rule.size() > 0) { 155 content.add(rule.produce()); 156 } 157 } catch (ProductionFailedException e) { 158 } 159 if (!subBlock) { 160 SymbolTable.pop(); 161 } else { 162 SymbolTable.merge(); 163 } 164 return new Block(ownerClass, returnType, content, level); 165 } 166 throw new ProductionFailedException(); 167 } 168 169 private void addControlFlowDeviation(Rule rule, IRNodeBuilder builder) { 170 if (!ProductionParams.disableIf.value()) { 171 rule.add("if", builder.getIfFactory()); 172 } 173 if (!ProductionParams.disableWhile.value()) { 174 rule.add("while", builder.getWhileFactory()); 175 } 176 if (!ProductionParams.disableDoWhile.value()) { 177 rule.add("do_while", builder.getDoWhileFactory()); 178 } 179 if (!ProductionParams.disableFor.value()) { 180 rule.add("for", builder.getForFactory()); 181 } 182 if (!ProductionParams.disableSwitch.value()) { 183 rule.add("switch", builder.getSwitchFactory(), 0.1); 184 } 185 } 186 } | 21 * questions. 22 */ 23 24 package jdk.test.lib.jittester.factories; 25 26 import jdk.test.lib.jittester.Block; 27 import jdk.test.lib.jittester.IRNode; 28 import jdk.test.lib.jittester.If; 29 import jdk.test.lib.jittester.ProductionFailedException; 30 import jdk.test.lib.jittester.ProductionParams; 31 import jdk.test.lib.jittester.Rule; 32 import jdk.test.lib.jittester.Switch; 33 import jdk.test.lib.jittester.SymbolTable; 34 import jdk.test.lib.jittester.Type; 35 import jdk.test.lib.jittester.TypeList; 36 import jdk.test.lib.jittester.utils.TypeUtil; 37 import jdk.test.lib.jittester.loops.DoWhile; 38 import jdk.test.lib.jittester.loops.For; 39 import jdk.test.lib.jittester.loops.While; 40 import jdk.test.lib.jittester.types.TypeKlass; 41 import jdk.test.lib.jittester.utils.PseudoRandom; 42 43 import java.util.ArrayList; 44 import java.util.List; 45 46 class BlockFactory extends Factory<Block> { 47 private final Type returnType; 48 private final long complexityLimit; 49 private final int statementLimit; 50 private final int operatorLimit; 51 private final boolean subBlock; 52 private final boolean canHaveBreaks; 53 private final boolean canHaveContinues; 54 private final boolean canHaveReturn; 55 private final boolean canHaveThrow; 56 private final int level; 57 private final TypeKlass ownerClass; 58 59 BlockFactory(TypeKlass klass, Type returnType, long complexityLimit, int statementLimit, 60 int operatorLimit, int level, boolean subBlock, boolean canHaveBreaks, 61 boolean canHaveContinues, boolean canHaveReturn, boolean canHaveThrows) { 62 this.ownerClass = klass; 63 this.returnType = returnType; 64 this.complexityLimit = complexityLimit; 65 this.statementLimit = statementLimit; 66 this.operatorLimit = operatorLimit; 67 this.level = level; 68 this.subBlock = subBlock; 69 this.canHaveBreaks = canHaveBreaks; 70 this.canHaveContinues = canHaveContinues; 71 this.canHaveReturn = canHaveReturn; 72 this.canHaveThrow = canHaveThrows; 73 } 74 75 @Override 76 public Block produce() throws ProductionFailedException { 77 if (statementLimit > 0 && complexityLimit > 0) { 78 List<IRNode> content = new ArrayList<>(); 79 int slimit = PseudoRandom.randomNotZero(statementLimit); 80 long climit = complexityLimit; 81 IRNodeBuilder builder = new IRNodeBuilder() 82 .setOperatorLimit(operatorLimit) 83 .setOwnerKlass(ownerClass) 84 .setResultType(returnType) 85 .setCanHaveReturn(canHaveReturn) 86 .setCanHaveThrow(canHaveThrow) 87 .setCanHaveBreaks(canHaveBreaks) 88 .setCanHaveContinues(canHaveContinues) 89 .setExceptionSafe(false) 90 .setNoConsts(false); 91 Rule<IRNode> rule; 92 SymbolTable.push(); 93 for (int i = 0; i < slimit && climit > 0; ) { 94 int subLimit = (int) (PseudoRandom.random() * (slimit - i - 1)); 95 builder.setComplexityLimit((long) (PseudoRandom.random() * climit)); 96 rule = new Rule<>("block"); 97 rule.add("statement", builder.getStatementFactory(), 5); 98 if (!ProductionParams.disableVarsInBlock.value()) { 99 rule.add("decl", builder.setIsLocal(true).getDeclarationFactory()); 100 } 101 if (subLimit > 0) { 102 builder.setStatementLimit(subLimit).setLevel(level + 1); 103 if (!ProductionParams.disableNestedBlocks.value()) { 104 rule.add("block", builder.setCanHaveReturn(false) 105 .setCanHaveThrow(false) 106 .setCanHaveBreaks(false) 107 .setCanHaveContinues(false) 108 .getBlockFactory()); 109 rule.add("try-catch", builder.getTryCatchBlockFactory(), 0.3); 110 builder.setCanHaveReturn(canHaveReturn) 111 .setCanHaveThrow(canHaveThrow) 112 .setCanHaveBreaks(canHaveBreaks) 113 .setCanHaveContinues(canHaveContinues); 114 } 115 addControlFlowDeviation(rule, builder); 116 } 117 try { 118 IRNode choiceResult = rule.produce(); 119 if (choiceResult instanceof If || choiceResult instanceof While || choiceResult instanceof DoWhile 120 || choiceResult instanceof For || choiceResult instanceof Switch) { 121 i += subLimit; 122 } else { 123 i++; 124 } 125 //climit -= subBlockComplLimit; // very approximate. to obnain a precise value, change to p.complexity() 126 climit -= choiceResult.complexity(); 127 content.add(choiceResult); 128 } catch (ProductionFailedException e) { 129 i++; 130 } 131 } 132 // Ok, if the block can end with break and continue. Generate the appropriate productions. 133 rule = new Rule<>("block_ending"); 134 if (canHaveBreaks && !subBlock) { 135 rule.add("break", builder.getBreakFactory()); 136 } 137 if (canHaveContinues && !subBlock) { 138 rule.add("continue", builder.getContinueFactory()); 139 } 140 if (canHaveReturn && !subBlock && !returnType.equals(TypeList.VOID)) { 141 rule.add("return", builder.setComplexityLimit(climit).getReturnFactory()); 142 } 143 if (canHaveThrow && !subBlock) { 144 Type rtException = TypeList.find("java.lang.RuntimeException"); 145 rtException = PseudoRandom.randomElement(TypeUtil.getImplicitlyCastable(TypeList.getAll(), rtException)); 146 rule.add("throw", builder.setResultType(rtException) 147 .setComplexityLimit(Math.max(climit, 5)) 148 .setOperatorLimit(Math.max(operatorLimit, 5)) 149 .getThrowFactory()); 150 } 151 152 try { 153 if (rule.size() > 0) { 154 content.add(rule.produce()); 155 } 156 } catch (ProductionFailedException e) { 157 } 158 if (!subBlock) { 159 SymbolTable.pop(); 160 } else { 161 SymbolTable.merge(); 162 } 163 return new Block(ownerClass, returnType, content, level); 164 } 165 throw new ProductionFailedException(); 166 } 167 168 private void addControlFlowDeviation(Rule<IRNode> rule, IRNodeBuilder builder) { 169 if (!ProductionParams.disableIf.value()) { 170 rule.add("if", builder.getIfFactory()); 171 } 172 if (!ProductionParams.disableWhile.value()) { 173 rule.add("while", builder.getWhileFactory()); 174 } 175 if (!ProductionParams.disableDoWhile.value()) { 176 rule.add("do_while", builder.getDoWhileFactory()); 177 } 178 if (!ProductionParams.disableFor.value()) { 179 rule.add("for", builder.getForFactory()); 180 } 181 if (!ProductionParams.disableSwitch.value()) { 182 rule.add("switch", builder.getSwitchFactory(), 0.1); 183 } 184 } 185 } |