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mockit.coverage.modification.CoverageModifier Maven / Gradle / Ivy
JMockit is a Java toolkit for automated developer testing.
It contains mocking/faking APIs and a code coverage tool, supporting both JUnit and TestNG.
The mocking APIs allow all kinds of Java code, without testability restrictions, to be tested
in isolation from selected dependencies.
/*
* Copyright (c) 2006 JMockit developers
* This file is subject to the terms of the MIT license (see LICENSE.txt).
*/
package mockit.coverage.modification;
import java.util.*;
import javax.annotation.*;
import mockit.asm.annotations.*;
import mockit.asm.classes.*;
import mockit.asm.controlFlow.*;
import mockit.asm.fields.*;
import mockit.asm.methods.*;
import mockit.coverage.data.*;
import mockit.coverage.lines.*;
import mockit.coverage.paths.*;
import mockit.internal.*;
import static mockit.asm.jvmConstants.Access.*;
import static mockit.coverage.Metrics.*;
import static mockit.asm.jvmConstants.Opcodes.*;
final class CoverageModifier extends WrappingClassVisitor
{
private static final Map INNER_CLASS_MODIFIERS = new HashMap<>();
private static final int FIELD_MODIFIERS_TO_IGNORE = FINAL + SYNTHETIC;
private static final int MAX_CONDITIONS = Integer.getInteger("coverage-maxConditions", 10);
private static final boolean WITH_PATH_OR_DATA_COVERAGE = PathCoverage.active || DataCoverage.active;
@Nullable
static byte[] recoverModifiedByteCodeIfAvailable(@Nonnull String innerClassName) {
CoverageModifier modifier = INNER_CLASS_MODIFIERS.remove(innerClassName);
return modifier == null ? null : modifier.toByteArray();
}
@Nullable
static ClassReader createClassReader(@Nonnull Class aClass) {
return ClassFile.createClassReader(aClass.getClassLoader(), aClass.getName().replace('.', '/'));
}
@Nullable private String internalClassName;
@Nullable private String simpleClassName;
@Nonnull private String sourceFileName;
@Nullable private FileCoverageData fileData;
private final boolean forInnerClass;
private boolean forEnumClass;
@Nullable private String kindOfTopLevelType;
private int currentLine;
CoverageModifier(@Nonnull ClassReader cr) { this(cr, false); }
private CoverageModifier(@Nonnull ClassReader cr, boolean forInnerClass) {
super(new ClassWriter(cr));
sourceFileName = "";
this.forInnerClass = forInnerClass;
}
private CoverageModifier(@Nonnull ClassReader cr, @Nonnull CoverageModifier other, @Nullable String simpleClassName) {
this(cr, true);
sourceFileName = other.sourceFileName;
fileData = other.fileData;
internalClassName = other.internalClassName;
this.simpleClassName = simpleClassName;
}
@Override
public void visit(int version, int access, @Nonnull String name, @Nonnull ClassInfo additionalInfo) {
if ((access & SYNTHETIC) != 0) {
throw new VisitInterruptedException();
}
boolean nestedType = name.indexOf('$') > 0;
if (!nestedType && kindOfTopLevelType == null) {
//noinspection ConstantConditions
kindOfTopLevelType = getKindOfJavaType(access, additionalInfo.superName);
}
forEnumClass = (access & ENUM) != 0;
String sourceFileDebugName = getSourceFileDebugName(additionalInfo);
if (!forInnerClass) {
extractClassAndSourceFileName(name);
boolean cannotModify = (access & ANNOTATION) != 0;
if (cannotModify) {
throw VisitInterruptedException.INSTANCE;
}
registerAsInnerClassModifierIfApplicable(access, name, nestedType);
createFileData(sourceFileDebugName);
}
cw.visit(version, access, name, additionalInfo);
}
@Nonnull
private static String getKindOfJavaType(int typeModifiers, @Nonnull String superName) {
if ((typeModifiers & ANNOTATION) != 0) return "annotation";
if ((typeModifiers & INTERFACE) != 0) return "interface";
if ((typeModifiers & ENUM) != 0) return "enum";
if ((typeModifiers & ABSTRACT) != 0) return "abstractClass";
if (superName.endsWith("Exception") || superName.endsWith("Error")) return "exception";
return "class";
}
@Nonnull
private static String getSourceFileDebugName(@Nonnull ClassInfo additionalInfo) {
String sourceFileDebugName = additionalInfo.sourceFileName;
if (sourceFileDebugName == null || !sourceFileDebugName.endsWith(".java")) {
throw VisitInterruptedException.INSTANCE;
}
return sourceFileDebugName;
}
private void extractClassAndSourceFileName(@Nonnull String className) {
internalClassName = className;
int p = className.lastIndexOf('/');
if (p < 0) {
simpleClassName = className;
sourceFileName = "";
}
else {
simpleClassName = className.substring(p + 1);
sourceFileName = className.substring(0, p + 1);
}
}
private void registerAsInnerClassModifierIfApplicable(int access, @Nonnull String name, boolean nestedType) {
if (!forEnumClass && (access & SUPER) != 0 && nestedType) {
INNER_CLASS_MODIFIERS.put(name.replace('/', '.'), this);
}
}
private void createFileData(@Nonnull String sourceFileDebugName) {
sourceFileName += sourceFileDebugName;
fileData = CoverageData.instance().getOrAddFile(sourceFileName, kindOfTopLevelType);
}
@Override
public void visitInnerClass(@Nonnull String name, @Nullable String outerName, @Nullable String innerName, int access) {
cw.visitInnerClass(name, outerName, innerName, access);
if (forInnerClass || isSyntheticOrEnumClass(access) || !isNestedInsideClassBeingModified(name, outerName)) {
return;
}
String innerClassName = name.replace('/', '.');
if (INNER_CLASS_MODIFIERS.containsKey(innerClassName)) {
return;
}
ClassReader innerCR = ClassFile.createClassReader(CoverageModifier.class.getClassLoader(), name);
if (innerCR != null) {
CoverageModifier innerClassModifier = new CoverageModifier(innerCR, this, innerName);
innerCR.accept(innerClassModifier);
INNER_CLASS_MODIFIERS.put(innerClassName, innerClassModifier);
}
}
private static boolean isSyntheticOrEnumClass(int access) {
return (access & SYNTHETIC) != 0 || access == STATIC + ENUM;
}
private boolean isNestedInsideClassBeingModified(@Nonnull String internalName, @Nullable String outerName) {
String className = outerName == null ? internalName : outerName;
int p = className.indexOf('$');
String outerClassName = p < 0 ? className : className.substring(0, p);
return outerClassName.equals(internalClassName);
}
@Override
public FieldVisitor visitField(
int access, @Nonnull String name, @Nonnull String desc, @Nullable String signature, @Nullable Object value
) {
if (fileData != null && simpleClassName != null && (access & FIELD_MODIFIERS_TO_IGNORE) == 0 && DataCoverage.active) {
fileData.dataCoverageInfo.addField(simpleClassName, name, (access & STATIC) != 0);
}
return cw.visitField(access, name, desc, signature, value);
}
@Override
public MethodVisitor visitMethod(
int access, @Nonnull String name, @Nonnull String desc, @Nullable String signature, @Nullable String[] exceptions
) {
MethodWriter mw = cw.visitMethod(access, name, desc, signature, exceptions);
if (fileData == null || (access & SYNTHETIC) != 0) {
return mw;
}
if (name.charAt(0) == '<') {
if (name.charAt(1) == 'c') {
return forEnumClass ? mw : new StaticBlockModifier(mw);
}
if (WITH_PATH_OR_DATA_COVERAGE) {
return new ConstructorModifier(mw);
}
}
return WITH_PATH_OR_DATA_COVERAGE ? new MethodModifier(mw) : new BaseMethodModifier(mw);
}
private class BaseMethodModifier extends WrappingMethodVisitor {
static final String DATA_RECORDING_CLASS = "mockit/coverage/TestRun";
@Nonnull protected final List visitedLabels;
@Nonnull private final List jumpTargetsForCurrentLine;
@Nonnull private final List pendingBranches;
@Nonnull private final PerFileLineCoverage lineCoverageInfo;
private int lineExpectingInstructionAfterJump;
boolean assertFoundInCurrentLine;
boolean ignoreUntilNextLabel;
@SuppressWarnings("unused") private boolean foundPotentialAssertFalse;
private int foundPotentialBooleanExpressionValue;
int ignoreUntilNextSwitch;
BaseMethodModifier(@Nonnull MethodWriter mw) {
super(mw);
visitedLabels = new ArrayList<>();
jumpTargetsForCurrentLine = new ArrayList<>(4);
pendingBranches = new ArrayList<>(6);
assert fileData != null;
lineCoverageInfo = fileData.getLineCoverageData();
}
@Override
public void visitLineNumber(@Nonnegative int line, @Nonnull Label start) {
if (!pendingBranches.isEmpty()) {
pendingBranches.clear();
}
lineCoverageInfo.addLine(line);
currentLine = line;
jumpTargetsForCurrentLine.clear();
generateCallToRegisterLineExecution();
mw.visitLineNumber(line, start);
}
private void generateCallToRegisterLineExecution() {
assert fileData != null;
mw.visitIntInsn(SIPUSH, fileData.index);
pushCurrentLineOnTheStack();
mw.visitMethodInsn(INVOKESTATIC, DATA_RECORDING_CLASS, "lineExecuted", "(II)V", false);
}
private void pushCurrentLineOnTheStack() {
if (currentLine <= Short.MAX_VALUE) {
mw.visitIntInsn(SIPUSH, currentLine);
}
else {
mw.visitLdcInsn(currentLine);
}
}
@Override
public void visitJumpInsn(int opcode, @Nonnull Label label) {
if (
currentLine == 0 || ignoreUntilNextLabel || ignoreUntilNextSwitch > 0 ||
visitedLabels.contains(label) || !isConditionalJump(opcode)
) {
assertFoundInCurrentLine = false;
mw.visitJumpInsn(opcode, label);
if (opcode == GOTO && foundPotentialBooleanExpressionValue == 1) {
foundPotentialBooleanExpressionValue = 2;
}
return;
}
Label jumpingFrom = mw.getCurrentBlock();
assert jumpingFrom != null;
jumpingFrom.info = currentLine;
if (!jumpTargetsForCurrentLine.contains(label)) {
jumpTargetsForCurrentLine.add(label);
}
LineCoverageData lineData = lineCoverageInfo.getOrCreateLineData(currentLine);
int sourceBranchIndex = lineData.addBranchingPoint(jumpingFrom, label);
pendingBranches.add(sourceBranchIndex);
if (assertFoundInCurrentLine) {
BranchCoverageData branchData = lineCoverageInfo.getBranchData(currentLine, sourceBranchIndex + 1);
branchData.markAsUnreachable();
}
mw.visitJumpInsn(opcode, label);
lineExpectingInstructionAfterJump = 0;
generateCallToRegisterBranchTargetExecutionIfPending();
lineExpectingInstructionAfterJump = currentLine;
}
final boolean isConditionalJump(int opcode) { return opcode != GOTO; }
private void generateCallToRegisterBranchTargetExecutionIfPending() {
if (ignoreUntilNextLabel || ignoreUntilNextSwitch > 0) {
return;
}
foundPotentialAssertFalse = false;
foundPotentialBooleanExpressionValue = 0;
if (!pendingBranches.isEmpty()) {
for (Integer pendingBranchIndex : pendingBranches) {
generateCallToRegisterBranchTargetExecution(pendingBranchIndex);
}
pendingBranches.clear();
}
if (lineExpectingInstructionAfterJump > 0) {
if (currentLine > lineExpectingInstructionAfterJump) {
lineCoverageInfo.markLastLineSegmentAsEmpty(lineExpectingInstructionAfterJump);
}
lineExpectingInstructionAfterJump = 0;
}
}
private void generateCallToRegisterBranchTargetExecution(@Nonnegative int branchIndex) {
assert fileData != null;
mw.visitIntInsn(SIPUSH, fileData.index);
pushCurrentLineOnTheStack();
mw.visitIntInsn(SIPUSH, branchIndex);
mw.visitMethodInsn(INVOKESTATIC, DATA_RECORDING_CLASS, "branchExecuted", "(III)V", false);
}
@Override
public void visitLabel(@Nonnull Label label) {
if (ignoreUntilNextLabel || ignoreUntilNextSwitch > 0) {
mw.visitLabel(label);
ignoreUntilNextLabel = false;
return;
}
visitedLabels.add(label);
mw.visitLabel(label);
int jumpTargetIndex = jumpTargetsForCurrentLine.indexOf(label);
if (jumpTargetIndex >= 0) {
label.info = label.line > 0 ? label.line : currentLine;
int targetBranchIndex = 2 * jumpTargetIndex + 1;
pendingBranches.add(targetBranchIndex);
assertFoundInCurrentLine = false;
}
foundPotentialBooleanExpressionValue = 0;
}
@Override
public void visitInsn(int opcode) {
if ((opcode == ICONST_0 || opcode == ICONST_1) && foundPotentialBooleanExpressionValue == 0) {
generateCallToRegisterBranchTargetExecutionIfPending();
foundPotentialBooleanExpressionValue = 1;
}
else {
generateCallToRegisterBranchTargetExecutionIfPending();
}
mw.visitInsn(opcode);
}
@Override
public void visitIntInsn(int opcode, int operand) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitIntInsn(opcode, operand);
}
@Override
public void visitVarInsn(int opcode, @Nonnegative int varIndex) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitVarInsn(opcode, varIndex);
}
@Override
public void visitTypeInsn(int opcode, @Nonnull String typeDesc) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitTypeInsn(opcode, typeDesc);
}
@Override
public void visitFieldInsn(int opcode, @Nonnull String owner, @Nonnull String name, @Nonnull String desc) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitFieldInsn(opcode, owner, name, desc);
if (opcode == GETSTATIC && "$assertionsDisabled".equals(name)) {
assertFoundInCurrentLine = true;
ignoreUntilNextLabel = true;
}
foundPotentialAssertFalse = true;
}
@Override
public void visitMethodInsn(int opcode, @Nonnull String owner, @Nonnull String name, @Nonnull String desc, boolean itf) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitMethodInsn(opcode, owner, name, desc, itf);
if (opcode == INVOKEVIRTUAL && "hashCode".equals(name) && "java/lang/String".equals(owner) && ignoreUntilNextSwitch == 0) {
ignoreUntilNextSwitch = 1;
}
}
@Override
public void visitLdcInsn(@Nonnull Object cst) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitLdcInsn(cst);
}
@Override
public void visitIincInsn(@Nonnegative int varIndex, int increment) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitIincInsn(varIndex, increment);
}
@Override
public void visitTryCatchBlock(@Nonnull Label start, @Nonnull Label end, @Nonnull Label handler, @Nullable String type) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitTryCatchBlock(start, end, handler, type);
}
@Override
public void visitLookupSwitchInsn(@Nonnull Label dflt, @Nonnull int[] keys, @Nonnull Label[] labels) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitLookupSwitchInsn(dflt, keys, labels);
}
@Override
public void visitTableSwitchInsn(int min, int max, @Nonnull Label dflt, @Nonnull Label... labels) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitTableSwitchInsn(min, max, dflt, labels);
}
@Override
public void visitMultiANewArrayInsn(@Nonnull String desc, @Nonnegative int dims) {
generateCallToRegisterBranchTargetExecutionIfPending();
mw.visitMultiANewArrayInsn(desc, dims);
}
}
private class MethodOrConstructorModifier extends BaseMethodModifier {
@Nullable private NodeBuilder nodeBuilder;
@Nullable private Label entryPoint;
private int jumpCount;
MethodOrConstructorModifier(@Nonnull MethodWriter mw) {
super(mw);
nodeBuilder = new NodeBuilder();
}
@Override
public final void visitLabel(@Nonnull Label label) {
if (nodeBuilder == null || ignoreUntilNextSwitch > 0) {
super.visitLabel(label);
return;
}
int line = label.line;
if (entryPoint == null) {
entryPoint = new Label();
mw.visitLabel(entryPoint);
mw.visitLineNumber(line, entryPoint);
nodeBuilder.handleEntry(line);
generateCallToRegisterNodeReached(0);
}
super.visitLabel(label);
int newNodeIndex = nodeBuilder.handleJumpTarget(label, line > 0 ? line : currentLine);
generateCallToRegisterNodeReached(newNodeIndex);
}
private void generateCallToRegisterNodeReached(int nodeIndex) {
if (nodeIndex >= 0) {
assert nodeBuilder != null;
mw.visitLdcInsn(sourceFileName);
mw.visitLdcInsn(nodeBuilder.firstLine);
mw.visitIntInsn(SIPUSH, nodeIndex);
mw.visitMethodInsn(INVOKESTATIC, DATA_RECORDING_CLASS, "nodeReached", "(Ljava/lang/String;II)V", false);
}
}
@Override
public final void visitJumpInsn(int opcode, @Nonnull Label label) {
if (nodeBuilder == null || entryPoint == null || ignoreUntilNextSwitch > 0 || visitedLabels.contains(label)) {
super.visitJumpInsn(opcode, label);
return;
}
boolean conditional = isConditionalJump(opcode);
if (conditional && ++jumpCount > MAX_CONDITIONS) {
nodeBuilder = null;
}
else {
int nodeIndex = nodeBuilder.handleJump(label, currentLine, conditional);
generateCallToRegisterNodeReached(nodeIndex);
}
super.visitJumpInsn(opcode, label);
}
@Override
public final void visitInsn(int opcode) {
if (nodeBuilder != null) {
if (opcode >= IRETURN && opcode <= RETURN || opcode == ATHROW) {
int newNodeIndex = nodeBuilder.handleExit(currentLine);
generateCallToRegisterNodeReached(newNodeIndex);
}
else {
handleRegularInstruction(opcode);
}
}
super.visitInsn(opcode);
}
private void handleRegularInstruction(int opcode) {
if (nodeBuilder != null && ignoreUntilNextSwitch == 0) {
int nodeIndex = nodeBuilder.handleRegularInstruction(currentLine, opcode);
generateCallToRegisterNodeReached(nodeIndex);
}
}
@Override
public final void visitIntInsn(int opcode, int operand) {
super.visitIntInsn(opcode, operand);
handleRegularInstruction(opcode);
}
@Override
public final void visitIincInsn(@Nonnegative int varIndex, int increment) {
super.visitIincInsn(varIndex, increment);
handleRegularInstruction(IINC);
}
@Override
public final void visitLdcInsn(@Nonnull Object cst) {
super.visitLdcInsn(cst);
handleRegularInstruction(LDC);
}
@Override
public final void visitTypeInsn(int opcode, @Nonnull String typeDesc) {
super.visitTypeInsn(opcode, typeDesc);
handleRegularInstruction(opcode);
}
@Override
public final void visitVarInsn(int opcode, int varIndex) {
super.visitVarInsn(opcode, varIndex);
handleRegularInstruction(opcode);
}
@Override
public final void visitFieldInsn(int opcode, @Nonnull String owner, @Nonnull String name, @Nonnull String desc) {
if (!DataCoverage.active) {
super.visitFieldInsn(opcode, owner, name, desc);
return;
}
// TODO: need to also process field instructions inside accessor methods (STATIC + SYNTHETIC, "access$nnn")
boolean getField = opcode == GETSTATIC || opcode == GETFIELD;
boolean isStatic = opcode == PUTSTATIC || opcode == GETSTATIC;
char fieldType = desc.charAt(0);
boolean size2 = fieldType == 'J' || fieldType == 'D';
String classAndFieldNames = null;
boolean fieldHasData = false;
if (!owner.startsWith("java/")) {
classAndFieldNames = owner.substring(owner.lastIndexOf('/') + 1) + '.' + name;
assert fileData != null;
fieldHasData = fileData.dataCoverageInfo.isFieldWithCoverageData(classAndFieldNames);
if (fieldHasData && !isStatic) {
generateCodeToSaveInstanceReferenceOnTheStack(getField, size2);
}
}
super.visitFieldInsn(opcode, owner, name, desc);
if (fieldHasData) {
generateCallToRegisterFieldCoverage(getField, isStatic, size2, classAndFieldNames);
}
handleRegularInstruction(opcode);
}
private void generateCodeToSaveInstanceReferenceOnTheStack(boolean getField, boolean size2) {
if (getField) {
mw.visitInsn(DUP);
}
else if (size2) {
mw.visitInsn(DUP2_X1);
mw.visitInsn(POP2);
mw.visitInsn(DUP_X2);
mw.visitInsn(DUP_X2);
mw.visitInsn(POP);
}
else {
mw.visitInsn(DUP_X1);
mw.visitInsn(POP);
mw.visitInsn(DUP_X1);
mw.visitInsn(DUP_X1);
mw.visitInsn(POP);
}
}
private void generateCallToRegisterFieldCoverage(
boolean getField, boolean isStatic, boolean size2, @Nonnull String classAndFieldNames
) {
if (!isStatic && getField) {
if (size2) {
mw.visitInsn(DUP2_X1);
mw.visitInsn(POP2);
}
else {
mw.visitInsn(DUP_X1);
mw.visitInsn(POP);
}
}
mw.visitLdcInsn(sourceFileName);
mw.visitLdcInsn(classAndFieldNames);
String methodToCall = getField ? "fieldRead" : "fieldAssigned";
String methodDesc =
isStatic ? "(Ljava/lang/String;Ljava/lang/String;)V" : "(Ljava/lang/Object;Ljava/lang/String;Ljava/lang/String;)V";
mw.visitMethodInsn(INVOKESTATIC, DATA_RECORDING_CLASS, methodToCall, methodDesc, false);
}
@Override
public final void visitMethodInsn(int opcode, @Nonnull String owner, @Nonnull String name, @Nonnull String desc, boolean itf) {
super.visitMethodInsn(opcode, owner, name, desc, itf);
handleRegularInstruction(opcode);
}
@Override
public final void visitTryCatchBlock(@Nonnull Label start, @Nonnull Label end, @Nonnull Label handler, @Nullable String type) {
super.visitTryCatchBlock(start, end, handler, type);
handleRegularInstruction(0);
}
@Override
public final void visitLookupSwitchInsn(@Nonnull Label dflt, @Nonnull int[] keys, @Nonnull Label[] labels) {
if (ignoreUntilNextSwitch == 1) {
ignoreUntilNextSwitch = 2;
}
else if (nodeBuilder != null) {
int nodeIndex = nodeBuilder.handleForwardJumpsToNewTargets(dflt, labels, currentLine);
generateCallToRegisterNodeReached(nodeIndex);
ignoreUntilNextSwitch = 0;
}
super.visitLookupSwitchInsn(dflt, keys, labels);
}
@Override
public final void visitTableSwitchInsn(int min, int max, @Nonnull Label dflt, @Nonnull Label... labels) {
if (nodeBuilder != null && ignoreUntilNextSwitch == 0) {
int nodeIndex = nodeBuilder.handleForwardJumpsToNewTargets(dflt, labels, currentLine);
generateCallToRegisterNodeReached(nodeIndex);
}
super.visitTableSwitchInsn(min, max, dflt, labels);
}
@Override
public final void visitMultiANewArrayInsn(@Nonnull String desc, @Nonnegative int dims) {
super.visitMultiANewArrayInsn(desc, dims);
handleRegularInstruction(MULTIANEWARRAY);
}
@Override
public final void visitEnd() {
if (currentLine > 0 && nodeBuilder != null && nodeBuilder.hasNodes() && fileData != null) {
MethodCoverageData methodData = new MethodCoverageData();
methodData.buildPaths(currentLine, nodeBuilder);
fileData.addMethod(methodData);
}
}
}
private final class MethodModifier extends MethodOrConstructorModifier {
MethodModifier(@Nonnull MethodWriter mw) { super(mw); }
@Override
public AnnotationVisitor visitAnnotation(@Nonnull String desc) {
boolean isTestMethod = desc.startsWith("Lorg/junit/") || desc.startsWith("Lorg/testng/");
if (isTestMethod) {
throw VisitInterruptedException.INSTANCE;
}
return mw.visitAnnotation(desc);
}
}
private final class ConstructorModifier extends MethodOrConstructorModifier {
ConstructorModifier(@Nonnull MethodWriter mw) { super(mw); }
}
private final class StaticBlockModifier extends BaseMethodModifier {
StaticBlockModifier(@Nonnull MethodWriter mw) { super(mw); }
@Override
public void visitMethodInsn(int opcode, @Nonnull String owner, @Nonnull String name, @Nonnull String desc, boolean itf) {
// This is to ignore bytecode belonging to a static initialization block inserted in a regular line of code by the Java
// compiler when the class contains at least one "assert" statement.
// Otherwise, that line of code would always appear as partially covered when running with assertions enabled.
if (opcode == INVOKEVIRTUAL && "java/lang/Class".equals(owner) && "desiredAssertionStatus".equals(name)) {
assertFoundInCurrentLine = true;
ignoreUntilNextLabel = true;
}
super.visitMethodInsn(opcode, owner, name, desc, itf);
}
}
}
