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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) 2006-2015 Rogério Liesenfeld
* This file is subject to the terms of the MIT license (see LICENSE.txt).
*/
package mockit.internal.expectations.transformation;
import javax.annotation.*;
import mockit.external.asm.*;
import mockit.internal.expectations.*;
import mockit.internal.state.*;
import static mockit.external.asm.Opcodes.*;
import static mockit.internal.util.TypeConversion.*;
@SuppressWarnings("OverlyComplexClass")
final class InvocationBlockModifier extends MethodVisitor
{
private static final String CLASS_DESC = Type.getInternalName(ActiveInvocations.class);
private static final Type[] NO_PARAMETERS = new Type[0];
private static final MockFixture MOCK_FIXTURE = TestRun.mockFixture();
@Nonnull private final MethodWriter mw;
// Input data:
@Nonnull private final String blockOwner;
private final boolean callEndInvocations;
// Takes care of "withCapture()" matchers, if any:
private final boolean verifications;
private boolean justAfterWithCaptureInvocation;
@Nonnull private final ArgumentCapturing argumentCapturing;
// Helper fields that allow argument matchers to be moved to the correct positions of their
// corresponding parameters:
@Nonnull private final int[] matcherStacks;
private int matcherCount;
private int stackSize;
@Nonnull private Type[] parameterTypes;
Capture createCapture(int opcode, int varIndex, @Nullable String typeToCapture)
{
return new Capture(opcode, varIndex, typeToCapture);
}
final class Capture
{
final int opcode;
private final int varIndex;
@Nullable private final String typeToCapture;
private int parameterIndex;
private boolean parameterIndexFixed;
Capture(int opcode, int varIndex, @Nullable String typeToCapture)
{
this.opcode = opcode;
this.varIndex = varIndex;
this.typeToCapture = typeToCapture;
parameterIndex = matcherCount - 1;
}
/**
* Generates bytecode that will be responsible for performing the following steps:
* 1. Get the argument value (an Object) for the last matched invocation.
* 2. Cast to a reference type or unbox to a primitive type, as needed.
* 3. Store the converted value in its local variable.
*/
void generateCodeToStoreCapturedValue()
{
mw.visitIntInsn(SIPUSH, parameterIndex);
generateCallToActiveInvocationsMethod("matchedArgument", "(I)Ljava/lang/Object;");
Type argType = getArgumentType();
generateCastOrUnboxing(mw, argType, opcode);
mw.visitVarInsn(opcode, varIndex);
}
@Nonnull private Type getArgumentType()
{
if (typeToCapture == null) {
return parameterTypes[parameterIndex];
}
else if (typeToCapture.charAt(0) == '[') {
return Type.getType(typeToCapture);
}
else {
return Type.getType('L' + typeToCapture + ';');
}
}
boolean fixParameterIndex(int originalIndex, int newIndex)
{
if (!parameterIndexFixed && parameterIndex == originalIndex) {
parameterIndex = newIndex;
parameterIndexFixed = true;
return true;
}
return false;
}
void generateCallToSetArgumentTypeIfNeeded()
{
if (typeToCapture != null && !isTypeToCaptureSameAsParameterType(typeToCapture)) {
mw.visitIntInsn(SIPUSH, parameterIndex);
mw.visitLdcInsn(typeToCapture);
generateCallToActiveInvocationsMethod("setExpectedArgumentType", "(ILjava/lang/String;)V");
}
}
private boolean isTypeToCaptureSameAsParameterType(@Nonnull String typeDesc)
{
Type parameterType = parameterTypes[parameterIndex];
int sort = parameterType.getSort();
if (sort == Type.OBJECT || sort == Type.ARRAY) {
return typeDesc.equals(parameterType.getInternalName());
}
return isPrimitiveWrapper(typeDesc);
}
}
InvocationBlockModifier(
@Nonnull MethodWriter mw, @Nonnull String blockOwner, boolean callEndInvocations, boolean verifications)
{
super(mw);
this.mw = mw;
this.blockOwner = blockOwner;
this.callEndInvocations = callEndInvocations;
matcherStacks = new int[40];
this.verifications = verifications;
argumentCapturing = new ArgumentCapturing();
parameterTypes = NO_PARAMETERS;
}
private void generateCallToActiveInvocationsMethod(@Nonnull String name, @Nonnull String desc)
{
visitMethodInstruction(INVOKESTATIC, CLASS_DESC, name, desc, false);
}
@Override
public void visitFieldInsn(int opcode, String owner, String name, String desc)
{
if (
(opcode == GETFIELD || opcode == PUTFIELD) &&
name.indexOf('$') < 1 &&
isFieldDefinedByInvocationBlock(owner)
) {
if (opcode == PUTFIELD) {
if (generateCodeThatReplacesAssignmentToSpecialField(name)) {
visitInsn(POP);
return;
}
}
else if (name.startsWith("any")) {
generateCodeToAddArgumentMatcherForAnyField(owner, name, desc);
return;
}
}
stackSize += stackSizeVariationForFieldAccess(opcode, desc);
mw.visitFieldInsn(opcode, owner, name, desc);
}
private static boolean isMockedClass(String owner) { return MOCK_FIXTURE.isMockedClass(owner.replace('/', '.')); }
private boolean isFieldDefinedByInvocationBlock(@Nonnull String fieldOwner)
{
return
blockOwner.equals(fieldOwner) ||
("mockit/Expectations mockit/StrictExpectations mockit/NonStrictExpectations " +
"mockit/Verifications mockit/VerificationsInOrder " +
"mockit/FullVerifications mockit/FullVerificationsInOrder").contains(fieldOwner);
}
private boolean generateCodeThatReplacesAssignmentToSpecialField(@Nonnull String fieldName)
{
if ("result".equals(fieldName)) {
generateCallToActiveInvocationsMethod("addResult", "(Ljava/lang/Object;)V");
return true;
}
if ("times".equals(fieldName) || "minTimes".equals(fieldName) || "maxTimes".equals(fieldName)) {
generateCallToActiveInvocationsMethod(fieldName, "(I)V");
return true;
}
if ("$".equals(fieldName)) {
generateCallToActiveInvocationsMethod("setErrorMessage", "(Ljava/lang/CharSequence;)V");
return true;
}
return false;
}
private void generateCodeToAddArgumentMatcherForAnyField(
@Nonnull String fieldOwner, @Nonnull String name, @Nonnull String desc)
{
mw.visitFieldInsn(GETFIELD, fieldOwner, name, desc);
generateCallToActiveInvocationsMethod(name, "()V");
matcherStacks[matcherCount++] = stackSize;
}
private static int stackSizeVariationForFieldAccess(int opcode, @Nonnull String fieldType)
{
char c = fieldType.charAt(0);
boolean twoByteType = c == 'D' || c == 'J';
switch (opcode) {
case GETSTATIC: return twoByteType ? 2 : 1;
case PUTSTATIC: return twoByteType ? -2 : -1;
case GETFIELD: return twoByteType ? 1 : 0;
default: return twoByteType ? -3 : -2;
}
}
@Override
public void visitMethodInsn(int opcode, String owner, String name, String desc, boolean itf)
{
if (opcode == INVOKESTATIC && (isBoxing(owner, name, desc) || isAccessMethod(owner, name))) {
// It's an invocation to a primitive boxing method or to a synthetic method for private access, just ignore it.
visitMethodInstruction(INVOKESTATIC, owner, name, desc, itf);
}
else if (opcode == INVOKEVIRTUAL && owner.equals(blockOwner) && name.startsWith("with")) {
visitMethodInstruction(INVOKEVIRTUAL, owner, name, desc, itf);
boolean withCaptureMethod = "withCapture".equals(name);
if (argumentCapturing.registerMatcher(withCaptureMethod, desc)) {
justAfterWithCaptureInvocation = withCaptureMethod;
matcherStacks[matcherCount++] = stackSize;
}
}
else if (isUnboxing(opcode, owner, desc)) {
if (justAfterWithCaptureInvocation) {
generateCodeToReplaceNullWithZeroOnTopOfStack(desc);
justAfterWithCaptureInvocation = false;
}
else {
visitMethodInstruction(opcode, owner, name, desc, itf);
}
}
else {
checkForInvocationThatIsNotMockable(owner, name);
if (matcherCount == 0) {
visitMethodInstruction(opcode, owner, name, desc, itf);
}
else {
boolean mockedInvocationUsingTheMatchers = handleInvocationParameters(desc);
visitMethodInstruction(opcode, owner, name, desc, itf);
handleArgumentCapturingIfNeeded(mockedInvocationUsingTheMatchers);
}
}
}
private boolean isAccessMethod(@Nonnull String methodOwner, @Nonnull String name)
{
return !methodOwner.equals(blockOwner) && name.startsWith("access$");
}
private void visitMethodInstruction(int opcode, String owner, String name, String desc, boolean itf)
{
int argSize = Type.getArgumentsAndReturnSizes(desc);
int sizeVariation = (argSize & 0x03) - (argSize >> 2);
if (opcode == INVOKESTATIC) {
sizeVariation++;
}
stackSize += sizeVariation;
mw.visitMethodInsn(opcode, owner, name, desc, itf);
}
private void generateCodeToReplaceNullWithZeroOnTopOfStack(@Nonnull String unboxingMethodDesc)
{
char primitiveTypeCode = unboxingMethodDesc.charAt(2);
visitInsn(POP);
int zeroOpcode;
switch (primitiveTypeCode) {
case 'J': zeroOpcode = LCONST_0; break;
case 'F': zeroOpcode = FCONST_0; break;
case 'D': zeroOpcode = DCONST_0; break;
default: zeroOpcode = ICONST_0;
}
visitInsn(zeroOpcode);
}
private void checkForInvocationThatIsNotMockable(@Nonnull String owner, @Nonnull String name)
{
if (MockingFilters.isUnmockable(owner, name) && isMockedClass(owner)) {
generateCodeToThrowException(
"Attempted to " + (verifications ? "verify" : "record") +
" expectation on unmockable " + (name.charAt(0) == '<' ? "constructor" : "method"));
}
}
private boolean handleInvocationParameters(@Nonnull String desc)
{
parameterTypes = Type.getArgumentTypes(desc);
int stackAfter = stackSize - sumOfParameterSizes();
boolean mockedInvocationUsingTheMatchers = stackAfter < matcherStacks[0];
if (mockedInvocationUsingTheMatchers) {
generateCallsToMoveArgMatchers(stackAfter);
argumentCapturing.generateCallsToSetArgumentTypesToCaptureIfAny();
matcherCount = 0;
}
return mockedInvocationUsingTheMatchers;
}
private int sumOfParameterSizes()
{
int sum = 0;
for (Type argType : parameterTypes) {
sum += argType.getSize();
}
return sum;
}
private void generateCallsToMoveArgMatchers(int initialStack)
{
int stack = initialStack;
int nextMatcher = 0;
int matcherStack = matcherStacks[0];
for (int i = 0; i < parameterTypes.length && nextMatcher < matcherCount; i++) {
stack += parameterTypes[i].getSize();
if (stack == matcherStack || stack == matcherStack + 1) {
if (nextMatcher < i) {
generateCallToMoveArgMatcher(nextMatcher, i);
argumentCapturing.updateCaptureIfAny(nextMatcher, i);
}
matcherStack = matcherStacks[++nextMatcher];
}
}
}
private void generateCallToMoveArgMatcher(int originalMatcherIndex, int toIndex)
{
mw.visitIntInsn(SIPUSH, originalMatcherIndex);
mw.visitIntInsn(SIPUSH, toIndex);
generateCallToActiveInvocationsMethod("moveArgMatcher", "(II)V");
}
private void handleArgumentCapturingIfNeeded(boolean mockedInvocationUsingTheMatchers)
{
if (mockedInvocationUsingTheMatchers) {
argumentCapturing.generateCallsToCaptureMatchedArgumentsIfPending();
}
justAfterWithCaptureInvocation = false;
}
@Override
public void visitLocalVariable(
@Nonnull String name, @Nonnull String desc, @Nullable String signature, @Nonnull Label start, @Nonnull Label end,
int index)
{
// In classes instrumented with EMMA some local variable information can be lost, so we discard it entirely to
// avoid a ClassFormatError.
if (end.position > 0) {
mw.visitLocalVariable(name, desc, signature, start, end, index);
}
}
@Override
public void visitLabel(Label label)
{
mw.visitLabel(label);
if (!label.isDebug()) {
stackSize = 0;
}
}
@Override
public void visitTypeInsn(int opcode, @Nonnull String type)
{
argumentCapturing.registerTypeToCaptureIfApplicable(opcode, type);
if (opcode == NEW) {
stackSize++;
}
mw.visitTypeInsn(opcode, type);
}
@Override
public void visitIntInsn(int opcode, int operand)
{
if (opcode != NEWARRAY) {
stackSize++;
}
mw.visitIntInsn(opcode, operand);
}
@Override
public void visitVarInsn(int opcode, @SuppressWarnings("ParameterNameDiffersFromOverriddenParameter") int varIndex)
{
argumentCapturing.registerAssignmentToCaptureVariableIfApplicable(this, opcode, varIndex);
if (opcode != RET) {
stackSize += Frame.SIZE[opcode];
}
mw.visitVarInsn(opcode, varIndex);
}
@Override
public void visitLdcInsn(Object cst)
{
stackSize++;
if (cst instanceof Long || cst instanceof Double) {
stackSize++;
}
mw.visitLdcInsn(cst);
}
@Override
public void visitJumpInsn(int opcode, Label label)
{
if (opcode != JSR) {
stackSize += Frame.SIZE[opcode];
}
boolean labelIsFromCompiledSourceCode = label.line > 0 || label.position > 0;
if (labelIsFromCompiledSourceCode) {
boolean verifyingWithCaptures = verifications && argumentCapturing.hasCaptures();
if (!verifyingWithCaptures) {
generateCodeToThrowExceptionReportingInvalidSyntax("conditional");
}
}
mw.visitJumpInsn(opcode, label);
}
@Override
public void visitTableSwitchInsn(int min, int max, Label dflt, Label... labels)
{
stackSize--;
generateCodeToThrowExceptionReportingInvalidSyntax("switch");
mw.visitTableSwitchInsn(min, max, dflt, labels);
}
@Override
public void visitLookupSwitchInsn(Label dflt, int[] keys, Label[] labels)
{
stackSize--;
generateCodeToThrowExceptionReportingInvalidSyntax("switch");
mw.visitLookupSwitchInsn(dflt, keys, labels);
}
@Override
public void visitMultiANewArrayInsn(String desc, int dims)
{
stackSize += 1 - dims;
mw.visitMultiANewArrayInsn(desc, dims);
}
@Override
public void visitInsn(int opcode)
{
if (opcode == RETURN && callEndInvocations) {
generateCallToActiveInvocationsMethod("endInvocations", "()V");
}
else {
stackSize += Frame.SIZE[opcode];
}
mw.visitInsn(opcode);
}
@Override
public void visitTryCatchBlock(Label start, Label end, Label handler, String type)
{
String description = type == null ? "try/finally" : "try/catch";
generateCodeToThrowExceptionReportingInvalidSyntax(description);
mw.visitTryCatchBlock(start, end, handler, type);
}
private void generateCodeToThrowExceptionReportingInvalidSyntax(@Nonnull String description)
{
generateCodeToThrowException("Invalid " + description + " statement inside expectation block");
}
private void generateCodeToThrowException(@Nonnull String message)
{
mw.visitTypeInsn(NEW, "java/lang/IllegalArgumentException");
mw.visitInsn(DUP);
mw.visitLdcInsn(message);
mw.visitMethodInsn(INVOKESPECIAL, "java/lang/IllegalArgumentException", "", "(Ljava/lang/String;)V", false);
mw.visitInsn(ATHROW);
}
}