use of org.jf.dexlib2.analysis.DexClassProvider in project smali by JesusFreke.
the class MethodAnalyzerTest method testInstanceOfNarrowingNez_dalvik.
@Test
public void testInstanceOfNarrowingNez_dalvik() throws IOException {
MethodImplementationBuilder builder = new MethodImplementationBuilder(2);
builder.addInstruction(new BuilderInstruction22c(Opcode.INSTANCE_OF, 0, 1, new ImmutableTypeReference("Lmain;")));
builder.addInstruction(new BuilderInstruction21t(Opcode.IF_NEZ, 0, builder.getLabel("instance_of")));
builder.addInstruction(new BuilderInstruction10x(Opcode.RETURN_VOID));
builder.addLabel("instance_of");
builder.addInstruction(new BuilderInstruction10x(Opcode.RETURN_VOID));
MethodImplementation methodImplementation = builder.getMethodImplementation();
Method method = new ImmutableMethod("Lmain;", "narrowing", Collections.singletonList(new ImmutableMethodParameter("Ljava/lang/Object;", null, null)), "V", AccessFlags.PUBLIC.getValue(), null, methodImplementation);
ClassDef classDef = new ImmutableClassDef("Lmain;", AccessFlags.PUBLIC.getValue(), "Ljava/lang/Object;", null, null, null, null, Collections.singletonList(method));
DexFile dexFile = new ImmutableDexFile(Opcodes.getDefault(), Collections.singletonList(classDef));
ClassPath classPath = new ClassPath(new DexClassProvider(dexFile));
MethodAnalyzer methodAnalyzer = new MethodAnalyzer(classPath, method, null, false);
List<AnalyzedInstruction> analyzedInstructions = methodAnalyzer.getAnalyzedInstructions();
Assert.assertEquals("Ljava/lang/Object;", analyzedInstructions.get(2).getPreInstructionRegisterType(1).type.getType());
Assert.assertEquals("Ljava/lang/Object;", analyzedInstructions.get(3).getPreInstructionRegisterType(1).type.getType());
}
use of org.jf.dexlib2.analysis.DexClassProvider in project smali by JesusFreke.
the class MethodAnalyzerTest method testInstanceOfNarrowingNez_art.
@Test
public void testInstanceOfNarrowingNez_art() throws IOException {
MethodImplementationBuilder builder = new MethodImplementationBuilder(2);
builder.addInstruction(new BuilderInstruction22c(Opcode.INSTANCE_OF, 0, 1, new ImmutableTypeReference("Lmain;")));
builder.addInstruction(new BuilderInstruction21t(Opcode.IF_NEZ, 0, builder.getLabel("instance_of")));
builder.addInstruction(new BuilderInstruction10x(Opcode.RETURN_VOID));
builder.addLabel("instance_of");
builder.addInstruction(new BuilderInstruction10x(Opcode.RETURN_VOID));
MethodImplementation methodImplementation = builder.getMethodImplementation();
Method method = new ImmutableMethod("Lmain;", "narrowing", Collections.singletonList(new ImmutableMethodParameter("Ljava/lang/Object;", null, null)), "V", AccessFlags.PUBLIC.getValue(), null, methodImplementation);
ClassDef classDef = new ImmutableClassDef("Lmain;", AccessFlags.PUBLIC.getValue(), "Ljava/lang/Object;", null, null, null, null, Collections.singletonList(method));
DexFile dexFile = new ImmutableDexFile(forArtVersion(56), Collections.singletonList(classDef));
ClassPath classPath = new ClassPath(Lists.newArrayList(new DexClassProvider(dexFile)), true, 56);
MethodAnalyzer methodAnalyzer = new MethodAnalyzer(classPath, method, null, false);
List<AnalyzedInstruction> analyzedInstructions = methodAnalyzer.getAnalyzedInstructions();
Assert.assertEquals("Ljava/lang/Object;", analyzedInstructions.get(2).getPreInstructionRegisterType(1).type.getType());
Assert.assertEquals("Lmain;", analyzedInstructions.get(3).getPreInstructionRegisterType(1).type.getType());
}
use of org.jf.dexlib2.analysis.DexClassProvider in project smali by JesusFreke.
the class MethodAnalyzerTest method testInstanceOfNarrowingEqz_dalvik.
@Test
public void testInstanceOfNarrowingEqz_dalvik() throws IOException {
MethodImplementationBuilder builder = new MethodImplementationBuilder(2);
builder.addInstruction(new BuilderInstruction22c(Opcode.INSTANCE_OF, 0, 1, new ImmutableTypeReference("Lmain;")));
builder.addInstruction(new BuilderInstruction21t(Opcode.IF_EQZ, 0, builder.getLabel("not_instance_of")));
builder.addInstruction(new BuilderInstruction10x(Opcode.RETURN_VOID));
builder.addLabel("not_instance_of");
builder.addInstruction(new BuilderInstruction10x(Opcode.RETURN_VOID));
MethodImplementation methodImplementation = builder.getMethodImplementation();
Method method = new ImmutableMethod("Lmain;", "narrowing", Collections.singletonList(new ImmutableMethodParameter("Ljava/lang/Object;", null, null)), "V", AccessFlags.PUBLIC.getValue(), null, methodImplementation);
ClassDef classDef = new ImmutableClassDef("Lmain;", AccessFlags.PUBLIC.getValue(), "Ljava/lang/Object;", null, null, null, null, Collections.singletonList(method));
DexFile dexFile = new ImmutableDexFile(Opcodes.forApi(19), Collections.singletonList(classDef));
ClassPath classPath = new ClassPath(new DexClassProvider(dexFile));
MethodAnalyzer methodAnalyzer = new MethodAnalyzer(classPath, method, null, false);
List<AnalyzedInstruction> analyzedInstructions = methodAnalyzer.getAnalyzedInstructions();
Assert.assertEquals("Ljava/lang/Object;", analyzedInstructions.get(2).getPreInstructionRegisterType(1).type.getType());
Assert.assertEquals("Ljava/lang/Object;", analyzedInstructions.get(3).getPreInstructionRegisterType(1).type.getType());
}
use of org.jf.dexlib2.analysis.DexClassProvider in project smali by JesusFreke.
the class MethodAnalyzerTest method testInstanceOfNarrowingEqz_art.
@Test
public void testInstanceOfNarrowingEqz_art() throws IOException {
MethodImplementationBuilder builder = new MethodImplementationBuilder(2);
builder.addInstruction(new BuilderInstruction22c(Opcode.INSTANCE_OF, 0, 1, new ImmutableTypeReference("Lmain;")));
builder.addInstruction(new BuilderInstruction21t(Opcode.IF_EQZ, 0, builder.getLabel("not_instance_of")));
builder.addInstruction(new BuilderInstruction10x(Opcode.RETURN_VOID));
builder.addLabel("not_instance_of");
builder.addInstruction(new BuilderInstruction10x(Opcode.RETURN_VOID));
MethodImplementation methodImplementation = builder.getMethodImplementation();
Method method = new ImmutableMethod("Lmain;", "narrowing", Collections.singletonList(new ImmutableMethodParameter("Ljava/lang/Object;", null, null)), "V", AccessFlags.PUBLIC.getValue(), null, methodImplementation);
ClassDef classDef = new ImmutableClassDef("Lmain;", AccessFlags.PUBLIC.getValue(), "Ljava/lang/Object;", null, null, null, null, Collections.singletonList(method));
DexFile dexFile = new ImmutableDexFile(forArtVersion(56), Collections.singletonList(classDef));
ClassPath classPath = new ClassPath(Lists.newArrayList(new DexClassProvider(dexFile)), true, 56);
MethodAnalyzer methodAnalyzer = new MethodAnalyzer(classPath, method, null, false);
List<AnalyzedInstruction> analyzedInstructions = methodAnalyzer.getAnalyzedInstructions();
Assert.assertEquals("Lmain;", analyzedInstructions.get(2).getPreInstructionRegisterType(1).type.getType());
Assert.assertEquals("Ljava/lang/Object;", analyzedInstructions.get(3).getPreInstructionRegisterType(1).type.getType());
}
use of org.jf.dexlib2.analysis.DexClassProvider in project smali by JesusFreke.
the class FieldGapOrderTest method testNewOrder.
@Test
public void testNewOrder() {
DexFile dexFile = getInputDexFile("FieldGapOrder", new BaksmaliOptions());
Assert.assertEquals(3, dexFile.getClasses().size());
ClassPath classPath = new ClassPath(Lists.newArrayList(new DexClassProvider(dexFile)), false, 67);
ClassProto classProto = (ClassProto) classPath.getClass("LGapOrder;");
Assert.assertEquals("s", classProto.getFieldByOffset(10).getName());
Assert.assertEquals("r1", classProto.getFieldByOffset(12).getName());
Assert.assertEquals("r2", classProto.getFieldByOffset(16).getName());
Assert.assertEquals("i", classProto.getFieldByOffset(20).getName());
Assert.assertEquals("d", classProto.getFieldByOffset(24).getName());
}
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