DynamicMethod createMethod(
RubyModule module, Function function, Type returnType, Type[] parameterTypes) {
FastIntMethodFactory factory = this;
IntParameterConverter[] parameterConverters = new IntParameterConverter[parameterTypes.length];
IntResultConverter resultConverter = factory.getIntResultConverter(returnType);
for (int i = 0; i < parameterConverters.length; ++i) {
parameterConverters[i] = factory.getIntParameterConverter(parameterTypes[i]);
}
switch (parameterTypes.length) {
case 0:
return new FastIntMethodZeroArg(module, function, resultConverter, parameterConverters);
case 1:
return new FastIntMethodOneArg(module, function, resultConverter, parameterConverters);
case 2:
return new FastIntMethodTwoArg(module, function, resultConverter, parameterConverters);
case 3:
return new FastIntMethodThreeArg(module, function, resultConverter, parameterConverters);
default:
throw module
.getRuntime()
.newRuntimeError("Arity " + parameterTypes.length + " not implemented");
}
}
protected void init(RubyModule implementationClass, Visibility visibility) {
this.visibility = visibility;
this.implementationClass = implementationClass;
// TODO: Determine whether we should perhaps store non-singleton class
// in the implementationClass
this.protectedClass = calculateProtectedClass(implementationClass);
this.serialNumber = implementationClass.getRuntime().getNextDynamicMethodSerial();
}
public MixedModeIRMethod(IRScope method, Visibility visibility, RubyModule implementationClass) {
super(implementationClass, visibility, CallConfiguration.FrameNoneScopeNone, method.getName());
this.method = method;
getStaticScope().determineModule();
this.signature = getStaticScope().getSignature();
// disable JIT if JIT is disabled
if (!implementationClass.getRuntime().getInstanceConfig().getCompileMode().shouldJIT()) {
this.box.callCount = -1;
}
}
public void populate(final RubyModule target, final Class clazz) {
assert clazz == this.clazz : "populator for " + this.clazz + " used for " + clazz;
// fallback on non-pregenerated logic
final Ruby runtime = target.getRuntime();
final MethodFactory methodFactory =
MethodFactory.createFactory(runtime.getJRubyClassLoader());
for (Map.Entry<String, List<JavaMethodDescriptor>> entry :
clumper.getStaticAnnotatedMethods().entrySet()) {
final String name = entry.getKey();
final List<JavaMethodDescriptor> methods = entry.getValue();
target.defineAnnotatedMethod(name, methods, methodFactory);
addBoundMethodsUnlessOmited(runtime, name, methods);
}
for (Map.Entry<String, List<JavaMethodDescriptor>> entry :
clumper.getAnnotatedMethods().entrySet()) {
final String name = entry.getKey();
final List<JavaMethodDescriptor> methods = entry.getValue();
target.defineAnnotatedMethod(name, methods, methodFactory);
addBoundMethodsUnlessOmited(runtime, name, methods);
}
}
private static void setupMakefileConfig(RubyModule configModule, RubyHash mkmfHash) {
Ruby ruby = configModule.getRuntime();
RubyHash envHash = (RubyHash) ruby.getObject().fetchConstant("ENV".intern());
String cc = getRubyEnv(envHash, "CC", "cc");
String cpp = getRubyEnv(envHash, "CPP", "cc -E");
String cxx = getRubyEnv(envHash, "CXX", "c++");
String jflags = " -fno-omit-frame-pointer -fno-strict-aliasing ";
// String oflags = " -O2 -DNDEBUG";
// String wflags = " -W -Werror -Wall -Wno-unused -Wno-parentheses ";
// String picflags = true ? "" : " -fPIC -pthread ";
// String iflags = " -I\"$(JDK_HOME)/include\" -I\"$(JDK_HOME)/include/$(OS)\"
// -I\"$(BUILD_DIR)\" ";
// String soflags = true ? "" : " -shared -static-libgcc -mimpure-text -Wl,-O1 ";
String cflags = jflags + " -fexceptions" /* + picflags */ + " $(cflags)";
String cppflags = " $(DEFS) $(cppflags)";
String cxxflags = cflags + " $(cxxflags)";
String ldflags = ""; // + soflags;
String dldflags = "";
String ldsharedflags = " -shared ";
String archflags = " -m" + (Platform.IS_64_BIT ? "64" : "32");
String hdr_dir = new NormalizedFile(normalizedHome, "lib/native/include/").getPath();
// A few platform specific values
if (Platform.IS_WINDOWS) {
ldflags +=
" -L"
+ new NormalizedFile(
normalizedHome,
"lib/native/" + (Platform.IS_64_BIT ? "x86_64" : "i386") + "-Windows")
.getPath();
ldflags += " -ljruby-cext";
ldsharedflags += " $(if $(filter-out -g -g0,$(debugflags)),,-s)";
dldflags = "-Wl,--enable-auto-image-base,--enable-auto-import $(DEFFILE)";
archflags += " -march=native -mtune=native";
setConfig(mkmfHash, "DLEXT", "dll");
} else if (Platform.IS_MAC) {
ldsharedflags = " -dynamic -bundle -undefined dynamic_lookup ";
cflags = " -fPIC -DTARGET_RT_MAC_CFM=0 " + cflags;
archflags = " -arch " + Platform.ARCH;
cppflags = " -D_XOPEN_SOURCE -D_DARWIN_C_SOURCE " + cppflags;
setConfig(mkmfHash, "DLEXT", "bundle");
} else {
cflags = " -fPIC " + cflags;
setConfig(mkmfHash, "DLEXT", "so");
}
String libext = "a";
String objext = "o";
setConfig(mkmfHash, "configure_args", "");
setConfig(mkmfHash, "CFLAGS", cflags);
setConfig(mkmfHash, "CPPFLAGS", cppflags);
setConfig(mkmfHash, "CXXFLAGS", cxxflags);
setConfig(mkmfHash, "ARCH_FLAG", archflags);
setConfig(mkmfHash, "LDFLAGS", ldflags);
setConfig(mkmfHash, "DLDFLAGS", dldflags);
setConfig(mkmfHash, "DEFS", "");
setConfig(mkmfHash, "LIBEXT", libext);
setConfig(mkmfHash, "OBJEXT", objext);
setConfig(mkmfHash, "LIBRUBYARG_STATIC", "");
setConfig(mkmfHash, "LIBRUBYARG_SHARED", "");
setConfig(mkmfHash, "LIBS", "");
setConfig(mkmfHash, "DLDLIBS", "");
setConfig(mkmfHash, "ENABLED_SHARED", "");
setConfig(mkmfHash, "LIBRUBY", "");
setConfig(mkmfHash, "LIBRUBY_A", "");
setConfig(mkmfHash, "LIBRUBYARG", "");
setConfig(mkmfHash, "prefix", " "); // This must not be empty for some extconf.rb's to work
setConfig(mkmfHash, "ruby_install_name", jrubyScript());
setConfig(mkmfHash, "LDSHARED", cc + ldsharedflags);
setConfig(mkmfHash, "LDSHAREDXX", cxx + ldsharedflags);
setConfig(mkmfHash, "RUBY_PLATFORM", getOSName());
setConfig(mkmfHash, "CC", cc);
setConfig(mkmfHash, "CPP", cpp);
setConfig(mkmfHash, "CXX", cxx);
setConfig(mkmfHash, "OUTFLAG", "-o ");
setConfig(mkmfHash, "COMMON_HEADERS", "ruby.h");
setConfig(mkmfHash, "PATH_SEPARATOR", ":");
setConfig(mkmfHash, "INSTALL", "install -c ");
setConfig(mkmfHash, "RM", "rm -f");
setConfig(mkmfHash, "CP", "cp ");
setConfig(mkmfHash, "MAKEDIRS", "mkdir -p ");
setConfig(mkmfHash, "includedir", hdr_dir);
setConfig(mkmfHash, "rubyhdrdir", hdr_dir);
setConfig(mkmfHash, "archdir", hdr_dir);
ruby.getObject().defineConstant("CROSS_COMPILING", ruby.getNil());
configModule.defineConstant("MAKEFILE_CONFIG", mkmfHash);
}
DynamicMethod createMethod(
RubyModule module,
Function function,
Type returnType,
Type[] parameterTypes,
CallingConvention convention,
IRubyObject enums) {
FunctionInvoker functionInvoker = getFunctionInvoker(returnType);
ParameterMarshaller[] marshallers = new ParameterMarshaller[parameterTypes.length];
for (int i = 0; i < parameterTypes.length; ++i) {
marshallers[i] = getMarshaller(parameterTypes[i], convention, enums);
if (marshallers[i] == null) {
throw module
.getRuntime()
.newTypeError("Could not create marshaller for " + parameterTypes[i]);
}
}
/*
* If there is exactly _one_ callback argument to the function,
* then a block can be given and automatically subsituted for the callback
* parameter.
*/
if (marshallers.length > 0) {
int cbcount = 0, cbindex = -1;
for (int i = 0; i < marshallers.length; ++i) {
if (marshallers[i] instanceof CallbackMarshaller) {
cbcount++;
cbindex = i;
}
}
if (cbcount == 1) {
return new CallbackMethodWithBlock(module, function, functionInvoker, marshallers, cbindex);
}
}
//
// Determine if the parameter might be passed as a 32bit int parameter.
// This just applies to buffer/pointer types.
//
FastIntMethodFactory fastIntFactory = FastIntMethodFactory.getFactory();
boolean canBeFastInt =
enums.isNil() && parameterTypes.length <= 3 && fastIntFactory.isFastIntResult(returnType);
for (int i = 0; canBeFastInt && i < parameterTypes.length; ++i) {
if (!(parameterTypes[i] instanceof Type.Builtin) || marshallers[i].needsInvocationSession()) {
canBeFastInt = false;
} else {
switch (parameterTypes[i].getNativeType()) {
case POINTER:
case BUFFER_IN:
case BUFFER_OUT:
case BUFFER_INOUT:
canBeFastInt = Platform.getPlatform().addressSize() == 32;
break;
default:
canBeFastInt = fastIntFactory.isFastIntParam(parameterTypes[i]);
break;
}
}
}
if (!canBeFastInt)
switch (parameterTypes.length) {
case 0:
return new DefaultMethodZeroArg(module, function, functionInvoker);
case 1:
return new DefaultMethodOneArg(module, function, functionInvoker, marshallers);
case 2:
return new DefaultMethodTwoArg(module, function, functionInvoker, marshallers);
case 3:
return new DefaultMethodThreeArg(module, function, functionInvoker, marshallers);
default:
return new DefaultMethod(module, function, functionInvoker, marshallers);
}
//
// Set up for potentially fast-int operations
//
IntResultConverter resultConverter = fastIntFactory.getIntResultConverter(returnType);
IntParameterConverter[] intParameterConverters =
new IntParameterConverter[parameterTypes.length];
for (int i = 0; i < parameterTypes.length; ++i) {
intParameterConverters[i] = fastIntFactory.getIntParameterConverter(parameterTypes[i]);
}
switch (parameterTypes.length) {
case 0:
return new FastIntMethodZeroArg(module, function, resultConverter, intParameterConverters);
case 1:
return new FastIntPointerMethodOneArg(
module, function, resultConverter, intParameterConverters, marshallers);
case 2:
return new FastIntPointerMethodTwoArg(
module, function, resultConverter, intParameterConverters, marshallers);
case 3:
return new FastIntPointerMethodThreeArg(
module, function, resultConverter, intParameterConverters, marshallers);
}
throw new IllegalArgumentException("Parameter types not supported");
}
