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jni.d
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jni.d
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/++
Provides easy interoperability with Java code through JNI.
Given this Java:
```java
class Hello {
public native void hi(String s);
public native String stringFromJNI();
public native String returnNull();
public native void throwException();
static {
System.loadLibrary("myjni");
}
public static void main(String[] args) {
System.out.println("Hello from Java!");
Hello h = new Hello();
// we can pass data back and forth normally
h.hi("jni");
System.out.println(h.stringFromJNI());
System.out.println(h.returnNull()); // it can handle null too
// and even forward exceptions (sort of, it puts it in a RuntimeException right now)
h.throwException();
}
public void printMember() {
System.out.println("Member: " + member);
}
public int member;
}
```
And this D:
---
import arsd.jni;
// if it was in a Java package, you'd pass that
// in the string here instead of "".
final class Hello : JavaClass!("", Hello) {
@Export string stringFromJNI() {
return "hey, D returned this";
}
@Export string returnNull() {
return null;
}
@Export void throwException() {
throw new Exception("exception from D");
}
@Export void hi(string name) {
import std.stdio;
writefln("hello from D, %s", name);
}
// D can also access Java methods
@Import void printMember();
// and fields, as properties
@Import @property int member(); // getter for java's `int member`
@Import @property void member(int); // setter for java's `int member`
}
version(Windows) {
import core.sys.windows.dll;
mixin SimpleDllMain;
}
---
We can:
$(CONSOLE
$ javac Hello.java
$ dmd -shared myjni.d jni.d # compile into a shared lib
$ LD_LIBRARY_PATH=. java Hello
Hello from Java!
hello from D, jni
hey, D returned this
null
Exception in thread "main" java.lang.RuntimeException: [email protected](14): exception from D
----------------
??:? void myjni.Hello.throwException() [0x7f51d86dc17b]
??:? Java_Hello_throwException [0x7f51d86dd3e0]
??:? [0x7f51dd018406]
??:? [0x7f51dd007ffc]
??:? [0x7f51dd0004e6]
??:? [0x7f51f16b0709]
??:? [0x7f51f16c1339]
??:? [0x7f51f16d208d]
??:? [0x7f51f1f97058]
??:? [0x7f51f1fae06a]
at Hello.throwException(Native Method)
at Hello.main(Hello.java:17)
)
Please note: on Windows, use `-m32mscoff` or `-m64` when compiling with dmd.
Exact details subject to change, especially of how I pass the exceptions over.
It is also possible to call Java methods and create Java objects from D with the `@Import` uda.
While you can write pretty ordinary looking D code, there's some things to keep in mind for safety and efficiency.
$(WARNING
ALL references passed to you through Java, including
arrays, objects, and even the `this` pointer, MUST NOT
be stored outside the lifetime of the immediate function
they were passed to!
You may be able to get the D compiler to help you with
this with the scope attribute, but regardless, don't
do it.
)
It is YOUR responsibility to make sure parameter and return types
match between D and Java. The library will `static assert` given
unrepresentable types, but it cannot see what Java actually expects.
Getting this wrong can lead to memory corruption and crashes.
$(TIP
When possible, use `wstring` instead of `string` when
working with Java APIs. `wstring` matches the format
of Java's `String` so it avoids a conversion step.
)
All [JavaClass] sub-objects should be marked `final` on the D
side. Java may subclass them, but D can't (at least not now).
Do not use default arguments on the exported methods. No promise
the wrapper will do what you want when called from Java.
You may choose to only import JavaClass from here to minimize the
namespace pollution.
Constructing Java objects works and it will pin it. Just remember
that `this` inside a method is still subject to escaping restrictions!
+/
module arsd.jni;
// I need to figure out some way that users can set this. maybe. or dynamically fall back from newest to oldest we can handle
__gshared auto JNI_VERSION_DESIRED = JNI_VERSION_1_6;
// i could perhaps do a struct to bean thingy
/*
New Java classes:
class Foo : extends!Bar {
mixin stuff;
}
mixin stuff;
The `extends` template creates a wrapper that calls the nonvirtual
methods, so `super()` just works.
receiving an object should perhaps always give a subclass that is javafied;
calls the virtuals, unless of course it is final.
dynamic downcasts of java objects will probably never work.
*/
/+
For interfaces:
Java interfaces should just inherit from IJavaObject. Otherwise they
work as normal in D. The final class is responsible for setting @Import
and @Export on the methods and declaring they are implemented.
Note that you can define D interfaces as well, that are not necessarily
known to Java. If your interface uses IJavaObject though, it assumes
that there is some kind of relationship. (mismatching this is not
necessarily fatal, but may cause runtime exceptions or compile errors.)
For parent classes:
The CRTP limits this. May switch to mixin template... but right now
the third argument to JavaClass declares the parent. It will alias this
to a thing that returns the casted (well, realistically, reconstructed) version.
+/
/+
FIXME: D lambdas might be automagically wrapped in a Java class... will
need to know what parent class Java expects and which method to override.
+/
// FIXME: if user defines an interface with the appropriate RAII return values,
// it should let them do that for more efficiency
// e.g. @Import Manual!(int[]) getJavaArray();
/+
So in Java, a lambda expression is turned into an anonymous class
that implements the one abstract method in the required interface.
In D, they are a different type. And with no implicit construction I
can't convert automatically.
But I could prolly do something like javaLambda!Interface(x => foo)
but woof that isn't so much different than an anonymous class anymore.
+/
/// hack used by the translator for default constructors not really being a default constructor
struct Default {}
/+
final class CharSequence : JavaClass!("java.lang", CharSequence) {
@Import string toString(); // this triggers a dmd segfault! whoa. FIXME dmd
}
+/
/++
Java's String class implements its CharSequence interface. D's
string is not a class at all, so it cannot directly do that. Instead,
this translation of the interface has static methods to return a dummy
class wrapping D's string.
+/
interface CharSequence : JavaInterface!("java.lang", CharSequence) {
///
static CharSequence fromDString(string data) {
auto env = activeEnv;
assert(env !is null);
wchar[1024] buffer;
const(wchar)[] translated;
if(data.length < 1024) {
size_t len;
foreach(wchar ch; data)
buffer[len++] = ch;
translated = buffer[0 .. len];
} else {
import std.conv;
translated = to!wstring(data);
}
// Java copies the buffer so it is perfectly fine to return here now
return dummyClass!(typeof(this))((*env).NewString(env, translated.ptr, cast(jsize) translated.length));
}
///
static CharSequence fromDString(wstring data) {
auto env = activeEnv;
assert(env !is null);
return dummyClass!(typeof(this))((*env).NewString(env, data.ptr, cast(jsize) data.length));
}
}
/++
Indicates that your interface represents an interface in Java.
Use this on the declaration, then your other classes can implement
it fairly normally (just with the @Import and @Export annotations added
in the appropriate places). D will require something be filled in on the
child classes so be sure to copy the @Import declarations there.
---
interface IFoo : JavaInterface!("com.example", IFoo) {
string whatever();
}
final class Foo : JavaClass!("com.example", Foo), IFoo {
// need to tell D that the implementation exists, just in Java.
// (This actually generates the D implementation that just forwards to the existing java method)
@Import string whatever();
}
---
+/
interface JavaInterface(string javaPackage, CRTP) : IJavaObject {
mixin JavaPackageId!(javaPackage, CRTP);
mixin JavaInterfaceMembers!(null);
}
/// I may not keep this. But for now if you need a dummy class in D
/// to represent some object that implements this interface in Java,
/// you can use this. The dummy class assumes all interface methods are @Imported.
static T dummyClass(T)(jobject obj) {
return new class T {
jobject getJavaHandle() { return obj; }
};
}
/++
Can be used as a UDA for methods or classes where the D name
and the Java name don't match (for example, if it happens to be
a D keyword).
---
@JavaName("version")
@Import int version_();
---
+/
struct JavaName {
string name;
}
private string getJavaName(alias a)() {
string name = __traits(identifier, a);
static foreach(attr; __traits(getAttributes, a))
static if(is(typeof(attr) == JavaName))
name = attr.name;
return name;
}
/+
to benchmark build stats
cd ~/Android/d_android/java_bindings/android/java
/usr/bin/time -f "%E %M" dmd -o- -c `find . | grep -E '\.d$'` ~/arsd/jni.d -I../..
+/
/+ Java class file definitions { +/
// see: https://docs.oracle.com/javase/specs/jvms/se13/html/jvms-4.html
version(WithClassLoadSupport) {
import arsd.declarativeloader;
/// translator.
void jarToD()(string jarPath, string dPackagePrefix, string outputDirectory, JavaTranslationConfig jtc, bool delegate(string className) classFilter = null) {
import std.zip;
import std.file;
import std.algorithm;
auto zip = new ZipArchive(read(jarPath));
ClassFile[string] allClasses;
foreach(name, am; zip.directory) {
if(name.endsWith(".class")) {
zip.expand(am);
ClassFile cf;
auto classBytes = cast(ubyte[]) am.expandedData;
auto originalClassBytes = classBytes;
debug try {
cf.loadFrom!ClassFile(classBytes);
} catch(Exception e) {
std.file.write("spam.bin", originalClassBytes);
throw e;
} else
cf.loadFrom!ClassFile(classBytes);
string className = cf.className.idup;
if(classFilter is null || classFilter(className))
allClasses[className] = cf;
//rawClassBytesToD(cast(ubyte[]) am.expandedData, dPackagePrefix, outputDirectory, jtc);
//am.expandedData = null; // let the GC take it if it wants
}
}
foreach(name, cf; allClasses)
rawClassStructToD(cf, dPackagePrefix, outputDirectory, jtc, allClasses);
}
private inout(char)[] fixupKeywordsInJavaPackageName(inout(char)[] s) {
import std.string;
s ~= "."; // lol i suck
s = s.replace(".function.", ".function_.");
s = s.replace(".ref.", ".ref_.");
s = s.replace(".module.", ".module_.");
s = s.replace(".package.", ".package_.");
s = s.replace(".debug.", ".debug_.");
s = s.replace(".version.", ".version_.");
s = s.replace(".asm.", ".asm_.");
s = s.replace(".shared.", ".shared_.");
s = s.replace(".scope.", ".scope_.");
return s[0 .. $-1]; // god i am such a bad programmer
}
private inout(char)[] fixupJavaClassName(inout(char)[] s) {
import std.algorithm : among;
if(s.among("Throwable", "Object", "Exception", "Error", "TypeInfo", "ClassInfo", "version"))
s = cast(typeof(s)) "Java" ~ s;
return s;
}
/// For the translator
struct JavaTranslationConfig {
/// List the Java methods, imported to D.
bool doImports;
/// List the native methods, assuming they should be exported from D
bool doExports;
/// Put implementations inline. If false, this separates interface from impl for quicker builds with dmd -i.
bool inlineImplementations;
/// Treat native functions as imports, otherwise fills in as exports. Make sure doImports == true.
bool nativesAreImports = true;
}
/// translator
void rawClassBytesToD()(ubyte[] bytes, string dPackagePrefix, string outputDirectory, JavaTranslationConfig jtc) {
ClassFile f;
f.loadFrom(bytes);
rawClassStructToD(f, dPackagePrefix, outputDirectory, jtc, null);
}
/// translator.
void rawClassStructToD()(ref ClassFile cf, string dPackagePrefix, string outputDirectory, JavaTranslationConfig jtc, ClassFile[string] allClasses) {
import std.file;
import std.path;
import std.algorithm;
import std.array;
import std.string;
string importPrefix = "import";
const(char)[] javaPackage;
const(char)[] lastClassName;
const(char)[] originalJavaPackage;
const(char)[] originalClassName;
const(char)[] cn = cf.className;
auto idx = cn.lastIndexOf("/");
if(idx != -1) {
javaPackage = cn[0 .. idx].replace("$", "_").replace("/", ".").fixupKeywordsInJavaPackageName;
lastClassName = cn[idx + 1 .. $];
originalJavaPackage = cn[0 .. idx].replace("/", ".");
originalClassName = lastClassName;
} else {
lastClassName = cn;
originalJavaPackage = "";
originalClassName = lastClassName;
}
lastClassName = lastClassName.replace("$", "_"); // NOTE rughs strings in this file
lastClassName = fixupJavaClassName(lastClassName);
auto filename = (outputDirectory.length ? (outputDirectory ~ "/") : "")
~ (dPackagePrefix.length ? (dPackagePrefix.replace(".", "/") ~ "/") : "")
~ javaPackage.replace(".", "/");
mkdirRecurse(filename);
if(filename.length)
filename ~= "/";
filename ~= lastClassName ~ ".d";
if(filename.indexOf("-") != -1)
return;
string dco;
auto thisModule = cast(string)((dPackagePrefix.length ? (dPackagePrefix ~ ".") : "") ~ javaPackage);
if(thisModule.length && thisModule[$-1] != '.')
thisModule ~= ".";
thisModule ~= lastClassName;
bool isInterface = (cf.access_flags & 0x0200) ? true : false;
bool isAbstract = (cf.access_flags & ClassFile.ACC_ABSTRACT) ? true : false;
if(jtc.inlineImplementations) {
dco = "module " ~ thisModule ~ ";\n\n";
} else {
dco ~= "module " ~ thisModule ~ "_d_interface;\n";
}
dco ~= "import arsd.jni : IJavaObjectImplementation, JavaPackageId, JavaName, IJavaObject, ImportExportImpl, JavaInterfaceMembers;\n";
dco ~= "static import arsd.jni;\n\n";
string[string] javaPackages;
string[string] javaPackagesReturn;
string[string] javaPackagesArguments;
string dc;
if(lastClassName != originalClassName)
dc ~= "@JavaName(\""~originalClassName~"\")\n";
bool outputMixinTemplate = false;
string mainThing;
//string helperThing;
// so overriding Java classes from D is iffy and with separate implementation
// non final leads to linker errors anyway...
//mainThing ~= (isInterface ? "interface " : (jtc.inlineImplementations ? "class " : isAbstract ? "abstract class " : "final class ")) ~ lastClassName ~ " : ";
mainThing ~= "final class " ~ lastClassName ~ " : IJavaObject {\n";
mainThing ~= "\tstatic immutable string[] _d_canCastTo = [\n";
// not putting super class on inline implementations since that forces vtable...
if(jtc.inlineImplementations) {
auto scn = cf.superclassName;
if(scn.length) {
mainThing ~= "\t\t\"" ~ scn ~ "\",\n";
}
/+
//if(!scn.startsWith("java/")) {
// superclasses need the implementation too so putting it in the return list lol
if(scn.length && scn != "java/lang/Object") { // && scn in allClasses) {
mainThing ~= javaObjectToDTypeString(scn, javaPackages, javaPackagesReturn, importPrefix);
mainThing ~= ", ";
}
//}
+/
}
foreach(name; cf.interfacesNames) {
//if(name.startsWith("java/"))
//continue; // these probably aren't important to D and can really complicate version management
//if(name !in allClasses)
//continue;
//mainThing ~= javaObjectToDTypeString(name, javaPackages, javaPackagesReturn, importPrefix);
//mainThing ~= ", ";
mainThing ~= "\t\t\"" ~ name ~ "\",\n";
}
mainThing ~= "\t];\n";
//helperThing ~= "interface " ~ lastClassName ~ "_d_methods : ";
string[string] mentioned;
string[string] processed;
void addMethods(ClassFile* current, bool isTopLevel) {
if(current is null) return;
if(current.className in processed) return;
foreach(method; current.methodsListing) {
bool native = (method.flags & 0x0100) ? true : false;
if(jtc.nativesAreImports) {
native = false; // kinda hacky but meh
if(!jtc.doImports)
continue;
} else {
if(native && !jtc.doExports)
continue;
if(!native && !jtc.doImports)
continue;
}
auto port = native ? "@Export" : "@Import";
if(method.flags & 1) { // public
if(!isTopLevel && method.name == "<init>")
continue;
bool maybeOverride = false;// !isInterface;
if(method.flags & 0x0008) {
port ~= " static";
}
if(method.flags & method_info.ACC_ABSTRACT) {
//if(!isInterface)
//port ~= " abstract";
} else {
// this represents a default implementation in a Java interface
// D cannot express this... so I need to add it to the mixin template
// associated with this interface as well.
//if(isInterface && (!(method.flags & 0x0008))) {
//addToMixinTemplate = true;
//}
}
//if(maybeOverride && method.isOverride(allClasses))
//port ~= " override";
auto name = method.name;
// FIXME: maybe check name for other D keywords but since so many overlap with java I think we will be ok most the time for now
import std.algorithm : among;
if(name.among("package", "export", "bool", "module", "debug",
"delete", "with", "version", "cast", "union", "align",
"alias", "in", "out", "toString", "init", "lazy",
"immutable", "is", "function", "delegate", "template",
"scope")) {
// toString is special btw in order to avoid a dmd bug
port ~= " @JavaName(\""~name~"\")";
name ~= "_";
}
// NOTE rughs strings in this file
name = name.replace("$", "_");
bool ctor = name == "<init>";
auto sig = method.signature;
auto lidx = sig.lastIndexOf(")");
assert(lidx != -1);
auto retJava = sig[lidx + 1 .. $];
auto argsJava = sig[1 .. lidx];
string ret = ctor ? "" : javaSignatureToDTypeString(retJava, javaPackages, javaPackagesReturn, importPrefix);
string args = javaSignatureToDTypeString(argsJava, javaPackages, javaPackagesArguments, importPrefix);
auto oargs = args;
if(!jtc.inlineImplementations) {
if(ctor && args.length == 0)
args = "arsd.jni.Default";
}
string men = cast(immutable) (name ~ "(" ~ args ~ ")");
if(men in mentioned)
continue; // avoid duplicate things. idk why this is there though
mentioned[men] = men;
string proto = cast(string) ("\t"~port~" " ~ ret ~ (ret.length ? " " : "") ~ (ctor ? "this" : name) ~ "("~args~")"~(native ? " { assert(0); }" : ";")~"\n");
mainThing ~= proto;
if(oargs.length == 0 && name == "toString_" && !(method.flags & 0x0008))
mainThing ~= "\toverride string toString() { return arsd.jni.javaObjectToString(this); }\n";
}
}
processed[current.className.idup] = "done";
if(current.superclassName.length) {
auto c = current.superclassName in allClasses;
addMethods(c, false);
}
foreach(iface; current.interfacesNames) {
auto c = iface in allClasses;
addMethods(c, false);
}
}
addMethods(&cf, true);
mainThing ~= "\tmixin IJavaObjectImplementation!(false);\n";
mainThing ~= "\tpublic static immutable string _javaParameterString = \"L" ~ cn ~ ";\";\n";
mainThing ~= "}\n\n";
dc ~= mainThing;
dc ~= "\n\n";
foreach(pkg, prefix; javaPackages) {
auto m = (dPackagePrefix.length ? (dPackagePrefix ~ ".") : "") ~ pkg;
// keeping thisModule because of the prefix nonsense
//if(m == thisModule)
//continue;
if(jtc.inlineImplementations)
dco ~= "import " ~ prefix ~ " = " ~ m ~ ";\n";
else
dco ~= "import " ~ prefix ~ " = " ~ m ~ "_d_interface;\n";
}
if(javaPackages.keys.length)
dco ~= "\n";
dco ~= dc;
if(jtc.inlineImplementations) {
dco ~= "\nmixin ImportExportImpl!"~lastClassName~";\n";
std.file.write(filename, dco);
} else {
string impl;
impl ~= "module " ~ thisModule ~ ";\n";
impl ~= "public import " ~ thisModule ~ "_d_interface;\n\n";
impl ~= "import arsd.jni : ImportExportImpl;\n";
impl ~= "mixin ImportExportImpl!"~lastClassName~";\n";
impl ~= "\n";
foreach(pkg, prefix; javaPackagesReturn) {
// I also need to import implementations of return values so they just work
auto m = (dPackagePrefix.length ? (dPackagePrefix ~ ".") : "") ~ pkg;
impl ~= "import " ~ prefix ~ " = " ~ m ~ ";\n";
}
std.file.write(filename, impl);
std.file.write(filename[0 .. $-2] ~ "_d_interface.d", dco);
}
}
string javaObjectToDTypeString(const(char)[] input, ref string[string] javaPackages, ref string[string] detailedPackages, string importPrefix) {
string ret;
if(input == "java/lang/String") {
ret = "string"; // or could be wstring...
} else if(input == "java/lang/Object") {
ret = "IJavaObject";
} else {
// NOTE rughs strings in this file
string type = input.replace("$", "_").idup;
string jp, cn, dm;
auto idx = type.lastIndexOf("/");
if(idx != -1) {
jp = type[0 .. idx].replace("/", ".").fixupKeywordsInJavaPackageName;
cn = type[idx + 1 .. $].fixupJavaClassName;
dm = jp ~ "." ~ cn;
} else {
cn = type;
dm = jp;
}
string prefix;
if(auto n = dm in javaPackages) {
prefix = *n;
} else {
import std.conv;
// FIXME: this scheme sucks, would prefer something deterministic
prefix = importPrefix ~ to!string(javaPackages.keys.length);
//prefix = dm.replace(".", "0");
javaPackages[dm] = prefix;
detailedPackages[dm] = prefix;
}
ret = prefix ~ (prefix.length ? ".":"") ~ cn;
}
return ret;
}
string javaSignatureToDTypeString(ref const(char)[] js, ref string[string] javaPackages, ref string[string] detailedPackages, string importPrefix) {
string all;
while(js.length) {
string type;
switch(js[0]) {
case '[':
js = js[1 .. $];
type = javaSignatureToDTypeString(js, javaPackages, detailedPackages, importPrefix);
type ~= "[]";
break;
case 'L':
import std.string;
auto idx = js.indexOf(";");
type = js[1 .. idx].idup;
js = js[idx + 1 .. $];
type = javaObjectToDTypeString(type, javaPackages, detailedPackages, importPrefix);
break;
case 'V': js = js[1 .. $]; type = "void"; break;
case 'Z': js = js[1 .. $]; type = "bool"; break;
case 'B': js = js[1 .. $]; type = "byte"; break;
case 'C': js = js[1 .. $]; type = "wchar"; break;
case 'S': js = js[1 .. $]; type = "short"; break;
case 'J': js = js[1 .. $]; type = "long"; break;
case 'F': js = js[1 .. $]; type = "float"; break;
case 'D': js = js[1 .. $]; type = "double"; break;
case 'I': js = js[1 .. $]; type = "int"; break;
default: assert(0, js);
}
if(all.length) all ~= ", ";
all ~= type;
}
return all;
}
struct cp_info {
enum CONSTANT_Class = 7; // sizeof = 2
struct CONSTANT_Class_info {
@BigEndian:
ushort name_index;
}
enum CONSTANT_Fieldref = 9; // sizeof = 4
struct CONSTANT_Fieldref_info {
@BigEndian:
ushort class_index;
ushort name_and_type_index;
}
enum CONSTANT_Methodref = 10; // sizeof = 4
struct CONSTANT_Methodref_info {
@BigEndian:
ushort class_index;
ushort name_and_type_index;
}
enum CONSTANT_InterfaceMethodref = 11; // sizeof = 4
struct CONSTANT_InterfaceMethodref_info {
@BigEndian:
ushort class_index;
ushort name_and_type_index;
}
enum CONSTANT_String = 8; // sizeof = 2
struct CONSTANT_String_info {
@BigEndian:
ushort string_index;
}
enum CONSTANT_Integer = 3; // sizeof = 4
struct CONSTANT_Integer_info {
@BigEndian:
int bytes;
}
enum CONSTANT_Float = 4; // sizeof = 4
struct CONSTANT_Float_info {
@BigEndian:
float bytes;
}
enum CONSTANT_Long = 5; // sizeof = 8, but eats two slots
struct CONSTANT_Long_info {
@BigEndian:
long bytes;
}
enum CONSTANT_Double = 6; // sizeof = 8, but eats two slots
struct CONSTANT_Double_info {
@BigEndian:
double bytes;
}
enum CONSTANT_NameAndType = 12; // sizeof = 4
struct CONSTANT_NameAndType_info {
@BigEndian:
ushort name_index;
ushort descriptor_index;
}
enum CONSTANT_Utf8 = 1; // sizeof = 2 + length
struct CONSTANT_Utf8_info {
@BigEndian:
ushort length;
@NumElements!length char[] bytes; // actually modified UTF-8 but meh
}
enum CONSTANT_MethodHandle = 15; // sizeof = 3
struct CONSTANT_MethodHandle_info {
@BigEndian:
ubyte reference_kind;
ushort reference_index;
}
enum CONSTANT_MethodType = 16; // sizeof = 2; descriptor index
struct CONSTANT_MethodType_info {
@BigEndian:
ushort descriptor_index;
}
enum CONSTANT_InvokeDynamic = 18; // sizeof = 4
struct CONSTANT_InvokeDynamic_info {
@BigEndian:
ushort bootstrap_method_attr_index;
ushort name_and_type_index;
}
enum CONSTANT_Module = 19;
struct CONSTANT_Module_info {
@BigEndian:
ushort name_index;
}
enum CONSTANT_Package = 20;
struct CONSTANT_Package_info {
@BigEndian:
ushort name_index;
}
ubyte tag;
@Tagged!(tag)
union Info {
@Tag(CONSTANT_Class) CONSTANT_Class_info class_info;
@Tag(CONSTANT_Fieldref) CONSTANT_Fieldref_info fieldref_info;
@Tag(CONSTANT_Methodref) CONSTANT_Methodref_info methodref_info;
@Tag(CONSTANT_InterfaceMethodref) CONSTANT_InterfaceMethodref_info interfaceMethodref_info;
@Tag(CONSTANT_String) CONSTANT_String_info string_info;
@Tag(CONSTANT_Integer) CONSTANT_Integer_info integer_info;
@Tag(CONSTANT_Float) CONSTANT_Float_info float_info;
@Tag(CONSTANT_Long) CONSTANT_Long_info long_info;
@Tag(CONSTANT_Double) CONSTANT_Double_info double_info;
@Tag(CONSTANT_NameAndType) CONSTANT_NameAndType_info nameAndType_info;
@Tag(CONSTANT_Utf8) CONSTANT_Utf8_info utf8_info;
@Tag(CONSTANT_MethodHandle) CONSTANT_MethodHandle_info methodHandle_info;
@Tag(CONSTANT_MethodType) CONSTANT_MethodType_info methodType_info;
@Tag(CONSTANT_InvokeDynamic) CONSTANT_InvokeDynamic_info invokeDynamic_info;
@Tag(CONSTANT_Module) CONSTANT_Module_info module_info;
@Tag(CONSTANT_Package) CONSTANT_Package_info package_info;
}
Info info;
bool takesTwoSlots() {
return (tag == CONSTANT_Long || tag == CONSTANT_Double);
}
string toString() {
if(tag == CONSTANT_Utf8)
return cast(string) info.utf8_info.bytes;
import std.format;
return format("cp_info(%s)", tag);
}
}
struct field_info {
@BigEndian:
enum ACC_PUBLIC = 0x0001;
enum ACC_PRIVATE = 0x0002;
enum ACC_PROTECTED = 0x0004;
enum ACC_STATIC = 0x0008;
enum ACC_FINAL = 0x0010;
enum ACC_VOLATILE = 0x0040;
enum ACC_TRANSIENT = 0x0080;
enum ACC_SYNTHETIC = 0x1000;
enum ACC_ENUM = 0x4000;
ushort access_flags;
ushort name_index;
ushort descriptor_index;
ushort attributes_count;
@NumElements!attributes_count attribute_info[] attributes;
}
struct method_info {
@BigEndian:
ushort access_flags;
ushort name_index;
ushort descriptor_index;
ushort attributes_count;
@NumElements!attributes_count attribute_info[] attributes;
enum ACC_PUBLIC = 0x0001;
enum ACC_PRIVATE = 0x0002;
enum ACC_PROTECTED = 0x0004;
enum ACC_STATIC = 0x0008;
enum ACC_FINAL = 0x0010;
enum ACC_SYNCHRONIZED = 0x0020;
enum ACC_BRIDGE = 0x0040;
enum ACC_VARARGS = 0x0080;
enum ACC_NATIVE = 0x0100;
enum ACC_ABSTRACT = 0x0400;
enum ACC_STRICT = 0x0800;
enum ACC_SYNTHETIC = 0x1000;
}
struct attribute_info {
@BigEndian:
ushort attribute_name_index;
uint attribute_length;
@NumBytes!attribute_length ubyte[] info;
}
struct ClassFile {
@BigEndian:
enum ACC_PUBLIC = 0x0001;
enum ACC_FINAL = 0x0010;
enum ACC_SUPER = 0x0020;
enum ACC_INTERFACE = 0x0200;
enum ACC_ABSTRACT = 0x0400;
enum ACC_SYNTHETIC = 0x1000;
enum ACC_ANNOTATION = 0x2000;
enum ACC_ENUM = 0x4000;
const(char)[] className() {
return this.constant(this.constant(this.this_class).info.class_info.name_index).info.utf8_info.bytes;
}
const(char)[] superclassName() {
if(this.super_class)
return this.constant(this.constant(this.super_class).info.class_info.name_index).info.utf8_info.bytes;
return null;
}
const(char)[][] interfacesNames() {
typeof(return) ret;
foreach(iface; interfaces) {
ret ~= this.constant(this.constant(iface).info.class_info.name_index).info.utf8_info.bytes;
}
return ret;
}
Method[] methodsListing() {
Method[] ms;
foreach(met; this.methods) {
Method m;
m.name = this.constant(met.name_index).info.utf8_info.bytes;
m.signature = this.constant(met.descriptor_index).info.utf8_info.bytes;
m.flags = met.access_flags;
m.cf = &this;
ms ~= m;
}
return ms;
}
bool hasConcreteMethod(const(char)[] name, const(char)[] signature, ClassFile[string] allClasses) {
// I don't really care cuz I don't use the same root in D
if(this.className == "java/lang/Object")
return false;
foreach(m; this.methodsListing) {
if(m.name == name)// && m.signature == signature)
return true;
//return (m.flags & method_info.ACC_ABSTRACT) ? false : true; // abstract impls do not count as methods as far as overrides are concerend...
}
if(auto s = this.superclassName in allClasses)
return s.hasConcreteMethod(name, signature, allClasses);
return false;
}
static struct Method {
const(char)[] name;
const(char)[] signature;
ushort flags;
ClassFile* cf;
bool isOverride(ClassFile[string] allClasses) {
if(name == "<init>")
return false;
if(auto s = cf.superclassName in allClasses)
return s.hasConcreteMethod(name, signature, allClasses);
return false;
}
}
@MustBe(0xcafebabe) uint magic;
ushort minor_version;
ushort major_version;
ushort constant_pool_count_;
// the zeroth item of the constant pool is null, but not actually in the file.
ushort constant_pool_count() { return cast(ushort)(constant_pool_count_ - 1); }