Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance.
Project price only 1 $
You can buy this project and download/modify it how often you want.
org.jruby.ast.executable.RuntimeCache Maven / Gradle / Ivy
package org.jruby.ast.executable;
import java.math.BigInteger;
import java.util.Arrays;
import org.jcodings.Encoding;
import org.jruby.Ruby;
import org.jruby.RubyClass;
import org.jruby.RubyClass.VariableAccessor;
import org.jruby.RubyFixnum;
import org.jruby.RubyFloat;
import org.jruby.RubyModule;
import org.jruby.RubyRegexp;
import org.jruby.RubyString;
import org.jruby.RubySymbol;
import org.jruby.common.IRubyWarnings.ID;
import org.jruby.internal.runtime.methods.DynamicMethod;
import org.jruby.internal.runtime.methods.UndefinedMethod;
import org.jruby.javasupport.util.RuntimeHelpers;
import org.jruby.parser.LocalStaticScope;
import org.jruby.parser.StaticScope;
import org.jruby.runtime.BlockBody;
import org.jruby.runtime.CallSite;
import org.jruby.runtime.CallType;
import org.jruby.runtime.CompiledBlockCallback;
import org.jruby.runtime.MethodIndex;
import org.jruby.runtime.ThreadContext;
import org.jruby.runtime.builtin.IRubyObject;
import org.jruby.runtime.callsite.CacheEntry;
import org.jruby.util.ByteList;
import org.jruby.util.RegexpOptions;
public class RuntimeCache {
public RuntimeCache() {
}
public final StaticScope getScope(ThreadContext context, String varNamesDescriptor, int index) {
StaticScope scope = scopes[index];
if (scope == null) {
String[] scopeData = varNamesDescriptor.split(",");
String[] varNames = scopeData[0].split(";");
for (int i = 0; i < varNames.length; i++) {
varNames[i] = varNames[i].intern();
}
scope = scopes[index] = new LocalStaticScope(context.getCurrentScope().getStaticScope(), varNames);
}
return scope;
}
public final CallSite getCallSite(int index) {
return callSites[index];
}
/**
* descriptor format is
*
* closure_method_name,arity,varname1;varname2;varname3,has_multi_args_head,arg_type,light
*
* @param context
* @param index
* @param descriptor
* @return
*/
public final BlockBody getBlockBody(Object scriptObject, ThreadContext context, int index, String descriptor) {
BlockBody body = blockBodies[index];
if (body == null) {
return createBlockBody(scriptObject, context, index, descriptor);
}
return body;
}
/**
* descriptor format is
*
* closure_method_name,arity,varname1;varname2;varname3,has_multi_args_head,arg_type,light
*
* @param context
* @param index
* @param descriptor
* @return
*/
public final BlockBody getBlockBody19(Object scriptObject, ThreadContext context, int index, String descriptor) {
BlockBody body = blockBodies[index];
if (body == null) {
return createBlockBody19(scriptObject, context, index, descriptor);
}
return body;
}
public final CompiledBlockCallback getBlockCallback(Object scriptObject, Ruby runtime, int index, String method) {
CompiledBlockCallback callback = blockCallbacks[index];
if (callback == null) {
return createCompiledBlockCallback(scriptObject, runtime, index, method);
}
return callback;
}
public final RubySymbol getSymbol(Ruby runtime, int index, String name) {
RubySymbol symbol = symbols[index];
if (symbol == null) {
return symbols[index] = runtime.newSymbol(name);
}
return symbol;
}
public final RubyString getString(Ruby runtime, int index, int codeRange) {
return RubyString.newStringShared(runtime, getByteList(index), codeRange);
}
public final ByteList getByteList(int index) {
return byteLists[index];
}
public final Encoding getEncoding(int index) {
return encodings[index];
}
public final RubyFixnum getFixnum(Ruby runtime, int index, int value) {
RubyFixnum fixnum = fixnums[index];
if (fixnum == null) {
return fixnums[index] = RubyFixnum.newFixnum(runtime, value);
}
return fixnum;
}
public final RubyFixnum getFixnum(Ruby runtime, int index, long value) {
RubyFixnum fixnum = fixnums[index];
if (fixnum == null) {
return fixnums[index] = RubyFixnum.newFixnum(runtime, value);
}
return fixnum;
}
public final RubyFloat getFloat(Ruby runtime, int index, double value) {
RubyFloat flote = floats[index];
if (flote == null) {
return floats[index] = RubyFloat.newFloat(runtime, value);
}
return flote;
}
public final RubyRegexp getRegexp(Ruby runtime, int index, ByteList pattern, int options) {
RubyRegexp regexp = regexps[index];
if (regexp == null || runtime.getKCode() != regexp.getKCode()) {
regexp = RubyRegexp.newRegexp(runtime, pattern, RegexpOptions.fromEmbeddedOptions(options));
regexp.setLiteral();
regexps[index] = regexp;
}
return regexp;
}
public final RubyRegexp getRegexp(int index) {
return regexps[index];
}
public final RubyRegexp cacheRegexp(int index, RubyString pattern, int options) {
RubyRegexp regexp = regexps[index];
Ruby runtime = pattern.getRuntime();
if (regexp == null || runtime.getKCode() != regexp.getKCode()) {
regexp = RubyRegexp.newRegexp(runtime, pattern.getByteList(), RegexpOptions.fromEmbeddedOptions(options));
regexps[index] = regexp;
}
return regexp;
}
public final RubyRegexp cacheRegexp(int index, RubyRegexp regexp) {
regexps[index] = regexp;
return regexp;
}
public final BigInteger getBigInteger(Ruby runtime, int index, String pattern) {
BigInteger bigint = bigIntegers[index];
if (bigint == null) {
return bigIntegers[index] = new BigInteger(pattern, 16);
}
return bigint;
}
public final IRubyObject getVariable(Ruby runtime, int index, String name, IRubyObject object) {
VariableAccessor variableAccessor = variableReaders[index];
RubyClass cls = object.getMetaClass().getRealClass();
if (variableAccessor.getClassId() != cls.hashCode()) {
variableReaders[index] = variableAccessor = cls.getVariableAccessorForRead(name);
}
IRubyObject value = (IRubyObject) variableAccessor.get(object);
if (value != null) {
return value;
}
if (runtime.isVerbose()) {
warnAboutUninitializedIvar(runtime, name);
}
return runtime.getNil();
}
private void warnAboutUninitializedIvar(Ruby runtime, String name) {
runtime.getWarnings().warning(ID.IVAR_NOT_INITIALIZED, "instance variable " + name + " not initialized");
}
public final IRubyObject setVariable(Ruby runtime, int index, String name, IRubyObject object, IRubyObject value) {
VariableAccessor variableAccessor = variableWriters[index];
RubyClass cls = object.getMetaClass().getRealClass();
if (variableAccessor.getClassId() != cls.hashCode()) {
variableWriters[index] = variableAccessor = cls.getVariableAccessorForWrite(name);
}
variableAccessor.set(object, value);
return value;
}
public final void initScopes(int size) {
scopes = new StaticScope[size];
}
public final void initCallSites(int size) {
callSites = new CallSite[size];
}
/**
* Given a packed descriptor listing methods and their type, populate the
* call site cache.
*
* The format of the methods portion of the descriptor is
* name1;type1;name2;type2 where type1 and type2 are a single capital letter
* N, F, V, or S for the four main call types. After the method portion,
* the other cache sizes are provided as a packed String of char values
* representing the numeric sizes. @see RuntimeCache#initOthers.
*
* @param descriptor The descriptor to use for populating call sites and caches
*/
public final void initFromDescriptor(String descriptor) {
String[] pieces = descriptor.split("\uFFFF");
CallSite[] sites = new CallSite[pieces.length - 1 / 2];
// if there's no call sites, don't process it
if (pieces[0].length() != 0) {
for (int i = 0; i < pieces.length - 1; i+=2) {
switch (pieces[i + 1].charAt(0)) {
case 'N':
sites[i/2] = MethodIndex.getCallSite(pieces[i]);
break;
case 'F':
sites[i/2] = MethodIndex.getFunctionalCallSite(pieces[i]);
break;
case 'V':
sites[i/2] = MethodIndex.getVariableCallSite(pieces[i]);
break;
case 'S':
sites[i/2] = MethodIndex.getSuperCallSite();
break;
default:
throw new RuntimeException("Unknown call type: " + pieces[i + 1] + " for method " + pieces[i]);
}
}
this.callSites = sites;
}
initOthers(pieces[pieces.length - 1]);
}
private static final int SCOPE = 0;
private static final int SYMBOL = SCOPE + 1;
private static final int FIXNUM = SYMBOL + 1;
private static final int FLOAT = FIXNUM + 1;
private static final int CONSTANT = FLOAT + 1;
private static final int REGEXP = CONSTANT + 1;
private static final int BIGINTEGER = REGEXP + 1;
private static final int VARIABLEREADER = BIGINTEGER + 1;
private static final int VARIABLEWRITER = VARIABLEREADER + 1;
private static final int BLOCKBODY = VARIABLEWRITER + 1;
private static final int BLOCKCALLBACK = BLOCKBODY + 1;
private static final int METHOD = BLOCKCALLBACK + 1;
private static final int STRING = METHOD + 1;
private static final int ENCODING = STRING + 1;
/**
* Given a packed descriptor of other cache sizes, construct the cache arrays
*
* The format of the descriptor is the actual size cast to char in this order:
*
scopeCount
inheritedSymbolCount
inheritedFixnumCount
inheritedConstantCount
inheritedRegexpCount
inheritedBigIntegerCount
inheritedVariableReaderCount
inheritedVariableWriterCount
inheritedBlockBodyCount
inheritedBlockCallbackCount
inheritedMethodCount
inheritedStringCount
*
*
* @param descriptor The descriptor to use for preparing caches
*/
public final void initOthers(String descriptor) {
int scopeCount = getDescriptorValue(descriptor, SCOPE);
if (scopeCount > 0) initScopes(scopeCount);
int symbolCount = getDescriptorValue(descriptor, SYMBOL);
if (symbolCount > 0) initSymbols(symbolCount);
int fixnumCount = getDescriptorValue(descriptor, FIXNUM);
if (fixnumCount > 0) initFixnums(fixnumCount);
int floatCount = getDescriptorValue(descriptor, FLOAT);
if (floatCount > 0) initFloats(floatCount);
int constantCount = getDescriptorValue(descriptor, CONSTANT);
if (constantCount > 0) initConstants(constantCount);
int regexpCount = getDescriptorValue(descriptor, REGEXP);
if (regexpCount > 0) initRegexps(regexpCount);
int bigIntegerCount = getDescriptorValue(descriptor, BIGINTEGER);
if (bigIntegerCount > 0) initBigIntegers(bigIntegerCount);
int variableReaderCount = getDescriptorValue(descriptor, VARIABLEREADER);
if (variableReaderCount > 0) initVariableReaders(variableReaderCount);
int variableWriterCount = getDescriptorValue(descriptor, VARIABLEWRITER);
if (variableWriterCount > 0) initVariableWriters(variableWriterCount);
int blockBodyCount = getDescriptorValue(descriptor, BLOCKBODY);
if (blockBodyCount > 0) initBlockBodies(blockBodyCount);
int blockCallbackCount = getDescriptorValue(descriptor, BLOCKCALLBACK);
if (blockCallbackCount > 0) initBlockCallbacks(blockCallbackCount);
int methodCount = getDescriptorValue(descriptor, METHOD);
if (methodCount > 0) initMethodCache(methodCount);
int stringCount = getDescriptorValue(descriptor, STRING);
if (stringCount > 0) initStrings(stringCount);
int encodingCount = getDescriptorValue(descriptor, ENCODING);
if (encodingCount > 0) initEncodings(encodingCount);
}
private static int getDescriptorValue(String descriptor, int type) {
return descriptor.charAt(type);
}
public final void initBlockBodies(int size) {
blockBodies = new BlockBody[size];
}
public final void initBlockCallbacks(int size) {
blockCallbacks = new CompiledBlockCallback[size];
}
public final void initSymbols(int size) {
symbols = new RubySymbol[size];
}
public final ByteList[] initStrings(int size) {
return byteLists = new ByteList[size];
}
public final Encoding[] initEncodings(int size) {
return encodings = new Encoding[size];
}
public final void initFixnums(int size) {
fixnums = new RubyFixnum[size];
}
public final void initFloats(int size) {
floats = new RubyFloat[size];
}
public final void initRegexps(int size) {
regexps = new RubyRegexp[size];
}
public final void initBigIntegers(int size) {
bigIntegers = new BigInteger[size];
}
public final void initConstants(int size) {
constants = new IRubyObject[size];
constantTargetHashes = new int[size];
constantGenerations = new int[size];
Arrays.fill(constantGenerations, -1);
Arrays.fill(constantTargetHashes, -1);
}
public final void initVariableReaders(int size) {
variableReaders = new VariableAccessor[size];
Arrays.fill(variableReaders, VariableAccessor.DUMMY_ACCESSOR);
}
public final void initVariableWriters(int size) {
variableWriters = new VariableAccessor[size];
Arrays.fill(variableWriters, VariableAccessor.DUMMY_ACCESSOR);
}
public final void initMethodCache(int size) {
methodCache = new CacheEntry[size];
Arrays.fill(methodCache, CacheEntry.NULL_CACHE);
}
public final IRubyObject getConstant(ThreadContext context, String name, int index) {
IRubyObject value = getValue(context, name, index);
// We can callsite cache const_missing if we want
return value != null ? value : context.getCurrentScope().getStaticScope().getModule().callMethod(context, "const_missing", context.getRuntime().fastNewSymbol(name));
}
public IRubyObject getValue(ThreadContext context, String name, int index) {
IRubyObject value = constants[index]; // Store to temp so it does null out on us mid-stream
return isCached(context, value, index) ? value : reCache(context, name, index);
}
private boolean isCached(ThreadContext context, IRubyObject value, int index) {
return value != null && constantGenerations[index] == context.getRuntime().getConstantGeneration();
}
public IRubyObject reCache(ThreadContext context, String name, int index) {
int newGeneration = context.getRuntime().getConstantGeneration();
IRubyObject value = context.getConstant(name);
constants[index] = value;
if (value != null) {
constantGenerations[index] = newGeneration;
}
return value;
}
public final IRubyObject getConstantFrom(RubyModule target, ThreadContext context, String name, int index) {
IRubyObject value = getValueFrom(target, context, name, index);
// We can callsite cache const_missing if we want
return value != null ? value : target.fastGetConstantFromConstMissing(name);
}
public IRubyObject getValueFrom(RubyModule target, ThreadContext context, String name, int index) {
IRubyObject value = constants[index]; // Store to temp so it does null out on us mid-stream
return isCachedFrom(target, context, value, index) ? value : reCacheFrom(target, context, name, index);
}
private boolean isCachedFrom(RubyModule target, ThreadContext context, IRubyObject value, int index) {
return value != null && constantGenerations[index] == context.getRuntime().getConstantGeneration() && constantTargetHashes[index] == target.hashCode();
}
public IRubyObject reCacheFrom(RubyModule target, ThreadContext context, String name, int index) {
int newGeneration = context.getRuntime().getConstantGeneration();
IRubyObject value = target.fastGetConstantFromNoConstMissing(name);
constants[index] = value;
if (value != null) {
constantGenerations[index] = newGeneration;
constantTargetHashes[index] = target.hashCode();
}
return value;
}
private BlockBody createBlockBody(Object scriptObject, ThreadContext context, int index, String descriptor) throws NumberFormatException {
BlockBody body = RuntimeHelpers.createCompiledBlockBody(context, scriptObject, descriptor);
return blockBodies[index] = body;
}
private BlockBody createBlockBody19(Object scriptObject, ThreadContext context, int index, String descriptor) throws NumberFormatException {
BlockBody body = RuntimeHelpers.createCompiledBlockBody19(context, scriptObject, descriptor);
return blockBodies[index] = body;
}
private CompiledBlockCallback createCompiledBlockCallback(Object scriptObject, Ruby runtime, int index, String method) {
CompiledBlockCallback callback = RuntimeHelpers.createBlockCallback(runtime, scriptObject, method, "(internal)", -1);
return blockCallbacks[index] = callback;
}
public DynamicMethod getMethod(ThreadContext context, RubyClass selfType, int index, String methodName) {
CacheEntry myCache = getCacheEntry(index);
if (CacheEntry.typeOk(myCache, selfType)) {
return myCache.method;
}
return cacheAndGet(context, selfType, index, methodName);
}
public DynamicMethod getMethod(ThreadContext context, IRubyObject self, int index, String methodName) {
return getMethod(context, pollAndGetClass(context, self), index, methodName);
}
private DynamicMethod cacheAndGet(ThreadContext context, RubyClass selfType, int index, String methodName) {
CacheEntry entry = selfType.searchWithCache(methodName);
DynamicMethod method = entry.method;
if (method.isUndefined()) {
return RuntimeHelpers.selectMethodMissing(context, selfType, method.getVisibility(), methodName, CallType.FUNCTIONAL);
}
methodCache[index] = entry;
return method;
}
public DynamicMethod searchWithCache(RubyClass clazz, int index, String name1) {
CacheEntry entry = clazz.searchWithCache(name1);
DynamicMethod method = entry.method;
if (entry.method == UndefinedMethod.INSTANCE) {
return RuntimeHelpers.selectMethodMissing(clazz, method.getVisibility(), name1, CallType.FUNCTIONAL);
}
methodCache[index] = entry;
return method;
}
public DynamicMethod searchWithCache(RubyClass clazz, int index, String name1, String name2) {
CacheEntry entry = clazz.searchWithCache(name1);
DynamicMethod method = entry.method;
if (entry.method == UndefinedMethod.INSTANCE) {
return searchWithCache(clazz, index, name2);
}
methodCache[index] = entry;
return method;
}
public DynamicMethod searchWithCache(RubyClass clazz, int index, String name1, String name2, String name3) {
CacheEntry entry = clazz.searchWithCache(name1);
DynamicMethod method = entry.method;
if (entry.method == UndefinedMethod.INSTANCE) {
return searchWithCache(clazz, index, name2, name3);
}
methodCache[index] = entry;
return method;
}
public DynamicMethod searchWithCache(RubyClass clazz, int index, String name1, String name2, String name3, String name4) {
CacheEntry entry = clazz.searchWithCache(name1);
DynamicMethod method = entry.method;
if (entry.method == UndefinedMethod.INSTANCE) {
return searchWithCache(clazz, index, name2, name3, name4);
}
methodCache[index] = entry;
return method;
}
public DynamicMethod searchWithCache(RubyClass clazz, int index, String name1, String name2, String name3, String name4, String name5) {
CacheEntry entry = clazz.searchWithCache(name1);
DynamicMethod method = entry.method;
if (entry.method == UndefinedMethod.INSTANCE) {
return searchWithCache(clazz, index, name2, name3, name4, name5);
}
methodCache[index] = entry;
return method;
}
public DynamicMethod searchWithCache(RubyClass clazz, int index, String name1, String name2, String name3, String name4, String name5, String name6) {
CacheEntry entry = clazz.searchWithCache(name1);
DynamicMethod method = entry.method;
if (entry.method == UndefinedMethod.INSTANCE) {
return searchWithCache(clazz, index, name2, name3, name4, name5, name6);
}
methodCache[index] = entry;
return method;
}
public DynamicMethod searchWithCache(RubyClass clazz, int index, String name1, String name2, String name3, String name4, String name5, String name6, String name7) {
CacheEntry entry = clazz.searchWithCache(name1);
DynamicMethod method = entry.method;
if (entry.method == UndefinedMethod.INSTANCE) {
return searchWithCache(clazz, index, name2, name3, name4, name5, name6, name7);
}
methodCache[index] = entry;
return method;
}
public DynamicMethod searchWithCache(RubyClass clazz, int index, String name1, String name2, String name3, String name4, String name5, String name6, String name7, String name8) {
CacheEntry entry = clazz.searchWithCache(name1);
DynamicMethod method = entry.method;
if (entry.method == UndefinedMethod.INSTANCE) {
return searchWithCache(clazz, index, name2, name3, name4, name5, name6, name7, name8);
}
methodCache[index] = entry;
return method;
}
public DynamicMethod searchWithCache(IRubyObject obj, int index, String name1) {
CacheEntry myCache = getCacheEntry(index);
if (CacheEntry.typeOk(myCache, obj.getMetaClass())) {
return myCache.method;
}
return searchWithCache(obj.getMetaClass(), index, name1);
}
public DynamicMethod searchWithCache(IRubyObject obj, int index, String name1, String name2) {
CacheEntry myCache = getCacheEntry(index);
if (CacheEntry.typeOk(myCache, obj.getMetaClass())) {
return myCache.method;
}
return searchWithCache(obj.getMetaClass(), index, name1, name2);
}
public DynamicMethod searchWithCache(IRubyObject obj, int index, String name1, String name2, String name3) {
CacheEntry myCache = getCacheEntry(index);
if (CacheEntry.typeOk(myCache, obj.getMetaClass())) {
return myCache.method;
}
return searchWithCache(obj.getMetaClass(), index, name1, name2, name3);
}
public DynamicMethod searchWithCache(IRubyObject obj, int index, String name1, String name2, String name3, String name4) {
CacheEntry myCache = getCacheEntry(index);
if (CacheEntry.typeOk(myCache, obj.getMetaClass())) {
return myCache.method;
}
return searchWithCache(obj.getMetaClass(), index, name1, name2, name3, name4);
}
public DynamicMethod searchWithCache(IRubyObject obj, int index, String name1, String name2, String name3, String name4, String name5) {
CacheEntry myCache = getCacheEntry(index);
if (CacheEntry.typeOk(myCache, obj.getMetaClass())) {
return myCache.method;
}
return searchWithCache(obj.getMetaClass(), index, name1, name2, name3, name4, name5);
}
public DynamicMethod searchWithCache(IRubyObject obj, int index, String name1, String name2, String name3, String name4, String name5, String name6) {
CacheEntry myCache = getCacheEntry(index);
if (CacheEntry.typeOk(myCache, obj.getMetaClass())) {
return myCache.method;
}
return searchWithCache(obj.getMetaClass(), index, name1, name2, name3, name4, name5, name6);
}
public DynamicMethod searchWithCache(IRubyObject obj, int index, String name1, String name2, String name3, String name4, String name5, String name6, String name7) {
CacheEntry myCache = getCacheEntry(index);
if (CacheEntry.typeOk(myCache, obj.getMetaClass())) {
return myCache.method;
}
return searchWithCache(obj.getMetaClass(), index, name1, name2, name3, name4, name5, name6, name7);
}
public DynamicMethod searchWithCache(IRubyObject obj, int index, String name1, String name2, String name3, String name4, String name5, String name6, String name7, String name8) {
CacheEntry myCache = getCacheEntry(index);
if (CacheEntry.typeOk(myCache, obj.getMetaClass())) {
return myCache.method;
}
return searchWithCache(obj.getMetaClass(), index, name1, name2, name3, name4, name5, name6, name7, name8);
}
private static RubyClass pollAndGetClass(ThreadContext context, IRubyObject self) {
context.callThreadPoll();
RubyClass selfType = self.getMetaClass();
return selfType;
}
private CacheEntry getCacheEntry(int index) {
return methodCache[index];
}
private static final StaticScope[] EMPTY_SCOPES = {};
public StaticScope[] scopes = EMPTY_SCOPES;
private static final CallSite[] EMPTY_CALLSITES = {};
public CallSite[] callSites = EMPTY_CALLSITES;
private static final CacheEntry[] EMPTY_CACHEENTRIES = {};
public CacheEntry[] methodCache = EMPTY_CACHEENTRIES;
private static final BlockBody[] EMPTY_BLOCKBODIES = {};
public BlockBody[] blockBodies = EMPTY_BLOCKBODIES;
private static final CompiledBlockCallback[] EMPTY_COMPILEDBLOCKCALLBACKS = {};
public CompiledBlockCallback[] blockCallbacks = EMPTY_COMPILEDBLOCKCALLBACKS;
private static final RubySymbol[] EMPTY_RUBYSYMBOLS = {};
public RubySymbol[] symbols = EMPTY_RUBYSYMBOLS;
private static final ByteList[] EMPTY_BYTELISTS = {};
public ByteList[] byteLists = EMPTY_BYTELISTS;
private static final Encoding[] EMPTY_ENCODINGS = {};
public Encoding[] encodings = EMPTY_ENCODINGS;
private static final RubyFixnum[] EMPTY_FIXNUMS = {};
public RubyFixnum[] fixnums = EMPTY_FIXNUMS;
private static final RubyFloat[] EMPTY_FLOATS = {};
public RubyFloat[] floats = EMPTY_FLOATS;
private static final RubyRegexp[] EMPTY_RUBYREGEXPS = {};
public RubyRegexp[] regexps = EMPTY_RUBYREGEXPS;
private static final BigInteger[] EMPTY_BIGINTEGERS = {};
public BigInteger[] bigIntegers = EMPTY_BIGINTEGERS;
private static final VariableAccessor[] EMPTY_VARIABLE_ACCESSORS = {};
public VariableAccessor[] variableReaders = EMPTY_VARIABLE_ACCESSORS;
public VariableAccessor[] variableWriters = EMPTY_VARIABLE_ACCESSORS;
public IRubyObject[] constants = IRubyObject.NULL_ARRAY;
private static final int[] EMPTY_INTS = {};
public int[] constantGenerations = EMPTY_INTS;
public int[] constantTargetHashes = EMPTY_INTS;
}
