@Override
public boolean containsKey(Object key) {
for (HashNode<V> node : array) {
if (node.getCode() == key.hashCode()) return true;
}
return false;
}
private void updateModel(int index) {
byte c = buf[index];
if (index > 0) {
HashNode hNode = new HashNode();
byte prevC = buf[index - 1];
int pos = ((prevC & 0xff) << 8) | (c & 0xff);
hNode.index = index - 1;
hNode.next = hashTable[pos];
hashTable[pos] = hNode;
}
}
@Override
public V get(Object key) {
int code = key.hashCode();
int index = calculateHash(code);
HashNode<V> arrayNode = array[index];
while (arrayNode != null && arrayNode.getCode() != code) {
arrayNode = arrayNode.getNext();
}
if (arrayNode == null) return null;
else return arrayNode.getObject();
}
public void serialize(SerializerOutput out, HashNode obj) throws IOException {
if (obj.getClass() == HashBucket.class) {
out.write(Serialization.HTREE_BUCKET);
HashBucket b = (HashBucket) obj;
b.writeExternal(out);
} else {
out.write(Serialization.HTREE_DIRECTORY);
HashDirectory n = (HashDirectory) obj;
n.writeExternal(out);
}
}
@Specialization(guards = {"isNullHash(hash)", "!isRubyString(key)"})
public Object setNull(
VirtualFrame frame, DynamicObject hash, Object key, Object value, boolean byIdentity) {
HashNodes.setStore(
hash,
PackedArrayStrategy.createStore(hashNode.hash(frame, key), key, value),
1,
null,
null);
assert HashNodes.verifyStore(hash);
return value;
}
@ExplodeLoop
@Specialization(guards = {"isPackedHash(hash)", "!isRubyString(key)"})
public Object setPackedArray(
VirtualFrame frame, DynamicObject hash, Object key, Object value, boolean byIdentity) {
assert HashNodes.verifyStore(hash);
final int hashed = hashNode.hash(frame, key);
final Object[] store = (Object[]) Layouts.HASH.getStore(hash);
final int size = Layouts.HASH.getSize(hash);
for (int n = 0; n < PackedArrayStrategy.MAX_ENTRIES; n++) {
if (n < size) {
if (hashed == PackedArrayStrategy.getHashed(store, n)) {
final boolean equal;
if (byIdentityProfile.profile(byIdentity)) {
equal =
equalNode.executeReferenceEqual(frame, key, PackedArrayStrategy.getKey(store, n));
} else {
equal =
eqlNode.callBoolean(frame, key, "eql?", null, PackedArrayStrategy.getKey(store, n));
}
if (equal) {
PackedArrayStrategy.setValue(store, n, value);
assert HashNodes.verifyStore(hash);
return value;
}
}
}
}
extendProfile.enter();
if (strategyProfile.profile(size + 1 <= PackedArrayStrategy.MAX_ENTRIES)) {
PackedArrayStrategy.setHashedKeyValue(store, size, hashed, key, value);
Layouts.HASH.setSize(hash, size + 1);
return value;
} else {
PackedArrayStrategy.promoteToBuckets(hash, store, size);
BucketsStrategy.addNewEntry(hash, hashed, key, value);
}
assert HashNodes.verifyStore(hash);
return value;
}
@ExplodeLoop
@Override
public Object execute(VirtualFrame frame) {
final Object[] store = PackedArrayStrategy.createStore();
int size = 0;
initializers:
for (int n = 0; n < keyValues.length / 2; n++) {
Object key = keyValues[n * 2].execute(frame);
if (stringKeyProfile.profile(RubyGuards.isRubyString(key))) {
if (isFrozenNode == null) {
CompilerDirectives.transferToInterpreter();
isFrozenNode = insert(IsFrozenNodeGen.create(getContext(), getSourceSection(), null));
}
if (!isFrozenNode.executeIsFrozen(key)) {
key = freezeNode.call(frame, dupNode.call(frame, key, "dup", null), "freeze", null);
}
}
final int hashed = hashNode.hash(frame, key);
final Object value = keyValues[n * 2 + 1].execute(frame);
for (int i = 0; i < n; i++) {
if (i < size
&& hashed == PackedArrayStrategy.getHashed(store, i)
&& equalNode.callBoolean(
frame, key, "eql?", null, PackedArrayStrategy.getKey(store, i))) {
PackedArrayStrategy.setKey(store, i, key);
PackedArrayStrategy.setValue(store, i, value);
continue initializers;
}
}
PackedArrayStrategy.setHashedKeyValue(store, size, hashed, key, value);
size++;
}
return HashNodes.createHash(getContext().getCoreLibrary().getHashClass(), store, size);
}
@Override
public V put(K key, V value) {
HashNode<V> hashNode = new HashNode<V>(key.hashCode(), value);
int index = calculateHash(hashNode.getCode());
if (array[index] == null) array[index] = hashNode;
else {
HashNode<V> arrayNode = array[index];
while (arrayNode.getNext() != null) {
arrayNode = arrayNode.getNext();
}
arrayNode.setNext(hashNode);
}
return value;
}
public void inspect(Node node) {
if (RubyInstanceConfig.FULL_TRACE_ENABLED) {
disable();
// we still inspect since some nodes change state as a result (JRUBY-6836)
}
if (node == null) return;
switch (node.getNodeType()) {
case ALIASNODE:
setFlag(node, METHOD);
break;
case ANDNODE:
AndNode andNode = (AndNode) node;
inspect(andNode.getFirstNode());
inspect(andNode.getSecondNode());
break;
case ARGSCATNODE:
ArgsCatNode argsCatNode = (ArgsCatNode) node;
inspect(argsCatNode.getFirstNode());
inspect(argsCatNode.getSecondNode());
break;
case ARGSPUSHNODE:
ArgsPushNode argsPushNode = (ArgsPushNode) node;
inspect(argsPushNode.getFirstNode());
inspect(argsPushNode.getSecondNode());
break;
case ARGUMENTNODE:
break;
case ARRAYNODE:
case BLOCKNODE:
case DREGEXPNODE:
case DSTRNODE:
case DSYMBOLNODE:
case DXSTRNODE:
case LISTNODE:
ListNode listNode = (ListNode) node;
for (int i = 0; i < listNode.size(); i++) {
inspect(listNode.get(i));
}
break;
case ARGSNODE:
ArgsNode argsNode = (ArgsNode) node;
if (argsNode.getBlock() != null) setFlag(node, BLOCK_ARG);
if (argsNode.getOptArgs() != null) {
setFlag(node, OPT_ARGS);
inspect(argsNode.getOptArgs());
}
if (argsNode.getRestArg() == -2 || argsNode.getRestArg() >= 0) setFlag(node, REST_ARG);
break;
case ATTRASSIGNNODE:
AttrAssignNode attrAssignNode = (AttrAssignNode) node;
inspect(attrAssignNode.getArgsNode());
inspect(attrAssignNode.getReceiverNode());
break;
case BACKREFNODE:
setFlag(node, BACKREF);
break;
case BEGINNODE:
inspect(((BeginNode) node).getBodyNode());
break;
case BIGNUMNODE:
break;
case BINARYOPERATORNODE:
BinaryOperatorNode binaryOperatorNode = (BinaryOperatorNode) node;
inspect(binaryOperatorNode.getFirstNode());
inspect(binaryOperatorNode.getSecondNode());
break;
case BLOCKARGNODE:
break;
case BLOCKPASSNODE:
BlockPassNode blockPassNode = (BlockPassNode) node;
inspect(blockPassNode.getArgsNode());
inspect(blockPassNode.getBodyNode());
break;
case BREAKNODE:
inspect(((BreakNode) node).getValueNode());
break;
case CALLNODE:
CallNode callNode = (CallNode) node;
inspect(callNode.getReceiverNode());
// check for Proc.new, an especially magic method
if (callNode.getName() == "new"
&& callNode.getReceiverNode() instanceof ConstNode
&& ((ConstNode) callNode.getReceiverNode()).getName() == "Proc") {
// Proc.new needs the caller's block to instantiate a proc
setFlag(node, FRAME_BLOCK);
}
if (callNode.getArgsNode() == null && callNode.getIterNode() == null) {
switch (callNode.getReceiverNode().getNodeType()) {
// no unary methods on literal numbers, symbols, or strings have frame/scope effects
case FIXNUMNODE:
case FLOATNODE:
case BIGNUMNODE:
case STRNODE:
case SYMBOLNODE:
return;
}
}
case FCALLNODE:
inspect(((IArgumentNode) node).getArgsNode());
inspect(((BlockAcceptingNode) node).getIterNode());
case VCALLNODE:
INameNode nameNode = (INameNode) node;
if (FRAME_AWARE_METHODS.contains(nameNode.getName())) {
setFlag(node, FRAME_AWARE);
if (nameNode.getName().indexOf("eval") != -1) {
setFlag(node, EVAL);
}
}
if (SCOPE_AWARE_METHODS.contains(nameNode.getName())) {
setFlag(node, SCOPE_AWARE);
}
break;
case CASENODE:
CaseNode caseNode = (CaseNode) node;
inspect(caseNode.getCaseNode());
if (caseNode.getCases().size() > Options.COMPILE_OUTLINE_CASECOUNT.load()) {
// if more than N cases, disable; we'll compile them as separate bodies
// see BaseBodyCompiler#compiledSequencedConditional and ASTCompiler#compileCase
disable();
return;
} else {
for (Node when : caseNode.getCases().childNodes()) {
inspect(when);
}
inspect(caseNode.getElseNode());
}
break;
case CLASSNODE:
setFlag(node, CLASS);
ClassNode classNode = (ClassNode) node;
inspect(classNode.getCPath());
inspect(classNode.getSuperNode());
break;
case CLASSVARNODE:
setFlag(node, CLASS_VAR);
break;
case CONSTDECLNODE:
inspect(((AssignableNode) node).getValueNode());
setFlag(node, CONSTANT);
break;
case CLASSVARASGNNODE:
inspect(((AssignableNode) node).getValueNode());
setFlag(node, CLASS_VAR);
break;
case CLASSVARDECLNODE:
inspect(((AssignableNode) node).getValueNode());
setFlag(node, CLASS_VAR);
break;
case COLON2NODE:
inspect(((Colon2Node) node).getLeftNode());
break;
case COLON3NODE:
break;
case CONSTNODE:
setFlag(node, CONSTANT);
break;
case DEFNNODE:
case DEFSNODE:
setFlag(node, METHOD);
setFlag(node, FRAME_VISIBILITY);
setFlag(node, SCOPE_AWARE);
break;
case DEFINEDNODE:
switch (((DefinedNode) node).getExpressionNode().getNodeType()) {
case CLASSVARASGNNODE:
case CLASSVARDECLNODE:
case CONSTDECLNODE:
case DASGNNODE:
case GLOBALASGNNODE:
case LOCALASGNNODE:
case MULTIPLEASGNNODE:
case OPASGNNODE:
case OPELEMENTASGNNODE:
case DVARNODE:
case FALSENODE:
case TRUENODE:
case LOCALVARNODE:
case INSTVARNODE:
case BACKREFNODE:
case SELFNODE:
case VCALLNODE:
case YIELDNODE:
case GLOBALVARNODE:
case CONSTNODE:
case FCALLNODE:
case CLASSVARNODE:
// ok, we have fast paths
inspect(((DefinedNode) node).getExpressionNode());
break;
default:
// long, slow way causes disabling
// we still inspect because some nodes may change state (JRUBY-6836)
inspect(((DefinedNode) node).getExpressionNode());
disable();
}
break;
case DOTNODE:
DotNode dotNode = (DotNode) node;
inspect(dotNode.getBeginNode());
inspect(dotNode.getEndNode());
break;
case DASGNNODE:
inspect(((AssignableNode) node).getValueNode());
break;
case DVARNODE:
break;
case ENSURENODE:
inspect(((EnsureNode) node).getBodyNode());
inspect(((EnsureNode) node).getEnsureNode());
disable();
break;
case ENCODINGNODE:
break;
case EVSTRNODE:
inspect(((EvStrNode) node).getBody());
break;
case FALSENODE:
break;
case FIXNUMNODE:
break;
case FLIPNODE:
inspect(((FlipNode) node).getBeginNode());
inspect(((FlipNode) node).getEndNode());
break;
case FLOATNODE:
break;
case FORNODE:
setFlag(node, CLOSURE);
setFlag(node, SCOPE_AWARE);
inspect(((ForNode) node).getIterNode());
inspect(((ForNode) node).getBodyNode());
inspect(((ForNode) node).getVarNode());
break;
case GLOBALASGNNODE:
GlobalAsgnNode globalAsgnNode = (GlobalAsgnNode) node;
if (globalAsgnNode.getName().equals("$_")) {
setFlag(node, LASTLINE);
} else if (globalAsgnNode.getName().equals("$~")) {
setFlag(node, BACKREF);
}
inspect(globalAsgnNode.getValueNode());
break;
case GLOBALVARNODE:
{
String name = ((GlobalVarNode) node).getName();
if (name.equals("$_") || name.equals("$LAST_READ_LINE")) {
setFlag(node, LASTLINE);
} else if (name.equals("$~")
|| name.equals("$`")
|| name.equals("$'")
|| name.equals("$+")
|| name.equals("$LAST_MATCH_INFO")
|| name.equals("$PREMATCH")
|| name.equals("$POSTMATCH")
|| name.equals("$LAST_PAREN_MATCH")) {
setFlag(node, BACKREF);
}
break;
}
case HASHNODE:
HashNode hashNode = (HashNode) node;
inspect(hashNode.getListNode());
break;
case IFNODE:
IfNode ifNode = (IfNode) node;
inspect(ifNode.getCondition());
inspect(ifNode.getThenBody());
inspect(ifNode.getElseBody());
break;
case INSTASGNNODE:
inspect(((AssignableNode) node).getValueNode());
break;
case INSTVARNODE:
break;
case ISCOPINGNODE:
IScopingNode iscopingNode = (IScopingNode) node;
inspect(iscopingNode.getCPath());
break;
case ITERNODE:
setFlag(node, CLOSURE);
break;
case LAMBDANODE:
setFlag(node, CLOSURE);
break;
case LOCALASGNNODE:
LocalAsgnNode localAsgnNode = (LocalAsgnNode) node;
if (PRAGMAS.contains(localAsgnNode.getName())) {
if (localAsgnNode.getName().equals("__NOFRAME__")) {
noFrame = localAsgnNode.getValueNode() instanceof TrueNode;
}
break;
}
inspect(localAsgnNode.getValueNode());
break;
case LOCALVARNODE:
break;
case MATCHNODE:
inspect(((MatchNode) node).getRegexpNode());
setFlag(node, BACKREF);
break;
case MATCH2NODE:
Match2Node match2Node = (Match2Node) node;
inspect(match2Node.getReceiverNode());
inspect(match2Node.getValueNode());
setFlag(node, BACKREF);
if (match2Node instanceof Match2CaptureNode) {
// additionally need scope, to set local vars
// FIXME: this can be done without heap scope
setFlag(node, SCOPE_AWARE);
}
break;
case MATCH3NODE:
Match3Node match3Node = (Match3Node) node;
inspect(match3Node.getReceiverNode());
inspect(match3Node.getValueNode());
setFlag(node, BACKREF);
break;
case MODULENODE:
setFlag(node, CLASS);
inspect(((ModuleNode) node).getCPath());
break;
case MULTIPLEASGN19NODE:
MultipleAsgn19Node multipleAsgn19Node = (MultipleAsgn19Node) node;
inspect(multipleAsgn19Node.getPre());
inspect(multipleAsgn19Node.getPost());
inspect(multipleAsgn19Node.getRest());
inspect(multipleAsgn19Node.getValueNode());
break;
case MULTIPLEASGNNODE:
MultipleAsgnNode multipleAsgnNode = (MultipleAsgnNode) node;
inspect(multipleAsgnNode.getArgsNode());
inspect(multipleAsgnNode.getHeadNode());
inspect(multipleAsgnNode.getValueNode());
break;
case NEWLINENODE:
inspect(((NewlineNode) node).getNextNode());
break;
case NEXTNODE:
inspect(((NextNode) node).getValueNode());
break;
case NILNODE:
break;
case NOTNODE:
inspect(((NotNode) node).getConditionNode());
break;
case NTHREFNODE:
break;
case OPASGNANDNODE:
OpAsgnAndNode opAsgnAndNode = (OpAsgnAndNode) node;
inspect(opAsgnAndNode.getFirstNode());
inspect(opAsgnAndNode.getSecondNode());
break;
case OPASGNNODE:
OpAsgnNode opAsgnNode = (OpAsgnNode) node;
inspect(opAsgnNode.getReceiverNode());
inspect(opAsgnNode.getValueNode());
break;
case OPASGNORNODE:
switch (((OpAsgnOrNode) node).getFirstNode().getNodeType()) {
case CLASSVARASGNNODE:
case CLASSVARDECLNODE:
case CONSTDECLNODE:
case DASGNNODE:
case GLOBALASGNNODE:
case LOCALASGNNODE:
case MULTIPLEASGNNODE:
case OPASGNNODE:
case OPELEMENTASGNNODE:
case DVARNODE:
case FALSENODE:
case TRUENODE:
case LOCALVARNODE:
case INSTVARNODE:
case BACKREFNODE:
case SELFNODE:
case VCALLNODE:
case YIELDNODE:
case GLOBALVARNODE:
case CONSTNODE:
case FCALLNODE:
case CLASSVARNODE:
// ok, we have fast paths
inspect(((OpAsgnOrNode) node).getSecondNode());
break;
default:
// long, slow way causes disabling for defined
inspect(((OpAsgnOrNode) node).getFirstNode());
inspect(((OpAsgnOrNode) node).getSecondNode());
disable();
}
break;
case OPELEMENTASGNNODE:
OpElementAsgnNode opElementAsgnNode = (OpElementAsgnNode) node;
inspect(opElementAsgnNode.getArgsNode());
inspect(opElementAsgnNode.getReceiverNode());
inspect(opElementAsgnNode.getValueNode());
break;
case OPTARGNODE:
inspect(((OptArgNode) node).getValue());
break;
case ORNODE:
OrNode orNode = (OrNode) node;
inspect(orNode.getFirstNode());
inspect(orNode.getSecondNode());
break;
case POSTEXENODE:
PostExeNode postExeNode = (PostExeNode) node;
setFlag(node, CLOSURE);
setFlag(node, SCOPE_AWARE);
inspect(postExeNode.getBodyNode());
inspect(postExeNode.getVarNode());
break;
case PREEXENODE:
PreExeNode preExeNode = (PreExeNode) node;
setFlag(node, CLOSURE);
setFlag(node, SCOPE_AWARE);
inspect(preExeNode.getBodyNode());
inspect(preExeNode.getVarNode());
break;
case REDONODE:
break;
case REGEXPNODE:
break;
case ROOTNODE:
inspect(((RootNode) node).getBodyNode());
if (((RootNode) node).getBodyNode() instanceof BlockNode) {
BlockNode blockNode = (BlockNode) ((RootNode) node).getBodyNode();
if (blockNode.size() > 500) {
// method has more than 500 lines; we'll need to split it
// and therefore need to use a heap-based scope
setFlag(node, SCOPE_AWARE);
}
}
break;
case RESCUEBODYNODE:
RescueBodyNode rescueBody = (RescueBodyNode) node;
inspect(rescueBody.getExceptionNodes());
inspect(rescueBody.getBodyNode());
inspect(rescueBody.getOptRescueNode());
break;
case RESCUENODE:
RescueNode rescueNode = (RescueNode) node;
inspect(rescueNode.getBodyNode());
inspect(rescueNode.getElseNode());
inspect(rescueNode.getRescueNode());
disable();
break;
case RETRYNODE:
setFlag(node, RETRY);
break;
case RETURNNODE:
inspect(((ReturnNode) node).getValueNode());
break;
case SCLASSNODE:
setFlag(node, CLASS);
setFlag(node, FRAME_AWARE);
SClassNode sclassNode = (SClassNode) node;
inspect(sclassNode.getReceiverNode());
break;
case SCOPENODE:
break;
case SELFNODE:
break;
case SPLATNODE:
inspect(((SplatNode) node).getValue());
break;
case STARNODE:
break;
case STRNODE:
break;
case SUPERNODE:
SuperNode superNode = (SuperNode) node;
inspect(superNode.getArgsNode());
inspect(superNode.getIterNode());
setFlag(node, SUPER);
break;
case SVALUENODE:
inspect(((SValueNode) node).getValue());
break;
case SYMBOLNODE:
break;
case TOARYNODE:
inspect(((ToAryNode) node).getValue());
break;
case TRUENODE:
break;
case UNDEFNODE:
setFlag(node, METHOD);
break;
case UNTILNODE:
UntilNode untilNode = (UntilNode) node;
ASTInspector untilInspector =
subInspect(untilNode.getConditionNode(), untilNode.getBodyNode());
// a while node could receive non-local flow control from any of these:
// * a closure within the loop
// * an eval within the loop
// * a block-arg-based proc called within the loop
if (untilInspector.getFlag(CLOSURE) || untilInspector.getFlag(EVAL)) {
untilNode.containsNonlocalFlow = true;
// we set scope-aware to true to force heap-based locals
setFlag(node, SCOPE_AWARE);
}
integrate(untilInspector);
break;
case VALIASNODE:
break;
case WHENNODE:
{
inspect(((WhenNode) node).getBodyNode());
inspect(((WhenNode) node).getExpressionNodes());
inspect(((WhenNode) node).getNextCase());
// if any elements are not literals or are regexp, set backref
Node expr = ((WhenNode) node).getExpressionNodes();
if (!(expr instanceof ILiteralNode) || expr.getNodeType() == NodeType.REGEXPNODE) {
setFlag(node, BACKREF);
}
break;
}
case WHILENODE:
WhileNode whileNode = (WhileNode) node;
ASTInspector whileInspector =
subInspect(whileNode.getConditionNode(), whileNode.getBodyNode());
// a while node could receive non-local flow control from any of these:
// * a closure within the loop
// * an eval within the loop
// * a block-arg-based proc called within the loop
// * any case that disables optimization, like rescues and ensures
if (whileInspector.getFlag(CLOSURE) || whileInspector.getFlag(EVAL) || getFlag(BLOCK_ARG)) {
whileNode.containsNonlocalFlow = true;
// we set scope-aware to true to force heap-based locals
setFlag(node, SCOPE_AWARE);
}
integrate(whileInspector);
break;
case XSTRNODE:
break;
case YIELDNODE:
inspect(((YieldNode) node).getArgsNode());
break;
case ZARRAYNODE:
break;
case ZEROARGNODE:
break;
case ZSUPERNODE:
setFlag(node, SCOPE_AWARE);
setFlag(node, ZSUPER);
inspect(((ZSuperNode) node).getIterNode());
break;
default:
// encountered a node we don't recognize, set everything to true to disable optz
assert false : "All nodes should be accounted for in AST inspector: " + node;
disable();
}
}
// consider refactoring signature to return PotentialMatch object with fields set...
int findMatch(int index, int[] distOut, int[] gainOut, int[] costPerByteOut) {
final int maxCostCacheLength = 32;
int[] literalCostCache = new int[maxCostCacheLength + 1];
int maxIndexMinusIndex = buf.length - index;
int bestLength = 0;
int bestDist = 0;
int bestGain = 0;
int bestCopyCost = 0;
int maxComputedLength = 0;
if (maxIndexMinusIndex > 1) {
int pos = ((buf[index] & 0xff) << 8) | (buf[index + 1] & 0xff);
HashNode prevNode = null;
int hNodeCount = 0;
for (HashNode hNode = hashTable[pos]; hNode != null; prevNode = hNode, hNode = hNode.next) {
int i = hNode.index;
int dist = index - i;
hNodeCount++;
if (hNodeCount > 256 || dist > maxCopyDist) {
if (hashTable[pos] == hNode) {
hashTable[pos] = null;
} else {
prevNode.next = null;
}
break;
}
int maxLen = index - i;
if (maxIndexMinusIndex < maxLen) {
maxLen = maxIndexMinusIndex;
}
if (maxLen < LEN_MIN) {
continue;
}
i += 2;
int length = 2;
for (length = 2; length < maxLen && buf[i] == buf[index + length]; length++) {
i++;
}
if (length < LEN_MIN) {
continue;
}
dist = dist - length + 1;
if (dist > distMax || (length == 2 && dist >= MAX_2BYTE_DIST)) {
continue;
}
if (length <= bestLength && dist > bestDist) {
if (length <= bestLength - 2) {
continue;
}
if (dist > (bestDist << DIST_WIDTH)) {
if (length < bestLength || dist > (bestDist << (DIST_WIDTH + 1))) {
continue;
}
}
}
int literalCost = 0;
if (length > maxComputedLength) {
int limit = length;
if (limit > maxCostCacheLength) limit = maxCostCacheLength;
for (i = maxComputedLength; i < limit; i++) {
byte c = buf[index + i];
literalCostCache[i + 1] = literalCostCache[i] + symEncoder.writeSymbolCost(c & 0xff);
}
maxComputedLength = limit;
if (length > maxCostCacheLength) {
literalCost = literalCostCache[maxCostCacheLength];
literalCost += literalCost / maxCostCacheLength * (length - maxCostCacheLength);
} else {
literalCost = literalCostCache[length];
}
} else {
literalCost = literalCostCache[length];
}
if (literalCost > bestGain) {
int distRanges = getNumDistRanges(dist);
int copyCost = encodeLengthCost(length, dist, distRanges);
if (literalCost - copyCost - (distRanges << 16) > bestGain) {
copyCost += encodeDistance2Cost(dist, distRanges);
int gain = literalCost - copyCost;
if (gain > bestGain) {
bestGain = gain;
bestLength = length;
bestDist = dist;
bestCopyCost = copyCost;
}
}
}
}
}
costPerByteOut[0] = bestLength > 0 ? bestCopyCost / bestLength : 0;
distOut[0] = bestDist;
gainOut[0] = bestGain;
return bestLength;
}
