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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
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* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
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*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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*
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package jdk.nashorn.internal.codegen;
import static jdk.nashorn.internal.codegen.CompilerConstants.SPLIT_PREFIX;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import jdk.nashorn.internal.ir.Block;
import jdk.nashorn.internal.ir.FunctionNode;
import jdk.nashorn.internal.ir.LiteralNode;
import jdk.nashorn.internal.ir.LiteralNode.ArrayLiteralNode;
import jdk.nashorn.internal.ir.Node;
import jdk.nashorn.internal.ir.ObjectNode;
import jdk.nashorn.internal.ir.PropertyNode;
import jdk.nashorn.internal.ir.SplitNode;
import jdk.nashorn.internal.ir.Splittable;
import jdk.nashorn.internal.ir.Statement;
import jdk.nashorn.internal.ir.VarNode;
import jdk.nashorn.internal.ir.visitor.SimpleNodeVisitor;
import jdk.nashorn.internal.runtime.Context;
import jdk.nashorn.internal.runtime.logging.DebugLogger;
import jdk.nashorn.internal.runtime.logging.Loggable;
import jdk.nashorn.internal.runtime.logging.Logger;
import jdk.nashorn.internal.runtime.options.Options;
/**
* Split the IR into smaller compile units.
*/
@Logger(name="splitter")
final class Splitter extends SimpleNodeVisitor implements Loggable {
/** Current compiler. */
private final Compiler compiler;
/** IR to be broken down. */
private final FunctionNode outermost;
/** Compile unit for the main script. */
private final CompileUnit outermostCompileUnit;
/** Cache for calculated block weights. */
private final Map<Node, Long> weightCache = new HashMap<>();
/** Weight threshold for when to start a split. */
public static final long SPLIT_THRESHOLD = Options.getIntProperty("nashorn.compiler.splitter.threshold", 32 * 1024);
private final DebugLogger log;
/**
* Constructor.
*
* @param compiler the compiler
* @param functionNode function node to split
* @param outermostCompileUnit compile unit for outermost function, if non-lazy this is the script's compile unit
*/
public Splitter(final Compiler compiler, final FunctionNode functionNode, final CompileUnit outermostCompileUnit) {
this.compiler = compiler;
this.outermost = functionNode;
this.outermostCompileUnit = outermostCompileUnit;
this.log = initLogger(compiler.getContext());
}
@Override
public DebugLogger initLogger(final Context context) {
return context.getLogger(this.getClass());
}
@Override
public DebugLogger getLogger() {
return log;
}
/**
* Execute the split.
* @param fn the function to split
* @param top whether this is the topmost compiled function (it's either a program, or we're doing a recompilation).
*/
FunctionNode split(final FunctionNode fn, final boolean top) {
FunctionNode functionNode = fn;
log.fine("Initiating split of '", functionNode.getName(), "'");
long weight = WeighNodes.weigh(functionNode);
// We know that our LexicalContext is empty outside the call to functionNode.accept(this) below,
// so we can pass null to all methods expecting a LexicalContext parameter.
assert lc.isEmpty() : "LexicalContext not empty";
if (weight >= SPLIT_THRESHOLD) {
log.info("Splitting function '", functionNode.getName(), "' as its weight ", weight, " exceeds split threshold ", SPLIT_THRESHOLD);
functionNode = (FunctionNode)functionNode.accept(this);
if (functionNode.isSplit()) {
// Weight has changed so weigh again, this time using block weight cache
weight = WeighNodes.weigh(functionNode, weightCache);
functionNode = functionNode.setBody(null, functionNode.getBody().setNeedsScope(null));
}
if (weight >= SPLIT_THRESHOLD) {
functionNode = functionNode.setBody(null, splitBlock(functionNode.getBody(), functionNode));
functionNode = functionNode.setFlag(null, FunctionNode.IS_SPLIT);
weight = WeighNodes.weigh(functionNode.getBody(), weightCache);
}
}
assert functionNode.getCompileUnit() == null : "compile unit already set for " + functionNode.getName();
if (top) {
assert outermostCompileUnit != null : "outermost compile unit is null";
functionNode = functionNode.setCompileUnit(null, outermostCompileUnit);
outermostCompileUnit.addWeight(weight + WeighNodes.FUNCTION_WEIGHT);
} else {
functionNode = functionNode.setCompileUnit(null, findUnit(weight));
}
final Block body = functionNode.getBody();
final List<FunctionNode> dc = directChildren(functionNode);
final Block newBody = (Block)body.accept(new SimpleNodeVisitor() {
@Override
public boolean enterFunctionNode(final FunctionNode nestedFunction) {
return dc.contains(nestedFunction);
}
@Override
public Node leaveFunctionNode(final FunctionNode nestedFunction) {
final FunctionNode split = new Splitter(compiler, nestedFunction, outermostCompileUnit).split(nestedFunction, false);
lc.replace(nestedFunction, split);
return split;
}
});
functionNode = functionNode.setBody(null, newBody);
assert functionNode.getCompileUnit() != null;
return functionNode;
}
private static List<FunctionNode> directChildren(final FunctionNode functionNode) {
final List<FunctionNode> dc = new ArrayList<>();
functionNode.accept(new SimpleNodeVisitor() {
@Override
public boolean enterFunctionNode(final FunctionNode child) {
if (child == functionNode) {
return true;
}
if (lc.getParentFunction(child) == functionNode) {
dc.add(child);
}
return false;
}
});
return dc;
}
/**
* Override this logic to look up compile units in a different way
* @param weight weight needed
* @return compile unit
*/
protected CompileUnit findUnit(final long weight) {
return compiler.findUnit(weight);
}
/**
* Split a block into sub methods.
*
* @param block Block or function to split.
*
* @return new weight for the resulting block.
*/
private Block splitBlock(final Block block, final FunctionNode function) {
final List<Statement> splits = new ArrayList<>();
List<Statement> statements = new ArrayList<>();
long statementsWeight = 0;
for (final Statement statement : block.getStatements()) {
final long weight = WeighNodes.weigh(statement, weightCache);
final boolean isBlockScopedVarNode = isBlockScopedVarNode(statement);
if (statementsWeight + weight >= SPLIT_THRESHOLD || statement.isTerminal() || isBlockScopedVarNode) {
if (!statements.isEmpty()) {
splits.add(createBlockSplitNode(block, function, statements, statementsWeight));
statements = new ArrayList<>();
statementsWeight = 0;
}
}
if (statement.isTerminal() || isBlockScopedVarNode) {
splits.add(statement);
} else {
statements.add(statement);
statementsWeight += weight;
}
}
if (!statements.isEmpty()) {
splits.add(createBlockSplitNode(block, function, statements, statementsWeight));
}
return block.setStatements(lc, splits);
}
/**
* Create a new split node from statements contained in a parent block.
*
* @param parent Parent block.
* @param statements Statements to include.
*
* @return New split node.
*/
private SplitNode createBlockSplitNode(final Block parent, final FunctionNode function, final List<Statement> statements, final long weight) {
final long token = parent.getToken();
final int finish = parent.getFinish();
final String name = function.uniqueName(SPLIT_PREFIX.symbolName());
final Block newBlock = new Block(token, finish, statements);
return new SplitNode(name, newBlock, compiler.findUnit(weight + WeighNodes.FUNCTION_WEIGHT));
}
private boolean isBlockScopedVarNode(final Statement statement) {
return statement instanceof VarNode && ((VarNode) statement).isBlockScoped();
}
@Override
public boolean enterBlock(final Block block) {
if (block.isCatchBlock()) {
return false;
}
final long weight = WeighNodes.weigh(block, weightCache);
if (weight < SPLIT_THRESHOLD) {
weightCache.put(block, weight);
return false;
}
return true;
}
@Override
public Node leaveBlock(final Block block) {
assert !block.isCatchBlock();
Block newBlock = block;
// Block was heavier than SLIT_THRESHOLD in enter, but a sub-block may have
// been split already, so weigh again before splitting.
long weight = WeighNodes.weigh(block, weightCache);
if (weight >= SPLIT_THRESHOLD) {
final FunctionNode currentFunction = lc.getCurrentFunction();
newBlock = splitBlock(block, currentFunction);
weight = WeighNodes.weigh(newBlock, weightCache);
lc.setFlag(currentFunction, FunctionNode.IS_SPLIT);
}
weightCache.put(newBlock, weight);
return newBlock;
}
@SuppressWarnings("rawtypes")
@Override
public Node leaveLiteralNode(final LiteralNode literal) {
final long weight = WeighNodes.weigh(literal);
if (weight < SPLIT_THRESHOLD) {
return literal;
}
final FunctionNode functionNode = lc.getCurrentFunction();
lc.setFlag(functionNode, FunctionNode.IS_SPLIT);
if (literal instanceof ArrayLiteralNode) {
final ArrayLiteralNode arrayLiteralNode = (ArrayLiteralNode) literal;
final Node[] value = arrayLiteralNode.getValue();
final int[] postsets = arrayLiteralNode.getPostsets();
final List<Splittable.SplitRange> ranges = new ArrayList<>();
long totalWeight = 0;
int lo = 0;
for (int i = 0; i < postsets.length; i++) {
final int postset = postsets[i];
final Node element = value[postset];
final long elementWeight = WeighNodes.weigh(element);
totalWeight += WeighNodes.AASTORE_WEIGHT + elementWeight;
if (totalWeight >= SPLIT_THRESHOLD) {
final CompileUnit unit = compiler.findUnit(totalWeight - elementWeight);
ranges.add(new Splittable.SplitRange(unit, lo, i));
lo = i;
totalWeight = elementWeight;
}
}
if (lo != postsets.length) {
final CompileUnit unit = compiler.findUnit(totalWeight);
ranges.add(new Splittable.SplitRange(unit, lo, postsets.length));
}
log.info("Splitting array literal in '", functionNode.getName(), "' as its weight ", weight, " exceeds split threshold ", SPLIT_THRESHOLD);
return arrayLiteralNode.setSplitRanges(lc, ranges);
}
return literal;
}
@Override
public Node leaveObjectNode(final ObjectNode objectNode) {
final long weight = WeighNodes.weigh(objectNode);
if (weight < SPLIT_THRESHOLD) {
return objectNode;
}
final FunctionNode functionNode = lc.getCurrentFunction();
lc.setFlag(functionNode, FunctionNode.IS_SPLIT);
final List<Splittable.SplitRange> ranges = new ArrayList<>();
final List<PropertyNode> properties = objectNode.getElements();
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