/*******************************************************************************
- * Copyright (c) 2011-2012 Ericsson, Ecole Polytechnique de Montreal and others
+ * Copyright (c) 2011, 2013 Ericsson, Ecole Polytechnique de Montreal and others
*
* All rights reserved. This program and the accompanying materials are made
* available under the terms of the Eclipse Public License v1.0 which
* accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
- * Contributors: Matthew Khouzam - Initial Design and Grammar
- * Contributors: Francis Giraldeau - Initial API and implementation
+ * Contributors:
+ * Matthew Khouzam - Initial Design and Grammar
+ * Francis Giraldeau - Initial API and implementation
+ * Simon Marchi - Initial API and implementation
*******************************************************************************/
package org.eclipse.linuxtools.internal.ctf.core.event.metadata;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.UnsupportedEncodingException;
+import java.math.BigInteger;
import java.nio.ByteOrder;
import java.util.ArrayList;
import java.util.Collections;
import java.util.UUID;
import org.antlr.runtime.tree.CommonTree;
+import org.eclipse.core.runtime.IStatus;
import org.eclipse.linuxtools.ctf.core.event.CTFClock;
-import org.eclipse.linuxtools.ctf.core.event.EventDeclaration;
import org.eclipse.linuxtools.ctf.core.event.types.ArrayDeclaration;
import org.eclipse.linuxtools.ctf.core.event.types.Encoding;
import org.eclipse.linuxtools.ctf.core.event.types.EnumDeclaration;
import org.eclipse.linuxtools.ctf.core.event.types.StructDeclaration;
import org.eclipse.linuxtools.ctf.core.event.types.VariantDeclaration;
import org.eclipse.linuxtools.ctf.core.trace.CTFTrace;
+import org.eclipse.linuxtools.ctf.core.trace.Stream;
import org.eclipse.linuxtools.ctf.parser.CTFParser;
+import org.eclipse.linuxtools.internal.ctf.core.Activator;
+import org.eclipse.linuxtools.internal.ctf.core.event.EventDeclaration;
import org.eclipse.linuxtools.internal.ctf.core.event.metadata.exceptions.ParseException;
-import org.eclipse.linuxtools.internal.ctf.core.trace.Stream;
-/*
- * Asserts throughout this class denote the assumptions we can make because of
- * the way the grammar generates the AST.
- *
- * There is also an assert at the beginning of each function that receives a
- * tree node to make sure that the node is indeed of the type the function is
- * expecting.
- */
/**
* IOStructGen
*/
// Attributes
// ------------------------------------------------------------------------
- static private final boolean DEBUG_ = false;
+ private static final boolean DEBUG = false;
/**
* The trace
// ------------------------------------------------------------------------
/**
- * Constuctor
+ * Constructor
*
* @param tree
* the tree (ANTLR generated) with the parsed TSDL data.
* @throws ParseException
*/
private void parseRoot(CommonTree root) throws ParseException {
- assert (root.getType() == CTFParser.ROOT);
List<CommonTree> children = root.getChildren();
- assert (children != null);
java.io.FileOutputStream fos = null;
java.io.OutputStreamWriter out = null;
- if (DEBUG_) {
+ if (DEBUG) {
try {
fos = new java.io.FileOutputStream("/tmp/astInfo.txt"); //$NON-NLS-1$
out = new java.io.OutputStreamWriter(fos, "UTF-8"); //$NON-NLS-1$
List<CommonTree> declarations = new ArrayList<CommonTree>();
List<CommonTree> environments = new ArrayList<CommonTree>();
List<CommonTree> clocks = new ArrayList<CommonTree>();
+ List<CommonTree> callsites = new ArrayList<CommonTree>();
/* Create a new declaration scope with no parent. */
pushScope();
try {
for (CommonTree child : children) {
- if (DEBUG_) {
+ final int type = child.getType();
+ if (DEBUG) {
out.write(child.toString()
- + " -> " + child.getType() + '\n'); //$NON-NLS-1$
+ + " -> " + type + '\n'); //$NON-NLS-1$
}
- switch (child.getType()) {
+ switch (type) {
case CTFParser.DECLARATION:
declarations.add(child);
break;
case CTFParser.ENV:
environments.add(child);
break;
+ case CTFParser.CALLSITE:
+ callsites.add(child);
+ break;
default:
childTypeError(child);
}
}
- if (DEBUG_) {
+ if (DEBUG) {
out.write("Declarations\n"); //$NON-NLS-1$
}
for (CommonTree decl : declarations) {
- if (DEBUG_) {
+ if (DEBUG) {
out.write(decl.toString() + '\n');
}
parseRootDeclaration(decl);
parseTrace(traceNode);
- if (DEBUG_) {
+ if (DEBUG) {
out.write("Environments\n"); //$NON-NLS-1$
}
for (CommonTree environment : environments) {
parseEnvironment(environment);
}
- if (DEBUG_) {
+ if (DEBUG) {
out.write("Clocks\n"); //$NON-NLS-1$
}
for (CommonTree clock : clocks) {
parseClock(clock);
}
+ if (DEBUG) {
+ out.write("Callsites\n"); //$NON-NLS-1$
+ }
+ for (CommonTree callsite : callsites) {
+ parseCallsite(callsite);
+ }
- if (DEBUG_) {
+ if (DEBUG) {
out.write("Streams\n"); //$NON-NLS-1$
}
if (streams.size() > 0) {
for (CommonTree stream : streams) {
- if (DEBUG_) {
+ if (DEBUG) {
try {
out.write(stream.toString() + '\n');
} catch (IOException e) {
trace.addStream(new Stream(trace));
}
- if (DEBUG_) {
+ if (DEBUG) {
out.write("Events\n"); //$NON-NLS-1$
}
for (CommonTree event : events) {
parseEvent(event);
- if (DEBUG_) {
+ if (DEBUG) {
CommonTree name = (CommonTree) event.getChild(0).getChild(1).getChild(0).getChild(0);
CommonTree id = (CommonTree) event.getChild(1).getChild(1).getChild(0).getChild(0);
out.write("Name = " + name + " Id = " + id + '\n'); //$NON-NLS-1$ //$NON-NLS-2$
}
}
- if (DEBUG_) {
+ if (DEBUG) {
out.close();
fos.close();
}
popScope();
}
+ private void parseCallsite(CommonTree callsite) {
+
+ List<CommonTree> children = callsite.getChildren();
+ String name = null;
+ String funcName = null;
+ long lineNumber = -1;
+ long ip = -1;
+ String fileName = null;
+
+ for (CommonTree child : children) {
+ String left;
+ /* this is a regex to find the leading and trailing quotes */
+ final String regex = "^\"|\"$"; //$NON-NLS-1$
+ /* this is to replace the previous quotes with nothing... effectively deleting them */
+ final String nullString = ""; //$NON-NLS-1$
+ left = child.getChild(0).getChild(0).getChild(0).getText();
+ if (left.equals("name")) { //$NON-NLS-1$
+ name = child.getChild(1).getChild(0).getChild(0).getText().replaceAll(regex, nullString);
+ } else if (left.equals("func")) { //$NON-NLS-1$
+ funcName = child.getChild(1).getChild(0).getChild(0).getText().replaceAll(regex, nullString);
+ } else if (left.equals("ip")) { //$NON-NLS-1$
+ ip = Long.parseLong(child.getChild(1).getChild(0).getChild(0).getText().substring(2), 16); // trim the 0x
+ } else if (left.equals("file")) { //$NON-NLS-1$
+ fileName = child.getChild(1).getChild(0).getChild(0).getText().replaceAll(regex, nullString);
+ } else if (left.equals("line")) { //$NON-NLS-1$
+ lineNumber = Long.parseLong(child.getChild(1).getChild(0).getChild(0).getText());
+ }
+ }
+ trace.addCallsite(name, funcName, ip,fileName, lineNumber);
+ }
+
private void parseEnvironment(CommonTree environment) {
List<CommonTree> children = environment.getChildren();
for (CommonTree child : children) {
}
}
- String NameValue = ctfClock.getName();
- trace.addClock(NameValue, ctfClock);
+ String nameValue = ctfClock.getName();
+ trace.addClock(nameValue, ctfClock);
}
private void parseTrace(CommonTree traceNode) throws ParseException {
- assert (traceNode.getType() == CTFParser.TRACE);
List<CommonTree> children = traceNode.getChildren();
if (children == null) {
private void parseTraceDeclaration(CommonTree traceDecl)
throws ParseException {
- assert ((traceDecl.getType() == CTFParser.CTF_EXPRESSION_TYPE) ||
- (traceDecl.getType() == CTFParser.CTF_EXPRESSION_VAL));
/* There should be a left and right */
- assert (traceDecl.getChildCount() == 2);
CommonTree leftNode = (CommonTree) traceDecl.getChild(0);
- assert (leftNode.getType() == CTFParser.CTF_LEFT);
CommonTree rightNode = (CommonTree) traceDecl.getChild(1);
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
List<CommonTree> leftStrings = leftNode.getChildren();
- assert (leftStrings != null);
- if (!isUnaryString(leftStrings.get(0))) {
+ if (!isAnyUnaryString(leftStrings.get(0))) {
throw new ParseException(
"Left side of CTF assignment must be a string"); //$NON-NLS-1$
}
String left = concatenateUnaryStrings(leftStrings);
- if (left.equals(CTFStrings.MAJOR)) {
- if (trace.majortIsSet()) {
+ if (left.equals(MetadataStrings.MAJOR)) {
+ if (trace.majorIsSet()) {
throw new ParseException("major is already set"); //$NON-NLS-1$
}
trace.setMajor(getMajorOrMinor(rightNode));
- } else if (left.equals(CTFStrings.MINOR)) {
+ } else if (left.equals(MetadataStrings.MINOR)) {
if (trace.minorIsSet()) {
throw new ParseException("minor is already set"); //$NON-NLS-1$
}
trace.setMinor(getMajorOrMinor(rightNode));
- } else if (left.equals(CTFStrings.UUID_STRING)) {
+ } else if (left.equals(MetadataStrings.UUID_STRING)) {
UUID uuid = getUUID(rightNode);
/*
* If uuid was already set by a metadata packet, compare it to see
* if it matches
*/
- if (trace.UUIDIsSet()) {
+ if (trace.uuidIsSet()) {
if (trace.getUUID().compareTo(uuid) != 0) {
throw new ParseException("UUID mismatch. Packet says " //$NON-NLS-1$
+ trace.getUUID() + " but metadata says " + uuid); //$NON-NLS-1$
trace.setUUID(uuid);
}
- } else if (left.equals(CTFStrings.BYTE_ORDER)) {
+ } else if (left.equals(MetadataStrings.BYTE_ORDER)) {
ByteOrder byteOrder = getByteOrder(rightNode);
/*
}
}
}
- } else if (left.equals(CTFStrings.PACKET_HEADER)) {
+ } else if (left.equals(MetadataStrings.PACKET_HEADER)) {
if (trace.packetHeaderIsSet()) {
throw new ParseException("packet.header already defined"); //$NON-NLS-1$
}
trace.setPacketHeader((StructDeclaration) packetHeaderDecl);
} else {
- throw new ParseException("Unknown trace attribute : " + left); //$NON-NLS-1$
+ Activator.log(IStatus.WARNING, Messages.IOStructGen_UnknownTraceAttributeWarning + " " + left); //$NON-NLS-1$
}
}
}
private void parseStream(CommonTree streamNode) throws ParseException {
- assert (streamNode.getType() == CTFParser.STREAM);
Stream stream = new Stream(trace);
if (stream.isIdSet()) {
if (!trace.packetHeaderIsSet()
- || !trace.getPacketHeader().hasField(CTFStrings.STREAM_ID)) {
+ || !trace.getPacketHeader().hasField(MetadataStrings.STREAM_ID)) {
throw new ParseException(
"Stream has an ID, but there is no stream_id field in packet header."); //$NON-NLS-1$
}
private void parseStreamDeclaration(CommonTree streamDecl, Stream stream)
throws ParseException {
- assert ((streamDecl.getType() == CTFParser.CTF_EXPRESSION_TYPE) || (streamDecl.getType() == CTFParser.CTF_EXPRESSION_VAL));
/* There should be a left and right */
- assert (streamDecl.getChildCount() == 2);
CommonTree leftNode = (CommonTree) streamDecl.getChild(0);
- assert (leftNode.getType() == CTFParser.CTF_LEFT);
CommonTree rightNode = (CommonTree) streamDecl.getChild(1);
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
List<CommonTree> leftStrings = leftNode.getChildren();
- assert (leftStrings != null);
- if (!isUnaryString(leftStrings.get(0))) {
+ if (!isAnyUnaryString(leftStrings.get(0))) {
throw new ParseException(
"Left side of CTF assignment must be a string"); //$NON-NLS-1$
}
String left = concatenateUnaryStrings(leftStrings);
- if (left.equals(CTFStrings.ID)) {
+ if (left.equals(MetadataStrings.ID)) {
if (stream.isIdSet()) {
throw new ParseException("stream id already defined"); //$NON-NLS-1$
}
long streamID = getStreamID(rightNode);
stream.setId(streamID);
- } else if (left.equals(CTFStrings.EVENT_HEADER)) {
+ } else if (left.equals(MetadataStrings.EVENT_HEADER)) {
if (stream.isEventHeaderSet()) {
throw new ParseException("event.header already defined"); //$NON-NLS-1$
}
}
stream.setEventHeader((StructDeclaration) eventHeaderDecl);
- } else if (left.equals(CTFStrings.EVENT_CONTEXT)) {
+ } else if (left.equals(MetadataStrings.EVENT_CONTEXT)) {
if (stream.isEventContextSet()) {
throw new ParseException("event.context already defined"); //$NON-NLS-1$
}
}
stream.setEventContext((StructDeclaration) eventContextDecl);
- } else if (left.equals(CTFStrings.PACKET_CONTEXT)) {
+ } else if (left.equals(MetadataStrings.PACKET_CONTEXT)) {
if (stream.isPacketContextSet()) {
throw new ParseException("packet.context already defined"); //$NON-NLS-1$
}
stream.setPacketContext((StructDeclaration) packetContextDecl);
} else {
- throw new ParseException("Unknown stream attribute : " + left); //$NON-NLS-1$
+ Activator.log(IStatus.WARNING, Messages.IOStructGen_UnknownStreamAttributeWarning + " " + left); //$NON-NLS-1$
}
}
private void parseEvent(CommonTree eventNode) throws ParseException {
- assert (eventNode.getType() == CTFParser.EVENT);
List<CommonTree> children = eventNode.getChildren();
if (children == null) {
private void parseEventDeclaration(CommonTree eventDecl,
EventDeclaration event) throws ParseException {
- assert ((eventDecl.getType() == CTFParser.CTF_EXPRESSION_TYPE) || (eventDecl.getType() == CTFParser.CTF_EXPRESSION_VAL));
/* There should be a left and right */
- assert (eventDecl.getChildCount() == 2);
CommonTree leftNode = (CommonTree) eventDecl.getChild(0);
- assert (leftNode.getType() == CTFParser.CTF_LEFT);
CommonTree rightNode = (CommonTree) eventDecl.getChild(1);
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
List<CommonTree> leftStrings = leftNode.getChildren();
- assert (leftStrings != null);
- if (!isUnaryString(leftStrings.get(0))) {
+ if (!isAnyUnaryString(leftStrings.get(0))) {
throw new ParseException(
"Left side of CTF assignment must be a string"); //$NON-NLS-1$
}
String left = concatenateUnaryStrings(leftStrings);
- if (left.equals(CTFStrings.NAME2)) {
+ if (left.equals(MetadataStrings.NAME2)) {
if (event.nameIsSet()) {
throw new ParseException("name already defined"); //$NON-NLS-1$
}
String name = getEventName(rightNode);
event.setName(name);
- } else if (left.equals(CTFStrings.ID)) {
+ } else if (left.equals(MetadataStrings.ID)) {
if (event.idIsSet()) {
throw new ParseException("id already defined"); //$NON-NLS-1$
}
long id = getEventID(rightNode);
event.setId(id);
- } else if (left.equals(CTFStrings.STREAM_ID)) {
+ } else if (left.equals(MetadataStrings.STREAM_ID)) {
if (event.streamIsSet()) {
throw new ParseException("stream id already defined"); //$NON-NLS-1$
}
}
event.setStream(stream);
- } else if (left.equals(CTFStrings.CONTEXT)) {
+ } else if (left.equals(MetadataStrings.CONTEXT)) {
if (event.contextIsSet()) {
throw new ParseException("context already defined"); //$NON-NLS-1$
}
}
event.setContext((StructDeclaration) contextDecl);
- } else if (left.equals(CTFStrings.FIELDS_STRING)) {
+ } else if (left.equals(MetadataStrings.FIELDS_STRING)) {
if (event.fieldsIsSet()) {
throw new ParseException("fields already defined"); //$NON-NLS-1$
}
*/
final StructDeclaration fields = (StructDeclaration) fieldsDecl;
event.setFields(fields);
- } else if (left.equals(CTFStrings.LOGLEVEL2)) {
+ } else if (left.equals(MetadataStrings.LOGLEVEL2)) {
long logLevel = parseUnaryInteger((CommonTree) rightNode.getChild(0));
event.setLogLevel(logLevel);
} else {
- /* Unknown event attribute, we'll simply ignore it */
- // FIXME log this?
+ /* Custom event attribute, we'll add it to the attributes map */
+ String right = parseUnaryString((CommonTree) rightNode.getChild(0));
+ event.setCustomAttribute(left, right);
}
}
*/
private void parseRootDeclaration(CommonTree declaration)
throws ParseException {
- assert (declaration.getType() == CTFParser.DECLARATION);
List<CommonTree> children = declaration.getChildren();
- assert (children != null);
for (CommonTree child : children) {
switch (child.getType()) {
* @throws ParseException
*/
private void parseTypealias(CommonTree typealias) throws ParseException {
- assert (typealias.getType() == CTFParser.TYPEALIAS);
List<CommonTree> children = typealias.getChildren();
- assert (children != null);
CommonTree target = null;
CommonTree alias = null;
for (CommonTree child : children) {
switch (child.getType()) {
case CTFParser.TYPEALIAS_TARGET:
- assert (target == null);
target = child;
break;
case CTFParser.TYPEALIAS_ALIAS:
- assert (alias == null);
alias = child;
break;
default:
}
}
- assert (target != null);
- assert (alias != null);
IDeclaration targetDeclaration = parseTypealiasTarget(target);
- if (targetDeclaration instanceof VariantDeclaration) {
- if (((VariantDeclaration) targetDeclaration).isTagged()) {
- throw new ParseException(
- "Typealias of untagged variant is not permitted"); //$NON-NLS-1$
- }
+ if ((targetDeclaration instanceof VariantDeclaration)
+ && ((VariantDeclaration) targetDeclaration).isTagged()) {
+ throw new ParseException("Typealias of untagged variant is not permitted"); //$NON-NLS-1$
}
String aliasString = parseTypealiasAlias(alias);
*/
private IDeclaration parseTypealiasTarget(CommonTree target)
throws ParseException {
- assert (target.getType() == CTFParser.TYPEALIAS_TARGET);
List<CommonTree> children = target.getChildren();
- assert (children != null);
CommonTree typeSpecifierList = null;
CommonTree typeDeclaratorList = null;
for (CommonTree child : children) {
switch (child.getType()) {
case CTFParser.TYPE_SPECIFIER_LIST:
- assert (typeSpecifierList == null);
typeSpecifierList = child;
break;
case CTFParser.TYPE_DECLARATOR_LIST:
- assert (typeDeclaratorList == null);
typeDeclaratorList = child;
break;
default:
}
}
- assert (typeSpecifierList != null);
if (typeDeclaratorList != null) {
/*
*/
private static String parseTypealiasAlias(CommonTree alias)
throws ParseException {
- assert (alias.getType() == CTFParser.TYPEALIAS_ALIAS);
List<CommonTree> children = alias.getChildren();
- assert (children != null);
CommonTree typeSpecifierList = null;
CommonTree typeDeclaratorList = null;
for (CommonTree child : children) {
switch (child.getType()) {
case CTFParser.TYPE_SPECIFIER_LIST:
- assert (typeSpecifierList == null);
typeSpecifierList = child;
break;
case CTFParser.TYPE_DECLARATOR_LIST:
- assert (typeDeclaratorList == null);
typeDeclaratorList = child;
break;
default:
typeDeclarator = (CommonTree) typeDeclaratorList.getChild(0);
List<CommonTree> typeDeclaratorChildren = typeDeclarator.getChildren();
- assert (typeDeclaratorChildren != null);
for (CommonTree child : typeDeclaratorChildren) {
switch (child.getType()) {
case CTFParser.IDENTIFIER:
throw new ParseException("Identifier (" + child.getText() //$NON-NLS-1$
+ ") not expected in the typealias target"); //$NON-NLS-1$
- /* break; */
default:
childTypeError(child);
break;
* If there is an error creating the declaration.
*/
private void parseTypedef(CommonTree typedef) throws ParseException {
- assert (typedef.getType() == CTFParser.TYPEDEF);
CommonTree typeDeclaratorListNode = (CommonTree) typedef.getFirstChildWithType(CTFParser.TYPE_DECLARATOR_LIST);
- assert (typeDeclaratorListNode != null);
CommonTree typeSpecifierListNode = (CommonTree) typedef.getFirstChildWithType(CTFParser.TYPE_SPECIFIER_LIST);
- assert (typeSpecifierListNode != null);
List<CommonTree> typeDeclaratorList = typeDeclaratorListNode.getChildren();
- assert (typeDeclaratorList != null);
for (CommonTree typeDeclaratorNode : typeDeclaratorList) {
StringBuilder identifierSB = new StringBuilder();
- IDeclaration type_declaration = parseTypeDeclarator(
+ IDeclaration typeDeclaration = parseTypeDeclarator(
typeDeclaratorNode, typeSpecifierListNode, identifierSB);
- if (type_declaration instanceof VariantDeclaration) {
- if (((VariantDeclaration) type_declaration).isTagged()) {
- throw new ParseException(
- "Typealias of untagged variant is not permitted"); //$NON-NLS-1$
- }
+ if ((typeDeclaration instanceof VariantDeclaration)
+ && ((VariantDeclaration) typeDeclaration).isTagged()) {
+ throw new ParseException(
+ "Typealias of untagged variant is not permitted"); //$NON-NLS-1$
}
getCurrentScope().registerType(identifierSB.toString(),
- type_declaration);
+ typeDeclaration);
}
}
private IDeclaration parseTypeDeclarator(CommonTree typeDeclarator,
CommonTree typeSpecifierList, StringBuilder identifierSB)
throws ParseException {
- if (typeDeclarator != null) {
- assert (typeDeclarator.getType() == CTFParser.TYPE_DECLARATOR);
- }
- assert (typeSpecifierList.getType() == CTFParser.TYPE_SPECIFIER_LIST);
IDeclaration declaration = null;
List<CommonTree> children = null;
/* Separate the tokens by type */
if (typeDeclarator != null) {
children = typeDeclarator.getChildren();
- assert (children != null);
for (CommonTree child : children) {
switch (child.getType()) {
pointers.add(child);
break;
case CTFParser.IDENTIFIER:
- assert (identifier == null);
identifier = child;
break;
case CTFParser.LENGTH:
* it is an array or a sequence.
*/
List<CommonTree> lengthChildren = length.getChildren();
- assert (lengthChildren != null);
CommonTree first = lengthChildren.get(0);
if (isUnaryInteger(first)) {
/* Create the array declaration. */
declaration = new ArrayDeclaration(arrayLength, declaration);
- } else if (isUnaryString(first)) {
+ } else if (isAnyUnaryString(first)) {
/* Sequence */
String lengthName = concatenateUnaryStrings(lengthChildren);
*/
private IDeclaration parseTypeSpecifierList(CommonTree typeSpecifierList,
List<CommonTree> pointerList) throws ParseException {
- assert (typeSpecifierList.getType() == CTFParser.TYPE_SPECIFIER_LIST);
IDeclaration declaration = null;
/*
* determine which type it belongs to.
*/
CommonTree firstChild = (CommonTree) typeSpecifierList.getChild(0);
- assert (firstChild != null); /* grammar */
switch (firstChild.getType()) {
case CTFParser.FLOATING_POINT:
List<CommonTree> leftStrings = leftNode.getChildren();
- if (!isUnaryString(leftStrings.get(0))) {
+ if (!isAnyUnaryString(leftStrings.get(0))) {
throw new ParseException(
"Left side of ctf expression must be a string"); //$NON-NLS-1$
}
String left = concatenateUnaryStrings(leftStrings);
- if (left.equals(CTFStrings.EXP_DIG)) {
+ if (left.equals(MetadataStrings.EXP_DIG)) {
exponent = (int) parseUnaryInteger((CommonTree) rightNode.getChild(0));
- } else if (left.equals(CTFStrings.BYTE_ORDER)) {
+ } else if (left.equals(MetadataStrings.BYTE_ORDER)) {
byteOrder = getByteOrder(rightNode);
- } else if (left.equals(CTFStrings.MANT_DIG)) {
+ } else if (left.equals(MetadataStrings.MANT_DIG)) {
mantissa = (int) parseUnaryInteger((CommonTree) rightNode.getChild(0));
- } else if (left.equals(CTFStrings.ALIGN)) {
+ } else if (left.equals(MetadataStrings.ALIGN)) {
alignment = getAlignment(rightNode);
} else {
throw new ParseException("Float: unknown attribute " + left); //$NON-NLS-1$
floatDeclaration = new FloatDeclaration(exponent, mantissa, byteOrder, alignment);
- assert (floatDeclaration != null);
return floatDeclaration;
}
*/
private IntegerDeclaration parseInteger(CommonTree integer)
throws ParseException {
- assert (integer.getType() == CTFParser.INTEGER);
List<CommonTree> children = integer.getChildren();
/*
* An assignment expression must have 2 children, left and right
*/
- assert (child.getChildCount() == 2);
CommonTree leftNode = (CommonTree) child.getChild(0);
- assert (leftNode.getType() == CTFParser.CTF_LEFT);
CommonTree rightNode = (CommonTree) child.getChild(1);
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
List<CommonTree> leftStrings = leftNode.getChildren();
- assert (leftStrings != null);
- if (!isUnaryString(leftStrings.get(0))) {
+ if (!isAnyUnaryString(leftStrings.get(0))) {
throw new ParseException(
"Left side of ctf expression must be a string"); //$NON-NLS-1$
}
if (left.equals("signed")) { //$NON-NLS-1$
signed = getSigned(rightNode);
- } else if (left.equals(CTFStrings.BYTE_ORDER)) {
+ } else if (left.equals(MetadataStrings.BYTE_ORDER)) {
byteOrder = getByteOrder(rightNode);
} else if (left.equals("size")) { //$NON-NLS-1$
size = getSize(rightNode);
- } else if (left.equals(CTFStrings.ALIGN)) {
+ } else if (left.equals(MetadataStrings.ALIGN)) {
alignment = getAlignment(rightNode);
} else if (left.equals("base")) { //$NON-NLS-1$
base = getBase(rightNode);
} else if (left.equals("map")) { //$NON-NLS-1$
clock = getClock(rightNode);
} else {
- throw new ParseException(
- "Integer: unknown attribute " + left); //$NON-NLS-1$
+ Activator.log(IStatus.WARNING, Messages.IOStructGen_UnknownIntegerAttributeWarning + " " + left); //$NON-NLS-1$
}
break;
integerDeclaration = new IntegerDeclaration((int) size, signed, base,
byteOrder, encoding, clock, alignment);
- assert (integerDeclaration != null);
return integerDeclaration;
}
private static StringDeclaration parseString(CommonTree string)
throws ParseException {
- assert (string.getType() == CTFParser.STRING);
List<CommonTree> children = string.getChildren();
StringDeclaration stringDeclaration = null;
* An assignment expression must have 2 children, left and
* right
*/
- assert (child.getChildCount() == 2);
CommonTree leftNode = (CommonTree) child.getChild(0);
- assert (leftNode.getType() == CTFParser.CTF_LEFT);
CommonTree rightNode = (CommonTree) child.getChild(1);
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
List<CommonTree> leftStrings = leftNode.getChildren();
- assert (leftStrings != null);
- if (!isUnaryString(leftStrings.get(0))) {
+ if (!isAnyUnaryString(leftStrings.get(0))) {
throw new ParseException(
"Left side of ctf expression must be a string"); //$NON-NLS-1$
}
*/
private StructDeclaration parseStruct(CommonTree struct)
throws ParseException {
- assert (struct.getType() == CTFParser.STRUCT);
List<CommonTree> children = struct.getChildren();
- assert (children != null);
/* The return value */
StructDeclaration structDeclaration = null;
case CTFParser.STRUCT_NAME: {
hasName = true;
- assert (child.getChildCount() == 1);
CommonTree structNameIdentifier = (CommonTree) child.getChild(0);
- assert (structNameIdentifier.getType() == CTFParser.IDENTIFIER);
structName = structNameIdentifier.getText();
break;
break;
}
case CTFParser.ALIGN: {
- assert (child.getChildCount() == 1);
CommonTree structAlignExpression = (CommonTree) child.getChild(0);
structAlign = getAlignment(structAlignExpression);
}
}
- assert (structDeclaration != null);
return structDeclaration;
}
*/
private void parseStructBody(CommonTree structBody,
StructDeclaration structDeclaration) throws ParseException {
- assert (structBody.getType() == CTFParser.STRUCT_BODY);
List<CommonTree> structDeclarations = structBody.getChildren();
*/
private void parseStructDeclaration(CommonTree declaration,
StructDeclaration struct) throws ParseException {
- assert (declaration.getType() == CTFParser.SV_DECLARATION);
- List<CommonTree> children = declaration.getChildren();
- assert (children != null);
/* Get the type specifier list node */
CommonTree typeSpecifierListNode = (CommonTree) declaration.getFirstChildWithType(CTFParser.TYPE_SPECIFIER_LIST);
- assert (typeSpecifierListNode != null);
/* Get the type declarator list node */
CommonTree typeDeclaratorListNode = (CommonTree) declaration.getFirstChildWithType(CTFParser.TYPE_DECLARATOR_LIST);
- assert (typeDeclaratorListNode != null);
/* Get the type declarator list */
List<CommonTree> typeDeclaratorList = typeDeclaratorListNode.getChildren();
- assert (typeDeclaratorList != null);
/*
* For each type declarator, parse the declaration and add a field to
* the struct
*/
for (CommonTree typeDeclaratorNode : typeDeclaratorList) {
- assert (typeDeclaratorNode.getType() == CTFParser.TYPE_DECLARATOR);
StringBuilder identifierSB = new StringBuilder();
/**
* Parses an enum declaration and returns the corresponding declaration.
*
- * @param _enum
+ * @param theEnum
* An ENUM node.
* @return The corresponding enum declaration.
* @throws ParseException
*/
- private EnumDeclaration parseEnum(CommonTree _enum) throws ParseException {
- assert (_enum.getType() == CTFParser.ENUM);
+ private EnumDeclaration parseEnum(CommonTree theEnum) throws ParseException {
- List<CommonTree> children = _enum.getChildren();
- assert (children != null);
+ List<CommonTree> children = theEnum.getChildren();
/* The return value */
EnumDeclaration enumDeclaration = null;
for (CommonTree child : children) {
switch (child.getType()) {
case CTFParser.ENUM_NAME: {
- assert (enumName == null);
-
- assert (child.getChildCount() == 1);
CommonTree enumNameIdentifier = (CommonTree) child.getChild(0);
-
- assert (enumNameIdentifier.getType() == CTFParser.IDENTIFIER);
enumName = enumNameIdentifier.getText();
-
break;
}
case CTFParser.ENUM_BODY: {
- assert (enumBody == null);
-
enumBody = child;
-
break;
}
case CTFParser.ENUM_CONTAINER_TYPE: {
- assert (containerTypeDeclaration == null);
-
containerTypeDeclaration = parseEnumContainerType(child);
-
break;
}
default:
*/
private void parseEnumBody(CommonTree enumBody,
EnumDeclaration enumDeclaration) throws ParseException {
- assert (enumBody.getType() == CTFParser.ENUM_BODY);
List<CommonTree> enumerators = enumBody.getChildren();
/* enum body can't be empty (unlike struct). */
- assert (enumerators != null);
pushScope();
private static long parseEnumEnumerator(CommonTree enumerator,
EnumDeclaration enumDeclaration, long lastHigh)
throws ParseException {
- assert (enumerator.getType() == CTFParser.ENUM_ENUMERATOR);
List<CommonTree> children = enumerator.getChildren();
- assert (children != null);
long low = 0, high = 0;
boolean valueSpecified = false;
String label = null;
for (CommonTree child : children) {
- if (isUnaryString(child)) {
+ if (isAnyUnaryString(child)) {
label = parseUnaryString(child);
} else if (child.getType() == CTFParser.ENUM_VALUE) {
- assert (child.getChildCount() == 1);
- assert (isUnaryInteger((CommonTree) child.getChild(0)));
valueSpecified = true;
low = parseUnaryInteger((CommonTree) child.getChild(0));
high = low;
} else if (child.getType() == CTFParser.ENUM_VALUE_RANGE) {
- assert (child.getChildCount() == 2);
- assert (isUnaryInteger((CommonTree) child.getChild(0)));
- assert (isUnaryInteger((CommonTree) child.getChild(1)));
valueSpecified = true;
}
}
- assert (label != null);
-
if (!valueSpecified) {
low = lastHigh + 1;
high = low;
throw new ParseException("enum declarator values overlap."); //$NON-NLS-1$
}
+ if (valueSpecified && (BigInteger.valueOf(low).compareTo(enumDeclaration.getContainerType().getMinValue()) == -1 ||
+ BigInteger.valueOf(high).compareTo(enumDeclaration.getContainerType().getMaxValue()) == 1)) {
+ throw new ParseException("enum value is not in range"); //$NON-NLS-1$
+ }
+
return high;
}
*/
private IntegerDeclaration parseEnumContainerType(
CommonTree enumContainerType) throws ParseException {
- assert (enumContainerType.getType() == CTFParser.ENUM_CONTAINER_TYPE);
/* Get the child, which should be a type specifier list */
- assert (enumContainerType.getChildCount() == 1);
CommonTree typeSpecifierList = (CommonTree) enumContainerType.getChild(0);
/* Parse it and get the corresponding declaration */
private VariantDeclaration parseVariant(CommonTree variant)
throws ParseException {
- assert (variant.getType() == CTFParser.VARIANT);
List<CommonTree> children = variant.getChildren();
VariantDeclaration variantDeclaration = null;
for (CommonTree child : children) {
switch (child.getType()) {
case CTFParser.VARIANT_NAME:
- assert (variantName == null);
hasName = true;
- assert (child.getChildCount() == 1);
CommonTree variantNameIdentifier = (CommonTree) child.getChild(0);
- assert (variantNameIdentifier.getType() == CTFParser.IDENTIFIER);
variantName = variantNameIdentifier.getText();
break;
case CTFParser.VARIANT_TAG:
- assert (variantTag == null);
hasTag = true;
- assert (child.getChildCount() == 1);
CommonTree variantTagIdentifier = (CommonTree) child.getChild(0);
- assert (variantTagIdentifier.getType() == CTFParser.IDENTIFIER);
variantTag = variantTagIdentifier.getText();
break;
case CTFParser.VARIANT_BODY:
- assert (variantBody == null);
hasBody = true;
variantDeclaration.setTag(variantTag);
}
- assert (variantDeclaration != null);
return variantDeclaration;
}
private void parseVariantBody(CommonTree variantBody,
VariantDeclaration variantDeclaration) throws ParseException {
- assert (variantBody.getType() == CTFParser.VARIANT_BODY);
List<CommonTree> variantDeclarations = variantBody.getChildren();
- assert (variantDeclarations != null);
pushScope();
private void parseVariantDeclaration(CommonTree declaration,
VariantDeclaration variant) throws ParseException {
- assert (declaration.getType() == CTFParser.SV_DECLARATION);
- List<CommonTree> children = declaration.getChildren();
- assert (children != null);
/* Get the type specifier list node */
CommonTree typeSpecifierListNode = (CommonTree) declaration.getFirstChildWithType(CTFParser.TYPE_SPECIFIER_LIST);
- assert (typeSpecifierListNode != null);
/* Get the type declarator list node */
CommonTree typeDeclaratorListNode = (CommonTree) declaration.getFirstChildWithType(CTFParser.TYPE_DECLARATOR_LIST);
- assert (typeDeclaratorListNode != null);
/* Get the type declarator list */
List<CommonTree> typeDeclaratorList = typeDeclaratorListNode.getChildren();
- assert (typeDeclaratorList != null);
/*
* For each type declarator, parse the declaration and add a field to
* the variant
*/
for (CommonTree typeDeclaratorNode : typeDeclaratorList) {
- assert (typeDeclaratorNode.getType() == CTFParser.TYPE_DECLARATOR);
StringBuilder identifierSB = new StringBuilder();
private static void createTypeSpecifierListString(
CommonTree typeSpecifierList, StringBuilder sb)
throws ParseException {
- assert (typeSpecifierList.getType() == CTFParser.TYPE_SPECIFIER_LIST);
List<CommonTree> children = typeSpecifierList.getChildren();
- assert (children != null);
boolean firstItem = true;
throw new ParseException(
"nameless struct found in createTypeSpecifierString"); //$NON-NLS-1$
}
- assert (structName.getChildCount() == 1);
CommonTree structNameIdentifier = (CommonTree) structName.getChild(0);
- assert (structNameIdentifier.getType() == CTFParser.IDENTIFIER);
sb.append(structNameIdentifier.getText());
break;
throw new ParseException(
"nameless variant found in createTypeSpecifierString"); //$NON-NLS-1$
}
- assert (variantName.getChildCount() == 1);
CommonTree variantNameIdentifier = (CommonTree) variantName.getChild(0);
- assert (variantNameIdentifier.getType() == CTFParser.IDENTIFIER);
sb.append(variantNameIdentifier.getText());
break;
throw new ParseException(
"nameless enum found in createTypeSpecifierString"); //$NON-NLS-1$
}
- assert (enumName.getChildCount() == 1);
CommonTree enumNameIdentifier = (CommonTree) enumName.getChild(0);
- assert (enumNameIdentifier.getType() == CTFParser.IDENTIFIER);
sb.append(enumNameIdentifier.getText());
break;
case CTFParser.STRING:
throw new ParseException(
"CTF type found in createTypeSpecifierString"); //$NON-NLS-1$
- /* break; */
default:
childTypeError(typeSpecifier);
break;
}
for (CommonTree pointer : pointerList) {
- assert (pointer.getType() == CTFParser.POINTER);
sb.append(" *"); //$NON-NLS-1$
if (pointer.getChildCount() > 0) {
- assert (pointer.getChildCount() == 1);
- CommonTree constQualifier = (CommonTree) pointer.getChild(0);
- assert (constQualifier.getType() == CTFParser.CONSTTOK);
sb.append(" const"); //$NON-NLS-1$
}
/**
* @param node
* The node to check.
- * @return True if the given node is an unary string or unary integer.
+ * @return True if the given node is an unary string.
*/
- private static boolean isUnaryExpression(CommonTree node) {
- return isUnaryInteger(node) || isUnaryString(node);
+ private static boolean isUnaryString(CommonTree node) {
+ return ((node.getType() == CTFParser.UNARY_EXPRESSION_STRING));
}
/**
* @param node
* The node to check.
- * @return True if the given node is an unary string.
+ * @return True if the given node is any type of unary string (no quotes, quotes, etc).
*/
- private static boolean isUnaryString(CommonTree node) {
+ private static boolean isAnyUnaryString(CommonTree node) {
return ((node.getType() == CTFParser.UNARY_EXPRESSION_STRING) ||
(node.getType() == CTFParser.UNARY_EXPRESSION_STRING_QUOTES));
}
* parser.
*/
private static String parseUnaryString(CommonTree unaryString) {
- assert (isUnaryString(unaryString));
- assert (unaryString.getChildCount() == 1);
CommonTree value = (CommonTree) unaryString.getChild(0);
- assert (value != null);
String strval = value.getText();
/* Remove quotes */
* @param unaryInteger
* An unary integer node.
* @return The integer value.
+ * @throws CTFReaderException
*/
- private static long parseUnaryInteger(CommonTree unaryInteger) {
- assert (isUnaryInteger(unaryInteger));
-
- assert (unaryInteger.getChildCount() >= 1);
+ private static long parseUnaryInteger(CommonTree unaryInteger) throws ParseException {
List<CommonTree> children = unaryInteger.getChildren();
CommonTree value = children.get(0);
String strval = value.getText();
long intval;
-
- if (unaryInteger.getType() == CTFParser.UNARY_EXPRESSION_DEC) {
- intval = Long.parseLong(strval, 10);
- } else if (unaryInteger.getType() == CTFParser.UNARY_EXPRESSION_HEX) {
- intval = Long.parseLong(strval, 0x10);
- } else { /* unaryInteger.getType() == CTFParser.UNARY_EXPRESSION_OCT */
- intval = Long.parseLong(strval, 010); // 010 == 0x08 == 8
+ try {
+ if (unaryInteger.getType() == CTFParser.UNARY_EXPRESSION_DEC) {
+ intval = Long.parseLong(strval, 10);
+ } else if (unaryInteger.getType() == CTFParser.UNARY_EXPRESSION_HEX) {
+ intval = Long.parseLong(strval, 0x10);
+ } else { /* unaryInteger.getType() == CTFParser.UNARY_EXPRESSION_OCT */
+ intval = Long.parseLong(strval, 010); // 010 == 0x08 == 8
+ }
+ } catch (NumberFormatException e) {
+ throw new ParseException("Invalid integer format: " + strval); //$NON-NLS-1$
}
/* The rest of children are sign */
private static long getMajorOrMinor(CommonTree rightNode)
throws ParseException {
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
- assert (rightNode.getChildCount() > 0);
CommonTree firstChild = (CommonTree) rightNode.getChild(0);
}
private static UUID getUUID(CommonTree rightNode) throws ParseException {
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
- assert (rightNode.getChildCount() > 0);
CommonTree firstChild = (CommonTree) rightNode.getChild(0);
- if (isUnaryString(firstChild)) {
+ if (isAnyUnaryString(firstChild)) {
if (rightNode.getChildCount() > 1) {
throw new ParseException("Invalid value for UUID"); //$NON-NLS-1$
}
String uuidstr = parseUnaryString(firstChild);
try {
- UUID uuid = UUID.fromString(uuidstr);
- return uuid;
+ return UUID.fromString(uuidstr);
} catch (IllegalArgumentException e) {
throw new ParseException("Invalid format for UUID"); //$NON-NLS-1$
}
*/
private static boolean getSigned(CommonTree rightNode)
throws ParseException {
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
- assert (rightNode.getChildCount() > 0);
boolean ret = false;
CommonTree firstChild = (CommonTree) rightNode.getChild(0);
if (isUnaryString(firstChild)) {
String strval = concatenateUnaryStrings(rightNode.getChildren());
- if (strval.equals(CTFStrings.TRUE)
- || strval.equals(CTFStrings.TRUE2)) {
+ if (strval.equals(MetadataStrings.TRUE)
+ || strval.equals(MetadataStrings.TRUE2)) {
ret = true;
- } else if (strval.equals(CTFStrings.FALSE)
- || strval.equals(CTFStrings.FALSE2)) {
+ } else if (strval.equals(MetadataStrings.FALSE)
+ || strval.equals(MetadataStrings.FALSE2)) {
ret = false;
} else {
throw new ParseException("Invalid boolean value " //$NON-NLS-1$
* @throws ParseException
*/
private ByteOrder getByteOrder(CommonTree rightNode) throws ParseException {
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
- assert (rightNode.getChildCount() > 0);
CommonTree firstChild = (CommonTree) rightNode.getChild(0);
if (isUnaryString(firstChild)) {
String strval = concatenateUnaryStrings(rightNode.getChildren());
- if (strval.equals(CTFStrings.LE)) {
+ if (strval.equals(MetadataStrings.LE)) {
return ByteOrder.LITTLE_ENDIAN;
- } else if (strval.equals(CTFStrings.BE)
- || strval.equals(CTFStrings.NETWORK)) {
+ } else if (strval.equals(MetadataStrings.BE)
+ || strval.equals(MetadataStrings.NETWORK)) {
return ByteOrder.BIG_ENDIAN;
- } else if (strval.equals(CTFStrings.NATIVE)) {
+ } else if (strval.equals(MetadataStrings.NATIVE)) {
return trace.getByteOrder();
} else {
throw new ParseException("Invalid value for byte order"); //$NON-NLS-1$
* @throws ParseException
*/
private static long getSize(CommonTree rightNode) throws ParseException {
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
- assert (rightNode.getChildCount() > 0);
CommonTree firstChild = (CommonTree) rightNode.getChild(0);
* @throws ParseException
*/
private static long getAlignment(CommonTree node) throws ParseException {
- assert (isUnaryExpression(node) || (node.getType() == CTFParser.CTF_RIGHT));
/*
* If a CTF_RIGHT node was passed, call getAlignment with the first
* @throws ParseException
*/
private static int getBase(CommonTree rightNode) throws ParseException {
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
- assert (rightNode.getChildCount() > 0);
CommonTree firstChild = (CommonTree) rightNode.getChild(0);
} else if (isUnaryString(firstChild)) {
String strval = concatenateUnaryStrings(rightNode.getChildren());
- if (strval.equals(CTFStrings.DECIMAL)
- || strval.equals(CTFStrings.DEC)
- || strval.equals(CTFStrings.DEC_CTE)
- || strval.equals(CTFStrings.INT_MOD)
- || strval.equals(CTFStrings.UNSIGNED_CTE)) {
+ if (strval.equals(MetadataStrings.DECIMAL)
+ || strval.equals(MetadataStrings.DEC)
+ || strval.equals(MetadataStrings.DEC_CTE)
+ || strval.equals(MetadataStrings.INT_MOD)
+ || strval.equals(MetadataStrings.UNSIGNED_CTE)) {
return 10;
- } else if (strval.equals(CTFStrings.HEXADECIMAL)
- || strval.equals(CTFStrings.HEX)
- || strval.equals(CTFStrings.X)
- || strval.equals(CTFStrings.X2)
- || strval.equals(CTFStrings.POINTER)) {
+ } else if (strval.equals(MetadataStrings.HEXADECIMAL)
+ || strval.equals(MetadataStrings.HEX)
+ || strval.equals(MetadataStrings.X)
+ || strval.equals(MetadataStrings.X2)
+ || strval.equals(MetadataStrings.POINTER)) {
return 16;
- } else if (strval.equals(CTFStrings.OCTAL)
- || strval.equals(CTFStrings.OCT)
- || strval.equals(CTFStrings.OCTAL_CTE)) {
+ } else if (strval.equals(MetadataStrings.OCTAL)
+ || strval.equals(MetadataStrings.OCT)
+ || strval.equals(MetadataStrings.OCTAL_CTE)) {
return 8;
- } else if (strval.equals(CTFStrings.BINARY)
- || strval.equals(CTFStrings.BIN)) {
+ } else if (strval.equals(MetadataStrings.BINARY)
+ || strval.equals(MetadataStrings.BIN)) {
return 2;
} else {
throw new ParseException("Invalid value for base"); //$NON-NLS-1$
*/
private static Encoding getEncoding(CommonTree rightNode)
throws ParseException {
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
CommonTree firstChild = (CommonTree) rightNode.getChild(0);
if (isUnaryString(firstChild)) {
String strval = concatenateUnaryStrings(rightNode.getChildren());
- if (strval.equals(CTFStrings.UTF8)) {
+ if (strval.equals(MetadataStrings.UTF8)) {
return Encoding.UTF8;
- } else if (strval.equals(CTFStrings.ASCII)) {
+ } else if (strval.equals(MetadataStrings.ASCII)) {
return Encoding.ASCII;
- } else if (strval.equals(CTFStrings.NONE)) {
+ } else if (strval.equals(MetadataStrings.NONE)) {
return Encoding.NONE;
} else {
throw new ParseException("Invalid value for encoding"); //$NON-NLS-1$
}
private static long getStreamID(CommonTree rightNode) throws ParseException {
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
- assert (rightNode.getChildCount() > 0);
CommonTree firstChild = (CommonTree) rightNode.getChild(0);
private static String getEventName(CommonTree rightNode)
throws ParseException {
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
- assert (rightNode.getChildCount() > 0);
CommonTree firstChild = (CommonTree) rightNode.getChild(0);
- if (isUnaryString(firstChild)) {
+ if (isAnyUnaryString(firstChild)) {
String str = concatenateUnaryStrings(rightNode.getChildren());
return str;
}
private static long getEventID(CommonTree rightNode) throws ParseException {
- assert (rightNode.getType() == CTFParser.CTF_RIGHT);
- assert (rightNode.getChildCount() > 0);
CommonTree firstChild = (CommonTree) rightNode.getChild(0);
* @return The string representation of the unary string chain.
*/
private static String concatenateUnaryStrings(List<CommonTree> strings) {
- assert ((strings != null) && (strings.size() > 0));
StringBuilder sb = new StringBuilder();
continue;
}
- assert ((ref.getType() == CTFParser.ARROW) || (ref.getType() == CTFParser.DOT));
- assert (ref.getChildCount() == 1);
CommonTree id = (CommonTree) ref.getChild(0);
* Removes the top declaration scope from the scope stack.
*/
private void popScope() {
- assert (scope != null);
scope = scope.getParentScope();
}
* @return The current declaration scope.
*/
private DeclarationScope getCurrentScope() {
- assert (scope != null);
return scope;
}