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/*
* Copyright (C) 2015 Google, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License
* is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express
* or implied. See the License for the specific language governing permissions and limitations under
* the License.
*/
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package com.google.auto.value.processor.escapevelocity;
import static com.google.auto.value.processor.escapevelocity.Node.emptyNode;
import com.google.auto.value.processor.escapevelocity.DirectiveNode.ForEachNode;
import com.google.auto.value.processor.escapevelocity.DirectiveNode.IfNode;
import com.google.auto.value.processor.escapevelocity.DirectiveNode.MacroCallNode;
import com.google.auto.value.processor.escapevelocity.DirectiveNode.SetNode;
import com.google.auto.value.processor.escapevelocity.TokenNode.CommentTokenNode;
import com.google.auto.value.processor.escapevelocity.TokenNode.ElseIfTokenNode;
import com.google.auto.value.processor.escapevelocity.TokenNode.ElseTokenNode;
import com.google.auto.value.processor.escapevelocity.TokenNode.EndTokenNode;
import com.google.auto.value.processor.escapevelocity.TokenNode.EofNode;
import com.google.auto.value.processor.escapevelocity.TokenNode.ForEachTokenNode;
import com.google.auto.value.processor.escapevelocity.TokenNode.IfOrElseIfTokenNode;
import com.google.auto.value.processor.escapevelocity.TokenNode.IfTokenNode;
import com.google.auto.value.processor.escapevelocity.TokenNode.MacroDefinitionTokenNode;
import com.google.common.base.CharMatcher;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterables;
import com.google.common.collect.Maps;
import java.util.Map;
import java.util.Set;
/**
* The second phase of parsing. See {@link Parser#parse()} for a description of the phases and why
* we need them.
*
* @author [email protected] (Éamonn McManus)
*/
class Reparser {
private static final ImmutableSet> END_SET =
ImmutableSet.>of(EndTokenNode.class);
private static final ImmutableSet> EOF_SET =
ImmutableSet.>of(EofNode.class);
private static final ImmutableSet> ELSE_ELSE_IF_END_SET =
ImmutableSet.>of(
ElseTokenNode.class, ElseIfTokenNode.class, EndTokenNode.class);
/**
* The nodes that make up the input sequence. Nodes are removed one by one from this list as
* parsing proceeds. At any time, {@link #currentNode} is the node being examined.
*/
private final ImmutableList nodes;
/**
* The index of the node we are currently looking at while parsing.
*/
private int nodeIndex;
/**
* Macros are removed from the input as they are found. They do not appear in the output parse
* tree. Macro definitions are not executed in place but are all applied before template rendering
* starts. This means that a macro can be referenced before it is defined.
*/
private final Map macros;
Reparser(ImmutableList nodes) {
this.nodes = removeSpaceBeforeSet(nodes);
this.nodeIndex = 0;
this.macros = Maps.newTreeMap();
}
Template reparse() {
Node root = parseTo(EOF_SET, new EofNode(1));
linkMacroCalls();
return new Template(root);
}
/**
* Returns a copy of the given list where spaces have been moved where appropriate after {@code
* #set}. This hack is needed to match what appears to be special treatment in Apache Velocity of
* spaces before {@code #set} directives. If you have thingwhitespace {@code #set},
* then the whitespace is deleted if the thing is a comment ({@code ##...\n}); a reference
* ({@code $x} or {@code $x.foo} etc); a macro definition; or another {@code #set}.
*/
private static ImmutableList removeSpaceBeforeSet(ImmutableList nodes) {
assert Iterables.getLast(nodes) instanceof EofNode;
// Since the last node is EofNode, the i + 1 and i + 2 accesses below are safe.
ImmutableList.Builder newNodes = ImmutableList.builder();
for (int i = 0; i < nodes.size(); i++) {
Node nodeI = nodes.get(i);
newNodes.add(nodeI);
if (shouldDeleteSpaceBetweenThisAndSet(nodeI)
&& isWhitespaceLiteral(nodes.get(i + 1))
&& nodes.get(i + 2) instanceof SetNode) {
// Skip the space.
i++;
}
}
return newNodes.build();
}
private static boolean shouldDeleteSpaceBetweenThisAndSet(Node node) {
return node instanceof CommentTokenNode
|| node instanceof ReferenceNode
|| node instanceof SetNode
|| node instanceof MacroDefinitionTokenNode;
}
private static boolean isWhitespaceLiteral(Node node) {
if (node instanceof ConstantExpressionNode) {
Object constant = node.evaluate(null);
return constant instanceof String && CharMatcher.whitespace().matchesAllOf((String) constant);
}
return false;
}
/**
* Parse subtrees until one of the token types in {@code stopSet} is encountered.
* If this is the top level, {@code stopSet} will include {@link EofNode} so parsing will stop
* when it reaches the end of the input. Otherwise, if an {@code EofNode} is encountered it is an
* error because we have something like {@code #if} without {@code #end}.
*
* @param stopSet the kinds of tokens that will stop the parse. For example, if we are parsing
* after an {@code #if}, we will stop at any of {@code #else}, {@code #elseif},
* or {@code #end}.
* @param forWhat the token that triggered this call, for example the {@code #if} whose
* {@code #end} etc we are looking for.
*
* @return a Node that is the concatenation of the parsed subtrees
*/
private Node parseTo(Set> stopSet, TokenNode forWhat) {
ImmutableList.Builder nodeList = ImmutableList.builder();
while (true) {
Node currentNode = currentNode();
if (stopSet.contains(currentNode.getClass())) {
break;
}
if (currentNode instanceof EofNode) {
throw new ParseException(
"Reached end of file while parsing " + forWhat.name(), forWhat.lineNumber);
}
Node parsed;
if (currentNode instanceof TokenNode) {
parsed = parseTokenNode();
} else {
parsed = currentNode;
nextNode();
}
nodeList.add(parsed);
}
return Node.cons(forWhat.lineNumber, nodeList.build());
}
private Node currentNode() {
return nodes.get(nodeIndex);
}
private Node nextNode() {
Node currentNode = currentNode();
if (currentNode instanceof EofNode) {
return currentNode;
} else {
nodeIndex++;
return currentNode();
}
}
private Node parseTokenNode() {
TokenNode tokenNode = (TokenNode) currentNode();
nextNode();
if (tokenNode instanceof CommentTokenNode) {
return emptyNode(tokenNode.lineNumber);
} else if (tokenNode instanceof IfTokenNode) {
return parseIfOrElseIf((IfTokenNode) tokenNode);
} else if (tokenNode instanceof ForEachTokenNode) {
return parseForEach((ForEachTokenNode) tokenNode);
} else if (tokenNode instanceof MacroDefinitionTokenNode) {
return parseMacroDefinition((MacroDefinitionTokenNode) tokenNode);
} else {
throw new IllegalArgumentException(
"Unexpected token: " + tokenNode.name() + " on line " + tokenNode.lineNumber);
}
}
private Node parseForEach(ForEachTokenNode forEach) {
Node body = parseTo(END_SET, forEach);
nextNode(); // Skip #end
return new ForEachNode(forEach.lineNumber, forEach.var, forEach.collection, body);
}
private Node parseIfOrElseIf(IfOrElseIfTokenNode ifOrElseIf) {
Node truePart = parseTo(ELSE_ELSE_IF_END_SET, ifOrElseIf);
Node falsePart;
Node token = currentNode();
nextNode(); // Skip #else or #elseif (cond) or #end.
if (token instanceof EndTokenNode) {
falsePart = emptyNode(token.lineNumber);
} else if (token instanceof ElseTokenNode) {
falsePart = parseTo(END_SET, ifOrElseIf);
nextNode(); // Skip #end
} else if (token instanceof ElseIfTokenNode) {
// We've seen #if (condition1) ... #elseif (condition2). currentToken is the first token
// after (condition2). We pretend that we've just seen #if (condition2) and parse out
// the remainder (which might have further #elseif and final #else). Then we pretend that
// we actually saw #if (condition1) ... #else #if (condition2) ...remainder ... #end #end.
falsePart = parseIfOrElseIf((ElseIfTokenNode) token);
} else {
throw new AssertionError(currentNode());
}
return new IfNode(ifOrElseIf.lineNumber, ifOrElseIf.condition, truePart, falsePart);
}
private Node parseMacroDefinition(MacroDefinitionTokenNode macroDefinition) {
Node body = parseTo(END_SET, macroDefinition);
nextNode(); // Skip #end
if (!macros.containsKey(macroDefinition.name)) {
Macro macro = new Macro(
macroDefinition.lineNumber, macroDefinition.name, macroDefinition.parameterNames, body);
macros.put(macroDefinition.name, macro);
}
return emptyNode(macroDefinition.lineNumber);
}
private void linkMacroCalls() {
for (Node node : nodes) {
if (node instanceof MacroCallNode) {
linkMacroCall((MacroCallNode) node);
}
}
}
private void linkMacroCall(MacroCallNode macroCall) {
Macro macro = macros.get(macroCall.name());
if (macro == null) {
throw new ParseException(
"#" + macroCall.name()
+ " is neither a standard directive nor a macro that has been defined",
macroCall.lineNumber);
}
if (macro.parameterCount() != macroCall.argumentCount()) {
throw new ParseException(
"Wrong number of arguments to #" + macroCall.name()
+ ": expected " + macro.parameterCount()
+ ", got " + macroCall.argumentCount(),
macroCall.lineNumber);
}
macroCall.setMacro(macro);
}
}
