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/*
* Copyright (c) 2012-2017 The ANTLR Project. All rights reserved.
* Use of this file is governed by the BSD 3-clause license that
* can be found in the LICENSE.txt file in the project root.
*/
package org.antlr.v4.runtime;
import org.antlr.v4.runtime.misc.Interval;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
/**
* Useful for rewriting out a buffered input token stream after doing some
* augmentation or other manipulations on it.
*
*
* You can insert stuff, replace, and delete chunks. Note that the operations
* are done lazily--only if you convert the buffer to a {@link String} with
* {@link TokenStream#getText()}. This is very efficient because you are not
* moving data around all the time. As the buffer of tokens is converted to
* strings, the {@link #getText()} method(s) scan the input token stream and
* check to see if there is an operation at the current index. If so, the
* operation is done and then normal {@link String} rendering continues on the
* buffer. This is like having multiple Turing machine instruction streams
* (programs) operating on a single input tape. :)
*
*
* This rewriter makes no modifications to the token stream. It does not ask the
* stream to fill itself up nor does it advance the input cursor. The token
* stream {@link TokenStream#index()} will return the same value before and
* after any {@link #getText()} call.
*
*
* The rewriter only works on tokens that you have in the buffer and ignores the
* current input cursor. If you are buffering tokens on-demand, calling
* {@link #getText()} halfway through the input will only do rewrites for those
* tokens in the first half of the file.
*
*
* Since the operations are done lazily at {@link #getText}-time, operations do
* not screw up the token index values. That is, an insert operation at token
* index {@code i} does not change the index values for tokens
* {@code i}+1..n-1.
*
*
* Because operations never actually alter the buffer, you may always get the
* original token stream back without undoing anything. Since the instructions
* are queued up, you can easily simulate transactions and roll back any changes
* if there is an error just by removing instructions. For example,
*
*
* CharStream input = new ANTLRFileStream("input");
* TLexer lex = new TLexer(input);
* CommonTokenStream tokens = new CommonTokenStream(lex);
* T parser = new T(tokens);
* TokenStreamRewriter rewriter = new TokenStreamRewriter(tokens);
* parser.startRule();
*
*
*
* Then in the rules, you can execute (assuming rewriter is visible):
*
*
* Token t,u;
* ...
* rewriter.insertAfter(t, "text to put after t");}
* rewriter.insertAfter(u, "text after u");}
* System.out.println(rewriter.getText());
*
*
*
* You can also have multiple "instruction streams" and get multiple rewrites
* from a single pass over the input. Just name the instruction streams and use
* that name again when printing the buffer. This could be useful for generating
* a C file and also its header file--all from the same buffer:
*
*
* rewriter.insertAfter("pass1", t, "text to put after t");}
* rewriter.insertAfter("pass2", u, "text after u");}
* System.out.println(rewriter.getText("pass1"));
* System.out.println(rewriter.getText("pass2"));
*
*
*
* If you don't use named rewrite streams, a "default" stream is used as the
* first example shows.
*/
public class TokenStreamRewriter {
public static final String DEFAULT_PROGRAM_NAME = "default";
public static final int PROGRAM_INIT_SIZE = 100;
public static final int MIN_TOKEN_INDEX = 0;
// Define the rewrite operation hierarchy
public class RewriteOperation {
/** What index into rewrites List are we? */
protected int instructionIndex;
/** Token buffer index. */
protected int index;
protected Object text;
protected RewriteOperation(int index) {
this.index = index;
}
protected RewriteOperation(int index, Object text) {
this.index = index;
this.text = text;
}
/** Execute the rewrite operation by possibly adding to the buffer.
* Return the index of the next token to operate on.
*/
public int execute(StringBuilder buf) {
return index;
}
@Override
public String toString() {
String opName = getClass().getName();
int $index = opName.indexOf('$');
opName = opName.substring($index+1, opName.length());
return "<"+opName+"@"+tokens.get(index)+
":\""+text+"\">";
}
}
class InsertBeforeOp extends RewriteOperation {
public InsertBeforeOp(int index, Object text) {
super(index,text);
}
@Override
public int execute(StringBuilder buf) {
buf.append(text);
if ( tokens.get(index).getType()!=Token.EOF ) {
buf.append(tokens.get(index).getText());
}
return index+1;
}
}
/** Distinguish between insert after/before to do the "insert afters"
* first and then the "insert befores" at same index. Implementation
* of "insert after" is "insert before index+1".
*/
class InsertAfterOp extends InsertBeforeOp {
public InsertAfterOp(int index, Object text) {
super(index+1, text); // insert after is insert before index+1
}
}
/** I'm going to try replacing range from x..y with (y-x)+1 ReplaceOp
* instructions.
*/
class ReplaceOp extends RewriteOperation {
protected int lastIndex;
public ReplaceOp(int from, int to, Object text) {
super(from,text);
lastIndex = to;
}
@Override
public int execute(StringBuilder buf) {
if ( text!=null ) {
buf.append(text);
}
return lastIndex+1;
}
@Override
public String toString() {
if ( text==null ) {
return "";
}
return "";
}
}
/** Our source stream */
protected final TokenStream tokens;
/** You may have multiple, named streams of rewrite operations.
* I'm calling these things "programs."
* Maps String (name) → rewrite (List)
*/
protected final Map> programs;
/** Map String (program name) → Integer index */
protected final Map lastRewriteTokenIndexes;
public TokenStreamRewriter(TokenStream tokens) {
this.tokens = tokens;
programs = new HashMap>();
programs.put(DEFAULT_PROGRAM_NAME,
new ArrayList(PROGRAM_INIT_SIZE));
lastRewriteTokenIndexes = new HashMap();
}
public final TokenStream getTokenStream() {
return tokens;
}
public void rollback(int instructionIndex) {
rollback(DEFAULT_PROGRAM_NAME, instructionIndex);
}
/** Rollback the instruction stream for a program so that
* the indicated instruction (via instructionIndex) is no
* longer in the stream. UNTESTED!
*/
public void rollback(String programName, int instructionIndex) {
List is = programs.get(programName);
if ( is!=null ) {
programs.put(programName, is.subList(MIN_TOKEN_INDEX,instructionIndex));
}
}
public void deleteProgram() {
deleteProgram(DEFAULT_PROGRAM_NAME);
}
/** Reset the program so that no instructions exist */
public void deleteProgram(String programName) {
rollback(programName, MIN_TOKEN_INDEX);
}
public void insertAfter(Token t, Object text) {
insertAfter(DEFAULT_PROGRAM_NAME, t, text);
}
public void insertAfter(int index, Object text) {
insertAfter(DEFAULT_PROGRAM_NAME, index, text);
}
public void insertAfter(String programName, Token t, Object text) {
insertAfter(programName,t.getTokenIndex(), text);
}
public void insertAfter(String programName, int index, Object text) {
// to insert after, just insert before next index (even if past end)
RewriteOperation op = new InsertAfterOp(index, text);
List rewrites = getProgram(programName);
op.instructionIndex = rewrites.size();
rewrites.add(op);
}
public void insertBefore(Token t, Object text) {
insertBefore(DEFAULT_PROGRAM_NAME, t, text);
}
public void insertBefore(int index, Object text) {
insertBefore(DEFAULT_PROGRAM_NAME, index, text);
}
public void insertBefore(String programName, Token t, Object text) {
insertBefore(programName, t.getTokenIndex(), text);
}
public void insertBefore(String programName, int index, Object text) {
RewriteOperation op = new InsertBeforeOp(index,text);
List rewrites = getProgram(programName);
op.instructionIndex = rewrites.size();
rewrites.add(op);
}
public void replace(int index, Object text) {
replace(DEFAULT_PROGRAM_NAME, index, index, text);
}
public void replace(int from, int to, Object text) {
replace(DEFAULT_PROGRAM_NAME, from, to, text);
}
public void replace(Token indexT, Object text) {
replace(DEFAULT_PROGRAM_NAME, indexT, indexT, text);
}
public void replace(Token from, Token to, Object text) {
replace(DEFAULT_PROGRAM_NAME, from, to, text);
}
public void replace(String programName, int from, int to, Object text) {
if ( from > to || from<0 || to<0 || to >= tokens.size() ) {
throw new IllegalArgumentException("replace: range invalid: "+from+".."+to+"(size="+tokens.size()+")");
}
RewriteOperation op = new ReplaceOp(from, to, text);
List rewrites = getProgram(programName);
op.instructionIndex = rewrites.size();
rewrites.add(op);
}
public void replace(String programName, Token from, Token to, Object text) {
replace(programName,
from.getTokenIndex(),
to.getTokenIndex(),
text);
}
public void delete(int index) {
delete(DEFAULT_PROGRAM_NAME, index, index);
}
public void delete(int from, int to) {
delete(DEFAULT_PROGRAM_NAME, from, to);
}
public void delete(Token indexT) {
delete(DEFAULT_PROGRAM_NAME, indexT, indexT);
}
public void delete(Token from, Token to) {
delete(DEFAULT_PROGRAM_NAME, from, to);
}
public void delete(String programName, int from, int to) {
replace(programName,from,to,null);
}
public void delete(String programName, Token from, Token to) {
replace(programName,from,to,null);
}
public int getLastRewriteTokenIndex() {
return getLastRewriteTokenIndex(DEFAULT_PROGRAM_NAME);
}
protected int getLastRewriteTokenIndex(String programName) {
Integer I = lastRewriteTokenIndexes.get(programName);
if ( I==null ) {
return -1;
}
return I;
}
protected void setLastRewriteTokenIndex(String programName, int i) {
lastRewriteTokenIndexes.put(programName, i);
}
protected List getProgram(String name) {
List is = programs.get(name);
if ( is==null ) {
is = initializeProgram(name);
}
return is;
}
private List initializeProgram(String name) {
List is = new ArrayList(PROGRAM_INIT_SIZE);
programs.put(name, is);
return is;
}
/** Return the text from the original tokens altered per the
* instructions given to this rewriter.
*/
public String getText() {
return getText(DEFAULT_PROGRAM_NAME, Interval.of(0,tokens.size()-1));
}
/** Return the text from the original tokens altered per the
* instructions given to this rewriter in programName.
*/
public String getText(String programName) {
return getText(programName, Interval.of(0,tokens.size()-1));
}
/** Return the text associated with the tokens in the interval from the
* original token stream but with the alterations given to this rewriter.
* The interval refers to the indexes in the original token stream.
* We do not alter the token stream in any way, so the indexes
* and intervals are still consistent. Includes any operations done
* to the first and last token in the interval. So, if you did an
* insertBefore on the first token, you would get that insertion.
* The same is true if you do an insertAfter the stop token.
*/
public String getText(Interval interval) {
return getText(DEFAULT_PROGRAM_NAME, interval);
}
public String getText(String programName, Interval interval) {
List rewrites = programs.get(programName);
int start = interval.a;
int stop = interval.b;
// ensure start/end are in range
if ( stop>tokens.size()-1 ) stop = tokens.size()-1;
if ( start<0 ) start = 0;
if ( rewrites==null || rewrites.isEmpty() ) {
return tokens.getText(interval); // no instructions to execute
}
StringBuilder buf = new StringBuilder();
// First, optimize instruction stream
Map indexToOp = reduceToSingleOperationPerIndex(rewrites);
// Walk buffer, executing instructions and emitting tokens
int i = start;
while ( i <= stop && i < tokens.size() ) {
RewriteOperation op = indexToOp.get(i);
indexToOp.remove(i); // remove so any left have index size-1
Token t = tokens.get(i);
if ( op==null ) {
// no operation at that index, just dump token
if ( t.getType()!=Token.EOF ) buf.append(t.getText());
i++; // move to next token
}
else {
i = op.execute(buf); // execute operation and skip
}
}
// include stuff after end if it's last index in buffer
// So, if they did an insertAfter(lastValidIndex, "foo"), include
// foo if end==lastValidIndex.
if ( stop==tokens.size()-1 ) {
// Scan any remaining operations after last token
// should be included (they will be inserts).
for (RewriteOperation op : indexToOp.values()) {
if ( op.index >= tokens.size()-1 ) buf.append(op.text);
}
}
return buf.toString();
}
/** We need to combine operations and report invalid operations (like
* overlapping replaces that are not completed nested). Inserts to
* same index need to be combined etc... Here are the cases:
*
* I.i.u I.j.v leave alone, nonoverlapping
* I.i.u I.i.v combine: Iivu
*
* R.i-j.u R.x-y.v | i-j in x-y delete first R
* R.i-j.u R.i-j.v delete first R
* R.i-j.u R.x-y.v | x-y in i-j ERROR
* R.i-j.u R.x-y.v | boundaries overlap ERROR
*
* Delete special case of replace (text==null):
* D.i-j.u D.x-y.v | boundaries overlap combine to max(min)..max(right)
*
* I.i.u R.x-y.v | i in (x+1)-y delete I (since insert before
* we're not deleting i)
* I.i.u R.x-y.v | i not in (x+1)-y leave alone, nonoverlapping
* R.x-y.v I.i.u | i in x-y ERROR
* R.x-y.v I.x.u R.x-y.uv (combine, delete I)
* R.x-y.v I.i.u | i not in x-y leave alone, nonoverlapping
*
* I.i.u = insert u before op @ index i
* R.x-y.u = replace x-y indexed tokens with u
*
* First we need to examine replaces. For any replace op:
*
* 1. wipe out any insertions before op within that range.
* 2. Drop any replace op before that is contained completely within
* that range.
* 3. Throw exception upon boundary overlap with any previous replace.
*
* Then we can deal with inserts:
*
* 1. for any inserts to same index, combine even if not adjacent.
* 2. for any prior replace with same left boundary, combine this
* insert with replace and delete this replace.
* 3. throw exception if index in same range as previous replace
*
* Don't actually delete; make op null in list. Easier to walk list.
* Later we can throw as we add to index → op map.
*
* Note that I.2 R.2-2 will wipe out I.2 even though, technically, the
* inserted stuff would be before the replace range. But, if you
* add tokens in front of a method body '{' and then delete the method
* body, I think the stuff before the '{' you added should disappear too.
*
* Return a map from token index to operation.
*/
protected Map reduceToSingleOperationPerIndex(List rewrites) {
// System.out.println("rewrites="+rewrites);
// WALK REPLACES
for (int i = 0; i < rewrites.size(); i++) {
RewriteOperation op = rewrites.get(i);
if ( op==null ) continue;
if ( !(op instanceof ReplaceOp) ) continue;
ReplaceOp rop = (ReplaceOp)rewrites.get(i);
// Wipe prior inserts within range
List extends InsertBeforeOp> inserts = getKindOfOps(rewrites, InsertBeforeOp.class, i);
for (InsertBeforeOp iop : inserts) {
if ( iop.index == rop.index ) {
// E.g., insert before 2, delete 2..2; update replace
// text to include insert before, kill insert
rewrites.set(iop.instructionIndex, null);
rop.text = iop.text.toString() + (rop.text!=null?rop.text.toString():"");
}
else if ( iop.index > rop.index && iop.index <= rop.lastIndex ) {
// delete insert as it's a no-op.
rewrites.set(iop.instructionIndex, null);
}
}
// Drop any prior replaces contained within
List extends ReplaceOp> prevReplaces = getKindOfOps(rewrites, ReplaceOp.class, i);
for (ReplaceOp prevRop : prevReplaces) {
if ( prevRop.index>=rop.index && prevRop.lastIndex <= rop.lastIndex ) {
// delete replace as it's a no-op.
rewrites.set(prevRop.instructionIndex, null);
continue;
}
// throw exception unless disjoint or identical
boolean disjoint =
prevRop.lastIndex rop.lastIndex;
// Delete special case of replace (text==null):
// D.i-j.u D.x-y.v | boundaries overlap combine to max(min)..max(right)
if ( prevRop.text==null && rop.text==null && !disjoint ) {
//System.out.println("overlapping deletes: "+prevRop+", "+rop);
rewrites.set(prevRop.instructionIndex, null); // kill first delete
rop.index = Math.min(prevRop.index, rop.index);
rop.lastIndex = Math.max(prevRop.lastIndex, rop.lastIndex);
System.out.println("new rop "+rop);
}
else if ( !disjoint ) {
throw new IllegalArgumentException("replace op boundaries of "+rop+" overlap with previous "+prevRop);
}
}
}
// WALK INSERTS
for (int i = 0; i < rewrites.size(); i++) {
RewriteOperation op = rewrites.get(i);
if ( op==null ) continue;
if ( !(op instanceof InsertBeforeOp) ) continue;
InsertBeforeOp iop = (InsertBeforeOp)rewrites.get(i);
// combine current insert with prior if any at same index
List extends InsertBeforeOp> prevInserts = getKindOfOps(rewrites, InsertBeforeOp.class, i);
for (InsertBeforeOp prevIop : prevInserts) {
if ( prevIop.index==iop.index ) {
if ( InsertAfterOp.class.isInstance(prevIop) ) {
iop.text = catOpText(prevIop.text, iop.text);
rewrites.set(prevIop.instructionIndex, null);
}
else if ( InsertBeforeOp.class.isInstance(prevIop) ) { // combine objects
// convert to strings...we're in process of toString'ing
// whole token buffer so no lazy eval issue with any templates
iop.text = catOpText(iop.text, prevIop.text);
// delete redundant prior insert
rewrites.set(prevIop.instructionIndex, null);
}
}
}
// look for replaces where iop.index is in range; error
List extends ReplaceOp> prevReplaces = getKindOfOps(rewrites, ReplaceOp.class, i);
for (ReplaceOp rop : prevReplaces) {
if ( iop.index == rop.index ) {
rop.text = catOpText(iop.text,rop.text);
rewrites.set(i, null); // delete current insert
continue;
}
if ( iop.index >= rop.index && iop.index <= rop.lastIndex ) {
throw new IllegalArgumentException("insert op "+iop+" within boundaries of previous "+rop);
}
}
}
// System.out.println("rewrites after="+rewrites);
Map m = new HashMap();
for (int i = 0; i < rewrites.size(); i++) {
RewriteOperation op = rewrites.get(i);
if ( op==null ) continue; // ignore deleted ops
if ( m.get(op.index)!=null ) {
throw new Error("should only be one op per index");
}
m.put(op.index, op);
}
//System.out.println("index to op: "+m);
return m;
}
protected String catOpText(Object a, Object b) {
String x = "";
String y = "";
if ( a!=null ) x = a.toString();
if ( b!=null ) y = b.toString();
return x+y;
}
/** Get all operations before an index of a particular kind */
protected List extends T> getKindOfOps(List extends RewriteOperation> rewrites, Class kind, int before) {
List ops = new ArrayList();
for (int i=0; i