org.stringtemplate.v4.compiler.CompilationState Maven / Gradle / Ivy
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StringTemplate is a java template engine for generating source code,
web pages, emails, or any other formatted text output.
StringTemplate is particularly good at multi-targeted code generators,
multiple site skins, and internationalization/localization.
It evolved over years of effort developing jGuru.com.
StringTemplate also powers the ANTLR 3 and 4 code generator. Its distinguishing characteristic
is that unlike other engines, it strictly enforces model-view separation.
Strict separation makes websites and code generators more flexible
and maintainable; it also provides an excellent defense against malicious
template authors.
/*
* [The "BSD license"]
* Copyright (c) 2011 Terence Parr
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
package org.stringtemplate.v4.compiler;
import org.antlr.runtime.*;
import org.antlr.runtime.tree.CommonTree;
import org.stringtemplate.v4.Interpreter;
import org.stringtemplate.v4.misc.*;
/** Temporary data used during construction and functions that fill it / use it.
* Result is {@link #impl} {@link CompiledST} object.
*/
public class CompilationState {
/** The compiled code implementation to fill in. */
CompiledST impl = new CompiledST();
/** Track unique strings; copy into {@link CompiledST#strings} after compilation. */
StringTable stringtable = new StringTable();
/**
* Track instruction location within
* {@code impl.}{@link CompiledST#instrs instrs} array; this is next address
* to write to. Byte-addressable memory.
*/
int ip = 0;
TokenStream tokens;
ErrorManager errMgr;
public CompilationState(ErrorManager errMgr, String name, TokenStream tokens) {
this.errMgr = errMgr;
this.tokens = tokens;
impl.name = name;
impl.prefix = Misc.getPrefix(name);
}
public int defineString(String s) { return stringtable.add(s); }
public void refAttr(Token templateToken, CommonTree id) {
String name = id.getText();
if ( impl.formalArguments!=null && impl.formalArguments.get(name)!=null ) {
FormalArgument arg = impl.formalArguments.get(name);
int index = arg.index;
emit1(id, Bytecode.INSTR_LOAD_LOCAL, index);
}
else {
if ( Interpreter.predefinedAnonSubtemplateAttributes.contains(name) ) {
errMgr.compileTimeError(ErrorType.REF_TO_IMPLICIT_ATTRIBUTE_OUT_OF_SCOPE,
templateToken, id.token);
emit(id, Bytecode.INSTR_NULL);
}
else {
emit1(id, Bytecode.INSTR_LOAD_ATTR, name);
}
}
}
public void setOption(CommonTree id) {
Interpreter.Option O = Compiler.supportedOptions.get(id.getText());
emit1(id, Bytecode.INSTR_STORE_OPTION, O.ordinal());
}
public void func(Token templateToken, CommonTree id) {
Short funcBytecode = Compiler.funcs.get(id.getText());
if ( funcBytecode==null ) {
errMgr.compileTimeError(ErrorType.NO_SUCH_FUNCTION, templateToken, id.token);
emit(id, Bytecode.INSTR_POP);
}
else {
emit(id, funcBytecode);
}
}
public void emit(short opcode) { emit(null,opcode); }
public void emit(CommonTree opAST, short opcode) {
ensureCapacity(1);
if ( opAST!=null ) {
int i = opAST.getTokenStartIndex();
int j = opAST.getTokenStopIndex();
int p = ((CommonToken)tokens.get(i)).getStartIndex();
int q = ((CommonToken)tokens.get(j)).getStopIndex();
if ( !(p<0 || q<0) ) impl.sourceMap[ip] = new Interval(p, q);
}
impl.instrs[ip++] = (byte)opcode;
}
public void emit1(CommonTree opAST, short opcode, int arg) {
emit(opAST, opcode);
ensureCapacity(Bytecode.OPND_SIZE_IN_BYTES);
writeShort(impl.instrs, ip, (short)arg);
ip += Bytecode.OPND_SIZE_IN_BYTES;
}
public void emit2(CommonTree opAST, short opcode, int arg, int arg2) {
emit(opAST, opcode);
ensureCapacity(Bytecode.OPND_SIZE_IN_BYTES * 2);
writeShort(impl.instrs, ip, (short)arg);
ip += Bytecode.OPND_SIZE_IN_BYTES;
writeShort(impl.instrs, ip, (short)arg2);
ip += Bytecode.OPND_SIZE_IN_BYTES;
}
public void emit2(CommonTree opAST, short opcode, String s, int arg2) {
int i = defineString(s);
emit2(opAST, opcode, i, arg2);
}
public void emit1(CommonTree opAST, short opcode, String s) {
int i = defineString(s);
emit1(opAST, opcode, i);
}
public void insert(int addr, short opcode, String s) {
//System.out.println("before insert of "+opcode+"("+s+"):"+ Arrays.toString(impl.instrs));
ensureCapacity(1+Bytecode.OPND_SIZE_IN_BYTES);
int instrSize = 1 + Bytecode.OPND_SIZE_IN_BYTES;
System.arraycopy(impl.instrs, addr,
impl.instrs, addr + instrSize,
ip-addr); // make room for opcode, opnd
int save = ip;
ip = addr;
emit1(null,opcode, s);
ip = save+instrSize;
//System.out.println("after insert of "+opcode+"("+s+"):"+ Arrays.toString(impl.instrs));
// adjust addresses for BR and BRF
int a=addr+instrSize;
while ( a < ip ) {
byte op = impl.instrs[a];
Bytecode.Instruction I = Bytecode.instructions[op];
if ( op == Bytecode.INSTR_BR || op == Bytecode.INSTR_BRF ) {
int opnd = BytecodeDisassembler.getShort(impl.instrs, a+1);
writeShort(impl.instrs, a+1, (short)(opnd+instrSize));
}
a += I.nopnds * Bytecode.OPND_SIZE_IN_BYTES + 1;
}
//System.out.println("after insert of "+opcode+"("+s+"):"+ Arrays.toString(impl.instrs));
}
public void write(int addr, short value) {
writeShort(impl.instrs, addr, value);
}
protected void ensureCapacity(int n) {
if ( (ip+n) >= impl.instrs.length ) { // ensure room for full instruction
byte[] c = new byte[impl.instrs.length*2];
System.arraycopy(impl.instrs, 0, c, 0, impl.instrs.length);
impl.instrs = c;
Interval[] sm = new Interval[impl.sourceMap.length*2];
System.arraycopy(impl.sourceMap, 0, sm, 0, impl.sourceMap.length);
impl.sourceMap = sm;
}
}
public void indent(CommonTree indent) {
emit1(indent,Bytecode.INSTR_INDENT, indent.getText());
}
/** Write value at index into a byte array highest to lowest byte,
* left to right.
*/
public static void writeShort(byte[] memory, int index, short value) {
memory[index+0] = (byte)((value>>(8*1))&0xFF);
memory[index+1] = (byte)(value&0xFF);
}
}
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