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/*******************************************************************************
 * Copyright (c) 2009 Luaj.org. All rights reserved.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 * THE SOFTWARE.
 */
package org.luaj.vm2.compiler

import org.luaj.vm2.*
import org.luaj.vm2.internal.*
import org.luaj.vm2.io.*

/** Class to dump a [Prototype] into an output stream, as part of compiling.
 *
 *
 * Generally, this class is not used directly, but rather indirectly via a command
 * line interface tool such as [luac].
 *
 *
 * A lua binary file is created via [DumpState.dump]:
 * 
 `Globals globals = JsePlatform.standardGlobals();
 * Prototype p = globals.compilePrototype(new StringReader("print('hello, world')"), "main.lua");
 * ByteArrayOutputStream o = new ByteArrayOutputStream();
 * DumpState.dump(p, o, false);
 * byte[] lua_binary_file_bytes = o.toByteArray();
` *  
* * The [LoadState] may be used directly to undump these bytes: *
 `Prototypep = LoadState.instance.undump(new ByteArrayInputStream(lua_binary_file_bytes), "main.lua");
 * LuaClosure c = new LuaClosure(p, globals);
 * c.call();
` *  
* * * More commonly, the [Globals.undumper] may be used to undump them: *
 `Prototype p = globals.loadPrototype(new ByteArrayInputStream(lua_binary_file_bytes), "main.lua", "b");
 * LuaClosure c = new LuaClosure(p, globals);
 * c.call();
` *  
* * @see luac * * @see LoadState * * @see Globals * * @see Prototype */ class DumpState(w: LuaBinOutput, internal var strip: Boolean) { // header fields private var IS_LITTLE_ENDIAN = false private var NUMBER_FORMAT = NUMBER_FORMAT_DEFAULT private var SIZEOF_LUA_NUMBER = 8 internal var writer: LuaBinOutput = w internal var status: Int = 0 internal fun dumpBlock(b: ByteArray, size: Int) { writer.write(b, 0, size) } internal fun dumpChar(b: Int) { writer.write(b) } internal fun dumpInt(x: Int) { if (IS_LITTLE_ENDIAN) { writer.writeByte(x and 0xff) writer.writeByte(x shr 8 and 0xff) writer.writeByte(x shr 16 and 0xff) writer.writeByte(x shr 24 and 0xff) } else { writer.writeInt(x) } } internal fun dumpString(s: LuaString) { val len = s.len().toint() dumpInt(len + 1) s.write(writer, 0, len) writer.write(0) } internal fun dumpDouble(d: Double) { val l = (d).toRawBits() if (IS_LITTLE_ENDIAN) { dumpInt(l.toInt()) dumpInt((l shr 32).toInt()) } else { writer.writeLong(l) } } internal fun dumpCode(f: Prototype) { val code = f.code val n = code.size dumpInt(n) for (i in 0 until n) dumpInt(code[i]) } internal fun dumpConstants(f: Prototype) { val k = f.k var i: Int var n = k.size dumpInt(n) i = 0 while (i < n) { val o = k[i] when (o.type()) { LuaValue.TNIL -> writer.write(LuaValue.TNIL) LuaValue.TBOOLEAN -> { writer.write(LuaValue.TBOOLEAN) dumpChar(if (o.toboolean()) 1 else 0) } LuaValue.TNUMBER -> when (NUMBER_FORMAT) { NUMBER_FORMAT_FLOATS_OR_DOUBLES -> { writer.write(LuaValue.TNUMBER) dumpDouble(o.todouble()) } NUMBER_FORMAT_INTS_ONLY -> { if (!ALLOW_INTEGER_CASTING && !o.isint()) throw IllegalArgumentException("not an integer: $o") writer.write(LuaValue.TNUMBER) dumpInt(o.toint()) } NUMBER_FORMAT_NUM_PATCH_INT32 -> if (o.isint()) { writer.write(LuaValue.TINT) dumpInt(o.toint()) } else { writer.write(LuaValue.TNUMBER) dumpDouble(o.todouble()) } else -> throw IllegalArgumentException("number format not supported: $NUMBER_FORMAT") } LuaValue.TSTRING -> { writer.write(LuaValue.TSTRING) dumpString(o as LuaString) } else -> throw IllegalArgumentException("bad type for $o") } i++ } n = f.p.size dumpInt(n) i = 0 while (i < n) { dumpFunction(f.p[i]) i++ } } internal fun dumpUpvalues(f: Prototype) { val n = f.upvalues.size dumpInt(n) for (i in 0 until n) { writer.writeByte(if (f.upvalues[i].instack) 1 else 0) writer.writeByte(f.upvalues[i].idx.toInt()) } } internal fun dumpDebug(f: Prototype) { if (strip) dumpInt(0) else dumpString(f.source) var n = if (strip) 0 else f.lineinfo.size dumpInt(n) var i = 0 while (i < n) { dumpInt(f.lineinfo[i]) i++ } n = if (strip) 0 else f.locvars.size dumpInt(n) i = 0 while (i < n) { val lvi = f.locvars[i] dumpString(lvi.varname) dumpInt(lvi.startpc) dumpInt(lvi.endpc) i++ } n = if (strip) 0 else f.upvalues.size dumpInt(n) i = 0 while (i < n) { dumpString(f.upvalues[i].name!!) i++ } } internal fun dumpFunction(f: Prototype) { dumpInt(f.linedefined) dumpInt(f.lastlinedefined) dumpChar(f.numparams) dumpChar(f.is_vararg) dumpChar(f.maxstacksize) dumpCode(f) dumpConstants(f) dumpUpvalues(f) dumpDebug(f) } internal fun dumpHeader() { writer.write(LoadState.LUA_SIGNATURE) writer.write(LoadState.LUAC_VERSION) writer.write(LoadState.LUAC_FORMAT) writer.write(if (IS_LITTLE_ENDIAN) 1 else 0) writer.write(SIZEOF_INT) writer.write(SIZEOF_SIZET) writer.write(SIZEOF_INSTRUCTION) writer.write(SIZEOF_LUA_NUMBER) writer.write(NUMBER_FORMAT) writer.write(LoadState.LUAC_TAIL) } companion object { /** set true to allow integer compilation */ @kotlin.jvm.JvmField var ALLOW_INTEGER_CASTING = false /** format corresponding to non-number-patched lua, all numbers are floats or doubles */ @kotlin.jvm.JvmField val NUMBER_FORMAT_FLOATS_OR_DOUBLES = 0 /** format corresponding to non-number-patched lua, all numbers are ints */ @kotlin.jvm.JvmField val NUMBER_FORMAT_INTS_ONLY = 1 /** format corresponding to number-patched lua, all numbers are 32-bit (4 byte) ints */ @kotlin.jvm.JvmField val NUMBER_FORMAT_NUM_PATCH_INT32 = 4 /** default number format */ @kotlin.jvm.JvmField val NUMBER_FORMAT_DEFAULT = NUMBER_FORMAT_FLOATS_OR_DOUBLES private val SIZEOF_INT = 4 private val SIZEOF_SIZET = 4 private val SIZEOF_INSTRUCTION = 4 /* ** dump Lua function as precompiled chunk */ fun dump(f: Prototype, w: LuaBinOutput, strip: Boolean): Int { val D = DumpState(w, strip) D.dumpHeader() D.dumpFunction(f) return D.status } /** * * @param f the function to dump * @param w the output stream to dump to * @param stripDebug true to strip debugging info, false otherwise * @param numberFormat one of NUMBER_FORMAT_FLOATS_OR_DOUBLES, NUMBER_FORMAT_INTS_ONLY, NUMBER_FORMAT_NUM_PATCH_INT32 * @param littleendian true to use little endian for numbers, false for big endian * @return 0 if dump succeeds * @com.soywiz.luak.compat.java.Throws IOException * @com.soywiz.luak.compat.java.Throws IllegalArgumentException if the number format it not supported */ fun dump(f: Prototype, w: LuaBinOutput, stripDebug: Boolean, numberFormat: Int, littleendian: Boolean): Int { when (numberFormat) { NUMBER_FORMAT_FLOATS_OR_DOUBLES, NUMBER_FORMAT_INTS_ONLY, NUMBER_FORMAT_NUM_PATCH_INT32 -> { } else -> throw IllegalArgumentException("number format not supported: $numberFormat") } val D = DumpState(w, stripDebug) D.IS_LITTLE_ENDIAN = littleendian D.NUMBER_FORMAT = numberFormat D.SIZEOF_LUA_NUMBER = if (numberFormat == NUMBER_FORMAT_INTS_ONLY) 4 else 8 D.dumpHeader() D.dumpFunction(f) return D.status } } }




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