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|
/**
* @file lscript_readlso.cpp
* @brief classes to read lso file
*
* $LicenseInfo:firstyear=2002&license=viewergpl$
*
* Copyright (c) 2002-2008, Linden Research, Inc.
*
* Second Life Viewer Source Code
* The source code in this file ("Source Code") is provided by Linden Lab
* to you under the terms of the GNU General Public License, version 2.0
* ("GPL"), unless you have obtained a separate licensing agreement
* ("Other License"), formally executed by you and Linden Lab. Terms of
* the GPL can be found in doc/GPL-license.txt in this distribution, or
* online at http://secondlife.com/developers/opensource/gplv2
*
* There are special exceptions to the terms and conditions of the GPL as
* it is applied to this Source Code. View the full text of the exception
* in the file doc/FLOSS-exception.txt in this software distribution, or
* online at http://secondlife.com/developers/opensource/flossexception
*
* By copying, modifying or distributing this software, you acknowledge
* that you have read and understood your obligations described above,
* and agree to abide by those obligations.
*
* ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
* WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
* COMPLETENESS OR PERFORMANCE.
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "lscript_readlso.h"
#include "lscript_library.h"
#include "lscript_alloc.h"
LLScriptLSOParse::LLScriptLSOParse(FILE *fp)
{
U8 sizearray[4];
S32 filesize;
S32 pos = 0;
if (fread(&sizearray, 1, 4, fp) != 4)
{
llwarns << "Short read" << llendl;
filesize = 0;
} else {
filesize = bytestream2integer(sizearray, pos);
}
mRawData = new U8[filesize];
fseek(fp, 0, SEEK_SET);
if (fread(mRawData, 1, filesize, fp) != filesize)
{
llwarns << "Short read" << llendl;
}
initOpCodePrinting();
}
LLScriptLSOParse::LLScriptLSOParse(U8 *buffer)
{
mRawData = buffer;
initOpCodePrinting();
}
LLScriptLSOParse::~LLScriptLSOParse()
{
delete [] mRawData;
}
void LLScriptLSOParse::printData(FILE *fp)
{
printNameDesc(fp);
printRegisters(fp);
printGlobals(fp);
printGlobalFunctions(fp);
printStates(fp);
printHeap(fp);
}
void LLScriptLSOParse::printNameDesc(FILE *fp)
{
fprintf(fp, "=============================\n\n");
}
S32 gMajorVersion = 0;
void LLScriptLSOParse::printRegisters(FILE *fp)
{
// print out registers first
S32 i;
fprintf(fp, "=============================\n");
fprintf(fp, "Registers\n");
fprintf(fp, "=============================\n");
S32 version = get_register(mRawData, LREG_VN);
if (version == LSL2_VERSION1_END_NUMBER)
{
gMajorVersion = LSL2_MAJOR_VERSION_ONE;
}
else if (version == LSL2_VERSION_NUMBER)
{
gMajorVersion = LSL2_MAJOR_VERSION_TWO;
}
for (i = LREG_IP; i < LREG_EOF; i++)
{
if (i < LREG_NCE)
{
fprintf(fp, "%s: 0x%X\n", gLSCRIPTRegisterNames[i], get_register(mRawData, (LSCRIPTRegisters)i));
}
else if (gMajorVersion == LSL2_MAJOR_VERSION_TWO)
{
U64 data = get_register_u64(mRawData, (LSCRIPTRegisters)i);
fprintf(fp, "%s: 0x%X%X\n", gLSCRIPTRegisterNames[i], (U32)(data>>32), (U32)(data && 0xFFFFFFFF));
}
}
fprintf(fp, "=============================\n\n");
}
void LLScriptLSOParse::printGlobals(FILE *fp)
{
// print out registers first
S32 offset, varoffset;
S32 ivalue;
F32 fpvalue;
LLVector3 vvalue;
LLQuaternion qvalue;
char name[256]; /*Flawfinder: ignore*/
U8 type;
S32 global_v_offset = get_register(mRawData, LREG_GVR);
S32 global_f_offset = get_register(mRawData, LREG_GFR);
fprintf(fp, "=============================\n");
fprintf(fp, "[0x%X] Global Variables\n", global_v_offset);
fprintf(fp, "=============================\n");
while (global_v_offset < global_f_offset)
{
// get offset to skip past name
varoffset = global_v_offset;
offset = bytestream2integer(mRawData, global_v_offset);
// get typeexport
type = *(mRawData + global_v_offset++);
// set name
bytestream2char(name, mRawData, global_v_offset);
switch(type)
{
case LST_INTEGER:
ivalue = bytestream2integer(mRawData, global_v_offset);
fprintf(fp, "[0x%X] integer %s = %d\n", varoffset, name, ivalue);
break;
case LST_FLOATINGPOINT:
fpvalue = bytestream2float(mRawData, global_v_offset);
fprintf(fp, "[0x%X] integer %s = %f\n", varoffset, name, fpvalue);
break;
case LST_STRING:
ivalue = bytestream2integer(mRawData, global_v_offset);
fprintf(fp, "[0x%X] string %s = 0x%X\n", varoffset, name, ivalue + get_register(mRawData, LREG_HR) - 1);
break;
case LST_KEY:
ivalue = bytestream2integer(mRawData, global_v_offset);
fprintf(fp, "[0x%X] key %s = 0x%X\n", varoffset, name, ivalue + get_register(mRawData, LREG_HR) - 1);
break;
case LST_VECTOR:
bytestream2vector(vvalue, mRawData, global_v_offset);
fprintf(fp, "[0x%X] vector %s = < %f, %f, %f >\n", varoffset, name, vvalue.mV[VX], vvalue.mV[VY], vvalue.mV[VZ]);
break;
case LST_QUATERNION:
bytestream2quaternion(qvalue, mRawData, global_v_offset);
fprintf(fp, "[0x%X] quaternion %s = < %f, %f, %f, %f >\n", varoffset, name, qvalue.mQ[VX], qvalue.mQ[VY], qvalue.mQ[VZ], qvalue.mQ[VS]);
break;
case LST_LIST:
ivalue = bytestream2integer(mRawData, global_v_offset);
fprintf(fp, "[0x%X] list %s = 0x%X\n", varoffset, name, ivalue + get_register(mRawData, LREG_HR) - 1);
break;
default:
break;
}
}
fprintf(fp, "=============================\n\n");
}
void LLScriptLSOParse::printGlobalFunctions(FILE *fp)
{
// print out registers first
S32 i, offset;
// LLVector3 vvalue; unused
// LLQuaternion qvalue; unused
char name[256]; /*Flawfinder: ignore*/
U8 type;
offset = get_register(mRawData, LREG_GFR);
S32 start_of_state = get_register(mRawData, LREG_SR);
if (start_of_state == offset)
return;
S32 global_f_offset = get_register(mRawData, LREG_GFR);
fprintf(fp, "=============================\n");
fprintf(fp, "[0x%X] Global Functions\n", global_f_offset);
fprintf(fp, "=============================\n");
S32 num_functions = bytestream2integer(mRawData, offset);
S32 orig_function_offset;
S32 function_offset;
S32 next_function_offset = 0;
S32 function_number = 0;
S32 opcode_start;
S32 opcode_end;
for (i = 0; i < num_functions; i++)
{
// jump to function
// if this is the first function
if (i == 0)
{
if (i < num_functions - 1)
{
function_offset = bytestream2integer(mRawData, offset);
next_function_offset = bytestream2integer(mRawData, offset);
function_offset += global_f_offset;
opcode_end = next_function_offset + global_f_offset;
}
else
{
function_offset = bytestream2integer(mRawData, offset);
function_offset += global_f_offset;
opcode_end = get_register(mRawData, LREG_SR);
}
}
else if (i < num_functions - 1)
{
function_offset = next_function_offset;
next_function_offset = bytestream2integer(mRawData, offset);
function_offset += global_f_offset;
opcode_end = next_function_offset + global_f_offset;
}
else
{
function_offset = next_function_offset;
function_offset += global_f_offset;
opcode_end = get_register(mRawData, LREG_SR);
}
orig_function_offset = function_offset;
// where do the opcodes start
opcode_start = bytestream2integer(mRawData, function_offset);
opcode_start += orig_function_offset;
bytestream2char(name, mRawData, function_offset);
// get return type
type = *(mRawData + function_offset++);
fprintf(fp, "[Function #%d] [0x%X] %s\n", function_number, orig_function_offset, name);
fprintf(fp, "\tReturn Type: %s\n", LSCRIPTTypeNames[type]);
type = *(mRawData + function_offset++);
S32 params;
params = 0;
S32 pcount = 0;
while (type)
{
bytestream2char(name, mRawData, function_offset);
fprintf(fp, "\tParameter #%d: %s %s\n", pcount++, LSCRIPTTypeNames[type], name);
type = *(mRawData + function_offset++);
}
fprintf(fp, "\t\tOpCodes: 0x%X - 0x%X\n", opcode_start, opcode_end);
printOpCodeRange(fp, opcode_start, opcode_end, 2);
function_number++;
}
fprintf(fp, "=============================\n\n");
}
void LLScriptLSOParse::printStates(FILE *fp)
{
// print out registers first
S32 i, offset;
U32 j, k;
// LLVector3 vvalue; unused
// LLQuaternion qvalue; unused
char name[256]; /*Flawfinder: ignore*/
S32 state_offset = get_register(mRawData, LREG_SR);
fprintf(fp, "=============================\n");
fprintf(fp, "[0x%X] States\n", state_offset);
fprintf(fp, "=============================\n");
offset = state_offset;
S32 num_states = bytestream2integer(mRawData, offset);
S32 state_info_offset;
S32 event_jump_table;
U64 event_handlers;
S32 event_offset;
S32 original_event_offset;
S32 opcode_start;
S32 worst_case_opcode_end;
S32 opcode_end;
S32 stack_size;
S32 read_ahead;
S32 first_jump = 0;
for (i = 0; i < num_states; i++)
{
state_info_offset = bytestream2integer(mRawData, offset);
if (gMajorVersion == LSL2_MAJOR_VERSION_TWO)
event_handlers = bytestream2u64(mRawData, offset);
else
event_handlers = bytestream2integer(mRawData, offset);
if (!first_jump)
{
first_jump = state_info_offset;
}
read_ahead = offset;
if (offset < first_jump + state_offset)
{
worst_case_opcode_end = bytestream2integer(mRawData, read_ahead) + state_offset;
}
else
{
worst_case_opcode_end = get_register(mRawData, LREG_HR);
}
state_info_offset += state_offset;
fprintf(fp, "[0x%X] ", state_info_offset);
state_info_offset += LSCRIPTDataSize[LST_INTEGER];
bytestream2char(name, mRawData, state_info_offset);
fprintf(fp, "%s\n", name);
event_jump_table = state_info_offset;
// run run through the handlers
for (j = LSTT_STATE_BEGIN; j < LSTT_STATE_END; j++)
{
if (event_handlers & LSCRIPTStateBitField[j])
{
event_offset = bytestream2integer(mRawData, state_info_offset);
stack_size = bytestream2integer(mRawData, state_info_offset);
read_ahead = event_jump_table;
S32 temp_end;
S32 dummy;
opcode_end = worst_case_opcode_end;
for (k = LSTT_STATE_BEGIN; k < LSTT_STATE_END; k++)
{
if (event_handlers & LSCRIPTStateBitField[k])
{
temp_end = bytestream2integer(mRawData, read_ahead);
dummy = bytestream2integer(mRawData, read_ahead);
if ( (temp_end < opcode_end)
&&(temp_end > event_offset))
{
opcode_end = temp_end;
}
}
}
if (event_offset)
{
event_offset += event_jump_table;
if (opcode_end < worst_case_opcode_end)
opcode_end += event_jump_table;
original_event_offset = event_offset;
fprintf(fp, "\t[0x%X] ", event_offset);
opcode_start = bytestream2integer(mRawData, event_offset);
opcode_start += original_event_offset;
switch(j)
{
case LSTT_STATE_ENTRY: // LSTT_STATE_ENTRY
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
break;
case LSTT_STATE_EXIT: // LSTT_STATE_EXIT
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
break;
case LSTT_TOUCH_START: // LSTT_TOUCH_START
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
break;
case LSTT_TOUCH: // LSTT_TOUCH
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
break;
case LSTT_TOUCH_END: // LSTT_TOUCH_END
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
break;
case LSTT_COLLISION_START: // LSTT_COLLISION_START
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
break;
case LSTT_COLLISION: // LSTT_COLLISION
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
break;
case LSTT_COLLISION_END: // LSTT_COLLISION_END
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
break;
case LSTT_LAND_COLLISION_START: // LSTT_LAND_COLLISION_START
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
break;
case LSTT_LAND_COLLISION: // LSTT_LAND_COLLISION
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
break;
case LSTT_LAND_COLLISION_END: // LSTT_LAND_COLLISION_END
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
break;
case LSTT_INVENTORY: // LSTT_INVENTORY
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
break;
case LSTT_ATTACH: // LSTT_ATTACH
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
break;
case LSTT_DATASERVER: // LSTT_DATASERVER
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tstring %s\n", name);
break;
case LSTT_TIMER: // LSTT_TIMER
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
break;
case LSTT_MOVING_START: // LSTT_MOVING_START
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
break;
case LSTT_MOVING_END: // LSTT_MOVING_END
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
break;
case LSTT_CHAT: // LSTT_CHAT
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tstring %s\n", name);
break;
case LSTT_OBJECT_REZ: // LSTT_OBJECT_REZ
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
break;
case LSTT_REMOTE_DATA: // LSTT_REMOTE_DATA
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tstring %s\n", name);
break;
case LSTT_REZ: // LSTT_REZ
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
break;
case LSTT_SENSOR: // LSTT_SENSOR
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
break;
case LSTT_NO_SENSOR: // LSTT_NO_SENSOR
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
break;
case LSTT_CONTROL: // LSTT_CONTROL
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
break;
case LSTT_LINK_MESSAGE: // LSTT_LINK_MESSAGE
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tstring %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
break;
case LSTT_MONEY: // LSTT_MONEY
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
break;
case LSTT_EMAIL: // LSTT_EMAIL
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tstring %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tstring %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tstring %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
break;
case LSTT_AT_TARGET: // LSTT_AT_TARGET
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tvector %s\n", name);
break;
case LSTT_NOT_AT_TARGET: // LSTT_NOT_AT_TARGET
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
break;
case LSTT_AT_ROT_TARGET: // LSTT_AT_ROT_TARGET
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tquaternion %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tquaternion %s\n", name);
break;
case LSTT_NOT_AT_ROT_TARGET: // LSTT_NOT_AT_TARGET
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
break;
case LSTT_RTPERMISSIONS: // LSTT_RTPERMISSIONS
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
fprintf(fp, "\t\tinteger %s\n", name);
bytestream2char(name, mRawData, event_offset);
break;
case LSTT_HTTP_RESPONSE: // LSTT_REMOTE_DATA ?!?!?!
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "%s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tkey %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tinteger %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tlist %s\n", name);
bytestream2char(name, mRawData, event_offset);
fprintf(fp, "\t\tstring %s\n", name);
break;
default:
break;
}
fprintf(fp, "\t\tStack Size: %d\n", stack_size);
fprintf(fp, "\t\t\tOpCodes: 0x%X - 0x%X\n", opcode_start, opcode_end);
printOpCodeRange(fp, opcode_start, opcode_end, 3);
}
}
}
}
fprintf(fp, "=============================\n\n");
}
void LLScriptLSOParse::printHeap(FILE *fp)
{
// print out registers first
S32 heap_offset = get_register(mRawData, LREG_HR);
S32 heap_pointer = get_register(mRawData, LREG_HP);
fprintf(fp, "=============================\n");
fprintf(fp, "[0x%X - 0x%X] Heap\n", heap_offset, heap_pointer);
fprintf(fp, "=============================\n");
lsa_fprint_heap(mRawData, fp);
fprintf(fp, "=============================\n\n");
}
void lso_print_tabs(FILE *fp, S32 tabs)
{
S32 i;
for (i = 0; i < tabs; i++)
{
fprintf(fp, "\t");
}
}
void LLScriptLSOParse::printOpCodes(FILE *fp, S32 &offset, S32 tabs)
{
U8 opcode = *(mRawData + offset);
mPrintOpCodes[opcode](fp, mRawData, offset, tabs);
}
void LLScriptLSOParse::printOpCodeRange(FILE *fp, S32 start, S32 end, S32 tabs)
{
while (start < end)
{
printOpCodes(fp, start, tabs);
}
}
void LLScriptLSOParse::initOpCodePrinting()
{
S32 i;
for (i = 0; i < 256; i++)
{
mPrintOpCodes[i] = print_noop;
}
mPrintOpCodes[LSCRIPTOpCodes[LOPC_NOOP]] = print_noop;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_POP]] = print_pop;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_POPS]] = print_pops;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_POPL]] = print_popl;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_POPV]] = print_popv;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_POPQ]] = print_popq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_POPARG]] = print_poparg;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_POPIP]] = print_popip;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_POPBP]] = print_popbp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_POPSP]] = print_popsp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_POPSLR]] = print_popslr;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_DUP]] = print_dup;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_DUPS]] = print_dups;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_DUPL]] = print_dupl;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_DUPV]] = print_dupv;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_DUPQ]] = print_dupq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STORE]] = print_store;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STORES]] = print_stores;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STOREL]] = print_storel;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STOREV]] = print_storev;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STOREQ]] = print_storeq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STOREG]] = print_storeg;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STOREGS]] = print_storegs;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STOREGL]] = print_storegl;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STOREGV]] = print_storegv;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STOREGQ]] = print_storegq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LOADP]] = print_loadp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LOADSP]] = print_loadsp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LOADLP]] = print_loadlp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LOADVP]] = print_loadvp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LOADQP]] = print_loadqp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LOADGP]] = print_loadgp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LOADGSP]] = print_loadgsp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LOADGLP]] = print_loadglp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LOADGVP]] = print_loadgvp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LOADGQP]] = print_loadgqp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSH]] = print_push;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHS]] = print_pushs;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHL]] = print_pushl;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHV]] = print_pushv;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHQ]] = print_pushq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHG]] = print_pushg;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHGS]] = print_pushgs;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHGL]] = print_pushgl;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHGV]] = print_pushgv;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHGQ]] = print_pushgq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHIP]] = print_puship;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHSP]] = print_pushsp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHBP]] = print_pushbp;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHARGB]] = print_pushargb;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHARGI]] = print_pushargi;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHARGF]] = print_pushargf;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHARGS]] = print_pushargs;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHARGV]] = print_pushargv;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHARGQ]] = print_pushargq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHE]] = print_pushe;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHEV]] = print_pushev;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHEQ]] = print_pusheq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PUSHARGE]] = print_pusharge;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_ADD]] = print_add;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_SUB]] = print_sub;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_MUL]] = print_mul;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_DIV]] = print_div;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_MOD]] = print_mod;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_EQ]] = print_eq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_NEQ]] = print_neq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LEQ]] = print_leq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_GEQ]] = print_geq;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_LESS]] = print_less;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_GREATER]] = print_greater;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_BITAND]] = print_bitand;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_BITOR]] = print_bitor;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_BITXOR]] = print_bitxor;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_BOOLAND]] = print_booland;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_BOOLOR]] = print_boolor;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_SHL]] = print_shl;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_SHR]] = print_shr;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_NEG]] = print_neg;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_BITNOT]] = print_bitnot;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_BOOLNOT]] = print_boolnot;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_JUMP]] = print_jump;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_JUMPIF]] = print_jumpif;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_JUMPNIF]] = print_jumpnif;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STATE]] = print_state;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_CALL]] = print_call;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_RETURN]] = print_return;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_CAST]] = print_cast;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STACKTOS]] = print_stacktos;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_STACKTOL]] = print_stacktol;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_PRINT]] = print_print;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_CALLLIB]] = print_calllib;
mPrintOpCodes[LSCRIPTOpCodes[LOPC_CALLLIB_TWO_BYTE]] = print_calllib_two_byte;
}
void print_noop(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tNOOP\n", offset++);
}
void print_pop(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPOP\n", offset++);
}
void print_pops(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPOPS\n", offset++);
}
void print_popl(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPOPL\n", offset++);
}
void print_popv(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPOPV\n", offset++);
}
void print_popq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPOPQ\n", offset++);
}
void print_poparg(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPOPARG ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_popip(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPOPIP\n", offset++);
}
void print_popbp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPOPBP\n", offset++);
}
void print_popsp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPOPSP\n", offset++);
}
void print_popslr(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPOPSLR\n", offset++);
}
void print_dup(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tDUP\n", offset++);
}
void print_dups(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tDUPS\n", offset++);
}
void print_dupl(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tDUPL\n", offset++);
}
void print_dupv(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tDUPV\n", offset++);
}
void print_dupq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tDUPQ\n", offset++);
}
void print_store(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTORE $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_stores(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTORES $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_storel(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREL $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_storev(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREV $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_storeq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREQ $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_storeg(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREG ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg + get_register(buffer, LREG_GVR));
}
void print_storegs(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREGS ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg + get_register(buffer, LREG_GVR));
}
void print_storegl(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREGL ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg + get_register(buffer, LREG_GVR));
}
void print_storegv(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREGV ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg + get_register(buffer, LREG_GVR));
}
void print_storegq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREGQ ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg + get_register(buffer, LREG_GVR));
}
void print_loadp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREP $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_loadsp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREPS $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_loadlp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREPL $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_loadvp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREVP $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_loadqp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREQP $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_loadgp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREGP ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg + get_register(buffer, LREG_GVR));
}
void print_loadgsp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREGSP ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg + get_register(buffer, LREG_GVR));
}
void print_loadglp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREGLP ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg + get_register(buffer, LREG_GVR));
}
void print_loadgvp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREGVP ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg + get_register(buffer, LREG_GVR));
}
void print_loadgqp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTOREGQP ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg + get_register(buffer, LREG_GVR));
}
void print_push(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSH $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_pushs(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHS $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_pushl(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHL $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_pushv(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHV $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_pushq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHQ $BP + ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_pushg(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHG ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "0x%X\n", arg + get_register(buffer, LREG_GVR));
}
void print_pushgs(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHGS ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "0x%X\n", arg + get_register(buffer, LREG_GVR));
}
void print_pushgl(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHGL ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "0x%X\n", arg + get_register(buffer, LREG_GVR));
}
void print_pushgv(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHGV ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "0x%X\n", arg + get_register(buffer, LREG_GVR));
}
void print_pushgq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHGQ ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "0x%X\n", arg + get_register(buffer, LREG_GVR));
}
void print_puship(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHIP\n", offset++);
}
void print_pushbp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHBP\n", offset++);
}
void print_pushsp(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHSP\n", offset++);
}
void print_pushargb(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHARGB ", offset++);
arg = *(buffer + offset++);
fprintf(fp, "%d\n", (U32)arg);
}
void print_pushargi(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHARGI ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_pushargf(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
F32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHARGF ", offset++);
arg = bytestream2float(buffer, offset);
fprintf(fp, "%f\n", arg);
}
void print_pushargs(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
char arg[1024]; /*Flawfinder: ignore*/
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHARGS ", offset++);
bytestream2char(arg, buffer, offset);
fprintf(fp, "%s\n", arg);
}
void print_pushargv(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
LLVector3 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHARGV ", offset++);
bytestream2vector(arg, buffer, offset);
fprintf(fp, "< %f, %f, %f >\n", arg.mV[VX], arg.mV[VY], arg.mV[VZ]);
}
void print_pushargq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
LLQuaternion arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHARGV ", offset++);
bytestream2quaternion(arg, buffer, offset);
fprintf(fp, "< %f, %f, %f, %f >\n", arg.mQ[VX], arg.mQ[VY], arg.mQ[VZ], arg.mQ[VS]);
}
void print_pushe(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHE\n", offset++);
}
void print_pushev(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHEV\n", offset++);
}
void print_pusheq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHEQ\n", offset++);
}
void print_pusharge(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPUSHARGE ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_add(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tADD ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_sub(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSUB ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_mul(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tMUL ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_div(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tDIV ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_mod(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tMOD ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_eq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tEQ ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_neq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tNEQ ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_leq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tLEQ ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_geq(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tGEQ ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_less(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tLESS ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_greater(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tGREATER ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_bitand(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tBITAND\n", offset++);
}
void print_bitor(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tBITOR\n", offset++);
}
void print_bitxor(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tBITXOR\n", offset++);
}
void print_booland(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tBOOLAND\n", offset++);
}
void print_boolor(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tBOOLOR\n", offset++);
}
void print_shl(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSHL\n", offset++);
}
void print_shr(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSHR\n", offset++);
}
void print_neg(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 type;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tNEG ", offset++);
type = *(buffer + offset++);
fprintf(fp, "%s\n", LSCRIPTTypeNames[type]);
}
void print_bitnot(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tBITNOT\n", offset++);
}
void print_boolnot(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tBOOLNOT\n", offset++);
}
void print_jump(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tJUMP ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_jumpif(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
U8 type;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tJUMPIF ", offset++);
type = *(buffer + offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%s, %d\n", LSCRIPTTypeNames[type], arg);
}
void print_jumpnif(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
U8 type;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tJUMPNIF ", offset++);
type = *(buffer + offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%s, %d\n", LSCRIPTTypeNames[type], arg);
}
void print_state(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTATE ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_call(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tCALL ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_return(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tRETURN\n", offset++);
}
void print_cast(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 types;
U8 type1;
U8 type2;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tCAST ", offset++);
types = *(buffer + offset++);
type1 = types >> 4;
type2 = types & 0xf;
fprintf(fp, "%s, %s\n", LSCRIPTTypeNames[type1], LSCRIPTTypeNames[type2]);
}
void print_stacktos(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTACKTOS ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_stacktol(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
S32 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tSTACKTOL ", offset++);
arg = bytestream2integer(buffer, offset);
fprintf(fp, "%d\n", arg);
}
void print_print(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tPRINT ", offset++);
U8 type = *(buffer + offset++);
fprintf(fp, "%s\n", LSCRIPTTypeNames[type]);
}
void print_calllib(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U8 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tCALLLIB ", offset++);
arg = *(buffer + offset++);
fprintf(fp, "%d (%s)\n", (U32)arg, gScriptLibrary.mFunctions[arg]->mName);
}
void print_calllib_two_byte(FILE *fp, U8 *buffer, S32 &offset, S32 tabs)
{
U16 arg;
lso_print_tabs(fp, tabs);
fprintf(fp, "[0x%X]\tCALLLIB_TWO_BYTE ", offset++);
arg = bytestream2u16(buffer, offset);
fprintf(fp, "%d (%s)\n", (U32)arg, gScriptLibrary.mFunctions[arg]->mName);
}
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