khanat-opennel-code/code/nel/tools/3d/ligo/plugin_max/script.cpp

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// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
#define EXPORT_GET_ALLOCATOR
#include <assert.h>
#ifdef _STLPORT_VERSION
namespace std
{
float fabsf(float f);
double fabsl(double f);
}
#endif
// Various MAX and MXS includes
#include <maxversion.h>
#if MAX_VERSION_MAJOR >= 14
# include <maxscript/maxscript.h>
# include <maxscript/foundation/3dmath.h>
# include <maxscript/foundation/numbers.h>
# include <maxscript/maxwrapper/maxclasses.h>
# include <maxscript/foundation/streams.h>
# include <maxscript/foundation/mxstime.h>
# include <maxscript/maxwrapper/mxsobjects.h>
# include <maxscript/compiler/parser.h>
# include <maxscript/macros/define_instantiation_functions.h>
#else
# include <MaxScrpt/MAXScrpt.h>
# include <MaxScrpt/3dmath.h>
# include <MaxScrpt/Numbers.h>
# include <MaxScrpt/MAXclses.h>
# include <MaxScrpt/Streams.h>
# include <MaxScrpt/MSTime.h>
# include <MaxScrpt/MAXObj.h>
# include <MaxScrpt/Parser.h>
# include <MaxScrpt/definsfn.h>
#endif
#include <max.h>
#include <stdmat.h>
// Visual
#include <direct.h>
#ifdef min
#undef min
#endif
#ifdef max
#undef max
#endif
// From nel patch lib
#include "../../plugin_max/nel_patch_lib/rpo.h"
#include "../../plugin_max/nel_mesh_lib/export_nel.h"
// From nel 3d
#include "nel/3d/zone.h"
#include "nel/3d/zone_symmetrisation.h"
#include "nel/3d/nelu.h"
#include "nel/3d/landscape_model.h"
// From nel misc
#include "nel/misc/file.h"
#include "nel/misc/o_xml.h"
#include "nel/misc/i_xml.h"
#include "nel/misc/config_file.h"
// From ligo library
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#include "nel/ligo/zone_template.h"
#include "nel/ligo/ligo_config.h"
2016-11-29 19:34:35 +00:00
#include "nel/ligo/ligo_error.h"
#include "nel/../../src/ligo/ligo_material.h"
#include "nel/../../src/ligo/transition.h"
#include "nel/ligo/zone_bank.h"
#include "max_to_ligo.h"
using namespace std;
using namespace NLMISC;
using namespace NLLIGO;
using namespace NL3D;
// APP DATA
#define NEL3D_APPDATA_LIGO_USE_BOUNDINGBOX ((uint32)1342141818)
// ***************************************************************************
/// Definition of new MAXScript functions
def_visible_primitive( export_material, "NeLLigoExportMaterial");
def_visible_primitive( export_transition, "NeLLigoExportTransition");
def_visible_primitive( export_zone, "NeLLigoExportZone");
//def_visible_primitive( export_transition_zone, "NeLLigoExportTransitionZone");
def_visible_primitive( get_error_zone_template, "NeLLigoGetErrorZoneTemplate");
def_visible_primitive( get_snap , "NeLLigoGetSnap");
def_visible_primitive( get_cell_size , "NeLLigoGetCellSize");
def_visible_primitive( check_zone_with_material, "NeLLigoCheckZoneWithMaterial");
def_visible_primitive( check_zone_with_transition, "NeLLigoCheckZoneWithTransition");
def_visible_primitive( get_error_string, "NeLLigoGetErrorString");
def_visible_primitive( set_directory, "NeLLigoSetDirectory");
def_visible_primitive( get_zone_mask, "NeLLigoGetZoneMask");
def_visible_primitive( make_snapshot, "NeLLigoMakeSnapShot");
def_visible_primitive( get_zone_size, "NeLLigoGetZoneSize");
// ***************************************************************************
/// Zone template
CLigoError ScriptErrors[10];
// ***************************************************************************
bool MakeSnapShot (NLMISC::CBitmap &snapshot, const NL3D::CTileBank &tileBank, const NL3D::CTileFarBank &tileFarBank,
sint xmin, sint xmax, sint ymin, sint ymax, const CLigoConfig &config, bool errorInDialog);
bool MakeSnapShot (NLMISC::CBitmap &snapshot, const NL3D::CTileBank &tileBank, const NL3D::CTileFarBank &tileFarBank,
sint xmax, sint ymax, const CLigoConfig &config, bool errorInDialog);
// ***************************************************************************
/// Export a material
Value* export_material_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (4)
check_arg_count(export_material, 4, count);
// Check to see if the arguments match up to what we expect
TCHAR *message = _T("NeLLigoExportMaterial [Object] [Filename] [CheckOnly] [Error in dialog]");
type_check(arg_list[0], MAXNode, message);
type_check(arg_list[1], String, message);
type_check(arg_list[2], Boolean, message);
type_check(arg_list[3], Boolean, message);
// Get a good interface pointer
Interface *ip = MAXScript_interface;
// The first arg
INode *node = arg_list[0]->to_node();
nlassert (node);
// The second arg
const std::string fileName = tStrToUtf8(arg_list[1]->to_string());
// The third arg
bool checkOnly = (arg_list[2]->to_bool() != FALSE);
// The fourth arg
bool errorInDialog = (arg_list[3]->to_bool() != FALSE);
// Get a Object pointer
ObjectState os=node->EvalWorldState(ip->GetTime());
// Ok ?
if (os.obj)
{
// Convert in 3ds NeL patch mesh
RPO *tri = (RPO *) os.obj->ConvertToType(ip->GetTime(), RYKOLPATCHOBJ_CLASS_ID);
if (tri)
{
// Load the ligofile
CLigoConfig config;
if (!CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, errorInDialog))
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't load the config file ligoscape.cfg", "NeL Ligo export material",
*MAXScript_interface, errorInDialog);
}
else
{
// The zone template
CZoneTemplate zoneTemplate;
// Build the zone template
bool res = CMaxToLigo::buildZoneTemplate (node, tri->patch, zoneTemplate, config, ScriptErrors[0], ip->GetTime());
// Success ?
if (res)
{
// Build a zone
NL3D::CZone zone;
CZoneSymmetrisation zoneSymmetry;
if (tri->rpatch->exportZone (node, &tri->patch, zone, zoneSymmetry, 0, config.CellSize, config.Snap, false))
{
// Build a material
NLLIGO::CMaterial material;
// No error ?
if (res = material.build (zoneTemplate, config, ScriptErrors[0]))
{
// Save it ?
if (!checkOnly)
{
// Make a name for the zone
std::string path = CFile::getPath(fileName) + CFile::getFilenameWithoutExtension(fileName) + ".zone";
// Ok ?
bool ok = true;
// Catch exception
try
{
// Open a stream file
COFile outputfile;
if (outputfile.open (fileName))
{
// Create an xml stream
COXml outputXml;
nlverify (outputXml.init (&outputfile));
// Serial the class
material.serial (outputXml);
// Another the stream
COFile outputfile2;
// Open another file
if (outputfile2.open (path))
{
// Serial the zone
zone.serial (outputfile2);
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the file %s for writing.", path);
CMaxToLigo::errorMessage (tmp, "NeL Ligo export material", *MAXScript_interface, errorInDialog);
ok = false;
}
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the file %s for writing.", fileName);
CMaxToLigo::errorMessage (tmp, "NeL Ligo export material", *MAXScript_interface, errorInDialog);
ok = false;
}
}
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catch (const Exception &e)
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Error while save the file %s : %s", fileName, e.what());
CMaxToLigo::errorMessage (tmp, "NeL Ligo export material", *MAXScript_interface, errorInDialog);
ok = false;
}
// Remove the files
if (!ok)
{
CFile::deleteFile(fileName);
CFile::deleteFile(path);
}
}
}
}
else
{
// Error, zone can't be exported
CMaxToLigo::errorMessage ("Error: can't export the Nel zone, check bind errors.", "NeL Ligo export material",
*MAXScript_interface, errorInDialog);
}
}
// Return the result
return res?&true_value:&false_value;
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo export material", *MAXScript_interface, errorInDialog);
}
}
// Return false
return &false_value;
}
// ***************************************************************************
/// Export a transition
Value* export_transition_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (6)
check_arg_count(export_transition, 6, count);
// Check to see if the arguments match up to what we expect
TCHAR *message = _T("NeLLigoExportTransition [Object array (count=9)] [Output filename] [First material filename] [Second material filename] [CheckOnly] [Error in dialog]");
type_check(arg_list[0], Array, message);
type_check(arg_list[1], String, message);
type_check(arg_list[2], String, message);
type_check(arg_list[3], String, message);
type_check(arg_list[4], Boolean, message);
type_check(arg_list[5], Boolean, message);
// Get a good interface pointer
Interface *ip = MAXScript_interface;
// The first arg
Array *nodes = (Array*)arg_list[0];
nlassert (is_array(nodes));
// The second arg
std::string fileName = tStrToUtf8(arg_list[1]->to_string());
// The second arg
string matFilename[2];
matFilename[0] = tStrToUtf8(arg_list[2]->to_string());
matFilename[1] = tStrToUtf8(arg_list[3]->to_string());
// The third arg
bool checkOnly = (arg_list[4]->to_bool() != FALSE);
// The fourth arg
bool errorInDialog = (arg_list[5]->to_bool() != FALSE);
// Ok ?
bool ok = true;
// All zone are present ?
bool allPresent = true;
// Clear error message
for (uint error=0; error<10; error++)
ScriptErrors[error].clear ();
// Load the ligofile
CLigoConfig config;
if (!CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, errorInDialog))
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't load the config file ligoscape.cfg", "NeL Ligo export transition",
*MAXScript_interface, errorInDialog);
}
else
{
// CTransition::TransitionZoneCount elements in the array ?
if (nodes->size == CTransition::TransitionZoneCount)
{
// Build a node array
std::vector<CZoneTemplate> arrayTemplate (CTransition::TransitionZoneCount);
std::vector<const CZoneTemplate*> arrayTemplatePtr (CTransition::TransitionZoneCount, NULL);
std::vector<RPO*> arrayTri (CTransition::TransitionZoneCount, NULL);
std::vector<INode*> arrayNode (CTransition::TransitionZoneCount, NULL);
for (uint i=0; i<(uint)nodes->size; i++)
{
// Get a node zone
if (nodes->get (i+1) != &undefined)
{
arrayNode[i] = nodes->get (i+1)->to_node();
// Node builded ?
bool builded = false;
// Get a Object pointer
ObjectState os=arrayNode[i]->EvalWorldState(ip->GetTime());
// Ok ?
if (os.obj)
{
// Convert in 3ds NeL patch mesh
arrayTri[i] = (RPO *) os.obj->ConvertToType(ip->GetTime(), RYKOLPATCHOBJ_CLASS_ID);
if (arrayTri[i])
{
// Build a zone template
CZoneTemplate zoneTemplate;
// Build the zone template
if (CMaxToLigo::buildZoneTemplate (arrayNode[i], arrayTri[i]->patch, arrayTemplate[i], config, ScriptErrors[i], ip->GetTime()))
{
// Success, put the pointer
arrayTemplatePtr[i] = &arrayTemplate[i];
builded = true;
}
}
}
// Ok ?
if (!builded)
ok = false;
}
else
allPresent = false;
}
// Ok, continue
if (ok)
{
// Load the materials
NLLIGO::CMaterial materials[2];
// For each material
for (uint mat=0; mat<2; mat++)
{
// Inputfile 0
CIFile input;
if (input.open (matFilename[mat]))
{
// Catch some errors
try
{
// XML stream
CIXml inputXml;
nlverify (inputXml.init (input));
// Serial
materials[mat].serial (inputXml);
}
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catch (const Exception &e)
{
// Error message
char tmp[2048];
smprintf (tmp, 2048, "Error while loading material file %s : %s", matFilename[mat], e.what());
CMaxToLigo::errorMessage (tmp, "NeL Ligo export transition", *MAXScript_interface, errorInDialog);
ok = false;
}
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the file %s for reading.", matFilename[mat]);
CMaxToLigo::errorMessage (tmp, "NeL Ligo export transition", *MAXScript_interface, errorInDialog);
ok = false;
}
}
// Ok ?
if (ok)
{
// Build the transition
CTransition transition;
if (ok = transition.build (materials[0], materials[1], arrayTemplatePtr, config, ScriptErrors, ScriptErrors[CTransition::TransitionZoneCount]))
{
// Export ?
if (!checkOnly)
{
// All transitions are ok ?
if (allPresent)
{
// Build the zones
NL3D::CZone zones[CTransition::TransitionZoneCount];
uint zone;
for (zone=0; zone<CTransition::TransitionZoneCount; zone++)
{
// Build the zone
CZoneSymmetrisation zoneSymmetry;
if (!arrayTri[zone]->rpatch->exportZone (arrayNode[zone], &arrayTri[zone]->patch, zones[zone], zoneSymmetry, 0, config.CellSize, config.Snap, false))
{
// Error, zone can't be exported
CMaxToLigo::errorMessage ("Error: can't export the Nel zone, check bind errors.", "NeL Ligo export material",
*MAXScript_interface, errorInDialog);
ok = false;
}
}
// Catch exceptions
if (ok)
{
// File names
vector<string> createdfiles;
try
{
// Open a stream file
COFile outputfile;
if (outputfile.open (fileName))
{
// Add the filename
createdfiles.push_back (fileName);
// Create an xml stream
COXml outputXml;
nlverify (outputXml.init (&outputfile));
// Serial the class
transition.serial (outputXml);
// Make a name for the zone
char drive[512];
char dir[512];
char name[512];
// Export each zones
for (zone=0; zone<CTransition::TransitionZoneCount; zone++)
{
// Final path
std::string path = CFile::getPath(fileName) + toString("%s-%u", CFile::getFilenameWithoutExtension(fileName).c_str(), zone) + ".zone";
// Another the stream
COFile outputfile2;
// Open another file
if (outputfile2.open (path))
{
// Add the filename
createdfiles.push_back (path);
// Serial the zone
zones[zone].serial (outputfile2);
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the file %s for writing.", path);
CMaxToLigo::errorMessage (tmp, "NeL Ligo export transition", *MAXScript_interface, errorInDialog);
ok = false;
}
}
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the file %s for writing.", fileName);
CMaxToLigo::errorMessage (tmp, "NeL Ligo export transition", *MAXScript_interface, errorInDialog);
ok = false;
}
}
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catch (const Exception &e)
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Error while save the file %s : %s", fileName, e.what());
CMaxToLigo::errorMessage (tmp, "NeL Ligo export transition", *MAXScript_interface, errorInDialog);
ok = false;
}
// Not ok ?
if (!ok)
{
// Erase the files
for (uint file=0; file<createdfiles.size(); file++)
{
// Removing files
CFile::deleteFile(createdfiles[file]);
}
}
}
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "All transition are not present. Can't export..");
CMaxToLigo::errorMessage (tmp, "NeL Ligo export transition", *MAXScript_interface, errorInDialog);
ok = false;
}
}
}
}
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: must have 9 cell in the node array", "NeL Ligo export transition",
*MAXScript_interface, errorInDialog);
}
}
// Ok ?
return ok?&true_value:&false_value;
}
// ***************************************************************************
Value* get_error_zone_template_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (4)
check_arg_count(get_error_zone_template, 4, count);
// Check to see if the arguments match up to what we expect
TCHAR *message = _T("NeLLigoGetErrorZoneTemplate [Array error codes] [Array vertex id] [Array messages] [Error index]");
type_check(arg_list[0], Array, message);
type_check(arg_list[1], Array, message);
type_check(arg_list[2], Array, message);
type_check(arg_list[3], Integer, message);
// Get a good interface pointer
Interface *ip = MAXScript_interface;
// The first arg
Array *errorCodes = (Array *)arg_list[0];
nlassert (is_array(errorCodes));
// The second arg
Array *vertexId = (Array *)arg_list[1];
nlassert (is_array(vertexId));
// The third arg
Array *messages = (Array *)arg_list[2];
nlassert (is_array(messages));
// The third arg
int errorIndex = arg_list[3]->to_int() - 1;
clamp (errorIndex, 0, 8);
// Num error
uint numError = ScriptErrors[errorIndex].numVertexError ();
// For each error
for (uint i=0; i<numError; i++)
{
// Id and edge
uint id, edge;
uint error = (uint) ScriptErrors[errorIndex].getVertexError (i, id, edge);
// Append error code
errorCodes->append (Integer::intern (error+1));
// Append vertex id
vertexId->append (Integer::intern (id+1));
// Append messages
messages->append (new String(_T("[LIGO DEBUG] Opened edge")));
}
// Return the main error message
return Integer::intern ((int)ScriptErrors[errorIndex].MainError+1);
}
// ***************************************************************************
Value* get_snap_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (0)
check_arg_count(get_snap, 0, count);
// Load the ligofile
CLigoConfig config;
if (CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, false))
{
return Float::intern ((float)config.Snap);
}
else
return &undefined;
}
// ***************************************************************************
Value* get_cell_size_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (0)
check_arg_count(get_cell_size, 0, count);
// Load the ligofile
CLigoConfig config;
if (CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, false))
{
return Float::intern ((float)config.CellSize);
}
else
return &undefined;
}
// ***************************************************************************
/// Check a ligo zone with a ligo material
Value* check_zone_with_material_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (3)
check_arg_count(check_zone_with_template, 3, count);
// Check to see if the arguments match up to what we expect
TCHAR *message = _T("NeLLigoCheckZoneWithMaterial [Object] [Material filename] [Error in dialog]");
type_check(arg_list[0], MAXNode, message);
type_check(arg_list[1], String, message);
type_check(arg_list[2], Boolean, message);
// Get a good interface pointer
Interface *ip = MAXScript_interface;
// The first arg
INode *node = arg_list[0]->to_node();
nlassert (node);
// The second arg
string fileName = tStrToUtf8(arg_list[1]->to_string());
// The fourth arg
bool errorInDialog = (arg_list[2]->to_bool() != FALSE);
// Get a Object pointer
ObjectState os=node->EvalWorldState(ip->GetTime());
// Ok ?
if (os.obj)
{
// Convert in 3ds NeL patch mesh
RPO *tri = (RPO *) os.obj->ConvertToType(ip->GetTime(), RYKOLPATCHOBJ_CLASS_ID);
if (tri)
{
// Load the ligofile
CLigoConfig config;
if (!CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, errorInDialog))
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't load the config file ligoscape.cfg", "NeL Ligo check zone",
*MAXScript_interface, errorInDialog);
}
else
{
// The zone template
CZoneTemplate zoneTemplate;
// Build the zone template
bool res = CMaxToLigo::buildZoneTemplate (node, tri->patch, zoneTemplate, config, ScriptErrors[0], ip->GetTime());
// Success ?
if (res)
{
// Material to check ?
if (fileName != "")
{
// The material
NLLIGO::CMaterial material;
// Read the template
CIFile inputfile;
// Catch exception
try
{
// Open the selected template file
if (inputfile.open (fileName))
{
// Create an xml stream
CIXml inputXml;
inputXml.init (inputfile);
// Serial the class
material.serial (inputXml);
// Get the zone edges
const std::vector<CZoneEdge> &zoneEdges = zoneTemplate.getEdges ();
// All edge ok
res = true;
// For each zone edge
for (uint edge=0; edge<zoneEdges.size(); edge++)
{
// Check it
if (!material.getEdge().isTheSame (zoneEdges[edge], config, ScriptErrors[0]))
res = false;
}
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the zone template file %s for reading.", fileName);
CMaxToLigo::errorMessage (tmp, "NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
}
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catch (const Exception &e)
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Error while loading the file %s : %s", fileName, e.what());
CMaxToLigo::errorMessage (tmp, "NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
}
}
// Return the result
return res?&true_value:&false_value;
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
// Return false
return &false_value;
}
// ***************************************************************************
/// Check a ligo zone with a ligo material
Value* check_zone_with_transition_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (4)
check_arg_count(check_zone_with_template, 4, count);
// Check to see if the arguments match up to what we expect
TCHAR *message = _T("NeLLigoCheckZoneWithTransition [Object] [Transition filename] [Transition number: 0~8] [Error in dialog]");
type_check(arg_list[0], MAXNode, message);
type_check(arg_list[1], String, message);
type_check(arg_list[2], Integer, message);
type_check(arg_list[3], Boolean, message);
// Get a good interface pointer
Interface *ip = MAXScript_interface;
// The first arg
INode *node = arg_list[0]->to_node();
nlassert (node);
// The second arg
string fileName = tStrToUtf8(arg_list[1]->to_string());
// The second arg
int transitionNumber = arg_list[2]->to_int();
// The fourth arg
bool errorInDialog = (arg_list[3]->to_bool() != FALSE);
// Get a Object pointer
ObjectState os=node->EvalWorldState(ip->GetTime());
// Ok ?
if (os.obj)
{
// Convert in 3ds NeL patch mesh
RPO *tri = (RPO *) os.obj->ConvertToType(ip->GetTime(), RYKOLPATCHOBJ_CLASS_ID);
if (tri)
{
// Load the ligofile
CLigoConfig config;
if (!CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, errorInDialog))
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't load the config file ligoscape.cfg", "NeL Ligo check zone",
*MAXScript_interface, errorInDialog);
}
else
{
// The zone template
CZoneTemplate zoneTemplate;
// Build the zone template
bool res = CMaxToLigo::buildZoneTemplate (node, tri->patch, zoneTemplate, config, ScriptErrors[0], ip->GetTime());
// Success ?
if (res)
{
// The material
NLLIGO::CTransition transition;
// Read the template
CIFile inputfile;
// Catch exception
try
{
// Open the selected template file
if (inputfile.open (fileName))
{
// Create an xml stream
CIXml inputXml;
inputXml.init (inputfile);
// Serial the class
transition.serial (inputXml);
// Check it
res = transition.check (zoneTemplate, transitionNumber, config, ScriptErrors[0]);
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the transition template file %s for reading.", fileName);
CMaxToLigo::errorMessage (tmp, "NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
}
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catch (const Exception &e)
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Error while loading the file %s : %s", fileName, e.what());
CMaxToLigo::errorMessage (tmp, "NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
}
// Return the result
return res?&true_value:&false_value;
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
// Return false
return &false_value;
}
// ***************************************************************************
// Get the zone mask
void getSquareMask (CZone &zone, std::vector<bool> &mask, uint &width, uint &height, float cellSize)
{
CZoneInfo zoneInfo;
zone.retrieve (zoneInfo);
// Look for bounding box of the zone, min size 1x1
sint maxX = 1;
sint maxY = 1;
// For each patches
uint i;
for (i=0; i<zoneInfo.Patchs.size (); i++)
{
CPatchInfo &patch = zoneInfo.Patchs[i];
// For each vertex
uint v;
for (v=0; v<4; v++)
{
// Get the cel position
sint positionX = (uint)((patch.Patch.Vertices[v].x + cellSize/2) / cellSize);
sint positionY = (uint)((patch.Patch.Vertices[v].y + cellSize/2) / cellSize);
// PosX
if (positionX>maxX)
maxX = positionX;
// PosY
if (positionY>maxY)
maxY = positionY;
}
}
// Set the size
width = (uint)maxX;
height = (uint)maxY;
// Set the mask
uint size = width*height;
mask.resize (0);
mask.resize (size, true);
}
// ***************************************************************************
/// Export a ligo zone
Value* export_zone_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (5)
check_arg_count(check_zone_with_template, 5, count);
// Check to see if the arguments match up to what we expect
TCHAR *message = _T("NeLLigoExportZone [Object] [Ligozone filename] [Category Array] [Error in dialog] [Snapshot]");
type_check(arg_list[0], MAXNode, message);
type_check(arg_list[1], String, message);
type_check(arg_list[2], Array, message);
type_check(arg_list[3], Boolean, message);
type_check(arg_list[4], Boolean, message);
// Get a good interface pointer
Interface *ip = MAXScript_interface;
// The first arg
INode *node = arg_list[0]->to_node();
nlassert (node);
// The second arg
string fileName = tStrToUtf8(arg_list[1]->to_string());
// The thrid arg
Array *array = (Array*)arg_list[2];
// Build an array of category
vector<pair<string, string> > categories;
categories.resize (array->size);
// The fourth arg
bool errorInDialog = (arg_list[3]->to_bool() != FALSE);
// The fifth arg
bool weWantToMakeASnapshot = (arg_list[4]->to_bool() != FALSE);
// Load the ligofile
CLigoConfig config;
if (!CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, errorInDialog))
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't load the config file ligoscape.cfg", "NeL Ligo check zone",
*MAXScript_interface, errorInDialog);
}
else
{
// For each array elements
uint i;
for (i=0; i<(uint)array->size; i++)
{
// Check that we have an array
type_check(array->get (i+1), Array, message);
// Check we have 2 strings
Array *cell = (Array*)array->get (i+1);
if (cell->size != 2)
{
// Output an error
CMaxToLigo::errorMessage ("Error: category arguments are not 2 strings", "NeL Ligo export zone",
*MAXScript_interface, errorInDialog);
return &false_value;
}
type_check (cell->get(1), String, message);
type_check (cell->get(2), String, message);
// Get the strings
categories[i].first = tStrToUtf8(cell->get(1)->to_string());
categories[i].second = tStrToUtf8(cell->get(2)->to_string());
}
// Get a Object pointer
ObjectState os=node->EvalWorldState(ip->GetTime());
// Ok ?
if (os.obj)
{
// Convert in 3ds NeL patch mesh
RPO *tri = (RPO *) os.obj->ConvertToType(ip->GetTime(), RYKOLPATCHOBJ_CLASS_ID);
if (tri)
{
// Load the ligofile
CLigoConfig config;
if (!CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, errorInDialog))
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't load the config file ligoscape.cfg", "NeL Ligo export zone",
*MAXScript_interface, errorInDialog);
}
else
{
// Build a filename
std::string path = NLMISC::CFile::getPath(fileName);
std::string name = NLMISC::CFile::getFilenameWithoutExtension(fileName);
// Build the zone filename
std::string outputFilenameZone = path + "zones/" + name + ".zone";
// Build the snap shot filename
std::string outputFilenameSnapShot = path + "zonesBitmaps/" + name + ".tga";
// Build the ligozone filename
std::string outputFilenameLigozone = path + "zoneLigos/" + name + ".ligozone";
// Build the zone
CZone zone;
CZoneSymmetrisation zoneSymmetry;
if (!tri->rpatch->exportZone (node, &tri->patch, zone, zoneSymmetry, 0, config.CellSize, config.Snap, false))
{
// Error, zone can't be exported
CMaxToLigo::errorMessage ("Error: can't export the Nel zone, check bind errors.", "NeL Ligo export zone",
*MAXScript_interface, errorInDialog);
}
else
{
// The zone mask
std::vector<bool> mask;
uint width;
uint height;
// Calc zone mask or force bounding mask ?
bool useBoundingBox = CExportNel::getScriptAppData (node, NEL3D_APPDATA_LIGO_USE_BOUNDINGBOX, 0) != 0;
bool maskOk = false;
if (useBoundingBox)
{
// Get the square zone
getSquareMask (zone, mask, width, height, config.CellSize);
maskOk = true;
}
else
{
// The zone template
CZoneTemplate zoneTemplate;
// Build the zone template
bool res = CMaxToLigo::buildZoneTemplate (node, tri->patch, zoneTemplate, config, ScriptErrors[0], ip->GetTime());
// Success ?
if (res)
{
// Build the zone mask
zoneTemplate.getMask (mask, width, height);
maskOk = true;
}
}
// Continue ?
if (maskOk)
{
// The bank
static CTileBank *tileBank=NULL;
static CTileFarBank *tileFarBank=NULL;
// Catch exception
try
{
// Load the bank
if (tileBank == NULL)
{
CIFile fileBank;
if (fileBank.open (GetBankPathName ()))
{
// Create an xml stream
CTileBank *tileBankSerial = new CTileBank;
tileBankSerial->serial (fileBank);
tileBank = tileBankSerial;
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the bank file %s for reading.", GetBankPathName ().c_str() );
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
if (tileBank != NULL)
{
// Continue ?
bool cont = true;
// The .TGA
if (weWantToMakeASnapshot)
{
CIFile fileFarBank;
std::string path = NLMISC::CFile::getPath(GetBankPathName());
std::string name = NLMISC::CFile::getFilenameWithoutExtension(GetBankPathName());
std::string farBankPathName = path + name + ".farbank";
if (fileFarBank.open (farBankPathName))
{
// Create an xml stream
CTileFarBank *tileFarBankSerial = new CTileFarBank;
tileFarBankSerial->serial (fileFarBank);
tileFarBank = tileFarBankSerial;
CBitmap snapshot;
if (MakeSnapShot (snapshot, *tileBank, *tileFarBank, width, height, config, errorInDialog))
{
// Output the snap shot
COFile outputSnapShot;
if (outputSnapShot.open (outputFilenameSnapShot))
{
// Write the tga file
snapshot.writeTGA (outputSnapShot, 32);
}
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the tga file %s for writing.", outputFilenameSnapShot);
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
cont = false;
}
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the farbank file %s for reading.", farBankPathName );
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
cont = false;
}
}
// The .ZONE
if (cont)
{
{
COFile outputZone;
if (outputZone.open (outputFilenameZone))
{
// Serial the NeL zone
zone.serial (outputZone);
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the NeL zone file %s for writing.", outputFilenameZone);
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
// The .LIGOZONE
{
// Is filled ?
uint j;
for (j=0; j<mask.size(); j++)
if (!mask[j]) break;
// Add filled zone
if (j >= mask.size())
{
categories.push_back (pair<string,string> ("filled", "yes"));
}
else
{
categories.push_back (pair<string,string> ("filled", "no"));
}
// Add the zone categorie
if (width == height)
{
categories.push_back (pair<string,string> ("square", "yes"));
}
else
{
categories.push_back (pair<string,string> ("square", "no"));
}
// Add the size category
char size[30];
smprintf (size, 30, "%dx%d", width, height);
categories.push_back (pair<string,string> ("size", size));
// Create the zone bank element
CZoneBankElement bankElm;
bankElm.setMask (mask, width,height);
// Add the category
for (j=0; j<categories.size(); j++)
{
bankElm.addCategory (strlwr (categories[j].first), strlwr (categories[j].second));
}
// Write the zone
COFile outputLigoZone;
// Catch exception
try
{
// Open the selected zone file
if (outputLigoZone.open (outputFilenameLigozone))
{
// Create an xml stream
COXml outputXml;
outputXml.init (&outputLigoZone);
// Serial the class
bankElm.serial (outputXml);
// Return true
return &true_value;
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the ligozone file %s for writing.", outputFilenameLigozone );
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
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catch (const Exception &e)
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Error while writing the file %s : %s", outputFilenameLigozone, e.what());
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
}
}
}
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catch (const Exception &e)
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Error while loading the file bank %s : %s", GetBankPathName ().c_str(), e.what());
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
}
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
}
// Return false
return &false_value;
}
// ***************************************************************************
Value* get_error_string_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (1)
check_arg_count(get_error_string, 1, count);
// Checks arg
TCHAR *message = _T("NeLLigoGetErrorString [error code]");
type_check(arg_list[0], Integer, message);
// The first arg
int errorCode = arg_list[0]->to_int()-1;
// Error code
return new String (utf8ToTStr(CLigoError::getStringError ((CLigoError::TError)errorCode)));
}
// ***************************************************************************
Value* set_directory_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (1)
check_arg_count(set_directory, 1, count);
// Checks arg
TCHAR *message = _T("NeLLigoDirectory [path]");
type_check(arg_list[0], String, message);
// The first arg
const std::string dir = tStrToUtf8(arg_list[0]->to_string());
// Set the directory
return (chdir (dir.c_str())==0)?&true_value:&false_value;
}
// ***************************************************************************
Value* get_zone_mask_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (5)
check_arg_count(check_zone_with_template, 5, count);
// Check to see if the arguments match up to what we expect
TCHAR *message = _T("NeLLigoGetZoneMask [Object] [Mask Array] [Width Array] [Height Array] [Error in dialog]");
type_check(arg_list[0], MAXNode, message);
type_check(arg_list[1], Array, message);
type_check(arg_list[2], Array, message);
type_check(arg_list[3], Array, message);
type_check(arg_list[4], Boolean, message);
// Get a good interface pointer
Interface *ip = MAXScript_interface;
// The first arg
INode *node = arg_list[0]->to_node();
nlassert (node);
// The first array
Array *maskArray = (Array*)arg_list[1];
// The second array
Array *widthArray = (Array*)arg_list[2];
// The second array
Array *heightArray = (Array*)arg_list[3];
// The fourth arg
bool errorInDialog = (arg_list[4]->to_bool() != FALSE);
// Get a Object pointer
ObjectState os=node->EvalWorldState(ip->GetTime());
// Ok ?
if (os.obj)
{
// Convert in 3ds NeL patch mesh
RPO *tri = (RPO *) os.obj->ConvertToType(ip->GetTime(), RYKOLPATCHOBJ_CLASS_ID);
if (tri)
{
// Load the ligofile
CLigoConfig config;
if (!CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, errorInDialog))
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't load the config file ligoscape.cfg", "NeL Ligo export zone",
*MAXScript_interface, errorInDialog);
}
else
{
// Build the zone
CZone zone;
CZoneSymmetrisation zoneSymmetry;
if (!tri->rpatch->exportZone (node, &tri->patch, zone, zoneSymmetry, 0, config.CellSize, config.Snap, false))
{
// Error, zone can't be exported
CMaxToLigo::errorMessage ("Error: can't export the Nel zone, check bind errors.", "NeL Ligo export zone",
*MAXScript_interface, errorInDialog);
}
else
{
// Get the object matrix
Matrix3 nodeTM;
nodeTM = node->GetObjectTM (ip->GetTime());
// max x and y
int maxx = 0x80000000;
int maxy = 0x80000000;
// For each vertex
for (uint vert=0; vert<(uint)tri->patch.numVerts; vert++)
{
// Transform in the world
Point3 worldPt = tri->patch.verts[vert].p * nodeTM;
// Get cell coordinates
int x = (int)(worldPt.x / config.CellSize) + 1;
int y = (int)(worldPt.y / config.CellSize) + 1;
// Max ?
if (x>maxx)
maxx = x;
if (y>maxy)
maxy = y;
}
// The second array
maxx++;
maxy++;
widthArray->append (Float::intern ((float)maxx));
heightArray->append (Float::intern ((float)maxy));
// Cells
vector<bool> cells (maxx * maxy, false);
// For each patch
for (uint patch=0; patch<(uint)tri->patch.numPatches; patch++)
{
// Average of the patch
Point3 average (0,0,0);
// For each vertex
for (uint vert=0; vert<4; vert++)
{
// Index of the vertex
int vertId = tri->patch.patches[patch].v[vert];
// Sum
average += tri->patch.verts[vertId].p * nodeTM;
}
// Average
average /= 4;
// Coordinates
int x = (int)(average.x / config.CellSize) + 1;
int y = (int)(average.y / config.CellSize) + 1;
// Clip
if ((x>=0) && (y>=0) && (x<maxx) && (y<maxy))
{
// Set this ok
cells[x+y*maxx]=true;
}
}
// For each cell
for (uint k=0; k<cells.size(); k++)
{
// Build the result mask
maskArray->append (cells[k]?&true_value:&false_value);
}
// ok
return &true_value;
}
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
// Return false
return &false_value;
}
// ***************************************************************************
Value* get_zone_size_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (6)
check_arg_count(check_zone_with_template, 6, count);
// Check to see if the arguments match up to what we expect
TCHAR *message = _T("NeLLigoGetZoneMask [Object] [minx Array] [maxy Array] [miny Array] [maxy Array] [Error in dialog]");
type_check(arg_list[0], MAXNode, message);
type_check(arg_list[1], Array, message);
type_check(arg_list[2], Array, message);
type_check(arg_list[3], Array, message);
type_check(arg_list[4], Array, message);
type_check(arg_list[5], Boolean, message);
// Get a good interface pointer
Interface *ip = MAXScript_interface;
// The first arg
INode *node = arg_list[0]->to_node();
nlassert (node);
// The second array
Array *minXArray = (Array*)arg_list[1];
// The second array
Array *maxXArray = (Array*)arg_list[2];
// The second array
Array *minYArray = (Array*)arg_list[3];
// The second array
Array *maxYArray = (Array*)arg_list[4];
// The fourth arg
bool errorInDialog = (arg_list[5]->to_bool() != FALSE);
// Get a Object pointer
ObjectState os=node->EvalWorldState(ip->GetTime());
// Ok ?
if (os.obj)
{
// Convert in 3ds NeL patch mesh
RPO *tri = (RPO *) os.obj->ConvertToType(ip->GetTime(), RYKOLPATCHOBJ_CLASS_ID);
if (tri)
{
// Load the ligofile
CLigoConfig config;
if (!CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, errorInDialog))
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't load the config file ligoscape.cfg", "NeL Ligo export zone",
*MAXScript_interface, errorInDialog);
}
else
{
// Build the zone
CZone zone;
CZoneSymmetrisation zoneSymmetry;
if (!tri->rpatch->exportZone (node, &tri->patch, zone, zoneSymmetry, 0, config.CellSize, config.Snap, false))
{
// Error, zone can't be exported
CMaxToLigo::errorMessage ("Error: can't export the Nel zone, check bind errors.", "NeL Ligo export zone",
*MAXScript_interface, errorInDialog);
}
else
{
// Get the object matrix
Matrix3 nodeTM;
nodeTM = node->GetObjectTM (ip->GetTime());
// max x and y
int minx = 0x7fffffff;
int miny = 0x7fffffff;
int maxx = 0x80000000;
int maxy = 0x80000000;
// For each patch
for (uint patch=0; patch<(uint)tri->patch.numPatches; patch++)
{
// Average of the patch
Point3 average (0,0,0);
// For each vertex
for (uint vert=0; vert<4; vert++)
{
// Index of the vertex
int vertId = tri->patch.patches[patch].v[vert];
// Sum
average += tri->patch.verts[vertId].p * nodeTM;
}
// Average
average /= 4;
// Coordinates
int x = (int)(average.x / config.CellSize);
int y = (int)(average.y / config.CellSize);
if (x<minx)
minx=x;
if (x>maxx)
maxx=x;
if (y<miny)
miny=y;
if (y>maxy)
maxy=y;
}
maxx++;
maxy++;
// The second array
minXArray->append (Float::intern ((float)minx));
maxXArray->append (Float::intern ((float)maxx));
minYArray->append (Float::intern ((float)miny));
maxYArray->append (Float::intern ((float)maxy));
// ok
return &true_value;
}
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
// Return false
return &false_value;
}
// Make a snap shot of a zone
bool MakeSnapShot (NLMISC::CBitmap &snapshot, const NL3D::CTileBank &tileBank, const NL3D::CTileFarBank &tileFarBank,
sint xmax, sint ymax, const CLigoConfig &config, bool errorInDialog)
{
return MakeSnapShot (snapshot, tileBank, tileFarBank, 0, xmax, 0, ymax, config, errorInDialog);
}
bool MakeSnapShot (NLMISC::CBitmap &snapshot, const NL3D::CTileBank &tileBank, const NL3D::CTileFarBank &tileFarBank,
sint xmin, sint xmax, sint ymin, sint ymax, const CLigoConfig &config, bool errorInDialog)
{
// Result
bool result = false;
try
{
// Resolution
sint widthPixel = config.ZoneSnapShotRes * (xmax-xmin);
sint heightPixel = config.ZoneSnapShotRes * (ymax-ymin);
sint oversampledWidth = widthPixel*4;
sint oversampledHeight = heightPixel*4;
// Oversampled size should be < 2048
if (oversampledWidth > 2048)
oversampledWidth = 2048;
if (oversampledHeight > 2048)
oversampledHeight = 2048;
// Oversampled size should be < sreen size
DEVMODE devMode;
devMode.dmSize= sizeof(DEVMODE);
devMode.dmDriverExtra= 0;
EnumDisplaySettings(NULL, ENUM_CURRENT_SETTINGS, &devMode);
if (oversampledWidth > (sint)devMode.dmPelsWidth)
oversampledWidth = devMode.dmPelsWidth;
if (oversampledHeight > (sint)devMode.dmPelsHeight)
oversampledHeight = devMode.dmPelsHeight;
// Region
float width = config.CellSize * (float)(xmax-xmin);
float height = config.CellSize * (float)(ymax-ymin);
float posX = config.CellSize * (float)xmin;
float posY = config.CellSize * (float)ymin;
// Use NELU
if (CNELU::init (oversampledWidth, oversampledHeight, CViewport(), 32, true, NULL, false, true)) // FIXME: OpenGL not working correctly, offscreen not available in Direct3D
{
// Setup the camera
CNELU::Camera->setTransformMode (ITransformable::DirectMatrix);
CMatrix view;
view.setPos (CVector (width/2 + posX, height/2 + posY, width));
view.setRot (CVector::I, -CVector::K, CVector::J);
CNELU::Camera->setFrustum (width, height, 0.1f, 10000.f, false);
CNELU::Camera->setMatrix (view);
// Create a Landscape.
CLandscapeModel *theLand= (CLandscapeModel*)CNELU::Scene->createModel(LandscapeModelId);
// Build the scene
CExportNelOptions options;
CExportNel export_ (errorInDialog, false, true, MAXScript_interface, "Snapshot ligozone", &options);
export_.buildScene (*CNELU::Scene, *CNELU::ShapeBank, *CNELU::Driver, 0, &theLand->Landscape, NULL, false, false, false);
theLand->Landscape.setTileNear (50.f);
theLand->Landscape.TileBank=tileBank;
theLand->Landscape.TileFarBank=tileFarBank;
theLand->Landscape.initTileBanks ();
// Enable additive tiles
theLand->enableAdditive (true);
theLand->Landscape.setRefineMode (true);
// theLand->Landscape.setupStaticLight(CRGBA(255, 255, 255), CRGBA(0, 0, 0), 1.0f);
// theLand->Landscape.setThreshold(0.0005);
// Enbable automatique lighting
#ifndef NL_DEBUG
// theLand->Landscape.enableAutomaticLighting (true);
// theLand->Landscape.setupAutomaticLightDir (CVector (0, 0, -1));
#endif // NL_DEBUG
// theLand->Landscape.updateLightingAll();
// Clear the backbuffer and the alpha
CNELU::clearBuffers(CRGBA(255,0,255,0));
// Render the scene
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
CNELU::Scene->render();
// Snapshot
CNELU::Driver->getBuffer (snapshot);
// Release the driver
CNELU::Driver->release ();
// Release NELU
CNELU::release();
// Resample the bitmap
snapshot.resample (widthPixel, heightPixel);
// Ok
result = true;
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Can't initialise opengl offscreen renderer", "NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
}
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catch (const Exception &e)
{
// Error
char tmp[512];
smprintf (tmp, 512, "Error during the snapshot: %s", e.what());
// Output an error
CMaxToLigo::errorMessage (tmp, "NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
// Return result
return result;
}
// ***************************************************************************
/// Export a ligo zone
Value* make_snapshot_cf (Value** arg_list, int count)
{
// Make sure we have the correct number of arguments (7)
check_arg_count(NeLLigoMakeSnapShot, 7, count);
// Check to see if the arguments match up to what we expect
TCHAR *message = _T("NeLLigoMakeSnapShot [Object] [Snapshot filename] [xMin] [xMax] [yMin] [yMax] [Error in dialog]");
type_check(arg_list[0], MAXNode, message);
type_check(arg_list[1], String, message);
type_check(arg_list[2], Integer, message);
type_check(arg_list[3], Integer, message);
type_check(arg_list[4], Integer, message);
type_check(arg_list[5], Integer, message);
type_check(arg_list[6], Boolean, message);
// Get a good interface pointer
Interface *ip = MAXScript_interface;
// The first arg
INode *node = arg_list[0]->to_node();
nlassert (node);
// The second arg
string fileName = tStrToUtf8(arg_list[1]->to_string());
// The thrid arg
int xMin = arg_list[2]->to_int();
int xMax = arg_list[3]->to_int();
int yMin = arg_list[4]->to_int();
int yMax = arg_list[5]->to_int();
// The fourth arg
bool errorInDialog = (arg_list[6]->to_bool() != FALSE);
// Get a Object pointer
ObjectState os=node->EvalWorldState(ip->GetTime());
// Ok ?
if (os.obj)
{
// Convert in 3ds NeL patch mesh
RPO *tri = (RPO *) os.obj->ConvertToType(ip->GetTime(), RYKOLPATCHOBJ_CLASS_ID);
if (tri)
{
// Load the ligofile
CLigoConfig config;
if (!CMaxToLigo::loadLigoConfigFile (config, *MAXScript_interface, errorInDialog))
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't load the config file ligoscape.cfg", "NeL Ligo export zone",
*MAXScript_interface, errorInDialog);
}
else
{
// Build a filename
std::string nametga = CFile::getFilenameWithoutExtension(fileName);
std::string pathtga = CFile::getPath(fileName);
// Build the zone
CZone zone;
CZoneSymmetrisation zoneSymmetry;
if (!tri->rpatch->exportZone (node, &tri->patch, zone, zoneSymmetry, 0, config.CellSize, config.Snap, false))
{
// Error, zone can't be exported
CMaxToLigo::errorMessage ("Error: can't export the Nel zone, check bind errors.", "NeL Ligo export zone",
*MAXScript_interface, errorInDialog);
}
else
{
// The bank
static CTileBank *tileBank=NULL;
static CTileFarBank *tileFarBank=NULL;
// Catch exception
try
{
if (tileBank == NULL)
{
// Load the bank
CIFile fileBank;
if (fileBank.open (GetBankPathName ()))
{
// Create an xml stream
CTileBank *bankSerial = new CTileBank;
bankSerial->serial (fileBank);
tileBank = bankSerial;
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the bank file %s for writing.", GetBankPathName ().c_str() );
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
if (tileBank != NULL)
{
CIFile fileFarBank;
std::string name = CFile::getFilenameWithoutExtension(GetBankPathName());
std::string farBankPathName = CFile::getPath(GetBankPathName()) + name + ".farbank";
if (fileFarBank.open (farBankPathName))
{
// Create an xml stream
CTileFarBank *tileFarBankSerial = new CTileFarBank;
tileFarBankSerial->serial (fileFarBank);
tileFarBank = tileFarBankSerial;
// Build a screenshot of the zone
CBitmap snapshot;
if (MakeSnapShot (snapshot, *tileBank, *tileFarBank, xMin, xMax, yMin, yMax, config, errorInDialog))
{
// Build the snap shot filename
std::string outputFilenameSnapShot = pathtga + nametga + ".tga";
// Output the snap shot
COFile outputSnapShot;
if (outputSnapShot.open (outputFilenameSnapShot))
{
// Write the tga file
snapshot.writeTGA (outputSnapShot, 32);
// Some categories
vector<pair<string, string> > categories;
// Add filled zone
categories.push_back (pair<string,string> ("filled", "yes"));
// Add the zone categorie
categories.push_back (pair<string,string> ("square", "yes"));
// Add the size category
categories.push_back (pair<string,string> ("size", "1x1"));
// Add the material category
categories.push_back (pair<string,string> ("material", "fyros"));
// Add the material category
categories.push_back (pair<string,string> ("zone", name));
// Create the zone bank element
CZoneBankElement bankElm;
std::vector<bool> mask;
mask.push_back (true);
bankElm.setMask (mask, 1, 1);
// Add the category
for (uint j=0; j<categories.size(); j++)
{
bankElm.addCategory (strlwr (categories[j].first), strlwr (categories[j].second));
}
// Catch exception
#if 0
// Write the zone
COFile outputLigoZone;
std::string outputFilenameSnapShot = pathtga + nametga + ".ligozone";
try
{
// Open the selected zone file
if (outputLigoZone.open (outputFilenameSnapShot))
{
// Create an xml stream
COXml outputXml;
outputXml.init (&outputLigoZone);
// Serial the class
bankElm.serial (outputXml);
// Return true
return &true_value;
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the ligozone file %s for writing.", fileName.c_str() );
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
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catch (const Exception &e)
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Error while loading the file %s : %s", fileName, e.what());
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
#endif
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the NeL snapshot file %s for writing.", outputFilenameSnapShot);
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
}
else
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Can't open the farbank file %s for reading.", farBankPathName );
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
}
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catch (const Exception &e)
{
// Error message
char tmp[512];
smprintf (tmp, 512, "Error while loading the file bank %s : %s", GetBankPathName ().c_str(), e.what());
CMaxToLigo::errorMessage (tmp, "NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo export zone", *MAXScript_interface, errorInDialog);
}
}
else
{
// Output an error
CMaxToLigo::errorMessage ("Error: can't convert the object in 3ds NeL patch mesh object",
"NeL Ligo check zone", *MAXScript_interface, errorInDialog);
}
// Return false
return &false_value;
}
// ***************************************************************************
/// MAXScript Plugin Initialization
// ***************************************************************************
__declspec( dllexport ) void LibInit() { }
// ***************************************************************************