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blender/source/gameengine/Ketsji/KX_Light.cpp
Porteries Tristan e0aeafdf0a BGE : Fix light layer check 
The layers in Blender are using a bit field for the 20 layers. The light layer value was limited to 20, so the highest usable light layer was five.
The patch modify the range and add layer out of range error messages.

Reviewers: sybren, hg1, moguri

Reviewed By: hg1, moguri

Projects: #game_engine

Differential Revision: https://developer.blender.org/D1238
2015-04-17 18:12:51 +02:00

418 lines
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/*
* ***** BEGIN GPL LICENSE BLOCK *****
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL LICENSE BLOCK *****
*/
/** \file gameengine/Ketsji/KX_Light.cpp
* \ingroup ketsji
*/
#ifdef _MSC_VER
# pragma warning (disable:4786)
#endif
#include <stdio.h>
#include "KX_Light.h"
#include "KX_Camera.h"
#include "RAS_IRasterizer.h"
#include "RAS_ICanvas.h"
#include "RAS_ILightObject.h"
#include "KX_PyMath.h"
#include "DNA_object_types.h"
#include "DNA_scene_types.h"
#include "DNA_lamp_types.h"
#include "BKE_scene.h"
#include "MEM_guardedalloc.h"
#include "BLI_math.h"
KX_LightObject::KX_LightObject(void* sgReplicationInfo,SG_Callbacks callbacks,
RAS_IRasterizer* rasterizer,
RAS_ILightObject* lightobj,
bool glsl)
: KX_GameObject(sgReplicationInfo,callbacks),
m_rasterizer(rasterizer)
{
m_lightobj = lightobj;
m_lightobj->m_scene = sgReplicationInfo;
m_lightobj->m_light = this;
m_rasterizer->AddLight(m_lightobj);
m_lightobj->m_glsl = glsl;
m_blenderscene = ((KX_Scene*)sgReplicationInfo)->GetBlenderScene();
m_base = NULL;
};
KX_LightObject::~KX_LightObject()
{
if (m_lightobj) {
m_rasterizer->RemoveLight(m_lightobj);
delete(m_lightobj);
}
if (m_base) {
BKE_scene_base_unlink(m_blenderscene, m_base);
MEM_freeN(m_base);
}
}
CValue* KX_LightObject::GetReplica()
{
KX_LightObject* replica = new KX_LightObject(*this);
replica->ProcessReplica();
replica->m_lightobj = m_lightobj->Clone();
replica->m_lightobj->m_light = replica;
m_rasterizer->AddLight(replica->m_lightobj);
if (m_base)
m_base = NULL;
return replica;
}
void KX_LightObject::UpdateScene(KX_Scene *kxscene)
{
m_lightobj->m_scene = (void*)kxscene;
m_blenderscene = kxscene->GetBlenderScene();
m_base = BKE_scene_base_add(m_blenderscene, GetBlenderObject());
}
void KX_LightObject::SetLayer(int layer)
{
m_lightobj->m_layer = layer;
}
#ifdef WITH_PYTHON
/* ------------------------------------------------------------------------- */
/* Python Integration Hooks */
/* ------------------------------------------------------------------------- */
PyTypeObject KX_LightObject::Type = {
PyVarObject_HEAD_INIT(NULL, 0)
"KX_LightObject",
sizeof(PyObjectPlus_Proxy),
0,
py_base_dealloc,
0,
0,
0,
0,
py_base_repr,
0,
&KX_GameObject::Sequence,
&KX_GameObject::Mapping,
0,0,0,
NULL,
NULL,
0,
Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE,
0,0,0,0,0,0,0,
Methods,
0,
0,
&KX_GameObject::Type,
0,0,0,0,0,0,
py_base_new
};
PyMethodDef KX_LightObject::Methods[] = {
{NULL,NULL} //Sentinel
};
PyAttributeDef KX_LightObject::Attributes[] = {
KX_PYATTRIBUTE_RW_FUNCTION("layer", KX_LightObject, pyattr_get_layer, pyattr_set_layer),
KX_PYATTRIBUTE_RW_FUNCTION("energy", KX_LightObject, pyattr_get_energy, pyattr_set_energy),
KX_PYATTRIBUTE_RW_FUNCTION("distance", KX_LightObject, pyattr_get_distance, pyattr_set_distance),
KX_PYATTRIBUTE_RW_FUNCTION("color", KX_LightObject, pyattr_get_color, pyattr_set_color),
KX_PYATTRIBUTE_RW_FUNCTION("lin_attenuation", KX_LightObject, pyattr_get_lin_attenuation, pyattr_set_lin_attenuation),
KX_PYATTRIBUTE_RW_FUNCTION("quad_attenuation", KX_LightObject, pyattr_get_quad_attenuation, pyattr_set_quad_attenuation),
KX_PYATTRIBUTE_RW_FUNCTION("spotsize", KX_LightObject, pyattr_get_spotsize, pyattr_set_spotsize),
KX_PYATTRIBUTE_RW_FUNCTION("spotblend", KX_LightObject, pyattr_get_spotblend, pyattr_set_spotblend),
KX_PYATTRIBUTE_RO_FUNCTION("SPOT", KX_LightObject, pyattr_get_typeconst),
KX_PYATTRIBUTE_RO_FUNCTION("SUN", KX_LightObject, pyattr_get_typeconst),
KX_PYATTRIBUTE_RO_FUNCTION("NORMAL", KX_LightObject, pyattr_get_typeconst),
KX_PYATTRIBUTE_RW_FUNCTION("type", KX_LightObject, pyattr_get_type, pyattr_set_type),
{ NULL } //Sentinel
};
PyObject *KX_LightObject::pyattr_get_layer(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
KX_LightObject *self = static_cast<KX_LightObject *>(self_v);
return PyLong_FromLong(self->m_lightobj->m_layer);
}
int KX_LightObject::pyattr_set_layer(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef, PyObject *value)
{
KX_LightObject *self = static_cast<KX_LightObject *>(self_v);
int layer = PyLong_AsLong(value);
if (layer == -1 && PyErr_Occurred()) {
PyErr_Format(PyExc_TypeError, "expected an integer for attribute \"%s\"", attrdef->m_name);
return PY_SET_ATTR_FAIL;
}
if (layer < 1) {
PyErr_Format(PyExc_TypeError, "expected an integer greater than 1 for attribute \"%s\"", attrdef->m_name);
return PY_SET_ATTR_FAIL;
}
else if(layer > MAX_LIGHT_LAYERS) {
PyErr_Format(PyExc_TypeError, "expected an integer less than %i for attribute \"%s\"", MAX_LIGHT_LAYERS, attrdef->m_name);
return PY_SET_ATTR_FAIL;
}
self->SetLayer(layer);
return PY_SET_ATTR_SUCCESS;
}
PyObject *KX_LightObject::pyattr_get_energy(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
return PyFloat_FromDouble(self->m_lightobj->m_energy);
}
int KX_LightObject::pyattr_set_energy(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef, PyObject *value)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
if (PyFloat_Check(value)) {
float val = PyFloat_AsDouble(value);
if (val < 0)
val = 0;
else if (val > 10)
val = 10;
self->m_lightobj->m_energy = val;
return PY_SET_ATTR_SUCCESS;
}
PyErr_Format(PyExc_TypeError, "expected float value for attribute \"%s\"", attrdef->m_name);
return PY_SET_ATTR_FAIL;
}
PyObject *KX_LightObject::pyattr_get_distance(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
return PyFloat_FromDouble(self->m_lightobj->m_distance);
}
int KX_LightObject::pyattr_set_distance(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef, PyObject *value)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
if (PyFloat_Check(value)) {
float val = PyFloat_AsDouble(value);
if (val < 0.01)
val = 0.01;
else if (val > 5000.f)
val = 5000.f;
self->m_lightobj->m_distance = val;
return PY_SET_ATTR_SUCCESS;
}
PyErr_Format(PyExc_TypeError, "expected float value for attribute \"%s\"", attrdef->m_name);
return PY_SET_ATTR_FAIL;
}
PyObject *KX_LightObject::pyattr_get_color(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
return Py_BuildValue("[fff]", self->m_lightobj->m_color[0], self->m_lightobj->m_color[1], self->m_lightobj->m_color[2]);
}
int KX_LightObject::pyattr_set_color(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef, PyObject *value)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
MT_Vector3 color;
if (PyVecTo(value, color))
{
self->m_lightobj->m_color[0] = color[0];
self->m_lightobj->m_color[1] = color[1];
self->m_lightobj->m_color[2] = color[2];
return PY_SET_ATTR_SUCCESS;
}
return PY_SET_ATTR_FAIL;
}
PyObject *KX_LightObject::pyattr_get_lin_attenuation(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
return PyFloat_FromDouble(self->m_lightobj->m_att1);
}
int KX_LightObject::pyattr_set_lin_attenuation(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef, PyObject *value)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
if (PyFloat_Check(value)) {
float val = PyFloat_AsDouble(value);
if (val < 0.f)
val = 0.f;
else if (val > 1.f)
val = 1.f;
self->m_lightobj->m_att1 = val;
return PY_SET_ATTR_SUCCESS;
}
PyErr_Format(PyExc_TypeError, "expected float value for attribute \"%s\"", attrdef->m_name);
return PY_SET_ATTR_FAIL;
}
PyObject *KX_LightObject::pyattr_get_quad_attenuation(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
return PyFloat_FromDouble(self->m_lightobj->m_att2);
}
int KX_LightObject::pyattr_set_quad_attenuation(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef, PyObject *value)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
if (PyFloat_Check(value)) {
float val = PyFloat_AsDouble(value);
if (val < 0.f)
val = 0.f;
else if (val > 1.f)
val = 1.f;
self->m_lightobj->m_att2 = val;
return PY_SET_ATTR_SUCCESS;
}
PyErr_Format(PyExc_TypeError, "expected float value for attribute \"%s\"", attrdef->m_name);
return PY_SET_ATTR_FAIL;
}
PyObject *KX_LightObject::pyattr_get_spotsize(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
return PyFloat_FromDouble(RAD2DEG(self->m_lightobj->m_spotsize));
}
int KX_LightObject::pyattr_set_spotsize(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef, PyObject *value)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
if (PyFloat_Check(value)) {
float val = PyFloat_AsDouble(value);
if (val < 0.f)
val = 0.f;
else if (val > 180.f)
val = 180.f;
self->m_lightobj->m_spotsize = DEG2RAD(val);
return PY_SET_ATTR_SUCCESS;
}
PyErr_Format(PyExc_TypeError, "expected float value for attribute \"%s\"", attrdef->m_name);
return PY_SET_ATTR_FAIL;
}
PyObject *KX_LightObject::pyattr_get_spotblend(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
return PyFloat_FromDouble(self->m_lightobj->m_spotblend);
}
int KX_LightObject::pyattr_set_spotblend(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef, PyObject *value)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
if (PyFloat_Check(value)) {
float val = PyFloat_AsDouble(value);
if (val < 0.f)
val = 0.f;
else if (val > 1.f)
val = 1.f;
self->m_lightobj->m_spotblend = val;
return PY_SET_ATTR_SUCCESS;
}
PyErr_Format(PyExc_TypeError, "expected float value for attribute \"%s\"", attrdef->m_name);
return PY_SET_ATTR_FAIL;
}
PyObject *KX_LightObject::pyattr_get_typeconst(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
PyObject *retvalue;
const char* type = attrdef->m_name;
if (!strcmp(type, "SPOT")) {
retvalue = PyLong_FromLong(RAS_ILightObject::LIGHT_SPOT);
} else if (!strcmp(type, "SUN")) {
retvalue = PyLong_FromLong(RAS_ILightObject::LIGHT_SUN);
} else if (!strcmp(type, "NORMAL")) {
retvalue = PyLong_FromLong(RAS_ILightObject::LIGHT_NORMAL);
}
else {
/* should never happen */
PyErr_SetString(PyExc_TypeError, "light.type: internal error, invalid light type");
retvalue = NULL;
}
return retvalue;
}
PyObject *KX_LightObject::pyattr_get_type(void* self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
return PyLong_FromLong(self->m_lightobj->m_type);
}
int KX_LightObject::pyattr_set_type(void* self_v, const KX_PYATTRIBUTE_DEF *attrdef, PyObject *value)
{
KX_LightObject* self = static_cast<KX_LightObject*>(self_v);
const int val = PyLong_AsLong(value);
if ((val==-1 && PyErr_Occurred()) || val<0 || val>2) {
PyErr_SetString(PyExc_ValueError, "light.type= val: KX_LightObject, expected an int between 0 and 2");
return PY_SET_ATTR_FAIL;
}
switch (val) {
case 0:
self->m_lightobj->m_type = self->m_lightobj->LIGHT_SPOT;
break;
case 1:
self->m_lightobj->m_type = self->m_lightobj->LIGHT_SUN;
break;
case 2:
self->m_lightobj->m_type = self->m_lightobj->LIGHT_NORMAL;
break;
}
return PY_SET_ATTR_SUCCESS;
}
#endif // WITH_PYTHON
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