blender/source/gameengine/Expressions/Value.cpp
Jorge Bernal 8c16f4c7d0 BGE: New Property sensor evaluation types
This patch adds "Less Than" and "Greater Than" evaluation types to the property sensor.
The Wiki Docs modifications http://wiki.blender.org/index.php/User:Lordloki/Doc:2.6/Manual/Game_Engine/Logic/Sensors/Property
Also, I have attached a screenshot and a blend to check.

Reviewers: dfelinto, moguri

Reviewed By: moguri

Differential Revision: https://developer.blender.org/D476
2014-06-16 14:56:36 -07:00

673 lines
14 KiB
C++

/** \file gameengine/Expressions/Value.cpp
* \ingroup expressions
*/
// Value.cpp: implementation of the CValue class.
// developed at Eindhoven University of Technology, 1997
// by the OOPS team
//////////////////////////////////////////////////////////////////////
/*
* Copyright (c) 1996-2000 Erwin Coumans <coockie@acm.org>
*
* Permission to use, copy, modify, distribute and sell this software
* and its documentation for any purpose is hereby granted without fee,
* provided that the above copyright notice appear in all copies and
* that both that copyright notice and this permission notice appear
* in supporting documentation. Erwin Coumans makes no
* representations about the suitability of this software for any
* purpose. It is provided "as is" without express or implied warranty.
*
*/
#include "Value.h"
#include "BoolValue.h"
#include "FloatValue.h"
#include "IntValue.h"
#include "VectorValue.h"
#include "VoidValue.h"
#include "StringValue.h"
#include "ErrorValue.h"
#include "ListValue.h"
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////
double CValue::m_sZeroVec[3] = {0.0,0.0,0.0};
#ifdef WITH_PYTHON
PyTypeObject CValue::Type = {
PyVarObject_HEAD_INIT(NULL, 0)
"CValue",
sizeof(PyObjectPlus_Proxy),
0,
py_base_dealloc,
0,
0,
0,
0,
py_base_repr,
0,
0,0,0,0,0,
NULL,
NULL,
0,
Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE,
0,0,0,0,0,0,0,
Methods,
0,
0,
&PyObjectPlus::Type,
0,0,0,0,0,0,
py_base_new
};
PyMethodDef CValue::Methods[] = {
{NULL,NULL} //Sentinel
};
#endif // WITH_PYTHON
/*#define CVALUE_DEBUG*/
#ifdef CVALUE_DEBUG
int gRefCount;
struct SmartCValueRef
{
CValue *m_ref;
int m_count;
SmartCValueRef(CValue *ref)
{
m_ref = ref;
m_count = gRefCount++;
}
};
#include <vector>
std::vector<SmartCValueRef> gRefList;
#endif
#ifdef _DEBUG
//int gRefCountValue;
#endif
CValue::CValue()
: PyObjectPlus(),
m_pNamedPropertyArray(NULL),
m_refcount(1)
/*
pre: false
effect: constucts a CValue
*/
{
//debug(gRefCountValue++) // debugging
#ifdef _DEBUG
//gRefCountValue++;
#ifdef CVALUE_DEBUG
gRefList.push_back(SmartCValueRef(this));
#endif
#endif
}
CValue::~CValue()
/*
pre:
effect: deletes the object
*/
{
ClearProperties();
assertd (m_refcount==0);
#ifdef CVALUE_DEBUG
std::vector<SmartCValueRef>::iterator it;
for (it=gRefList.begin(); it!=gRefList.end(); it++)
{
if (it->m_ref == this)
{
*it = gRefList.back();
gRefList.pop_back();
break;
}
}
#endif
}
/* UNUSED */
#if 0
#define VALUE_SUB(val1, val2) (val1)->Calc(VALUE_SUB_OPERATOR, val2)
#define VALUE_MUL(val1, val2) (val1)->Calc(VALUE_MUL_OPERATOR, val2)
#define VALUE_DIV(val1, val2) (val1)->Calc(VALUE_DIV_OPERATOR, val2)
#define VALUE_NEG(val1) (val1)->Calc(VALUE_NEG_OPERATOR, val1)
#define VALUE_POS(val1) (val1)->Calc(VALUE_POS_OPERATOR, val1)
#endif
STR_String CValue::op2str(VALUE_OPERATOR op)
{
//pre:
//ret: the stringrepresentation of operator op
STR_String opmsg;
switch (op) {
case VALUE_MOD_OPERATOR:
opmsg = " % ";
break;
case VALUE_ADD_OPERATOR:
opmsg = " + ";
break;
case VALUE_SUB_OPERATOR:
opmsg = " - ";
break;
case VALUE_MUL_OPERATOR:
opmsg = " * ";
break;
case VALUE_DIV_OPERATOR:
opmsg = " / ";
break;
case VALUE_NEG_OPERATOR:
opmsg = " -";
break;
case VALUE_POS_OPERATOR:
opmsg = " +";
break;
case VALUE_AND_OPERATOR:
opmsg = " & ";
break;
case VALUE_OR_OPERATOR:
opmsg = " | ";
break;
case VALUE_EQL_OPERATOR:
opmsg = " = ";
break;
case VALUE_NEQ_OPERATOR:
opmsg = " != ";
break;
case VALUE_NOT_OPERATOR:
opmsg = " !";
break;
default:
opmsg="Error in Errorhandling routine.";
// AfxMessageBox("Invalid operator");
break;
}
return opmsg;
}
//---------------------------------------------------------------------------------------------------------------------
// Property Management
//---------------------------------------------------------------------------------------------------------------------
//
// Set property <ioProperty>, overwrites and releases a previous property with the same name if needed
//
void CValue::SetProperty(const STR_String & name,CValue* ioProperty)
{
if (ioProperty==NULL)
{ // Check if somebody is setting an empty property
trace("Warning:trying to set empty property!");
return;
}
if (m_pNamedPropertyArray)
{ // Try to replace property (if so -> exit as soon as we replaced it)
CValue* oldval = (*m_pNamedPropertyArray)[name];
if (oldval)
oldval->Release();
}
else { // Make sure we have a property array
m_pNamedPropertyArray = new std::map<STR_String,CValue *>;
}
// Add property at end of array
(*m_pNamedPropertyArray)[name] = ioProperty->AddRef();//->Add(ioProperty);
}
void CValue::SetProperty(const char* name,CValue* ioProperty)
{
if (ioProperty==NULL)
{ // Check if somebody is setting an empty property
trace("Warning:trying to set empty property!");
return;
}
if (m_pNamedPropertyArray)
{ // Try to replace property (if so -> exit as soon as we replaced it)
CValue* oldval = (*m_pNamedPropertyArray)[name];
if (oldval)
oldval->Release();
}
else { // Make sure we have a property array
m_pNamedPropertyArray = new std::map<STR_String,CValue *>;
}
// Add property at end of array
(*m_pNamedPropertyArray)[name] = ioProperty->AddRef();//->Add(ioProperty);
}
//
// Get pointer to a property with name <inName>, returns NULL if there is no property named <inName>
//
CValue* CValue::GetProperty(const STR_String & inName)
{
if (m_pNamedPropertyArray) {
std::map<STR_String,CValue*>::iterator it = m_pNamedPropertyArray->find(inName);
if (it != m_pNamedPropertyArray->end())
return (*it).second;
}
return NULL;
}
CValue* CValue::GetProperty(const char *inName)
{
if (m_pNamedPropertyArray) {
std::map<STR_String,CValue*>::iterator it = m_pNamedPropertyArray->find(inName);
if (it != m_pNamedPropertyArray->end())
return (*it).second;
}
return NULL;
}
//
// Get text description of property with name <inName>, returns an empty string if there is no property named <inName>
//
const STR_String& CValue::GetPropertyText(const STR_String & inName)
{
const static STR_String sEmpty("");
CValue *property = GetProperty(inName);
if (property)
return property->GetText();
else
return sEmpty;
}
float CValue::GetPropertyNumber(const STR_String& inName,float defnumber)
{
CValue *property = GetProperty(inName);
if (property)
return property->GetNumber();
else
return defnumber;
}
//
// Remove the property named <inName>, returns true if the property was succesfully removed, false if property was not found or could not be removed
//
bool CValue::RemoveProperty(const char *inName)
{
// Check if there are properties at all which can be removed
if (m_pNamedPropertyArray)
{
std::map<STR_String,CValue*>::iterator it = m_pNamedPropertyArray->find(inName);
if (it != m_pNamedPropertyArray->end())
{
((*it).second)->Release();
m_pNamedPropertyArray->erase(it);
return true;
}
}
return false;
}
//
// Get Property Names
//
vector<STR_String> CValue::GetPropertyNames()
{
vector<STR_String> result;
if (!m_pNamedPropertyArray) return result;
result.reserve(m_pNamedPropertyArray->size());
std::map<STR_String,CValue*>::iterator it;
for (it= m_pNamedPropertyArray->begin(); (it != m_pNamedPropertyArray->end()); it++)
{
result.push_back((*it).first);
}
return result;
}
//
// Clear all properties
//
void CValue::ClearProperties()
{
// Check if we have any properties
if (m_pNamedPropertyArray == NULL)
return;
// Remove all properties
std::map<STR_String,CValue*>::iterator it;
for (it= m_pNamedPropertyArray->begin();(it != m_pNamedPropertyArray->end()); it++)
{
CValue* tmpval = (*it).second;
//STR_String name = (*it).first;
tmpval->Release();
}
// Delete property array
delete m_pNamedPropertyArray;
m_pNamedPropertyArray=NULL;
}
//
// Set all properties' modified flag to <inModified>
//
void CValue::SetPropertiesModified(bool inModified)
{
if (!m_pNamedPropertyArray) return;
std::map<STR_String,CValue*>::iterator it;
for (it= m_pNamedPropertyArray->begin();(it != m_pNamedPropertyArray->end()); it++)
((*it).second)->SetModified(inModified);
}
//
// Check if any of the properties in this value have been modified
//
bool CValue::IsAnyPropertyModified()
{
if (!m_pNamedPropertyArray) return false;
std::map<STR_String,CValue*>::iterator it;
for (it= m_pNamedPropertyArray->begin();(it != m_pNamedPropertyArray->end()); it++)
if (((*it).second)->IsModified())
return true;
return false;
}
//
// Get property number <inIndex>
//
CValue* CValue::GetProperty(int inIndex)
{
int count=0;
CValue* result = NULL;
if (m_pNamedPropertyArray)
{
std::map<STR_String,CValue*>::iterator it;
for (it= m_pNamedPropertyArray->begin(); (it != m_pNamedPropertyArray->end()); it++)
{
if (count++ == inIndex)
{
result = (*it).second;
break;
}
}
}
return result;
}
//
// Get the amount of properties assiocated with this value
//
int CValue::GetPropertyCount()
{
if (m_pNamedPropertyArray)
return m_pNamedPropertyArray->size();
else
return 0;
}
double* CValue::GetVector3(bool bGetTransformedVec)
{
assertd(false); // don't get vector from me
return m_sZeroVec;//::sZero;
}
/*---------------------------------------------------------------------------------------------------------------------
Reference Counting
---------------------------------------------------------------------------------------------------------------------*/
//
// Release a reference to this value (when reference count reaches 0, the value is removed from the heap)
//
//
// Disable reference counting for this value
//
void CValue::DisableRefCount()
{
assertd(m_refcount == 1);
m_refcount--;
//debug(gRefCountValue--);
#ifdef _DEBUG
//gRefCountValue--;
#endif
m_ValFlags.RefCountDisabled=true;
}
void CValue::ProcessReplica() /* was AddDataToReplica in 2.48 */
{
m_refcount = 1;
#ifdef _DEBUG
//gRefCountValue++;
#endif
PyObjectPlus::ProcessReplica();
m_ValFlags.RefCountDisabled = false;
/* copy all props */
if (m_pNamedPropertyArray)
{
std::map<STR_String,CValue*> *pOldArray = m_pNamedPropertyArray;
m_pNamedPropertyArray=NULL;
std::map<STR_String,CValue*>::iterator it;
for (it= pOldArray->begin(); (it != pOldArray->end()); it++)
{
CValue *val = (*it).second->GetReplica();
SetProperty((*it).first,val);
val->Release();
}
}
}
int CValue::GetValueType()
{
return VALUE_NO_TYPE;
}
CValue* CValue::FindIdentifier(const STR_String& identifiername)
{
CValue* result = NULL;
int pos = 0;
// if a dot exists, explode the name into pieces to get the subcontext
if ((pos=identifiername.Find('.'))>=0)
{
const STR_String rightstring = identifiername.Right(identifiername.Length() -1 - pos);
const STR_String leftstring = identifiername.Left(pos);
CValue* tempresult = GetProperty(leftstring);
if (tempresult)
{
result=tempresult->FindIdentifier(rightstring);
}
} else
{
result = GetProperty(identifiername);
if (result)
return result->AddRef();
}
if (!result)
{
// warning here !!!
result = new CErrorValue(identifiername+" not found");
}
return result;
}
#ifdef WITH_PYTHON
PyAttributeDef CValue::Attributes[] = {
KX_PYATTRIBUTE_RO_FUNCTION("name", CValue, pyattr_get_name),
{ NULL } //Sentinel
};
PyObject *CValue::pyattr_get_name(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef)
{
CValue * self = static_cast<CValue *> (self_v);
return PyUnicode_From_STR_String(self->GetName());
}
/**
* There are 2 reasons this could return NULL
* - unsupported type.
* - error converting (overflow).
*
* \param do_type_exception Use to skip raising an exception for unknown types.
*/
CValue *CValue::ConvertPythonToValue(PyObject *pyobj, const bool do_type_exception, const char *error_prefix)
{
CValue *vallie;
/* refcounting is broking here! - this crashes anyway, just store a python list for KX_GameObject */
#if 0
if (PyList_Check(pyobj))
{
CListValue* listval = new CListValue();
bool error = false;
Py_ssize_t i;
Py_ssize_t numitems = PyList_GET_SIZE(pyobj);
for (i=0;i<numitems;i++)
{
PyObject *listitem = PyList_GetItem(pyobj,i); /* borrowed ref */
CValue* listitemval = ConvertPythonToValue(listitem, error_prefix);
if (listitemval)
{
listval->Add(listitemval);
} else
{
error = true;
}
}
if (!error)
{
// jippie! could be converted
vallie = listval;
} else
{
// list could not be converted... bad luck
listval->Release();
}
} else
#endif
/* note: Boolean check should go before Int check [#34677] */
if (PyBool_Check(pyobj))
{
vallie = new CBoolValue( (bool)PyLong_AsLongLong(pyobj) );
} else
if (PyFloat_Check(pyobj))
{
const double tval = PyFloat_AsDouble(pyobj);
if (tval > (double)FLT_MAX || tval < (double)-FLT_MAX) {
PyErr_Format(PyExc_OverflowError, "%soverflow converting from float, out of internal range", error_prefix);
vallie = NULL;
}
else {
vallie = new CFloatValue((float)tval);
}
} else
if (PyLong_Check(pyobj))
{
vallie = new CIntValue( (cInt)PyLong_AsLongLong(pyobj) );
} else
if (PyUnicode_Check(pyobj))
{
vallie = new CStringValue(_PyUnicode_AsString(pyobj),"");
} else
if (PyObject_TypeCheck(pyobj, &CValue::Type)) /* Note, don't let these get assigned to GameObject props, must check elsewhere */
{
vallie = (static_cast<CValue *>(BGE_PROXY_REF(pyobj)))->AddRef();
}
else {
if (do_type_exception) {
/* return an error value from the caller */
PyErr_Format(PyExc_TypeError, "%scould convert python value to a game engine property", error_prefix);
}
vallie = NULL;
}
return vallie;
}
PyObject *CValue::ConvertKeysToPython(void)
{
if (m_pNamedPropertyArray)
{
PyObject *pylist= PyList_New(m_pNamedPropertyArray->size());
Py_ssize_t i= 0;
std::map<STR_String,CValue*>::iterator it;
for (it= m_pNamedPropertyArray->begin(); (it != m_pNamedPropertyArray->end()); it++)
{
PyList_SET_ITEM(pylist, i++, PyUnicode_From_STR_String((*it).first));
}
return pylist;
}
else {
return PyList_New(0);
}
}
#endif // WITH_PYTHON
///////////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////////////////////
/* These implementations were moved out of the header */
void CValue::SetOwnerExpression(class CExpression* expr)
{
/* intentionally empty */
}
void CValue::SetColorOperator(VALUE_OPERATOR op)
{
/* intentionally empty */
}
void CValue::SetValue(CValue* newval)
{
// no one should get here
assertd(newval->GetNumber() == 10121969);
}