khanat-opennel-code/code/nel/src/gui/interface_expr.cpp

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2013-02-14 15:53:06 +00:00
// Ryzom - MMORPG Framework <http://dev.ryzom.com/projects/ryzom/>
// 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/>.
#include "stdpch.h"
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#include "nel/misc/algo.h"
#include <algorithm>
#include "nel/gui/db_manager.h"
#include "nel/gui/interface_expr.h"
#include "nel/gui/interface_expr_node.h"
using namespace std;
using namespace NLMISC;
namespace NLGUI
{
void ifexprufct_forcelink();
// Needed because otherwise GCC and co. omit the code in interface_expr_user_fct.cpp code
// causing the GUI not to work.
// It all happens because no function is called *directly* from that module.
struct LinkTrickster
{
LinkTrickster()
{
ifexprufct_forcelink();
}
};
LinkTrickster linkTrickster;
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// Yoyo: Act like a singleton, else registerUserFct may crash.
CInterfaceExpr::TUserFctMap *CInterfaceExpr::_UserFct= NULL;
static const std::string ExprLuaId="lua:";
//==================================================================
// release memory
void CInterfaceExpr::release()
{
delete _UserFct;
_UserFct = NULL;
}
//==================================================================
void formatLuaCall(const std::string &expr, std::string &tempStr)
{
/* Call the LUA interface exp fct, with the script as line, and resolve string definition conflicts:
eg: replace
lua:getSkillFromName('SM')
into
lua('getSkillFromName(\"SM\")')
*/
tempStr= expr.substr(ExprLuaId.size()); // eg: tempStr= getSkillFromName('SM')
while(strFindReplace(tempStr, "'", "\\\"")); // eg: tempStr= getSkillFromName(\"SM\")
tempStr= string("lua('") + tempStr + "')"; // eg: tempStr= lua('getSkillFromName(\"SM\")')
}
//==================================================================
bool CInterfaceExpr::eval(const std::string &expr, CInterfaceExprValue &result, std::vector<ICDBNode *> *nodes, bool noFctCalls /* = false */)
{
// Yoyo: Special InterfaceExpr Form to execute lua code?
if(expr.compare(0, ExprLuaId.size(), ExprLuaId) ==0 )
{
std::string tempStr;
formatLuaCall(expr, tempStr);
return evalExpr(tempStr.c_str(), result, nodes, noFctCalls) != NULL;
}
else
{
return evalExpr(expr.c_str(), result, nodes, noFctCalls) != NULL;
}
}
//==================================================================
CInterfaceExprNode *CInterfaceExpr::buildExprTree(const std::string &expr)
{
CInterfaceExprNode *node;
// Yoyo: Special InterfaceExpr Form to execute lua code?
if(expr.compare(0, ExprLuaId.size(), ExprLuaId) ==0 )
{
std::string tempStr;
formatLuaCall(expr, tempStr);
if (!buildExprTree(tempStr.c_str(), node)) return NULL;
}
else
{
if (!buildExprTree(expr.c_str(), node)) return NULL;
}
return node;
}
//==================================================================
void CInterfaceExpr::registerUserFct(const char *name,TUserFct fct)
{
if(!_UserFct) _UserFct= new TUserFctMap;
nlassert(fct != NULL);
(*_UserFct)[std::string(name)] = fct;
}
//==================================================================
/** tool fct : skip space, tab and carret-returns
*/
static const char *skipBlank(const char *start)
{
nlassert(start);
while (*start == ' ' || *start == '\t' || *start == '\r' || *start == '\n') ++start;
return start;
}
//==================================================================
const char *CInterfaceExpr::evalExpr(const char *expr, CInterfaceExprValue &result, std::vector<ICDBNode *> *nodes, bool noFctCalls)
{
nlassert(expr != NULL);
expr = skipBlank(expr);
if (isalpha(*expr)) // alpha character means this is a function name
{
return evalFct(expr, result, nodes, noFctCalls);
}
else if (*expr == '@') // is it a database entry ?
{
++ expr;
expr = skipBlank(expr);
return evalDBEntry(expr, result, nodes);
}
// try to parse a literal value
const char *newExpr = result.initFromString(expr);
if (!newExpr)
{
nlwarning("<CInterfaceExpr::evalExpr> : syntax error : %s", expr);
return NULL;
}
return newExpr;
}
//==================================================================
const char *CInterfaceExpr::buildExprTree(const char *expr, CInterfaceExprNode *&result)
{
nlassert(expr != NULL);
expr = skipBlank(expr);
if (isalpha(*expr)) // alpha character means this is a function name
{
return buildFctNode(expr, result);
}
else if (*expr == '@') // is it a database entry ?
{
++ expr;
expr = skipBlank(expr);
return buildDBEntryNode(expr, result);
}
else
{
CInterfaceExprValue value;
// try to parse a literal value
const char *newExpr = value.initFromString(expr);
if (!newExpr)
{
nlwarning("<CInterfaceExpr::buildExprTree> : syntax error : %s", expr);
return NULL;
}
CInterfaceExprNodeValue *node = new CInterfaceExprNodeValue;
node->Value = value;
result = node;
return newExpr;
}
return NULL;
}
//==================================================================
const char *CInterfaceExpr::evalFct(const char *expr, CInterfaceExprValue &result, std::vector<ICDBNode *> *nodes, bool noFctCalls)
{
if(!_UserFct) _UserFct= new TUserFctMap;
const char *start = expr;
while (isalnum(*expr)) ++ expr;
std::string fctName(start, expr - start);
// find entry in the map
TUserFctMap::iterator fctIt = _UserFct->find(fctName);
if (fctIt == _UserFct->end())
{
nlwarning("<CInterfaceExpr::evalFct> : Unknown function %s", fctName.c_str());
return NULL;
}
nlassert(fctIt->second != NULL);
// eval list of arguments
TArgList argList;
expr = skipBlank(expr);
if (*expr != '(')
{
nlwarning("<CInterfaceExpr::evalFct> : '(' expected for function %s", fctName.c_str());
return NULL;
}
++ expr;
expr = skipBlank(expr);
if (*expr != ')')
{
for(;;)
{
expr = skipBlank(expr);
// parse an argument
argList.push_back(CInterfaceExprValue());
expr = evalExpr(expr, argList.back(), nodes, noFctCalls);
if (expr == NULL) return NULL;
expr = skipBlank(expr);
if (*expr == ')') break;
// if it isn't the end of the expression, then we should find a ',' before next argument
if (*expr != ',')
{
nlwarning("<CInterfaceExpr::evalFct> : ',' expected in function %s", fctName.c_str());
return NULL;
}
++ expr;
}
}
++ expr;
// call the fct
if (!noFctCalls) // should we make terminal function calls ?
{
if (fctIt->second(argList, result)) return expr;
}
else
{
return expr;
}
return NULL;
}
//==================================================================
const char *CInterfaceExpr::buildFctNode(const char *expr, CInterfaceExprNode *&result)
{
if(!_UserFct) _UserFct= new TUserFctMap;
const char *start = expr;
while (isalnum(*expr)) ++ expr;
std::string fctName(start, expr - start);
// find entry in the map
TUserFctMap::iterator fctIt = _UserFct->find(fctName);
if (fctIt == _UserFct->end())
{
nlwarning("<CInterfaceExpr::buildFctNode> : Unknown function %s", fctName.c_str());
return NULL;
}
nlassert(fctIt->second != NULL);
// List of parameters
expr = skipBlank(expr);
if (*expr != '(')
{
nlwarning("<CInterfaceExpr::buildFctNode> : '(' expected for function %s", fctName.c_str());
return NULL;
}
++ expr;
expr = skipBlank(expr);
std::vector<CInterfaceExprNode *> Params;
if (*expr != ')')
{
for(;;)
{
expr = skipBlank(expr);
// parse an argument
CInterfaceExprNode *node = NULL;
expr = buildExprTree(expr, node);
if (expr == NULL)
{
for(uint k = 0; k < Params.size(); ++k)
{
delete Params[k];
}
return NULL;
}
Params.push_back(node);
expr = skipBlank(expr);
if (*expr == ')') break;
// if it isn't the end of the expression, then we should find a ',' before next argument
if (*expr != ',')
{
for(uint k = 0; k < Params.size(); ++k)
{
delete Params[k];
}
nlwarning("CInterfaceExpr::evalFct : ',' expected in function %s", fctName.c_str());
return NULL;
}
++ expr;
}
}
++ expr;
CInterfaceExprNodeValueFnCall *node = new CInterfaceExprNodeValueFnCall;
node->Params.swap(Params);
node->Func = fctIt->second;
result = node;
return expr;
}
//==================================================================
const char *CInterfaceExpr::evalDBEntry(const char *expr, CInterfaceExprValue &result, std::vector<ICDBNode *> *nodes)
{
std::string dbEntry;
expr = unpackDBentry(expr, nodes, dbEntry);
if (!expr) return NULL;
// TestYoyo
//nlassert(NLGUI::CDBManager::getInstance()->getDbProp(dbEntry, false) || CInterfaceManager::getInstance()->getDbBranch(dbEntry));
// get the db value
CCDBNodeLeaf *nl = NLGUI::CDBManager::getInstance()->getDbProp(dbEntry);
if (nl)
{
if (nodes)
{
// insert node if not already present
if (std::find(nodes->begin(), nodes->end(), nl) == nodes->end())
{
nodes->push_back(nl);
}
}
result.setInteger(nl->getValue64());
return expr;
}
else
{
CCDBNodeBranch *nb = NLGUI::CDBManager::getInstance()->getDbBranch(dbEntry);
if (nodes && nb)
{
if (std::find(nodes->begin(), nodes->end(), nb) == nodes->end())
{
nodes->push_back(nb);
}
}
if (!nb) return NULL;
result.setInteger(0);
return expr;
}
return NULL;
}
//==================================================================
const char *CInterfaceExpr::buildDBEntryNode(const char *expr, CInterfaceExprNode *&result)
{
std::string dbEntry;
bool indirection;
const char *startChar = expr;
expr = unpackDBentry(expr, NULL, dbEntry, &indirection);
if (!expr) return NULL;
if (indirection)
{
// special node with no optimisation
CInterfaceExprNodeDependantDBRead *node = new CInterfaceExprNodeDependantDBRead;
node->Expr.resize(expr - startChar + 1);
std::copy(startChar, expr, node->Expr.begin() + 1);
node->Expr[0] = '@';
result = node;
return expr;
}
else
{
// TestYoyo
//nlassert(NLGUI::CDBManager::getInstance()->getDbProp(dbEntry, false) || CInterfaceManager::getInstance()->getDbBranch(dbEntry));
CCDBNodeLeaf *nl = NLGUI::CDBManager::getInstance()->getDbProp(dbEntry);
if (nl)
{
CInterfaceExprNodeDBLeaf *node = new CInterfaceExprNodeDBLeaf;
node->Leaf = nl;
result = node;
return expr;
}
else
{
CCDBNodeBranch *nb = NLGUI::CDBManager::getInstance()->getDbBranch(dbEntry);
if (nb)
{
CInterfaceExprNodeDBBranch *node = new CInterfaceExprNodeDBBranch;
node->Branch = nb;
result = node;
return expr;
}
}
return NULL;
}
}
//==================================================================
const char *CInterfaceExpr::unpackDBentry(const char *expr, std::vector<ICDBNode *> *nodes, std::string &dest, bool *hasIndirections /* = NULL*/)
{
std::string entryName;
bool indirection = false;
for (;;)
{
if (*expr == '[')
{
indirection = true;
++ expr;
std::string subEntry;
expr = unpackDBentry(expr, nodes, subEntry);
if (!expr) return NULL;
// Read DB Index Offset.
sint32 indirectionOffset= 0;
if (*expr == '-' || *expr =='+' )
{
bool negative= *expr == '-';
std::string offsetString;
++ expr;
while(*expr!=0 && isdigit(*expr))
{
offsetString.push_back(*expr);
++ expr;
}
// get offset
fromString(offsetString, indirectionOffset);
if(negative)
indirectionOffset= -indirectionOffset;
}
// Test end of indirection
if (*expr != ']')
{
nlwarning("CInterfaceExpr::unpackDBentry: ']' expected");
return NULL;
}
++ expr;
// get the db value at sub entry
// TestYoyo
//nlassert(NLGUI::CDBManager::getInstance()->getDbProp(subEntry, false) || CInterfaceManager::getInstance()->getDbBranch(subEntry));
CCDBNodeLeaf *nl = NLGUI::CDBManager::getInstance()->getDbProp(subEntry);
if (nodes)
{
if (std::find(nodes->begin(), nodes->end(), nl) == nodes->end())
{
nodes->push_back(nl);
}
}
// compute indirection, (clamp).
sint32 indirectionValue= nl->getValue32() + indirectionOffset;
indirectionValue= std::max((sint32)0, indirectionValue);
// Append to entry name.
entryName += NLMISC::toString(indirectionValue);
}
else if (isalnum(*expr) || *expr == '_' || *expr == ':')
{
entryName += *expr;
++ expr;
}
else
{
break;
}
}
if (hasIndirections)
{
*hasIndirections = indirection;
}
dest = entryName;
return expr;
}
//==================================================================
bool CInterfaceExpr::evalAsInt(const std::string &expr, sint64 &dest)
{
CInterfaceExprValue result;
if (!eval(expr, result)) return false;
if (!result.toInteger())
{
nlwarning("<CInterfaceExpr::evalAsInt> Can't convert value to an integer, expr = %s", expr.c_str());
return false;
}
dest = result.getInteger();
return true;
}
//==================================================================
bool CInterfaceExpr::evalAsDouble(const std::string &expr, double &dest)
{
CInterfaceExprValue result;
if (!eval(expr, result)) return false;
if (!result.toDouble())
{
nlwarning("<CInterfaceExpr::evalAsDouble> Can't convert value to a double, expr = %s", expr.c_str());
return false;
}
dest = result.getDouble();
return true;
}
//==================================================================
bool CInterfaceExpr::evalAsBool(const std::string &expr, bool &dest)
{
CInterfaceExprValue result;
if (!eval(expr, result)) return false;
if (!result.toBool())
{
nlwarning("<CInterfaceExpr::evalAsBool> Can't convert value to a boolean, expr = %s", expr.c_str());
return false;
}
dest = result.getBool();
return true;
}
//==================================================================
bool CInterfaceExpr::evalAsString(const std::string &expr, std::string &dest)
{
CInterfaceExprValue result;
if (!eval(expr, result)) return false;
if (!result.toString())
{
nlwarning("<CInterfaceExpr::evalAsString> Can't convert value to a string, expr = %s", expr.c_str());
return false;
}
dest = result.getString();
return true;
}
//==================================================================
//==================================================================
//==================================================================
//==================================================================
//==================================================================
bool CInterfaceExprValue::toBool()
{
switch(_Type)
{
case Boolean: return true;
case Integer: setBool(_IntegerValue != 0); return true;
case Double: setBool(_DoubleValue != 0); return true;
case String: return evalBoolean(_StringValue.toString().c_str()) != NULL;
default: break;
}
return false;
}
//==================================================================
bool CInterfaceExprValue::toInteger()
{
switch(_Type)
{
case Boolean: setInteger(_BoolValue ? 1 : 0); return true;
case Integer: return true;
case Double: setInteger((sint64) _DoubleValue); return true;
case String:
if (evalNumber(_StringValue.toString().c_str())) return toInteger();
return false;
case RGBA: setInteger((sint64) _RGBAValue); return true;
default: break;
}
return false;
}
//==================================================================
bool CInterfaceExprValue::toDouble()
{
switch(_Type)
{
case Boolean: setDouble(_BoolValue ? 1 : 0); return true;
case Integer: setDouble((double) _IntegerValue); return true;
case Double: return true;
case String:
if (evalNumber(_StringValue.toString().c_str())) return toBool();
return false;
case RGBA: setDouble((double) _RGBAValue); return true;
default: break;
}
return false;
}
//==================================================================
bool CInterfaceExprValue::toString()
{
switch(_Type)
{
case Boolean: setString(_BoolValue ? "true" : "false"); return true;
case Integer: setString(NLMISC::toString(_IntegerValue)); return true;
case Double: setString(NLMISC::toString("%.2f", _DoubleValue)); return true;
case String: return true;
case RGBA:
{
uint r,g,b,a;
r= (_RGBAValue&0xff);
g= ((_RGBAValue>>8)&0xff);
b= ((_RGBAValue>>16)&0xff);
a= ((_RGBAValue>>24)&0xff);
setString(NLMISC::toString("%d %d %d %d", r, g, b, a));
return true;
}
default: break;
}
return false;
}
//==================================================================
bool CInterfaceExprValue::toRGBA()
{
switch(_Type)
{
case RGBA:
return true;
case Integer:
setRGBA(NLMISC::CRGBA((uint8)(_IntegerValue&0xff), (uint8)((_IntegerValue>>8)&0xff),
(uint8)((_IntegerValue>>16)&0xff), (uint8)((_IntegerValue>>24)&0xff)));
return true;
case String:
setRGBA( NLMISC::CRGBA::stringToRGBA(_StringValue.toString().c_str()));
return true;
default:
break;
}
return false;
}
//==================================================================
bool CInterfaceExprValue::isNumerical() const
{
return _Type == Boolean || _Type == Integer || _Type == Double;
}
//==================================================================
const char *CInterfaceExprValue::initFromString(const char *expr)
{
nlassert(expr);
expr = skipBlank(expr);
if (isdigit(*expr) || *expr == '.' || *expr == '-') return evalNumber(expr);
switch(*expr)
{
case 't':
case 'T':
case 'f':
case 'F':
return evalBoolean(expr);
case '\'':
return evalString(expr);
default:
return NULL;
}
}
//==================================================================
const char *CInterfaceExprValue::evalBoolean(const char *expr)
{
nlassert(expr);
expr = skipBlank(expr);
if (toupper(expr[0]) == 'T' &&
toupper(expr[1]) == 'R' &&
toupper(expr[2]) == 'U' &&
toupper(expr[3]) == 'E')
{
setBool(true);
return expr + 4;
}
//
if (toupper(expr[0]) == 'F' &&
toupper(expr[1]) == 'A' &&
toupper(expr[2]) == 'L' &&
toupper(expr[3]) == 'S' &&
toupper(expr[4]) == 'E')
{
setBool(false);
return expr + 5;
}
return NULL;
}
//==================================================================
const char *CInterfaceExprValue::evalNumber(const char *expr)
{
bool negative;
bool hasPoint = false;
expr = skipBlank(expr);
if (*expr == '-')
{
negative = true;
++ expr;
expr = skipBlank(expr);
}
else
{
negative = false;
}
const char *start = expr;
while (*expr == '.' || isdigit(*expr))
{
if (*expr == '.') hasPoint = true;
++ expr;
}
if (start == expr) return NULL;
if (!hasPoint)
{
sint64 value = 0;
// this is an integer
for (const char *nbPtr = start; nbPtr < expr; ++ nbPtr)
{
value *= 10;
value += (sint64) (*nbPtr - '0');
}
setInteger(negative ? - value : value);
return expr;
}
else // floating point value : use scanf
{
// well, for now, we only parse a float
float value;
std::string floatValue(start, expr - start);
if (fromString(floatValue, value))
{
setDouble(negative ? - value : value);
return expr;
}
else
{
return NULL;
}
}
}
//==================================================================
const char *CInterfaceExprValue::evalString(const char *expr)
{
expr = skipBlank(expr);
if (*expr != '\'') return NULL;
++expr;
std::string str;
for (;;)
{
if (expr == '\0')
{
nlwarning("CInterfaceExprValue::evalString : end of buffer encountered in a string");
return NULL;
}
else
if (*expr == '\'')
{
++ expr;
break;
}
if (*expr == '\\') // special char
{
++ expr;
switch (*expr)
{
case 't': str += '\t'; break;
case 'r': str += '\r'; break;
case 'n': str += '\n'; break;
case '\'': str += '\''; break;
case '"': str += '"'; break;
case '\\': str += '\\'; break;
case '\n':
case '\r':
// string continue on next line, so do nothing
break;
case '\0': continue;
default:
nlwarning("CInterfaceExprValue::evalString : unknown escape sequence : \\%c", *expr);
if (*expr) str += *expr;
break;
}
}
else if (*expr == '\n' || *expr == '\r')
{
nlwarning("CInterfaceExprValue::evalString : line break encountered in a string");
return NULL;
}
else
{
str += *expr;
}
++ expr;
}
setString(str);
return expr;
}
//==================================================================
bool CInterfaceExprValue::toType(TType type)
{
switch(type)
{
case Boolean: return toBool();
case Integer: return toInteger();
case Double: return toDouble();
case String: return toString();
case RGBA: return toRGBA();
default: return false;
}
}
//==================================================================
void CInterfaceExprValue::clean()
{
switch (_Type)
{
case String: _StringValue.clear(); break;
case UserType: delete _UserTypeValue; break;
default: break;
}
}
//==================================================================
void CInterfaceExprValue::setUserType(CInterfaceExprUserType *value)
{
if (_Type == UserType && value == _UserTypeValue) return;
clean();
_Type = UserType;
_UserTypeValue = value;
}
//==================================================================
bool CInterfaceExprValue::getBool() const
{
if (_Type != Boolean)
{
nlwarning("<CInterfaceExprValue::getBool> bad type!");
return false;
}
return _BoolValue;
}
//==================================================================
sint64 CInterfaceExprValue::getInteger() const
{
if (_Type != Integer)
{
nlwarning("<CInterfaceExprValue::getInteger> bad type!");
return 0;
}
return _IntegerValue;
}
//==================================================================
double CInterfaceExprValue::getDouble() const
{
if (_Type != Double)
{
nlwarning("<CInterfaceExprValue::getDouble> bad type!");
return 0;
}
return _DoubleValue;
}
//==================================================================
std::string CInterfaceExprValue::getString() const
{
if (_Type != String)
{
nlwarning("<CInterfaceExprValue::getString> bad type!");
return "";
}
return _StringValue.toString();
}
//==================================================================
NLMISC::CRGBA CInterfaceExprValue::getRGBA() const
{
if (_Type != RGBA)
{
nlwarning("<CInterfaceExprValue::getRGBA> bad type!");
return CRGBA::White;
}
NLMISC::CRGBA col;
col.R = (uint8)(_RGBAValue&0xff);
col.G = (uint8)((_RGBAValue>>8)&0xff);
col.B = (uint8)((_RGBAValue>>16)&0xff);
col.A = (uint8)((_RGBAValue>>24)&0xff);
return col;
}
//==================================================================
const ucstring &CInterfaceExprValue::getUCString() const
{
if (_Type != String)
{
nlwarning("<CInterfaceExprValue::getString> bad type!");
static ucstring emptyString;
return emptyString;
}
return _StringValue;
}
//==================================================================
CInterfaceExprUserType *CInterfaceExprValue::getUserType() const
{
if (_Type != UserType)
{
nlwarning("<CInterfaceExprValue::getUserType> bad type!");
return NULL;
}
return _UserTypeValue;
}
//==================================================================
CInterfaceExprValue::CInterfaceExprValue(const CInterfaceExprValue &other) : _Type(NoType)
{
*this = other;
}
//==================================================================
CInterfaceExprValue &CInterfaceExprValue::operator = (const CInterfaceExprValue &other)
{
if (this != &other)
{
clean();
switch(other._Type)
{
case Boolean: _BoolValue = other._BoolValue; break;
case Integer: _IntegerValue = other._IntegerValue; break;
case Double: _DoubleValue = other._DoubleValue; break;
case String: _StringValue = other._StringValue; break;
case RGBA: _RGBAValue = other._RGBAValue; break;
case UserType:
if (other._UserTypeValue != NULL)
{
_UserTypeValue = other._UserTypeValue->clone();
}
else
{
_UserTypeValue = NULL;
}
break;
case NoType: break;
default:
nlwarning("<CInterfaceExprValue::operator=> bad source type") ;
return *this;
break;
}
_Type = other._Type;
}
return *this;
}
}