//============================================================================= // // File : kvi_kvs_treenode_hashelement.cpp // Created on Tue 07 Oct 2003 03:04:18 by Szymon Stefanek // // This file is part of the KVIrc IRC client distribution // Copyright (C) 2003 Szymon Stefanek // // 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 opinion) 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. // //============================================================================= #define __KVIRC__ #include "kvi_kvs_treenode_hashelement.h" #include "kvi_kvs_runtimecontext.h" #include "kvi_locale.h" #include "kvi_kvs_hash.h" #include "kvi_kvs_object.h" KviKvsTreeNodeHashElement::KviKvsTreeNodeHashElement(const TQChar * pLocation,KviKvsTreeNodeData * pSource,KviKvsTreeNodeData * pKey) : KviKvsTreeNodeArrayOrHashElement(pLocation,pSource) { #ifdef COMPILE_NEW_KVS m_pKey = pKey; m_pKey->setParent(this); #endif } KviKvsTreeNodeHashElement::~KviKvsTreeNodeHashElement() { #ifdef COMPILE_NEW_KVS delete m_pKey; #endif } void KviKvsTreeNodeHashElement::contextDescription(TQString &szBuffer) { #ifdef COMPILE_NEW_KVS szBuffer = "Hash Element Evaluation"; #endif } void KviKvsTreeNodeHashElement::dump(const char * prefix) { #ifdef COMPILE_NEW_KVS tqDebug("%s HashElement",prefix); TQString tmp = prefix; tmp.append(" "); m_pSource->dump(tmp.utf8().data()); m_pKey->dump(tmp.utf8().data()); #endif } bool KviKvsTreeNodeHashElement::evaluateReadOnlyInObjectScope(KviKvsObject *o,KviKvsRunTimeContext * c,KviKvsVariant * pBuffer) { #ifdef COMPILE_NEW_KVS KviKvsVariant key; if(!m_pKey->evaluateReadOnly(c,&key))return false; TQString szKey; key.asString(szKey); if(szKey.isEmpty()) { c->warning(this,__tr2qs("Hash key evaluated to empty string: fix the script")); pBuffer->setNothing(); return true; } KviKvsVariant val; if(o) { if(!m_pSource->evaluateReadOnlyInObjectScope(o,c,&val))return false; } else { if(!m_pSource->evaluateReadOnly(c,&val))return false; } if(!val.isHash()) { if(!val.isNothing()) { TQString szType; val.getTypeName(szType); c->warning(this,__tr2qs("The argument of the {} subscript didn't evaluate to a hash: automatic conversion from type '%Q' supplied"),&szType); } pBuffer->setNothing(); return true; } KviKvsVariant * v = val.hash()->find(szKey); if(!v) { pBuffer->setNothing(); return true; } pBuffer->copyFrom(v); #endif return true; } KviKvsRWEvaluationResult * KviKvsTreeNodeHashElement::evaluateReadWriteInObjectScope(KviKvsObject *o,KviKvsRunTimeContext * c) { #ifdef COMPILE_NEW_KVS KviKvsVariant key; if(!m_pKey->evaluateReadOnly(c,&key))return 0; TQString szKey; key.asString(szKey); if(szKey.isEmpty()) { c->warning(this,__tr2qs("Hash key evaluated to empty string: fix the script")); } KviKvsRWEvaluationResult * result; if(o)result = m_pSource->evaluateReadWriteInObjectScope(o,c); else result = m_pSource->evaluateReadWrite(c); if(!result)return 0; if(!result->result()->isHash()) { // convert to hash in some way //#warning "Supply a *real* conversion from other types to array ?" if(!result->result()->isNothing()) { TQString szType; result->result()->getTypeName(szType); c->warning(this,__tr2qs("The argument of the {} subscript didn't evaluate to a hash automatic conversion from %Q supplied"),&szType); } result->result()->setHash(new KviKvsHash()); } return new KviKvsHashElement(result,result->result()->hash()->get(szKey),result->result()->hash(),szKey); #else return 0; #endif } bool KviKvsTreeNodeHashElement::evaluateReadOnly(KviKvsRunTimeContext * c,KviKvsVariant * pBuffer) { return evaluateReadOnlyInObjectScope(0,c,pBuffer); } KviKvsRWEvaluationResult * KviKvsTreeNodeHashElement::evaluateReadWrite(KviKvsRunTimeContext * c) { return evaluateReadWriteInObjectScope(0,c); }