/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /************************************************************************* * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * Copyright 2000, 2010 Oracle and/or its affiliates. * * OpenOffice.org - a multi-platform office productivity suite * * This file is part of OpenOffice.org. * * OpenOffice.org is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 3 * only, as published by the Free Software Foundation. * * OpenOffice.org 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 Lesser General Public License version 3 for more details * (a copy is included in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU Lesser General Public License * version 3 along with OpenOffice.org. If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_idlc.hxx" #include #include #include #include "registry/version.h" #include "registry/writer.hxx" using namespace ::rtl; AstUnion::AstUnion(const ::rtl::OString& name, AstType* pDiscType, AstScope* pScope) : AstStruct(NT_union, name, NULL, pScope) , m_pDiscriminantType(pDiscType) , m_discExprType(ET_long) { AstBaseType* pBaseType; if ( !pDiscType ) { m_pDiscriminantType = NULL; m_discExprType = ET_none; return; } /* * If the discriminator type is a predefined type * then install the equivalent coercion target type in * the pd_udisc_type field. */ if ( pDiscType->getNodeType() == NT_predefined ) { pBaseType = (AstBaseType*)pDiscType; if ( !pBaseType ) { m_pDiscriminantType = NULL; m_discExprType = ET_none; return; } m_pDiscriminantType = pDiscType; switch (pBaseType->getExprType()) { case ET_long: case ET_ulong: case ET_short: case ET_ushort: case ET_char: case ET_boolean: m_discExprType = pBaseType->getExprType(); break; default: m_discExprType = ET_none; m_pDiscriminantType = NULL; break; } } else if (pDiscType->getNodeType() == NT_enum) { m_discExprType = ET_any; m_pDiscriminantType = pDiscType; } else { m_discExprType = ET_none; m_pDiscriminantType = NULL; } if ( !m_pDiscriminantType ) idlc()->error()->error2(EIDL_DISC_TYPE, this, pDiscType); } AstUnion::~AstUnion() { } AstDeclaration* AstUnion::addDeclaration(AstDeclaration* pDecl) { if ( pDecl->getNodeType() == NT_union_branch ) { AstUnionBranch* pBranch = (AstUnionBranch*)pDecl; if ( lookupBranch(pBranch) ) { idlc()->error()->error2(EIDL_MULTIPLE_BRANCH, this, pDecl); return NULL; } } return AstScope::addDeclaration(pDecl); } AstUnionBranch* AstUnion::lookupBranch(AstUnionBranch* pBranch) { AstUnionLabel* pLabel = NULL; if ( pBranch ) pLabel = pBranch->getLabel(); if ( pLabel ) { if (pLabel->getLabelKind() == UL_default) return lookupDefault(); if (m_discExprType == ET_any) /* CONVENTION: indicates enum discr */ return lookupEnum(pBranch); return lookupLabel(pBranch); } return NULL; } AstUnionBranch* AstUnion::lookupDefault(sal_Bool bReportError) { DeclList::const_iterator iter = getIteratorBegin(); DeclList::const_iterator end = getIteratorEnd(); AstUnionBranch *pBranch = NULL; AstDeclaration *pDecl = NULL; while ( iter != end ) { pDecl = *iter; if ( pDecl->getNodeType() == NT_union_branch ) { pBranch = (AstUnionBranch*)pDecl; if (pBranch == NULL) { ++iter; continue; } if ( pBranch->getLabel() != NULL && pBranch->getLabel()->getLabelKind() == UL_default) { if ( bReportError ) idlc()->error()->error2(EIDL_MULTIPLE_BRANCH, this, pBranch); return pBranch; } } ++iter; } return NULL; } AstUnionBranch* AstUnion::lookupLabel(AstUnionBranch* pBranch) { AstUnionLabel* pLabel = pBranch->getLabel(); if ( !pLabel->getLabelValue() ) return pBranch; // pLabel->getLabelValue()->setExprValue(pLabel->getLabelValue()->coerce(m_discExprType, sal_False)); AstExprValue* pLabelValue = pLabel->getLabelValue()->coerce( m_discExprType, sal_False); if ( !pLabelValue ) { idlc()->error()->evalError(pLabel->getLabelValue()); return pBranch; } else { pLabel->getLabelValue()->setExprValue(pLabelValue); } DeclList::const_iterator iter = getIteratorBegin(); DeclList::const_iterator end = getIteratorEnd(); AstUnionBranch* pB = NULL; AstDeclaration* pDecl = NULL; while ( iter != end ) { pDecl = *iter; if ( pDecl->getNodeType() == NT_union_branch ) { pB = (AstUnionBranch*)pDecl; if ( !pB ) { ++iter; continue; } if ( pB->getLabel() != NULL && pB->getLabel()->getLabelKind() == UL_label && pB->getLabel()->getLabelValue()->compare(pLabel->getLabelValue()) ) { idlc()->error()->error2(EIDL_MULTIPLE_BRANCH, this, pBranch); return pBranch; } } ++iter; } return NULL; } AstUnionBranch* AstUnion::lookupEnum(AstUnionBranch* pBranch) { AstDeclaration const * pType = resolveTypedefs(m_pDiscriminantType); if ( pType->getNodeType() != NT_enum ) return NULL; AstUnionLabel* pLabel = pBranch->getLabel(); AstExpression* pExpr = pLabel->getLabelValue(); if ( !pExpr ) return pBranch; /* * Expecting a symbol label */ if ( pExpr->getCombOperator() != EC_symbol) { idlc()->error()->enumValExpected(this); return pBranch; } /* * See if the symbol defines a constant in the discriminator enum */ AstEnum* pEnum = (AstEnum*)pType; AstDeclaration* pDecl = pEnum->lookupByName(*pExpr->getSymbolicName()); if ( pDecl == NULL || pDecl->getScope() != pEnum) { idlc()->error()->enumValLookupFailure(this, pEnum, *pExpr->getSymbolicName()); return pBranch; } DeclList::const_iterator iter = getIteratorBegin(); DeclList::const_iterator end = getIteratorEnd(); AstUnionBranch* pB = NULL; pDecl = NULL; while ( iter != end ) { pDecl = *iter; if ( pDecl->getNodeType() == NT_union_branch ) { pB = (AstUnionBranch*)pDecl; if ( !pB ) { ++iter; continue; } if ( pB->getLabel() != NULL && pB->getLabel()->getLabelKind() == UL_label && pB->getLabel()->getLabelValue()->compare(pLabel->getLabelValue()) ) { idlc()->error()->error2(EIDL_MULTIPLE_BRANCH, this, pBranch); return pBranch; } } ++iter; } return NULL; } sal_Bool AstUnion::dump(RegistryKey& rKey) { RegistryKey localKey; if (rKey.createKey( OStringToOUString(getFullName(), RTL_TEXTENCODING_UTF8 ), localKey)) { fprintf(stderr, "%s: warning, could not create key '%s' in '%s'\n", idlc()->getOptions()->getProgramName().getStr(), getFullName().getStr(), OUStringToOString(rKey.getRegistryName(), RTL_TEXTENCODING_UTF8).getStr()); return sal_False; } sal_uInt16 nMember = getNodeCount(NT_union_branch); OUString emptyStr; typereg::Writer aBlob( TYPEREG_VERSION_0, getDocumentation(), emptyStr, RT_TYPE_UNION, false, OStringToOUString(getRelativName(), RTL_TEXTENCODING_UTF8), 1, nMember, 0, 0); aBlob.setSuperTypeName( 0, OStringToOUString( getDiscrimantType()->getScopedName(), RTL_TEXTENCODING_UTF8)); if ( nMember > 0 ) { DeclList::const_iterator iter = getIteratorBegin(); DeclList::const_iterator end = getIteratorEnd(); AstDeclaration* pDecl = NULL; AstUnionBranch* pBranch = NULL; AstUnionBranch* pDefault = lookupDefault(sal_False); AstUnionLabel* pLabel = NULL; AstExprValue* pExprValue = NULL; RTConstValue aConst; OUString docu; sal_uInt16 index = 0; if ( pDefault ) index = 1; sal_Int64 disc = 0; while ( iter != end ) { pDecl = *iter; if ( pDecl->getNodeType() == NT_union_branch ) { pBranch = (AstUnionBranch*)pDecl; if (pBranch == pDefault) { ++iter; continue; } pLabel = pBranch->getLabel(); pExprValue = pLabel->getLabelValue()->coerce(ET_hyper, sal_False); aConst.m_type = RT_TYPE_INT64; aConst.m_value.aHyper = pExprValue->u.hval; if ( aConst.m_value.aHyper > disc ) disc = aConst.m_value.aHyper; aBlob.setFieldData( index++, pBranch->getDocumentation(), emptyStr, RT_ACCESS_READWRITE, OStringToOUString( pBranch->getLocalName(), RTL_TEXTENCODING_UTF8), OStringToOUString( pBranch->getType()->getRelativName(), RTL_TEXTENCODING_UTF8), aConst); } ++iter; } if ( pDefault ) { aConst.m_type = RT_TYPE_INT64; aConst.m_value.aHyper = disc + 1; aBlob.setFieldData( 0, pDefault->getDocumentation(), emptyStr, RT_ACCESS_DEFAULT, OStringToOUString( pDefault->getLocalName(), RTL_TEXTENCODING_UTF8), OStringToOUString( pDefault->getType()->getRelativName(), RTL_TEXTENCODING_UTF8), aConst); } } sal_uInt32 aBlobSize; void const * pBlob = aBlob.getBlob(&aBlobSize); if (localKey.setValue(OUString(), RG_VALUETYPE_BINARY, (RegValue)pBlob, aBlobSize)) { fprintf(stderr, "%s: warning, could not set value of key \"%s\" in %s\n", idlc()->getOptions()->getProgramName().getStr(), getFullName().getStr(), OUStringToOString(localKey.getRegistryName(), RTL_TEXTENCODING_UTF8).getStr()); return sal_False; } return sal_True; } AstUnionBranch::AstUnionBranch(AstUnionLabel* pLabel, AstType const * pType, const ::rtl::OString& name, AstScope* pScope) : AstMember(NT_union_branch, pType, name, pScope) , m_pLabel(pLabel) { } AstUnionBranch::~AstUnionBranch() { if ( m_pLabel ) delete m_pLabel; } AstUnionLabel::AstUnionLabel(UnionLabel labelKind, AstExpression* pExpr) : m_label(labelKind) , m_pLabelValue(pExpr) { if ( m_pLabelValue ) m_pLabelValue->evaluate(EK_const); } AstUnionLabel::~AstUnionLabel() { if ( m_pLabelValue ) delete m_pLabelValue; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */