office-gobmx/include/registry/reflread.hxx
Thomas Arnhold 1130a359cb fixincludeguards.sh: include - the rest
Change-Id: If1ee11da444a7f96f2d8668b277540da0bb4dbe9
2013-10-23 23:22:31 +02:00

513 lines
19 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#ifndef INCLUDED_REGISTRY_REFLREAD_HXX
#define INCLUDED_REGISTRY_REFLREAD_HXX
#include <registry/regdllapi.h>
#include <registry/refltype.hxx>
#include <registry/regtype.h>
#include <rtl/ustring.hxx>
/// Implememetation handle
typedef void* TypeReaderImpl;
/****************************************************************************
C-Api
*****************************************************************************/
#ifdef __cplusplus
extern "C" {
#endif
/** specifies a collection of function pointers which represents the complete registry type reader C-API.
This funtions pointers are used by the C++ wrapper to call the C-API.
*/
struct RegistryTypeReader_Api
{
TypeReaderImpl (TYPEREG_CALLTYPE *createEntry) (const sal_uInt8*, sal_uInt32, sal_Bool);
void (TYPEREG_CALLTYPE *acquire) (TypeReaderImpl);
void (TYPEREG_CALLTYPE *release) (TypeReaderImpl);
sal_uInt16 (TYPEREG_CALLTYPE *getMinorVersion) (TypeReaderImpl);
sal_uInt16 (TYPEREG_CALLTYPE *getMajorVersion) (TypeReaderImpl);
RTTypeClass (TYPEREG_CALLTYPE *getTypeClass) (TypeReaderImpl);
void (TYPEREG_CALLTYPE *getUik) (TypeReaderImpl, RTUik*);
void (TYPEREG_CALLTYPE *getDoku) (TypeReaderImpl, rtl_uString**);
void (TYPEREG_CALLTYPE *getFileName) (TypeReaderImpl, rtl_uString**);
void (TYPEREG_CALLTYPE *getTypeName) (TypeReaderImpl, rtl_uString**);
void (TYPEREG_CALLTYPE *getSuperTypeName) (TypeReaderImpl, rtl_uString**);
sal_uInt32 (TYPEREG_CALLTYPE *getFieldCount) (TypeReaderImpl);
void (TYPEREG_CALLTYPE *getFieldName) (TypeReaderImpl, rtl_uString**, sal_uInt16);
void (TYPEREG_CALLTYPE *getFieldType) (TypeReaderImpl, rtl_uString**, sal_uInt16);
RTFieldAccess (TYPEREG_CALLTYPE *getFieldAccess) (TypeReaderImpl, sal_uInt16);
RTValueType (TYPEREG_CALLTYPE *getFieldConstValue) (TypeReaderImpl, sal_uInt16, RTConstValueUnion*);
void (TYPEREG_CALLTYPE *getFieldDoku) (TypeReaderImpl, rtl_uString**, sal_uInt16);
void (TYPEREG_CALLTYPE *getFieldFileName) (TypeReaderImpl, rtl_uString**, sal_uInt16);
sal_uInt32 (TYPEREG_CALLTYPE *getMethodCount) (TypeReaderImpl);
void (TYPEREG_CALLTYPE *getMethodName) (TypeReaderImpl, rtl_uString**, sal_uInt16);
sal_uInt32 (TYPEREG_CALLTYPE *getMethodParamCount) (TypeReaderImpl, sal_uInt16);
void (TYPEREG_CALLTYPE *getMethodParamType) (TypeReaderImpl, rtl_uString**, sal_uInt16, sal_uInt16);
void (TYPEREG_CALLTYPE *getMethodParamName) (TypeReaderImpl, rtl_uString**, sal_uInt16, sal_uInt16);
RTParamMode (TYPEREG_CALLTYPE *getMethodParamMode) (TypeReaderImpl, sal_uInt16, sal_uInt16);
sal_uInt32 (TYPEREG_CALLTYPE *getMethodExcCount) (TypeReaderImpl, sal_uInt16);
void (TYPEREG_CALLTYPE *getMethodExcType) (TypeReaderImpl, rtl_uString**, sal_uInt16, sal_uInt16);
void (TYPEREG_CALLTYPE *getMethodReturnType) (TypeReaderImpl, rtl_uString**, sal_uInt16);
RTMethodMode (TYPEREG_CALLTYPE *getMethodMode) (TypeReaderImpl, sal_uInt16);
void (TYPEREG_CALLTYPE *getMethodDoku) (TypeReaderImpl, rtl_uString**, sal_uInt16);
sal_uInt32 (TYPEREG_CALLTYPE *getReferenceCount) (TypeReaderImpl);
void (TYPEREG_CALLTYPE *getReferenceName) (TypeReaderImpl, rtl_uString**, sal_uInt16);
RTReferenceType (TYPEREG_CALLTYPE *getReferenceType) (TypeReaderImpl, sal_uInt16);
void (TYPEREG_CALLTYPE *getReferenceDoku) (TypeReaderImpl, rtl_uString**, sal_uInt16);
RTFieldAccess (TYPEREG_CALLTYPE *getReferenceAccess) (TypeReaderImpl, sal_uInt16);
};
/** the API initialization function.
*/
REG_DLLPUBLIC RegistryTypeReader_Api* TYPEREG_CALLTYPE initRegistryTypeReader_Api(void);
#ifdef __cplusplus
}
#endif
/** RegistryTypeReades reads a binary type blob.
This class provides the necessary functions to read type information
for all kinds of types of a type blob.
The class is inline and use a C-Api.
@deprecated
use typereg::Reader instead
*/
class RegistryTypeReader
{
public:
/** Constructor.
@param buffer points to the binary data block.
@param bufferLen specifies the size of the binary data block.
@param copyData specifies if the data block should be copied.
The block can be copied to ensure that the data
is valid for the lifetime of this instance.
*/
inline RegistryTypeReader(const sal_uInt8* buffer,
sal_uInt32 bufferLen,
sal_Bool copyData);
/// Copy constructcor
inline RegistryTypeReader(const RegistryTypeReader& toCopy);
/// Destructor. The Destructor frees the data block if the copyData flag was TRUE.
inline ~RegistryTypeReader();
/// Assign operator
inline RegistryTypeReader& operator == (const RegistryTypeReader& toAssign);
/// checks if the registry type reader points to a valid Api.
inline sal_Bool isValid() const;
/** @deprecated
returns the minor version number.
We currently don't support a versioning concept of IDL interfaces and
so this function is currently not used.
*/
inline sal_uInt16 getMinorVersion() const;
/** @deprecated
returns the major version number.
We currently don't support a versioning concept of IDL interfaces and
so this function is currently not used.
*/
inline sal_uInt16 getMajorVersion() const;
/** returns the typeclass of the type represented by this blob.
This function will always return the type class without the internal
RT_TYPE_PUBLISHED flag set.
*/
inline RTTypeClass getTypeClass() const;
/** returns the full qualified name of the type.
*/
inline OUString getTypeName() const;
/** returns the full qualified name of the supertype.
*/
inline OUString getSuperTypeName() const;
/** @deprecated
returns the unique identifier for an interface type as an out parameter.
An earlier version of UNO used an unique identifier for interfaces. In the
current version of UNO this uik was eliminated and this function is
not longer used.
*/
inline void getUik(RTUik& uik) const;
/** returns the documentation string of this type.
*/
inline OUString getDoku() const;
/** returns the IDL filename where the type is defined.
*/
inline OUString getFileName() const;
/** returns the number of fields (attributes/properties, enum values or number
of constants in a module).
*/
inline sal_uInt32 getFieldCount() const;
/** returns the name of the field specified by index.
*/
inline OUString getFieldName( sal_uInt16 index ) const;
/** returns the full qualified name of the field specified by index.
*/
inline OUString getFieldType( sal_uInt16 index ) const;
/** returns the access mode of the field specified by index.
*/
inline RTFieldAccess getFieldAccess( sal_uInt16 index ) const;
/** returns the value of the field specified by index.
This function returns the value of an enum value or of a constant.
*/
inline RTConstValue getFieldConstValue( sal_uInt16 index ) const;
/** returns the documentation string for the field specified by index.
Each field of a type can have their own documentation.
*/
inline OUString getFieldDoku( sal_uInt16 index ) const;
/** returns the IDL filename of the field specified by index.
The IDL filename of a field can differ from the filename of the ype itself
because modules and also constants can be defined in different IDL files.
*/
inline OUString getFieldFileName( sal_uInt16 index ) const;
/** returns the number of methods of an interface type.
*/
inline sal_uInt32 getMethodCount() const;
/** returns the name of the method specified by index.
*/
inline OUString getMethodName( sal_uInt16 index ) const;
/** returns number of parameters of the method specified by index.
*/
inline sal_uInt32 getMethodParamCount( sal_uInt16 index ) const;
/** returns the full qualified parameter typename.
@param index indicates the method
@param paramIndex indeciates the parameter which type will be returned.
*/
inline OUString getMethodParamType( sal_uInt16 index, sal_uInt16 paramIndex ) const;
/** returns the name of a parameter.
@param index indicates the method
@param paramIndex indiciates the parameter which name will be returned.
*/
inline OUString getMethodParamName( sal_uInt16 index, sal_uInt16 paramIndex ) const;
/** returns the parameter mode, if it is an in, out or inout parameter.
@param index indicates the method
@param paramIndex indeciates the parameter which mode will be returned.
*/
inline RTParamMode getMethodParamMode( sal_uInt16 index, sal_uInt16 paramIndex ) const;
/** returns the number of exceptions which are declared for the method specified by index.
@param index indicates the method
*/
inline sal_uInt32 getMethodExcCount( sal_uInt16 index ) const;
/** returns the full qualified exception type of the specified exception.
@param index indicates the method
@param excIndex indeciates the exception which typename will be returned.
*/
inline OUString getMethodExcType( sal_uInt16 index, sal_uInt16 excIndex ) const;
/** returns the full qualified return type of the method specified by index.
*/
inline OUString getMethodReturnType( sal_uInt16 index ) const;
/** returns the full qualified exception type of the specified exception.
@param index indicates the method
*/
inline RTMethodMode getMethodMode( sal_uInt16 index ) const;
/** returns the documentation string of the method specified by index.
@param index indicates the method.
*/
inline OUString getMethodDoku( sal_uInt16 index ) const;
/** returns the number of references (supported interfaces, exported services).
*/
inline sal_uInt32 getReferenceCount() const;
/** returns the full qualified typename of the reference specified by index.
@param index indicates the reference.
*/
inline OUString getReferenceName( sal_uInt16 index ) const;
/** returns the type of the reference specified by index.
@param index indicates the reference.
*/
inline RTReferenceType getReferenceType( sal_uInt16 index ) const;
/** returns the documentation string of the reference specified by index.
@param index indicates the reference.
*/
inline OUString getReferenceDoku( sal_uInt16 index ) const;
/** returns the access mode of the reference specified by index.
The only valid value is RT_ACCESS_OPTIONAL in the context of
references.
@param index indicates the reference.
*/
inline RTFieldAccess getReferenceAccess( sal_uInt16 index ) const;
protected:
/// stores the registry type reader Api.
const RegistryTypeReader_Api* m_pApi;
/// stores the handle of an implementation class
TypeReaderImpl m_hImpl;
};
inline RegistryTypeReader::RegistryTypeReader(const sal_uInt8* buffer,
sal_uInt32 bufferLen,
sal_Bool copyData)
: m_pApi(initRegistryTypeReader_Api())
, m_hImpl(NULL)
{
m_hImpl = m_pApi->createEntry(buffer, bufferLen, copyData);
}
inline RegistryTypeReader::RegistryTypeReader(const RegistryTypeReader& toCopy)
: m_pApi(toCopy.m_pApi)
, m_hImpl(toCopy.m_hImpl)
{ m_pApi->acquire(m_hImpl); }
inline RegistryTypeReader::~RegistryTypeReader()
{ m_pApi->release(m_hImpl); }
inline RegistryTypeReader& RegistryTypeReader::operator == (const RegistryTypeReader& toAssign)
{
if (m_hImpl != toAssign.m_hImpl)
{
m_pApi->release(m_hImpl);
m_hImpl = toAssign.m_hImpl;
m_pApi->acquire(m_hImpl);
}
return *this;
}
inline sal_uInt16 RegistryTypeReader::getMinorVersion() const
{ return m_pApi->getMinorVersion(m_hImpl); }
inline sal_Bool RegistryTypeReader::isValid() const
{ return (m_hImpl != NULL); }
inline sal_uInt16 RegistryTypeReader::getMajorVersion() const
{ return m_pApi->getMajorVersion(m_hImpl); }
inline RTTypeClass RegistryTypeReader::getTypeClass() const
{ return m_pApi->getTypeClass(m_hImpl); }
inline OUString RegistryTypeReader::getTypeName() const
{
OUString sRet;
m_pApi->getTypeName(m_hImpl, &sRet.pData);
return sRet;
}
inline OUString RegistryTypeReader::getSuperTypeName() const
{
OUString sRet;
m_pApi->getSuperTypeName(m_hImpl, &sRet.pData);
return sRet;
}
inline void RegistryTypeReader::getUik(RTUik& uik) const
{ m_pApi->getUik(m_hImpl, &uik); }
inline OUString RegistryTypeReader::getDoku() const
{
OUString sRet;
m_pApi->getDoku(m_hImpl, &sRet.pData);
return sRet;
}
inline OUString RegistryTypeReader::getFileName() const
{
OUString sRet;
m_pApi->getFileName(m_hImpl, &sRet.pData);
return sRet;
}
inline sal_uInt32 RegistryTypeReader::getFieldCount() const
{ return m_pApi->getFieldCount(m_hImpl); }
inline OUString RegistryTypeReader::getFieldName( sal_uInt16 index ) const
{
OUString sRet;
m_pApi->getFieldName(m_hImpl, &sRet.pData, index);
return sRet;
}
inline OUString RegistryTypeReader::getFieldType( sal_uInt16 index ) const
{
OUString sRet;
m_pApi->getFieldType(m_hImpl, &sRet.pData, index);
return sRet;
}
inline RTFieldAccess RegistryTypeReader::getFieldAccess( sal_uInt16 index ) const
{ return m_pApi->getFieldAccess(m_hImpl, index); }
inline RTConstValue RegistryTypeReader::getFieldConstValue( sal_uInt16 index ) const
{
RTConstValue ret;
ret.m_type = m_pApi->getFieldConstValue(m_hImpl, index, &ret.m_value);
return ret;
}
inline OUString RegistryTypeReader::getFieldDoku( sal_uInt16 index ) const
{
OUString sRet;
m_pApi->getFieldDoku(m_hImpl, &sRet.pData, index);
return sRet;
}
inline OUString RegistryTypeReader::getFieldFileName( sal_uInt16 index ) const
{
OUString sRet;
m_pApi->getFieldFileName(m_hImpl, &sRet.pData, index);
return sRet;
}
inline sal_uInt32 RegistryTypeReader::getMethodCount() const
{ return m_pApi->getMethodCount(m_hImpl); }
inline OUString RegistryTypeReader::getMethodName( sal_uInt16 index ) const
{
OUString sRet;
m_pApi->getMethodName(m_hImpl, &sRet.pData, index);
return sRet;
}
inline sal_uInt32 RegistryTypeReader::getMethodParamCount( sal_uInt16 index ) const
{ return m_pApi->getMethodParamCount(m_hImpl, index); }
inline OUString RegistryTypeReader::getMethodParamType( sal_uInt16 index, sal_uInt16 paramIndex ) const
{
OUString sRet;
m_pApi->getMethodParamType(m_hImpl, &sRet.pData, index, paramIndex);
return sRet;
}
inline OUString RegistryTypeReader::getMethodParamName( sal_uInt16 index, sal_uInt16 paramIndex ) const
{
OUString sRet;
m_pApi->getMethodParamName(m_hImpl, &sRet.pData, index, paramIndex);
return sRet;
}
inline RTParamMode RegistryTypeReader::getMethodParamMode( sal_uInt16 index, sal_uInt16 paramIndex ) const
{ return m_pApi->getMethodParamMode(m_hImpl, index, paramIndex); }
inline sal_uInt32 RegistryTypeReader::getMethodExcCount( sal_uInt16 index ) const
{ return m_pApi->getMethodExcCount(m_hImpl, index); }
inline OUString RegistryTypeReader::getMethodExcType( sal_uInt16 index, sal_uInt16 excIndex ) const
{
OUString sRet;
m_pApi->getMethodExcType(m_hImpl, &sRet.pData, index, excIndex);
return sRet;
}
inline OUString RegistryTypeReader::getMethodReturnType( sal_uInt16 index ) const
{
OUString sRet;
m_pApi->getMethodReturnType(m_hImpl, &sRet.pData, index);
return sRet;
}
inline RTMethodMode RegistryTypeReader::getMethodMode( sal_uInt16 index ) const
{ return m_pApi->getMethodMode(m_hImpl, index); }
inline OUString RegistryTypeReader::getMethodDoku( sal_uInt16 index ) const
{
OUString sRet;
m_pApi->getMethodDoku(m_hImpl, &sRet.pData, index);
return sRet;
}
inline sal_uInt32 RegistryTypeReader::getReferenceCount() const
{ return m_pApi->getReferenceCount(m_hImpl); }
inline OUString RegistryTypeReader::getReferenceName( sal_uInt16 index ) const
{
OUString sRet;
m_pApi->getReferenceName(m_hImpl, &sRet.pData, index);
return sRet;
}
inline RTReferenceType RegistryTypeReader::getReferenceType( sal_uInt16 index ) const
{ return m_pApi->getReferenceType(m_hImpl, index); }
inline OUString RegistryTypeReader::getReferenceDoku( sal_uInt16 index ) const
{
OUString sRet;
m_pApi->getReferenceDoku(m_hImpl, &sRet.pData, index);
return sRet;
}
inline RTFieldAccess RegistryTypeReader::getReferenceAccess( sal_uInt16 index ) const
{ return m_pApi->getReferenceAccess(m_hImpl, index); }
#endif
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