LCOV - code coverage report
Current view: top level - libreoffice/registry/source - reflcnst.hxx (source / functions) Hit Total Coverage
Test: libreoffice_filtered.info Lines: 44 61 72.1 %
Date: 2012-12-27 Functions: 8 11 72.7 %
Legend: Lines: hit not hit

          Line data    Source code
       1             : /* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
       2             : /*
       3             :  * This file is part of the LibreOffice project.
       4             :  *
       5             :  * This Source Code Form is subject to the terms of the Mozilla Public
       6             :  * License, v. 2.0. If a copy of the MPL was not distributed with this
       7             :  * file, You can obtain one at http://mozilla.org/MPL/2.0/.
       8             :  *
       9             :  * This file incorporates work covered by the following license notice:
      10             :  *
      11             :  *   Licensed to the Apache Software Foundation (ASF) under one or more
      12             :  *   contributor license agreements. See the NOTICE file distributed
      13             :  *   with this work for additional information regarding copyright
      14             :  *   ownership. The ASF licenses this file to you under the Apache
      15             :  *   License, Version 2.0 (the "License"); you may not use this file
      16             :  *   except in compliance with the License. You may obtain a copy of
      17             :  *   the License at http://www.apache.org/licenses/LICENSE-2.0 .
      18             :  */
      19             : 
      20             : #ifndef _REFLCNST_HXX_
      21             : #define _REFLCNST_HXX_
      22             : 
      23             : #include <registry/refltype.hxx>
      24             : #include <sal/macros.h>
      25             : 
      26             : #include <string.h>
      27             : 
      28             : #define REGTYPE_IEEE_NATIVE 1
      29             : 
      30             : extern const sal_uInt32 magic;
      31             : extern const sal_uInt16 minorVersion;
      32             : extern const sal_uInt16 majorVersion;
      33             : 
      34             : #define OFFSET_MAGIC                0
      35             : #define OFFSET_SIZE                 (OFFSET_MAGIC + sizeof(magic))
      36             : #define OFFSET_MINOR_VERSION        (OFFSET_SIZE + sizeof(sal_uInt32))
      37             : #define OFFSET_MAJOR_VERSION        (OFFSET_MINOR_VERSION + sizeof(minorVersion))
      38             : #define OFFSET_N_ENTRIES            (OFFSET_MAJOR_VERSION + sizeof(sal_uInt16))
      39             : #define OFFSET_TYPE_SOURCE          (OFFSET_N_ENTRIES + sizeof(sal_uInt16))
      40             : #define OFFSET_TYPE_CLASS           (OFFSET_TYPE_SOURCE + sizeof(sal_uInt16))
      41             : #define OFFSET_THIS_TYPE            (OFFSET_TYPE_CLASS + sizeof(sal_uInt16))
      42             : #define OFFSET_UIK                  (OFFSET_THIS_TYPE + sizeof(sal_uInt16))
      43             : #define OFFSET_DOKU                 (OFFSET_UIK + sizeof(sal_uInt16))
      44             : #define OFFSET_FILENAME             (OFFSET_DOKU + sizeof(sal_uInt16))
      45             : 
      46             : #define OFFSET_N_SUPERTYPES         (OFFSET_FILENAME + sizeof(sal_uInt16))
      47             : #define OFFSET_SUPERTYPES           (OFFSET_N_SUPERTYPES + sizeof(sal_uInt16))
      48             : 
      49             : #define OFFSET_CP_SIZE              (OFFSET_SUPERTYPES + sizeof(sal_uInt16))
      50             : #define OFFSET_CP                   (OFFSET_CP_SIZE + sizeof(sal_uInt16))
      51             : 
      52             : #define CP_OFFSET_ENTRY_SIZE        0
      53             : #define CP_OFFSET_ENTRY_TAG         (CP_OFFSET_ENTRY_SIZE + sizeof(sal_uInt32))
      54             : #define CP_OFFSET_ENTRY_DATA        (CP_OFFSET_ENTRY_TAG + sizeof(sal_uInt16))
      55             : #define CP_OFFSET_ENTRY_UIK1        CP_OFFSET_ENTRY_DATA
      56             : #define CP_OFFSET_ENTRY_UIK2        (CP_OFFSET_ENTRY_UIK1 + sizeof(sal_uInt32))
      57             : #define CP_OFFSET_ENTRY_UIK3        (CP_OFFSET_ENTRY_UIK2 + sizeof(sal_uInt16))
      58             : #define CP_OFFSET_ENTRY_UIK4        (CP_OFFSET_ENTRY_UIK3 + sizeof(sal_uInt16))
      59             : #define CP_OFFSET_ENTRY_UIK5        (CP_OFFSET_ENTRY_UIK4 + sizeof(sal_uInt32))
      60             : 
      61             : #define FIELD_OFFSET_ACCESS         0
      62             : #define FIELD_OFFSET_NAME           (FIELD_OFFSET_ACCESS + sizeof(sal_uInt16))
      63             : #define FIELD_OFFSET_TYPE           (FIELD_OFFSET_NAME + sizeof(sal_uInt16))
      64             : #define FIELD_OFFSET_VALUE          (FIELD_OFFSET_TYPE + sizeof(sal_uInt16))
      65             : #define FIELD_OFFSET_DOKU           (FIELD_OFFSET_VALUE + sizeof(sal_uInt16))
      66             : #define FIELD_OFFSET_FILENAME       (FIELD_OFFSET_DOKU + sizeof(sal_uInt16))
      67             : 
      68             : #define PARAM_OFFSET_TYPE           0
      69             : #define PARAM_OFFSET_MODE           (PARAM_OFFSET_TYPE + sizeof(sal_uInt16))
      70             : #define PARAM_OFFSET_NAME           (PARAM_OFFSET_MODE + sizeof(sal_uInt16))
      71             : 
      72             : #define METHOD_OFFSET_SIZE          0
      73             : #define METHOD_OFFSET_MODE          (METHOD_OFFSET_SIZE + sizeof(sal_uInt16))
      74             : #define METHOD_OFFSET_NAME          (METHOD_OFFSET_MODE + sizeof(sal_uInt16))
      75             : #define METHOD_OFFSET_RETURN        (METHOD_OFFSET_NAME + sizeof(sal_uInt16))
      76             : #define METHOD_OFFSET_DOKU          (METHOD_OFFSET_RETURN + sizeof(sal_uInt16))
      77             : #define METHOD_OFFSET_PARAM_COUNT   (METHOD_OFFSET_DOKU + sizeof(sal_uInt16))
      78             : 
      79             : #define REFERENCE_OFFSET_TYPE       0
      80             : #define REFERENCE_OFFSET_NAME       (REFERENCE_OFFSET_TYPE + sizeof(sal_uInt16))
      81             : #define REFERENCE_OFFSET_DOKU       (REFERENCE_OFFSET_NAME + sizeof(sal_uInt16))
      82             : #define REFERENCE_OFFSET_ACCESS     (REFERENCE_OFFSET_DOKU + sizeof(sal_uInt16))
      83             : 
      84             : enum CPInfoTag
      85             : {
      86             :     CP_TAG_INVALID = RT_TYPE_NONE,
      87             :     CP_TAG_CONST_BOOL = RT_TYPE_BOOL,
      88             :     CP_TAG_CONST_BYTE  = RT_TYPE_BYTE,
      89             :     CP_TAG_CONST_INT16 = RT_TYPE_INT16,
      90             :     CP_TAG_CONST_UINT16 = RT_TYPE_UINT16,
      91             :     CP_TAG_CONST_INT32 = RT_TYPE_INT32,
      92             :     CP_TAG_CONST_UINT32 = RT_TYPE_UINT32,
      93             :     CP_TAG_CONST_INT64 = RT_TYPE_INT64,
      94             :     CP_TAG_CONST_UINT64 = RT_TYPE_UINT64,
      95             :     CP_TAG_CONST_FLOAT = RT_TYPE_FLOAT,
      96             :     CP_TAG_CONST_DOUBLE = RT_TYPE_DOUBLE,
      97             :     CP_TAG_CONST_STRING = RT_TYPE_STRING,
      98             :     CP_TAG_UTF8_NAME,
      99             :     CP_TAG_UIK
     100             : };
     101             : 
     102         248 : inline sal_uInt32 writeBYTE(sal_uInt8* buffer, sal_uInt8 v)
     103             : {
     104         248 :     buffer[0] = v;
     105             : 
     106         248 :     return sizeof(sal_uInt8);
     107             : }
     108             : 
     109             : inline sal_uInt16 readBYTE(const sal_uInt8* buffer, sal_uInt8& v)
     110             : {
     111             :     v = buffer[0];
     112             : 
     113             :     return sizeof(sal_uInt8);
     114             : }
     115             : 
     116        2045 : inline sal_uInt32 writeINT16(sal_uInt8* buffer, sal_Int16 v)
     117             : {
     118        2045 :     buffer[0] = (sal_uInt8)((v >> 8) & 0xFF);
     119        2045 :     buffer[1] = (sal_uInt8)((v >> 0) & 0xFF);
     120             : 
     121        2045 :     return sizeof(sal_Int16);
     122             : }
     123             : 
     124             : inline sal_uInt32 readINT16(const sal_uInt8* buffer, sal_Int16& v)
     125             : {
     126             :     v = ((buffer[0] << 8) | (buffer[1] << 0));
     127             : 
     128             :     return sizeof(sal_Int16);
     129             : }
     130             : 
     131      765594 : inline sal_uInt32 writeUINT16(sal_uInt8* buffer, sal_uInt16 v)
     132             : {
     133      765594 :     buffer[0] = (sal_uInt8)((v >> 8) & 0xFF);
     134      765594 :     buffer[1] = (sal_uInt8)((v >> 0) & 0xFF);
     135             : 
     136      765594 :     return sizeof(sal_uInt16);
     137             : }
     138             : 
     139           0 : inline sal_uInt32 readUINT16(const sal_uInt8* buffer, sal_uInt16& v)
     140             : {
     141           0 :     v = ((buffer[0] << 8) | (buffer[1] << 0));
     142             : 
     143           0 :     return sizeof(sal_uInt16);
     144             : }
     145             : 
     146       10660 : inline sal_uInt32 writeINT32(sal_uInt8* buffer, sal_Int32 v)
     147             : {
     148       10660 :     buffer[0] = (sal_uInt8)((v >> 24) & 0xFF);
     149       10660 :     buffer[1] = (sal_uInt8)((v >> 16) & 0xFF);
     150       10660 :     buffer[2] = (sal_uInt8)((v >> 8) & 0xFF);
     151       10660 :     buffer[3] = (sal_uInt8)((v >> 0) & 0xFF);
     152             : 
     153       10660 :     return sizeof(sal_Int32);
     154             : }
     155             : 
     156           0 : inline sal_uInt32 readINT32(const sal_uInt8* buffer, sal_Int32& v)
     157             : {
     158             :     v = (
     159           0 :             (buffer[0] << 24) |
     160           0 :             (buffer[1] << 16) |
     161           0 :             (buffer[2] << 8)  |
     162           0 :             (buffer[3] << 0)
     163           0 :         );
     164             : 
     165           0 :     return sizeof(sal_Int32);
     166             : }
     167             : 
     168      207426 : inline sal_uInt32 writeUINT32(sal_uInt8* buffer, sal_uInt32 v)
     169             : {
     170      207426 :     buffer[0] = (sal_uInt8)((v >> 24) & 0xFF);
     171      207426 :     buffer[1] = (sal_uInt8)((v >> 16) & 0xFF);
     172      207426 :     buffer[2] = (sal_uInt8)((v >> 8) & 0xFF);
     173      207426 :     buffer[3] = (sal_uInt8)((v >> 0) & 0xFF);
     174             : 
     175      207426 :     return sizeof(sal_uInt32);
     176             : }
     177             : 
     178      179231 : inline sal_uInt32 readUINT32(const sal_uInt8* buffer, sal_uInt32& v)
     179             : {
     180             :     v = (
     181      179231 :             (buffer[0] << 24) |
     182      179231 :             (buffer[1] << 16) |
     183      179231 :             (buffer[2] << 8)  |
     184      179231 :             (buffer[3] << 0)
     185      716924 :         );
     186             : 
     187      179231 :     return sizeof(sal_uInt32);
     188             : }
     189             : 
     190             : inline sal_uInt32 writeINT64(sal_uInt8* buffer, sal_Int64 v)
     191             : {
     192             :     buffer[0] = (sal_uInt8)((v >> 56) & 0xFF);
     193             :     buffer[1] = (sal_uInt8)((v >> 48) & 0xFF);
     194             :     buffer[2] = (sal_uInt8)((v >> 40) & 0xFF);
     195             :     buffer[3] = (sal_uInt8)((v >> 32) & 0xFF);
     196             :     buffer[4] = (sal_uInt8)((v >> 24) & 0xFF);
     197             :     buffer[5] = (sal_uInt8)((v >> 16) & 0xFF);
     198             :     buffer[6] = (sal_uInt8)((v >> 8) & 0xFF);
     199             :     buffer[7] = (sal_uInt8)((v >> 0) & 0xFF);
     200             : 
     201             :     return sizeof(sal_Int64);
     202             : }
     203             : 
     204             : inline sal_uInt32 readINT64(const sal_uInt8* buffer, sal_Int64& v)
     205             : {
     206             :     v = (
     207             :             ((sal_Int64)buffer[0] << 56) |
     208             :             ((sal_Int64)buffer[1] << 48) |
     209             :             ((sal_Int64)buffer[2] << 40) |
     210             :             ((sal_Int64)buffer[3] << 32) |
     211             :             ((sal_Int64)buffer[4] << 24) |
     212             :             ((sal_Int64)buffer[5] << 16) |
     213             :             ((sal_Int64)buffer[6] << 8)  |
     214             :             ((sal_Int64)buffer[7] << 0)
     215             :         );
     216             : 
     217             :     return sizeof(sal_Int64);
     218             : }
     219             : 
     220          33 : inline sal_uInt32 writeUINT64(sal_uInt8* buffer, sal_uInt64 v)
     221             : {
     222          33 :     buffer[0] = (sal_uInt8)((v >> 56) & 0xFF);
     223          33 :     buffer[1] = (sal_uInt8)((v >> 48) & 0xFF);
     224          33 :     buffer[2] = (sal_uInt8)((v >> 40) & 0xFF);
     225          33 :     buffer[3] = (sal_uInt8)((v >> 32) & 0xFF);
     226          33 :     buffer[4] = (sal_uInt8)((v >> 24) & 0xFF);
     227          33 :     buffer[5] = (sal_uInt8)((v >> 16) & 0xFF);
     228          33 :     buffer[6] = (sal_uInt8)((v >> 8) & 0xFF);
     229          33 :     buffer[7] = (sal_uInt8)((v >> 0) & 0xFF);
     230             : 
     231          33 :     return sizeof(sal_uInt64);
     232             : }
     233             : 
     234             : inline sal_uInt32 readUINT64(const sal_uInt8* buffer, sal_uInt64& v)
     235             : {
     236             :     v = (
     237             :             ((sal_uInt64)buffer[0] << 56) |
     238             :             ((sal_uInt64)buffer[1] << 48) |
     239             :             ((sal_uInt64)buffer[2] << 40) |
     240             :             ((sal_uInt64)buffer[3] << 32) |
     241             :             ((sal_uInt64)buffer[4] << 24) |
     242             :             ((sal_uInt64)buffer[5] << 16) |
     243             :             ((sal_uInt64)buffer[6] << 8)  |
     244             :             ((sal_uInt64)buffer[7] << 0)
     245             :         );
     246             : 
     247             :     return sizeof(sal_uInt64);
     248             : }
     249             : 
     250      105660 : inline sal_uInt32 writeUtf8(sal_uInt8* buffer, const sal_Char* v)
     251             : {
     252      105660 :     sal_uInt32 size = strlen(v) + 1;
     253             : 
     254      105660 :     memcpy(buffer, v, size);
     255             : 
     256      105660 :     return (size);
     257             : }
     258             : 
     259           0 : inline sal_uInt32 readUtf8(const sal_uInt8* buffer, sal_Char* v, sal_uInt32 maxSize)
     260             : {
     261           0 :     sal_uInt32 size = strlen((const sal_Char*) buffer) + 1;
     262           0 :     if(size > maxSize)
     263             :     {
     264           0 :         size = maxSize;
     265             :     }
     266             : 
     267           0 :     memcpy(v, buffer, size);
     268             : 
     269           0 :     if (size == maxSize) v[size - 1] = '\0';
     270             : 
     271           0 :     return (size);
     272             : }
     273             : 
     274             : 
     275             : sal_uInt32 writeFloat(sal_uInt8* buffer, float v);
     276             : sal_uInt32 writeDouble(sal_uInt8* buffer, double v);
     277             : sal_uInt32 writeString(sal_uInt8* buffer, const sal_Unicode* v);
     278             : sal_uInt32 readString(const sal_uInt8* buffer, sal_Unicode* v, sal_uInt32 maxSize);
     279             : 
     280             : sal_uInt32 UINT16StringLen(const sal_uInt8* wstring);
     281             : 
     282             : #endif
     283             : 
     284             : 
     285             : 
     286             : 
     287             : 
     288             : /* vim:set shiftwidth=4 softtabstop=4 expandtab: */

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