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opennurbs_archive.cpp
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opennurbs_archive.cpp
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/* $NoKeywords: $ */
/*
//
// Copyright (c) 1993-2012 Robert McNeel & Associates. All rights reserved.
// OpenNURBS, Rhinoceros, and Rhino3D are registered trademarks of Robert
// McNeel & Associates.
//
// THIS SOFTWARE IS PROVIDED "AS IS" WITHOUT EXPRESS OR IMPLIED WARRANTY.
// ALL IMPLIED WARRANTIES OF FITNESS FOR ANY PARTICULAR PURPOSE AND OF
// MERCHANTABILITY ARE HEREBY DISCLAIMED.
//
// For complete openNURBS copyright information see <http://www.opennurbs.org>.
//
////////////////////////////////////////////////////////////////
*/
#include "opennurbs.h"
#if !defined(ON_COMPILING_OPENNURBS)
// This check is included in all opennurbs source .c and .cpp files to insure
// ON_COMPILING_OPENNURBS is defined when opennurbs source is compiled.
// When opennurbs source is being compiled, ON_COMPILING_OPENNURBS is defined
// and the opennurbs .h files alter what is declared and how it is declared.
#error ON_COMPILING_OPENNURBS must be defined when compiling opennurbs
#endif
// obsolete V5 dimension style
#include "opennurbs_internal_V5_dimstyle.h"
// obsolete V2 and V5 annotation objects
#include "opennurbs_internal_V2_annotation.h"
#include "opennurbs_internal_V5_annotation.h"
const ON_String Internal_RuntimeEnvironmentToString(
ON::RuntimeEnvironment runtime_environment
)
{
switch (runtime_environment)
{
ON_ENUM_TO_STRING_CASE(ON::RuntimeEnvironment::Unset);
ON_ENUM_TO_STRING_CASE(ON::RuntimeEnvironment::None);
ON_ENUM_TO_STRING_CASE(ON::RuntimeEnvironment::Windows);
ON_ENUM_TO_STRING_CASE(ON::RuntimeEnvironment::Apple);
ON_ENUM_TO_STRING_CASE(ON::RuntimeEnvironment::Android);
ON_ENUM_TO_STRING_CASE(ON::RuntimeEnvironment::Linux);
}
ON_ERROR("Invalid runtime_environment parameter value.");
return ON_String::EmptyString;
}
const ON_wString Internal_RuntimeEnvironmentToWideString(
ON::RuntimeEnvironment runtime_environment
)
{
const ON_String s = Internal_RuntimeEnvironmentToString(runtime_environment);
return ON_wString(s);
}
unsigned int ON_BinaryArchive::ArchiveOpenNURBSVersionToWrite(
unsigned int archive_3dm_version,
unsigned int opennurbs_version
)
{
// When writing V5 files, any version number in the new V6 format needs to be
// converted to the old V5 format
unsigned int opennurbs_version_to_write = opennurbs_version;
if (
((archive_3dm_version >= 2 && archive_3dm_version <= 4) || (50 == archive_3dm_version))
&& false == ON_VersionNumberIsYearMonthDateFormat(archive_3dm_version, opennurbs_version)
)
{
unsigned int yyyy = 0;
unsigned int mm = 0;
unsigned int dd = 0;
unsigned int major_version_number = 0;
if (ON_VersionNumberParse(opennurbs_version, &major_version_number, 0, &yyyy, &mm, &dd, 0))
{
unsigned int n = major_version_number < 10 ? major_version_number : 9;
opennurbs_version_to_write = ((yyyy * 100 + mm) * 100 + dd) * 10 + n;
}
}
return opennurbs_version_to_write;
}
ON_UserDataItemFilter::ON_UserDataItemFilter()
: m_application_id(ON_nil_uuid)
, m_item_id(ON_nil_uuid)
, m_precedence(0)
, m_bSerialize(false)
{}
ON_UserDataItemFilter::ON_UserDataItemFilter(
ON_UUID application_id,
bool bSerialize
)
: m_application_id(application_id)
, m_item_id(ON_nil_uuid)
, m_precedence(0)
, m_bSerialize(bSerialize ? true : false)
{}
ON_UserDataItemFilter::ON_UserDataItemFilter(
ON_UUID application_id,
ON_UUID item_id,
bool bSerialize
)
: m_application_id(application_id)
, m_item_id(item_id)
, m_precedence(0)
, m_bSerialize(bSerialize ? true : false)
{}
int ON_UserDataItemFilter::Compare(
const class ON_UserDataItemFilter* a,
const class ON_UserDataItemFilter* b
)
{
// null pointer handling
if (a == b)
return 0;
if (0 == b)
return -1; // non-null < null
if (0 == a)
return 1;
int rc = ON_UuidCompare(a->m_application_id, b->m_application_id);
if (0 != rc)
return rc;
rc = ON_UuidCompare(a->m_item_id, b->m_item_id);
if (0 != rc)
return rc;
if (a->m_precedence < b->m_precedence)
return -1;
if (b->m_precedence < a->m_precedence)
return 1;
rc = ((int)(a->m_bSerialize ? 1 : 0)) - ((int)(a->m_bSerialize ? 1 : 0));
return rc;
}
class ON_ReadChunkHelper
{
public:
/*
Parameters:
archive - [in]
bReadSuccess - [out]
The value of *bReadSuccess is set to false if an error
occurs. Otherwise the value of *bReadSuccess is not
changed.
*/
ON_ReadChunkHelper(
ON_BinaryArchive&,
bool& bReadSuccess
);
~ON_ReadChunkHelper();
ON_BinaryArchive& m_binary_archive;
ON__UINT32 m_chunk_tcode = 0;
bool m_bSupressPartiallyReadChunkWarning = false;
ON__INT64 m_chunk_value = 0;
bool& m_bReadSuccess;
private:
bool m_bCallEndRead3dmChunk = false;
private:
// prohibit use - no implementation
ON_ReadChunkHelper() = delete;
ON_ReadChunkHelper(const ON_ReadChunkHelper&) = delete;
ON_ReadChunkHelper& operator=(const ON_ReadChunkHelper&) = delete;
};
ON_ReadChunkHelper::ON_ReadChunkHelper(
ON_BinaryArchive& binary_archive,
bool &bReadSuccess
)
: m_binary_archive(binary_archive)
, m_bReadSuccess(bReadSuccess)
{
m_bCallEndRead3dmChunk = m_binary_archive.BeginRead3dmBigChunk(&m_chunk_tcode,&m_chunk_value);
if ( false == m_bCallEndRead3dmChunk || 0 == m_chunk_tcode )
{
// RH-22447 - valid chunk typecodes are never zero
m_bReadSuccess = false;
}
}
ON_ReadChunkHelper::~ON_ReadChunkHelper()
{
if (m_bCallEndRead3dmChunk)
{
if ( !m_binary_archive.EndRead3dmChunk(m_bSupressPartiallyReadChunkWarning) )
{
m_bReadSuccess = false;
}
}
}
bool ON_IsUnsignedChunkTypecode( ON__UINT32 typecode )
{
// returns tru if the chunk value should be treated as an unsigned int.
return ( 0 == (TCODE_SHORT & typecode)
|| TCODE_RGB == typecode
|| TCODE_RGBDISPLAY == typecode
|| TCODE_PROPERTIES_OPENNURBS_VERSION == typecode
|| TCODE_OBJECT_RECORD_TYPE == typecode
);
}
bool ON_IsLongChunkTypecode(ON__UINT32 typecode)
{
// NOTE: RenderXXXX plug-in used zero as a typecode in material userdata, sigh ...
//return (0 != typecode && 0 == (TCODE_SHORT & typecode));
return (0 == (TCODE_SHORT & typecode));
}
bool ON_IsShortChunkTypecode(ON__UINT32 typecode)
{
return (0 != (TCODE_SHORT & typecode));
}
static
bool DownSizeINT( ON__INT64 i64, ON__INT32* i32 )
{
const static ON__INT64 i32max = 2147483647;
if ( i64 <= i32max && i64 >= (-i32max - 1) )
{
*i32 = (ON__INT32)i64;
return true;
}
ON_ERROR("i64 too big to convert to 4 byte signed int");
*i32 = 0;
return false;
}
static
bool DownSizeUINT( ON__UINT64 u64, ON__UINT32* u32 )
{
if ( u64 <= 0xFFFFFFFF )
{
*u32 = (ON__UINT32)u64;
return true;
}
ON_ERROR("u64 too big to convert to 4 byte unsigned int");
*u32 = 0;
return false;
}
struct ON__3dmV1LayerIndex
{
int m_layer_index;
int m_layer_name_length;
char* m_layer_name;
struct ON__3dmV1LayerIndex* m_next;
};
ON_BinaryArchive::ON_BinaryArchive( ON::archive_mode mode )
: m_mode(mode)
{
if (ON::archive_mode::read3dm == mode || ON::archive_mode::write3dm == mode)
m_bChunkBoundaryCheck = true;
m_annotation_context.SetReferencedBinaryArchive(this);
}
class ON_3dmTableStatusLink
{
public:
ON_3dmTableStatusLink() = default;
~ON_3dmTableStatusLink() = default;
ON_3dmTableStatusLink(const ON_3dmTableStatusLink&) = default;
ON_3dmTableStatusLink& operator=(const ON_3dmTableStatusLink&) = default;
ON_3dmTableStatusLink* m_next = nullptr;
ON_3dmArchiveTableStatus m_table_status;
};
ON_BinaryArchive::~ON_BinaryArchive()
{
if ( 0 != m_V1_layer_list )
{
struct ON__3dmV1LayerIndex* next = m_V1_layer_list;
m_V1_layer_list = 0;
for ( int i = 0; 0 != next && i < 1000; i++ )
{
struct ON__3dmV1LayerIndex* p = next;
next = p->m_next;
onfree(p);
}
}
if (nullptr != m_compressor)
{
CompressionEnd();
onfree(m_compressor);
}
ON_3dmTableStatusLink* next = m_3dm_table_status_list;
m_3dm_table_status_list = nullptr;
while (nullptr != next)
{
ON_3dmTableStatusLink* p = next;
next = const_cast<ON_3dmTableStatusLink*>(next->m_next);
delete p;
}
m_annotation_context.SetReferencedDimStyle(nullptr,nullptr,ON_UNSET_INT_INDEX);
if (nullptr != m_archive_3dm_properties)
{
delete m_archive_3dm_properties;
m_archive_3dm_properties = nullptr;
}
if (nullptr != m_archive_3dm_settings)
{
delete m_archive_3dm_settings;
m_archive_3dm_settings = nullptr;
}
for (int i = 0; i < m_archive_text_style_table.Count(); i++)
{
if (nullptr != m_archive_text_style_table[i])
delete m_archive_text_style_table[i];
}
m_archive_text_style_table.Destroy();
for (int i = 0; i < m_archive_dim_style_table.Count(); i++)
{
if (nullptr != m_archive_dim_style_table[i])
delete m_archive_dim_style_table[i];
}
m_archive_dim_style_table.Destroy();
}
bool ON_BinaryArchive::ArchiveFileMoved() const
{
return m_b3dmArchiveMoved;
}
const ON_wString& ON_BinaryArchive::ArchiveFileName() const
{
return m_archive_file_name;
}
const ON_wString& ON_BinaryArchive::ArchiveDirectoryName() const
{
return m_archive_directory_name;
}
const ON_wString& ON_BinaryArchive::ArchiveFullPath() const
{
return m_archive_full_path;
}
const ON_wString& ON_BinaryArchive::ArchiveSavedAsFullPath() const
{
return m_archive_saved_as_full_path;
}
const wchar_t* ON_BinaryArchive::ArchiveFileNameAsPointer() const
{
return static_cast<const wchar_t*>(m_archive_file_name);
}
const wchar_t* ON_BinaryArchive::ArchiveDirectoryNameAsPointer() const
{
return static_cast<const wchar_t*>(m_archive_directory_name);
}
const wchar_t* ON_BinaryArchive::ArchiveFullPathAsPointer() const
{
return static_cast<const wchar_t*>(m_archive_full_path);
}
const wchar_t* ON_BinaryArchive::ArchiveSavedAsFullPathPointer() const
{
return static_cast<const wchar_t*>(m_archive_saved_as_full_path);
}
void ON_BinaryArchive::SetArchiveFullPath(
const wchar_t* archive_full_path
)
{
if (m_archive_full_path.IsNotEmpty())
{
// The first attempt wins!
if (false == m_archive_full_path.EqualOrdinal(archive_full_path, false))
{
// You need to get this right on the first try.
// If you are hitting this error, figure out why you are attempting to change
// this value and/or and make sure ArchiveFullPath().IsEmpty()
// is true before you attempt to set it.
// This is here because the value gets set correctly and then changed
// to the wrong value when people use temp files and rename after writing
// and don't pay attention to what they are doing.
ON_ERROR("Attempt to change archive path.");
}
return;
}
ON_wString local_full_path(archive_full_path);
archive_full_path = local_full_path;
ON_wString archive_file_name;
ON_wString archive_directory_name;
if (nullptr != archive_full_path && 0 != archive_full_path[0])
{
const wchar_t* dr = 0;
const wchar_t* d = 0;
const wchar_t* f = 0;
const wchar_t* e = 0;
on_wsplitpath(archive_full_path, &dr, &d, &f, &e);
if (archive_full_path == f || (nullptr != d && f > archive_full_path && ON_FileSystemPath::IsRelativePath(archive_full_path) ) )
{
const ON_wString current_directory = ON_FileSystemPath::CurrentDirectory(true);
if (current_directory.IsNotEmpty())
{
local_full_path = ON_FileSystemPath::CombinePaths(static_cast<const wchar_t*>(current_directory), false, archive_full_path, true, false);
archive_full_path = local_full_path;
on_wsplitpath(archive_full_path, &dr, &d, &f, &e);
}
}
if (nullptr != f && 0 != f[0])
{
archive_file_name = f;
if (nullptr == dr)
dr = d;
if (nullptr != dr && 0 != dr[0] && dr < f)
{
archive_directory_name = dr;
archive_directory_name.SetLength(f-dr);
}
}
}
SetArchiveFullPath(
static_cast<const wchar_t*>(archive_directory_name),
static_cast<const wchar_t*>(archive_file_name)
);
m_archive_full_path = archive_full_path;
switch (m_mode)
{
case ON::archive_mode::write3dm:
case ON::archive_mode::write:
m_archive_saved_as_full_path = m_archive_full_path;
break;
}
}
void ON_BinaryArchive::SetArchiveFullPath(
const wchar_t* archive_directory_name,
const wchar_t* archive_file_name
)
{
ON_wString s(archive_directory_name);
s.TrimRight(L"/\\");
if (s.IsEmpty() || (2 == s.Length() && ':' == s[1]))
s = archive_directory_name;
const ON_wString local_directory_name(s);
if (nullptr != archive_file_name)
{
switch (archive_file_name[0])
{
case '/':
case '\\':
case ':':
ON_ERROR("archive_file_name is not valid.");
archive_file_name = nullptr;
}
}
const ON_wString local_file_name(archive_file_name);
if (m_archive_directory_name.IsNotEmpty() || m_archive_full_path.IsNotEmpty())
{
// The first attempt wins!
if (false == m_archive_directory_name.EqualOrdinal(local_directory_name, false))
{
// You need to get this right on the first try.
// If you are hitting this error, figure out why you are attempting to change
// this value and/or and make sure ArchiveFullPath().IsEmpty()
// is true before you attempt to set it.
// This is here because the value gets set correctly and then changed
// to the wrong value when people use temp files and rename after writing
// and don't pay attention to what they are doing.
ON_ERROR("Attempt to change archive path.");
}
return;
}
if (m_archive_file_name.IsNotEmpty() || m_archive_full_path.IsNotEmpty())
{
// The first attempt wins!
if (false == m_archive_file_name.EqualOrdinal(local_file_name, false))
{
// You need to get this right on the first try.
// If you are hitting this error, figure out why you are attempting to change
// this value and/or and make sure ArchiveFullPath().IsEmpty()
// is true before you attempt to set it.
// This is here because the value gets set correctly and then changed
// to the wrong value when people use temp files and rename after writing
// and don't pay attention to what they are doing.
ON_ERROR("Attempt to change archive path.");
}
return;
}
m_archive_directory_name = local_directory_name;
m_archive_file_name = local_file_name;
if (m_archive_directory_name.IsNotEmpty() && m_archive_file_name.IsNotEmpty())
{
m_archive_full_path = ON_wString::EmptyString;
m_archive_full_path += ON_FileSystemPath::DirectorySeparator;
m_archive_full_path += m_archive_file_name;
}
else
m_archive_full_path = ON_wString::EmptyString;
switch (m_mode)
{
case ON::archive_mode::write3dm:
case ON::archive_mode::write:
m_archive_saved_as_full_path = m_archive_full_path;
break;
}
}
ON_BinaryArchive::eStorageDeviceError ON_BinaryArchive::StorageDeviceErrorFromUnsigned(
unsigned int storage_device_error_as_unsigned
)
{
switch (storage_device_error_as_unsigned)
{
ON_ENUM_FROM_UNSIGNED_CASE(ON_BinaryArchive::eStorageDeviceError::None);
ON_ENUM_FROM_UNSIGNED_CASE(ON_BinaryArchive::eStorageDeviceError::WriteFailed);
ON_ENUM_FROM_UNSIGNED_CASE(ON_BinaryArchive::eStorageDeviceError::SeekFailedDuringWriting);
ON_ENUM_FROM_UNSIGNED_CASE(ON_BinaryArchive::eStorageDeviceError::ReadFailed);
ON_ENUM_FROM_UNSIGNED_CASE(ON_BinaryArchive::eStorageDeviceError::SeekFailedDuringReading);
ON_ENUM_FROM_UNSIGNED_CASE(ON_BinaryArchive::eStorageDeviceError::UnknownDeviceError);
}
ON_ERROR("Invalid storage_device_error_as_unsigned parmeter.");
return ON_BinaryArchive::eStorageDeviceError::UnknownDeviceError;
}
unsigned int ON_BinaryArchive::StorageDeviceError() const
{
return m_storage_device_error;
}
void ON_BinaryArchive::SetStorageDeviceError(
ON_BinaryArchive::eStorageDeviceError storage_device_error
)
{
const unsigned int u = static_cast<unsigned int>(storage_device_error);
SetStorageDeviceError(u);
}
void ON_BinaryArchive::SetStorageDeviceError(
unsigned int storage_device_error
)
{
if (0 != storage_device_error)
{
Internal_ReportCriticalError();
// A critical error terminates the read/write.
// The first one sets the code and subsequent attempts to modify
// the code fail.
if (0 == m_storage_device_error)
{
ON_ERROR("Damaged file and / or buggy code. Please investigate.");
m_storage_device_error = storage_device_error;
}
}
}
bool ON_BinaryArchive::ToggleByteOrder(
size_t count, // number of elements
size_t sizeof_element, // size of element (2,4, or 8)
const void* src, // source buffer
void* dst // destination buffer (can be same as source buffer)
)
{
bool rc = (0 == count || (count > 0 && sizeof_element > 0 && nullptr != src && nullptr != dst));
if ( rc && count > 0 )
{
unsigned char c[32];
const unsigned char* a = (const unsigned char*)src;
unsigned char* b = (unsigned char*)dst;
const unsigned char* b1 = b + (count*sizeof_element);
// loops are unrolled and a switch is used
// to speed things up a bit.
switch(sizeof_element)
{
case 2:
while(b < b1)
{
c[0] = *a++;
c[1] = *a++;
*b++ = c[1];
*b++ = c[0];
}
break;
case 4:
while(b < b1)
{
c[0] = *a++;
c[1] = *a++;
c[2] = *a++;
c[3] = *a++;
*b++ = c[3];
*b++ = c[2];
*b++ = c[1];
*b++ = c[0];
}
break;
case 8:
while(b < b1)
{
c[0] = *a++;
c[1] = *a++;
c[2] = *a++;
c[3] = *a++;
c[4] = *a++;
c[5] = *a++;
c[6] = *a++;
c[7] = *a++;
*b++ = c[7];
*b++ = c[6];
*b++ = c[5];
*b++ = c[4];
*b++ = c[3];
*b++ = c[2];
*b++ = c[1];
*b++ = c[0];
}
break;
default:
if ( sizeof_element < 32 )
{
// As of 2 May 2003, this case is never used
// by core opennurbs objects.
//
// This is here so that future code will work
// if and when 128 bit "ints"/"doubles" become common
// enough that they can be stored in 3dm files.
// It may also happen that third party applications
// on specialized CPUs need to toggle byte order
// for 128 bit ints/doubles stored as user data.
size_t i;
while(b < b1)
{
for (i = 0; i < sizeof_element; i++)
c[i] = *a++;
while(i--)
*b++ = c[i];
}
}
else
{
rc = false;
}
break;
}
}
return rc;
}
ON__UINT64 ON_BinaryArchive::CurrentPosition() const
{
return m_current_positionX;
}
bool ON_BinaryArchive::Internal_IncrementCurrentPosition(
ON__UINT64 delta
)
{
// TODO: Add error detection.
const ON__UINT64 new_pos = m_current_positionX + delta;
m_current_positionX = new_pos;
return true;
}
bool ON_BinaryArchive::Internal_DecrementCurrentPosition(
ON__UINT64 delta
)
{
if (m_current_positionX >= delta)
{
const ON__UINT64 new_pos = m_current_positionX - delta;
m_current_positionX = new_pos;
return true;
}
ON_ERROR("Attempt to set current position before start of archive.");
return false;
}
bool ON_BinaryArchive::SeekFromStart( ON__UINT64 bytes_from_start )
{
if (UnsetMode())
{
ON_ERROR("Invalid archive Mode().");
return false;
}
if (m_bChunkBoundaryCheck)
{
const ON_3DM_BIG_CHUNK* c = m_chunk.Last();
if (nullptr != c)
{
ON_ERROR("Attempt to seek before beginning of current chunk.");
return false;
}
}
if (0 != CurrentPosition() )
{
// Internal_SeekToStart() is a pure virutal function that must overridden.
if (!Internal_SeekToStartOverride())
{
ON_ERROR("Internal_SeekToStartOverride() failed.");
if (ReadMode())
SetStorageDeviceError(ON_BinaryArchive::eStorageDeviceError::SeekFailedDuringReading);
if (WriteMode())
SetStorageDeviceError(ON_BinaryArchive::eStorageDeviceError::SeekFailedDuringWriting);
return false;
}
m_current_positionX = 0;
}
return (bytes_from_start > 0) ? SeekForward(bytes_from_start) : true;
}
bool ON_BinaryArchive::SeekForward( ON__UINT64 bytes_forward )
{
return Internal_SeekCur(true, bytes_forward);
}
bool ON_BinaryArchive::SeekBackward( ON__UINT64 bytes_backward )
{
return Internal_SeekCur(false, bytes_backward);
}
bool ON_BinaryArchive::Internal_SeekCur( bool bForward, ON__UINT64 offset )
{
// Internal_SeekFromCurrentPosition() is a pure virutal function that must overridden.
// Some implementations may use signed 4 byte int in critical places.
// SeekForward() will work correctly in this worst case situation.
if (UnsetMode())
{
ON_ERROR("Invalid archive Mode().");
return false;
}
const ON__UINT64 current_pos = CurrentPosition();
if (false == bForward && offset > current_pos)
{
ON_ERROR("Attempt to seek before archive beginning.");
return false;
}
const ON__UINT64 new_pos
= bForward
? (current_pos + offset)
: (current_pos - offset);
if (m_bChunkBoundaryCheck)
{
const ON_3DM_BIG_CHUNK* c = m_chunk.Last();
if (nullptr != c && c->m_start_offset <= current_pos && current_pos <= c->m_end_offset )
{
if (new_pos > c->m_end_offset)
{
// The code that seeks 1 byte past the end of a level 1 chunk disables chunk boundary checking for that seek.)
ON_ERROR("Attempt to seek beyond end of current chunk.");
return false;
}
if (new_pos < c->m_start_offset)
{
// seeking before beginning of chunk's data
// (The code that seeks back to write a chunk length disables chunk boundary checking for that write.)
ON_ERROR("Attempt to seek before beginning of current chunk.");
return false;
}
}
}
const int dir = bForward ? 1 : -1;
int ioffset;
const ON__UINT64 max_internal_seek = 2147483632; // < maximum signed 4 bytes int = 2147483647
while ( offset > 0 )
{
const ON__UINT64 delta = (offset > max_internal_seek) ? max_internal_seek : offset;
ioffset = dir*((int)delta);
if (false == Internal_SeekFromCurrentPositionOverride(ioffset))
{
ON_ERROR("Internal_SeekFromCurrentPositionOverride(ioffset) failed.");
if (ReadMode())
SetStorageDeviceError(ON_BinaryArchive::eStorageDeviceError::SeekFailedDuringReading);
if (WriteMode())
SetStorageDeviceError(ON_BinaryArchive::eStorageDeviceError::SeekFailedDuringWriting);
return false;
}
if (bForward)
Internal_IncrementCurrentPosition(delta);
else
Internal_DecrementCurrentPosition(delta);
offset -= delta;
}
return true;
}
bool
ON_BinaryArchive::ReadChar( // Read an array of 8 bit chars
size_t count, // number of chars to read
char* p
)
{
return ReadByte( count, p );
}
bool
ON_BinaryArchive::ReadChar( // Read an array of 8 bit unsigned chars
size_t count, // number of unsigned chars to read
unsigned char* p
)
{
return ReadByte( count, p );
}
bool
ON_BinaryArchive::ReadChar( // Read a single 8 bit char
char* p
)
{
return ReadByte( 1, p );
}
bool
ON_BinaryArchive::ReadChar( // Read a single 8 bit unsigned char
unsigned char* p
)
{
return ReadByte( 1, p );
}
bool
ON_BinaryArchive::ReadInt16( // Read an array of 16 bit integers
size_t count, // number of unsigned integers to read
ON__INT16* p
)
{
bool rc = ReadByte( count<<1, p );
if (rc && m_endian == ON::endian::big_endian)
{
// reverse byte order
unsigned char* b= (unsigned char*) (p);
unsigned char c;
while(count--) {
c = b[0]; b[0] = b[1]; b[1] = c;
b += 2;
}
}
return rc;
}
bool
ON_BinaryArchive::ReadShort( // Read an array of 16 bit shorts
size_t count, // number of unsigned chars to read
short* p
)
{
#pragma ON_PRAGMA_WARNING_PUSH
// Disable the MSC /W4 "conditional expression is constant" warning
// about 2 == sizeof(*p). Since this code has to run on machines
// where sizeof(*p) can be 2, 4, or 8 bytes, the test is necessary.
#pragma ON_PRAGMA_WARNING_DISABLE_MSC(4127)
bool rc = true;
if ( 2 == sizeof(*p) )
{
rc = ReadInt16( count, (ON__INT16*)p );
}
else
{
size_t j;
ON__INT16 i16;
for ( j = 0; j < count && rc; j++ )
{
rc = ReadInt16( 1, &i16 );
*p++ = (short)i16;
}
}
return rc;
#pragma ON_PRAGMA_WARNING_POP
}
bool
ON_BinaryArchive::ReadShort( // Read an array of 16 bit unsigned shorts
size_t count, // number of unsigned chars to read
unsigned short* p
)
{
return ReadShort( count, (short*)p );
}
bool
ON_BinaryArchive::ReadShort( // Read a single 16 bit short
short* p
)
{
return ReadShort( 1, p );
}
bool
ON_BinaryArchive::ReadShort( // Read a single 16 bit unsigned short
unsigned short* p
)
{
return ReadShort( 1, p );
}
bool
ON_BinaryArchive::ReadInt32( // Read an array of 32 bit integers
size_t count, // number of 32 bit integers to read
ON__INT32* p
)
{
bool rc = ReadByte( count<<2, p );
if (rc && m_endian == ON::endian::big_endian)
{
unsigned char* b= (unsigned char*)p;
unsigned char c;
while(count--) {
c = b[0]; b[0] = b[3]; b[3] = c;
c = b[1]; b[1] = b[2]; b[2] = c;
b += 4;
}
}
return rc;
}
bool
ON_BinaryArchive::ReadInt( // Read an array of integers
size_t count, // number of unsigned chars to read
int* p
)
{
#if defined(ON_COMPILER_MSC)
#pragma ON_PRAGMA_WARNING_PUSH
// Disable the MSC /W4 "conditional expression is constant" warning
// about 4 == sizeof(*p). Since this code has to run on machines
// where sizeof(*p) can be 2, 4, or 8 bytes, the test is necessary.
#pragma ON_PRAGMA_WARNING_DISABLE_MSC( 4127 )
#endif
bool rc;
if ( 4 == sizeof(*p) )
{
rc = ReadInt32( count, (ON__INT32*)p );
}
else
{
rc = true;
ON__INT32 i32;
size_t j;
for ( j = 0; j < count && rc; j++ )
{