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class TResourceReader;
Interprets resource data read from a resource file.
To use an instance of this class, pass the buffer containing the resource data to it by calling TResourceReader::SetBuffer(const TDesC8 *)
.
The buffer containing the resource data is created by RResourceFile::AllocReadLC(TInt)const
or RResourceFile::AllocReadL(TInt)const
which reads the specified resource into it.
The current position within the buffer is always maintained and any request for data is always supplied from the current position. The current position is always updated .
Defined in TResourceReader
:
Advance(TInt)
Moves the current buffer position forwards by the specified amount.Ptr()
Returns the current position within the resource buffer.Read(TAny *,TInt)
Copies a specified length of data from the resource buffer, starting at the curr...ReadDesC16ArrayL()
Interprets the data at the current buffer position as an array of leading byte c...ReadDesC8ArrayL()
Interprets the data at the current buffer position as an array of leading byte c...ReadDesCArrayL()
Interprets the data at the current buffer position as an array of leading byte c...ReadHBufC16L()
Interprets the data at the current buffer position as leading byte count data an...ReadHBufC8L()
Interprets the data at the current buffer position as leading byte count data an...ReadHBufCL()
Interprets the data at the current buffer position as leading byte count data an...ReadInt16()
Interprets the data at the current buffer position as a TInt16 type and returns ...ReadInt32()
Interprets the data at the current buffer position as a TInt32 type and returns ...ReadInt8()
Interprets the data at the current buffer position as a TInt8 type and returns t...ReadReal64()
Interprets the data at the current buffer position as a TReal64 type and returns...ReadTPtrC()
Interprets the data at the current buffer position as leading byte count data an...ReadTPtrC(TInt,const TDesC8 *)
Interprets the data within the specified resource buffer as an array of leading ...ReadTPtrC16()
Interprets the data at the current buffer position as leading byte count data an...ReadTPtrC16(TInt,const TDesC8 *)
Interprets the data within the specified resource buffer as an array of leading ...ReadTPtrC8()
Interprets the data at the current buffer position as leading byte count data an...ReadTPtrC8(TInt,const TDesC8 *)
Interprets the data within the specified resource buffer as an array of leading ...ReadUint16()
Interprets the data at the current buffer position as a TUint16 type and returns...ReadUint32()
Interprets the data at the current buffer position as a TUint32 type and returns...ReadUint8()
Interprets the data at the current buffer position as a TUint8 type and returns ...Rewind(TInt)
Moves the current buffer position backwards by the specified amount.SetBuffer(const TDesC8 *)
Sets the buffer containing the resource data.TResourceReader::SetBuffer(const TDesC8 *)
Sets the buffer containing the resource data.RResourceFile::AllocReadL(TInt)const
Reads a resource into a heap descriptor and returns a pointer to that descriptor...RResourceFile::AllocReadLC(TInt)const
Reads a resource into a heap descriptor, returns a pointer to that descriptor an...IMPORT_C void SetBuffer(const TDesC8 *aBuffer);
Sets the buffer containing the resource data.
The current position within the buffer is set to the start of the buffer so that subsequent calls to the interpreting functions,
for example TResourceReader::ReadInt8()
, start at the beginning of this buffer.
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IMPORT_C const TAny* Ptr();
Returns the current position within the resource buffer.
The function makes no assumption about the type of data in the buffer at the current position.
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inline HBufC* ReadHBufCL();
Interprets the data at the current buffer position as leading byte count data and constructs a build independent heap descriptor containing a copy of this data.
The data is interpreted as:
a byte value defining the number of text characters or the length of binary data
followed by:
the text characters or binary data. This resource data is interpreted as either 8-bit or 16-bit, depending on the build.
If the value of the leading byte is zero, the function assumes that no data follows the leading byte and returns a NULL pointer.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Use this build independent variant when the resource contains text. If the resource contains binary data, use the explicit
8-bit variant TResourceReader::ReadHBufC8L()
.
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IMPORT_C HBufC8* ReadHBufC8L();
Interprets the data at the current buffer position as leading byte count data and constructs an 8 bit heap descriptor containing a copy of this data.
The data is interpreted as:
a byte value defining the number of 8 bit text characters or the length of binary data (the resource string/binary data length is limited to 255 characters max)
followed by:
the 8 bit text characters or binary data.
If the value of the leading byte is zero, the function assumes that no data follows the leading byte and returns a NULL pointer.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Use this explicit 8-bit variant when the resource contains binary data. If the resource contains text, then use the build
independent variant TResourceReader::ReadHBufCL()
.
In general, this type of resource data corresponds to one of the following:
a LTEXT type in a resource STRUCT declaration.
a variable length array within a STRUCT declaration which includes the LEN BYTE keywords.
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IMPORT_C HBufC16* ReadHBufC16L();
Interprets the data at the current buffer position as leading byte count data and constructs a 16 bit heap descriptor containing a copy of this data.
The data is interpreted as:
a byte value defining the number of 16 bit text characters (the resource string/binary data length is limited to 255 characters max)
followed by:
the 16 bit text characters.
If the value of the leading byte is zero, the function assumes that no data follows the leading byte and returns a NULL pointer.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Do not use this explicit 16-bit variant when the resource contains binary data; use the explicit 8-bit variant instead. If
the resource contains text, use the build independent variant TResourceReader::ReadHBufCL()
.
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inline TPtrC ReadTPtrC();
Interprets the data at the current buffer position as leading byte count data and constructs a non modifiable pointer descriptor to represent this data.
The data is interpreted as:
a byte value defining the number of text characters or the length of binary data
followed by:
the text characters or binary data. This resource data is interpreted as either 8-bit or 16-bit, depending on the build.
If the value of the leading byte is zero, calling Length() on the returned TPtrC returns zero.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Use this build independent variant when the resource contains text. If the resource contains binary data, use the explicit
8-bit variant TResourceReader::ReadTPtrC8()
.
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IMPORT_C TPtrC8 ReadTPtrC8();
Interprets the data at the current buffer position as leading byte count data and constructs an 8 bit non modifiable pointer descriptor to represent this data.
The data is interpreted as:
a byte value defining the number of text characters or the length of binary data (the resource string/binary data length is limited to 255 characters max)
followed by:
the 8 bit text characters or binary data.
If the value of the leading byte is zero, calling Length() on the returned TPtrC8
returns zero.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Use this explicit 8-bit variant when the resource contains binary data. If the resource contains text, then use the build
independent variant TResourceReader::ReadTPtrC()
.
In general, this type of resource data corresponds to one of the following:
a LTEXT type in a resource STRUCT declaration.
a variable length array within a STRUCT declaration which includes the LEN BYTE keywords.
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IMPORT_C TPtrC16 ReadTPtrC16();
Interprets the data at the current buffer position as leading byte count data and constructs a 16 bit non modifiable pointer descriptor to represent this data.
The data is interpreted as:
a byte value defining the number of 16 bit text characters (the resource string/binary data length is limited to 255 characters max)
followed by:
the 16 bit text characters.
If the value of the leading byte is zero, calling Length() on the returned TPtrC16
returns zero.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Do not use this explicit 16-bit variant when the resource contains binary data; use the explicit 8-bit variant instead. If
the resource contains text, use the build independent variant TResourceReader::ReadTPtrC()
.
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inline TPtrC ReadTPtrC(TInt aIndex, const TDesC8 *aBuffer);
Interprets the data within the specified resource buffer as an array of leading byte count data and constructs a non modifiable pointer descriptor to represent an element within this array.
The function sets the buffer containing the resource data and sets the current position to the start of this buffer. Any buffer
set by a previous call to TResourceReader::SetBuffer(const TDesC8 *)
etc, is lost.
The buffer is expected to contain an array of data elements preceded by a TInt16 value defining the number of elements within that array.
Each element of the array is interpreted as:
a byte value defining the number of text characters or the length of binary data
followed by:
the text characters or binary data. This resource data is interpreted as either 8-bit or 16-bit, depending on the build.
If the value of the leading byte is zero, calling Length() on the returned TPtrC returns zero.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Use this build independent variant when the elements contain text. If the elements contain binary data, use the explicit 8-bit variant ReadTPtrC8(TInt,const TDesC8*).
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IMPORT_C TPtrC8 ReadTPtrC8(TInt aIndex, const TDesC8 *aBuffer);
Interprets the data within the specified resource buffer as an array of leading byte count data and constructs an 8 bit non modifiable pointer descriptor to represent an element within this array.
The function sets the buffer containing the resource data and sets the current position to the start of this buffer. Any buffer
set by a previous call to TResourceReader::SetBuffer(const TDesC8 *)
etc, is lost.
The buffer is expected to contain an array of data elements preceded by a TInt16 value defining the number of elements within that array.
Each element of the array is interpreted as:
a byte value defining the number of 8 bit text characters or the length of binary data (the resource string/binary data length is limited to 255 characters max)
followed by:
the 8 bit text characters or binary data.
If the value of the leading byte is zero, calling Length() on the returned TPtrC8
returns zero.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Use this explicit 8 bit variant when the resource contains binary data, If the resource contains text, then use the build independent variant ReadTPtrC(TInt,const TDesC8*).
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IMPORT_C TPtrC16 ReadTPtrC16(TInt aIndex, const TDesC8 *aBuffer);
Interprets the data within the specified resource buffer as an array of leading byte count data and constructs a 16 bit non modifiable pointer descriptor to represent an element within this array.
The function sets the buffer containing the resource data and sets the current position to the start of this buffer. Any buffer
set by a previous call to TResourceReader::SetBuffer(const TDesC8 *)
etc., is lost.
The buffer is expected to contain an array of data elements preceded by a TInt16 value defining the number of elements within that array.
Each element of the array is interpreted as:
a byte value defining the number of 8 bit text characters or the length of binary data (the resource string/binary data length is limited to 255 characters max)
followed by:
the 16 bit text characters.
If the value of the leading byte is zero, calling Length() on the returned TPtrC16
returns zero.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Do not use this explicit 16-bit variant when the resource contains binary data; use the explicit 8-bit variant instead. If the resource contains text, use the build independent variant ReadTPtrC(TInt,const TDesC8*).
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inline CDesCArrayFlat* ReadDesCArrayL();
Interprets the data at the current buffer position as an array of leading byte count data and constructs a build independent flat array of descriptors.
Each descriptor in the descriptor array corresponds to an element of the resource array.
At the current buffer position, the buffer is expected to contain an array of data elements preceded by a TInt16 value defining the number of elements within that array.
Each element of the array is interpreted as:
a byte value defining the number of text characters or the length of binary data
followed by:
the text characters or binary data. This resource data is interpreted as either 8-bit or 16-bit, depending on the build.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Use this build independent variant when the elements contain text. If the elements contain binary data, use the explicit 8-bit
variant TResourceReader::ReadDesC8ArrayL()
.
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IMPORT_C CDesC8ArrayFlat* ReadDesC8ArrayL();
Interprets the data at the current buffer position as an array of leading byte count data and constructs a flat array of 8 bit descriptors.
Each descriptor in the descriptor array corresponds to an element of the resource array.
At the current buffer position, the buffer is expected to contain an array of data elements preceded by a TInt16 value defining the number of elements within that array.
Each element of the array is interpreted as:
a byte value defining the number of 8 bit text characters or the length of binary data (the resource string/binary data length is limited to 255 characters max)
followed by:
the text characters or binary data.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Use this explicit 8-bit variant when the resource contains binary data. If the elements of the resource array contain text,
use the build independent variant of TResourceReader::ReadDesCArrayL()
.
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IMPORT_C CDesC16ArrayFlat* ReadDesC16ArrayL();
Interprets the data at the current buffer position as an array of leading byte count data and constructs a flat array of 16 bit descriptors.
Each descriptor in the descriptor array corresponds to an element of the resource array.
At the current buffer position, the buffer is expected to contain an array of data elements preceded by a TInt16 value defining the number of elements within that array.
Each element of the array is interpreted as:
a byte value defining the number of 8 bit text characters or the length of binary data (the resource string/binary data length is limited to 255 characters max)
followed by:
the 16 bit text characters.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
Do not use this explicit 16-bit variant when the resource contains binary data; use the explicit 8-bit variant instead. If
the resource contains text, use the build independent variant TResourceReader::ReadDesCArrayL()
.
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IMPORT_C TInt ReadInt8();
Interprets the data at the current buffer position as a TInt8 type and returns the value as a TInt.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
In general, a TInt8 corresponds to a BYTE type in a resource STRUCT declaration.
Note that in Symbian OS, a TInt is at least as big as a TInt8.
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IMPORT_C TUint ReadUint8();
Interprets the data at the current buffer position as a TUint8 type and returns the value as a TUint.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
In general, a TUint8 corresponds to a BYTE type in a resource STRUCT declaration.
Note that in Symbian OS, a TUint is at least as big as a TUint8.
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IMPORT_C TInt ReadInt16();
Interprets the data at the current buffer position as a TInt16 type and returns the value as a TInt.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
In general, a TInt16 corresponds to a WORD type in a resource STRUCT declaration.
Note that in Symbian OS, a TInt is at least as big as a TInt16.
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IMPORT_C TUint ReadUint16();
Interprets the data at the current buffer position as a TUint16 type and returns the value as a TUint.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
In general, a TUint16 corresponds to a WORD type in a resource STRUCT declaration.
Note that in Symbian OS, a TUint is at least as big as a TUint16.
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IMPORT_C TInt ReadInt32();
Interprets the data at the current buffer position as a TInt32 type and returns the value as a TInt.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
In general, a TInt32 corresponds to a LONG type in a resource STRUCT declaration.
Note that in Symbian OS, TInt and TInt32 are the same size.
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IMPORT_C TUint ReadUint32();
Interprets the data at the current buffer position as a TUint32 type and returns the value as a TUint.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
In general, a TUint32 corresponds to a LONG type in a resource STRUCT declaration.
Note that in Symbian OS a TUint is the same size as a TUint32.
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IMPORT_C TReal64 ReadReal64();
Interprets the data at the current buffer position as a TReal64 type and returns the value as a TReal64.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
In general, a TReal64 corresponds to a DOUBLE type in a resource STRUCT declaration.
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IMPORT_C void Read(TAny *aPtr, TInt aLength);
Copies a specified length of data from the resource buffer, starting at the current position within the buffer, into the location pointed to by a specified pointer. No assumption is made about the type of data at being read.
The current position within the resource buffer is updated. If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
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IMPORT_C void Rewind(TInt aLength);
Moves the current buffer position backwards by the specified amount.
If the resulting position lies before the start of the resource buffer, then the function raises a BAFL 5 panic.
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IMPORT_C void Advance(TInt aLength);
Moves the current buffer position forwards by the specified amount.
If the resulting position lies beyond the end of the resource buffer, then the function raises a BAFL 4 panic.
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