/**
* Copyright (c) 2008 The Khronos Group Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject
* to the following conditions:
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/**
* @file OMX_Image.h - OpenMax IL version 1.1.2
* The structures needed by Image components to exchange parameters and
* configuration data with the components.
*/
#ifndef OMX_Image_h
#define OMX_Image_h
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/**
* Each OMX header must include all required header files to allow the
* header to compile without errors. The includes below are required
* for this header file to compile successfully
*/
#include <OMX_IVCommon.h>
/** @defgroup imaging OpenMAX IL Imaging Domain
* @ingroup iv
* Structures for OpenMAX IL Imaging domain
* @{
*/
/**
* Enumeration used to define the possible image compression coding.
*/
typedef enum OMX_IMAGE_CODINGTYPE {
OMX_IMAGE_CodingUnused, /**< Value when format is N/A */
OMX_IMAGE_CodingAutoDetect, /**< Auto detection of image format */
OMX_IMAGE_CodingJPEG, /**< JPEG/JFIF image format */
OMX_IMAGE_CodingJPEG2K, /**< JPEG 2000 image format */
OMX_IMAGE_CodingEXIF, /**< EXIF image format */
OMX_IMAGE_CodingTIFF, /**< TIFF image format */
OMX_IMAGE_CodingGIF, /**< Graphics image format */
OMX_IMAGE_CodingPNG, /**< PNG image format */
OMX_IMAGE_CodingLZW, /**< LZW image format */
OMX_IMAGE_CodingBMP, /**< Windows Bitmap format */
OMX_IMAGE_CodingKhronosExtensions = 0x6F000000, /**< Reserved region for introducing Khronos Standard Extensions */
OMX_IMAGE_CodingVendorStartUnused = 0x7F000000, /**< Reserved region for introducing Vendor Extensions */
OMX_IMAGE_CodingMax = 0x7FFFFFFF
} OMX_IMAGE_CODINGTYPE;
/**
* Data structure used to define an image path. The number of image paths
* for input and output will vary by type of the image component.
*
* Input (aka Source) : Zero Inputs, one Output,
* Splitter : One Input, 2 or more Outputs,
* Processing Element : One Input, one output,
* Mixer : 2 or more inputs, one output,
* Output (aka Sink) : One Input, zero outputs.
*
* The PortDefinition structure is used to define all of the parameters
* necessary for the compliant component to setup an input or an output
* image path. If additional vendor specific data is required, it should
* be transmitted to the component using the CustomCommand function.
* Compliant components will prepopulate this structure with optimal
* values during the OMX_GetParameter() command.
*
* STRUCT MEMBERS:
* cMIMEType : MIME type of data for the port
* pNativeRender : Platform specific reference for a display if a
* sync, otherwise this field is 0
* nFrameWidth : Width of frame to be used on port if
* uncompressed format is used. Use 0 for
* unknown, don't care or variable
* nFrameHeight : Height of frame to be used on port if
* uncompressed format is used. Use 0 for
* unknown, don't care or variable
* nStride : Number of bytes per span of an image (i.e.
* indicates the number of bytes to get from
* span N to span N+1, where negative stride
* indicates the image is bottom up
* nSliceHeight : Height used when encoding in slices
* bFlagErrorConcealment : Turns on error concealment if it is supported by
* the OMX component
* eCompressionFormat : Compression format used in this instance of
* the component. When OMX_IMAGE_CodingUnused is
* specified, eColorFormat is valid
* eColorFormat : Decompressed format used by this component
* pNativeWindow : Platform specific reference for a window object if a
* display sink , otherwise this field is 0x0.
*/
typedef struct OMX_IMAGE_PORTDEFINITIONTYPE {
OMX_STRING cMIMEType;
OMX_NATIVE_DEVICETYPE pNativeRender;
OMX_U32 nFrameWidth;
OMX_U32 nFrameHeight;
OMX_S32 nStride;
OMX_U32 nSliceHeight;
OMX_BOOL bFlagErrorConcealment;
OMX_IMAGE_CODINGTYPE eCompressionFormat;
OMX_COLOR_FORMATTYPE eColorFormat;
OMX_NATIVE_WINDOWTYPE pNativeWindow;
} OMX_IMAGE_PORTDEFINITIONTYPE;
/**
* Port format parameter. This structure is used to enumerate the various
* data input/output format supported by the port.
*
* STRUCT MEMBERS:
* nSize : Size of the structure in bytes
* nVersion : OMX specification version information
* nPortIndex : Indicates which port to set
* nIndex : Indicates the enumeration index for the format from
* 0x0 to N-1
* eCompressionFormat : Compression format used in this instance of the
* component. When OMX_IMAGE_CodingUnused is specified,
* eColorFormat is valid
* eColorFormat : Decompressed format used by this component
*/
typedef struct OMX_IMAGE_PARAM_PORTFORMATTYPE {
OMX_U32 nSize;
OMX_VERSIONTYPE nVersion;
OMX_U32 nPortIndex;
OMX_U32 nIndex;
OMX_IMAGE_CODINGTYPE eCompressionFormat;
OMX_COLOR_FORMATTYPE eColorFormat;
} OMX_IMAGE_PARAM_PORTFORMATTYPE;
/**
* Flash control type
*
* ENUMS
* Torch : Flash forced constantly on
*/
typedef enum OMX_IMAGE_FLASHCONTROLTYPE {
OMX_IMAGE_FlashControlOn = 0,
OMX_IMAGE_FlashControlOff,
OMX_IMAGE_FlashControlAuto,
OMX_IMAGE_FlashControlRedEyeReduction,
OMX_IMAGE_FlashControlFillin,
OMX_IMAGE_FlashControlTorch,
OMX_IMAGE_FlashControlKhronosExtensions = 0x6F000000, /**< Reserved region for introducing Khronos Standard Extensions */
OMX_IMAGE_FlashControlVendorStartUnused = 0x7F000000, /**< Reserved region for introducing Vendor Extensions */
OMX_IMAGE_FlashControlMax = 0x7FFFFFFF
} OMX_IMAGE_FLASHCONTROLTYPE;
/**
* Flash control configuration
*
* STRUCT MEMBERS:
* nSize : Size of the structure in bytes
* nVersion : OMX specification version information
* nPortIndex : Port that this structure applies to
* eFlashControl : Flash control type
*/
typedef struct OMX_IMAGE_PARAM_FLASHCONTROLTYPE {
OMX_U32 nSize;
OMX_VERSIONTYPE nVersion;
OMX_U32 nPortIndex;
OMX_IMAGE_FLASHCONTROLTYPE eFlashControl;
} OMX_IMAGE_PARAM_FLASHCONTROLTYPE;
/**
* Focus control type
*/
typedef enum OMX_IMAGE_FOCUSCONTROLTYPE {
OMX_IMAGE_FocusControlOn = 0,
OMX_IMAGE_FocusControlOff,
OMX_IMAGE_FocusControlAuto,
OMX_IMAGE_FocusControlAutoLock,
OMX_IMAGE_FocusControlKhronosExtensions = 0x6F000000, /**< Reserved region for introducing Khronos Standard Extensions */
OMX_IMAGE_FocusControlVendorStartUnused = 0x7F000000, /**< Reserved region for introducing Vendor Extensions */
OMX_IMAGE_FocusControlMax = 0x7FFFFFFF
} OMX_IMAGE_FOCUSCONTROLTYPE;
/**
* Focus control configuration
*
* STRUCT MEMBERS:
* nSize : Size of the structure in bytes
* nVersion : OMX specification version information
* nPortIndex : Port that this structure applies to
* eFocusControl : Focus control
* nFocusSteps : Focus can take on values from 0 mm to infinity.
* Interest is only in number of steps over this range.
* nFocusStepIndex : Current focus step index
*/
typedef struct OMX_IMAGE_CONFIG_FOCUSCONTROLTYPE {
OMX_U32 nSize;
OMX_VERSIONTYPE nVersion;
OMX_U32 nPortIndex;
OMX_IMAGE_FOCUSCONTROLTYPE eFocusControl;
OMX_U32 nFocusSteps;
OMX_U32 nFocusStepIndex;
} OMX_IMAGE_CONFIG_FOCUSCONTROLTYPE;
/**
* Q Factor for JPEG compression, which controls the tradeoff between image
* quality and size. Q Factor provides a more simple means of controlling
* JPEG compression quality, without directly programming Quantization
* tables for chroma and luma
*
* STRUCT MEMBERS:
* nSize : Size of the structure in bytes
* nVersion : OMX specification version information
* nPortIndex : Port that this structure applies to
* nQFactor : JPEG Q factor value in the range of 1-100. A factor of 1
* produces the smallest, worst quality images, and a factor
* of 100 produces the largest, best quality images. A
* typical default is 75 for small good quality images
*/
typedef struct OMX_IMAGE_PARAM_QFACTORTYPE {
OMX_U32 nSize;
OMX_VERSIONTYPE nVersion;
OMX_U32 nPortIndex;
OMX_U32 nQFactor;
} OMX_IMAGE_PARAM_QFACTORTYPE;
/**
* Quantization table type
*/
typedef enum OMX_IMAGE_QUANTIZATIONTABLETYPE {
OMX_IMAGE_QuantizationTableLuma = 0,
OMX_IMAGE_QuantizationTableChroma,
OMX_IMAGE_QuantizationTableChromaCb,
OMX_IMAGE_QuantizationTableChromaCr,
OMX_IMAGE_QuantizationTableKhronosExtensions = 0x6F000000, /**< Reserved region for introducing Khronos Standard Extensions */
OMX_IMAGE_QuantizationTableVendorStartUnused = 0x7F000000, /**< Reserved region for introducing Vendor Extensions */
OMX_IMAGE_QuantizationTableMax = 0x7FFFFFFF
} OMX_IMAGE_QUANTIZATIONTABLETYPE;
/**
* JPEG quantization tables are used to determine DCT compression for
* YUV data, as an alternative to specifying Q factor, providing exact
* control of compression
*
* STRUCT MEMBERS:
* nSize : Size of the structure in bytes
* nVersion : OMX specification version information
* nPortIndex : Port that this structure applies to
* eQuantizationTable : Quantization table type
* nQuantizationMatrix[64] : JPEG quantization table of coefficients stored
* in increasing columns then by rows of data (i.e.
* row 1, ... row 8). Quantization values are in
* the range 0-255 and stored in linear order
* (i.e. the component will zig-zag the
* quantization table data if required internally)
*/
typedef struct OMX_IMAGE_PARAM_QUANTIZATIONTABLETYPE {
OMX_U32 nSize;
OMX_VERSIONTYPE nVersion;
OMX_U32 nPortIndex;
OMX_IMAGE_QUANTIZATIONTABLETYPE eQuantizationTable;
OMX_U8 nQuantizationMatrix[64];
} OMX_IMAGE_PARAM_QUANTIZATIONTABLETYPE;
/**
* Huffman table type, the same Huffman table is applied for chroma and
* luma component
*/
typedef enum OMX_IMAGE_HUFFMANTABLETYPE {
OMX_IMAGE_HuffmanTableAC = 0,
OMX_IMAGE_HuffmanTableDC,
OMX_IMAGE_HuffmanTableACLuma,
OMX_IMAGE_HuffmanTableACChroma,
OMX_IMAGE_HuffmanTableDCLuma,
OMX_IMAGE_HuffmanTableDCChroma,
OMX_IMAGE_HuffmanTableKhronosExtensions = 0x6F000000, /**< Reserved region for introducing Khronos Standard Extensions */
OMX_IMAGE_HuffmanTableVendorStartUnused = 0x7F000000, /**< Reserved region for introducing Vendor Extensions */
OMX_IMAGE_HuffmanTableMax = 0x7FFFFFFF
} OMX_IMAGE_HUFFMANTABLETYPE;
/**
* JPEG Huffman table
*
* STRUCT MEMBERS:
* nSize : Size of the structure in bytes
* nVersion : OMX specification version information
* nPortIndex : Port that this structure applies to
* eHuffmanTable : Huffman table type
* nNumberOfHuffmanCodeOfLength[16] : 0-16, number of Huffman codes of each
* possible length
* nHuffmanTable[256] : 0-255, the size used for AC and DC
* HuffmanTable are 16 and 162
*/
typedef struct OMX_IMAGE_PARAM_HUFFMANTTABLETYPE {
OMX_U32 nSize;
OMX_VERSIONTYPE nVersion;
OMX_U32 nPortIndex;
OMX_IMAGE_HUFFMANTABLETYPE eHuffmanTable;
OMX_U8 nNumberOfHuffmanCodeOfLength[16];
OMX_U8 nHuffmanTable[256];
}OMX_IMAGE_PARAM_HUFFMANTTABLETYPE;
/** @} */
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif
/* File EOF */