//------------------------------------------------------------------------------ // File: MedParam.idl // // Desc: Definition of the IMediaParams and associated interfaces. These // interfaces are designed to allow communication of curve-following // behaviors for parameters of objects which require dynamic changes // to their parameters at run time. All changes are specified by // timestamp and curve type to ensure the parameters can be set // at sufficient accuracy with predictable behavior on subsequent // playback of the same curves. // // Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved. //------------------------------------------------------------------------------ import "oaidl.idl"; import "ocidl.idl"; import "strmif.idl"; //------------------------------------------------------------------------------ // Define the semantic type to be used for each parameter. All values passed // into this interface are 32-bit floats, but the interface can specify that // the values must be integer, booleans, or enumerated types //------------------------------------------------------------------------------ typedef float MP_DATA; // All data is 32-bit floats typedef enum _MP_Type { MPT_INT, // data is signed 23 bit integer (mantissa) MPT_FLOAT, // data is 32bit IEEE float MPT_BOOL, // data is true or false (using ANSI C++ definition) MPT_ENUM, // data is a set (represented by consecutive integers) MPT_MAX, } MP_TYPE; const MP_DATA MPBOOL_TRUE = 1.0; // Value of true const MP_DATA MPBOOL_FALSE = 0.0; // Value of false //------------------------------------------------------------------------------ // Define the types of curves which are supported //------------------------------------------------------------------------------ typedef enum _MP_CURVE_TYPE { MP_CURVE_JUMP = 0x0001, // No interpolation, just jump to next point MP_CURVE_LINEAR = 0x0002, // Linear interpolation (y follows x from 0.0 to 1.0) MP_CURVE_SQUARE = 0x0004, // y follow x^2 from 0.0 to 1.0 MP_CURVE_INVSQUARE = 0x0008, // y follows 1-(x^2) from 0.0 to 1.0 MP_CURVE_SINE = 0x0010, // y follows sin(x) from -pi/2 to pi/2 } MP_CURVE_TYPE; //------------------------------------------------------------------------------ // Capability bits. Used by the object to specify what capabilities it has. //------------------------------------------------------------------------------ typedef DWORD MP_CAPS; // Curve capabilities - If the cap bit is set, that type of curve is supported const MP_CAPS MP_CAPS_CURVE_JUMP = MP_CURVE_JUMP; const MP_CAPS MP_CAPS_CURVE_LINEAR = MP_CURVE_LINEAR; const MP_CAPS MP_CAPS_CURVE_SQUARE = MP_CURVE_SQUARE; const MP_CAPS MP_CAPS_CURVE_INVSQUARE = MP_CURVE_INVSQUARE; const MP_CAPS MP_CAPS_CURVE_SINE = MP_CURVE_SINE; //------------------------------------------------------------------------------ // Structure used to return information about the type and limits of a parameter //------------------------------------------------------------------------------ typedef struct _MP_PARAMINFO { MP_TYPE mpType; // One of MP_TYPE_xxx codes MP_CAPS mopCaps; // A collection of MP_CAPS flags // Minimum and maximum values MP_DATA mpdMinValue; // minimum legal value MP_DATA mpdMaxValue; // maximum legal value MP_DATA mpdNeutralValue; // default or 'center' value // Defualt Unit and Label text. These strings will ALWAYS be English // strings in the UNICODE character set. For international text // use the GetParamText member function WCHAR szUnitText[32]; // units of the parameter WCHAR szLabel[32]; // name of the parameter } MP_PARAMINFO; //------------------------------------------------------------------------------ // Parameter Index types //------------------------------------------------------------------------------ typedef DWORD DWORD; const DWORD DWORD_ALLPARAMS = -1; // Apply this operation to all params //------------------------------------------------------------------------------ // Defined list of timestamp types //------------------------------------------------------------------------------ typedef DWORD MP_TIMEDATA; // Extra data to further define type // REFERENCE_TIME (1 tick = 100 nanoseconds, MP_TIMEDATA ignored) cpp_quote("DEFINE_GUID(GUID_TIME_REFERENCE,") cpp_quote("0x93ad712b, 0xdaa0, 0x4ffe, 0xbc, 0x81, 0xb0, 0xce, 0x50, 0xf, 0xcd, 0xd9);") // Music Time (MP_TIMEDATA = parts/quarter note) cpp_quote("DEFINE_GUID(GUID_TIME_MUSIC,") cpp_quote("0x574c49d, 0x5b04, 0x4b15, 0xa5, 0x42, 0xae, 0x28, 0x20, 0x30, 0x11, 0x7b);") // Time is measures in samples. MP_TIMEDATA = Samples/sec) cpp_quote("DEFINE_GUID(GUID_TIME_SAMPLES,") cpp_quote("0xa8593d05, 0xc43, 0x4984, 0x9a, 0x63, 0x97, 0xaf, 0x9e, 0x2, 0xc4, 0xc0);") //------------------------------------------------------------------------------ // The value of a given parameter at a specific point in time //------------------------------------------------------------------------------ typedef DWORD MP_FLAGS; const MP_FLAGS MPF_ENVLP_STANDARD = 0x0000; // Use all data provided const MP_FLAGS MPF_ENVLP_BEGIN_CURRENTVAL = 0x0001; // Ignore valStart value, use current value as the staring point const MP_FLAGS MPF_ENVLP_BEGIN_NEUTRALVAL = 0x0002; // Ignore valStart value, use neutral value as the staring point typedef struct _MP_ENVELOPE_SEGMENT { REFERENCE_TIME rtStart; // Start time in current time format REFERENCE_TIME rtEnd; // End time in current time format MP_DATA valStart; // Initial Value MP_DATA valEnd; // Final Value MP_CURVE_TYPE iCurve; // One of MP_CURVE_TYPE codes MP_FLAGS flags; // Special cases } MP_ENVELOPE_SEGMENT; //------------------------------------------------------------------------------ // Define flags for Punch-in timing //------------------------------------------------------------------------------ const MP_FLAGS MPF_PUNCHIN_REFTIME = 0; // Use the reference time as the PI time const MP_FLAGS MPF_PUNCHIN_NOW = 0x0001; // Punch in at the current clock time const MP_FLAGS MPF_PUNCHIN_STOPPED = 0x0002; // Return change notifications during // author time //------------------------------------------------------------------------------ // IMediaParamInfo - Interface used to determine the names, data types and // units of the parameters which are exposed by the object. This interface // is used at discovery time, and is not required during run-time since the // objects parameters are a fixed set and this data can be cached by the // calling applicaiton. //------------------------------------------------------------------------------ [ object, uuid(6d6cbb60-a223-44aa-842f-a2f06750be6d), version(1.0) ] interface IMediaParamInfo : IUnknown { HRESULT GetParamCount ( [out] DWORD * pdwParams ); HRESULT GetParamInfo ( [in] DWORD dwParamIndex, [out] MP_PARAMINFO * pInfo ); // returns a series of null terminated strings. strings are in the // following order: // Param Label, Units Text, 1st Enum Text, 2nd Enum Text, etc... HRESULT GetParamText ( [in] DWORD dwParamIndex, // which param to get text for [out] WCHAR **ppwchText // returns ptr to CoTaskMemAlloc'd string ); // Returns the number of diffrent time formats this object understands HRESULT GetNumTimeFormats ( [out] DWORD * pdwNumTimeFormats ); // Returns the GUID for the ith supported time format HRESULT GetSupportedTimeFormat( [in] DWORD dwFormatIndex, [out] GUID *pguidTimeFormat ); // Returns the current time format HRESULT GetCurrentTimeFormat ( [out] GUID *pguidTimeFormat, [out] MP_TIMEDATA *pTimeData ); } //------------------------------------------------------------------------------ // IMediaParams - Interfaes used to actually set the media params and the // envelopes to follow //------------------------------------------------------------------------------ [ object, uuid(6d6cbb61-a223-44aa-842f-a2f06750be6e), version(1.0) ] interface IMediaParams : IUnknown { // Single param Get/Set methods HRESULT GetParam ( [in] DWORD dwParamIndex, [out] MP_DATA *pValue ); HRESULT SetParam ( [in] DWORD dwParamIndex, [in] MP_DATA value ); // Envelope methods (param change over time) HRESULT AddEnvelope ( [in] DWORD dwParamIndex, [in] DWORD cSegments, [in] MP_ENVELOPE_SEGMENT * pEnvelopeSegments ); // Flush all of the envelope information for the given paramter between // the timestamps specified HRESULT FlushEnvelope ( [in] DWORD dwParamIndex, [in] REFERENCE_TIME refTimeStart, [in] REFERENCE_TIME refTimeEnd ); // Change the time format being used by the object HRESULT SetTimeFormat ( [in] GUID guidTimeFormat, [in] MP_TIMEDATA mpTimeData ); }