// Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // * Neither the name of NVIDIA CORPORATION nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ''AS IS'' AND ANY // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR // PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR // CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, // EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR // PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY // OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Copyright (c) 2008-2023 NVIDIA Corporation. All rights reserved. // Copyright (c) 2004-2008 AGEIA Technologies, Inc. All rights reserved. // Copyright (c) 2001-2004 NovodeX AG. All rights reserved. #ifndef PX_VEHICLE_UTIL_TELEMETRY_H #define PX_VEHICLE_UTIL_TELEMETRY_H #include "vehicle/PxVehicleSDK.h" #include "foundation/PxSimpleTypes.h" #include "foundation/PxVec3.h" #if !PX_DOXYGEN namespace physx { #endif #if PX_DEBUG_VEHICLE_ON class PX_DEPRECATED PxVehicleGraphDesc { friend class PxVehicleGraph; PxVehicleGraphDesc(); /** \brief x-coord of graph centre. Range: (0,1)
*/ PxReal mPosX; /** \brief y-coord of graph centre. Range: (0,1)
*/ PxReal mPosY; /** \brief x-extents of graph (from mPosX-0.5f*mSizeX to mPosX+0.5f*mSizeX). Range: (0,1)
*/ PxReal mSizeX; /** \brief y-extents of graph (from mPosY-0.5f*mSizeY to mPosY+0.5f*mSizeY). Range: (0,1)
*/ PxReal mSizeY; /** \brief Background color of graph. */ PxVec3 mBackgroundColor; /** \brief Alpha value of background color. */ PxReal mAlpha; private: bool isValid() const; }; struct PX_DEPRECATED PxVehicleGraphChannelDesc { public: friend class PxVehicleGraph; PxVehicleGraphChannelDesc(); /** \brief Data values less than mMinY will be clamped at mMinY. */ PxReal mMinY; /** \brief Data values greater than mMaxY will be clamped at mMaxY. */ PxReal mMaxY; /** \brief Data values greater than mMidY will be drawn with color mColorHigh. Data values less than mMidY will be drawn with color mColorLow. */ PxReal mMidY; /** \brief Color used to render data values lower than mMidY. */ PxVec3 mColorLow; /** \brief Color used to render data values greater than mMidY. */ PxVec3 mColorHigh; /** \brief String to describe data channel. */ char* mTitle; private: bool isValid() const; }; struct PX_DEPRECATED PxVehicleWheelGraphChannel { enum Enum { eJOUNCE=0, eSUSPFORCE, eTIRELOAD, eNORMALIZED_TIRELOAD, eWHEEL_OMEGA, eTIRE_FRICTION, eTIRE_LONG_SLIP, eNORM_TIRE_LONG_FORCE, eTIRE_LAT_SLIP, eNORM_TIRE_LAT_FORCE, eNORM_TIRE_ALIGNING_MOMENT, eMAX_NB_WHEEL_CHANNELS }; }; struct PX_DEPRECATED PxVehicleDriveGraphChannel { enum Enum { eENGINE_REVS=0, eENGINE_DRIVE_TORQUE, eCLUTCH_SLIP, eACCEL_CONTROL, //TANK_ACCEL eBRAKE_CONTROL, //TANK_BRAKE_LEFT eHANDBRAKE_CONTROL, //TANK_BRAKE_RIGHT eSTEER_LEFT_CONTROL, //TANK_THRUST_LEFT eSTEER_RIGHT_CONTROL, //TANK_THRUST_RIGHT eGEAR_RATIO, eMAX_NB_DRIVE_CHANNELS }; }; struct PX_DEPRECATED PxVehicleGraphType { enum Enum { eWHEEL=0, eDRIVE }; }; class PX_DEPRECATED PxVehicleGraph { public: friend class PxVehicleTelemetryData; friend class PxVehicleUpdate; enum { eMAX_NB_SAMPLES=256 }; enum { eMAX_NB_TITLE_CHARS=256 }; enum { eMAX_NB_CHANNELS=12 }; /** \brief Setup a graph from a descriptor. */ void setup(const PxVehicleGraphDesc& desc, const PxVehicleGraphType::Enum graphType); /** \brief Clear all data recorded in a graph. */ void clearRecordedChannelData(); /** \brief Get the color of the graph background. Used for rendering a graph. */ const PxVec3& getBackgroundColor() const {return mBackgroundColor;} /** \brief Get the alpha transparency of the color of the graph background. Used for rendering a graph. */ PxReal getBackgroundAlpha() const {return mBackgroundAlpha;} /** \brief Get the coordinates of the graph background. Used for rendering a graph \param[out] xMin is the x-coord of the lower-left corner \param[out] yMin is the y-coord of the lower-left corner \param[out] xMax is the x-coord of the upper-right corner \param[out] yMax is the y-coord of the upper-right corner */ void getBackgroundCoords(PxReal& xMin, PxReal& yMin, PxReal& xMax, PxReal& yMax) const {xMin = mBackgroundMinX;xMax = mBackgroundMaxX;yMin = mBackgroundMinY;yMax = mBackgroundMaxY;} /** \brief Compute the coordinates of the graph data of a specific graph channel. \param[out] xy is an array of graph sample coordinates stored in order x0,y0,x1,y1,x2,y2...xn,yn. \param[out] colors stores the color of each point on the graph. \param[out] title is the title of the graph. */ void computeGraphChannel(const PxU32 channel, PxReal* xy, PxVec3* colors, char* title) const; /** \brief Return the latest value stored in the specified graph channel */ PxF32 getLatestValue(const PxU32 channel) const ; /** \brief Get the raw data of a specific graph channel. \param[in] channel is the ID of the graph channel to get data from. \param[out] values is the buffer to write the data to. Minimum required size is eMAX_NB_SAMPLES. */ void getRawData(const PxU32 channel, PxReal* values) const; private: //Min and max of each sample. PxReal mChannelMinY[eMAX_NB_CHANNELS]; PxReal mChannelMaxY[eMAX_NB_CHANNELS]; //Discriminate between high and low values with different colors. PxReal mChannelMidY[eMAX_NB_CHANNELS]; //Different colors for values than midY and less than midY. PxVec3 mChannelColorLow[eMAX_NB_CHANNELS]; PxVec3 mChannelColorHigh[eMAX_NB_CHANNELS]; //Title of graph char mChannelTitle[eMAX_NB_CHANNELS][eMAX_NB_TITLE_CHARS]; //Graph data. PxReal mChannelSamples[eMAX_NB_CHANNELS][eMAX_NB_SAMPLES]; //Background color,alpha,coords PxVec3 mBackgroundColor; PxReal mBackgroundAlpha; PxReal mBackgroundMinX; PxReal mBackgroundMaxX; PxReal mBackgroundMinY; PxReal mBackgroundMaxY; PxU32 mSampleTide; PxU32 mNbChannels; PxU32 mPad[2]; void setup (const PxF32 graphSizeX, const PxF32 graphSizeY, const PxF32 engineGraphPosX, const PxF32 engineGraphPosY, const PxF32* const wheelGraphPosX, const PxF32* const wheelGraphPosY, const PxVec3& backgroundColor, const PxVec3& lineColorHigh, const PxVec3& lineColorLow); void updateTimeSlice(const PxReal* const samples); void setChannel(PxVehicleGraphChannelDesc& desc, const PxU32 channel); void setupEngineGraph (const PxF32 sizeX, const PxF32 sizeY, const PxF32 posX, const PxF32 posY, const PxVec3& backgoundColor, const PxVec3& lineColorHigh, const PxVec3& lineColorLow); void setupWheelGraph (const PxF32 sizeX, const PxF32 sizeY, const PxF32 posX, const PxF32 posY, const PxVec3& backgoundColor, const PxVec3& lineColorHigh, const PxVec3& lineColorLow); PxVehicleGraph(); ~PxVehicleGraph(); }; PX_COMPILE_TIME_ASSERT(PxU32(PxVehicleGraph::eMAX_NB_CHANNELS) >= PxU32(PxVehicleWheelGraphChannel::eMAX_NB_WHEEL_CHANNELS) && PxU32(PxVehicleGraph::eMAX_NB_CHANNELS) >= PxU32(PxVehicleDriveGraphChannel::eMAX_NB_DRIVE_CHANNELS)); PX_COMPILE_TIME_ASSERT(0==(sizeof(PxVehicleGraph) & 15)); class PX_DEPRECATED PxVehicleTelemetryData { public: friend class PxVehicleUpdate; /** \brief Allocate a PxVehicleNWTelemetryData instance for a vehicle with nbWheels @see PxVehicleNWTelemetryDataFree */ static PxVehicleTelemetryData* allocate(const PxU32 nbWheels); /** \brief Free a PxVehicleNWTelemetryData instance for a vehicle. @see PxVehicleNWTelemetryDataAllocate */ void free(); /** \brief Set up all the graphs so that they are ready to record data. */ void setup (const PxReal graphSizeX, const PxReal graphSizeY, const PxReal engineGraphPosX, const PxReal engineGraphPosY, const PxReal* const wheelGraphPosX, const PxReal* const wheelGraphPosY, const PxVec3& backGroundColor, const PxVec3& lineColorHigh, const PxVec3& lineColorLow); /** \brief Clear the graphs of recorded data. */ void clear(); /** \brief Get the graph data for the engine */ const PxVehicleGraph& getEngineGraph() const {return *mEngineGraph;} /** \brief Get the number of wheel graphs */ PxU32 getNbWheelGraphs() const {return mNbActiveWheels;} /** \brief Get the graph data for the kth wheel */ const PxVehicleGraph& getWheelGraph(const PxU32 k) const {return mWheelGraphs[k];} /** \brief Get the array of tire force application points so they can be rendered */ const PxVec3* getTireforceAppPoints() const {return mTireforceAppPoints;} /** \brief Get the array of susp force application points so they can be rendered */ const PxVec3* getSuspforceAppPoints() const {return mSuspforceAppPoints;} private: /** \brief Graph data for engine. Used for storing single timeslices of debug data for engine graph. @see PxVehicleGraph */ PxVehicleGraph* mEngineGraph; /** \brief Graph data for each wheel. Used for storing single timeslices of debug data for wheel graphs. @see PxVehicleGraph */ PxVehicleGraph* mWheelGraphs; /** \brief Application point of tire forces. */ PxVec3* mTireforceAppPoints; /** \brief Application point of susp forces. */ PxVec3* mSuspforceAppPoints; /** \brief Total number of active wheels */ PxU32 mNbActiveWheels; PxU32 mPad[3]; private: PxVehicleTelemetryData(){} ~PxVehicleTelemetryData(){} }; PX_COMPILE_TIME_ASSERT(0==(sizeof(PxVehicleTelemetryData) & 15)); #endif //PX_DEBUG_VEHICLE_ON //#endif // PX_DEBUG_VEHICLE_ON #if !PX_DOXYGEN } // namespace physx #endif #endif