FreeRTOS-Plus/Source/FreeRTOS-Plus-Trace/Include/trcUser.h - nest-detect/1.1/freertos - Git at Google

 /*******************************************************************************
  * Tracealyzer v2.6.0 Recorder Library
  * Percepio AB, www.percepio.com
  *
  * trcUser.h
  * The public API of the trace recorder library.
  *
  * Terms of Use
  * This software is copyright Percepio AB. The recorder library is free for
  * use together with Percepio products. You may distribute the recorder library
  * in its original form, including modifications in trcHardwarePort.c/.h
  * given that these modification are clearly marked as your own modifications
  * and documented in the initial comment section of these source files.
  * This software is the intellectual property of Percepio AB and may not be
  * sold or in other ways commercially redistributed without explicit written
  * permission by Percepio AB.
  *
  * Disclaimer
  * The trace tool and recorder library is being delivered to you AS IS and
  * Percepio AB makes no warranty as to its use or performance. Percepio AB does
  * not and cannot warrant the performance or results you may obtain by using the
  * software or documentation. Percepio AB make no warranties, express or
  * implied, as to noninfringement of third party rights, merchantability, or
  * fitness for any particular purpose. In no event will Percepio AB, its
  * technology partners, or distributors be liable to you for any consequential,
  * incidental or special damages, including any lost profits or lost savings,
  * even if a representative of Percepio AB has been advised of the possibility
  * of such damages, or for any claim by any third party. Some jurisdictions do
  * not allow the exclusion or limitation of incidental, consequential or special
  * damages, or the exclusion of implied warranties or limitations on how long an
  * implied warranty may last, so the above limitations may not apply to you.
  *
  * Copyright Percepio AB, 2013.
  * www.percepio.com
  ******************************************************************************/

 #ifndef TRCUSER_H
 #define TRCUSER_H

 #ifdef __cplusplus
 extern "C" {
 #endif

 #include "trcKernelPort.h"

 #if (USE_TRACEALYZER_RECORDER == 1)

 #ifndef USE_SEPARATE_USER_EVENT_BUFFER
 #define USE_SEPARATE_USER_EVENT_BUFFER 0
 #endif

 /*******************************************************************************
  * TRACE_STOP_HOOK - Hook Pointer Data Type
  *
  * Declares a data type for a call back function that will be invoked whenever
  * the recorder is stopped.
  ******************************************************************************/
 typedef void (*TRACE_STOP_HOOK)(void);

 /*******************************************************************************
  * vTraceStopHookPtr
  *
  * Points to a call back function that is called from vTraceStop().
  ******************************************************************************/
 extern TRACE_STOP_HOOK vTraceStopHookPtr;

 /*******************************************************************************
  * vTraceInitTraceData
  *
  * Allocates, if necessary, and initializes the recorder data structure, based
  * on the constants in trcConfig.h.
  ******************************************************************************/
 void vTraceInitTraceData(void);

 /*******************************************************************************
  * vTraceSetRecorderData
  *
  * If custom allocation is used, this function must be called so the recorder
  * library knows where to save the trace data.
  ******************************************************************************/
 #if (TRACE_DATA_ALLOCATION == TRACE_DATA_ALLOCATION_CUSTOM)
 void vTraceSetRecorderData(void* pRecorderData);
 #endif

 /*******************************************************************************
  * uiTraceStart
  *
  * Starts the recorder. The recorder will not be started if an error has been
  * indicated using vTraceError, e.g. if any of the Nx constants in trcConfig.h
  * has a too small value (NTASK, NQUEUE, etc).
  *
  * Returns 1 if the recorder was started successfully.
  * Returns 0 if the recorder start was prevented due to a previous internal
  * error. In that case, check vTraceGetLastError to get the error message.
  * Any error message is also presented when opening a trace file.
  *
  ******************************************************************************/
 uint32_t uiTraceStart(void);

 /*******************************************************************************
  * vTraceStart
  *
  * Starts the recorder. The recorder will not be started if an error has been
  * indicated using vTraceError, e.g. if any of the Nx constants in trcConfig.h
  * has a too small value (NTASK, NQUEUE, etc).
  *
  * This function is obsolete, but has been saved for backwards compatibility.
  * We recommend using uiTraceStart instead.
  ******************************************************************************/
 void vTraceStart(void);

 /*******************************************************************************
  * vTraceStop
  *
  * Stops the recorder. The recording can be resumed by calling vTraceStart.
  * This does not reset the recorder. Use vTraceClear is that is desired.
  ******************************************************************************/
 void vTraceStop(void);

 /*******************************************************************************
  * xTraceGetLastError
  *
  * Gives the last error message, if any. NULL if no error message is stored.
  * Any error message is also presented when opening a trace file.
  ******************************************************************************/
 char* xTraceGetLastError(void);

 /*******************************************************************************
  * vTraceClear
  *
  * Resets the recorder. Only necessary if a restart is desired - this is not
  * needed in the startup initialization.
  ******************************************************************************/
 void vTraceClear(void);

 /*******************************************************************************
 * vTraceClearError
 *
 * Removes any previous error message generated by recorder calling vTraceError.
 * By calling this function, it may be possible to start/restart the trace
 * despite errors in the recorder, but there is no guarantee that the trace
 * recorder will work correctly in that case, depending on the type of error.
 ******************************************************************************/
 void vTraceClearError(int resetErrorMessage);

 #if (INCLUDE_ISR_TRACING == 1)

 /*******************************************************************************
  * vTraceSetISRProperties
  *
  * Registers an Interrupt Service Routine in the recorder library, This must be
  * called before using vTraceStoreISRBegin to store ISR events. This is
  * typically called in the startup of the system, before the scheduler is
  * started.
  *
  * Example:
  *     #define ID_ISR_TIMER1 1       // lowest valid ID is 1
  *     #define PRIO_OF_ISR_TIMER1 3  // the hardware priority of the interrupt
  *     ...
  *     vTraceSetISRProperties(ID_ISR_TIMER1, "ISRTimer1", PRIO_OF_ISR_TIMER1);
  *     ...
  *     void ISR_handler()
  *     {
  *         portENTER_CRITICAL(); // Required if nested ISRs are allowed
  *         vTraceStoreISRBegin(ID_OF_ISR_TIMER1);
  *         portEXIT_CRITICAL();
  *         ...
  *         portENTER_CRITICAL(); // Required if nested ISRs are allowed
  *         vTraceStoreISREnd();
  *         portEXIT_CRITICAL();
  *     }
  ******************************************************************************/
 void vTraceSetISRProperties(objectHandleType handle, const char* name, char priority);

 /*******************************************************************************
  * vTraceStoreISRBegin
  *
  * Registers the beginning of an Interrupt Service Routine.
  * If allowing nested ISRs, this must be called with interrupts disabled.
  *
  * Example:
  *     #define ID_ISR_TIMER1 1       // lowest valid ID is 1
  *     #define PRIO_OF_ISR_TIMER1 3  // the hardware priority of the interrupt
  *     ...
  *     vTraceSetISRProperties(ID_ISR_TIMER1, "ISRTimer1", PRIO_OF_ISR_TIMER1);
  *     ...
  *     void ISR_handler()
  *     {
  *         portENTER_CRITICAL(); // Required if nested ISRs are allowed
  *         vTraceStoreISRBegin(ID_OF_ISR_TIMER1);
  *         portEXIT_CRITICAL();
  *         ...
  *         portENTER_CRITICAL(); // Required if nested ISRs are allowed
  *         vTraceStoreISREnd();
  *         portEXIT_CRITICAL();
  *     }
  *
  ******************************************************************************/
 void vTraceStoreISRBegin(objectHandleType id);

 /*******************************************************************************
  * vTraceStoreISREnd
  *
  * Registers the end of an Interrupt Service Routine.
  *
  * If allowing nested ISRs, this must be called with interrupts disabled.
  *
  * Example:
  *     #define ID_ISR_TIMER1 1       // lowest valid ID is 1
  *     #define PRIO_OF_ISR_TIMER1 3  // the hardware priority of the interrupt
  *     ...
  *     vTraceSetISRProperties(ID_ISR_TIMER1, "ISRTimer1", PRIO_OF_ISR_TIMER1);
  *     ...
  *     void ISR_handler()
  *     {
  *         portENTER_CRITICAL(); // Required if nested ISRs are allowed
  *         vTraceStoreISRBegin(ID_OF_ISR_TIMER1);
  *         portEXIT_CRITICAL();
  *         ...
  *         portENTER_CRITICAL(); // Required if nested ISRs are allowed
  *         vTraceStoreISREnd();
  *         portEXIT_CRITICAL();
  *     }
  *
  ******************************************************************************/
 void vTraceStoreISREnd(void);

 #else
    /* If not including the ISR recording */

 void vTraceIncreaseISRActive(void);

 void vTraceDecreaseISRActive(void);

 #define vTraceSetISRProperties(handle, name, priority)
 #define vTraceStoreISRBegin(id) vTraceIncreaseISRActive()
 #define vTraceStoreISREnd() vTraceDecreaseISRActive()

 #endif

 /*******************************************************************************
  * vvTraceTaskSkipDefaultInstanceFinishedEvents
  *
  * This is useful if there are implicit Instance Finish Events, such as
  * vTaskDelayUntil or xQueueReceive, in a task where an explicit Instance Finish
  * Event has been defined. This function tells the recorder that only the
  * explicitly defined functions (using vTraceTaskInstanceIsFinished) should be
  * treated as Instance Finish Events for this task. The implicit Instance Finish
  * Events are thus disregarded for this task.
  ******************************************************************************/
 void vTraceTaskSkipDefaultInstanceFinishedEvents(void);

 /*******************************************************************************
  * vTraceTaskInstanceIsFinished
  *
  * This defines an explicit Instance Finish Event for the current task. It tells
  * the recorder that the current instance of this task is finished at the next
  * kernel call of the task, e.g., a taskDelay or a queue receive. This function
  * should be called right before the api function call considered to be the end
  * of the task instamce, i.e., the Instance Finish Event.
  ******************************************************************************/
 void vTraceTaskInstanceIsFinished(void);

 /*******************************************************************************
  * vTraceGetTraceBuffer
  *
  * Returns a pointer to the recorder data structure. Use this together with
  * uiTraceGetTraceBufferSize if you wish to implement an own store/upload
  * solution, e.g., in case a debugger connection is not available for uploading
  * the data.
  ******************************************************************************/
 void* vTraceGetTraceBuffer(void);

 /*******************************************************************************
  * uiTraceGetTraceBufferSize
  *
  * Gets the size of the recorder data structure. For use together with
  * vTraceGetTraceBuffer if you wish to implement an own store/upload solution,
  * e.g., in case a debugger connection is not available for uploading the data.
  ******************************************************************************/
 uint32_t uiTraceGetTraceBufferSize(void);

 #if (INCLUDE_USER_EVENTS == 1)

 /*******************************************************************************
  * xTraceOpenLabel
  *
  * Creates user event labels for user event channels or for individual events.
  * User events can be used to log application events and data for display in
  * the visualization tool. A user event is identified by a label, i.e., a string,
  * which is stored in the recorder's symbol table.
  * When logging a user event, a numeric handle (reference) to this string is
  * used to identify the event. This is obtained by calling
  *
  *     xTraceOpenLabel()
  *
  * whihc adds the string to the symbol table (if not already present)
  * and returns the corresponding handle.
  *
  * This can be used in two ways:
  *
  * 1. The handle is looked up every time, when storing the user event.
  *
  * Example:
  *     vTraceUserEvent(xTraceOpenLabel("MyUserEvent"));
  *
  * 2. The label is registered just once, with the handle stored in an
  *  application variable - much like using a file handle.
  *
  * Example:
  *     myEventHandle = xTraceOpenLabel("MyUserEvent");
  *     ...
  *     vTraceUserEvent(myEventHandle);
  *
  * The second option is faster since no lookup is required on each event, and
  * therefore recommended for user events that are frequently
  * executed and/or located in time-critical code. The lookup operation is
  * however fairly fast due to the design of the symbol table.
  ******************************************************************************/
 traceLabel xTraceOpenLabel(const char* label);

  /******************************************************************************
  * vTraceUserEvent
  *
  * Basic user event (Standard and Professional Edition only)
  *
  * Generates a User Event with a text label. The label is created/looked up
  * in the symbol table using xTraceOpenLabel.
  ******************************************************************************/
 void vTraceUserEvent(traceLabel eventLabel);

  /******************************************************************************
  * vTracePrintF
  *
  * Advanced user events (Professional Edition only)
  *
  * Generates User Event with formatted text and data, similar to a "printf".
  * It is very fast compared to a normal "printf" since this function only
  * stores the arguments. The actual formatting is done
  * on the host PC when the trace is displayed in the viewer tool.
  *
  * User Event labels are created using xTraceOpenLabel.
  * Example:
  *
  *     traceLabel adc_uechannel = xTraceOpenLabel("ADC User Events");
  *     ...
  *     vTracePrint(adc_uechannel,
  *                 "ADC channel %d: %lf volts",
  *                 ch, (double)adc_reading/(double)scale);
  *
  * This can be combined into one line, if desired, but this is slower:
  *
  *     vTracePrint(xTraceOpenLabel("ADC User Events"),
  *                 "ADC channel %d: %lf volts",
  *                 ch, (double)adc_reading/(double)scale);
  *
  * Calling xTraceOpenLabel multiple times will not create duplicate entries, but
  * it is of course faster to just do it once, and then keep the handle for later
  * use. If you don´t have any data arguments, only a text label/string, it is
  * better to use vTraceUserEvent - it is faster.
  *
  * Format specifiers supported:
  *  %d - 32 bit signed integer
  *  %u - 32 bit unsigned integer
  *  %f - 32 bit float
  *  %s - string (is copied to the recorder symbol table)
  *  %hd - 16 bit signed integer
  *  %hu - 16 bit unsigned integer
  *  %bd - 8 bit signed integer
  *  %bu - 8 bit unsigned integer
  *  %lf - double-precision float (Note! See below...)
  *
  * Up to 15 data arguments are allowed, with a total size of maximum 32 byte.
  * In case this is exceeded, the user event is changed into an error message.
  *
  * The data is stored in trace buffer, and is packed to allow storing multiple
  * smaller data entries in the same 4-byte record, e.g., four 8-bit values.
  * A string requires two bytes, as the symbol table is limited to 64K. Storing
  * a double (%lf) uses two records, so this is quite costly. Use float (%f)
  * unless the higher precision is really necessary.
  *
  * Note that the double-precision float (%lf) assumes a 64 bit double
  * representation. This does not seem to be the case on e.g. PIC24F.
  * Before using a %lf argument on a 16-bit MCU, please verify that
  * "sizeof(double)" actually gives 8 as expected. If not, use %f instead.
  ******************************************************************************/
 void vTracePrintF(traceLabel eventLabel, const char* formatStr, ...);

 #if (USE_SEPARATE_USER_EVENT_BUFFER == 1)
 UserEventChannel xTraceRegisterChannelFormat(traceLabel channel, traceLabel formatStr);
 void vTraceChannelPrintF(UserEventChannel channel, ...);
 void vTraceChannelUserEvent(UserEventChannel channel);
 #endif

 #else

 #define vTracePrintF(eventLabel, formatStr, ...);
 #define xTraceOpenLabel(label) 0
 #define vTraceUserEvent(eventLabel)

 #endif

 #else

 /* Empty defines for user functions to avoid compiler errors if trace is not to be used */

 #define vTraceInitTraceData()
 #define uiTraceStart() (1) // Fake "success", if used when recorder is excluded from build
 #define vTraceStart()
 #define vTraceStop()
 #define vTraceClear()
 #define vTraceStartStatusMonitor()
 #define vTraceGetTraceBuffer() ((void*)0)
 #define uiTraceGetTraceBufferSize() 0
 #define xTraceOpenLabel(label) 0
 #define vTraceUserEvent(eventLabel)
 #define vTracePrintF(eventLabel,formatStr,...)
 #define vTraceExcludeTaskFromSchedulingTrace(name)

 #define vTraceTaskSkipDefaultInstanceFinishedEvents()
 #define vTraceSetISRProperties(handle, name, priority)
 #define vTraceStoreISRBegin(id)
 #define vTraceStoreISREnd()
 #define vTraceExcludeTaskFromTrace(handle)
 #define vTraceSetQueueName(a, b)
 #define vTraceSetMutexName(a, b)
 #define vTraceSetSemaphoreName(a, b)
 #define vTraceSetEventGroupName(a, b)

 #endif

 #ifdef __cplusplus
 }
 #endif

 #endif
	/*******************************************************************************
	* Tracealyzer v2.6.0 Recorder Library
	* Percepio AB, www.percepio.com
	*
	* trcUser.h
	* The public API of the trace recorder library.
	*
	* Terms of Use
	* This software is copyright Percepio AB. The recorder library is free for
	* use together with Percepio products. You may distribute the recorder library
	* in its original form, including modifications in trcHardwarePort.c/.h
	* given that these modification are clearly marked as your own modifications
	* and documented in the initial comment section of these source files.
	* This software is the intellectual property of Percepio AB and may not be
	* sold or in other ways commercially redistributed without explicit written
	* permission by Percepio AB.
	*
	* Disclaimer
	* The trace tool and recorder library is being delivered to you AS IS and
	* Percepio AB makes no warranty as to its use or performance. Percepio AB does
	* not and cannot warrant the performance or results you may obtain by using the
	* software or documentation. Percepio AB make no warranties, express or
	* implied, as to noninfringement of third party rights, merchantability, or
	* fitness for any particular purpose. In no event will Percepio AB, its
	* technology partners, or distributors be liable to you for any consequential,
	* incidental or special damages, including any lost profits or lost savings,
	* even if a representative of Percepio AB has been advised of the possibility
	* of such damages, or for any claim by any third party. Some jurisdictions do
	* not allow the exclusion or limitation of incidental, consequential or special
	* damages, or the exclusion of implied warranties or limitations on how long an
	* implied warranty may last, so the above limitations may not apply to you.
	*
	* Copyright Percepio AB, 2013.
	* www.percepio.com
	******************************************************************************/

	#ifndef TRCUSER_H
	#define TRCUSER_H

	#ifdef __cplusplus
	extern "C" {
	#endif

	#include "trcKernelPort.h"

	#if (USE_TRACEALYZER_RECORDER == 1)

	#ifndef USE_SEPARATE_USER_EVENT_BUFFER
	#define USE_SEPARATE_USER_EVENT_BUFFER 0
	#endif

	/*******************************************************************************
	* TRACE_STOP_HOOK - Hook Pointer Data Type
	*
	* Declares a data type for a call back function that will be invoked whenever
	* the recorder is stopped.
	******************************************************************************/
	typedef void (*TRACE_STOP_HOOK)(void);

	/*******************************************************************************
	* vTraceStopHookPtr
	*
	* Points to a call back function that is called from vTraceStop().
	******************************************************************************/
	extern TRACE_STOP_HOOK vTraceStopHookPtr;

	/*******************************************************************************
	* vTraceInitTraceData
	*
	* Allocates, if necessary, and initializes the recorder data structure, based
	* on the constants in trcConfig.h.
	******************************************************************************/
	void vTraceInitTraceData(void);

	/*******************************************************************************
	* vTraceSetRecorderData
	*
	* If custom allocation is used, this function must be called so the recorder
	* library knows where to save the trace data.
	******************************************************************************/
	#if (TRACE_DATA_ALLOCATION == TRACE_DATA_ALLOCATION_CUSTOM)
	void vTraceSetRecorderData(void* pRecorderData);
	#endif

	/*******************************************************************************
	* uiTraceStart
	*
	* Starts the recorder. The recorder will not be started if an error has been
	* indicated using vTraceError, e.g. if any of the Nx constants in trcConfig.h
	* has a too small value (NTASK, NQUEUE, etc).
	*
	* Returns 1 if the recorder was started successfully.
	* Returns 0 if the recorder start was prevented due to a previous internal
	* error. In that case, check vTraceGetLastError to get the error message.
	* Any error message is also presented when opening a trace file.
	*
	******************************************************************************/
	uint32_t uiTraceStart(void);

	/*******************************************************************************
	* vTraceStart
	*
	* Starts the recorder. The recorder will not be started if an error has been
	* indicated using vTraceError, e.g. if any of the Nx constants in trcConfig.h
	* has a too small value (NTASK, NQUEUE, etc).
	*
	* This function is obsolete, but has been saved for backwards compatibility.
	* We recommend using uiTraceStart instead.
	******************************************************************************/
	void vTraceStart(void);

	/*******************************************************************************
	* vTraceStop
	*
	* Stops the recorder. The recording can be resumed by calling vTraceStart.
	* This does not reset the recorder. Use vTraceClear is that is desired.
	******************************************************************************/
	void vTraceStop(void);

	/*******************************************************************************
	* xTraceGetLastError
	*
	* Gives the last error message, if any. NULL if no error message is stored.
	* Any error message is also presented when opening a trace file.
	******************************************************************************/
	char* xTraceGetLastError(void);

	/*******************************************************************************
	* vTraceClear
	*
	* Resets the recorder. Only necessary if a restart is desired - this is not
	* needed in the startup initialization.
	******************************************************************************/
	void vTraceClear(void);

	/*******************************************************************************
	* vTraceClearError
	*
	* Removes any previous error message generated by recorder calling vTraceError.
	* By calling this function, it may be possible to start/restart the trace
	* despite errors in the recorder, but there is no guarantee that the trace
	* recorder will work correctly in that case, depending on the type of error.
	******************************************************************************/
	void vTraceClearError(int resetErrorMessage);

	#if (INCLUDE_ISR_TRACING == 1)

	/*******************************************************************************
	* vTraceSetISRProperties
	*
	* Registers an Interrupt Service Routine in the recorder library, This must be
	* called before using vTraceStoreISRBegin to store ISR events. This is
	* typically called in the startup of the system, before the scheduler is
	* started.
	*
	* Example:
	* #define ID_ISR_TIMER1 1 // lowest valid ID is 1
	* #define PRIO_OF_ISR_TIMER1 3 // the hardware priority of the interrupt
	* ...
	* vTraceSetISRProperties(ID_ISR_TIMER1, "ISRTimer1", PRIO_OF_ISR_TIMER1);
	* ...
	* void ISR_handler()
	* {
	* portENTER_CRITICAL(); // Required if nested ISRs are allowed
	* vTraceStoreISRBegin(ID_OF_ISR_TIMER1);
	* portEXIT_CRITICAL();
	* ...
	* portENTER_CRITICAL(); // Required if nested ISRs are allowed
	* vTraceStoreISREnd();
	* portEXIT_CRITICAL();
	* }
	******************************************************************************/
	void vTraceSetISRProperties(objectHandleType handle, const char* name, char priority);

	/*******************************************************************************
	* vTraceStoreISRBegin
	*
	* Registers the beginning of an Interrupt Service Routine.
	* If allowing nested ISRs, this must be called with interrupts disabled.
	*
	* Example:
	* #define ID_ISR_TIMER1 1 // lowest valid ID is 1
	* #define PRIO_OF_ISR_TIMER1 3 // the hardware priority of the interrupt
	* ...
	* vTraceSetISRProperties(ID_ISR_TIMER1, "ISRTimer1", PRIO_OF_ISR_TIMER1);
	* ...
	* void ISR_handler()
	* {
	* portENTER_CRITICAL(); // Required if nested ISRs are allowed
	* vTraceStoreISRBegin(ID_OF_ISR_TIMER1);
	* portEXIT_CRITICAL();
	* ...
	* portENTER_CRITICAL(); // Required if nested ISRs are allowed
	* vTraceStoreISREnd();
	* portEXIT_CRITICAL();
	* }
	*
	******************************************************************************/
	void vTraceStoreISRBegin(objectHandleType id);

	/*******************************************************************************
	* vTraceStoreISREnd
	*
	* Registers the end of an Interrupt Service Routine.
	*
	* If allowing nested ISRs, this must be called with interrupts disabled.
	*
	* Example:
	* #define ID_ISR_TIMER1 1 // lowest valid ID is 1
	* #define PRIO_OF_ISR_TIMER1 3 // the hardware priority of the interrupt
	* ...
	* vTraceSetISRProperties(ID_ISR_TIMER1, "ISRTimer1", PRIO_OF_ISR_TIMER1);
	* ...
	* void ISR_handler()
	* {
	* portENTER_CRITICAL(); // Required if nested ISRs are allowed
	* vTraceStoreISRBegin(ID_OF_ISR_TIMER1);
	* portEXIT_CRITICAL();
	* ...
	* portENTER_CRITICAL(); // Required if nested ISRs are allowed
	* vTraceStoreISREnd();
	* portEXIT_CRITICAL();
	* }
	*
	******************************************************************************/
	void vTraceStoreISREnd(void);

	#else
	/* If not including the ISR recording */

	void vTraceIncreaseISRActive(void);

	void vTraceDecreaseISRActive(void);

	#define vTraceSetISRProperties(handle, name, priority)
	#define vTraceStoreISRBegin(id) vTraceIncreaseISRActive()
	#define vTraceStoreISREnd() vTraceDecreaseISRActive()

	#endif

	/*******************************************************************************
	* vvTraceTaskSkipDefaultInstanceFinishedEvents
	*
	* This is useful if there are implicit Instance Finish Events, such as
	* vTaskDelayUntil or xQueueReceive, in a task where an explicit Instance Finish
	* Event has been defined. This function tells the recorder that only the
	* explicitly defined functions (using vTraceTaskInstanceIsFinished) should be
	* treated as Instance Finish Events for this task. The implicit Instance Finish
	* Events are thus disregarded for this task.
	******************************************************************************/
	void vTraceTaskSkipDefaultInstanceFinishedEvents(void);

	/*******************************************************************************
	* vTraceTaskInstanceIsFinished
	*
	* This defines an explicit Instance Finish Event for the current task. It tells
	* the recorder that the current instance of this task is finished at the next
	* kernel call of the task, e.g., a taskDelay or a queue receive. This function
	* should be called right before the api function call considered to be the end
	* of the task instamce, i.e., the Instance Finish Event.
	******************************************************************************/
	void vTraceTaskInstanceIsFinished(void);

	/*******************************************************************************
	* vTraceGetTraceBuffer
	*
	* Returns a pointer to the recorder data structure. Use this together with
	* uiTraceGetTraceBufferSize if you wish to implement an own store/upload
	* solution, e.g., in case a debugger connection is not available for uploading
	* the data.
	******************************************************************************/
	void* vTraceGetTraceBuffer(void);

	/*******************************************************************************
	* uiTraceGetTraceBufferSize
	*
	* Gets the size of the recorder data structure. For use together with
	* vTraceGetTraceBuffer if you wish to implement an own store/upload solution,
	* e.g., in case a debugger connection is not available for uploading the data.
	******************************************************************************/
	uint32_t uiTraceGetTraceBufferSize(void);

	#if (INCLUDE_USER_EVENTS == 1)

	/*******************************************************************************
	* xTraceOpenLabel
	*
	* Creates user event labels for user event channels or for individual events.
	* User events can be used to log application events and data for display in
	* the visualization tool. A user event is identified by a label, i.e., a string,
	* which is stored in the recorder's symbol table.
	* When logging a user event, a numeric handle (reference) to this string is
	* used to identify the event. This is obtained by calling
	*
	* xTraceOpenLabel()
	*
	* whihc adds the string to the symbol table (if not already present)
	* and returns the corresponding handle.
	*
	* This can be used in two ways:
	*
	* 1. The handle is looked up every time, when storing the user event.
	*
	* Example:
	* vTraceUserEvent(xTraceOpenLabel("MyUserEvent"));
	*
	* 2. The label is registered just once, with the handle stored in an
	* application variable - much like using a file handle.
	*
	* Example:
	* myEventHandle = xTraceOpenLabel("MyUserEvent");
	* ...
	* vTraceUserEvent(myEventHandle);
	*
	* The second option is faster since no lookup is required on each event, and
	* therefore recommended for user events that are frequently
	* executed and/or located in time-critical code. The lookup operation is
	* however fairly fast due to the design of the symbol table.
	******************************************************************************/
	traceLabel xTraceOpenLabel(const char* label);

	/******************************************************************************
	* vTraceUserEvent
	*
	* Basic user event (Standard and Professional Edition only)
	*
	* Generates a User Event with a text label. The label is created/looked up
	* in the symbol table using xTraceOpenLabel.
	******************************************************************************/
	void vTraceUserEvent(traceLabel eventLabel);

	/******************************************************************************
	* vTracePrintF
	*
	* Advanced user events (Professional Edition only)
	*
	* Generates User Event with formatted text and data, similar to a "printf".
	* It is very fast compared to a normal "printf" since this function only
	* stores the arguments. The actual formatting is done
	* on the host PC when the trace is displayed in the viewer tool.
	*
	* User Event labels are created using xTraceOpenLabel.
	* Example:
	*
	* traceLabel adc_uechannel = xTraceOpenLabel("ADC User Events");
	* ...
	* vTracePrint(adc_uechannel,
	* "ADC channel %d: %lf volts",
	* ch, (double)adc_reading/(double)scale);
	*
	* This can be combined into one line, if desired, but this is slower:
	*
	* vTracePrint(xTraceOpenLabel("ADC User Events"),
	* "ADC channel %d: %lf volts",
	* ch, (double)adc_reading/(double)scale);
	*
	* Calling xTraceOpenLabel multiple times will not create duplicate entries, but
	* it is of course faster to just do it once, and then keep the handle for later
	* use. If you don´t have any data arguments, only a text label/string, it is
	* better to use vTraceUserEvent - it is faster.
	*
	* Format specifiers supported:
	* %d - 32 bit signed integer
	* %u - 32 bit unsigned integer
	* %f - 32 bit float
	* %s - string (is copied to the recorder symbol table)
	* %hd - 16 bit signed integer
	* %hu - 16 bit unsigned integer
	* %bd - 8 bit signed integer
	* %bu - 8 bit unsigned integer
	* %lf - double-precision float (Note! See below...)
	*
	* Up to 15 data arguments are allowed, with a total size of maximum 32 byte.
	* In case this is exceeded, the user event is changed into an error message.
	*
	* The data is stored in trace buffer, and is packed to allow storing multiple
	* smaller data entries in the same 4-byte record, e.g., four 8-bit values.
	* A string requires two bytes, as the symbol table is limited to 64K. Storing
	* a double (%lf) uses two records, so this is quite costly. Use float (%f)
	* unless the higher precision is really necessary.
	*
	* Note that the double-precision float (%lf) assumes a 64 bit double
	* representation. This does not seem to be the case on e.g. PIC24F.
	* Before using a %lf argument on a 16-bit MCU, please verify that
	* "sizeof(double)" actually gives 8 as expected. If not, use %f instead.
	******************************************************************************/
	void vTracePrintF(traceLabel eventLabel, const char* formatStr, ...);

	#if (USE_SEPARATE_USER_EVENT_BUFFER == 1)
	UserEventChannel xTraceRegisterChannelFormat(traceLabel channel, traceLabel formatStr);
	void vTraceChannelPrintF(UserEventChannel channel, ...);
	void vTraceChannelUserEvent(UserEventChannel channel);
	#endif

	#else

	#define vTracePrintF(eventLabel, formatStr, ...);
	#define xTraceOpenLabel(label) 0
	#define vTraceUserEvent(eventLabel)

	#endif

	#else

	/* Empty defines for user functions to avoid compiler errors if trace is not to be used */

	#define vTraceInitTraceData()
	#define uiTraceStart() (1) // Fake "success", if used when recorder is excluded from build
	#define vTraceStart()
	#define vTraceStop()
	#define vTraceClear()
	#define vTraceStartStatusMonitor()
	#define vTraceGetTraceBuffer() ((void*)0)
	#define uiTraceGetTraceBufferSize() 0
	#define xTraceOpenLabel(label) 0
	#define vTraceUserEvent(eventLabel)
	#define vTracePrintF(eventLabel,formatStr,...)
	#define vTraceExcludeTaskFromSchedulingTrace(name)

	#define vTraceTaskSkipDefaultInstanceFinishedEvents()
	#define vTraceSetISRProperties(handle, name, priority)
	#define vTraceStoreISRBegin(id)
	#define vTraceStoreISREnd()
	#define vTraceExcludeTaskFromTrace(handle)
	#define vTraceSetQueueName(a, b)
	#define vTraceSetMutexName(a, b)
	#define vTraceSetSemaphoreName(a, b)
	#define vTraceSetEventGroupName(a, b)

	#endif

	#ifdef __cplusplus
	}
	#endif

	#endif