FreeRTOS-Plus/Demo/FreeRTOS_Plus_UDP_and_CLI_LPC1830_GCC/trcConfig.h - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 /*******************************************************************************
  * FreeRTOS+Trace v2.3.0 Recorder Library
  * Percepio AB, www.percepio.com
  *
  * trcConfig.h
  *
  * Configuration parameters for the trace recorder library. Before using the
  * trace recorder library, please check that the default settings are
  * appropriate for your system, and if necessary adjust these. Most likely, you
  * will need to adjust the NTask, NISR, NQueue, NMutex and NSemaphore values to
  * reflect the number of such objects in your system. These may be
  * overapproximated, although larger values values implies more RAM usage.
  *
  * 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 trcPort.c and trcPort.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.
  *
  * FreeRTOS+Trace is available as Free Edition and in two premium editions.
  * You may use the premium features during 30 days for evaluation.
  * Download FreeRTOS+Trace at http://www.percepio.com/products/downloads/
  *
  * Copyright Percepio AB, 2012.
  * www.percepio.com
  ******************************************************************************/

 #ifndef TRCCONFIG_H
 #define TRCCONFIG_H

 /*******************************************************************************
  * CONFIGURATION RELATED TO CAPACITY AND ALLOCATION
  ******************************************************************************/

 /*******************************************************************************
  * EVENT_BUFFER_SIZE
  *
  * Macro which should be defined as an integer value.
  *
  * This defines the capacity of the event buffer, i.e., the number of records
  * it may store. Each registered event typically use one record (4 byte), but
  * vTracePrintF may use multiple records depending on the number of data args.
  ******************************************************************************/

     #define EVENT_BUFFER_SIZE 10000 /* Adjust wrt. to available RAM */

 /*******************************************************************************
  * SYMBOL_TABLE_SIZE
  *
  * Macro which should be defined as an integer value.
  *
  * This defines the capacity of the symbol table, in bytes. This symbol table
  * stores User Events labels and names of deleted tasks, queues, or other kernel
  * objects. Note that the names of active objects not stored here but in the
  * Object Table. Thus, if you don't use User Events or delete any kernel
  * objects you set this to zero (0) to minimize RAM usage.
  ******************************************************************************/
 #define SYMBOL_TABLE_SIZE 1000

 /*******************************************************************************
  * NTask, NISR, NQueue, NSemaphore, NMutex
  *
  * A group of Macros which should be defined as an integer value of zero (0)
  * or larger.
  *
  * This defines the capacity of the Object Property Table - the maximum number
  * of objects active at any given point within each object class.
  *
  * NOTE: In case objects are deleted and created during runtime, this setting
  * does not limit the total amount of objects, only the number of concurrently
  * active objects.
  *
  * Using too small values will give an error message through the vTraceError
  * routine, which makes the error message appear when opening the trace data
  * in FreeRTOS+Trace. If you are using the recorder status monitor task,
  * any error messages are displayed in console prints, assuming that the
  * print macro has been defined properly (vConsolePrintMessage).
  *
  * It can be wise to start with very large values for these constants,
  * unless you are very confident on these numbers. Then do a recording and
  * check the actual usage in FreeRTOS+Trace. This is shown by selecting
  * View -> Trace Details -> Resource Usage -> Object Table
  *
  * NOTE 2: Remember to account for all tasks created by FreeRTOS, such as the
  * IDLE task, the FreeRTOS timer task, and any tasks created by other 3rd party
  * software components, such as communication stacks. The recorder also has an
  * optional monitor task to account for, if this is used.
  * Moreover, one task slot is used to indicate "(startup)", i.e., a fictive
  * task that represent the time before the FreeRTOS scheduler starts.
  * NTask should thus be at least 2-3 slots larger than your application task count.
  *
  * NOTE 3: The FreeRTOS timer task creates a Queue, that should be accounted
  * for in NQueue.
  ******************************************************************************/
 #define NTask             15
 #define NISR              4
 #define NQueue            10
 #define NSemaphore        10
 #define NMutex            5

 /* Maximum object name length for each class (includes zero termination) */
 #define NameLenTask       configMAX_TASK_NAME_LEN
 #define NameLenISR        10
 #define NameLenQueue      15
 #define NameLenSemaphore  15
 #define NameLenMutex      15

 /******************************************************************************
  * TRACE_DESCRIPTION
  *
  * Macro which should be defined as a string.
  *
  * This string is stored in the trace and displayed in FreeRTOS+Trace. Can be
  * used to store, e.g., system version or build date. This is also used to store
  * internal error messages from the recorder, which if occurs overwrites the
  * value defined here. This may be maximum 256 chars.
  *****************************************************************************/
 #define TRACE_DESCRIPTION "FreeRTOS+Trace Demo"

 /******************************************************************************
  * TRACE_DESCRIPTION_MAX_LENGTH
  *
  * The maximum length (including zero termination) for the TRACE_DESCRIPTION
  * string. Since this string also is used for internal error messages from the
  * recorder do not make it too short, as this may truncate the error messages.
  * Default is 80.
  * Maximum allowed length is 256 - the trace will fail to load if longer.
  *****************************************************************************/
 #define TRACE_DESCRIPTION_MAX_LENGTH 80


 /******************************************************************************
  * TRACE_DATA_ALLOCATION
  *
  * This defines how to allocate the recorder data structure, i.e., using a
  * static declaration or using a dynamic allocation in runtime (malloc).
  *
  * Should be one of these two options:
  * - TRACE_DATA_ALLOCATION_STATIC (default)
  * - TRACE_DATA_ALLOCATION_DYNAMIC
  *
  * Using static allocation has the benefits of compile-time errors if the buffer
  * is too large (too large constants in trcConfig.h) and no need to call the
  * initialization routine (xTraceInitTraceData).
  *
  * Using dynamic allocation may give more flexibility in some cases.
  *****************************************************************************/

 #define TRACE_DATA_ALLOCATION TRACE_DATA_ALLOCATION_STATIC


 /******************************************************************************
  * CONFIGURATION REGARDING WHAT CODE/FEATURES TO INCLUDE
  *****************************************************************************/

 /******************************************************************************
  * INCLUDE_FLOAT_SUPPORT
  *
  * Macro which should be defined as either zero (0) or one (1).
  * Default is 1.
  *
  * If this is zero (0), all references to floating point values are removed,
  * in case floating point values are not supported by the platform used.
  * Floating point values are only used in vTracePrintF and its subroutines, to
  * store float (%f) or double (%lf) argments.
  *
  * Note: vTracePrintF can still be used with integer and string arguments in
  * either case.
  *****************************************************************************/
 #define INCLUDE_FLOAT_SUPPORT 1

 /******************************************************************************
  * INCLUDE_USER_EVENTS
  *
  * Macro which should be defined as either zero (0) or one (1).
  * Default is 1.
  *
  * If this is zero (0) the code for creating User Events is excluded to
  * reduce code size. User Events are application-generated events, like
  * "printf" but for the trace log instead of console output. User Events are
  * much faster than a printf and can therefore be used in timing critical code.
  * See vTraceUserEvent() and vTracePrintF() in trcUser.h
  *
  * Note that FreeRTOS+Trace Standard Edition or Professional Edition is required
  * for User Events, they are not displayed in FreeRTOS+Trace Free Edition.
  *****************************************************************************/
 #define INCLUDE_USER_EVENTS 1

 /*****************************************************************************
  * INCLUDE_READY_EVENTS
  *
  * Macro which should be defined as either zero (0) or one (1).
  * Default is 1.
  *
  * If this is zero (0), the code for recording Ready events is
  * excluded. Note, this will make it impossible to calculate the correct
  * response times.
  *****************************************************************************/
 #define INCLUDE_READY_EVENTS 1

 /*****************************************************************************
  * INCLUDE_ISR_TRACING
  *
  * Macro which should be defined as either zero (0) or one (1).
  * Default is 1.
  *
  * If this is zero (0), the code for recording Interrupt Service Routines is
  * excluded to reduce code size. Note, recording ISRs require that you insert
  * calls to vTraceStoreISRBegin and vTraceStoreISREnd in your interrupt handlers.
  * There is no automatic recording of ISRs like for task scheduling, since
  * FreeRTOS does not have a central interrupt dispatcher.
  *****************************************************************************/
 #define INCLUDE_ISR_TRACING 1

 /******************************************************************************
  * INCLUDE_OBJECT_DELETE
  *
  * Macro which should be defined as either zero (0) or one (1).
  * Default is 1.
  *
  * This must be enabled (1) if tasks, queues or other
  * traced kernel objects are deleted at runtime, e.g., using vTaskDelete or
  * vQueueDelete. If no deletes are made, this can be set to 0 in order to
  * exclude the delete-handling code.
  *****************************************************************************/
 #ifdef INCLUDE_OBJECT_DELETE
 #undef INCLUDE_OBJECT_DELETE
 #endif

 #define INCLUDE_OBJECT_DELETE 1

 /******************************************************************************
  * CONFIGURATION RELATED TO BEHAVIOR
  *****************************************************************************/

 /******************************************************************************
  * RECORDER_STORE_MODE
  *
  * Macro which should be defined as one of:
  * - STORE_MODE_RING_BUFFER
  * - STORE_MODE_STOP_WHEN_FULL
  * Default is STORE_MODE_RING_BUFFER.
  *
  * With RECORDER_STORE_MODE set to STORE_MODE_RING_BUFFER, the events are stored
  * in a ring buffer, i.e., where the oldest events are overwritten when the
  * buffer becomes full. This allows you to get the last events leading up to an
  * interesting state, e.g., an error, without having a large trace buffer for
  * string the whole run since startup. In this mode, the recorder can run
  * "forever" as the buffer never gets full, i.e., in the sense that it always
  * has room for more events.
  *
  * To fetch the trace in mode STORE_MODE_RING_BUFFER, you need to first halt the
  * system using your debugger and then do a RAM dump, or to explicitly stop the
  * recorder using vTraceStop() and then store/upload the trace data using a
  * FreeRTOS task that you need to provide yourself. The trace data is found in
  * the struct RecorderData, initialized in trcBase.c.
  *
  * Note that, if you upload the trace using a RAM dump, i.e., when the system is
  * halted on a breakpoint or by a debugger command, there is no need to stop the
  * recorder first.
  *
  * When RECORDER_STORE_MODE is STORE_MODE_STOP_WHEN_FULL, the recording is
  * stopped when the buffer becomes full. When the recorder stops itself this way
  * vTracePortEnd() is called which allows for custom actions, such as triggering
  * a task that stores the trace buffer, i.e., in case taking a RAM dump
  * using an on-chip debugger is not possible. In the Windows port, vTracePortEnd
  * saves the trace to file directly, but this is not recommended in a real-time
  * system since the scheduler is blocked during the processing of vTracePortEnd.
  *****************************************************************************/
 #ifndef WIN32
 #define RECORDER_STORE_MODE STORE_MODE_RING_BUFFER
 #else
 /* Default in the Win32 demo */
 #define RECORDER_STORE_MODE STORE_MODE_STOP_WHEN_FULL
 #endif

 /******************************************************************************
  * STOP_AFTER_N_EVENTS
  *
  * Macro which should be defined as an integer value, or not defined.
  * Default is -1
  *
  * STOP_AFTER_N_EVENTS is intended for tests of the ring buffer mode (when
  * RECORDER_STORE_MODE is STORE_MODE_RING_BUFFER). It stops the recording when
  * the specified number of events has been observed. This value can be larger
  * than the buffer size, to allow for test of the "wrapping around" that occurs
  * in ring buffer mode . A negative value (or no definition of this macro)
  * disables this feature.
  *****************************************************************************/
 #define STOP_AFTER_N_EVENTS -1

 /******************************************************************************
  * USE_IMPLICIT_IFE_RULES
  *
  * Macro which should be defined as either zero (0) or one (1).
  * Default is 1.
  *
  * ### Instance Finish Events (IFE) ###
  *
  * For tasks with "infinite" main loops (non-terminating tasks), the concept
  * of a task instance has no clear definition, it is an application-specific
  * thing. FreeRTOS+Trace allows you to define Instance Finish Events (IFEs),
  * which marks the point in a cyclic task when the "task instance" ends.
  * The IFE is a blocking kernel call, typically in the main loop of a task
  * which typically reads a message queue, waits for a semaphore or performs
  * an explicit delay.
  *
  * If USE_IMPLICIT_IFE_RULES is one (1), the following FreeRTOS kernel calls
  * are considered by default to be IFEs (Implicit IFEs):
  *  - vTaskDelay
  *  - vTaskDelayUntil
  *  - vTaskSuspend
  *  - xQueueReceive (blocking cases only)
  *  - xSemaphoreTake (blocking cases only)
  *
  * However, Implicit IFEs only applies to blocking kernel calls. If an
  * xQueueReceive reads a message without blocking, it does not create a new
  * instance since no blocking occurred.
  *
  * Moreover, the actual IFE might sometimes be another blocking call such as
  * xQueueSend or xSemaphoreGive. We therefore allow for user-defined
  * Explicit IFEs by calling
  *
  *     vTraceTaskInstanceIsFinished()
  *
  * right before the kernel call considered as IFE. This does not create an
  * additional event but instead stores the service code and object handle
  * of the IFE call as properties of the task.
  *
  * If using Explicit IFEs and the task also calls an Implicit IFE like
  * vTaskDelay, this may result in additional incorrect task instances.
  * This is solved by disabling the Implicit IFEs for the task, by adding
  * a call to
  *
  *     vTraceTaskSkipDefaultInstanceFinishedEvents()
  *
  * in the very beginning of that task. This allows you to combine Explicit IFEs
  * for some tasks with Implicit IFEs for the rest of the tasks, if
  * USE_IMPLICIT_IFE_RULES is 1.
  *
  * By setting USE_IMPLICIT_IFE_RULES to zero (0), the implicit IFEs are disabled
  * for all tasks. Tasks will then be considered to have a single instance only,
  * covering all execution fragments, unless you define an explicit IFE in each
  * task by calling vTraceTaskInstanceIsFinished before the blocking call.
  *****************************************************************************/
 #define USE_IMPLICIT_IFE_RULES 1

 /******************************************************************************
  * INCLUDE_SAVE_TO_FILE
  *
  * Macro which should be defined as either zero (0) or one (1).
  * Default is 0.
  *
  * If enabled (1), the recorder will include code for saving the trace
  * to a local file system.
  ******************************************************************************/
 #ifdef WIN32
     #define INCLUDE_SAVE_TO_FILE 1
 #else
     #define INCLUDE_SAVE_TO_FILE 0
 #endif

 /******************************************************************************
  * TRACE_PROGRESS_MONITOR_TASK_PRIORITY
  *
  * Macro which sets the priority of the "recorder status monitor" task.
  *
  * This task, vTraceMonitorTask in trcUser.c, periodically writes
  * the recorder status using the vTraceConsoleMessage macro, which is to
  * be mapped to your console "printf" routine. The task is named TraceMon but
  * is intentionally excluded from the demo trace.
  *
  * Default is tskIDLE_PRIORITY + 1
  * Note that if your system constantly has a high CPU load from high-priority
  * tasks, this might not be get a chance to execute.
  *
  * See vTraceMonitorTask in trcUser.c
  *****************************************************************************/
 #define TRACE_PROGRESS_MONITOR_TASK_PRIORITY (tskIDLE_PRIORITY + 1)

 /******************************************************************************
  * TRACE_PROGRESS_MONITOR_TASK_STACKSIZE
  *
  * Macro which sets the stack size of the "recorder status monitor" task.
  *
  * This task, vTraceMonitorTask in trcUser.c, periodically writes
  * the recorder status using the vTraceConsoleMessage macro, which is to
  * be mapped to your console "printf" routine. The task is intentionally
  * excluded from the demo trace.
  *
  * See vTraceMonitorTask in trcUser.c
  *****************************************************************************/
 #define TRACE_PROGRESS_MONITOR_TASK_STACKSIZE 500

 /******************************************************************************
  * TRACE_PROGRESS_MONITOR_TASK_PERIOD
  *
  * Macro which sets the period of the "recorder status monitor" task.
  *
  * This task, vTraceMonitorTask in trcUser.c, periodically writes
  * the recorder status using the vTraceConsoleMessage macro, which is to
  * be mapped to your console "printf" routine. The task is named TraceMon but
  * is intentionally excluded from the demo trace.
  *
  * Default is 1000 FreeRTOS ticks (typically 1 second). On the Windows port, a
  * lower value is suggested since the Windows port runs very slowly, often 20-40
  * times slower than the simulated FreeRTOS time.
  *
  * See vTraceMonitorTask in trcUser.c
  *****************************************************************************/
 #ifdef WIN32
     #define TRACE_PROGRESS_MONITOR_TASK_PERIOD 100
 #else
     #define TRACE_PROGRESS_MONITOR_TASK_PERIOD 1000
 #endif

 /******************************************************************************
  * TEAM_LICENSE_CODE
  *
  * Macro which defines a string - the team license code.
  * If no team license is available, this should be an empty string "".
  * This should be maximum 32 chars, including zero-termination.
  *****************************************************************************/
 #define TEAM_LICENSE_CODE ""

 #endif
	/*******************************************************************************
	* FreeRTOS+Trace v2.3.0 Recorder Library
	* Percepio AB, www.percepio.com
	*
	* trcConfig.h
	*
	* Configuration parameters for the trace recorder library. Before using the
	* trace recorder library, please check that the default settings are
	* appropriate for your system, and if necessary adjust these. Most likely, you
	* will need to adjust the NTask, NISR, NQueue, NMutex and NSemaphore values to
	* reflect the number of such objects in your system. These may be
	* overapproximated, although larger values values implies more RAM usage.
	*
	* 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 trcPort.c and trcPort.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.
	*
	* FreeRTOS+Trace is available as Free Edition and in two premium editions.
	* You may use the premium features during 30 days for evaluation.
	* Download FreeRTOS+Trace at http://www.percepio.com/products/downloads/
	*
	* Copyright Percepio AB, 2012.
	* www.percepio.com
	******************************************************************************/

	#ifndef TRCCONFIG_H
	#define TRCCONFIG_H

	/*******************************************************************************
	* CONFIGURATION RELATED TO CAPACITY AND ALLOCATION
	******************************************************************************/

	/*******************************************************************************
	* EVENT_BUFFER_SIZE
	*
	* Macro which should be defined as an integer value.
	*
	* This defines the capacity of the event buffer, i.e., the number of records
	* it may store. Each registered event typically use one record (4 byte), but
	* vTracePrintF may use multiple records depending on the number of data args.
	******************************************************************************/

	#define EVENT_BUFFER_SIZE 10000 /* Adjust wrt. to available RAM */

	/*******************************************************************************
	* SYMBOL_TABLE_SIZE
	*
	* Macro which should be defined as an integer value.
	*
	* This defines the capacity of the symbol table, in bytes. This symbol table
	* stores User Events labels and names of deleted tasks, queues, or other kernel
	* objects. Note that the names of active objects not stored here but in the
	* Object Table. Thus, if you don't use User Events or delete any kernel
	* objects you set this to zero (0) to minimize RAM usage.
	******************************************************************************/
	#define SYMBOL_TABLE_SIZE 1000

	/*******************************************************************************
	* NTask, NISR, NQueue, NSemaphore, NMutex
	*
	* A group of Macros which should be defined as an integer value of zero (0)
	* or larger.
	*
	* This defines the capacity of the Object Property Table - the maximum number
	* of objects active at any given point within each object class.
	*
	* NOTE: In case objects are deleted and created during runtime, this setting
	* does not limit the total amount of objects, only the number of concurrently
	* active objects.
	*
	* Using too small values will give an error message through the vTraceError
	* routine, which makes the error message appear when opening the trace data
	* in FreeRTOS+Trace. If you are using the recorder status monitor task,
	* any error messages are displayed in console prints, assuming that the
	* print macro has been defined properly (vConsolePrintMessage).
	*
	* It can be wise to start with very large values for these constants,
	* unless you are very confident on these numbers. Then do a recording and
	* check the actual usage in FreeRTOS+Trace. This is shown by selecting
	* View -> Trace Details -> Resource Usage -> Object Table
	*
	* NOTE 2: Remember to account for all tasks created by FreeRTOS, such as the
	* IDLE task, the FreeRTOS timer task, and any tasks created by other 3rd party
	* software components, such as communication stacks. The recorder also has an
	* optional monitor task to account for, if this is used.
	* Moreover, one task slot is used to indicate "(startup)", i.e., a fictive
	* task that represent the time before the FreeRTOS scheduler starts.
	* NTask should thus be at least 2-3 slots larger than your application task count.
	*
	* NOTE 3: The FreeRTOS timer task creates a Queue, that should be accounted
	* for in NQueue.
	******************************************************************************/
	#define NTask 15
	#define NISR 4
	#define NQueue 10
	#define NSemaphore 10
	#define NMutex 5

	/* Maximum object name length for each class (includes zero termination) */
	#define NameLenTask configMAX_TASK_NAME_LEN
	#define NameLenISR 10
	#define NameLenQueue 15
	#define NameLenSemaphore 15
	#define NameLenMutex 15

	/******************************************************************************
	* TRACE_DESCRIPTION
	*
	* Macro which should be defined as a string.
	*
	* This string is stored in the trace and displayed in FreeRTOS+Trace. Can be
	* used to store, e.g., system version or build date. This is also used to store
	* internal error messages from the recorder, which if occurs overwrites the
	* value defined here. This may be maximum 256 chars.
	*****************************************************************************/
	#define TRACE_DESCRIPTION "FreeRTOS+Trace Demo"

	/******************************************************************************
	* TRACE_DESCRIPTION_MAX_LENGTH
	*
	* The maximum length (including zero termination) for the TRACE_DESCRIPTION
	* string. Since this string also is used for internal error messages from the
	* recorder do not make it too short, as this may truncate the error messages.
	* Default is 80.
	* Maximum allowed length is 256 - the trace will fail to load if longer.
	*****************************************************************************/
	#define TRACE_DESCRIPTION_MAX_LENGTH 80


	/******************************************************************************
	* TRACE_DATA_ALLOCATION
	*
	* This defines how to allocate the recorder data structure, i.e., using a
	* static declaration or using a dynamic allocation in runtime (malloc).
	*
	* Should be one of these two options:
	* - TRACE_DATA_ALLOCATION_STATIC (default)
	* - TRACE_DATA_ALLOCATION_DYNAMIC
	*
	* Using static allocation has the benefits of compile-time errors if the buffer
	* is too large (too large constants in trcConfig.h) and no need to call the
	* initialization routine (xTraceInitTraceData).
	*
	* Using dynamic allocation may give more flexibility in some cases.
	*****************************************************************************/

	#define TRACE_DATA_ALLOCATION TRACE_DATA_ALLOCATION_STATIC


	/******************************************************************************
	* CONFIGURATION REGARDING WHAT CODE/FEATURES TO INCLUDE
	*****************************************************************************/

	/******************************************************************************
	* INCLUDE_FLOAT_SUPPORT
	*
	* Macro which should be defined as either zero (0) or one (1).
	* Default is 1.
	*
	* If this is zero (0), all references to floating point values are removed,
	* in case floating point values are not supported by the platform used.
	* Floating point values are only used in vTracePrintF and its subroutines, to
	* store float (%f) or double (%lf) argments.
	*
	* Note: vTracePrintF can still be used with integer and string arguments in
	* either case.
	*****************************************************************************/
	#define INCLUDE_FLOAT_SUPPORT 1

	/******************************************************************************
	* INCLUDE_USER_EVENTS
	*
	* Macro which should be defined as either zero (0) or one (1).
	* Default is 1.
	*
	* If this is zero (0) the code for creating User Events is excluded to
	* reduce code size. User Events are application-generated events, like
	* "printf" but for the trace log instead of console output. User Events are
	* much faster than a printf and can therefore be used in timing critical code.
	* See vTraceUserEvent() and vTracePrintF() in trcUser.h
	*
	* Note that FreeRTOS+Trace Standard Edition or Professional Edition is required
	* for User Events, they are not displayed in FreeRTOS+Trace Free Edition.
	*****************************************************************************/
	#define INCLUDE_USER_EVENTS 1

	/*****************************************************************************
	* INCLUDE_READY_EVENTS
	*
	* Macro which should be defined as either zero (0) or one (1).
	* Default is 1.
	*
	* If this is zero (0), the code for recording Ready events is
	* excluded. Note, this will make it impossible to calculate the correct
	* response times.
	*****************************************************************************/
	#define INCLUDE_READY_EVENTS 1

	/*****************************************************************************
	* INCLUDE_ISR_TRACING
	*
	* Macro which should be defined as either zero (0) or one (1).
	* Default is 1.
	*
	* If this is zero (0), the code for recording Interrupt Service Routines is
	* excluded to reduce code size. Note, recording ISRs require that you insert
	* calls to vTraceStoreISRBegin and vTraceStoreISREnd in your interrupt handlers.
	* There is no automatic recording of ISRs like for task scheduling, since
	* FreeRTOS does not have a central interrupt dispatcher.
	*****************************************************************************/
	#define INCLUDE_ISR_TRACING 1

	/******************************************************************************
	* INCLUDE_OBJECT_DELETE
	*
	* Macro which should be defined as either zero (0) or one (1).
	* Default is 1.
	*
	* This must be enabled (1) if tasks, queues or other
	* traced kernel objects are deleted at runtime, e.g., using vTaskDelete or
	* vQueueDelete. If no deletes are made, this can be set to 0 in order to
	* exclude the delete-handling code.
	*****************************************************************************/
	#ifdef INCLUDE_OBJECT_DELETE
	#undef INCLUDE_OBJECT_DELETE
	#endif

	#define INCLUDE_OBJECT_DELETE 1

	/******************************************************************************
	* CONFIGURATION RELATED TO BEHAVIOR
	*****************************************************************************/

	/******************************************************************************
	* RECORDER_STORE_MODE
	*
	* Macro which should be defined as one of:
	* - STORE_MODE_RING_BUFFER
	* - STORE_MODE_STOP_WHEN_FULL
	* Default is STORE_MODE_RING_BUFFER.
	*
	* With RECORDER_STORE_MODE set to STORE_MODE_RING_BUFFER, the events are stored
	* in a ring buffer, i.e., where the oldest events are overwritten when the
	* buffer becomes full. This allows you to get the last events leading up to an
	* interesting state, e.g., an error, without having a large trace buffer for
	* string the whole run since startup. In this mode, the recorder can run
	* "forever" as the buffer never gets full, i.e., in the sense that it always
	* has room for more events.
	*
	* To fetch the trace in mode STORE_MODE_RING_BUFFER, you need to first halt the
	* system using your debugger and then do a RAM dump, or to explicitly stop the
	* recorder using vTraceStop() and then store/upload the trace data using a
	* FreeRTOS task that you need to provide yourself. The trace data is found in
	* the struct RecorderData, initialized in trcBase.c.
	*
	* Note that, if you upload the trace using a RAM dump, i.e., when the system is
	* halted on a breakpoint or by a debugger command, there is no need to stop the
	* recorder first.
	*
	* When RECORDER_STORE_MODE is STORE_MODE_STOP_WHEN_FULL, the recording is
	* stopped when the buffer becomes full. When the recorder stops itself this way
	* vTracePortEnd() is called which allows for custom actions, such as triggering
	* a task that stores the trace buffer, i.e., in case taking a RAM dump
	* using an on-chip debugger is not possible. In the Windows port, vTracePortEnd
	* saves the trace to file directly, but this is not recommended in a real-time
	* system since the scheduler is blocked during the processing of vTracePortEnd.
	*****************************************************************************/
	#ifndef WIN32
	#define RECORDER_STORE_MODE STORE_MODE_RING_BUFFER
	#else
	/* Default in the Win32 demo */
	#define RECORDER_STORE_MODE STORE_MODE_STOP_WHEN_FULL
	#endif

	/******************************************************************************
	* STOP_AFTER_N_EVENTS
	*
	* Macro which should be defined as an integer value, or not defined.
	* Default is -1
	*
	* STOP_AFTER_N_EVENTS is intended for tests of the ring buffer mode (when
	* RECORDER_STORE_MODE is STORE_MODE_RING_BUFFER). It stops the recording when
	* the specified number of events has been observed. This value can be larger
	* than the buffer size, to allow for test of the "wrapping around" that occurs
	* in ring buffer mode . A negative value (or no definition of this macro)
	* disables this feature.
	*****************************************************************************/
	#define STOP_AFTER_N_EVENTS -1

	/******************************************************************************
	* USE_IMPLICIT_IFE_RULES
	*
	* Macro which should be defined as either zero (0) or one (1).
	* Default is 1.
	*
	* ### Instance Finish Events (IFE) ###
	*
	* For tasks with "infinite" main loops (non-terminating tasks), the concept
	* of a task instance has no clear definition, it is an application-specific
	* thing. FreeRTOS+Trace allows you to define Instance Finish Events (IFEs),
	* which marks the point in a cyclic task when the "task instance" ends.
	* The IFE is a blocking kernel call, typically in the main loop of a task
	* which typically reads a message queue, waits for a semaphore or performs
	* an explicit delay.
	*
	* If USE_IMPLICIT_IFE_RULES is one (1), the following FreeRTOS kernel calls
	* are considered by default to be IFEs (Implicit IFEs):
	* - vTaskDelay
	* - vTaskDelayUntil
	* - vTaskSuspend
	* - xQueueReceive (blocking cases only)
	* - xSemaphoreTake (blocking cases only)
	*
	* However, Implicit IFEs only applies to blocking kernel calls. If an
	* xQueueReceive reads a message without blocking, it does not create a new
	* instance since no blocking occurred.
	*
	* Moreover, the actual IFE might sometimes be another blocking call such as
	* xQueueSend or xSemaphoreGive. We therefore allow for user-defined
	* Explicit IFEs by calling
	*
	* vTraceTaskInstanceIsFinished()
	*
	* right before the kernel call considered as IFE. This does not create an
	* additional event but instead stores the service code and object handle
	* of the IFE call as properties of the task.
	*
	* If using Explicit IFEs and the task also calls an Implicit IFE like
	* vTaskDelay, this may result in additional incorrect task instances.
	* This is solved by disabling the Implicit IFEs for the task, by adding
	* a call to
	*
	* vTraceTaskSkipDefaultInstanceFinishedEvents()
	*
	* in the very beginning of that task. This allows you to combine Explicit IFEs
	* for some tasks with Implicit IFEs for the rest of the tasks, if
	* USE_IMPLICIT_IFE_RULES is 1.
	*
	* By setting USE_IMPLICIT_IFE_RULES to zero (0), the implicit IFEs are disabled
	* for all tasks. Tasks will then be considered to have a single instance only,
	* covering all execution fragments, unless you define an explicit IFE in each
	* task by calling vTraceTaskInstanceIsFinished before the blocking call.
	*****************************************************************************/
	#define USE_IMPLICIT_IFE_RULES 1

	/******************************************************************************
	* INCLUDE_SAVE_TO_FILE
	*
	* Macro which should be defined as either zero (0) or one (1).
	* Default is 0.
	*
	* If enabled (1), the recorder will include code for saving the trace
	* to a local file system.
	******************************************************************************/
	#ifdef WIN32
	#define INCLUDE_SAVE_TO_FILE 1
	#else
	#define INCLUDE_SAVE_TO_FILE 0
	#endif

	/******************************************************************************
	* TRACE_PROGRESS_MONITOR_TASK_PRIORITY
	*
	* Macro which sets the priority of the "recorder status monitor" task.
	*
	* This task, vTraceMonitorTask in trcUser.c, periodically writes
	* the recorder status using the vTraceConsoleMessage macro, which is to
	* be mapped to your console "printf" routine. The task is named TraceMon but
	* is intentionally excluded from the demo trace.
	*
	* Default is tskIDLE_PRIORITY + 1
	* Note that if your system constantly has a high CPU load from high-priority
	* tasks, this might not be get a chance to execute.
	*
	* See vTraceMonitorTask in trcUser.c
	*****************************************************************************/
	#define TRACE_PROGRESS_MONITOR_TASK_PRIORITY (tskIDLE_PRIORITY + 1)

	/******************************************************************************
	* TRACE_PROGRESS_MONITOR_TASK_STACKSIZE
	*
	* Macro which sets the stack size of the "recorder status monitor" task.
	*
	* This task, vTraceMonitorTask in trcUser.c, periodically writes
	* the recorder status using the vTraceConsoleMessage macro, which is to
	* be mapped to your console "printf" routine. The task is intentionally
	* excluded from the demo trace.
	*
	* See vTraceMonitorTask in trcUser.c
	*****************************************************************************/
	#define TRACE_PROGRESS_MONITOR_TASK_STACKSIZE 500

	/******************************************************************************
	* TRACE_PROGRESS_MONITOR_TASK_PERIOD
	*
	* Macro which sets the period of the "recorder status monitor" task.
	*
	* This task, vTraceMonitorTask in trcUser.c, periodically writes
	* the recorder status using the vTraceConsoleMessage macro, which is to
	* be mapped to your console "printf" routine. The task is named TraceMon but
	* is intentionally excluded from the demo trace.
	*
	* Default is 1000 FreeRTOS ticks (typically 1 second). On the Windows port, a
	* lower value is suggested since the Windows port runs very slowly, often 20-40
	* times slower than the simulated FreeRTOS time.
	*
	* See vTraceMonitorTask in trcUser.c
	*****************************************************************************/
	#ifdef WIN32
	#define TRACE_PROGRESS_MONITOR_TASK_PERIOD 100
	#else
	#define TRACE_PROGRESS_MONITOR_TASK_PERIOD 1000
	#endif

	/******************************************************************************
	* TEAM_LICENSE_CODE
	*
	* Macro which defines a string - the team license code.
	* If no team license is available, this should be an empty string "".
	* This should be maximum 32 chars, including zero-termination.
	*****************************************************************************/
	#define TEAM_LICENSE_CODE ""

	#endif