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/*
* LEGO® MINDSTORMS EV3
*
* Copyright (C) 2010-2013 The LEGO Group
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
/*! \page debug Terminal Configuration
*
\verbatim
TERMINAL CONFIGURATION (in top of "lms2012.h")
Normal release: DEBUG not defined, TERMINAL_ENABLED = 0, DEBUG_UART = 4
Printf working: DEBUG not defined, TERMINAL_ENABLED = 0, DEBUG_UART = 0
Development with debug messages: DEBUG defined, TERMINAL_ENABLED = 1, DEBUG_UART = 0
*/
//#define DEBUG //!< When defined debug messages is output on standard I/O (d_uart is different)
#define TERMINAL_ENABLED 0 //!< DEBUG terminal enabled (0 = disabled, 1 = enabled)
#define DEBUG_UART 4 //!< UART used for debug (0 = port1, 1 = port2, ... 4 = none)
/* \endverbatim */
//#define DEBUG_VM
//#define DEBUG_TRACE_TASK
//#define DEBUG_C_COM
//#define DEBUG_C_INPUT
//#define DEBUG_C_INPUT_DAISYCHAIN
//#define DEBUG_C_INPUT_DATALOG
//#define DEBUG_C_INPUT_FAST_DATALOG
//#define DEBUG_C_MEMORY
//#define DEBUG_C_MEMORY_LOG
//#define DEBUG_C_MEMORY_FILE
//#define DEBUG_C_MEMORY_LOW
//#define DEBUG_C_SOUND
//#define DEBUG_C_UI
//#define DEBUG_D_ANALOG
//#define DEBUG_D_POWER
//#define DEBUG_D_UART
//#define DEBUG_D_UART_ERROR
//#define DEBUG_D_UI
//#define DEBUG_D_SOUND
//#define DEBUG_D_IIC
//#define DEBUG_D_USBDEV
//#define ENABLE_TEST_ON_PORT4
//#define BUFPRINTSIZE 100000
//#define REMEMBER_TO_ENABLE_SAVE_USER_DATA
//#define REMEMBER_TO_FIX_TYPEDATA
//#define DEBUG_TRACE_USB_COMMAND
//#define DEBUG_TRACE_MODE_CHANGE
//#define DEBUG_TRACE_KEY
//#define DEBUG_TRACE_ANGLE
//#define DEBUG_TRACE_US
//#define DEBUG_TRACE_VM
//#define DEBUG_TRACE_DAISYCHAIN
//#define DEBUG_BYTECODE_TIME
//#define DEBUG_TRACE_FREEZE
//#define DEBUG_TRACE_FILENAME
//#define DEBUG_SDCARD
//#define DEBUG_USBSTICK
//#define DEBUG_VIRTUAL_BATT_TEMP
//#define DEBUG_TEMP_SHUTDOWN
//#define DEBUG_BACK_BLOCKED
#define DEBUG_RECHARGEABLE
#ifndef LMS2012_H_
#define LMS2012_H_
// HARDWARE PLATFORM
#define EP2 4 //!< Schematics revision D
#define FINALB 3 //!< Schematics revision B and C
#define FINAL 2 //!< Final prototype
#define SIMULATION 0 //!< LEGO digital simulation
#define PLATFORM_START FINAL //!< Oldest supported hardware (older versions will use this)
#define PLATFORM_END EP2 //!< Newest supported hardware (newer versions will use this)
// Will be removed when not used anymore
#define A4 -1
#define EVALBOARD -2
#define ONE2ONE 1 //!< First real size prototype
#ifdef LEGO_SIMULATION
#define HARDWARE SIMULATION
#else
#ifndef HARDWARE
#define HARDWARE FINAL //!< Actual hardware platform (must be one of above)
#endif
#endif
// Support for module parameter "HwId"
//
// Readout File int PCB
//
// V1.00 10 10 MP (h = home, e = education)
// V0.50 05 5 EP3
// V0.40 04 4 EP2
// V0.30 03 3 EP1 (FINALB) (DEFAULT if file "HwId" not found)
// V0.20 02 2 FINAL
#ifdef HW_ID_SUPPORT
char *HwId = "03";
#define HWID (((HwId[0] - '0') * 10) + (HwId[1] - '0'))
#endif
// FIRMWARE VARIANTS
//#define OLDCALL //!< Don't use optimised sub calls
//#define DISABLE_PRU_UARTS //!< Don't use port 3 and 4 for UART sensors
//#define DISABLE_OLD_COLOR //!< Don't support NXT color sensor
//#define DISABLE_ADC //!< Don't use ADC (no clock EMC test)
//#define ADC_BITBANGING //!< Don't use SPI for a/d converter
//#define DISABLE_DAISYCHAIN
//#define DISABLE_DAISYCHAIN_COM_CALL
//#define DISABLE_FAST_DATALOG_BUFFER
//#define DISABLE_BUMBED
//#define LOG_ASCII
//#define DISABLE_FIQ_IIC
#define UART1_FAKE_INTERRUPT //!< Don't use real interrupt on UART1 (linux prompt)
//#define DISABLE_LOW_VOLTAGE //!< Don't shut down on low voltage
//#define ENABLE_HIGH_CURRENT //!< Don't shut down on high current
//#define DISABLE_LOW_MEMORY //!< Don't check low memory
//#define DISABLE_UART_DATA_ERROR //!< Don't reset UART sensor if timeout or crc error
#define DISABLE_PREEMPTED_VM //!< Don't run VM as preempted
//#define DISABLE_SDCARD_SUPPORT //!< Don't use SD card
#define DISABLE_USBSTICK_SUPPORT //!< Don't use USB stick
//#define ENABLE_PERFORMANCE_TEST //!< Show performance bar in the top line
//#define ENABLE_LOAD_TEST //!< Show integrated current in the top line
//#define ENABLE_MEMORY_TEST //!< Show used memory in the top line
//#define ENABLE_STATUS_TEST
//#define DISABLE_VIRTUAL_BATT_TEMP
//#define DISABLE_SOUND
//#define DISABLE_PAR_ALIGNMENT //!< Disable possibility to align sub call parameter types
//#define DISABLE_NEW_CALL_MUTEX //!< Disable smart object switching after return from non reentrant sub call (enables blocked thread call)
//#define DISABLE_SYSTEM_BYTECODE //!< Disable the use of opSYSTEM command
//#define DISABLE_FILENAME_CHECK //!< Disable "c_memory" filename check
//#define DISABLE_AD_WORD_PROTECT //!< Disable A/D word result protection
#define TESTDEVICE 3
//#ifdef Linux_X86
//#define DISABLE_DAISYCHAIN
//#define DISABLE_DAISYCHAIN_COM_CALL
//#endif
#ifndef PCASM
#include <asm/types.h>
#endif
#include "lmstypes.h"
#include "bytecodes.h"
// Hardware
#define OUTPUTS vmOUTPUTS //!< Number of output ports in the system
#define INPUTS vmINPUTS //!< Number of input ports in the system
#define BUTTONS vmBUTTONS //!< Number of buttons in the system
#define LEDS vmLEDS //!< Number of LEDs in the system
#define LCD_WIDTH vmLCD_WIDTH //!< LCD horizontal pixels
#define LCD_HEIGHT vmLCD_HEIGHT //!< LCD vertical pixels
#define TOPLINE_HEIGHT vmTOPLINE_HEIGHT //!< Top line vertical pixels
#define LCD_STORE_LEVELS vmLCD_STORE_LEVELS //!< Store levels
// Software
#define FG_COLOR vmFG_COLOR //!< Foreground color
#define BG_COLOR vmBG_COLOR //!< Background color
#define CHAIN_DEPT vmCHAIN_DEPT //!< Number of bricks in the USB daisy chain (master + slaves)
#define EVENT_BT_PIN vmEVENT_BT_PIN
// Folders
#define MEMORY_FOLDER vmMEMORY_FOLDER
#define PROGRAM_FOLDER vmPROGRAM_FOLDER
#define DATALOG_FOLDER vmDATALOG_FOLDER
#define SDCARD_FOLDER vmSDCARD_FOLDER
#define USBSTICK_FOLDER vmUSBSTICK_FOLDER
// Files
#define DETAILS_FILE vmDETAILS_FILE //!< File containing firmware version
// Extensions
#define EXT_SOUND vmEXT_SOUND //!< Rudolf sound file
#define EXT_GRAPHICS vmEXT_GRAPHICS //!< Rudolf graphics file
#define EXT_BYTECODE vmEXT_BYTECODE //!< Rudolf byte code file
#define EXT_TEXT vmEXT_TEXT //!< Rudolf text file
#define EXT_DATALOG vmEXT_DATALOG //!< Rudolf datalog file
#define EXT_PROGRAM vmEXT_PROGRAM //!< Rudolf program byte code file
#define EXT_CONFIG vmEXT_CONFIG //!< rudolf configuration file
/*! \page system
*
* \verbatim
*/
#define PROJECT "LMS2012"
#define VERS 1.04
#define SPECIALVERS 'H' //!< Minor version (not shown if less than ASCII zero)
#define MAX_PROGRAMS SLOTS //!< Max number of programs (including UI and direct commands) running at a time
#define MAX_BREAKPOINTS 4 //!< Max number of breakpoints (opCODES depends on this value)
#define MAX_LABELS 32 //!< Max number of labels per program
#define MAX_DEVICE_TYPE 127 //!< Highest type number (positive)
#define MAX_VALID_TYPE vmMAX_VALID_TYPE //!< Highest valid type
#define MAX_DEVICE_MODES 8 //!< Max number of modes in one device
#define MAX_DEVICE_DATASETS 8 //!< Max number of data sets in one device
#define MAX_DEVICE_DATALENGTH 32 //!< Max device data length
#define MAX_DEVICE_BUSY_TIME 1200 //!< Max number of mS a device can be busy when read
#define MAX_DEVICE_TYPES ((MAX_DEVICE_TYPE + 1) * MAX_DEVICE_MODES)//!< Max number of different device types and modes (max type data list size)
#define MAX_FRAMES_PER_SEC 10 //!< Max frames per second update in display
#define CACHE_DEEPT 10 //!< Max number of programs cached (in RECENT FILES MENU)
#define MAX_HANDLES 250 //!< Max number of handles to memory pools and arrays in one program
#define MAX_ARRAY_SIZE 1000000000 //!< Max array size
#define MIN_ARRAY_ELEMENTS 0 //!< Min elements in a DATA8 array
#define INSTALLED_MEMORY 6000 //!< Flash allocated to hold user programs/data
#define RESERVED_MEMORY 100 //!< Memory reserve for system [KB]
#define LOW_MEMORY 500 //!< Low memory warning [KB]
#define LOGBUFFER_SIZE 1000 //!< Min log buffer size
#define DEVICE_LOGBUF_SIZE 300 //!< Device log buffer size (black layer buffer)
#define MIN_LIVE_UPDATE_TIME 10 //!< [mS] Min sample time when live update
#define MIN_IIC_REPEAT_TIME 10 //!< [mS] Min IIC device repeat time
#define MAX_IIC_REPEAT_TIME 1000 //!< [mS] Max IIC device repeat time
#define MAX_COMMAND_BYTECODES 64 //!< Max number of byte codes in a debug terminal direct command
#define MAX_COMMAND_LOCALS 64 //!< Max number of bytes allocated for direct command local variables
#define MAX_COMMAND_GLOBALS 1021 //!< Max number of bytes allocated for direct command global variables
#define UI_PRIORITY 20 //!< UI byte codes before switching VM thread
#define C_PRIORITY 200 //!< C call byte codes
#ifndef DISABLE_PREEMPTED_VM
#define PRG_PRIORITY 2000 //!< Prg byte codes before switching VM thread
#else
#define PRG_PRIORITY 200 //!< Prg byte codes before switching VM thread
#endif
#define BUTTON_DEBOUNCE_TIME 30
#define BUTTON_START_REPEAT_TIME 400
#define BUTTON_REPEAT_TIME 200
#define LONG_PRESS_TIME 3000 //!< [mS] Time pressed before long press recognised
#define ADC_REF 5000 //!< [mV] maximal value on ADC
#define ADC_RES 4095 //!< [CNT] maximal count on ADC
#define IN1_ID_HYSTERESIS 50 //!< [mV] half of the span one Id takes up on input connection 1 voltage
#define OUT5_ID_HYSTERESIS 100 //!< [mV] half of the span one Id takes up on output connection 5 voltage
#define DEVICE_UPDATE_TIME 1000000 //!< Min device (sensor) update time [nS]
#define DELAY_TO_TYPEDATA 10000 //!< Time from daisy chain active to upload type data [mS]
#define DAISYCHAIN_MODE_TIME 10 //!< Time for daisy chain change mode [mS]
#define MAX_FILE_HANDLES 64 //!< Max number of down load file handles
#define MIN_HANDLE 3 //!< Min file handle to close
#define ID_LENGTH 7 //!< Id length (BT MAC id) (incl. zero terminator)
#define NAME_LENGTH 12 //!< Name length (not including zero termination)
#define ERROR_BUFFER_SIZE 8 //!< Number of errors in buffer
#define PWM_DEVICE "lms_pwm" //!< PWM device name
#define PWM_DEVICE_NAME "/dev/lms_pwm" //!< PWM device file name
#define MOTOR_DEVICE "lms_motor" //!< TACHO device name
#define MOTOR_DEVICE_NAME "/dev/lms_motor" //!< TACHO device file name
#define ANALOG_DEVICE "lms_analog" //!< ANALOG device name
#define ANALOG_DEVICE_NAME "/dev/lms_analog" //!< ANALOG device file name
#define POWER_DEVICE "lms_power" //!< POWER device name
#define POWER_DEVICE_NAME "/dev/lms_power" //!< POWER device file name
#define DCM_DEVICE "lms_dcm" //!< DCM device name
#define DCM_DEVICE_NAME "/dev/lms_dcm" //!< DCM device file name
#define UI_DEVICE "lms_ui" //!< UI device name
#define UI_DEVICE_NAME "/dev/lms_ui" //!< UI device file name
#define LCD_DEVICE "lms_display" //!< DISPLAY device name
//#define LCD_DEVICE_NAME "/dev/lms_display" //!< DISPLAY device file name
#define LCD_DEVICE_NAME "/dev/fb0" //!< DISPLAY device file name
#define UART_DEVICE "lms_uart" //!< UART device name
#define UART_DEVICE_NAME "/dev/lms_uart" //!< UART device file name
#define USBDEV_DEVICE "lms_usbdev" //!< USB device
#define USBDEV_DEVICE_NAME "/dev/lms_usbdev" //!< USB device
#define USBHOST_DEVICE "lms_usbhost" //!< USB host
#define USBHOST_DEVICE_NAME "/dev/lms_usbhost" //!< USB host
#define SOUND_DEVICE "lms_sound" //!< SOUND device name
#define SOUND_DEVICE_NAME "/dev/lms_sound" //!< SOUND device
#define IIC_DEVICE "lms_iic" //!< IIC device name
#define IIC_DEVICE_NAME "/dev/lms_iic" //!< IIC device
#define BT_DEVICE "lms_bt" //!< BT device name
#define BT_DEVICE_NAME "/dev/lms_bt" //!< BT device
#define UPDATE_DEVICE "lms_update" //!< UPDATE device name
#define UPDATE_DEVICE_NAME "/dev/lms_update" //!< UPDATE device
#define TEST_PIN_DEVICE "lms_tst_pin" //!< TEST pin device name
#define TEST_PIN_DEVICE_NAME "/dev/lms_tst_pin" //!< TEST pin device file name
#define TEST_UART_DEVICE "lms_tst_uart" //!< TEST UART device name
#define TEST_UART_DEVICE_NAME "/dev/lms_tst_uart" //!< TEST UART device file name
#define DIR_DEEPT vmDIR_DEEPT //!< Max directory items allocated
// File
//***********************************************************************************************************************
//! \todo Filename sizes should only use vmPATHSIZE, vmNAMESIZE, vmEXTSIZE and vmFILENAMESIZE
#define FILENAMESIZE vmFILENAMESIZE //!< All inclusive (path, filename, extension and zero termination)
#define FILENAME_SIZE 52 //!< User filename size without extension including zero
#define FOLDERNAME_SIZE 10 //!< Folder name size relative to "lms2012" folder including zero
#define SUBFOLDERNAME_SIZE FILENAME_SIZE //!< Sub folder name size without "/" including zero
#define MAX_FILENAME_SIZE (FOLDERNAME_SIZE + SUBFOLDERNAME_SIZE + FILENAME_SIZE + 5)
//***********************************************************************************************************************
#define TYPEDATE_FILE_NAME "typedata" //!< TypeData filename
#define ICON_FILE_NAME "icon" //!< Icon image filename
#define TEXT_FILE_NAME "text" //!< Text filename
#define DEMO_FILE_NAME "../prjs/BrkProg_SAVE/Demo.rpf"
// Memory
// SD card
#ifdef Linux_X86
#define SDCARD_DEVICE1 "/dev/mmcblk0"
#define SDCARD_DEVICE2 "/dev/mmcblk0p1"
#else
#define SDCARD_DEVICE1 "/dev/mmcblk0"
#define SDCARD_DEVICE2 "/dev/mmcblk0p1"
#endif
#define SDCARD_MOUNT "./mount_sdcard"
#define SDCARD_UNMOUNT "./unmount_sdcard"
// USB stick
#ifndef Linux_X86
#define USBSTICK_DEVICE "/dev/sda"
#else
#define USBSTICK_DEVICE "/dev/sdf1"
#endif
#define USBSTICK_MOUNT "./mount_usbstick"
#define USBSTICK_UNMOUNT "./unmount_usbstick"
/*
#define DEFAULT_PRJS_FOLDER "~/lms2012/prjs" //!< Project folder name without trailing "/"
#define DEFAULT_APPS_FOLDER "~/lms2012/apps" //!< Applet folder name without trailing "/"
#define DEFAULT_TOOLS_FOLDER "~/lms2012/tools" //!< Setting folder name without trailing "/"
#define DEFAULT_SYS_FOLDER "~/lms2012/sys" //!< System folder name without trailing "/"
#define DEFAULT_SETUP_FOLDER "~/lms2012/sys" //!< Setup folder name without trailing "/"
#define DEFAULT_SD_FOLDER "~/lms2012/SD Card" //!< Sd card folder name without trailing "/"
#define DEFAULT_USB_FOLDER "~/lms2012/USB Memory"//!< USB Memory folder name without trailing "/"
*/
#define DEFAULT_FOLDER "ui" //!< Folder containing the first small programs
#define DEFAULT_UI "ui" //!< Default user interface
#define DEFAULT_VOLUME vmDEFAULT_VOLUME
#define DEFAULT_SLEEPMINUTES vmDEFAULT_SLEEPMINUTES
#define COM_CMD_DEVICE_NAME USBDEV_DEVICE_NAME //!< USB HID command pipe device file name
/*! \endverbatim
*
*/
/*! \page powermanagement Power Management
*
* This section describes various constants used in the power management
*
*
*\n
* <hr size="1"/>
* <b>Battery Indicator</b>
*\n
* <hr size="1"/>
* \verbatim
*/
#define BATT_INDICATOR_HIGH 7500 //!< Battery indicator high [mV]
#define BATT_INDICATOR_LOW 6200 //!< Battery indicator low [mV]
#define ACCU_INDICATOR_HIGH 7500 //!< Rechargeable battery indicator high [mV]
#define ACCU_INDICATOR_LOW 7100 //!< Rechargeable battery indicator low [mV]
/*! \endverbatim
* \subpage pmbattind
*\n
* <hr size="1"/>
* <b>Low Voltage Shutdown</b>
*\n
* <hr size="1"/>
* \verbatim
*/
#define LOW_VOLTAGE_SHUTDOWN_TIME 10000 //!< Time from shutdown lower limit to shutdown [mS]
#define BATT_WARNING_HIGH 6.2 //!< Battery voltage warning upper limit [V]
#define BATT_WARNING_LOW 5.5 //!< Battery voltage warning lower limit [V]
#define BATT_SHUTDOWN_HIGH 5.5 //!< Battery voltage shutdown upper limit [V]
#define BATT_SHUTDOWN_LOW 4.5 //!< Battery voltage shutdown lower limit [V]
#define ACCU_WARNING_HIGH 7.1 //!< Rechargeable battery voltage warning upper limit [V]
#define ACCU_WARNING_LOW 6.5 //!< Rechargeable battery voltage warning lower limit [V]
#define ACCU_SHUTDOWN_HIGH 6.5 //!< Rechargeable battery voltage shutdown upper limit [V]
#define ACCU_SHUTDOWN_LOW 6.0 //!< Rechargeable battery voltage shutdown lower limit [V]
/*! \endverbatim
* \subpage pmbattsd
*\n
*/
#ifdef ENABLE_HIGH_CURRENT
/*! \page powermanagement
*
* <hr size="1"/>
* <b>High Load Shutdown</b>
*\n
* <hr size="1"/>
* \verbatim
*/
#define LOAD_SHUTDOWN_FAIL 4.0 //!< Current limit for instantly shutdown [A]
#define LOAD_SHUTDOWN_HIGH 3.0 //!< Current limit for integrated current shutdown [A*S]
#define LOAD_BREAK_EVEN 1.75 //!< Current limit for integrated current break even [A*S]
#define LOAD_SLOPE_UP 0.2 //!< Current slope when current is above break even [A/S]
#define LOAD_SLOPE_DOWN 0.1 //!< Current slope when current is below break even [A/S]
/*! \endverbatim
* \subpage pmloadsd
*\n
*/
#endif
#ifndef DISABLE_VIRTUAL_BATT_TEMP
/*! \page powermanagement
*
* <hr size="1"/>
* <b>High Temperature Shutdown</b>
*\n
* <hr size="1"/>
* \verbatim
*/
#define TEMP_SHUTDOWN_FAIL 45.0 //!< Temperature rise before fail shutdown [C]
#define TEMP_SHUTDOWN_WARNING 40.0 //!< Temperature rise before warning [C]
/*! \endverbatim
* \subpage pmtempsd
*\n
*/
#endif
#define UPDATE_TIME1 2 //!< Update repeat time1 [mS]
#define UPDATE_TIME2 10 //!< Update repeat time2 [mS]
#define UPDATE_MEMORY 200 //!< Update memory size [mS]
#define UPDATE_SDCARD 500 //!< Update sdcard size [mS]
#define UPDATE_USBSTICK 500 //!< Update usbstick size [mS]
// Per start of (polution) defines
#define MAX_SOUND_DATA_SIZE 250
#define SOUND_CHUNK 250
#define SOUND_ADPCM_CHUNK 125
#define SOUND_MASTER_CLOCK 132000000
#define SOUND_TONE_MASTER_CLOCK 1031250
#define SOUND_MIN_FRQ 250
#define SOUND_MAX_FRQ 10000
#define SOUND_MAX_LEVEL 8
#define SOUND_FILE_BUFFER_SIZE SOUND_CHUNK + 2 // 12.8 mS @ 8KHz
#define SOUND_BUFFER_COUNT 3
#define SOUND_FILE_FORMAT_NORMAL 0x0100 // RSO-file
#define SOUND_FILE_FORMAT_COMPRESSED 0x0101 // RSO-file compressed
// Per end of defines
/*!
*
* \n
*/
#define VtoC(V) ((UWORD)((V * ADC_RES) / ADC_REF))
#define CtoV(C) ((UWORD)((C * ADC_REF) / ADC_RES))
#define MtoV(M) ((UWORD)((M * ADC_REF * 100) / (ADC_RES * 52)))
#define KB 1024
enum
{
FALSE = 0,
TRUE = 1,
};
// Reserved device types
typedef enum
{
// TYPE_KEEP = 0, //!< Type value that won't change type in byte codes
TYPE_NXT_TOUCH = 1, //!< Device is NXT touch sensor
TYPE_NXT_LIGHT = 2, //!< Device is NXT light sensor
TYPE_NXT_SOUND = 3, //!< Device is NXT sound sensor
TYPE_NXT_COLOR = 4, //!< Device is NXT color sensor
TYPE_TACHO = 7, //!< Device is a tacho motor
TYPE_MINITACHO = 8, //!< Device is a mini tacho motor
TYPE_NEWTACHO = 9, //!< Device is a new tacho motor
TYPE_THIRD_PARTY_START = 50,
TYPE_THIRD_PARTY_END = 99,
TYPE_IIC_UNKNOWN = 100,
TYPE_NXT_TEST = 101, //!< Device is a NXT ADC test sensor
TYPE_NXT_IIC = 123, //!< Device is NXT IIC sensor
TYPE_TERMINAL = 124, //!< Port is connected to a terminal
TYPE_UNKNOWN = 125, //!< Port not empty but type has not been determined
TYPE_NONE = 126, //!< Port empty or not available
TYPE_ERROR = 127, //!< Port not empty and type is invalid
}
TYPE;
/*! \page connections Connections
*
* \anchor connectiontypes
*
* Following defines sets the input and output port connection type\n
*
* These connection types are evaluated in the DCM driver \ref DcmDriver "Device Detection Manager Driver"
*
* \verbatim
*/
typedef enum
{
CONN_UNKNOWN = 111, //!< Connection is fake (test)
CONN_DAISYCHAIN = 117, //!< Connection is daisy chained
CONN_NXT_COLOR = 118, //!< Connection type is NXT color sensor
CONN_NXT_DUMB = 119, //!< Connection type is NXT analog sensor
CONN_NXT_IIC = 120, //!< Connection type is NXT IIC sensor
CONN_INPUT_DUMB = 121, //!< Connection type is LMS2012 input device with ID resistor
CONN_INPUT_UART = 122, //!< Connection type is LMS2012 UART sensor
CONN_OUTPUT_DUMB = 123, //!< Connection type is LMS2012 output device with ID resistor
CONN_OUTPUT_INTELLIGENT = 124, //!< Connection type is LMS2012 output device with communication
CONN_OUTPUT_TACHO = 125, //!< Connection type is LMS2012 tacho motor with series ID resistance
CONN_NONE = 126, //!< Port empty or not available
CONN_ERROR = 127, //!< Port not empty and type is invalid
}
CONN;
/*\endverbatim
*
* \n
*/
/*! \page objectstatus Object Status
*
\verbatim
Image load -> Initialize all objects
Initialize -> if TriggerCount == 0 -> RUNNING (VMTHREAD)
else -> STOPPED (waiting for 1. trigger)
1.Trigger -> Initialise -> WAITING
Triggered -> Enqueue -> RUNNING
Done -> Dequeue -> STOPPED
Program start
|
v
STOPPED -------> WAITING -------> RUNNING --------,
^ 1.trig/ n.trig/ done/ |
| Reset+Enqueue Dequeue |
| |
'----------------------------------------------'
\endverbatim
*/
/*! \enum DSPSTAT
*
* Dispatch status values
*/
typedef enum
{
NOBREAK = 0x0100, //!< Dispatcher running (looping)
STOPBREAK = 0x0200, //!< Break because of program stop
SLEEPBREAK = 0x0400, //!< Break because of sleeping
INSTRBREAK = 0x0800, //!< Break because of opcode break
BUSYBREAK = 0x1000, //!< Break because of waiting for completion
PRGBREAK = 0x2000, //!< Break because of program break
USERBREAK = 0x4000, //!< Break because of user decision
FAILBREAK = 0x8000 //!< Break because of fail
}
DSPSTAT;
typedef void (*PRIM)(void); //!< Prototype for all byte codes
/*! \page memorylayout Memory Layout
*
* RAM layout
*
*- GlobalVariables (aligned)
*
*- ObjectPointerList (aligned)
*
*- OBJ (aligned)
* - Ip (4 bytes)
* - Status (2 bytes)
* - TriggerCount/CallerId (2 bytes)
* - Local (0..MAX Bytes)\n
*
*/
/*! \struct OBJ
* Object data is used to hold the variables used for an object (allocated at image load time)
*/
typedef struct // Object
{
IP Ip; //!< Object instruction pointer
LP pLocal; //!< Local variable pointer
#ifndef DISABLE_NEW_CALL_MUTEX
UBYTE ObjStatus; //!< Object status
UBYTE Blocked;
#else
UWORD ObjStatus; //!< Object status
#endif
union //!< Different meaning for SUBCALL and BLOCKS
{
OBJID CallerId; //!< Caller id used for SUBCALL to save object id to return to
TRIGGER TriggerCount; //!< Trigger count used by BLOCK's trigger logic
}u;
VARDATA Local[]; //!< Poll of bytes used for local variables
}
OBJ;
/*! \struct BRKP
* Breakpoint data hold information used for breakpoint
*/
typedef struct
{
IMINDEX Addr; //!< Offset to breakpoint address from image start
OP OpCode; //!< Saved substituted opcode
}
BRKP;
/*! \struct PRG
* Program data hold information about a program
*/
typedef struct
{
ULONG InstrCnt; //!< Instruction counter used for performance analyses
ULONG InstrTime; //!< Instruction time used for performance analyses
ULONG StartTime; //!< Program start time [mS]
ULONG RunTime; //!< Program run time [uS]
IP pImage; //!< Pointer to start of image
GP pData; //!< Pointer to start of data
GP pGlobal; //!< Pointer to start of global bytes
OBJHEAD* pObjHead; //!< Pointer to start of object headers
OBJ** pObjList; //!< Pointer to object pointer list
IP ObjectIp; //!< Working object Ip
LP ObjectLocal; //!< Working object locals
OBJID Objects; //!< No of objects in image
OBJID ObjectId; //!< Active object id
OBJSTAT Status; //!< Program status
OBJSTAT StatusChange; //!< Program status change
RESULT Result; //!< Program result (OK, BUSY, FAIL)
BRKP Brkp[MAX_BREAKPOINTS]; //!< Storage for breakpoint logic
LABEL Label[MAX_LABELS]; //!< Storage for labels
UWORD Debug; //!< Debug flag
DATA8 Name[FILENAME_SIZE];
}
PRG;
#define TYPE_NAME_LENGTH 11
#define SYMBOL_LENGTH 4 //!< Symbol leng th (not including zero)
/*! \struct TYPES
* Device type data
*/
typedef struct // if data type changes - remember to change "cInputTypeDataInit" !
{
SBYTE Name[TYPE_NAME_LENGTH + 1]; //!< Device name
DATA8 Type; //!< Device type
DATA8 Connection;
DATA8 Mode; //!< Device mode
DATA8 DataSets;
DATA8 Format;
DATA8 Figures;
DATA8 Decimals;
DATA8 Views;
DATAF RawMin; //!< Raw minimum value (e.c. 0.0)
DATAF RawMax; //!< Raw maximum value (e.c. 1023.0)
DATAF PctMin; //!< Percent minimum value (e.c. -100.0)
DATAF PctMax; //!< Percent maximum value (e.c. 100.0)
DATAF SiMin; //!< SI unit minimum value (e.c. -100.0)
DATAF SiMax; //!< SI unit maximum value (e.c. 100.0)
UWORD InvalidTime; //!< mS from type change to valid data
UWORD IdValue; //!< Device id value (e.c. 0 ~ UART)
DATA8 Pins; //!< Device pin setup
SBYTE Symbol[SYMBOL_LENGTH + 1]; //!< SI unit symbol
UWORD Align;
}
TYPES;
#define TYPE_PARAMETERS 19 //!< Number of members in the structure above
#define MAX_DEVICE_INFOLENGTH 54 //!< Number of bytes in the structure above (can not be changed)
/*!\enum ERR
*
* Describes error numbers
*/
typedef enum
{
TOO_MANY_ERRORS_TO_BUFFER,
TYPEDATA_TABEL_FULL,
TYPEDATA_FILE_NOT_FOUND,
ANALOG_DEVICE_FILE_NOT_FOUND,
ANALOG_SHARED_MEMORY,
UART_DEVICE_FILE_NOT_FOUND,
UART_SHARED_MEMORY,
IIC_DEVICE_FILE_NOT_FOUND,
IIC_SHARED_MEMORY,
DISPLAY_SHARED_MEMORY,
UI_SHARED_MEMORY,
UI_DEVICE_FILE_NOT_FOUND,
LCD_DEVICE_FILE_NOT_FOUND,
OUTPUT_SHARED_MEMORY,
COM_COULD_NOT_OPEN_FILE,
COM_NAME_TOO_SHORT,
COM_NAME_TOO_LONG,
COM_INTERNAL,
VM_INTERNAL,
VM_PROGRAM_VALIDATION,
VM_PROGRAM_NOT_STARTED,
VM_PROGRAM_FAIL_BREAK,
VM_PROGRAM_INSTRUCTION_BREAK,
VM_PROGRAM_NOT_FOUND,
SOUND_DEVICE_FILE_NOT_FOUND,
SOUND_SHARED_MEMORY,
FILE_OPEN_ERROR,
FILE_READ_ERROR,
FILE_WRITE_ERROR,
FILE_CLOSE_ERROR,
FILE_GET_HANDLE_ERROR,
FILE_NAME_ERROR,
USB_SHARED_MEMORY,
OUT_OF_MEMORY,
ERRORS
}
ERR;
// INTERFACE FOR SHARED LIBRARIES
extern void PrimParAdvance(void); // Dummy get parameter
extern void* PrimParPointer(void); // Get pointer to primitives and system calls parameters
extern IP GetImageStart(void); // Get pointer to start of image
extern void SetDispatchStatus(DSPSTAT Status); // Set dispatch status (result from executing byte code)
extern void SetInstructions(ULONG Instructions); // Set number of instructions before VMThread change
extern PRGID CurrentProgramId(void); // Get current program id
extern OBJSTAT ProgramStatus(PRGID PrgId); // Get program status
extern OBJSTAT ProgramStatusChange(PRGID PrgId); // Get program status change
extern void ProgramEnd(PRGID PrgId);
extern OBJID CallingObjectId(void); // Get calling objects id
extern void AdjustObjectIp(IMOFFS Value); // Adjust IP
extern IP GetObjectIp(void); // Get IP
extern void SetObjectIp(IP Ip); // Set IP
extern ULONG GetTimeUS(void); // Get uS
extern ULONG GetTimeMS(void); // Get mS
extern ULONG GetTime(void); // Get actual program time
extern ULONG CurrentObjectIp(void); // Get current object ip
extern void VmPrint(char *pString); // print string
extern void SetTerminalEnable(DATA8 Value); // Terminal enable/disable
extern DATA8 GetTerminalEnable(void); // Get terminal enable state
extern void GetResourcePath(char *pString,DATA8 MaxLength);// Get resource path
extern void* VmMemoryResize(HANDLER Handle,DATA32 Elements);
extern void SetVolumePercent(DATA8 Volume);
extern DATA8 GetVolumePercent(void);
extern void SetSleepMinutes(DATA8 Minutes);
extern DATA8 GetSleepMinutes(void);
extern DSPSTAT ExecuteByteCode(IP pByteCode,GP pGlobals,LP pLocals); // Execute byte code stream (C-call)
extern DATA8 CheckSdcard(DATA8 *pChanged,DATA32 *pTotal,DATA32 *pFree,DATA8 Force);
extern DATA8 CheckUsbstick(DATA8 *pChanged,DATA32 *pTotal,DATA32 *pFree,DATA8 Force);
extern void SetUiUpdate(void);
extern RESULT ValidateChar(DATA8 *pChar,DATA8 Set);
extern RESULT ValidateString(DATA8 *pString,DATA8 Set);
extern ERR LogErrorGet(void);
#ifdef BUFPRINTSIZE
extern void BufPrint(char Cmd,char *pFormat, ...);
#endif
#define ERR_STRING_SIZE vmERR_STRING_SIZE // Inclusive zero termination
extern void LogErrorNumber(ERR Error); // Log error number
extern DATA8 LogErrorNumberExists(ERR Error);
#ifndef DISABLE_OLD_COLOR
#define COLORS 4
#define CALPOINTS 3
/*! \page NxtColorMemory
*
* <b> Shared Memory </b>
*
* <hr size="1"/>
*
*
* \verbatim
*/
typedef struct
{
ULONG Calibration[CALPOINTS][COLORS];
UWORD CalLimits[CALPOINTS - 1];
UWORD Crc;
UWORD ADRaw[COLORS];
UWORD SensorRaw[COLORS];
}
COLORSTRUCT;
/*\endverbatim
*
* \n
*/
#endif
// INTERFACE BETWEEN SHARED LIBRARIES AND MODULES
/*! \page AnalogModuleMemory
* <b> Shared Memory </b>
*
* <hr size="1"/>
*
* It is possible to get a pointer to the raw analogue values for use in userspace
* this pointer will point to a struct and the layout is following:
*
* \verbatim
*/
typedef struct
{
DATA16 InPin1[INPUTS]; //!< Analog value at input port connection 1
DATA16 InPin6[INPUTS]; //!< Analog value at input port connection 6
DATA16 OutPin5[OUTPUTS]; //!< Analog value at output port connection 5
DATA16 BatteryTemp; //!< Battery temperature
DATA16 MotorCurrent; //!< Current flowing to motors
DATA16 BatteryCurrent; //!< Current flowing from the battery
DATA16 Cell123456; //!< Voltage at battery cell 1, 2, 3,4, 5, and 6
#ifndef DISABLE_FAST_DATALOG_BUFFER
DATA16 Pin1[INPUTS][DEVICE_LOGBUF_SIZE]; //!< Raw value from analog device
DATA16 Pin6[INPUTS][DEVICE_LOGBUF_SIZE]; //!< Raw value from analog device
UWORD Actual[INPUTS];
UWORD LogIn[INPUTS];
UWORD LogOut[INPUTS];
#endif
#ifndef DISABLE_OLD_COLOR
COLORSTRUCT NxtCol[INPUTS];
#endif
DATA16 OutPin5Low[OUTPUTS]; //!< Analog value at output port connection 5 when connection 6 is low
DATA8 Updated[INPUTS];
DATA8 InDcm[INPUTS]; //!< Input port device types
DATA8 InConn[INPUTS];
DATA8 OutDcm[OUTPUTS]; //!< Output port device types
DATA8 OutConn[OUTPUTS];
#ifndef DISABLE_PREEMPTED_VM
UWORD PreemptMilliSeconds;
#endif
}
ANALOG;
/*\endverbatim
*
* \n
*/
/*! \page UartModuleMemory
*
* <b> Shared Memory </b>
*
* <hr size="1"/>
*
* It is possible to get a pointer to the uart values for use in userspace
* this pointer will point to a struct and the layout is following:
*
* \verbatim
*/
#define UART_DATA_LENGTH MAX_DEVICE_DATALENGTH
#define UART_BUFFER_SIZE 64
typedef struct
{
TYPES TypeData[INPUTS][MAX_DEVICE_MODES]; //!< TypeData
#ifndef DISABLE_FAST_DATALOG_BUFFER
UWORD Repeat[INPUTS][DEVICE_LOGBUF_SIZE];
DATA8 Raw[INPUTS][DEVICE_LOGBUF_SIZE][UART_DATA_LENGTH]; //!< Raw value from UART device
UWORD Actual[INPUTS];
UWORD LogIn[INPUTS];
#else
DATA8 Raw[INPUTS][UART_DATA_LENGTH]; //!< Raw value from UART device
#endif
DATA8 Status[INPUTS]; //!< Status
DATA8 Output[INPUTS][UART_DATA_LENGTH]; //!< Bytes to UART device
DATA8 OutputLength[INPUTS];
}
UART;
/*\endverbatim
*
* \n
*/
#define UART_PORT_CHANGED 0x01 //!< Input port changed
#define UART_DATA_READY 0x08 //!< Data is ready
#define UART_WRITE_REQUEST 0x10 //!< Write request
typedef struct
{
DATA8 Connection[INPUTS];
DATA8 Type[INPUTS];
DATA8 Mode[INPUTS];
}
DEVCON;
typedef struct
{
TYPES TypeData;
DATA8 Port;
DATA8 Mode;
}
UARTCTL;
#define UART_SET_CONN _IOWR('u',0,DEVCON)
#define UART_READ_MODE_INFO _IOWR('u',1,UARTCTL)
#define UART_NACK_MODE_INFO _IOWR('u',2,UARTCTL)
#define UART_CLEAR_CHANGED _IOWR('u',3,UARTCTL)
/*! \page IicModuleMemory
*
* <b> Shared Memory </b>
*
* <hr size="1"/>
*
* It is possible to get a pointer to the iic values for use in userspace
* this pointer will point to a struct and the layout is following:
*
* \verbatim
*/
#define IIC_DATA_LENGTH MAX_DEVICE_DATALENGTH
#define IIC_NAME_LENGTH 8
typedef struct
{
TYPES TypeData[INPUTS][MAX_DEVICE_MODES]; //!< TypeData
#ifndef DISABLE_FAST_DATALOG_BUFFER
UWORD Repeat[INPUTS][DEVICE_LOGBUF_SIZE];
DATA8 Raw[INPUTS][DEVICE_LOGBUF_SIZE][IIC_DATA_LENGTH]; //!< Raw value from IIC device
UWORD Actual[INPUTS];
UWORD LogIn[INPUTS];
#else
DATA8 Raw[INPUTS][IIC_DATA_LENGTH]; //!< Raw value from IIC device
#endif
DATA8 Status[INPUTS]; //!< Status
DATA8 Changed[INPUTS];
DATA8 Output[INPUTS][IIC_DATA_LENGTH]; //!< Bytes to IIC device
DATA8 OutputLength[INPUTS];
}
IIC;
/*\endverbatim
*
* \n
*/
#define IIC_PORT_CHANGED 0x01 //!< Input port changed
#define IIC_DATA_READY 0x08 //!< Data is ready
#define IIC_WRITE_REQUEST 0x10 //!< Write request
typedef struct
{
TYPES TypeData;
DATA8 Port;
DATA8 Mode;
}
IICCTL;
typedef struct
{
RESULT Result;
DATA8 Port;
DATA8 Repeat;
DATA16 Time;
DATA8 WrLng;
DATA8 WrData[IIC_DATA_LENGTH];
DATA8 RdLng;
DATA8 RdData[IIC_DATA_LENGTH];
}
IICDAT;
typedef struct
{
DATA8 Port;
DATA16 Time;
DATA8 Type;
DATA8 Mode;
DATA8 Manufacturer[IIC_NAME_LENGTH + 1];
DATA8 SensorType[IIC_NAME_LENGTH + 1];
DATA8 SetupLng;
ULONG SetupString;
DATA8 PollLng;
ULONG PollString;
DATA8 ReadLng;
}
IICSTR;
#define IIC_SET_CONN _IOWR('i',2,DEVCON)
#define IIC_READ_TYPE_INFO _IOWR('i',3,IICCTL)
#define IIC_SETUP _IOWR('i',5,IICDAT)
#define IIC_SET _IOWR('i',6,IICSTR)
#define TST_PIN_LENGTH 8
typedef struct
{
DATA8 Port;
DATA8 Length;
DATA8 String[TST_PIN_LENGTH + 1];
}
TSTPIN;
#define TST_PIN_ON _IOWR('t',1,TSTPIN)
#define TST_PIN_OFF _IOWR('t',2,TSTPIN)
#define TST_PIN_READ _IOWR('t',3,TSTPIN)
#define TST_PIN_WRITE _IOWR('t',4,TSTPIN)
#define TST_UART_LENGTH UART_BUFFER_SIZE
typedef struct
{
DATA32 Bitrate;
DATA8 Port;
DATA8 Length;
DATA8 String[TST_UART_LENGTH];
}
TSTUART;
#define TST_UART_ON _IOWR('t',5,TSTUART)
#define TST_UART_OFF _IOWR('t',6,TSTUART)
#define TST_UART_EN _IOWR('t',7,TSTUART)
#define TST_UART_DIS _IOWR('t',8,TSTUART)
#define TST_UART_READ _IOWR('t',9,TSTUART)
#define TST_UART_WRITE _IOWR('t',10,TSTUART)
/*! \page UiModuleMemory
*
* <b> Shared Memory </b>
*
* <hr size="1"/>
*
* It is possible to get a pointer to the ui button states for use in userspace
* this pointer will point to a struct and the layout is following:
*
* \verbatim
*/
typedef struct
{
DATA8 Pressed[BUTTONS]; //!< Pressed status
}
UI;
/*\endverbatim
*
* \n
*/
#define LCD_BUFFER_SIZE (((LCD_WIDTH + 7) / 8) * LCD_HEIGHT)
#define LCD_TOPLINE_SIZE (((LCD_WIDTH + 7) / 8) * (TOPLINE_HEIGHT + 1))
/*! \page DisplayModuleMemory
*
* <b> Shared Memory </b>
*
* <hr size="1"/>
*
* It is possible to get a pointer to the display memory for use in userspace
* this pointer will point to a frame buffer as follows:
*
* \verbatim
*/
typedef struct
{
UBYTE Lcd[LCD_BUFFER_SIZE];
}
LCD;
/*\endverbatim
*
* \n
*/
/*! \page SoundModuleMemory
*
* <b> Shared Memory </b>
*
* <hr size="1"/>
*
* It is possible to get a pointer to the sound ready flag for use in userspace
* this pointer will point to a struct and the layout is following:
*
* \verbatim
*/
typedef struct
{
DATA8 Status; //!< Status
}
SOUND;
/*\endverbatim
*
* \n
*/
/*! \page UsbModuleMemory
*
* <b> Shared Memory </b>
*
* <hr size="1"/>
*
* It is possible to get a pointer to the USB Speed (FULL or HIGH) for use in userspace
* this pointer will point to a struct and the layout is following:
*
* \verbatim
*/
enum {
FULL_SPEED,
HIGH_SPEED
};
typedef struct
{
DATA8 Speed;
}
USB_SPEED;
/*\endverbatim
*
* \n
*/
/*! \page VmNonvolatileMemory
*
* <b> VM non volatile Memory </b>
*
* <hr size="1"/>
*
* This struct will be loaded at start up and save when closing down VM
*
* \verbatim
*/
typedef struct
{
DATA8 VolumePercent; //!< System default volume [0..100%]
DATA8 SleepMinutes; //!< System sleep [0..120min] (0 = ~)
}
NONVOL;
/*\endverbatim
*
* \n
*/
/*
* Motor/OUTPUT Typedef
*/
typedef struct
{
SLONG TachoCounts;
SBYTE Speed;
SLONG TachoSensor;
}MOTORDATA;
typedef struct
{
DATA8 Cmd;
DATA8 Nos;
DATA8 Power;
DATA32 Step1;
DATA32 Step2;
DATA32 Step3;
DATA8 Brake;
} STEPPOWER;
typedef struct
{
DATA8 Cmd;
DATA8 Nos;
DATA8 Power;
DATA32 Time1;
DATA32 Time2;
DATA32 Time3;
DATA8 Brake;
} TIMEPOWER;
typedef struct
{
DATA8 Cmd;
DATA8 Nos;
DATA8 Speed;
DATA32 Step1;
DATA32 Step2;
DATA32 Step3;
DATA8 Brake;
} STEPSPEED;
typedef struct
{
DATA8 Cmd;
DATA8 Nos;
DATA8 Speed;
DATA32 Time1;
DATA32 Time2;
DATA32 Time3;
DATA8 Brake;
} TIMESPEED;
typedef struct
{
DATA8 Cmd;
DATA8 Nos;
DATA8 Speed;
DATA16 Turn;
DATA32 Step;
DATA8 Brake;
} STEPSYNC;
typedef struct
{
DATA8 Cmd;
DATA8 Nos;
DATA8 Speed;
DATA16 Turn;
DATA32 Time;
DATA8 Brake;
} TIMESYNC;
/*
* End of Motor/OUTPUT Typedef
*/
#define PRINTBUFFERSIZE 160
typedef struct
{
NONVOL NonVol;
DATA8 FirstProgram[MAX_FILENAME_SIZE];
char PrintBuffer[PRINTBUFFERSIZE + 1];
DATA8 TerminalEnabled;
PRGID FavouritePrg;
PRGID ProgramId; //!< Program id running
PRG Program[MAX_PROGRAMS]; //!< Program[0] is the UI byte codes running
ULONG InstrCnt; //!< Instruction counter (performance test)
IP pImage; //!< Pointer to start of image
GP pGlobal; //!< Pointer to start of global bytes
OBJHEAD* pObjHead; //!< Pointer to start of object headers
OBJ** pObjList; //!< Pointer to object pointer list
IP ObjectIp; //!< Working object Ip
LP ObjectLocal; //!< Working object locals
OBJID Objects; //!< No of objects in image
OBJID ObjectId; //!< Active object id
IP ObjIpSave;
GP ObjGlobalSave;
LP ObjLocalSave;
DSPSTAT DispatchStatusSave;
ULONG PrioritySave;
long TimerDataSec;
long TimerDatanSec;
UWORD Debug;
UWORD Test;
UWORD RefCount;
ULONG TimeuS;
ULONG OldTime1;
ULONG OldTime2;
ULONG NewTime;
#ifdef ENABLE_PERFORMANCE_TEST
ULONG PerformTimer;
DATAF PerformTime;
#endif
DSPSTAT DispatchStatus; //!< Dispatch status
ULONG Priority; //!< Object priority
ULONG Value;
HANDLER Handle;
ERR Errors[ERROR_BUFFER_SIZE];
UBYTE ErrorIn;
UBYTE ErrorOut;
DATA32 MemorySize;
DATA32 MemoryFree;
ULONG MemoryTimer;
#ifndef DISABLE_SDCARD_SUPPORT
DATA32 SdcardSize;
DATA32 SdcardFree;
ULONG SdcardTimer;
DATA8 SdcardOk;
#endif
#ifndef DISABLE_USBSTICK_SUPPORT
DATA32 UsbstickSize;
DATA32 UsbstickFree;
ULONG UsbstickTimer;
DATA8 UsbstickOk;
#endif
LCD LcdBuffer; //!< Copy of last LCD update
DATA8 LcdUpdated; //!< LCD updated
ANALOG Analog;
ANALOG *pAnalog;
int AdcFile;
#ifdef ENABLE_STATUS_TEST
DATA8 Status;
#endif
#if (HARDWARE == SIMULATION)
class NXT * nxt;
#endif
}GLOBALS;
#if (HARDWARE == SIMULATION)
extern GLOBALS * gInstance;
#define VMInstance (*gInstance)
RESULT mSchedInit();
RESULT mSchedCtrl();
RESULT mSchedExit();
void setInstance(GLOBALS * _Instance);
GLOBALS * getInstance();
#else
extern GLOBALS VMInstance;
#endif
#endif /* LMS2012_H_ */
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