!MSP430FR2633.pat
-@define{@read{/config/gema/MSP430FR2x4x.pat}}
-
! ----------------------------------------------
! MSP430FR2633 MEMORY MAP
! ----------------------------------------------
S_NMI_Vec=\$FFFC!
RST_Vec=\$FFFE!
+
+!MSP430FR2xxx.pat
+
+LPM4=\$F8! SR(LPM4+GIE)
+LPM3=\$D8! SR(LPM3+GIE)
+LPM2=\$98! SR(LPM2+GIE)
+LPM1=\$58! SR(LPM1+GIE)
+LPM0=\$18! SR(LPM0+GIE)
+
+
+! ============================================
+! SR bits :
+! ============================================
+\#C=\#1! = SR(0) Carry flag
+\#Z=\#2! = SR(1) Zero flag
+\#N=\#4! = SR(2) Negative flag
+\#GIE=\#8! = SR(3) Enable Int
+\#CPUOFF=\#\$10!= SR(4) CPUOFF
+\#OSCOFF=\#\$20!= SR(5) OSCOFF
+\#SCG0=\#\$40! = SR(6) SCG0
+\#SCG1=\#\$80! = SR(7) SCG1
+\#V=\#\$100! = SR(8) oVerflow flag
+\#UF9=\#\$200! = SR(9) User Flag 1 used by ?NUMBER --> INTERPRET --> LITERAL to process double numbers, else free for use.
+\#UF10=\#\$400! = SR(10) User Flag 2
+\#UF11=\#\$800! = SR(11) User Flag 3
+
+! ============================================
+! PORTx, Reg bits :
+! ============================================
+BIT0=1!
+BIT1=2!
+BIT2=4!
+BIT3=8!
+BIT4=\$10!
+BIT5=\$20!
+BIT6=\$40!
+BIT7=\$80!
+BIT8=\$100!
+BIT9=\$200!
+BIT10=\$400!
+BIT11=\$800!
+BIT12=\$1000!
+BIT13=\$2000!
+BIT14=\$4000!
+BIT15=\$8000!
+
+! ============================================
+! symbolic codes :
+! ============================================
+RET=MOV \@R1+,R0! \ MOV @RSP+,PC
+NOP=MOV \#0,R3! \ one word one cycle
+NOP2=\$3C00 ,! \ compile JMP 0 one word two cycles
+NOP3=MOV R0,R0! \ MOV PC,PC one word three cycles
+NEXT=MOV \@R13+,R0! \ MOV @IP+,PC
+SEMI=MOV \@R1+,R13\nMOV \@R13+,R0!
+
+
+! ===========================================================
+! MSP430FR2xxx and FR4xxx DEVICES HAVE SPECIFIC RAM ADDRESSES
+! ===========================================================
+
+
+! You can check the addresses below by comparing their values in DTCforthMSP430FRxxxx.lst
+! those addresses are usable with the symbolic assembler
+
+! ============================================
+! FastForth INFO(DCBA) memory map (256 bytes):
+! ============================================
+
+INI_THREAD=\$1800! .word THREADS
+TERMBRW_RST=\$1802! .word TERMBRW_RST
+TERMMCTLW_RST=\$1804! .word TERMMCTLW_RST
+FREQ_KHZ=\$1806! .word FREQUENCY
+
+SAVE_SYSRSTIV=\$1808! to enable SYSRSTIV read
+LPM_MODE=\$180A! LPM0+GIE is the default mode
+INIDP=\$180C! define RST_STATE, init by wipe
+INIVOC=\$180E! define RST_STATE, init by wipe
+GPFLAGS=\$1810!
+
+RXON=\$1812!
+RXOFF=\$1814!
+ReadSectorWX=\$1816! call with W = SectorLO X = SectorHI
+WriteSectorWX=\$1818! call with W = SectorLO X = SectorHI
+
+! ============================================
+! FORTH RAM areas :
+! ============================================
+
+LSTACK_SIZE=\#16! words
+PSTACK_SIZE=\#48! words
+RSTACK_SIZE=\#48! words
+PAD_LEN=\#84! bytes
+TIB_LEN=\#84! bytes
+HOLD_SIZE=\#34! bytes
+
+! ============================================
+! FastForth RAM memory map (>= 1k):
+! ============================================
+
+
+LEAVEPTR=\$2000! \ Leave-stack pointer, init by QUIT
+LSATCK=\$2000! \ leave stack, grow up
+PSTACK=\$2080! \ parameter stack, grow down
+RSTACK=\$20E0! \ Return stack, grow down
+
+PAD_I2CADR=\$20E0! \ RX I2C address
+PAD_I2CCNT=\$20E2! \ count max
+PAD_ORG=\$20E4! \ user scratch pad buffer, 84 bytes, grow up
+
+TIB_I2CADR=\$2138! \ TX I2C address
+TIB_I2CCNT=\$213A! \ count of bytes
+TIB_ORG=\$213C! \ Terminal input buffer, 84 bytes, grow up
+
+HOLDS_ORG=\$2190! \ a good address for HOLDS
+BASE_HOLD=\$21B2! \ BASE HOLD area, grow down
+
+! ----------------------
+! NOT SAVED VARIABLES
+! ----------------------
+
+HP=\$21B2! HOLD ptr
+CAPS=\$21B4! CAPS ON/OFF flag, must be set to -1 before first reset !
+LAST_NFA=\$21B6!
+LAST_THREAD=\$21B8!
+LAST_CFA=\$21BA!
+LAST_PSP=\$21BC!
+
+!STATE=\$21BE! Interpreter state
+
+SOURCE_LEN=\$21C0! len of input stream
+SOURCE_ADR=\$21C2! adr of input stream
+TOIN=\$21C4! >IN
+DP=\$21C6! dictionary ptr
+
+LASTVOC=\$21C8! keep VOC-LINK
+CONTEXT=\$21CA! CONTEXT dictionnary space (8 CELLS)
+CURRENT=\$21DA! CURRENT dictionnary ptr
+
+!BASE=\$21DC! numeric base, must be defined before first reset !
+LINE=\$21DE! line in interpretation, activated with NOECHO, desactivated with ECHO
+! ---------------------------------------
+!21E0! 14 RAM bytes free conditionnaly
+! ---------------------------------------
+!SAV_CURRENT=\$21E0! preserve CURRENT when create assembler words
+!ASMBW1=\$21E2 assembler backward reference 1
+!ASMBW2=\$21E4 assembler backward reference 2
+!ASMBW3=\$21E6 assembler backward reference 3
+!ASMFW1=\$21E8 assembler forward reference 1
+!ASMFW2=\$21EA assembler forward reference 2
+!ASMFW3=\$21EC assembler forward reference 3
+! ---------------------------------------
+!21EE! 14 RAM bytes free
+! ---------------------------------------
+
+! ---------------------------------------
+! SD buffer
+! ---------------------------------------
+SD_BUF_I2ADR=\$21FC!
+SD_BUF_I2CNT=\$21FE!
+SD_BUF=\$2200! \ SD_Card buffer
+BUFEND=\$2400!
+
+! ---------------------------------------
+! FAT16 FileSystemInfos
+! ---------------------------------------
+FATtype=\$2402!
+BS_FirstSectorL=\$2404!
+BS_FirstSectorH=\$2406!
+OrgFAT1=\$2408!
+FATSize=\$240A!
+OrgFAT2=\$240C!
+OrgRootDir=\$240E!
+OrgClusters=\$2410! Sector of Cluster 0
+SecPerClus=\$2412!
+
+! ---------------------------------------
+! SD command
+! ---------------------------------------
+SD_CMD_FRM=\$2414! 6 bytes SD_CMDx inverted frame \${CRC,ll,LL,hh,HH,CMD}
+SD_CMD_FRM0=\$2414! CRC:ll word access
+SD_CMD_FRM1=\$2415! ll byte access
+SD_CMD_FRM2=\$2416! LL:hh word access
+SD_CMD_FRM3=\$2417! hh byte access
+SD_CMD_FRM4=\$2418! HH:CMD word access
+SD_CMD_FRM5=\$2419! CMD byte access
+SectorL=\$241A! 2 words
+SectorH=\$241C!
+
+! ---------------------------------------
+! BUFFER management
+! ---------------------------------------
+BufferPtr=\$241E!
+BufferLen=\$2420!
+
+! ---------------------------------------
+! FAT entry
+! ---------------------------------------
+ClusterL=\$2422! 16 bits wide (FAT16)
+ClusterH=\$2424! 16 bits wide (FAT16)
+NewClusterL=\$2426! 16 bits wide (FAT16)
+NewClusterH=\$2428! 16 bits wide (FAT16)
+CurFATsector=\$242A!
+
+! ---------------------------------------
+! DIR entry
+! ---------------------------------------
+DIRclusterL=\$242C! contains the Cluster of current directory ; 1 if FAT16 root directory
+DIRclusterH=\$242E! contains the Cluster of current directory ; 1 if FAT16 root directory
+EntryOfst=\$2430!
+
+! ---------------------------------------
+! Handle Pointer
+! ---------------------------------------
+CurrentHdl=\$2432! contains the address of the last opened file structure, or 0
+
+! ---------------------------------------
+! Load file operation
+! ---------------------------------------
+pathname=\$2434!
+EndOfPath=\$2436!
+
+! ---------------------------------------
+! Handle structure
+! ---------------------------------------
+! three handle tokens :
+! token = 0 : free handle
+! token = 1 : file to read
+! token = 2 : file updated (write)
+! token =-1 : LOAD"ed file (source file)
+
+! offset values
+HDLW_PrevHDL=0! previous handle ; used by LOAD"
+HDLB_Token=2! token
+HDLB_ClustOfst=3! Current sector offset in current cluster (Byte)
+HDLL_DIRsect=4! Dir SectorL (Long)
+HDLH_DIRsect=6!
+HDLW_DIRofst=8! BUFFER offset of Dir entry
+HDLL_FirstClus=10! File First ClusterLo (identify the file)
+HDLH_FirstClus=12! File First ClusterHi (byte)
+HDLL_CurClust=14! Current ClusterLo
+HDLH_CurClust=16! Current ClusterHi (T as 3Th byte)
+HDLL_CurSize=18! written size / not yet read size (Long)
+HDLH_CurSize=20! written size / not yet read size (Long)
+HDLW_BUFofst=22! BUFFER offset ; used by LOAD" and by WRITE"
+
+
+!OpenedFirstFile ; "openedFile" structure
+HandleMax=8!
+HandleLenght=24!
+FirstHandle=\$2438!
+HandleEnd=\$24F8!
+
+!Stack of return IP for LOADed files, preincrement stack structure
+LOADPTR=\$24F8!
+LOAD_STACK=\$24FA!
+LOAD_STACK_END=\$2530!
+
+!SD_card Input Buffer
+SDIB_I2CADR=\$2530!
+SDIB_I2CCNT=\$2532!
+SDIB_ORG=\$2534!
+
+SD_END_DATA=\$2588!
+
+
+! ============================================
+! Special Fonction Registers (SFR)
+! ============================================
+
+
+
+SFRIE1=\$100! \ SFR enable register
+SFRIFG1=\$102! \ SFR flag register
+SFRRPCR=\$104! \ SFR reset pin control
+
+PMMCTL0=\$120! \ PMM Control 0
+PMMCTL1=\$122! \ PMM Control 0
+PMMCTL2=\$124! \ PMM Control 0
+PMMIFG=\$12A! \ PMM interrupt flags
+PM5CTL0=\$130! \ PM5 Control 0
+
+SYSCTL=\$140! \ System control
+SYSBSLC=\$142! \ Bootstrap loader configuration area
+SYSJMBC=\$146! \ JTAG mailbox control
+SYSJMBI0=\$148! \ JTAG mailbox input 0
+SYSJMBI1=\$14A! \ JTAG mailbox input 1
+SYSJMBO0=\$14C! \ JTAG mailbox output 0
+SYSJMBO1=\$14E! \ JTAG mailbox output 1
+SYSUNIV=\$15A! \ User NMI vector generator
+SYSSNIV=\$15C! \ System NMI vector generator
+SYSRSTIV=\$15E! \ Reset vector generator
+SYSCFG0=\$160! \ System configuration 0
+SYSCFG1=\$162! \ System configuration 1
+SYSCFG2=\$164! \ System configuration 2
+
+CSCTL0=\$180! \ CS control 0
+CSCTL1=\$182! \ CS control 1
+CSCTL2=\$184! \ CS control 2
+CSCTL3=\$186! \ CS control 3
+CSCTL4=\$188! \ CS control 4
+CSCTL5=\$18A! \ CS control 5
+CSCTL6=\$18C! \ CS control 6
+CSCTL7=\$18E! \ CS control 7
+CSCTL8=\$190! \ CS control 8
+
+
+FRCTLCTL0=\$1A0! \ FRAM control 0
+GCCTL0=\$1A4! \ General control 0
+GCCTL1=\$1A6! \ General control 1
+
+CRC16DI=\$1C0! \ CRC data input
+CRCDIRB=\$1C2! \ CRC data input reverse byte
+CRCINIRES=\$1C4! \ CRC initialization and result
+CRCRESR=\$1C6! \ CRC result reverse byte
+
+WDTCTL=\$1CC! \ WDT control register
+
+
+PAIN=\$200!
+PAOUT=\$202!
+PADIR=\$204!
+PAREN=\$206!
+PASEL0=\$20A!
+PASEL1=\$20C!
+PAIES=\$218!
+PAIE=\$21A!
+PAIFG=\$21C!
+
+P1IN=\$200!
+P1OUT=\$202!
+P1DIR=\$204!
+P1REN=\$206!
+P1SEL0=\$20A!
+P1SEL1=\$20C!
+P1IV=\$20E!
+P1IES=\$218!
+P1IE=\$21A!
+P1IFG=\$21C!
+
+P2IN=\$201!
+P2OUT=\$203!
+P2DIR=\$205!
+P2REN=\$207!
+P2SEL0=\$20B!
+P2SEL1=\$20D!
+P2IES=\$219!
+P2IE=\$21B!
+P2IFG=\$21D!
+P2IV=\$21E!
+
+
+P3IN=\$220!
+P3OUT=\$222!
+P3DIR=\$224!
+P3REN=\$226!
+P3SEL0=\$22A!
+P3SEL1=\$22C!
+
+
+RTCCTL=\$300! \ RTC control
+RTCIV=\$304! \ RTC interrupt vector word
+RTCMOD=\$308! \ RTC modulo
+RTCCNT=\$30C! \ RTC counter register
+
+
+TACLR=4!
+TAIFG=1!
+CCIFG=1!
+
+TA0CTL=\$380! \ TA0 control
+TA0CCTL0=\$382! \ Capture/compare control 0
+TA0CCTL1=\$384! \ Capture/compare control 1
+TA0CCTL2=\$386! \ Capture/compare control 2
+TA0R=\$390! \ TA0 counter register
+TA0CCR0=\$392! \ Capture/compare register 0
+TA0CCR1=\$394! \ Capture/compare register 1
+TA0CCR2=\$396! \ Capture/compare register 2
+TA0EX0=\$3A0! \ TA0 expansion register 0
+TA0IV=\$3AE! \ TA0 interrupt vector
+
+TA1CTL=\$3C0! \ TA1 control
+TA1CCTL0=\$3C2! \ Capture/compare control 0
+TA1CCTL1=\$3C4! \ Capture/compare control 1
+TA1CCTL2=\$3C6! \ Capture/compare control 2
+TA1R=\$3D0! \ TA1 counter register
+TA1CCR0=\$3D2! \ Capture/compare register 0
+TA1CCR1=\$3D4! \ Capture/compare register 1
+TA1CCR2=\$3D6! \ Capture/compare register 2
+TA1EX0=\$3E0! \ TA1 expansion register 0
+TA1IV=\$3EE! \ TA1 interrupt vector
+
+TA2CTL=\$400! \ TA2 control
+TA2CCTL0=\$402! \ Capture/compare control 0
+TA2CCTL1=\$404! \ Capture/compare control 1
+TA2R=\$410! \ TA2 counter register
+TA2CCR0=\$412! \ Capture/compare register 0
+TA2CCR1=\$414! \ Capture/compare register 1
+TA2EX0=\$420! \ TA2 expansion register 0
+TA2IV=\$42E! \ TA2 interrupt vector
+
+TA3CTL=\$440! \ TA3 control
+TA3CCTL0=\$442! \ Capture/compare control 0
+TA3CCTL1=\$444! \ Capture/compare control 1
+TA3R=\$450! \ TA3 counter register
+TA3CCR0=\$452! \ Capture/compare register 0
+TA3CCR1=\$454! \ Capture/compare register 1
+TA3EX0=\$460! \ TA3 expansion register 0
+TA3IV=\$46E! \ TA3 interrupt vector
+
+
+MPY=\$4C0! \ 16-bit operand 1 \96 multiply
+MPYS=\$4C2! \ 16-bit operand 1 \96 signed multiply
+MAC=\$4C4! \ 16-bit operand 1 \96 multiply accumulate
+MACS=\$4C6! \ 16-bit operand 1 \96 signed multiply accumulate
+OP2=\$4C8! \ 16-bit operand 2
+RESLO=\$4CA! \ 16 × 16 result low word
+RESHI=\$4CC! \ 16 × 16 result high word
+SUMEXT=\$4CE! \ 16 × 16 sum extension register
+MPY32L=\$4D0! \ 32-bit operand 1 \96 multiply low word
+MPY32H=\$4D2! \ 32-bit operand 1 \96 multiply high word
+MPYS32L=\$4D4! \ 32-bit operand 1 \96 signed multiply low word
+MPYS32H=\$4D6! \ 32-bit operand 1 \96 signed multiply high word
+MAC32L=\$4D8! \ 32-bit operand 1 \96 multiply accumulate low word
+MAC32H=\$4DA! \ 32-bit operand 1 \96 multiply accumulate high word
+MACS32L=\$4DC! \ 32-bit operand 1 \96 signed multiply accumulate low word
+MACS32H=\$4DE! \ 32-bit operand 1 \96 signed multiply accumulate high word
+OP2L=\$4E0! \ 32-bit operand 2 \96 low word
+OP2H=\$4E2! \ 32-bit operand 2 \96 high word
+RES0=\$4E4! \ 32 × 32 result 0 \96 least significant word
+RES1=\$4E6! \ 32 × 32 result 1
+RES2=\$4E8! \ 32 × 32 result 2
+RES3=\$4EA! \ 32 × 32 result 3 \96 most significant word
+MPY32CTL0=\$4EC! \ MPY32 control register 0
+
+
+
+UCA0CTLW0=\$500! \ eUSCI_A control word 0
+UCA0CTLW1=\$502! \ eUSCI_A control word 1
+UCA0BRW=\$506!
+UCA0BR0=\$506! \ eUSCI_A baud rate 0
+UCA0BR1=\$507! \ eUSCI_A baud rate 1
+UCA0MCTLW=\$508! \ eUSCI_A modulation control
+UCA0STAT=\$50A! \ eUSCI_A status
+UCA0RXBUF=\$50C! \ eUSCI_A receive buffer
+UCA0TXBUF=\$50E! \ eUSCI_A transmit buffer
+UCA0ABCTL=\$510! \ eUSCI_A LIN control
+UCA0IRTCTL=\$512! \ eUSCI_A IrDA transmit control
+UCA0IRRCTL=\$513! \ eUSCI_A IrDA receive control
+UCA0IE=\$51A! \ eUSCI_A interrupt enable
+UCA0IFG=\$51C! \ eUSCI_A interrupt flags
+UCA0IV=\$51E! \ eUSCI_A interrupt vector word
+
+UCA1CTLW0=\$520! \ eUSCI_A control word 0
+UCA1CTLW1=\$522! \ eUSCI_A control word 1
+UCA1BRW=\$526!
+UCA1BR0=\$526! \ eUSCI_A baud rate 0
+UCA1BR1=\$527! \ eUSCI_A baud rate 1
+UCA1MCTLW=\$528! \ eUSCI_A modulation control
+UCA1STAT=\$52A! \ eUSCI_A status
+UCA1RXBUF=\$52C! \ eUSCI_A receive buffer
+UCA1TXBUF=\$52E! \ eUSCI_A transmit buffer
+UCA1ABCTL=\$530! \ eUSCI_A LIN control
+UCA1IRTCTL=\$532! \ eUSCI_A IrDA transmit control
+UCA1IRRCTL=\$533! \ eUSCI_A IrDA receive control
+UCA1IE=\$53A! \ eUSCI_A interrupt enable
+UCA1IFG=\$53C! \ eUSCI_A interrupt flags
+UCA1IV=\$53E! \ eUSCI_A interrupt vector word
+
+
+UCB0CTLW0=\$540! \ eUSCI_B control word 0
+UCB0CTLW1=\$542! \ eUSCI_B control word 1
+UCB0BRW=\$546!
+UCB0BR0=\$546! \ eUSCI_B bit rate 0
+UCB0BR1=\$547! \ eUSCI_B bit rate 1
+UCB0STATW=\$548! \ eUSCI_B status word
+UCBCNT0=\$549! \ eUSCI_B hardware count
+UCB0TBCNT=\$54A! \ eUSCI_B byte counter threshold
+UCB0RXBUF=\$54C! \ eUSCI_B receive buffer
+UCB0TXBUF=\$54E! \ eUSCI_B transmit buffer
+UCB0I2COA0=\$554! \ eUSCI_B I2C own address 0
+UCB0I2COA1=\$556! \ eUSCI_B I2C own address 1
+UCB0I2COA2=\$558! \ eUSCI_B I2C own address 2
+UCB0I2COA3=\$55A! \ eUSCI_B I2C own address 3
+UCB0ADDRX=\$55C! \ eUSCI_B received address
+UCB0ADDMASK=\$55E! \ eUSCI_B address mask
+UCB0I2CSA=\$560! \ eUSCI I2C slave address
+UCB0IE=\$56A! \ eUSCI interrupt enable
+UCB0IFG=\$56C! \ eUSCI interrupt flags
+UCB0IV=\$56E! \ eUSCI interrupt vector word
+
+UCTXACK=\$20!
+UCTR=\$10!
+
+
+BAKMEM0=\$660! \ Backup Memory 0
+BAKMEM1=\$662! \ Backup Memory 1
+BAKMEM2=\$664! \ Backup Memory 2
+BAKMEM3=\$666! \ Backup Memory 3
+BAKMEM4=\$668! \ Backup Memory 4
+BAKMEM5=\$66A! \ Backup Memory 5
+BAKMEM6=\$66C! \ Backup Memory 6
+BAKMEM7=\$66E! \ Backup Memory 7
+BAKMEM8=\$670! \ Backup Memory 8
+BAKMEM9=\$672! \ Backup Memory 9
+BAKMEM10=\$674! \ Backup Memory 10
+BAKMEM11=\$676! \ Backup Memory 11
+BAKMEM12=\$678! \ Backup Memory 12
+BAKMEM13=\$67A! \ Backup Memory 13
+BAKMEM14=\$67C! \ Backup Memory 14
+BAKMEM15=\$67E! \ Backup Memory 15
+
+
+ADC10CTL0=\$700! \ ADC10_B Control register 0
+ADC10CTL1=\$702! \ ADC10_B Control register 1
+ADC10CTL2=\$704! \ ADC10_B Control register 2
+ADC10LO=\$706! \ ADC10_B Window Comparator Low Threshold
+ADC10HI=\$708! \ ADC10_B Window Comparator High Threshold
+ADC10MCTL0=\$70A! \ ADC10_B Memory Control Register 0
+ADC10MEM0=\$712! \ ADC10_B Conversion Memory Register
+ADC10IE=\$71A! \ ADC10_B Interrupt Enable
+ADC10IFG=\$71C! \ ADC10_B Interrupt Flags
+ADC10IV=\$71E! \ ADC10_B Interrupt Vector Word
+
+ADCON=\$10!
+ADCSTART=\$03!
+