TFDIFF.TXT

Comparing files FISH_NXP_M0_IAR.s and FISH_NXP_M0_IARG.S
***** FISH_NXP_M0_IAR.s
// v1.7:
// Signon updated. (FOR TEST - FIX B4 SHIP)
// Updated .hex .out and sym.bat

// MIGRATE TO STM AFTER TEST:
// TESTING TRUE FLAG = -1 IN ZEQU: 0=
// Add SXTB Rd, Rm SXTH Rd, Rm
// Add VIO_UARTX, VIO_KEY, VIO_?KEY and VIO_EMIT
// (EMIT), (KEY?), and (KEY).

// PROMPT SETUP - ADDED P(PROMPT), PON(PROMPTON) AND POFF(PROMPTOFF) TO FISH RM
// PROMPT SETUP touches FISH_NXP_M0_SYSTEM.s adding PROMPT: SV 
// PROMPT SETUP touches FISH_NXP_M0_SLIB.s SV_INIT_VALUES: & FWARM: & QUIT:
// Number Stuff Wordcat reorganized (search NOEXEC or WC_NUMBERS_NFA)
***** FISH_NXP_M0_IARG.S
// v1.7:
// Signon updated.
// Updated .hex .out and sym.bat
// Number Stuff Wordcat reorganized (search NOEXEC or WC_NUMBERS_NFA)
*****

***** FISH_NXP_M0_IAR.s
// DC8 '?' IS NOT
//      DC8     'FISH ARM'
        DC8     'FISH ARM TRUE = -1 TEST!!!'
//------------------------------------------------------------------------------
***** FISH_NXP_M0_IARG.S
// DC8 '?' IS NOT
        DC8     'FISH ARM'
//------------------------------------------------------------------------------
*****

***** FISH_NXP_M0_IAR.s
        DC32    EQUAL           // ( 0 0 addr f -- )
#ifdef TRUE_EQU_NEG_ONE         // FIX ASSUMPTION THIS FLAG WILL BE ONE!
        DC32    ONE, ANDD       // ( 0 0 addr f -- ) FLAG IS ONE OR ZERO
#endif
        DC32    DUP, TOR        // ( 0 0 addr f -- ) f >R, addr = count byte
        DC32    PLUS            // ASSUMPTION FLAG WILL BE 1 or 0
        DC32    LIT, -1

***** FISH_NXP_M0_IARG.S
        DC32    EQUAL           // ( 0 0 addr f -- )
        DC32    DUP, TOR        // ( 0 0 addr f -- ) copy of f >R
        DC32    PLUS            // ASSUMPTION FLAG WILL BE 1 or 0

        DC32   LIT, -1

*****

***** FISH_NXP_M0_IAR.s
        DC32    ONEP    // ( TIB TIB+LEN+1 TIB+1 -- ) SKIP COUNT BYTE

///* FISH System compiled KEY does not issue XON - user version does!
#ifdef XON_XOFF
***** FISH_NXP_M0_IARG.S
        DC32    ONEP    // ( TIB TIB+LEN+1 TIB+1 -- ) SKIP COUNT BYTE
#ifdef XON_XOFF
*****

***** FISH_NXP_M0_IAR.s
#endif
//*/

// ( ORGIGINAL-TIB TIB+LEN+1 TIB+1 -- ORGIGINAL-TIB ) 
***** FISH_NXP_M0_IARG.S
#endif
// ( ORGIGINAL-TIB TIB+LEN+1 TIB+1 -- ORGIGINAL-TIB ) 
*****

***** FISH_NXP_M0_IAR.s
EXPE1:
        DC32    KEY     // CAN BREAKPOINT OR SET TO 0x0D - XON done there.
#ifdef XON_XOFF
***** FISH_NXP_M0_IARG.S
EXPE1:
        DC32    KEY     // CAN BREAKPOINT OR CHANGE TO BE 0x0D ONLY
#ifdef XON_XOFF
*****

***** FISH_NXP_M0_IAR.s
#ifdef XON_XOFF
        DC32    XOFF            // Count reached or cr = 2nd XOFF
#endif
***** FISH_NXP_M0_IARG.S
#ifdef XON_XOFF
        DC32    XOFF            // FOR CASE OF count reached befor cr
#endif
*****

***** FISH_NXP_M0_IAR.s
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_FISH_SYS: = FISH System: CATEGORY

***** FISH_NXP_M0_IARG.S
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_FISH_SYS: = FISH SYSTEM CATEGORY

*****

***** FISH_NXP_M0_IAR.s
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_STACK_NFA = Stack Stuff: CATEGORY

***** FISH_NXP_M0_IARG.S
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_STACK_NFA = STACK STUFF CATEGORY

*****

***** FISH_NXP_M0_IAR.s
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_RWMEMORY_NFA = Read and Write Memory With: CATEGORY

***** FISH_NXP_M0_IARG.S
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_RWMEMORY_NFA = MEMORY READ AND WRITE CATEGORY

*****

***** FISH_NXP_M0_IAR.s
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_COMPILE_NFA = Inside Colon WORDS: CATEGORY

***** FISH_NXP_M0_IARG.S
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_COMPILE_NFA = COMPILING WORDS CATEGORY

*****

***** FISH_NXP_M0_IAR.s
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_CREATE_NFA = CREATE WORDS With: CATEGORY

***** FISH_NXP_M0_IARG.S
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_CREATE_NFA = CREATEing WORDS CATEGORY

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CODE (2)
        EORS    t, t
        POP2n
        POP2w
        SUBS    n, n, w
        BEQ     EQUAL_TRUE
        TPUSH   // zero

***** FISH_NXP_M0_IARG.S
 SECTION .text : CODE (2)
        POP2t
        POP2n
        SUBS    t, t, n
        BEQ     EQUAL_TRUE
        EORS    t, t
        TPUSH

*****

***** FISH_NXP_M0_IAR.s
EQUAL_TRUE:
#ifdef TRUE_EQU_NEG_ONE
        SUBS    t, #1 // -1
#else
        ADDS    t, #1   // 1
#endif
        TPUSH
***** FISH_NXP_M0_IARG.S
EQUAL_TRUE:
        MOVS    t, #1
        TPUSH
*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CODE (2)
#ifdef TRUE_EQU_NEG_ONE
        EORS    t, t    // zero t
        SUBS    t, #1   // -1
#else
        MOVS    t, #1
#endif
        POP2n           // n2
        POP2w           // n1
        CMP     n, w    // n1 < n2
        BGT     LESS1
***** FISH_NXP_M0_IARG.S
 SECTION .text : CODE (2)
        MOVS    t, #1
        POP2n                           // n2
        POP2w                           // n1
        CMP     n, w        // n1 < n2
        BGT     LESS1
*****

***** FISH_NXP_M0_IAR.s

//      > GREATERTHAN:  ( n1 n2 -- f )  SIGNED: L0
//      Leave a true flag if n1 is greater than n2 otherwise a false flag.
***** FISH_NXP_M0_IARG.S

//      > GREATERTHAN:  ( n1 n2 --  f ) SIGNED: L0
//      Leave a true flag if n1 is greater than n2 otherwise a false flag.
*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CODE (2)
        EORS    t, t    // zero t
        POP2n
        CMP     n, #0
        BNE     ZEQU1
#ifdef TRUE_EQU_NEG_ONE
        SUBS    t, t, #1
#else
        ADDS    t, t, #1
#endif
//      TPUSH
ZEQU1:
        TPUSH
***** FISH_NXP_M0_IARG.S
 SECTION .text : CODE (2)
        POP2t
        CMP     t, #0
        BNE     ZEQU1

        ADDS    t, t, #1
        TPUSH
ZEQU1:
        EORS    t, t    // zero t
        TPUSH
*****

***** FISH_NXP_M0_IAR.s
#endif
#ifdef TRUE_EQU_NEG_ONE
        EORS    t, t
        SUBS    t, #1   // TRUE -1
#else
        MOVS    t, #1   // TRUE
#endif
        ORRS    n, n, n // SET FLAGS
***** FISH_NXP_M0_IARG.S
#endif
        MOVS    t, #1   // TRUE
        ORRS    n, n, n // SET FLAGS
*****

***** FISH_NXP_M0_IAR.s

        EORS    t, t    // FALSE
ZLESS1:
***** FISH_NXP_M0_IARG.S

        MOVS    t, #0   // FALSE
ZLESS1:
*****

***** FISH_NXP_M0_IAR.s

//      SXTH SXH:       ( nl -- n3 )
//      Signe extend HALFWORD in the word on the stack

***** FISH_NXP_M0_IARG.S

//      REVW REVW:      ( n -- n )
//      Reverse bytes in n.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
SXTH_NFA:
        DC8     0x84
        DC8     'SXT'
        DC8     'H'+0x80
 ALIGNROM 2,0xFFFFFFFF
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
REVW_NFA:
        DC8     0x84
        DC8     'REV'
        DC8     'W'+0x80
 ALIGNROM 2,0xFFFFFFFF
*****

***** FISH_NXP_M0_IAR.s
        DC32    XORR_NFA
SXH:
        DC32    .+5
***** FISH_NXP_M0_IARG.S
        DC32    XORR_NFA
REVW:
        DC32    .+5
*****

***** FISH_NXP_M0_IAR.s
        POP2t
        SXTH     t, t
        TPUSH
***** FISH_NXP_M0_IARG.S
        POP2t
        REV     t, t
        TPUSH
*****

***** FISH_NXP_M0_IAR.s

//      SXTB SXB:       ( nl -- n3 )
//      Signe extend byte in the word on the stack

***** FISH_NXP_M0_IARG.S

//      ASR ASR:   ( sn count -- sn' )  
//      Shift sn (sign-extended) right by count.
//      Valid count values are 0 to 31.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
SXTB_NFA:
        DC8     0x84
        DC8     'SXT'
        DC8     'B'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    SXTH_NFA
SXB:
        DC32    .+5
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
ASR_NFA:
        DC8     0x83
        DC8     'AS'
        DC8     'R'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    REVW_NFA
ASR:
        DC32    .+5
*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CODE (2)
        POP2t
        SXTB     t, t
        TPUSH

***** FISH_NXP_M0_IARG.S
 SECTION .text : CODE (2)
        POP2w           ; shift count
        POP2t           ; original data
        ASRS    t, t, w
        TPUSH           ; shifted data

*****

***** FISH_NXP_M0_IAR.s

//      REVW REVW:      ( n -- n )
//      Reverse bytes in n.

***** FISH_NXP_M0_IARG.S

//      LSR LSR:   ( n count -- n' )
//      Logical (zero-extended) shift right by count.
//      Valid count values are 0 to 31.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
REVW_NFA:
        DC8     0x84
        DC8     'REV'
        DC8     'W'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    SXTB_NFA
REVW:
        DC32    .+5
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
LSR_NFA:
        DC8     0x83
        DC8     'LS'
        DC8     'R'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    ASR_NFA
LSR:
        DC32    .+5
*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CODE (2)
        POP2t
        REV     t, t
        TPUSH

***** FISH_NXP_M0_IARG.S
 SECTION .text : CODE (2)
        POP2w           ; shift count
        POP2t           ; original data
        LSRS    t, t, w
        TPUSH           ; shifted data

*****

***** FISH_NXP_M0_IAR.s

//      ASR ASR:   ( sn count -- sn' )  
//      Shift sn (sign-extended) right by count.
//      Valid count values are 0 to 31.
***** FISH_NXP_M0_IARG.S

//      LSL LSL:   ( n count -- n' )
//      Logical (zero-extended) shift left by count.
//      Valid count values are 0 to 31.
*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
ASR_NFA:
        DC8     0x83
        DC8     'AS'
        DC8     'R'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    REVW_NFA
ASR:
        DC32    .+5
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
LSL_NFA:
        DC8     0x83
        DC8     'LS'
        DC8     'L'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    LSR_NFA
LSL:
        DC32    .+5
*****

***** FISH_NXP_M0_IAR.s
        POP2t           ; original data
        ASRS    t, t, w
        TPUSH           ; shifted data

***** FISH_NXP_M0_IARG.S
        POP2t           ; original data
        LSLS    t, t, w
        TPUSH           ; shifted data---

*****

***** FISH_NXP_M0_IAR.s

//      LSR LSR:   ( n count -- n' )
//      Logical (zero-extended) shift right by count.
//      Valid count values are 0 to 31.

***** FISH_NXP_M0_IARG.S

//      .R DOTR:        ( sn1 n2 -- ) SIGNED:
//      Print the signed number sn1 right aligned in a field whose width is n2.
//      No following blank is printed.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
LSR_NFA:
        DC8     0x83
        DC8     'LS'
        DC8     'R'+0x80
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
DOTR_NFA:
        DC8     0x82
        DC8     '.'
        DC8     'R'+0x80
*****

***** FISH_NXP_M0_IAR.s
 ALIGNROM 2,0xFFFFFFFF
        DC32    ASR_NFA
LSR:
        DC32    .+5
 SECTION .text : CODE (2)
        POP2w           ; shift count
        POP2t           ; original data
        LSRS    t, t, w
        TPUSH           ; shifted data

***** FISH_NXP_M0_IARG.S
 ALIGNROM 2,0xFFFFFFFF
        DC32    LSL_NFA
DOTR:
        DC32    DOCOL
        DC32    TOR
        DC32    STOD
        DC32    RFROM
        DC32    DDOTR
        DC32    SEMIS

*****

***** FISH_NXP_M0_IAR.s

//      LSL LSL:   ( n count -- n' )
//      Logical (zero-extended) shift left by count.
//      Valid count values are 0 to 31.

***** FISH_NXP_M0_IARG.S

//      .RU DOTRU:      ( n1 n2 -- ) UNSIGNED:
//      Print the unsigned number n1 right aligned in a field whose width is n2.
//      No following blank is printed.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
LSL_NFA:
        DC8     0x83
        DC8     'LS'
        DC8     'L'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    LSR_NFA
LSL:
        DC32    .+5
 SECTION .text : CODE (2)
        POP2w           ; shift count
        POP2t           ; original data
        LSLS    t, t, w
        TPUSH           ; shifted data---

***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
DOTRU_NFA:
        DC8     0x83
        DC8     '.R'
        DC8     'U'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOTR_NFA
DOTRU:
        DC32    DOCOL
        DC32    TOR
        DC32    ZERO
        DC32    BDIGS, DIGS, EDIGS
        DC32    DUP, RFROM
        DC32    SWAP, SUBB, SPACES, TYPE
#ifdef IO2TP
          DC32 NOOP
        DC32    CLRPAD  // Resets OUT
#endif
        DC32    SEMIS

*****

***** FISH_NXP_M0_IAR.s

//      .R DOTR:        ( sn1 n2 -- ) SIGNED:
//      Print the signed number sn1 right aligned in a field whose width is n2.
//      No following blank is printed.

***** FISH_NXP_M0_IARG.S

//      U. UDOT:        ( n -- ) USIGNED DOT

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
DOTR_NFA:
        DC8     0x82
        DC8     '.'
        DC8     'R'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    LSL_NFA
DOTR:
        DC32    DOCOL
        DC32    TOR
        DC32    STOD
        DC32    RFROM
        DC32    DDOTR
        DC32    SEMIS
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
UDOT_NFA:
        DC8     0x82
        DC8     'U'
        DC8     '.'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOTRU_NFA
UDOT:
        DC32    DOCOL
        DC32    ZERO
        DC32    DDOT    // SPACE DONE HERE
        DC32    SEMIS
*****

***** FISH_NXP_M0_IAR.s

//      .RU DOTRU:      ( n1 n2 -- ) UNSIGNED:
//      Print the unsigned number n1 right aligned in a field whose width is n2.
//      No following blank is printed.

***** FISH_NXP_M0_IARG.S

//      ? QUES: ( addr -- )
//      Print the value contained at the address in free format according to
//      the current base using DOT.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
DOTRU_NFA:
        DC8     0x83
        DC8     '.R'
        DC8     'U'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOTR_NFA
DOTRU:
        DC32    DOCOL
        DC32    TOR
        DC32    ZERO
        DC32    BDIGS, DIGS, EDIGS
        DC32    DUP, RFROM
        DC32    SWAP, SUBB, SPACES, TYPE
#ifdef IO2TP
          DC32 NOOP
        DC32    CLRPAD  // Resets OUT
#endif
        DC32    SEMIS
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
QUES_NFA:
        DC8     0x81
        DC8     '?'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    UDOT_NFA
QUES:
        DC32    DOCOL
        DC32    AT
        DC32    DOT
        DC32    SEMIS
*****

***** FISH_NXP_M0_IAR.s

//      U. UDOT:        ( n -- ) USIGNED DOT

***** FISH_NXP_M0_IARG.S

//      . DOT:  ( n -- ) SIGNED 2'S COMPLEMENT:
//      Print a number from a signed 32 bit two's complement value,
//      converted according to the numeric base.
//      A trailing blanks follows.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
UDOT_NFA:
        DC8     0x82
        DC8     'U'
        DC8     '.'+0x80
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
DOT_NFA:
        DC8     0x81
        DC8     '.'+0x80
*****

***** FISH_NXP_M0_IAR.s
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOTRU_NFA
UDOT:
        DC32    DOCOL
        DC32    ZERO
        DC32    DDOT    // SPACE DONE HERE
***** FISH_NXP_M0_IARG.S
 ALIGNROM 2,0xFFFFFFFF
        DC32    QUES_NFA
DOT:
        DC32    DOCOL
        DC32    STOD
        DC32    DDOT    // SPACE DONE HERE
*****

***** FISH_NXP_M0_IAR.s

//      ? QUES: ( addr -- )
//      Print the value contained at the address in free format according to
//      the current base using DOT.

***** FISH_NXP_M0_IARG.S

//------------------------------ DOTBASE SECTION -------------------------------

#ifndef SRM
//      .B DOTBIN:      ( n -- )
//      Prints TOS in BINARY using DOT, not affecting Base in the system

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
QUES_NFA:
        DC8     0x81
        DC8     '?'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    UDOT_NFA
QUES:
        DC32    DOCOL
        DC32    AT
        DC32    DOT
        DC32    SEMIS

***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
DOTBIN_NFA:
        DC8     0x82
        DC8     '.'
        DC8     'B'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOT_NFA
DOTBIN:
        DC32    DOCOL
        DC32    TWO, DOTBASE
        DC32    SEMIS
#endif  // not SRM

*****

***** FISH_NXP_M0_IAR.s

//      . DOT:  ( n -- ) SIGNED 2'S COMPLEMENT:
//      Print a number from a signed 32 bit two's complement value,
//      converted according to the numeric base.
//      A trailing blanks follows.

 SECTION .text : CONST (2)
DOT_NFA:
        DC8     0x81
        DC8     '.'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    QUES_NFA
DOT:
        DC32    DOCOL
        DC32    STOD
        DC32    DDOT    // SPACE DONE HERE
        DC32    SEMIS
***** FISH_NXP_M0_IARG.S

//      .H DOTHEX:      ( n -- )
//      Prints TOS in Hex using DOT, not affecting Base in the system
 SECTION .text : CONST (2)
DOTHEX_NFA:
        DC8     0x82
        DC8     '.'
        DC8     'H'+0x80
 ALIGNROM 2,0xFFFFFFFF
#ifdef SRM
        DC32    DOT_NFA
#else
        DC32    DOTBIN_NFA
#endif
DOTHEX:
        DC32    DOCOL
#ifdef SRM
        DC32    BASE_TO_R12, HEX, UDOT, BASE_FROM_R12
#else
        DC32    LIT, 16, DOTBASE        // this version appends BASE Suffix
#endif
        DC32    SEMIS
*****

***** FISH_NXP_M0_IAR.s

//------------------------------ DOTBASE SECTION -------------------------------

#ifndef SRM
//      .B DOTBIN:      ( n -- )
//      Prints TOS in BINARY using DOT, not affecting Base in the system

***** FISH_NXP_M0_IARG.S

#ifndef SRM
//      .D DOTDEC:      ( n -- )
//      Prints TOS in DECIMAL using DOT, not affecting Base in the system

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
DOTBIN_NFA:
        DC8     0x82
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
DOTDEC_NFA:
        DC8     0x82
*****

***** FISH_NXP_M0_IAR.s
        DC8     '.'
        DC8     'B'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOT_NFA
DOTBIN:
        DC32    DOCOL
        DC32    TWO, DOTBASE
        DC32    SEMIS
***** FISH_NXP_M0_IARG.S
        DC8     '.'
        DC8     'D'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOTHEX_NFA
DOTDEC:
        DC32    DOCOL
        DC32    LIT, 10, DOTBASE
        DC32    SEMIS
*****

***** FISH_NXP_M0_IAR.s

//      .H DOTHEX:      ( n -- )
//      Prints TOS in Hex using DOT, not affecting Base in the system
 SECTION .text : CONST (2)
DOTHEX_NFA:
        DC8     0x82
        DC8     '.'
        DC8     'H'+0x80
 ALIGNROM 2,0xFFFFFFFF
***** FISH_NXP_M0_IARG.S

//=============================== WORDCAT ====================================//
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_NUMBERS_NFA = NUMBERS CATEGORY

 SECTION .text : CONST (2)
WC_NUMBERS_NFA:
        DC8     0x80+4+13
        DC8     0x0D, 0x0A
        DC8     'NUMBER Stuff:'
        DC8     0x0D, 0x0A+0x80
 ALIGNROM 2,0xFFFFFFFF
*****

***** FISH_NXP_M0_IAR.s
#ifdef SRM
        DC32    DOT_NFA
#else
        DC32    DOTBIN_NFA
#endif
DOTHEX:
        DC32    DOCOL
#ifdef SRM
        DC32    BASE_TO_R12, HEX, UDOT, BASE_FROM_R12
#else
        DC32    LIT, 16, DOTBASE        // this version appends BASE Suffix
#endif
        DC32    SEMIS


#ifndef SRM
//      .D DOTDEC:      ( n -- )
//      Prints TOS in DECIMAL using DOT, not affecting Base in the system

***** FISH_NXP_M0_IARG.S
#ifdef SRM
        DC32    DOTHEX_NFA
#else
        DC32    DOTDEC_NFA
#endif
//=============================== UART0_INIT =================================//

// LFA ABOVE NEEDS TO BE WC_NUMBERS_NFA

#if     NXP_M0_11xx | NXP_M0_1115
$FISH_NXP_M0_11xx_UART0_INIT.s
#endif  // NXP_M0_11xx

#ifdef NXP_M0_812
$FISH_NXP_M0_812_UART0_INIT.s
#endif  // NXP_M0_812

// LFA BELOW NEEDS TO BE UART0_INIT_NFA

//      MYBAUD MYBAUD: ( n -- ) BAUD MUST BE in DECIMAL or EQUIVALENT!!!
//      MUST BE USED BEFORE USING UART0_INIT!!!
//      Because FISH does a reset if you invoke a HARD FAULT RESET
//      THIS MECHANISM IS ESSENTIAL TO STAYING AT USER SET BAUDRATE THRU A RESET!
//      SET NON-INIT RAM VARIABLES DBAUD TO ZERO AND UBAUD n.
//      See UART0_INIT

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
DOTDEC_NFA:
        DC8     0x82
        DC8     '.'
        DC8     'D'+0x80
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
MYBAUD_NFA:
        DC8     0x86
        DC8     'MYBAU'
        DC8     'D'+0x80
*****

***** FISH_NXP_M0_IAR.s
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOTHEX_NFA
DOTDEC:
        DC32    DOCOL
        DC32    LIT, 10, DOTBASE
        DC32    SEMIS
#endif  // not SRM

***** FISH_NXP_M0_IARG.S
 ALIGNROM 2,0xFFFFFFFF
        DC32    UART0_INIT_NFA
MYBAUD:
        DC32    DOCOL
        DC32    STRVA, 0, DBAUD
        DC32    LIT, UBAUD, STORE       // SET UBAUD TO NEW BAUD FOR UART0_INIT
        DC32    SEMIS

*****

***** FISH_NXP_M0_IAR.s

//=============================== WORDCAT ====================================//
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_NUMBERS_NFA = NUMBER Stuff: CATEGORY

 SECTION .text : CONST (2)
WC_NUMBERS_NFA:
        DC8     0x80+4+13
        DC8     0x0D, 0x0A
        DC8     'NUMBER Stuff:'
        DC8     0x0D, 0x0A+0x80
 ALIGNROM 2,0xFFFFFFFF
#ifdef SRM
        DC32    DOTHEX_NFA
#else
        DC32    DOTDEC_NFA
#endif
//=============================== UART0_INIT =================================//
***** FISH_NXP_M0_IARG.S


//=============================== UART0_INIT =================================//
*****

***** FISH_NXP_M0_IAR.s

// LFA ABOVE NEEDS TO BE WC_NUMBERS_NFA

#if     NXP_M0_11xx | NXP_M0_1115
$FISH_NXP_M0_11xx_UART0_INIT.s
#endif  // NXP_M0_11xx

#ifdef NXP_M0_812
$FISH_NXP_M0_812_UART0_INIT.s
#endif  // NXP_M0_812

// LFA BELOW NEEDS TO BE UART0_INIT_NFA

//      MYBAUD MYBAUD: ( n -- ) BAUD MUST BE in DECIMAL or EQUIVALENT!!!
//      MUST BE USED BEFORE USING UART0_INIT!!!
//      Because FISH does a reset if you invoke a HARD FAULT RESET
//      THIS MECHANISM IS ESSENTIAL TO STAYING AT USER SET BAUDRATE THRU A RESET!
//      SET NON-INIT RAM VARIABLES DBAUD TO ZERO AND UBAUD n.
//      See UART0_INIT

***** FISH_NXP_M0_IARG.S

//      UART0_LSR UART0_LSR: ( -- value ) of NXP M0 UART 0 Line Status Register
//      11xx:
//      0x40008014 Reset value - 0x60 0b1100000
//      After Init SEEING 0x96 FIRST
//
//      BIT 0 = Receiver Data Ready
//      BIT 0 WHEN 0 = U0RBR is empty
//      BIT 0 WHEN 1 = U0RBR contains valid data.
//
//      BIT 4 = Break Interrupt BI when 1
//
//      BIT 5 = Transmitter Holding Register Empty
//      BIT 5 WHEN 0 = U0THR contains valid data
//      BIT 5 WHEN 1 = U0THR is empty.
//
//      BIT 6 = Transmitter Empty
//      BIT 6 WHEN 0 = U0THR and/or the U0TSR contains valid data.
//      BIT 6 WHEN 1 = U0THR and the U0TSR are empty.

//      81x:
//      UART0_STAT // 40064008h UART0 STAT Line Status Register 

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
MYBAUD_NFA:
        DC8     0x86
        DC8     'MYBAU'
        DC8     'D'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    UART0_INIT_NFA
MYBAUD:
        DC32    DOCOL
        DC32    STRVA, 0, DBAUD
        DC32    LIT, UBAUD, STORE       // SET UBAUD TO NEW BAUD FOR UART0_INIT
        DC32    SEMIS

***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
UART0_LSR_NFA:
        DC8     0x89
        DC8     'UART0_LS'
        DC8     'R'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    MYBAUD_NFA
UART0_LSR:
        DC32    .+5
 SECTION .text : CODE (2)
#if     NXP_M0_11xx | NXP_M0_1115
        LDR     n, = U0LSR
#endif
#ifdef NXP_M0_812
        LDR     n, = UART0_STAT // 40064008h UART0 STAT Line Status Register 
#endif
        LDRB    t, [n]
        TPUSH
 LTORG

*****

***** FISH_NXP_M0_IAR.s


//=============================== UART0_INIT =================================//

//      UART0_LSR UART0_LSR: ( -- value ) of NXP M0 UART 0 Line Status Register
//      11xx:
//      0x40008014 Reset value - 0x60 0b1100000
//      After Init SEEING 0x96 FIRST
//
//      BIT 0 = Receiver Data Ready
//      BIT 0 WHEN 0 = U0RBR is empty
//      BIT 0 WHEN 1 = U0RBR contains valid data.
//
//      BIT 4 = Break Interrupt BI when 1
//
//      BIT 5 = Transmitter Holding Register Empty
//      BIT 5 WHEN 0 = U0THR contains valid data
//      BIT 5 WHEN 1 = U0THR is empty.
//
//      BIT 6 = Transmitter Empty
//      BIT 6 WHEN 0 = U0THR and/or the U0TSR contains valid data.
//      BIT 6 WHEN 1 = U0THR and the U0TSR are empty.

//      81x:
//      UART0_STAT // 40064008h UART0 STAT Line Status Register 

***** FISH_NXP_M0_IARG.S

//      UART0_RX UART0_RX: ( -- addr ) of UART 0 RX Buffer
//      This is the serial terminal.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
UART0_LSR_NFA:
        DC8     0x89
        DC8     'UART0_LS'
        DC8     'R'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    MYBAUD_NFA
UART0_LSR:
        DC32    .+5
 SECTION .text : CODE (2)
#if     NXP_M0_11xx | NXP_M0_1115
        LDR     n, = U0LSR
#endif
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
UART0_RX_NFA:
        DC8     0x88
        DC8     'UART0_R'
        DC8     'X'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    UART0_LSR_NFA
UART0_RX:
#if     NXP_M0_11xx | NXP_M0_1115
        DC32    DOCON, U0RBRTHR
#endif
*****

***** FISH_NXP_M0_IAR.s
#ifdef NXP_M0_812
        LDR     n, = UART0_STAT // 40064008h UART0 STAT Line Status Register 
#endif
        LDRB    t, [n]
        TPUSH
 LTORG


//      UART0_RX UART0_RX: ( -- addr ) of UART 0 RX Buffer
//      This is the serial terminal.
***** FISH_NXP_M0_IARG.S
#ifdef NXP_M0_812
        DC32    DOCON, USART0_RXDAT // 40064014h RXDAT USART0
#endif

//      UART0_TX UART0_TX: ( -- addr ) of UART 0 TX Buffer
//      This is the serial terminal.
*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
UART0_RX_NFA:
        DC8     0x88
        DC8     'UART0_R'
        DC8     'X'+0x80
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
UART0_TX_NFA:
        DC8     0x88
        DC8     'UART0_T'
        DC8     'X'+0x80
*****

***** FISH_NXP_M0_IAR.s
 ALIGNROM 2,0xFFFFFFFF
        DC32    UART0_LSR_NFA
UART0_RX:
#if     NXP_M0_11xx | NXP_M0_1115
***** FISH_NXP_M0_IARG.S
 ALIGNROM 2,0xFFFFFFFF
        DC32    UART0_RX_NFA
UART0_TX:
#if     NXP_M0_11xx | NXP_M0_1115
*****

***** FISH_NXP_M0_IAR.s
#ifdef NXP_M0_812
        DC32    DOCON, USART0_RXDAT // 40064014h RXDAT USART0
#endif
***** FISH_NXP_M0_IARG.S
#ifdef NXP_M0_812
        DC32    DOCON, USART0_TXDAT // 4006401Ch TXDAT USART0
#endif
*****

***** FISH_NXP_M0_IAR.s

//      UART0_TX UART0_TX: ( -- addr ) of UART 0 TX Buffer
//      This is the serial terminal.

***** FISH_NXP_M0_IARG.S


#ifdef XON_XOFF
//      XOFF XOFF: ( -- ) Send XOFF

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
UART0_TX_NFA:
        DC8     0x88
        DC8     'UART0_T'
        DC8     'X'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    UART0_RX_NFA
UART0_TX:
#if     NXP_M0_11xx | NXP_M0_1115
        DC32    DOCON, U0RBRTHR
#endif
#ifdef NXP_M0_812
        DC32    DOCON, USART0_TXDAT // 4006401Ch TXDAT USART0
#endif

***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
XOFF_NFA:
        DC8     0x84
        DC8     'XOF'
        DC8     'F'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    UART0_TX_NFA
XOFF:
        DC32    .+5
 SECTION .text : CODE (2)       // Does not incr OUT and wait for line status
#ifdef IO2TP
        NEXT
#else
        BL      TXRDY_SUBR
        BL      XOFF_SUBR
        NEXT
#endif // #else IO2TP
//#endif // XON_XOFF after XON:

*****

***** FISH_NXP_M0_IAR.s

#ifdef XON_XOFF
//      XOFF XOFF: ( -- ) Send XOFF

***** FISH_NXP_M0_IARG.S

//      XON XON: ( -- ) Send XON

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
XOFF_NFA:
        DC8     0x84
        DC8     'XOF'
        DC8     'F'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    UART0_TX_NFA
XOFF:
        DC32    .+5
 SECTION .text : CODE (2)       // Does not incr OUT and wait for line status
#ifdef IO2TP
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
XON_NFA:
        DC8     0x83
        DC8     'XO'
        DC8     'N'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    XOFF_NFA
XON:
        DC32    .+5
 SECTION .text : CODE (2)       // Does not incr OUT or wait for line status.
#ifdef IO2TP
*****

***** FISH_NXP_M0_IAR.s
#else
        BL      TXRDY_SUBR
        BL      XOFF_SUBR
        NEXT
***** FISH_NXP_M0_IARG.S
#else
// Required, no 'quick send'
        BL      TXRDY_SUBR
        BL      XON_SUBR
        NEXT
*****

***** FISH_NXP_M0_IAR.s
#endif // #else IO2TP
//#endif // XON_XOFF after XON:


//      XON XON: ( -- ) Send XON

***** FISH_NXP_M0_IARG.S
#endif // #else IO2TP
#endif // XON_XOFF

//---------------- EMIT KEY ?KEY CR SECTION ------------------------------

//      SPACES SPACES:  ( n -- )
//      Transmit n ascii blanks (0x20) to the output device.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
XON_NFA:
        DC8     0x83
        DC8     'XO'
        DC8     'N'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    XOFF_NFA
XON:
        DC32    .+5
 SECTION .text : CODE (2)       // Does not incr OUT or wait for line status.
#ifdef IO2TP
        NEXT
#else
// Required, no 'quick send'
        BL      TXRDY_SUBR
        BL      XON_SUBR
        NEXT
#endif // #else IO2TP
#endif // XON_XOFF

//---------------- EMIT KEY ?KEY CR SECTION ------------------------------

//      SPACES SPACES:  ( n -- )
//      Transmit n ascii blanks (0x20) to the output device.

 SECTION .text : CONST (2)
SPACES_NFA:
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
SPACES_NFA:
*****

***** FISH_NXP_M0_IAR.s
        DC32    DOCOL
#ifdef XON_XOFF
// EXEC SETS XOFF SO UNDO IT
        DC32    XON     // USER called or compiled only!
// TEST XON_XOFF TEMINAL COMPLIANCE WITH KEY .S <CR> Send Break to bypass!
//        DC32    XOFF
#endif
        DC32    KEY
        DC32    SEMIS
***** FISH_NXP_M0_IARG.S
        DC32    DOCOL
        DC32    XON     // EXEC SETS XOFF SO UNDO IT
        DC32    KEY     // TE GET KEY!
        DC32    SEMIS
*****

***** FISH_NXP_M0_IAR.s

//:NONAME KEY KEY:      ( -- CH ) 
// This is the FISH System KEY compiled in the FISH RM
// KEY_INTERPRETED_ENTRY is the user interpreted/compiled hi-level version
// That issues XON  before calling this KEY
KEY:
***** FISH_NXP_M0_IARG.S

//:NONAME KEY KEY:      ( -- CH ) 0-7Fh
KEY:
*****

***** FISH_NXP_M0_IAR.s
//!!!!!fixx in nxp
//      WC_FISH_IO_NFA = FISH IO: CATEGORY

***** FISH_NXP_M0_IARG.S
//!!!!!fixx in nxp
//      WC_FISH_IO_NFA = NUMBERS CATEGORY

*****

***** FISH_NXP_M0_IAR.s
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_IRQ_NFA = INTERRUPTS: CATEGORY

***** FISH_NXP_M0_IARG.S
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_IRQ_NFA = NUMBERS CATEGORY

*****

***** FISH_NXP_M0_IAR.s

//-------------------------- PROMPT VECTOR SECTION -----------------------------

//      POFF ( -- )   Set NULL$ address in PROMPT to zero so quit does CR only.

***** FISH_NXP_M0_IARG.S

//-------------------------- DOTDICTSPACE SECTION ------------------------------

//      .DS DOTDICTSPACE:       ( n -- )
//      Prints number of bytes availble in dictionary in DECIMAL using DOT,
//      not affecting Base in the system

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
POFF_NFA:
        DC8     0x84
        DC8     'POF'
        DC8     'F'+0x80
 ALIGNROM 2,0xFFFFFFFF
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
DOTDICTSPACE_NFA:
        DC8     0x83
        DC8     '.D'
        DC8     'S'+0x80
 ALIGNROM 2,0xFFFFFFFF
*****

***** FISH_NXP_M0_IAR.s
        DC32    FLASH_FORGET_NFA
POFF:
        DC32    DOCOL
        DC32    STRVA, 0, PROMPT
        DC32    SEMIS
***** FISH_NXP_M0_IARG.S
        DC32    FLASH_FORGET_NFA
DOTDICTSPACE:
        DC32    DOCOL
        DC32    DICTSPACE
#ifdef SRM
        DC32    BASE_TO_R12     // Save current BASE
        DC32    DECIMAL, DOT
        DC32    BASE_FROM_R12   // Restore BASE
#else
        DC32    DOTDEC          // SAVES BASE
#endif  // SRM
        DC32    LIT, msg_dictspace
        DC32    NULLSTRLEN, TYPE
#ifdef IO2TP
          DC32 NOOP
        DC32    CLRPAD  // Resets OUT
#endif
        DC32    SEMIS
*****

***** FISH_NXP_M0_IAR.s

//      PON ( -- )   Set NULL$ address in PROMPT to msg_MY_OK

***** FISH_NXP_M0_IARG.S


//-------------------------- DOTVARSPACE SECTION -------------------------------

//      .VS DOTVARSPACE:        ( n -- )
//      Prints number of bytes availble in RAM VAR SPACE in DECIMAL using DOT,
//      not affecting Base in the system.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
PON_NFA:
        DC8     0x83
        DC8     'PO'
        DC8     'N'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    POFF_NFA
PON:
        DC32    DOCOL
        DC32    STRVA, msg_MY_OK, PROMPT
        DC32    SEMIS
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
DOTVARSPACE_NFA:
        DC8     0x83
        DC8     '.V'
        DC8     'S'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOTDICTSPACE_NFA
DOTVARSPACE:
        DC32    DOCOL
        DC32    VARSPACE
        DC32    FOUR, SLASH
#ifdef SRM
        DC32    BASE_TO_R12     // Save current BASE
        DC32    DECIMAL, DOT
        DC32    BASE_FROM_R12   // Restore BASE
#else
        DC32    DOTDEC          // SAVES BASE
#endif  // SRM
        DC32    LIT, msg_uvspace
        DC32    NULLSTRLEN, TYPE
#ifdef IO2TP
 DC32 NOOP
        DC32    CLRPAD  // Resets OUT
#endif
        DC32    SEMIS
*****

***** FISH_NXP_M0_IAR.s

//      P ( -- addr )   Address of PROMPT, contains 0 or NULL$ address.

***** FISH_NXP_M0_IARG.S


//      DUMP DUMP:      ( addr n -- )
//      Print adrr and n lines of 4 columns of memory values in hexadecimal.
//      Address must be even and a multiple of 4 else error message issued.
//      QKEY used to abort dump.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
P_NFA:
        DC8     0x81
        DC8     'P'+0x80
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
DUMP_NFA:
        DC8     0x84
        DC8     'DUM'
        DC8     'P'+0x80
*****

***** FISH_NXP_M0_IAR.s
 ALIGNROM 2,0xFFFFFFFF
        DC32    PON_NFA
P:
        DC32    DOCON, PROMPT


//-------------------------- DOTDICTSPACE SECTION ------------------------------

//      .DS DOTDICTSPACE:       ( n -- )
//      Prints number of bytes availble in dictionary in DECIMAL using DOT,
//      not affecting Base in the system

 SECTION .text : CONST (2)
DOTDICTSPACE_NFA:
        DC8     0x83
        DC8     '.D'
        DC8     'S'+0x80
 ALIGNROM 2,0xFFFFFFFF
//      DC32    FLASH_FORGET_NFA
        DC32    P_NFA
DOTDICTSPACE:
        DC32    DOCOL
        DC32    DICTSPACE
#ifdef SRM
        DC32    BASE_TO_R12     // Save current BASE
        DC32    DECIMAL, DOT
        DC32    BASE_FROM_R12   // Restore BASE
#else
        DC32    DOTDEC          // SAVES BASE
#endif  // SRM
        DC32    LIT, msg_dictspace
        DC32    NULLSTRLEN, TYPE
#ifdef IO2TP
***** FISH_NXP_M0_IARG.S
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOTVARSPACE_NFA
DUMP:
        DC32    DOCOL

        DC32    OVER, QALIGNED  // ( -- addr n )
// DON'T SAVE BASE UNTIL AFTER ALIGNED TEST
        DC32    BASE_TO_R12     // Save current BASE
        DC32    HEX
        DC32    ZERO, XDO
DUMP_ADDR_LINE:
        DC32    CR
        DC32    DUP, LIT, 10, DOTRU     // Print addr in Field
        DC32    FOUR, ZERO, XDO         // Four colum loop
DUMP_EACH_LOC:
        DC32    DUP, AT
// Little Endian means addresses will print correctly
// but to see character strings REVW is needed
// but the addresses are scrambled!
//        DC32    REVW                    // Reverse bytes in word
        DC32    LIT, 14, DOTRU          // Diplay in Field
        DC32    FOURP
        DC32    XLOOP
        DC32    DUMP_EACH_LOC-.

#ifdef IO2TP
*****

***** FISH_NXP_M0_IAR.s
#endif
        DC32    SEMIS
***** FISH_NXP_M0_IARG.S
#endif
        DC32    QKEY
        DC32    ZBRAN
        DC32     DUMP_CONT-.
        DC32    LEAVE
DUMP_CONT:
        DC32    XLOOP
        DC32    DUMP_ADDR_LINE-.

        DC32    DROP, CR
        DC32    BASE_FROM_R12   // Restore BASE
        DC32    SEMIS
*****

***** FISH_NXP_M0_IAR.s

//-------------------------- DOTVARSPACE SECTION -------------------------------

//      .VS DOTVARSPACE:        ( n -- )
//      Prints number of bytes availble in RAM VAR SPACE in DECIMAL using DOT,
//      not affecting Base in the system.

***** FISH_NXP_M0_IARG.S

//      VBASE VBASE:    ( -- addr )
//       Return base addr of VAR's .

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
DOTVARSPACE_NFA:
        DC8     0x83
        DC8     '.V'
        DC8     'S'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOTDICTSPACE_NFA
DOTVARSPACE:
        DC32    DOCOL
        DC32    VARSPACE
        DC32    FOUR, SLASH
#ifdef SRM
        DC32    BASE_TO_R12     // Save current BASE
        DC32    DECIMAL, DOT
        DC32    BASE_FROM_R12   // Restore BASE
#else
        DC32    DOTDEC          // SAVES BASE
#endif  // SRM
        DC32    LIT, msg_uvspace
        DC32    NULLSTRLEN, TYPE
#ifdef IO2TP
 DC32 NOOP
        DC32    CLRPAD  // Resets OUT
#endif
        DC32    SEMIS

***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
VBASE_NFA:
        DC8     0x85
        DC8     'VBAS'
        DC8     'E'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DUMP_NFA
VBASE:
        DC32    DOCON,  RAMVARSPACE_START

*****

***** FISH_NXP_M0_IAR.s

//      DUMP DUMP:      ( addr n -- )
//      Print adrr and n lines of 4 columns of memory values in hexadecimal.
//      Address must be even and a multiple of 4 else error message issued.
//      QKEY used to abort dump.

***** FISH_NXP_M0_IARG.S

//      DBASE DBASE:    ( -- addr )
//      Return base addr of the dictionary.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
DUMP_NFA:
        DC8     0x84
        DC8     'DUM'
        DC8     'P'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DOTVARSPACE_NFA
DUMP:
        DC32    DOCOL

        DC32    OVER, QALIGNED  // ( -- addr n )
// DON'T SAVE BASE UNTIL AFTER ALIGNED TEST
        DC32    BASE_TO_R12     // Save current BASE
        DC32    HEX
        DC32    ZERO, XDO
DUMP_ADDR_LINE:
        DC32    CR
        DC32    DUP, LIT, 10, DOTRU     // Print addr in Field
        DC32    FOUR, ZERO, XDO         // Four colum loop
DUMP_EACH_LOC:
        DC32    DUP, AT
// Little Endian means addresses will print correctly
// but to see character strings REVW is needed
// but the addresses are scrambled!
//        DC32    REVW                    // Reverse bytes in word
        DC32    LIT, 14, DOTRU          // Diplay in Field
        DC32    FOURP
        DC32    XLOOP
        DC32    DUMP_EACH_LOC-.

#ifdef IO2TP
          DC32 NOOP
        DC32    CLRPAD  // Resets OUT
#endif
        DC32    QKEY
        DC32    ZBRAN
        DC32     DUMP_CONT-.
        DC32    LEAVE
DUMP_CONT:
        DC32    XLOOP
        DC32    DUMP_ADDR_LINE-.

        DC32    DROP, CR
        DC32    BASE_FROM_R12   // Restore BASE
        DC32    SEMIS

***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
DBASE_NFA:
        DC8     0x85
        DC8     'DBAS'
        DC8     'E'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    VBASE_NFA
DBASE:
        DC32    DOCON,  ORIG

*****

***** FISH_NXP_M0_IAR.s

//      VBASE VBASE:    ( -- addr )
//       Return base addr of VAR's .

***** FISH_NXP_M0_IARG.S

//      RBASE RBASE:    ( -- addr )
//      Return base addr of RAM.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
VBASE_NFA:
        DC8     0x85
        DC8     'VBAS'
        DC8     'E'+0x80
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
RBASE_NFA:
        DC8     0x85
        DC8     'RBAS'
        DC8     'E'+0x80
*****

***** FISH_NXP_M0_IAR.s
 ALIGNROM 2,0xFFFFFFFF
        DC32    DUMP_NFA
VBASE:
        DC32    DOCON,  RAMVARSPACE_START

***** FISH_NXP_M0_IARG.S
 ALIGNROM 2,0xFFFFFFFF
        DC32    DBASE_NFA
RBASE:
        DC32    DOCON,  RAM_START

*****

***** FISH_NXP_M0_IAR.s

//      DBASE DBASE:    ( -- addr )
//      Return base addr of the dictionary.

***** FISH_NXP_M0_IARG.S

//      CLS CLS:        ( -- )
//      Clear serial terminal screen using a formfeed character

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
DBASE_NFA:
        DC8     0x85
        DC8     'DBAS'
        DC8     'E'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    VBASE_NFA
DBASE:
        DC32    DOCON,  ORIG

***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
CLS_NFA:
        DC8     0x83
        DC8     'CL'
        DC8     'S'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    RBASE_NFA
CLS:
        DC32    DOCOL
        DC32    PDOTQ
        DC8     4
        DC8     0x1B, '['       // ESC[ = ANSI VT100 ESC SETUP
        DC8     '2J'            // Clearscreen
 ALIGNROM 2,0xFFFFFFFF
        DC32    PDOTQ
        DC8     4
        DC8     0x1B, '['       // ESC[ = ANSI VT00 ESC SETUP
        DC8     ';H'            // CURSORHOME ( upper left corner )
 ALIGNROM 2,0xFFFFFFFF
        DC32    CR              // Reset OUT
        DC32    SEMIS

*****

***** FISH_NXP_M0_IAR.s

//      RBASE RBASE:    ( -- addr )
//      Return base addr of RAM.

***** FISH_NXP_M0_IARG.S

//      ( PAREN:        ( -- ) IMMEDIATE
//      Used in the form:
//              ( CCcc )
//      Ignore comments within parenthesis. A right parenthesis ends comment.
//      The comments may be multi-line but a space or tab is required
//      for any line that is otherwise empty for formatting purposes,
//      else a comment error will be printed. May occur during execution or in a
//      colon-definition. A blank after the leading parenthesis is required.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
RBASE_NFA:
        DC8     0x85
        DC8     'RBAS'
        DC8     'E'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    DBASE_NFA
RBASE:
        DC32    DOCON,  RAM_START


//      CLS CLS:        ( -- )
//      Clear serial terminal screen using a formfeed character

 SECTION .text : CONST (2)
CLS_NFA:
        DC8     0x83
        DC8     'CL'
        DC8     'S'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    RBASE_NFA
CLS:
        DC32    DOCOL
        DC32    PDOTQ
        DC8     4
        DC8     0x1B, '['       // ESC[ = ANSI VT100 ESC SETUP
        DC8     '2J'            // Clearscreen
 ALIGNROM 2,0xFFFFFFFF
        DC32    PDOTQ
        DC8     4
        DC8     0x1B, '['       // ESC[ = ANSI VT00 ESC SETUP
        DC8     ';H'            // CURSORHOME ( upper left corner )
 ALIGNROM 2,0xFFFFFFFF
        DC32    CR              // Reset OUT
        DC32    SEMIS
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
PAREN_NFA:
        DC8     0x0C1
        DC8     '('+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    CLS_NFA
PAREN:
// Slow Single line comment
//      DC32    DOCOL, LIT, ')', WORD, SEMIS
        DC32    DOCOL
PML_LOOP:
        DC32    LIT, ')'
        DC32    TIB_CHAR_SCAN   // ( c -- f )
//
        DC32    ZEQU            // If null
        DC32    ZBRAN           // found fall thru
        DC32      PE_DONE-.     // else were done

// GET ANOTHER LINE
        DC32    CR
        DC32    QUERY
//  AND IF ONLY CR (null) ERR
//        DC32    TIB_SV, CAT
        DC32    LIT, TIB+1, CAT // PAST COUNT BYTE
        DC32    ZBRAN
        DC32      PAREN_ERR-.

//  If closing paren not in this line LOOP
        DC32    BRAN
        DC32      PML_LOOP-.

PE_DONE:
        DC32    SEMIS
*****

***** FISH_NXP_M0_IAR.s


//      ( PAREN:        ( -- ) IMMEDIATE
//      Used in the form:
//              ( CCcc )
//      Ignore comments within parenthesis. A right parenthesis ends comment.
//      The comments may be multi-line but a space or tab is required
//      for any line that is otherwise empty for formatting purposes,
//      else a comment error will be printed. May occur during execution or in a
//      colon-definition. A blank after the leading parenthesis is required.

***** FISH_NXP_M0_IARG.S

PAREN_ERR:
        DC32    LIT, msg_paren_err
        DC32    NULLSTRLEN, TYPE        // Passed in null string
        DC32    SEMIS


//      BACKSLASH BACKSLASH:    ( --  )
//      After a trailing space treat the rest of the line as a comment.
//      By setting a null terminator in TIB

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
PAREN_NFA:
        DC8     0x0C1
        DC8     '('+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    CLS_NFA
PAREN:
// Slow Single line comment
//      DC32    DOCOL, LIT, ')', WORD, SEMIS
        DC32    DOCOL
PML_LOOP:
        DC32    LIT, ')'
        DC32    TIB_CHAR_SCAN   // ( c -- f )
//
        DC32    ZEQU            // If null
        DC32    ZBRAN           // found fall thru
        DC32      PE_DONE-.     // else were done

// GET ANOTHER LINE
        DC32    CR
        DC32    QUERY
//  AND IF ONLY CR (null) ERR
//        DC32    TIB_SV, CAT
        DC32    LIT, TIB+1, CAT // PAST COUNT BYTE
        DC32    ZBRAN
        DC32      PAREN_ERR-.

//  If closing paren not in this line LOOP
        DC32    BRAN
        DC32      PML_LOOP-.

PE_DONE:
        DC32    SEMIS
***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
BACKSLASH_NFA:
        DC8     0x0C1
        DC8     '\\'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    PAREN_NFA
BACKSLASH:
        DC32    DOCOL
        DC32    ZERO, TIB_SV, IN_SV, AT, PLUS, CSTORE
        DC32    SEMIS
*****

***** FISH_NXP_M0_IAR.s

PAREN_ERR:
        DC32    LIT, msg_paren_err
        DC32    NULLSTRLEN, TYPE        // Passed in null string
        DC32    SEMIS


//      BACKSLASH BACKSLASH:    ( --  )
//      After a trailing space treat the rest of the line as a comment.
//      By setting a null terminator in TIB

***** FISH_NXP_M0_IARG.S


//      SYSCLK SYSCLK:  ( -- value )
//      Returns system clock value in Hz, i.e. 48000000 = 48Mhz.

*****

***** FISH_NXP_M0_IAR.s
 SECTION .text : CONST (2)
BACKSLASH_NFA:
        DC8     0x0C1
        DC8     '\\'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    PAREN_NFA
BACKSLASH:
        DC32    DOCOL
        DC32    ZERO, TIB_SV, IN_SV, AT, PLUS, CSTORE
        DC32    SEMIS

***** FISH_NXP_M0_IARG.S
 SECTION .text : CONST (2)
SYSCLK_NFA:
        DC8     0x86
        DC8     'SYSCL'
        DC8     'K'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    BACKSLASH_NFA
SYSCLK:
        DC32    .+5
 SECTION .text : CODE (2)
        LDR     n, = SYSCLOCK   // SystemCoreClock
        LDR     t, [n]
        TPUSH   // Push -- t
 LTORG   //Always outside of code, else data in words

*****

***** FISH_NXP_M0_IAR.s

//      SYSCLK SYSCLK:  ( -- value )
//      Returns system clock value in Hz, i.e. 48000000 = 48Mhz.

 SECTION .text : CONST (2)
SYSCLK_NFA:
        DC8     0x86
        DC8     'SYSCL'
        DC8     'K'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    BACKSLASH_NFA
SYSCLK:
        DC32    .+5
 SECTION .text : CODE (2)
        LDR     n, = SYSCLOCK   // SystemCoreClock
        LDR     t, [n]
        TPUSH   // Push -- t
 LTORG   //Always outside of code, else data in words

***** FISH_NXP_M0_IARG.S

//      STCTR   ( -- addr ) SYSTICK Interrupt increments this with 32but wrap.
//      STI_ON: 7 E000E010h !  STI_OFF: 5 E000E010h ! E000E010h @ .H
 SECTION .text : CONST (2)
STCTR_NFA:
        DC8     0x85
        DC8     'STCT'
        DC8     'R'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    SYSCLK_NFA
STCTR:
        DC32    DOCON, STICKER

*****

***** FISH_NXP_M0_IAR.s

//      STCTR   ( -- addr ) SYSTICK Interrupt increments this with 32but wrap.
//      STI_ON: 7 E000E010h !  STI_OFF: 5 E000E010h ! E000E010h @ .H
 SECTION .text : CONST (2)
STCTR_NFA:
        DC8     0x85
        DC8     'STCT'
        DC8     'R'+0x80
 ALIGNROM 2,0xFFFFFFFF
        DC32    SYSCLK_NFA
STCTR:
        DC32    DOCON, STICKER


//      DELAY ( n value -- ) 7 E000E010h !   5 E000E010h !
***** FISH_NXP_M0_IARG.S

//      DELAY ( n value -- ) 7 E000E010h !   5 E000E010h !
*****

***** FISH_NXP_M0_IAR.s
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_FISH_PubRel: = FISH Reference Model: CATEGORY
 SECTION .text : CONST (2)
***** FISH_NXP_M0_IARG.S
//NOEXEC HEADERFORWORDCATEGORIES
//      WC_FISH_PubRel: = FISH PubRel SYSTEM CATEGORY
 SECTION .text : CONST (2)
*****