- c3 implements a stack-based, byte-coded Forth VM.
- c3's opcodes implement many of the standard Forth operations.
- On 64-bit systems, c3 supports IEEE-754 double-precision (64-bit) floating point numbers.
- On 32-bit systems, c3 supports IEEE-754 single-precision (32-bit) floating point numbers.
- c3 provides 10 "virtual registers", r0 thru r9.
- Each register has 6 operations: rX, sX, iX, dX, rX+, and rX-.
- c3 provides 10 temporary words, T0 thru T9.
- T0-T5 are "normal" words, T6-T8 are INLINE, and T9 is IMMEDIATE.
The goals for c3 are:
- To have an implementation that is minimal and "intuitively obvious upon casual inspection".
- To be very easy to extend as desired.
- To provide as much flexibility to the programmer as possible.
- To be able to run on Windows, Linux, Apple, and development boards via the Arduino IDE.
- c3 is NOT an ANSI-standard Forth system.
- Strings in c3 are null-terminated, not counted.
- The user can add counted strings if desired.
- There are 2 separate memory areas: CODE and VARS.
- The dictionary starts at the end of the CODE area and grows down.
- The dictionary search is not case-sensitive.
c3 exposes 10 "virtual registers", r0 thru r9. There are 8 register operations: +regs, rX, rX+, rX-, sX, iX, dX, -regs. The names of the register words are case-sensitive: (r0-r9, not R0-R9). They can be used as local or global variables.
Note: The support for registers is built into c3, so they do NOT show up in "WORDS".
Operation | Description |
---|---|
+regs | allocate 10 new registers. |
r4 | push register 4 to the stack. |
r4+ | push register 4 to the stack, then increment it. |
r4- | push register 4 to the stack, then decrement it. |
s4 | set register 4 from TOS. |
i4 | increment register 4. |
d4 | decrement register 4. |
-regs | restore the registers to their previous values. |
Some example uses of registers:
: btw ( n l h--f ) +regs s3 s2 s1 r2 r1 < r1 r3 < and -regs ;
: btwi ( n l h--f ) +regs s3 s2 s1 r2 r1 <= r1 r3 <= and -regs ;
: 2swap ( a b c d--c d a b ) +regs s4 s3 s2 s1 r3 r4 r1 r2 -regs ;
: cmove ( f t n-- ) +regs s3 s2 s1 r3 0 do r1+ c@ r2+ c! loop -regs ;
: cfill ( a c n-- ) +regs s3 s2 s1 r3 0 do r2 r1+ c! loop -regs ;
c3 provides 10 temporary words, T0 thru T9.
- Defining a temporary word does not add an entry to the dictionary.
- Temporary words are intended to be helpful in factoring code.
- A temporary word can be redefined as often as desired.
- When redefined, code references to the previous definition are unchanged.
- T0-T5 are "normal" words, T6-T8 are INLINE, and T9 is IMMEDIATE.
- The names of the temporary words are case-sensitive (T0-T9, not t0-t9).
An example usage of temporary words:
\ The Babylon square root algorithm
: T0 ( n--sqrt ) dup 4 / begin >r dup r@ / r@ + 2 / dup r> - 0= until nip ;
: sqrt ( n--0|sqrt ) dup 0 > if T0 else drop 0 then ;
In c3, an "INLINE" word is like a macro. When compiling a word that is INLINE, c3 copies the contents of the word (up to, but not including the first EXIT) to the target, as opposed to compiling a CALL to the word. This improves performance and often saves space as well. This is especially true on a 64-bit system, where the CELL size is 8.
Note that if a word might have an embedded 3 (EXIT) in its implementation (like an address for example), then it should not be marked as INLINE.
ZTYPE and ." support outputting values from the stack, similar to what printf()
does in C.
For example: : ascii 127 32 DO I I I I ." %n%d: (%c) %x %b" LOOP ;
Op | Stack | Description |
---|---|---|
%b | (N--) | Output N as a binary number |
%c | (C--) | Output C as a character |
%d | (N--) | Output N as an integer (base 10) |
%e | (--) | Output an ESCAPE (27) |
%f | (F--) | Output F as a floating point number |
%g | (F--) | Output F as a scientific number |
%i | (N--) | Output N as an integer (current base) |
%n | (--) | Output a CR/LF (13,10) |
%q | (--) | Output the quote character (") |
%s | (S--) | Output S as a string (S is null terminated, not counted) |
%t | (--) | Output a TAB (9) |
%x | (N--) | Output N as a hex number |
When c3 starts, it defines words for the c3 VM opcodes.
c3 has a simple "machine language parser" that can create words in c3's "machine language". The keyword for that is "-ML-".
For example, the c3 opcode for "exit word" is 3, and "duplicate the top of the stack" is 12. Some examples:
WORD | Opcode | Description |
---|---|---|
EXIT | 3 | Exit word |
DUP | 12 | Duplicate TOS |
INLINE | 47,0 | Mark the last word as INLINE |
IMMEDIATE | 47,1 | Mark the last word as IMMEDIATE |
: | 47,6 | Define a new word |
; | 47,7 | End word definition |
The above words are defined as follows:
-ML- EXIT 3 3 -MLX-
-ML- DUP 12 3 -MLX-
-ML- INLINE 47 0 3 -MLX-
-ML- IMMEDIATE 47 1 3 -MLX-
-ML- : 47 6 3 -MLX-
-ML- ; 47 7 3 -MLX- IMMEDIATE
c3 also defines some 'system-info' words (the addresses of system variables and sizes of buffers).
Everything else can be defined from those. See file 'block-001.fth' for details.
Note that this approach gives the user the maximum flexibility. Opcode 12 does not have to be called "DUP", it could just as easily be "(N--NN)" (or "foo--foo/foo", or whatever). But DUP is clear and concise, so that its default name. :)
A dictionary entry looks like this:
Field | Type | Description |
---|---|---|
xt: | cell_t | either 32-bit or 64-bit |
flags: | byte | IMMEDIATE=$01, INLINE=$02 |
lexicon: | byte | the lexicon the word is in |
len: | byte | length of the name |
name: | char[NAME_LEN+1] | NULL terminated |
C3 supports a simple way to organize words using lexicons.
- A lexicon identifier is a number between 0 and 255.
- The current lexicon is set using
LEX!
. - Lexicons have no effect on the dictionary search.
- When the lexicon <> 0, then
words
prints only the words in the current lexicon. - When the lexicon == 0, then
words
prints all the words in the dictionary. - The default/c3 lexicon is #0.
- The default NAME_LEN is 28.
- The default CODE_SZ is 128K bytes (code and dictionary).
- The default VARS_SZ is 4MB bytes (strings and variables).
- The default STK_SZ is 256 CELLS (data and return stacks).
- The default LSTK_SZ is 150 CELLS (loop stack, multiple of 3).
- The default REGS_SZ is 500 CELLS (register stack, multiple of 10).
- These are defined in the c3.h file.
- Windows: there is a c3.sln file for Visual Studio
- You can use the either configuration (x86 or x64)
- Linux: there is a makefile
- "make c3" builds the 64-bit version, c3
- "make c3-32" builds the 32-bit version, c3-32
- "make" builds both versions
- Apple: I do not have an Apple, so I cannot build for Apples
- But c3 is minimal enough that it should be easy to port to an Apple system
- Arduino: there is a c3.ino file
- I use the Arduino IDE v2.0
- File
c3.h
controls parameters for the target board - Edit the section where isBOARD is defined to set the configuration for the board
- For the RPI Pico and Teensy 4.x, I use:
- CODE_SZ: 64*1024
- VARS_SZ: 96*1024
- STK_SZ: 128
- LSTK_SZ: 3*25 // 25 nested loops
- REGS_SZ; 10*25 // 25 nested +REGS
- TIB_SZ; 128
- NAME_LEN: 17
- For the RPI Pico:
- Use the arduino-pico from earlephilhower (https://github.com/earlephilhower/arduino-pico)
- The version must be 4.2.0 or later. Versions older than 4.0.0 do not support boards using the RP2350 microcontroller.
- Use
#define _PicoFS_
to include support for LittleFS
- For the Teensy-4.x:
- Use
#define _TeensyFS_
to include support for LittleFS
- Use
Opcode | Word | Stack | Description |
---|---|---|---|
0 | STOP | (--) | Stops the runtime engine |
1 | LIT1 | (--B) | Pushes next BYTE onto the stack |
2 | LIT | (--N) | Pushes next CELL onto the stack |
(LIT) | (--N) | OPCODE for LITERAL (INLINE) | |
3 | EXIT | (--) | Exit word |
(EXIT) | (--N) | OPCODE for EXIT (INLINE) | |
4 | CALL | (--) | Call: next CELL is address, handles call-tail optimization |
(CALL) | (--N) | OPCODE for CALL (INLINE) | |
5 | JMP | (--) | Jump: next CELL is address |
(JMP) | (--N) | OPCODE for JMP | |
6 | JMPZ | (N--) | Jump if TOS==0: next CELL is address |
(JMPZ) | (--N) | OPCODE for JMPZ | |
7 | JMPNZ | (N--N) | Jump if TOS!=0: next CELL is address (no POP!) |
(JMPNZ) | (--N) | OPCODE for JMPNZ | |
8 | ! | (N A--) | Store CELL N to address A |
(STORE) | (--N) | OPCODE for STORE (!) | |
9 | C! | (B A--) | Store BYTE B to address A |
10 | @ | (A--N) | Fetch CELL N FROM address A |
(FETCH) | (--N) | OPCODE for FETCH (@) | |
11 | C@ | (A--B) | Fetch BYTE B FROM address A |
12 | DUP | (N--N N) | Duplicate TOS |
(DUP) | (--N) | OPCODE for DUP | |
15 | DROP | (A B--A) | Discard TOS |
13 | SWAP | (A B--B A) | Swap TOS and NOS |
14 | OVER | (A B--A B A) | Push a copy of NOS |
16 | + | (A B--C) | C: A + B |
17 | * | (A B--C) | C: A * B |
18 | /MOD | (A B--M Q) | M: A modulo B, Q: A divided by B |
19 | - | (A B--C) | C: A - B |
20 | 1+ | (A--B) | Increment TOS |
21 | 1- | (A--B) | Decrement TOS |
22 | < | (A B--F) | If A<B, F=1, else F=0 |
23 | = | (A B--F) | If A=B, F=1, else F=0 |
24 | > | (A B--F) | If A>B, F=1, else F=0 |
25 | 0= | (N--F) | If N=0, F=1, else F=0 |
26 | >R | (N--) | Move N to return stack |
27 | R@ | (--N) | N: Copy of top of return stack |
28 | R> | (--N) | N: Top of return stack (popped) |
29 | DO | (T F--) | Begin a loop from F to T, set I = F |
30 | LOOP | (--) | Increment I. Jump to DO if I<T |
31 | -LOOP | (--) | Decrement I. Jump to DO if I>T |
32 | (I) | (--A) | A: Address of I, the loop index |
33 | INVERT | (A--B) | B: Ones-complement of A |
34 | AND | (A B--C) | C: A bitwise-AND B |
35 | OR | (A B--C) | C: A bitwise-OR B |
36 | XOR | (A B--C) | C: A bitwise-XOR B |
37 | TYPE | (A N--) | EMIT N chars from address A (Standard Forth TYPE) |
38 | ZTYPE | (A--) | Output formatted chars at address A to (output_fp) |
(ZTYPE) | (--N) | OPCODE for ZTYPE | |
39,X | iX | (--) | Increment register X |
40,X | dX | (--) | Decrement register X |
41,X | rX | (--N) | N: value of register X |
42,X | rX+ | (--N) | N: value of register X, then decrement it |
43,X | rX- | (--N) | N: value of register X, then increment it |
44,X | sX | (N--) | Set regiser X to TOS |
45 | +REGS | (--) | Allocate 10 new registers (add 10 to REG-BASE) |
46 | -REGS | (--) | Restore last set of registers (subtract 10 from REG-BASE) |
(-REGS) | (--46) | Opcode for -REGS |
Opcode | Word | Stack | Description |
---|---|---|---|
47,0 | INLINE | (--) | Mark the last word in the dictionary as INLINE |
47,1 | IMMEDIATE | (--) | Mark the last word in the dictionary as IMMEDIATE |
47,2 | (.) | (I--) | Perform ITOA on I, then QTYPE it (no trailing space) |
47,3 | UNUSED | Not used so words can be marked as INLINE | |
47,4 | ITOA | (I--SZ) | Convert I to string SZ in the current BASE |
47,5 | ATOI | (SZ--I F) | Convert string SZ to I. If successful, (I 1) else only (0) |
47,6 | : | (--) | Execute NEXT-WORD, add A to the dictionary, set STATE=1 |
47,7 | ; | (--) | Compile EXIT to code,then set STATE=0 |
47,8 | CREATE | (--) | Execute NEXT-WORD, add A to the dictionary |
-- NOTE: when new word is executed, pushes VHERE | |||
-- NOTE: must use with DOES> or compile EXIT | |||
47,9 | ' | (--XT FL F) | Execute NEXT-WORD, search for A. If found, (XT FL 1), else only (0) |
47,10 | NEXT-WORD | (--A N) | A: Address of the next word from the input stream, N: length of A |
47,11 | TIMER | (--N) | N: current system time in milliseconds |
47,12 | C, | (B--) | Standard Forth "C," |
47,13 | , | (N--) | Standard Forth "," |
47,14 | KEY | (--B) | B: next keypress, wait if necessary |
47,15 | ?KEY | (--F) | If key was pressed, F=1, else F=0 |
47,16 | EMIT | (C--) | Output CHAR C to (output_fp) |
47,17 | QTYPE | (A--) | Quick-type: Output string A to (output_fp), no formatting |
Opcode | Word | Stack | Description |
---|---|---|---|
48,0 | S-TRUNC | (S--) | Truncate string S |
48,1 | LCASE | (C1--C2) | C2: char C1 converted to lowercase |
48,2 | UCASE | (C1--C2) | C2: char C1 converted to uppercase |
48,3 | UNUSED | Not used so words can be marked as INLINE | |
48,4 | S-CPY | (D S--) | Copy string S to string D |
48,5 | S-CAT | (D S--) | Concatenate string S to string D |
48,6 | S-CATC | (D C--) | Concatenate char C to string D |
48,7 | S-LEN | (S--N) | N: length of string S |
48,8 | S-EQ | (S1 S2--F) | F: 1 if S1 = S2, else 0 (case sensitive) |
48,9 | S-EQI | (S1 S2--F) | F: 1 if S1 = S2, else 0 (not case sensitive) |
48,10 | S-EQN | (S1 S2 N--F) | F: 1 if the first N chars in S1 and S2 are the same, else 0 |
48,11 | S-LTRIM | (S1--S2) | S2: Address >= S1 where (S2[0]=0) or (S2[0]>32) |
48,12 | S-RTRIM | (S--S) | S: The string to be right-trimmed |
48,13 | S-FINDC | (C S--A | 0) |
Opcode | Word | Stack | Description |
---|---|---|---|
49,0 | F+ | (F1 F2--F3) | Add F1 and F2, leaving F3 |
49,1 | F- | (F1 F2--F3) | Subtract F2 from F1, leaving F3 |
49,2 | F* | (F1 F2--F3) | Multiply F1 and F2, leaving F3 |
49,3 | UNUSED | Not used so words can be marked as INLINE | |
49,4 | F/ | (F1 F2--F3) | Divide F1 by F2, leaving F3 |
49,5 | F= | (F1 F2--F) | F: 1 if F1 = F2, else 0 |
49,6 | F< | (F1 F2--F) | F: 1 if F1 < F2, else 0 |
49,7 | F> | (F1 F2--F) | F: 1 if F1 > F2, else 0 |
49,8 | F2I | (F1--N) | Convert double F1 into an integer N |
49,9 | I2F | (N--F1) | Convert integer N into a double F1 |
49,10 | F. | (F1--) | Output F1 using the "%g" C format string |
49,11 | SQRT | (F1--F2) | F2: the square root of F1 |
49,12 | TANH | (F1--F2) | F2: the hyperbolic tangent of F1 |
Opcode | Word | Stack | Description |
---|---|---|---|
100 | SYSTEM | (A--) | Call system(A) |
101 | FOPEN | (NM MD--H) | NM: FileName, MD: Mode (e.g. - "rt"), H: Handle |
102 | FCLOSE | (H--) | Close file with handle H |
103 | FREAD | (A N H--R) | Read N bytes from file H to address A, R: num-read, 0 means EOF |
104 | FWRITE | (A N H--) | Write N bytes to file H from address A |
105 | FGETS | (A N H--L) | Read one line from file H to address A |
N: size of buffer, L: length, 0 means EOF | |||
106 | (LOAD) | (NM--) | Load from file NM |
107 | LOAD | (NM--) | Load from Block N |
108 | EDIT | (N--) | Edit Block N |
Opcode | Word | Stack | Description |
---|---|---|---|
110 | PIN-INPUT | (P--) | pinMode(P, INPUT) |
111 | PIN-OUTPUT | (P--) | pinMode(P, OUTPUT) |
112 | PIN-PULLUP | (P--) | pinMode(P, INPUT_PULLUP) |
113 | DPIN@ | (P--N) | N = digitalRead(P) |
114 | APIN@ | (P--N) | N = analogRead(P) |
115 | DPIN! | (N P--) | digitalWrite(P, N) |
116 | APIN! | (N P--) | analogWrite(P, N) |
Word | Stack | Description |
---|---|---|
VERSION | (--N) | N: c3 version*100 (e.g. - 147 => v1.47). |
CODE | (--A) | A: Start address for the CODE area. |
CODE-SZ | (--N) | A: The size of the CODE area in bytes. |
VARS | (--A) | A: Start address for the VARIABLES area. |
VARS-SZ | (--N) | N: The size of the VARIABLES area in bytes. |
(REGS) | (--A) | A: Start address for the REGISTERS (REGS_SZ CELLs). |
(INPUT_FP) | (--A) | A: Address of the input file handle. |
(OUTPUT_FP) | (--A) | A: Address of the output file handle. |
(HERE) | (--A) | A: Address of the HERE variable. |
(LAST) | (--A) | A: Address of the LAST variable. |
(VHERE) | (--A) | A: Address of the VHERE variable. |
(STK) | (--A) | A: Address of the stack. |
(SP) | (--A) | A: Address of the stack pointer. |
(RSP) | (--A) | A: Address of the return stack pointer. |
(LSP) | (--A) | A: Address of the loop stack pointer. |
BASE | (--A) | A: Address of the BASE variable. |
STATE | (--A) | A: Address of the STATE variable. |
TIB | (--A) | A: Address of TIB (text input buffer). |
>IN | (--A) | A: Address of >IN. |
(LEXICON) | (--A) | A: Address of the lexicon variable. |
WORD-SZ | (--N) | N: size of a dictionary entry in bytes. |
CELL | (--N) | N: size of a CELL in bytes. |
WORD | STACK | Description |
---|---|---|
\ | (--) | Line comment |
[ | (--) | Set STATE=0 |
] | (--) | SET STATE=1 |
LAST | (--A) | Address of the most recently created WORD |
HERE | (--A) | Address of the next free byte in the CODE area |
code-end | (--A) | Address of the end of the CODE area |
vars-end | (--A) | Address of the end of the VARS area |
++ | (A--) | Increment CELL at A |
-- | (A--) | Decrement CELL At A |
VHERE | (--A) | Address of the next free byte in the VARS area |
ALLOT | (N--) | Add N to VHERE |
vc, | (B--) | C, to the VARS area |
v, | (N--) | , to the VARS area |
CELLS | (A--B) | B: A * CELL |
CELL+ | (A--B) | B: A + CELL |
DOES> | (--) | Defines the behavior of words created using "CREATE" |
CONSTANT nm | (N--) | Defines word "nm" that pushes N when executed. |
VARIABLE nm | (--) | Defines word "nm" that pushes an addess when executed. ALLOTs a CELL |
val nm1 | (--) | Defines "nm1" to push a number onto the stack when executed. |
>val nm2 | (N--) | Defines "nm2" to set N to nm1 |
(val) nm3 | (--A) | Defines "nm3" to push the address of nm1 |
:NONAME | (--A) | A: HERE. Sets STATE=1 |
EXEC | (A--) | Jumps to address A |
IF | (F--) | If F=0, jump to ELSE or THEN |
ELSE | (--) | If F<>0 (from IF), jump here |
THEN | (--) | End of IF or IF/ELSE |
BEGIN | (--) | Start a LOOP |
UNTIL | (F--) | If F<>0 jump to BEGIN |
AGAIN | (--) | Jump to BEGIN |
WHILE | (F--) | If F=0, jump to instruction after REPEAT |
REPEAT | (--) | Jump to BEGIN (resolves WHILE) |
FOR | (N--) | Begin a loop of N iterations |
NEXT | (--) | Next iteration |
-EXIT | (--) | Compile -REGS and EXIT |
-if | (F--F) | Non-destructive IF |
-until | (F--F) | Non-destructive UNTIL |
-while | (F--F) | Non-destructive WHILE |
TUCK | (A B--B A B) | Tuck TOS before NOS |
NIP | (A B--B) | Drop NOS |
2DUP | (A B--A B A B) | Duplicate top 2 items |
2DROP | (A B--) | Drop top 2 items |
?DUP | (F--F?) | If F<>0, duplicate it |
/ | (A B--C) | C: A/B |
mod | (A B--C) | C: A modulo B |
+! | (N A--) | Add N to value at A |
c++ | (A--) | Increment BYTE at A |
2* | (A--B) | B: A*2 |
2/ | (A--B) | B: A/2 |
2+ | (A--B) | B: A+2 |
<= | (A B--F) | F: if A<=B then 1 else 0 |
>= | (A B--F) | F: if A>=B then 1 else 0 |
<> | (A B--F) | F: if A<>B then 1 else 0 |
RDROP | (R:A--) | Drop top of RETURN stack |
ROT | (A B C--B C A) | Rotate A to TOS |
( | (--) | Skip until ')' or EOL |
bl | (--C) | C: 32 (SPACE) |
tab | (--C) | C: 9 (TAB) |
cr | (--) | Output a NL (CR/LF) |
space | (--) | Output a SPACE |
. | (N--) | Print N in the current BASE |
NEGATE | (A--B) | B: -A |
ABS | (A--B) | B: if A<0 then -A else A |
min | (A B--C) | C: if A<B then A else B |
max | (A B--C) | C: if A>B then A else B |
btw | (N L H--F) | F: if L<=N and N<=H then 1 else 0 |
I | (--N) | Index of the current loop |
J | (--N) | Index of the next outer loop |
+I | (N--) | Add N to the index (+1 is still added at LOOP) |
+LOOP | (N--) | Add N to the index and LOOP |
UNLOOP | (--) | Unwind the loop stack (does NOT exit the loop) |
0SP | (--) | Empty/reset the stack |
DEPTH | (--N) | N: the number of items on the stack |
.S | (--) | Output the stack using the current BASE |
dump | (F N--) | Output N bytes starting from F in the current BASE |
" str" | (--A) | A: the address of "str" |
." hi" | (--) | Output "hi" |
.word | (A--) | Output the name of the word at A |
word-len | (A--N) | N: the length of the word at A |
WORDS | (--C | Output the words in the dictionary |
BINARY | (--) | Set the BASE to 2 |
DECIMAL | (--) | Set the BASE to 10 |
HEX | (--) | Set the BASE to 16 |
? | (A--) | Output the value of the CELL at A |
LSHIFT | (A B--C) | C: A << B |
RSHIFT | (A B--C) | C: A >> B |
LOAD | (--) | Load from file "fn" |
LOAD-ABORT | (--) | Stop loading from file |
LOADED? | (A B C--) | Stops loading from file if C <> 0 |
MARKER | (--) | Remember HERE, LAST, and VHERE |
FORGET | (--) | Reset HERE, LAST, and VHERE to remembered values |
FORGET-1 | (--) | Remove the most recent entry from the dictionary |
On startup, c3 does the following to bootstrap itself:
- The first parameter (if provided) is assumed to be the root folder for searching.
- Create words to define its primitives.
- Create system-information words.
- If SYS_LOAD is defined, load the words defind in 'sys-load.cpp'.
- If SYS_LOAD is not defined, try to load block-001.fth from the following locations (in order):
- The current folder, "."
- On Windows:
- (root)\c3
- (root)\bin
- On Linux:
- (root)/.local/c3
- (root)/.local/bin
- For every other parameter on the command line:
- IF c3 can open argv[N] as a file, queue it up to be loaded.
- IF argv[N] can be converted to a number, set rN to that number
-
- ELSE, set rN to argv[N] (e.g. - rN QTYPE will output the parameter)
Running this (under Linux): "c3 ~ $100 test.txt" will:
- Set the root folder for startup file searches to "~"
- Set r2 to #256
- Set r3 to the address where "test.txt" starts.
Running this (under Windows): "c3 e: $100 test.txt" will:
- Set the root folder for startup file searches to "e:"
- Set r2 to #256
- Set r3 to the address where "test.txt" starts.
If for any reason, there is a need/desire to add more opcodes to c3, this section describes how it can be accomplished.
For example, there might be some functionality in a library you want to make available, or maybe there is a bottleneck in performance you want to improve.
Here is the process:
-
For a global opcode:
- In c3.cpp, add the new opcode(s) to the appropriate enum.
- In c3.cpp, add a NCASE to run() to for each new opcode.
- In c3.cpp, add a "-ML-" line to LoadC3Words() for each new opcode.
- Update your README.md.
-
For a target-specific opcode:
- All work is done in the target's *.cpp file (e.g. - sys-pc.cpp or c3.ino).
- Add the new opcodes(s) to the enum near the beginning of the file.
- Target-specific opcodes should have values above 100.
- Edit function 'loadUserWords()' and add a "-ML-" line for each new opcode.
- For example: to define opcode 120 as "NEWOP" ... parseF("-ML- NEWOP %d 3 -MLX- inline", NEWOP);
- In doUser(), add cases for the new opcode(s).
- Update your README.md.