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forth: add bin dict compilation stage!

Big one.

This allows us to write higher order words directly in Forth, which is much
more convenient than writing post-immediate (see "NOT" structure in diff if
you want to see what I mean) structures in ASM.

These structures can then be written to ROM (rather than loaded in RAM for
definitions loaded at run-time).

That's quite a bit of tooling that was added, 2 compilations stages, but I
think it's well worth it.
This commit is contained in:
Virgil Dupras 2020-03-12 00:14:44 -04:00
parent f89e7bd503
commit a8e573c84a
9 changed files with 194 additions and 128 deletions

9
apps/forth/core.fth Normal file
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@ -0,0 +1,9 @@
: ? @ . ;
: +! SWAP OVER @ + SWAP ! ;
: ALLOT HERE +! ;
: VARIABLE CREATE 2 ALLOT ;
: CONSTANT CREATE HERE @ ! DOES> @ ;
: NOT IF 0 ELSE 1 THEN ;
: = CMP NOT ;
: < CMP 0 1 - = ;
: > CMP 1 = ;

View File

@ -663,123 +663,5 @@ RECURSE:
push hl \ pop iy
jp compiledWord
; End of native words
; ( a -- )
; @ .
.db "?"
.fill 7
.dw RECURSE
FETCHDOT:
.dw compiledWord
.dw FETCH
.dw DOT
.dw EXIT
; ( n a -- )
; SWAP OVER @ + SWAP !
.db "+!"
.fill 6
.dw FETCHDOT
STOREINC:
.dw compiledWord
.dw SWAP
.dw OVER
.dw FETCH
.dw PLUS
.dw SWAP
.dw STORE
.dw EXIT
; ( n -- )
; HERE +!
.db "ALLOT"
.fill 3
.dw STOREINC
ALLOT:
.dw compiledWord
.dw HERE_
.dw STOREINC
.dw EXIT
; CREATE 2 ALLOT
.db "VARIABL"
.db 0
.dw ALLOT
VARIABLE:
.dw compiledWord
.dw CREATE
.dw NUMBER
.dw 2
.dw ALLOT
.dw EXIT
; ( n -- )
; CREATE HERE @ ! DOES> @
.db "CONSTAN"
.db 0
.dw VARIABLE
CONSTANT:
.dw compiledWord
.dw CREATE
.dw HERE_
.dw FETCH
.dw STORE
.dw DOES
.dw FETCH
.dw EXIT
; TODO: find a way to express IF/THEN/ELSE in core dict more easily.
; ( f -- f )
; IF 0 ELSE 1 THEN
.db "NOT"
.fill 5
.dw CONSTANT
NOT:
.dw compiledWord
.dw CBRANCH
.db 8
.dw NUMBER
.dw 0
.dw BRANCH
.db 5
.dw NUMBER
.dw 1
.dw EXIT
; ( n1 n2 -- f )
; CMP NOT
.db "="
.fill 7
.dw NOT
EQ:
.dw compiledWord
.dw CMP
.dw NOT
.dw EXIT
; ( n1 n2 -- f )
; CMP -1 =
.db "<"
.fill 7
.dw EQ
LT:
.dw compiledWord
.dw CMP
.dw NUMBER
.dw -1
.dw EQ
.dw EXIT
; ( n1 n2 -- f )
; CMP 1 =
.db ">"
.fill 7
.dw LT
GT:
LATEST:
.dw compiledWord
.dw CMP
.dw NUMBER
.dw 1
.dw EQ
.dw RECURSE

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@ -21,6 +21,10 @@
.equ COMPBUF @+2
.equ FORTH_RAMEND @+0x40
; (HERE) usually starts at RAMEND, but in certain situations, such as in stage0,
; (HERE) will begin at a strategic place.
.equ HERE_INITIAL FORTH_RAMEND
; EXECUTION MODEL
; After having read a line through stdioReadLine, we want to interpret it. As
; a general rule, we go like this:
@ -51,9 +55,14 @@ forthMain:
; we check for stack underflow.
push af \ push af \ push af
ld (INITIAL_SP), sp
; LATEST is a *indirect* label to the latest entry of the dict. See
; default at the bottom of dict.asm. This indirection allows us to
; override latest to a value set in a binary dict compiled separately,
; for example by the stage0 bin.
ld hl, LATEST
call intoHL
ld (CURRENT), hl
ld hl, FORTH_RAMEND
ld hl, HERE_INITIAL
ld (HERE), hl
forthRdLine:
ld hl, msgOk

1
emul/.gitignore vendored
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@ -1,4 +1,5 @@
/shell/shell
/forth/stage1
/forth/forth
/zasm/zasm
/zasm/avra

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@ -24,13 +24,25 @@ shell/shell-bin.h: shell/shell.bin
shell/shell: shell/shell.c $(SHELLOBJS) shell/shell-bin.h
$(CC) shell/shell.c $(SHELLOBJS) -o $@
forth/forth.bin: forth/glue.asm $(ZASMBIN)
$(ZASMBIN) $(KERNEL) $(APPS) < forth/glue.asm | tee $@ > /dev/null
forth/forth0.bin: forth/glue0.asm $(ZASMBIN)
$(ZASMBIN) $(KERNEL) $(APPS) < forth/glue0.asm | tee $@ > /dev/null
forth/forth-bin.h: forth/forth.bin
./bin2c.sh KERNEL < forth/forth.bin | tee $@ > /dev/null
forth/forth0-bin.h: forth/forth0.bin
./bin2c.sh KERNEL < forth/forth0.bin | tee $@ > /dev/null
forth/forth: forth/forth.c $(OBJS) forth/forth-bin.h
forth/stage1: forth/stage1.c $(OBJS) forth/forth0-bin.h
$(CC) forth/stage1.c $(OBJS) -o $@
forth/core.bin: $(APPS)/forth/core.fth forth/stage1
./forth/stage1 $(APPS)/forth/core.fth | tee $@ > /dev/null
forth/forth1.bin: forth/glue1.asm forth/core.bin $(ZASMBIN)
$(ZASMBIN) $(KERNEL) $(APPS) forth/core.bin < forth/glue1.asm | tee $@ > /dev/null
forth/forth1-bin.h: forth/forth1.bin
./bin2c.sh KERNEL < forth/forth1.bin | tee $@ > /dev/null
forth/forth: forth/forth.c $(OBJS) forth/forth1-bin.h
$(CC) forth/forth.c $(OBJS) -o $@
zasm/kernel-bin.h: zasm/kernel.bin

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@ -3,10 +3,10 @@
#include <unistd.h>
#include <termios.h>
#include "../emul.h"
#include "forth-bin.h"
#include "forth1-bin.h"
// in sync with glue.asm
#define RAMSTART 0x2000
#define RAMSTART 0x900
#define STDIO_PORT 0x00
static int running;

56
emul/forth/glue0.asm Normal file
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@ -0,0 +1,56 @@
; RAM disposition
;
; Because this glue code also serves stage0 which needs HERE to start right
; after the code, we have a peculiar RAM setup here: it lives at the very end
; of the address space, just under RS_ADDR at 0xf000
; Warning: The offsets of native dict entries must be exactly the same between
; glue0.asm and glue1.asm
.equ RAMSTART 0xe800
.equ HERE 0xe700 ; override, in sync with stage1.c
.equ CURRENT 0xe702 ; override, in sync with stage1.c
.equ HERE_INITIAL CODE_END ; override
.inc "ascii.h"
.equ STDIO_PORT 0x00
jp init
.inc "core.asm"
.inc "str.asm"
.equ STDIO_RAMSTART RAMSTART
.equ STDIO_GETC emulGetC
.equ STDIO_PUTC emulPutC
.inc "stdio.asm"
.inc "lib/util.asm"
.inc "lib/parse.asm"
.inc "lib/ari.asm"
.inc "lib/fmt.asm"
.equ FORTH_RAMSTART STDIO_RAMEND
.inc "forth/main.asm"
.inc "forth/util.asm"
.inc "forth/stack.asm"
.inc "forth/dict.asm"
init:
di
; setup stack
ld sp, 0xffff
call forthMain
halt
emulGetC:
; Blocks until a char is returned
in a, (STDIO_PORT)
cp a ; ensure Z
ret
emulPutC:
out (STDIO_PORT), a
ret
.dw 0 ; placeholder used in glue1.
CODE_END:
.out $ ; should be the same as in glue1

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@ -1,5 +1,7 @@
; Warning: The offsets of native dict entries must be exactly the same between
; glue0.asm and glue1.asm
.equ LATEST CODE_END ; override
.inc "ascii.h"
.equ RAMSTART 0x2000
.equ STDIO_PORT 0x00
jp init
@ -22,6 +24,7 @@
.inc "forth/stack.asm"
.inc "forth/dict.asm"
init:
di
; setup stack
@ -38,3 +41,10 @@ emulGetC:
emulPutC:
out (STDIO_PORT), a
ret
.out $ ; should be the same as in glue0, minus 2
; stage0 spits, at the beginning of the binary, the address of the latest word
; Therefore, we can set the LATEST label to here and we should be good.
CODE_END:
.bin "core.bin"
RAMSTART:

87
emul/forth/stage1.c Normal file
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@ -0,0 +1,87 @@
#include <stdint.h>
#include <stdio.h>
#include <unistd.h>
#include "../emul.h"
#include "forth0-bin.h"
/* Stage 1
The role of the stage 1 executable is to start from a bare Forth executable
(stage 0) that will compile core non-native definitions into binary form and
append this to existing bootstrap binary to form our final Forth bin.
We could, if we wanted, run only with the bootstrap binary and compile core
defs at runtime, but that would mean that those defs live in RAM. In may system,
RAM is much more constrained than ROM, so it's worth it to give ourselves the
trouble of compiling defs to binary.
This stage 0 executable has to be layed out in a particular manner: HERE must
directly follow executable's last byte so that we don't waste spce and also
that wordref offsets correspond.
*/
// in sync with glue.asm
#define RAMSTART 0x900
#define STDIO_PORT 0x00
// In sync with glue code. This way, we can know where HERE was when we stopped
// running
#define HERE 0xe700
// We also need to know what CURRENT is so we can write our first two bytes
#define CURRENT 0xe702
static int running;
static FILE *fp;
static uint8_t iord_stdio()
{
int c = getc(fp);
if (c == EOF) {
running = 0;
}
return (uint8_t)c;
}
static void iowr_stdio(uint8_t val)
{
// we don't output stdout in stage0
}
int main(int argc, char *argv[])
{
bool tty = false;
if (argc == 2) {
fp = fopen(argv[1], "r");
if (fp == NULL) {
fprintf(stderr, "Can't open %s\n", argv[1]);
return 1;
}
} else {
fprintf(stderr, "Usage: ./stage0 filename\n");
return 1;
}
Machine *m = emul_init();
m->ramstart = RAMSTART;
m->iord[STDIO_PORT] = iord_stdio;
m->iowr[STDIO_PORT] = iowr_stdio;
// initialize memory
for (int i=0; i<sizeof(KERNEL); i++) {
m->mem[i] = KERNEL[i];
}
// Run!
running = 1;
while (running && emul_step());
fclose(fp);
// We're done, now let's spit dict data
// let's start with LATEST spitting.
putchar(m->mem[CURRENT]);
putchar(m->mem[CURRENT+1]);
uint16_t here = m->mem[HERE] + (m->mem[HERE+1] << 8);
for (int i=sizeof(KERNEL); i<here; i++) {
putchar(m->mem[i]);
}
return 0;
}