ref: b69af6813720ca5ca47f267d7e8d832ae0b77172
parent: fe152caa60e1086c3f5b973e83135d04bde81fe1
author: Peter Mikkelsen <[email protected]>
date: Sat Jul 27 05:56:12 EDT 2024
Work on parsing and evaluation
--- a/array.c
+++ b/array.c
@@ -226,6 +226,11 @@
char buf[2048]; /* TODO: fixed size :) */
char *p = buf;
+ if(f->ast == nil){
+ sprint(p, "%s", primsymb(f->prim));
+ return buf;
+ }
+
p += sprint(p, "∇");
if(f->ast->funcresult)
p += sprint(p, "%s←", f->ast->funcresult->name);
--- a/dat.h
+++ b/dat.h
@@ -161,6 +161,7 @@
AstName,
AstLocals,
AstAssign,
+ AstNiladic,
AstMonadic,
AstDyadic,
AstConst,
@@ -217,14 +218,15 @@
IPushPrim,
ILookup,
IStrand,
+ INiladic,
IMonadic,
IDyadic,
- IClear,
IParse,
- IDone,
IReturn,
IAssign,
ILocal,
+ IPop,
+ IDisplay,
};
typedef struct ValueStack ValueStack;
@@ -268,8 +270,10 @@
enum Valence
{
- Monadic = 1<<1,
- Dyadic = 1<<2,
+ Niladic = 1,
+ Monadic = 2,
+ Dyadic = 4,
+ Variadic = 6,
};
typedef struct Function Function;
@@ -289,6 +293,8 @@
EAny, /* 0 = catch any error */
ESyntax,
EValue,
+ EInternal,
+ EDomain,
ErrorMax,
};
--- a/error.c
+++ b/error.c
@@ -64,6 +64,8 @@
switch(c->num){
case ESyntax: return "SYNTAX ERROR";
case EValue: return "VALUE ERROR";
+ case EInternal: return "INTERNAL ERROR";
+ case EDomain: return "DOMAIN ERROR";
default: return "ERROR ???";
}
}
--- a/eval.c
+++ b/eval.c
@@ -50,6 +50,7 @@
if(assign){
emitbyte(c, IAssign);
emituvlong(c, id);
+ emitbyte(c, IPop);
}
}
@@ -56,17 +57,15 @@
static void
codegensub(Session *s, Module *m, ByteCode *c, Ast *a)
{
- char *err;
uvlong i;
switch(a->tag){
case AstProg:
for(i = 0; i < a->childcount; i++){
- if(i != 0)
- emitbyte(c, IClear);
codegensub(s, m, c, a->children[i]);
+ emitbyte(c, IPop);
+ emitbyte(c, IDisplay);
}
- emitbyte(c, IDone);
break;
case AstFunc:
/* Emit bytecode for the function body */
@@ -77,6 +76,10 @@
fn->valence = Dyadic;
else if(fn->ast->funcrightarg)
fn->valence = Monadic;
+ else
+ fn->valence = Niladic;
+ if(fn->ast->funcresult)
+ fn->hasresult = 1;
fn->symbol = sym(m->symtab, a->funcname->name);
fn->code = alloc(DataByteCode);
@@ -90,7 +93,7 @@
emitlocal(fn->code, m->symtab, fn->ast->funclocals->children[i], 0);
for(i = 0; i < a->childcount; i++){
codegensub(s, m, fn->code, a->children[i]);
- emitbyte(fn->code, IClear);
+ emitbyte(fn->code, IPop);
}
if(fn->ast->funcresult)
codegensub(s, m, fn->code, fn->ast->funcresult);
@@ -99,10 +102,6 @@
emitbyte(c, IPushConst);
emitptr(c, fn);
- /* push the value twice so defining a function yields a function value.. */
- emitbyte(c, IPushConst);
- emitptr(c, fn);
-
emitbyte(c, IAssign);
emituvlong(c, fn->symbol);
}
@@ -127,6 +126,10 @@
emitbyte(c, IStrand);
emituvlong(c, a->childcount);
break;
+ case AstNiladic:
+ codegensub(s, m, c, a->func);
+ emitbyte(c, INiladic);
+ break;
case AstMonadic:
codegensub(s, m, c, a->right);
codegensub(s, m, c, a->func);
@@ -147,9 +150,7 @@
emitptr(c, a->tokens);
break;
default:
- err = smprint("Don't know how to do codegen for ast type %d\n", a->tag);
- appendlog(s, err);
- free(err);
+ error(EInternal, "Don't know how to do codegen for ast type %d", a->tag);
break;
}
@@ -175,11 +176,19 @@
popval(ValueStack *s)
{
if(s->count == 0)
- sysfatal("popval on empty value stack");
+ error(EInternal, "popval on empty value stack");
s->count--; /* no realloc */
return s->values[s->count];
}
+static void *
+peekval(ValueStack *s)
+{
+ if(s->count == 0)
+ error(EInternal, "peekval on empty value stack");
+ return s->values[s->count-1];
+}
+
static void
pushcall(CallStack *s, ByteCode *newcode, ByteCode **c, uvlong *o)
{
@@ -197,7 +206,7 @@
popcall(CallStack *s, Symtab *t, ByteCode **c, uvlong *o)
{
if(s->count == 0)
- sysfatal("popcall on empty call stack");
+ error(EInternal, "popcall on empty call stack");
s->count--; /* no realloc */
*c = s->frames[s->count].code;
*o = s->frames[s->count].offset;
@@ -220,6 +229,26 @@
symset(s, id, nil);
}
+static int
+nextinstr(CallStack *calls, ByteCode *c, uvlong o)
+{
+ if(o < c->count && c->instrs[o] != IReturn)
+ return c->instrs[o];
+ if(calls->count == 0)
+ return -1;
+ else{
+ CallFrame f = calls->frames[calls->count-1];
+ return f.code->instrs[f.offset];
+ }
+}
+
+static void
+checkarray(void *val)
+{
+ if(val == nil || getalloctag(val) != DataArray)
+ error(EDomain, "non-array value where an array was expected");
+}
+
static void *
evalbc(Session *s, Module *m, ByteCode *c)
{
@@ -230,12 +259,11 @@
uvlong o, v;
Function *func;
void *r;
+ Array *x, *y, *z;
values = alloc(DataValueStack);
calls = alloc(DataCallStack);
- debugbc(c);
-
o = 0;
while(o < c->count){
int instr = c->instrs[o];
@@ -252,6 +280,7 @@
Function *f = alloc(DataFunction);
f->prim = v;
f->valence = primvalence(v);
+ f->hasresult = 1;
pushval(values, f);
}
break;
@@ -259,10 +288,8 @@
o += getuvlong(c->instrs+o, &v);
{
void *val = symval(m->symtab, v);
- if(val == nil){
- appendlog(s, "VALUE ERROR\n");
- return nil;
- }
+ if(val == nil)
+ error(EValue, "%s is undefined", symname(m->symtab, v));
pushval(values, val);
}
break;
@@ -271,47 +298,85 @@
{
Array *x = allocarray(TypeArray, 1, v);
setshape(x, 0, v);
- for(uvlong i = 0; i < v; i++)
- setarray(x, i, popval(values));
+ for(uvlong i = 0; i < v; i++){
+ z = popval(values);
+ checkarray(z);
+ setarray(x, i, z);
+ }
x = simplifyarray(x);
pushval(values, x);
}
break;
- case IMonadic:
+ case INiladic:
func = popval(values);
- if(!(func->valence & Monadic)){
- appendlog(s, "ERROR: Function not monadic!\n");
- return nil;
+ if(func->valence != Niladic){
+ int next = nextinstr(calls, c, o);
+ if(next == IAssign || IPop){
+ pushval(values, func);
+ break;
+ }else
+ error(ESyntax, "Function %s is not niladic", funcname(func));
}
- if(func->code)
+ if(func->code){
+ if(!func->hasresult){
+ if(nextinstr(calls, c, o) == IPop)
+ pushval(values, nil); /* fake result */
+ else
+ error(ESyntax, "Function %s does not produce a result", funcname(func));
+ }
pushcall(calls, func->code, &c, &o);
- else{
- Array *y = popval(values);
- Array *z = primmonad(func->prim, y);
+ }else{
+ z = primnilad(func->prim);
pushval(values, z);
}
break;
- case IDyadic:
+ case IMonadic:
+ /* FIXME: more duplicated code with INiladic and IDyadic than i would like */
func = popval(values);
- if(!(func->valence & Dyadic)){
- appendlog(s, "ERROR: Function not dyadic!\n");
- return nil;
+ y = popval(values);
+ if(!(func->valence & Monadic))
+ error(ESyntax, "Function %s is not monadic", funcname(func));
+ checkarray(y);
+
+ if(func->code){
+ if(!func->hasresult){
+ if(nextinstr(calls, c, o) == IPop)
+ pushval(values, nil); /* fake result */
+ else
+ error(ESyntax, "Function %s does not produce a result", funcname(func));
+ }
+ pushval(values, y);
+ pushcall(calls, func->code, &c, &o);
+ }else{
+ z = primmonad(func->prim, y);
+ pushval(values, z);
}
+ break;
+ case IDyadic:
+ func = popval(values);
+ x = popval(values);
+ y = popval(values);
+ if(!(func->valence & Dyadic))
+ error(ESyntax, "Function %s is not dyadic", funcname(func));
+ checkarray(x);
+ checkarray(y);
- if(func->code)
+ if(func->code){
+ if(!func->hasresult){
+ if(nextinstr(calls, c, o) == IPop)
+ pushval(values, nil); /* fake result */
+ else
+ error(ESyntax, "Function %s does not produce a result", funcname(func));
+ }
+ pushval(values, y);
+ pushval(values, x);
pushcall(calls, func->code, &c, &o);
- else{
- Array *x = popval(values);
- Array *y = popval(values);
- Array *z = primdyad(func->prim, x, y);
+ }else{
+ z = primdyad(func->prim, x, y);
pushval(values, z);
}
break;
- case IClear: /* TODO: get rid of this instruction. It shouldn't be there, and it is wrong */
- while(values->count > 0)
- popval(values);
- break;
case IParse:
/* parse at runtime and emit code */
o += getuvlong(c->instrs+o, &v);
@@ -324,31 +389,44 @@
pushcall(calls, newcode, &c, &o);
}
break;
- case IDone:
- goto done;
- break;
case IReturn:
popcall(calls, m->symtab, &c, &o);
break;
case IAssign:
o += getuvlong(c->instrs+o, &v);
- symset(m->symtab, v, popval(values));
+ {
+ void *val = popval(values);
+ symset(m->symtab, v, val);
+
+ if(nextinstr(calls, c, o) == IPop)
+ val = nil;
+ pushval(values, val);
+ }
break;
case ILocal:
o += getuvlong(c->instrs+o, &v);
pushlocal(calls, m->symtab, v);
break;
+ case IPop:
+ r = popval(values);
+ if(nextinstr(calls, c, o) == IDisplay && r != nil)
+ appendlog(s, printval(r));
+ break;
+ case IDisplay:
+ /* nothing to do, IPop checks for it */
+ break;
default:
- appendlog(s, "unknown instruction in evalbc\n");
- return nil;
+ error(EInternal, "unknown instruction in evalbc: %d", instr);
}
}
-done:
r = nil;
- print("Final value stack size: %ulld\n", values->count);
- print("Final call stack size: %ulld\n", calls->count);
- if(values->count != 0)
+ if(values->count > 1)
+ error(EInternal, "Value stack size is %ulld", values->count);
+ if(calls->count > 0)
+ error(EInternal, "Call stack size is %ulld", calls->count);
+
+ if(values->count == 1)
r = popval(values);
return r;
}
--- a/fns.h
+++ b/fns.h
@@ -43,11 +43,13 @@
int primclass(int);
int primvalence(int);
int primid(char *);
+Array *primnilad(int);
Array *primmonad(int, Array *);
Array *primdyad(int, Array *, Array *);
/* scan.c */
TokenList *scan(char *);
+char *printtok(Token);
/* session.c */
void initsessions(void);
@@ -74,6 +76,7 @@
void debugast(Ast *, int);
void debugbc(ByteCode *);
int getuvlong(u8int *, uvlong *);
+char *funcname(Function *);
/* value.c */
char *printval(void *);
--- a/parse.c
+++ b/parse.c
@@ -60,7 +60,7 @@
match(TokenList *tokens, int tag)
{
if(peek(tokens) != tag)
- error(ESyntax, "Unexpected token (match failed)");
+ error(ESyntax, "Unexpected token: %s", printtok(tokens->tokens[tokens->offset]));
tokens->offset++;
}
@@ -258,7 +258,6 @@
class = nameclass(name, symtab, func);
t->tokens[i].nameclass = class;
if(class == 0){ /* We don't know how to parse it until runtime */
- print("nameclass 0 name: %s funcname: %s\n", name, func ? func->funcname->name : "<no func>");
if(symtab)
error(EValue, "%s is undefined", name);
@@ -300,13 +299,17 @@
if(peekclass(t) == NameclassFunc){
func:
expr = alloc(DataAst);
- if(val){
- expr->tag = AstDyadic;
- expr->left = val;
- }else
- expr->tag = AstMonadic;
expr->func = parsefunc(t);
- expr->right = parseexprsub(t);
+ if(val == nil && (isexprsep(t) || peek(t) == TokRparen))
+ expr->tag = AstNiladic;
+ else{
+ if(val){
+ expr->tag = AstDyadic;
+ expr->left = val;
+ }else
+ expr->tag = AstMonadic;
+ expr->right = parseexprsub(t);
+ }
val = expr;
goto end;
}
--- a/prim.c
+++ b/prim.c
@@ -17,13 +17,14 @@
struct {
char *spelling;
int nameclass;
+ Array *(*nilad)(void);
Array *(*monad)(Array *);
Array *(*dyad)(Array *, Array *);
} primspecs[] = {
- "⊢", NameclassFunc, primfn_same, primfn_right,
- "⊣", NameclassFunc, primfn_same, primfn_left,
- "+", NameclassFunc, nil, nil,
- "-", NameclassFunc, nil, nil,
+ "⊢", NameclassFunc, nil, primfn_same, primfn_right,
+ "⊣", NameclassFunc, nil, primfn_same, primfn_left,
+ "+", NameclassFunc, nil, nil, nil,
+ "-", NameclassFunc, nil, nil, nil,
};
char *
@@ -61,14 +62,21 @@
}
Array *
+primnilad(int id)
+{
+ if(primspecs[id].nilad)
+ return primspecs[id].nilad();
+ else
+ error(EInternal, "primitive %s has no niladic definition", primsymb(id));
+}
+
+Array *
primmonad(int id, Array *y)
{
if(primspecs[id].monad)
return primspecs[id].monad(y);
- else{
- print("primitive %s has no monadic definition! (acts like ⊢)\n", primsymb(id));
- return y;
- }
+ else
+ error(EInternal, "primitive %s has no monadic definition", primsymb(id));
}
Array *
@@ -76,10 +84,8 @@
{
if(primspecs[id].dyad)
return primspecs[id].dyad(x, y);
- else{
- print("primitive %s has no dyadic definition! (acts like ⊣)\n", primsymb(id));
- return x;
- }
+ else
+ error(EInternal, "primitive %s has no dyadic definition", primsymb(id));
}
/* monadic functions */
--- a/scan.c
+++ b/scan.c
@@ -83,4 +83,60 @@
}
newtok(tokens, TokEnd);
return tokens;
+}
+
+char *
+printtok(Token t)
+{
+ char buf[1024];
+ char *p = buf;
+
+ switch(t.tag){
+ case TokNumber:
+ sprint(p, "number");
+ break;
+ case TokName:
+ sprint(p, "name");
+ break;
+ case TokLparen:
+ sprint(p, "(");
+ break;
+ case TokRparen:
+ sprint(p, ")");
+ break;
+ case TokLbrack:
+ sprint(p, "[");
+ break;
+ case TokRbrack:
+ sprint(p, "]");
+ break;
+ case TokLbrace:
+ sprint(p, "{");
+ break;
+ case TokRbrace:
+ sprint(p, "}");
+ break;
+ case TokNewline:
+ sprint(p, "newline");
+ break;
+ case TokDiamond:
+ sprint(p, "⋄");
+ break;
+ case TokPrimitive:
+ sprint(p, "primitive");
+ break;
+ case TokDel:
+ sprint(p, "∇");
+ break;
+ case TokLarrow:
+ sprint(p, "←");
+ break;
+ case TokSemi:
+ sprint(p, ";");
+ break;
+ default:
+ sprint(p, "???");
+ }
+
+ return buf;
}
\ No newline at end of file
--- a/session.c
+++ b/session.c
@@ -42,7 +42,7 @@
if(strlen(buf) > 0 && buf[0] == ')')
systemcmd(s, buf+1, 0);
- else{
+ else{
if(trap(EAny)){
appendlog(s, errdesc());
appendlog(s, ": ");
@@ -53,11 +53,7 @@
TokenList *tokens = scan(buf);
Ast *ast = parse(tokens, 0);
- debugast(ast, 0);
- void *val = eval(s, ast);
- if(val)
- appendlog(s, printval(val));
-
+ eval(s, ast);
endtrap();
}
}
--- a/util.c
+++ b/util.c
@@ -158,6 +158,9 @@
o += getuvlong(c->instrs+o, &v);
print("STRAND %ulld\n", v);
break;
+ case INiladic:
+ print("NILADIC CALL\n");
+ break;
case IMonadic:
print("MONADIC CALL\n");
break;
@@ -164,16 +167,10 @@
case IDyadic:
print("DYADIC CALL\n");
break;
- case IClear:
- print("CLEAR\n");
- break;
case IParse:
o += getuvlong(c->instrs+o, &v);
print("PARSE %ulld\n", v);
break;
- case IDone:
- print("DONE\n");
- break;
case IReturn:
print("RETURN\n");
break;
@@ -185,6 +182,12 @@
o += getuvlong(c->instrs+o, &v);
print("LOCAL %ulld\n", v);
break;
+ case IPop:
+ print("POP\n");
+ break;
+ case IDisplay:
+ print("DISPLAY\n");
+ break;
default:
print("???");
return;
@@ -191,4 +194,13 @@
}
}
print("\n");
+}
+
+char *
+funcname(Function *f)
+{
+ if(f->ast)
+ return f->ast->funcname->name;
+ else
+ return primsymb(f->prim);
}
\ No newline at end of file