-REM POKE 1, PEEK(1)AND248: REM enable all ROM areas as RAM
-REM POKE 55,0: POKE 56,192: CLR: REM move BASIC end from $A000 to $C000
GOTO MAIN
-REM $INCLUDE: 'readline.in.bas'
+REM $INCLUDE: 'mem.in.bas'
REM $INCLUDE: 'types.in.bas'
+REM $INCLUDE: 'readline.in.bas'
REM $INCLUDE: 'reader.in.bas'
REM $INCLUDE: 'printer.in.bas'
REM $INCLUDE: 'env.in.bas'
REM QUASIQUOTE(A) -> R
SUB QUASIQUOTE
REM pair?
- IF (Z%(A,0)AND 31)<6 OR (Z%(A,0)AND 31)>7 THEN GOTO QQ_QUOTE
- IF (Z%(A,1)=0) THEN GOTO QQ_QUOTE
+ GOSUB TYPE_A
+ IF T<6 OR T>7 THEN GOTO QQ_QUOTE
+ IF (Z%(A+1)=0) THEN GOTO QQ_QUOTE
GOTO QQ_UNQUOTE
QQ_QUOTE:
REM ['quote, ast]
- AS$="quote":T=5:GOSUB STRING
- B2=R:B1=A:GOSUB LIST2
- AY=B2:GOSUB RELEASE
+ B$="quote":T=5:GOSUB STRING
+ B=R:A=A:GOSUB LIST2
+ AY=B:GOSUB RELEASE
GOTO QQ_DONE
QQ_UNQUOTE:
- R=A+1:GOSUB DEREF_R
- IF (Z%(R,0)AND 31)<>5 THEN GOTO QQ_SPLICE_UNQUOTE
- IF S$(Z%(R,1))<>"unquote" THEN GOTO QQ_SPLICE_UNQUOTE
+ R=Z%(A+2)
+ IF (Z%(R)AND 31)<>5 THEN GOTO QQ_SPLICE_UNQUOTE
+ IF S$(Z%(R+1))<>"unquote" THEN GOTO QQ_SPLICE_UNQUOTE
REM [ast[1]]
- R=Z%(A,1)+1:GOSUB DEREF_R
- Z%(R,0)=Z%(R,0)+32
+ R=Z%(Z%(A+1)+2)
+ GOSUB INC_REF_R
GOTO QQ_DONE
QQ_SPLICE_UNQUOTE:
- REM push A on the stack
- X=X+1:X%(X)=A
+ GOSUB PUSH_A
REM rest of cases call quasiquote on ast[1..]
- A=Z%(A,1):CALL QUASIQUOTE
- T6=R
- REM pop A off the stack
- A=X%(X):X=X-1
+ A=Z%(A+1):CALL QUASIQUOTE
+ W=R
+ GOSUB POP_A
REM set A to ast[0] for last two cases
- A=A+1:GOSUB DEREF_A
+ A=Z%(A+2)
REM pair?
- IF (Z%(A,0)AND 31)<6 OR (Z%(A,0)AND 31)>7 THEN GOTO QQ_DEFAULT
- IF (Z%(A,1)=0) THEN GOTO QQ_DEFAULT
+ GOSUB TYPE_A
+ IF T<6 OR T>7 THEN GOTO QQ_DEFAULT
+ IF (Z%(A+1)=0) THEN GOTO QQ_DEFAULT
- B=A+1:GOSUB DEREF_B
- IF (Z%(B,0)AND 31)<>5 THEN GOTO QQ_DEFAULT
- IF S$(Z%(B,1))<>"splice-unquote" THEN QQ_DEFAULT
+ B=Z%(A+2)
+ IF (Z%(B)AND 31)<>5 THEN GOTO QQ_DEFAULT
+ IF S$(Z%(B+1))<>"splice-unquote" THEN QQ_DEFAULT
REM ['concat, ast[0][1], quasiquote(ast[1..])]
- B=Z%(A,1)+1:GOSUB DEREF_B:B2=B
- AS$="concat":T=5:GOSUB STRING:B3=R
- B1=T6:GOSUB LIST3
+ B=Z%(Z%(A+1)+2)
+ B$="concat":T=5:GOSUB STRING:C=R
+ A=W:GOSUB LIST3
REM release inner quasiquoted since outer list takes ownership
- AY=B1:GOSUB RELEASE
- AY=B3:GOSUB RELEASE
+ AY=A:GOSUB RELEASE
+ AY=C:GOSUB RELEASE
GOTO QQ_DONE
QQ_DEFAULT:
REM ['cons, quasiquote(ast[0]), quasiquote(ast[1..])]
- REM push T6 on the stack
- X=X+1:X%(X)=T6
+ Q=W:GOSUB PUSH_Q
REM A set above to ast[0]
CALL QUASIQUOTE
- B2=R
- REM pop T6 off the stack
- T6=X%(X):X=X-1
+ B=R
+ GOSUB POP_Q:W=Q
- AS$="cons":T=5:GOSUB STRING:B3=R
- B1=T6:GOSUB LIST3
+ B$="cons":T=5:GOSUB STRING:C=R
+ A=W:GOSUB LIST3
REM release inner quasiquoted since outer list takes ownership
- AY=B1:GOSUB RELEASE
- AY=B2:GOSUB RELEASE
- AY=B3:GOSUB RELEASE
+ AY=A:GOSUB RELEASE
+ AY=B:GOSUB RELEASE
+ AY=C:GOSUB RELEASE
QQ_DONE:
END SUB
REM MACROEXPAND(A, E) -> A:
SUB MACROEXPAND
- REM push original A
- X=X+1:X%(X)=A
+ GOSUB PUSH_A
MACROEXPAND_LOOP:
REM list?
- IF (Z%(A,0)AND 31)<>6 THEN GOTO MACROEXPAND_DONE
+ GOSUB TYPE_A
+ IF T<>6 THEN GOTO MACROEXPAND_DONE
REM non-empty?
- IF Z%(A,1)=0 THEN GOTO MACROEXPAND_DONE
- B=A+1:GOSUB DEREF_B
+ IF Z%(A+1)=0 THEN GOTO MACROEXPAND_DONE
+ B=Z%(A+2)
REM symbol? in first position
- IF (Z%(B,0)AND 31)<>5 THEN GOTO MACROEXPAND_DONE
+ IF (Z%(B)AND 31)<>5 THEN GOTO MACROEXPAND_DONE
REM defined in environment?
K=B:CALL ENV_FIND
IF R=-1 THEN GOTO MACROEXPAND_DONE
- B=T4:GOSUB DEREF_B
+ B=R4
REM macro?
- IF (Z%(B,0)AND 31)<>11 THEN GOTO MACROEXPAND_DONE
-
- F=B:AR=Z%(A,1):CALL APPLY
+ IF (Z%(B)AND 31)<>11 THEN GOTO MACROEXPAND_DONE
+
+ F=B:AR=Z%(A+1):CALL APPLY
A=R
- AY=X%(X)
+ GOSUB PEEK_Q:AY=Q
REM if previous A was not the first A into macroexpand (i.e. an
REM intermediate form) then free it
- IF A<>AY THEN Y=Y+1:Y%(Y,0)=A:Y%(Y,1)=LV
-
+ IF A<>AY THEN GOSUB PEND_A_LV
+
IF ER<>-2 THEN GOTO MACROEXPAND_DONE
GOTO MACROEXPAND_LOOP
MACROEXPAND_DONE:
- X=X-1: REM pop original A
+ GOSUB POP_Q: REM pop original A
END SUB
REM EVAL_AST(A, E) -> R
SUB EVAL_AST
REM push A and E on the stack
- X=X+2:X%(X-1)=E:X%(X)=A
+ Q=E:GOSUB PUSH_Q
+ GOSUB PUSH_A
IF ER<>-2 THEN GOTO EVAL_AST_RETURN
- GOSUB DEREF_A
-
- T=Z%(A,0)AND 31
+ GOSUB TYPE_A
IF T=5 THEN GOTO EVAL_AST_SYMBOL
IF T>=6 AND T<=8 THEN GOTO EVAL_AST_SEQ
REM scalar: deref to actual value and inc ref cnt
- R=A:GOSUB DEREF_R
- Z%(R,0)=Z%(R,0)+32
+ R=A
+ GOSUB INC_REF_R
GOTO EVAL_AST_RETURN
EVAL_AST_SYMBOL:
GOTO EVAL_AST_RETURN
EVAL_AST_SEQ:
- REM allocate the first entry (T already set above)
- L=0:N=0:GOSUB ALLOC
-
- REM make space on the stack
- X=X+4
- REM push type of sequence
- X%(X-3)=T
- REM push sequence index
- X%(X-2)=-1
- REM push future return value (new sequence)
- X%(X-1)=R
- REM push previous new sequence entry
- X%(X)=R
+ REM setup the stack for the loop
+ GOSUB MAP_LOOP_START
EVAL_AST_SEQ_LOOP:
- REM update index
- X%(X-2)=X%(X-2)+1
-
REM check if we are done evaluating the source sequence
- IF Z%(A,1)=0 THEN GOTO EVAL_AST_SEQ_LOOP_DONE
+ IF Z%(A+1)=0 THEN GOTO EVAL_AST_SEQ_LOOP_DONE
REM if we are returning to DO, then skip last element
- IF X%(X-6)=2 AND Z%(Z%(A,1),1)=0 THEN GOTO EVAL_AST_SEQ_LOOP_DONE
-
- REM if hashmap, skip eval of even entries (keys)
- IF (X%(X-3)=8) AND ((X%(X-2)AND 1)=0) THEN GOTO EVAL_AST_DO_REF
- GOTO EVAL_AST_DO_EVAL
-
- EVAL_AST_DO_REF:
- R=A+1:GOSUB DEREF_R: REM deref to target of referred entry
- Z%(R,0)=Z%(R,0)+32: REM inc ref cnt of referred value
- GOTO EVAL_AST_ADD_VALUE
-
- EVAL_AST_DO_EVAL:
- REM call EVAL for each entry
- A=A+1:CALL EVAL
- A=A-1
- GOSUB DEREF_R: REM deref to target of evaluated entry
-
- EVAL_AST_ADD_VALUE:
-
- REM update previous value pointer to evaluated entry
- Z%(X%(X)+1,1)=R
-
- IF ER<>-2 THEN GOTO EVAL_AST_SEQ_LOOP_DONE
-
- REM allocate the next entry
- REM same new sequence entry type
- T=X%(X-3):L=0:N=0:GOSUB ALLOC
-
- REM update previous sequence entry value to point to new entry
- Z%(X%(X),1)=R
- REM update previous ptr to current entry
- X%(X)=R
+ REM The EVAL_DO call to EVAL_AST must be call #2 for EVAL_AST to
+ REM return early and for TCO to work
+ Q=5:GOSUB PEEK_Q_Q
+ IF Q=2 AND Z%(Z%(A+1)+1)=0 THEN GOTO EVAL_AST_SEQ_LOOP_DONE
+
+ REM call EVAL for each entry
+ GOSUB PUSH_A
+ IF T<>8 THEN A=Z%(A+2)
+ IF T=8 THEN A=Z%(A+3)
+ Q=T:GOSUB PUSH_Q: REM push/save type
+ CALL EVAL
+ GOSUB POP_Q:T=Q: REM pop/restore type
+ GOSUB POP_A
+ M=R
+
+ REM if error, release the unattached element
+ REM TODO: is R=0 correct?
+ IF ER<>-2 THEN AY=R:GOSUB RELEASE:R=0:GOTO EVAL_AST_SEQ_LOOP_DONE
+
+ REM for hash-maps, copy the key (inc ref since we are going to
+ REM release it below)
+ IF T=8 THEN N=M:M=Z%(A+2):Z%(M)=Z%(M)+32
+
+
+ REM update the return sequence structure
+ REM release N (and M if T=8) since seq takes full ownership
+ C=1:GOSUB MAP_LOOP_UPDATE
REM process the next sequence entry from source list
- A=Z%(A,1)
+ A=Z%(A+1)
GOTO EVAL_AST_SEQ_LOOP
EVAL_AST_SEQ_LOOP_DONE:
- REM if no error, get return value (new seq)
- IF ER=-2 THEN R=X%(X-1)
- REM otherwise, free the return value and return nil
- IF ER<>-2 THEN R=0:AY=X%(X-1):GOSUB RELEASE
-
- REM pop previous, return, index and type
- X=X-4
+ REM cleanup stack and get return value
+ GOSUB MAP_LOOP_DONE
GOTO EVAL_AST_RETURN
EVAL_AST_RETURN:
REM pop A and E off the stack
- E=X%(X-1):A=X%(X):X=X-2
+ GOSUB POP_A
+ GOSUB POP_Q:E=Q
END SUB
REM EVAL(A, E) -> R
LV=LV+1: REM track basic return stack level
REM push A and E on the stack
- X=X+2:X%(X-1)=E:X%(X)=A
+ Q=E:GOSUB PUSH_Q
+ GOSUB PUSH_A
REM PRINT "EVAL A:"+STR$(A)+",X:"+STR$(X)+",LV:"+STR$(LV)+",FRE:"+STR$(FRE(0))
IF ER<>-2 THEN GOTO EVAL_RETURN
- REM AZ=A:PR=1:GOSUB PR_STR
+ REM AZ=A:B=1:GOSUB PR_STR
REM PRINT "EVAL: "+R$+" [A:"+STR$(A)+", LV:"+STR$(LV)+"]"
- GOSUB DEREF_A
-
GOSUB LIST_Q
IF R THEN GOTO APPLY_LIST
EVAL_NOT_LIST:
IF R<>1 THEN GOTO EVAL_NOT_LIST
GOSUB EMPTY_Q
- IF R THEN R=A:Z%(R,0)=Z%(R,0)+32:GOTO EVAL_RETURN
+ IF R THEN R=A:GOSUB INC_REF_R:GOTO EVAL_RETURN
- A0=A+1
- R=A0:GOSUB DEREF_R:A0=R
+ A0=Z%(A+2)
REM get symbol in A$
- IF (Z%(A0,0)AND 31)<>5 THEN A$=""
- IF (Z%(A0,0)AND 31)=5 THEN A$=S$(Z%(A0,1))
+ IF (Z%(A0)AND 31)<>5 THEN A$=""
+ IF (Z%(A0)AND 31)=5 THEN A$=S$(Z%(A0+1))
IF A$="def!" THEN GOTO EVAL_DEF
IF A$="let*" THEN GOTO EVAL_LET
GOTO EVAL_INVOKE
EVAL_GET_A3:
- A3=Z%(Z%(Z%(A,1),1),1)+1
- R=A3:GOSUB DEREF_R:A3=R
+ A3=Z%(Z%(Z%(Z%(A+1)+1)+1)+2)
EVAL_GET_A2:
- A2=Z%(Z%(A,1),1)+1
- R=A2:GOSUB DEREF_R:A2=R
+ A2=Z%(Z%(Z%(A+1)+1)+2)
EVAL_GET_A1:
- A1=Z%(A,1)+1
- R=A1:GOSUB DEREF_R:A1=R
+ A1=Z%(Z%(A+1)+2)
RETURN
EVAL_DEF:
REM PRINT "def!"
GOSUB EVAL_GET_A2: REM set A1 and A2
- X=X+1:X%(X)=A1: REM push A1
+ Q=A1:GOSUB PUSH_Q
A=A2:CALL EVAL: REM eval a2
- A1=X%(X):X=X-1: REM pop A1
+ GOSUB POP_Q:A1=Q
IF ER<>-2 THEN GOTO EVAL_RETURN
REM set a1 in env to a2
- K=A1:V=R:GOSUB ENV_SET
+ K=A1:C=R:GOSUB ENV_SET
GOTO EVAL_RETURN
EVAL_LET:
REM PRINT "let*"
GOSUB EVAL_GET_A2: REM set A1 and A2
- X=X+1:X%(X)=A2: REM push/save A2
- X=X+1:X%(X)=E: REM push env for for later release
+ Q=A2:GOSUB PUSH_Q: REM push/save A2
+ Q=E:GOSUB PUSH_Q: REM push env for for later release
REM create new environment with outer as current environment
- O=E:GOSUB ENV_NEW
+ C=E:GOSUB ENV_NEW
E=R
EVAL_LET_LOOP:
- IF Z%(A1,1)=0 THEN GOTO EVAL_LET_LOOP_DONE
+ IF Z%(A1+1)=0 THEN GOTO EVAL_LET_LOOP_DONE
- X=X+1:X%(X)=A1: REM push A1
+ Q=A1:GOSUB PUSH_Q: REM push A1
REM eval current A1 odd element
- A=Z%(A1,1)+1:CALL EVAL
- A1=X%(X):X=X-1: REM pop A1
+ A=Z%(Z%(A1+1)+2):CALL EVAL
+ GOSUB POP_Q:A1=Q: REM pop A1
IF ER<>-2 THEN GOTO EVAL_LET_LOOP_DONE
- REM set environment: even A1 key to odd A1 eval'd above
- K=A1+1:V=R:GOSUB ENV_SET
+ REM set key/value in the environment
+ K=Z%(A1+2):C=R:GOSUB ENV_SET
AY=R:GOSUB RELEASE: REM release our use, ENV_SET took ownership
REM skip to the next pair of A1 elements
- A1=Z%(Z%(A1,1),1)
+ A1=Z%(Z%(A1+1)+1)
GOTO EVAL_LET_LOOP
EVAL_LET_LOOP_DONE:
- E4=X%(X):X=X-1: REM pop previous env
+ GOSUB POP_Q:AY=Q: REM pop previous env
REM release previous environment if not the current EVAL env
- IF E4<>X%(X-2) THEN AY=E4:GOSUB RELEASE
+ GOSUB PEEK_Q_2
+ IF AY<>Q THEN GOSUB RELEASE
- A2=X%(X):X=X-1: REM pop A2
+ GOSUB POP_Q:A2=Q: REM pop A2
A=A2:GOTO EVAL_TCO_RECUR: REM TCO loop
EVAL_DO:
- A=Z%(A,1): REM rest
- X=X+1:X%(X)=A: REM push/save A
+ A=Z%(A+1): REM rest
+ GOSUB PUSH_A: REM push/save A
+ REM this must be EVAL_AST call #2 for EVAL_AST to return early
+ REM and for TCO to work
CALL EVAL_AST
REM cleanup
AY=R: REM get eval'd list for release
- A=X%(X):X=X-1: REM pop/restore original A for LAST
+ GOSUB POP_A: REM pop/restore original A for LAST
GOSUB LAST: REM get last element for return
A=R: REM new recur AST
GOTO EVAL_TCO_RECUR: REM TCO loop
EVAL_QUOTE:
- R=Z%(A,1)+1:GOSUB DEREF_R
- Z%(R,0)=Z%(R,0)+32
+ R=Z%(Z%(A+1)+2)
+ GOSUB INC_REF_R
GOTO EVAL_RETURN
EVAL_QUASIQUOTE:
- R=Z%(A,1)+1:GOSUB DEREF_R
+ R=Z%(Z%(A+1)+2)
A=R:CALL QUASIQUOTE
+ A=R
REM add quasiquote result to pending release queue to free when
REM next lower EVAL level returns (LV)
- Y=Y+1:Y%(Y,0)=R:Y%(Y,1)=LV
+ GOSUB PEND_A_LV
- A=R:GOTO EVAL_TCO_RECUR: REM TCO loop
+ GOTO EVAL_TCO_RECUR: REM TCO loop
EVAL_DEFMACRO:
REM PRINT "defmacro!"
GOSUB EVAL_GET_A2: REM set A1 and A2
- X=X+1:X%(X)=A1: REM push A1
+ Q=A1:GOSUB PUSH_Q: REM push A1
A=A2:CALL EVAL: REM eval A2
- A1=X%(X):X=X-1: REM pop A1
+ GOSUB POP_Q:A1=Q: REM pop A1
REM change function to macro
- Z%(R,0)=Z%(R,0)+1
+ Z%(R)=Z%(R)+1
REM set A1 in env to A2
- K=A1:V=R:GOSUB ENV_SET
+ K=A1:C=R:GOSUB ENV_SET
GOTO EVAL_RETURN
EVAL_MACROEXPAND:
REM PRINT "macroexpand"
- R=Z%(A,1)+1:GOSUB DEREF_R
+ R=Z%(Z%(A+1)+2)
A=R:CALL MACROEXPAND
R=A
REM since we are returning it unevaluated, inc the ref cnt
- Z%(R,0)=Z%(R,0)+32
+ GOSUB INC_REF_R
GOTO EVAL_RETURN
EVAL_TRY:
REM PRINT "try*"
- GOSUB EVAL_GET_A1: REM set A1, A2, and A3
+ GOSUB EVAL_GET_A1: REM set A1
- X=X+1:X%(X)=A: REM push/save A
+ GOSUB PUSH_A: REM push/save A
A=A1:CALL EVAL: REM eval A1
- A=X%(X):X=X-1: REM pop/restore A
+ GOSUB POP_A: REM pop/restore A
+
+ GOSUB EVAL_GET_A2: REM set A1 and A2
- REM if there is not error or catch block then return
- IF ER=-2 OR Z%(A,1)=0 THEN GOTO EVAL_RETURN
+ REM if there is no error or catch block then return
+ IF ER=-2 OR A2=0 THEN GOTO EVAL_RETURN
REM create environment for the catch block eval
- O=E:GOSUB ENV_NEW:E=R
+ C=E:GOSUB ENV_NEW:E=R
- GOSUB EVAL_GET_A2: REM set A1 and A2
A=A2:GOSUB EVAL_GET_A2: REM set A1 and A2 from catch block
REM create object for ER=-1 type raw string errors
- IF ER=-1 THEN AS$=ER$:T=4:GOSUB STRING:ER=R:Z%(R,0)=Z%(R,0)+32
+ IF ER=-1 THEN B$=E$:T=4:GOSUB STRING:ER=R:GOSUB INC_REF_R
REM bind the catch symbol to the error object
- K=A1:V=ER:GOSUB ENV_SET
+ K=A1:C=ER:GOSUB ENV_SET
AY=R:GOSUB RELEASE: REM release our use, env took ownership
REM unset error for catch eval
- ER=-2:ER$=""
+ ER=-2:E$=""
A=A2:CALL EVAL
EVAL_IF:
GOSUB EVAL_GET_A1: REM set A1
- REM push A
- X=X+1:X%(X)=A
+ GOSUB PUSH_A: REM push/save A
A=A1:CALL EVAL
- REM pop A
- A=X%(X):X=X-1
- IF (R=0) OR (R=1) THEN GOTO EVAL_IF_FALSE
+ GOSUB POP_A: REM pop/restore A
+ IF (R=0) OR (R=2) THEN GOTO EVAL_IF_FALSE
EVAL_IF_TRUE:
AY=R:GOSUB RELEASE
EVAL_IF_FALSE:
AY=R:GOSUB RELEASE
REM if no false case (A3), return nil
- B=A:GOSUB COUNT
- IF R<4 THEN R=0:GOTO EVAL_RETURN
+ GOSUB COUNT
+ IF R<4 THEN R=0:GOSUB INC_REF_R:GOTO EVAL_RETURN
GOSUB EVAL_GET_A3: REM set A1 - A3 after EVAL
A=A3:GOTO EVAL_TCO_RECUR: REM TCO loop
EVAL_FN:
GOSUB EVAL_GET_A2: REM set A1 and A2
- A=A2:P=A1:GOSUB MAL_FUNCTION
+ T=10:L=A2:M=A1:N=E:GOSUB ALLOC: REM mal function
GOTO EVAL_RETURN
EVAL_INVOKE:
IF ER<>-2 THEN GOTO EVAL_RETURN
REM push f/args for release after call
- X=X+1:X%(X)=R
+ GOSUB PUSH_R
- F=R+1
-
- AR=Z%(R,1): REM rest
- R=F:GOSUB DEREF_R:F=R
+ AR=Z%(R+1): REM rest
+ F=Z%(R+2)
REM if metadata, get the actual object
- IF (Z%(F,0)AND 31)>=16 THEN F=Z%(F,1)
+ GOSUB TYPE_F
+ IF T=14 THEN F=Z%(F+1):GOSUB TYPE_F
- IF (Z%(F,0)AND 31)=9 THEN GOTO EVAL_DO_FUNCTION
- IF (Z%(F,0)AND 31)=10 THEN GOTO EVAL_DO_MAL_FUNCTION
+ ON T-8 GOTO EVAL_DO_FUNCTION,EVAL_DO_MAL_FUNCTION,EVAL_DO_MAL_FUNCTION
REM if error, pop and return f/args for release by caller
- R=X%(X):X=X-1
- ER=-1:ER$="apply of non-function":GOTO EVAL_RETURN
+ GOSUB POP_R
+ ER=-1:E$="apply of non-function":GOTO EVAL_RETURN
EVAL_DO_FUNCTION:
REM regular function
- IF Z%(F,1)<60 THEN GOSUB DO_FUNCTION:GOTO EVAL_DO_FUNCTION_SKIP
+ IF Z%(F+1)<60 THEN GOSUB DO_FUNCTION:GOTO EVAL_DO_FUNCTION_SKIP
REM for recur functions (apply, map, swap!), use GOTO
- IF Z%(F,1)>60 THEN CALL DO_TCO_FUNCTION
+ IF Z%(F+1)>60 THEN CALL DO_TCO_FUNCTION
EVAL_DO_FUNCTION_SKIP:
REM pop and release f/args
- AY=X%(X):X=X-1:GOSUB RELEASE
+ GOSUB POP_Q:AY=Q
+ GOSUB RELEASE
GOTO EVAL_RETURN
EVAL_DO_MAL_FUNCTION:
- E4=E: REM save the current environment for release
+ Q=E:GOSUB PUSH_Q: REM save the current environment for release
- REM create new environ using env stored with function
- O=Z%(F+1,1):BI=Z%(F+1,0):EX=AR:GOSUB ENV_NEW_BINDS
+ REM create new environ using env and params stored in function
+ C=Z%(F+3):A=Z%(F+2):B=AR:GOSUB ENV_NEW_BINDS
REM release previous env if it is not the top one on the
REM stack (X%(X-2)) because our new env refers to it and
REM we no longer need to track it (since we are TCO recurring)
- IF E4<>X%(X-2) THEN AY=E4:GOSUB RELEASE
+ GOSUB POP_Q:AY=Q
+ GOSUB PEEK_Q_2
+ IF AY<>Q THEN GOSUB RELEASE
REM claim the AST before releasing the list containing it
- A=Z%(F,1):Z%(A,0)=Z%(A,0)+32
+ A=Z%(F+1):Z%(A)=Z%(A)+32
REM add AST to pending release queue to free as soon as EVAL
REM actually returns (LV+1)
- Y=Y+1:Y%(Y,0)=A:Y%(Y,1)=LV+1
+ LV=LV+1:GOSUB PEND_A_LV:LV=LV-1
REM pop and release f/args
- AY=X%(X):X=X-1:GOSUB RELEASE
+ GOSUB POP_Q:AY=Q
+ GOSUB RELEASE
REM A set above
E=R:GOTO EVAL_TCO_RECUR: REM TCO loop
EVAL_RETURN:
- REM AZ=R: PR=1: GOSUB PR_STR
+ REM AZ=R: B=1: GOSUB PR_STR
REM PRINT "EVAL_RETURN R: ["+R$+"] ("+STR$(R)+"), LV:"+STR$(LV)+",ER:"+STR$(ER)
REM release environment if not the top one on the stack
- IF E<>X%(X-1) THEN AY=E:GOSUB RELEASE
+ GOSUB PEEK_Q_1
+ IF E<>Q THEN AY=E:GOSUB RELEASE
LV=LV-1: REM track basic return stack level
GOSUB RELEASE_PEND
REM trigger GC
- #cbm TA=FRE(0)
- #qbasic TA=0
+ #cbm T=FRE(0)
+ #qbasic T=0
REM pop A and E off the stack
- E=X%(X-1):A=X%(X):X=X-2
+ GOSUB POP_A
+ GOSUB POP_Q:E=Q
END SUB
REM PRINT(A) -> R$
MAL_PRINT:
- AZ=A:PR=1:GOSUB PR_STR
+ AZ=A:B=1:GOSUB PR_STR
RETURN
REM RE(A$) -> R
REM Assume D has repl_env
REM caller must release result
RE:
- R1=0
+ R1=-1
GOSUB MAL_READ
R1=R
IF ER<>-2 THEN GOTO RE_DONE
RE_DONE:
REM Release memory from MAL_READ
- IF R1<>0 THEN AY=R1:GOSUB RELEASE
+ AY=R1:GOSUB RELEASE
RETURN: REM caller must release result of EVAL
REM REP(A$) -> R$
REM Assume D has repl_env
SUB REP
- R1=0:R2=0
- GOSUB MAL_READ
- R1=R
- IF ER<>-2 THEN GOTO REP_DONE
+ R2=-1
- A=R:E=D:CALL EVAL
+ GOSUB RE
R2=R
IF ER<>-2 THEN GOTO REP_DONE
A=R:GOSUB MAL_PRINT
- RT$=R$
REP_DONE:
REM Release memory from MAL_READ and EVAL
- IF R2<>0 THEN AY=R2:GOSUB RELEASE
- IF R1<>0 THEN AY=R1:GOSUB RELEASE
- R$=RT$
+ AY=R2:GOSUB RELEASE
END SUB
REM MAIN program
LV=0
REM create repl_env
- O=-1:GOSUB ENV_NEW:D=R
+ C=0:GOSUB ENV_NEW:D=R
REM core.EXT: defined in Basic
E=D:GOSUB INIT_CORE_NS: REM set core functions in repl_env
A$=A$+" forms to cond"+CHR$(34)+")) (cons 'cond (rest (rest xs)))))))"
GOSUB RE:AY=R:GOSUB RELEASE
- A$="(defmacro! or (fn* (& xs) (if (empty? xs) nil (if (= 1 (count xs)) (first xs)"
- A$=A$+" `(let* (or_FIXME ~(first xs)) (if or_FIXME or_FIXME (or ~@(rest xs))))))))"
- GOSUB RE:AY=R:GOSUB RELEASE
-
REM load the args file
- A$="(def! -*ARGS*- (load-file "+CHR$(34)+".args.mal"+CHR$(34)+"))"
+ A$="(load-file "+CHR$(34)+".args.mal"+CHR$(34)+")"
GOSUB RE:AY=R:GOSUB RELEASE
+ IF ER>-2 THEN GOSUB PRINT_ERROR:END
+
REM set the argument list
A$="(def! *ARGV* (rest -*ARGS*-))"
GOSUB RE:AY=R:GOSUB RELEASE
A$="(first -*ARGS*-)"
GOSUB RE
- REM if there is an argument, then run it as a program
- IF R<>0 THEN AY=R:GOSUB RELEASE:GOTO RUN_PROG
REM no arguments, start REPL loop
- IF R=0 THEN GOTO REPL_LOOP
+ IF R<16 THEN GOTO REPL_LOOP
+
+ REM if there is an argument, then run it as a program
RUN_PROG:
+ REM free up first arg because we get it again
+ AY=R:GOSUB RELEASE
REM run a single mal program and exit
A$="(load-file (first -*ARGS*-))"
GOSUB RE
REPL_LOOP:
A$="user> ":GOSUB READLINE: REM call input parser
IF EZ=1 THEN GOTO QUIT
+ IF R$="" THEN GOTO REPL_LOOP
A$=R$:CALL REP: REM call REP
GOTO REPL_LOOP
QUIT:
- REM GOSUB PR_MEMORY_SUMMARY
- END
+ REM GOSUB PR_MEMORY_SUMMARY_SMALL
+ #cbm END
+ #qbasic SYSTEM
PRINT_ERROR:
REM if the error is an object, then print and free it
- IF ER>=0 THEN AZ=ER:PR=0:GOSUB PR_STR:ER$=R$:AY=ER:GOSUB RELEASE
- PRINT "Error: "+ER$
- ER=-2:ER$=""
+ IF ER>=0 THEN AZ=ER:B=0:GOSUB PR_STR:E$=R$:AY=ER:GOSUB RELEASE
+ PRINT "Error: "+E$
+ ER=-2:E$=""
RETURN