hcl/lib/h2-scheme-execute-apply.adb

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separate (H2.Scheme.Execute)
procedure Apply is
--pragma Inline (Apply);
Operand: aliased Object_Pointer;
Func: aliased Object_Pointer;
Args: aliased Object_Pointer;
-- -------------------------------------------------------------
-- List manipulation procedures
-- -------------------------------------------------------------
procedure Apply_Car_Procedure is
Ptr: Object_Pointer := Args;
A: Object_Pointer;
begin
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if not Is_Cons(Ptr) or else Get_Cdr(Ptr) /= Nil_Pointer then
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Ada.Text_IO.Put_Line ("WRONG NUMBER OF ARGUMETNS FOR CAR");
raise Syntax_Error;
end if;
A := Get_Car(Ptr); -- the first argument
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if not Is_Cons(A) then
Ada.Text_IO.Put_Line ("EXPECTED CONS-CELL FOR CAR");
raise Evaluation_Error;
end if;
Pop_Frame (Interp); -- Done with the current frame
Chain_Frame_Result (Interp, Interp.Stack, Get_Car(A));
end Apply_Car_Procedure;
procedure Apply_Cdr_Procedure is
Ptr: Object_Pointer := Args;
A: Object_Pointer;
begin
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if not Is_Cons(Ptr) or else Get_Cdr(Ptr) /= Nil_Pointer then
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Ada.Text_IO.Put_Line ("WRONG NUMBER OF ARGUMETNS FOR CDR");
raise Syntax_Error;
end if;
A := Get_Car(Ptr); -- the first argument
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if not Is_Cons(A) then
Ada.Text_IO.Put_Line ("EXPECTED CONS-CELL FOR CDR");
raise Evaluation_Error;
end if;
Pop_Frame (Interp); -- Done with the current frame
Chain_Frame_Result (Interp, Interp.Stack, Get_Cdr(A));
end Apply_Cdr_Procedure;
procedure Apply_Cons_Procedure is
Ptr: Object_Pointer := Args;
A: Object_Pointer;
B: Object_Pointer;
begin
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if not Is_Cons(Ptr) or else not Is_Cons(Get_Cdr(Ptr)) or else Get_Cdr(Get_Cdr(Ptr)) /= Nil_Pointer then
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Ada.Text_IO.Put_Line ("WRONG NUMBER OF ARGUMETNS FOR CONS");
raise Syntax_Error;
end if;
A := Get_Car(Ptr); -- the first argument
B := Get_Car(Get_Cdr(Ptr)); -- the second argument
Ptr := Make_Cons (Interp.Self, A, B); -- change car
Pop_Frame (Interp); -- Done with the current frame
Chain_Frame_Result (Interp, Interp.Stack, Ptr);
end Apply_Cons_Procedure;
procedure Apply_Setcar_Procedure is
Ptr: Object_Pointer := Args;
A: Object_Pointer;
B: Object_Pointer;
begin
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if not Is_Cons(Ptr) or else not Is_Cons(Get_Cdr(Ptr)) or else Get_Cdr(Get_Cdr(Ptr)) /= Nil_Pointer then
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Ada.Text_IO.Put_Line ("WRONG NUMBER OF ARGUMETNS FOR SET-CAR!");
raise Syntax_Error;
end if;
A := Get_Car(Ptr); -- the first argument
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if not Is_Cons(A) then
Ada.Text_IO.Put_Line ("EXPECTED CONS-CELL FOR Setcar");
raise Evaluation_Error;
end if;
B := Get_Car(Get_Cdr(Ptr)); -- the second argument
Set_Car (A, B); -- change car
Pop_Frame (Interp); -- Done with the current frame
Chain_Frame_Result (Interp, Interp.Stack, A);
end Apply_Setcar_Procedure;
procedure Apply_Setcdr_Procedure is
Ptr: Object_Pointer := Args;
A: Object_Pointer;
B: Object_Pointer;
begin
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if not Is_Cons(Ptr) or else not Is_Cons(Get_Cdr(Ptr)) or else Get_Cdr(Get_Cdr(Ptr)) /= Nil_Pointer then
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Ada.Text_IO.Put_Line ("WRONG NUMBER OF ARGUMETNS FOR SET-CDR!");
raise Syntax_Error;
end if;
A := Get_Car(Ptr); -- the first argument
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if not Is_Cons(A) then
Ada.Text_IO.Put_Line ("EXPECTED CONS-CELL FOR Setcdr");
raise Evaluation_Error;
end if;
B := Get_Car(Get_Cdr(Ptr)); -- the second argument
Set_Cdr (A, B); -- change cdr
Pop_Frame (Interp); -- Done with the current frame
Chain_Frame_Result (Interp, Interp.Stack, A);
end Apply_Setcdr_Procedure;
-- -------------------------------------------------------------
-- Arithmetic procedures
-- -------------------------------------------------------------
procedure Apply_Add_Procedure is
Ptr: Object_Pointer := Args;
Num: Object_Integer := 0; -- TODO: support BIGNUM
Car: Object_Pointer;
begin
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while Is_Cons(Ptr) loop
-- TODO: check if car is an integer or bignum or something else.
-- if something else, error
Car := Get_Car(Ptr);
if not Is_Integer(Car) then
Ada.Text_IO.Put ("NOT INTEGER FOR ADD"); Print (Interp, Car);
raise Evaluation_Error;
end if;
Num := Num + Pointer_To_Integer(Car);
Ptr := Get_Cdr(Ptr);
end loop;
Pop_Frame (Interp); -- Done with the current frame
Chain_Frame_Result (Interp, Interp.Stack, Integer_To_Pointer(Num));
end Apply_Add_Procedure;
procedure Apply_Subtract_Procedure is
Ptr: Object_Pointer := Args;
Num: Object_Integer := 0; -- TODO: support BIGNUM
Car: Object_Pointer;
begin
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if Is_Cons(Ptr) then
Car := Get_Car(Ptr);
if not Is_Integer(Car) then
raise Evaluation_Error;
end if;
Num := Pointer_To_Integer(Car);
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Ptr := Get_Cdr(Ptr);
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while Is_Cons(Ptr) loop
-- TODO: check if car is an integer or bignum or something else.
-- if something else, error
Car := Get_Car(Ptr);
if not Is_Integer(Car) then
raise Evaluation_Error;
end if;
Num := Num - Pointer_To_Integer(Car);
Ptr := Get_Cdr(Ptr);
end loop;
end if;
Pop_Frame (Interp); -- Done with the current frame
Chain_Frame_Result (Interp, Interp.Stack, Integer_To_Pointer(Num));
end Apply_Subtract_Procedure;
procedure Apply_Multiply_Procedure is
Ptr: Object_Pointer := Args;
Num: Object_Integer := 1; -- TODO: support BIGNUM
Car: Object_Pointer;
begin
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while Is_Cons(Ptr) loop
-- TODO: check if car is an integer or bignum or something else.
-- if something else, error
Car := Get_Car(Ptr);
if not Is_Integer(Car) then
Ada.Text_IO.Put ("NOT INTEGER FOR MULTIPLY"); Print (Interp, Car);
raise Evaluation_Error;
end if;
Num := Num * Pointer_To_Integer(Car);
Ptr := Get_Cdr(Ptr);
end loop;
Pop_Frame (Interp); -- Done with the current frame
Chain_Frame_Result (Interp, Interp.Stack, Integer_To_Pointer(Num));
end Apply_Multiply_Procedure;
procedure Apply_Quotient_Procedure is
Ptr: Object_Pointer := Args;
Num: Object_Integer := 1; -- TODO: support BIGNUM
Car: Object_Pointer;
begin
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while Is_Cons(Ptr) loop
-- TODO: check if car is an integer or bignum or something else.
-- if something else, error
Car := Get_Car(Ptr);
if not Is_Integer(Car) then
Ada.Text_IO.Put ("NOT INTEGER FOR MULTIPLY"); Print (Interp, Car);
raise Evaluation_Error;
end if;
Num := Num * Pointer_To_Integer(Car);
Ptr := Get_Cdr(Ptr);
end loop;
Pop_Frame (Interp); -- Done with the current frame
Chain_Frame_Result (Interp, Interp.Stack, Integer_To_Pointer(Num));
end Apply_Quotient_Procedure;
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generic
with function Validate (X: in Object_Pointer; Y: in Object_Pointer) return Standard.Boolean;
with function Compare (X: in Object_Pointer; Y: in Object_Pointer) return Standard.Boolean;
procedure Apply_Compare_Procedure;
procedure Apply_Compare_Procedure is
-- TODO: support other values
Ptr: Object_Pointer := Args;
X: Object_Pointer;
Y: Object_Pointer;
Bool: Object_Pointer := True_Pointer;
begin
if Is_Cons(Ptr) and then Is_Cons(Get_Cdr(Ptr)) then
-- at least 2 actual arguments
X := Get_Car(Ptr);
Ptr := Get_Cdr(Ptr);
while Is_Cons(Ptr) loop
Y := Get_Car(Ptr);
if not Validate(X, Y) then
ADA.TEXT_IO.PUT_LINE ("NON INTEGER FOR COMPARISION");
raise Evaluation_Error;
end if;
if not Compare(X, Y) then
Bool := False_Pointer;
exit;
end if;
X := Y;
Ptr := Get_Cdr(Ptr);
end loop;
Pop_Frame (Interp); -- Done with the current frame
Chain_Frame_Result (Interp, Interp.Stack, Bool);
else
Ada.Text_IO.Put_line ("TOO FEW ARGUMETNS FOR COMPARISON");
raise Syntax_Error;
end if;
end Apply_Compare_Procedure;
function Validate_Numeric (X: in Object_Pointer; Y: in Object_Pointer) return Standard.Boolean is
-- TODO: support BIGNUM, OTHER DATA TYPES
begin
return Is_Integer(X) and then Is_Integer(Y);
end Validate_Numeric;
function Equal_To (X: in Object_Pointer; Y: in Object_Pointer) return Standard.Boolean is
-- TODO: support BIGNUM, OTHER DATA TYPES
begin
return Pointer_To_Integer(X) = Pointer_To_Integer(Y);
end Equal_To;
function Greater_Than (X: in Object_Pointer; Y: in Object_Pointer) return Standard.Boolean is
-- TODO: support BIGNUM, OTHER DATA TYPES
begin
return Pointer_To_Integer(X) > Pointer_To_Integer(Y);
end Greater_Than;
function Less_Than (X: in Object_Pointer; Y: in Object_Pointer) return Standard.Boolean is
-- TODO: support BIGNUM, OTHER DATA TYPES
begin
return Pointer_To_Integer(X) < Pointer_To_Integer(Y);
end Less_Than;
function Greater_Or_Equal (X: in Object_Pointer; Y: in Object_Pointer) return Standard.Boolean is
-- TODO: support BIGNUM, OTHER DATA TYPES
begin
return Pointer_To_Integer(X) >= Pointer_To_Integer(Y);
end Greater_Or_Equal;
function Less_Or_Equal (X: in Object_Pointer; Y: in Object_Pointer) return Standard.Boolean is
-- TODO: support BIGNUM, OTHER DATA TYPES
begin
return Pointer_To_Integer(X) <= Pointer_To_Integer(Y);
end Less_Or_Equal;
procedure Apply_EQ_Procedure is new Apply_Compare_Procedure (Validate_Numeric, Equal_To);
procedure Apply_GT_Procedure is new Apply_Compare_Procedure (Validate_Numeric, Greater_Than);
procedure Apply_LT_Procedure is new Apply_Compare_Procedure (Validate_Numeric, Less_Than);
procedure Apply_GE_Procedure is new Apply_Compare_Procedure (Validate_Numeric, Greater_Or_Equal);
procedure Apply_LE_Procedure is new Apply_Compare_Procedure (Validate_Numeric, Less_Or_Equal);
-- -------------------------------------------------------------
-- Closure
-- -------------------------------------------------------------
procedure Apply_Closure is
Fbody: aliased Object_Pointer;
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Formal: aliased Object_Pointer;
Actual: aliased Object_Pointer;
Envir: aliased Object_Pointer;
begin
Push_Top (Interp, Fbody'Unchecked_Access);
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Push_Top (Interp, Formal'Unchecked_Access);
Push_Top (Interp, Actual'Unchecked_Access);
Push_Top (Interp, Envir'Unchecked_Access);
-- For a closure created of "(lambda (x y) (+ x y) (* x y))"
-- Get_Closure_Code(Func) returns "((x y) (+ x y) (* x y))"
-- Create a new environment for the closure
Envir := Make_Environment(Interp.Self, Get_Closure_Environment(Func));
-- Update the environment of the frame to the one created above
-- so as to put the arguments into the new environment.
Set_Frame_Environment (Interp.Stack, Envir);
Fbody := Get_Closure_Code(Func);
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pragma Assert (Is_Cons(Fbody)); -- the lambda evaluator must ensure this.
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Formal := Get_Car(Fbody); -- Formal argument list
Actual := Args; -- Actual argument list
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Fbody := Get_Cdr(Fbody); -- Real function body
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pragma Assert (Is_Cons(Fbody)); -- the lambda evaluator must ensure this.
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if Is_Symbol(Formal) then
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-- Closure made of a lambda expression with a single formal argument
-- e.g) (lambda x (car x))
-- Apply the whole actual argument list to the closure.
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Put_Environment (Interp, Formal, Actual);
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else
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while Is_Cons(Formal) loop
if not Is_Cons(Actual) then
Ada.Text_IO.Put_Line (">>>> TOO FEW ARGUMENTS FOR CLOSURE <<<<");
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raise Evaluation_Error;
end if;
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-- Insert the key/value pair into the environment
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Put_Environment (Interp, Get_Car(Formal), Get_Car(Actual));
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Formal := Get_Cdr(Formal);
Actual := Get_Cdr(Actual);
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end loop;
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-- Perform cosmetic checks for the parameter list
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if Is_Symbol(Formal) then
-- The last formal argument to the closure is in a CDR.
-- Assign the remaining actual arguments to the last formal argument
-- e.g) ((lambda (x y . z) z) 1 2 3 4 5)
Put_Environment (Interp, Formal, Actual);
else
-- The lambda evaluator must ensure all formal arguments are symbols.
pragma Assert (Formal = Nil_Pointer);
if Actual /= Nil_Pointer then
Ada.Text_IO.Put_Line (">>>> TOO MANY ARGUMETNS FOR CLOSURE <<<<");
raise Evaluation_Error;
end if;
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end if;
end if;
Set_Frame_Opcode (Interp.Stack, Opcode_Evaluate_Group);
Set_Frame_Operand (Interp.Stack, Fbody);
Clear_Frame_Result (Interp.Stack);
Pop_Tops (Interp, 4);
end Apply_Closure;
-- -------------------------------------------------------------
-- Continuation
-- -------------------------------------------------------------
procedure Apply_Callcc_Procedure is
A: Object_Pointer;
C: Object_Pointer;
X: Object_Pointer;
begin
-- (define f (lambda (return) (return 2) 3))
-- (f (lambda (x) x)) ; 3
-- (call-with-current-continuation f) ; 2
-- TODO: gc aware
-- TODO: check others, extra arguments.. etc
A := Get_Car(Args);
if not Is_Closure(A) then
ada.text_io.put_line ("NON CLOSURE XXXXXXX");
raise Syntax_Error;
end if;
C := Make_Continuation (Interp.Self, Get_Frame_Parent(Interp.Stack));
C := Make_Cons (Interp.Self, C, Nil_Pointer);
X := Make_Cons (Interp.Self, A, C);
Set_Frame_Opcode (Interp.Stack, Opcode_Apply);
Set_Frame_Operand (Interp.Stack, X);
end Apply_Callcc_Procedure;
procedure Apply_Continuation is
A: Object_Pointer;
begin
-- TODO: gc aware
-- more argument check.
A := Get_Car(Args);
ada.text_io.put_line ("continuation.....");
Set_Frame_Opcode (Interp.Stack, Opcode_Continuation_Finish);
Set_Frame_Operand (Interp.Stack, Func);
print (interp, a);
Push_Frame (Interp, Opcode_Evaluate_Object, A);
end Apply_Continuation;
begin
Push_Top (Interp, Operand'Unchecked_Access);
Push_Top (Interp, Func'Unchecked_Access);
Push_Top (Interp, Args'Unchecked_Access);
Operand := Get_Frame_Operand(Interp.Stack);
pragma Assert (Is_Cons(Operand));
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ada.text_io.put ("OPERAND TO APPLY => ");
Print (Interp, Operand);
Func := Get_Car(Operand);
if not Is_Normal_Pointer(Func) then
Ada.Text_IO.Put_Line ("INVALID FUNCTION TYPE");
raise Evaluation_Error;
end if;
Args := Get_Cdr(Operand);
case Func.Tag is
when Procedure_Object =>
case Get_Procedure_Opcode(Func) is
when Callcc_Procedure =>
Apply_Callcc_Procedure;
when Car_Procedure =>
Apply_Car_Procedure;
when Cdr_Procedure =>
Apply_Cdr_Procedure;
when Cons_Procedure =>
Apply_Cons_Procedure;
when Setcar_Procedure =>
Apply_Setcar_Procedure;
when Setcdr_Procedure =>
Apply_Setcdr_Procedure;
when Add_Procedure =>
Apply_Add_Procedure;
when Subtract_Procedure =>
Apply_Subtract_Procedure;
when Multiply_Procedure =>
Apply_Multiply_Procedure;
when Quotient_Procedure =>
Apply_Quotient_Procedure;
--when Remainder_Procedure =>
-- Apply_Remainder_Procedure;
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when EQ_Procedure =>
Apply_EQ_Procedure;
when GT_Procedure =>
Apply_GT_Procedure;
when LT_Procedure =>
Apply_LT_Procedure;
when GE_Procedure =>
Apply_GE_Procedure;
when LE_Procedure =>
Apply_LE_Procedure;
when others =>
raise Internal_Error;
end case;
when Closure_Object =>
Apply_Closure;
when Continuation_Object =>
Apply_Continuation;
when others =>
Ada.Text_IO.Put_Line ("INVALID FUNCTION TYPE");
raise Internal_Error;
end case;
Pop_Tops (Interp, 3);
end Apply;