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Commit 4e896dad by Eric Botcazou Committed by Pierre-Marie de Rodat
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[Ada] Eliminate redundant range checks on conversions 

This gets rid of redundant range checks generated in 5 out of the 9
cases of scalar conversions, i.e. (integer, fixed-point, floating-point)
converted to (integer, fixed-point, floating-point).

The problem is that the Real_Range_Check routine rewrites the conversion
node into a conversion to the base type so, when its parent node is
analyzed, a new conversion to the subtype may be introduced, depending
on the context, giving rise to a second range check against the subtype
bounds.

This change makes Real_Range_Check rewrite the expression of the
conversion node instead of the node, so that the type of the node is
preserved and no new conversion is introduced.  As a matter of fact,
this is exactly what happens in the float-to-float case which goes to
the Generate_Range_Check circuit instead and does not suffer from the
duplication of range checks.

For the following procedure, the compiler must now generate exactly one
range check per nested function:

procedure P is

  type I1 is new Integer range -100 .. 100;

  type I2 is new Integer range -200 .. 200;

  type D1 is delta 0.5 range -100.0 .. 100.0;

  type D2 is delta 0.5 range -200.0 .. 200.0;

  type F1 is new Long_Float range -100.0 .. 100.0;

  type F2 is new Long_Float range -200.0 .. 200.0;

  function Conv (A : I2) return I1 is
  begin
    return I1 (A);
  end;

  function Conv (A : D2) return I1 is
  begin
    return I1 (A);
  end;

  function Conv (A : F2) return I1 is
  begin
    return I1 (A);
  end;

  function Conv (A : I2) return D1 is
  begin
    return D1 (A);
  end;

  function Conv (A : D2) return D1 is
  begin
    return D1 (A);
  end;

  function Conv (A : F2) return D1 is
  begin
    return D1 (A);
  end;

  function Conv (A : I2) return F1 is
  begin
    return F1 (A);
  end;

  function Conv (A : D2) return F1 is
  begin
    return F1 (A);
  end;

  function Conv (A : F2) return F1 is
  begin
    return F1 (A);
  end;

begin
  null;
end;

2019-08-12  Eric Botcazou  <ebotcazou@adacore.com>

gcc/ada/

	* exp_ch4.adb (Real_Range_Check): Do not rewrite the conversion
	node but its expression instead, after having fetched its
	current value.  Clear the Do_Range_Check flag on entry.  Return
	early for a rewritten float-to-float conversion.  Remove
	redundant local variable.  Suppress all checks when inserting
	the temporary and do not reanalyze the node.

From-SVN: r274287
parent 5aa76fe1
Showing with 62 additions and 44 deletions
gcc/ada/ChangeLog
2019-08-12 Eric Botcazou <ebotcazou@adacore.com>
* exp_ch4.adb (Real_Range_Check): Do not rewrite the conversion
node but its expression instead, after having fetched its
current value. Clear the Do_Range_Check flag on entry. Return
early for a rewritten float-to-float conversion. Remove
redundant local variable. Suppress all checks when inserting
the temporary and do not reanalyze the node.
2019-08-12 Eric Botcazou <ebotcazou@adacore.com>
* sprint.ads: Minor comment tweak.
2019-08-12 Eric Botcazou <ebotcazou@adacore.com>
......
gcc/ada/exp_ch4.adb
......@@ -11229,12 +11229,12 @@ package body Exp_Ch4 is
-- Tnn : typ'Base := typ'Base (x);
-- [constraint_error when Tnn < typ'First or else Tnn > typ'Last]
-- Tnn
-- typ (Tnn)
-- This is necessary when there is a conversion of integer to float or
-- to fixed-point to ensure that the correct checks are made. It is not
-- necessary for float to float where it is enough to simply set the
-- Do_Range_Check flag.
-- necessary for the float-to-float case where it is enough to just set
-- the Do_Range_Check flag on the expression.
procedure Real_Range_Check is
Btyp : constant Entity_Id := Base_Type (Target_Type);
......@@ -11246,6 +11246,7 @@ package body Exp_Ch4 is
Hi_Val : Node_Id;
Lo_Arg : Node_Id;
Lo_Val : Node_Id;
Expr : Entity_Id;
Tnn : Entity_Id;
begin
......@@ -11255,6 +11256,12 @@ package body Exp_Ch4 is
return;
end if;
Expr := Expression (N);
-- Clear the flag once for all
Set_Do_Range_Check (Expr, False);
-- Nothing to do if range checks suppressed, or target has the same
-- range as the base type (or is the base type).
......@@ -11263,22 +11270,24 @@ package body Exp_Ch4 is
and then
Hi = Type_High_Bound (Btyp))
then
-- Unset the range check flag on the current value of
-- Expression (N), since the captured Operand may have
-- been rewritten (such as for the case of a conversion
-- to a fixed-point type).
Set_Do_Range_Check (Expression (N), False);
return;
end if;
-- Nothing to do if expression is an entity on which checks have been
-- suppressed.
if Is_Entity_Name (Operand)
and then Range_Checks_Suppressed (Entity (Operand))
if Is_Entity_Name (Expr)
and then Range_Checks_Suppressed (Entity (Expr))
then
return;
end if;
-- Nothing to do if expression was rewritten into a float-to-float
-- conversion, since this kind of conversions is handled elsewhere.
if Is_Floating_Point_Type (Etype (Expr))
and then Is_Floating_Point_Type (Target_Type)
then
Set_Do_Range_Check (Expression (N), False);
return;
end if;
......@@ -11288,12 +11297,12 @@ package body Exp_Ch4 is
-- not trust it to be in range (might be infinite)
declare
S_Lo : constant Node_Id := Type_Low_Bound (Operand_Type);
S_Hi : constant Node_Id := Type_High_Bound (Operand_Type);
S_Lo : constant Node_Id := Type_Low_Bound (Etype (Expr));
S_Hi : constant Node_Id := Type_High_Bound (Etype (Expr));
begin
if (not Is_Floating_Point_Type (Operand_Type)
or else Is_Constrained (Operand_Type))
if (not Is_Floating_Point_Type (Etype (Expr))
or else Is_Constrained (Etype (Expr)))
and then Compile_Time_Known_Value (S_Lo)
and then Compile_Time_Known_Value (S_Hi)
and then Compile_Time_Known_Value (Hi)
......@@ -11306,7 +11315,7 @@ package body Exp_Ch4 is
S_Hiv : Ureal;
begin
if Is_Real_Type (Operand_Type) then
if Is_Real_Type (Etype (Expr)) then
S_Lov := Expr_Value_R (S_Lo);
S_Hiv := Expr_Value_R (S_Hi);
else
......@@ -11318,7 +11327,6 @@ package body Exp_Ch4 is
and then S_Lov >= D_Lov
and then S_Hiv <= D_Hiv
then
Set_Do_Range_Check (Expression (N), False);
return;
end if;
end;
......@@ -11327,18 +11335,21 @@ package body Exp_Ch4 is
-- Otherwise rewrite the conversion as described above
Set_Do_Range_Check (Expression (N), False);
Conv := Convert_To (Btyp, Expr);
Conv := Relocate_Node (N);
Rewrite (Subtype_Mark (Conv), New_Occurrence_Of (Btyp, Loc));
Set_Etype (Conv, Btyp);
-- If a conversion is necessary, then copy the specific flags from
-- the original one and also move the Do_Overflow_Check flag since
-- this new conversion is to the base type.
-- Enable overflow except for case of integer to float conversions,
-- where it is never required, since we can never have overflow in
-- this case.
if Nkind (Conv) = N_Type_Conversion then
Set_Conversion_OK (Conv, Conversion_OK (N));
Set_Float_Truncate (Conv, Float_Truncate (N));
Set_Rounded_Result (Conv, Rounded_Result (N));
if not Is_Integer_Type (Operand_Type) then
Enable_Overflow_Check (Conv);
if Do_Overflow_Check (N) then
Set_Do_Overflow_Check (Conv);
Set_Do_Overflow_Check (N, False);
end if;
end if;
Tnn := Make_Temporary (Loc, 'T', Conv);
......@@ -11361,26 +11372,23 @@ package body Exp_Ch4 is
-- in systems where Duration is larger than Long_Integer.
if Is_Ordinary_Fixed_Point_Type (Target_Type)
and then Is_Floating_Point_Type (Operand_Type)
and then RM_Size (Base_Type (Target_Type)) <=
RM_Size (Standard_Long_Integer)
and then Is_Floating_Point_Type (Etype (Expr))
and then RM_Size (Btyp) <= RM_Size (Standard_Long_Integer)
and then Nkind (Lo) = N_Real_Literal
and then Nkind (Hi) = N_Real_Literal
then
-- Find the integer type of the right size to perform an unchecked
-- conversion to the target fixed-point type.
declare
Bfx_Type : constant Entity_Id := Base_Type (Target_Type);
Expr_Id : constant Entity_Id :=
Make_Temporary (Loc, 'T', Conv);
Expr_Id : constant Entity_Id := Make_Temporary (Loc, 'T', Conv);
Int_Type : Entity_Id;
begin
if RM_Size (Bfx_Type) > RM_Size (Standard_Integer) then
-- Find an integer type of the appropriate size to perform an
-- unchecked conversion to the target fixed-point type.
if RM_Size (Btyp) > RM_Size (Standard_Integer) then
Int_Type := Standard_Long_Integer;
elsif RM_Size (Bfx_Type) > RM_Size (Standard_Short_Integer) then
elsif RM_Size (Btyp) > RM_Size (Standard_Short_Integer) then
Int_Type := Standard_Integer;
else
......@@ -11388,9 +11396,9 @@ package body Exp_Ch4 is
end if;
-- Generate a temporary with the integer value. Required in the
-- CCG compiler to ensure that runtime checks reference this
-- CCG compiler to ensure that run-time checks reference this
-- integer expression (instead of the resulting fixed-point
-- value) because fixed-point values are handled by means of
-- value because fixed-point values are handled by means of
-- unsigned integer types).
Insert_Action (N,
......@@ -11443,7 +11451,8 @@ package body Exp_Ch4 is
Attribute_Name => Name_Last);
end if;
-- Build code for range checking
-- Build code for range checking. Note that checks are suppressed
-- here since we don't want a recursive range check popping up.
Insert_Actions (N, New_List (
Make_Object_Declaration (Loc,
......@@ -11464,10 +11473,10 @@ package body Exp_Ch4 is
Make_Op_Gt (Loc,
Left_Opnd => Hi_Arg,
Right_Opnd => Hi_Val)),
Reason => CE_Range_Check_Failed)));
Reason => CE_Range_Check_Failed)),
Suppress => All_Checks);
Rewrite (N, New_Occurrence_Of (Tnn, Loc));
Analyze_And_Resolve (N, Btyp);
Rewrite (Expr, New_Occurrence_Of (Tnn, Loc));
end Real_Range_Check;
-----------------------------
......
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