From: Olivier Hainque Date: Fri, 6 Apr 2007 09:21:48 +0000 (+0200) Subject: g-alleve.ads (Low Level Vector type definitions): Map each to the associated vector... X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=9a8bd0b556b1a5ec3f6029ce80860b6675a09b33;p=gcc.git g-alleve.ads (Low Level Vector type definitions): Map each to the associated vector view instead of all to the unsigned char view. 2007-04-06 Olivier Hainque * g-alleve.ads (Low Level Vector type definitions): Map each to the associated vector view instead of all to the unsigned char view. * g-altcon.adb (Generic_Conversions): New internal generic package, offering facilities for all the Vector/View conversion routines implemented by this unit. (To_View/To_Vector - all versions): Reimplemented in a systematic manner, using the internal Generic_Conversions facilities. From-SVN: r123570 --- diff --git a/gcc/ada/g-alleve.ads b/gcc/ada/g-alleve.ads index 8094b80ff73..25594905874 100644 --- a/gcc/ada/g-alleve.ads +++ b/gcc/ada/g-alleve.ads @@ -7,7 +7,7 @@ -- S p e c -- -- (Soft Binding Version) -- -- -- --- Copyright (C) 2004-2005, Free Software Foundation, Inc. -- +-- Copyright (C) 2004-2006, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- @@ -317,21 +317,20 @@ private -- We simply use the natural array definitions corresponding to each -- user-level vector type. - type LL_VUI is new VUC_View; - type LL_VSI is new VUC_View; + type LL_VUI is new VUI_View; + type LL_VSI is new VSI_View; + type LL_VBI is new VBI_View; - type LL_VUS is new VUC_View; - type LL_VSS is new VUC_View; + type LL_VUS is new VUS_View; + type LL_VSS is new VSS_View; + type LL_VBS is new VBS_View; type LL_VUC is new VUC_View; - type LL_VSC is new VUC_View; + type LL_VSC is new VSC_View; + type LL_VBC is new VBC_View; - type LL_VF is new VUC_View; - - type LL_VBC is new VUC_View; - type LL_VBS is new VUC_View; - type LL_VBI is new VUC_View; - type LL_VP is new VUC_View; + type LL_VF is new VF_View; + type LL_VP is new VP_View; ------------------------------------ -- Low level functional interface -- diff --git a/gcc/ada/g-altcon.adb b/gcc/ada/g-altcon.adb index 2969ba24755..a1f2d3f3e58 100644 --- a/gcc/ada/g-altcon.adb +++ b/gcc/ada/g-altcon.adb @@ -6,7 +6,7 @@ -- -- -- B o d y -- -- -- --- Copyright (C) 2005, Free Software Foundation, Inc. -- +-- Copyright (C) 2005-2006, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- @@ -35,450 +35,480 @@ with Ada.Unchecked_Conversion; with System; use System; -with GNAT.Altivec.Low_Level_Interface; use GNAT.Altivec.Low_Level_Interface; -with GNAT.Altivec.Low_Level_Vectors; use GNAT.Altivec.Low_Level_Vectors; - package body GNAT.Altivec.Conversions is - function To_Varray_unsigned_char is - new Ada.Unchecked_Conversion (Varray_signed_char, - Varray_unsigned_char); - - function To_Varray_unsigned_char is - new Ada.Unchecked_Conversion (Varray_bool_char, - Varray_unsigned_char); - - function To_Varray_unsigned_short is - new Ada.Unchecked_Conversion (Varray_signed_short, - Varray_unsigned_short); - - function To_Varray_unsigned_short is - new Ada.Unchecked_Conversion (Varray_bool_short, - Varray_unsigned_short); - - function To_Varray_unsigned_short is - new Ada.Unchecked_Conversion (Varray_pixel, - Varray_unsigned_short); - - function To_Varray_unsigned_int is - new Ada.Unchecked_Conversion (Varray_signed_int, - Varray_unsigned_int); - - function To_Varray_unsigned_int is - new Ada.Unchecked_Conversion (Varray_bool_int, - Varray_unsigned_int); - - function To_Varray_unsigned_int is - new Ada.Unchecked_Conversion (Varray_float, - Varray_unsigned_int); - - function To_Varray_signed_char is - new Ada.Unchecked_Conversion (Varray_unsigned_char, - Varray_signed_char); - - function To_Varray_bool_char is - new Ada.Unchecked_Conversion (Varray_unsigned_char, - Varray_bool_char); - - function To_Varray_signed_short is - new Ada.Unchecked_Conversion (Varray_unsigned_short, - Varray_signed_short); - - function To_Varray_bool_short is - new Ada.Unchecked_Conversion (Varray_unsigned_short, - Varray_bool_short); - - function To_Varray_pixel is - new Ada.Unchecked_Conversion (Varray_unsigned_short, - Varray_pixel); - - function To_Varray_signed_int is - new Ada.Unchecked_Conversion (Varray_unsigned_int, - Varray_signed_int); - - function To_Varray_bool_int is - new Ada.Unchecked_Conversion (Varray_unsigned_int, - Varray_bool_int); - - function To_Varray_float is - new Ada.Unchecked_Conversion (Varray_unsigned_int, - Varray_float); - - function To_VUC is new Ada.Unchecked_Conversion (VUC_View, VUC); - function To_VSC is new Ada.Unchecked_Conversion (VSC_View, VSC); - function To_VBC is new Ada.Unchecked_Conversion (VBC_View, VBC); - function To_VUS is new Ada.Unchecked_Conversion (VUS_View, VUS); - function To_VSS is new Ada.Unchecked_Conversion (VSS_View, VSS); - function To_VBS is new Ada.Unchecked_Conversion (VBS_View, VBS); - function To_VUI is new Ada.Unchecked_Conversion (VUI_View, VUI); - function To_VSI is new Ada.Unchecked_Conversion (VSI_View, VSI); - function To_VBI is new Ada.Unchecked_Conversion (VBI_View, VBI); - function To_VF is new Ada.Unchecked_Conversion (VF_View, VF); - function To_VP is new Ada.Unchecked_Conversion (VP_View, VP); - - function To_VUC_View is new Ada.Unchecked_Conversion (VUC, VUC_View); - function To_VSC_View is new Ada.Unchecked_Conversion (VSC, VSC_View); - function To_VBC_View is new Ada.Unchecked_Conversion (VBC, VBC_View); - function To_VUS_View is new Ada.Unchecked_Conversion (VUS, VUS_View); - function To_VSS_View is new Ada.Unchecked_Conversion (VSS, VSS_View); - function To_VBS_View is new Ada.Unchecked_Conversion (VBS, VBS_View); - function To_VUI_View is new Ada.Unchecked_Conversion (VUI, VUI_View); - function To_VSI_View is new Ada.Unchecked_Conversion (VSI, VSI_View); - function To_VBI_View is new Ada.Unchecked_Conversion (VBI, VBI_View); - function To_VF_View is new Ada.Unchecked_Conversion (VF, VF_View); - function To_VP_View is new Ada.Unchecked_Conversion (VP, VP_View); - - pragma Warnings (Off, Default_Bit_Order); - - --------------- - -- To_Vector -- - --------------- + -- All the vector/view conversions operate similarily: bare unchecked + -- conversion on big endian targets, and elements permutation on little + -- endian targets. We call "Mirroring" the elements permutation process. + + -- We would like to provide a generic version of the conversion routines + -- and just have a set of "renaming as body" declarations to satisfy the + -- public interface. This unfortunately prevents inlining, which we must + -- preserve at least for the hard binding. + + -- We instead provide a generic version of facilities needed by all the + -- conversion routines and use them repeatedly. + + generic + type Vitem_Type is private; + + type Varray_Index_Type is range <>; + type Varray_Type is array (Varray_Index_Type) of Vitem_Type; + + type Vector_Type is private; + type View_Type is private; + + package Generic_Conversions is + + subtype Varray is Varray_Type; + -- This provides an easy common way to refer to the type parameter + -- in contexts where a specific instance of this package is "use"d. + + procedure Mirror (A : Varray_Type; Into : out Varray_Type); + pragma Inline (Mirror); + -- Mirror the elements of A into INTO, not touching the per-element + -- internal ordering. + + -- A procedure with an out parameter is a bit heavier to use than a + -- function but reduces the amount of temporary creations around the + -- call. Instances are typically not front-end inlined. They can still + -- be back-end inlined on request with the proper command-line option. + + -- Below are Unchecked Conversion routines for various purposes, + -- relying on internal knowledge about the bits layout in the different + -- types (all 128 value bits blocks). + + -- View<->Vector straight bitwise conversions on BE targets. + + function UNC_To_Vector is + new Ada.Unchecked_Conversion (View_Type, Vector_Type); + + function UNC_To_View is + new Ada.Unchecked_Conversion (Vector_Type, View_Type); + + -- Varray->Vector/View for returning mirrored results on LE targets. + + function UNC_To_Vector is + new Ada.Unchecked_Conversion (Varray_Type, Vector_Type); + + function UNC_To_View is + new Ada.Unchecked_Conversion (Varray_Type, View_Type); + + -- Vector/View->Varray for to-be-permuted source on LE targets. + + function UNC_To_Varray is + new Ada.Unchecked_Conversion (Vector_Type, Varray_Type); + + function UNC_To_Varray is + new Ada.Unchecked_Conversion (View_Type, Varray_Type); + + end Generic_Conversions; + + package body Generic_Conversions is + + procedure Mirror (A : Varray_Type; Into : out Varray_Type) is + begin + for J in A'Range loop + Into (J) := A (A'Last - J + A'First); + end loop; + end Mirror; + + end Generic_Conversions; + + -- Now we declare the instances and implement the interface function + -- bodies simply calling the instantiated routines. + + --------------------- + -- Char components -- + --------------------- + + package SC_Conversions is new Generic_Conversions + (signed_char, Vchar_Range, Varray_signed_char, VSC, VSC_View); function To_Vector (S : VSC_View) return VSC is + use SC_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VSC (S); + return UNC_To_Vector (S); else declare - Result : LL_VUC; - VS : constant VUC_View := - (Values => To_Varray_unsigned_char (S.Values)); + M : Varray; begin - Result := To_Vector (VS); - return To_LL_VSC (Result); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; end To_Vector; - function To_Vector (S : VBC_View) return VBC is + function To_View (S : VSC) return VSC_View is + use SC_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VBC (S); + return UNC_To_View (S); else declare - Result : LL_VUC; - VS : constant VUC_View := - (Values => To_Varray_unsigned_char (S.Values)); + M : Varray; begin - Result := To_Vector (VS); - return To_LL_VBC (Result); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; - end To_Vector; + end To_View; - function To_Vector (S : VSS_View) return VSS is + -- + + package UC_Conversions is new Generic_Conversions + (unsigned_char, Vchar_Range, Varray_unsigned_char, VUC, VUC_View); + + function To_Vector (S : VUC_View) return VUC is + use UC_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VSS (S); + return UNC_To_Vector (S); else declare - Result : LL_VUS; - VS : constant VUS_View := - (Values => To_Varray_unsigned_short (S.Values)); + M : Varray; begin - Result := To_Vector (VS); - return VSS (To_LL_VSS (Result)); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; end To_Vector; - function To_Vector (S : VBS_View) return VBS is + function To_View (S : VUC) return VUC_View is + use UC_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VBS (S); + return UNC_To_View (S); else declare - Result : LL_VUS; - VS : constant VUS_View := - (Values => To_Varray_unsigned_short (S.Values)); + M : Varray; begin - Result := To_Vector (VS); - return To_LL_VBS (Result); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; - end To_Vector; + end To_View; - function To_Vector (S : VP_View) return VP is + -- + + package BC_Conversions is new Generic_Conversions + (bool_char, Vchar_Range, Varray_bool_char, VBC, VBC_View); + + function To_Vector (S : VBC_View) return VBC is + use BC_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VP (S); + return UNC_To_Vector (S); else declare - Result : LL_VUS; - VS : constant VUS_View := - (Values => To_Varray_unsigned_short (S.Values)); + M : Varray; begin - Result := To_Vector (VS); - return To_LL_VP (Result); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; end To_Vector; - function To_Vector (S : VSI_View) return VSI is + function To_View (S : VBC) return VBC_View is + use BC_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VSI (S); + return UNC_To_View (S); else declare - Result : LL_VUI; - VS : constant VUI_View := - (Values => To_Varray_unsigned_int (S.Values)); + M : Varray; begin - Result := To_Vector (VS); - return To_LL_VSI (Result); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; - end To_Vector; + end To_View; - function To_Vector (S : VBI_View) return VBI is + ---------------------- + -- Short components -- + ---------------------- + + package SS_Conversions is new Generic_Conversions + (signed_short, Vshort_Range, Varray_signed_short, VSS, VSS_View); + + function To_Vector (S : VSS_View) return VSS is + use SS_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VBI (S); + return UNC_To_Vector (S); else declare - Result : LL_VUI; - VS : constant VUI_View := - (Values => To_Varray_unsigned_int (S.Values)); + M : Varray; begin - Result := To_Vector (VS); - return To_LL_VBI (Result); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; end To_Vector; - function To_Vector (S : VF_View) return VF is + function To_View (S : VSS) return VSS_View is + use SS_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VF (S); + return UNC_To_View (S); else declare - Result : LL_VUI; - VS : constant VUI_View := - (Values => To_Varray_unsigned_int (S.Values)); + M : Varray; begin - Result := To_Vector (VS); - return To_LL_VF (Result); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; - end To_Vector; + end To_View; - function To_Vector (S : VUC_View) return VUC is + -- + + package US_Conversions is new Generic_Conversions + (unsigned_short, Vshort_Range, Varray_unsigned_short, VUS, VUS_View); + + function To_Vector (S : VUS_View) return VUS is + use US_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VUC (S); + return UNC_To_Vector (S); else declare - Result : VUC_View; + M : Varray; begin - for J in Vchar_Range'Range loop - Result.Values (J) := - S.Values (Vchar_Range'Last - J + Vchar_Range'First); - end loop; - return To_VUC (Result); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; end To_Vector; - function To_Vector (S : VUS_View) return VUS is + function To_View (S : VUS) return VUS_View is + use US_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VUS (S); + return UNC_To_View (S); else declare - Result : VUS_View; + M : Varray; begin - for J in Vshort_Range'Range loop - Result.Values (J) := - S.Values (Vshort_Range'Last - J + Vshort_Range'First); - end loop; - return To_VUS (Result); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; - end To_Vector; + end To_View; - function To_Vector (S : VUI_View) return VUI is + -- + + package BS_Conversions is new Generic_Conversions + (bool_short, Vshort_Range, Varray_bool_short, VBS, VBS_View); + + function To_Vector (S : VBS_View) return VBS is + use BS_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VUI (S); + return UNC_To_Vector (S); else declare - Result : VUI_View; + M : Varray; begin - for J in Vint_Range'Range loop - Result.Values (J) := - S.Values (Vint_Range'Last - J + Vint_Range'First); - end loop; - return To_VUI (Result); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; end To_Vector; - -------------- - -- To_View -- - -------------- - - function To_View (S : VSC) return VSC_View is + function To_View (S : VBS) return VBS_View is + use BS_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VSC_View (S); + return UNC_To_View (S); else declare - Result : VUC_View; + M : Varray; begin - Result := To_View (To_LL_VUC (S)); - return (Values => To_Varray_signed_char (Result.Values)); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; end To_View; - function To_View (S : VBC) return VBC_View is + -------------------- + -- Int components -- + -------------------- + + package SI_Conversions is new Generic_Conversions + (signed_int, Vint_Range, Varray_signed_int, VSI, VSI_View); + + function To_Vector (S : VSI_View) return VSI is + use SI_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VBC_View (S); + return UNC_To_Vector (S); else declare - Result : VUC_View; + M : Varray; begin - Result := To_View (To_LL_VUC (S)); - return (Values => To_Varray_bool_char (Result.Values)); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; - end To_View; + end To_Vector; - function To_View (S : VSS) return VSS_View is + function To_View (S : VSI) return VSI_View is + use SI_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VSS_View (S); + return UNC_To_View (S); else declare - Result : VUS_View; + M : Varray; begin - Result := To_View (To_LL_VUS (S)); - return (Values => To_Varray_signed_short (Result.Values)); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; end To_View; - function To_View (S : VBS) return VBS_View is + -- + + package UI_Conversions is new Generic_Conversions + (unsigned_int, Vint_Range, Varray_unsigned_int, VUI, VUI_View); + + function To_Vector (S : VUI_View) return VUI is + use UI_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VBS_View (S); + return UNC_To_Vector (S); else declare - Result : VUS_View; + M : Varray; begin - Result := To_View (To_LL_VUS (S)); - return (Values => To_Varray_bool_short (Result.Values)); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; - end To_View; + end To_Vector; - function To_View (S : VP) return VP_View is + function To_View (S : VUI) return VUI_View is + use UI_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VP_View (S); + return UNC_To_View (S); else declare - Result : VUS_View; + M : Varray; begin - Result := To_View (To_LL_VUS (S)); - return (Values => To_Varray_pixel (Result.Values)); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; end To_View; - function To_View (S : VSI) return VSI_View is + -- + + package BI_Conversions is new Generic_Conversions + (bool_int, Vint_Range, Varray_bool_int, VBI, VBI_View); + + function To_Vector (S : VBI_View) return VBI is + use BI_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VSI_View (S); + return UNC_To_Vector (S); else declare - Result : VUI_View; + M : Varray; begin - Result := To_View (To_LL_VUI (S)); - return (Values => To_Varray_signed_int (Result.Values)); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; - end To_View; + end To_Vector; function To_View (S : VBI) return VBI_View is + use BI_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VBI_View (S); + return UNC_To_View (S); else declare - Result : VUI_View; + M : Varray; begin - Result := To_View (To_LL_VUI (S)); - return (Values => To_Varray_bool_int (Result.Values)); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; end To_View; - function To_View (S : VF) return VF_View is + ---------------------- + -- Float components -- + ---------------------- + + package F_Conversions is new Generic_Conversions + (C_float, Vfloat_Range, Varray_float, VF, VF_View); + + function To_Vector (S : VF_View) return VF is + use F_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VF_View (S); + return UNC_To_Vector (S); else declare - Result : VUI_View; + M : Varray; begin - Result := To_View (To_LL_VUI (S)); - return (Values => To_Varray_float (Result.Values)); + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; - end To_View; + end To_Vector; - function To_View (S : VUC) return VUC_View is + function To_View (S : VF) return VF_View is + use F_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VUC_View (S); + return UNC_To_View (S); else declare - VS : constant VUC_View := To_VUC_View (S); - Result : VUC_View; + M : Varray; begin - for J in Vchar_Range'Range loop - Result.Values (J) := - VS.Values (Vchar_Range'Last - J + Vchar_Range'First); - end loop; - return Result; + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; end To_View; - function To_View (S : VUS) return VUS_View is + ---------------------- + -- Pixel components -- + ---------------------- + + package P_Conversions is new Generic_Conversions + (pixel, Vpixel_Range, Varray_pixel, VP, VP_View); + + function To_Vector (S : VP_View) return VP is + use P_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VUS_View (S); + return UNC_To_Vector (S); else declare - VS : constant VUS_View := To_VUS_View (S); - Result : VUS_View; + M : Varray; begin - for J in Vshort_Range'Range loop - Result.Values (J) := - VS.Values (Vshort_Range'Last - J + Vshort_Range'First); - end loop; - return Result; + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_Vector (M); end; end if; - end To_View; + end To_Vector; - function To_View (S : VUI) return VUI_View is + function To_View (S : VP) return VP_View is + use P_Conversions; begin if Default_Bit_Order = High_Order_First then - return To_VUI_View (S); + return UNC_To_View (S); else declare - VS : constant VUI_View := To_VUI_View (S); - Result : VUI_View; + M : Varray; begin - for J in Vint_Range'Range loop - Result.Values (J) := - VS.Values (Vint_Range'Last - J + Vint_Range'First); - end loop; - return Result; + Mirror (UNC_To_Varray (S), Into => M); + return UNC_To_View (M); end; end if; end To_View;