From 554fd8c5195424bdbcabf5de30fdc183aba391bd Mon Sep 17 00:00:00 2001 From: upstream source tree Date: Sun, 15 Mar 2015 20:14:05 -0400 Subject: obtained gcc-4.6.4.tar.bz2 from upstream website; verified gcc-4.6.4.tar.bz2.sig; imported gcc-4.6.4 source tree from verified upstream tarball. downloading a git-generated archive based on the 'upstream' tag should provide you with a source tree that is binary identical to the one extracted from the above tarball. if you have obtained the source via the command 'git clone', however, do note that line-endings of files in your working directory might differ from line-endings of the respective files in the upstream repository. --- gcc/ada/s-gearop.adb | 526 +++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 526 insertions(+) create mode 100644 gcc/ada/s-gearop.adb (limited to 'gcc/ada/s-gearop.adb') diff --git a/gcc/ada/s-gearop.adb b/gcc/ada/s-gearop.adb new file mode 100644 index 000000000..7fc79b93d --- /dev/null +++ b/gcc/ada/s-gearop.adb @@ -0,0 +1,526 @@ +------------------------------------------------------------------------------ +-- -- +-- GNAT RUN-TIME COMPONENTS -- +-- -- +-- S Y S T E M . G E N E R I C _ A R R A Y _ O P E R A T I O N S -- +-- -- +-- B o d y -- +-- -- +-- Copyright (C) 2006-2009, 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- -- +-- ware Foundation; either version 3, or (at your option) any later ver- -- +-- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- +-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- +-- or FITNESS FOR A PARTICULAR PURPOSE. -- +-- -- +-- As a special exception under Section 7 of GPL version 3, you are granted -- +-- additional permissions described in the GCC Runtime Library Exception, -- +-- version 3.1, as published by the Free Software Foundation. -- +-- -- +-- You should have received a copy of the GNU General Public License and -- +-- a copy of the GCC Runtime Library Exception along with this program; -- +-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -- +-- . -- +-- -- +-- GNAT was originally developed by the GNAT team at New York University. -- +-- Extensive contributions were provided by Ada Core Technologies Inc. -- +-- -- +------------------------------------------------------------------------------ + +package body System.Generic_Array_Operations is + + -- The local function Check_Unit_Last computes the index + -- of the last element returned by Unit_Vector or Unit_Matrix. + -- A separate function is needed to allow raising Constraint_Error + -- before declaring the function result variable. The result variable + -- needs to be declared first, to allow front-end inlining. + + function Check_Unit_Last + (Index : Integer; + Order : Positive; + First : Integer) return Integer; + pragma Inline_Always (Check_Unit_Last); + + function Square_Matrix_Length (A : Matrix) return Natural is + begin + if A'Length (1) /= A'Length (2) then + raise Constraint_Error with "matrix is not square"; + end if; + + return A'Length (1); + end Square_Matrix_Length; + + --------------------- + -- Check_Unit_Last -- + --------------------- + + function Check_Unit_Last + (Index : Integer; + Order : Positive; + First : Integer) return Integer is + begin + -- Order the tests carefully to avoid overflow + + if Index < First + or else First > Integer'Last - Order + 1 + or else Index > First + (Order - 1) + then + raise Constraint_Error; + end if; + + return First + (Order - 1); + end Check_Unit_Last; + + ------------------- + -- Inner_Product -- + ------------------- + + function Inner_Product + (Left : Left_Vector; + Right : Right_Vector) + return Result_Scalar + is + R : Result_Scalar := Zero; + + begin + if Left'Length /= Right'Length then + raise Constraint_Error with + "vectors are of different length in inner product"; + end if; + + for J in Left'Range loop + R := R + Left (J) * Right (J - Left'First + Right'First); + end loop; + + return R; + end Inner_Product; + + ---------------------------------- + -- Matrix_Elementwise_Operation -- + ---------------------------------- + + function Matrix_Elementwise_Operation (X : X_Matrix) return Result_Matrix is + R : Result_Matrix (X'Range (1), X'Range (2)); + + begin + for J in R'Range (1) loop + for K in R'Range (2) loop + R (J, K) := Operation (X (J, K)); + end loop; + end loop; + + return R; + end Matrix_Elementwise_Operation; + + ---------------------------------- + -- Vector_Elementwise_Operation -- + ---------------------------------- + + function Vector_Elementwise_Operation (X : X_Vector) return Result_Vector is + R : Result_Vector (X'Range); + + begin + for J in R'Range loop + R (J) := Operation (X (J)); + end loop; + + return R; + end Vector_Elementwise_Operation; + + ----------------------------------------- + -- Matrix_Matrix_Elementwise_Operation -- + ----------------------------------------- + + function Matrix_Matrix_Elementwise_Operation + (Left : Left_Matrix; + Right : Right_Matrix) + return Result_Matrix + is + R : Result_Matrix (Left'Range (1), Left'Range (2)); + begin + if Left'Length (1) /= Right'Length (1) + or else Left'Length (2) /= Right'Length (2) + then + raise Constraint_Error with + "matrices are of different dimension in elementwise operation"; + end if; + + for J in R'Range (1) loop + for K in R'Range (2) loop + R (J, K) := + Operation + (Left (J, K), + Right + (J - R'First (1) + Right'First (1), + K - R'First (2) + Right'First (2))); + end loop; + end loop; + + return R; + end Matrix_Matrix_Elementwise_Operation; + + ------------------------------------------------ + -- Matrix_Matrix_Scalar_Elementwise_Operation -- + ------------------------------------------------ + + function Matrix_Matrix_Scalar_Elementwise_Operation + (X : X_Matrix; + Y : Y_Matrix; + Z : Z_Scalar) return Result_Matrix + is + R : Result_Matrix (X'Range (1), X'Range (2)); + + begin + if X'Length (1) /= Y'Length (1) + or else X'Length (2) /= Y'Length (2) + then + raise Constraint_Error with + "matrices are of different dimension in elementwise operation"; + end if; + + for J in R'Range (1) loop + for K in R'Range (2) loop + R (J, K) := + Operation + (X (J, K), + Y (J - R'First (1) + Y'First (1), + K - R'First (2) + Y'First (2)), + Z); + end loop; + end loop; + + return R; + end Matrix_Matrix_Scalar_Elementwise_Operation; + + ----------------------------------------- + -- Vector_Vector_Elementwise_Operation -- + ----------------------------------------- + + function Vector_Vector_Elementwise_Operation + (Left : Left_Vector; + Right : Right_Vector) return Result_Vector + is + R : Result_Vector (Left'Range); + + begin + if Left'Length /= Right'Length then + raise Constraint_Error with + "vectors are of different length in elementwise operation"; + end if; + + for J in R'Range loop + R (J) := Operation (Left (J), Right (J - R'First + Right'First)); + end loop; + + return R; + end Vector_Vector_Elementwise_Operation; + + ------------------------------------------------ + -- Vector_Vector_Scalar_Elementwise_Operation -- + ------------------------------------------------ + + function Vector_Vector_Scalar_Elementwise_Operation + (X : X_Vector; + Y : Y_Vector; + Z : Z_Scalar) return Result_Vector + is + R : Result_Vector (X'Range); + + begin + if X'Length /= Y'Length then + raise Constraint_Error with + "vectors are of different length in elementwise operation"; + end if; + + for J in R'Range loop + R (J) := Operation (X (J), Y (J - X'First + Y'First), Z); + end loop; + + return R; + end Vector_Vector_Scalar_Elementwise_Operation; + + ----------------------------------------- + -- Matrix_Scalar_Elementwise_Operation -- + ----------------------------------------- + + function Matrix_Scalar_Elementwise_Operation + (Left : Left_Matrix; + Right : Right_Scalar) return Result_Matrix + is + R : Result_Matrix (Left'Range (1), Left'Range (2)); + + begin + for J in R'Range (1) loop + for K in R'Range (2) loop + R (J, K) := Operation (Left (J, K), Right); + end loop; + end loop; + + return R; + end Matrix_Scalar_Elementwise_Operation; + + ----------------------------------------- + -- Vector_Scalar_Elementwise_Operation -- + ----------------------------------------- + + function Vector_Scalar_Elementwise_Operation + (Left : Left_Vector; + Right : Right_Scalar) return Result_Vector + is + R : Result_Vector (Left'Range); + + begin + for J in R'Range loop + R (J) := Operation (Left (J), Right); + end loop; + + return R; + end Vector_Scalar_Elementwise_Operation; + + ----------------------------------------- + -- Scalar_Matrix_Elementwise_Operation -- + ----------------------------------------- + + function Scalar_Matrix_Elementwise_Operation + (Left : Left_Scalar; + Right : Right_Matrix) return Result_Matrix + is + R : Result_Matrix (Right'Range (1), Right'Range (2)); + + begin + for J in R'Range (1) loop + for K in R'Range (2) loop + R (J, K) := Operation (Left, Right (J, K)); + end loop; + end loop; + + return R; + end Scalar_Matrix_Elementwise_Operation; + + ----------------------------------------- + -- Scalar_Vector_Elementwise_Operation -- + ----------------------------------------- + + function Scalar_Vector_Elementwise_Operation + (Left : Left_Scalar; + Right : Right_Vector) return Result_Vector + is + R : Result_Vector (Right'Range); + + begin + for J in R'Range loop + R (J) := Operation (Left, Right (J)); + end loop; + + return R; + end Scalar_Vector_Elementwise_Operation; + + --------------------------- + -- Matrix_Matrix_Product -- + --------------------------- + + function Matrix_Matrix_Product + (Left : Left_Matrix; + Right : Right_Matrix) return Result_Matrix + is + R : Result_Matrix (Left'Range (1), Right'Range (2)); + + begin + if Left'Length (2) /= Right'Length (1) then + raise Constraint_Error with + "incompatible dimensions in matrix multiplication"; + end if; + + for J in R'Range (1) loop + for K in R'Range (2) loop + declare + S : Result_Scalar := Zero; + begin + for M in Left'Range (2) loop + S := S + Left (J, M) + * Right (M - Left'First (2) + Right'First (1), K); + end loop; + + R (J, K) := S; + end; + end loop; + end loop; + + return R; + end Matrix_Matrix_Product; + + --------------------------- + -- Matrix_Vector_Product -- + --------------------------- + + function Matrix_Vector_Product + (Left : Matrix; + Right : Right_Vector) return Result_Vector + is + R : Result_Vector (Left'Range (1)); + + begin + if Left'Length (2) /= Right'Length then + raise Constraint_Error with + "incompatible dimensions in matrix-vector multiplication"; + end if; + + for J in Left'Range (1) loop + declare + S : Result_Scalar := Zero; + begin + for K in Left'Range (2) loop + S := S + Left (J, K) * Right (K - Left'First (2) + Right'First); + end loop; + + R (J) := S; + end; + end loop; + + return R; + end Matrix_Vector_Product; + + ------------------- + -- Outer_Product -- + ------------------- + + function Outer_Product + (Left : Left_Vector; + Right : Right_Vector) return Matrix + is + R : Matrix (Left'Range, Right'Range); + + begin + for J in R'Range (1) loop + for K in R'Range (2) loop + R (J, K) := Left (J) * Right (K); + end loop; + end loop; + + return R; + end Outer_Product; + + --------------- + -- Transpose -- + --------------- + + procedure Transpose (A : Matrix; R : out Matrix) is + begin + for J in R'Range (1) loop + for K in R'Range (2) loop + R (J, K) := A (K - R'First (2) + A'First (1), + J - R'First (1) + A'First (2)); + end loop; + end loop; + end Transpose; + + ------------------------------- + -- Update_Matrix_With_Matrix -- + ------------------------------- + + procedure Update_Matrix_With_Matrix (X : in out X_Matrix; Y : Y_Matrix) is + begin + if X'Length (1) /= Y'Length (1) + or else X'Length (2) /= Y'Length (2) + then + raise Constraint_Error with + "matrices are of different dimension in update operation"; + end if; + + for J in X'Range (1) loop + for K in X'Range (2) loop + Update (X (J, K), Y (J - X'First (1) + Y'First (1), + K - X'First (2) + Y'First (2))); + end loop; + end loop; + end Update_Matrix_With_Matrix; + + ------------------------------- + -- Update_Vector_With_Vector -- + ------------------------------- + + procedure Update_Vector_With_Vector (X : in out X_Vector; Y : Y_Vector) is + begin + if X'Length /= Y'Length then + raise Constraint_Error with + "vectors are of different length in update operation"; + end if; + + for J in X'Range loop + Update (X (J), Y (J - X'First + Y'First)); + end loop; + end Update_Vector_With_Vector; + + ----------------- + -- Unit_Matrix -- + ----------------- + + function Unit_Matrix + (Order : Positive; + First_1 : Integer := 1; + First_2 : Integer := 1) return Matrix + is + R : Matrix (First_1 .. Check_Unit_Last (First_1, Order, First_1), + First_2 .. Check_Unit_Last (First_2, Order, First_2)); + + begin + R := (others => (others => Zero)); + + for J in 0 .. Order - 1 loop + R (First_1 + J, First_2 + J) := One; + end loop; + + return R; + end Unit_Matrix; + + ----------------- + -- Unit_Vector -- + ----------------- + + function Unit_Vector + (Index : Integer; + Order : Positive; + First : Integer := 1) return Vector + is + R : Vector (First .. Check_Unit_Last (Index, Order, First)); + begin + R := (others => Zero); + R (Index) := One; + return R; + end Unit_Vector; + + --------------------------- + -- Vector_Matrix_Product -- + --------------------------- + + function Vector_Matrix_Product + (Left : Left_Vector; + Right : Matrix) return Result_Vector + is + R : Result_Vector (Right'Range (2)); + + begin + if Left'Length /= Right'Length (1) then + raise Constraint_Error with + "incompatible dimensions in vector-matrix multiplication"; + end if; + + for J in Right'Range (2) loop + declare + S : Result_Scalar := Zero; + + begin + for K in Right'Range (1) loop + S := S + Left (K - Right'First (1) + Left'First) * Right (K, J); + end loop; + + R (J) := S; + end; + end loop; + + return R; + end Vector_Matrix_Product; + +end System.Generic_Array_Operations; -- cgit v1.2.3