From 977ff5e02c6d2f9bfdabcf8b4e98b81e2d83e849 Mon Sep 17 00:00:00 2001 From: gingold Date: Sat, 24 Sep 2005 05:10:24 +0000 Subject: First import from sources --- libraries/synopsys/std_logic_arith.vhdl | 2391 +++++++++++++++++++++++++++++++ 1 file changed, 2391 insertions(+) create mode 100644 libraries/synopsys/std_logic_arith.vhdl (limited to 'libraries/synopsys/std_logic_arith.vhdl') diff --git a/libraries/synopsys/std_logic_arith.vhdl b/libraries/synopsys/std_logic_arith.vhdl new file mode 100644 index 0000000..685b647 --- /dev/null +++ b/libraries/synopsys/std_logic_arith.vhdl @@ -0,0 +1,2391 @@ +-------------------------------------------------------------------------- +-- -- +-- Copyright (c) 1990,1991,1992 by Synopsys, Inc. All rights reserved. -- +-- -- +-- This source file may be used and distributed without restriction -- +-- provided that this copyright statement is not removed from the file -- +-- and that any derivative work contains this copyright notice. -- +-- -- +-- Package name: STD_LOGIC_ARITH -- +-- -- +-- Purpose: -- +-- A set of arithemtic, conversion, and comparison functions -- +-- for SIGNED, UNSIGNED, SMALL_INT, INTEGER, -- +-- STD_ULOGIC, STD_LOGIC, and STD_LOGIC_VECTOR. -- +-- -- +-------------------------------------------------------------------------- + +library IEEE; +use IEEE.std_logic_1164.all; + +package std_logic_arith is + + type UNSIGNED is array (NATURAL range <>) of STD_LOGIC; + type SIGNED is array (NATURAL range <>) of STD_LOGIC; + subtype SMALL_INT is INTEGER range 0 to 1; + + function "+"(L: UNSIGNED; R: UNSIGNED) return UNSIGNED; + function "+"(L: SIGNED; R: SIGNED) return SIGNED; + function "+"(L: UNSIGNED; R: SIGNED) return SIGNED; + function "+"(L: SIGNED; R: UNSIGNED) return SIGNED; + function "+"(L: UNSIGNED; R: INTEGER) return UNSIGNED; + function "+"(L: INTEGER; R: UNSIGNED) return UNSIGNED; + function "+"(L: SIGNED; R: INTEGER) return SIGNED; + function "+"(L: INTEGER; R: SIGNED) return SIGNED; + function "+"(L: UNSIGNED; R: STD_ULOGIC) return UNSIGNED; + function "+"(L: STD_ULOGIC; R: UNSIGNED) return UNSIGNED; + function "+"(L: SIGNED; R: STD_ULOGIC) return SIGNED; + function "+"(L: STD_ULOGIC; R: SIGNED) return SIGNED; + + function "+"(L: UNSIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR; + function "+"(L: SIGNED; R: SIGNED) return STD_LOGIC_VECTOR; + function "+"(L: UNSIGNED; R: SIGNED) return STD_LOGIC_VECTOR; + function "+"(L: SIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR; + function "+"(L: UNSIGNED; R: INTEGER) return STD_LOGIC_VECTOR; + function "+"(L: INTEGER; R: UNSIGNED) return STD_LOGIC_VECTOR; + function "+"(L: SIGNED; R: INTEGER) return STD_LOGIC_VECTOR; + function "+"(L: INTEGER; R: SIGNED) return STD_LOGIC_VECTOR; + function "+"(L: UNSIGNED; R: STD_ULOGIC) return STD_LOGIC_VECTOR; + function "+"(L: STD_ULOGIC; R: UNSIGNED) return STD_LOGIC_VECTOR; + function "+"(L: SIGNED; R: STD_ULOGIC) return STD_LOGIC_VECTOR; + function "+"(L: STD_ULOGIC; R: SIGNED) return STD_LOGIC_VECTOR; + + function "-"(L: UNSIGNED; R: UNSIGNED) return UNSIGNED; + function "-"(L: SIGNED; R: SIGNED) return SIGNED; + function "-"(L: UNSIGNED; R: SIGNED) return SIGNED; + function "-"(L: SIGNED; R: UNSIGNED) return SIGNED; + function "-"(L: UNSIGNED; R: INTEGER) return UNSIGNED; + function "-"(L: INTEGER; R: UNSIGNED) return UNSIGNED; + function "-"(L: SIGNED; R: INTEGER) return SIGNED; + function "-"(L: INTEGER; R: SIGNED) return SIGNED; + function "-"(L: UNSIGNED; R: STD_ULOGIC) return UNSIGNED; + function "-"(L: STD_ULOGIC; R: UNSIGNED) return UNSIGNED; + function "-"(L: SIGNED; R: STD_ULOGIC) return SIGNED; + function "-"(L: STD_ULOGIC; R: SIGNED) return SIGNED; + + function "-"(L: UNSIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR; + function "-"(L: SIGNED; R: SIGNED) return STD_LOGIC_VECTOR; + function "-"(L: UNSIGNED; R: SIGNED) return STD_LOGIC_VECTOR; + function "-"(L: SIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR; + function "-"(L: UNSIGNED; R: INTEGER) return STD_LOGIC_VECTOR; + function "-"(L: INTEGER; R: UNSIGNED) return STD_LOGIC_VECTOR; + function "-"(L: SIGNED; R: INTEGER) return STD_LOGIC_VECTOR; + function "-"(L: INTEGER; R: SIGNED) return STD_LOGIC_VECTOR; + function "-"(L: UNSIGNED; R: STD_ULOGIC) return STD_LOGIC_VECTOR; + function "-"(L: STD_ULOGIC; R: UNSIGNED) return STD_LOGIC_VECTOR; + function "-"(L: SIGNED; R: STD_ULOGIC) return STD_LOGIC_VECTOR; + function "-"(L: STD_ULOGIC; R: SIGNED) return STD_LOGIC_VECTOR; + + function "+"(L: UNSIGNED) return UNSIGNED; + function "+"(L: SIGNED) return SIGNED; + function "-"(L: SIGNED) return SIGNED; + function "ABS"(L: SIGNED) return SIGNED; + + function "+"(L: UNSIGNED) return STD_LOGIC_VECTOR; + function "+"(L: SIGNED) return STD_LOGIC_VECTOR; + function "-"(L: SIGNED) return STD_LOGIC_VECTOR; + function "ABS"(L: SIGNED) return STD_LOGIC_VECTOR; + + function "*"(L: UNSIGNED; R: UNSIGNED) return UNSIGNED; + function "*"(L: SIGNED; R: SIGNED) return SIGNED; + function "*"(L: SIGNED; R: UNSIGNED) return SIGNED; + function "*"(L: UNSIGNED; R: SIGNED) return SIGNED; + + function "*"(L: UNSIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR; + function "*"(L: SIGNED; R: SIGNED) return STD_LOGIC_VECTOR; + function "*"(L: SIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR; + function "*"(L: UNSIGNED; R: SIGNED) return STD_LOGIC_VECTOR; + + function "<"(L: UNSIGNED; R: UNSIGNED) return BOOLEAN; + function "<"(L: SIGNED; R: SIGNED) return BOOLEAN; + function "<"(L: UNSIGNED; R: SIGNED) return BOOLEAN; + function "<"(L: SIGNED; R: UNSIGNED) return BOOLEAN; + function "<"(L: UNSIGNED; R: INTEGER) return BOOLEAN; + function "<"(L: INTEGER; R: UNSIGNED) return BOOLEAN; + function "<"(L: SIGNED; R: INTEGER) return BOOLEAN; + function "<"(L: INTEGER; R: SIGNED) return BOOLEAN; + + function "<="(L: UNSIGNED; R: UNSIGNED) return BOOLEAN; + function "<="(L: SIGNED; R: SIGNED) return BOOLEAN; + function "<="(L: UNSIGNED; R: SIGNED) return BOOLEAN; + function "<="(L: SIGNED; R: UNSIGNED) return BOOLEAN; + function "<="(L: UNSIGNED; R: INTEGER) return BOOLEAN; + function "<="(L: INTEGER; R: UNSIGNED) return BOOLEAN; + function "<="(L: SIGNED; R: INTEGER) return BOOLEAN; + function "<="(L: INTEGER; R: SIGNED) return BOOLEAN; + + function ">"(L: UNSIGNED; R: UNSIGNED) return BOOLEAN; + function ">"(L: SIGNED; R: SIGNED) return BOOLEAN; + function ">"(L: UNSIGNED; R: SIGNED) return BOOLEAN; + function ">"(L: SIGNED; R: UNSIGNED) return BOOLEAN; + function ">"(L: UNSIGNED; R: INTEGER) return BOOLEAN; + function ">"(L: INTEGER; R: UNSIGNED) return BOOLEAN; + function ">"(L: SIGNED; R: INTEGER) return BOOLEAN; + function ">"(L: INTEGER; R: SIGNED) return BOOLEAN; + + function ">="(L: UNSIGNED; R: UNSIGNED) return BOOLEAN; + function ">="(L: SIGNED; R: SIGNED) return BOOLEAN; + function ">="(L: UNSIGNED; R: SIGNED) return BOOLEAN; + function ">="(L: SIGNED; R: UNSIGNED) return BOOLEAN; + function ">="(L: UNSIGNED; R: INTEGER) return BOOLEAN; + function ">="(L: INTEGER; R: UNSIGNED) return BOOLEAN; + function ">="(L: SIGNED; R: INTEGER) return BOOLEAN; + function ">="(L: INTEGER; R: SIGNED) return BOOLEAN; + + function "="(L: UNSIGNED; R: UNSIGNED) return BOOLEAN; + function "="(L: SIGNED; R: SIGNED) return BOOLEAN; + function "="(L: UNSIGNED; R: SIGNED) return BOOLEAN; + function "="(L: SIGNED; R: UNSIGNED) return BOOLEAN; + function "="(L: UNSIGNED; R: INTEGER) return BOOLEAN; + function "="(L: INTEGER; R: UNSIGNED) return BOOLEAN; + function "="(L: SIGNED; R: INTEGER) return BOOLEAN; + function "="(L: INTEGER; R: SIGNED) return BOOLEAN; + + function "/="(L: UNSIGNED; R: UNSIGNED) return BOOLEAN; + function "/="(L: SIGNED; R: SIGNED) return BOOLEAN; + function "/="(L: UNSIGNED; R: SIGNED) return BOOLEAN; + function "/="(L: SIGNED; R: UNSIGNED) return BOOLEAN; + function "/="(L: UNSIGNED; R: INTEGER) return BOOLEAN; + function "/="(L: INTEGER; R: UNSIGNED) return BOOLEAN; + function "/="(L: SIGNED; R: INTEGER) return BOOLEAN; + function "/="(L: INTEGER; R: SIGNED) return BOOLEAN; + + function SHL(ARG: UNSIGNED; COUNT: UNSIGNED) return UNSIGNED; + function SHL(ARG: SIGNED; COUNT: UNSIGNED) return SIGNED; + function SHR(ARG: UNSIGNED; COUNT: UNSIGNED) return UNSIGNED; + function SHR(ARG: SIGNED; COUNT: UNSIGNED) return SIGNED; + + function CONV_INTEGER(ARG: INTEGER) return INTEGER; + function CONV_INTEGER(ARG: UNSIGNED) return INTEGER; + function CONV_INTEGER(ARG: SIGNED) return INTEGER; + function CONV_INTEGER(ARG: STD_ULOGIC) return SMALL_INT; + + function CONV_UNSIGNED(ARG: INTEGER; SIZE: INTEGER) return UNSIGNED; + function CONV_UNSIGNED(ARG: UNSIGNED; SIZE: INTEGER) return UNSIGNED; + function CONV_UNSIGNED(ARG: SIGNED; SIZE: INTEGER) return UNSIGNED; + function CONV_UNSIGNED(ARG: STD_ULOGIC; SIZE: INTEGER) return UNSIGNED; + + function CONV_SIGNED(ARG: INTEGER; SIZE: INTEGER) return SIGNED; + function CONV_SIGNED(ARG: UNSIGNED; SIZE: INTEGER) return SIGNED; + function CONV_SIGNED(ARG: SIGNED; SIZE: INTEGER) return SIGNED; + function CONV_SIGNED(ARG: STD_ULOGIC; SIZE: INTEGER) return SIGNED; + + function CONV_STD_LOGIC_VECTOR(ARG: INTEGER; SIZE: INTEGER) + return STD_LOGIC_VECTOR; + function CONV_STD_LOGIC_VECTOR(ARG: UNSIGNED; SIZE: INTEGER) + return STD_LOGIC_VECTOR; + function CONV_STD_LOGIC_VECTOR(ARG: SIGNED; SIZE: INTEGER) + return STD_LOGIC_VECTOR; + function CONV_STD_LOGIC_VECTOR(ARG: STD_ULOGIC; SIZE: INTEGER) + return STD_LOGIC_VECTOR; + -- zero extend STD_LOGIC_VECTOR (ARG) to SIZE, + -- SIZE < 0 is same as SIZE = 0 + -- returns STD_LOGIC_VECTOR(SIZE-1 downto 0) + function EXT(ARG: STD_LOGIC_VECTOR; SIZE: INTEGER) return STD_LOGIC_VECTOR; + + -- sign extend STD_LOGIC_VECTOR (ARG) to SIZE, + -- SIZE < 0 is same as SIZE = 0 + -- return STD_LOGIC_VECTOR(SIZE-1 downto 0) + function SXT(ARG: STD_LOGIC_VECTOR; SIZE: INTEGER) return STD_LOGIC_VECTOR; + +end Std_logic_arith; + + + +library IEEE; +use IEEE.std_logic_1164.all; + +package body std_logic_arith is + + function max(L, R: INTEGER) return INTEGER is + begin + if L > R then + return L; + else + return R; + end if; + end; + + + function min(L, R: INTEGER) return INTEGER is + begin + if L < R then + return L; + else + return R; + end if; + end; + + -- synopsys synthesis_off + type tbl_type is array (STD_ULOGIC) of STD_ULOGIC; + constant tbl_BINARY : tbl_type := + ('X', 'X', '0', '1', 'X', 'X', '0', '1', 'X'); + -- synopsys synthesis_on + + -- synopsys synthesis_off + type tbl_mvl9_boolean is array (STD_ULOGIC) of boolean; + constant IS_X : tbl_mvl9_boolean := + (true, true, false, false, true, true, false, false, true); + -- synopsys synthesis_on + + + + function MAKE_BINARY(A : STD_ULOGIC) return STD_ULOGIC is + -- synopsys built_in SYN_FEED_THRU + begin + -- synopsys synthesis_off + if (IS_X(A)) then + assert false + report "There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, the result will be 'X'(es)." + severity warning; + return ('X'); + end if; + return tbl_BINARY(A); + -- synopsys synthesis_on + end; + + function MAKE_BINARY(A : UNSIGNED) return UNSIGNED is + -- synopsys built_in SYN_FEED_THRU + variable one_bit : STD_ULOGIC; + variable result : UNSIGNED (A'range); + begin + -- synopsys synthesis_off + for i in A'range loop + if (IS_X(A(i))) then + assert false + report "There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, the result will be 'X'(es)." + severity warning; + result := (others => 'X'); + return result; + end if; + result(i) := tbl_BINARY(A(i)); + end loop; + return result; + -- synopsys synthesis_on + end; + + function MAKE_BINARY(A : UNSIGNED) return SIGNED is + -- synopsys built_in SYN_FEED_THRU + variable one_bit : STD_ULOGIC; + variable result : SIGNED (A'range); + begin + -- synopsys synthesis_off + for i in A'range loop + if (IS_X(A(i))) then + assert false + report "There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, the result will be 'X'(es)." + severity warning; + result := (others => 'X'); + return result; + end if; + result(i) := tbl_BINARY(A(i)); + end loop; + return result; + -- synopsys synthesis_on + end; + + function MAKE_BINARY(A : SIGNED) return UNSIGNED is + -- synopsys built_in SYN_FEED_THRU + variable one_bit : STD_ULOGIC; + variable result : UNSIGNED (A'range); + begin + -- synopsys synthesis_off + for i in A'range loop + if (IS_X(A(i))) then + assert false + report "There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, the result will be 'X'(es)." + severity warning; + result := (others => 'X'); + return result; + end if; + result(i) := tbl_BINARY(A(i)); + end loop; + return result; + -- synopsys synthesis_on + end; + + function MAKE_BINARY(A : SIGNED) return SIGNED is + -- synopsys built_in SYN_FEED_THRU + variable one_bit : STD_ULOGIC; + variable result : SIGNED (A'range); + begin + -- synopsys synthesis_off + for i in A'range loop + if (IS_X(A(i))) then + assert false + report "There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, the result will be 'X'(es)." + severity warning; + result := (others => 'X'); + return result; + end if; + result(i) := tbl_BINARY(A(i)); + end loop; + return result; + -- synopsys synthesis_on + end; + + function MAKE_BINARY(A : STD_LOGIC_VECTOR) return STD_LOGIC_VECTOR is + -- synopsys built_in SYN_FEED_THRU + variable one_bit : STD_ULOGIC; + variable result : STD_LOGIC_VECTOR (A'range); + begin + -- synopsys synthesis_off + for i in A'range loop + if (IS_X(A(i))) then + assert false + report "There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, the result will be 'X'(es)." + severity warning; + result := (others => 'X'); + return result; + end if; + result(i) := tbl_BINARY(A(i)); + end loop; + return result; + -- synopsys synthesis_on + end; + + function MAKE_BINARY(A : UNSIGNED) return STD_LOGIC_VECTOR is + -- synopsys built_in SYN_FEED_THRU + variable one_bit : STD_ULOGIC; + variable result : STD_LOGIC_VECTOR (A'range); + begin + -- synopsys synthesis_off + for i in A'range loop + if (IS_X(A(i))) then + assert false + report "There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, the result will be 'X'(es)." + severity warning; + result := (others => 'X'); + return result; + end if; + result(i) := tbl_BINARY(A(i)); + end loop; + return result; + -- synopsys synthesis_on + end; + + function MAKE_BINARY(A : SIGNED) return STD_LOGIC_VECTOR is + -- synopsys built_in SYN_FEED_THRU + variable one_bit : STD_ULOGIC; + variable result : STD_LOGIC_VECTOR (A'range); + begin + -- synopsys synthesis_off + for i in A'range loop + if (IS_X(A(i))) then + assert false + report "There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, the result will be 'X'(es)." + severity warning; + result := (others => 'X'); + return result; + end if; + result(i) := tbl_BINARY(A(i)); + end loop; + return result; + -- synopsys synthesis_on + end; + + + + -- Type propagation function which returns a signed type with the + -- size of the left arg. + function LEFT_SIGNED_ARG(A,B: SIGNED) return SIGNED is + variable Z: SIGNED (A'left downto 0); + -- pragma return_port_name Z + begin + return(Z); + end; + + -- Type propagation function which returns an unsigned type with the + -- size of the left arg. + function LEFT_UNSIGNED_ARG(A,B: UNSIGNED) return UNSIGNED is + variable Z: UNSIGNED (A'left downto 0); + -- pragma return_port_name Z + begin + return(Z); + end; + + -- Type propagation function which returns a signed type with the + -- size of the result of a signed multiplication + function MULT_SIGNED_ARG(A,B: SIGNED) return SIGNED is + variable Z: SIGNED ((A'length+B'length-1) downto 0); + -- pragma return_port_name Z + begin + return(Z); + end; + + -- Type propagation function which returns an unsigned type with the + -- size of the result of a unsigned multiplication + function MULT_UNSIGNED_ARG(A,B: UNSIGNED) return UNSIGNED is + variable Z: UNSIGNED ((A'length+B'length-1) downto 0); + -- pragma return_port_name Z + begin + return(Z); + end; + + + + function mult(A,B: SIGNED) return SIGNED is + + variable BA: SIGNED((A'length+B'length-1) downto 0); + variable PA: SIGNED((A'length+B'length-1) downto 0); + variable AA: SIGNED(A'length downto 0); + variable neg: STD_ULOGIC; + constant one : UNSIGNED(1 downto 0) := "01"; + + -- pragma map_to_operator MULT_TC_OP + -- pragma type_function MULT_SIGNED_ARG + -- pragma return_port_name Z + + begin + if (A(A'left) = 'X' or B(B'left) = 'X') then + PA := (others => 'X'); + return(PA); + end if; + PA := (others => '0'); + neg := B(B'left) xor A(A'left); + BA := CONV_SIGNED(('0' & ABS(B)),(A'length+B'length)); + AA := '0' & ABS(A); + for i in integer range 0 to A'length-1 loop + if AA(i) = '1' then + PA := PA+BA; + end if; + BA := SHL(BA,one); + end loop; + if (neg= '1') then + return(-PA); + else + return(PA); + end if; + end; + + function mult(A,B: UNSIGNED) return UNSIGNED is + + variable BA: UNSIGNED((A'length+B'length-1) downto 0); + variable PA: UNSIGNED((A'length+B'length-1) downto 0); + constant one : UNSIGNED(1 downto 0) := "01"; + + -- pragma map_to_operator MULT_UNS_OP + -- pragma type_function MULT_UNSIGNED_ARG + -- pragma return_port_name Z + + begin + if (A(A'left) = 'X' or B(B'left) = 'X') then + PA := (others => 'X'); + return(PA); + end if; + PA := (others => '0'); + BA := CONV_UNSIGNED(B,(A'length+B'length)); + for i in integer range 0 to A'length-1 loop + if A(i) = '1' then + PA := PA+BA; + end if; + BA := SHL(BA,one); + end loop; + return(PA); + end; + + -- subtract two signed numbers of the same length + -- both arrays must have range (msb downto 0) + function minus(A, B: SIGNED) return SIGNED is + variable carry: STD_ULOGIC; + variable BV: STD_ULOGIC_VECTOR (A'left downto 0); + variable sum: SIGNED (A'left downto 0); + + -- pragma map_to_operator SUB_TC_OP + + -- pragma type_function LEFT_SIGNED_ARG + -- pragma return_port_name Z + + begin + if (A(A'left) = 'X' or B(B'left) = 'X') then + sum := (others => 'X'); + return(sum); + end if; + carry := '1'; + BV := not STD_ULOGIC_VECTOR(B); + + for i in 0 to A'left loop + sum(i) := A(i) xor BV(i) xor carry; + carry := (A(i) and BV(i)) or + (A(i) and carry) or + (carry and BV(i)); + end loop; + return sum; + end; + + -- add two signed numbers of the same length + -- both arrays must have range (msb downto 0) + function plus(A, B: SIGNED) return SIGNED is + variable carry: STD_ULOGIC; + variable BV, sum: SIGNED (A'left downto 0); + + -- pragma map_to_operator ADD_TC_OP + -- pragma type_function LEFT_SIGNED_ARG + -- pragma return_port_name Z + + begin + if (A(A'left) = 'X' or B(B'left) = 'X') then + sum := (others => 'X'); + return(sum); + end if; + carry := '0'; + BV := B; + + for i in 0 to A'left loop + sum(i) := A(i) xor BV(i) xor carry; + carry := (A(i) and BV(i)) or + (A(i) and carry) or + (carry and BV(i)); + end loop; + return sum; + end; + + + -- subtract two unsigned numbers of the same length + -- both arrays must have range (msb downto 0) + function unsigned_minus(A, B: UNSIGNED) return UNSIGNED is + variable carry: STD_ULOGIC; + variable BV: STD_ULOGIC_VECTOR (A'left downto 0); + variable sum: UNSIGNED (A'left downto 0); + + -- pragma map_to_operator SUB_UNS_OP + -- pragma type_function LEFT_UNSIGNED_ARG + -- pragma return_port_name Z + + begin + if (A(A'left) = 'X' or B(B'left) = 'X') then + sum := (others => 'X'); + return(sum); + end if; + carry := '1'; + BV := not STD_ULOGIC_VECTOR(B); + + for i in 0 to A'left loop + sum(i) := A(i) xor BV(i) xor carry; + carry := (A(i) and BV(i)) or + (A(i) and carry) or + (carry and BV(i)); + end loop; + return sum; + end; + + -- add two unsigned numbers of the same length + -- both arrays must have range (msb downto 0) + function unsigned_plus(A, B: UNSIGNED) return UNSIGNED is + variable carry: STD_ULOGIC; + variable BV, sum: UNSIGNED (A'left downto 0); + + -- pragma map_to_operator ADD_UNS_OP + -- pragma type_function LEFT_UNSIGNED_ARG + -- pragma return_port_name Z + + begin + if (A(A'left) = 'X' or B(B'left) = 'X') then + sum := (others => 'X'); + return(sum); + end if; + carry := '0'; + BV := B; + + for i in 0 to A'left loop + sum(i) := A(i) xor BV(i) xor carry; + carry := (A(i) and BV(i)) or + (A(i) and carry) or + (carry and BV(i)); + end loop; + return sum; + end; + + + + function "*"(L: SIGNED; R: SIGNED) return SIGNED is + -- pragma label_applies_to mult + -- synopsys subpgm_id 296 + begin + return mult(CONV_SIGNED(L, L'length), + CONV_SIGNED(R, R'length)); -- pragma label mult + end; + + function "*"(L: UNSIGNED; R: UNSIGNED) return UNSIGNED is + -- pragma label_applies_to mult + -- synopsys subpgm_id 295 + begin + return mult(CONV_UNSIGNED(L, L'length), + CONV_UNSIGNED(R, R'length)); -- pragma label mult + end; + + function "*"(L: UNSIGNED; R: SIGNED) return SIGNED is + -- pragma label_applies_to mult + -- synopsys subpgm_id 297 + begin + return mult(CONV_SIGNED(L, L'length+1), + CONV_SIGNED(R, R'length)); -- pragma label mult + end; + + function "*"(L: SIGNED; R: UNSIGNED) return SIGNED is + -- pragma label_applies_to mult + -- synopsys subpgm_id 298 + begin + return mult(CONV_SIGNED(L, L'length), + CONV_SIGNED(R, R'length+1)); -- pragma label mult + end; + + + function "*"(L: SIGNED; R: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to mult + -- synopsys subpgm_id 301 + begin + return STD_LOGIC_VECTOR ( + mult(-- pragma label mult + CONV_SIGNED(L, L'length), CONV_SIGNED(R, R'length))); + end; + + function "*"(L: UNSIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to mult + -- synopsys subpgm_id 300 + begin + return STD_LOGIC_VECTOR ( + mult(-- pragma label mult + CONV_UNSIGNED(L, L'length), CONV_UNSIGNED(R, R'length))); + end; + + function "*"(L: UNSIGNED; R: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to mult + -- synopsys subpgm_id 302 + begin + return STD_LOGIC_VECTOR ( + mult(-- pragma label mult + CONV_SIGNED(L, L'length+1), CONV_SIGNED(R, R'length))); + end; + + function "*"(L: SIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to mult + -- synopsys subpgm_id 303 + begin + return STD_LOGIC_VECTOR ( + mult(-- pragma label mult + CONV_SIGNED(L, L'length), CONV_SIGNED(R, R'length+1))); + end; + + + function "+"(L: UNSIGNED; R: UNSIGNED) return UNSIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 236 + constant length: INTEGER := max(L'length, R'length); + begin + return unsigned_plus(CONV_UNSIGNED(L, length), + CONV_UNSIGNED(R, length)); -- pragma label plus + end; + + + function "+"(L: SIGNED; R: SIGNED) return SIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 237 + constant length: INTEGER := max(L'length, R'length); + begin + return plus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label plus + end; + + + function "+"(L: UNSIGNED; R: SIGNED) return SIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 238 + constant length: INTEGER := max(L'length + 1, R'length); + begin + return plus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label plus + end; + + + function "+"(L: SIGNED; R: UNSIGNED) return SIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 239 + constant length: INTEGER := max(L'length, R'length + 1); + begin + return plus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label plus + end; + + + function "+"(L: UNSIGNED; R: INTEGER) return UNSIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 240 + constant length: INTEGER := L'length + 1; + begin + return CONV_UNSIGNED( + plus( -- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1); + end; + + + function "+"(L: INTEGER; R: UNSIGNED) return UNSIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 241 + constant length: INTEGER := R'length + 1; + begin + return CONV_UNSIGNED( + plus( -- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1); + end; + + + function "+"(L: SIGNED; R: INTEGER) return SIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 242 + constant length: INTEGER := L'length; + begin + return plus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label plus + end; + + + function "+"(L: INTEGER; R: SIGNED) return SIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 243 + constant length: INTEGER := R'length; + begin + return plus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label plus + end; + + + function "+"(L: UNSIGNED; R: STD_ULOGIC) return UNSIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 244 + constant length: INTEGER := L'length; + begin + return unsigned_plus(CONV_UNSIGNED(L, length), + CONV_UNSIGNED(R, length)) ; -- pragma label plus + end; + + + function "+"(L: STD_ULOGIC; R: UNSIGNED) return UNSIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 245 + constant length: INTEGER := R'length; + begin + return unsigned_plus(CONV_UNSIGNED(L, length), + CONV_UNSIGNED(R, length)); -- pragma label plus + end; + + + function "+"(L: SIGNED; R: STD_ULOGIC) return SIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 246 + constant length: INTEGER := L'length; + begin + return plus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label plus + end; + + + function "+"(L: STD_ULOGIC; R: SIGNED) return SIGNED is + -- pragma label_applies_to plus + -- synopsys subpgm_id 247 + constant length: INTEGER := R'length; + begin + return plus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label plus + end; + + + + function "+"(L: UNSIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 260 + constant length: INTEGER := max(L'length, R'length); + begin + return STD_LOGIC_VECTOR ( + unsigned_plus(-- pragma label plus + CONV_UNSIGNED(L, length), CONV_UNSIGNED(R, length))); + end; + + + function "+"(L: SIGNED; R: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 261 + constant length: INTEGER := max(L'length, R'length); + begin + return STD_LOGIC_VECTOR ( + plus(-- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "+"(L: UNSIGNED; R: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 262 + constant length: INTEGER := max(L'length + 1, R'length); + begin + return STD_LOGIC_VECTOR ( + plus(-- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "+"(L: SIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 263 + constant length: INTEGER := max(L'length, R'length + 1); + begin + return STD_LOGIC_VECTOR ( + plus(-- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "+"(L: UNSIGNED; R: INTEGER) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 264 + constant length: INTEGER := L'length + 1; + begin + return STD_LOGIC_VECTOR (CONV_UNSIGNED( + plus( -- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1)); + end; + + + function "+"(L: INTEGER; R: UNSIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 265 + constant length: INTEGER := R'length + 1; + begin + return STD_LOGIC_VECTOR (CONV_UNSIGNED( + plus( -- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1)); + end; + + + function "+"(L: SIGNED; R: INTEGER) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 266 + constant length: INTEGER := L'length; + begin + return STD_LOGIC_VECTOR ( + plus(-- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "+"(L: INTEGER; R: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 267 + constant length: INTEGER := R'length; + begin + return STD_LOGIC_VECTOR ( + plus(-- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "+"(L: UNSIGNED; R: STD_ULOGIC) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 268 + constant length: INTEGER := L'length; + begin + return STD_LOGIC_VECTOR ( + unsigned_plus(-- pragma label plus + CONV_UNSIGNED(L, length), CONV_UNSIGNED(R, length))) ; + end; + + + function "+"(L: STD_ULOGIC; R: UNSIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 269 + constant length: INTEGER := R'length; + begin + return STD_LOGIC_VECTOR ( + unsigned_plus(-- pragma label plus + CONV_UNSIGNED(L, length), CONV_UNSIGNED(R, length))); + end; + + + function "+"(L: SIGNED; R: STD_ULOGIC) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 270 + constant length: INTEGER := L'length; + begin + return STD_LOGIC_VECTOR ( + plus(-- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "+"(L: STD_ULOGIC; R: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to plus + -- synopsys subpgm_id 271 + constant length: INTEGER := R'length; + begin + return STD_LOGIC_VECTOR ( + plus(-- pragma label plus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + + function "-"(L: UNSIGNED; R: UNSIGNED) return UNSIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 248 + constant length: INTEGER := max(L'length, R'length); + begin + return unsigned_minus(CONV_UNSIGNED(L, length), + CONV_UNSIGNED(R, length)); -- pragma label minus + end; + + + function "-"(L: SIGNED; R: SIGNED) return SIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 249 + constant length: INTEGER := max(L'length, R'length); + begin + return minus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label minus + end; + + + function "-"(L: UNSIGNED; R: SIGNED) return SIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 250 + constant length: INTEGER := max(L'length + 1, R'length); + begin + return minus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label minus + end; + + + function "-"(L: SIGNED; R: UNSIGNED) return SIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 251 + constant length: INTEGER := max(L'length, R'length + 1); + begin + return minus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label minus + end; + + + function "-"(L: UNSIGNED; R: INTEGER) return UNSIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 252 + constant length: INTEGER := L'length + 1; + begin + return CONV_UNSIGNED( + minus( -- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1); + end; + + + function "-"(L: INTEGER; R: UNSIGNED) return UNSIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 253 + constant length: INTEGER := R'length + 1; + begin + return CONV_UNSIGNED( + minus( -- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1); + end; + + + function "-"(L: SIGNED; R: INTEGER) return SIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 254 + constant length: INTEGER := L'length; + begin + return minus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label minus + end; + + + function "-"(L: INTEGER; R: SIGNED) return SIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 255 + constant length: INTEGER := R'length; + begin + return minus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label minus + end; + + + function "-"(L: UNSIGNED; R: STD_ULOGIC) return UNSIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 256 + constant length: INTEGER := L'length + 1; + begin + return CONV_UNSIGNED( + minus( -- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1); + end; + + + function "-"(L: STD_ULOGIC; R: UNSIGNED) return UNSIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 257 + constant length: INTEGER := R'length + 1; + begin + return CONV_UNSIGNED( + minus( -- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1); + end; + + + function "-"(L: SIGNED; R: STD_ULOGIC) return SIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 258 + constant length: INTEGER := L'length; + begin + return minus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label minus + end; + + + function "-"(L: STD_ULOGIC; R: SIGNED) return SIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 259 + constant length: INTEGER := R'length; + begin + return minus(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label minus + end; + + + + + function "-"(L: UNSIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 272 + constant length: INTEGER := max(L'length, R'length); + begin + return STD_LOGIC_VECTOR ( + unsigned_minus(-- pragma label minus + CONV_UNSIGNED(L, length), CONV_UNSIGNED(R, length))); + end; + + + function "-"(L: SIGNED; R: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 273 + constant length: INTEGER := max(L'length, R'length); + begin + return STD_LOGIC_VECTOR ( + minus(-- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "-"(L: UNSIGNED; R: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 274 + constant length: INTEGER := max(L'length + 1, R'length); + begin + return STD_LOGIC_VECTOR ( + minus(-- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "-"(L: SIGNED; R: UNSIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 275 + constant length: INTEGER := max(L'length, R'length + 1); + begin + return STD_LOGIC_VECTOR ( + minus(-- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "-"(L: UNSIGNED; R: INTEGER) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 276 + constant length: INTEGER := L'length + 1; + begin + return STD_LOGIC_VECTOR (CONV_UNSIGNED( + minus( -- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1)); + end; + + + function "-"(L: INTEGER; R: UNSIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 277 + constant length: INTEGER := R'length + 1; + begin + return STD_LOGIC_VECTOR (CONV_UNSIGNED( + minus( -- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1)); + end; + + + function "-"(L: SIGNED; R: INTEGER) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 278 + constant length: INTEGER := L'length; + begin + return STD_LOGIC_VECTOR ( + minus(-- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "-"(L: INTEGER; R: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 279 + constant length: INTEGER := R'length; + begin + return STD_LOGIC_VECTOR ( + minus(-- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "-"(L: UNSIGNED; R: STD_ULOGIC) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 280 + constant length: INTEGER := L'length + 1; + begin + return STD_LOGIC_VECTOR (CONV_UNSIGNED( + minus( -- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1)); + end; + + + function "-"(L: STD_ULOGIC; R: UNSIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 281 + constant length: INTEGER := R'length + 1; + begin + return STD_LOGIC_VECTOR (CONV_UNSIGNED( + minus( -- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length)), length-1)); + end; + + + function "-"(L: SIGNED; R: STD_ULOGIC) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 282 + constant length: INTEGER := L'length; + begin + return STD_LOGIC_VECTOR ( + minus(-- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + function "-"(L: STD_ULOGIC; R: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 283 + constant length: INTEGER := R'length; + begin + return STD_LOGIC_VECTOR ( + minus(-- pragma label minus + CONV_SIGNED(L, length), CONV_SIGNED(R, length))); + end; + + + + + function "+"(L: UNSIGNED) return UNSIGNED is + -- synopsys subpgm_id 284 + begin + return L; + end; + + + function "+"(L: SIGNED) return SIGNED is + -- synopsys subpgm_id 285 + begin + return L; + end; + + + function "-"(L: SIGNED) return SIGNED is + -- pragma label_applies_to minus + -- synopsys subpgm_id 286 + begin + return 0 - L; -- pragma label minus + end; + + + function "ABS"(L: SIGNED) return SIGNED is + -- synopsys subpgm_id 287 + begin + if (L(L'left) = '0' or L(L'left) = 'L') then + return L; + else + return 0 - L; + end if; + end; + + + function "+"(L: UNSIGNED) return STD_LOGIC_VECTOR is + -- synopsys subpgm_id 289 + begin + return STD_LOGIC_VECTOR (L); + end; + + + function "+"(L: SIGNED) return STD_LOGIC_VECTOR is + -- synopsys subpgm_id 290 + begin + return STD_LOGIC_VECTOR (L); + end; + + + function "-"(L: SIGNED) return STD_LOGIC_VECTOR is + -- pragma label_applies_to minus + -- synopsys subpgm_id 292 + variable tmp: SIGNED(L'length-1 downto 0); + begin + tmp := 0 - L; -- pragma label minus + return STD_LOGIC_VECTOR (tmp); + end; + + + function "ABS"(L: SIGNED) return STD_LOGIC_VECTOR is + -- synopsys subpgm_id 294 + variable tmp: SIGNED(L'length-1 downto 0); + begin + if (L(L'left) = '0' or L(L'left) = 'L') then + return STD_LOGIC_VECTOR (L); + else + tmp := 0 - L; + return STD_LOGIC_VECTOR (tmp); + end if; + end; + + + -- Type propagation function which returns the type BOOLEAN + function UNSIGNED_RETURN_BOOLEAN(A,B: UNSIGNED) return BOOLEAN is + variable Z: BOOLEAN; + -- pragma return_port_name Z + begin + return(Z); + end; + + -- Type propagation function which returns the type BOOLEAN + function SIGNED_RETURN_BOOLEAN(A,B: SIGNED) return BOOLEAN is + variable Z: BOOLEAN; + -- pragma return_port_name Z + begin + return(Z); + end; + + + -- compare two signed numbers of the same length + -- both arrays must have range (msb downto 0) + function is_less(A, B: SIGNED) return BOOLEAN is + constant sign: INTEGER := A'left; + variable a_is_0, b_is_1, result : boolean; + + -- pragma map_to_operator LT_TC_OP + -- pragma type_function SIGNED_RETURN_BOOLEAN + -- pragma return_port_name Z + + begin + if A(sign) /= B(sign) then + result := A(sign) = '1'; + else + result := FALSE; + for i in 0 to sign-1 loop + a_is_0 := A(i) = '0'; + b_is_1 := B(i) = '1'; + result := (a_is_0 and b_is_1) or + (a_is_0 and result) or + (b_is_1 and result); + end loop; + end if; + return result; + end; + + + -- compare two signed numbers of the same length + -- both arrays must have range (msb downto 0) + function is_less_or_equal(A, B: SIGNED) return BOOLEAN is + constant sign: INTEGER := A'left; + variable a_is_0, b_is_1, result : boolean; + + -- pragma map_to_operator LEQ_TC_OP + -- pragma type_function SIGNED_RETURN_BOOLEAN + -- pragma return_port_name Z + + begin + if A(sign) /= B(sign) then + result := A(sign) = '1'; + else + result := TRUE; + for i in 0 to sign-1 loop + a_is_0 := A(i) = '0'; + b_is_1 := B(i) = '1'; + result := (a_is_0 and b_is_1) or + (a_is_0 and result) or + (b_is_1 and result); + end loop; + end if; + return result; + end; + + + + -- compare two unsigned numbers of the same length + -- both arrays must have range (msb downto 0) + function unsigned_is_less(A, B: UNSIGNED) return BOOLEAN is + constant sign: INTEGER := A'left; + variable a_is_0, b_is_1, result : boolean; + + -- pragma map_to_operator LT_UNS_OP + -- pragma type_function UNSIGNED_RETURN_BOOLEAN + -- pragma return_port_name Z + + begin + result := FALSE; + for i in 0 to sign loop + a_is_0 := A(i) = '0'; + b_is_1 := B(i) = '1'; + result := (a_is_0 and b_is_1) or + (a_is_0 and result) or + (b_is_1 and result); + end loop; + return result; + end; + + + -- compare two unsigned numbers of the same length + -- both arrays must have range (msb downto 0) + function unsigned_is_less_or_equal(A, B: UNSIGNED) return BOOLEAN is + constant sign: INTEGER := A'left; + variable a_is_0, b_is_1, result : boolean; + + -- pragma map_to_operator LEQ_UNS_OP + -- pragma type_function UNSIGNED_RETURN_BOOLEAN + -- pragma return_port_name Z + + begin + result := TRUE; + for i in 0 to sign loop + a_is_0 := A(i) = '0'; + b_is_1 := B(i) = '1'; + result := (a_is_0 and b_is_1) or + (a_is_0 and result) or + (b_is_1 and result); + end loop; + return result; + end; + + + + + function "<"(L: UNSIGNED; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to lt + -- synopsys subpgm_id 305 + constant length: INTEGER := max(L'length, R'length); + begin + return unsigned_is_less(CONV_UNSIGNED(L, length), + CONV_UNSIGNED(R, length)); -- pragma label lt + end; + + + function "<"(L: SIGNED; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to lt + -- synopsys subpgm_id 306 + constant length: INTEGER := max(L'length, R'length); + begin + return is_less(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label lt + end; + + + function "<"(L: UNSIGNED; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to lt + -- synopsys subpgm_id 307 + constant length: INTEGER := max(L'length + 1, R'length); + begin + return is_less(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label lt + end; + + + function "<"(L: SIGNED; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to lt + -- synopsys subpgm_id 308 + constant length: INTEGER := max(L'length, R'length + 1); + begin + return is_less(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label lt + end; + + + function "<"(L: UNSIGNED; R: INTEGER) return BOOLEAN is + -- pragma label_applies_to lt + -- synopsys subpgm_id 309 + constant length: INTEGER := L'length + 1; + begin + return is_less(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label lt + end; + + + function "<"(L: INTEGER; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to lt + -- synopsys subpgm_id 310 + constant length: INTEGER := R'length + 1; + begin + return is_less(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label lt + end; + + + function "<"(L: SIGNED; R: INTEGER) return BOOLEAN is + -- pragma label_applies_to lt + -- synopsys subpgm_id 311 + constant length: INTEGER := L'length; + begin + return is_less(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label lt + end; + + + function "<"(L: INTEGER; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to lt + -- synopsys subpgm_id 312 + constant length: INTEGER := R'length; + begin + return is_less(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label lt + end; + + + + + function "<="(L: UNSIGNED; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to leq + -- synopsys subpgm_id 314 + constant length: INTEGER := max(L'length, R'length); + begin + return unsigned_is_less_or_equal(CONV_UNSIGNED(L, length), + CONV_UNSIGNED(R, length)); -- pragma label leq + end; + + + function "<="(L: SIGNED; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to leq + -- synopsys subpgm_id 315 + constant length: INTEGER := max(L'length, R'length); + begin + return is_less_or_equal(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label leq + end; + + + function "<="(L: UNSIGNED; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to leq + -- synopsys subpgm_id 316 + constant length: INTEGER := max(L'length + 1, R'length); + begin + return is_less_or_equal(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label leq + end; + + + function "<="(L: SIGNED; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to leq + -- synopsys subpgm_id 317 + constant length: INTEGER := max(L'length, R'length + 1); + begin + return is_less_or_equal(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label leq + end; + + + function "<="(L: UNSIGNED; R: INTEGER) return BOOLEAN is + -- pragma label_applies_to leq + -- synopsys subpgm_id 318 + constant length: INTEGER := L'length + 1; + begin + return is_less_or_equal(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label leq + end; + + + function "<="(L: INTEGER; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to leq + -- synopsys subpgm_id 319 + constant length: INTEGER := R'length + 1; + begin + return is_less_or_equal(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label leq + end; + + + function "<="(L: SIGNED; R: INTEGER) return BOOLEAN is + -- pragma label_applies_to leq + -- synopsys subpgm_id 320 + constant length: INTEGER := L'length; + begin + return is_less_or_equal(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label leq + end; + + + function "<="(L: INTEGER; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to leq + -- synopsys subpgm_id 321 + constant length: INTEGER := R'length; + begin + return is_less_or_equal(CONV_SIGNED(L, length), + CONV_SIGNED(R, length)); -- pragma label leq + end; + + + + + function ">"(L: UNSIGNED; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to gt + -- synopsys subpgm_id 323 + constant length: INTEGER := max(L'length, R'length); + begin + return unsigned_is_less(CONV_UNSIGNED(R, length), + CONV_UNSIGNED(L, length)); -- pragma label gt + end; + + + function ">"(L: SIGNED; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to gt + -- synopsys subpgm_id 324 + constant length: INTEGER := max(L'length, R'length); + begin + return is_less(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label gt + end; + + + function ">"(L: UNSIGNED; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to gt + -- synopsys subpgm_id 325 + constant length: INTEGER := max(L'length + 1, R'length); + begin + return is_less(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label gt + end; + + + function ">"(L: SIGNED; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to gt + -- synopsys subpgm_id 326 + constant length: INTEGER := max(L'length, R'length + 1); + begin + return is_less(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label gt + end; + + + function ">"(L: UNSIGNED; R: INTEGER) return BOOLEAN is + -- pragma label_applies_to gt + -- synopsys subpgm_id 327 + constant length: INTEGER := L'length + 1; + begin + return is_less(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label gt + end; + + + function ">"(L: INTEGER; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to gt + -- synopsys subpgm_id 328 + constant length: INTEGER := R'length + 1; + begin + return is_less(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label gt + end; + + + function ">"(L: SIGNED; R: INTEGER) return BOOLEAN is + -- pragma label_applies_to gt + -- synopsys subpgm_id 329 + constant length: INTEGER := L'length; + begin + return is_less(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label gt + end; + + + function ">"(L: INTEGER; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to gt + -- synopsys subpgm_id 330 + constant length: INTEGER := R'length; + begin + return is_less(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label gt + end; + + + + + function ">="(L: UNSIGNED; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to geq + -- synopsys subpgm_id 332 + constant length: INTEGER := max(L'length, R'length); + begin + return unsigned_is_less_or_equal(CONV_UNSIGNED(R, length), + CONV_UNSIGNED(L, length)); -- pragma label geq + end; + + + function ">="(L: SIGNED; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to geq + -- synopsys subpgm_id 333 + constant length: INTEGER := max(L'length, R'length); + begin + return is_less_or_equal(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label geq + end; + + + function ">="(L: UNSIGNED; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to geq + -- synopsys subpgm_id 334 + constant length: INTEGER := max(L'length + 1, R'length); + begin + return is_less_or_equal(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label geq + end; + + + function ">="(L: SIGNED; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to geq + -- synopsys subpgm_id 335 + constant length: INTEGER := max(L'length, R'length + 1); + begin + return is_less_or_equal(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label geq + end; + + + function ">="(L: UNSIGNED; R: INTEGER) return BOOLEAN is + -- pragma label_applies_to geq + -- synopsys subpgm_id 336 + constant length: INTEGER := L'length + 1; + begin + return is_less_or_equal(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label geq + end; + + + function ">="(L: INTEGER; R: UNSIGNED) return BOOLEAN is + -- pragma label_applies_to geq + -- synopsys subpgm_id 337 + constant length: INTEGER := R'length + 1; + begin + return is_less_or_equal(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label geq + end; + + + function ">="(L: SIGNED; R: INTEGER) return BOOLEAN is + -- pragma label_applies_to geq + -- synopsys subpgm_id 338 + constant length: INTEGER := L'length; + begin + return is_less_or_equal(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label geq + end; + + + function ">="(L: INTEGER; R: SIGNED) return BOOLEAN is + -- pragma label_applies_to geq + -- synopsys subpgm_id 339 + constant length: INTEGER := R'length; + begin + return is_less_or_equal(CONV_SIGNED(R, length), + CONV_SIGNED(L, length)); -- pragma label geq + end; + + + + + -- for internal use only. Assumes SIGNED arguments of equal length. + function bitwise_eql(L: STD_ULOGIC_VECTOR; R: STD_ULOGIC_VECTOR) + return BOOLEAN is + -- pragma built_in SYN_EQL + begin + for i in L'range loop + if L(i) /= R(i) then + return FALSE; + end if; + end loop; + return TRUE; + end; + + -- for internal use only. Assumes SIGNED arguments of equal length. + function bitwise_neq(L: STD_ULOGIC_VECTOR; R: STD_ULOGIC_VECTOR) + return BOOLEAN is + -- pragma built_in SYN_NEQ + begin + for i in L'range loop + if L(i) /= R(i) then + return TRUE; + end if; + end loop; + return FALSE; + end; + + + function "="(L: UNSIGNED; R: UNSIGNED) return BOOLEAN is + -- synopsys subpgm_id 341 + constant length: INTEGER := max(L'length, R'length); + begin + return bitwise_eql( STD_ULOGIC_VECTOR( CONV_UNSIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_UNSIGNED(R, length) ) ); + end; + + + function "="(L: SIGNED; R: SIGNED) return BOOLEAN is + -- synopsys subpgm_id 342 + constant length: INTEGER := max(L'length, R'length); + begin + return bitwise_eql( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "="(L: UNSIGNED; R: SIGNED) return BOOLEAN is + -- synopsys subpgm_id 343 + constant length: INTEGER := max(L'length + 1, R'length); + begin + return bitwise_eql( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "="(L: SIGNED; R: UNSIGNED) return BOOLEAN is + -- synopsys subpgm_id 344 + constant length: INTEGER := max(L'length, R'length + 1); + begin + return bitwise_eql( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "="(L: UNSIGNED; R: INTEGER) return BOOLEAN is + -- synopsys subpgm_id 345 + constant length: INTEGER := L'length + 1; + begin + return bitwise_eql( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "="(L: INTEGER; R: UNSIGNED) return BOOLEAN is + -- synopsys subpgm_id 346 + constant length: INTEGER := R'length + 1; + begin + return bitwise_eql( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "="(L: SIGNED; R: INTEGER) return BOOLEAN is + -- synopsys subpgm_id 347 + constant length: INTEGER := L'length; + begin + return bitwise_eql( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "="(L: INTEGER; R: SIGNED) return BOOLEAN is + -- synopsys subpgm_id 348 + constant length: INTEGER := R'length; + begin + return bitwise_eql( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + + + function "/="(L: UNSIGNED; R: UNSIGNED) return BOOLEAN is + -- synopsys subpgm_id 350 + constant length: INTEGER := max(L'length, R'length); + begin + return bitwise_neq( STD_ULOGIC_VECTOR( CONV_UNSIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_UNSIGNED(R, length) ) ); + end; + + + function "/="(L: SIGNED; R: SIGNED) return BOOLEAN is + -- synopsys subpgm_id 351 + constant length: INTEGER := max(L'length, R'length); + begin + return bitwise_neq( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "/="(L: UNSIGNED; R: SIGNED) return BOOLEAN is + -- synopsys subpgm_id 352 + constant length: INTEGER := max(L'length + 1, R'length); + begin + return bitwise_neq( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "/="(L: SIGNED; R: UNSIGNED) return BOOLEAN is + -- synopsys subpgm_id 353 + constant length: INTEGER := max(L'length, R'length + 1); + begin + return bitwise_neq( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "/="(L: UNSIGNED; R: INTEGER) return BOOLEAN is + -- synopsys subpgm_id 354 + constant length: INTEGER := L'length + 1; + begin + return bitwise_neq( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "/="(L: INTEGER; R: UNSIGNED) return BOOLEAN is + -- synopsys subpgm_id 355 + constant length: INTEGER := R'length + 1; + begin + return bitwise_neq( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "/="(L: SIGNED; R: INTEGER) return BOOLEAN is + -- synopsys subpgm_id 356 + constant length: INTEGER := L'length; + begin + return bitwise_neq( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + function "/="(L: INTEGER; R: SIGNED) return BOOLEAN is + -- synopsys subpgm_id 357 + constant length: INTEGER := R'length; + begin + return bitwise_neq( STD_ULOGIC_VECTOR( CONV_SIGNED(L, length) ), + STD_ULOGIC_VECTOR( CONV_SIGNED(R, length) ) ); + end; + + + + function SHL(ARG: UNSIGNED; COUNT: UNSIGNED) return UNSIGNED is + -- synopsys subpgm_id 358 + constant control_msb: INTEGER := COUNT'length - 1; + variable control: UNSIGNED (control_msb downto 0); + constant result_msb: INTEGER := ARG'length-1; + subtype rtype is UNSIGNED (result_msb downto 0); + variable result, temp: rtype; + begin + control := MAKE_BINARY(COUNT); + -- synopsys synthesis_off + if (control(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + -- synopsys synthesis_on + result := ARG; + for i in 0 to control_msb loop + if control(i) = '1' then + temp := rtype'(others => '0'); + if 2**i <= result_msb then + temp(result_msb downto 2**i) := + result(result_msb - 2**i downto 0); + end if; + result := temp; + end if; + end loop; + return result; + end; + + function SHL(ARG: SIGNED; COUNT: UNSIGNED) return SIGNED is + -- synopsys subpgm_id 359 + constant control_msb: INTEGER := COUNT'length - 1; + variable control: UNSIGNED (control_msb downto 0); + constant result_msb: INTEGER := ARG'length-1; + subtype rtype is SIGNED (result_msb downto 0); + variable result, temp: rtype; + begin + control := MAKE_BINARY(COUNT); + -- synopsys synthesis_off + if (control(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + -- synopsys synthesis_on + result := ARG; + for i in 0 to control_msb loop + if control(i) = '1' then + temp := rtype'(others => '0'); + if 2**i <= result_msb then + temp(result_msb downto 2**i) := + result(result_msb - 2**i downto 0); + end if; + result := temp; + end if; + end loop; + return result; + end; + + + function SHR(ARG: UNSIGNED; COUNT: UNSIGNED) return UNSIGNED is + -- synopsys subpgm_id 360 + constant control_msb: INTEGER := COUNT'length - 1; + variable control: UNSIGNED (control_msb downto 0); + constant result_msb: INTEGER := ARG'length-1; + subtype rtype is UNSIGNED (result_msb downto 0); + variable result, temp: rtype; + begin + control := MAKE_BINARY(COUNT); + -- synopsys synthesis_off + if (control(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + -- synopsys synthesis_on + result := ARG; + for i in 0 to control_msb loop + if control(i) = '1' then + temp := rtype'(others => '0'); + if 2**i <= result_msb then + temp(result_msb - 2**i downto 0) := + result(result_msb downto 2**i); + end if; + result := temp; + end if; + end loop; + return result; + end; + + function SHR(ARG: SIGNED; COUNT: UNSIGNED) return SIGNED is + -- synopsys subpgm_id 361 + constant control_msb: INTEGER := COUNT'length - 1; + variable control: UNSIGNED (control_msb downto 0); + constant result_msb: INTEGER := ARG'length-1; + subtype rtype is SIGNED (result_msb downto 0); + variable result, temp: rtype; + variable sign_bit: STD_ULOGIC; + begin + control := MAKE_BINARY(COUNT); + -- synopsys synthesis_off + if (control(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + -- synopsys synthesis_on + result := ARG; + sign_bit := ARG(ARG'left); + for i in 0 to control_msb loop + if control(i) = '1' then + temp := rtype'(others => sign_bit); + if 2**i <= result_msb then + temp(result_msb - 2**i downto 0) := + result(result_msb downto 2**i); + end if; + result := temp; + end if; + end loop; + return result; + end; + + + + + function CONV_INTEGER(ARG: INTEGER) return INTEGER is + -- synopsys subpgm_id 365 + begin + return ARG; + end; + + function CONV_INTEGER(ARG: UNSIGNED) return INTEGER is + variable result: INTEGER; + variable tmp: STD_ULOGIC; + -- synopsys built_in SYN_UNSIGNED_TO_INTEGER + -- synopsys subpgm_id 366 + begin + -- synopsys synthesis_off + assert ARG'length <= 31 + report "ARG is too large in CONV_INTEGER" + severity FAILURE; + result := 0; + for i in ARG'range loop + result := result * 2; + tmp := tbl_BINARY(ARG(i)); + if tmp = '1' then + result := result + 1; + elsif tmp = 'X' then + assert false + report "CONV_INTEGER: There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, and it has been converted to 0." + severity WARNING; + end if; + end loop; + return result; + -- synopsys synthesis_on + end; + + + function CONV_INTEGER(ARG: SIGNED) return INTEGER is + variable result: INTEGER; + variable tmp: STD_ULOGIC; + -- synopsys built_in SYN_SIGNED_TO_INTEGER + -- synopsys subpgm_id 367 + begin + -- synopsys synthesis_off + assert ARG'length <= 32 + report "ARG is too large in CONV_INTEGER" + severity FAILURE; + result := 0; + for i in ARG'range loop + if i /= ARG'left then + result := result * 2; + tmp := tbl_BINARY(ARG(i)); + if tmp = '1' then + result := result + 1; + elsif tmp = 'X' then + assert false + report "CONV_INTEGER: There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, and it has been converted to 0." + severity WARNING; + end if; + end if; + end loop; + tmp := MAKE_BINARY(ARG(ARG'left)); + if tmp = '1' then + if ARG'length = 32 then + result := (result - 2**30) - 2**30; + else + result := result - (2 ** (ARG'length-1)); + end if; + end if; + return result; + -- synopsys synthesis_on + end; + + + function CONV_INTEGER(ARG: STD_ULOGIC) return SMALL_INT is + variable tmp: STD_ULOGIC; + -- synopsys built_in SYN_FEED_THRU + -- synopsys subpgm_id 370 + begin + -- synopsys synthesis_off + tmp := tbl_BINARY(ARG); + if tmp = '1' then + return 1; + elsif tmp = 'X' then + assert false + report "CONV_INTEGER: There is an 'U'|'X'|'W'|'Z'|'-' in an arithmetic operand, and it has been converted to 0." + severity WARNING; + return 0; + else + return 0; + end if; + -- synopsys synthesis_on + end; + + + -- convert an integer to a unsigned STD_ULOGIC_VECTOR + function CONV_UNSIGNED(ARG: INTEGER; SIZE: INTEGER) return UNSIGNED is + variable result: UNSIGNED(SIZE-1 downto 0); + variable temp: integer; + -- synopsys built_in SYN_INTEGER_TO_UNSIGNED + -- synopsys subpgm_id 371 + begin + -- synopsys synthesis_off + temp := ARG; + for i in 0 to SIZE-1 loop + if (temp mod 2) = 1 then + result(i) := '1'; + else + result(i) := '0'; + end if; + if temp > 0 then + temp := temp / 2; + else + temp := (temp - 1) / 2; -- simulate ASR + end if; + end loop; + return result; + -- synopsys synthesis_on + end; + + + function CONV_UNSIGNED(ARG: UNSIGNED; SIZE: INTEGER) return UNSIGNED is + constant msb: INTEGER := min(ARG'length, SIZE) - 1; + subtype rtype is UNSIGNED (SIZE-1 downto 0); + variable new_bounds: UNSIGNED (ARG'length-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_ZERO_EXTEND + -- synopsys subpgm_id 372 + begin + -- synopsys synthesis_off + new_bounds := MAKE_BINARY(ARG); + if (new_bounds(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + result := rtype'(others => '0'); + result(msb downto 0) := new_bounds(msb downto 0); + return result; + -- synopsys synthesis_on + end; + + + function CONV_UNSIGNED(ARG: SIGNED; SIZE: INTEGER) return UNSIGNED is + constant msb: INTEGER := min(ARG'length, SIZE) - 1; + subtype rtype is UNSIGNED (SIZE-1 downto 0); + variable new_bounds: UNSIGNED (ARG'length-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_SIGN_EXTEND + -- synopsys subpgm_id 373 + begin + -- synopsys synthesis_off + new_bounds := MAKE_BINARY(ARG); + if (new_bounds(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + result := rtype'(others => new_bounds(new_bounds'left)); + result(msb downto 0) := new_bounds(msb downto 0); + return result; + -- synopsys synthesis_on + end; + + + function CONV_UNSIGNED(ARG: STD_ULOGIC; SIZE: INTEGER) return UNSIGNED is + subtype rtype is UNSIGNED (SIZE-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_ZERO_EXTEND + -- synopsys subpgm_id 375 + begin + -- synopsys synthesis_off + result := rtype'(others => '0'); + result(0) := MAKE_BINARY(ARG); + if (result(0) = 'X') then + result := rtype'(others => 'X'); + end if; + return result; + -- synopsys synthesis_on + end; + + + -- convert an integer to a 2's complement STD_ULOGIC_VECTOR + function CONV_SIGNED(ARG: INTEGER; SIZE: INTEGER) return SIGNED is + variable result: SIGNED (SIZE-1 downto 0); + variable temp: integer; + -- synopsys built_in SYN_INTEGER_TO_SIGNED + -- synopsys subpgm_id 376 + begin + -- synopsys synthesis_off + temp := ARG; + for i in 0 to SIZE-1 loop + if (temp mod 2) = 1 then + result(i) := '1'; + else + result(i) := '0'; + end if; + if temp > 0 then + temp := temp / 2; + elsif (temp > integer'low) then + temp := (temp - 1) / 2; -- simulate ASR + else + temp := temp / 2; -- simulate ASR + end if; + end loop; + return result; + -- synopsys synthesis_on + end; + + + function CONV_SIGNED(ARG: UNSIGNED; SIZE: INTEGER) return SIGNED is + constant msb: INTEGER := min(ARG'length, SIZE) - 1; + subtype rtype is SIGNED (SIZE-1 downto 0); + variable new_bounds : SIGNED (ARG'length-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_ZERO_EXTEND + -- synopsys subpgm_id 377 + begin + -- synopsys synthesis_off + new_bounds := MAKE_BINARY(ARG); + if (new_bounds(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + result := rtype'(others => '0'); + result(msb downto 0) := new_bounds(msb downto 0); + return result; + -- synopsys synthesis_on + end; + + function CONV_SIGNED(ARG: SIGNED; SIZE: INTEGER) return SIGNED is + constant msb: INTEGER := min(ARG'length, SIZE) - 1; + subtype rtype is SIGNED (SIZE-1 downto 0); + variable new_bounds : SIGNED (ARG'length-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_SIGN_EXTEND + -- synopsys subpgm_id 378 + begin + -- synopsys synthesis_off + new_bounds := MAKE_BINARY(ARG); + if (new_bounds(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + result := rtype'(others => new_bounds(new_bounds'left)); + result(msb downto 0) := new_bounds(msb downto 0); + return result; + -- synopsys synthesis_on + end; + + + function CONV_SIGNED(ARG: STD_ULOGIC; SIZE: INTEGER) return SIGNED is + subtype rtype is SIGNED (SIZE-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_ZERO_EXTEND + -- synopsys subpgm_id 380 + begin + -- synopsys synthesis_off + result := rtype'(others => '0'); + result(0) := MAKE_BINARY(ARG); + if (result(0) = 'X') then + result := rtype'(others => 'X'); + end if; + return result; + -- synopsys synthesis_on + end; + + + -- convert an integer to an STD_LOGIC_VECTOR + function CONV_STD_LOGIC_VECTOR(ARG: INTEGER; SIZE: INTEGER) return STD_LOGIC_VECTOR is + variable result: STD_LOGIC_VECTOR (SIZE-1 downto 0); + variable temp: integer; + -- synopsys built_in SYN_INTEGER_TO_SIGNED + -- synopsys subpgm_id 381 + begin + -- synopsys synthesis_off + temp := ARG; + for i in 0 to SIZE-1 loop + if (temp mod 2) = 1 then + result(i) := '1'; + else + result(i) := '0'; + end if; + if temp > 0 then + temp := temp / 2; + elsif (temp > integer'low) then + temp := (temp - 1) / 2; -- simulate ASR + else + temp := temp / 2; -- simulate ASR + end if; + end loop; + return result; + -- synopsys synthesis_on + end; + + + function CONV_STD_LOGIC_VECTOR(ARG: UNSIGNED; SIZE: INTEGER) return STD_LOGIC_VECTOR is + constant msb: INTEGER := min(ARG'length, SIZE) - 1; + subtype rtype is STD_LOGIC_VECTOR (SIZE-1 downto 0); + variable new_bounds : STD_LOGIC_VECTOR (ARG'length-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_ZERO_EXTEND + -- synopsys subpgm_id 382 + begin + -- synopsys synthesis_off + new_bounds := MAKE_BINARY(ARG); + if (new_bounds(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + result := rtype'(others => '0'); + result(msb downto 0) := new_bounds(msb downto 0); + return result; + -- synopsys synthesis_on + end; + + function CONV_STD_LOGIC_VECTOR(ARG: SIGNED; SIZE: INTEGER) return STD_LOGIC_VECTOR is + constant msb: INTEGER := min(ARG'length, SIZE) - 1; + subtype rtype is STD_LOGIC_VECTOR (SIZE-1 downto 0); + variable new_bounds : STD_LOGIC_VECTOR (ARG'length-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_SIGN_EXTEND + -- synopsys subpgm_id 383 + begin + -- synopsys synthesis_off + new_bounds := MAKE_BINARY(ARG); + if (new_bounds(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + result := rtype'(others => new_bounds(new_bounds'left)); + result(msb downto 0) := new_bounds(msb downto 0); + return result; + -- synopsys synthesis_on + end; + + + function CONV_STD_LOGIC_VECTOR(ARG: STD_ULOGIC; SIZE: INTEGER) return STD_LOGIC_VECTOR is + subtype rtype is STD_LOGIC_VECTOR (SIZE-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_ZERO_EXTEND + -- synopsys subpgm_id 384 + begin + -- synopsys synthesis_off + result := rtype'(others => '0'); + result(0) := MAKE_BINARY(ARG); + if (result(0) = 'X') then + result := rtype'(others => 'X'); + end if; + return result; + -- synopsys synthesis_on + end; + + function EXT(ARG: STD_LOGIC_VECTOR; SIZE: INTEGER) + return STD_LOGIC_VECTOR is + constant msb: INTEGER := min(ARG'length, SIZE) - 1; + subtype rtype is STD_LOGIC_VECTOR (SIZE-1 downto 0); + variable new_bounds: STD_LOGIC_VECTOR (ARG'length-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_ZERO_EXTEND + -- synopsys subpgm_id 385 + begin + -- synopsys synthesis_off + new_bounds := MAKE_BINARY(ARG); + if (new_bounds(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + result := rtype'(others => '0'); + result(msb downto 0) := new_bounds(msb downto 0); + return result; + -- synopsys synthesis_on + end; + + + function SXT(ARG: STD_LOGIC_VECTOR; SIZE: INTEGER) return STD_LOGIC_VECTOR is + constant msb: INTEGER := min(ARG'length, SIZE) - 1; + subtype rtype is STD_LOGIC_VECTOR (SIZE-1 downto 0); + variable new_bounds : STD_LOGIC_VECTOR (ARG'length-1 downto 0); + variable result: rtype; + -- synopsys built_in SYN_SIGN_EXTEND + -- synopsys subpgm_id 386 + begin + -- synopsys synthesis_off + new_bounds := MAKE_BINARY(ARG); + if (new_bounds(0) = 'X') then + result := rtype'(others => 'X'); + return result; + end if; + result := rtype'(others => new_bounds(new_bounds'left)); + result(msb downto 0) := new_bounds(msb downto 0); + return result; + -- synopsys synthesis_on + end; + + +end std_logic_arith; -- cgit