222 lines
8.1 KiB
VHDL
222 lines
8.1 KiB
VHDL
----------------------------------------------------------------------------------
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-- Company:
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-- Engineer:
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--
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-- Create Date: 12/15/2021 02:06:27 PM
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-- Design Name:
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-- Module Name: updateSnake - Behavioral
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-- Project Name:
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-- Target Devices:
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-- Tool Versions:
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-- Description:
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--
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-- Dependencies:
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--
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-- Revision:
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-- Revision 0.01 - File Created
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-- Additional Comments:
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--
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----------------------------------------------------------------------------------
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library IEEE;
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use IEEE.STD_LOGIC_1164.ALL;
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-- Uncomment the following library declaration if using
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-- arithmetic functions with Signed or Unsigned values
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use IEEE.NUMERIC_STD.ALL;
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library ourTypes;
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use ourTypes.types.all;
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-- Uncomment the following library declaration if instantiating
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-- any Xilinx leaf cells in this code.
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--library UNISIM;
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--use UNISIM.VComponents.all;
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entity updateSnake is
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generic ( dataSize : integer);
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Port (
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clk : in std_logic;
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reset : in std_logic;
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address : out unsigned(SNAKE_ADDRESS_SIZE-1 downto 0);
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data : out std_logic_vector(dataSize-1 downto 0);
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writeEnable : out std_logic := '1';
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matAddress : out unsigned(SNAKE_ADDRESS_SIZE-1 downto 0);
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matData : out std_logic_vector(SNAKE_ADDRESS_SIZE-1 downto 0);
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matWriteEnable : out std_logic := '1'
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);
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end updateSnake;
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architecture Behavioral of updateSnake is
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signal index : unsigned(SNAKE_ADDRESS_SIZE-1 downto 0) := to_unsigned(0,SNAKE_ADDRESS_SIZE);
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signal currentSnake : pos;
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signal matDataL : unsigned(SNAKE_ADDRESS_SIZE-1 downto 0);
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begin
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process(clk,reset,index) --process de reset
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begin
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if(clk'event and clk = '1') then
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if(reset = '0') then --il faut qu'on ai le reset sur la clk car il controle indirectement l'entrée de la RAM
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index <= to_unsigned(0,SNAKE_ADDRESS_SIZE);
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writeEnable <= '1';
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matWriteEnable <= '1';
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else
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index <= index + 1;
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if(index = MAX_SNAKE-1) then
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index <= to_unsigned(0,SNAKE_ADDRESS_SIZE);
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writeEnable <= '0';
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matWriteEnable <= '0';
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end if;
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end if;
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end if;
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--currentSnake.X <= to_unsigned(8+(to_integer(index) rem 40)*16,10);
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--currentSnake.Y <= to_unsigned(8+to_integer(index/40)*16,9);
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--currentSnake.dirX <= to_signed(-1,2);--to_signed(to_integer(index rem 3)-1,2);
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--currentSnake.dirY <= to_signed(0,2);--to_signed(to_integer((index+1) rem 3)-1,2);
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--case to_integer(index) is
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-- when 0 => currentSnake.isDefined <= '1';
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-- when 1 => currentSnake.isDefined <= '1';
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-- when 2 => currentSnake.isDefined <= '1';
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-- when 3 => currentSnake.isDefined <= '1';
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-- when others => currentSnake.isDefined <= '0';
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--end case;
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if(index < 13) then
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currentSnake.X <= to_unsigned(8+to_integer(index)*16,10);
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currentSnake.Y <= to_unsigned(8,9);
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currentSnake.dirX <= to_signed(-1,2);
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currentSnake.dirY <= to_signed(0,2);
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currentSnake.isDefined <= '1';
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else
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currentSnake.X <= to_unsigned(8,10);
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currentSnake.Y <= to_unsigned(8,9);
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currentSnake.dirX <= to_signed(0,2);
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currentSnake.dirY <= to_signed(1,2);
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currentSnake.isDefined <= '0';
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end if;
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matAddress <= to_unsigned(to_integer(index),SNAKE_ADDRESS_SIZE);
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matData <= std_logic_vector(to_unsigned(to_integer(index),SNAKE_ADDRESS_SIZE));
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-- if(index = 0) then
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-- currentSnake.X <= to_unsigned(8,10);
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-- currentSnake.Y <= to_unsigned(8,9);
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-- currentSnake.dirX <= to_signed(0,2);
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-- currentSnake.dirY <= to_signed(1,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 1) then
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-- currentSnake.X <= to_unsigned(24,10);
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-- currentSnake.Y <= to_unsigned(8,9);
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-- currentSnake.dirX <= to_signed(-1,2);
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-- currentSnake.dirY <= to_signed(0,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 2) then
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-- currentSnake.X <= to_unsigned(24,10);
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-- currentSnake.Y <= to_unsigned(24,9);
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-- currentSnake.dirX <= to_signed(0,2);
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-- currentSnake.dirY <= to_signed(-1,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 3) then
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-- currentSnake.X <= to_unsigned(24,10);
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-- currentSnake.Y <= to_unsigned(40,9);
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-- currentSnake.dirX <= to_signed(0,2);
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-- currentSnake.dirY <= to_signed(-1,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 4) then
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-- currentSnake.X <= to_unsigned(40,10);
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-- currentSnake.Y <= to_unsigned(40,9);
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-- currentSnake.dirX <= to_signed(-1,2);
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-- currentSnake.dirY <= to_signed(0,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 5) then
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-- currentSnake.X <= to_unsigned(56,10);
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-- currentSnake.Y <= to_unsigned(40,9);
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-- currentSnake.dirX <= to_signed(0,2);
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-- currentSnake.dirY <= to_signed(-1,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 6) then
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-- currentSnake.X <= to_unsigned(56,10);
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-- currentSnake.Y <= to_unsigned(56,9);
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-- currentSnake.dirX <= to_signed(0,2);
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-- currentSnake.dirY <= to_signed(-1,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 7) then
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-- currentSnake.X <= to_unsigned(40,10);
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-- currentSnake.Y <= to_unsigned(56,9);
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-- currentSnake.dirX <= to_signed(1,2);
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-- currentSnake.dirY <= to_signed(0,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 8) then
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-- currentSnake.X <= to_unsigned(24,10);
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-- currentSnake.Y <= to_unsigned(56,9);
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-- currentSnake.dirX <= to_signed(1,2);
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-- currentSnake.dirY <= to_signed(0,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 9) then
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-- currentSnake.X <= to_unsigned(24,10);
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-- currentSnake.Y <= to_unsigned(72,9);
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-- currentSnake.dirX <= to_signed(0,2);
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-- currentSnake.dirY <= to_signed(-1,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 10) then
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-- currentSnake.X <= to_unsigned(24,10);
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-- currentSnake.Y <= to_unsigned(88,9);
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-- currentSnake.dirX <= to_signed(0,2);
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-- currentSnake.dirY <= to_signed(-1,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 11) then
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-- currentSnake.X <= to_unsigned(40,10);
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-- currentSnake.Y <= to_unsigned(88,9);
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-- currentSnake.dirX <= to_signed(-1,2);
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-- currentSnake.dirY <= to_signed(0,2);
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-- currentSnake.isDefined <= '1';
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-- elsif(index = 12) then
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-- currentSnake.X <= to_unsigned(40,10);
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-- currentSnake.Y <= to_unsigned(72,9);
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-- currentSnake.dirX <= to_signed(0,2);
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-- currentSnake.dirY <= to_signed(1,2);
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-- currentSnake.isDefined <= '1';
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-- else
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-- currentSnake.X <= to_unsigned(0,10);
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-- currentSnake.Y <= to_unsigned(0,9);
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-- currentSnake.dirX <= to_signed(0,2);
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-- currentSnake.dirY <= to_signed(0,2);
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-- currentSnake.isDefined <= '0';
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-- end if;
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-- case to_integer(index) is
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-- when 0 => matDataL <= to_unsigned(0,SNAKE_ADDRESS_SIZE);
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-- when 1 => matDataL <= to_unsigned(1,SNAKE_ADDRESS_SIZE);
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-- when 41 => matDataL <= to_unsigned(2,SNAKE_ADDRESS_SIZE);
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-- when 81 => matDataL <= to_unsigned(3,SNAKE_ADDRESS_SIZE);
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-- when 82 => matDataL <= to_unsigned(4,SNAKE_ADDRESS_SIZE);
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-- when 83 => matDataL <= to_unsigned(5,SNAKE_ADDRESS_SIZE);
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-- when 123 => matDataL <= to_unsigned(6,SNAKE_ADDRESS_SIZE);
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-- when 122 => matDataL <= to_unsigned(7,SNAKE_ADDRESS_SIZE);
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-- when 121 => matDataL <= to_unsigned(8,SNAKE_ADDRESS_SIZE);
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-- when 161 => matDataL <= to_unsigned(9,SNAKE_ADDRESS_SIZE);
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-- when 201 => matDataL <= to_unsigned(10,SNAKE_ADDRESS_SIZE);
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-- when 202 => matDataL <= to_unsigned(11,SNAKE_ADDRESS_SIZE);
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-- when 162 => matDataL <= to_unsigned(12,SNAKE_ADDRESS_SIZE);
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-- when others => matDataL <= to_unsigned(100,SNAKE_ADDRESS_SIZE);
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-- end case;
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matAddress <= index;
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end process;
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data <= to_stdlogicvector(currentSnake);
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matData <= std_logic_vector(matDataL);
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address <= index;
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end Behavioral;
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