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-- Author : Julian Andres Guarin Reyes. -- Project : JART, Just Another Ray Tracer. -- email : jguarin2002 at gmail.com, j.guarin at javeriana.edu.co -- This code was entirely written by Julian Andres Guarin Reyes. -- The following code is licensed under GNU Public License -- http://www.gnu.org/licenses/gpl-3.0.txt. -- This file is part of JART (Just Another Ray Tracer). -- JART (Just Another Ray Tracer) is free software: you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation, either version 3 of the License, or -- (at your option) any later version. -- JART (Just Another Ray Tracer) is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- You should have received a copy of the GNU General Public License -- along with JART (Just Another Ray Tracer). If not, see <http://www.gnu.org/licenses/>.library ieee; -- Unitary ray vector Y component integrator. In a memory block of 1x16384 bits, it is stored the FY' that represents the first derivate of FY, this function is the Y function along any horizontal line in the image. -- The derivative is stored in this way: logic 0 means a 0 pendant and logic 1 means a -1 pendant. So a counter with enable / disable control it is everything we need, and of course a load input to represent the initial value added to the integral. library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_signed.all; use work.powerGrid.all; entity yu is generic ( TOP : integer := 1024; -- Define the max counting number.. the number must be expressed as 2 power, cause the range of counting is going to be defined as TOP-1 downto TOP/2. -- However this is going to be by now, cause in the future the ray generation will GO on for higher resolution images , and perhaps it would be required a more extended range for the yu component. SCREENW : integer := 320 -- resolution width is 320 ); port ( clk,rst,ena : in std_logic; lineDone : out std_logic; -- Finished image row. once a hundred and sixty times.... ypos : out integer range TOP/2 to TOP-1 -- ocntr : out integer range 0 to SCREENW/2 ); end entity; architecture rtl of yu is -- 1x16384 bits, true dual port, ROM Memory declaration. -- This memory uses 2 cycles.. a memory fetch cycle and a data to q memory cycle. component yurom port ( address_a : in std_logic_vector (13 downto 0); address_b : in std_logic_vector (13 downto 0); clock : in std_logic ; q_a : out std_logic_vector (0 downto 0); q_b : out std_logic_vector (0 downto 0) ); end component; constant linefeed : integer range 0 to (SCREENW/2) := (SCREENW/2)-4; -- Support signals. signal s1addf0 : std_logic_vector (13 downto 0); -- The function 0 is the function of the y component derivative. signal s1addf1 : std_logic_vector (13 downto 0); -- The function 1 is the function of the y component integration curve initial constant. signal sf0 : std_logic_vector (0 downto 0); -- Derivative function signal sf1 : std_logic_vector (0 downto 0); -- Derivative curve, initial constant derivative function. -- Some Initial Locks. signal sneglock : std_logic; begin derivate : yurom port map ( address_a => s1addf0, address_b => s1addf1, clock => clk, q_a => sf0, q_b => sf1 ); integrate : process(clk,rst,ena) variable f0 : integer range TOP/2 to TOP-1; variable f1 : integer range TOP/2 to TOP-1; variable cc : integer range 0 to SCREENW/2; begin if rst='0' then f0:=TOP-10; f1:=TOP-1; cc:=linefeed; -- Right from the start. s1addf0 (13 downto 1) <= (others=>'0'); -- 0000. s1addf0 (0) <= '1'; s1addf1 <= "11111010000000"; -- 3E7F. -- Locks sneglock<='0'; elsif rising_edge(clk) and ena='1' then --ADD! -- Count f0 address if sneglock='1' then s1addf0 <= s1addf0+1; end if; -- Count f1 address (156) if cc=linefeed then s1addf1 <= s1addf1+1; end if; -- Unlock first stage f0 address (157) if cc=linefeed+1 then sneglock<='1'; end if; -- Now, the integration function, cause we are at a new line.. if cc = 0 then ypos <= f1; f0 := f1; else ypos <= f0; if sf0(0)='1' then f0 := f0 - 1; end if; end if; -- Count when reach linefeed +3 (159) then turn cc into 0, else turn it into cc+1! if cc=linefeed+3 then lineDone <='1'; if sf1(0) = '1' then f1 := f1 - 1; end if; cc:=0; else lineDone <='0'; cc:=cc+1; end if; end if; end process; end rtl;
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