// © IBM Corp. 2020
// Licensed under the Apache License, Version 2.0 (the "License"), as modified by
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`timescale 1 ns / 1 ns

//  Description:  Prioritizer
//
//*****************************************************************************

module tri_pri(
   cond,
   pri,
   or_cond
);
   parameter                  SIZE = 32;	// Size of "cond", range 3 - 32
   parameter                  REV = 0;		// 0 = 0 is highest,   1 = 0 is lowest
   parameter                  CMP_ZERO = 0;	// 1 = include comparing cond to zero in pri vector, 0 = don't
   input [0:SIZE-1]           cond;
   output [0:SIZE-1+CMP_ZERO] pri;
   output                     or_cond;

   // tri_pri

   parameter                  s = SIZE - 1;
   wire [0:s]                 l0;
   wire [0:s]                 or_l1;
   wire [0:s]                 or_l2;
   wire [0:s]                 or_l3;
   wire [0:s]                 or_l4;
   wire [0:s]                 or_l5;

   generate
   begin
     if (REV == 0)
     begin
       assign l0[0:s] = cond[0:s];
     end
     if (REV == 1)
     begin
       assign l0[0:s] = cond[s:0];
     end

     // Odd Numbered Levels are inverted

     assign or_l1[0] = ~l0[0];
     assign or_l1[1:s] = ~(l0[0:s - 1] | l0[1:s]);

     if (s >= 2)
     begin
       assign or_l2[0:1] = ~or_l1[0:1];
       assign or_l2[2:s] = ~(or_l1[2:s] & or_l1[0:s - 2]);
     end
     if (s < 2)
     begin
       assign or_l2 = ~or_l1;
     end

     if (s >= 4)
     begin
       assign or_l3[0:3] = ~or_l2[0:3];
       assign or_l3[4:s] = ~(or_l2[4:s] | or_l2[0:s - 4]);
     end
     if (s < 4)
     begin
       assign or_l3 = ~or_l2;
     end

     if (s >= 8)
     begin
       assign or_l4[0:7] = ~or_l3[0:7];
       assign or_l4[8:s] = ~(or_l3[8:s] & or_l3[0:s - 8]);
     end
     if (s < 8)
     begin
       assign or_l4 = ~or_l3;
     end

     if (s >= 16)
     begin
       assign or_l5[0:15] = ~or_l4[0:15];
       assign or_l5[16:s] = ~(or_l4[16:s] | or_l4[0:s - 16]);
     end
     if (s < 16)
     begin
       assign or_l5 = ~or_l4;
     end

     //assert SIZE > 32 report "Maximum Size of 32 Exceeded!" severity error;

     assign pri[0] = cond[0];
     assign pri[1:s] = cond[1:s] & or_l5[0:s - 1];

     if (CMP_ZERO == 1)
     begin
       assign pri[s + 1] = or_l5[s];
     end

     assign or_cond = ~or_l5[s];
   end
   endgenerate

//!! [fail; tri_pri;  "Priority not zero or one hot!!"] : (pri1 ) <= not zero_or_one_hot(pri);

endmodule