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8bitworkshop/presets/verilog-vga/digits10.v
2019-01-27 15:29:37 -05:00

212 lines
4.8 KiB
Verilog

`ifndef DIGITS10_H
`define DIGITS10_H
`include "hvsync_generator.v"
/*
ROM module with 5x5 bitmaps for the digits 0-9.
digits10_case - Uses the case statement.
digits10_array - Uses an array and initial block.
These two modules are functionally equivalent.
*/
// module for 10-digit bitmap ROM
module digits10_case(digit, yofs, bits);
input [3:0] digit; // digit 0-9
input [2:0] yofs; // vertical offset (0-4)
output reg [4:0] bits; // output (5 bits)
// combine {digit,yofs} into single ROM address
wire [6:0] caseexpr = {digit,yofs};
always @(*)
case (caseexpr)/*{w:5,h:5,count:10}*/
7'o00: bits = 5'b11111;
7'o01: bits = 5'b10001;
7'o02: bits = 5'b10001;
7'o03: bits = 5'b10001;
7'o04: bits = 5'b11111;
7'o10: bits = 5'b01100;
7'o11: bits = 5'b00100;
7'o12: bits = 5'b00100;
7'o13: bits = 5'b00100;
7'o14: bits = 5'b11111;
7'o20: bits = 5'b11111;
7'o21: bits = 5'b00001;
7'o22: bits = 5'b11111;
7'o23: bits = 5'b10000;
7'o24: bits = 5'b11111;
7'o30: bits = 5'b11111;
7'o31: bits = 5'b00001;
7'o32: bits = 5'b11111;
7'o33: bits = 5'b00001;
7'o34: bits = 5'b11111;
7'o40: bits = 5'b10001;
7'o41: bits = 5'b10001;
7'o42: bits = 5'b11111;
7'o43: bits = 5'b00001;
7'o44: bits = 5'b00001;
7'o50: bits = 5'b11111;
7'o51: bits = 5'b10000;
7'o52: bits = 5'b11111;
7'o53: bits = 5'b00001;
7'o54: bits = 5'b11111;
7'o60: bits = 5'b11111;
7'o61: bits = 5'b10000;
7'o62: bits = 5'b11111;
7'o63: bits = 5'b10001;
7'o64: bits = 5'b11111;
7'o70: bits = 5'b11111;
7'o71: bits = 5'b00001;
7'o72: bits = 5'b00001;
7'o73: bits = 5'b00001;
7'o74: bits = 5'b00001;
7'o100: bits = 5'b11111;
7'o101: bits = 5'b10001;
7'o102: bits = 5'b11111;
7'o103: bits = 5'b10001;
7'o104: bits = 5'b11111;
7'o110: bits = 5'b11111;
7'o111: bits = 5'b10001;
7'o112: bits = 5'b11111;
7'o113: bits = 5'b00001;
7'o114: bits = 5'b11111;
default: bits = 0;
endcase
endmodule
module digits10_array(digit, yofs, bits);
input [3:0] digit; // digit 0-9
input [2:0] yofs; // vertical offset (0-4)
output [4:0] bits; // output (5 bits)
reg [4:0] bitarray[0:15][0:4]; // ROM array (16 x 5 x 5 bits)
assign bits = bitarray[digit][yofs]; // assign module output
integer i,j;
initial begin/*{w:5,h:5,count:10}*/
bitarray[0][0] = 5'b11111;
bitarray[0][1] = 5'b10001;
bitarray[0][2] = 5'b10001;
bitarray[0][3] = 5'b10001;
bitarray[0][4] = 5'b11111;
bitarray[1][0] = 5'b01100;
bitarray[1][1] = 5'b00100;
bitarray[1][2] = 5'b00100;
bitarray[1][3] = 5'b00100;
bitarray[1][4] = 5'b11111;
bitarray[2][0] = 5'b11111;
bitarray[2][1] = 5'b00001;
bitarray[2][2] = 5'b11111;
bitarray[2][3] = 5'b10000;
bitarray[2][4] = 5'b11111;
bitarray[3][0] = 5'b11111;
bitarray[3][1] = 5'b00001;
bitarray[3][2] = 5'b11111;
bitarray[3][3] = 5'b00001;
bitarray[3][4] = 5'b11111;
bitarray[4][0] = 5'b10001;
bitarray[4][1] = 5'b10001;
bitarray[4][2] = 5'b11111;
bitarray[4][3] = 5'b00001;
bitarray[4][4] = 5'b00001;
bitarray[5][0] = 5'b11111;
bitarray[5][1] = 5'b10000;
bitarray[5][2] = 5'b11111;
bitarray[5][3] = 5'b00001;
bitarray[5][4] = 5'b11111;
bitarray[6][0] = 5'b11111;
bitarray[6][1] = 5'b10000;
bitarray[6][2] = 5'b11111;
bitarray[6][3] = 5'b10001;
bitarray[6][4] = 5'b11111;
bitarray[7][0] = 5'b11111;
bitarray[7][1] = 5'b00001;
bitarray[7][2] = 5'b00001;
bitarray[7][3] = 5'b00001;
bitarray[7][4] = 5'b00001;
bitarray[8][0] = 5'b11111;
bitarray[8][1] = 5'b10001;
bitarray[8][2] = 5'b11111;
bitarray[8][3] = 5'b10001;
bitarray[8][4] = 5'b11111;
bitarray[9][0] = 5'b11111;
bitarray[9][1] = 5'b10001;
bitarray[9][2] = 5'b11111;
bitarray[9][3] = 5'b00001;
bitarray[9][4] = 5'b11111;
// clear unused array entries
for (i = 10; i <= 15; i++)
for (j = 0; j <= 4; j++)
bitarray[i][j] = 0;
end
endmodule
// test module
module test_numbers_top(clk, reset, hsync, vsync, rgb);
input clk, reset;
output hsync, vsync;
output [2:0] rgb;
wire display_on;
wire [8:0] hpos;
wire [8:0] vpos;
hvsync_generator hvsync_gen(
.clk(clk),
.reset(reset),
.hsync(hsync),
.vsync(vsync),
.display_on(display_on),
.hpos(hpos),
.vpos(vpos)
);
wire [3:0] digit = hpos[7:4];
wire [2:0] xofs = hpos[3:1];
wire [2:0] yofs = vpos[3:1];
wire [4:0] bits;
digits10_array numbers(
.digit(digit),
.yofs(yofs),
.bits(bits)
);
wire r = display_on && 0;
wire g = display_on && bits[xofs ^ 3'b111];
wire b = display_on && 0;
assign rgb = {b,g,r};
endmodule
`endif