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https://github.com/sehugg/8bitworkshop.git
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255 lines
7.1 KiB
Verilog
255 lines
7.1 KiB
Verilog
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`include "hvsync_generator.v"
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`include "ram.v"
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/*
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sprite_scanline_renderer - Module that renders multiple
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sprites whose attributes are fetched from shared RAM,
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and whose bitmaps are stored in ROM. Made to be paired
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with the FEMTO-16 CPU.
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*/
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module example_bitmap_rom(addr, data);
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input [15:0] addr;
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output [15:0] data;
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reg [15:0] bitarray[0:255];
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assign data = bitarray[addr & 15];
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initial begin/*{w:16,h:16,bpw:16,count:1}*/
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bitarray['h00] = 16'b11110000000;
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bitarray['h01] = 16'b100001000000;
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bitarray['h02] = 16'b1111111100000;
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bitarray['h03] = 16'b1111111100000;
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bitarray['h04] = 16'b11110000000;
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bitarray['h05] = 16'b11111111110000;
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bitarray['h06] = 16'b111100001111000;
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bitarray['h07] = 16'b1111101101111100;
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bitarray['h08] = 16'b1101100001101111;
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bitarray['h09] = 16'b1101111111100110;
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bitarray['h0a] = 16'b1001111111100000;
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bitarray['h0b] = 16'b1111111100000;
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bitarray['h0c] = 16'b1110011100000;
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bitarray['h0d] = 16'b1100001100000;
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bitarray['h0e] = 16'b1100001100000;
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bitarray['h0f] = 16'b11100001110000;
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end
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endmodule
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module sprite_scanline_renderer(clk, reset, hpos, vpos, rgb,
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ram_addr, ram_data, ram_busy,
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rom_addr, rom_data);
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parameter NB = 5; // 2^NB == number of sprites
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parameter MB = 3; // 2^MB == slots per scanline
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localparam N = 1<<NB; // number of sprites
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localparam M = 1<<MB; // slots per scanline
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input clk, reset; // clock and reset inputs
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input [8:0] hpos; // horiz. sync pos
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input [8:0] vpos; // vert. sync pos
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output [3:0] rgb; // rgb output
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output [NB:0] ram_addr; // RAM for sprite data
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input [15:0] ram_data; // (2 words per sprite)
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output ram_busy; // set when accessing RAM
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output [15:0] rom_addr; // sprite ROM address
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input [15:0] rom_data; // sprite ROM data
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// copy of sprite data from RAM (N entries)
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reg [7:0] sprite_xpos[0:N-1]; // X positions
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reg [7:0] sprite_ypos[0:N-1]; // Y positions
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reg [7:0] sprite_attr[0:N-1]; // attributes
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// M sprite slots
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reg [7:0] line_xpos[0:M-1]; // X pos for M slots
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reg [7:0] line_yofs[0:M-1]; // Y pos for M slots
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reg [7:0] line_attr[0:M-1]; // attr for M slots
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reg line_active[0:M-1]; // slot active?
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// temporary counters
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reg [NB-1:0] i; // read index for main array (0..N-1)
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reg [MB-1:0] j; // write index for slots (0..M-1)
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reg [MB-1:0] k; // read index for slots (0..M-1)
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reg [7:0] z; // relative y offset of sprite
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reg [8:0] write_ofs; // write index of scanline buffer
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reg [15:0] out_bitmap; // shift register while writing scanline
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reg [7:0] out_attr; // attribute while writing scanline
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reg romload; // 1 when ROM address bus is stable
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// which sprite are we currently reading?
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wire [NB-1:0] load_index = hpos[NB:1];
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// RGB dual scanline buffer
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reg [3:0] scanline[0:511];
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// which offset in scanline buffer to read?
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wire [8:0] read_bufidx = {vpos[0], hpos[7:0]};
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// always block (every clock cycle)
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always @(posedge clk) begin
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ram_busy <= 0;
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// reset every frame, don't draw vpos >= 256
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if (reset || vpos[8]) begin
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// load sprites from RAM on line 260
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// 8 cycles per sprite
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// do first sprite twice b/c CPU might still be busy
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if (vpos == 260 && hpos < N*2+8) begin
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ram_busy <= 1;
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case (hpos[0])
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0: begin
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ram_addr <= {load_index, 1'b0};
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// load X and Y position (2 cycles ago)
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sprite_xpos[load_index] <= ram_data[7:0];
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sprite_ypos[load_index] <= ram_data[15:8];
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end
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1: begin
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ram_addr <= {load_index, 1'b1};
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// load attribute (2 cycles ago)
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sprite_attr[load_index] <= ram_data[7:0];
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end
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endcase
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end
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end else if (hpos < N*2) begin
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// setup vars for next phase
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k <= 0;
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romload <= 0;
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// select the sprites that will appear in this scanline
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case (hpos[0])
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// compute Y offset of sprite relative to scanline
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0: z <= 8'(vpos - sprite_ypos[i]);
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1: begin
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// sprite is active if Y offset is 0..15
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if (z < 16) begin
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line_xpos[j] <= sprite_xpos[i]; // save X pos
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line_yofs[j] <= z; // save Y offset
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line_attr[j] <= sprite_attr[i]; // save attr
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line_active[j] <= 1; // mark sprite active
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j <= j + 1; // inc counter
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end
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i <= i + 1; // inc main array counter
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end
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endcase
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end else if (hpos < N*2+M*18) begin
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// setup vars for next phase
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j <= 0;
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// if sprite shift register is empty, load new sprite
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if (out_bitmap == 0) begin
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case (romload)
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0: begin
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// set ROM address and fetch bitmap
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rom_addr <= {4'b0, line_attr[k][7:4], line_yofs[k]};
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end
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1: begin
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// load scanline buffer offset to write
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write_ofs <= {~vpos[0], line_xpos[k]};
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// fetch 0 if sprite is inactive
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out_bitmap <= line_active[k] ? rom_data : 0;
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// load attribute for sprite
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out_attr <= line_attr[k];
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// disable sprite for next scanline
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line_active[k] <= 0;
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// go to next sprite in 2ndary buffer
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k <= k + 1;
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end
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endcase
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romload <= !romload;
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end else begin
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// write color to scanline buffer if low bit == 1
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if (out_bitmap[0])
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scanline[write_ofs] <= out_attr[3:0];
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// shift bits right
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out_bitmap <= out_bitmap >> 1;
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// increment to next scanline pixel
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write_ofs <= write_ofs + 1;
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end
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end else begin
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// clear counters
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i <= 0;
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end
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// read and clear buffer
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rgb <= scanline[read_bufidx];
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scanline[read_bufidx] <= 0;
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end
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endmodule
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module test_scanline_render_top(clk, reset, hsync, vsync, rgb);
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input clk, reset;
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output hsync, vsync;
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output [3:0] rgb;
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wire display_on;
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wire [8:0] hpos;
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wire [8:0] vpos;
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hvsync_generator hvsync_gen(
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.clk(clk),
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.reset(reset),
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.hsync(hsync),
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.vsync(vsync),
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.display_on(display_on),
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.hpos(hpos),
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.vpos(vpos)
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);
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wire [15:0] rom_addr;
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wire [15:0] rom_data;
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example_bitmap_rom bitmap_rom(
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.addr(rom_addr),
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.data(rom_data)
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);
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wire [5:0] ram_addr;
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wire [15:0] ram_read;
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reg [15:0] ram_write;
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reg ram_we;
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wire ram_busy;
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// 64-word RAM
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RAM_sync #(6,16) ram(
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.clk(clk),
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.addr(ram_addr),
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.dout(ram_read),
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.din(ram_write),
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.we(ram_we)
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);
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sprite_scanline_renderer ssr(
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.clk(clk),
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.reset(reset),
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.hpos(hpos),
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.vpos(vpos),
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.rgb(rgb),
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.ram_addr(ram_addr),
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.ram_data(ram_read),
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.ram_busy(ram_busy),
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.rom_addr(rom_addr),
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.rom_data(rom_data)
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);
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always @(posedge clk) begin
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// wiggle sprites randomly once per frame
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if (vpos == 256) begin
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ram_addr <= hpos[7:2];
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// 4 clocks per read/write cycle
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if (!hpos[1]) begin
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ram_we <= 0;
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end else begin
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ram_we <= 1;
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ram_write <= ram_read + 16'(($random&3)-1);
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end
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end else
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ram_we <= 0;
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end
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endmodule
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