362 lines
11 KiB
Systemverilog
362 lines
11 KiB
Systemverilog
import structs::*;
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module cpu (
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input wire clk_in,
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input wire [7:0] rd_memory_data,
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output int cycle_counter,
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output logic [11:0] rd_memory_address,
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output logic [11:0] wr_memory_address,
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output logic [7:0] wr_memory_data,
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output logic wr_go,
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output logic lcd_clk,
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output logic lcd_data,
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output logic [5:0] led
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);
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logic alu_rst;
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logic [7:0] alu_result;
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logic alu_overflow;
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logic alu_done;
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alu alu (
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alu_rst,
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clk_in,
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instr.alu_i,
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alu_result,
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alu_overflow,
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alu_done
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);
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logic [7:0] vram [0:1023];
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`ifdef DUMMY_GPU
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gpu gpu(
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`endif
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`ifndef DUMMY_GPU
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st7920_serial_driver gpu(
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`endif
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clk_in,
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1'b1,
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vram,
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lcd_clk,
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lcd_data,
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led
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);
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task write_pixels;
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input [31:0] x;
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input [31:0] y;
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begin
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// bottom left
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`define BLP ((y*128*2) + x*2 +127)
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if (vram[`BLP/8][7-(`BLP%8)] == 1) begin
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registers[15] <= 1;
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end
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vram[`BLP/8][7-(`BLP%8)] <= 1;
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// bottom right
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`define BRP ((y*128*2) + x*2 +128)
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vram[`BRP/8][7-(`BRP%8)] <= 1;
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// top left
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`define TLP ((y*128*2) + x*2-1)
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vram[`TLP/8][7-(`TLP%8)] <= 1;
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// top right
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`define TRP ((y*128*2) + x*2)
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vram[`TRP/8][7-(`TRP%8)] <= 1;
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end
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endtask
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logic [15:0] program_counter;
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logic [7:0] registers[0:15];
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logic [15:0] index_reg;
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logic [15:0] stack[0:15];
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logic [3:0] stack_pointer;
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logic [15:0] opcode;
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logic [7:0] sound_timer;
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logic [7:0] delay_timer;
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typedef enum {ST_FETCH_HI, ST_FETCH_LO, ST_FETCH_LO2, ST_DECODE, ST_EXEC, ST_DRAW, ST_FETCH_MEM, ST_WB, ST_CLEANUP, ST_HALT} cpu_state;
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cpu_state state;
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typedef enum {INIT, DRAW} draw_stage;
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typedef enum {CLS, LD, DRW, JP, ALU} cpu_opcode;
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typedef enum {REG, IDX_REG, BYTE, MEM, SPRITE_MEM} data_type;
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struct {
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draw_stage stage;
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logic [4:0] r;
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logic [4:0] c;
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logic [7:0] x;
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logic [7:0] y;
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} draw_state;
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struct {
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cpu_opcode op;
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data_type src;
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data_type dst;
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logic [3:0] dst_reg;
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logic [3:0] src_reg;
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alu_input alu_i;
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logic [11:0] src_byte;
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logic [(8*16)-1:0] src_sprite;
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logic [11:0] src_sprite_addr;
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logic [3:0] src_sprite_vx;
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logic [3:0] src_sprite_vy;
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logic [7:0] src_sprite_x;
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logic [7:0] src_sprite_y;
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logic [4:0] src_sprite_sz;
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logic [4:0] src_sprite_idx;
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logic [11:0] src_addr;
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logic [11:0] dst_addr;
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} instr;
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initial begin
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state = ST_FETCH_HI;
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cycle_counter = 0;
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program_counter = 'h200;
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wr_go = 0;
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alu_rst = 1;
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for (int i = 0; i < 1024; i++) begin
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vram[i] = 0;
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end
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end
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always_ff @(posedge clk_in) begin
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case (state)
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ST_FETCH_HI: begin
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rd_memory_address <= program_counter[11:0];
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program_counter <= program_counter + 1;
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state <= ST_FETCH_LO;
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end
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ST_FETCH_LO: begin
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rd_memory_address <= program_counter[11:0];
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program_counter <= program_counter - 1;
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opcode <= { rd_memory_data, 8'h00 };
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$display("CPU : Opcode HI is %h", rd_memory_data);
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state <= ST_FETCH_LO2;
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end
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ST_FETCH_LO2: begin
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opcode <= { opcode[15:8], rd_memory_data};
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$display("CPU : Opcode LO is %h", rd_memory_data);
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state <= ST_DECODE;
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end
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ST_DECODE: begin
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casez (opcode)
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16'h00E0: begin
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instr.op <= CLS;
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state <= ST_CLEANUP;
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program_counter <= program_counter + 2;
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end
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16'h1???: begin
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instr.op <= JP;
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instr.src_byte <= opcode[11:0];
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state <= ST_EXEC;
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end
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16'h6???: begin
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$display("Instruction is LD Vx, Byte");
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instr.op <= LD;
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instr.src <= BYTE;
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instr.src_byte <= {4'h00, opcode[7:0]};
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instr.dst <= REG;
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instr.dst_reg <= opcode[11:8];
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state <= ST_EXEC;
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end
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16'h7???: begin
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instr.op <= ALU;
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instr.src <= BYTE;
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instr.dst <= REG;
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instr.dst_reg <= opcode[11:8];
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instr.alu_i.op <= structs::ADD;
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instr.alu_i.operand_a <= opcode[7:0];
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instr.alu_i.operand_b <= registers[opcode[11:8]];
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state <= ST_EXEC;
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end
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16'hA???: begin
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$display("Instruction is LD I, Byte");
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instr.op <= LD;
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instr.src <= BYTE;
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instr.src_byte <= opcode[11:0];
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instr.dst <= IDX_REG;
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state <= ST_EXEC;
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end
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16'hD???: begin
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instr.op <= DRW;
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instr.src <= SPRITE_MEM;
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instr.src_sprite_sz <= {1'b0, opcode[3:0]};
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instr.src_sprite_addr <= index_reg[11:0];
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instr.src_sprite_vx <= opcode[11:8];
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instr.src_sprite_vy <= opcode[7:4];
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instr.src_sprite_idx <= 0;
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state <= ST_FETCH_MEM;
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end
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default: begin
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$display("ILLEGAL INSTRUCTION %h at PC 0x%h (%0d)", opcode, program_counter, program_counter);
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$fatal();
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end
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endcase
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end
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ST_FETCH_MEM: begin
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if (instr.src == MEM) begin
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if (rd_memory_address == instr.src_addr) begin
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instr.src_byte <= { 4'h0, rd_memory_data};
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instr.src <= BYTE;
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state <= ST_EXEC;
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end else begin
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rd_memory_address <= instr.src_addr;
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end
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end
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if (instr.src == SPRITE_MEM) begin
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if (instr.src_sprite_idx == 0) begin
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rd_memory_address <= instr.src_sprite_addr + {7'b0000000, instr.src_sprite_idx};
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instr.src_sprite_idx <= instr.src_sprite_idx + 1;
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end else if (instr.src_sprite_idx <= instr.src_sprite_sz) begin
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rd_memory_address <= instr.src_sprite_addr + {7'b0000000, instr.src_sprite_idx};
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instr.src_sprite_idx <= instr.src_sprite_idx + 1;
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for (int l = 0; l < 8; l++)
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instr.src_sprite[(instr.src_sprite_idx)*8+l] <= rd_memory_data[7-l];
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$display("%b", rd_memory_data);
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end else begin
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instr.src_sprite_x <= registers[instr.src_sprite_vx] % 8'd64;
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instr.src_sprite_y <= registers[instr.src_sprite_vy] % 8'd32;
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state <= ST_DRAW;
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draw_state.stage <= INIT;
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end
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end
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end
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ST_HALT: begin end
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ST_DRAW: begin
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if (draw_state.stage == INIT) begin
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draw_state.x <= instr.src_sprite_x;
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draw_state.y <= instr.src_sprite_y;
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draw_state.r <= 0;
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draw_state.c <= 0;
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draw_state.stage <= DRAW;
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registers[15] <= 0;
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end else begin
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if (draw_state.r == instr.src_sprite_sz + 1) begin
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$display("sprite is %0d big at coord %d %d sprite=%b idx=%0d", instr.src_sprite_sz, instr.src_sprite_x, instr.src_sprite_y, instr.src_sprite, instr.src_sprite_addr);
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state <= ST_CLEANUP;
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program_counter <= program_counter + 2;
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end else begin
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if (draw_state.c == 5'd8) begin
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draw_state.c <= 0;
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draw_state.r <= draw_state.r + 1;
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end else begin
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/* verilator lint_off WIDTHEXPAND */
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if (draw_state.r + instr.src_sprite_y < 32 && draw_state.c + instr.src_sprite_x < 64) begin
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`define DRAW_PX ((draw_state.r + instr.src_sprite_y)*64 + (draw_state.c + instr.src_sprite_x))
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/* verilator lint_off WIDTHEXPAND */
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if (instr.src_sprite[(draw_state.r*8) + draw_state.c]) begin
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write_pixels(draw_state.c + instr.src_sprite_x, draw_state.r + instr.src_sprite_y);
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end
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end
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draw_state.c <= draw_state.c + 1;
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end
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end
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end
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end
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ST_EXEC: begin
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$display("CPU : IN EXEC");
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case (instr.op)
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LD: begin
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if (instr.src == REG) begin
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instr.src_byte <= { 4'h0, registers[instr.src_reg] };
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instr.src <= BYTE;
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end
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end
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JP: begin
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program_counter <= {4'h00, instr.src_byte};
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state <= ST_CLEANUP;
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end
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ALU: begin
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alu_rst <= 0;
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if (alu_done) begin
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instr.src <= BYTE;
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instr.src_byte <= alu_result;
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registers[15] <= alu_overflow;
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state <= ST_WB;
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program_counter <= program_counter + 2;
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end
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end
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endcase
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case (instr.op)
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LD,
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DRW,
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CLS: begin
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program_counter <= program_counter + 2;
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state <= ST_WB;
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end
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endcase
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end
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ST_WB: begin
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$display("CPU : IN WB");
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if (instr.src != BYTE)
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$fatal();
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case (instr.dst)
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MEM: begin
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wr_memory_address <= instr.dst_addr;
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wr_memory_data <= instr.src_byte[7:0];
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wr_go <= 1'b1;
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$display("writing back byte %b to %h", instr.src_byte, instr.dst_addr);
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end
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REG: registers[instr.dst_reg] <= instr.src_byte[7:0];
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IDX_REG: index_reg <= {4'h0, instr.src_byte};
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endcase
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state <= ST_CLEANUP;
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end
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ST_CLEANUP: begin
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wr_go <= 0;
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state <= ST_FETCH_HI;
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alu_rst <= 1;
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end
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endcase
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cycle_counter <= cycle_counter + 1;
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end
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endmodule
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