| | 1 | `define ADDR_LCDC 16'hFF40 |
| | 2 | `define ADDR_STAT 16'hFF41 |
| | 3 | `define ADDR_SCY 16'hFF42 |
| | 4 | `define ADDR_SCX 16'hFF43 |
| | 5 | `define ADDR_LY 16'hFF44 |
| | 6 | `define ADDR_LYC 16'hFF45 |
| | 7 | `define ADDR_DMA 16'hFF46 |
| | 8 | `define ADDR_BGP 16'hFF47 |
| | 9 | `define ADDR_OBP0 16'hFF48 |
| | 10 | `define ADDR_OBP1 16'hFF49 |
| | 11 | `define ADDR_WY 16'hFF4A |
| | 12 | `define ADDR_WX 16'hFF4B |
| | 13 | |
| | 14 | module LCDC( |
| | 15 | input [15:0] addr, |
| | 16 | inout [7:0] data, |
| | 17 | input clk, // 8MHz clock |
| | 18 | input wr, rd, |
| | 19 | output wire lcdcirq, |
| | 20 | output wire vblankirq, |
| | 21 | output wire lcdclk, lcdvs, lcdhs, |
| | 22 | output wire [2:0] lcdr, lcdg, output wire [1:0] lcdb); |
| | 23 | |
| | 24 | /***** Internal clock that is stable and does not depend on CPU in single/double clock mode *****/ |
| | 25 | reg clk4 = 0; |
| | 26 | always @(posedge clk) |
| | 27 | clk4 = ~clk4; |
| | 28 | assign lcdclk = clk4; |
| | 29 | |
| | 30 | /***** LCD control registers *****/ |
| | 31 | reg [7:0] rLCDC = 8'h91; |
| | 32 | reg [7:0] rSTAT = 8'h00; |
| | 33 | reg [7:0] rSCY = 8'b00; |
| | 34 | reg [7:0] rSCX = 8'b00; |
| | 35 | reg [7:0] rLYC = 8'b00; |
| | 36 | reg [7:0] rDMA = 8'b00; |
| | 37 | reg [7:0] rBGP = 8'b00; |
| | 38 | reg [7:0] rOBP0 = 8'b00; |
| | 39 | reg [7:0] rOBP1 = 8'b00; |
| | 40 | reg [7:0] rWY = 8'b00; |
| | 41 | reg [7:0] rWX = 8'b00; |
| | 42 | |
| | 43 | /***** Sync generation *****/ |
| | 44 | |
| | 45 | /* A complete cycle takes 456 clocks. |
| | 46 | * VBlank lasts 4560 clocks (10 scanlines) -- LY = 144 - 153. |
| | 47 | * |
| | 48 | * Modes: 0 -> in hblank and OAM/VRAM available - present 207 clks |
| | 49 | * 1 -> in vblank and OAM/VRAM available |
| | 50 | * 2 -> OAM in use - present 83 clks |
| | 51 | * 3 -> OAM/VRAM in use - present 166 clks |
| | 52 | * So, X = 0~165 is HActive, |
| | 53 | * X = 166-372 is HBlank, |
| | 54 | * X = 373-455 is HWhirrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr. |
| | 55 | * [02:15:10] <Judge_> LY is updated near the 0 -> 2 transition |
| | 56 | * [02:15:38] <Judge_> it seems to be updated internally first before it is visible in the LY register itself |
| | 57 | * [02:15:40] <Judge_> some kind of delay |
| | 58 | * [02:16:19] <Judge_> iirc it is updated about 4 cycles prior to mode 2 |
| | 59 | */ |
| | 60 | reg [8:0] posx = 9'h000; |
| | 61 | reg [7:0] posy = 8'h00; |
| | 62 | wire [1:0] mode = (posy < 144) ? |
| | 63 | ((posx < 166) ? 2'b11 : |
| | 64 | (posx < 373) ? 2'b00 : |
| | 65 | 2'b10) |
| | 66 | : 2'b01; |
| | 67 | |
| | 68 | assign lcdvs = (posy == 153) && (posx == 455); |
| | 69 | assign lcdhs = (posx == 455); |
| | 70 | assign lcdr = (posx < 160) && (posy < 144) ? {posy == rLYC ? 3'b111 : 3'b000} : 3'b000; |
| | 71 | assign lcdg = (posx < 160) && (posy < 144) ? {posy < rSCY ? 3'b111 : 3'b000} : 3'b000; |
| | 72 | assign lcdb = (posx < 160) && (posy < 144) ? {2'b11} : 2'b00; |
| | 73 | |
| | 74 | reg mode00irq = 0, mode01irq = 0, mode10irq = 0, lycirq = 0; |
| | 75 | assign lcdcirq = (rSTAT[3] & mode00irq) | (rSTAT[4] & mode01irq) | (rSTAT[5] & mode10irq) | (rSTAT[6] & lycirq); |
| | 76 | assign vblankirq = (posx == 0 && posy == 153); |
| | 77 | |
| | 78 | always @(posedge clk4) |
| | 79 | begin |
| | 80 | if (posx == 455) begin |
| | 81 | posx <= 0; |
| | 82 | if (posy == 153) begin |
| | 83 | posy <= 0; |
| | 84 | if (0 == rLYC) |
| | 85 | lycirq <= 1; |
| | 86 | end else begin |
| | 87 | posy <= posy + 1; |
| | 88 | /* Check for vblank and generate an IRQ if needed. */ |
| | 89 | if (posy == 143) begin |
| | 90 | mode01irq <= 1; |
| | 91 | end |
| | 92 | if ((posy + 1) == rLYC) |
| | 93 | lycirq <= 1; |
| | 94 | |
| | 95 | end |
| | 96 | end else begin |
| | 97 | posx <= posx + 1; |
| | 98 | if (posx == 165) |
| | 99 | mode00irq <= 1; |
| | 100 | else if (posx == 373) |
| | 101 | mode10irq <= 1; |
| | 102 | else begin |
| | 103 | mode00irq <= 0; |
| | 104 | mode01irq <= 0; |
| | 105 | mode10irq <= 0; |
| | 106 | end |
| | 107 | lycirq <= 0; |
| | 108 | end |
| | 109 | |
| | 110 | end |
| | 111 | |
| | 112 | /***** Bus interface *****/ |
| | 113 | assign data = rd ? |
| | 114 | (addr == `ADDR_LCDC) ? rLCDC : |
| | 115 | (addr == `ADDR_STAT) ? {rSTAT[7:3], (rLYC == posy) ? 1'b1 : 1'b0, mode} : |
| | 116 | (addr == `ADDR_SCY) ? rSCY : |
| | 117 | (addr == `ADDR_SCX) ? rSCX : |
| | 118 | (addr == `ADDR_LY) ? posy : |
| | 119 | (addr == `ADDR_LYC) ? rLYC : |
| | 120 | (addr == `ADDR_BGP) ? rBGP : |
| | 121 | (addr == `ADDR_OBP0) ? rOBP0 : |
| | 122 | (addr == `ADDR_OBP1) ? rOBP1 : |
| | 123 | (addr == `ADDR_WY) ? rWY : |
| | 124 | (addr == `ADDR_WX) ? rWX : |
| | 125 | 8'bzzzzzzzz : |
| | 126 | 8'bzzzzzzzz; |
| | 127 | |
| | 128 | always @(negedge clk) |
| | 129 | begin |
| | 130 | if (wr) |
| | 131 | case (addr) |
| | 132 | `ADDR_LCDC: rLCDC <= data; |
| | 133 | `ADDR_STAT: rSTAT <= {data[7:2],rSTAT[1:0]}; |
| | 134 | `ADDR_SCY: rSCY <= data; |
| | 135 | `ADDR_SCX: rSCX <= data; |
| | 136 | `ADDR_LYC: rLYC <= data; |
| | 137 | `ADDR_DMA: rDMA <= data; |
| | 138 | `ADDR_BGP: rBGP <= data; |
| | 139 | `ADDR_OBP0: rOBP0 <= data; |
| | 140 | `ADDR_OBP1: rOBP1 <= data; |
| | 141 | `ADDR_WY: rWY <= data; |
| | 142 | `ADDR_WX: rWX <= data; |
| | 143 | endcase |
| | 144 | end |
| | 145 | endmodule |
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