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[/] [a-z80/] [trunk/] [host/] [zxspectrum_de1/] [ula/] [video.sv] - Rev 14
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//============================================================================
// Sinclair ZX Spectrum ULA
//
// This module contains video support.
//
// Note: There is no reset signal in this VGA design since all relevant
// counters will reset themselves within one display frame as the
// pixel clock keeps ticking.
//
// Copyright (C) 2014-2016 Goran Devic
//
// This program is free software; you can redistribute it and/or modify it
// under the terms of the GNU General Public License as published by the Free
// Software Foundation; either version 2 of the License, or (at your option)
// any later version.
//
// This program is distributed in the hope that it will be useful, but WITHOUT
// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
// more details.
//
// You should have received a copy of the GNU General Public License along
// with this program; if not, write to the Free Software Foundation, Inc.,
// 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
//============================================================================
module video
(
input wire clk_pix, // Input VGA pixel clock of 25.175 MHz
output wire [3:0] VGA_R, // Output VGA R component
output wire [3:0] VGA_G, // Output VGA G component
output wire [3:0] VGA_B, // Output VGA B component
output reg VGA_HS, // Output VGA horizontal sync
output reg VGA_VS, // Output VGA vertical sync
output wire vs_nintr, // Vertical retrace interrupt
output wire [12:0] vram_address,// Address request to the video RAM
input wire [7:0] vram_data, // Data read from the video RAM
input wire [2:0] border // Border color index value
);
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// VGA 640x480 Sync pulses generator
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
reg [9:0] vga_hc; // Horizontal counter
reg [9:0] vga_vc; // Vertical counter
reg [4:0] frame; // Frame counter, used for the flash attribute
always @(posedge clk_pix)
begin
vga_hc <= vga_hc + 10'b1; // With each pixel clock, advance the horizontal counter
//---------------------------------------------------------------
// Horizontal sync and line end timings
//---------------------------------------------------------------
case (vga_hc)
96: VGA_HS <= 1;
800: begin
VGA_HS <= 0;
vga_hc <= 0;
vga_vc <= vga_vc + 10'b1;
end
endcase
//---------------------------------------------------------------
// Vertical sync and display end timings
//---------------------------------------------------------------
case (vga_vc)
2: VGA_VS <= 1;
525: begin
VGA_VS <= 0;
vga_vc <= 0;
frame <= frame + 5'b1;
end
endcase
end
// Generate interrupt at around the time of the vertical retrace start
assign vs_nintr = (vga_vc=='0 && vga_hc[9:7]=='0)? '0 : '1;
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// VGA active display area 640x480
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
wire disp_enable;
assign disp_enable = vga_hc>=144 && vga_hc<784 && vga_vc>=35 && vga_vc<515;
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Fetch screen data from RAM based on the current video counters
// Spectrum resolution of 256x192 is line-doubled to 512x384 sub-frame
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
wire screen_en;
assign screen_en = vga_hc>=208 && vga_hc<720 && vga_vc>=83 && vga_vc<467;
reg [7:0] bits_prefetch; // Line bitmap data prefetch register
reg [7:0] attr_prefetch; // Attribute data prefetch register
// At the first clock of each new character, prefetch values are latched into these:
reg [7:0] bits; // Current line bitmap data register
reg [7:0] attr; // Current attribute data register
wire [4:0] pix_x; // Column 0-31
wire [7:0] pix_y; // Active display pixel Y coordinate
// We use 16 clocks for 1 byte of display; also prefetch 1 byte (+16)
wire [9:0] xd = vga_hc-10'd192; // =vga_hc-208+16
assign pix_x = xd[8:4]; // Effectively divide by 16
wire [9:0] yd = vga_vc-10'd83; // Lines are (also) doubled vertically
assign pix_y = yd[8:1]; // Effectively divide by 2
always @(posedge clk_pix)
begin
case (vga_hc[3:0])
// Format the address into the bitmap which is a swizzle of coordinate parts
10: vram_address <= {pix_y[7:6], pix_y[2:0], pix_y[5:3], pix_x};
12: begin
bits_prefetch <= vram_data;
// Format the address into the attribute map
vram_address <= {3'b110, pix_y[7:3], pix_x};
end
14: attr_prefetch <= vram_data;
// Last tick before a new character: load working bitmap and attribute registers
15: begin
attr <= attr_prefetch;
bits <= bits_prefetch;
end
endcase
end
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Pixel data generator
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
wire [2:0] ink; // INK color (index into the palette)
wire [2:0] paper; // PAPER color
wire bright; // BRIGHT attribute bit
wire flash; // FLASH attribute bit
wire pixbit; // Current pixel to render
wire inverted; // Are the pixel's attributes inverted?
// Output a pixel bit based on the VGA horizontal counter. This could have been
// a shift register but a mux works as well since we are writing out each pixel
// twice (required by this VGA clock rate)
always @(*) // always_comb
begin
case (vga_hc[3:1])
0: pixbit = bits[7];
1: pixbit = bits[6];
2: pixbit = bits[5];
3: pixbit = bits[4];
4: pixbit = bits[3];
5: pixbit = bits[2];
6: pixbit = bits[1];
7: pixbit = bits[0];
endcase
end
assign flash = attr[7];
assign bright = attr[6];
assign inverted = flash & frame[4];
assign ink = inverted? attr[5:3] : attr[2:0];
assign paper = inverted? attr[2:0] : attr[5:3];
// The final color index depends on where we are (active display area, border) and
// whether we are rendering INK or PAPER color, including the brightness bit
assign cindex = screen_en? pixbit? {bright,ink} : {bright,paper} : {1'b0,border[2:0]};
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Color lookup table
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
wire [3:0] cindex;
wire [11:0] pix_rgb;
always @(*) // always_comb
begin
case (cindex[3:0])
// Normal color
0: pix_rgb = 12'h000; // BLACK
1: pix_rgb = 12'h00D; // BLUE
2: pix_rgb = 12'hD00; // RED
3: pix_rgb = 12'hD0D; // MAGENTA
4: pix_rgb = 12'h0D0; // GREEN
5: pix_rgb = 12'h0DD; // CYAN
6: pix_rgb = 12'hDD0; // YELLOW
7: pix_rgb = 12'hDDD; // WHITE
// "Bright" bit is set
8: pix_rgb = 12'h000; // BLACK remains black
9: pix_rgb = 12'h00F;
10: pix_rgb = 12'hF00;
11: pix_rgb = 12'hF0F;
12: pix_rgb = 12'h0F0;
13: pix_rgb = 12'h0FF;
14: pix_rgb = 12'hFF0;
15: pix_rgb = 12'hFFF;
endcase
end
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// VGA RGB output drivers
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
assign VGA_R[3:0] = disp_enable? pix_rgb[11:8] : '0;
assign VGA_G[3:0] = disp_enable? pix_rgb[7:4] : '0;
assign VGA_B[3:0] = disp_enable? pix_rgb[3:0] : '0;
endmodule
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