Compare commits
18 Commits
8e1a539e70
...
905c4448d0
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@ -107,7 +107,7 @@ pub fn deinit(self: *Self) void {
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}
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}
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fn fillReadTable(bus: *Self, table: *[table_len]?*const anyopaque) void {
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fn fillReadTable(bus: *Self, table: *[table_len]?*const anyopaque) void {
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const vramMirror = @import("ppu.zig").Vram.mirror;
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const vramMirror = @import("ppu/Vram.zig").mirror;
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for (table) |*ptr, i| {
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for (table) |*ptr, i| {
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const addr = page_size * i;
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const addr = page_size * i;
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@ -134,7 +134,7 @@ fn fillReadTable(bus: *Self, table: *[table_len]?*const anyopaque) void {
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fn fillWriteTable(comptime T: type, bus: *Self, table: *[table_len]?*const anyopaque) void {
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fn fillWriteTable(comptime T: type, bus: *Self, table: *[table_len]?*const anyopaque) void {
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comptime std.debug.assert(T == u32 or T == u16 or T == u8);
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comptime std.debug.assert(T == u32 or T == u16 or T == u8);
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const vramMirror = @import("ppu.zig").Vram.mirror;
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const vramMirror = @import("ppu/Vram.zig").mirror;
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for (table) |*ptr, i| {
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for (table) |*ptr, i| {
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const addr = page_size * i;
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const addr = page_size * i;
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@ -338,7 +338,7 @@ fn DmaController(comptime id: u2) type {
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};
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};
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}
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}
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pub fn pollDmaOnBlank(bus: *Bus, comptime kind: DmaKind) void {
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pub fn onBlanking(bus: *Bus, comptime kind: DmaKind) void {
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comptime var i: usize = 0;
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comptime var i: usize = 0;
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inline while (i < 4) : (i += 1) {
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inline while (i < 4) : (i += 1) {
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bus.dma[i].poll(kind);
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bus.dma[i].poll(kind);
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@ -449,6 +449,8 @@ pub const BldY = extern union {
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raw: u16,
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raw: u16,
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};
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};
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const u8WriteKind = enum { Hi, Lo };
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/// Write-only
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/// Write-only
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pub const WinH = extern union {
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pub const WinH = extern union {
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x2: Bitfield(u16, 0, 8),
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x2: Bitfield(u16, 0, 8),
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@ -458,6 +460,8 @@ pub const WinH = extern union {
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/// Write-only
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/// Write-only
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pub const WinV = extern union {
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pub const WinV = extern union {
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const Self = @This();
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y2: Bitfield(u16, 0, 8),
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y2: Bitfield(u16, 0, 8),
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y1: Bitfield(u16, 8, 8),
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y1: Bitfield(u16, 8, 8),
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raw: u16,
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raw: u16,
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@ -466,20 +470,20 @@ pub const WinV = extern union {
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pub const WinIn = extern union {
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pub const WinIn = extern union {
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w0_bg: Bitfield(u16, 0, 4),
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w0_bg: Bitfield(u16, 0, 4),
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w0_obj: Bit(u16, 4),
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w0_obj: Bit(u16, 4),
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w0_colour: Bit(u16, 5),
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w0_bld: Bit(u16, 5),
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w1_bg: Bitfield(u16, 8, 4),
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w1_bg: Bitfield(u16, 8, 4),
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w1_obj: Bit(u16, 12),
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w1_obj: Bit(u16, 12),
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w1_colour: Bit(u16, 13),
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w1_bld: Bit(u16, 13),
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raw: u16,
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raw: u16,
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};
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};
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pub const WinOut = extern union {
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pub const WinOut = extern union {
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out_bg: Bitfield(u16, 0, 4),
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out_bg: Bitfield(u16, 0, 4),
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out_obj: Bit(u16, 4),
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out_obj: Bit(u16, 4),
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out_colour: Bit(u16, 5),
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out_bld: Bit(u16, 5),
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obj_bg: Bitfield(u16, 8, 4),
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obj_bg: Bitfield(u16, 8, 4),
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obj_obj: Bit(u16, 12),
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obj_obj: Bit(u16, 12),
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obj_colour: Bit(u16, 13),
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obj_bld: Bit(u16, 13),
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raw: u16,
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raw: u16,
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};
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};
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880
src/core/ppu.zig
880
src/core/ppu.zig
File diff suppressed because it is too large
Load Diff
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@ -0,0 +1,40 @@
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const std = @import("std");
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const Allocator = std.mem.Allocator;
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const buf_len = 0x400;
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const Self = @This();
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buf: []u8,
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allocator: Allocator,
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pub fn read(self: *const Self, comptime T: type, address: usize) T {
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const addr = address & 0x3FF;
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return switch (T) {
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u32, u16, u8 => std.mem.readIntSliceLittle(T, self.buf[addr..][0..@sizeOf(T)]),
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else => @compileError("OAM: Unsupported read width"),
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};
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}
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pub fn write(self: *Self, comptime T: type, address: usize, value: T) void {
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const addr = address & 0x3FF;
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switch (T) {
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u32, u16 => std.mem.writeIntSliceLittle(T, self.buf[addr..][0..@sizeOf(T)], value),
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u8 => return, // 8-bit writes are explicitly ignored
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else => @compileError("OAM: Unsupported write width"),
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}
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}
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pub fn init(allocator: Allocator) !Self {
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const buf = try allocator.alloc(u8, buf_len);
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std.mem.set(u8, buf, 0);
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return Self{ .buf = buf, .allocator = allocator };
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}
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pub fn deinit(self: *Self) void {
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self.allocator.free(self.buf);
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self.* = undefined;
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}
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@ -0,0 +1,47 @@
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const std = @import("std");
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const Allocator = std.mem.Allocator;
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const buf_len = 0x400;
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const Self = @This();
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buf: []u8,
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allocator: Allocator,
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pub fn read(self: *const Self, comptime T: type, address: usize) T {
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const addr = address & 0x3FF;
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return switch (T) {
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u32, u16, u8 => std.mem.readIntSliceLittle(T, self.buf[addr..][0..@sizeOf(T)]),
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else => @compileError("PALRAM: Unsupported read width"),
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};
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}
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pub fn write(self: *Self, comptime T: type, address: usize, value: T) void {
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const addr = address & 0x3FF;
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switch (T) {
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u32, u16 => std.mem.writeIntSliceLittle(T, self.buf[addr..][0..@sizeOf(T)], value),
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u8 => {
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const align_addr = addr & ~@as(u32, 1); // Aligned to Halfword boundary
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std.mem.writeIntSliceLittle(u16, self.buf[align_addr..][0..@sizeOf(u16)], @as(u16, value) * 0x101);
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},
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else => @compileError("PALRAM: Unsupported write width"),
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}
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}
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pub fn init(allocator: Allocator) !Self {
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const buf = try allocator.alloc(u8, buf_len);
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std.mem.set(u8, buf, 0);
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return Self{ .buf = buf, .allocator = allocator };
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}
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pub fn deinit(self: *Self) void {
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self.allocator.free(self.buf);
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self.* = undefined;
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}
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pub inline fn backdrop(self: *const Self) u16 {
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return std.mem.readIntNative(u16, self.buf[0..2]);
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}
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@ -0,0 +1,60 @@
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const std = @import("std");
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const io = @import("../bus/io.zig");
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const Allocator = std.mem.Allocator;
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const buf_len = 0x18000;
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const Self = @This();
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buf: []u8,
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allocator: Allocator,
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pub fn read(self: *const Self, comptime T: type, address: usize) T {
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const addr = Self.mirror(address);
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return switch (T) {
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u32, u16, u8 => std.mem.readIntSliceLittle(T, self.buf[addr..][0..@sizeOf(T)]),
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else => @compileError("VRAM: Unsupported read width"),
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};
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}
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pub fn write(self: *Self, comptime T: type, dispcnt: io.DisplayControl, address: usize, value: T) void {
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const mode: u3 = dispcnt.bg_mode.read();
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const idx = Self.mirror(address);
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switch (T) {
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u32, u16 => std.mem.writeIntSliceLittle(T, self.buf[idx..][0..@sizeOf(T)], value),
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u8 => {
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// Ignore write if it falls within the boundaries of OBJ VRAM
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switch (mode) {
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0, 1, 2 => if (0x0001_0000 <= idx) return,
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else => if (0x0001_4000 <= idx) return,
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}
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const align_idx = idx & ~@as(u32, 1); // Aligned to a halfword boundary
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std.mem.writeIntSliceLittle(u16, self.buf[align_idx..][0..@sizeOf(u16)], @as(u16, value) * 0x101);
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},
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else => @compileError("VRAM: Unsupported write width"),
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}
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}
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pub fn init(allocator: Allocator) !Self {
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const buf = try allocator.alloc(u8, buf_len);
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std.mem.set(u8, buf, 0);
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return Self{ .buf = buf, .allocator = allocator };
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}
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pub fn deinit(self: *Self) void {
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self.allocator.free(self.buf);
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self.* = undefined;
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}
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pub fn mirror(address: usize) usize {
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// Mirrored in steps of 128K (64K + 32K + 32K) (abcc)
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const addr = address & 0x1FFFF;
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// If the address is within 96K we don't do anything,
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// otherwise we want to mirror the last 32K (addresses between 64K and 96K)
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return if (addr < buf_len) addr else 0x10000 + (addr & 0x7FFF);
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}
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46
src/util.zig
46
src/util.zig
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@ -5,6 +5,8 @@ const config = @import("config.zig");
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const Log2Int = std.math.Log2Int;
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const Log2Int = std.math.Log2Int;
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const Arm7tdmi = @import("core/cpu.zig").Arm7tdmi;
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const Arm7tdmi = @import("core/cpu.zig").Arm7tdmi;
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const Allocator = std.mem.Allocator;
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// Sign-Extend value of type `T` to type `U`
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// Sign-Extend value of type `T` to type `U`
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pub fn sext(comptime T: type, comptime U: type, value: T) T {
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pub fn sext(comptime T: type, comptime U: type, value: T) T {
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// U must have less bits than T
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// U must have less bits than T
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@ -123,6 +125,7 @@ pub const io = struct {
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pub const Logger = struct {
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pub const Logger = struct {
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const Self = @This();
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const Self = @This();
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const FmtArgTuple = std.meta.Tuple(&.{ u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32 });
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buf: std.io.BufferedWriter(4096 << 2, std.fs.File.Writer),
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buf: std.io.BufferedWriter(4096 << 2, std.fs.File.Writer),
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@ -181,8 +184,6 @@ pub const Logger = struct {
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}
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}
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};
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};
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const FmtArgTuple = struct { u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32, u32 };
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pub const audio = struct {
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pub const audio = struct {
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const _io = @import("core/bus/io.zig");
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const _io = @import("core/bus/io.zig");
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@ -275,3 +276,44 @@ fn HalfInt(comptime T: type) type {
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return std.meta.Int(type_info.Int.signedness, type_info.Int.bits >> 1);
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return std.meta.Int(type_info.Int.signedness, type_info.Int.bits >> 1);
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}
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}
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/// Double Buffering Implementation
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pub const FrameBuffer = struct {
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const Self = @This();
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layers: [2][]u8,
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buf: []u8,
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current: u1,
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allocator: Allocator,
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// TODO: Rename
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const Device = enum { Emulator, Renderer };
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pub fn init(allocator: Allocator, comptime len: comptime_int) !Self {
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const buf = try allocator.alloc(u8, len * 2);
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std.mem.set(u8, buf, 0);
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return .{
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// Front and Back Framebuffers
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.layers = [_][]u8{ buf[0..][0..len], buf[len..][0..len] },
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.buf = buf,
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.current = 0,
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.allocator = allocator,
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};
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}
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pub fn deinit(self: *Self) void {
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self.allocator.free(self.buf);
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self.* = undefined;
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}
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pub fn swap(self: *Self) void {
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self.current = ~self.current;
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}
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pub fn get(self: *Self, comptime dev: Device) []u8 {
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return self.layers[if (dev == .Emulator) self.current else ~self.current];
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}
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};
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Loading…
Reference in New Issue