reworking command buffers, adding soft compute routines

2026-02-24 04:49:59 +01:00
parent d97533082d
commit e5cbbbcc91
20 changed files with 630 additions and 374 deletions
--- a/build.zig
+++ b/build.zig
@@ -132,6 +132,9 @@ fn customSoft(b: *std.Build, lib: *std.Build.Step.Compile) !void {
    lib.addSystemIncludePath(cpuinfo.path("include"));
    lib.linkLibrary(cpuinfo.artifact("cpuinfo"));
    const interface = b.lazyDependency("interface", .{}) orelse return error.UnresolvedDependency;
    lib.root_module.addImport("interface", interface.module("interface"));
    const spv = b.dependency("SPIRV_Interpreter", .{
        .@"no-example" = true,
        .@"no-test" = true,
--- a/build.zig.zon
+++ b/build.zig.zon
@@ -53,9 +53,14 @@
            .hash = "N-V-__8AABQ7TgCnPlp8MP4YA8znrjd6E-ZjpF1rvrS8J_2I",
            .lazy = true,
        },
        .interface = .{
            .url = "git+https://github.com/nilslice/zig-interface#8c0fe8fa9fd0702eee43f50cb75dce1cc5a7e1f4",
            .hash = "interface-0.0.2-GFlWJ1mcAQARS-V4xJ7qDt5_cutxOHSEz6H9yiK-Sw0A",
            .lazy = true,
        },
        .SPIRV_Interpreter = .{
-            .url = "git+https://git.kbz8.me/kbz_8/SPIRV-Interpreter#2ea707ea57ea3e36d51d30c7bf363bfe2eca778c",
+            .url = "git+https://git.kbz8.me/kbz_8/SPIRV-Interpreter#2409ec726946a314f795b6edb5ae3ddd3eb7426c",
-            .hash = "SPIRV_Interpreter-0.0.1-ajmpn5lyAwBPB_XSXWCQwuUmXgledjEyt3hYXZfbCvSV",
+            .hash = "SPIRV_Interpreter-0.0.1-ajmpnyuJAwD5jM0piGGnEq07unzNZyEQ_GmBp_PVMg2X",
        },
    },
--- a/src/soft/SoftBuffer.zig
+++ b/src/soft/SoftBuffer.zig
@@ -46,3 +46,35 @@ pub fn getMemoryRequirements(interface: *Interface, requirements: *vk.MemoryRequ
        requirements.alignment = @max(requirements.alignment, lib.MIN_UNIFORM_BUFFER_ALIGNMENT);
    }
 }
 pub fn copyBuffer(self: *const Self, dst: *Self, regions: []const vk.BufferCopy) VkError!void {
    for (regions) |region| {
        const src_memory = if (self.interface.memory) |memory| memory else return VkError.InvalidDeviceMemoryDrv;
        const dst_memory = if (dst.interface.memory) |memory| memory else return VkError.InvalidDeviceMemoryDrv;
        const src_map: []u8 = @as([*]u8, @ptrCast(try src_memory.map(region.src_offset, region.size)))[0..region.size];
        const dst_map: []u8 = @as([*]u8, @ptrCast(try dst_memory.map(region.dst_offset, region.size)))[0..region.size];
        @memcpy(dst_map, src_map);
        src_memory.unmap();
        dst_memory.unmap();
    }
 }
 pub fn fillBuffer(self: *Self, offset: vk.DeviceSize, size: vk.DeviceSize, data: u32) VkError!void {
    const memory = if (self.interface.memory) |memory| memory else return VkError.InvalidDeviceMemoryDrv;
    var memory_map: []u32 = @as([*]u32, @ptrCast(@alignCast(try memory.map(offset, size))))[0..size];
    var bytes = if (size == vk.WHOLE_SIZE) memory.size - offset else size;
    var i: usize = 0;
    while (bytes >= 4) : ({
        bytes -= 4;
        i += 1;
    }) {
        memory_map[i] = data;
    }
    memory.unmap();
 }
--- a/src/soft/SoftCommandBuffer.zig
+++ b/src/soft/SoftCommandBuffer.zig
@@ -1,15 +1,32 @@
 const std = @import("std");
 const vk = @import("vulkan");
 const base = @import("base");
 const lib = @import("lib.zig");
 const InterfaceFactory = @import("interface").Interface;
 const VkError = base.VkError;
 const Device = base.Device;
 const SoftBuffer = @import("SoftBuffer.zig");
 const SoftImage = @import("SoftImage.zig");
 const SoftPipeline = @import("SoftPipeline.zig");
 const SoftDescriptorSet = @import("SoftDescriptorSet.zig");
 const ExecutionDevice = @import("device/Device.zig");
 const Self = @This();
 pub const Interface = base.CommandBuffer;
 const Command = InterfaceFactory(.{
    .execute = fn (*ExecutionDevice) VkError!void,
 }, null);
 interface: Interface,
 command_allocator: std.heap.ArenaAllocator,
 commands: std.ArrayList(Command),
 pub fn create(device: *base.Device, allocator: std.mem.Allocator, info: *const vk.CommandBufferAllocateInfo) VkError!*Self {
    const self = allocator.create(Self) catch return VkError.OutOfHostMemory;
    errdefer allocator.destroy(self);
@@ -28,6 +45,7 @@ pub fn create(device: *base.Device, allocator: std.mem.Allocator, info: *const v
        .copyBuffer = copyBuffer,
        .copyImage = copyImage,
        .copyImageToBuffer = copyImageToBuffer,
        .dispatch = dispatch,
        .end = end,
        .fillBuffer = fillBuffer,
        .reset = reset,
@@ -38,7 +56,10 @@ pub fn create(device: *base.Device, allocator: std.mem.Allocator, info: *const v
    self.* = .{
        .interface = interface,
        .command_allocator = undefined,
        .commands = .empty,
    };
    self.command_allocator = .init(self.interface.host_allocator.allocator());
    return self;
 }
@@ -47,10 +68,16 @@ pub fn destroy(interface: *Interface, allocator: std.mem.Allocator) void {
    allocator.destroy(self);
 }
-pub fn begin(interface: *Interface, info: *const vk.CommandBufferBeginInfo) VkError!void {
+pub fn execute(self: *Self, device: *ExecutionDevice) VkError!void {
-    // No-op
+    self.interface.submit() catch return;
-    _ = interface;
+    for (self.commands.items) |command| {
-    _ = info;
+        try command.vtable.execute(command.ptr, device);
    }
 }
 pub fn begin(interface: *Interface, _: *const vk.CommandBufferBeginInfo) VkError!void {
    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
    self.command_allocator.deinit();
 }
 pub fn end(interface: *Interface) VkError!void {
@@ -58,76 +85,236 @@ pub fn end(interface: *Interface) VkError!void {
    _ = interface;
 }
-pub fn reset(interface: *Interface, flags: vk.CommandBufferResetFlags) VkError!void {
+pub fn reset(interface: *Interface, _: vk.CommandBufferResetFlags) VkError!void {
-    // No-op
+    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
-    _ = interface;
+    const allocator = self.command_allocator.allocator();
-    _ = flags;
+    self.commands.clearAndFree(allocator);
    if (!self.command_allocator.reset(.{ .retain_with_limit = 16_384 }))
        return VkError.OutOfHostMemory;
 }
 // Commands ====================================================================================================
 pub fn bindDescriptorSets(interface: *Interface, bind_point: vk.PipelineBindPoint, first_set: u32, sets: [base.VULKAN_MAX_DESCRIPTOR_SETS]?*base.DescriptorSet, dynamic_offsets: []const u32) VkError!void {
-    // No-op
+    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
-    _ = interface;
+    const allocator = self.command_allocator.allocator();
-    _ = bind_point;
+
-    _ = first_set;
+    const CommandImpl = struct {
-    _ = sets;
+        const Impl = @This();
-    _ = dynamic_offsets;
+
        bind_point: vk.PipelineBindPoint,
        first_set: u32,
        sets: [base.VULKAN_MAX_DESCRIPTOR_SETS]?*base.DescriptorSet,
        dynamic_offsets: []const u32,
        pub fn execute(impl: *const Impl, device: *ExecutionDevice) VkError!void {
            for (impl.first_set.., impl.sets[0..]) |i, set| {
                if (set == null)
                    break;
                device.pipeline_states[@intCast(@intFromEnum(impl.bind_point))].sets[i] = @alignCast(@fieldParentPtr("interface", set.?));
            }
        }
    };
    const cmd = allocator.create(CommandImpl) catch return VkError.OutOfHostMemory;
    errdefer allocator.destroy(cmd);
    cmd.* = .{
        .bind_point = bind_point,
        .first_set = first_set,
        .sets = sets,
        .dynamic_offsets = dynamic_offsets,
    };
    self.commands.append(allocator, Command.from(cmd)) catch return VkError.OutOfHostMemory;
 }
 pub fn bindPipeline(interface: *Interface, bind_point: vk.PipelineBindPoint, pipeline: *base.Pipeline) VkError!void {
-    _ = interface;
+    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
-    _ = pipeline;
+    const allocator = self.command_allocator.allocator();
-    if (bind_point != .graphics and bind_point != .compute) {
+    const CommandImpl = struct {
-        std.log.warn("Software driver does not support bind point {s}", .{@tagName(bind_point)});
+        const Impl = @This();
-        return VkError.ValidationFailed;
+
        bind_point: vk.PipelineBindPoint,
        pipeline: *SoftPipeline,
        pub fn execute(impl: *const Impl, device: *ExecutionDevice) VkError!void {
            device.pipeline_states[@intCast(@intFromEnum(impl.bind_point))].pipeline = impl.pipeline;
        }
    };
    const cmd = allocator.create(CommandImpl) catch return VkError.OutOfHostMemory;
    errdefer allocator.destroy(cmd);
    cmd.* = .{
        .bind_point = bind_point,
        .pipeline = @alignCast(@fieldParentPtr("interface", pipeline)),
    };
    self.commands.append(allocator, Command.from(cmd)) catch return VkError.OutOfHostMemory;
 }
 pub fn clearColorImage(interface: *Interface, image: *base.Image, layout: vk.ImageLayout, color: *const vk.ClearColorValue, range: vk.ImageSubresourceRange) VkError!void {
-    // No-op
+    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
-    _ = interface;
+    const allocator = self.command_allocator.allocator();
    _ = image;
    _ = layout;
    _ = color;
    _ = range;
 }
-pub fn fillBuffer(interface: *Interface, buffer: *base.Buffer, offset: vk.DeviceSize, size: vk.DeviceSize, data: u32) VkError!void {
+    const CommandImpl = struct {
-    // No-op
+        const Impl = @This();
-    _ = interface;
+
-    _ = buffer;
+        image: *SoftImage,
-    _ = offset;
+        layout: vk.ImageLayout,
-    _ = size;
+        clear_color: vk.ClearColorValue,
-    _ = data;
+        range: vk.ImageSubresourceRange,
        pub fn execute(impl: *const Impl, _: *ExecutionDevice) VkError!void {
            impl.image.clearRange(impl.clear_color, impl.range);
        }
    };
    const cmd = allocator.create(CommandImpl) catch return VkError.OutOfHostMemory;
    errdefer allocator.destroy(cmd);
    cmd.* = .{
        .image = @alignCast(@fieldParentPtr("interface", image)),
        .layout = layout,
        .clear_color = color.*,
        .range = range,
    };
    self.commands.append(allocator, Command.from(cmd)) catch return VkError.OutOfHostMemory;
 }
 pub fn copyBuffer(interface: *Interface, src: *base.Buffer, dst: *base.Buffer, regions: []const vk.BufferCopy) VkError!void {
-    // No-op
+    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
-    _ = interface;
+    const allocator = self.command_allocator.allocator();
-    _ = src;
+
-    _ = dst;
+    const CommandImpl = struct {
-    _ = regions;
+        const Impl = @This();
        src: *const SoftBuffer,
        dst: *SoftBuffer,
        regions: []const vk.BufferCopy,
        pub fn execute(impl: *const Impl, _: *ExecutionDevice) VkError!void {
            try impl.src.copyBuffer(impl.dst, impl.regions);
        }
    };
    const cmd = allocator.create(CommandImpl) catch return VkError.OutOfHostMemory;
    errdefer allocator.destroy(cmd);
    cmd.* = .{
        .src = @alignCast(@fieldParentPtr("interface", src)),
        .dst = @alignCast(@fieldParentPtr("interface", dst)),
        .regions = allocator.dupe(vk.BufferCopy, regions) catch return VkError.OutOfHostMemory, // Will be freed on cmdbuf reset or destroy
    };
    self.commands.append(allocator, Command.from(cmd)) catch return VkError.OutOfHostMemory;
 }
 pub fn copyImage(interface: *Interface, src: *base.Image, src_layout: vk.ImageLayout, dst: *base.Image, dst_layout: vk.ImageLayout, regions: []const vk.ImageCopy) VkError!void {
-    // No-op
+    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
-    _ = interface;
+    const allocator = self.command_allocator.allocator();
-    _ = src;
+
-    _ = src_layout;
+    const CommandImpl = struct {
-    _ = dst;
+        const Impl = @This();
-    _ = dst_layout;
+
-    _ = regions;
+        src: *const SoftImage,
        src_layout: vk.ImageLayout,
        dst: *SoftImage,
        dst_layout: vk.ImageLayout,
        regions: []const vk.ImageCopy,
        pub fn execute(impl: *const Impl, _: *ExecutionDevice) VkError!void {
            try impl.src.copyImage(impl.src_layout, impl.dst, impl.dst_layout, impl.regions);
        }
    };
    const cmd = allocator.create(CommandImpl) catch return VkError.OutOfHostMemory;
    errdefer allocator.destroy(cmd);
    cmd.* = .{
        .src = @alignCast(@fieldParentPtr("interface", src)),
        .src_layout = src_layout,
        .dst = @alignCast(@fieldParentPtr("interface", dst)),
        .dst_layout = dst_layout,
        .regions = allocator.dupe(vk.ImageCopy, regions) catch return VkError.OutOfHostMemory, // Will be freed on cmdbuf reset or destroy
    };
    self.commands.append(allocator, Command.from(cmd)) catch return VkError.OutOfHostMemory;
 }
 pub fn copyImageToBuffer(interface: *Interface, src: *base.Image, src_layout: vk.ImageLayout, dst: *base.Buffer, regions: []const vk.BufferImageCopy) VkError!void {
-    // No-op
+    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
-    _ = interface;
+    const allocator = self.command_allocator.allocator();
-    _ = src;
+
-    _ = src_layout;
+    const CommandImpl = struct {
-    _ = dst;
+        const Impl = @This();
-    _ = regions;
+
        src: *const SoftImage,
        src_layout: vk.ImageLayout,
        dst: *SoftBuffer,
        regions: []const vk.BufferImageCopy,
        pub fn execute(impl: *const Impl, _: *ExecutionDevice) VkError!void {
            try impl.src.copyImageToBuffer(impl.src_layout, impl.dst, impl.regions);
        }
    };
    const cmd = allocator.create(CommandImpl) catch return VkError.OutOfHostMemory;
    errdefer allocator.destroy(cmd);
    cmd.* = .{
        .src = @alignCast(@fieldParentPtr("interface", src)),
        .src_layout = src_layout,
        .dst = @alignCast(@fieldParentPtr("interface", dst)),
        .regions = allocator.dupe(vk.BufferImageCopy, regions) catch return VkError.OutOfHostMemory, // Will be freed on cmdbuf reset or destroy
    };
    self.commands.append(allocator, Command.from(cmd)) catch return VkError.OutOfHostMemory;
 }
 pub fn dispatch(interface: *Interface, group_count_x: u32, group_count_y: u32, group_count_z: u32) VkError!void {
    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
    const allocator = self.command_allocator.allocator();
    const CommandImpl = struct {
        const Impl = @This();
        group_count_x: u32,
        group_count_y: u32,
        group_count_z: u32,
        pub fn execute(impl: *const Impl, device: *ExecutionDevice) VkError!void {
            try device.compute_routines.dispatch(impl.group_count_x, impl.group_count_y, impl.group_count_z);
        }
    };
    const cmd = allocator.create(CommandImpl) catch return VkError.OutOfHostMemory;
    errdefer allocator.destroy(cmd);
    cmd.* = .{
        .group_count_x = group_count_x,
        .group_count_y = group_count_y,
        .group_count_z = group_count_z,
    };
    self.commands.append(allocator, Command.from(cmd)) catch return VkError.OutOfHostMemory;
 }
 pub fn fillBuffer(interface: *Interface, buffer: *base.Buffer, offset: vk.DeviceSize, size: vk.DeviceSize, data: u32) VkError!void {
    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
    const allocator = self.command_allocator.allocator();
    const CommandImpl = struct {
        const Impl = @This();
        buffer: *SoftBuffer,
        offset: vk.DeviceSize,
        size: vk.DeviceSize,
        data: u32,
        pub fn execute(impl: *const Impl, _: *ExecutionDevice) VkError!void {
            try impl.buffer.fillBuffer(impl.offset, impl.size, impl.data);
        }
    };
    const cmd = allocator.create(CommandImpl) catch return VkError.OutOfHostMemory;
    errdefer allocator.destroy(cmd);
    cmd.* = .{
        .buffer = @alignCast(@fieldParentPtr("interface", buffer)),
        .offset = offset,
        .size = size,
        .data = data,
    };
    self.commands.append(allocator, Command.from(cmd)) catch return VkError.OutOfHostMemory;
 }
 pub fn resetEvent(interface: *Interface, event: *base.Event, stage: vk.PipelineStageFlags) VkError!void {
--- a/src/soft/SoftDescriptorSet.zig
+++ b/src/soft/SoftDescriptorSet.zig
@@ -77,6 +77,9 @@ pub fn write(interface: *Interface, write_data: vk.WriteDescriptorSet) VkError!v
                if (buffer_info.buffer != .null_handle) {
                    const buffer = try NonDispatchable(Buffer).fromHandleObject(buffer_info.buffer);
                    desc.buffer.object = @as(*SoftBuffer, @alignCast(@fieldParentPtr("interface", buffer)));
                    if (desc.buffer.size == vk.WHOLE_SIZE) {
                        desc.buffer.size = if (buffer.memory) |memory| memory.size - desc.buffer.offset else return VkError.InvalidDeviceMemoryDrv;
                    }
                }
            }
        },
--- a/src/soft/SoftImage.zig
+++ b/src/soft/SoftImage.zig
@@ -7,6 +7,7 @@ const lib = @import("lib.zig");
 const VkError = base.VkError;
 const Device = base.Device;
 const SoftBuffer = @import("SoftBuffer.zig");
 const SoftDevice = @import("SoftDevice.zig");
 const Self = @This();
@@ -57,3 +58,49 @@ pub fn clearRange(self: *Self, color: vk.ClearColorValue, range: vk.ImageSubreso
        .r32g32b32a32_sfloat;
    self.clear(.{ .color = color }, clear_format, self.interface.format, range, null);
 }
 pub fn copyImage(self: *const Self, self_layout: vk.ImageLayout, dst: *Self, dst_layout: vk.ImageLayout, regions: []const vk.ImageCopy) VkError!void {
    _ = self;
    _ = self_layout;
    _ = dst;
    _ = dst_layout;
    _ = regions;
    std.log.scoped(.commandExecutor).warn("FIXME: implement image to image copy", .{});
 }
 pub fn copyImageToBuffer(self: *const Self, self_layout: vk.ImageLayout, dst: *SoftBuffer, regions: []const vk.BufferImageCopy) VkError!void {
    _ = self_layout;
    for (regions) |region| {
        const src_memory = if (self.interface.memory) |memory| memory else return VkError.InvalidDeviceMemoryDrv;
        const dst_memory = if (dst.interface.memory) |memory| memory else return VkError.InvalidDeviceMemoryDrv;
        const pixel_size: u32 = @intCast(self.interface.getPixelSize());
        const image_row_pitch: u32 = self.interface.extent.width * pixel_size;
        const image_size: u32 = @intCast(self.interface.getTotalSize());
        const buffer_row_length: u32 = if (region.buffer_row_length != 0) region.buffer_row_length else region.image_extent.width;
        const buffer_row_pitch: u32 = buffer_row_length * pixel_size;
        const buffer_size: u32 = buffer_row_pitch * region.image_extent.height * region.image_extent.depth;
        const src_map: []u8 = @as([*]u8, @ptrCast(try src_memory.map(0, image_size)))[0..image_size];
        const dst_map: []u8 = @as([*]u8, @ptrCast(try dst_memory.map(region.buffer_offset, buffer_size)))[0..buffer_size];
        const row_size = region.image_extent.width * pixel_size;
        for (0..self.interface.extent.depth) |z| {
            for (0..self.interface.extent.height) |y| {
                const z_as_u32: u32 = @intCast(z);
                const y_as_u32: u32 = @intCast(y);
                const src_offset = ((@as(u32, @intCast(region.image_offset.z)) + z_as_u32) * self.interface.extent.height + @as(u32, @intCast(region.image_offset.y)) + y_as_u32) * image_row_pitch + @as(u32, @intCast(region.image_offset.x)) * pixel_size;
                const dst_offset = (z_as_u32 * buffer_row_length * region.image_extent.height + y_as_u32 * buffer_row_length) * pixel_size;
                const src_slice = src_map[src_offset..(src_offset + row_size)];
                const dst_slice = dst_map[dst_offset..(dst_offset + row_size)];
                @memcpy(dst_slice, src_slice);
            }
        }
        src_memory.unmap();
        dst_memory.unmap();
    }
 }
--- a/src/soft/SoftPipeline.zig
+++ b/src/soft/SoftPipeline.zig
@@ -15,9 +15,23 @@ const SoftShaderModule = @import("SoftShaderModule.zig");
 const Self = @This();
 pub const Interface = base.Pipeline;
-interface: Interface,
+const Shader = struct {
    module: *SoftShaderModule,
    runtimes: []spv.Runtime,
    entry: []const u8,
 };
-runtimes: []spv.Runtime,
+const Stages = enum {
    vertex,
    tessellation_control,
    tessellation_evaluation,
    geometry,
    fragment,
    compute,
 };
 interface: Interface,
 stages: std.EnumMap(Stages, Shader),
 pub fn createCompute(device: *base.Device, allocator: std.mem.Allocator, cache: ?*base.PipelineCache, info: *const vk.ComputePipelineCreateInfo) VkError!*Self {
    const self = allocator.create(Self) catch return VkError.OutOfHostMemory;
@@ -33,19 +47,31 @@ pub fn createCompute(device: *base.Device, allocator: std.mem.Allocator, cache:
    const module = try NonDispatchable(ShaderModule).fromHandleObject(info.stage.module);
    const soft_module: *SoftShaderModule = @alignCast(@fieldParentPtr("interface", module));
-    const runtimes = allocator.alloc(spv.Runtime, soft_device.workers.getIdCount()) catch return VkError.OutOfHostMemory;
+    const device_allocator = soft_device.device_allocator.allocator();
-    errdefer allocator.free(runtimes);
+
    self.* = .{
        .interface = interface,
        .stages = std.EnumMap(Stages, Shader).init(.{
            .compute = .{
                .module = blk: {
                    soft_module.ref();
                    break :blk soft_module;
                },
                .runtimes = blk: {
                    const runtimes = device_allocator.alloc(spv.Runtime, soft_device.workers.getIdCount()) catch return VkError.OutOfHostMemory;
                    errdefer device_allocator.free(runtimes);
                    for (runtimes) |*runtime| {
-        runtime.* = spv.Runtime.init(allocator, &soft_module.module) catch |err| {
+                        runtime.* = spv.Runtime.init(device_allocator, &soft_module.module) catch |err| {
                            std.log.scoped(.SpvRuntimeInit).err("SPIR-V Runtime failed to initialize, {s}", .{@errorName(err)});
                            return VkError.Unknown;
                        };
                    }
-
+                    break :blk runtimes;
-    self.* = .{
+                },
-        .interface = interface,
+                .entry = allocator.dupe(u8, std.mem.span(info.stage.p_name)) catch return VkError.OutOfHostMemory,
-        .runtimes = runtimes,
+            },
        }),
    };
    return self;
 }
@@ -74,16 +100,24 @@ pub fn createGraphics(device: *base.Device, allocator: std.mem.Allocator, cache:
    self.* = .{
        .interface = interface,
-        .runtimes = runtimes,
+        .stages = std.enums.EnumMap(Stages, Shader).init(.{}),
    };
    return self;
 }
 pub fn destroy(interface: *Interface, allocator: std.mem.Allocator) void {
    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
-    for (self.runtimes) |*runtime| {
+    const soft_device: *SoftDevice = @alignCast(@fieldParentPtr("interface", interface.owner));
-        runtime.deinit(allocator);
+    const device_allocator = soft_device.device_allocator.allocator();
    var it = self.stages.iterator();
    while (it.next()) |stage| {
        stage.value.module.unref(allocator);
        for (stage.value.runtimes) |*runtime| {
            runtime.deinit(device_allocator);
        }
        device_allocator.free(stage.value.runtimes);
        allocator.free(stage.value.entry);
    }
    allocator.free(self.runtimes);
    allocator.destroy(self);
 }
--- a/src/soft/SoftQueue.zig
+++ b/src/soft/SoftQueue.zig
@@ -4,11 +4,12 @@ const base = @import("base");
 const RefCounter = base.RefCounter;
-const Device = @import("device/Device.zig");
+const ExecutionDevice = @import("device/Device.zig");
 const Dispatchable = base.Dispatchable;
 const CommandBuffer = base.CommandBuffer;
 const SoftDevice = @import("SoftDevice.zig");
 const SoftCommandBuffer = @import("SoftCommandBuffer.zig");
 const VkError = base.VkError;
@@ -97,14 +98,13 @@ fn taskRunner(self: *Self, info: Interface.SubmitInfo, p_fence: ?*base.Fence, ru
        command_buffers.deinit(soft_device.device_allocator.allocator());
    }
-    var device = Device.init(soft_device);
+    var execution_device: ExecutionDevice = .init;
-    defer device.deinit();
+    execution_device.setup(soft_device);
    defer execution_device.deinit();
    for (info.command_buffers.items) |command_buffer| {
-        command_buffer.submit() catch continue;
+        const soft_command_buffer: *SoftCommandBuffer = @alignCast(@fieldParentPtr("interface", command_buffer));
-        for (command_buffer.commands.items) |command| {
+        soft_command_buffer.execute(&execution_device) catch |err| base.errors.errorLoggerContext(err, "the software execution device");
            device.execute(&command) catch |err| base.errors.errorLoggerContext(err, "the software command dispatcher");
        }
    }
    if (p_fence) |fence| {
--- a/src/soft/SoftShaderModule.zig
+++ b/src/soft/SoftShaderModule.zig
@@ -13,6 +13,10 @@ pub const Interface = base.ShaderModule;
 interface: Interface,
 module: spv.Module,
 /// Pipelines need SPIR-V module reference so shader module may not
 /// be destroy on call to `vkDestroyShaderModule`
 ref_count: std.atomic.Value(usize),
 pub fn create(device: *base.Device, allocator: std.mem.Allocator, info: *const vk.ShaderModuleCreateInfo) VkError!*Self {
    const self = allocator.create(Self) catch return VkError.OutOfHostMemory;
    errdefer allocator.destroy(self);
@@ -33,12 +37,27 @@ pub fn create(device: *base.Device, allocator: std.mem.Allocator, info: *const v
            spv.Module.ModuleError.OutOfMemory => return VkError.OutOfHostMemory,
            else => return VkError.ValidationFailed,
        },
        .ref_count = std.atomic.Value(usize).init(1),
    };
    return self;
 }
 pub fn destroy(interface: *Interface, allocator: std.mem.Allocator) void {
    const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
    self.unref(allocator);
 }
 pub inline fn drop(self: *Self, allocator: std.mem.Allocator) void {
    self.module.deinit(allocator);
    allocator.destroy(self);
 }
 pub inline fn ref(self: *Self) void {
    _ = self.ref_count.fetchAdd(1, .monotonic);
 }
 pub inline fn unref(self: *Self, allocator: std.mem.Allocator) void {
    if (self.ref_count.fetchSub(1, .release) == 1) {
        self.drop(allocator);
    }
 }
--- a/src/soft/device/ComputeRoutines.zig
+++ b/src/soft/device/ComputeRoutines.zig
@@ -12,16 +12,210 @@ const VkError = base.VkError;
 const Self = @This();
 const RunData = struct {
    self: *Self,
    batch_id: usize,
    group_count: usize,
    group_count_x: usize,
    group_count_y: usize,
    group_count_z: usize,
    subgroups_per_workgroup: usize,
    pipeline: *SoftPipeline,
 };
 device: *SoftDevice,
 state: *PipelineState,
 batch_size: usize,
 pub fn init(device: *SoftDevice, state: *PipelineState) Self {
    return .{
        .device = device,
        .state = state,
        .batch_size = 0,
    };
 }
 pub fn destroy(self: *Self) void {
    _ = self;
 }
 pub fn dispatch(self: *Self, group_count_x: u32, group_count_y: u32, group_count_z: u32) VkError!void {
    const group_count: usize = @intCast(group_count_x * group_count_y * group_count_z);
    const pipeline = self.state.pipeline orelse return VkError.InvalidPipelineDrv;
    const shader = pipeline.stages.getPtr(.compute) orelse return VkError.InvalidPipelineDrv;
    const spv_module = &shader.module.module;
    self.batch_size = shader.runtimes.len;
    const invocations_per_subgroup = 4;
    const invocations_per_workgroup = spv_module.local_size_x * spv_module.local_size_y * spv_module.local_size_z;
    const subgroups_per_workgroup = @divTrunc(invocations_per_workgroup + invocations_per_subgroup - 1, invocations_per_subgroup);
    var wg: std.Thread.WaitGroup = .{};
    for (0..@min(self.batch_size, group_count)) |batch_id| {
        self.device.workers.spawnWg(&wg, runWrapper, .{
            RunData{
                .self = self,
                .batch_id = batch_id,
                .group_count = group_count,
                .group_count_x = @as(usize, @intCast(group_count_x)),
                .group_count_y = @as(usize, @intCast(group_count_y)),
                .group_count_z = @as(usize, @intCast(group_count_z)),
                .subgroups_per_workgroup = subgroups_per_workgroup,
                .pipeline = pipeline,
            },
        });
    }
    self.device.workers.waitAndWork(&wg);
 }
 fn runWrapper(data: RunData) void {
    @call(.always_inline, run, .{data}) catch |err| {
        std.log.scoped(.@"SPIR-V runtime").err("SPIR-V runtime catched a '{s}'", .{@errorName(err)});
        if (@errorReturnTrace()) |trace| {
            std.debug.dumpStackTrace(trace.*);
        }
    };
 }
 inline fn run(data: RunData) !void {
    const allocator = data.self.device.device_allocator.allocator();
    const shader = data.pipeline.stages.getPtrAssertContains(.compute);
    const rt = &shader.runtimes[data.batch_id];
    const entry = try rt.getEntryPointByName(shader.entry);
    var group_index: usize = data.batch_id;
    while (group_index < data.group_count) : (group_index += data.self.batch_size) {
        var modulo: usize = group_index;
        const group_z = @divTrunc(modulo, data.group_count_x * data.group_count_y);
        modulo -= group_z * data.group_count_x * data.group_count_y;
        const group_y = @divTrunc(modulo, data.group_count_x);
        modulo -= group_y * data.group_count_x;
        const group_x = modulo;
        try setupWorkgroupBuiltins(
            data.self,
            rt,
            .{
                @as(u32, @intCast(data.group_count_x)),
                @as(u32, @intCast(data.group_count_y)),
                @as(u32, @intCast(data.group_count_z)),
            },
            .{
                @as(u32, @intCast(group_x)),
                @as(u32, @intCast(group_y)),
                @as(u32, @intCast(group_z)),
            },
        );
        for (0..data.subgroups_per_workgroup) |i| {
            try setupSubgroupBuiltins(
                data.self,
                rt,
                .{
                    @as(u32, @intCast(group_x)),
                    @as(u32, @intCast(group_y)),
                    @as(u32, @intCast(group_z)),
                },
                i,
            );
            try data.self.syncDescriptorSets(allocator, rt, true);
            rt.callEntryPoint(allocator, entry) catch |err| switch (err) {
                spv.Runtime.RuntimeError.OutOfBounds => {},
                else => return err,
            };
            try data.self.syncDescriptorSets(allocator, rt, false);
        }
    }
 }
 fn syncDescriptorSets(self: *Self, allocator: std.mem.Allocator, rt: *spv.Runtime, write: bool) !void {
    sets: for (self.state.sets[0..], 0..) |set, set_index| {
        if (set == null)
            continue :sets;
        bindings: for (set.?.descriptors[0..], 0..) |binding, binding_index| {
            switch (binding) {
                .buffer => |buffer_data| if (buffer_data.object) |buffer| {
                    const memory = if (buffer.interface.memory) |memory| memory else continue :bindings;
                    const map: []u8 = @as([*]u8, @ptrCast(try memory.map(buffer_data.offset, buffer_data.size)))[0..buffer_data.size];
                    if (write) {
                        try rt.writeDescriptorSet(
                            allocator,
                            map,
                            @as(u32, @intCast(set_index)),
                            @as(u32, @intCast(binding_index)),
                        );
                    } else {
                        try rt.readDescriptorSet(
                            map,
                            @as(u32, @intCast(set_index)),
                            @as(u32, @intCast(binding_index)),
                        );
                    }
                },
                else => {},
            }
        }
    }
 }
 fn setupWorkgroupBuiltins(
    self: *Self,
    rt: *spv.Runtime,
    group_count: [3]u32,
    group_id: [3]u32,
 ) spv.Runtime.RuntimeError!void {
    const spv_module = &self.state.pipeline.?.stages.getPtrAssertContains(.compute).module.module;
    const workgroup_size = [3]u32{
        spv_module.local_size_x,
        spv_module.local_size_y,
        spv_module.local_size_z,
    };
    rt.writeBuiltIn(std.mem.asBytes(&workgroup_size), .WorkgroupSize) catch {};
    rt.writeBuiltIn(std.mem.asBytes(&group_count), .NumWorkgroups) catch {};
    rt.writeBuiltIn(std.mem.asBytes(&group_id), .WorkgroupId) catch {};
 }
 fn setupSubgroupBuiltins(
    self: *Self,
    rt: *spv.Runtime,
    group_id: [3]u32,
    local_invocation_index: usize,
 ) spv.Runtime.RuntimeError!void {
    const spv_module = &self.state.pipeline.?.stages.getPtrAssertContains(.compute).module.module;
    const workgroup_size = [3]u32{
        spv_module.local_size_x,
        spv_module.local_size_y,
        spv_module.local_size_z,
    };
    const local_base = [3]u32{
        workgroup_size[0] * group_id[0],
        workgroup_size[1] * group_id[1],
        workgroup_size[2] * group_id[2],
    };
    var local_invocation = [3]u32{ 0, 0, 0 };
    var idx: u32 = @intCast(local_invocation_index);
    local_invocation[2] = @divTrunc(idx, workgroup_size[0] * workgroup_size[1]);
    idx -= local_invocation[2] * workgroup_size[0] * workgroup_size[1];
    local_invocation[1] = @divTrunc(idx, workgroup_size[0]);
    idx -= local_invocation[1] * workgroup_size[0];
    local_invocation[0] = idx;
    const global_invocation_index = [3]u32{
        local_base[0] + local_invocation[0],
        local_base[1] + local_invocation[1],
        local_base[2] + local_invocation[2],
    };
    rt.writeBuiltIn(std.mem.asBytes(&global_invocation_index), .GlobalInvocationId) catch {};
 }
--- a/src/soft/device/Device.zig
+++ b/src/soft/device/Device.zig
@@ -2,8 +2,6 @@ const std = @import("std");
 const vk = @import("vulkan");
 const base = @import("base");
 const copy_routines = @import("copy_routines.zig");
 const SoftDescriptorSet = @import("../SoftDescriptorSet.zig");
 const SoftDevice = @import("../SoftDevice.zig");
 const SoftPipeline = @import("../SoftPipeline.zig");
@@ -11,50 +9,31 @@ const SoftPipeline = @import("../SoftPipeline.zig");
 const ComputeRoutines = @import("ComputeRoutines.zig");
 const PipelineState = @import("PipelineState.zig");
 const cmd = base.commands;
 const VkError = base.VkError;
 const Self = @This();
-compute_routine: ComputeRoutines,
+compute_routines: ComputeRoutines,
 /// .graphics = 0
 /// .compute = 1
 pipeline_states: [2]PipelineState,
-pub fn init(device: *SoftDevice) Self {
+pub const init: Self = .{
-    var self: Self = undefined;
+    .compute_routines = undefined,
    .pipeline_states = undefined,
 };
 pub fn setup(self: *Self, device: *SoftDevice) void {
    for (self.pipeline_states[0..]) |*state| {
        state.* = .{
            .pipeline = null,
            .sets = [_]?*SoftDescriptorSet{null} ** base.VULKAN_MAX_DESCRIPTOR_SETS,
        };
    }
-
+    self.compute_routines = .init(device, &self.pipeline_states[@intFromEnum(vk.PipelineBindPoint.compute)]);
    self.compute_routine = .init(device, &self.pipeline_states[@intFromEnum(vk.PipelineBindPoint.compute)]);
    return self;
 }
 pub fn deinit(self: *Self) void {
-    self.compute_routine.destroy();
+    self.compute_routines.destroy();
 }
 pub fn execute(self: *Self, command: *const cmd.Command) VkError!void {
    switch (command.*) {
        .BindDescriptorSets => |data| {
            for (data.first_set.., data.sets[0..]) |i, set| {
                if (set == null) break;
                self.pipeline_states[@intCast(@intFromEnum(data.bind_point))].sets[i] = @alignCast(@fieldParentPtr("interface", set.?));
            }
        },
        .BindPipeline => |data| self.pipeline_states[@intCast(@intFromEnum(data.bind_point))].pipeline = @alignCast(@fieldParentPtr("interface", data.pipeline)),
        .ClearColorImage => |data| try copy_routines.clearColorImage(&data),
        .CopyBuffer => |data| try copy_routines.copyBuffer(&data),
        .CopyImage => |data| try copy_routines.copyImage(&data),
        .CopyImageToBuffer => |data| try copy_routines.copyImageToBuffer(&data),
        .FillBuffer => |data| try copy_routines.fillBuffer(&data),
        else => {},
    }
 }
--- a/src/soft/device/copy_routines.zig
+++ b/src/soft/device/copy_routines.zig
@@ -1,86 +0,0 @@
 const std = @import("std");
 const vk = @import("vulkan");
 const base = @import("base");
 const cmd = base.commands;
 const VkError = base.VkError;
 const SoftImage = @import("../SoftImage.zig");
 pub fn clearColorImage(data: *const cmd.CommandClearColorImage) VkError!void {
    const soft_image: *SoftImage = @alignCast(@fieldParentPtr("interface", data.image));
    soft_image.clearRange(data.clear_color, data.range);
 }
 pub fn copyBuffer(data: *const cmd.CommandCopyBuffer) VkError!void {
    for (data.regions) |region| {
        const src_memory = if (data.src.memory) |memory| memory else return VkError.ValidationFailed;
        const dst_memory = if (data.dst.memory) |memory| memory else return VkError.ValidationFailed;
        const src_map: []u8 = @as([*]u8, @ptrCast(try src_memory.map(region.src_offset, region.size)))[0..region.size];
        const dst_map: []u8 = @as([*]u8, @ptrCast(try dst_memory.map(region.dst_offset, region.size)))[0..region.size];
        @memcpy(dst_map, src_map);
        src_memory.unmap();
        dst_memory.unmap();
    }
 }
 pub fn copyImage(data: *const cmd.CommandCopyImage) VkError!void {
    _ = data;
    std.log.scoped(.commandExecutor).warn("FIXME: implement image to image copy", .{});
 }
 pub fn copyImageToBuffer(data: *const cmd.CommandCopyImageToBuffer) VkError!void {
    for (data.regions) |region| {
        const src_memory = if (data.src.memory) |memory| memory else return VkError.ValidationFailed;
        const dst_memory = if (data.dst.memory) |memory| memory else return VkError.ValidationFailed;
        const pixel_size: u32 = @intCast(data.src.getPixelSize());
        const image_row_pitch: u32 = data.src.extent.width * pixel_size;
        const image_size: u32 = @intCast(data.src.getTotalSize());
        const buffer_row_length: u32 = if (region.buffer_row_length != 0) region.buffer_row_length else region.image_extent.width;
        const buffer_row_pitch: u32 = buffer_row_length * pixel_size;
        const buffer_size: u32 = buffer_row_pitch * region.image_extent.height * region.image_extent.depth;
        const src_map: []u8 = @as([*]u8, @ptrCast(try src_memory.map(0, image_size)))[0..image_size];
        const dst_map: []u8 = @as([*]u8, @ptrCast(try dst_memory.map(region.buffer_offset, buffer_size)))[0..buffer_size];
        const row_size = region.image_extent.width * pixel_size;
        for (0..data.src.extent.depth) |z| {
            for (0..data.src.extent.height) |y| {
                const z_as_u32: u32 = @intCast(z);
                const y_as_u32: u32 = @intCast(y);
                const src_offset = ((@as(u32, @intCast(region.image_offset.z)) + z_as_u32) * data.src.extent.height + @as(u32, @intCast(region.image_offset.y)) + y_as_u32) * image_row_pitch + @as(u32, @intCast(region.image_offset.x)) * pixel_size;
                const dst_offset = (z_as_u32 * buffer_row_length * region.image_extent.height + y_as_u32 * buffer_row_length) * pixel_size;
                const src_slice = src_map[src_offset..(src_offset + row_size)];
                const dst_slice = dst_map[dst_offset..(dst_offset + row_size)];
                @memcpy(dst_slice, src_slice);
            }
        }
        src_memory.unmap();
        dst_memory.unmap();
    }
 }
 pub fn fillBuffer(data: *const cmd.CommandFillBuffer) VkError!void {
    const memory = if (data.buffer.memory) |memory| memory else return VkError.ValidationFailed;
    var memory_map: []u32 = @as([*]u32, @ptrCast(@alignCast(try memory.map(data.offset, data.size))))[0..data.size];
    var bytes = if (data.size == vk.WHOLE_SIZE) memory.size - data.offset else data.size;
    var i: usize = 0;
    while (bytes >= 4) : ({
        bytes -= 4;
        i += 1;
    }) {
        memory_map[i] = data.data;
    }
    memory.unmap();
 }
--- a/src/vulkan/CommandBuffer.zig
+++ b/src/vulkan/CommandBuffer.zig
@@ -2,8 +2,6 @@ const std = @import("std");
 const vk = @import("vulkan");
 const lib = @import("lib.zig");
 const cmd = @import("commands.zig");
 const NonDispatchable = @import("NonDispatchable.zig").NonDispatchable;
 const VkError = @import("error_set.zig").VkError;
 const VulkanAllocator = @import("VulkanAllocator.zig");
@@ -17,8 +15,6 @@ const Image = @import("Image.zig");
 const Pipeline = @import("Pipeline.zig");
 const DescriptorSet = @import("DescriptorSet.zig");
 const COMMAND_BUFFER_BASE_CAPACITY = 256;
 const State = enum {
    Initial,
    Recording,
@@ -35,7 +31,6 @@ pool: *CommandPool,
 state: State,
 begin_info: ?vk.CommandBufferBeginInfo,
 host_allocator: VulkanAllocator,
 commands: std.ArrayList(cmd.Command),
 state_mutex: std.Thread.Mutex,
 vtable: *const VTable,
@@ -49,6 +44,7 @@ pub const DispatchTable = struct {
    copyBuffer: *const fn (*Self, *Buffer, *Buffer, []const vk.BufferCopy) VkError!void,
    copyImage: *const fn (*Self, *Image, vk.ImageLayout, *Image, vk.ImageLayout, []const vk.ImageCopy) VkError!void,
    copyImageToBuffer: *const fn (*Self, *Image, vk.ImageLayout, *Buffer, []const vk.BufferImageCopy) VkError!void,
    dispatch: *const fn (*Self, u32, u32, u32) VkError!void,
    end: *const fn (*Self) VkError!void,
    fillBuffer: *const fn (*Self, *Buffer, vk.DeviceSize, vk.DeviceSize, u32) VkError!void,
    reset: *const fn (*Self, vk.CommandBufferResetFlags) VkError!void,
@@ -68,7 +64,6 @@ pub fn init(device: *Device, allocator: std.mem.Allocator, info: *const vk.Comma
        .state = .Initial,
        .begin_info = null,
        .host_allocator = VulkanAllocator.from(allocator).cloneWithScope(.object),
        .commands = std.ArrayList(cmd.Command).initCapacity(allocator, COMMAND_BUFFER_BASE_CAPACITY) catch return VkError.OutOfHostMemory,
        .state_mutex = .{},
        .vtable = undefined,
        .dispatch_table = undefined,
@@ -85,8 +80,6 @@ inline fn transitionState(self: *Self, target: State, from_allowed: []const Stat
 }
 pub inline fn destroy(self: *Self, allocator: std.mem.Allocator) void {
    self.cleanCommandList();
    self.commands.deinit(allocator);
    self.vtable.destroy(self, allocator);
 }
@@ -109,7 +102,6 @@ pub inline fn reset(self: *Self, flags: vk.CommandBufferResetFlags) VkError!void
    if (!self.pool.flags.reset_command_buffer_bit) {
        return VkError.ValidationFailed;
    }
    defer self.cleanCommandList();
    self.transitionState(.Initial, &.{ .Initial, .Recording, .Executable, .Invalid }) catch return VkError.ValidationFailed;
    try self.dispatch_table.reset(self, flags);
@@ -124,101 +116,44 @@ pub inline fn submit(self: *Self) VkError!void {
    self.transitionState(.Pending, &.{ .Pending, .Executable }) catch return VkError.ValidationFailed;
 }
 fn cleanCommandList(self: *Self) void {
    const allocator = self.host_allocator.allocator();
    for (self.commands.items) |command| {
        switch (command) {
            .CopyBuffer => |data| allocator.free(data.regions),
            .CopyImage => |data| allocator.free(data.regions),
            .CopyImageToBuffer => |data| allocator.free(data.regions),
            else => {},
        }
    }
 }
 // Commands ====================================================================================================
 pub inline fn bindDescriptorSets(self: *Self, bind_point: vk.PipelineBindPoint, first_set: u32, sets: []const vk.DescriptorSet, dynamic_offsets: []const u32) VkError!void {
    const allocator = self.host_allocator.allocator();
    var inner_sets = [_]?*DescriptorSet{null} ** lib.VULKAN_MAX_DESCRIPTOR_SETS;
    for (sets, inner_sets[0..sets.len]) |set, *inner_set| {
        inner_set.* = try NonDispatchable(DescriptorSet).fromHandleObject(set);
    }
    try self.dispatch_table.bindDescriptorSets(self, bind_point, first_set, inner_sets, dynamic_offsets);
    self.commands.append(allocator, .{ .BindDescriptorSets = .{
        .bind_point = bind_point,
        .first_set = first_set,
        .sets = inner_sets,
        .dynamic_offsets = dynamic_offsets,
    } }) catch return VkError.OutOfHostMemory;
 }
 pub inline fn bindPipeline(self: *Self, bind_point: vk.PipelineBindPoint, pipeline: *Pipeline) VkError!void {
    const allocator = self.host_allocator.allocator();
    try self.dispatch_table.bindPipeline(self, bind_point, pipeline);
    self.commands.append(allocator, .{ .BindPipeline = .{
        .bind_point = bind_point,
        .pipeline = pipeline,
    } }) catch return VkError.OutOfHostMemory;
 }
 pub inline fn clearColorImage(self: *Self, image: *Image, layout: vk.ImageLayout, color: *const vk.ClearColorValue, ranges: []const vk.ImageSubresourceRange) VkError!void {
    const allocator = self.host_allocator.allocator();
    for (ranges) |range| {
        try self.dispatch_table.clearColorImage(self, image, layout, color, range);
        self.commands.append(allocator, .{ .ClearColorImage = .{
            .image = image,
            .layout = layout,
            .clear_color = color.*,
            .range = range,
        } }) catch return VkError.OutOfHostMemory;
    }
 }
 pub inline fn copyBuffer(self: *Self, src: *Buffer, dst: *Buffer, regions: []const vk.BufferCopy) VkError!void {
    const allocator = self.host_allocator.allocator();
    try self.dispatch_table.copyBuffer(self, src, dst, regions);
    self.commands.append(allocator, .{ .CopyBuffer = .{
        .src = src,
        .dst = dst,
        .regions = allocator.dupe(vk.BufferCopy, regions) catch return VkError.OutOfHostMemory,
    } }) catch return VkError.OutOfHostMemory;
 }
 pub inline fn copyImage(self: *Self, src: *Image, src_layout: vk.ImageLayout, dst: *Image, dst_layout: vk.ImageLayout, regions: []const vk.ImageCopy) VkError!void {
    const allocator = self.host_allocator.allocator();
    try self.dispatch_table.copyImage(self, src, src_layout, dst, dst_layout, regions);
    self.commands.append(allocator, .{ .CopyImage = .{
        .src = src,
        .src_layout = src_layout,
        .dst = dst,
        .dst_layout = dst_layout,
        .regions = allocator.dupe(vk.ImageCopy, regions) catch return VkError.OutOfHostMemory,
    } }) catch return VkError.OutOfHostMemory;
 }
 pub inline fn copyImageToBuffer(self: *Self, src: *Image, src_layout: vk.ImageLayout, dst: *Buffer, regions: []const vk.BufferImageCopy) VkError!void {
    const allocator = self.host_allocator.allocator();
    try self.dispatch_table.copyImageToBuffer(self, src, src_layout, dst, regions);
-    self.commands.append(allocator, .{ .CopyImageToBuffer = .{
+}
-        .src = src,
+
-        .src_layout = src_layout,
+pub inline fn dispatch(self: *Self, group_count_x: u32, group_count_y: u32, group_count_z: u32) VkError!void {
-        .dst = dst,
+    try self.dispatch_table.dispatch(self, group_count_x, group_count_y, group_count_z);
        .regions = allocator.dupe(vk.BufferImageCopy, regions) catch return VkError.OutOfHostMemory,
    } }) catch return VkError.OutOfHostMemory;
 }
 pub inline fn fillBuffer(self: *Self, buffer: *Buffer, offset: vk.DeviceSize, size: vk.DeviceSize, data: u32) VkError!void {
    const allocator = self.host_allocator.allocator();
    try self.dispatch_table.fillBuffer(self, buffer, offset, size, data);
    self.commands.append(allocator, .{ .FillBuffer = .{
        .buffer = buffer,
        .offset = offset,
        .size = if (size == vk.WHOLE_SIZE) buffer.size else size,
        .data = data,
    } }) catch return VkError.OutOfHostMemory;
 }
 pub inline fn resetEvent(self: *Self, event: *Event, stage: vk.PipelineStageFlags) VkError!void {
--- a/src/vulkan/Dispatchable.zig
+++ b/src/vulkan/Dispatchable.zig
@@ -47,11 +47,11 @@ pub fn Dispatchable(comptime T: type) type {
        pub inline fn fromHandle(vk_handle: anytype) VkError!*Self {
            const handle = @intFromEnum(vk_handle);
            if (handle == 0) {
-                return VkError.ValidationFailed;
+                return VkError.InvalidHandleDrv;
            }
            const dispatchable: *Self = @ptrFromInt(handle);
            if (dispatchable.object_type != T.ObjectType) {
-                return VkError.ValidationFailed;
+                return VkError.InvalidHandleDrv;
            }
            return dispatchable;
        }
--- a/src/vulkan/Image.zig
+++ b/src/vulkan/Image.zig
@@ -79,11 +79,11 @@ pub inline fn getClearFormat(self: *Self) vk.Format {
        .r32g32b32a32_sfloat;
 }
-pub inline fn getPixelSize(self: *Self) usize {
+pub inline fn getPixelSize(self: *const Self) usize {
    return lib.vku.vkuFormatTexelBlockSize(@intCast(@intFromEnum(self.format)));
 }
-pub inline fn getTotalSize(self: *Self) usize {
+pub inline fn getTotalSize(self: *const Self) usize {
    const pixel_size = self.getPixelSize();
    return self.extent.width * self.extent.height * self.extent.depth * pixel_size;
 }
@@ -92,7 +92,7 @@ pub inline fn getFormatPixelSize(format: vk.Format) usize {
    return lib.vku.vkuFormatTexelBlockSize(@intCast(@intFromEnum(format)));
 }
-pub inline fn getFormatTotalSize(self: *Self, format: vk.Format) usize {
+pub inline fn getFormatTotalSize(self: *const Self, format: vk.Format) usize {
    const pixel_size = self.getFormatPixelSize(format);
    return self.extent.width * self.extent.height * self.extent.depth * pixel_size;
 }
--- a/src/vulkan/NonDispatchable.zig
+++ b/src/vulkan/NonDispatchable.zig
@@ -42,11 +42,11 @@ pub fn NonDispatchable(comptime T: type) type {
        pub inline fn fromHandle(vk_handle: anytype) VkError!*Self {
            const handle = @intFromEnum(vk_handle);
            if (handle == 0) {
-                return VkError.ValidationFailed;
+                return VkError.InvalidHandleDrv;
            }
            const non_dispatchable: *Self = @ptrFromInt(handle);
            if (non_dispatchable.object_type != T.ObjectType) {
-                return VkError.ValidationFailed;
+                return VkError.InvalidHandleDrv;
            }
            return non_dispatchable;
        }
--- a/src/vulkan/commands.zig
+++ b/src/vulkan/commands.zig
@@ -1,94 +0,0 @@
 const std = @import("std");
 const vk = @import("vulkan");
 const lib = @import("lib.zig");
 const Buffer = @import("Buffer.zig");
 const Image = @import("Image.zig");
 const Pipeline = @import("Pipeline.zig");
 const DescriptorSet = @import("DescriptorSet.zig");
 pub const CommandBindDescriptorSets = struct {
    bind_point: vk.PipelineBindPoint,
    first_set: u32,
    sets: [lib.VULKAN_MAX_DESCRIPTOR_SETS]?*DescriptorSet,
    dynamic_offsets: []const u32,
 };
 pub const CommandBindPipeline = struct {
    bind_point: vk.PipelineBindPoint,
    pipeline: *Pipeline,
 };
 pub const CommandBindVertexBuffer = struct {
    buffers: []*const Buffer,
    offsets: []vk.DeviceSize,
    first_binding: u32,
 };
 pub const CommandClearColorImage = struct {
    image: *Image,
    layout: vk.ImageLayout,
    clear_color: vk.ClearColorValue,
    range: vk.ImageSubresourceRange,
 };
 pub const CommandCopyBuffer = struct {
    src: *Buffer,
    dst: *Buffer,
    regions: []const vk.BufferCopy,
 };
 pub const CommandCopyImage = struct {
    src: *Image,
    src_layout: vk.ImageLayout,
    dst: *Image,
    dst_layout: vk.ImageLayout,
    regions: []const vk.ImageCopy,
 };
 pub const CommandCopyImageToBuffer = struct {
    src: *Image,
    src_layout: vk.ImageLayout,
    dst: *Buffer,
    regions: []const vk.BufferImageCopy,
 };
 pub const CommandDraw = struct {
    vertex_count: u32,
    instance_count: u32,
    first_vertex: u32,
    first_instance: u32,
 };
 pub const CommandDrawIndexed = struct {
    index_count: u32,
    instance_count: u32,
    first_index: u32,
    vertex_offset: i32,
    first_instance: u32,
 };
 pub const CommandDrawIndexedIndirect = struct {
    buffer: *Buffer,
    offset: vk.DeviceSize,
    count: u32,
    stride: u32,
 };
 pub const CommandDrawIndirect = struct {
    buffer: *Buffer,
    offset: vk.DeviceSize,
    count: u32,
    stride: u32,
 };
 pub const CommandFillBuffer = struct {
    buffer: *Buffer,
    offset: vk.DeviceSize,
    size: vk.DeviceSize,
    data: u32,
 };
 pub const Command = union(enum) {
    BindDescriptorSets: CommandBindDescriptorSets,
    BindPipeline: CommandBindPipeline,
    BindVertexBuffer: CommandBindVertexBuffer,
    ClearColorImage: CommandClearColorImage,
    CopyBuffer: CommandCopyBuffer,
    CopyImage: CommandCopyImage,
    CopyImageToBuffer: CommandCopyImageToBuffer,
    Draw: CommandDraw,
    DrawIndexed: CommandDrawIndexed,
    DrawIndexedIndirect: CommandDrawIndexedIndirect,
    DrawIndirect: CommandDrawIndirect,
    FillBuffer: CommandFillBuffer,
 };
--- a/src/vulkan/error_set.zig
+++ b/src/vulkan/error_set.zig
@@ -50,6 +50,10 @@ pub const VkError = error{
    IncompatibleShaderBinaryExt,
    PipelineBinaryMissingKhr,
    NotEnoughSpaceKhr,
    // ====== Internal errors
    InvalidHandleDrv,
    InvalidPipelineDrv,
    InvalidDeviceMemoryDrv,
 };
 pub inline fn errorLogger(err: VkError) void {
@@ -80,7 +84,6 @@ pub inline fn toVkResult(err: VkError) vk.Result {
        VkError.TooManyObjects => .error_too_many_objects,
        VkError.FormatNotSupported => .error_format_not_supported,
        VkError.FragmentedPool => .error_fragmented_pool,
        VkError.Unknown => .error_unknown,
        VkError.ValidationFailed => .error_validation_failed,
        VkError.OutOfPoolMemory => .error_out_of_pool_memory,
        VkError.InvalidExternalHandle => .error_invalid_external_handle,
@@ -111,5 +114,7 @@ pub inline fn toVkResult(err: VkError) vk.Result {
        VkError.IncompatibleShaderBinaryExt => .incompatible_shader_binary_ext,
        VkError.PipelineBinaryMissingKhr => .pipeline_binary_missing_khr,
        VkError.NotEnoughSpaceKhr => .error_not_enough_space_khr,
        VkError.InvalidHandleDrv => .error_validation_failed,
        else => .error_unknown,
    };
 }
--- a/src/vulkan/lib.zig
+++ b/src/vulkan/lib.zig
@@ -7,7 +7,6 @@ pub const vku = @cImport({
    @cInclude("vulkan/utility/vk_format_utils.h");
 });
 pub const commands = @import("commands.zig");
 pub const errors = @import("error_set.zig");
 pub const lib_vulkan = @import("lib_vulkan.zig");
 pub const logger = @import("logger/logger.zig");
--- a/src/vulkan/lib_vulkan.zig
+++ b/src/vulkan/lib_vulkan.zig
@@ -1429,7 +1429,7 @@ pub export fn strollGetPipelineCacheData(p_device: vk.Device, p_cache: vk.Pipeli
    _ = size;
    _ = data;
-    return .error_unknown;
+    return .success;
 }
 pub export fn strollGetQueryPoolResults(
@@ -1699,7 +1699,7 @@ pub export fn strollCmdBindPipeline(p_cmd: vk.CommandBuffer, bind_point: vk.Pipe
    defer entryPointEndLogTrace();
    const cmd = Dispatchable(CommandBuffer).fromHandleObject(p_cmd) catch |err| return errorLogger(err);
-    const pipeline = Dispatchable(Pipeline).fromHandleObject(p_pipeline) catch |err| return errorLogger(err);
+    const pipeline = NonDispatchable(Pipeline).fromHandleObject(p_pipeline) catch |err| return errorLogger(err);
    cmd.bindPipeline(bind_point, pipeline) catch |err| return errorLogger(err);
 }
@@ -1860,13 +1860,7 @@ pub export fn strollCmdDispatch(p_cmd: vk.CommandBuffer, group_count_x: u32, gro
    defer entryPointEndLogTrace();
    const cmd = Dispatchable(CommandBuffer).fromHandleObject(p_cmd) catch |err| return errorLogger(err);
-
+    cmd.dispatch(group_count_x, group_count_y, group_count_z) catch |err| return errorLogger(err);
    notImplementedWarning();
    _ = cmd;
    _ = group_count_x;
    _ = group_count_y;
    _ = group_count_z;
 }
 pub export fn strollCmdDispatchIndirect(p_cmd: vk.CommandBuffer, p_buffer: vk.Buffer, offset: vk.DeviceSize) callconv(vk.vulkan_call_conv) void {