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fixup! direct copy vulkan-zig example

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David Allemang
2024-03-27 10:57:34 -04:00
parent 6763d9a73a
commit 4413e242fd
1 changed files with 0 additions and 439 deletions
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439
src/Context.zig
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@@ -1,439 +0,0 @@
const Self = @This();
const std = @import("std");
const c = @import("c.zig");
const vk = @import("vk");
const builtin = @import("builtin");
const USE_DEBUG_LAYERS = switch (builtin.mode) {
.ReleaseSafe, .Debug => true,
.ReleaseSmall, .ReleaseFast => false,
};
const MAX_DEVICES = 16;
const MAX_DEVICE_EXTENSIONS = 512;
const MAX_INSTANCE_EXTENSIONS = 64;
const MAX_LAYERS = 512;
vkb: BaseDispatch,
vki: InstanceDispatch,
vkd: DeviceDispatch,
instance: vk.Instance,
device: vk.Device,
queues: struct {
graphics: vk.Queue,
present: vk.Queue,
},
surface: vk.SurfaceKHR,
messenger: if (USE_DEBUG_LAYERS) vk.DebugUtilsMessengerEXT else void,
fn Enumeration(comptime T: type, comptime cap: u32) type {
return struct {
buf: [cap]T = undefined,
len: u32 = 0,
const FULL: @This() = .{ .len = cap };
const EMPTY: @This() = .{ .len = 0 };
pub fn slice(self: anytype) switch (@TypeOf(&self.buf)) {
*[cap]T => []T,
*const [cap]T => []const T,
else => unreachable,
} {
return self.buf[0..self.len];
}
pub fn appendSlice(self: *@This(), source: []const T) !void {
if (self.len + source.len > cap) return error.Overflow;
@memcpy(self.buf[self.len..][0..source.len], source);
self.len += @intCast(source.len);
}
pub fn append(self: *@This(), val: T) !void {
if (self.len + 1 > cap) return error.Overflow;
self.buf[self.len] = val;
self.len += 1;
}
};
}
pub fn init(window: *c.GLFWwindow) !Self {
var self: Self = undefined;
self.vkb = try BaseDispatch.load(&c.glfwGetInstanceProcAddress);
const vkb = self.vkb;
var req_exts = Enumeration([*:0]const u8, MAX_INSTANCE_EXTENSIONS).EMPTY;
var req_layers = Enumeration([*:0]const u8, MAX_LAYERS).EMPTY;
var req_dev_exts = Enumeration([*:0]const u8, MAX_DEVICE_EXTENSIONS).EMPTY;
try req_dev_exts.append(vk.extension_info.khr_swapchain.name);
if (USE_DEBUG_LAYERS) {
try req_layers.append("VK_LAYER_KHRONOS_validation");
try req_exts.append(vk.extension_info.ext_debug_utils.name);
}
{
var glfw_ext_count: u32 = 0;
const glfw_exts: [*][*:0]const u8 = @ptrCast(c.glfwGetRequiredInstanceExtensions(&glfw_ext_count));
try req_exts.appendSlice(glfw_exts[0..glfw_ext_count]);
}
std.log.debug("requesting extensions: {s}", .{req_exts.slice()});
std.log.debug("requesting layers: {s}", .{req_layers.slice()});
std.log.debug("requesting device extensions: {s}", .{req_dev_exts.slice()});
var available_exts = Enumeration(vk.ExtensionProperties, MAX_INSTANCE_EXTENSIONS).FULL;
_ = try vkb.enumerateInstanceExtensionProperties(
null,
&available_exts.len,
&available_exts.buf,
);
var available_layers = Enumeration(vk.LayerProperties, MAX_LAYERS).FULL;
_ = try vkb.enumerateInstanceLayerProperties(
&available_layers.len,
&available_layers.buf,
);
for (req_exts.slice()) |name| {
const required_name = std.mem.sliceTo(name, 0);
for (available_exts.slice()) |prop| {
const available_name = std.mem.sliceTo(&prop.extension_name, 0);
if (std.mem.eql(u8, required_name, available_name)) break;
} else {
return error.ExtensionNotPresent;
}
}
for (req_layers.slice()) |name| {
const required_name = std.mem.sliceTo(name, 0);
for (available_layers.slice()) |prop| {
const available_name = std.mem.sliceTo(&prop.layer_name, 0);
if (std.mem.eql(u8, required_name, available_name)) break;
} else {
return error.LayerNotPresent;
}
}
const debug_create_info = vk.DebugUtilsMessengerCreateInfoEXT{
.message_severity = vk.DebugUtilsMessageSeverityFlagsEXT{
.verbose_bit_ext = false,
.warning_bit_ext = true,
.error_bit_ext = true,
.info_bit_ext = false,
},
.message_type = vk.DebugUtilsMessageTypeFlagsEXT{
.general_bit_ext = true,
.validation_bit_ext = true,
.performance_bit_ext = true,
.device_address_binding_bit_ext = false,
},
.pfn_user_callback = &debug_callback,
.p_user_data = null,
};
const app_info = vk.ApplicationInfo{
.p_application_name = "Hello World",
.application_version = vk.makeApiVersion(0, 0, 0, 0),
.p_engine_name = "No Engine",
.engine_version = vk.makeApiVersion(0, 0, 0, 0),
.api_version = vk.API_VERSION_1_3,
};
const instance_create_info = vk.InstanceCreateInfo{
.p_application_info = &app_info,
.enabled_extension_count = req_exts.len,
.pp_enabled_extension_names = &req_exts.buf,
.enabled_layer_count = req_layers.len,
.pp_enabled_layer_names = &req_layers.buf,
.p_next = if (USE_DEBUG_LAYERS) &debug_create_info else null,
};
self.instance = try vkb.createInstance(&instance_create_info, null);
self.vki = try InstanceDispatch.load(self.instance, vkb.dispatch.vkGetInstanceProcAddr);
const vki = self.vki;
errdefer vki.destroyInstance(self.instance, null);
if (USE_DEBUG_LAYERS) self.messenger = try vki.createDebugUtilsMessengerEXT(
self.instance,
&debug_create_info,
null,
);
errdefer if (USE_DEBUG_LAYERS) vki.destroyDebugUtilsMessengerEXT(
self.instance,
self.messenger,
null,
);
switch (c.glfwCreateWindowSurface(
self.instance,
window,
null,
&self.surface,
)) {
.success => {},
else => |e| {
std.log.err("{}", .{e});
return error.Unknown;
},
}
errdefer vki.destroySurfaceKHR(self.instance, self.surface, null);
var devices = Enumeration(vk.PhysicalDevice, MAX_DEVICES).FULL;
_ = try vki.enumeratePhysicalDevices(
self.instance,
&devices.len,
&devices.buf,
);
// todo some ranking strategy to find the most-suitable device
const Selection = struct {
device: vk.PhysicalDevice,
props: vk.PhysicalDeviceProperties,
feats: vk.PhysicalDeviceFeatures,
};
const selected: Selection = find_device: for (devices.slice()) |device| {
const props = vki.getPhysicalDeviceProperties(device);
const feats = vki.getPhysicalDeviceFeatures(device);
if (props.device_type != vk.PhysicalDeviceType.discrete_gpu) continue;
// if (feats.geometry_shader == vk.FALSE) continue;
var available_dev_exts = Enumeration(vk.ExtensionProperties, MAX_DEVICE_EXTENSIONS).FULL;
_ = try vki.enumerateDeviceExtensionProperties(
device,
null,
&available_dev_exts.len,
&available_dev_exts.buf,
);
for (req_dev_exts.slice()) |name| {
const required_name = std.mem.sliceTo(name, 0);
for (available_dev_exts.slice()) |prop| {
const available_name = std.mem.sliceTo(&prop.extension_name, 0);
if (std.mem.eql(u8, required_name, available_name)) break;
} else {
std.log.warn("cannot find {s}\n", .{required_name});
continue :find_device;
}
}
break .{
.device = device,
.props = props,
.feats = feats,
};
} else {
return error.NoSuitablePhysicalDevice;
};
var queue_families = Enumeration(vk.QueueFamilyProperties, 64).FULL;
vki.getPhysicalDeviceQueueFamilyProperties(
selected.device,
&queue_families.len,
&queue_families.buf,
);
// todo this should be incorporated with physical device selection/ranking.
const Indices = struct {
graphics: u32,
present: u32,
};
const indices: Indices = find_index: {
var graphics: ?u32 = null;
var present: ?u32 = null;
for (queue_families.slice(), 0..) |prop, idx| {
if (graphics == null and prop.queue_flags.graphics_bit) {
graphics = @intCast(idx);
// continue; // forces distinct queue families
}
if (present == null) {
const present_support = try vki.getPhysicalDeviceSurfaceSupportKHR(
selected.device,
@intCast(idx),
self.surface,
) == vk.TRUE;
if (present_support) {
present = @intCast(idx);
}
}
if (graphics != null and present != null) {
break :find_index .{
.graphics = graphics.?,
.present = present.?,
};
}
}
return error.IncompatibleDeviceQueues;
};
const gp_priorities = [_]f32{ 1.0, 1.0 };
var queue_create_infos = Enumeration(vk.DeviceQueueCreateInfo, 2).EMPTY;
// queue info family indices must be unique. so if the graphics and present queues are the same, create two queues
// in the same family. otherwise create queues in separate families. there should probably be some general way to
// group and unpack the queues, but I'm not bothering with that for now until I restructure this monolithic function
// in general.
if (indices.graphics == indices.present) {
const gp_slice = gp_priorities[0..2];
try queue_create_infos.append(.{
.queue_family_index = indices.graphics,
.queue_count = @intCast(gp_slice.len),
.p_queue_priorities = gp_slice.ptr,
});
} else {
const g_slice = gp_priorities[0..1];
const p_slice = gp_priorities[1..2];
try queue_create_infos.append(.{
.queue_family_index = indices.graphics,
.queue_count = @intCast(g_slice.len),
.p_queue_priorities = g_slice.ptr,
});
try queue_create_infos.append(.{
.queue_family_index = indices.present,
.queue_count = @intCast(p_slice.len),
.p_queue_priorities = p_slice.ptr,
});
}
const device_create_info = vk.DeviceCreateInfo{
.queue_create_info_count = queue_create_infos.len,
.p_queue_create_infos = &queue_create_infos.buf,
.p_enabled_features = &selected.feats,
.enabled_extension_count = req_dev_exts.len,
.pp_enabled_extension_names = &req_dev_exts.buf,
.enabled_layer_count = req_layers.len,
.pp_enabled_layer_names = &req_layers.buf,
};
self.device = try vki.createDevice(
selected.device,
&device_create_info,
null,
);
self.vkd = try DeviceDispatch.load(self.device, vki.dispatch.vkGetDeviceProcAddr);
const vkd = self.vkd;
errdefer vkd.destroyDevice(self.device, null);
if (indices.graphics == indices.present) {
// two queues in the same family
self.queues = .{
.graphics = vkd.getDeviceQueue(self.device, indices.graphics, 0),
.present = vkd.getDeviceQueue(self.device, indices.present, 1),
};
} else {
// queues from different families
self.queues = .{
.graphics = vkd.getDeviceQueue(self.device, indices.graphics, 0),
.present = vkd.getDeviceQueue(self.device, indices.present, 0),
};
}
return self;
}
pub fn deinit(self: Self) void {
self.vki.destroySurfaceKHR(self.instance, self.surface, null);
self.vkd.destroyDevice(self.device, null);
if (USE_DEBUG_LAYERS) self.vki.destroyDebugUtilsMessengerEXT(
self.instance,
self.messenger,
null,
);
self.vki.destroyInstance(self.instance, null);
}
export fn debug_callback(
message_severity: vk.DebugUtilsMessageSeverityFlagsEXT,
message_type: vk.DebugUtilsMessageTypeFlagsEXT,
p_callback_data: ?*const vk.DebugUtilsMessengerCallbackDataEXT,
_: ?*anyopaque,
) callconv(.C) vk.Bool32 {
if (p_callback_data == null) return vk.FALSE;
if (p_callback_data.?.p_message == null) return vk.FALSE;
const msg = p_callback_data.?.p_message.?;
const scopes = .{
"validation",
"performance",
"device_address_binding",
"general",
};
const scope: []const u8 = inline for (scopes) |tag| {
if (@field(message_type, tag ++ "_bit_ext")) {
break tag;
}
} else {
return vk.FALSE;
};
const levels = .{
"error",
"info",
"warning",
"verbose",
};
const level: []const u8 = inline for (levels) |tag| {
if (@field(message_severity, tag ++ "_bit_ext")) {
break tag;
}
} else {
return vk.FALSE;
};
// ripped from std.log, but with my own levels and scope.
const stderr = std.io.getStdErr().writer();
var bw = std.io.bufferedWriter(stderr);
const writer = bw.writer();
std.debug.getStderrMutex().lock();
defer std.debug.getStderrMutex().unlock();
nosuspend {
writer.print("vk-{s}({s}): {s}\n", .{ level, scope, msg }) catch return vk.FALSE;
bw.flush() catch return vk.FALSE;
}
return vk.FALSE;
}
const BaseDispatch = vk.BaseWrapper(.{
.createInstance = true,
.getInstanceProcAddr = true,
.enumerateInstanceExtensionProperties = true,
.enumerateInstanceLayerProperties = true,
});
const InstanceDispatch = vk.InstanceWrapper(.{
.destroyInstance = true,
.createDebugUtilsMessengerEXT = USE_DEBUG_LAYERS,
.destroyDebugUtilsMessengerEXT = USE_DEBUG_LAYERS,
.submitDebugUtilsMessageEXT = USE_DEBUG_LAYERS,
.enumeratePhysicalDevices = true,
.getPhysicalDeviceProperties = true,
.getPhysicalDeviceFeatures = true,
.getPhysicalDeviceQueueFamilyProperties = true,
.createDevice = true,
.getDeviceProcAddr = true,
.destroySurfaceKHR = true,
.getPhysicalDeviceSurfaceSupportKHR = true,
.enumerateDeviceExtensionProperties = true,
});
const DeviceDispatch = vk.DeviceWrapper(.{
.destroyDevice = true,
.getDeviceQueue = true,
});