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adding device memory support, fences base

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kbz_8
2025-11-09 00:34:52 +01:00
parent 4b23abe795
commit e89d1ff8d9
14 changed files with 381 additions and 27 deletions
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16
src/soft/Device.zig → src/soft/SoftDevice.zig
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@@ -1,6 +1,6 @@
const std = @import("std");
const vk = @import("vulkan");
const Instance = @import("Instance.zig");
const SoftDeviceMemory = @import("SoftDeviceMemory.zig");
const base = @import("base");
const VkError = base.VkError;
@@ -9,6 +9,7 @@ const Self = @This();
pub const Interface = base.Device;
interface: Interface,
device_allocator: std.heap.ThreadSafeAllocator,
pub fn create(physical_device: *base.PhysicalDevice, allocator: std.mem.Allocator, infos: *const vk.DeviceCreateInfo) VkError!*Self {
const self = allocator.create(Self) catch return VkError.OutOfHostMemory;
@@ -17,16 +18,29 @@ pub fn create(physical_device: *base.PhysicalDevice, allocator: std.mem.Allocato
var interface = try Interface.init(allocator, physical_device, infos);
interface.dispatch_table = &.{
.allocateMemory = allocateMemory,
.freeMemory = freeMemory,
.destroy = destroy,
};
self.* = .{
.interface = interface,
.device_allocator = .{ .child_allocator = std.heap.c_allocator }, // TODO: better device allocator base
};
return self;
}
pub fn allocateMemory(interface: *Interface, allocator: std.mem.Allocator, infos: *const vk.MemoryAllocateInfo) VkError!*base.DeviceMemory {
const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
const device_memory = try SoftDeviceMemory.create(self, allocator, infos.allocation_size, infos.memory_type_index);
return &device_memory.interface;
}
pub fn destroy(interface: *Interface, allocator: std.mem.Allocator) VkError!void {
const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
allocator.destroy(self);
}
pub fn freeMemory(_: *Interface, allocator: std.mem.Allocator, device_memory: *base.DeviceMemory) VkError!void {
device_memory.destroy(allocator);
}

49
src/soft/SoftDeviceMemory.zig git.filemode.normal_file
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@@ -0,0 +1,49 @@
const std = @import("std");
const vk = @import("vulkan");
const SoftDevice = @import("SoftDevice.zig");
const base = @import("base");
const VkError = base.VkError;
const Self = @This();
pub const Interface = base.DeviceMemory;
interface: Interface,
data: []u8,
pub fn create(device: *SoftDevice, allocator: std.mem.Allocator, size: vk.DeviceSize, memory_type_index: u32) VkError!*Self {
const self = allocator.create(Self) catch return VkError.OutOfHostMemory;
errdefer allocator.destroy(self);
var interface = try Interface.init(&device.interface, size, memory_type_index);
interface.vtable = &.{
.destroy = destroy,
.map = map,
.unmap = unmap,
};
self.* = .{
.interface = interface,
.data = device.device_allocator.allocator().alignedAlloc(u8, std.mem.Alignment.@"16", size) catch return VkError.OutOfDeviceMemory,
};
return self;
}
pub fn destroy(interface: *Interface, allocator: std.mem.Allocator) void {
const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
allocator.destroy(self);
}
pub fn map(interface: *Interface, offset: vk.DeviceSize, size: vk.DeviceSize) VkError!?*anyopaque {
const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
if (offset >= self.data.len or (size != vk.WHOLE_SIZE and offset + size > self.data.len)) {
return VkError.MemoryMapFailed;
}
interface.is_mapped = true;
return @ptrCast(&self.data[offset]);
}
pub fn unmap(interface: *Interface) void {
interface.is_mapped = false;
}

83
src/soft/SoftFence.zig git.filemode.normal_file
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@@ -0,0 +1,83 @@
const std = @import("std");
const vk = @import("vulkan");
const base = @import("base");
const VkError = base.VkError;
const Device = base.Device;
const Self = @This();
pub const Interface = base.Fence;
interface: Interface,
mutex: std.Thread.Mutex,
condition: std.Thread.Condition,
is_signaled: bool,
pub fn create(device: *const Device, allocator: std.mem.Allocator, info: *const vk.FenceCreateInfo) VkError!*Self {
const self = allocator.create(Self) catch return VkError.OutOfHostMemory;
errdefer allocator.destroy(self);
var interface = try Interface.init(device, info);
interface.vtable = &.{
.destroy = destroy,
.getStatus = getStatus,
.reset = reset,
.signal = signal,
.wait = wait,
};
self.* = .{
.interface = interface,
.mutex = std.Thread.Mutex{},
.condition = std.Thread.Condition{},
.is_signaled = info.flags.signaled_bit,
};
return self;
}
pub fn destroy(interface: *Interface, allocator: std.mem.Allocator) void {
const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
allocator.destroy(self);
}
pub fn getStatus(interface: *Interface) VkError!void {
const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
self.mutex.lock();
defer self.mutex.unlock();
if (!self.is_signaled) {
return VkError.NotReady;
}
}
pub fn reset(interface: *Interface) VkError!void {
const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
self.mutex.lock();
defer self.mutex.unlock();
self.is_signaled = false;
}
pub fn signal(interface: *Interface) VkError!void {
const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
{
self.mutex.lock();
defer self.mutex.unlock();
self.is_signaled = true;
}
self.condition.broadcast();
}
pub fn wait(interface: *Interface, timeout: u64) VkError!void {
const self: *Self = @alignCast(@fieldParentPtr("interface", interface));
if (self.is_signaled) return;
if (timeout == 0) return VkError.Timeout;
self.mutex.lock();
defer self.mutex.unlock();
if (timeout == std.math.maxInt(@TypeOf(timeout))) {
self.condition.wait(self.mutex);
} else {
self.condition.timedWait(self.mutex, timeout) catch return VkError.Timeout;
}
}

6
src/soft/Instance.zig → src/soft/SoftInstance.zig
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@@ -1,7 +1,7 @@
const std = @import("std");
const vk = @import("vulkan");
const base = @import("base");
const PhysicalDevice = @import("PhysicalDevice.zig");
const SoftPhysicalDevice = @import("SoftPhysicalDevice.zig");
const Dispatchable = base.Dispatchable;
@@ -27,9 +27,9 @@ pub fn create(allocator: std.mem.Allocator, infos: *const vk.InstanceCreateInfo)
fn requestPhysicalDevices(interface: *Interface, allocator: std.mem.Allocator) VkError!void {
// Software driver only has one physical device (the CPU)
const physical_device = try PhysicalDevice.create(allocator, interface);
const physical_device = try SoftPhysicalDevice.create(allocator, interface);
errdefer physical_device.interface.releasePhysicalDevice(allocator) catch {};
interface.physical_devices.append(allocator, try Dispatchable(PhysicalDevice.Interface).wrap(allocator, &physical_device.interface)) catch return VkError.OutOfHostMemory;
interface.physical_devices.append(allocator, try Dispatchable(SoftPhysicalDevice.Interface).wrap(allocator, &physical_device.interface)) catch return VkError.OutOfHostMemory;
}
fn releasePhysicalDevices(interface: *Interface, allocator: std.mem.Allocator) VkError!void {

7
src/soft/PhysicalDevice.zig → src/soft/SoftPhysicalDevice.zig
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@@ -4,8 +4,7 @@ const base = @import("base");
const root = @import("lib.zig");
const cpuinfo = @import("cpuinfo");
const Device = @import("Device.zig");
const Instance = @import("Instance.zig");
const SoftDevice = @import("SoftDevice.zig");
const VkError = base.VkError;
@@ -90,8 +89,8 @@ pub fn create(allocator: std.mem.Allocator, instance: *const base.Instance) VkEr
return self;
}
pub fn createDevice(interface: *Interface, allocator: std.mem.Allocator, infos: *const vk.DeviceCreateInfo) VkError!*Device.Interface {
const device = try Device.create(interface, allocator, infos);
pub fn createDevice(interface: *Interface, allocator: std.mem.Allocator, infos: *const vk.DeviceCreateInfo) VkError!*SoftDevice.Interface {
const device = try SoftDevice.create(interface, allocator, infos);
return &device.interface;
}

9
src/soft/lib.zig
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@@ -2,9 +2,12 @@ const std = @import("std");
const vk = @import("vulkan");
pub const base = @import("base");
pub const Instance = @import("Instance.zig");
const Device = @import("Device.zig");
const PhysicalDevice = @import("PhysicalDevice.zig");
pub const SoftInstance = @import("SoftInstance.zig");
pub const SoftDevice = @import("SoftDevice.zig");
pub const SoftDeviceMemory = @import("SoftDeviceMemory.zig");
pub const SoftPhysicalDevice = @import("SoftPhysicalDevice.zig");
pub const Instance = SoftInstance;
pub const DRIVER_LOGS_ENV_NAME = base.DRIVER_LOGS_ENV_NAME;
pub const DRIVER_NAME = "Soft";

58
src/vulkan/Device.zig
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@@ -3,6 +3,8 @@ const vk = @import("vulkan");
const VkError = @import("error_set.zig").VkError;
const PhysicalDevice = @import("PhysicalDevice.zig");
const DeviceMemory = @import("DeviceMemory.zig");
const Fence = @import("Fence.zig");
const Self = @This();
pub const ObjectType: vk.ObjectType = .device;
@@ -11,12 +13,19 @@ physical_device: *const PhysicalDevice,
dispatch_table: *const DispatchTable,
pub const DispatchTable = struct {
allocateMemory: *const fn (*Self, std.mem.Allocator, *const vk.MemoryAllocateInfo) VkError!*DeviceMemory,
createFence: *const fn (*Self, std.mem.Allocator, *const vk.FenceCreateInfo) VkError!*Fence,
destroyFence: *const fn (*Self, std.mem.Allocator, *Fence) VkError!void,
freeMemory: *const fn (*Self, std.mem.Allocator, *DeviceMemory) VkError!void,
getFenceStatus: *const fn (*Self, *Fence) VkError!void,
destroy: *const fn (*Self, std.mem.Allocator) VkError!void,
resetFences: *const fn (*Self, []*Fence) VkError!void,
waitForFences: *const fn (*Self, []*Fence, bool, u64) VkError!void,
};
pub fn init(allocator: std.mem.Allocator, physical_device: *const PhysicalDevice, infos: *const vk.DeviceCreateInfo) VkError!Self {
pub fn init(allocator: std.mem.Allocator, physical_device: *const PhysicalDevice, info: *const vk.DeviceCreateInfo) VkError!Self {
_ = allocator;
_ = infos;
_ = info;
return .{
.physical_device = physical_device,
.dispatch_table = undefined,
@@ -26,3 +35,48 @@ pub fn init(allocator: std.mem.Allocator, physical_device: *const PhysicalDevice
pub fn destroy(self: *Self, allocator: std.mem.Allocator) VkError!void {
try self.dispatch_table.destroy(self, allocator);
}
pub inline fn getFenceStatus(self: *Self, fence: *Fence) VkError!void {
try self.dispatch_table.getFenceStatus(fence);
}
pub inline fn resetFences(_: *Self, fences: []*Fence) VkError!void {
for (fences) |fence| {
try fence.reset();
}
}
pub inline fn waitForFences(_: *Self, fences: []*Fence, waitForAll: bool, timeout: u64) VkError!void {
for (fences) |fence| {
try fence.wait(timeout);
if (!waitForAll) return;
}
}
// Fence functions ===================================================================================================================================
pub inline fn createFence(self: *Self, allocator: std.mem.Allocator, info: *const vk.FenceCreateInfo) VkError!*Fence {
return self.dispatch_table.createFence(self, allocator, info);
}
pub inline fn destroyFence(self: *Self, allocator: std.mem.Allocator, fence: *Fence) VkError!void {
try self.dispatch_table.destroyFence(self, allocator, fence);
}
// Memory functions ==================================================================================================================================
pub inline fn allocateMemory(self: *Self, allocator: std.mem.Allocator, info: *const vk.MemoryAllocateInfo) VkError!*DeviceMemory {
return self.dispatch_table.allocateMemory(self, allocator, info);
}
pub inline fn freeMemory(self: *Self, allocator: std.mem.Allocator, device_memory: *DeviceMemory) VkError!void {
try self.dispatch_table.freeMemory(self, allocator, device_memory);
}
pub inline fn mapMemory(_: *Self, device_memory: *DeviceMemory, offset: vk.DeviceSize, size: vk.DeviceSize) VkError!?*anyopaque {
return device_memory.map(offset, size);
}
pub inline fn unmapMemory(_: *Self, device_memory: *DeviceMemory) void {
return device_memory.unmap();
}

6
src/vulkan/DeviceMemory.zig
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@@ -15,6 +15,7 @@ is_mapped: bool,
vtable: *const VTable,
pub const VTable = struct {
destroy: *const fn (*Self, std.mem.Allocator) void,
map: *const fn (*Self, vk.DeviceSize, vk.DeviceSize) VkError!?*anyopaque,
unmap: *const fn (*Self) void,
};
@@ -25,9 +26,14 @@ pub fn init(device: *const Device, size: vk.DeviceSize, memory_type_index: u32)
.size = size,
.memory_type_index = memory_type_index,
.is_mapped = false,
.vtable = undefined,
};
}
pub inline fn destroy(self: *Self, allocator: std.mem.Allocator) void {
self.vtable.destroy(self, allocator);
}
pub inline fn map(self: *Self, offset: vk.DeviceSize, size: vk.DeviceSize) VkError!?*anyopaque {
return self.vtable.map(self, offset, size);
}

49
src/vulkan/Fence.zig git.filemode.normal_file
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@@ -0,0 +1,49 @@
const std = @import("std");
const vk = @import("vulkan");
const VkError = @import("error_set.zig").VkError;
const Device = @import("Device.zig");
const Self = @This();
pub const ObjectType: vk.ObjectType = .fence;
owner: *const Device,
flags: vk.FenceCreateFlags,
vtable: *const VTable,
pub const VTable = struct {
destroy: *const fn (*Self, std.mem.Allocator) void,
getStatus: *const fn (*Self) VkError!void,
reset: *const fn (*Self) VkError!void,
signal: *const fn (*Self) VkError!void,
wait: *const fn (*Self, u64) VkError!void,
};
pub fn init(device: *const Device, info: *const vk.FenceCreateInfo) VkError!Self {
return .{
.owner = device,
.flags = info.flags,
.vtable = undefined,
};
}
pub inline fn destroy(self: *Self, allocator: std.mem.Allocator) void {
self.vtable.destroy(self, allocator);
}
pub inline fn getStatus(self: *Self) VkError!void {
try self.vtable.getStatus(self);
}
pub inline fn reset(self: *Self) VkError!void {
try self.vtable.reset(self);
}
pub inline fn signal(self: *Self) VkError!void {
try self.vtable.signal(self);
}
pub inline fn wait(self: *Self, timeout: u64) VkError!void {
try self.vtable.wait(self, timeout);
}

22
src/vulkan/Queue.zig git.filemode.normal_file
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@@ -0,0 +1,22 @@
const std = @import("std");
const vk = @import("vulkan");
const VkError = @import("error_set.zig").VkError;
const Device = @import("Device.zig");
const Fence = @import("Fence.zig");
const Self = @This();
pub const ObjectType: vk.ObjectType = .queue;
owner: *const Device,
family_index: u32,
index: u32,
flags: vk.DeviceQueueCreateFlags,
dispatch_table: *const DispatchTable,
pub const DispatchTable = struct {
bindSparse: *const fn (*Self, u32, *const vk.BindSparseInfo, ?*Fence) VkError!void,
submit: *const fn (*Self, u32, *const vk.SubmitInfo, ?*Fence) VkError!void,
waitIdle: *const fn (*Self) VkError!void,
};

5
src/vulkan/VulkanAllocator.zig
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@@ -1,11 +1,12 @@
//! A Zig allocator from VkAllocationCallbacks.
//! Falls back on c_allocator if callbacks passed are null
const std = @import("std");
const vk = @import("vulkan");
const Allocator = std.mem.Allocator;
const Alignment = std.mem.Alignment;
/// A Zig allocator from VkAllocationCallbacks.
/// Falls back on c_allocator if callbacks passed are null
const Self = @This();
callbacks: ?vk.AllocationCallbacks,

3
src/vulkan/lib.zig
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@@ -10,7 +10,10 @@ pub const VkError = @import("error_set.zig").VkError;
pub const Instance = @import("Instance.zig");
pub const Device = @import("Device.zig");
pub const DeviceMemory = @import("DeviceMemory.zig");
pub const Fence = @import("Fence.zig");
pub const PhysicalDevice = @import("PhysicalDevice.zig");
pub const Queue = @import("Queue.zig");
pub const VulkanAllocator = @import("VulkanAllocator.zig");
pub const VULKAN_VENDOR_ID = @typeInfo(vk.VendorId).@"enum".fields[@typeInfo(vk.VendorId).@"enum".fields.len - 1].value + 1;

75
src/vulkan/lib_vulkan.zig
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@@ -10,11 +10,13 @@ const VkError = error_set.VkError;
const toVkResult = error_set.toVkResult;
const Dispatchable = @import("Dispatchable.zig").Dispatchable;
const NonDispatchable = @import("NonDispatchable.zig").NonDispatchable;
const VulkanAllocator = @import("VulkanAllocator.zig");
const Instance = @import("Instance.zig");
const Device = @import("Device.zig");
const DeviceMemory = @import("DeviceMemory.zig");
const PhysicalDevice = @import("PhysicalDevice.zig");
// This file contains all exported Vulkan entrypoints.
@@ -32,7 +34,7 @@ fn functionMapEntryPoint(comptime name: []const u8) struct { []const u8, vk.PfnV
else if (std.meta.hasFn(@This(), stroll_name))
.{ name, @as(vk.PfnVoidFunction, @ptrCast(&@field(@This(), stroll_name))) }
else
.{ name, null };
@compileError("Invalid entry point name");
}
const icd_pfn_map = std.StaticStringMap(vk.PfnVoidFunction).initComptime(.{
@@ -67,7 +69,11 @@ const physical_device_pfn_map = std.StaticStringMap(vk.PfnVoidFunction).initComp
});
const device_pfn_map = std.StaticStringMap(vk.PfnVoidFunction).initComptime(.{
functionMapEntryPoint("vkAllocateMemory"),
functionMapEntryPoint("vkDestroyDevice"),
functionMapEntryPoint("vkFreeMemory"),
functionMapEntryPoint("vkMapMemory"),
functionMapEntryPoint("vkUnmapMemory"),
});
// ICD Interface =============================================================================================================================================
@@ -114,10 +120,10 @@ pub export fn vkGetInstanceProcAddr(p_instance: vk.Instance, p_name: ?[*:0]const
return null;
}
pub export fn strollCreateInstance(p_infos: ?*const vk.InstanceCreateInfo, callbacks: ?*const vk.AllocationCallbacks, p_instance: *vk.Instance) callconv(vk.vulkan_call_conv) vk.Result {
const infos = p_infos orelse return .error_initialization_failed;
if (infos.s_type != .instance_create_info) {
return .error_initialization_failed;
pub export fn strollCreateInstance(p_info: ?*const vk.InstanceCreateInfo, callbacks: ?*const vk.AllocationCallbacks, p_instance: *vk.Instance) callconv(vk.vulkan_call_conv) vk.Result {
const info = p_info orelse return .error_validation_failed;
if (info.s_type != .instance_create_info) {
return .error_validation_failed;
}
std.log.scoped(.vkCreateInstance).info("Creating VkInstance", .{});
logger.indent();
@@ -128,7 +134,7 @@ pub export fn strollCreateInstance(p_infos: ?*const vk.InstanceCreateInfo, callb
var instance: *lib.Instance = undefined;
if (!builtin.is_test) {
// Will call impl instead of interface as root refs the impl module
instance = root.Instance.create(allocator, infos) catch |err| return toVkResult(err);
instance = root.Instance.create(allocator, info) catch |err| return toVkResult(err);
}
instance.requestPhysicalDevices(allocator) catch |err| return toVkResult(err);
@@ -176,10 +182,10 @@ pub export fn strollEnumeratePhysicalDevices(p_instance: vk.Instance, count: *u3
// Physical Device functions =================================================================================================================================
pub export fn strollCreateDevice(p_physical_device: vk.PhysicalDevice, p_infos: ?*const vk.DeviceCreateInfo, callbacks: ?*const vk.AllocationCallbacks, p_device: *vk.Device) callconv(vk.vulkan_call_conv) vk.Result {
const infos = p_infos orelse return .error_initialization_failed;
if (infos.s_type != .device_create_info) {
return .error_initialization_failed;
pub export fn strollCreateDevice(p_physical_device: vk.PhysicalDevice, p_info: ?*const vk.DeviceCreateInfo, callbacks: ?*const vk.AllocationCallbacks, p_device: *vk.Device) callconv(vk.vulkan_call_conv) vk.Result {
const info = p_info orelse return .error_validation_failed;
if (info.s_type != .device_create_info) {
return .error_validation_failed;
}
const allocator = VulkanAllocator.init(callbacks, .instance).allocator();
const physical_device = Dispatchable(PhysicalDevice).fromHandleObject(p_physical_device) catch |err| return toVkResult(err);
@@ -187,7 +193,7 @@ pub export fn strollCreateDevice(p_physical_device: vk.PhysicalDevice, p_infos:
logger.indent();
defer logger.unindent();
const device = physical_device.createDevice(allocator, infos) catch |err| return toVkResult(err);
const device = physical_device.createDevice(allocator, info) catch |err| return toVkResult(err);
p_device.* = (Dispatchable(Device).wrap(allocator, device) catch |err| return toVkResult(err)).toVkHandle(vk.Device);
return .success;
}
@@ -254,7 +260,30 @@ pub export fn strollGetPhysicalDeviceSparseImageFormatProperties(
// Device functions ==========================================================================================================================================
pub export fn strollDestroyDevice(p_device: vk.Device, callbacks: ?*const vk.AllocationCallbacks) callconv(vk.vulkan_call_conv) void {
pub export fn strollAllocateMemory(p_device: vk.Device, p_info: ?*const vk.MemoryAllocateInfo, callbacks: ?*const vk.AllocationCallbacks, p_memory: *vk.DeviceMemory) callconv(vk.vulkan_call_conv) vk.Result {
const info = p_info orelse return .error_validation_failed;
if (info.s_type != .memory_allocate_info) {
return .error_validation_failed;
}
const allocator = VulkanAllocator.init(callbacks, .device).allocator();
const device = Dispatchable(Device).fromHandleObject(p_device) catch |err| return toVkResult(err);
const device_memory = device.allocateMemory(allocator, info) catch |err| return toVkResult(err);
p_memory.* = (NonDispatchable(DeviceMemory).wrap(allocator, device_memory) catch |err| return toVkResult(err)).toVkHandle(vk.DeviceMemory);
return .success;
}
pub export fn strollCreateFence(p_device: vk.Device, info: ?*const vk.FenceCreateInfo, callbacks: ?*const vk.allocationcallbacks, p_fence: *vk.Fence) callconv(vk.vulkan_call_conv) vk.Result {
const info = p_info orelse return .error_validation_failed;
if (info.s_type != .fence_create_info) {
return .error_validation_failed;
}
const allocator = VulkanAllocator.init(callbacks, .device).allocator();
const fence = device.createFence(allocator, info) catch |err| return toVkResult(err);
p_fence.* = (NonDispatchable(Fence).wrap(allocator, fence) catch |err| return toVkResult(err)).toVkHandle(vk.Fence);
return .success;
}
pub export fn strollDestroyDevice(p_device: vk.Device, callbacks: ?*const vk.allocationcallbacks) callconv(vk.vulkan_call_conv) void {
const allocator = VulkanAllocator.init(callbacks, .device).allocator();
const dispatchable = Dispatchable(Device).fromHandle(p_device) catch return;
std.log.scoped(.vkDestroyDevice).info("Destroying VkDevice created from {s}", .{dispatchable.object.physical_device.props.device_name});
@@ -265,6 +294,15 @@ pub export fn strollDestroyDevice(p_device: vk.Device, callbacks: ?*const vk.All
dispatchable.destroy(allocator);
}
pub export fn strollFreeMemory(p_device: vk.Device, p_memory: vk.DeviceMemory, callbacks: ?*const vk.AllocationCallbacks) callconv(vk.vulkan_call_conv) void {
const allocator = VulkanAllocator.init(callbacks, .device).allocator();
const device = Dispatchable(Device).fromHandleObject(p_device) catch return;
const non_dispatchable_device_memory = NonDispatchable(DeviceMemory).fromHandle(p_memory) catch return;
device.freeMemory(allocator, non_dispatchable_device_memory.object) catch return;
non_dispatchable_device_memory.destroy(allocator);
}
pub export fn strollGetDeviceProcAddr(p_device: vk.Device, p_name: ?[*:0]const u8) callconv(vk.vulkan_call_conv) vk.PfnVoidFunction {
if (p_name == null) return null;
const name = std.mem.span(p_name.?);
@@ -275,3 +313,16 @@ pub export fn strollGetDeviceProcAddr(p_device: vk.Device, p_name: ?[*:0]const u
entryPointNotFoundErrorLog(.vkGetDeviceProcAddr, name);
return null;
}
pub export fn strollMapMemory(p_device: vk.Device, p_memory: vk.DeviceMemory, offset: vk.DeviceSize, size: vk.DeviceSize, _: vk.MemoryMapFlags, pp_data: *?*anyopaque) callconv(vk.vulkan_call_conv) vk.Result {
const device = Dispatchable(Device).fromHandleObject(p_device) catch |err| return toVkResult(err);
const device_memory = NonDispatchable(DeviceMemory).fromHandleObject(p_memory) catch |err| return toVkResult(err);
pp_data.* = device.mapMemory(device_memory, offset, size) catch |err| return toVkResult(err);
return .success;
}
pub export fn strollUnmapMemory(p_device: vk.Device, p_memory: vk.DeviceMemory) callconv(vk.vulkan_call_conv) void {
const device = Dispatchable(Device).fromHandleObject(p_device) catch return;
const device_memory = NonDispatchable(DeviceMemory).fromHandleObject(p_memory) catch return;
device.unmapMemory(device_memory);
}