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blender-archive/source/blender/gpu/metal/mtl_backend.mm
Clément Foucault cdd4354c81 Metal: MTLTexture core implementation for Metal backend, with minimal surrounding functionality. 
This covers implementation of the GPUTexture abstraction for the Metal backend, with additional utility functionality as required.

Some components have been temporarily disabled pending dependencies on upcoming Metal backend components, and these will be addressed as the backend is fleshed out.

One core challenge addressed in the Metal backend is the requirement for read/update routines for textures. MTLBlitCommandEncoders offer a limited range of the full functionality provided by OpenGLs texture update and read functions such that a series of compute kernels have been implemented to provide advanced functionality such as data format conversion and partial/swizzled component updates.

This diff is provided in full, but if further division is required for purposes of code review, this can be done.

Authored by Apple: Michael Parkin-White

Ref T96261

Reviewed By: fclem

Maniphest Tasks: T96261

Differential Revision: https://developer.blender.org/D14543
2022-04-27 12:36:56 +02:00

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/* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup gpu
*/
#include "BKE_global.h"
#include "gpu_backend.hh"
#include "mtl_backend.hh"
#include "mtl_context.hh"
#include "gpu_capabilities_private.hh"
#include "gpu_platform_private.hh"
#include <Cocoa/Cocoa.h>
#include <Metal/Metal.h>
#include <QuartzCore/QuartzCore.h>
namespace blender::gpu {
/* Global per-thread AutoReleasePool. */
thread_local NSAutoreleasePool *g_autoreleasepool = nil;
thread_local int g_autoreleasepool_depth = 0;
/* -------------------------------------------------------------------- */
/** \name Metal Backend
* \{ */
void MTLBackend::samplers_update(){
/* Placeholder -- Handled in MTLContext. */
};
Context *MTLBackend::context_alloc(void *ghost_window)
{
return new MTLContext(ghost_window);
};
Batch *MTLBackend::batch_alloc()
{
/* TODO(Metal): Implement MTLBatch. */
return nullptr;
};
DrawList *MTLBackend::drawlist_alloc(int list_length)
{
/* TODO(Metal): Implement MTLDrawList. */
return nullptr;
};
FrameBuffer *MTLBackend::framebuffer_alloc(const char *name)
{
/* TODO(Metal): Implement MTLFrameBuffer. */
return nullptr;
};
IndexBuf *MTLBackend::indexbuf_alloc()
{
/* TODO(Metal): Implement MTLIndexBuf. */
return nullptr;
};
QueryPool *MTLBackend::querypool_alloc()
{
/* TODO(Metal): Implement MTLQueryPool. */
return nullptr;
};
Shader *MTLBackend::shader_alloc(const char *name)
{
/* TODO(Metal): Implement MTLShader. */
return nullptr;
};
Texture *MTLBackend::texture_alloc(const char *name)
{
return new gpu::MTLTexture(name);
}
UniformBuf *MTLBackend::uniformbuf_alloc(int size, const char *name)
{
/* TODO(Metal): Implement MTLUniformBuf. */
return nullptr;
};
StorageBuf *MTLBackend::storagebuf_alloc(int size, GPUUsageType usage, const char *name)
{
/* TODO(Metal): Implement MTLStorageBuf. */
return nullptr;
}
VertBuf *MTLBackend::vertbuf_alloc()
{
/* TODO(Metal): Implement MTLVertBuf. */
return nullptr;
}
void MTLBackend::render_begin()
{
/* All Rendering must occur within a render boundary */
/* Track a call-count for nested calls, used to ensure we are inside an
* autoreleasepool from all rendering path. */
BLI_assert(g_autoreleasepool_depth >= 0);
if (g_autoreleasepool == nil) {
g_autoreleasepool = [[NSAutoreleasePool alloc] init];
}
g_autoreleasepool_depth++;
BLI_assert(g_autoreleasepool_depth > 0);
}
void MTLBackend::render_end()
{
/* If call-count reaches zero, drain auto release pool.
* Ensures temporary objects are freed within a frame's lifetime. */
BLI_assert(g_autoreleasepool != nil);
g_autoreleasepool_depth--;
BLI_assert(g_autoreleasepool_depth >= 0);
if (g_autoreleasepool_depth == 0) {
[g_autoreleasepool drain];
g_autoreleasepool = nil;
}
}
void MTLBackend::render_step()
{
/* Placeholder */
}
bool MTLBackend::is_inside_render_boundary()
{
return (g_autoreleasepool != nil);
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name Platform
* \{ */
/* For Metal, platform_init needs to be called after MTLContext initialization. */
void MTLBackend::platform_init(MTLContext *ctx)
{
if (GPG.initialized) {
return;
}
eGPUDeviceType device = GPU_DEVICE_UNKNOWN;
eGPUOSType os = GPU_OS_ANY;
eGPUDriverType driver = GPU_DRIVER_ANY;
eGPUSupportLevel support_level = GPU_SUPPORT_LEVEL_SUPPORTED;
BLI_assert(ctx);
id<MTLDevice> mtl_device = nil; /*ctx->device; TODO(Metal): Implement MTLContext. */
BLI_assert(device);
NSString *gpu_name = [mtl_device name];
const char *vendor = [gpu_name UTF8String];
const char *renderer = "Metal API";
const char *version = "1.2";
printf("METAL API - DETECTED GPU: %s\n", vendor);
/* macOS is the only supported platform, but check to ensure we are not building with Metal
* enablement on another platform. */
#ifdef _WIN32
os = GPU_OS_WIN;
#elif defined(__APPLE__)
os = GPU_OS_MAC;
#else
os = GPU_OS_UNIX;
#endif
BLI_assert(os == GPU_OS_MAC && "Platform must be macOS");
/* Determine Vendor from name. */
if (strstr(vendor, "ATI") || strstr(vendor, "AMD")) {
device = GPU_DEVICE_ATI;
driver = GPU_DRIVER_OFFICIAL;
}
else if (strstr(vendor, "NVIDIA")) {
device = GPU_DEVICE_NVIDIA;
driver = GPU_DRIVER_OFFICIAL;
}
else if (strstr(vendor, "Intel")) {
device = GPU_DEVICE_INTEL;
driver = GPU_DRIVER_OFFICIAL;
}
else if (strstr(vendor, "Apple") || strstr(vendor, "APPLE")) {
/* Apple Silicon. */
device = GPU_DEVICE_APPLE;
driver = GPU_DRIVER_OFFICIAL;
}
else if (strstr(renderer, "Apple Software Renderer")) {
device = GPU_DEVICE_SOFTWARE;
driver = GPU_DRIVER_SOFTWARE;
}
else if (strstr(renderer, "llvmpipe") || strstr(renderer, "softpipe")) {
device = GPU_DEVICE_SOFTWARE;
driver = GPU_DRIVER_SOFTWARE;
}
else {
printf("Warning: Could not find a matching GPU name. Things may not behave as expected.\n");
printf("Detected configuration:\n");
printf("Vendor: %s\n", vendor);
printf("Renderer: %s\n", renderer);
}
GPG.init(device, os, driver, support_level, GPU_BACKEND_METAL, vendor, renderer, version);
}
void MTLBackend::platform_exit()
{
BLI_assert(GPG.initialized);
GPG.clear();
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name Capabilities
* \{ */
MTLCapabilities MTLBackend::capabilities = {};
static const char *mtl_extensions_get_null(int i)
{
return nullptr;
}
bool supports_barycentric_whitelist(id<MTLDevice> device)
{
NSString *gpu_name = [device name];
BLI_assert([gpu_name length]);
const char *vendor = [gpu_name UTF8String];
/* Verify GPU support. */
bool supported_gpu = [device supportsFamily:MTLGPUFamilyMac2];
bool should_support_barycentrics = false;
/* Known good configs. */
if (strstr(vendor, "AMD") || strstr(vendor, "Apple") || strstr(vendor, "APPLE")) {
should_support_barycentrics = true;
}
/* Explicit support for Intel-based platforms. */
if ((strstr(vendor, "Intel") || strstr(vendor, "INTEL"))) {
should_support_barycentrics = true;
}
return supported_gpu && should_support_barycentrics;
}
bool MTLBackend::metal_is_supported()
{
/* Device compatibility information using Metal Feature-set tables.
* See: https://developer.apple.com/metal/Metal-Feature-Set-Tables.pdf */
NSOperatingSystemVersion version = [[NSProcessInfo processInfo] operatingSystemVersion];
/* Metal Viewport requires macOS Version 10.15 onwards. */
bool supported_os_version = version.majorVersion >= 11 ||
(version.majorVersion == 10 ? version.minorVersion >= 15 : false);
if (!supported_os_version) {
printf(
"OS Version too low to run minimum required metal version. Required at least 10.15, got "
"%ld.%ld \n",
(long)version.majorVersion,
(long)version.minorVersion);
return false;
}
if (@available(macOS 10.15, *)) {
id<MTLDevice> device = MTLCreateSystemDefaultDevice();
/* Debug: Enable low power GPU with Environment Var: METAL_FORCE_INTEL. */
static const char *forceIntelStr = getenv("METAL_FORCE_INTEL");
bool forceIntel = forceIntelStr ? (atoi(forceIntelStr) != 0) : false;
if (forceIntel) {
NSArray<id<MTLDevice>> *allDevices = MTLCopyAllDevices();
for (id<MTLDevice> _device in allDevices) {
if (_device.lowPower) {
device = _device;
}
}
}
/* Metal Viewport requires argument buffer tier-2 support and Barycentric Coordinates.
* These are available on most hardware configurations supporting Metal 2.2. */
bool supports_argument_buffers_tier2 = ([device argumentBuffersSupport] ==
MTLArgumentBuffersTier2);
bool supports_barycentrics = [device supportsShaderBarycentricCoordinates] ||
supports_barycentric_whitelist(device);
bool supported_metal_version = [device supportsFamily:MTLGPUFamilyMac2];
bool result = supports_argument_buffers_tier2 && supports_barycentrics &&
supported_os_version && supported_metal_version;
if (!supports_argument_buffers_tier2) {
printf("[Metal] Device does not support argument buffers tier 2\n");
}
if (!supports_barycentrics) {
printf("[Metal] Device does not support barycentrics coordinates\n");
}
if (!supported_metal_version) {
printf("[Metal] Device does not support metal 2.2 or higher\n");
}
if (result) {
printf("Device with name %s supports metal minimum requirements\n",
[[device name] UTF8String]);
}
return result;
}
return false;
}
void MTLBackend::capabilities_init(MTLContext *ctx)
{
BLI_assert(ctx);
id<MTLDevice> device = nil; /*ctx->device TODO(Metal): Implement MTLContext. */
BLI_assert(device);
/* Initialize Capabilities. */
MTLBackend::capabilities.supports_argument_buffers_tier2 = ([device argumentBuffersSupport] ==
MTLArgumentBuffersTier2);
MTLBackend::capabilities.supports_family_mac1 = [device supportsFamily:MTLGPUFamilyMac1];
MTLBackend::capabilities.supports_family_mac2 = [device supportsFamily:MTLGPUFamilyMac2];
MTLBackend::capabilities.supports_family_mac_catalyst1 = [device
supportsFamily:MTLGPUFamilyMacCatalyst1];
MTLBackend::capabilities.supports_family_mac_catalyst2 = [device
supportsFamily:MTLGPUFamilyMacCatalyst2];
/* Common Global Capabilities. */
GCaps.max_texture_size = ([device supportsFamily:MTLGPUFamilyApple3] ||
MTLBackend::capabilities.supports_family_mac1) ?
16384 :
8192;
GCaps.max_texture_3d_size = 2048;
GCaps.max_texture_layers = 2048;
GCaps.max_textures = (MTLBackend::capabilities.supports_family_mac1) ?
128 :
(([device supportsFamily:MTLGPUFamilyApple4]) ? 96 : 31);
if (GCaps.max_textures <= 32) {
BLI_assert(false);
}
GCaps.max_samplers = (MTLBackend::capabilities.supports_argument_buffers_tier2) ? 1024 : 16;
GCaps.max_textures_vert = GCaps.max_textures;
GCaps.max_textures_geom = 0; /* N/A geometry shaders not supported. */
GCaps.max_textures_frag = GCaps.max_textures;
/* Conservative uniform data limit is 4KB per-stage -- This is the limit of setBytes.
* MTLBuffer path is also supported but not as efficient. */
GCaps.max_uniforms_vert = 1024;
GCaps.max_uniforms_frag = 1024;
GCaps.max_batch_indices = 1 << 31;
GCaps.max_batch_vertices = 1 << 31;
GCaps.max_vertex_attribs = 31;
GCaps.max_varying_floats = 60;
/* Feature support */
GCaps.mem_stats_support = false;
GCaps.shader_image_load_store_support = ([device supportsFamily:MTLGPUFamilyApple3] ||
MTLBackend::capabilities.supports_family_mac1 ||
MTLBackend::capabilities.supports_family_mac2);
GCaps.compute_shader_support = false; /* TODO(Metal): Add compute support. */
GCaps.shader_storage_buffer_objects_support =
false; /* TODO(Metal): implement Storage Buffer support. */
/* Maximum buffer bindings: 31. Consider required slot for uniforms/UBOs/Vertex attributes.
* Can use argument buffers if a higher limit is required. */
GCaps.max_shader_storage_buffer_bindings = 24;
if (GCaps.compute_shader_support) {
GCaps.max_work_group_count[0] = 65535;
GCaps.max_work_group_count[1] = 65535;
GCaps.max_work_group_count[2] = 65535;
/* In Metal, total_thread_count is 512 or 1024, such that
* threadgroup `width*height*depth <= total_thread_count` */
unsigned int max_threads_per_threadgroup_per_dim =
([device supportsFamily:MTLGPUFamilyApple4] ||
MTLBackend::capabilities.supports_family_mac1) ?
1024 :
512;
GCaps.max_work_group_size[0] = max_threads_per_threadgroup_per_dim;
GCaps.max_work_group_size[1] = max_threads_per_threadgroup_per_dim;
GCaps.max_work_group_size[2] = max_threads_per_threadgroup_per_dim;
}
GCaps.transform_feedback_support = true;
/* OPENGL Related workarounds -- none needed for Metal. */
GCaps.extensions_len = 0;
GCaps.extension_get = mtl_extensions_get_null;
GCaps.mip_render_workaround = false;
GCaps.depth_blitting_workaround = false;
GCaps.use_main_context_workaround = false;
GCaps.broken_amd_driver = false;
/* Metal related workarounds. */
/* Minimum per-vertex stride is 4 bytes in Metal.
* A bound vertex buffer must contribute at least 4 bytes per vertex. */
GCaps.minimum_per_vertex_stride = 4;
}
/** \} */
} // blender::gpu
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