unify a little bit more iOS & MacOS

This commit is contained in:
Carlos Aragones 2020-05-17 19:48:59 +02:00
parent 75de20e4cc
commit 80a7a33b7c
9 changed files with 146 additions and 131 deletions

View File

@ -72,15 +72,6 @@ mfb_open_ex(const char *title, unsigned width, unsigned height, unsigned flags)
if (window_data == 0x0) { if (window_data == 0x0) {
return 0x0; return 0x0;
} }
SWindowData_IOS *window_data_ios = (SWindowData_IOS *) window_data->specific;
static Vertex s_vertices[4] = {
{-1.0, -1.0, 0, 1},
{-1.0, 1.0, 0, 1},
{ 1.0, -1.0, 0, 1},
{ 1.0, 1.0, 0, 1},
};
memcpy(window_data_ios->vertices, s_vertices, sizeof(s_vertices));
windows = [[UIApplication sharedApplication] windows]; windows = [[UIApplication sharedApplication] windows];
numWindows = [windows count]; numWindows = [windows count];

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@ -8,15 +8,12 @@
#import <MetalKit/MetalKit.h> #import <MetalKit/MetalKit.h>
#include "WindowData.h" #include "WindowData.h"
#include "WindowData_IOS.h"
// Our platform independent renderer class. // Our platform independent renderer class.
// Implements the MTKViewDelegate protocol which allows it to accept per-frame // Implements the MTKViewDelegate protocol which allows it to accept per-frame
// update and drawable resize callbacks. // update and drawable resize callbacks.
@interface iOSViewDelegate : NSObject <MTKViewDelegate> @interface iOSViewDelegate : NSObject <MTKViewDelegate>
{ {
@public SWindowData *window_data;
@public SWindowData_IOS *window_data_ios;
} }
-(nonnull instancetype) initWithMetalKitView:(nonnull MTKView *) view windowData:(nonnull SWindowData *) windowData; -(nonnull instancetype) initWithMetalKitView:(nonnull MTKView *) view windowData:(nonnull SWindowData *) windowData;

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@ -21,25 +21,23 @@
//------------------------------------- //-------------------------------------
enum { MaxBuffersInFlight = 3 }; // Number of textures in flight (tripple buffered) enum { MaxBuffersInFlight = 3 }; // Number of textures in flight (tripple buffered)
id<MTLDevice> g_metal_device = nil;
id<MTLLibrary> g_library = nil;
//-- //--
NSString *g_shader_src = kShader( NSString *g_shader_src = kShader(
"#include <metal_stdlib>\n", "#include <metal_stdlib>\n",
using namespace metal; using namespace metal;
//--------------------- //-------------
struct VertexOutput { struct VertexOutput {
float4 pos [[position]]; float4 pos [[position]];
float2 texcoord; float2 texcoord;
}; };
//-------------
struct Vertex { struct Vertex {
float4 position [[position]]; float4 position [[position]];
}; };
//--------------------- //-------------
vertex VertexOutput vertex VertexOutput
vertFunc(unsigned int vID[[vertex_id]], const device Vertex *pos [[ buffer(0) ]]) { vertFunc(unsigned int vID[[vertex_id]], const device Vertex *pos [[ buffer(0) ]]) {
VertexOutput out; VertexOutput out;
@ -52,7 +50,7 @@ NSString *g_shader_src = kShader(
return out; return out;
} }
//--------------------- //-------------
fragment float4 fragment float4
fragFunc(VertexOutput input [[stage_in]], texture2d<half> colorTexture [[ texture(0) ]]) { fragFunc(VertexOutput input [[stage_in]], texture2d<half> colorTexture [[ texture(0) ]]) {
constexpr sampler textureSampler(mag_filter::nearest, min_filter::nearest); constexpr sampler textureSampler(mag_filter::nearest, min_filter::nearest);
@ -67,29 +65,38 @@ NSString *g_shader_src = kShader(
//------------------------------------- //-------------------------------------
@implementation iOSViewDelegate { @implementation iOSViewDelegate {
dispatch_semaphore_t m_semaphore; SWindowData *window_data;
id <MTLCommandQueue> m_command_queue; SWindowData_IOS *window_data_ios;
id <MTLRenderPipelineState> m_pipeline_state; id<MTLDevice> metal_device;
id <MTLTexture> m_texture_buffer; id<MTLLibrary> metal_library;
uint8_t m_current_buffer; dispatch_semaphore_t semaphore;
id<MTLCommandQueue> command_queue;
id<MTLRenderPipelineState> pipeline_state;
id<MTLTexture> texture_buffer;
uint8_t current_buffer;
} }
//------------------------------------- //-------------------------------------
-(nonnull instancetype) initWithMetalKitView:(nonnull MTKView *) view windowData:(nonnull SWindowData *) windowData { -(nonnull instancetype) initWithMetalKitView:(nonnull MTKView *) view windowData:(nonnull SWindowData *) windowData {
self = [super init]; self = [super init];
if (self) { if (self) {
self->window_data = windowData; window_data = windowData;
self->window_data_ios = (SWindowData_IOS *) windowData->specific; window_data_ios = (SWindowData_IOS *) windowData->specific;
view.colorPixelFormat = MTLPixelFormatBGRA8Unorm; view.colorPixelFormat = MTLPixelFormatBGRA8Unorm;
view.sampleCount = 1; view.sampleCount = 1;
g_metal_device = view.device; metal_device = view.device;
m_semaphore = dispatch_semaphore_create(MaxBuffersInFlight); // Used for syncing the CPU and GPU
m_command_queue = [g_metal_device newCommandQueue]; semaphore = dispatch_semaphore_create(MaxBuffersInFlight);
// Setup command queue
command_queue = [metal_device newCommandQueue];
[self _createShaders]; [self _createShaders];
[self _createAssets]; [self _createAssets];
@ -100,19 +107,19 @@ NSString *g_shader_src = kShader(
//------------------------------------- //-------------------------------------
- (bool) _createShaders { - (bool) _createShaders {
NSError *error = nil; NSError *error = 0x0;
g_library = [g_metal_device newLibraryWithSource:g_shader_src metal_library = [metal_device newLibraryWithSource:g_shader_src
options:[[MTLCompileOptions alloc] init] options:[[MTLCompileOptions alloc] init]
error:&error error:&error
]; ];
if (error || !g_library) { if (error || !metal_library) {
NSLog(@"Unable to create shaders %@", error); NSLog(@"Unable to create shaders %@", error);
return false; return false;
} }
id<MTLFunction> vertex_shader_func = [g_library newFunctionWithName:@"vertFunc"]; id<MTLFunction> vertex_shader_func = [metal_library newFunctionWithName:@"vertFunc"];
id<MTLFunction> fragment_shader_func = [g_library newFunctionWithName:@"fragFunc"]; id<MTLFunction> fragment_shader_func = [metal_library newFunctionWithName:@"fragFunc"];
if (!vertex_shader_func) { if (!vertex_shader_func) {
NSLog(@"Unable to get vertFunc!\n"); NSLog(@"Unable to get vertFunc!\n");
@ -124,14 +131,15 @@ NSString *g_shader_src = kShader(
return false; return false;
} }
// Create a reusable pipeline state
MTLRenderPipelineDescriptor *pipelineStateDescriptor = [[MTLRenderPipelineDescriptor alloc] init]; MTLRenderPipelineDescriptor *pipelineStateDescriptor = [[MTLRenderPipelineDescriptor alloc] init];
pipelineStateDescriptor.label = @"MiniFB_pipeline"; pipelineStateDescriptor.label = @"MiniFB_pipeline";
pipelineStateDescriptor.vertexFunction = vertex_shader_func; pipelineStateDescriptor.vertexFunction = vertex_shader_func;
pipelineStateDescriptor.fragmentFunction = fragment_shader_func; pipelineStateDescriptor.fragmentFunction = fragment_shader_func;
pipelineStateDescriptor.colorAttachments[0].pixelFormat = 80; //bgra8Unorm; pipelineStateDescriptor.colorAttachments[0].pixelFormat = 80; //bgra8Unorm;
m_pipeline_state = [g_metal_device newRenderPipelineStateWithDescriptor:pipelineStateDescriptor error:&error]; pipeline_state = [metal_device newRenderPipelineStateWithDescriptor:pipelineStateDescriptor error:&error];
if (!m_pipeline_state) { if (!pipeline_state) {
NSLog(@"Failed to created pipeline state, error %@", error); NSLog(@"Failed to created pipeline state, error %@", error);
return false; return false;
} }
@ -141,26 +149,42 @@ NSString *g_shader_src = kShader(
//------------------------------------- //-------------------------------------
- (void) _createAssets { - (void) _createAssets {
static Vertex s_vertices[4] = {
{-1.0, -1.0, 0, 1},
{-1.0, 1.0, 0, 1},
{ 1.0, -1.0, 0, 1},
{ 1.0, 1.0, 0, 1},
};
memcpy(window_data_ios->vertices, s_vertices, sizeof(s_vertices));
MTLTextureDescriptor *td; MTLTextureDescriptor *td;
td = [MTLTextureDescriptor texture2DDescriptorWithPixelFormat:MTLPixelFormatBGRA8Unorm td = [MTLTextureDescriptor texture2DDescriptorWithPixelFormat:MTLPixelFormatBGRA8Unorm
width:window_data->buffer_width width:window_data->buffer_width
height:window_data->buffer_height height:window_data->buffer_height
mipmapped:false]; mipmapped:false];
m_texture_buffer = [g_metal_device newTextureWithDescriptor:td]; // Create the texture from the device by using the descriptor
texture_buffer = [metal_device newTextureWithDescriptor:td];
} }
//------------------------------------- //-------------------------------------
- (void) drawInMTKView:(nonnull MTKView *) view { - (void) drawInMTKView:(nonnull MTKView *) view {
// Per frame updates here // Wait to ensure only MaxBuffersInFlight number of frames are getting proccessed
dispatch_semaphore_wait(m_semaphore, DISPATCH_TIME_FOREVER); // by any stage in the Metal pipeline (App, Metal, Drivers, GPU, etc)
dispatch_semaphore_wait(semaphore, DISPATCH_TIME_FOREVER);
m_current_buffer = (m_current_buffer + 1) % MaxBuffersInFlight; current_buffer = (current_buffer + 1) % MaxBuffersInFlight;
id <MTLCommandBuffer> commandBuffer = [m_command_queue commandBuffer]; // Create a new command buffer for each render pass to the current drawable
id<MTLCommandBuffer> commandBuffer = [command_queue commandBuffer];
commandBuffer.label = @"minifb_command_buffer"; commandBuffer.label = @"minifb_command_buffer";
__block dispatch_semaphore_t block_sema = m_semaphore; // Add completion hander which signals semaphore when Metal and the GPU has fully
// finished processing the commands we're encoding this frame. This indicates when the
// dynamic buffers filled with our vertices, that we're writing to this frame, will no longer
// be needed by Metal and the GPU, meaning we can overwrite the buffer contents without
// corrupting the rendering.
__block dispatch_semaphore_t block_sema = semaphore;
[commandBuffer addCompletedHandler:^(id<MTLCommandBuffer> buffer) { [commandBuffer addCompletedHandler:^(id<MTLCommandBuffer> buffer) {
(void)buffer; (void)buffer;
dispatch_semaphore_signal(block_sema); dispatch_semaphore_signal(block_sema);
@ -168,7 +192,7 @@ NSString *g_shader_src = kShader(
// Copy the bytes from our data object into the texture // Copy the bytes from our data object into the texture
MTLRegion region = { { 0, 0, 0 }, { window_data->buffer_width, window_data->buffer_height, 1 } }; MTLRegion region = { { 0, 0, 0 }, { window_data->buffer_width, window_data->buffer_height, 1 } };
[m_texture_buffer replaceRegion:region mipmapLevel:0 withBytes:window_data->draw_buffer bytesPerRow:window_data->buffer_stride]; [texture_buffer replaceRegion:region mipmapLevel:0 withBytes:window_data->draw_buffer bytesPerRow:window_data->buffer_stride];
// Delay getting the currentRenderPassDescriptor until absolutely needed. This avoids // Delay getting the currentRenderPassDescriptor until absolutely needed. This avoids
// holding onto the drawable and blocking the display pipeline any longer than necessary // holding onto the drawable and blocking the display pipeline any longer than necessary
@ -181,11 +205,11 @@ NSString *g_shader_src = kShader(
renderEncoder.label = @"minifb_command_encoder"; renderEncoder.label = @"minifb_command_encoder";
// Set render command encoder state // Set render command encoder state
[renderEncoder setRenderPipelineState:m_pipeline_state]; [renderEncoder setRenderPipelineState:pipeline_state];
[renderEncoder setVertexBytes:window_data_ios->vertices length:sizeof(window_data_ios->vertices) atIndex:0]; [renderEncoder setVertexBytes:window_data_ios->vertices length:sizeof(window_data_ios->vertices) atIndex:0];
//[renderEncoder setFragmentTexture:m_texture_buffers[m_current_buffer] atIndex:0]; //[renderEncoder setFragmentTexture:texture_buffers[current_buffer] atIndex:0];
[renderEncoder setFragmentTexture:m_texture_buffer atIndex:0]; [renderEncoder setFragmentTexture:texture_buffer atIndex:0];
// Draw the vertices of our quads // Draw the vertices of our quads
[renderEncoder drawPrimitives:MTLPrimitiveTypeTriangleStrip vertexStart:0 vertexCount:4]; [renderEncoder drawPrimitives:MTLPrimitiveTypeTriangleStrip vertexStart:0 vertexCount:4];

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@ -1,5 +1,6 @@
#import "OSXView.h" #import "OSXView.h"
#import "OSXWindow.h" #import "OSXWindow.h"
#import "WindowData_OSX.h"
#include <MiniFB_internal.h> #include <MiniFB_internal.h>
//------------------------------------- //-------------------------------------

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@ -1,8 +1,9 @@
#pragma once #pragma once
#if defined(USE_METAL_API) #if defined(USE_METAL_API)
#include "WindowData_OSX.h"
#import <MetalKit/MetalKit.h> #import <MetalKit/MetalKit.h>
#include "WindowData_OSX.h"
// Number of textures in flight (tripple buffered) // Number of textures in flight (tripple buffered)
enum { MaxBuffersInFlight = 3 }; enum { MaxBuffersInFlight = 3 };
@ -14,14 +15,20 @@ enum { MaxBuffersInFlight = 3 };
@public SWindowData *window_data; @public SWindowData *window_data;
@public SWindowData_OSX *window_data_osx; @public SWindowData_OSX *window_data_osx;
@public id<MTLDevice> metal_device; id<MTLDevice> metal_device;
@public id<MTLLibrary> metal_library; id<MTLLibrary> metal_library;
@public id<MTLTexture> texture_buffers[MaxBuffersInFlight];
@public int current_buffer; dispatch_semaphore_t semaphore; // Used for syncing with CPU/GPU
@public dispatch_semaphore_t semaphore; // Used for syncing with CPU/GPU id<MTLCommandQueue> command_queue;
id<MTLRenderPipelineState> pipeline_state;
id<MTLTexture> texture_buffers[MaxBuffersInFlight];
int current_buffer;
} }
- (id) initWithWindowData:(SWindowData *) windowData; - (id) initWithWindowData:(SWindowData *) windowData;
@end @end
#endif #endif

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@ -1,6 +1,7 @@
#include "OSXViewController.h" #include "OSXViewController.h"
#if defined(USE_METAL_API) #if defined(USE_METAL_API)
#import <MetalKit/MetalKit.h> #import <MetalKit/MetalKit.h>
//------------------------------------- //-------------------------------------
@ -63,20 +64,20 @@ NSString *g_shader_src = kShader(
return 0x0; return 0x0;
} }
[self _create_shaders];
[self _createAssets];
// Used for syncing the CPU and GPU // Used for syncing the CPU and GPU
semaphore = dispatch_semaphore_create(MaxBuffersInFlight); semaphore = dispatch_semaphore_create(MaxBuffersInFlight);
// Setup command queue // Setup command queue
window_data_osx->metal.command_queue = [metal_device newCommandQueue]; command_queue = [metal_device newCommandQueue];
[self _createShaders];
[self _createAssets];
} }
return self; return self;
} }
//------------------------------------- //-------------------------------------
- (bool) _create_shaders { - (bool) _createShaders {
NSError *error = 0x0; NSError *error = 0x0;
metal_library = [metal_device newLibraryWithSource:g_shader_src metal_library = [metal_device newLibraryWithSource:g_shader_src
@ -108,9 +109,10 @@ NSString *g_shader_src = kShader(
pipelineStateDescriptor.fragmentFunction = fragment_shader_func; pipelineStateDescriptor.fragmentFunction = fragment_shader_func;
pipelineStateDescriptor.colorAttachments[0].pixelFormat = 80; //bgra8Unorm; pipelineStateDescriptor.colorAttachments[0].pixelFormat = 80; //bgra8Unorm;
window_data_osx->metal.pipeline_state = [metal_device newRenderPipelineStateWithDescriptor:pipelineStateDescriptor error:&error]; pipeline_state = [metal_device newRenderPipelineStateWithDescriptor:pipelineStateDescriptor error:&error];
if (!window_data_osx->metal.pipeline_state) { if (!pipeline_state) {
NSLog(@"Failed to created pipeline state, error %@", error); NSLog(@"Failed to created pipeline state, error %@", error);
return false;
} }
return true; return true;
@ -126,8 +128,6 @@ NSString *g_shader_src = kShader(
}; };
memcpy(window_data_osx->metal.vertices, s_vertices, sizeof(s_vertices)); memcpy(window_data_osx->metal.vertices, s_vertices, sizeof(s_vertices));
// Indicate that each pixel has a blue, green, red, and alpha channel, where each channel is
// an 8-bit unsigned normalized value (i.e. 0 maps to 0.0 and 255 maps to 1.0)
MTLTextureDescriptor *td; MTLTextureDescriptor *td;
td = [MTLTextureDescriptor texture2DDescriptorWithPixelFormat:MTLPixelFormatBGRA8Unorm td = [MTLTextureDescriptor texture2DDescriptorWithPixelFormat:MTLPixelFormatBGRA8Unorm
width:window_data->buffer_width width:window_data->buffer_width
@ -146,31 +146,29 @@ NSString *g_shader_src = kShader(
// by any stage in the Metal pipeline (App, Metal, Drivers, GPU, etc) // by any stage in the Metal pipeline (App, Metal, Drivers, GPU, etc)
dispatch_semaphore_wait(semaphore, DISPATCH_TIME_FOREVER); dispatch_semaphore_wait(semaphore, DISPATCH_TIME_FOREVER);
// Iterate through our Metal buffers, and cycle back to the first when we've written to MaxBuffersInFlight
current_buffer = (current_buffer + 1) % MaxBuffersInFlight; current_buffer = (current_buffer + 1) % MaxBuffersInFlight;
// Calculate the number of bytes per row of our image.
MTLRegion region = { { 0, 0, 0 }, { window_data->buffer_width, window_data->buffer_height, 1 } };
// Copy the bytes from our data object into the texture
[texture_buffers[current_buffer] replaceRegion:region mipmapLevel:0 withBytes:window_data->draw_buffer bytesPerRow:window_data->buffer_stride];
// Create a new command buffer for each render pass to the current drawable // Create a new command buffer for each render pass to the current drawable
id<MTLCommandBuffer> commandBuffer = [window_data_osx->metal.command_queue commandBuffer]; id<MTLCommandBuffer> commandBuffer = [command_queue commandBuffer];
commandBuffer.label = @"minifb_command_buffer"; commandBuffer.label = @"minifb_command_buffer";
// Add completion hander which signals _inFlightSemaphore when Metal and the GPU has fully // Add completion hander which signals semaphore when Metal and the GPU has fully
// finished processing the commands we're encoding this frame. This indicates when the // finished processing the commands we're encoding this frame. This indicates when the
// dynamic buffers filled with our vertices, that we're writing to this frame, will no longer // dynamic buffers filled with our vertices, that we're writing to this frame, will no longer
// be needed by Metal and the GPU, meaning we can overwrite the buffer contents without // be needed by Metal and the GPU, meaning we can overwrite the buffer contents without
// corrupting the rendering. // corrupting the rendering.
__block dispatch_semaphore_t block_sema = semaphore; __block dispatch_semaphore_t block_sema = semaphore;
[commandBuffer addCompletedHandler:^(id<MTLCommandBuffer> buffer) [commandBuffer addCompletedHandler:^(id<MTLCommandBuffer> buffer) {
{
(void)buffer; (void)buffer;
dispatch_semaphore_signal(block_sema); dispatch_semaphore_signal(block_sema);
}]; }];
// Copy the bytes from our data object into the texture
MTLRegion region = { { 0, 0, 0 }, { window_data->buffer_width, window_data->buffer_height, 1 } };
[texture_buffers[current_buffer] replaceRegion:region mipmapLevel:0 withBytes:window_data->draw_buffer bytesPerRow:window_data->buffer_stride];
// Delay getting the currentRenderPassDescriptor until absolutely needed. This avoids
// holding onto the drawable and blocking the display pipeline any longer than necessary
MTLRenderPassDescriptor* renderPassDescriptor = view.currentRenderPassDescriptor; MTLRenderPassDescriptor* renderPassDescriptor = view.currentRenderPassDescriptor;
if (renderPassDescriptor != nil) { if (renderPassDescriptor != nil) {
renderPassDescriptor.colorAttachments[0].clearColor = MTLClearColorMake(0.0, 0.0, 0.0, 1.0); renderPassDescriptor.colorAttachments[0].clearColor = MTLClearColorMake(0.0, 0.0, 0.0, 1.0);
@ -180,8 +178,7 @@ NSString *g_shader_src = kShader(
renderEncoder.label = @"minifb_command_encoder"; renderEncoder.label = @"minifb_command_encoder";
// Set render command encoder state // Set render command encoder state
[renderEncoder setRenderPipelineState:window_data_osx->metal.pipeline_state]; [renderEncoder setRenderPipelineState:pipeline_state];
[renderEncoder setVertexBytes:window_data_osx->metal.vertices length:sizeof(window_data_osx->metal.vertices) atIndex:0]; [renderEncoder setVertexBytes:window_data_osx->metal.vertices length:sizeof(window_data_osx->metal.vertices) atIndex:0];
[renderEncoder setFragmentTexture:texture_buffers[current_buffer] atIndex:0]; [renderEncoder setFragmentTexture:texture_buffers[current_buffer] atIndex:0];

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@ -19,8 +19,6 @@ typedef struct {
#if defined(USE_METAL_API) #if defined(USE_METAL_API)
struct { struct {
id<MTLCommandQueue> command_queue;
id<MTLRenderPipelineState> pipeline_state;
Vertex vertices[4]; Vertex vertices[4];
} metal; } metal;
#endif #endif