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Rewrote the entire thing using my new OpenCL template. Makes small one offs like these reallly simple

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MitchellHansen
2017-04-04 05:33:38 -07:00
parent 08fd8b2398
commit 7743321465
27 changed files with 2314 additions and 1375 deletions
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63
.gitattributes vendored
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249
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101
CMakeLists.txt Normal file
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# Check versions
message(STATUS "CMake version: ${CMAKE_VERSION}")
cmake_minimum_required(VERSION 3.1)
set_property(GLOBAL PROPERTY USE_FOLDERS ON)
# Set the project name
set(PNAME Conways)
project(${PNAME})
# Set up variables, and find SFML
if (WIN32)
set(SFML_ROOT root CACHE STRING "User specified path")
set(SFML_INCLUDE_DIR ${SFML_ROOT}/include)
endif()
set(SFML_COMPONENTS graphics window system network audio)
set(CMAKE_MODULE_PATH ${CMAKE_CURRENT_SOURCE_DIR})
find_package(SFML 2.1 COMPONENTS ${SFML_COMPONENTS} REQUIRED)
message(STATUS "SFML found: ${SFML_FOUND}")
# Find OpenCL
find_package( OpenCL REQUIRED )
message(STATUS "OpenCL found: ${OPENCL_FOUND}")
# Find OpenGL
find_package( OpenGL REQUIRED)
message(STATUS "OpenGL found: ${OPENGL_FOUND}")
# Include the directories for the main program, GL, CL and SFML's headers
include_directories(${SFML_INCLUDE_DIR})
include_directories(${OpenCL_INCLUDE_DIRS})
include_directories(include)
# Glob all thr sources into their values
file(GLOB_RECURSE SOURCES "src/*.cpp")
file(GLOB_RECURSE HEADERS "include/*.h" "include/*.hpp")
file(GLOB_RECURSE KERNELS "kernels/*.cl")
add_executable(${PNAME} ${SOURCES} ${HEADERS} ${KERNELS})
# Follow the sub directory structure to add sub-filters in VS
# Gotta do it one by one unfortunately
foreach (source IN ITEMS ${SOURCES})
if (IS_ABSOLUTE "${source}")
get_filename_component(filename ${source} DIRECTORY)
STRING(REGEX REPLACE "/" "\\\\" filename ${filename})
string(REGEX MATCHALL "src(.*)" substrings ${filename})
list(GET substrings 0 substring)
SOURCE_GROUP(${substring} FILES ${source})
endif()
endforeach()
foreach (source IN ITEMS ${HEADERS})
if (IS_ABSOLUTE "${source}")
get_filename_component(filename ${source} DIRECTORY)
STRING(REGEX REPLACE "/" "\\\\" filename ${filename})
string(REGEX MATCHALL "include(.*)" substrings ${filename})
list(GET substrings 0 substring)
SOURCE_GROUP(${substring} FILES ${source})
endif()
endforeach()
foreach (source IN ITEMS ${KERNELS})
if (IS_ABSOLUTE "${source}")
get_filename_component(filename ${source} DIRECTORY)
STRING(REGEX REPLACE "/" "\\\\" filename ${filename})
string(REGEX MATCHALL "kernels(.*)" substrings ${filename})
list(GET substrings 0 substring)
SOURCE_GROUP(${substring} FILES ${source})
endif()
endforeach()
# Link CL, GL, and SFML
target_link_libraries (${PNAME} ${SFML_LIBRARIES} ${SFML_DEPENDENCIES})
target_link_libraries (${PNAME} ${OpenCL_LIBRARY})
target_link_libraries (${PNAME} ${OPENGL_LIBRARIES})
if (NOT WIN32)
target_link_libraries (${PNAME} -lpthread)
endif()
# Setup to use C++14
set_property(TARGET ${PNAME} PROPERTY CXX_STANDARD 14)

28
Conway_OpenCL.sln
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Microsoft Visual Studio Solution File, Format Version 12.00
# Visual Studio 14
VisualStudioVersion = 14.0.23107.0
MinimumVisualStudioVersion = 10.0.40219.1
Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "Conway_OpenCL", "Conway_OpenCL\Conway_OpenCL.vcxproj", "{000000DA-0000-0000-0000-000000000000}"
EndProject
Global
GlobalSection(SolutionConfigurationPlatforms) = preSolution
Debug|x64 = Debug|x64
Debug|x86 = Debug|x86
Release|x64 = Release|x64
Release|x86 = Release|x86
EndGlobalSection
GlobalSection(ProjectConfigurationPlatforms) = postSolution
{000000DA-0000-0000-0000-000000000000}.Debug|x64.ActiveCfg = Debug|x64
{000000DA-0000-0000-0000-000000000000}.Debug|x64.Build.0 = Debug|x64
{000000DA-0000-0000-0000-000000000000}.Debug|x86.ActiveCfg = Debug|Win32
{000000DA-0000-0000-0000-000000000000}.Debug|x86.Build.0 = Debug|Win32
{000000DA-0000-0000-0000-000000000000}.Release|x64.ActiveCfg = Release|x64
{000000DA-0000-0000-0000-000000000000}.Release|x64.Build.0 = Release|x64
{000000DA-0000-0000-0000-000000000000}.Release|x86.ActiveCfg = Release|Win32
{000000DA-0000-0000-0000-000000000000}.Release|x86.Build.0 = Release|Win32
EndGlobalSection
GlobalSection(SolutionProperties) = preSolution
HideSolutionNode = FALSE
EndGlobalSection
EndGlobal

395
Conway_OpenCL/Conway.hpp
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#include <CL/cl.h>
#include <CL/opencl.h>
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <iostream>
#include <string>
#include <fstream>
#include <random>
#include <ctime>
#include <SFML/Graphics.hpp>
#include <windows.h>
#include <GL/glew.h>
#include <GLFW/glfw3.h>
#include "Shader.hpp"
#define SUCCESS 0
#define FAILURE 1
float elap_time() {
static __int64 start = 0;
static __int64 frequency = 0;
if (start == 0) {
QueryPerformanceCounter((LARGE_INTEGER*)&start);
QueryPerformanceFrequency((LARGE_INTEGER*)&frequency);
return 0.0f;
}
__int64 counter = 0;
QueryPerformanceCounter((LARGE_INTEGER*)&counter);
return (float)((counter - start) / double(frequency));
}
// convert the kernel file into a string
int convertToString(const char *filename, std::string& s)
{
size_t size;
char* str;
std::fstream f(filename, (std::fstream::in | std::fstream::binary));
if(f.is_open())
{
size_t fileSize;
f.seekg(0, std::fstream::end);
size = fileSize = (size_t)f.tellg();
f.seekg(0, std::fstream::beg);
str = new char[size+1];
if(!str)
{
f.close();
return 0;
}
f.read(str, fileSize);
f.close();
str[size] = '\0';
s = str;
delete[] str;
return 0;
}
std::cout << "Error: failed to open file\n:" << filename << std::endl;
return FAILURE;
}
void key_callback(GLFWwindow* window, int key, int scancode, int action, int mode) {
if (key == GLFW_KEY_ESCAPE && action == GLFW_PRESS)
glfwSetWindowShouldClose(window, GL_TRUE);
}
int main(int argc, char* argv[])
{
int WINDOW_X = 1000;
int WINDOW_Y = 1000;
int GRID_WIDTH = WINDOW_X;
int GRID_HEIGHT = WINDOW_Y;
int WORKER_SIZE = 1000;
// ======================================= Setup OpenGL =======================================================
glfwInit();
glfwWindowHint(GLFW_CONTEXT_VERSION_MAJOR, 3);
glfwWindowHint(GLFW_CONTEXT_VERSION_MINOR, 3);
glfwWindowHint(GLFW_OPENGL_PROFILE, GLFW_OPENGL_CORE_PROFILE);
glfwWindowHint(GLFW_RESIZABLE, GL_FALSE);
GLFWwindow* gl_window = glfwCreateWindow(GRID_WIDTH, GRID_HEIGHT, "GPU accelerated life", nullptr, nullptr);
glfwMakeContextCurrent(gl_window);
glfwSetKeyCallback(gl_window, key_callback);
glewExperimental = GL_TRUE;
glewInit();
glViewport(0, 0, GRID_WIDTH, GRID_HEIGHT);
glClearColor(0.2f, 0.3f, 0.3f, 1.0f);
// Stolen from LearnOpenGL, aint got no time for that
Shader vert_frag_shaders("Z:\\VS_Projects\\Conway_OpenCL\\Conway_OpenCL\\vertex_shader.sh", "Z:\\VS_Projects\\Conway_OpenCL\\Conway_OpenCL\\fragment_shader.sh");
GLfloat vertices[] = {
// Positions // Colors // Texture Coords
1.0f, 1.0f, 0.0f, 1.0f, 0.0f, 0.0f, 1.0f, 1.0f, // Top Right
1.0f, -1.0f, 0.0f, 0.0f, 1.0f, 0.0f, 1.0f, 0.0f, // Bottom Right
-1.0f, -1.0f, 0.0f, 0.0f, 0.0f, 1.0f, 0.0f, 0.0f, // Bottom Left
-1.0f, 1.0f, 0.0f, 1.0f, 1.0f, 0.0f, 0.0f, 1.0f // Top Left
};
GLuint indices[] = {
0, 1, 3, // First Triangle
1, 2, 3 // Second Triangle
};
GLuint VBO, VAO, EBO;
glGenVertexArrays(1, &VAO);
glGenBuffers(1, &VBO);
glGenBuffers(1, &EBO);
// Bind the Vertex Array Object first, then bind and set vertex buffer(s) and attribute pointer(s).
glBindVertexArray(VAO);
glBindBuffer(GL_ARRAY_BUFFER, VBO);
glBufferData(GL_ARRAY_BUFFER, sizeof(vertices), vertices, GL_STATIC_DRAW);
glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, EBO);
glBufferData(GL_ELEMENT_ARRAY_BUFFER, sizeof(indices), indices, GL_STATIC_DRAW);
// Position attribute
glVertexAttribPointer(0, 3, GL_FLOAT, GL_FALSE, 8 * sizeof(GLfloat), (GLvoid*)0);
glEnableVertexAttribArray(0);
// Color attribute
glVertexAttribPointer(1, 3, GL_FLOAT, GL_FALSE, 8 * sizeof(GLfloat), (GLvoid*)(3 * sizeof(GLfloat)));
glEnableVertexAttribArray(1);
// TexCoord attribute
glVertexAttribPointer(2, 2, GL_FLOAT, GL_FALSE, 8 * sizeof(GLfloat), (GLvoid*)(6 * sizeof(GLfloat)));
glEnableVertexAttribArray(2);
glBindVertexArray(0); // Unbind VAO
// ============================== OpenCL Setup ==================================================================
// Get the platforms
cl_uint numPlatforms;
cl_platform_id platform = NULL;
cl_int status = clGetPlatformIDs(0, NULL, &numPlatforms); // Retrieve the number of platforms
if (status != CL_SUCCESS) {
std::cout << "Error: Getting platforms!" << std::endl;
return FAILURE;
}
// Choose the first available platform
if(numPlatforms > 0) {
cl_platform_id* platforms = new cl_platform_id[numPlatforms];
status = clGetPlatformIDs(numPlatforms, platforms, NULL); // Now populate the array with the platforms
platform = platforms[0];
delete platforms;
}
cl_uint numDevices = 0;
cl_device_id *devices;
status = clGetDeviceIDs(platform, CL_DEVICE_TYPE_GPU, 0, NULL, &numDevices);
if (numDevices == 0) { //no GPU available.
std::cout << "No GPU device available." << std::endl;
std::cout << "Choose CPU as default device." << std::endl;
status = clGetDeviceIDs(platform, CL_DEVICE_TYPE_CPU, 0, NULL, &numDevices);
devices = new cl_device_id[numDevices];
status = clGetDeviceIDs(platform, CL_DEVICE_TYPE_CPU, numDevices, devices, NULL);
}
else {
devices = new cl_device_id[numDevices];
status = clGetDeviceIDs(platform, CL_DEVICE_TYPE_GPU, numDevices, devices, NULL);
}
HGLRC hGLRC = wglGetCurrentContext();
HDC hDC = wglGetCurrentDC();
cl_context_properties cps[] ={CL_CONTEXT_PLATFORM, (cl_context_properties)platform, CL_GL_CONTEXT_KHR, (cl_context_properties)hGLRC, CL_WGL_HDC_KHR, (cl_context_properties)hDC, 0 };
cl_context context = clCreateContext(cps, 1, devices,NULL,NULL,NULL);
cl_command_queue commandQueue = clCreateCommandQueue(context, devices[0], 0, NULL);
// ============================== Kernel Compilation, Setup ====================================================
// Read the kernel from the file to a string
const char *compute_kernel_filename = "Z:\\VS_Projects\\Conway_OpenCL\\Conway_OpenCL\\conway_compute.cl";
const char *align_kernel_filename = "Z:\\VS_Projects\\Conway_OpenCL\\Conway_OpenCL\\conway_align.cl";
std::string compute_kernel_string;
std::string align_kernel_string;
convertToString(compute_kernel_filename, compute_kernel_string);
convertToString(align_kernel_filename, align_kernel_string);
// Create a program with the source
const char *compute_source = compute_kernel_string.c_str();
const char *align_source = align_kernel_string.c_str();
size_t compute_source_size[] = {strlen(compute_source)};
size_t align_source_size[] = { strlen(align_source) };
cl_program compute_program = clCreateProgramWithSource(context, 1, &compute_source, compute_source_size, NULL);
cl_program align_program = clCreateProgramWithSource(context, 1, &align_source, align_source_size, NULL);
// Build the compute program
status = clBuildProgram(compute_program, 1, devices, NULL, NULL, NULL);
if (status == CL_BUILD_PROGRAM_FAILURE) {
size_t log_size;
clGetProgramBuildInfo(compute_program, devices[0], CL_PROGRAM_BUILD_LOG, 0, NULL, &log_size);
char *log = new char[log_size];
clGetProgramBuildInfo(compute_program, devices[0], CL_PROGRAM_BUILD_LOG, log_size, log, NULL);
std::cout << log << std::endl;
}
// Build the align program
status = clBuildProgram(align_program, 1, devices, NULL, NULL, NULL);
if (status == CL_BUILD_PROGRAM_FAILURE) {
size_t log_size;
clGetProgramBuildInfo(align_program, devices[0], CL_PROGRAM_BUILD_LOG, 0, NULL, &log_size);
char *log = new char[log_size];
clGetProgramBuildInfo(align_program, devices[0], CL_PROGRAM_BUILD_LOG, log_size, log, NULL);
std::cout << log << std::endl;
}
// Now create the kernels
cl_kernel compute_kernel = clCreateKernel(compute_program, "conway_compute", NULL);
cl_kernel align_kernel = clCreateKernel(align_program, "conway_align", NULL);
// ======================================= Setup grid =========================================================
// Setup the rng
std::mt19937 rng(time(NULL));
std::uniform_int_distribution<int> rgen(0, 4); // 25% chance
// Init the grids
unsigned char* node_grid = new unsigned char[GRID_WIDTH * GRID_HEIGHT];
for (int i = 0; i < GRID_WIDTH * GRID_HEIGHT; i++) {
if (rgen(rng) == 1) {
node_grid[i] = 1;
}
else {
node_grid[i] = 0;
}
}
// ====================================== Setup Rendering ==========================================================
unsigned char* pixel_array = new sf::Uint8[WINDOW_X * WINDOW_Y * 4];
for (int i = 0; i < GRID_WIDTH * GRID_HEIGHT * 4; i += 4) {
pixel_array[i] = i % 255; // R?
pixel_array[i + 1] = 70; // G?
pixel_array[i + 2] = 100; // B?
pixel_array[i + 3] = 100; // A?
}
GLuint texture;
glGenTextures(1, &texture);
glBindTexture(GL_TEXTURE_2D, texture);
//////////////////////////
glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_DECAL);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_DECAL);
// when texture area is small, bilinear filter the closest mipmap
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_NEAREST);
// when texture area is large, bilinear filter the first mipmap
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
// texture should tile
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_REPEAT);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT);
glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, GRID_WIDTH, GRID_HEIGHT, 0, GL_RGBA, GL_UNSIGNED_BYTE, pixel_array);
glGenerateMipmap(GL_TEXTURE_2D);
delete pixel_array;
// ========================================= Setup the buffers ==================================================
int err = 0;
cl_mem frontWriteBuffer = clCreateFromGLTexture(context , CL_MEM_WRITE_ONLY, GL_TEXTURE_2D, 0, texture, &err);
cl_mem frontReadBuffer = clCreateFromGLTexture(context, CL_MEM_READ_ONLY, GL_TEXTURE_2D, 0, texture, &err);
cl_mem backBuffer = clCreateBuffer(context, CL_MEM_READ_WRITE | CL_MEM_COPY_HOST_PTR, sizeof(int), (void*)node_grid, &err);
cl_mem workerCountBuffer = clCreateBuffer(context, CL_MEM_READ_ONLY | CL_MEM_COPY_HOST_PTR, sizeof(int), &WORKER_SIZE, &err);
cl_mem gridWidthBuffer = clCreateBuffer(context, CL_MEM_READ_ONLY | CL_MEM_COPY_HOST_PTR, sizeof(int), &GRID_WIDTH, &err);
cl_mem gridHeightBuffer = clCreateBuffer(context, CL_MEM_READ_ONLY | CL_MEM_COPY_HOST_PTR, sizeof(int), &GRID_HEIGHT, &err);
// Compute kernel args
status = clSetKernelArg(compute_kernel, 0, sizeof(cl_mem), (void *)&frontWriteBuffer);
status = clSetKernelArg(compute_kernel, 1, sizeof(cl_mem), (void *)&backBuffer);
status = clSetKernelArg(compute_kernel, 2, sizeof(cl_mem), (void *)&workerCountBuffer);
status = clSetKernelArg(compute_kernel, 3, sizeof(cl_mem), (void *)&gridWidthBuffer);
status = clSetKernelArg(compute_kernel, 4, sizeof(cl_mem), (void *)&gridHeightBuffer);
status = clSetKernelArg(align_kernel, 0, sizeof(cl_mem), (void *)&frontReadBuffer);
status = clSetKernelArg(align_kernel, 1, sizeof(cl_mem), (void *)&backBuffer);
status = clSetKernelArg(align_kernel, 2, sizeof(cl_mem), (void *)&workerCountBuffer);
status = clSetKernelArg(align_kernel, 3, sizeof(cl_mem), (void *)&gridWidthBuffer);
status = clSetKernelArg(align_kernel, 4, sizeof(cl_mem), (void *)&gridHeightBuffer);
// ===================================== Loop ==================================================================
while (!glfwWindowShouldClose(gl_window)) {
glClearColor(0.2f, 0.3f, 0.3f, 1.0f);
glClear(GL_COLOR_BUFFER_BIT);
// ======================================= OpenCL Shtuff ===================================================
// Work size, for each y line
size_t global_work_size[1] = { WORKER_SIZE };
status = clEnqueueAcquireGLObjects(commandQueue, 1, &frontReadBuffer, 0, 0, 0);
status = clEnqueueAcquireGLObjects(commandQueue, 1, &frontWriteBuffer, 0, 0, 0);
status = clEnqueueNDRangeKernel(commandQueue, compute_kernel, 1, NULL, global_work_size, NULL, 0, NULL, NULL);
status = clEnqueueNDRangeKernel(commandQueue, align_kernel, 1, NULL, global_work_size, NULL, 0, NULL, NULL);
status = clEnqueueReleaseGLObjects(commandQueue, 1, &frontReadBuffer, 0, NULL, NULL);
status = clEnqueueReleaseGLObjects(commandQueue, 1, &frontWriteBuffer, 0, NULL, NULL);
clFinish(commandQueue);
// ======================================= Rendering Shtuff =================================================
glfwPollEvents();
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, texture);
glUniform1i(glGetUniformLocation(vert_frag_shaders.Program, "pixel_texture"), 0);
// Draw the triangle
vert_frag_shaders.Use();
glBindVertexArray(VAO);
glDrawElements(GL_TRIANGLES, 6, GL_UNSIGNED_INT, 0);
glBindVertexArray(0);
glFinish();
// Render
glfwSwapBuffers(gl_window);
}
glfwTerminate();
// Release the buffers
status = clReleaseMemObject(frontReadBuffer);
status = clReleaseMemObject(workerCountBuffer);
status = clReleaseMemObject(gridWidthBuffer);
status = clReleaseMemObject(gridHeightBuffer);
// And the program stuff
status = clReleaseKernel(compute_kernel);
status = clReleaseProgram(compute_program);
status = clReleaseProgram(align_program);
status = clReleaseCommandQueue(commandQueue);
status = clReleaseContext(context);
if (devices != NULL)
{
delete devices;
devices = NULL;
}
return SUCCESS;
}

241
Conway_OpenCL/Conway_OpenCL.vcxproj
View File

@@ -1,241 +0,0 @@
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90
Conway_OpenCL/Shader.hpp
View File

@@ -1,90 +0,0 @@
#ifndef SHADER_H
#define SHADER_H
#include <string>
#include <fstream>
#include <sstream>
#include <iostream>
#include <GL/glew.h>
class Shader {
public:
GLuint Program;
// Constructor generates the shader on the fly
Shader(const GLchar* vertexPath, const GLchar* fragmentPath) {
// 1. Retrieve the vertex/fragment source code from filePath
std::string vertexCode;
std::string fragmentCode;
std::ifstream vShaderFile;
std::ifstream fShaderFile;
// ensures ifstream objects can throw exceptions:
vShaderFile.exceptions(std::ifstream::badbit);
fShaderFile.exceptions(std::ifstream::badbit);
try {
// Open files
vShaderFile.open(vertexPath);
fShaderFile.open(fragmentPath);
std::stringstream vShaderStream, fShaderStream;
// Read file's buffer contents into streams
vShaderStream << vShaderFile.rdbuf();
fShaderStream << fShaderFile.rdbuf();
// close file handlers
vShaderFile.close();
fShaderFile.close();
// Convert stream into string
vertexCode = vShaderStream.str();
fragmentCode = fShaderStream.str();
}
catch (std::ifstream::failure e) {
std::cout << "ERROR::SHADER::FILE_NOT_SUCCESFULLY_READ" << std::endl;
}
const GLchar* vShaderCode = vertexCode.c_str();
const GLchar * fShaderCode = fragmentCode.c_str();
GLint success = 0;
GLchar infoLog[512];
// Vertex Shader
GLuint vertex = glCreateShader(GL_VERTEX_SHADER);
glShaderSource(vertex, 1, &vShaderCode, NULL);
glCompileShader(vertex);
// Print compile errors if any
glGetShaderiv(vertex, GL_COMPILE_STATUS, &success);
if (!success) {
glGetShaderInfoLog(vertex, 512, NULL, infoLog);
std::cout << "ERROR::SHADER::VERTEX::COMPILATION_FAILED\n" << infoLog << std::endl;
}
// Fragment Shader
GLuint fragment = glCreateShader(GL_FRAGMENT_SHADER);
glShaderSource(fragment, 1, &fShaderCode, NULL);
glCompileShader(fragment);
// Print compile errors if any
glGetShaderiv(fragment, GL_COMPILE_STATUS, &success);
if (!success) {
glGetShaderInfoLog(fragment, 512, NULL, infoLog);
std::cout << "ERROR::SHADER::FRAGMENT::COMPILATION_FAILED\n" << infoLog << std::endl;
}
// Shader Program
this->Program = glCreateProgram();
glAttachShader(this->Program, vertex);
glAttachShader(this->Program, fragment);
glLinkProgram(this->Program);
// Print linking errors if any
glGetProgramiv(this->Program, GL_LINK_STATUS, &success);
if (!success) {
glGetProgramInfoLog(this->Program, 512, NULL, infoLog);
std::cout << "ERROR::SHADER::PROGRAM::LINKING_FAILED\n" << infoLog << std::endl;
}
// Delete the shaders as they're linked into our program now and no longer necessery
glDeleteShader(vertex);
glDeleteShader(fragment);
}
// Uses the current shader
void Use() {
glUseProgram(this->Program);
}
};
#endif

20
Conway_OpenCL/conway_align.cl
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@@ -1,20 +0,0 @@
__kernel void conway_align(__read_only image2d_t front_image, __global char* back_image, __global int* num_workers, __global int* grid_width, __global int *grid_height)
{
const sampler_t sampler=CLK_NORMALIZED_COORDS_FALSE | CLK_ADDRESS_CLAMP | CLK_FILTER_NEAREST;
// Caclulate the start and end range that this worker will be calculating
int data_length = *grid_width * *grid_height;
int start_range = (data_length / *num_workers) * get_global_id(0);
int end_range = (data_length / *num_workers) * (get_global_id(0) + 1);
for (int i = start_range; i < end_range; i++){
uint4 pixel;
pixel = read_imageui(front_image, sampler, (int2)(i,get_global_id(0)));
back_image[i] = pixel.w / 255;
}
}

59
Conway_OpenCL/conway_compute.cl
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@@ -1,59 +0,0 @@
__kernel void conway_compute(__write_only image2d_t front_image, __global char* back_image, __global int* num_workers, __global int* grid_width, __global int *grid_height)
{
float4 black = (float4)(.49, .68, .81, 1);
float4 white = (float4)(.49, .68, .71, .3);
// Caclulate the start and end range that this worker will be calculating
int data_length = *grid_width * *grid_height;
int start_range = (data_length / *num_workers) * get_global_id(0);
int end_range = (data_length / *num_workers) * (get_global_id(0) + 1);
// x, y + 1
int neighbors = 0;
for (int i = start_range; i < end_range; i++){
int2 pixelcoord = (int2) (i % *grid_width, i / *grid_height);
// add all 8 blocks to neghbors
neighbors = 0;
// Top
neighbors += back_image[i - *grid_width];
// Top right
neighbors += back_image[i - *grid_width + 1];
// Right
neighbors += back_image[i + 1];
// Bottom Right
neighbors += back_image[i + *grid_width + 1];
// Bottom
neighbors += back_image[i + *grid_width];
// Bottom Left
neighbors += back_image[i + *grid_width - 1];
// Left
neighbors += back_image[i - 1];
// Top left
neighbors += back_image[i - *grid_width - 1];
// push living status to the padded second char
write_imagef(front_image, pixelcoord, black);
if (neighbors == 3 || (neighbors == 2 && back_image[i])){
write_imagef(front_image, pixelcoord, white);
}
//else
//write_imagei(front_image, pixelcoord, white);
}
}

15
Conway_OpenCL/fragment_shader.sh
View File

@@ -1,15 +0,0 @@
#version 330 core
in vec3 ourColor;
in vec2 TexCoord;
out vec4 color;
// Texture samplers
uniform sampler2D pixel_texture;
void main()
{
// Linearly interpolate between both textures (second texture is only slightly combined)
//color = vec4(1.0f, 0.5f, 0.2f, 1.0f);
color = texture(pixel_texture, TexCoord);
}

16
Conway_OpenCL/vertex_shader.sh
View File

@@ -1,16 +0,0 @@
#version 330 core
layout (location = 0) in vec3 position;
layout (location = 1) in vec3 color;
layout (location = 2) in vec2 texCoord;
out vec3 ourColor;
out vec2 TexCoord;
void main()
{
gl_Position = vec4(position, 1.0f);
ourColor = color;
// We swap the y-axis by substracing our coordinates from 1. This is done because most images have the top y-axis inversed with OpenGL's top y-axis.
// TexCoord = texCoord;
TexCoord = vec2(texCoord.x, 1.0 - texCoord.y);
}

241
Conway_OpenCL/~AutoRecover.Conway_OpenCL.vcxproj
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<LinkIncremental>false</LinkIncremental>
<OutDir>$(SolutionDir)bin\x86\$(Configuration)\</OutDir>
<IntDir>temp\x86\$(Configuration)\</IntDir>
<IncludePath>Z:\Cpp_Libs\SFML-Visual_Studio2015RCx32\include;Z:\Cpp_Libs\glew-1.13.0\include;Z:\Cpp_Libs\glfw-3.1.2.bin.WIN32\include;$(IncludePath)</IncludePath>
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<OutDir>$(SolutionDir)bin\x86_64\$(Configuration)\</OutDir>
<IntDir>temp\x86_64\$(Configuration)\</IntDir>
<IncludePath>Z:\Cpp_Libs\SFML-Visual_Studio2015RCx64\include;Z:\Cpp_Libs\glew-1.13.0\include;Z:\Cpp_Libs\glfw-3.1.2.bin.WIN64\include;$(IncludePath)</IncludePath>
<LibraryPath>Z:\Cpp_Libs\SFML-Visual_Studio2015RCx64\lib;Z:\Cpp_Libs\glew-1.13.0\lib\Release\x64;Z:\Cpp_Libs\glfw-3.1.2.bin.WIN64\lib-vc2015;$(LibraryPath)</LibraryPath>
</PropertyGroup>
<PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|x64'">
<OutDir>$(SolutionDir)bin\x86_64\$(Configuration)\</OutDir>
<IntDir>temp\x86_64\$(Configuration)\</IntDir>
<LinkIncremental>false</LinkIncremental>
<IncludePath>Z:\Cpp_Libs\SFML-Visual_Studio2015RCx64\include;Z:\Cpp_Libs\glew-1.13.0\include;Z:\Cpp_Libs\glfw-3.1.2.bin.WIN64\include;$(IncludePath)</IncludePath>
<LibraryPath>Z:\Cpp_Libs\SFML-Visual_Studio2015RCx64\lib;Z:\Cpp_Libs\glew-1.13.0\lib\Release\x64;Z:\Cpp_Libs\glfw-3.1.2.bin.WIN64\lib-vc2015;$(LibraryPath)</LibraryPath>
</PropertyGroup>
<ItemDefinitionGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
<ClCompile>
<WarningLevel>Level3</WarningLevel>
<Optimization>Disabled</Optimization>
<AdditionalIncludeDirectories>../../../../include;../../../../include/SDKUtil;$(AMDAPPSDKROOT)/include;Z:\Cpp_Libs\SFML-Visual_Studio2015RCx32\include;%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories>
<InlineFunctionExpansion>Disabled</InlineFunctionExpansion>
<PreprocessorDefinitions>WIN32;_WINDOWS;_DEBUG;_CRT_SECURE_NO_WARNINGS;CMAKE_INTDIR="Debug";%(PreprocessorDefinitions)</PreprocessorDefinitions>
<MinimalRebuild>false</MinimalRebuild>
<RuntimeTypeInfo>true</RuntimeTypeInfo>
<CompileAs>CompileAsCpp</CompileAs>
<DisableSpecificWarnings>4005;4996</DisableSpecificWarnings>
<DebugInformationFormat>ProgramDatabase</DebugInformationFormat>
<ProgramDataBaseFileName>$(SolutionDir)bin/x86/Debug/HelloWorld.pdb</ProgramDataBaseFileName>
<AssemblerListingLocation>Debug</AssemblerListingLocation>
</ClCompile>
<Link>
<GenerateDebugInformation>true</GenerateDebugInformation>
<AdditionalLibraryDirectories>..\..\..\..\lib\win32\;$(AMDAPPSDKROOT)\lib\x86\;%(AdditionalLibraryDirectories)</AdditionalLibraryDirectories>
<AdditionalDependencies>kernel32.lib;user32.lib;gdi32.lib;winspool.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;comdlg32.lib;advapi32.lib;OpenCL.lib;opengl32.lib;glew32.lib;glfw3.lib;sfml-graphics-d.lib;sfml-audio-d.lib;sfml-network-d.lib;sfml-system-d.lib;sfml-window-d.lib;%(AdditionalDependencies)</AdditionalDependencies>
<SubSystem>Console</SubSystem>
<ImageHasSafeExceptionHandlers>false</ImageHasSafeExceptionHandlers>
<AdditionalOptions> /machine:X86 /debug %(AdditionalOptions)</AdditionalOptions>
<ImportLibrary>$(SolutionDir)bin/x86/Debug/HelloWorld.lib</ImportLibrary>
</Link>
<PostBuildEvent>
<Command>copy conway_compute.cl "$(OutDir)conway_kernel.cl" /Y
copy conway_align.cl "$(OutDir)conway_kernel.cl" /Y</Command>
</PostBuildEvent>
</ItemDefinitionGroup>
<ItemDefinitionGroup Condition="'$(Configuration)|$(Platform)'=='Debug|x64'">
<ClCompile>
<WarningLevel>Level3</WarningLevel>
<Optimization>Disabled</Optimization>
<AdditionalIncludeDirectories>../../../../include;../../../../include/SDKUtil;$(AMDAPPSDKROOT)/include;Z:\Cpp_Libs\SFML-Visual_Studio2015RCx64\include;%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories>
<InlineFunctionExpansion>Disabled</InlineFunctionExpansion>
<PreprocessorDefinitions>WIN32;_WINDOWS;_DEBUG;_CRT_SECURE_NO_WARNINGS;CMAKE_INTDIR="Debug";%(PreprocessorDefinitions)</PreprocessorDefinitions>
<RuntimeTypeInfo>true</RuntimeTypeInfo>
<ProgramDataBaseFileName>$(SolutionDir)bin/x86_64/Debug/HelloWorld.pdb</ProgramDataBaseFileName>
<AssemblerListingLocation>Debug</AssemblerListingLocation>
<CompileAs>CompileAsCpp</CompileAs>
<DisableSpecificWarnings>4005;4996</DisableSpecificWarnings>
</ClCompile>
<Link>
<GenerateDebugInformation>true</GenerateDebugInformation>
<AdditionalLibraryDirectories>..\..\..\..\lib\win64\;$(AMDAPPSDKROOT)\lib\x86_64\;%(AdditionalLibraryDirectories)</AdditionalLibraryDirectories>
<AdditionalDependencies>kernel32.lib;user32.lib;gdi32.lib;winspool.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;comdlg32.lib;advapi32.lib;OpenCL.lib;opengl32.lib;glfw3.lib;glew32.lib;sfml-graphics-d.lib;sfml-audio-d.lib;sfml-network-d.lib;sfml-system-d.lib;sfml-window-d.lib;%(AdditionalDependencies)</AdditionalDependencies>
<SubSystem>Console</SubSystem>
<ImportLibrary>$(SolutionDir)bin/x86_64/Debug/HelloWorld.lib</ImportLibrary>
<ImageHasSafeExceptionHandlers>false</ImageHasSafeExceptionHandlers>
<AdditionalOptions> /machine:x64 /debug %(AdditionalOptions)</AdditionalOptions>
</Link>
<PostBuildEvent>
<Command>copy conway_compute.cl "$(OutDir)conway_kernel.cl" /Y
copy conway_align.cl "$(OutDir)conway_kernel.cl" /Y</Command>
</PostBuildEvent>
</ItemDefinitionGroup>
<ItemDefinitionGroup Condition="'$(Configuration)|$(Platform)'=='Release|Win32'">
<ClCompile>
<WarningLevel>Level3</WarningLevel>
<Optimization>MaxSpeed</Optimization>
<FunctionLevelLinking>
</FunctionLevelLinking>
<IntrinsicFunctions>false</IntrinsicFunctions>
<AdditionalIncludeDirectories>../../../../include;../../../../include/SDKUtil;$(AMDAPPSDKROOT)/include;Z:\Cpp_Libs\SFML-Visual_Studio2015RCx32\include;%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories>
<DebugInformationFormat />
<InlineFunctionExpansion>AnySuitable</InlineFunctionExpansion>
<PreprocessorDefinitions>WIN32;_WINDOWS;NDEBUG;_CRT_SECURE_NO_WARNINGS;CMAKE_INTDIR="Release";%(PreprocessorDefinitions)</PreprocessorDefinitions>
<RuntimeTypeInfo>true</RuntimeTypeInfo>
<ProgramDataBaseFileName>$(SolutionDir)bin/x86/Release/HelloWorld.pdb</ProgramDataBaseFileName>
<CompileAs>CompileAsCpp</CompileAs>
<DisableSpecificWarnings>4005;4996</DisableSpecificWarnings>
<AssemblerListingLocation>Release</AssemblerListingLocation>
</ClCompile>
<Link>
<GenerateDebugInformation>false</GenerateDebugInformation>
<EnableCOMDATFolding>
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<OptimizeReferences>
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<SubSystem>Console</SubSystem>
<ImportLibrary>$(SolutionDir)bin/x86/Release/HelloWorld.lib</ImportLibrary>
<ImageHasSafeExceptionHandlers>false</ImageHasSafeExceptionHandlers>
<AdditionalOptions> /machine:X86 %(AdditionalOptions)</AdditionalOptions>
</Link>
<ProjectReference>
<LinkLibraryDependencies>false</LinkLibraryDependencies>
</ProjectReference>
<PostBuildEvent>
<Command>copy conway_compute.cl "$(OutDir)conway_kernel.cl" /Y
copy conway_align.cl "$(OutDir)conway_kernel.cl" /Y</Command>
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<ClCompile>
<WarningLevel>Level3</WarningLevel>
<Optimization>MaxSpeed</Optimization>
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<DebugInformationFormat />
<PreprocessorDefinitions>WIN32;_WINDOWS;NDEBUG;_CRT_SECURE_NO_WARNINGS;CMAKE_INTDIR="Release";%(PreprocessorDefinitions)</PreprocessorDefinitions>
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<ImageHasSafeExceptionHandlers>false</ImageHasSafeExceptionHandlers>
<AdditionalOptions> /machine:x64 %(AdditionalOptions)</AdditionalOptions>
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<PostBuildEvent>
<Command>copy conway_compute.cl "$(OutDir)conway_kernel.cl" /Y
copy conway_align.cl "$(OutDir)conway_kernel.cl" /Y</Command>
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<ItemGroup>
<ClCompile Include="Conway.hpp" />
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<ItemGroup>
<None Include="conway_compute.cl" />
<None Include="conway_align.cl" />
<None Include="fragment_shader.sh" />
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<ImportGroup Label="ExtensionTargets">
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369
FindSFML.cmake Normal file
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@@ -0,0 +1,369 @@
# This script locates the SFML library
# ------------------------------------
#
# Usage
# -----
#
# When you try to locate the SFML libraries, you must specify which modules you want to use (system, window, graphics, network, audio, main).
# If none is given, the SFML_LIBRARIES variable will be empty and you'll end up linking to nothing.
# example:
# find_package(SFML COMPONENTS graphics window system) # find the graphics, window and system modules
#
# You can enforce a specific version, either MAJOR.MINOR or only MAJOR.
# If nothing is specified, the version won't be checked (i.e. any version will be accepted).
# example:
# find_package(SFML COMPONENTS ...) # no specific version required
# find_package(SFML 2 COMPONENTS ...) # any 2.x version
# find_package(SFML 2.4 COMPONENTS ...) # version 2.4 or greater
#
# By default, the dynamic libraries of SFML will be found. To find the static ones instead,
# you must set the SFML_STATIC_LIBRARIES variable to TRUE before calling find_package(SFML ...).
# Since you have to link yourself all the SFML dependencies when you link it statically, the following
# additional variables are defined: SFML_XXX_DEPENDENCIES and SFML_DEPENDENCIES (see their detailed
# description below).
# In case of static linking, the SFML_STATIC macro will also be defined by this script.
# example:
# set(SFML_STATIC_LIBRARIES TRUE)
# find_package(SFML 2 COMPONENTS network system)
#
# On Mac OS X if SFML_STATIC_LIBRARIES is not set to TRUE then by default CMake will search for frameworks unless
# CMAKE_FIND_FRAMEWORK is set to "NEVER" for example. Please refer to CMake documentation for more details.
# Moreover, keep in mind that SFML frameworks are only available as release libraries unlike dylibs which
# are available for both release and debug modes.
#
# If SFML is not installed in a standard path, you can use the SFML_ROOT CMake (or environment) variable
# to tell CMake where SFML is.
#
# Output
# ------
#
# This script defines the following variables:
# - For each specified module XXX (system, window, graphics, network, audio, main):
# - SFML_XXX_LIBRARY_DEBUG: the name of the debug library of the xxx module (set to SFML_XXX_LIBRARY_RELEASE is no debug version is found)
# - SFML_XXX_LIBRARY_RELEASE: the name of the release library of the xxx module (set to SFML_XXX_LIBRARY_DEBUG is no release version is found)
# - SFML_XXX_LIBRARY: the name of the library to link to for the xxx module (includes both debug and optimized names if necessary)
# - SFML_XXX_FOUND: true if either the debug or release library of the xxx module is found
# - SFML_XXX_DEPENDENCIES: the list of libraries the module depends on, in case of static linking
# - SFML_LIBRARIES: the list of all libraries corresponding to the required modules
# - SFML_FOUND: true if all the required modules are found
# - SFML_INCLUDE_DIR: the path where SFML headers are located (the directory containing the SFML/Config.hpp file)
# - SFML_DEPENDENCIES: the list of libraries SFML depends on, in case of static linking
#
# example:
# find_package(SFML 2 COMPONENTS system window graphics audio REQUIRED)
# include_directories(${SFML_INCLUDE_DIR})
# add_executable(myapp ...)
# target_link_libraries(myapp ${SFML_LIBRARIES})
# define the SFML_STATIC macro if static build was chosen
if(SFML_STATIC_LIBRARIES)
add_definitions(-DSFML_STATIC)
endif()
# define the list of search paths for headers and libraries
set(FIND_SFML_PATHS
${SFML_ROOT}
$ENV{SFML_ROOT}
~/Library/Frameworks
/Library/Frameworks
/usr/local
/usr
/sw
/opt/local
/opt/csw
/opt)
# find the SFML include directory
find_path(SFML_INCLUDE_DIR SFML/Config.hpp
PATH_SUFFIXES include
PATHS ${FIND_SFML_PATHS})
# check the version number
set(SFML_VERSION_OK TRUE)
if(SFML_FIND_VERSION AND SFML_INCLUDE_DIR)
# extract the major and minor version numbers from SFML/Config.hpp
# we have to handle framework a little bit differently:
if("${SFML_INCLUDE_DIR}" MATCHES "SFML.framework")
set(SFML_CONFIG_HPP_INPUT "${SFML_INCLUDE_DIR}/Headers/Config.hpp")
else()
set(SFML_CONFIG_HPP_INPUT "${SFML_INCLUDE_DIR}/SFML/Config.hpp")
endif()
FILE(READ "${SFML_CONFIG_HPP_INPUT}" SFML_CONFIG_HPP_CONTENTS)
STRING(REGEX REPLACE ".*#define SFML_VERSION_MAJOR ([0-9]+).*" "\\1" SFML_VERSION_MAJOR "${SFML_CONFIG_HPP_CONTENTS}")
STRING(REGEX REPLACE ".*#define SFML_VERSION_MINOR ([0-9]+).*" "\\1" SFML_VERSION_MINOR "${SFML_CONFIG_HPP_CONTENTS}")
STRING(REGEX REPLACE ".*#define SFML_VERSION_PATCH ([0-9]+).*" "\\1" SFML_VERSION_PATCH "${SFML_CONFIG_HPP_CONTENTS}")
if (NOT "${SFML_VERSION_PATCH}" MATCHES "^[0-9]+$")
set(SFML_VERSION_PATCH 0)
endif()
math(EXPR SFML_REQUESTED_VERSION "${SFML_FIND_VERSION_MAJOR} * 10000 + ${SFML_FIND_VERSION_MINOR} * 100 + ${SFML_FIND_VERSION_PATCH}")
# if we could extract them, compare with the requested version number
if (SFML_VERSION_MAJOR)
# transform version numbers to an integer
math(EXPR SFML_VERSION "${SFML_VERSION_MAJOR} * 10000 + ${SFML_VERSION_MINOR} * 100 + ${SFML_VERSION_PATCH}")
# compare them
if(SFML_VERSION LESS SFML_REQUESTED_VERSION)
set(SFML_VERSION_OK FALSE)
endif()
else()
# SFML version is < 2.0
if (SFML_REQUESTED_VERSION GREATER 10900)
set(SFML_VERSION_OK FALSE)
set(SFML_VERSION_MAJOR 1)
set(SFML_VERSION_MINOR x)
set(SFML_VERSION_PATCH x)
endif()
endif()
endif()
# find the requested modules
set(SFML_FOUND TRUE) # will be set to false if one of the required modules is not found
foreach(FIND_SFML_COMPONENT ${SFML_FIND_COMPONENTS})
string(TOLOWER ${FIND_SFML_COMPONENT} FIND_SFML_COMPONENT_LOWER)
string(TOUPPER ${FIND_SFML_COMPONENT} FIND_SFML_COMPONENT_UPPER)
set(FIND_SFML_COMPONENT_NAME sfml-${FIND_SFML_COMPONENT_LOWER})
# no suffix for sfml-main, it is always a static library
if(FIND_SFML_COMPONENT_LOWER STREQUAL "main")
# release library
find_library(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE
NAMES ${FIND_SFML_COMPONENT_NAME}
PATH_SUFFIXES lib64 lib
PATHS ${FIND_SFML_PATHS})
# debug library
find_library(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG
NAMES ${FIND_SFML_COMPONENT_NAME}-d
PATH_SUFFIXES lib64 lib
PATHS ${FIND_SFML_PATHS})
else()
# static release library
find_library(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_STATIC_RELEASE
NAMES ${FIND_SFML_COMPONENT_NAME}-s
PATH_SUFFIXES lib64 lib
PATHS ${FIND_SFML_PATHS})
# static debug library
find_library(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_STATIC_DEBUG
NAMES ${FIND_SFML_COMPONENT_NAME}-s-d
PATH_SUFFIXES lib64 lib
PATHS ${FIND_SFML_PATHS})
# dynamic release library
find_library(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DYNAMIC_RELEASE
NAMES ${FIND_SFML_COMPONENT_NAME}
PATH_SUFFIXES lib64 lib
PATHS ${FIND_SFML_PATHS})
# dynamic debug library
find_library(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DYNAMIC_DEBUG
NAMES ${FIND_SFML_COMPONENT_NAME}-d
PATH_SUFFIXES lib64 lib
PATHS ${FIND_SFML_PATHS})
# choose the entries that fit the requested link type
if(SFML_STATIC_LIBRARIES)
if(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_STATIC_RELEASE)
set(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE ${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_STATIC_RELEASE})
endif()
if(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_STATIC_DEBUG)
set(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG ${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_STATIC_DEBUG})
endif()
else()
if(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DYNAMIC_RELEASE)
set(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE ${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DYNAMIC_RELEASE})
endif()
if(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DYNAMIC_DEBUG)
set(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG ${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DYNAMIC_DEBUG})
endif()
endif()
endif()
if (SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG OR SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE)
# library found
set(SFML_${FIND_SFML_COMPONENT_UPPER}_FOUND TRUE)
# if both are found, set SFML_XXX_LIBRARY to contain both
if (SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG AND SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE)
set(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY debug ${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG}
optimized ${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE})
endif()
# if only one debug/release variant is found, set the other to be equal to the found one
if (SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG AND NOT SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE)
# debug and not release
set(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE ${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG})
set(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY ${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG})
endif()
if (SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE AND NOT SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG)
# release and not debug
set(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG ${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE})
set(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY ${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE})
endif()
else()
# library not found
set(SFML_FOUND FALSE)
set(SFML_${FIND_SFML_COMPONENT_UPPER}_FOUND FALSE)
set(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY "")
set(FIND_SFML_MISSING "${FIND_SFML_MISSING} SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY")
endif()
# mark as advanced
MARK_AS_ADVANCED(SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY
SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_RELEASE
SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DEBUG
SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_STATIC_RELEASE
SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_STATIC_DEBUG
SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DYNAMIC_RELEASE
SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY_DYNAMIC_DEBUG)
# add to the global list of libraries
set(SFML_LIBRARIES ${SFML_LIBRARIES} "${SFML_${FIND_SFML_COMPONENT_UPPER}_LIBRARY}")
endforeach()
# in case of static linking, we must also define the list of all the dependencies of SFML libraries
if(SFML_STATIC_LIBRARIES)
# detect the OS
if(${CMAKE_SYSTEM_NAME} MATCHES "Windows")
set(FIND_SFML_OS_WINDOWS 1)
elseif(${CMAKE_SYSTEM_NAME} MATCHES "Linux")
set(FIND_SFML_OS_LINUX 1)
elseif(${CMAKE_SYSTEM_NAME} MATCHES "FreeBSD")
set(FIND_SFML_OS_FREEBSD 1)
elseif(${CMAKE_SYSTEM_NAME} MATCHES "Darwin")
set(FIND_SFML_OS_MACOSX 1)
endif()
# start with an empty list
set(SFML_DEPENDENCIES)
set(FIND_SFML_DEPENDENCIES_NOTFOUND)
# macro that searches for a 3rd-party library
macro(find_sfml_dependency output friendlyname)
# No lookup in environment variables (PATH on Windows), as they may contain wrong library versions
find_library(${output} NAMES ${ARGN} PATHS ${FIND_SFML_PATHS} PATH_SUFFIXES lib NO_SYSTEM_ENVIRONMENT_PATH)
if(${${output}} STREQUAL "${output}-NOTFOUND")
unset(output)
set(FIND_SFML_DEPENDENCIES_NOTFOUND "${FIND_SFML_DEPENDENCIES_NOTFOUND} ${friendlyname}")
endif()
endmacro()
# sfml-system
list(FIND SFML_FIND_COMPONENTS "system" FIND_SFML_SYSTEM_COMPONENT)
if(NOT ${FIND_SFML_SYSTEM_COMPONENT} EQUAL -1)
# update the list -- these are only system libraries, no need to find them
if(FIND_SFML_OS_LINUX OR FIND_SFML_OS_FREEBSD OR FIND_SFML_OS_MACOSX)
set(SFML_SYSTEM_DEPENDENCIES "pthread")
endif()
if(FIND_SFML_OS_LINUX)
set(SFML_SYSTEM_DEPENDENCIES ${SFML_SYSTEM_DEPENDENCIES} "rt")
endif()
if(FIND_SFML_OS_WINDOWS)
set(SFML_SYSTEM_DEPENDENCIES "winmm")
endif()
set(SFML_DEPENDENCIES ${SFML_SYSTEM_DEPENDENCIES} ${SFML_DEPENDENCIES})
endif()
# sfml-network
list(FIND SFML_FIND_COMPONENTS "network" FIND_SFML_NETWORK_COMPONENT)
if(NOT ${FIND_SFML_NETWORK_COMPONENT} EQUAL -1)
# update the list -- these are only system libraries, no need to find them
if(FIND_SFML_OS_WINDOWS)
set(SFML_NETWORK_DEPENDENCIES "ws2_32")
endif()
set(SFML_DEPENDENCIES ${SFML_NETWORK_DEPENDENCIES} ${SFML_DEPENDENCIES})
endif()
# sfml-window
list(FIND SFML_FIND_COMPONENTS "window" FIND_SFML_WINDOW_COMPONENT)
if(NOT ${FIND_SFML_WINDOW_COMPONENT} EQUAL -1)
# find libraries
if(FIND_SFML_OS_LINUX OR FIND_SFML_OS_FREEBSD)
find_sfml_dependency(X11_LIBRARY "X11" X11)
find_sfml_dependency(LIBXCB_LIBRARIES "XCB" xcb libxcb)
find_sfml_dependency(X11_XCB_LIBRARY "X11-xcb" X11-xcb libX11-xcb)
find_sfml_dependency(XCB_RANDR_LIBRARY "xcb-randr" xcb-randr libxcb-randr)
find_sfml_dependency(XCB_IMAGE_LIBRARY "xcb-image" xcb-image libxcb-image)
endif()
if(FIND_SFML_OS_LINUX)
find_sfml_dependency(UDEV_LIBRARIES "UDev" udev libudev)
endif()
# update the list
if(FIND_SFML_OS_WINDOWS)
set(SFML_WINDOW_DEPENDENCIES ${SFML_WINDOW_DEPENDENCIES} "opengl32" "winmm" "gdi32")
elseif(FIND_SFML_OS_LINUX)
set(SFML_WINDOW_DEPENDENCIES ${SFML_WINDOW_DEPENDENCIES} "GL" ${X11_LIBRARY} ${LIBXCB_LIBRARIES} ${X11_XCB_LIBRARY} ${XCB_RANDR_LIBRARY} ${XCB_IMAGE_LIBRARY} ${UDEV_LIBRARIES})
elseif(FIND_SFML_OS_FREEBSD)
set(SFML_WINDOW_DEPENDENCIES ${SFML_WINDOW_DEPENDENCIES} "GL" ${X11_LIBRARY} ${LIBXCB_LIBRARIES} ${X11_XCB_LIBRARY} ${XCB_RANDR_LIBRARY} ${XCB_IMAGE_LIBRARY} "usbhid")
elseif(FIND_SFML_OS_MACOSX)
set(SFML_WINDOW_DEPENDENCIES ${SFML_WINDOW_DEPENDENCIES} "-framework OpenGL -framework Foundation -framework AppKit -framework IOKit -framework Carbon")
endif()
set(SFML_DEPENDENCIES ${SFML_WINDOW_DEPENDENCIES} ${SFML_DEPENDENCIES})
endif()
# sfml-graphics
list(FIND SFML_FIND_COMPONENTS "graphics" FIND_SFML_GRAPHICS_COMPONENT)
if(NOT ${FIND_SFML_GRAPHICS_COMPONENT} EQUAL -1)
# find libraries
find_sfml_dependency(FREETYPE_LIBRARY "FreeType" freetype)
find_sfml_dependency(JPEG_LIBRARY "libjpeg" jpeg)
# update the list
set(SFML_GRAPHICS_DEPENDENCIES ${FREETYPE_LIBRARY} ${JPEG_LIBRARY})
set(SFML_DEPENDENCIES ${SFML_GRAPHICS_DEPENDENCIES} ${SFML_DEPENDENCIES})
endif()
# sfml-audio
list(FIND SFML_FIND_COMPONENTS "audio" FIND_SFML_AUDIO_COMPONENT)
if(NOT ${FIND_SFML_AUDIO_COMPONENT} EQUAL -1)
# find libraries
find_sfml_dependency(OPENAL_LIBRARY "OpenAL" openal openal32)
find_sfml_dependency(OGG_LIBRARY "Ogg" ogg)
find_sfml_dependency(VORBIS_LIBRARY "Vorbis" vorbis)
find_sfml_dependency(VORBISFILE_LIBRARY "VorbisFile" vorbisfile)
find_sfml_dependency(VORBISENC_LIBRARY "VorbisEnc" vorbisenc)
find_sfml_dependency(FLAC_LIBRARY "FLAC" FLAC)
# update the list
set(SFML_AUDIO_DEPENDENCIES ${OPENAL_LIBRARY} ${FLAC_LIBRARY} ${VORBISENC_LIBRARY} ${VORBISFILE_LIBRARY} ${VORBIS_LIBRARY} ${OGG_LIBRARY})
set(SFML_DEPENDENCIES ${SFML_DEPENDENCIES} ${SFML_AUDIO_DEPENDENCIES})
endif()
endif()
# handle errors
if(NOT SFML_VERSION_OK)
# SFML version not ok
set(FIND_SFML_ERROR "SFML found but version too low (requested: ${SFML_FIND_VERSION}, found: ${SFML_VERSION_MAJOR}.${SFML_VERSION_MINOR}.${SFML_VERSION_PATCH})")
set(SFML_FOUND FALSE)
elseif(SFML_STATIC_LIBRARIES AND FIND_SFML_DEPENDENCIES_NOTFOUND)
set(FIND_SFML_ERROR "SFML found but some of its dependencies are missing (${FIND_SFML_DEPENDENCIES_NOTFOUND})")
set(SFML_FOUND FALSE)
elseif(NOT SFML_FOUND)
# include directory or library not found
set(FIND_SFML_ERROR "Could NOT find SFML (missing: ${FIND_SFML_MISSING})")
endif()
if (NOT SFML_FOUND)
if(SFML_FIND_REQUIRED)
# fatal error
message(FATAL_ERROR ${FIND_SFML_ERROR})
elseif(NOT SFML_FIND_QUIETLY)
# error but continue
message("${FIND_SFML_ERROR}")
endif()
endif()
# handle success
if(SFML_FOUND AND NOT SFML_FIND_QUIETLY)
message(STATUS "Found SFML ${SFML_VERSION_MAJOR}.${SFML_VERSION_MINOR}.${SFML_VERSION_PATCH} in ${SFML_INCLUDE_DIR}")
endif()

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##About
A simple rework of the CPU based Conway's game of life simulation on the GPU

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#pragma once
#include <string>
#include <SFML/Graphics.hpp>
#include <unordered_map>
#include <iostream>
#include "Vector4.hpp"
#include <string.h>
#include <memory>
#ifdef linux
#include <CL/cl.h>
#include <CL/opencl.h>
#include <GL/glx.h>
#elif defined _WIN32
#define CL_USE_DEPRECATED_OPENCL_1_2_APIS
#include <CL/cl_gl.h>
#include <CL/cl.h>
#include <CL/opencl.h>
// Note: windows.h must be included before Gl/GL.h
#include <windows.h>
#include <GL/GL.h>
#elif defined TARGET_OS_MAC
#include <OpenCL/opencl.h>
#endif
class OpenCL {
public:
OpenCL();
~OpenCL();
// command queues are associated with a device and context, so for multi-gpu applications you would need
// multiple command queues
// CONTEXTS
// - An OpenCL context is created with one or more devices. Contexts are used by the OpenCL runtime
// for managing objects such as command - queues, memory, program and kernel objects and for executing
// kernels on one or more devices specified in the context.
// - Contexts cannot be created using more than one platform!
bool init();
bool compile_kernel(std::string kernel_path, std::string kernel_name);
// Create an image buffer from an SF texture. Access Type is the read/write specifier required by OpenCL
bool create_image_buffer_from_texture(std::string buffer_name, sf::Texture* texture, cl_int access_type);
// Have CL create and manage the texture for the image buffer. Access Type is the read/write specifier required by OpenCL
bool create_image_buffer(std::string buffer_name, sf::Vector2i size, sf::Vector2f position, cl_int access_type);
// Create a buffer with CL_MEM_READ_ONLY and CL_MEM_COPY_HOST_PTR
int create_buffer(std::string buffer_name, cl_uint size, void* data);
// Create a buffer with user defined data access flags
int create_buffer(std::string buffer_name, cl_uint size, void* data, cl_mem_flags flags);
int set_kernel_arg(std::string kernel_name, int index, std::string buffer_name);
void run_kernel(std::string kernel_name, sf::Vector2i work_size);
void draw(sf::RenderWindow *window);
class device {
public:
#pragma pack(push, 1)
struct packed_data {
cl_device_type device_type;
cl_uint clock_frequency;
char opencl_version[64];
cl_uint compute_units;
char device_extensions[1024];
char device_name[256];
char platform_name[128];
};
#pragma pack(pop)
device(cl_device_id device_id, cl_platform_id platform_id);
device(const device& d);
void print(std::ostream& stream) const;
void print_packed_data(std::ostream& stream);
cl_device_id getDeviceId() const { return device_id; };
cl_platform_id getPlatformId() const { return platform_id; };
private:
packed_data data;
cl_device_id device_id;
cl_platform_id platform_id;
cl_bool is_little_endian = false;
bool cl_gl_sharing = false;
};
private:
int error = 0;
// The device which we have selected according to certain criteria
cl_platform_id platform_id;
cl_device_id device_id;
// The GL shared context and its subsiquently generated command queue
cl_context context;
cl_command_queue command_queue;
// Maps which contain a mapping from "name" to the host side CL memory object
std::unordered_map<std::string, cl_kernel> kernel_map;
std::unordered_map<std::string, cl_mem> buffer_map;
std::unordered_map<std::string, std::pair<sf::Sprite, std::unique_ptr<sf::Texture>>> image_map;
std::vector<device> device_list;
// Query the hardware on this machine and store the devices
bool aquire_hardware();
// After aquiring hardware, create a shared context using platform specific CL commands
bool create_shared_context();
// Command queues must be created with a valid context
bool create_command_queue();
// Store a cl_mem object in the buffer map <string:name, cl_mem:buffer>
bool store_buffer(cl_mem buffer, std::string buffer_name);
// Using CL release the memory object and remove the KVP associated with the buffer name
bool release_buffer(std::string buffer_name);
bool load_config();
void save_config();
static bool vr_assert(int error_code, std::string function_name);
};

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////////////////////////////////////////////////////////////
//
// This is a small addition to the SFML sf::Vector templates which
// adds a sf::Vector4(f, i, u)
//
////////////////////////////////////////////////////////////
//
// SFML - Simple and Fast Multimedia Library
// Copyright (C) 2007-2016 Laurent Gomila (laurent@sfml-dev.org)
//
// This software is provided 'as-is', without any express or implied warranty.
// In no event will the authors be held liable for any damages arising from the use of this software.
//
// Permission is granted to anyone to use this software for any purpose,
// including commercial applications, and to alter it and redistribute it freely,
// subject to the following restrictions:
//
// 1. The origin of this software must not be misrepresented;
// you must not claim that you wrote the original software.
// If you use this software in a product, an acknowledgment
// in the product documentation would be appreciated but is not required.
//
// 2. Altered source versions must be plainly marked as such,
// and must not be misrepresented as being the original software.
//
// 3. This notice may not be removed or altered from any source distribution.
//
////////////////////////////////////////////////////////////
#ifndef SFML_VECTOR4_H
#define SFML_VECTOR4_H
namespace sf {
////////////////////////////////////////////////////////////
/// \brief Utility template class for manipulating
/// 2-dimensional vectors
///
////////////////////////////////////////////////////////////
template <typename T>
class Vector4 {
public:
////////////////////////////////////////////////////////////
/// \brief Default constructor
///
/// Creates a Vector4(0, 0).
///
////////////////////////////////////////////////////////////
Vector4();
////////////////////////////////////////////////////////////
/// \brief Construct the vector from its coordinates
///
/// \param X X coordinate
/// \param Y Y coordinate
///
////////////////////////////////////////////////////////////
Vector4(T X, T Y, T Z, T W);
////////////////////////////////////////////////////////////
/// \brief Construct the vector from another type of vector
///
/// This constructor doesn't replace the copy constructor,
/// it's called only when U != T.
/// A call to this constructor will fail to compile if U
/// is not convertible to T.
///
/// \param vector Vector to convert
///
////////////////////////////////////////////////////////////
template <typename U>
explicit Vector4(const Vector4<U>& vector);
////////////////////////////////////////////////////////////
// Member data
////////////////////////////////////////////////////////////
T x; ///< X coordinate of the vector
T y; ///< Y coordinate of the vector
T z; ///< Z coordinate of the vector
T w; ///< W coordinate of the vector
};
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of unary operator -
///
/// \param right Vector to negate
///
/// \return Memberwise opposite of the vector
///
////////////////////////////////////////////////////////////
template <typename T>
Vector4<T> operator -(const Vector4<T>& right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator +=
///
/// This operator performs a memberwise addition of both vectors,
/// and assigns the result to \a left.
///
/// \param left Left operand (a vector)
/// \param right Right operand (a vector)
///
/// \return Reference to \a left
///
////////////////////////////////////////////////////////////
template <typename T>
Vector4<T>& operator +=(Vector4<T>& left, const Vector4<T>& right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator -=
///
/// This operator performs a memberwise subtraction of both vectors,
/// and assigns the result to \a left.
///
/// \param left Left operand (a vector)
/// \param right Right operand (a vector)
///
/// \return Reference to \a left
///
////////////////////////////////////////////////////////////
template <typename T>
Vector4<T>& operator -=(Vector4<T>& left, const Vector4<T>& right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator +
///
/// \param left Left operand (a vector)
/// \param right Right operand (a vector)
///
/// \return Memberwise addition of both vectors
///
////////////////////////////////////////////////////////////
template <typename T>
Vector4<T> operator +(const Vector4<T>& left, const Vector4<T>& right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator -
///
/// \param left Left operand (a vector)
/// \param right Right operand (a vector)
///
/// \return Memberwise subtraction of both vectors
///
////////////////////////////////////////////////////////////
template <typename T>
Vector4<T> operator -(const Vector4<T>& left, const Vector4<T>& right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator *
///
/// \param left Left operand (a vector)
/// \param right Right operand (a scalar value)
///
/// \return Memberwise multiplication by \a right
///
////////////////////////////////////////////////////////////
template <typename T>
Vector4<T> operator *(const Vector4<T>& left, T right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator *
///
/// \param left Left operand (a scalar value)
/// \param right Right operand (a vector)
///
/// \return Memberwise multiplication by \a left
///
////////////////////////////////////////////////////////////
template <typename T>
Vector4<T> operator *(T left, const Vector4<T>& right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator *=
///
/// This operator performs a memberwise multiplication by \a right,
/// and assigns the result to \a left.
///
/// \param left Left operand (a vector)
/// \param right Right operand (a scalar value)
///
/// \return Reference to \a left
///
////////////////////////////////////////////////////////////
template <typename T>
Vector4<T>& operator *=(Vector4<T>& left, T right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator /
///
/// \param left Left operand (a vector)
/// \param right Right operand (a scalar value)
///
/// \return Memberwise division by \a right
///
////////////////////////////////////////////////////////////
template <typename T>
Vector4<T> operator /(const Vector4<T>& left, T right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator /=
///
/// This operator performs a memberwise division by \a right,
/// and assigns the result to \a left.
///
/// \param left Left operand (a vector)
/// \param right Right operand (a scalar value)
///
/// \return Reference to \a left
///
////////////////////////////////////////////////////////////
template <typename T>
Vector4<T>& operator /=(Vector4<T>& left, T right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator ==
///
/// This operator compares strict equality between two vectors.
///
/// \param left Left operand (a vector)
/// \param right Right operand (a vector)
///
/// \return True if \a left is equal to \a right
///
////////////////////////////////////////////////////////////
template <typename T>
bool operator ==(const Vector4<T>& left, const Vector4<T>& right);
////////////////////////////////////////////////////////////
/// \relates Vector4
/// \brief Overload of binary operator !=
///
/// This operator compares strict difference between two vectors.
///
/// \param left Left operand (a vector)
/// \param right Right operand (a vector)
///
/// \return True if \a left is not equal to \a right
///
////////////////////////////////////////////////////////////
template <typename T>
bool operator !=(const Vector4<T>& left, const Vector4<T>& right);
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T>::Vector4() :
x(0),
y(0),
z(0),
w(0){
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T>::Vector4(T X, T Y, T Z, T W) :
x(X),
y(Y),
z(Z),
w(W) {
}
////////////////////////////////////////////////////////////
template <typename T>
template <typename U>
inline Vector4<T>::Vector4(const Vector4<U>& vector) :
x(static_cast<T>(vector.x)),
y(static_cast<T>(vector.y)),
z(static_cast<T>(vector.z)),
w(static_cast<T>(vector.w)) {
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T> operator -(const Vector4<T>& right) {
return Vector4<T>(
-right.x,
-right.y,
-right.z,
-right.w
);
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T>& operator +=(Vector4<T>& left, const Vector4<T>& right) {
left.x += right.x;
left.y += right.y;
left.z += right.z;
left.w += right.w;
return left;
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T>& operator -=(Vector4<T>& left, const Vector4<T>& right) {
left.x -= right.x;
left.y -= right.y;
left.z -= right.z;
left.w -= right.w;
return left;
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T> operator +(const Vector4<T>& left, const Vector4<T>& right) {
return Vector4<T>(
left.x + right.x,
left.y + right.y,
left.z + right.z,
left.w + right.w
);
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T> operator -(const Vector4<T>& left, const Vector4<T>& right) {
return Vector4<T>(
left.x - right.x,
left.y - right.y,
left.z - right.z,
left.w - right.w
);
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T> operator *(const Vector4<T>& left, T right) {
return Vector4<T>(
left.x * right,
left.y * right,
left.z * right,
left.w * right
);
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T> operator *(T left, const Vector4<T>& right) {
return Vector4<T>(
right.x * left,
right.y * left,
right.z * left,
right.w * left
);
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T>& operator *=(Vector4<T>& left, T right) {
left.x *= right;
left.y *= right;
left.z *= right;
left.w *= right;
return left;
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T> operator /(const Vector4<T>& left, T right) {
return Vector4<T>(
left.x / right,
left.y / right,
left.z / right,
left.w / right
);
}
////////////////////////////////////////////////////////////
template <typename T>
inline Vector4<T>& operator /=(Vector4<T>& left, T right) {
left.x /= right;
left.y /= right;
left.z /= right;
left.w /= right;
return left;
}
////////////////////////////////////////////////////////////
template <typename T>
inline bool operator ==(const Vector4<T>& left, const Vector4<T>& right) {
return
(left.x == right.x) &&
(left.y == right.y) &&
(left.z == right.z) &&
(left.w == right.w);;
}
////////////////////////////////////////////////////////////
template <typename T>
inline bool operator !=(const Vector4<T>& left, const Vector4<T>& right) {
return
(left.x != right.x) ||
(left.y != right.y) ||
(left.z != right.z) ||
(left.w != right.w);
}
// Define the most common types
typedef Vector4<int> Vector4i;
typedef Vector4<unsigned int> Vector4u;
typedef Vector4<float> Vector4f;
} // namespace sf
#endif // SFML_Vector4_HPP
////////////////////////////////////////////////////////////
/// \class sf::Vector4
/// \ingroup system
///
/// sf::Vector4 is a simple class that defines a mathematical
/// vector with two coordinates (x and y). It can be used to
/// represent anything that has two dimensions: a size, a point,
/// a velocity, etc.
///
/// The template parameter T is the type of the coordinates. It
/// can be any type that supports arithmetic operations (+, -, /, *)
/// and comparisons (==, !=), for example int or float.
///
/// You generally don't have to care about the templated form (sf::Vector4<T>),
/// the most common specializations have special typedefs:
/// \li sf::Vector4<float> is sf::Vector4f
/// \li sf::Vector4<int> is sf::Vector4i
/// \li sf::Vector4<unsigned int> is sf::Vector4u
///
/// The sf::Vector4 class has a small and simple interface, its x and y members
/// can be accessed directly (there are no accessors like setX(), getX()) and it
/// contains no mathematical function like dot product, cross product, length, etc.
///
/// Usage example:
/// \code
/// sf::Vector4f v1(16.5f, 24.f);
/// v1.x = 18.2f;
/// float y = v1.y;
///
/// sf::Vector4f v2 = v1 * 5.f;
/// sf::Vector4
/// v3 = v1 + v2;
///
/// bool different = (v2 != v3);
/// \endcode
///
/// Note: for 3-dimensional vectors, see sf::Vector3.
///
////////////////////////////////////////////////////////////

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#pragma once
#include <SFML/Graphics.hpp>
#include <SFML/Graphics/VertexArray.hpp>
#include "Vector4.hpp"
#include <math.h>
#include <bitset>
#include <iostream>
#include <fstream>
#include <sstream>
#include <string>
#include <iterator>
#include <list>
#include <algorithm>
const double PI = 3.141592653589793238463;
const float PI_F = 3.14159265358979f;
inline sf::Vector3f SphereToCart(sf::Vector2f i) {
auto r = sf::Vector3f(
(1 * sin(i.y) * cos(i.x)),
(1 * sin(i.y) * sin(i.x)),
(1 * cos(i.y))
);
return r;
};
inline sf::Vector3f SphereToCart(sf::Vector3f i) {
auto r = sf::Vector3f(
(i.x * sin(i.z) * cos(i.y)),
(i.x * sin(i.z) * sin(i.y)),
(i.x * cos(i.z))
);
return r;
};
inline sf::Vector3f CartToSphere(sf::Vector3f in) {
auto r = sf::Vector3f(
sqrt(in.x * in.x + in.y * in.y + in.z * in.z),
atan(in.y / in.x),
atan(sqrt(in.x * in.x + in.y * in.y) / in.z)
);
return r;
};
inline sf::Vector2f CartToNormalizedSphere(sf::Vector3f in) {
auto r = sf::Vector2f(
atan2(sqrt(in.x * in.x + in.y * in.y), in.z),
atan2(in.y, in.x)
);
return r;
}
inline sf::Vector3f FixOrigin(sf::Vector3f base, sf::Vector3f head) {
return head - base;
}
inline sf::Vector3f Normalize(sf::Vector3f in) {
float multiplier = sqrt(in.x * in.x + in.y * in.y + in.z * in.z);
auto r = sf::Vector3f(
in.x / multiplier,
in.y / multiplier,
in.z / multiplier
);
return r;
}
inline float DotProduct(sf::Vector3f a, sf::Vector3f b){
return a.x * b.x + a.y * b.y + a.z * b.z;
}
inline float Magnitude(sf::Vector3f in){
return sqrt(in.x * in.x + in.y * in.y + in.z * in.z);
}
inline float AngleBetweenVectors(sf::Vector3f a, sf::Vector3f b){
return acos(DotProduct(a, b) / (Magnitude(a) * Magnitude(b)));
}
inline float DistanceBetweenPoints(sf::Vector3f a, sf::Vector3f b) {
return sqrt(DotProduct(a, b));
}
inline float DegreesToRadians(float in) {
return static_cast<float>(in * PI / 180.0f);
}
inline float RadiansToDegrees(float in) {
return static_cast<float>(in * 180.0f / PI);
}
inline std::string read_file(std::string file_name){
std::ifstream input_file(file_name);
if (!input_file.is_open()){
std::cout << file_name << " could not be opened" << std::endl;
return "";
}
std::stringstream buf;
buf << input_file.rdbuf();
input_file.close();
return buf.str();
}
inline void PrettyPrintUINT64(uint64_t i, std::stringstream* ss) {
*ss << "[" << std::bitset<15>(i) << "]";
*ss << "[" << std::bitset<1>(i >> 15) << "]";
*ss << "[" << std::bitset<8>(i >> 16) << "]";
*ss << "[" << std::bitset<8>(i >> 24) << "]";
*ss << "[" << std::bitset<32>(i >> 32) << "]";
}
inline void PrettyPrintUINT64(uint64_t i) {
std::cout << "[" << std::bitset<15>(i) << "]";
std::cout << "[" << std::bitset<1>(i >> 15) << "]";
std::cout << "[" << std::bitset<8>(i >> 16) << "]";
std::cout << "[" << std::bitset<8>(i >> 24) << "]";
std::cout << "[" << std::bitset<32>(i >> 32) << "]" << std::endl;
}
inline void DumpLog(std::stringstream* ss, std::string file_name) {
std::ofstream log_file;
log_file.open(file_name);
log_file << ss->str();
log_file.close();
}
#ifdef _MSC_VER
# include <intrin.h>
# define __builtin_popcount _mm_popcnt_u32
# define __builtin_popcountll _mm_popcnt_u64
#endif
inline int count_bits(int32_t v) {
return static_cast<int>(__builtin_popcount(v));
}
inline int count_bits(int64_t v) {
return static_cast<int>(__builtin_popcountll(v));
}

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int pixel_to_index(int2 dimensions, int2 pixel) {
if (pixel.x >= 0 && pixel.x <= dimensions.x &&
pixel.y >= 0 && pixel.x <= dimensions.y ){
return pixel.y * dimensions.x + pixel.x;
}
return -1;
}
__kernel void conways (
global int2* image_res,
__write_only image2d_t image,
global char* first_node_buffer,
global char* second_node_buffer,
global char* buffer_flip
){
size_t x_pixel = get_global_id(0);
size_t y_pixel = get_global_id(1);
//printf(": %i", y_pixel);
int2 pixel = (int2)(x_pixel, y_pixel);
//if (pixel.x > 1800)
// printf("%i, %i", pixel.x, pixel.y);
float4 dead = (float4)(.49, .68, .81, 1);
float4 alive = (float4)(.49, .68, .71, .3);
// add all 8 blocks to neghbors
int neighbors = 0;
int val = 0;
if (*buffer_flip == 0){
// Top
val = pixel_to_index(*image_res, (int2)(pixel.x, pixel.y+1));
if (val >= 0)
neighbors += first_node_buffer[val];
// Top Right
val = pixel_to_index(*image_res, (int2)(pixel.x+1, pixel.y+1));
if (val >= 0)
neighbors += first_node_buffer[val];
// Right
val = pixel_to_index(*image_res, (int2)(pixel.x+1, pixel.y));
if (val >= 0)
neighbors += first_node_buffer[val];
// Bottom Right
val = pixel_to_index(*image_res, (int2)(pixel.x+1, pixel.y-1));
if (val >= 0)
neighbors += first_node_buffer[val];
// Bottom
val = pixel_to_index(*image_res, (int2)(pixel.x, pixel.y-1));
if (val >= 0)
neighbors += first_node_buffer[val];
// Bottom Left
val = pixel_to_index(*image_res, (int2)(pixel.x-1, pixel.y-1));
if (val >= 0)
neighbors += first_node_buffer[val];
// Left
val = pixel_to_index(*image_res, (int2)(pixel.x-1, pixel.y));
if (val >= 0)
neighbors += first_node_buffer[val];
// Top Left
val = pixel_to_index(*image_res, (int2)(pixel.x-1, pixel.y+1));
if (val >= 0)
neighbors += first_node_buffer[val];
int base = pixel_to_index(*image_res, pixel);
if (neighbors == 3 || (neighbors == 2 && first_node_buffer[base])){
write_imagef(image, pixel, alive);
second_node_buffer[base] = 1;
} else {
write_imagef(image, pixel, dead);
second_node_buffer[base] = 0;
}
} else {
// Top
val = pixel_to_index(*image_res, (int2)(pixel.x, pixel.y+1));
if (val >= 0)
neighbors += second_node_buffer[val];
// Top Right
val = pixel_to_index(*image_res, (int2)(pixel.x+1, pixel.y+1));
if (val >= 0)
neighbors += second_node_buffer[val];
// Right
val = pixel_to_index(*image_res, (int2)(pixel.x+1, pixel.y));
if (val >= 0)
neighbors += second_node_buffer[val];
// Bottom Right
val = pixel_to_index(*image_res, (int2)(pixel.x+1, pixel.y-1));
if (val >= 0)
neighbors += second_node_buffer[val];
// Bottom
val = pixel_to_index(*image_res, (int2)(pixel.x, pixel.y-1));
if (val >= 0)
neighbors += second_node_buffer[val];
// Bottom Left
val = pixel_to_index(*image_res, (int2)(pixel.x-1, pixel.y-1));
if (val >= 0)
neighbors += second_node_buffer[val];
// Left
val = pixel_to_index(*image_res, (int2)(pixel.x-1, pixel.y));
if (val >= 0)
neighbors += second_node_buffer[val];
// Top Left
val = pixel_to_index(*image_res, (int2)(pixel.x-1, pixel.y+1));
if (val >= 0)
neighbors += second_node_buffer[val];
int base = pixel_to_index(*image_res, pixel);
if (neighbors == 3 || (neighbors == 2 && second_node_buffer[base])){
write_imagef(image, pixel, alive);
first_node_buffer[base] = 1;
} else {
write_imagef(image, pixel, dead);
first_node_buffer[base] = 0;
}
}
}

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#include <OpenCL.h>
#include "util.hpp"
OpenCL::OpenCL() {
}
OpenCL::~OpenCL() {
}
void OpenCL::run_kernel(std::string kernel_name, sf::Vector2i work_size) {
size_t global_work_size[2] = { static_cast<size_t>(work_size.x), static_cast<size_t>(work_size.y) };
cl_kernel kernel = kernel_map.at(kernel_name);
error = clEnqueueAcquireGLObjects(command_queue, 1, &buffer_map.at("viewport_image"), 0, 0, 0);
if (vr_assert(error, "clEnqueueAcquireGLObjects"))
return;
//error = clEnqueueTask(command_queue, kernel, 0, NULL, NULL);
error = clEnqueueNDRangeKernel(
command_queue, kernel,
2, NULL, global_work_size,
NULL, 0, NULL, NULL);
if (vr_assert(error, "clEnqueueNDRangeKernel"))
return;
clFinish(command_queue);
// What if errors out and gl objects are never released?
error = clEnqueueReleaseGLObjects(command_queue, 1, &buffer_map.at("viewport_image"), 0, NULL, NULL);
if (vr_assert(error, "clEnqueueReleaseGLObjects"))
return;
}
void OpenCL::draw(sf::RenderWindow *window) {
for (auto &&i: image_map) {
window->draw(i.second.first);
}
}
bool OpenCL::aquire_hardware()
{
// Get the number of platforms
cl_uint platform_count = 0;
clGetPlatformIDs(0, nullptr, &platform_count);
if (platform_count == 0) {
std::cout << "There appears to be no OpenCL platforms on this machine" << std::endl;
return false;
}
// Get the ID's for those platforms
std::vector<cl_platform_id> plt_buf(platform_count);
clGetPlatformIDs(platform_count, plt_buf.data(), nullptr);
if (vr_assert(error, "clGetPlatformIDs"))
return false;
// Cycle through the platform ID's
for (unsigned int i = 0; i < platform_count; i++) {
// And get their device count
cl_uint deviceIdCount = 0;
error = clGetDeviceIDs(plt_buf[i], CL_DEVICE_TYPE_ALL, 0, nullptr, &deviceIdCount);
if (vr_assert(error, "clGetDeviceIDs"))
return false;
if (deviceIdCount == 0) {
std::cout << "There appears to be no devices associated with this platform" << std::endl;
} else {
// Get the device ids and place them in the device list
std::vector<cl_device_id> deviceIds(deviceIdCount);
error = clGetDeviceIDs(plt_buf[i], CL_DEVICE_TYPE_ALL, deviceIdCount, deviceIds.data(), NULL);
if (vr_assert(error, "clGetDeviceIDs"))
return false;
for (int d = 0; d < deviceIds.size(); d++) {
device_list.emplace_back(device(deviceIds[d], plt_buf.at(i)));
}
}
}
return true;
}
bool OpenCL::create_shared_context() {
// Hurray for standards!
// Setup the context properties to grab the current GL context
#ifdef linux
cl_context_properties context_properties[] = {
CL_GL_CONTEXT_KHR, (cl_context_properties)glXGetCurrentContext(),
CL_GLX_DISPLAY_KHR, (cl_context_properties)glXGetCurrentDisplay(),
CL_CONTEXT_PLATFORM, (cl_context_properties)platform_id,
0
};
#elif defined _WIN32
HGLRC hGLRC = wglGetCurrentContext();
HDC hDC = wglGetCurrentDC();
cl_context_properties context_properties[] = {
CL_CONTEXT_PLATFORM, (cl_context_properties)platform_id,
CL_GL_CONTEXT_KHR, (cl_context_properties)hGLRC,
CL_WGL_HDC_KHR, (cl_context_properties)hDC,
0
};
#elif defined TARGET_OS_MAC
CGLContextObj glContext = CGLGetCurrentContext();
CGLShareGroupObj shareGroup = CGLGetShareGroup(glContext);
cl_context_properties context_properties[] = {
CL_CONTEXT_PROPERTY_USE_CGL_SHAREGROUP_APPLE,
(cl_context_properties)shareGroup,
0
};
#elif
std::cout << "Target machine not supported for cl_khr_gl_sharing" << std::endl;
return false;
#endif
// Create our shared context
context = clCreateContext(
context_properties,
1,
&device_id,
nullptr, nullptr,
&error
);
if (vr_assert(error, "clCreateContext"))
return false;
return true;
}
bool OpenCL::create_command_queue() {
// Command queue requires a context and device id. It can also be a device ID list
// as long as the devices reside on the same platform
if (context && device_id) {
command_queue = clCreateCommandQueue(context, device_id, 0, &error);
if (vr_assert(error, "clCreateCommandQueue"))
return false;
} else {
std::cout << "Failed creating the command queue. Context or device_id not initialized" << std::endl;
return false;
}
return true;
}
bool OpenCL::compile_kernel(std::string kernel_path, std::string kernel_name) {
const char* source;
std::string tmp;
//Load in the kernel, and c stringify it
tmp = read_file(kernel_path);
source = tmp.c_str();
size_t kernel_source_size = strlen(source);
// Load the source into CL's data structure
cl_program program = clCreateProgramWithSource(
context, 1,
&source,
&kernel_source_size, &error
);
// This is not for compilation, it only loads the source
if (vr_assert(error, "clCreateProgramWithSource"))
return false;
// Try and build the program
// "-cl-finite-math-only -cl-fast-relaxed-math -cl-unsafe-math-optimizations"
error = clBuildProgram(program, 1, &device_id, "-cl-finite-math-only -cl-fast-relaxed-math -cl-unsafe-math-optimizations", NULL, NULL);
// Check to see if it errored out
if (vr_assert(error, "clBuildProgram")) {
// Get the size of the queued log
size_t log_size;
clGetProgramBuildInfo(program, device_id, CL_PROGRAM_BUILD_LOG, 0, NULL, &log_size);
char *log = new char[log_size];
// Grab the log
clGetProgramBuildInfo(program, device_id, CL_PROGRAM_BUILD_LOG, log_size, log, NULL);
std::cout << log;
return false;
}
// Done initializing the kernel
cl_kernel kernel = clCreateKernel(program, kernel_name.c_str(), &error);
if (vr_assert(error, "clCreateKernel"))
return false;
// Do I want these to overlap when repeated??
kernel_map[kernel_name] = kernel;
return true;
}
bool OpenCL::create_image_buffer_from_texture(std::string buffer_name, sf::Texture* texture, cl_int access_type) {
if (buffer_map.count(buffer_name) > 0) {
release_buffer(buffer_name);
// Need to check to see if we are taking care of the texture as well
if (image_map.count(buffer_name) > 0)
image_map.erase(buffer_name);
}
cl_mem buff = clCreateFromGLTexture(
context, access_type, GL_TEXTURE_2D,
0, texture->getNativeHandle(), &error);
if (vr_assert(error, "clCreateFromGLTexture"))
return false;
store_buffer(buff, buffer_name);
return true;
}
bool OpenCL::create_image_buffer(std::string buffer_name, sf::Vector2i size, sf::Vector2f position, cl_int access_type) {
if (buffer_map.count(buffer_name) > 0) {
release_buffer(buffer_name);
// Need to check to see if we are taking care of the texture as well
if (image_map.count(buffer_name) > 0)
image_map.erase(buffer_name);
}
std::unique_ptr<sf::Texture> texture(new sf::Texture);
texture->create(size.x, size.y);
cl_mem buff = clCreateFromGLTexture(
context, access_type, GL_TEXTURE_2D,
0, texture->getNativeHandle(), &error);
if (vr_assert(error, "clCreateFromGLTexture"))
return false;
sf::Sprite sprite(*texture);
sprite.setPosition(position);
image_map[buffer_name] = std::pair<sf::Sprite, std::unique_ptr<sf::Texture>>(sprite, std::move(texture));
store_buffer(buff, buffer_name);
return true;
}
int OpenCL::create_buffer(std::string buffer_name, cl_uint size, void* data) {
if (buffer_map.count(buffer_name) > 0) {
release_buffer(buffer_name);
}
cl_mem buff = clCreateBuffer(
context, CL_MEM_READ_ONLY | CL_MEM_COPY_HOST_PTR,
size, data, &error
);
if (vr_assert(error, "clCreateBuffer"))
return -1;
store_buffer(buff, buffer_name);
return 1;
}
int OpenCL::create_buffer(std::string buffer_name, cl_uint size, void* data, cl_mem_flags flags) {
if (buffer_map.count(buffer_name) > 0) {
release_buffer(buffer_name);
}
((char*)data)[10000];
cl_mem buff = clCreateBuffer(
context, flags,
size, data, &error
);
if (vr_assert(error, "clCreateBuffer"))
return -1;
store_buffer(buff, buffer_name);
return 1;
}
bool OpenCL::store_buffer(cl_mem buffer, std::string buffer_name) {
if (buffer_map.count(buffer_name) > 0) {
error = clReleaseMemObject(buffer_map.at(buffer_name));
if (vr_assert(error, "clReleaseMemObject")) {
std::cout << "Error releasing overlapping buffer : " << buffer_name;
std::cout << "Buffer not added";
return false;
}
}
buffer_map[buffer_name] = buffer;
return true;
}
bool OpenCL::release_buffer(std::string buffer_name) {
if (buffer_map.count(buffer_name) > 0) {
error = clReleaseMemObject(buffer_map.at(buffer_name));
if (vr_assert(error, "clReleaseMemObject")) {
std::cout << "Error releasing buffer : " << buffer_name;
std::cout << "Buffer not removed";
return false;
}
buffer_map.erase(buffer_name);
} else {
std::cout << "Error releasing buffer : " << buffer_name;
std::cout << "Buffer not found";
return false;
}
return true;
}
int OpenCL::set_kernel_arg(std::string kernel_name, int index, std::string buffer_name) {
error = clSetKernelArg(
kernel_map.at(kernel_name),
index,
sizeof(cl_mem),
(void *)&buffer_map.at(buffer_name));
if (vr_assert(error, "clSetKernelArg")) {
std::cout << buffer_name << std::endl;
std::cout << buffer_map.at(buffer_name) << std::endl;
return -1;
}
return 1;
}
bool OpenCL::load_config() {
std::ifstream input_file("device_config.bin", std::ios::binary | std::ios::in);
if (!input_file.is_open()) {
std::cout << "No config file..." << std::endl;
return false;
}
device::packed_data data;
input_file.read(reinterpret_cast<char*>(&data), sizeof(data));
std::cout << "config loaded, looking for device..." << std::endl;
for (auto d: device_list) {
if (memcmp(&d, &data, sizeof(device::packed_data)) == 0) {
std::cout << "Found saved device" << std::endl;
device_id = d.getDeviceId();
platform_id = d.getPlatformId();
break;
}
}
input_file.close();
return true;
}
void OpenCL::save_config() {
std::ofstream output_file;
output_file.open("device_config.bin", std::ofstream::binary | std::ofstream::out | std::ofstream::trunc);
device d(device_id, platform_id);
d.print_packed_data(output_file);
output_file.close();
}
bool OpenCL::init() {
if (!aquire_hardware())
return false;
if (!load_config()) {
std::cout << "Select a device number which you wish to use" << std::endl;
for (int i = 0; i < device_list.size(); i++) {
std::cout << "\n-----------------------------------------------------------------" << std::endl;
std::cout << "\tDevice Number : " << i << std::endl;
std::cout << "-----------------------------------------------------------------" << std::endl;
device_list.at(i).print(std::cout);
}
int selection = -1;
while (selection < 0 && selection >= device_list.size()) {
std::cout << "Device which you wish to use : ";
std::cin >> selection;
}
device_id = device_list.at(selection).getDeviceId();
platform_id = device_list.at(selection).getPlatformId();
save_config();
}
if (!create_shared_context())
return false;
if (!create_command_queue())
return false;
return true;
}
bool OpenCL::vr_assert(int error_code, std::string function_name) {
// Just gonna do a little jump table here, just error codes so who cares
std::string err_msg = "Error : ";
switch (error_code) {
case CL_SUCCESS:
return false;
case 1:
return false;
case CL_DEVICE_NOT_FOUND:
err_msg += "CL_DEVICE_NOT_FOUND";
break;
case CL_DEVICE_NOT_AVAILABLE:
err_msg = "CL_DEVICE_NOT_AVAILABLE";
break;
case CL_COMPILER_NOT_AVAILABLE:
err_msg = "CL_COMPILER_NOT_AVAILABLE";
break;
case CL_MEM_OBJECT_ALLOCATION_FAILURE:
err_msg = "CL_MEM_OBJECT_ALLOCATION_FAILURE";
break;
case CL_OUT_OF_RESOURCES:
err_msg = "CL_OUT_OF_RESOURCES";
break;
case CL_OUT_OF_HOST_MEMORY:
err_msg = "CL_OUT_OF_HOST_MEMORY";
break;
case CL_PROFILING_INFO_NOT_AVAILABLE:
err_msg = "CL_PROFILING_INFO_NOT_AVAILABLE";
break;
case CL_MEM_COPY_OVERLAP:
err_msg = "CL_MEM_COPY_OVERLAP";
break;
case CL_IMAGE_FORMAT_MISMATCH:
err_msg = "CL_IMAGE_FORMAT_MISMATCH";
break;
case CL_IMAGE_FORMAT_NOT_SUPPORTED:
err_msg = "CL_IMAGE_FORMAT_NOT_SUPPORTED";
break;
case CL_BUILD_PROGRAM_FAILURE:
err_msg = "CL_BUILD_PROGRAM_FAILURE";
break;
case CL_MAP_FAILURE:
err_msg = "CL_MAP_FAILURE";
break;
case CL_MISALIGNED_SUB_BUFFER_OFFSET:
err_msg = "CL_MISALIGNED_SUB_BUFFER_OFFSET";
break;
case CL_EXEC_STATUS_ERROR_FOR_EVENTS_IN_WAIT_LIST:
err_msg = "CL_EXEC_STATUS_ERROR_FOR_EVENTS_IN_WAIT_LIST";
break;
case CL_COMPILE_PROGRAM_FAILURE:
err_msg = "CL_COMPILE_PROGRAM_FAILURE";
break;
case CL_LINKER_NOT_AVAILABLE:
err_msg = "CL_LINKER_NOT_AVAILABLE";
break;
case CL_LINK_PROGRAM_FAILURE:
err_msg = "CL_LINK_PROGRAM_FAILURE";
break;
case CL_DEVICE_PARTITION_FAILED:
err_msg = "CL_DEVICE_PARTITION_FAILED";
break;
case CL_KERNEL_ARG_INFO_NOT_AVAILABLE:
err_msg = "CL_KERNEL_ARG_INFO_NOT_AVAILABLE";
break;
case CL_INVALID_VALUE:
err_msg = "CL_INVALID_VALUE";
break;
case CL_INVALID_DEVICE_TYPE:
err_msg = "CL_INVALID_DEVICE_TYPE";
break;
case CL_INVALID_PLATFORM:
err_msg = "CL_INVALID_PLATFORM";
break;
case CL_INVALID_DEVICE:
err_msg = "CL_INVALID_DEVICE";
break;
case CL_INVALID_CONTEXT:
err_msg = "CL_INVALID_CONTEXT";
break;
case CL_INVALID_QUEUE_PROPERTIES:
err_msg = "CL_INVALID_QUEUE_PROPERTIES";
break;
case CL_INVALID_COMMAND_QUEUE:
err_msg = "CL_INVALID_COMMAND_QUEUE";
break;
case CL_INVALID_HOST_PTR:
err_msg = "CL_INVALID_HOST_PTR";
break;
case CL_INVALID_MEM_OBJECT:
err_msg = "CL_INVALID_MEM_OBJECT";
break;
case CL_INVALID_IMAGE_FORMAT_DESCRIPTOR:
err_msg = "CL_INVALID_IMAGE_FORMAT_DESCRIPTOR";
break;
case CL_INVALID_IMAGE_SIZE:
err_msg = "CL_INVALID_IMAGE_SIZE";
break;
case CL_INVALID_SAMPLER:
err_msg = "CL_INVALID_SAMPLER";
break;
case CL_INVALID_BINARY:
err_msg = "CL_INVALID_BINARY";
break;
case CL_INVALID_BUILD_OPTIONS:
err_msg = "CL_INVALID_BUILD_OPTIONS";
break;
case CL_INVALID_PROGRAM:
err_msg = "CL_INVALID_PROGRAM";
break;
case CL_INVALID_PROGRAM_EXECUTABLE:
err_msg = "CL_INVALID_PROGRAM_EXECUTABLE";
break;
case CL_INVALID_KERNEL_NAME:
err_msg = "CL_INVALID_KERNEL_NAME";
break;
case CL_INVALID_KERNEL_DEFINITION:
err_msg = "CL_INVALID_KERNEL_DEFINITION";
break;
case CL_INVALID_KERNEL:
err_msg = "CL_INVALID_KERNEL";
break;
case CL_INVALID_ARG_INDEX:
err_msg = "CL_INVALID_ARG_INDEX";
break;
case CL_INVALID_ARG_VALUE:
err_msg = "CL_INVALID_ARG_VALUE";
break;
case CL_INVALID_ARG_SIZE:
err_msg = "CL_INVALID_ARG_SIZE";
break;
case CL_INVALID_KERNEL_ARGS:
err_msg = "CL_INVALID_KERNEL_ARGS";
break;
case CL_INVALID_WORK_DIMENSION:
err_msg = "CL_INVALID_WORK_DIMENSION";
break;
case CL_INVALID_WORK_GROUP_SIZE:
err_msg = "CL_INVALID_WORK_GROUP_SIZE";
break;
case CL_INVALID_WORK_ITEM_SIZE:
err_msg = "CL_INVALID_WORK_ITEM_SIZE";
break;
case CL_INVALID_GLOBAL_OFFSET:
err_msg = "CL_INVALID_GLOBAL_OFFSET";
break;
case CL_INVALID_EVENT_WAIT_LIST:
err_msg = "CL_INVALID_EVENT_WAIT_LIST";
break;
case CL_INVALID_EVENT:
err_msg = "CL_INVALID_EVENT";
break;
case CL_INVALID_OPERATION:
err_msg = "CL_INVALID_OPERATION";
break;
case CL_INVALID_GL_OBJECT:
err_msg = "CL_INVALID_GL_OBJECT";
break;
case CL_INVALID_BUFFER_SIZE:
err_msg = "CL_INVALID_BUFFER_SIZE";
break;
case CL_INVALID_MIP_LEVEL:
err_msg = "CL_INVALID_MIP_LEVEL";
break;
case CL_INVALID_GLOBAL_WORK_SIZE:
err_msg = "CL_INVALID_GLOBAL_WORK_SIZE";
break;
case CL_INVALID_PROPERTY:
err_msg = "CL_INVALID_PROPERTY";
break;
case CL_INVALID_IMAGE_DESCRIPTOR:
err_msg = "CL_INVALID_IMAGE_DESCRIPTOR";
break;
case CL_INVALID_COMPILER_OPTIONS:
err_msg = "CL_INVALID_COMPILER_OPTIONS";
break;
case CL_INVALID_LINKER_OPTIONS:
err_msg = "CL_INVALID_LINKER_OPTIONS";
break;
case CL_INVALID_DEVICE_PARTITION_COUNT:
err_msg = "CL_INVALID_DEVICE_PARTITION_COUNT";
break;
case CL_INVALID_GL_SHAREGROUP_REFERENCE_KHR:
err_msg = "CL_INVALID_GL_SHAREGROUP_REFERENCE_KHR";
break;
case CL_PLATFORM_NOT_FOUND_KHR:
err_msg = "CL_PLATFORM_NOT_FOUND_KHR";
break;
}
std::cout << err_msg << " =at= " << function_name << std::endl;
return true;
}
OpenCL::device::device(cl_device_id device_id, cl_platform_id platform_id) {
this->device_id = device_id;
this->platform_id = platform_id;
int error = 0;
error = clGetPlatformInfo(platform_id, CL_PLATFORM_NAME, 128, (void*)&data.platform_name, nullptr);
if (vr_assert(error, "clGetPlatformInfo"))
return;
error = clGetDeviceInfo(device_id, CL_DEVICE_VERSION, sizeof(char) * 128, &data.opencl_version, NULL);
error = clGetDeviceInfo(device_id, CL_DEVICE_TYPE, sizeof(cl_device_type), &data.device_type, NULL);
error = clGetDeviceInfo(device_id, CL_DEVICE_MAX_CLOCK_FREQUENCY, sizeof(cl_uint), &data.clock_frequency, NULL);
error = clGetDeviceInfo(device_id, CL_DEVICE_MAX_COMPUTE_UNITS, sizeof(cl_uint), &data.compute_units, NULL);
error = clGetDeviceInfo(device_id, CL_DEVICE_EXTENSIONS, 1024, &data.device_extensions, NULL);
error = clGetDeviceInfo(device_id, CL_DEVICE_NAME, 256, &data.device_name, NULL);
error = clGetDeviceInfo(device_id, CL_DEVICE_ENDIAN_LITTLE, sizeof(cl_bool), &is_little_endian, NULL);
// Check for the sharing extension
if (std::string(data.device_extensions).find("cl_khr_gl_sharing") != std::string::npos ||
std::string(data.device_extensions).find("cl_APPLE_gl_sharing") != std::string::npos) {
cl_gl_sharing = true;
}
}
OpenCL::device::device(const device& d) {
// member values, copy individually
device_id = d.device_id;
platform_id = d.platform_id;
is_little_endian = d.is_little_endian;
cl_gl_sharing = d.cl_gl_sharing;
// struct so it copies by value
data = d.data;
}
void OpenCL::device::print(std::ostream& stream) const {
stream << "\n\tDevice ID : " << device_id << std::endl;
stream << "\tDevice Name : " << data.device_name << std::endl;
stream << "\tPlatform ID : " << platform_id << std::endl;
stream << "\tPlatform Name : " << data.platform_name << std::endl;
stream << "\tOpenCL Version : " << data.opencl_version << std::endl;
stream << "\tSupports sharing : " << std::boolalpha << cl_gl_sharing << std::endl;
stream << "\tDevice Type : ";
if (data.device_type == CL_DEVICE_TYPE_CPU)
stream << "CPU" << std::endl;
else if (data.device_type == CL_DEVICE_TYPE_GPU)
stream << "GPU" << std::endl;
else if (data.device_type == CL_DEVICE_TYPE_ACCELERATOR)
stream << "Accelerator" << std::endl;
stream << "\tIs Little Endian : " << std::boolalpha << is_little_endian << std::endl;
stream << "\tClock Frequency : " << data.clock_frequency << std::endl;
stream << "\tCompute Units : " << data.compute_units << std::endl;
stream << "\n*Extensions*" << std::endl;
stream << data.device_extensions << std::endl;
stream << "\n";
}
void OpenCL::device::print_packed_data(std::ostream& stream) {
stream.write(reinterpret_cast<char*>(&data), sizeof(data));
}

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src/main.cpp Normal file
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#include <iostream>
#include <SFML/Graphics.hpp>
#include <random>
#include <chrono>
#include "util.hpp"
#include <thread>
#include "OpenCL.h"
float elap_time() {
static std::chrono::time_point<std::chrono::system_clock> start;
static bool started = false;
if (!started) {
start = std::chrono::system_clock::now();
started = true;
}
std::chrono::time_point<std::chrono::system_clock> now = std::chrono::system_clock::now();
std::chrono::duration<double> elapsed_time = now - start;
return static_cast<float>(elapsed_time.count());
}
const int WINDOW_X = 1080;
const int WINDOW_Y = 1080;
void generate_nodes(sf::Uint8* nodes) {
for (int i = 0; i < WINDOW_X * WINDOW_Y; i += 1) {
if (rand() % 10 > 8)
nodes[i] = 1;
else
nodes[i] = 0;
}
}
int main() {
sf::RenderWindow window(sf::VideoMode(WINDOW_X, WINDOW_Y), "conways-game-of-life-opencl");
window.setFramerateLimit(60);
float physic_step = 0.166f;
float physic_time = 0.0f;
double frame_time = 0.0, elapsed_time = 0.0, delta_time = 0.0, accumulator_time = 0.0, current_time = 0.0;
OpenCL cl;
if (!cl.init())
return -1;
while (!cl.compile_kernel("../kernels/conways.cl", "conways")) {
std::cin.get();
}
sf::Vector2i image_resolution(WINDOW_X, WINDOW_Y);
cl.create_image_buffer("viewport_image", image_resolution, sf::Vector2f(0, 0), CL_MEM_WRITE_ONLY);
cl.create_buffer("image_res", sizeof(sf::Vector2i), &image_resolution);
sf::Uint8* nodes = new sf::Uint8[WINDOW_X * WINDOW_Y];
generate_nodes(nodes);
nodes[0] = 1;
cl.create_buffer("first_node_buffer", WINDOW_X * WINDOW_Y, (void*)nodes, CL_MEM_READ_WRITE | CL_MEM_COPY_HOST_PTR);
cl.create_buffer("second_node_buffer", WINDOW_X * WINDOW_Y, (void*)nodes, CL_MEM_READ_WRITE | CL_MEM_COPY_HOST_PTR);
char buffer_flip = 0;
cl.create_buffer("buffer_flip", sizeof(char), (void*)&buffer_flip, CL_MEM_READ_ONLY | CL_MEM_USE_HOST_PTR);
cl.set_kernel_arg("conways", 0, "image_res");
cl.set_kernel_arg("conways", 1, "viewport_image");
cl.set_kernel_arg("conways", 2, "first_node_buffer");
cl.set_kernel_arg("conways", 3, "second_node_buffer");
cl.set_kernel_arg("conways", 4, "buffer_flip");
while (window.isOpen())
{
sf::Event event; // Handle input
while (window.pollEvent(event)) {
if (event.type == sf::Event::Closed) {
window.close();
}
if (event.type == sf::Event::KeyPressed) {
if (event.key.code == sf::Keyboard::Down) {
}
if (event.key.code == sf::Keyboard::Up) {
}
if (event.key.code == sf::Keyboard::Right) {
}
if (event.key.code == sf::Keyboard::Left) {
}
if (event.key.code == sf::Keyboard::Equal) {
}
if (event.key.code == sf::Keyboard::Dash) {
}
}
}
elapsed_time = elap_time(); // Handle time
delta_time = elapsed_time - current_time;
current_time = elapsed_time;
if (delta_time > 0.02f)
delta_time = 0.02f;
accumulator_time += delta_time;
while (accumulator_time >= physic_step) { // While the frame has sim time, update
accumulator_time -= physic_step;
physic_time += physic_step;
}
window.clear(sf::Color::White);
cl.run_kernel("conways", image_resolution);
//cl.run_kernel("conways", sf::Vector2i(5, 5));
cl.draw(&window);
if (buffer_flip == 1)
buffer_flip = 0;
else
buffer_flip = 1;
window.display();
}
return 0;
}