dolphin/Source/Core/VideoBackends/OGL/Render.cpp

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// Copyright 2008 Dolphin Emulator Project
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// Licensed under GPLv2+
// Refer to the license.txt file included.
#include <algorithm>
#include <cinttypes>
#include <cmath>
#include <cstdio>
#include <memory>
#include <string>
#include <vector>
#include "Common/Atomic.h"
#include "Common/CommonPaths.h"
#include "Common/FileUtil.h"
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#include "Common/MathUtil.h"
#include "Common/StringUtil.h"
#include "Common/Thread.h"
#include "Common/Timer.h"
#include "Common/Logging/LogManager.h"
#include "Core/ConfigManager.h"
#include "Core/Core.h"
#include "VideoBackends/OGL/BoundingBox.h"
#include "VideoBackends/OGL/FramebufferManager.h"
#include "VideoBackends/OGL/GLInterfaceBase.h"
#include "VideoBackends/OGL/GLUtil.h"
#include "VideoBackends/OGL/main.h"
#include "VideoBackends/OGL/PostProcessing.h"
#include "VideoBackends/OGL/ProgramShaderCache.h"
#include "VideoBackends/OGL/RasterFont.h"
#include "VideoBackends/OGL/Render.h"
#include "VideoBackends/OGL/SamplerCache.h"
#include "VideoBackends/OGL/StreamBuffer.h"
#include "VideoBackends/OGL/TextureCache.h"
#include "VideoBackends/OGL/TextureConverter.h"
#include "VideoBackends/OGL/VertexManager.h"
#include "VideoCommon/BPFunctions.h"
#include "VideoCommon/BPStructs.h"
#include "VideoCommon/DriverDetails.h"
#include "VideoCommon/Fifo.h"
#include "VideoCommon/FPSCounter.h"
#include "VideoCommon/ImageWrite.h"
#include "VideoCommon/OnScreenDisplay.h"
#include "VideoCommon/PixelEngine.h"
#include "VideoCommon/PixelShaderManager.h"
#include "VideoCommon/Statistics.h"
#include "VideoCommon/VertexLoaderManager.h"
#include "VideoCommon/VertexShaderGen.h"
#include "VideoCommon/VertexShaderManager.h"
#include "VideoCommon/VideoConfig.h"
#if defined _WIN32 || defined HAVE_LIBAV
#include "VideoCommon/AVIDump.h"
#endif
void VideoConfig::UpdateProjectionHack()
{
::UpdateProjectionHack(g_Config.iPhackvalue, g_Config.sPhackvalue);
}
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static int OSDInternalW, OSDInternalH;
namespace OGL
{
enum MultisampleMode
{
MULTISAMPLE_OFF,
MULTISAMPLE_2X,
MULTISAMPLE_4X,
MULTISAMPLE_8X,
MULTISAMPLE_SSAA_4X,
};
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VideoConfig g_ogl_config;
// Declarations and definitions
// ----------------------------
static GLuint s_ShowEFBCopyRegions_VBO = 0;
static GLuint s_ShowEFBCopyRegions_VAO = 0;
static SHADER s_ShowEFBCopyRegions;
static RasterFont* s_pfont = nullptr;
// 1 for no MSAA. Use s_MSAASamples > 1 to check for MSAA.
static int s_MSAASamples = 1;
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static int s_last_multisample_mode = 0;
static bool s_last_stereo_mode = false;
static bool s_last_xfb_mode = false;
static u32 s_blendMode;
static bool s_vsync;
// EFB cache related
static const u32 EFB_CACHE_RECT_SIZE = 64; // Cache 64x64 blocks.
static const u32 EFB_CACHE_WIDTH = (EFB_WIDTH + EFB_CACHE_RECT_SIZE - 1) / EFB_CACHE_RECT_SIZE; // round up
static const u32 EFB_CACHE_HEIGHT = (EFB_HEIGHT + EFB_CACHE_RECT_SIZE - 1) / EFB_CACHE_RECT_SIZE;
static bool s_efbCacheValid[2][EFB_CACHE_WIDTH * EFB_CACHE_HEIGHT];
static bool s_efbCacheIsCleared = false;
static std::vector<u32> s_efbCache[2][EFB_CACHE_WIDTH * EFB_CACHE_HEIGHT]; // 2 for PEEK_Z and PEEK_COLOR
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static int GetNumMSAASamples(int MSAAMode)
{
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int samples;
switch (MSAAMode)
{
case MULTISAMPLE_OFF:
samples = 1;
break;
case MULTISAMPLE_2X:
samples = 2;
break;
case MULTISAMPLE_4X:
case MULTISAMPLE_SSAA_4X:
samples = 4;
break;
case MULTISAMPLE_8X:
samples = 8;
break;
default:
samples = 1;
}
if (samples <= g_ogl_config.max_samples)
return samples;
// TODO: move this to InitBackendInfo
OSD::AddMessage(StringFromFormat("%d Anti Aliasing samples selected, but only %d supported by your GPU.", samples, g_ogl_config.max_samples), 10000);
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return g_ogl_config.max_samples;
}
static void ApplySSAASettings()
{
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// GLES3 doesn't support SSAA
if (GLInterface->GetMode() == GLInterfaceMode::MODE_OPENGL)
{
if (g_ActiveConfig.iMultisampleMode == MULTISAMPLE_SSAA_4X)
{
if (g_ogl_config.bSupportSampleShading)
{
glEnable(GL_SAMPLE_SHADING_ARB);
GLfloat min_sample_shading_value = static_cast<GLfloat>(s_MSAASamples);
glMinSampleShadingARB(min_sample_shading_value);
}
else
{
// TODO: move this to InitBackendInfo
OSD::AddMessage("SSAA Anti Aliasing isn't supported by your GPU.", 10000);
}
}
else if (g_ogl_config.bSupportSampleShading)
{
glDisable(GL_SAMPLE_SHADING_ARB);
}
}
}
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static void GLAPIENTRY ErrorCallback( GLenum source, GLenum type, GLuint id, GLenum severity, GLsizei length, const char* message, const void* userParam)
{
const char *s_source;
const char *s_type;
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switch (source)
{
case GL_DEBUG_SOURCE_API_ARB: s_source = "API"; break;
case GL_DEBUG_SOURCE_WINDOW_SYSTEM_ARB: s_source = "Window System"; break;
case GL_DEBUG_SOURCE_SHADER_COMPILER_ARB: s_source = "Shader Compiler"; break;
case GL_DEBUG_SOURCE_THIRD_PARTY_ARB: s_source = "Third Party"; break;
case GL_DEBUG_SOURCE_APPLICATION_ARB: s_source = "Application"; break;
case GL_DEBUG_SOURCE_OTHER_ARB: s_source = "Other"; break;
default: s_source = "Unknown"; break;
}
switch (type)
{
case GL_DEBUG_TYPE_ERROR_ARB: s_type = "Error"; break;
case GL_DEBUG_TYPE_DEPRECATED_BEHAVIOR_ARB: s_type = "Deprecated"; break;
case GL_DEBUG_TYPE_UNDEFINED_BEHAVIOR_ARB: s_type = "Undefined"; break;
case GL_DEBUG_TYPE_PORTABILITY_ARB: s_type = "Portability"; break;
case GL_DEBUG_TYPE_PERFORMANCE_ARB: s_type = "Performance"; break;
case GL_DEBUG_TYPE_OTHER_ARB: s_type = "Other"; break;
default: s_type = "Unknown"; break;
}
switch (severity)
{
case GL_DEBUG_SEVERITY_HIGH_ARB: ERROR_LOG(VIDEO, "id: %x, source: %s, type: %s - %s", id, s_source, s_type, message); break;
case GL_DEBUG_SEVERITY_MEDIUM_ARB: WARN_LOG(VIDEO, "id: %x, source: %s, type: %s - %s", id, s_source, s_type, message); break;
case GL_DEBUG_SEVERITY_LOW_ARB: WARN_LOG(VIDEO, "id: %x, source: %s, type: %s - %s", id, s_source, s_type, message); break;
default: ERROR_LOG(VIDEO, "id: %x, source: %s, type: %s - %s", id, s_source, s_type, message); break;
}
}
// Two small Fallbacks to avoid GL_ARB_ES2_compatibility
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static void GLAPIENTRY DepthRangef(GLfloat neardepth, GLfloat fardepth)
{
glDepthRange(neardepth, fardepth);
}
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static void GLAPIENTRY ClearDepthf(GLfloat depthval)
{
glClearDepth(depthval);
}
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static void InitDriverInfo()
{
std::string svendor = std::string(g_ogl_config.gl_vendor);
std::string srenderer = std::string(g_ogl_config.gl_renderer);
std::string sversion = std::string(g_ogl_config.gl_version);
DriverDetails::Vendor vendor = DriverDetails::VENDOR_UNKNOWN;
DriverDetails::Driver driver = DriverDetails::DRIVER_UNKNOWN;
double version = 0.0;
u32 family = 0;
// Get the vendor first
if (svendor == "NVIDIA Corporation" && srenderer != "NVIDIA Tegra")
{
vendor = DriverDetails::VENDOR_NVIDIA;
}
else if (svendor == "ATI Technologies Inc." || svendor == "Advanced Micro Devices, Inc.")
{
vendor = DriverDetails::VENDOR_ATI;
}
else if (std::string::npos != sversion.find("Mesa"))
{
vendor = DriverDetails::VENDOR_MESA;
}
else if (std::string::npos != svendor.find("Intel"))
{
vendor = DriverDetails::VENDOR_INTEL;
}
else if (svendor == "ARM")
{
vendor = DriverDetails::VENDOR_ARM;
}
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else if (svendor == "http://limadriver.org/")
{
vendor = DriverDetails::VENDOR_ARM;
driver = DriverDetails::DRIVER_LIMA;
}
else if (svendor == "Qualcomm")
{
vendor = DriverDetails::VENDOR_QUALCOMM;
}
else if (svendor == "Imagination Technologies")
{
vendor = DriverDetails::VENDOR_IMGTEC;
}
else if (svendor == "NVIDIA Corporation" && srenderer == "NVIDIA Tegra")
{
vendor = DriverDetails::VENDOR_TEGRA;
}
else if (svendor == "Vivante Corporation")
{
vendor = DriverDetails::VENDOR_VIVANTE;
}
// Get device family and driver version...if we care about it
switch (vendor)
{
case DriverDetails::VENDOR_QUALCOMM:
{
driver = DriverDetails::DRIVER_QUALCOMM;
double glVersion;
sscanf(g_ogl_config.gl_version, "OpenGL ES %lg V@%lg", &glVersion, &version);
}
break;
case DriverDetails::VENDOR_ARM:
// Currently the Mali-T line has two families in it.
// Mali-T6xx and Mali-T7xx
// These two families are similar enough that they share bugs in their drivers.
//
// Mali drivers provide no way to explicitly find out what video driver is running.
// This is similar to how we can't find the Nvidia driver version in Windows.
// Good thing is that ARM introduces a new video driver about once every two years so we can
// find the driver version by the features it exposes.
// r2p0 - No OpenGL ES 3.0 support (We don't support this)
// r3p0 - OpenGL ES 3.0 support
// r4p0 - Supports 'GL_EXT_shader_pixel_local_storage' extension.
driver = DriverDetails::DRIVER_ARM;
if (GLExtensions::Supports("GL_EXT_shader_pixel_local_storage"))
version = 400;
else
version = 300;
break;
case DriverDetails::VENDOR_MESA:
{
if (svendor == "nouveau")
driver = DriverDetails::DRIVER_NOUVEAU;
else if (svendor == "Intel Open Source Technology Center")
driver = DriverDetails::DRIVER_I965;
else if (std::string::npos != srenderer.find("AMD") || std::string::npos != srenderer.find("ATI"))
driver = DriverDetails::DRIVER_R600;
int major = 0;
int minor = 0;
int release = 0;
sscanf(g_ogl_config.gl_version, "%*s Mesa %d.%d.%d", &major, &minor, &release);
version = 100*major + 10*minor + release;
}
break;
case DriverDetails::VENDOR_INTEL: // Happens in OS X/Windows
{
sscanf(g_ogl_config.gl_renderer, "Intel HD Graphics %d", &family);
#ifdef _WIN32
int glmajor = 0;
int glminor = 0;
int major = 0;
int minor = 0;
int release = 0;
int revision = 0;
// Example version string: '4.3.0 - Build 10.18.10.3907'
sscanf(g_ogl_config.gl_version, "%d.%d.0 - Build %d.%d.%d.%d", &glmajor, &glminor, &major, &minor, &release, &revision);
version = 100000000 * major + 1000000 * minor + 10000 * release + revision;
version /= 10000;
#endif
}
break;
case DriverDetails::VENDOR_NVIDIA:
{
int glmajor = 0;
int glminor = 0;
int glrelease = 0;
int major = 0;
int minor = 0;
// TODO: this is known to be broken on Windows
// Nvidia seems to have removed their driver version from this string, so we can't get it.
// hopefully we'll never have to workaround Nvidia bugs
sscanf(g_ogl_config.gl_version, "%d.%d.%d NVIDIA %d.%d", &glmajor, &glminor, &glrelease, &major, &minor);
version = 100*major + minor;
}
break;
// We don't care about these
default:
break;
}
DriverDetails::Init(vendor, driver, version, family);
}
// Init functions
Renderer::Renderer()
{
OSDInternalW = 0;
OSDInternalH = 0;
s_ShowEFBCopyRegions_VBO = 0;
s_blendMode = 0;
bool bSuccess = true;
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// Init extension support.
if (!GLExtensions::Init())
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{
// OpenGL 2.0 is required for all shader based drawings. There is no way to get this by extensions
PanicAlert("GPU: OGL ERROR: Does your video card support OpenGL 2.0?");
bSuccess = false;
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}
g_ogl_config.gl_vendor = (const char*)glGetString(GL_VENDOR);
g_ogl_config.gl_renderer = (const char*)glGetString(GL_RENDERER);
g_ogl_config.gl_version = (const char*)glGetString(GL_VERSION);
g_ogl_config.glsl_version = (const char*)glGetString(GL_SHADING_LANGUAGE_VERSION);
InitDriverInfo();
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// check for the max vertex attributes
GLint numvertexattribs = 0;
glGetIntegerv(GL_MAX_VERTEX_ATTRIBS, &numvertexattribs);
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if (numvertexattribs < 16)
{
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PanicAlert("GPU: OGL ERROR: Number of attributes %d not enough.\n"
"GPU: Does your video card support OpenGL 2.x?",
numvertexattribs);
bSuccess = false;
}
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// check the max texture width and height
GLint max_texture_size;
glGetIntegerv(GL_MAX_TEXTURE_SIZE, (GLint *)&max_texture_size);
if (max_texture_size < 1024)
{
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PanicAlert("GL_MAX_TEXTURE_SIZE too small at %i - must be at least 1024.",
max_texture_size);
bSuccess = false;
}
if (!GLExtensions::Supports("GL_ARB_framebuffer_object"))
{
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// We want the ogl3 framebuffer instead of the ogl2 one for better blitting support.
// It's also compatible with the gles3 one.
PanicAlert("GPU: ERROR: Need GL_ARB_framebuffer_object for multiple render targets.\n"
"GPU: Does your video card support OpenGL 3.0?");
bSuccess = false;
}
if (!GLExtensions::Supports("GL_ARB_vertex_array_object"))
{
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// This extension is used to replace lots of pointer setting function.
// Also gles3 requires to use it.
PanicAlert("GPU: OGL ERROR: Need GL_ARB_vertex_array_object.\n"
"GPU: Does your video card support OpenGL 3.0?");
bSuccess = false;
}
if (!GLExtensions::Supports("GL_ARB_map_buffer_range"))
{
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// ogl3 buffer mapping for better streaming support.
// The ogl2 one also isn't in gles3.
PanicAlert("GPU: OGL ERROR: Need GL_ARB_map_buffer_range.\n"
"GPU: Does your video card support OpenGL 3.0?");
bSuccess = false;
}
if (!GLExtensions::Supports("GL_ARB_uniform_buffer_object"))
{
// ubo allow us to keep the current constants on shader switches
// we also can stream them much nicer and pack into it whatever we want to
PanicAlert("GPU: OGL ERROR: Need GL_ARB_uniform_buffer_object.\n"
"GPU: Does your video card support OpenGL 3.1?");
bSuccess = false;
}
else if (DriverDetails::HasBug(DriverDetails::BUG_BROKENUBO))
{
PanicAlert("Buggy GPU driver detected.\n"
"Please either install the closed-source GPU driver or update your Mesa 3D version.");
bSuccess = false;
}
if (!GLExtensions::Supports("GL_ARB_sampler_objects"))
{
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// Our sampler cache uses this extension. It could easyly be workaround and it's by far the
// highest requirement, but it seems that no driver lacks support for it.
PanicAlert("GPU: OGL ERROR: Need GL_ARB_sampler_objects.\n"
"GPU: Does your video card support OpenGL 3.3?");
bSuccess = false;
}
if (GLExtensions::Version() < 300)
{
// integer vertex attributes require a gl3 only function
PanicAlert("GPU: OGL ERROR: Need OpenGL version 3.\n"
"GPU: Does your video card support OpenGL 3?");
bSuccess = false;
}
// OpenGL 3 doesn't provide GLES like float functions for depth.
// They are in core in OpenGL 4.1, so almost every driver should support them.
// But for the oldest ones, we provide fallbacks to the old double functions.
if (!GLExtensions::Supports("GL_ARB_ES2_compatibility") && GLInterface->GetMode() == GLInterfaceMode::MODE_OPENGL)
{
glDepthRangef = DepthRangef;
glClearDepthf = ClearDepthf;
}
g_Config.backend_info.bSupportsDualSourceBlend = GLExtensions::Supports("GL_ARB_blend_func_extended");
g_Config.backend_info.bSupportsPrimitiveRestart = !DriverDetails::HasBug(DriverDetails::BUG_PRIMITIVERESTART) &&
((GLExtensions::Version() >= 310) || GLExtensions::Supports("GL_NV_primitive_restart"));
g_Config.backend_info.bSupportsEarlyZ = GLExtensions::Supports("GL_ARB_shader_image_load_store");
g_Config.backend_info.bSupportsBBox = GLExtensions::Supports("GL_ARB_shader_storage_buffer_object");
g_Config.backend_info.bSupportsGSInstancing = GLExtensions::Supports("GL_ARB_gpu_shader5");
g_Config.backend_info.bSupportsGeometryShaders = GLExtensions::Version() >= 320;
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g_Config.backend_info.bSupportsPaletteConversion = GLExtensions::Supports("GL_ARB_texture_buffer_object");
g_Config.backend_info.bSupportsClipControl = GLExtensions::Supports("GL_ARB_clip_control");
// Desktop OpenGL supports the binding layout if it supports 420pack
// OpenGL ES 3.1 supports it implicitly without an extension
g_Config.backend_info.bSupportsBindingLayout = GLExtensions::Supports("GL_ARB_shading_language_420pack");
g_ogl_config.bSupportsGLSLCache = GLExtensions::Supports("GL_ARB_get_program_binary");
g_ogl_config.bSupportsGLPinnedMemory = GLExtensions::Supports("GL_AMD_pinned_memory");
g_ogl_config.bSupportsGLSync = GLExtensions::Supports("GL_ARB_sync");
g_ogl_config.bSupportsGLBaseVertex = GLExtensions::Supports("GL_ARB_draw_elements_base_vertex") ||
GLExtensions::Supports("GL_EXT_draw_elements_base_vertex") ||
GLExtensions::Supports("GL_OES_draw_elements_base_vertex");
g_ogl_config.bSupportsGLBufferStorage = GLExtensions::Supports("GL_ARB_buffer_storage") ||
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GLExtensions::Supports("GL_EXT_buffer_storage");
g_ogl_config.bSupportsMSAA = GLExtensions::Supports("GL_ARB_texture_multisample");
g_ogl_config.bSupportSampleShading = GLExtensions::Supports("GL_ARB_sample_shading");
g_ogl_config.bSupportOGL31 = GLExtensions::Version() >= 310;
g_ogl_config.bSupportViewportFloat = GLExtensions::Supports("GL_ARB_viewport_array");
g_ogl_config.bSupportsDebug = GLExtensions::Supports("GL_KHR_debug") || GLExtensions::Supports("GL_ARB_debug_output");
if (GLInterface->GetMode() == GLInterfaceMode::MODE_OPENGLES3)
{
if (strstr(g_ogl_config.glsl_version, "3.0"))
{
g_ogl_config.eSupportedGLSLVersion = GLSLES_300;
g_ogl_config.bSupportsAEP = false;
g_Config.backend_info.bSupportsGeometryShaders = false;
}
else
{
g_ogl_config.eSupportedGLSLVersion = GLSLES_310;
g_ogl_config.bSupportsAEP = GLExtensions::Supports("GL_ANDROID_extension_pack_es31a");
g_Config.backend_info.bSupportsBindingLayout = true;
g_Config.backend_info.bSupportsEarlyZ = true;
g_Config.backend_info.bSupportsGeometryShaders = g_ogl_config.bSupportsAEP;
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//g_Config.backend_info.bSupportsPaletteConversion = GLExtensions::Supports("GL_EXT_texture_buffer");
}
}
else
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{
if (strstr(g_ogl_config.glsl_version, "1.00") || strstr(g_ogl_config.glsl_version, "1.10") || strstr(g_ogl_config.glsl_version, "1.20"))
{
PanicAlert("GPU: OGL ERROR: Need at least GLSL 1.30\n"
"GPU: Does your video card support OpenGL 3.0?\n"
"GPU: Your driver supports GLSL %s", g_ogl_config.glsl_version);
bSuccess = false;
}
else if (strstr(g_ogl_config.glsl_version, "1.30"))
{
g_ogl_config.eSupportedGLSLVersion = GLSL_130;
g_Config.backend_info.bSupportsEarlyZ = false; // layout keyword is only supported on glsl150+
g_Config.backend_info.bSupportsGeometryShaders = false; // geometry shaders are only supported on glsl150+
}
else if (strstr(g_ogl_config.glsl_version, "1.40"))
{
g_ogl_config.eSupportedGLSLVersion = GLSL_140;
g_Config.backend_info.bSupportsEarlyZ = false; // layout keyword is only supported on glsl150+
g_Config.backend_info.bSupportsGeometryShaders = false; // geometry shaders are only supported on glsl150+
}
else
{
g_ogl_config.eSupportedGLSLVersion = GLSL_150;
}
// Desktop OpenGL can't have the Android Extension Pack
g_ogl_config.bSupportsAEP = false;
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}
if (g_ogl_config.bSupportsDebug)
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{
if (GLExtensions::Supports("GL_KHR_debug"))
{
glDebugMessageControl(GL_DONT_CARE, GL_DONT_CARE, GL_DONT_CARE, 0, nullptr, true);
glDebugMessageCallback(ErrorCallback, nullptr);
}
else
{
glDebugMessageControlARB(GL_DONT_CARE, GL_DONT_CARE, GL_DONT_CARE, 0, nullptr, true);
glDebugMessageCallbackARB(ErrorCallback, nullptr);
}
if (LogManager::GetInstance()->IsEnabled(LogTypes::VIDEO, LogTypes::LERROR))
glEnable(GL_DEBUG_OUTPUT);
else
glDisable(GL_DEBUG_OUTPUT);
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}
int samples;
glGetIntegerv(GL_SAMPLES, &samples);
if (samples > 1)
{
// MSAA on default framebuffer isn't working because of glBlitFramebuffer.
// It also isn't useful as we don't render anything to the default framebuffer.
// We also try to get a non-msaa fb, so this only happens when forced by the driver.
PanicAlert("MSAA on default framebuffer isn't supported.\n"
"Please avoid forcing Dolphin to use MSAA by the driver.\n"
"%d samples on default framebuffer found.", samples);
bSuccess = false;
}
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if (!bSuccess)
{
// Not all needed extensions are supported, so we have to stop here.
// Else some of the next calls might crash.
return;
}
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glGetIntegerv(GL_MAX_SAMPLES, &g_ogl_config.max_samples);
if (g_ogl_config.max_samples < 1 || !g_ogl_config.bSupportsMSAA)
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g_ogl_config.max_samples = 1;
g_Config.VerifyValidity();
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UpdateActiveConfig();
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OSD::AddMessage(StringFromFormat("Video Info: %s, %s, %s",
g_ogl_config.gl_vendor,
g_ogl_config.gl_renderer,
g_ogl_config.gl_version), 5000);
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WARN_LOG(VIDEO,"Missing OGL Extensions: %s%s%s%s%s%s%s%s%s%s%s%s",
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g_ActiveConfig.backend_info.bSupportsDualSourceBlend ? "" : "DualSourceBlend ",
g_ActiveConfig.backend_info.bSupportsPrimitiveRestart ? "" : "PrimitiveRestart ",
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g_ActiveConfig.backend_info.bSupportsEarlyZ ? "" : "EarlyZ ",
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g_ogl_config.bSupportsGLPinnedMemory ? "" : "PinnedMemory ",
g_ogl_config.bSupportsGLSLCache ? "" : "ShaderCache ",
g_ogl_config.bSupportsGLBaseVertex ? "" : "BaseVertex ",
g_ogl_config.bSupportsGLBufferStorage ? "" : "BufferStorage ",
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g_ogl_config.bSupportsGLSync ? "" : "Sync ",
g_ogl_config.bSupportsMSAA ? "" : "MSAA ",
g_ogl_config.bSupportSampleShading ? "" : "SSAA ",
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g_ActiveConfig.backend_info.bSupportsGSInstancing ? "" : "GSInstancing ",
g_ActiveConfig.backend_info.bSupportsClipControl ? "" : "ClipControl "
);
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s_last_multisample_mode = g_ActiveConfig.iMultisampleMode;
s_MSAASamples = GetNumMSAASamples(s_last_multisample_mode);
ApplySSAASettings();
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s_last_stereo_mode = g_ActiveConfig.iStereoMode > 0;
s_last_xfb_mode = g_ActiveConfig.bUseRealXFB;
// Decide framebuffer size
s_backbuffer_width = (int)GLInterface->GetBackBufferWidth();
s_backbuffer_height = (int)GLInterface->GetBackBufferHeight();
// Handle VSync on/off
s_vsync = g_ActiveConfig.IsVSync();
GLInterface->SwapInterval(s_vsync);
// TODO: Move these somewhere else?
FramebufferManagerBase::SetLastXfbWidth(MAX_XFB_WIDTH);
FramebufferManagerBase::SetLastXfbHeight(MAX_XFB_HEIGHT);
UpdateDrawRectangle(s_backbuffer_width, s_backbuffer_height);
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s_last_efb_scale = g_ActiveConfig.iEFBScale;
CalculateTargetSize(s_backbuffer_width, s_backbuffer_height);
PixelShaderManager::SetEfbScaleChanged();
// Because of the fixed framebuffer size we need to disable the resolution
// options while running
g_Config.bRunning = true;
glStencilFunc(GL_ALWAYS, 0, 0);
glBlendFunc(GL_ONE, GL_ONE);
glViewport(0, 0, GetTargetWidth(), GetTargetHeight()); // Reset The Current Viewport
if (g_ActiveConfig.backend_info.bSupportsClipControl)
glClipControl(GL_LOWER_LEFT, GL_ZERO_TO_ONE);
glClearColor(0.0f, 0.0f, 0.0f, 1.0f);
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glClearDepthf(1.0f);
glEnable(GL_DEPTH_TEST);
glDepthFunc(GL_LEQUAL);
glPixelStorei(GL_UNPACK_ALIGNMENT, 4); // 4-byte pixel alignment
glDisable(GL_STENCIL_TEST);
glEnable(GL_SCISSOR_TEST);
glScissor(0, 0, GetTargetWidth(), GetTargetHeight());
glBlendColor(0, 0, 0, 0.5f);
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glClearDepthf(1.0f);
if (g_ActiveConfig.backend_info.bSupportsPrimitiveRestart)
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{
if (GLInterface->GetMode() == GLInterfaceMode::MODE_OPENGLES3)
{
glEnable(GL_PRIMITIVE_RESTART_FIXED_INDEX);
}
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else
{
if (g_ogl_config.bSupportOGL31)
{
glEnable(GL_PRIMITIVE_RESTART);
glPrimitiveRestartIndex(65535);
}
else
{
glEnableClientState(GL_PRIMITIVE_RESTART_NV);
glPrimitiveRestartIndexNV(65535);
}
}
}
UpdateActiveConfig();
ClearEFBCache();
}
Renderer::~Renderer()
{
}
void Renderer::Shutdown()
{
delete g_framebuffer_manager;
g_Config.bRunning = false;
UpdateActiveConfig();
glDeleteBuffers(1, &s_ShowEFBCopyRegions_VBO);
glDeleteVertexArrays(1, &s_ShowEFBCopyRegions_VAO);
s_ShowEFBCopyRegions_VBO = 0;
delete s_pfont;
s_pfont = nullptr;
s_ShowEFBCopyRegions.Destroy();
delete m_post_processor;
m_post_processor = nullptr;
OpenGL_DeleteAttributelessVAO();
}
void Renderer::Init()
{
// Initialize the FramebufferManager
g_framebuffer_manager = new FramebufferManager(s_target_width, s_target_height,
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s_MSAASamples);
m_post_processor = new OpenGLPostProcessing();
s_pfont = new RasterFont();
ProgramShaderCache::CompileShader(s_ShowEFBCopyRegions,
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"in vec2 rawpos;\n"
"in vec3 color0;\n"
"out vec4 c;\n"
"void main(void) {\n"
" gl_Position = vec4(rawpos, 0.0, 1.0);\n"
" c = vec4(color0, 1.0);\n"
"}\n",
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"in vec4 c;\n"
"out vec4 ocol0;\n"
"void main(void) {\n"
" ocol0 = c;\n"
"}\n");
OpenGL_CreateAttributelessVAO();
// creating buffers
glGenBuffers(1, &s_ShowEFBCopyRegions_VBO);
glGenVertexArrays(1, &s_ShowEFBCopyRegions_VAO);
glBindBuffer(GL_ARRAY_BUFFER, s_ShowEFBCopyRegions_VBO);
glBindVertexArray( s_ShowEFBCopyRegions_VAO );
glEnableVertexAttribArray(SHADER_POSITION_ATTRIB);
glVertexAttribPointer(SHADER_POSITION_ATTRIB, 2, GL_FLOAT, 0, sizeof(GLfloat)*5, nullptr);
glEnableVertexAttribArray(SHADER_COLOR0_ATTRIB);
glVertexAttribPointer(SHADER_COLOR0_ATTRIB, 3, GL_FLOAT, 0, sizeof(GLfloat)*5, (GLfloat*)nullptr+2);
}
// Create On-Screen-Messages
void Renderer::ShowEfbCopyRegions()
{
if (GLInterface->GetMode() == GLInterfaceMode::MODE_OPENGL && g_ActiveConfig.bShowEFBCopyRegions)
{
// Set Line Size
glLineWidth(3.0f);
// 2*Coords + 3*Color
GLsizeiptr length = stats.efb_regions.size() * sizeof(GLfloat) * (2 + 3) * 2 * 6;
glBindBuffer(GL_ARRAY_BUFFER, s_ShowEFBCopyRegions_VBO);
glBufferData(GL_ARRAY_BUFFER, length, nullptr, GL_STREAM_DRAW);
GLfloat *Vertices = (GLfloat*)glMapBufferRange(GL_ARRAY_BUFFER, 0, length, GL_MAP_WRITE_BIT);
// Draw EFB copy regions rectangles
int a = 0;
GLfloat color[3] = {0.0f, 1.0f, 1.0f};
for (const EFBRectangle& rect : stats.efb_regions)
{
GLfloat halfWidth = EFB_WIDTH / 2.0f;
GLfloat halfHeight = EFB_HEIGHT / 2.0f;
GLfloat x = (GLfloat) -1.0f + ((GLfloat)rect.left / halfWidth);
GLfloat y = (GLfloat) 1.0f - ((GLfloat)rect.top / halfHeight);
GLfloat x2 = (GLfloat) -1.0f + ((GLfloat)rect.right / halfWidth);
GLfloat y2 = (GLfloat) 1.0f - ((GLfloat)rect.bottom / halfHeight);
Vertices[a++] = x;
Vertices[a++] = y;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x2;
Vertices[a++] = y;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x2;
Vertices[a++] = y;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x2;
Vertices[a++] = y2;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x2;
Vertices[a++] = y2;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x;
Vertices[a++] = y2;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x;
Vertices[a++] = y2;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x;
Vertices[a++] = y;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x;
Vertices[a++] = y;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x2;
Vertices[a++] = y2;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x2;
Vertices[a++] = y;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
Vertices[a++] = x;
Vertices[a++] = y2;
Vertices[a++] = color[0];
Vertices[a++] = color[1];
Vertices[a++] = color[2];
// TO DO: build something nicer here
GLfloat temp = color[0];
color[0] = color[1];
color[1] = color[2];
color[2] = temp;
}
glUnmapBuffer(GL_ARRAY_BUFFER);
s_ShowEFBCopyRegions.Bind();
glBindVertexArray(s_ShowEFBCopyRegions_VAO);
GLsizei count = static_cast<GLsizei>(stats.efb_regions.size() * 2*6);
glDrawArrays(GL_LINES, 0, count);
// Clear stored regions
stats.efb_regions.clear();
}
}
void Renderer::RenderText(const std::string& text, int left, int top, u32 color)
{
const int nBackbufferWidth = (int)GLInterface->GetBackBufferWidth();
const int nBackbufferHeight = (int)GLInterface->GetBackBufferHeight();
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s_pfont->printMultilineText(text,
left * 2.0f / (float)nBackbufferWidth - 1,
1 - top * 2.0f / (float)nBackbufferHeight,
0, nBackbufferWidth, nBackbufferHeight, color);
}
TargetRectangle Renderer::ConvertEFBRectangle(const EFBRectangle& rc)
{
TargetRectangle result;
result.left = EFBToScaledX(rc.left);
result.top = EFBToScaledY(EFB_HEIGHT - rc.top);
result.right = EFBToScaledX(rc.right);
result.bottom = EFBToScaledY(EFB_HEIGHT - rc.bottom);
return result;
}
// Function: This function handles the OpenGL glScissor() function
// ----------------------------
// Call browser: OpcodeDecoding.cpp ExecuteDisplayList > Decode() > LoadBPReg()
// case 0x52 > SetScissorRect()
// ----------------------------
// bpmem.scissorTL.x, y = 342x342
// bpmem.scissorBR.x, y = 981x821
// Renderer::GetTargetHeight() = the fixed ini file setting
// donkopunchstania - it appears scissorBR is the bottom right pixel inside the scissor box
// therefore the width and height are (scissorBR + 1) - scissorTL
void Renderer::SetScissorRect(const EFBRectangle& rc)
{
TargetRectangle trc = g_renderer->ConvertEFBRectangle(rc);
glScissor(trc.left, trc.bottom, trc.GetWidth(), trc.GetHeight());
}
void Renderer::SetColorMask()
{
// Only enable alpha channel if it's supported by the current EFB format
GLenum ColorMask = GL_FALSE, AlphaMask = GL_FALSE;
if (bpmem.alpha_test.TestResult() != AlphaTest::FAIL)
{
if (bpmem.blendmode.colorupdate)
ColorMask = GL_TRUE;
if (bpmem.blendmode.alphaupdate && (bpmem.zcontrol.pixel_format == PEControl::RGBA6_Z24))
AlphaMask = GL_TRUE;
}
glColorMask(ColorMask, ColorMask, ColorMask, AlphaMask);
}
void ClearEFBCache()
{
if (!s_efbCacheIsCleared)
{
s_efbCacheIsCleared = true;
memset(s_efbCacheValid, 0, sizeof(s_efbCacheValid));
}
}
void Renderer::UpdateEFBCache(EFBAccessType type, u32 cacheRectIdx, const EFBRectangle& efbPixelRc, const TargetRectangle& targetPixelRc, const u32* data)
{
u32 cacheType = (type == PEEK_Z ? 0 : 1);
if (!s_efbCache[cacheType][cacheRectIdx].size())
s_efbCache[cacheType][cacheRectIdx].resize(EFB_CACHE_RECT_SIZE * EFB_CACHE_RECT_SIZE);
u32 targetPixelRcWidth = targetPixelRc.right - targetPixelRc.left;
u32 efbPixelRcHeight = efbPixelRc.bottom - efbPixelRc.top;
u32 efbPixelRcWidth = efbPixelRc.right - efbPixelRc.left;
for (u32 yCache = 0; yCache < efbPixelRcHeight; ++yCache)
{
u32 yEFB = efbPixelRc.top + yCache;
u32 yPixel = (EFBToScaledY(EFB_HEIGHT - yEFB) + EFBToScaledY(EFB_HEIGHT - yEFB - 1)) / 2;
u32 yData = yPixel - targetPixelRc.bottom;
for (u32 xCache = 0; xCache < efbPixelRcWidth; ++xCache)
{
u32 xEFB = efbPixelRc.left + xCache;
u32 xPixel = (EFBToScaledX(xEFB) + EFBToScaledX(xEFB + 1)) / 2;
u32 xData = xPixel - targetPixelRc.left;
s_efbCache[cacheType][cacheRectIdx][yCache * EFB_CACHE_RECT_SIZE + xCache] = data[yData * targetPixelRcWidth + xData];
}
}
s_efbCacheValid[cacheType][cacheRectIdx] = true;
s_efbCacheIsCleared = false;
}
// This function allows the CPU to directly access the EFB.
// There are EFB peeks (which will read the color or depth of a pixel)
// and EFB pokes (which will change the color or depth of a pixel).
//
// The behavior of EFB peeks can only be modified by:
// - GX_PokeAlphaRead
// The behavior of EFB pokes can be modified by:
// - GX_PokeAlphaMode (TODO)
// - GX_PokeAlphaUpdate (TODO)
// - GX_PokeBlendMode (TODO)
// - GX_PokeColorUpdate (TODO)
// - GX_PokeDither (TODO)
// - GX_PokeDstAlpha (TODO)
// - GX_PokeZMode (TODO)
u32 Renderer::AccessEFB(EFBAccessType type, u32 x, u32 y, u32 poke_data)
{
u32 cacheRectIdx = (y / EFB_CACHE_RECT_SIZE) * EFB_CACHE_WIDTH
+ (x / EFB_CACHE_RECT_SIZE);
EFBRectangle efbPixelRc;
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if (type == PEEK_COLOR || type == PEEK_Z)
{
// Get the rectangular target region containing the EFB pixel
efbPixelRc.left = (x / EFB_CACHE_RECT_SIZE) * EFB_CACHE_RECT_SIZE;
efbPixelRc.top = (y / EFB_CACHE_RECT_SIZE) * EFB_CACHE_RECT_SIZE;
efbPixelRc.right = std::min(efbPixelRc.left + EFB_CACHE_RECT_SIZE, (u32)EFB_WIDTH);
efbPixelRc.bottom = std::min(efbPixelRc.top + EFB_CACHE_RECT_SIZE, (u32)EFB_HEIGHT);
}
else
{
efbPixelRc.left = x;
efbPixelRc.top = y;
efbPixelRc.right = x+1;
efbPixelRc.bottom = y+1;
}
TargetRectangle targetPixelRc = ConvertEFBRectangle(efbPixelRc);
u32 targetPixelRcWidth = targetPixelRc.right - targetPixelRc.left;
u32 targetPixelRcHeight = targetPixelRc.top - targetPixelRc.bottom;
// TODO (FIX) : currently, AA path is broken/offset and doesn't return the correct pixel
switch (type)
{
case PEEK_Z:
{
if (!s_efbCacheValid[0][cacheRectIdx])
{
if (s_MSAASamples > 1)
{
g_renderer->ResetAPIState();
// Resolve our rectangle.
FramebufferManager::GetEFBDepthTexture(efbPixelRc);
glBindFramebuffer(GL_READ_FRAMEBUFFER, FramebufferManager::GetResolvedFramebuffer());
g_renderer->RestoreAPIState();
}
std::unique_ptr<u32> depthMap(new u32[targetPixelRcWidth * targetPixelRcHeight]);
glReadPixels(targetPixelRc.left, targetPixelRc.bottom, targetPixelRcWidth, targetPixelRcHeight,
GL_DEPTH_COMPONENT, GL_UNSIGNED_INT, depthMap.get());
UpdateEFBCache(type, cacheRectIdx, efbPixelRc, targetPixelRc, depthMap.get());
}
u32 xRect = x % EFB_CACHE_RECT_SIZE;
u32 yRect = y % EFB_CACHE_RECT_SIZE;
u32 z = s_efbCache[0][cacheRectIdx][yRect * EFB_CACHE_RECT_SIZE + xRect];
// Scale the 32-bit value returned by glReadPixels to a 24-bit
// value (GC uses a 24-bit Z-buffer).
float val = z / float(0xFFFFFFFF);
u32 ret = 0;
if (bpmem.zcontrol.pixel_format == PEControl::RGB565_Z16)
{
// if Z is in 16 bit format you must return a 16 bit integer
ret = MathUtil::Clamp<u32>((u32)(val * 65536.0f), 0, 0xFFFF);
}
else
{
ret = MathUtil::Clamp<u32>((u32)(val * 16777216.0f), 0, 0xFFFFFF);
}
return ret;
}
case PEEK_COLOR: // GXPeekARGB
{
// Although it may sound strange, this really is A8R8G8B8 and not RGBA or 24-bit...
// Tested in Killer 7, the first 8bits represent the alpha value which is used to
// determine if we're aiming at an enemy (0x80 / 0x88) or not (0x70)
// Wind Waker is also using it for the pictograph to determine the color of each pixel
if (!s_efbCacheValid[1][cacheRectIdx])
{
if (s_MSAASamples > 1)
{
g_renderer->ResetAPIState();
// Resolve our rectangle.
FramebufferManager::GetEFBColorTexture(efbPixelRc);
glBindFramebuffer(GL_READ_FRAMEBUFFER, FramebufferManager::GetResolvedFramebuffer());
g_renderer->RestoreAPIState();
}
std::unique_ptr<u32> colorMap(new u32[targetPixelRcWidth * targetPixelRcHeight]);
if (GLInterface->GetMode() == GLInterfaceMode::MODE_OPENGLES3)
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// XXX: Swap colours
glReadPixels(targetPixelRc.left, targetPixelRc.bottom, targetPixelRcWidth, targetPixelRcHeight,
GL_RGBA, GL_UNSIGNED_BYTE, colorMap.get());
else
glReadPixels(targetPixelRc.left, targetPixelRc.bottom, targetPixelRcWidth, targetPixelRcHeight,
GL_BGRA, GL_UNSIGNED_INT_8_8_8_8_REV, colorMap.get());
UpdateEFBCache(type, cacheRectIdx, efbPixelRc, targetPixelRc, colorMap.get());
}
u32 xRect = x % EFB_CACHE_RECT_SIZE;
u32 yRect = y % EFB_CACHE_RECT_SIZE;
u32 color = s_efbCache[1][cacheRectIdx][yRect * EFB_CACHE_RECT_SIZE + xRect];
// check what to do with the alpha channel (GX_PokeAlphaRead)
PixelEngine::UPEAlphaReadReg alpha_read_mode = PixelEngine::GetAlphaReadMode();
if (bpmem.zcontrol.pixel_format == PEControl::RGBA6_Z24)
{
color = RGBA8ToRGBA6ToRGBA8(color);
}
else if (bpmem.zcontrol.pixel_format == PEControl::RGB565_Z16)
{
color = RGBA8ToRGB565ToRGBA8(color);
}
if (bpmem.zcontrol.pixel_format != PEControl::RGBA6_Z24)
{
color |= 0xFF000000;
}
if (alpha_read_mode.ReadMode == 2)
{
// GX_READ_NONE
return color;
}
else if (alpha_read_mode.ReadMode == 1)
{
// GX_READ_FF
return (color | 0xFF000000);
}
else /*if(alpha_read_mode.ReadMode == 0)*/
{
// GX_READ_00
return (color & 0x00FFFFFF);
}
}
case POKE_COLOR:
case POKE_Z:
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{
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std::vector<EfbPokeData> vector;
EfbPokeData d;
d.x = x;
d.y = y;
d.data = poke_data;
vector.push_back(d);
PokeEFB(type, vector);
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break;
}
default:
break;
}
return 0;
}
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void Renderer::PokeEFB(EFBAccessType type, const std::vector<EfbPokeData>& data)
{
FramebufferManager::PokeEFB(type, data);
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}
u16 Renderer::BBoxRead(int index)
{
int swapped_index = index;
if (index >= 2)
swapped_index ^= 1; // swap 2 and 3 for top/bottom
// Here we get the min/max value of the truncated position of the upscaled and swapped framebuffer.
// So we have to correct them to the unscaled EFB sizes.
int value = BoundingBox::Get(swapped_index);
if (index < 2)
{
// left/right
value = value * EFB_WIDTH / s_target_width;
}
else
{
// up/down -- we have to swap up and down
value = value * EFB_HEIGHT / s_target_height;
value = EFB_HEIGHT - value - 1;
}
if (index & 1)
value++; // fix max values to describe the outer border
return value;
}
void Renderer::BBoxWrite(int index, u16 _value)
{
int value = _value; // u16 isn't enough to multiply by the efb width
if (index & 1)
value--;
if (index < 2)
{
value = value * s_target_width / EFB_WIDTH;
}
else
{
index ^= 1; // swap 2 and 3 for top/bottom
value = EFB_HEIGHT - value - 1;
value = value * s_target_height / EFB_HEIGHT;
}
BoundingBox::Set(index, value);
}
void Renderer::SetViewport()
{
// reversed gxsetviewport(xorig, yorig, width, height, nearz, farz)
// [0] = width/2
// [1] = height/2
// [2] = 16777215 * (farz - nearz)
// [3] = xorig + width/2 + 342
// [4] = yorig + height/2 + 342
// [5] = 16777215 * farz
int scissorXOff = bpmem.scissorOffset.x * 2;
int scissorYOff = bpmem.scissorOffset.y * 2;
// TODO: ceil, floor or just cast to int?
float X = EFBToScaledXf(xfmem.viewport.xOrig - xfmem.viewport.wd - (float)scissorXOff);
float Y = EFBToScaledYf((float)EFB_HEIGHT - xfmem.viewport.yOrig + xfmem.viewport.ht + (float)scissorYOff);
float Width = EFBToScaledXf(2.0f * xfmem.viewport.wd);
float Height = EFBToScaledYf(-2.0f * xfmem.viewport.ht);
float GLNear = MathUtil::Clamp<float>(xfmem.viewport.farZ - xfmem.viewport.zRange, 0.0f, 16777215.0f) / 16777216.0f;
float GLFar = MathUtil::Clamp<float>(xfmem.viewport.farZ, 0.0f, 16777215.0f) / 16777216.0f;
if (Width < 0)
{
X += Width;
Width *= -1;
}
if (Height < 0)
{
Y += Height;
Height *= -1;
}
// Update the view port
if (g_ogl_config.bSupportViewportFloat)
{
glViewportIndexedf(0, X, Y, Width, Height);
}
else
{
auto iceilf = [](float f)
{
return static_cast<GLint>(ceilf(f));
};
glViewport(iceilf(X), iceilf(Y), iceilf(Width), iceilf(Height));
}
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glDepthRangef(GLFar, GLNear);
}
void Renderer::ClearScreen(const EFBRectangle& rc, bool colorEnable, bool alphaEnable, bool zEnable, u32 color, u32 z)
{
ResetAPIState();
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// color
GLboolean const
color_mask = colorEnable ? GL_TRUE : GL_FALSE,
alpha_mask = alphaEnable ? GL_TRUE : GL_FALSE;
glColorMask(color_mask, color_mask, color_mask, alpha_mask);
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glClearColor(
float((color >> 16) & 0xFF) / 255.0f,
float((color >> 8) & 0xFF) / 255.0f,
float((color >> 0) & 0xFF) / 255.0f,
float((color >> 24) & 0xFF) / 255.0f);
// depth
glDepthMask(zEnable ? GL_TRUE : GL_FALSE);
glClearDepthf(float(z & 0xFFFFFF) / 16777216.0f);
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// Update rect for clearing the picture
glEnable(GL_SCISSOR_TEST);
TargetRectangle const targetRc = ConvertEFBRectangle(rc);
glScissor(targetRc.left, targetRc.bottom, targetRc.GetWidth(), targetRc.GetHeight());
2011-11-30 03:50:31 +00:00
// glColorMask/glDepthMask/glScissor affect glClear (glViewport does not)
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
RestoreAPIState();
ClearEFBCache();
}
void Renderer::BlitScreen(TargetRectangle src, TargetRectangle dst, GLuint src_texture, int src_width, int src_height)
{
if (g_ActiveConfig.iStereoMode == STEREO_SBS || g_ActiveConfig.iStereoMode == STEREO_TAB)
{
TargetRectangle leftRc, rightRc;
ConvertStereoRectangle(dst, leftRc, rightRc);
m_post_processor->BlitFromTexture(src, leftRc, src_texture, src_width, src_height, 0);
m_post_processor->BlitFromTexture(src, rightRc, src_texture, src_width, src_height, 1);
}
else
{
m_post_processor->BlitFromTexture(src, dst, src_texture, src_width, src_height);
}
}
void Renderer::ReinterpretPixelData(unsigned int convtype)
{
if (convtype == 0 || convtype == 2)
{
FramebufferManager::ReinterpretPixelData(convtype);
}
else
{
ERROR_LOG(VIDEO, "Trying to reinterpret pixel data with unsupported conversion type %d", convtype);
}
}
void Renderer::SetBlendMode(bool forceUpdate)
{
// Our render target always uses an alpha channel, so we need to override the blend functions to assume a destination alpha of 1 if the render target isn't supposed to have an alpha channel
// Example: D3DBLEND_DESTALPHA needs to be D3DBLEND_ONE since the result without an alpha channel is assumed to always be 1.
bool target_has_alpha = bpmem.zcontrol.pixel_format == PEControl::RGBA6_Z24;
bool useDstAlpha = !g_ActiveConfig.bDstAlphaPass && bpmem.dstalpha.enable && bpmem.blendmode.alphaupdate && target_has_alpha;
bool useDualSource = useDstAlpha && g_ActiveConfig.backend_info.bSupportsDualSourceBlend;
const GLenum glSrcFactors[8] =
{
GL_ZERO,
GL_ONE,
GL_DST_COLOR,
GL_ONE_MINUS_DST_COLOR,
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(useDualSource) ? GL_SRC1_ALPHA : (GLenum)GL_SRC_ALPHA,
(useDualSource) ? GL_ONE_MINUS_SRC1_ALPHA : (GLenum)GL_ONE_MINUS_SRC_ALPHA,
(target_has_alpha) ? GL_DST_ALPHA : (GLenum)GL_ONE,
(target_has_alpha) ? GL_ONE_MINUS_DST_ALPHA : (GLenum)GL_ZERO
};
const GLenum glDestFactors[8] =
{
GL_ZERO,
GL_ONE,
GL_SRC_COLOR,
GL_ONE_MINUS_SRC_COLOR,
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(useDualSource) ? GL_SRC1_ALPHA : (GLenum)GL_SRC_ALPHA,
(useDualSource) ? GL_ONE_MINUS_SRC1_ALPHA : (GLenum)GL_ONE_MINUS_SRC_ALPHA,
(target_has_alpha) ? GL_DST_ALPHA : (GLenum)GL_ONE,
(target_has_alpha) ? GL_ONE_MINUS_DST_ALPHA : (GLenum)GL_ZERO
};
// blend mode bit mask
// 0 - blend enable
// 1 - dst alpha enabled
// 2 - reverse subtract enable (else add)
// 3-5 - srcRGB function
// 6-8 - dstRGB function
u32 newval = useDualSource << 1;
newval |= bpmem.blendmode.subtract << 2;
if (bpmem.blendmode.subtract)
{
newval |= 0x0049; // enable blending src 1 dst 1
}
else if (bpmem.blendmode.blendenable)
{
newval |= 1; // enable blending
newval |= bpmem.blendmode.srcfactor << 3;
newval |= bpmem.blendmode.dstfactor << 6;
}
u32 changes = forceUpdate ? 0xFFFFFFFF : newval ^ s_blendMode;
if (changes & 1)
{
// blend enable change
(newval & 1) ? glEnable(GL_BLEND) : glDisable(GL_BLEND);
}
if (changes & 4)
{
// subtract enable change
GLenum equation = newval & 4 ? GL_FUNC_REVERSE_SUBTRACT : GL_FUNC_ADD;
GLenum equationAlpha = useDualSource ? GL_FUNC_ADD : equation;
glBlendEquationSeparate(equation, equationAlpha);
}
if (changes & 0x1FA)
{
u32 srcidx = (newval >> 3) & 7;
u32 dstidx = (newval >> 6) & 7;
GLenum srcFactor = glSrcFactors[srcidx];
GLenum dstFactor = glDestFactors[dstidx];
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// adjust alpha factors
if (useDualSource)
{
srcidx = BlendMode::ONE;
dstidx = BlendMode::ZERO;
}
else
{
// we can't use GL_DST_COLOR or GL_ONE_MINUS_DST_COLOR for source in alpha channel so use their alpha equivalent instead
if (srcidx == BlendMode::DSTCLR)
srcidx = BlendMode::DSTALPHA;
else if (srcidx == BlendMode::INVDSTCLR)
srcidx = BlendMode::INVDSTALPHA;
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// we can't use GL_SRC_COLOR or GL_ONE_MINUS_SRC_COLOR for destination in alpha channel so use their alpha equivalent instead
if (dstidx == BlendMode::SRCCLR)
dstidx = BlendMode::SRCALPHA;
else if (dstidx == BlendMode::INVSRCCLR)
dstidx = BlendMode::INVSRCALPHA;
}
GLenum srcFactorAlpha = glSrcFactors[srcidx];
GLenum dstFactorAlpha = glDestFactors[dstidx];
// blend RGB change
glBlendFuncSeparate(srcFactor, dstFactor, srcFactorAlpha, dstFactorAlpha);
}
s_blendMode = newval;
}
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static void DumpFrame(const std::vector<u8>& data, int w, int h)
{
#if defined(HAVE_LIBAV) || defined(_WIN32)
if (SConfig::GetInstance().m_DumpFrames && !data.empty())
{
AVIDump::AddFrame(&data[0], w, h);
}
#endif
}
// This function has the final picture. We adjust the aspect ratio here.
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void Renderer::SwapImpl(u32 xfbAddr, u32 fbWidth, u32 fbStride, u32 fbHeight, const EFBRectangle& rc, float Gamma)
{
if (g_ogl_config.bSupportsDebug)
{
if (LogManager::GetInstance()->IsEnabled(LogTypes::VIDEO, LogTypes::LERROR))
glEnable(GL_DEBUG_OUTPUT);
else
glDisable(GL_DEBUG_OUTPUT);
}
static int w = 0, h = 0;
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if (g_bSkipCurrentFrame || (!XFBWrited && !g_ActiveConfig.RealXFBEnabled()) || !fbWidth || !fbHeight)
{
DumpFrame(frame_data, w, h);
Core::Callback_VideoCopiedToXFB(false);
return;
}
u32 xfbCount = 0;
const XFBSourceBase* const* xfbSourceList = FramebufferManager::GetXFBSource(xfbAddr, fbStride, fbHeight, &xfbCount);
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if (g_ActiveConfig.VirtualXFBEnabled() && (!xfbSourceList || xfbCount == 0))
{
DumpFrame(frame_data, w, h);
Core::Callback_VideoCopiedToXFB(false);
return;
}
ResetAPIState();
UpdateDrawRectangle(s_backbuffer_width, s_backbuffer_height);
TargetRectangle flipped_trc = GetTargetRectangle();
// Flip top and bottom for some reason; TODO: Fix the code to suck less?
std::swap(flipped_trc.top, flipped_trc.bottom);
// Copy the framebuffer to screen.
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const XFBSource* xfbSource = nullptr;
if (g_ActiveConfig.bUseXFB)
{
// draw each xfb source
for (u32 i = 0; i < xfbCount; ++i)
{
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xfbSource = (const XFBSource*) xfbSourceList[i];
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TargetRectangle drawRc;
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if (g_ActiveConfig.bUseRealXFB)
{
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drawRc = flipped_trc;
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}
else
{
// use virtual xfb with offset
int xfbHeight = xfbSource->srcHeight;
int xfbWidth = xfbSource->srcWidth;
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int hOffset = ((s32)xfbSource->srcAddr - (s32)xfbAddr) / ((s32)fbStride * 2);
drawRc.top = flipped_trc.top - hOffset * flipped_trc.GetHeight() / (s32)fbHeight;
drawRc.bottom = flipped_trc.top - (hOffset + xfbHeight) * flipped_trc.GetHeight() / (s32)fbHeight;
drawRc.left = flipped_trc.left + (flipped_trc.GetWidth() - xfbWidth * flipped_trc.GetWidth() / (s32)fbStride) / 2;
drawRc.right = flipped_trc.left + (flipped_trc.GetWidth() + xfbWidth * flipped_trc.GetWidth() / (s32)fbStride) / 2;
// The following code disables auto stretch. Kept for reference.
// scale draw area for a 1 to 1 pixel mapping with the draw target
//float vScale = (float)fbHeight / (float)flipped_trc.GetHeight();
//float hScale = (float)fbWidth / (float)flipped_trc.GetWidth();
//drawRc.top *= vScale;
//drawRc.bottom *= vScale;
//drawRc.left *= hScale;
//drawRc.right *= hScale;
}
// Tell the OSD Menu about the current internal resolution
OSDInternalW = xfbSource->sourceRc.GetWidth(); OSDInternalH = xfbSource->sourceRc.GetHeight();
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TargetRectangle sourceRc;
sourceRc.left = xfbSource->sourceRc.left;
sourceRc.right = xfbSource->sourceRc.right;
sourceRc.top = xfbSource->sourceRc.top;
sourceRc.bottom = xfbSource->sourceRc.bottom;
sourceRc.right -= Renderer::EFBToScaledX(fbStride - fbWidth);
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BlitScreen(sourceRc, drawRc, xfbSource->texture, xfbSource->texWidth, xfbSource->texHeight);
}
}
else
{
TargetRectangle targetRc = ConvertEFBRectangle(rc);
// for msaa mode, we must resolve the efb content to non-msaa
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GLuint tex = FramebufferManager::ResolveAndGetRenderTarget(rc);
BlitScreen(targetRc, flipped_trc, tex, s_target_width, s_target_height);
}
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glBindFramebuffer(GL_READ_FRAMEBUFFER, 0);
// Save screenshot
if (s_bScreenshot)
{
std::lock_guard<std::mutex> lk(s_criticalScreenshot);
SaveScreenshot(s_sScreenshotName, flipped_trc);
// Reset settings
s_sScreenshotName.clear();
s_bScreenshot = false;
}
// Frame dumps are handled a little differently in Windows
// Frame dumping disabled entirely on GLES3
if (GLInterface->GetMode() == GLInterfaceMode::MODE_OPENGL)
{
#if defined _WIN32 || defined HAVE_LIBAV
if (SConfig::GetInstance().m_DumpFrames)
{
std::lock_guard<std::mutex> lk(s_criticalScreenshot);
if (frame_data.empty() || w != flipped_trc.GetWidth() ||
h != flipped_trc.GetHeight())
{
w = flipped_trc.GetWidth();
h = flipped_trc.GetHeight();
frame_data.resize(3 * w * h);
}
glPixelStorei(GL_PACK_ALIGNMENT, 1);
glReadPixels(flipped_trc.left, flipped_trc.bottom, w, h, GL_BGR, GL_UNSIGNED_BYTE, &frame_data[0]);
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if (w > 0 && h > 0)
{
if (!bLastFrameDumped)
{
#ifdef _WIN32
bAVIDumping = AVIDump::Start(nullptr, w, h);
#else
bAVIDumping = AVIDump::Start(w, h);
#endif
if (!bAVIDumping)
{
OSD::AddMessage("AVIDump Start failed", 2000);
}
else
{
OSD::AddMessage(StringFromFormat(
"Dumping Frames to \"%sframedump0.avi\" (%dx%d RGB24)",
File::GetUserPath(D_DUMPFRAMES_IDX).c_str(), w, h), 2000);
}
}
if (bAVIDumping)
{
#ifndef _WIN32
FlipImageData(&frame_data[0], w, h);
#endif
AVIDump::AddFrame(&frame_data[0], w, h);
}
bLastFrameDumped = true;
}
else
{
NOTICE_LOG(VIDEO, "Error reading framebuffer");
}
}
else
{
if (bLastFrameDumped && bAVIDumping)
{
std::vector<u8>().swap(frame_data);
w = h = 0;
AVIDump::Stop();
bAVIDumping = false;
OSD::AddMessage("Stop dumping frames", 2000);
}
bLastFrameDumped = false;
}
#else
if (SConfig::GetInstance().m_DumpFrames)
{
std::lock_guard<std::mutex> lk(s_criticalScreenshot);
std::string movie_file_name;
w = GetTargetRectangle().GetWidth();
h = GetTargetRectangle().GetHeight();
frame_data.resize(3 * w * h);
glPixelStorei(GL_PACK_ALIGNMENT, 1);
glReadPixels(GetTargetRectangle().left, GetTargetRectangle().bottom, w, h, GL_BGR, GL_UNSIGNED_BYTE, &frame_data[0]);
if (!bLastFrameDumped)
{
movie_file_name = File::GetUserPath(D_DUMPFRAMES_IDX) + "framedump.raw";
File::CreateFullPath(movie_file_name);
pFrameDump.Open(movie_file_name, "wb");
if (!pFrameDump)
{
OSD::AddMessage("Error opening framedump.raw for writing.", 2000);
}
else
{
OSD::AddMessage(StringFromFormat("Dumping Frames to \"%s\" (%dx%d RGB24)", movie_file_name.c_str(), w, h), 2000);
}
}
if (pFrameDump)
{
FlipImageData(&frame_data[0], w, h);
pFrameDump.WriteBytes(&frame_data[0], w * 3 * h);
pFrameDump.Flush();
}
bLastFrameDumped = true;
}
else
{
if (bLastFrameDumped)
pFrameDump.Close();
bLastFrameDumped = false;
}
#endif
}
// Finish up the current frame, print some stats
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SetWindowSize(fbStride, fbHeight);
GLInterface->Update(); // just updates the render window position and the backbuffer size
bool xfbchanged = s_last_xfb_mode != g_ActiveConfig.bUseRealXFB;
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if (FramebufferManagerBase::LastXfbWidth() != fbStride || FramebufferManagerBase::LastXfbHeight() != fbHeight)
{
xfbchanged = true;
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unsigned int const last_w = (fbStride < 1 || fbStride > MAX_XFB_WIDTH) ? MAX_XFB_WIDTH : fbStride;
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unsigned int const last_h = (fbHeight < 1 || fbHeight > MAX_XFB_HEIGHT) ? MAX_XFB_HEIGHT : fbHeight;
FramebufferManagerBase::SetLastXfbWidth(last_w);
FramebufferManagerBase::SetLastXfbHeight(last_h);
}
bool WindowResized = false;
int W = (int)GLInterface->GetBackBufferWidth();
int H = (int)GLInterface->GetBackBufferHeight();
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if (W != s_backbuffer_width || H != s_backbuffer_height || s_last_efb_scale != g_ActiveConfig.iEFBScale)
{
WindowResized = true;
s_backbuffer_width = W;
s_backbuffer_height = H;
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s_last_efb_scale = g_ActiveConfig.iEFBScale;
}
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if (xfbchanged || WindowResized || (s_last_multisample_mode != g_ActiveConfig.iMultisampleMode) || (s_last_stereo_mode != (g_ActiveConfig.iStereoMode > 0)))
{
s_last_xfb_mode = g_ActiveConfig.bUseRealXFB;
UpdateDrawRectangle(s_backbuffer_width, s_backbuffer_height);
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if (CalculateTargetSize(s_backbuffer_width, s_backbuffer_height) || s_last_multisample_mode != g_ActiveConfig.iMultisampleMode || s_last_stereo_mode != (g_ActiveConfig.iStereoMode > 0))
{
s_last_stereo_mode = g_ActiveConfig.iStereoMode > 0;
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s_last_multisample_mode = g_ActiveConfig.iMultisampleMode;
s_MSAASamples = GetNumMSAASamples(s_last_multisample_mode);
ApplySSAASettings();
delete g_framebuffer_manager;
g_framebuffer_manager = new FramebufferManager(s_target_width, s_target_height,
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s_MSAASamples);
PixelShaderManager::SetEfbScaleChanged();
}
}
// ---------------------------------------------------------------------
if (!DriverDetails::HasBug(DriverDetails::BUG_BROKENSWAP))
{
glEnable(GL_BLEND);
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
// Reset viewport for drawing text
glViewport(0, 0, GLInterface->GetBackBufferWidth(), GLInterface->GetBackBufferHeight());
ShowEfbCopyRegions();
DrawDebugText();
// Do our OSD callbacks
OSD::DoCallbacks(OSD::OSD_ONFRAME);
OSD::DrawMessages();
}
// Copy the rendered frame to the real window
2012-12-26 06:34:09 +00:00
GLInterface->Swap();
// Clear framebuffer
if (!DriverDetails::HasBug(DriverDetails::BUG_BROKENSWAP))
{
glClearColor(0, 0, 0, 0);
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
}
if (s_vsync != g_ActiveConfig.IsVSync())
{
s_vsync = g_ActiveConfig.IsVSync();
GLInterface->SwapInterval(s_vsync);
}
// Clean out old stuff from caches. It's not worth it to clean out the shader caches.
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TextureCache::Cleanup(frameCount);
// Render to the framebuffer.
FramebufferManager::SetFramebuffer(0);
RestoreAPIState();
g_Config.iSaveTargetId = 0;
UpdateActiveConfig();
TextureCache::OnConfigChanged(g_ActiveConfig);
// For testing zbuffer targets.
// Renderer::SetZBufferRender();
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// SaveTexture("tex.png", GL_TEXTURE_2D, s_FakeZTarget,
// GetTargetWidth(), GetTargetHeight());
// Invalidate EFB cache
ClearEFBCache();
}
// ALWAYS call RestoreAPIState for each ResetAPIState call you're doing
void Renderer::ResetAPIState()
{
// Gets us to a reasonably sane state where it's possible to do things like
// image copies with textured quads, etc.
glDisable(GL_SCISSOR_TEST);
glDisable(GL_DEPTH_TEST);
glDisable(GL_CULL_FACE);
glDisable(GL_BLEND);
if (GLInterface->GetMode() == GLInterfaceMode::MODE_OPENGL)
glDisable(GL_COLOR_LOGIC_OP);
glDepthMask(GL_FALSE);
glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
}
void Renderer::RestoreAPIState()
{
// Gets us back into a more game-like state.
glEnable(GL_SCISSOR_TEST);
SetGenerationMode();
BPFunctions::SetScissor();
SetColorMask();
SetDepthMode();
SetBlendMode(true);
SetLogicOpMode();
SetViewport();
VertexManager *vm = (OGL::VertexManager*)g_vertex_manager;
glBindBuffer(GL_ARRAY_BUFFER, vm->m_vertex_buffers);
if (vm->m_last_vao)
glBindVertexArray(vm->m_last_vao);
TextureCache::SetStage();
}
void Renderer::SetGenerationMode()
{
// none, ccw, cw, ccw
if (bpmem.genMode.cullmode > 0)
{
// TODO: GX_CULL_ALL not supported, yet!
glEnable(GL_CULL_FACE);
glFrontFace(bpmem.genMode.cullmode == 2 ? GL_CCW : GL_CW);
}
else
{
glDisable(GL_CULL_FACE);
}
}
void Renderer::SetDepthMode()
{
const GLenum glCmpFuncs[8] =
{
GL_NEVER,
GL_LESS,
GL_EQUAL,
GL_LEQUAL,
GL_GREATER,
GL_NOTEQUAL,
GL_GEQUAL,
GL_ALWAYS
};
if (bpmem.zmode.testenable)
{
glEnable(GL_DEPTH_TEST);
glDepthMask(bpmem.zmode.updateenable ? GL_TRUE : GL_FALSE);
glDepthFunc(glCmpFuncs[bpmem.zmode.func]);
}
else
{
// if the test is disabled write is disabled too
// TODO: When PE performance metrics are being emulated via occlusion queries, we should (probably?) enable depth test with depth function ALWAYS here
glDisable(GL_DEPTH_TEST);
glDepthMask(GL_FALSE);
}
}
void Renderer::SetLogicOpMode()
{
if (GLInterface->GetMode() != GLInterfaceMode::MODE_OPENGL)
return;
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// Logic ops aren't available in GLES3/GLES2
const GLenum glLogicOpCodes[16] =
{
GL_CLEAR,
GL_AND,
GL_AND_REVERSE,
GL_COPY,
GL_AND_INVERTED,
GL_NOOP,
GL_XOR,
GL_OR,
GL_NOR,
GL_EQUIV,
GL_INVERT,
GL_OR_REVERSE,
GL_COPY_INVERTED,
GL_OR_INVERTED,
GL_NAND,
GL_SET
};
if (bpmem.blendmode.logicopenable && !bpmem.blendmode.blendenable)
{
glEnable(GL_COLOR_LOGIC_OP);
glLogicOp(glLogicOpCodes[bpmem.blendmode.logicmode]);
}
else
{
glDisable(GL_COLOR_LOGIC_OP);
}
}
void Renderer::SetDitherMode()
{
if (bpmem.blendmode.dither)
glEnable(GL_DITHER);
else
glDisable(GL_DITHER);
}
void Renderer::SetSamplerState(int stage, int texindex, bool custom_tex)
{
auto const& tex = bpmem.tex[texindex];
auto const& tm0 = tex.texMode0[stage];
auto const& tm1 = tex.texMode1[stage];
g_sampler_cache->SetSamplerState((texindex * 4) + stage, tm0, tm1, custom_tex);
}
void Renderer::SetInterlacingMode()
{
// TODO
}
void Renderer::FlipImageData(u8 *data, int w, int h, int pixel_width)
{
// Flip image upside down. Damn OpenGL.
for (int y = 0; y < h / 2; ++y)
{
for (int x = 0; x < w; ++x)
{
for (int delta = 0; delta < pixel_width; ++delta)
std::swap(data[(y * w + x) * pixel_width + delta], data[((h - 1 - y) * w + x) * pixel_width + delta]);
}
}
}
}
namespace OGL
{
bool Renderer::SaveScreenshot(const std::string &filename, const TargetRectangle &back_rc)
{
u32 W = back_rc.GetWidth();
u32 H = back_rc.GetHeight();
std::unique_ptr<u8[]> data(new u8[W * 4 * H]);
glPixelStorei(GL_PACK_ALIGNMENT, 1);
glReadPixels(back_rc.left, back_rc.bottom, W, H, GL_RGBA, GL_UNSIGNED_BYTE, data.get());
// Turn image upside down
FlipImageData(data.get(), W, H, 4);
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return TextureToPng(data.get(), W * 4, filename, W, H, false);
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}
int Renderer::GetMaxTextureSize()
{
int max_size;
glGetIntegerv(GL_MAX_TEXTURE_SIZE, &max_size);
return max_size;
}
}