Index: ps/trunk/source/ps/GameSetup/GameSetup.cpp
===================================================================
--- ps/trunk/source/ps/GameSetup/GameSetup.cpp (revision 24550)
+++ ps/trunk/source/ps/GameSetup/GameSetup.cpp (revision 24551)
@@ -1,1641 +1,1641 @@
/* Copyright (C) 2021 Wildfire Games.
* This file is part of 0 A.D.
*
* 0 A.D. is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* 0 A.D. is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with 0 A.D. If not, see .
*/
#include "precompiled.h"
#include "lib/app_hooks.h"
#include "lib/config2.h"
#include "lib/input.h"
#include "lib/ogl.h"
#include "lib/timer.h"
#include "lib/external_libraries/libsdl.h"
#include "lib/file/common/file_stats.h"
#include "lib/res/h_mgr.h"
#include "lib/res/graphics/cursor.h"
#include "graphics/CinemaManager.h"
#include "graphics/Color.h"
#include "graphics/FontMetrics.h"
#include "graphics/GameView.h"
#include "graphics/LightEnv.h"
#include "graphics/MapReader.h"
#include "graphics/ModelDef.h"
#include "graphics/MaterialManager.h"
#include "graphics/TerrainTextureManager.h"
#include "gui/CGUI.h"
#include "gui/GUIManager.h"
#include "i18n/L10n.h"
#include "maths/MathUtil.h"
#include "network/NetServer.h"
#include "network/NetClient.h"
#include "network/NetMessage.h"
#include "network/NetMessages.h"
#include "ps/CConsole.h"
#include "ps/CLogger.h"
#include "ps/ConfigDB.h"
#include "ps/Filesystem.h"
#include "ps/Game.h"
#include "ps/GameSetup/Atlas.h"
#include "ps/GameSetup/GameSetup.h"
#include "ps/GameSetup/Paths.h"
#include "ps/GameSetup/Config.h"
#include "ps/GameSetup/CmdLineArgs.h"
#include "ps/GameSetup/HWDetect.h"
#include "ps/Globals.h"
#include "ps/Hotkey.h"
#include "ps/Joystick.h"
#include "ps/Loader.h"
#include "ps/Mod.h"
#include "ps/ModIo.h"
#include "ps/Profile.h"
#include "ps/ProfileViewer.h"
#include "ps/Profiler2.h"
#include "ps/Pyrogenesis.h" // psSetLogDir
#include "ps/scripting/JSInterface_Console.h"
#include "ps/TouchInput.h"
#include "ps/UserReport.h"
#include "ps/Util.h"
#include "ps/VideoMode.h"
#include "ps/VisualReplay.h"
#include "ps/World.h"
#include "renderer/Renderer.h"
#include "renderer/VertexBufferManager.h"
#include "renderer/ModelRenderer.h"
#include "scriptinterface/ScriptInterface.h"
#include "scriptinterface/ScriptStats.h"
#include "scriptinterface/ScriptContext.h"
#include "scriptinterface/ScriptConversions.h"
#include "simulation2/Simulation2.h"
#include "lobby/IXmppClient.h"
#include "soundmanager/scripting/JSInterface_Sound.h"
#include "soundmanager/ISoundManager.h"
#include "tools/atlas/GameInterface/GameLoop.h"
#include "tools/atlas/GameInterface/View.h"
#if !(OS_WIN || OS_MACOSX || OS_ANDROID) // assume all other platforms use X11 for wxWidgets
#define MUST_INIT_X11 1
#include
#else
#define MUST_INIT_X11 0
#endif
extern void RestartEngine();
#include
#include
#include
ERROR_GROUP(System);
ERROR_TYPE(System, SDLInitFailed);
ERROR_TYPE(System, VmodeFailed);
ERROR_TYPE(System, RequiredExtensionsMissing);
bool g_DoRenderGui = true;
bool g_DoRenderLogger = true;
bool g_DoRenderCursor = true;
thread_local shared_ptr g_ScriptContext;
static const int SANE_TEX_QUALITY_DEFAULT = 5; // keep in sync with code
static const CStr g_EventNameGameLoadProgress = "GameLoadProgress";
bool g_InDevelopmentCopy;
bool g_CheckedIfInDevelopmentCopy = false;
static void SetTextureQuality(int quality)
{
int q_flags;
GLint filter;
retry:
// keep this in sync with SANE_TEX_QUALITY_DEFAULT
switch(quality)
{
// worst quality
case 0:
q_flags = OGL_TEX_HALF_RES|OGL_TEX_HALF_BPP;
filter = GL_NEAREST;
break;
// [perf] add bilinear filtering
case 1:
q_flags = OGL_TEX_HALF_RES|OGL_TEX_HALF_BPP;
filter = GL_LINEAR;
break;
// [vmem] no longer reduce resolution
case 2:
q_flags = OGL_TEX_HALF_BPP;
filter = GL_LINEAR;
break;
// [vmem] add mipmaps
case 3:
q_flags = OGL_TEX_HALF_BPP;
filter = GL_NEAREST_MIPMAP_LINEAR;
break;
// [perf] better filtering
case 4:
q_flags = OGL_TEX_HALF_BPP;
filter = GL_LINEAR_MIPMAP_LINEAR;
break;
// [vmem] no longer reduce bpp
case SANE_TEX_QUALITY_DEFAULT:
q_flags = OGL_TEX_FULL_QUALITY;
filter = GL_LINEAR_MIPMAP_LINEAR;
break;
// [perf] add anisotropy
case 6:
// TODO: add anisotropic filtering
q_flags = OGL_TEX_FULL_QUALITY;
filter = GL_LINEAR_MIPMAP_LINEAR;
break;
// invalid
default:
debug_warn(L"SetTextureQuality: invalid quality");
quality = SANE_TEX_QUALITY_DEFAULT;
// careful: recursion doesn't work and we don't want to duplicate
// the "sane" default values.
goto retry;
}
ogl_tex_set_defaults(q_flags, filter);
}
//----------------------------------------------------------------------------
// GUI integration
//----------------------------------------------------------------------------
// display progress / description in loading screen
void GUI_DisplayLoadProgress(int percent, const wchar_t* pending_task)
{
const ScriptInterface& scriptInterface = *(g_GUI->GetActiveGUI()->GetScriptInterface());
ScriptRequest rq(scriptInterface);
JS::RootedValueVector paramData(rq.cx);
ignore_result(paramData.append(JS::NumberValue(percent)));
JS::RootedValue valPendingTask(rq.cx);
scriptInterface.ToJSVal(rq, &valPendingTask, pending_task);
ignore_result(paramData.append(valPendingTask));
g_GUI->SendEventToAll(g_EventNameGameLoadProgress, paramData);
}
bool ShouldRender()
{
return !g_app_minimized && (g_app_has_focus || !g_VideoMode.IsInFullscreen());
}
void Render()
{
// Do not render if not focused while in fullscreen or minimised,
// as that triggers a difficult-to-reproduce crash on some graphic cards.
if (!ShouldRender())
return;
PROFILE3("render");
ogl_WarnIfError();
g_Profiler2.RecordGPUFrameStart();
ogl_WarnIfError();
// prepare before starting the renderer frame
if (g_Game && g_Game->IsGameStarted())
g_Game->GetView()->BeginFrame();
if (g_Game)
g_Renderer.SetSimulation(g_Game->GetSimulation2());
// start new frame
g_Renderer.BeginFrame();
ogl_WarnIfError();
if (g_Game && g_Game->IsGameStarted())
g_Game->GetView()->Render();
ogl_WarnIfError();
g_Renderer.RenderTextOverlays();
// If we're in Atlas game view, render special tools
if (g_AtlasGameLoop && g_AtlasGameLoop->view)
{
g_AtlasGameLoop->view->DrawCinemaPathTool();
ogl_WarnIfError();
}
if (g_Game && g_Game->IsGameStarted())
g_Game->GetView()->GetCinema()->Render();
ogl_WarnIfError();
if (g_DoRenderGui)
g_GUI->Draw();
ogl_WarnIfError();
// If we're in Atlas game view, render special overlays (e.g. editor bandbox)
if (g_AtlasGameLoop && g_AtlasGameLoop->view)
{
g_AtlasGameLoop->view->DrawOverlays();
ogl_WarnIfError();
}
// Text:
glDisable(GL_DEPTH_TEST);
g_Console->Render();
ogl_WarnIfError();
if (g_DoRenderLogger)
g_Logger->Render();
ogl_WarnIfError();
// Profile information
g_ProfileViewer.RenderProfile();
ogl_WarnIfError();
// Draw the cursor (or set the Windows cursor, on Windows)
if (g_DoRenderCursor)
{
PROFILE3_GPU("cursor");
CStrW cursorName = g_CursorName;
if (cursorName.empty())
{
cursor_draw(g_VFS, NULL, g_mouse_x, g_yres-g_mouse_y, g_GuiScale, false);
}
else
{
bool forceGL = false;
CFG_GET_VAL("nohwcursor", forceGL);
#if CONFIG2_GLES
#warning TODO: implement cursors for GLES
#else
// set up transform for GL cursor
glMatrixMode(GL_PROJECTION);
glPushMatrix();
glLoadIdentity();
glMatrixMode(GL_MODELVIEW);
glPushMatrix();
glLoadIdentity();
CMatrix3D transform;
transform.SetOrtho(0.f, (float)g_xres, 0.f, (float)g_yres, -1.f, 1000.f);
glLoadMatrixf(&transform._11);
#endif
#if OS_ANDROID
#warning TODO: cursors for Android
#else
if (cursor_draw(g_VFS, cursorName.c_str(), g_mouse_x, g_yres-g_mouse_y, g_GuiScale, forceGL) < 0)
LOGWARNING("Failed to draw cursor '%s'", utf8_from_wstring(cursorName));
#endif
#if CONFIG2_GLES
#warning TODO: implement cursors for GLES
#else
// restore transform
glMatrixMode(GL_PROJECTION);
glPopMatrix();
glMatrixMode(GL_MODELVIEW);
glPopMatrix();
#endif
}
}
glEnable(GL_DEPTH_TEST);
g_Renderer.EndFrame();
PROFILE2_ATTR("draw calls: %d", (int)g_Renderer.GetStats().m_DrawCalls);
PROFILE2_ATTR("terrain tris: %d", (int)g_Renderer.GetStats().m_TerrainTris);
PROFILE2_ATTR("water tris: %d", (int)g_Renderer.GetStats().m_WaterTris);
PROFILE2_ATTR("model tris: %d", (int)g_Renderer.GetStats().m_ModelTris);
PROFILE2_ATTR("overlay tris: %d", (int)g_Renderer.GetStats().m_OverlayTris);
PROFILE2_ATTR("blend splats: %d", (int)g_Renderer.GetStats().m_BlendSplats);
PROFILE2_ATTR("particles: %d", (int)g_Renderer.GetStats().m_Particles);
ogl_WarnIfError();
g_Profiler2.RecordGPUFrameEnd();
ogl_WarnIfError();
}
ErrorReactionInternal psDisplayError(const wchar_t* UNUSED(text), size_t UNUSED(flags))
{
// If we're fullscreen, then sometimes (at least on some particular drivers on Linux)
// displaying the error dialog hangs the desktop since the dialog box is behind the
// fullscreen window. So we just force the game to windowed mode before displaying the dialog.
// (But only if we're in the main thread, and not if we're being reentrant.)
if (Threading::IsMainThread())
{
static bool reentering = false;
if (!reentering)
{
reentering = true;
g_VideoMode.SetFullscreen(false);
reentering = false;
}
}
// We don't actually implement the error display here, so return appropriately
return ERI_NOT_IMPLEMENTED;
}
const std::vector& GetMods(const CmdLineArgs& args, int flags)
{
const bool init_mods = (flags & INIT_MODS) == INIT_MODS;
const bool add_user = !InDevelopmentCopy() && !args.Has("noUserMod");
const bool add_public = (flags & INIT_MODS_PUBLIC) == INIT_MODS_PUBLIC;
if (!init_mods)
{
// Add the user mod if it should be present
if (add_user && (g_modsLoaded.empty() || g_modsLoaded.back() != "user"))
g_modsLoaded.push_back("user");
return g_modsLoaded;
}
g_modsLoaded = args.GetMultiple("mod");
if (add_public)
g_modsLoaded.insert(g_modsLoaded.begin(), "public");
g_modsLoaded.insert(g_modsLoaded.begin(), "mod");
// Add the user mod if not explicitly disabled or we have a dev copy so
// that saved files end up in version control and not in the user mod.
if (add_user)
g_modsLoaded.push_back("user");
return g_modsLoaded;
}
void MountMods(const Paths& paths, const std::vector& mods)
{
OsPath modPath = paths.RData()/"mods";
OsPath modUserPath = paths.UserData()/"mods";
for (size_t i = 0; i < mods.size(); ++i)
{
size_t priority = (i+1)*2; // mods are higher priority than regular mountings, which default to priority 0
size_t userFlags = VFS_MOUNT_WATCH|VFS_MOUNT_ARCHIVABLE|VFS_MOUNT_REPLACEABLE;
size_t baseFlags = userFlags|VFS_MOUNT_MUST_EXIST;
OsPath modName(mods[i]);
if (InDevelopmentCopy())
{
// We are running a dev copy, so only mount mods in the user mod path
// if the mod does not exist in the data path.
if (DirectoryExists(modPath / modName/""))
g_VFS->Mount(L"", modPath / modName/"", baseFlags, priority);
else
g_VFS->Mount(L"", modUserPath / modName/"", userFlags, priority);
}
else
{
g_VFS->Mount(L"", modPath / modName/"", baseFlags, priority);
// Ensure that user modified files are loaded, if they are present
g_VFS->Mount(L"", modUserPath / modName/"", userFlags, priority+1);
}
}
}
static void InitVfs(const CmdLineArgs& args, int flags)
{
TIMER(L"InitVfs");
const bool setup_error = (flags & INIT_HAVE_DISPLAY_ERROR) == 0;
const Paths paths(args);
OsPath logs(paths.Logs());
CreateDirectories(logs, 0700);
psSetLogDir(logs);
// desired location for crashlog is now known. update AppHooks ASAP
// (particularly before the following error-prone operations):
AppHooks hooks = {0};
hooks.bundle_logs = psBundleLogs;
hooks.get_log_dir = psLogDir;
if (setup_error)
hooks.display_error = psDisplayError;
app_hooks_update(&hooks);
g_VFS = CreateVfs();
const OsPath readonlyConfig = paths.RData()/"config"/"";
g_VFS->Mount(L"config/", readonlyConfig);
// Engine localization files.
g_VFS->Mount(L"l10n/", paths.RData()/"l10n"/"");
MountMods(paths, GetMods(args, flags));
// We mount these dirs last as otherwise writing could result in files being placed in a mod's dir.
g_VFS->Mount(L"screenshots/", paths.UserData()/"screenshots"/"");
g_VFS->Mount(L"saves/", paths.UserData()/"saves"/"", VFS_MOUNT_WATCH);
// Mounting with highest priority, so that a mod supplied user.cfg is harmless
g_VFS->Mount(L"config/", readonlyConfig, 0, (size_t)-1);
if(readonlyConfig != paths.Config())
g_VFS->Mount(L"config/", paths.Config(), 0, (size_t)-1);
g_VFS->Mount(L"cache/", paths.Cache(), VFS_MOUNT_ARCHIVABLE); // (adding XMBs to archive speeds up subsequent reads)
// note: don't bother with g_VFS->TextRepresentation - directories
// haven't yet been populated and are empty.
}
static void InitPs(bool setup_gui, const CStrW& gui_page, ScriptInterface* srcScriptInterface, JS::HandleValue initData)
{
{
// console
TIMER(L"ps_console");
g_Console->UpdateScreenSize(g_xres, g_yres);
// Calculate and store the line spacing
CFontMetrics font(CStrIntern(CONSOLE_FONT));
g_Console->m_iFontHeight = font.GetLineSpacing();
g_Console->m_iFontWidth = font.GetCharacterWidth(L'C');
g_Console->m_charsPerPage = (size_t)(g_xres / g_Console->m_iFontWidth);
// Offset by an arbitrary amount, to make it fit more nicely
g_Console->m_iFontOffset = 7;
double blinkRate = 0.5;
CFG_GET_VAL("gui.cursorblinkrate", blinkRate);
g_Console->SetCursorBlinkRate(blinkRate);
}
// hotkeys
{
TIMER(L"ps_lang_hotkeys");
LoadHotkeys();
}
if (!setup_gui)
{
// We do actually need *some* kind of GUI loaded, so use the
// (currently empty) Atlas one
g_GUI->SwitchPage(L"page_atlas.xml", srcScriptInterface, initData);
return;
}
// GUI uses VFS, so this must come after VFS init.
g_GUI->SwitchPage(gui_page, srcScriptInterface, initData);
}
void InitPsAutostart(bool networked, JS::HandleValue attrs)
{
// The GUI has not been initialized yet, so use the simulation scriptinterface for this variable
ScriptInterface& scriptInterface = g_Game->GetSimulation2()->GetScriptInterface();
ScriptRequest rq(scriptInterface);
JS::RootedValue playerAssignments(rq.cx);
ScriptInterface::CreateObject(rq, &playerAssignments);
if (!networked)
{
JS::RootedValue localPlayer(rq.cx);
ScriptInterface::CreateObject(rq, &localPlayer, "player", g_Game->GetPlayerID());
scriptInterface.SetProperty(playerAssignments, "local", localPlayer);
}
JS::RootedValue sessionInitData(rq.cx);
ScriptInterface::CreateObject(
rq,
&sessionInitData,
"attribs", attrs,
"playerAssignments", playerAssignments);
InitPs(true, L"page_loading.xml", &scriptInterface, sessionInitData);
}
void InitInput()
{
g_Joystick.Initialise();
// register input handlers
// This stack is constructed so the first added, will be the last
// one called. This is important, because each of the handlers
// has the potential to block events to go further down
// in the chain. I.e. the last one in the list added, is the
// only handler that can block all messages before they are
// processed.
in_add_handler(game_view_handler);
in_add_handler(CProfileViewer::InputThunk);
in_add_handler(conInputHandler);
in_add_handler(HotkeyInputHandler);
// gui_handler needs to be registered after (i.e. called before!) the
// hotkey handler so that input boxes can be typed in without
// setting off hotkeys.
in_add_handler(gui_handler);
in_add_handler(touch_input_handler);
// must be registered after (called before) the GUI which relies on these globals
in_add_handler(GlobalsInputHandler);
// Should be called first, this updates our hotkey press state
// so that js calls to HotkeyIsPressed are synched with events.
in_add_handler(HotkeyStateChange);
}
static void ShutdownPs()
{
SAFE_DELETE(g_GUI);
UnloadHotkeys();
// disable the special Windows cursor, or free textures for OGL cursors
cursor_draw(g_VFS, 0, g_mouse_x, g_yres-g_mouse_y, 1.0, false);
}
static void InitRenderer()
{
TIMER(L"InitRenderer");
// create renderer
new CRenderer;
// create terrain related stuff
new CTerrainTextureManager;
g_Renderer.Open(g_xres, g_yres);
// Setup lighting environment. Since the Renderer accesses the
// lighting environment through a pointer, this has to be done before
// the first Frame.
g_Renderer.SetLightEnv(&g_LightEnv);
// I haven't seen the camera affecting GUI rendering and such, but the
// viewport has to be updated according to the video mode
SViewPort vp;
vp.m_X = 0;
vp.m_Y = 0;
vp.m_Width = g_xres;
vp.m_Height = g_yres;
g_Renderer.SetViewport(vp);
ModelDefActivateFastImpl();
ColorActivateFastImpl();
ModelRenderer::Init();
}
static void InitSDL()
{
#if OS_LINUX
// In fullscreen mode when SDL is compiled with DGA support, the mouse
// sensitivity often appears to be unusably wrong (typically too low).
// (This seems to be reported almost exclusively on Ubuntu, but can be
// reproduced on Gentoo after explicitly enabling DGA.)
// Disabling the DGA mouse appears to fix that problem, and doesn't
// have any obvious negative effects.
setenv("SDL_VIDEO_X11_DGAMOUSE", "0", 0);
#endif
if(SDL_Init(SDL_INIT_VIDEO|SDL_INIT_TIMER|SDL_INIT_NOPARACHUTE) < 0)
{
LOGERROR("SDL library initialization failed: %s", SDL_GetError());
throw PSERROR_System_SDLInitFailed();
}
atexit(SDL_Quit);
// Text input is active by default, disable it until it is actually needed.
SDL_StopTextInput();
#if OS_MACOSX
// Some Mac mice only have one button, so they can't right-click
// but SDL2 can emulate that with Ctrl+Click
bool macMouse = false;
CFG_GET_VAL("macmouse", macMouse);
SDL_SetHint(SDL_HINT_MAC_CTRL_CLICK_EMULATE_RIGHT_CLICK, macMouse ? "1" : "0");
#endif
}
static void ShutdownSDL()
{
SDL_Quit();
}
void EndGame()
{
SAFE_DELETE(g_NetClient);
SAFE_DELETE(g_NetServer);
SAFE_DELETE(g_Game);
if (CRenderer::IsInitialised())
{
ISoundManager::CloseGame();
g_Renderer.ResetState();
}
}
void Shutdown(int flags)
{
const bool hasRenderer = CRenderer::IsInitialised();
if ((flags & SHUTDOWN_FROM_CONFIG))
goto from_config;
EndGame();
SAFE_DELETE(g_XmppClient);
SAFE_DELETE(g_ModIo);
ShutdownPs();
TIMER_BEGIN(L"shutdown TexMan");
delete &g_TexMan;
TIMER_END(L"shutdown TexMan");
if (hasRenderer)
{
TIMER_BEGIN(L"shutdown Renderer");
g_Renderer.~CRenderer();
g_VBMan.Shutdown();
TIMER_END(L"shutdown Renderer");
}
g_RenderingOptions.ClearHooks();
g_Profiler2.ShutdownGPU();
// Free cursors before shutting down SDL, as they may depend on SDL.
cursor_shutdown();
TIMER_BEGIN(L"shutdown SDL");
ShutdownSDL();
TIMER_END(L"shutdown SDL");
if (hasRenderer)
g_VideoMode.Shutdown();
TIMER_BEGIN(L"shutdown UserReporter");
g_UserReporter.Deinitialize();
TIMER_END(L"shutdown UserReporter");
// Cleanup curl now that g_ModIo and g_UserReporter have been shutdown.
curl_global_cleanup();
delete &g_L10n;
from_config:
TIMER_BEGIN(L"shutdown ConfigDB");
delete &g_ConfigDB;
TIMER_END(L"shutdown ConfigDB");
SAFE_DELETE(g_Console);
// This is needed to ensure that no callbacks from the JSAPI try to use
// the profiler when it's already destructed
g_ScriptContext.reset();
// resource
// first shut down all resource owners, and then the handle manager.
TIMER_BEGIN(L"resource modules");
ISoundManager::SetEnabled(false);
g_VFS.reset();
// this forcibly frees all open handles (thus preventing real leaks),
// and makes further access to h_mgr impossible.
h_mgr_shutdown();
file_stats_dump();
TIMER_END(L"resource modules");
TIMER_BEGIN(L"shutdown misc");
timer_DisplayClientTotals();
CNetHost::Deinitialize();
// should be last, since the above use them
SAFE_DELETE(g_Logger);
delete &g_Profiler;
delete &g_ProfileViewer;
SAFE_DELETE(g_ScriptStatsTable);
TIMER_END(L"shutdown misc");
}
#if OS_UNIX
static void FixLocales()
{
#if OS_MACOSX || OS_BSD
// OS X requires a UTF-8 locale in LC_CTYPE so that *wprintf can handle
// wide characters. Peculiarly the string "UTF-8" seems to be acceptable
// despite not being a real locale, and it's conveniently language-agnostic,
// so use that.
setlocale(LC_CTYPE, "UTF-8");
#endif
// On misconfigured systems with incorrect locale settings, we'll die
// with a C++ exception when some code (e.g. Boost) tries to use locales.
// To avoid death, we'll detect the problem here and warn the user and
// reset to the default C locale.
// For informing the user of the problem, use the list of env vars that
// glibc setlocale looks at. (LC_ALL is checked first, and LANG last.)
const char* const LocaleEnvVars[] = {
"LC_ALL",
"LC_COLLATE",
"LC_CTYPE",
"LC_MONETARY",
"LC_NUMERIC",
"LC_TIME",
"LC_MESSAGES",
"LANG"
};
try
{
// this constructor is similar to setlocale(LC_ALL, ""),
// but instead of returning NULL, it throws runtime_error
// when the first locale env variable found contains an invalid value
std::locale("");
}
catch (std::runtime_error&)
{
LOGWARNING("Invalid locale settings");
for (size_t i = 0; i < ARRAY_SIZE(LocaleEnvVars); i++)
{
if (char* envval = getenv(LocaleEnvVars[i]))
LOGWARNING(" %s=\"%s\"", LocaleEnvVars[i], envval);
else
LOGWARNING(" %s=\"(unset)\"", LocaleEnvVars[i]);
}
// We should set LC_ALL since it overrides LANG
if (setenv("LC_ALL", std::locale::classic().name().c_str(), 1))
debug_warn(L"Invalid locale settings, and unable to set LC_ALL env variable.");
else
LOGWARNING("Setting LC_ALL env variable to: %s", getenv("LC_ALL"));
}
}
#else
static void FixLocales()
{
// Do nothing on Windows
}
#endif
void EarlyInit()
{
// If you ever want to catch a particular allocation:
//_CrtSetBreakAlloc(232647);
Threading::SetMainThread();
debug_SetThreadName("main");
// add all debug_printf "tags" that we are interested in:
debug_filter_add("TIMER");
timer_Init();
// initialise profiler early so it can profile startup,
// but only after LatchStartTime
g_Profiler2.Initialise();
FixLocales();
// Because we do GL calls from a secondary thread, Xlib needs to
// be told to support multiple threads safely.
// This is needed for Atlas, but we have to call it before any other
// Xlib functions (e.g. the ones used when drawing the main menu
// before launching Atlas)
#if MUST_INIT_X11
int status = XInitThreads();
if (status == 0)
debug_printf("Error enabling thread-safety via XInitThreads\n");
#endif
// Initialise the low-quality rand function
srand(time(NULL)); // NOTE: this rand should *not* be used for simulation!
}
bool Autostart(const CmdLineArgs& args);
/**
* Returns true if the user has intended to start a visual replay from command line.
*/
bool AutostartVisualReplay(const std::string& replayFile);
bool Init(const CmdLineArgs& args, int flags)
{
h_mgr_init();
// Do this as soon as possible, because it chdirs
// and will mess up the error reporting if anything
// crashes before the working directory is set.
InitVfs(args, flags);
// This must come after VFS init, which sets the current directory
// (required for finding our output log files).
g_Logger = new CLogger;
new CProfileViewer;
new CProfileManager; // before any script code
g_ScriptStatsTable = new CScriptStatsTable;
g_ProfileViewer.AddRootTable(g_ScriptStatsTable);
// Set up the console early, so that debugging
// messages can be logged to it. (The console's size
// and fonts are set later in InitPs())
g_Console = new CConsole();
// g_ConfigDB, command line args, globals
CONFIG_Init(args);
// Using a global object for the context is a workaround until Simulation and AI use
// their own threads and also their own contexts.
const int contextSize = 384 * 1024 * 1024;
const int heapGrowthBytesGCTrigger = 20 * 1024 * 1024;
g_ScriptContext = ScriptContext::CreateContext(contextSize, heapGrowthBytesGCTrigger);
Mod::CacheEnabledModVersions(g_ScriptContext);
// Special command-line mode to dump the entity schemas instead of running the game.
// (This must be done after loading VFS etc, but should be done before wasting time
// on anything else.)
if (args.Has("dumpSchema"))
{
CSimulation2 sim(NULL, g_ScriptContext, NULL);
sim.LoadDefaultScripts();
std::ofstream f("entity.rng", std::ios_base::out | std::ios_base::trunc);
f << sim.GenerateSchema();
std::cout << "Generated entity.rng\n";
exit(0);
}
CNetHost::Initialize();
#if CONFIG2_AUDIO
- if (!args.Has("autostart-nonvisual"))
+ if (!args.Has("autostart-nonvisual") && !g_DisableAudio)
ISoundManager::CreateSoundManager();
#endif
// Check if there are mods specified on the command line,
// or if we already set the mods (~INIT_MODS),
// else check if there are mods that should be loaded specified
// in the config and load those (by aborting init and restarting
// the engine).
if (!args.Has("mod") && (flags & INIT_MODS) == INIT_MODS)
{
CStr modstring;
CFG_GET_VAL("mod.enabledmods", modstring);
if (!modstring.empty())
{
std::vector mods;
boost::split(mods, modstring, boost::is_any_of(" "), boost::token_compress_on);
std::swap(g_modsLoaded, mods);
// Abort init and restart
RestartEngine();
return false;
}
}
new L10n;
// Optionally start profiler HTTP output automatically
// (By default it's only enabled by a hotkey, for security/performance)
bool profilerHTTPEnable = false;
CFG_GET_VAL("profiler2.autoenable", profilerHTTPEnable);
if (profilerHTTPEnable)
g_Profiler2.EnableHTTP();
// Initialise everything except Win32 sockets (because our networking
// system already inits those)
curl_global_init(CURL_GLOBAL_ALL & ~CURL_GLOBAL_WIN32);
if (!g_Quickstart)
g_UserReporter.Initialize(); // after config
PROFILE2_EVENT("Init finished");
return true;
}
void InitGraphics(const CmdLineArgs& args, int flags, const std::vector& installedMods)
{
const bool setup_vmode = (flags & INIT_HAVE_VMODE) == 0;
if(setup_vmode)
{
InitSDL();
if (!g_VideoMode.InitSDL())
throw PSERROR_System_VmodeFailed(); // abort startup
}
RunHardwareDetection();
const int quality = SANE_TEX_QUALITY_DEFAULT; // TODO: set value from config file
SetTextureQuality(quality);
ogl_WarnIfError();
// Optionally start profiler GPU timings automatically
// (By default it's only enabled by a hotkey, for performance/compatibility)
bool profilerGPUEnable = false;
CFG_GET_VAL("profiler2.autoenable", profilerGPUEnable);
if (profilerGPUEnable)
g_Profiler2.EnableGPU();
if(!g_Quickstart)
{
WriteSystemInfo();
// note: no longer vfs_display here. it's dog-slow due to unbuffered
// file output and very rarely needed.
}
if(g_DisableAudio)
ISoundManager::SetEnabled(false);
g_GUI = new CGUIManager();
// (must come after SetVideoMode, since it calls ogl_Init)
CStr8 renderPath = "default";
CFG_GET_VAL("renderpath", renderPath);
if ((ogl_HaveExtensions(0, "GL_ARB_vertex_program", "GL_ARB_fragment_program", NULL) != 0 // ARB
&& ogl_HaveExtensions(0, "GL_ARB_vertex_shader", "GL_ARB_fragment_shader", NULL) != 0) // GLSL
|| RenderPathEnum::FromString(renderPath) == FIXED)
{
// It doesn't make sense to continue working here, because we're not
// able to display anything.
DEBUG_DISPLAY_FATAL_ERROR(
L"Your graphics card doesn't appear to be fully compatible with OpenGL shaders."
L" The game does not support pre-shader graphics cards."
L" You are advised to try installing newer drivers and/or upgrade your graphics card."
L" For more information, please see http://www.wildfiregames.com/forum/index.php?showtopic=16734"
);
}
const char* missing = ogl_HaveExtensions(0,
"GL_ARB_multitexture",
"GL_EXT_draw_range_elements",
"GL_ARB_texture_env_combine",
"GL_ARB_texture_env_dot3",
NULL);
if(missing)
{
wchar_t buf[500];
swprintf_s(buf, ARRAY_SIZE(buf),
L"The %hs extension doesn't appear to be available on your computer."
L" The game may still work, though - you are welcome to try at your own risk."
L" If not or it doesn't look right, upgrade your graphics card.",
missing
);
DEBUG_DISPLAY_ERROR(buf);
// TODO: i18n
}
if (!ogl_HaveExtension("GL_ARB_texture_env_crossbar"))
{
DEBUG_DISPLAY_ERROR(
L"The GL_ARB_texture_env_crossbar extension doesn't appear to be available on your computer."
L" Shadows are not available and overall graphics quality might suffer."
L" You are advised to try installing newer drivers and/or upgrade your graphics card.");
g_ConfigDB.SetValueBool(CFG_HWDETECT, "shadows", false);
}
ogl_WarnIfError();
g_RenderingOptions.ReadConfigAndSetupHooks();
InitRenderer();
InitInput();
ogl_WarnIfError();
// TODO: Is this the best place for this?
if (VfsDirectoryExists(L"maps/"))
CXeromyces::AddValidator(g_VFS, "map", "maps/scenario.rng");
try
{
if (!AutostartVisualReplay(args.Get("replay-visual")) && !Autostart(args))
{
const bool setup_gui = ((flags & INIT_NO_GUI) == 0);
// We only want to display the splash screen at startup
shared_ptr scriptInterface = g_GUI->GetScriptInterface();
ScriptRequest rq(scriptInterface);
JS::RootedValue data(rq.cx);
if (g_GUI)
{
ScriptInterface::CreateObject(rq, &data, "isStartup", true);
if (!installedMods.empty())
scriptInterface->SetProperty(data, "installedMods", installedMods);
}
InitPs(setup_gui, installedMods.empty() ? L"page_pregame.xml" : L"page_modmod.xml", g_GUI->GetScriptInterface().get(), data);
}
}
catch (PSERROR_Game_World_MapLoadFailed& e)
{
// Map Loading failed
// Start the engine so we have a GUI
InitPs(true, L"page_pregame.xml", NULL, JS::UndefinedHandleValue);
// Call script function to do the actual work
// (delete game data, switch GUI page, show error, etc.)
CancelLoad(CStr(e.what()).FromUTF8());
}
}
void InitNonVisual(const CmdLineArgs& args)
{
// Need some stuff for terrain movement costs:
// (TODO: this ought to be independent of any graphics code)
new CTerrainTextureManager;
g_TexMan.LoadTerrainTextures();
Autostart(args);
}
void RenderGui(bool RenderingState)
{
g_DoRenderGui = RenderingState;
}
void RenderLogger(bool RenderingState)
{
g_DoRenderLogger = RenderingState;
}
void RenderCursor(bool RenderingState)
{
g_DoRenderCursor = RenderingState;
}
/**
* Temporarily loads a scenario map and retrieves the "ScriptSettings" JSON
* data from it.
* The scenario map format is used for scenario and skirmish map types (random
* games do not use a "map" (format) but a small JavaScript program which
* creates a map on the fly). It contains a section to initialize the game
* setup screen.
* @param mapPath Absolute path (from VFS root) to the map file to peek in.
* @return ScriptSettings in JSON format extracted from the map.
*/
CStr8 LoadSettingsOfScenarioMap(const VfsPath &mapPath)
{
CXeromyces mapFile;
const char *pathToSettings[] =
{
"Scenario", "ScriptSettings", "" // Path to JSON data in map
};
Status loadResult = mapFile.Load(g_VFS, mapPath);
if (INFO::OK != loadResult)
{
LOGERROR("LoadSettingsOfScenarioMap: Unable to load map file '%s'", mapPath.string8());
throw PSERROR_Game_World_MapLoadFailed("Unable to load map file, check the path for typos.");
}
XMBElement mapElement = mapFile.GetRoot();
// Select the ScriptSettings node in the map file...
for (int i = 0; pathToSettings[i][0]; ++i)
{
int childId = mapFile.GetElementID(pathToSettings[i]);
XMBElementList nodes = mapElement.GetChildNodes();
auto it = std::find_if(nodes.begin(), nodes.end(), [&childId](const XMBElement& child) {
return child.GetNodeName() == childId;
});
if (it != nodes.end())
mapElement = *it;
}
// ... they contain a JSON document to initialize the game setup
// screen
return mapElement.GetText();
}
/*
* Command line options for autostart
* (keep synchronized with binaries/system/readme.txt):
*
* -autostart="TYPEDIR/MAPNAME" enables autostart and sets MAPNAME;
* TYPEDIR is skirmishes, scenarios, or random
* -autostart-seed=SEED sets randomization seed value (default 0, use -1 for random)
* -autostart-ai=PLAYER:AI sets the AI for PLAYER (e.g. 2:petra)
* -autostart-aidiff=PLAYER:DIFF sets the DIFFiculty of PLAYER's AI
* (0: sandbox, 5: very hard)
* -autostart-aiseed=AISEED sets the seed used for the AI random
* generator (default 0, use -1 for random)
* -autostart-player=NUMBER sets the playerID in non-networked games (default 1, use -1 for observer)
* -autostart-civ=PLAYER:CIV sets PLAYER's civilisation to CIV
* (skirmish and random maps only)
* -autostart-team=PLAYER:TEAM sets the team for PLAYER (e.g. 2:2).
* -autostart-ceasefire=NUM sets a ceasefire duration NUM
* (default 0 minutes)
* -autostart-nonvisual disable any graphics and sounds
* -autostart-victory=SCRIPTNAME sets the victory conditions with SCRIPTNAME
* located in simulation/data/settings/victory_conditions/
* (default conquest). When the first given SCRIPTNAME is
* "endless", no victory conditions will apply.
* -autostart-wonderduration=NUM sets the victory duration NUM for wonder victory condition
* (default 10 minutes)
* -autostart-relicduration=NUM sets the victory duration NUM for relic victory condition
* (default 10 minutes)
* -autostart-reliccount=NUM sets the number of relics for relic victory condition
* (default 2 relics)
* -autostart-disable-replay disable saving of replays
*
* Multiplayer:
* -autostart-playername=NAME sets local player NAME (default 'anonymous')
* -autostart-host sets multiplayer host mode
* -autostart-host-players=NUMBER sets NUMBER of human players for multiplayer
* game (default 2)
* -autostart-client=IP sets multiplayer client to join host at
* given IP address
* Random maps only:
* -autostart-size=TILES sets random map size in TILES (default 192)
* -autostart-players=NUMBER sets NUMBER of players on random map
* (default 2)
*
* Examples:
* 1) "Bob" will host a 2 player game on the Arcadia map:
* -autostart="scenarios/Arcadia" -autostart-host -autostart-host-players=2 -autostart-playername="Bob"
* "Alice" joins the match as player 2:
* -autostart="scenarios/Arcadia" -autostart-client=127.0.0.1 -autostart-playername="Alice"
* The players use the developer overlay to control players.
*
* 2) Load Alpine Lakes random map with random seed, 2 players (Athens and Britons), and player 2 is PetraBot:
* -autostart="random/alpine_lakes" -autostart-seed=-1 -autostart-players=2 -autostart-civ=1:athen -autostart-civ=2:brit -autostart-ai=2:petra
*
* 3) Observe the PetraBot on a triggerscript map:
* -autostart="random/jebel_barkal" -autostart-seed=-1 -autostart-players=2 -autostart-civ=1:athen -autostart-civ=2:brit -autostart-ai=1:petra -autostart-ai=2:petra -autostart-player=-1
*/
bool Autostart(const CmdLineArgs& args)
{
CStr autoStartName = args.Get("autostart");
if (autoStartName.empty())
return false;
g_Game = new CGame(!args.Has("autostart-disable-replay"));
ScriptInterface& scriptInterface = g_Game->GetSimulation2()->GetScriptInterface();
ScriptRequest rq(scriptInterface);
JS::RootedValue attrs(rq.cx);
JS::RootedValue settings(rq.cx);
JS::RootedValue playerData(rq.cx);
ScriptInterface::CreateObject(rq, &attrs);
ScriptInterface::CreateObject(rq, &settings);
ScriptInterface::CreateArray(rq, &playerData);
// The directory in front of the actual map name indicates which type
// of map is being loaded. Drawback of this approach is the association
// of map types and folders is hard-coded, but benefits are:
// - No need to pass the map type via command line separately
// - Prevents mixing up of scenarios and skirmish maps to some degree
Path mapPath = Path(autoStartName);
std::wstring mapDirectory = mapPath.Parent().Filename().string();
std::string mapType;
if (mapDirectory == L"random")
{
// Random map definition will be loaded from JSON file, so we need to parse it
std::wstring scriptPath = L"maps/" + autoStartName.FromUTF8() + L".json";
JS::RootedValue scriptData(rq.cx);
scriptInterface.ReadJSONFile(scriptPath, &scriptData);
if (!scriptData.isUndefined() && scriptInterface.GetProperty(scriptData, "settings", &settings))
{
// JSON loaded ok - copy script name over to game attributes
std::wstring scriptFile;
scriptInterface.GetProperty(settings, "Script", scriptFile);
scriptInterface.SetProperty(attrs, "script", scriptFile); // RMS filename
}
else
{
// Problem with JSON file
LOGERROR("Autostart: Error reading random map script '%s'", utf8_from_wstring(scriptPath));
throw PSERROR_Game_World_MapLoadFailed("Error reading random map script.\nCheck application log for details.");
}
// Get optional map size argument (default 192)
uint mapSize = 192;
if (args.Has("autostart-size"))
{
CStr size = args.Get("autostart-size");
mapSize = size.ToUInt();
}
scriptInterface.SetProperty(settings, "Size", mapSize); // Random map size (in patches)
// Get optional number of players (default 2)
size_t numPlayers = 2;
if (args.Has("autostart-players"))
{
CStr num = args.Get("autostart-players");
numPlayers = num.ToUInt();
}
// Set up player data
for (size_t i = 0; i < numPlayers; ++i)
{
JS::RootedValue player(rq.cx);
// We could load player_defaults.json here, but that would complicate the logic
// even more and autostart is only intended for developers anyway
ScriptInterface::CreateObject(rq, &player, "Civ", "athen");
scriptInterface.SetPropertyInt(playerData, i, player);
}
mapType = "random";
}
else if (mapDirectory == L"scenarios" || mapDirectory == L"skirmishes")
{
// Initialize general settings from the map data so some values
// (e.g. name of map) are always present, even when autostart is
// partially configured
CStr8 mapSettingsJSON = LoadSettingsOfScenarioMap("maps/" + autoStartName + ".xml");
scriptInterface.ParseJSON(mapSettingsJSON, &settings);
// Initialize the playerData array being modified by autostart
// with the real map data, so sensible values are present:
scriptInterface.GetProperty(settings, "PlayerData", &playerData);
if (mapDirectory == L"scenarios")
mapType = "scenario";
else
mapType = "skirmish";
}
else
{
LOGERROR("Autostart: Unrecognized map type '%s'", utf8_from_wstring(mapDirectory));
throw PSERROR_Game_World_MapLoadFailed("Unrecognized map type.\nConsult readme.txt for the currently supported types.");
}
scriptInterface.SetProperty(attrs, "mapType", mapType);
scriptInterface.SetProperty(attrs, "map", "maps/" + autoStartName);
scriptInterface.SetProperty(settings, "mapType", mapType);
scriptInterface.SetProperty(settings, "CheatsEnabled", true);
// The seed is used for both random map generation and simulation
u32 seed = 0;
if (args.Has("autostart-seed"))
{
CStr seedArg = args.Get("autostart-seed");
if (seedArg == "-1")
seed = rand();
else
seed = seedArg.ToULong();
}
scriptInterface.SetProperty(settings, "Seed", seed);
// Set seed for AIs
u32 aiseed = 0;
if (args.Has("autostart-aiseed"))
{
CStr seedArg = args.Get("autostart-aiseed");
if (seedArg == "-1")
aiseed = rand();
else
aiseed = seedArg.ToULong();
}
scriptInterface.SetProperty(settings, "AISeed", aiseed);
// Set player data for AIs
// attrs.settings = { PlayerData: [ { AI: ... }, ... ] }
// or = { PlayerData: [ null, { AI: ... }, ... ] } when gaia set
int offset = 1;
JS::RootedValue player(rq.cx);
if (scriptInterface.GetPropertyInt(playerData, 0, &player) && player.isNull())
offset = 0;
// Set teams
if (args.Has("autostart-team"))
{
std::vector civArgs = args.GetMultiple("autostart-team");
for (size_t i = 0; i < civArgs.size(); ++i)
{
int playerID = civArgs[i].BeforeFirst(":").ToInt();
// Instead of overwriting existing player data, modify the array
JS::RootedValue currentPlayer(rq.cx);
if (!scriptInterface.GetPropertyInt(playerData, playerID-offset, ¤tPlayer) || currentPlayer.isUndefined())
{
if (mapDirectory == L"skirmishes")
{
// playerID is certainly bigger than this map player number
LOGWARNING("Autostart: Invalid player %d in autostart-team option", playerID);
continue;
}
ScriptInterface::CreateObject(rq, ¤tPlayer);
}
int teamID = civArgs[i].AfterFirst(":").ToInt() - 1;
scriptInterface.SetProperty(currentPlayer, "Team", teamID);
scriptInterface.SetPropertyInt(playerData, playerID-offset, currentPlayer);
}
}
int ceasefire = 0;
if (args.Has("autostart-ceasefire"))
ceasefire = args.Get("autostart-ceasefire").ToInt();
scriptInterface.SetProperty(settings, "Ceasefire", ceasefire);
if (args.Has("autostart-ai"))
{
std::vector aiArgs = args.GetMultiple("autostart-ai");
for (size_t i = 0; i < aiArgs.size(); ++i)
{
int playerID = aiArgs[i].BeforeFirst(":").ToInt();
// Instead of overwriting existing player data, modify the array
JS::RootedValue currentPlayer(rq.cx);
if (!scriptInterface.GetPropertyInt(playerData, playerID-offset, ¤tPlayer) || currentPlayer.isUndefined())
{
if (mapDirectory == L"scenarios" || mapDirectory == L"skirmishes")
{
// playerID is certainly bigger than this map player number
LOGWARNING("Autostart: Invalid player %d in autostart-ai option", playerID);
continue;
}
ScriptInterface::CreateObject(rq, ¤tPlayer);
}
scriptInterface.SetProperty(currentPlayer, "AI", aiArgs[i].AfterFirst(":"));
scriptInterface.SetProperty(currentPlayer, "AIDiff", 3);
scriptInterface.SetProperty(currentPlayer, "AIBehavior", "balanced");
scriptInterface.SetPropertyInt(playerData, playerID-offset, currentPlayer);
}
}
// Set AI difficulty
if (args.Has("autostart-aidiff"))
{
std::vector civArgs = args.GetMultiple("autostart-aidiff");
for (size_t i = 0; i < civArgs.size(); ++i)
{
int playerID = civArgs[i].BeforeFirst(":").ToInt();
// Instead of overwriting existing player data, modify the array
JS::RootedValue currentPlayer(rq.cx);
if (!scriptInterface.GetPropertyInt(playerData, playerID-offset, ¤tPlayer) || currentPlayer.isUndefined())
{
if (mapDirectory == L"scenarios" || mapDirectory == L"skirmishes")
{
// playerID is certainly bigger than this map player number
LOGWARNING("Autostart: Invalid player %d in autostart-aidiff option", playerID);
continue;
}
ScriptInterface::CreateObject(rq, ¤tPlayer);
}
scriptInterface.SetProperty(currentPlayer, "AIDiff", civArgs[i].AfterFirst(":").ToInt());
scriptInterface.SetPropertyInt(playerData, playerID-offset, currentPlayer);
}
}
// Set player data for Civs
if (args.Has("autostart-civ"))
{
if (mapDirectory != L"scenarios")
{
std::vector civArgs = args.GetMultiple("autostart-civ");
for (size_t i = 0; i < civArgs.size(); ++i)
{
int playerID = civArgs[i].BeforeFirst(":").ToInt();
// Instead of overwriting existing player data, modify the array
JS::RootedValue currentPlayer(rq.cx);
if (!scriptInterface.GetPropertyInt(playerData, playerID-offset, ¤tPlayer) || currentPlayer.isUndefined())
{
if (mapDirectory == L"skirmishes")
{
// playerID is certainly bigger than this map player number
LOGWARNING("Autostart: Invalid player %d in autostart-civ option", playerID);
continue;
}
ScriptInterface::CreateObject(rq, ¤tPlayer);
}
scriptInterface.SetProperty(currentPlayer, "Civ", civArgs[i].AfterFirst(":"));
scriptInterface.SetPropertyInt(playerData, playerID-offset, currentPlayer);
}
}
else
LOGWARNING("Autostart: Option 'autostart-civ' is invalid for scenarios");
}
// Add player data to map settings
scriptInterface.SetProperty(settings, "PlayerData", playerData);
// Add map settings to game attributes
scriptInterface.SetProperty(attrs, "settings", settings);
// Get optional playername
CStrW userName = L"anonymous";
if (args.Has("autostart-playername"))
userName = args.Get("autostart-playername").FromUTF8();
// Add additional scripts to the TriggerScripts property
std::vector triggerScriptsVector;
JS::RootedValue triggerScripts(rq.cx);
if (scriptInterface.HasProperty(settings, "TriggerScripts"))
{
scriptInterface.GetProperty(settings, "TriggerScripts", &triggerScripts);
FromJSVal_vector(rq, triggerScripts, triggerScriptsVector);
}
if (!CRenderer::IsInitialised())
{
CStr nonVisualScript = "scripts/NonVisualTrigger.js";
triggerScriptsVector.push_back(nonVisualScript.FromUTF8());
}
std::vector victoryConditions(1, "conquest");
if (args.Has("autostart-victory"))
victoryConditions = args.GetMultiple("autostart-victory");
if (victoryConditions.size() == 1 && victoryConditions[0] == "endless")
victoryConditions.clear();
scriptInterface.SetProperty(settings, "VictoryConditions", victoryConditions);
for (const CStr& victory : victoryConditions)
{
JS::RootedValue scriptData(rq.cx);
JS::RootedValue data(rq.cx);
JS::RootedValue victoryScripts(rq.cx);
CStrW scriptPath = L"simulation/data/settings/victory_conditions/" + victory.FromUTF8() + L".json";
scriptInterface.ReadJSONFile(scriptPath, &scriptData);
if (!scriptData.isUndefined() && scriptInterface.GetProperty(scriptData, "Data", &data) && !data.isUndefined()
&& scriptInterface.GetProperty(data, "Scripts", &victoryScripts) && !victoryScripts.isUndefined())
{
std::vector victoryScriptsVector;
FromJSVal_vector(rq, victoryScripts, victoryScriptsVector);
triggerScriptsVector.insert(triggerScriptsVector.end(), victoryScriptsVector.begin(), victoryScriptsVector.end());
}
else
{
LOGERROR("Autostart: Error reading victory script '%s'", utf8_from_wstring(scriptPath));
throw PSERROR_Game_World_MapLoadFailed("Error reading victory script.\nCheck application log for details.");
}
}
ToJSVal_vector(rq, &triggerScripts, triggerScriptsVector);
scriptInterface.SetProperty(settings, "TriggerScripts", triggerScripts);
int wonderDuration = 10;
if (args.Has("autostart-wonderduration"))
wonderDuration = args.Get("autostart-wonderduration").ToInt();
scriptInterface.SetProperty(settings, "WonderDuration", wonderDuration);
int relicDuration = 10;
if (args.Has("autostart-relicduration"))
relicDuration = args.Get("autostart-relicduration").ToInt();
scriptInterface.SetProperty(settings, "RelicDuration", relicDuration);
int relicCount = 2;
if (args.Has("autostart-reliccount"))
relicCount = args.Get("autostart-reliccount").ToInt();
scriptInterface.SetProperty(settings, "RelicCount", relicCount);
if (args.Has("autostart-host"))
{
InitPsAutostart(true, attrs);
size_t maxPlayers = 2;
if (args.Has("autostart-host-players"))
maxPlayers = args.Get("autostart-host-players").ToUInt();
g_NetServer = new CNetServer(false, maxPlayers);
g_NetServer->UpdateGameAttributes(&attrs, scriptInterface);
bool ok = g_NetServer->SetupConnection(PS_DEFAULT_PORT);
ENSURE(ok);
g_NetClient = new CNetClient(g_Game, true);
g_NetClient->SetUserName(userName);
g_NetClient->SetupConnection("127.0.0.1", PS_DEFAULT_PORT, nullptr);
}
else if (args.Has("autostart-client"))
{
InitPsAutostart(true, attrs);
g_NetClient = new CNetClient(g_Game, false);
g_NetClient->SetUserName(userName);
CStr ip = args.Get("autostart-client");
if (ip.empty())
ip = "127.0.0.1";
bool ok = g_NetClient->SetupConnection(ip, PS_DEFAULT_PORT, nullptr);
ENSURE(ok);
}
else
{
g_Game->SetPlayerID(args.Has("autostart-player") ? args.Get("autostart-player").ToInt() : 1);
g_Game->StartGame(&attrs, "");
if (CRenderer::IsInitialised())
{
InitPsAutostart(false, attrs);
}
else
{
// TODO: Non progressive load can fail - need a decent way to handle this
LDR_NonprogressiveLoad();
ENSURE(g_Game->ReallyStartGame() == PSRETURN_OK);
}
}
return true;
}
bool AutostartVisualReplay(const std::string& replayFile)
{
if (!FileExists(OsPath(replayFile)))
return false;
g_Game = new CGame(false);
g_Game->SetPlayerID(-1);
g_Game->StartVisualReplay(replayFile);
ScriptInterface& scriptInterface = g_Game->GetSimulation2()->GetScriptInterface();
ScriptRequest rq(scriptInterface);
JS::RootedValue attrs(rq.cx, g_Game->GetSimulation2()->GetInitAttributes());
InitPsAutostart(false, attrs);
return true;
}
void CancelLoad(const CStrW& message)
{
shared_ptr pScriptInterface = g_GUI->GetActiveGUI()->GetScriptInterface();
ScriptRequest rq(pScriptInterface);
JS::RootedValue global(rq.cx, rq.globalValue());
LDR_Cancel();
if (g_GUI &&
g_GUI->GetPageCount() &&
pScriptInterface->HasProperty(global, "cancelOnLoadGameError"))
pScriptInterface->CallFunctionVoid(global, "cancelOnLoadGameError", message);
}
bool InDevelopmentCopy()
{
if (!g_CheckedIfInDevelopmentCopy)
{
g_InDevelopmentCopy = (g_VFS->GetFileInfo(L"config/dev.cfg", NULL) == INFO::OK);
g_CheckedIfInDevelopmentCopy = true;
}
return g_InDevelopmentCopy;
}
Index: ps/trunk/source/ps/GameSetup/HWDetect.cpp
===================================================================
--- ps/trunk/source/ps/GameSetup/HWDetect.cpp (revision 24550)
+++ ps/trunk/source/ps/GameSetup/HWDetect.cpp (revision 24551)
@@ -1,652 +1,655 @@
-/* Copyright (C) 2020 Wildfire Games.
+/* Copyright (C) 2021 Wildfire Games.
* This file is part of 0 A.D.
*
* 0 A.D. is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* 0 A.D. is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with 0 A.D. If not, see .
*/
#include "precompiled.h"
#include "scriptinterface/ScriptInterface.h"
#include "lib/ogl.h"
#include "lib/svn_revision.h"
#include "lib/timer.h"
#include "lib/utf8.h"
#include "lib/external_libraries/libsdl.h"
#include "lib/res/graphics/ogl_tex.h"
#include "lib/posix/posix_utsname.h"
#include "lib/sysdep/cpu.h"
#include "lib/sysdep/gfx.h"
#include "lib/sysdep/numa.h"
#include "lib/sysdep/os_cpu.h"
#if ARCH_X86_X64
# include "lib/sysdep/arch/x86_x64/topology.h"
#endif
#if CONFIG2_AUDIO
#include "soundmanager/SoundManager.h"
#endif
#include "ps/CLogger.h"
#include "ps/ConfigDB.h"
#include "ps/Filesystem.h"
#include "ps/GameSetup/Config.h"
#include "ps/Profile.h"
#include "ps/scripting/JSInterface_ConfigDB.h"
#include "ps/scripting/JSInterface_Debug.h"
#include "ps/UserReport.h"
#include "ps/VideoMode.h"
// TODO: Support OpenGL platforms which don’t use GLX as well.
#if defined(SDL_VIDEO_DRIVER_X11) && !CONFIG2_GLES
#include
#include
// Define the GLX_MESA_query_renderer macros if built with
// an old Mesa (<10.0) that doesn't provide them
#ifndef GLX_MESA_query_renderer
#define GLX_MESA_query_renderer 1
#define GLX_RENDERER_VENDOR_ID_MESA 0x8183
#define GLX_RENDERER_DEVICE_ID_MESA 0x8184
#define GLX_RENDERER_VERSION_MESA 0x8185
#define GLX_RENDERER_ACCELERATED_MESA 0x8186
#define GLX_RENDERER_VIDEO_MEMORY_MESA 0x8187
#define GLX_RENDERER_UNIFIED_MEMORY_ARCHITECTURE_MESA 0x8188
#define GLX_RENDERER_PREFERRED_PROFILE_MESA 0x8189
#define GLX_RENDERER_OPENGL_CORE_PROFILE_VERSION_MESA 0x818A
#define GLX_RENDERER_OPENGL_COMPATIBILITY_PROFILE_VERSION_MESA 0x818B
#define GLX_RENDERER_OPENGL_ES_PROFILE_VERSION_MESA 0x818C
#define GLX_RENDERER_OPENGL_ES2_PROFILE_VERSION_MESA 0x818D
#define GLX_RENDERER_ID_MESA 0x818E
#endif /* GLX_MESA_query_renderer */
#endif
static void ReportSDL(const ScriptInterface& scriptInterface, JS::HandleValue settings);
static void ReportGLLimits(const ScriptInterface& scriptInterface, JS::HandleValue settings);
void SetDisableAudio(ScriptInterface::CmptPrivate* UNUSED(pCmptPrivate), bool disabled)
{
g_DisableAudio = disabled;
}
void RunHardwareDetection()
{
TIMER(L"RunHardwareDetection");
ScriptInterface scriptInterface("Engine", "HWDetect", g_ScriptContext);
ScriptRequest rq(scriptInterface);
JSI_Debug::RegisterScriptFunctions(scriptInterface); // Engine.DisplayErrorDialog
JSI_ConfigDB::RegisterScriptFunctions(scriptInterface);
scriptInterface.RegisterFunction("SetDisableAudio");
// Load the detection script:
const wchar_t* scriptName = L"hwdetect/hwdetect.js";
CVFSFile file;
if (file.Load(g_VFS, scriptName) != PSRETURN_OK)
{
LOGERROR("Failed to load hardware detection script");
return;
}
std::string code = file.DecodeUTF8(); // assume it's UTF-8
scriptInterface.LoadScript(scriptName, code);
// Collect all the settings we'll pass to the script:
// (We'll use this same data for the opt-in online reporting system, so it
// includes some fields that aren't directly useful for the hwdetect script)
JS::RootedValue settings(rq.cx);
ScriptInterface::CreateObject(rq, &settings);
scriptInterface.SetProperty(settings, "os_unix", OS_UNIX);
scriptInterface.SetProperty(settings, "os_bsd", OS_BSD);
scriptInterface.SetProperty(settings, "os_linux", OS_LINUX);
scriptInterface.SetProperty(settings, "os_android", OS_ANDROID);
scriptInterface.SetProperty(settings, "os_macosx", OS_MACOSX);
scriptInterface.SetProperty(settings, "os_win", OS_WIN);
scriptInterface.SetProperty(settings, "arch_ia32", ARCH_IA32);
scriptInterface.SetProperty(settings, "arch_amd64", ARCH_AMD64);
scriptInterface.SetProperty(settings, "arch_arm", ARCH_ARM);
scriptInterface.SetProperty(settings, "arch_aarch64", ARCH_AARCH64);
scriptInterface.SetProperty(settings, "arch_e2k", ARCH_E2K);
#ifdef NDEBUG
scriptInterface.SetProperty(settings, "build_debug", 0);
#else
scriptInterface.SetProperty(settings, "build_debug", 1);
#endif
scriptInterface.SetProperty(settings, "build_opengles", CONFIG2_GLES);
scriptInterface.SetProperty(settings, "build_datetime", std::string(__DATE__ " " __TIME__));
scriptInterface.SetProperty(settings, "build_revision", std::wstring(svn_revision));
scriptInterface.SetProperty(settings, "build_msc", (int)MSC_VERSION);
scriptInterface.SetProperty(settings, "build_icc", (int)ICC_VERSION);
scriptInterface.SetProperty(settings, "build_gcc", (int)GCC_VERSION);
scriptInterface.SetProperty(settings, "build_clang", (int)CLANG_VERSION);
scriptInterface.SetProperty(settings, "gfx_card", gfx::CardName());
scriptInterface.SetProperty(settings, "gfx_drv_ver", gfx::DriverInfo());
#if CONFIG2_AUDIO
- scriptInterface.SetProperty(settings, "snd_card", g_SoundManager->GetSoundCardNames());
- scriptInterface.SetProperty(settings, "snd_drv_ver", g_SoundManager->GetOpenALVersion());
+ if (g_SoundManager)
+ {
+ scriptInterface.SetProperty(settings, "snd_card", g_SoundManager->GetSoundCardNames());
+ scriptInterface.SetProperty(settings, "snd_drv_ver", g_SoundManager->GetOpenALVersion());
+ }
#endif
ReportSDL(scriptInterface, settings);
ReportGLLimits(scriptInterface, settings);
scriptInterface.SetProperty(settings, "video_desktop_xres", g_VideoMode.GetDesktopXRes());
scriptInterface.SetProperty(settings, "video_desktop_yres", g_VideoMode.GetDesktopYRes());
scriptInterface.SetProperty(settings, "video_desktop_bpp", g_VideoMode.GetDesktopBPP());
scriptInterface.SetProperty(settings, "video_desktop_freq", g_VideoMode.GetDesktopFreq());
struct utsname un;
uname(&un);
scriptInterface.SetProperty(settings, "uname_sysname", std::string(un.sysname));
scriptInterface.SetProperty(settings, "uname_release", std::string(un.release));
scriptInterface.SetProperty(settings, "uname_version", std::string(un.version));
scriptInterface.SetProperty(settings, "uname_machine", std::string(un.machine));
#if OS_LINUX
{
std::ifstream ifs("/etc/lsb-release");
if (ifs.good())
{
std::string str((std::istreambuf_iterator(ifs)), std::istreambuf_iterator());
scriptInterface.SetProperty(settings, "linux_release", str);
}
}
#endif
scriptInterface.SetProperty(settings, "cpu_identifier", std::string(cpu_IdentifierString()));
scriptInterface.SetProperty(settings, "cpu_frequency", os_cpu_ClockFrequency());
scriptInterface.SetProperty(settings, "cpu_pagesize", (u32)os_cpu_PageSize());
scriptInterface.SetProperty(settings, "cpu_largepagesize", (u32)os_cpu_LargePageSize());
scriptInterface.SetProperty(settings, "cpu_numprocs", (u32)os_cpu_NumProcessors());
#if ARCH_X86_X64
scriptInterface.SetProperty(settings, "cpu_numpackages", (u32)topology::NumPackages());
scriptInterface.SetProperty(settings, "cpu_coresperpackage", (u32)topology::CoresPerPackage());
scriptInterface.SetProperty(settings, "cpu_logicalpercore", (u32)topology::LogicalPerCore());
#endif
scriptInterface.SetProperty(settings, "numa_numnodes", (u32)numa_NumNodes());
scriptInterface.SetProperty(settings, "numa_factor", numa_Factor());
scriptInterface.SetProperty(settings, "numa_interleaved", numa_IsMemoryInterleaved());
scriptInterface.SetProperty(settings, "ram_total", (u32)os_cpu_MemorySize());
scriptInterface.SetProperty(settings, "ram_total_os", (u32)os_cpu_QueryMemorySize());
#if ARCH_X86_X64
scriptInterface.SetProperty(settings, "x86_vendor", (u32)x86_x64::Vendor());
scriptInterface.SetProperty(settings, "x86_model", (u32)x86_x64::Model());
scriptInterface.SetProperty(settings, "x86_family", (u32)x86_x64::Family());
u32 caps0, caps1, caps2, caps3;
x86_x64::GetCapBits(&caps0, &caps1, &caps2, &caps3);
scriptInterface.SetProperty(settings, "x86_caps[0]", caps0);
scriptInterface.SetProperty(settings, "x86_caps[1]", caps1);
scriptInterface.SetProperty(settings, "x86_caps[2]", caps2);
scriptInterface.SetProperty(settings, "x86_caps[3]", caps3);
#endif
scriptInterface.SetProperty(settings, "timer_resolution", timer_Resolution());
// The version should be increased for every meaningful change.
const int reportVersion = 14;
// Send the same data to the reporting system
g_UserReporter.SubmitReport(
"hwdetect",
reportVersion,
scriptInterface.StringifyJSON(&settings, false),
scriptInterface.StringifyJSON(&settings, true));
// Run the detection script:
JS::RootedValue global(rq.cx, rq.globalValue());
scriptInterface.CallFunctionVoid(global, "RunHardwareDetection", settings);
}
static void ReportSDL(const ScriptInterface& scriptInterface, JS::HandleValue settings)
{
SDL_version build, runtime;
SDL_VERSION(&build);
char version[16];
snprintf(version, ARRAY_SIZE(version), "%d.%d.%d", build.major, build.minor, build.patch);
scriptInterface.SetProperty(settings, "sdl_build_version", version);
SDL_GetVersion(&runtime);
snprintf(version, ARRAY_SIZE(version), "%d.%d.%d", runtime.major, runtime.minor, runtime.patch);
scriptInterface.SetProperty(settings, "sdl_runtime_version", version);
// This is null in atlas (and further the call triggers an assertion).
const char* backend = g_VideoMode.GetWindow() ? GetSDLSubsystem(g_VideoMode.GetWindow()) : "none";
scriptInterface.SetProperty(settings, "sdl_video_backend", backend ? backend : "unknown");
}
static void ReportGLLimits(const ScriptInterface& scriptInterface, JS::HandleValue settings)
{
const char* errstr = "(error)";
#define INTEGER(id) do { \
GLint i = -1; \
glGetIntegerv(GL_##id, &i); \
if (ogl_SquelchError(GL_INVALID_ENUM)) \
scriptInterface.SetProperty(settings, "GL_" #id, errstr); \
else \
scriptInterface.SetProperty(settings, "GL_" #id, i); \
} while (false)
#define INTEGER2(id) do { \
GLint i[2] = { -1, -1 }; \
glGetIntegerv(GL_##id, i); \
if (ogl_SquelchError(GL_INVALID_ENUM)) { \
scriptInterface.SetProperty(settings, "GL_" #id "[0]", errstr); \
scriptInterface.SetProperty(settings, "GL_" #id "[1]", errstr); \
} else { \
scriptInterface.SetProperty(settings, "GL_" #id "[0]", i[0]); \
scriptInterface.SetProperty(settings, "GL_" #id "[1]", i[1]); \
} \
} while (false)
#define FLOAT(id) do { \
GLfloat f = std::numeric_limits::quiet_NaN(); \
glGetFloatv(GL_##id, &f); \
if (ogl_SquelchError(GL_INVALID_ENUM)) \
scriptInterface.SetProperty(settings, "GL_" #id, errstr); \
else \
scriptInterface.SetProperty(settings, "GL_" #id, f); \
} while (false)
#define FLOAT2(id) do { \
GLfloat f[2] = { std::numeric_limits::quiet_NaN(), std::numeric_limits::quiet_NaN() }; \
glGetFloatv(GL_##id, f); \
if (ogl_SquelchError(GL_INVALID_ENUM)) { \
scriptInterface.SetProperty(settings, "GL_" #id "[0]", errstr); \
scriptInterface.SetProperty(settings, "GL_" #id "[1]", errstr); \
} else { \
scriptInterface.SetProperty(settings, "GL_" #id "[0]", f[0]); \
scriptInterface.SetProperty(settings, "GL_" #id "[1]", f[1]); \
} \
} while (false)
#define STRING(id) do { \
const char* c = (const char*)glGetString(GL_##id); \
if (!c) c = ""; \
if (ogl_SquelchError(GL_INVALID_ENUM)) c = errstr; \
scriptInterface.SetProperty(settings, "GL_" #id, std::string(c)); \
} while (false)
#define QUERY(target, pname) do { \
GLint i = -1; \
pglGetQueryivARB(GL_##target, GL_##pname, &i); \
if (ogl_SquelchError(GL_INVALID_ENUM)) \
scriptInterface.SetProperty(settings, "GL_" #target ".GL_" #pname, errstr); \
else \
scriptInterface.SetProperty(settings, "GL_" #target ".GL_" #pname, i); \
} while (false)
#define VERTEXPROGRAM(id) do { \
GLint i = -1; \
pglGetProgramivARB(GL_VERTEX_PROGRAM_ARB, GL_##id, &i); \
if (ogl_SquelchError(GL_INVALID_ENUM)) \
scriptInterface.SetProperty(settings, "GL_VERTEX_PROGRAM_ARB.GL_" #id, errstr); \
else \
scriptInterface.SetProperty(settings, "GL_VERTEX_PROGRAM_ARB.GL_" #id, i); \
} while (false)
#define FRAGMENTPROGRAM(id) do { \
GLint i = -1; \
pglGetProgramivARB(GL_FRAGMENT_PROGRAM_ARB, GL_##id, &i); \
if (ogl_SquelchError(GL_INVALID_ENUM)) \
scriptInterface.SetProperty(settings, "GL_FRAGMENT_PROGRAM_ARB.GL_" #id, errstr); \
else \
scriptInterface.SetProperty(settings, "GL_FRAGMENT_PROGRAM_ARB.GL_" #id, i); \
} while (false)
#define BOOL(id) INTEGER(id)
ogl_WarnIfError();
// Core OpenGL 1.3:
// (We don't bother checking extension strings for anything older than 1.3;
// it'll just produce harmless warnings)
STRING(VERSION);
STRING(VENDOR);
STRING(RENDERER);
STRING(EXTENSIONS);
#if !CONFIG2_GLES
INTEGER(MAX_LIGHTS);
INTEGER(MAX_CLIP_PLANES);
// Skip MAX_COLOR_MATRIX_STACK_DEPTH (only in imaging subset)
INTEGER(MAX_MODELVIEW_STACK_DEPTH);
INTEGER(MAX_PROJECTION_STACK_DEPTH);
INTEGER(MAX_TEXTURE_STACK_DEPTH);
#endif
INTEGER(SUBPIXEL_BITS);
#if !CONFIG2_GLES
INTEGER(MAX_3D_TEXTURE_SIZE);
#endif
INTEGER(MAX_TEXTURE_SIZE);
INTEGER(MAX_CUBE_MAP_TEXTURE_SIZE);
#if !CONFIG2_GLES
INTEGER(MAX_PIXEL_MAP_TABLE);
INTEGER(MAX_NAME_STACK_DEPTH);
INTEGER(MAX_LIST_NESTING);
INTEGER(MAX_EVAL_ORDER);
#endif
INTEGER2(MAX_VIEWPORT_DIMS);
#if !CONFIG2_GLES
INTEGER(MAX_ATTRIB_STACK_DEPTH);
INTEGER(MAX_CLIENT_ATTRIB_STACK_DEPTH);
INTEGER(AUX_BUFFERS);
BOOL(RGBA_MODE);
BOOL(INDEX_MODE);
BOOL(DOUBLEBUFFER);
BOOL(STEREO);
#endif
FLOAT2(ALIASED_POINT_SIZE_RANGE);
#if !CONFIG2_GLES
FLOAT2(SMOOTH_POINT_SIZE_RANGE);
FLOAT(SMOOTH_POINT_SIZE_GRANULARITY);
#endif
FLOAT2(ALIASED_LINE_WIDTH_RANGE);
#if !CONFIG2_GLES
FLOAT2(SMOOTH_LINE_WIDTH_RANGE);
FLOAT(SMOOTH_LINE_WIDTH_GRANULARITY);
// Skip MAX_CONVOLUTION_WIDTH, MAX_CONVOLUTION_HEIGHT (only in imaging subset)
INTEGER(MAX_ELEMENTS_INDICES);
INTEGER(MAX_ELEMENTS_VERTICES);
INTEGER(MAX_TEXTURE_UNITS);
#endif
INTEGER(SAMPLE_BUFFERS);
INTEGER(SAMPLES);
// TODO: compressed texture formats
INTEGER(RED_BITS);
INTEGER(GREEN_BITS);
INTEGER(BLUE_BITS);
INTEGER(ALPHA_BITS);
#if !CONFIG2_GLES
INTEGER(INDEX_BITS);
#endif
INTEGER(DEPTH_BITS);
INTEGER(STENCIL_BITS);
#if !CONFIG2_GLES
INTEGER(ACCUM_RED_BITS);
INTEGER(ACCUM_GREEN_BITS);
INTEGER(ACCUM_BLUE_BITS);
INTEGER(ACCUM_ALPHA_BITS);
#endif
#if !CONFIG2_GLES
// Core OpenGL 2.0 (treated as extensions):
if (ogl_HaveExtension("GL_EXT_texture_lod_bias"))
{
FLOAT(MAX_TEXTURE_LOD_BIAS_EXT);
}
if (ogl_HaveExtension("GL_ARB_occlusion_query"))
{
QUERY(SAMPLES_PASSED, QUERY_COUNTER_BITS);
}
if (ogl_HaveExtension("GL_ARB_shading_language_100"))
{
STRING(SHADING_LANGUAGE_VERSION_ARB);
}
if (ogl_HaveExtension("GL_ARB_vertex_shader"))
{
INTEGER(MAX_VERTEX_ATTRIBS_ARB);
INTEGER(MAX_VERTEX_UNIFORM_COMPONENTS_ARB);
INTEGER(MAX_VARYING_FLOATS_ARB);
INTEGER(MAX_COMBINED_TEXTURE_IMAGE_UNITS_ARB);
INTEGER(MAX_VERTEX_TEXTURE_IMAGE_UNITS_ARB);
}
if (ogl_HaveExtension("GL_ARB_fragment_shader"))
{
INTEGER(MAX_FRAGMENT_UNIFORM_COMPONENTS_ARB);
}
if (ogl_HaveExtension("GL_ARB_vertex_shader") || ogl_HaveExtension("GL_ARB_fragment_shader") ||
ogl_HaveExtension("GL_ARB_vertex_program") || ogl_HaveExtension("GL_ARB_fragment_program"))
{
INTEGER(MAX_TEXTURE_IMAGE_UNITS_ARB);
INTEGER(MAX_TEXTURE_COORDS_ARB);
}
if (ogl_HaveExtension("GL_ARB_draw_buffers"))
{
INTEGER(MAX_DRAW_BUFFERS_ARB);
}
// Core OpenGL 3.0:
if (ogl_HaveExtension("GL_EXT_gpu_shader4"))
{
INTEGER(MIN_PROGRAM_TEXEL_OFFSET); // no _EXT version of these in glext.h
INTEGER(MAX_PROGRAM_TEXEL_OFFSET);
}
if (ogl_HaveExtension("GL_EXT_framebuffer_object"))
{
INTEGER(MAX_COLOR_ATTACHMENTS_EXT);
INTEGER(MAX_RENDERBUFFER_SIZE_EXT);
}
if (ogl_HaveExtension("GL_EXT_framebuffer_multisample"))
{
INTEGER(MAX_SAMPLES_EXT);
}
if (ogl_HaveExtension("GL_EXT_texture_array"))
{
INTEGER(MAX_ARRAY_TEXTURE_LAYERS_EXT);
}
if (ogl_HaveExtension("GL_EXT_transform_feedback"))
{
INTEGER(MAX_TRANSFORM_FEEDBACK_INTERLEAVED_COMPONENTS_EXT);
INTEGER(MAX_TRANSFORM_FEEDBACK_SEPARATE_ATTRIBS_EXT);
INTEGER(MAX_TRANSFORM_FEEDBACK_SEPARATE_COMPONENTS_EXT);
}
// Other interesting extensions:
if (ogl_HaveExtension("GL_EXT_timer_query") || ogl_HaveExtension("GL_ARB_timer_query"))
{
QUERY(TIME_ELAPSED, QUERY_COUNTER_BITS);
}
if (ogl_HaveExtension("GL_ARB_timer_query"))
{
QUERY(TIMESTAMP, QUERY_COUNTER_BITS);
}
if (ogl_HaveExtension("GL_EXT_texture_filter_anisotropic"))
{
FLOAT(MAX_TEXTURE_MAX_ANISOTROPY_EXT);
}
if (ogl_HaveExtension("GL_ARB_texture_rectangle"))
{
INTEGER(MAX_RECTANGLE_TEXTURE_SIZE_ARB);
}
if (ogl_HaveExtension("GL_ARB_vertex_program") || ogl_HaveExtension("GL_ARB_fragment_program"))
{
INTEGER(MAX_PROGRAM_MATRICES_ARB);
INTEGER(MAX_PROGRAM_MATRIX_STACK_DEPTH_ARB);
}
if (ogl_HaveExtension("GL_ARB_vertex_program"))
{
VERTEXPROGRAM(MAX_PROGRAM_ENV_PARAMETERS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_LOCAL_PARAMETERS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_INSTRUCTIONS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_TEMPORARIES_ARB);
VERTEXPROGRAM(MAX_PROGRAM_PARAMETERS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_ATTRIBS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_ADDRESS_REGISTERS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_NATIVE_INSTRUCTIONS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_NATIVE_TEMPORARIES_ARB);
VERTEXPROGRAM(MAX_PROGRAM_NATIVE_PARAMETERS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_NATIVE_ATTRIBS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_NATIVE_ADDRESS_REGISTERS_ARB);
if (ogl_HaveExtension("GL_ARB_fragment_program"))
{
// The spec seems to say these should be supported, but
// Mesa complains about them so let's not bother
/*
VERTEXPROGRAM(MAX_PROGRAM_ALU_INSTRUCTIONS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_TEX_INSTRUCTIONS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_TEX_INDIRECTIONS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_NATIVE_ALU_INSTRUCTIONS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_NATIVE_TEX_INSTRUCTIONS_ARB);
VERTEXPROGRAM(MAX_PROGRAM_NATIVE_TEX_INDIRECTIONS_ARB);
*/
}
}
if (ogl_HaveExtension("GL_ARB_fragment_program"))
{
FRAGMENTPROGRAM(MAX_PROGRAM_ENV_PARAMETERS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_LOCAL_PARAMETERS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_INSTRUCTIONS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_ALU_INSTRUCTIONS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_TEX_INSTRUCTIONS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_TEX_INDIRECTIONS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_TEMPORARIES_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_PARAMETERS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_ATTRIBS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_NATIVE_INSTRUCTIONS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_NATIVE_ALU_INSTRUCTIONS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_NATIVE_TEX_INSTRUCTIONS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_NATIVE_TEX_INDIRECTIONS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_NATIVE_TEMPORARIES_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_NATIVE_PARAMETERS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_NATIVE_ATTRIBS_ARB);
if (ogl_HaveExtension("GL_ARB_vertex_program"))
{
// The spec seems to say these should be supported, but
// Intel drivers on Windows complain about them so let's not bother
/*
FRAGMENTPROGRAM(MAX_PROGRAM_ADDRESS_REGISTERS_ARB);
FRAGMENTPROGRAM(MAX_PROGRAM_NATIVE_ADDRESS_REGISTERS_ARB);
*/
}
}
if (ogl_HaveExtension("GL_ARB_geometry_shader4"))
{
INTEGER(MAX_GEOMETRY_TEXTURE_IMAGE_UNITS_ARB);
INTEGER(MAX_GEOMETRY_OUTPUT_VERTICES_ARB);
INTEGER(MAX_GEOMETRY_TOTAL_OUTPUT_COMPONENTS_ARB);
INTEGER(MAX_GEOMETRY_UNIFORM_COMPONENTS_ARB);
INTEGER(MAX_GEOMETRY_VARYING_COMPONENTS_ARB);
INTEGER(MAX_VERTEX_VARYING_COMPONENTS_ARB);
}
#else // CONFIG2_GLES
// Core OpenGL ES 2.0:
STRING(SHADING_LANGUAGE_VERSION);
INTEGER(MAX_VERTEX_ATTRIBS);
INTEGER(MAX_VERTEX_UNIFORM_VECTORS);
INTEGER(MAX_VARYING_VECTORS);
INTEGER(MAX_COMBINED_TEXTURE_IMAGE_UNITS);
INTEGER(MAX_VERTEX_TEXTURE_IMAGE_UNITS);
INTEGER(MAX_FRAGMENT_UNIFORM_VECTORS);
INTEGER(MAX_TEXTURE_IMAGE_UNITS);
INTEGER(MAX_RENDERBUFFER_SIZE);
#endif // CONFIG2_GLES
// TODO: Support OpenGL platforms which don’t use GLX as well.
#if defined(SDL_VIDEO_DRIVER_X11) && !CONFIG2_GLES
#define GLXQCR_INTEGER(id) do { \
unsigned int i = UINT_MAX; \
if (pglXQueryCurrentRendererIntegerMESA(id, &i)) \
scriptInterface.SetProperty(settings, #id, i); \
} while (false)
#define GLXQCR_INTEGER2(id) do { \
unsigned int i[2] = { UINT_MAX, UINT_MAX }; \
if (pglXQueryCurrentRendererIntegerMESA(id, i)) { \
scriptInterface.SetProperty(settings, #id "[0]", i[0]); \
scriptInterface.SetProperty(settings, #id "[1]", i[1]); \
} \
} while (false)
#define GLXQCR_INTEGER3(id) do { \
unsigned int i[3] = { UINT_MAX, UINT_MAX, UINT_MAX }; \
if (pglXQueryCurrentRendererIntegerMESA(id, i)) { \
scriptInterface.SetProperty(settings, #id "[0]", i[0]); \
scriptInterface.SetProperty(settings, #id "[1]", i[1]); \
scriptInterface.SetProperty(settings, #id "[2]", i[2]); \
} \
} while (false)
#define GLXQCR_STRING(id) do { \
const char* str = pglXQueryCurrentRendererStringMESA(id); \
if (str) \
scriptInterface.SetProperty(settings, #id ".string", str); \
} while (false)
SDL_SysWMinfo wminfo;
SDL_VERSION(&wminfo.version);
const int ret = SDL_GetWindowWMInfo(g_VideoMode.GetWindow(), &wminfo);
if (ret && wminfo.subsystem == SDL_SYSWM_X11)
{
Display* dpy = wminfo.info.x11.display;
int scrnum = DefaultScreen(dpy);
const char* glxexts = glXQueryExtensionsString(dpy, scrnum);
scriptInterface.SetProperty(settings, "glx_extensions", glxexts);
if (strstr(glxexts, "GLX_MESA_query_renderer") && pglXQueryCurrentRendererIntegerMESA && pglXQueryCurrentRendererStringMESA)
{
GLXQCR_INTEGER(GLX_RENDERER_VENDOR_ID_MESA);
GLXQCR_INTEGER(GLX_RENDERER_DEVICE_ID_MESA);
GLXQCR_INTEGER3(GLX_RENDERER_VERSION_MESA);
GLXQCR_INTEGER(GLX_RENDERER_ACCELERATED_MESA);
GLXQCR_INTEGER(GLX_RENDERER_VIDEO_MEMORY_MESA);
GLXQCR_INTEGER(GLX_RENDERER_UNIFIED_MEMORY_ARCHITECTURE_MESA);
GLXQCR_INTEGER(GLX_RENDERER_PREFERRED_PROFILE_MESA);
GLXQCR_INTEGER2(GLX_RENDERER_OPENGL_CORE_PROFILE_VERSION_MESA);
GLXQCR_INTEGER2(GLX_RENDERER_OPENGL_COMPATIBILITY_PROFILE_VERSION_MESA);
GLXQCR_INTEGER2(GLX_RENDERER_OPENGL_ES_PROFILE_VERSION_MESA);
GLXQCR_INTEGER2(GLX_RENDERER_OPENGL_ES2_PROFILE_VERSION_MESA);
GLXQCR_STRING(GLX_RENDERER_VENDOR_ID_MESA);
GLXQCR_STRING(GLX_RENDERER_DEVICE_ID_MESA);
}
}
#endif // SDL_VIDEO_DRIVER_X11
}
Index: ps/trunk/source/ps/Util.cpp
===================================================================
--- ps/trunk/source/ps/Util.cpp (revision 24550)
+++ ps/trunk/source/ps/Util.cpp (revision 24551)
@@ -1,454 +1,461 @@
-/* Copyright (C) 2020 Wildfire Games.
+/* Copyright (C) 2021 Wildfire Games.
* This file is part of 0 A.D.
*
* 0 A.D. is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* 0 A.D. is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with 0 A.D. If not, see .
*/
#include "precompiled.h"
#include "ps/Util.h"
#include "lib/posix/posix_utsname.h"
#include "lib/ogl.h"
#include "lib/timer.h"
#include "lib/bits.h" // round_up
#include "lib/allocators/shared_ptr.h"
#include "lib/sysdep/sysdep.h" // sys_OpenFile
#include "lib/sysdep/gfx.h"
#include "lib/sysdep/cpu.h"
#include "lib/sysdep/os_cpu.h"
#if ARCH_X86_X64
#include "lib/sysdep/arch/x86_x64/topology.h"
#endif
#include "lib/sysdep/smbios.h"
#include "lib/tex/tex.h"
#include "i18n/L10n.h"
#include "lib/utf8.h"
#include "ps/GameSetup/Config.h"
#include "ps/GameSetup/GameSetup.h"
#include "ps/Game.h"
#include "ps/CLogger.h"
#include "ps/Filesystem.h"
#include "ps/Pyrogenesis.h"
#include "ps/VideoMode.h"
#include "renderer/Renderer.h"
#include "maths/MathUtil.h"
#include "graphics/GameView.h"
#if CONFIG2_AUDIO
#include "soundmanager/SoundManager.h"
#endif
#include
#include
extern CStrW g_CursorName;
static std::string SplitExts(const char *exts)
{
std::string str = exts;
std::string ret = "";
size_t idx = str.find_first_of(" ");
while(idx != std::string::npos)
{
if(idx >= str.length() - 1)
{
ret += str;
break;
}
ret += str.substr(0, idx);
ret += "\n";
str = str.substr(idx + 1);
idx = str.find_first_of(" ");
}
return ret;
}
void WriteSystemInfo()
{
TIMER(L"write_sys_info");
struct utsname un;
uname(&un);
OsPath pathname = psLogDir()/"system_info.txt";
FILE* f = sys_OpenFile(pathname, "w");
if(!f)
return;
// current timestamp (redundant WRT OS timestamp, but that is not
// visible when people are posting this file's contents online)
{
wchar_t timestampBuf[100] = {'\0'};
time_t seconds;
time(&seconds);
struct tm* t = gmtime(&seconds);
const size_t charsWritten = wcsftime(timestampBuf, ARRAY_SIZE(timestampBuf), L"(generated %Y-%m-%d %H:%M:%S UTC)", t);
ENSURE(charsWritten != 0);
fprintf(f, "%ls\n\n", timestampBuf);
}
// OS
fprintf(f, "OS : %s %s (%s)\n", un.sysname, un.release, un.version);
// CPU
fprintf(f, "CPU : %s, %s", un.machine, cpu_IdentifierString());
#if ARCH_X86_X64
fprintf(f, " (%dx%dx%d)", (int)topology::NumPackages(), (int)topology::CoresPerPackage(), (int)topology::LogicalPerCore());
#endif
double cpuClock = os_cpu_ClockFrequency(); // query OS (may fail)
#if ARCH_X86_X64
if(cpuClock <= 0.0)
cpuClock = x86_x64::ClockFrequency(); // measure (takes a few ms)
#endif
if(cpuClock > 0.0)
{
if(cpuClock < 1e9)
fprintf(f, ", %.2f MHz\n", cpuClock*1e-6);
else
fprintf(f, ", %.2f GHz\n", cpuClock*1e-9);
}
else
fprintf(f, "\n");
// memory
fprintf(f, "Memory : %u MiB; %u MiB free\n", (unsigned)os_cpu_MemorySize(), (unsigned)os_cpu_MemoryAvailable());
// graphics
const std::wstring cardName = gfx::CardName();
const std::wstring driverInfo = gfx::DriverInfo();
fprintf(f, "Graphics Card : %ls\n", cardName.c_str());
fprintf(f, "OpenGL Drivers : %s; %ls\n", glGetString(GL_VERSION), driverInfo.c_str());
fprintf(f, "Video Mode : %dx%d:%d\n", g_VideoMode.GetXRes(), g_VideoMode.GetYRes(), g_VideoMode.GetBPP());
#if CONFIG2_AUDIO
- fprintf(f, "Sound Card : %s\n", g_SoundManager->GetSoundCardNames().c_str());
- fprintf(f, "Sound Drivers : %s\n", g_SoundManager->GetOpenALVersion().c_str());
+ if (g_SoundManager)
+ {
+ fprintf(f, "Sound Card : %s\n", g_SoundManager->GetSoundCardNames().c_str());
+ fprintf(f, "Sound Drivers : %s\n", g_SoundManager->GetOpenALVersion().c_str());
+ }
+ else if(g_DisableAudio)
+ fprintf(f, "Sound : Game was ran without audio\n");
+ else
+ fprintf(f, "Sound : No audio device was found\n");
#else
fprintf(f, "Sound : Game was compiled without audio\n");
#endif
// OpenGL extensions (write them last, since it's a lot of text)
const char* exts = ogl_ExtensionString();
if (!exts) exts = "{unknown}";
fprintf(f, "\nOpenGL Extensions: \n%s\n", SplitExts(exts).c_str());
// System Management BIOS (even more text than OpenGL extensions)
std::string smbios = SMBIOS::StringizeStructures(SMBIOS::GetStructures());
fprintf(f, "\nSMBIOS: \n%s\n", smbios.c_str());
fclose(f);
f = 0;
}
// not thread-safe!
static const wchar_t* HardcodedErrorString(int err)
{
static wchar_t description[200];
StatusDescription((Status)err, description, ARRAY_SIZE(description));
return description;
}
// not thread-safe!
const wchar_t* ErrorString(int err)
{
// language file not available (yet)
return HardcodedErrorString(err);
// TODO: load from language file
}
// write the specified texture to disk.
// note: cannot be made const because the image may have to be
// transformed to write it out in the format determined by 's extension.
Status tex_write(Tex* t, const VfsPath& filename)
{
DynArray da;
RETURN_STATUS_IF_ERR(t->encode(filename.Extension(), &da));
// write to disk
Status ret = INFO::OK;
{
shared_ptr file = DummySharedPtr(da.base);
const ssize_t bytes_written = g_VFS->CreateFile(filename, file, da.pos);
if(bytes_written > 0)
ENSURE(bytes_written == (ssize_t)da.pos);
else
ret = (Status)bytes_written;
}
ignore_result(da_free(&da));
return ret;
}
/**
* Return an unused directory, based on date and index (for example 2016-02-09_0001)
*/
OsPath createDateIndexSubdirectory(const OsPath& parentDir)
{
const std::time_t timestamp = std::time(nullptr);
const struct std::tm* now = std::localtime(×tamp);
// Two processes executing this simultaneously might attempt to create the same directory.
int tries = 0;
const int maxTries = 10;
int i = 0;
OsPath path;
char directory[256];
do
{
sprintf(directory, "%04d-%02d-%02d_%04d", now->tm_year+1900, now->tm_mon+1, now->tm_mday, ++i);
path = parentDir / CStr(directory);
if (DirectoryExists(path) || FileExists(path))
continue;
if (CreateDirectories(path, 0700, ++tries > maxTries) == INFO::OK)
break;
} while(tries <= maxTries);
return path;
}
static size_t s_nextScreenshotNumber;
// identifies the file format that is to be written
// (case-insensitive). examples: "bmp", "png", "jpg".
// BMP is good for quick output at the expense of large files.
void WriteScreenshot(const VfsPath& extension)
{
// get next available numbered filename
// note: %04d -> always 4 digits, so sorting by filename works correctly.
const VfsPath basenameFormat(L"screenshots/screenshot%04d");
const VfsPath filenameFormat = basenameFormat.ChangeExtension(extension);
VfsPath filename;
vfs::NextNumberedFilename(g_VFS, filenameFormat, s_nextScreenshotNumber, filename);
const size_t w = (size_t)g_xres, h = (size_t)g_yres;
const size_t bpp = 24;
GLenum fmt = GL_RGB;
int flags = TEX_BOTTOM_UP;
// we want writing BMP to be as fast as possible,
// so read data from OpenGL in BMP format to obviate conversion.
if(extension == L".bmp")
{
#if !CONFIG2_GLES // GLES doesn't support BGR
fmt = GL_BGR;
flags |= TEX_BGR;
#endif
}
// Hide log messages and re-render
RenderLogger(false);
Render();
RenderLogger(true);
const size_t img_size = w * h * bpp/8;
const size_t hdr_size = tex_hdr_size(filename);
shared_ptr buf;
AllocateAligned(buf, hdr_size+img_size, maxSectorSize);
GLvoid* img = buf.get() + hdr_size;
Tex t;
if(t.wrap(w, h, bpp, flags, buf, hdr_size) < 0)
return;
glReadPixels(0, 0, (GLsizei)w, (GLsizei)h, fmt, GL_UNSIGNED_BYTE, img);
if (tex_write(&t, filename) == INFO::OK)
{
OsPath realPath;
g_VFS->GetRealPath(filename, realPath);
LOGMESSAGERENDER(g_L10n.Translate("Screenshot written to '%s'"), realPath.string8());
debug_printf(
CStr(g_L10n.Translate("Screenshot written to '%s'") + "\n").c_str(),
realPath.string8().c_str());
}
else
LOGERROR("Error writing screenshot to '%s'", filename.string8());
}
// Similar to WriteScreenshot, but generates an image of size 640*tiles x 480*tiles.
void WriteBigScreenshot(const VfsPath& extension, int tiles)
{
// If the game hasn't started yet then use WriteScreenshot to generate the image.
if(g_Game == NULL){ WriteScreenshot(L".bmp"); return; }
// get next available numbered filename
// note: %04d -> always 4 digits, so sorting by filename works correctly.
const VfsPath basenameFormat(L"screenshots/screenshot%04d");
const VfsPath filenameFormat = basenameFormat.ChangeExtension(extension);
VfsPath filename;
vfs::NextNumberedFilename(g_VFS, filenameFormat, s_nextScreenshotNumber, filename);
// Slightly ugly and inflexible: Always draw 640*480 tiles onto the screen, and
// hope the screen is actually large enough for that.
const int tile_w = 640, tile_h = 480;
ENSURE(g_xres >= tile_w && g_yres >= tile_h);
const int img_w = tile_w*tiles, img_h = tile_h*tiles;
const int bpp = 24;
GLenum fmt = GL_RGB;
int flags = TEX_BOTTOM_UP;
// we want writing BMP to be as fast as possible,
// so read data from OpenGL in BMP format to obviate conversion.
if(extension == L".bmp")
{
#if !CONFIG2_GLES // GLES doesn't support BGR
fmt = GL_BGR;
flags |= TEX_BGR;
#endif
}
const size_t img_size = img_w * img_h * bpp/8;
const size_t tile_size = tile_w * tile_h * bpp/8;
const size_t hdr_size = tex_hdr_size(filename);
void* tile_data = malloc(tile_size);
if(!tile_data)
{
WARN_IF_ERR(ERR::NO_MEM);
return;
}
shared_ptr img_buf;
AllocateAligned(img_buf, hdr_size+img_size, maxSectorSize);
Tex t;
GLvoid* img = img_buf.get() + hdr_size;
if(t.wrap(img_w, img_h, bpp, flags, img_buf, hdr_size) < 0)
{
free(tile_data);
return;
}
ogl_WarnIfError();
CCamera oldCamera = *g_Game->GetView()->GetCamera();
// Resize various things so that the sizes and aspect ratios are correct
{
g_Renderer.Resize(tile_w, tile_h);
SViewPort vp = { 0, 0, tile_w, tile_h };
g_Game->GetView()->SetViewport(vp);
}
#if !CONFIG2_GLES
// Temporarily move everything onto the front buffer, so the user can
// see the exciting progress as it renders (and can tell when it's finished).
// (It doesn't just use SwapBuffers, because it doesn't know whether to
// call the SDL version or the Atlas version.)
GLint oldReadBuffer, oldDrawBuffer;
glGetIntegerv(GL_READ_BUFFER, &oldReadBuffer);
glGetIntegerv(GL_DRAW_BUFFER, &oldDrawBuffer);
glDrawBuffer(GL_FRONT);
glReadBuffer(GL_FRONT);
#endif
// Hide the cursor
CStrW oldCursor = g_CursorName;
g_CursorName = L"";
// Render each tile
CMatrix3D projection;
projection.SetIdentity();
for (int tile_y = 0; tile_y < tiles; ++tile_y)
{
for (int tile_x = 0; tile_x < tiles; ++tile_x)
{
// Adjust the camera to render the appropriate region
if (oldCamera.GetProjectionType() == CCamera::PERSPECTIVE)
{
projection.SetPerspectiveTile(oldCamera.GetFOV(), oldCamera.GetAspectRatio(), oldCamera.GetNearPlane(), oldCamera.GetFarPlane(), tiles, tile_x, tile_y);
}
g_Game->GetView()->GetCamera()->SetProjection(projection);
RenderLogger(false);
RenderGui(false);
Render();
RenderGui(true);
RenderLogger(true);
// Copy the tile pixels into the main image
glReadPixels(0, 0, tile_w, tile_h, fmt, GL_UNSIGNED_BYTE, tile_data);
for (int y = 0; y < tile_h; ++y)
{
void* dest = (char*)img + ((tile_y*tile_h + y) * img_w + (tile_x*tile_w)) * bpp/8;
void* src = (char*)tile_data + y * tile_w * bpp/8;
memcpy(dest, src, tile_w * bpp/8);
}
}
}
// Restore the old cursor
g_CursorName = oldCursor;
#if !CONFIG2_GLES
// Restore the buffer settings
glDrawBuffer(oldDrawBuffer);
glReadBuffer(oldReadBuffer);
#endif
// Restore the viewport settings
{
g_Renderer.Resize(g_xres, g_yres);
SViewPort vp = { 0, 0, g_xres, g_yres };
g_Game->GetView()->SetViewport(vp);
g_Game->GetView()->GetCamera()->SetProjectionFromCamera(oldCamera);
}
if (tex_write(&t, filename) == INFO::OK)
{
OsPath realPath;
g_VFS->GetRealPath(filename, realPath);
LOGMESSAGERENDER(g_L10n.Translate("Screenshot written to '%s'"), realPath.string8());
debug_printf(
CStr(g_L10n.Translate("Screenshot written to '%s'") + "\n").c_str(),
realPath.string8().c_str());
}
else
LOGERROR("Error writing screenshot to '%s'", filename.string8());
free(tile_data);
}
std::string Hexify(const std::string& s)
{
std::stringstream str;
str << std::hex;
for (const char& c : s)
str << std::setfill('0') << std::setw(2) << static_cast(static_cast(c));
return str.str();
}
std::string Hexify(const u8* s, size_t length)
{
std::stringstream str;
str << std::hex;
for (size_t i = 0; i < length; ++i)
str << std::setfill('0') << std::setw(2) << static_cast(s[i]);
return str.str();
}
Index: ps/trunk/source/soundmanager/SoundManager.cpp
===================================================================
--- ps/trunk/source/soundmanager/SoundManager.cpp (revision 24550)
+++ ps/trunk/source/soundmanager/SoundManager.cpp (revision 24551)
@@ -1,867 +1,876 @@
/* Copyright (C) 2021 Wildfire Games.
* This file is part of 0 A.D.
*
* 0 A.D. is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* 0 A.D. is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with 0 A.D. If not, see .
*/
#include "precompiled.h"
#include "ISoundManager.h"
#include "SoundManager.h"
#include "data/SoundData.h"
#include "items/CBufferItem.h"
#include "items/CSoundItem.h"
#include "items/CStreamItem.h"
#include "lib/external_libraries/libsdl.h"
#include "ps/CLogger.h"
#include "ps/CStr.h"
#include "ps/ConfigDB.h"
#include "ps/Filesystem.h"
#include "ps/Profiler2.h"
#include "ps/Threading.h"
#include "ps/XML/Xeromyces.h"
#include
ISoundManager* g_SoundManager = NULL;
#define SOURCE_NUM 64
#if CONFIG2_AUDIO
class CSoundManagerWorker
{
NONCOPYABLE(CSoundManagerWorker);
public:
CSoundManagerWorker()
{
m_Items = new ItemsList;
m_DeadItems = new ItemsList;
m_Shutdown = false;
m_WorkerThread = std::thread(Threading::HandleExceptions::Wrapper, this);
}
~CSoundManagerWorker()
{
delete m_Items;
CleanupItems();
delete m_DeadItems;
}
bool Shutdown()
{
{
std::lock_guard lock(m_WorkerMutex);
m_Shutdown = true;
ItemsList::iterator lstr = m_Items->begin();
while (lstr != m_Items->end())
{
delete *lstr;
++lstr;
}
}
m_WorkerThread.join();
return true;
}
void addItem(ISoundItem* anItem)
{
std::lock_guard lock(m_WorkerMutex);
m_Items->push_back(anItem);
}
void CleanupItems()
{
std::lock_guard lock(m_DeadItemsMutex);
AL_CHECK;
ItemsList::iterator deadItems = m_DeadItems->begin();
while (deadItems != m_DeadItems->end())
{
delete *deadItems;
++deadItems;
AL_CHECK;
}
m_DeadItems->clear();
}
private:
static void RunThread(CSoundManagerWorker* data)
{
debug_SetThreadName("CSoundManagerWorker");
g_Profiler2.RegisterCurrentThread("soundmanager");
data->Run();
}
void Run()
{
while (true)
{
// Handle shutdown requests as soon as possible
if (GetShutdown())
return;
int pauseTime = 500;
if (g_SoundManager->InDistress())
pauseTime = 50;
{
std::lock_guard workerLock(m_WorkerMutex);
ItemsList::iterator lstr = m_Items->begin();
ItemsList* nextItemList = new ItemsList;
while (lstr != m_Items->end())
{
AL_CHECK;
if ((*lstr)->IdleTask())
{
if ((pauseTime == 500) && (*lstr)->IsFading())
pauseTime = 100;
nextItemList->push_back(*lstr);
}
else
{
std::lock_guard deadItemsLock(m_DeadItemsMutex);
m_DeadItems->push_back(*lstr);
}
++lstr;
AL_CHECK;
}
delete m_Items;
m_Items = nextItemList;
AL_CHECK;
}
SDL_Delay(pauseTime);
}
}
bool GetShutdown()
{
std::lock_guard lock(m_WorkerMutex);
return m_Shutdown;
}
private:
// Thread-related members:
std::thread m_WorkerThread;
std::mutex m_WorkerMutex;
std::mutex m_DeadItemsMutex;
// Shared by main thread and worker thread:
// These variables are all protected by a mutexes
ItemsList* m_Items;
ItemsList* m_DeadItems;
bool m_Shutdown;
CSoundManagerWorker(ISoundManager* UNUSED(other)){};
};
void ISoundManager::CreateSoundManager()
{
- if (!g_SoundManager)
+ if (g_SoundManager)
+ return;
+
+ ALCdevice* device = alcOpenDevice(nullptr);
+ if (!device)
{
- g_SoundManager = new CSoundManager();
- g_SoundManager->StartWorker();
+ LOGWARNING("No audio device was found.");
+ return;
}
+
+ g_SoundManager = new CSoundManager(device);
+ g_SoundManager->StartWorker();
}
void ISoundManager::SetEnabled(bool doEnable)
{
if (g_SoundManager && !doEnable)
SAFE_DELETE(g_SoundManager);
else if (!g_SoundManager && doEnable)
ISoundManager::CreateSoundManager();
}
void ISoundManager::CloseGame()
{
if (CSoundManager* aSndMgr = (CSoundManager*)g_SoundManager)
aSndMgr->SetAmbientItem(NULL);
}
void CSoundManager::al_ReportError(ALenum err, const char* caller, int line)
{
LOGERROR("OpenAL error: %s; called from %s (line %d)\n", alGetString(err), caller, line);
}
void CSoundManager::al_check(const char* caller, int line)
{
ALenum err = alGetError();
if (err != AL_NO_ERROR)
al_ReportError(err, caller, line);
}
Status CSoundManager::ReloadChangedFiles(const VfsPath& UNUSED(path))
{
// TODO implement sound file hotloading
return INFO::OK;
}
/*static*/ Status CSoundManager::ReloadChangedFileCB(void* param, const VfsPath& path)
{
return static_cast(param)->ReloadChangedFiles(path);
}
-CSoundManager::CSoundManager()
- : m_Context(nullptr), m_Device(nullptr), m_ALSourceBuffer(nullptr),
+CSoundManager::CSoundManager(ALCdevice* device)
+ : m_Context(nullptr), m_Device(device), m_ALSourceBuffer(nullptr),
m_CurrentTune(nullptr), m_CurrentEnvirons(nullptr),
m_Worker(nullptr), m_DistressMutex(), m_PlayListItems(nullptr), m_SoundGroups(),
m_Gain(.5f), m_MusicGain(.5f), m_AmbientGain(.5f), m_ActionGain(.5f), m_UIGain(.5f),
m_Enabled(false), m_BufferSize(98304), m_BufferCount(50),
m_SoundEnabled(true), m_MusicEnabled(true), m_MusicPaused(false),
m_AmbientPaused(false), m_ActionPaused(false),
m_RunningPlaylist(false), m_PlayingPlaylist(false), m_LoopingPlaylist(false),
m_PlaylistGap(0), m_DistressErrCount(0), m_DistressTime(0)
{
CFG_GET_VAL("sound.mastergain", m_Gain);
CFG_GET_VAL("sound.musicgain", m_MusicGain);
CFG_GET_VAL("sound.ambientgain", m_AmbientGain);
CFG_GET_VAL("sound.actiongain", m_ActionGain);
CFG_GET_VAL("sound.uigain", m_UIGain);
AlcInit();
if (m_Enabled)
{
SetMasterGain(m_Gain);
InitListener();
m_PlayListItems = new PlayList;
}
if (!CXeromyces::AddValidator(g_VFS, "sound_group", "audio/sound_group.rng"))
LOGERROR("CSoundManager: failed to load grammar file 'audio/sound_group.rng'");
RegisterFileReloadFunc(ReloadChangedFileCB, this);
RunHardwareDetection();
}
CSoundManager::~CSoundManager()
{
UnregisterFileReloadFunc(ReloadChangedFileCB, this);
if (m_Worker)
{
AL_CHECK;
m_Worker->Shutdown();
AL_CHECK;
m_Worker->CleanupItems();
AL_CHECK;
delete m_Worker;
}
AL_CHECK;
for (const std::pair& p : m_SoundGroups)
delete p.second;
m_SoundGroups.clear();
if (m_PlayListItems)
delete m_PlayListItems;
if (m_ALSourceBuffer != NULL)
delete[] m_ALSourceBuffer;
if (m_Context)
alcDestroyContext(m_Context);
if (m_Device)
alcCloseDevice(m_Device);
}
void CSoundManager::StartWorker()
{
if (m_Enabled)
m_Worker = new CSoundManagerWorker();
}
Status CSoundManager::AlcInit()
{
Status ret = INFO::OK;
- m_Device = alcOpenDevice(NULL);
+ if(!m_Device)
+ m_Device = alcOpenDevice(nullptr);
+
if (m_Device)
{
ALCint attribs[] = {ALC_STEREO_SOURCES, 16, 0};
m_Context = alcCreateContext(m_Device, &attribs[0]);
if (m_Context)
{
alcMakeContextCurrent(m_Context);
m_ALSourceBuffer = new ALSourceHolder[SOURCE_NUM];
ALuint* sourceList = new ALuint[SOURCE_NUM];
alGenSources(SOURCE_NUM, sourceList);
ALCenum err = alcGetError(m_Device);
if (err == ALC_NO_ERROR)
{
for (int x = 0; x < SOURCE_NUM; x++)
{
m_ALSourceBuffer[x].ALSource = sourceList[x];
m_ALSourceBuffer[x].SourceItem = NULL;
}
m_Enabled = true;
}
else
{
LOGERROR("error in gensource = %d", err);
}
delete[] sourceList;
}
}
// check if init succeeded.
// some OpenAL implementations don't indicate failure here correctly;
// we need to check if the device and context pointers are actually valid.
ALCenum err = alcGetError(m_Device);
const char* dev_name = (const char*)alcGetString(m_Device, ALC_DEVICE_SPECIFIER);
if (err == ALC_NO_ERROR && m_Device && m_Context)
debug_printf("Sound: AlcInit success, using %s\n", dev_name);
else
{
LOGERROR("Sound: AlcInit failed, m_Device=%p m_Context=%p dev_name=%s err=%x\n", (void *)m_Device, (void *)m_Context, dev_name, err);
// FIXME Hack to get around exclusive access to the sound device
#if OS_UNIX
ret = INFO::OK;
#else
ret = ERR::FAIL;
#endif // !OS_UNIX
}
return ret;
}
bool CSoundManager::InDistress()
{
std::lock_guard lock(m_DistressMutex);
if (m_DistressTime == 0)
return false;
else if ((timer_Time() - m_DistressTime) > 10)
{
m_DistressTime = 0;
// Coming out of distress mode
m_DistressErrCount = 0;
return false;
}
return true;
}
void CSoundManager::SetDistressThroughShortage()
{
std::lock_guard lock(m_DistressMutex);
// Going into distress for normal reasons
m_DistressTime = timer_Time();
}
void CSoundManager::SetDistressThroughError()
{
std::lock_guard lock(m_DistressMutex);
// Going into distress due to unknown error
m_DistressTime = timer_Time();
m_DistressErrCount++;
}
ALuint CSoundManager::GetALSource(ISoundItem* anItem)
{
for (int x = 0; x < SOURCE_NUM; x++)
{
if (!m_ALSourceBuffer[x].SourceItem)
{
m_ALSourceBuffer[x].SourceItem = anItem;
return m_ALSourceBuffer[x].ALSource;
}
}
SetDistressThroughShortage();
return 0;
}
void CSoundManager::ReleaseALSource(ALuint theSource)
{
for (int x = 0; x < SOURCE_NUM; x++)
{
if (m_ALSourceBuffer[x].ALSource == theSource)
{
m_ALSourceBuffer[x].SourceItem = NULL;
return;
}
}
}
long CSoundManager::GetBufferCount()
{
return m_BufferCount;
}
long CSoundManager::GetBufferSize()
{
return m_BufferSize;
}
void CSoundManager::AddPlayListItem(const VfsPath& itemPath)
{
if (m_Enabled)
m_PlayListItems->push_back(itemPath);
}
void CSoundManager::ClearPlayListItems()
{
if (m_Enabled)
{
if (m_PlayingPlaylist)
SetMusicItem(NULL);
m_PlayingPlaylist = false;
m_LoopingPlaylist = false;
m_RunningPlaylist = false;
m_PlayListItems->clear();
}
}
void CSoundManager::StartPlayList(bool doLoop)
{
if (m_Enabled && m_MusicEnabled)
{
if (m_PlayListItems->size() > 0)
{
m_PlayingPlaylist = true;
m_LoopingPlaylist = doLoop;
m_RunningPlaylist = false;
ISoundItem* aSnd = LoadItem((m_PlayListItems->at(0)));
if (aSnd)
SetMusicItem(aSnd);
else
SetMusicItem(NULL);
}
}
}
void CSoundManager::SetMasterGain(float gain)
{
if (m_Enabled)
{
m_Gain = gain;
alListenerf(AL_GAIN, m_Gain);
AL_CHECK;
}
}
void CSoundManager::SetMusicGain(float gain)
{
m_MusicGain = gain;
if (m_CurrentTune)
m_CurrentTune->SetGain(m_MusicGain);
}
void CSoundManager::SetAmbientGain(float gain)
{
m_AmbientGain = gain;
}
void CSoundManager::SetActionGain(float gain)
{
m_ActionGain = gain;
}
void CSoundManager::SetUIGain(float gain)
{
m_UIGain = gain;
}
ISoundItem* CSoundManager::LoadItem(const VfsPath& itemPath)
{
AL_CHECK;
if (m_Enabled)
{
CSoundData* itemData = CSoundData::SoundDataFromFile(itemPath);
AL_CHECK;
if (itemData)
return CSoundManager::ItemForData(itemData);
}
return NULL;
}
ISoundItem* CSoundManager::ItemForData(CSoundData* itemData)
{
AL_CHECK;
ISoundItem* answer = NULL;
AL_CHECK;
if (m_Enabled && (itemData != NULL))
{
if (itemData->IsOneShot())
{
if (itemData->GetBufferCount() == 1)
answer = new CSoundItem(itemData);
else
answer = new CBufferItem(itemData);
}
else
{
answer = new CStreamItem(itemData);
}
if (answer && m_Worker)
m_Worker->addItem(answer);
}
return answer;
}
void CSoundManager::IdleTask()
{
if (m_Enabled)
{
if (m_CurrentTune)
{
m_CurrentTune->EnsurePlay();
if (m_PlayingPlaylist && m_RunningPlaylist)
{
if (m_CurrentTune->Finished())
{
if (m_PlaylistGap == 0)
{
m_PlaylistGap = timer_Time() + 15;
}
else if (m_PlaylistGap < timer_Time())
{
m_PlaylistGap = 0;
PlayList::iterator it = find(m_PlayListItems->begin(), m_PlayListItems->end(), m_CurrentTune->GetName());
if (it != m_PlayListItems->end())
{
++it;
Path nextPath;
if (it == m_PlayListItems->end())
nextPath = m_PlayListItems->at(0);
else
nextPath = *it;
ISoundItem* aSnd = LoadItem(nextPath);
if (aSnd)
SetMusicItem(aSnd);
}
}
}
}
}
if (m_CurrentEnvirons)
m_CurrentEnvirons->EnsurePlay();
if (m_Worker)
m_Worker->CleanupItems();
}
}
ISoundItem* CSoundManager::ItemForEntity(entity_id_t UNUSED(source), CSoundData* sndData)
{
ISoundItem* currentItem = NULL;
if (m_Enabled)
currentItem = ItemForData(sndData);
return currentItem;
}
void CSoundManager::InitListener()
{
ALfloat listenerPos[] = {0.0, 0.0, 0.0};
ALfloat listenerVel[] = {0.0, 0.0, 0.0};
ALfloat listenerOri[] = {0.0, 0.0, -1.0, 0.0, 1.0, 0.0};
alListenerfv(AL_POSITION, listenerPos);
alListenerfv(AL_VELOCITY, listenerVel);
alListenerfv(AL_ORIENTATION, listenerOri);
alDistanceModel(AL_LINEAR_DISTANCE);
}
void CSoundManager::PlayGroupItem(ISoundItem* anItem, ALfloat groupGain)
{
if (anItem)
{
if (m_Enabled && (m_ActionGain > 0))
{
anItem->SetGain(m_ActionGain * groupGain);
anItem->PlayAndDelete();
AL_CHECK;
}
}
}
void CSoundManager::SetMusicEnabled(bool isEnabled)
{
if (m_CurrentTune && !isEnabled)
{
m_CurrentTune->FadeAndDelete(1.00);
m_CurrentTune = NULL;
}
m_MusicEnabled = isEnabled;
}
void CSoundManager::PlayAsGroup(const VfsPath& groupPath, const CVector3D& sourcePos, entity_id_t source, bool ownedSound)
{
// Make sure the sound group is loaded
CSoundGroup* group;
if (m_SoundGroups.find(groupPath.string()) == m_SoundGroups.end())
{
group = new CSoundGroup();
if (!group->LoadSoundGroup(L"audio/" + groupPath.string()))
{
LOGERROR("Failed to load sound group '%s'", groupPath.string8());
delete group;
group = NULL;
}
// Cache the sound group (or the null, if it failed)
m_SoundGroups[groupPath.string()] = group;
}
else
{
group = m_SoundGroups[groupPath.string()];
}
// Failed to load group -> do nothing
if (group && (ownedSound || !group->TestFlag(eOwnerOnly)))
group->PlayNext(sourcePos, source);
}
void CSoundManager::PlayAsMusic(const VfsPath& itemPath, bool looping)
{
if (m_Enabled)
{
UNUSED2(looping);
ISoundItem* aSnd = LoadItem(itemPath);
if (aSnd != NULL)
SetMusicItem(aSnd);
}
}
void CSoundManager::PlayAsAmbient(const VfsPath& itemPath, bool looping)
{
if (m_Enabled)
{
UNUSED2(looping);
ISoundItem* aSnd = LoadItem(itemPath);
if (aSnd != NULL)
SetAmbientItem(aSnd);
}
}
void CSoundManager::PlayAsUI(const VfsPath& itemPath, bool looping)
{
if (m_Enabled)
{
IdleTask();
if (ISoundItem* anItem = LoadItem(itemPath))
{
if (m_UIGain > 0)
{
anItem->SetGain(m_UIGain);
anItem->SetLooping(looping);
anItem->PlayAndDelete();
}
}
AL_CHECK;
}
}
void CSoundManager::Pause(bool pauseIt)
{
PauseMusic(pauseIt);
PauseAmbient(pauseIt);
PauseAction(pauseIt);
}
void CSoundManager::PauseMusic(bool pauseIt)
{
if (m_CurrentTune && pauseIt && !m_MusicPaused)
{
m_CurrentTune->FadeAndPause(1.0);
}
else if (m_CurrentTune && m_MusicPaused && !pauseIt && m_MusicEnabled)
{
m_CurrentTune->SetGain(0);
m_CurrentTune->Resume();
m_CurrentTune->FadeToIn(m_MusicGain, 1.0);
}
m_MusicPaused = pauseIt;
}
void CSoundManager::PauseAmbient(bool pauseIt)
{
if (m_CurrentEnvirons && pauseIt)
m_CurrentEnvirons->Pause();
else if (m_CurrentEnvirons)
m_CurrentEnvirons->Resume();
m_AmbientPaused = pauseIt;
}
void CSoundManager::PauseAction(bool pauseIt)
{
m_ActionPaused = pauseIt;
}
void CSoundManager::SetMusicItem(ISoundItem* anItem)
{
if (m_Enabled)
{
AL_CHECK;
if (m_CurrentTune)
{
m_CurrentTune->FadeAndDelete(2.00);
m_CurrentTune = NULL;
}
IdleTask();
if (anItem)
{
if (m_MusicEnabled)
{
m_CurrentTune = anItem;
m_CurrentTune->SetGain(0);
if (m_PlayingPlaylist)
{
m_RunningPlaylist = true;
m_CurrentTune->Play();
}
else
m_CurrentTune->PlayLoop();
m_MusicPaused = false;
m_CurrentTune->FadeToIn(m_MusicGain, 1.00);
}
else
{
anItem->StopAndDelete();
}
}
AL_CHECK;
}
}
void CSoundManager::SetAmbientItem(ISoundItem* anItem)
{
if (m_Enabled)
{
if (m_CurrentEnvirons)
{
m_CurrentEnvirons->FadeAndDelete(3.00);
m_CurrentEnvirons = NULL;
}
IdleTask();
if (anItem)
{
if (m_AmbientGain > 0)
{
m_CurrentEnvirons = anItem;
m_CurrentEnvirons->SetGain(0);
m_CurrentEnvirons->PlayLoop();
m_CurrentEnvirons->FadeToIn(m_AmbientGain, 2.00);
}
}
AL_CHECK;
}
}
void CSoundManager::RunHardwareDetection()
{
// OpenAL alGetString might not return anything interesting on certain platforms
// (see https://stackoverflow.com/questions/28960638 for an example).
// However our previous code supported only Windows, and alGetString does work on
// Windows, so this is an improvement.
// Sound cards
const ALCchar* devices = nullptr;
if (alcIsExtensionPresent(nullptr, "ALC_enumeration_EXT") == AL_TRUE)
{
if (alcIsExtensionPresent(nullptr, "ALC_enumerate_all_EXT") == AL_TRUE)
devices = alcGetString(nullptr, ALC_ALL_DEVICES_SPECIFIER);
else
devices = alcGetString(nullptr, ALC_DEVICE_SPECIFIER);
}
WARN_IF_FALSE(devices);
m_SoundCardNames.clear();
do
{
m_SoundCardNames += devices;
devices += strlen(devices) + 1;
m_SoundCardNames += "; ";
} while (*devices);
// Driver version
const ALCchar* al_version = alGetString(AL_VERSION);
if (al_version)
m_OpenALVersion = al_version;
}
CStr8 CSoundManager::GetOpenALVersion() const
{
return m_OpenALVersion;
}
CStr8 CSoundManager::GetSoundCardNames() const
{
return m_SoundCardNames;
}
#else // CONFIG2_AUDIO
void ISoundManager::CreateSoundManager(){}
void ISoundManager::SetEnabled(bool UNUSED(doEnable)){}
void ISoundManager::CloseGame(){}
void ISoundManager::RunHardwareDetection() {}
CStr8 ISoundManager::GetSoundCardNames() const { return CStr8(); };
CStr8 ISoundManager::GetOpenALVersion() const { return CStr8(); };
#endif // CONFIG2_AUDIO
Index: ps/trunk/source/soundmanager/SoundManager.h
===================================================================
--- ps/trunk/source/soundmanager/SoundManager.h (revision 24550)
+++ ps/trunk/source/soundmanager/SoundManager.h (revision 24551)
@@ -1,185 +1,185 @@
-/* Copyright (C) 2020 Wildfire Games.
+/* Copyright (C) 2021 Wildfire Games.
* This file is part of 0 A.D.
*
* 0 A.D. is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* 0 A.D. is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with 0 A.D. If not, see .
*/
#ifndef INCLUDED_SOUNDMANAGER_H
#define INCLUDED_SOUNDMANAGER_H
#include "lib/config2.h"
#if CONFIG2_AUDIO
#include "ISoundManager.h"
#include "data/SoundData.h"
#include "items/ISoundItem.h"
#include "scripting/SoundGroup.h"
#include "lib/external_libraries/openal.h"
#include "lib/file/vfs/vfs_path.h"
#include "ps/Profiler2.h"
#include "simulation2/system/Entity.h"
#include