Misc: Mark core strings for translation

This commit is contained in:
Stenzek 2023-06-19 20:27:34 +10:00 committed by Connor McLaughlin
parent f7bc05c735
commit c06bc16b22
26 changed files with 875 additions and 652 deletions

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@ -1053,23 +1053,23 @@ void Achievements::DisplayAchievementSummary()
{ {
std::string title = s_game_title; std::string title = s_game_title;
if (ChallengeModeActive()) if (ChallengeModeActive())
title += " (Hardcore Mode)"; title += TRANSLATE_SV("Achievements", " (Hardcore Mode)");
std::string summary; std::string summary;
if (GetAchievementCount() > 0) if (GetAchievementCount() > 0)
{ {
summary = StringUtil::StdStringFromFormat("You have earned %u of %u achievements, and %u of %u points.", summary = fmt::format(TRANSLATE_SV("Achievements", "You have earned {0} of {1} achievements, and {2} of {3} points."),
GetUnlockedAchiementCount(), GetAchievementCount(), GetCurrentPointsForGame(), GetMaximumPointsForGame()); GetUnlockedAchiementCount(), GetAchievementCount(), GetCurrentPointsForGame(), GetMaximumPointsForGame());
} }
else else
{ {
summary = "This game has no achievements."; summary = TRANSLATE_SV("Achievements", "This game has no achievements.");
} }
if (GetLeaderboardCount() > 0) if (GetLeaderboardCount() > 0)
{ {
summary.push_back('\n'); summary.push_back('\n');
if (LeaderboardsActive()) if (LeaderboardsActive())
summary.append("Leaderboard submission is enabled."); summary.append(TRANSLATE_SV("Achievements", "Leaderboard submission is enabled."));
} }
GetMTGS().RunOnGSThread([title = std::move(title), summary = std::move(summary), icon = s_game_icon]() { GetMTGS().RunOnGSThread([title = std::move(title), summary = std::move(summary), icon = s_game_icon]() {
@ -1505,7 +1505,8 @@ void Achievements::GameChanged(u32 disc_crc, u32 crc)
// when we're booting the bios, or shutting down, this will fail // when we're booting the bios, or shutting down, this will fail
if (disc_crc != 0) if (disc_crc != 0)
{ {
Host::AddKeyedOSDMessage("retroachievements_disc_read_failed", "Failed to read executable from disc. Achievements disabled.", Host::AddKeyedOSDMessage("retroachievements_disc_read_failed",
TRANSLATE_STR("Achievements", "Failed to read executable from disc. Achievements disabled."),
Host::OSD_CRITICAL_ERROR_DURATION); Host::OSD_CRITICAL_ERROR_DURATION);
} }

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@ -314,7 +314,10 @@ void CDVDsys_SetFile(CDVD_SourceType srctype, std::string newfile)
const auto driveType = GetDriveType(StringUtil::UTF8StringToWideString(root).c_str()); const auto driveType = GetDriveType(StringUtil::UTF8StringToWideString(root).c_str());
if (driveType == DRIVE_REMOVABLE) if (driveType == DRIVE_REMOVABLE)
{ {
Host::AddIconOSDMessage("RemovableDriveWarning", ICON_FA_EXCLAMATION_TRIANGLE, "Game disc location is on a removable drive, performance issues such as jittering and freezing may occur.", Host::OSD_WARNING_DURATION); Host::AddIconOSDMessage("RemovableDriveWarning", ICON_FA_EXCLAMATION_TRIANGLE,
TRANSLATE_SV("CDVD", "Game disc location is on a removable drive, performance issues such as jittering "
"and freezing may occur."),
Host::OSD_WARNING_DURATION);
} }
} }
#endif #endif
@ -421,7 +424,8 @@ bool DoCDVDopen()
cdvdTD td; cdvdTD td;
CDVD->getTD(0, &td); CDVD->getTD(0, &td);
Host::AddKeyedOSDMessage("BlockDumpCreate", fmt::format("Saving CDVD block dump to '{}'.", temp), Host::OSD_INFO_DURATION); Host::AddKeyedOSDMessage("BlockDumpCreate",
fmt::format(TRANSLATE_SV("CDVD", "Saving CDVD block dump to '{}'."), temp), Host::OSD_INFO_DURATION);
if (blockDumpFile.Create(std::move(temp), 2)) if (blockDumpFile.Create(std::move(temp), 2))
{ {

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@ -265,8 +265,9 @@ bool GSreopen(bool recreate_device, bool recreate_renderer, const Pcsx2Config::G
if (!OpenGSDevice(GSConfig.Renderer, false, recreate_window) || if (!OpenGSDevice(GSConfig.Renderer, false, recreate_window) ||
(recreate_renderer && !OpenGSRenderer(GSConfig.Renderer, basemem))) (recreate_renderer && !OpenGSRenderer(GSConfig.Renderer, basemem)))
{ {
Host::AddKeyedOSDMessage( Host::AddKeyedOSDMessage("GSReopenFailed",
"GSReopenFailed", "Failed to reopen, restoring old configuration.", Host::OSD_CRITICAL_ERROR_DURATION); TRANSLATE_STR("GS", "Failed to reopen, restoring old configuration."),
Host::OSD_CRITICAL_ERROR_DURATION);
CloseGSDevice(false); CloseGSDevice(false);
@ -965,7 +966,8 @@ void GSFreeWrappedMemory(void* ptr, size_t size, size_t repeat)
static void HotkeyAdjustUpscaleMultiplier(s32 delta) static void HotkeyAdjustUpscaleMultiplier(s32 delta)
{ {
const u32 new_multiplier = static_cast<u32>(std::clamp(static_cast<s32>(EmuConfig.GS.UpscaleMultiplier) + delta, 1, 8)); const u32 new_multiplier = static_cast<u32>(std::clamp(static_cast<s32>(EmuConfig.GS.UpscaleMultiplier) + delta, 1, 8));
Host::AddKeyedFormattedOSDMessage("UpscaleMultiplierChanged", Host::OSD_QUICK_DURATION, "Upscale multiplier set to %ux.", new_multiplier); Host::AddKeyedOSDMessage("UpscaleMultiplierChanged",
fmt::format(TRANSLATE_SV("GS", "Upscale multiplier set to {}x."), new_multiplier), Host::OSD_QUICK_DURATION);
EmuConfig.GS.UpscaleMultiplier = new_multiplier; EmuConfig.GS.UpscaleMultiplier = new_multiplier;
// this is pretty slow. we only really need to flush the TC and recompile shaders. // this is pretty slow. we only really need to flush the TC and recompile shaders.
@ -973,16 +975,16 @@ static void HotkeyAdjustUpscaleMultiplier(s32 delta)
GetMTGS().ApplySettings(); GetMTGS().ApplySettings();
} }
BEGIN_HOTKEY_LIST(g_gs_hotkeys) BEGIN_HOTKEY_LIST(g_gs_hotkeys){"Screenshot", TRANSLATE_NOOP("Hotkeys", "Graphics"),
{"Screenshot", "Graphics", "Save Screenshot", [](s32 pressed) { TRANSLATE_NOOP("Hotkeys", "Save Screenshot"),
[](s32 pressed) {
if (!pressed) if (!pressed)
{ {
GetMTGS().RunOnGSThread([]() { GetMTGS().RunOnGSThread([]() { GSQueueSnapshot(std::string(), 0); });
GSQueueSnapshot(std::string(), 0);
});
} }
}}, }},
{"ToggleVideoCapture", "Graphics", "Toggle Video Capture", [](s32 pressed) { {"ToggleVideoCapture", TRANSLATE_NOOP("Hotkeys", "Graphics"), TRANSLATE_NOOP("Hotkeys", "Toggle Video Capture"),
[](s32 pressed) {
if (!pressed) if (!pressed)
{ {
if (GSCapture::IsCapturing()) if (GSCapture::IsCapturing())
@ -1001,15 +1003,15 @@ BEGIN_HOTKEY_LIST(g_gs_hotkeys)
GetMTGS().WaitGS(false, false, false); GetMTGS().WaitGS(false, false, false);
} }
}}, }},
{"GSDumpSingleFrame", "Graphics", "Save Single Frame GS Dump", [](s32 pressed) { {"GSDumpSingleFrame", TRANSLATE_NOOP("Hotkeys", "Graphics"), TRANSLATE_NOOP("Hotkeys", "Save Single Frame GS Dump"),
[](s32 pressed) {
if (!pressed) if (!pressed)
{ {
GetMTGS().RunOnGSThread([]() { GetMTGS().RunOnGSThread([]() { GSQueueSnapshot(std::string(), 1); });
GSQueueSnapshot(std::string(), 1);
});
} }
}}, }},
{"GSDumpMultiFrame", "Graphics", "Save Multi Frame GS Dump", [](s32 pressed) { {"GSDumpMultiFrame", TRANSLATE_NOOP("Hotkeys", "Graphics"), TRANSLATE_NOOP("Hotkeys", "Save Multi Frame GS Dump"),
[](s32 pressed) {
GetMTGS().RunOnGSThread([pressed]() { GetMTGS().RunOnGSThread([pressed]() {
if (pressed > 0) if (pressed > 0)
GSQueueSnapshot(std::string(), std::numeric_limits<u32>::max()); GSQueueSnapshot(std::string(), std::numeric_limits<u32>::max());
@ -1017,35 +1019,52 @@ BEGIN_HOTKEY_LIST(g_gs_hotkeys)
GSStopGSDump(); GSStopGSDump();
}); });
}}, }},
{"ToggleSoftwareRendering", "Graphics", "Toggle Software Rendering", [](s32 pressed) { {"ToggleSoftwareRendering", TRANSLATE_NOOP("Hotkeys", "Graphics"),
TRANSLATE_NOOP("Hotkeys", "Toggle Software Rendering"),
[](s32 pressed) {
if (!pressed) if (!pressed)
GetMTGS().ToggleSoftwareRendering(); GetMTGS().ToggleSoftwareRendering();
}}, }},
{"IncreaseUpscaleMultiplier", "Graphics", "Increase Upscale Multiplier", [](s32 pressed) { {"IncreaseUpscaleMultiplier", TRANSLATE_NOOP("Hotkeys", "Graphics"),
TRANSLATE_NOOP("Hotkeys", "Increase Upscale Multiplier"),
[](s32 pressed) {
if (!pressed) if (!pressed)
HotkeyAdjustUpscaleMultiplier(1); HotkeyAdjustUpscaleMultiplier(1);
}}, }},
{"DecreaseUpscaleMultiplier", "Graphics", "Decrease Upscale Multiplier", [](s32 pressed) { {"DecreaseUpscaleMultiplier", TRANSLATE_NOOP("Hotkeys", "Graphics"),
TRANSLATE_NOOP("Hotkeys", "Decrease Upscale Multiplier"),
[](s32 pressed) {
if (!pressed) if (!pressed)
HotkeyAdjustUpscaleMultiplier(-1); HotkeyAdjustUpscaleMultiplier(-1);
}}, }},
{"CycleAspectRatio", "Graphics", "Cycle Aspect Ratio", [](s32 pressed) { {"CycleAspectRatio", TRANSLATE_NOOP("Hotkeys", "Graphics"), TRANSLATE_NOOP("Hotkeys", "Cycle Aspect Ratio"),
[](s32 pressed) {
if (pressed) if (pressed)
return; return;
// technically this races, but the worst that'll happen is one frame uses the old AR. // technically this races, but the worst that'll happen is one frame uses the old AR.
EmuConfig.CurrentAspectRatio = static_cast<AspectRatioType>((static_cast<int>(EmuConfig.CurrentAspectRatio) + 1) % static_cast<int>(AspectRatioType::MaxCount)); EmuConfig.CurrentAspectRatio = static_cast<AspectRatioType>(
Host::AddKeyedFormattedOSDMessage("CycleAspectRatio", Host::OSD_QUICK_DURATION, "Aspect ratio set to '%s'.", Pcsx2Config::GSOptions::AspectRatioNames[static_cast<int>(EmuConfig.CurrentAspectRatio)]); (static_cast<int>(EmuConfig.CurrentAspectRatio) + 1) % static_cast<int>(AspectRatioType::MaxCount));
Host::AddKeyedOSDMessage("CycleAspectRatio",
fmt::format(TRANSLATE_SV("Hotkeys", "Aspect ratio set to '{}'."),
Pcsx2Config::GSOptions::AspectRatioNames[static_cast<int>(EmuConfig.CurrentAspectRatio)]),
Host::OSD_QUICK_DURATION);
}}, }},
{"CycleMipmapMode", "Graphics", "Cycle Hardware Mipmapping", [](s32 pressed) { {"CycleMipmapMode", TRANSLATE_NOOP("Hotkeys", "Graphics"), TRANSLATE_NOOP("Hotkeys", "Cycle Hardware Mipmapping"),
[](s32 pressed) {
if (pressed) if (pressed)
return; return;
static constexpr s32 CYCLE_COUNT = 4; static constexpr s32 CYCLE_COUNT = 4;
static constexpr std::array<const char*, CYCLE_COUNT> option_names = {{"Automatic", "Off", "Basic (Generated)", "Full (PS2)"}}; static constexpr std::array<const char*, CYCLE_COUNT> option_names = {
{"Automatic", "Off", "Basic (Generated)", "Full (PS2)"}};
const HWMipmapLevel new_level = static_cast<HWMipmapLevel>(((static_cast<s32>(EmuConfig.GS.HWMipmap) + 2) % CYCLE_COUNT) - 1); const HWMipmapLevel new_level =
Host::AddKeyedFormattedOSDMessage("CycleMipmapMode", Host::OSD_QUICK_DURATION, "Hardware mipmapping set to '%s'.", option_names[static_cast<s32>(new_level) + 1]); static_cast<HWMipmapLevel>(((static_cast<s32>(EmuConfig.GS.HWMipmap) + 2) % CYCLE_COUNT) - 1);
Host::AddKeyedOSDMessage("CycleMipmapMode",
fmt::format(TRANSLATE_SV("Hotkeys", "Hardware mipmapping set to '{}'."),
option_names[static_cast<s32>(new_level) + 1]),
Host::OSD_QUICK_DURATION);
EmuConfig.GS.HWMipmap = new_level; EmuConfig.GS.HWMipmap = new_level;
GetMTGS().RunOnGSThread([new_level]() { GetMTGS().RunOnGSThread([new_level]() {
@ -1054,7 +1073,8 @@ BEGIN_HOTKEY_LIST(g_gs_hotkeys)
g_gs_renderer->PurgePool(); g_gs_renderer->PurgePool();
}); });
}}, }},
{"CycleInterlaceMode", "Graphics", "Cycle Deinterlace Mode", [](s32 pressed) { {"CycleInterlaceMode", TRANSLATE_NOOP("Hotkeys", "Graphics"), TRANSLATE_NOOP("Hotkeys", "Cycle Deinterlace Mode"),
[](s32 pressed) {
if (pressed) if (pressed)
return; return;
@ -1071,45 +1091,57 @@ BEGIN_HOTKEY_LIST(g_gs_hotkeys)
"Adaptive (Bottom Field First)", "Adaptive (Bottom Field First)",
}}; }};
const GSInterlaceMode new_mode = static_cast<GSInterlaceMode>((static_cast<s32>(EmuConfig.GS.InterlaceMode) + 1) % static_cast<s32>(GSInterlaceMode::Count)); const GSInterlaceMode new_mode = static_cast<GSInterlaceMode>(
Host::AddKeyedFormattedOSDMessage("CycleInterlaceMode", Host::OSD_QUICK_DURATION, "Deinterlace mode set to '%s'.", option_names[static_cast<s32>(new_mode)]); (static_cast<s32>(EmuConfig.GS.InterlaceMode) + 1) % static_cast<s32>(GSInterlaceMode::Count));
Host::AddKeyedOSDMessage("CycleInterlaceMode",
fmt::format(
TRANSLATE_SV("Hotkeys", "Deinterlace mode set to '{}'."), option_names[static_cast<s32>(new_mode)]),
Host::OSD_QUICK_DURATION);
EmuConfig.GS.InterlaceMode = new_mode; EmuConfig.GS.InterlaceMode = new_mode;
GetMTGS().RunOnGSThread([new_mode]() { GSConfig.InterlaceMode = new_mode; }); GetMTGS().RunOnGSThread([new_mode]() { GSConfig.InterlaceMode = new_mode; });
}}, }},
{"ToggleTextureDumping", "Graphics", "Toggle Texture Dumping", [](s32 pressed) { {"ToggleTextureDumping", TRANSLATE_NOOP("Hotkeys", "Graphics"), TRANSLATE_NOOP("Hotkeys", "Toggle Texture Dumping"),
[](s32 pressed) {
if (!pressed) if (!pressed)
{ {
EmuConfig.GS.DumpReplaceableTextures = !EmuConfig.GS.DumpReplaceableTextures; EmuConfig.GS.DumpReplaceableTextures = !EmuConfig.GS.DumpReplaceableTextures;
Host::AddKeyedOSDMessage("ToggleTextureReplacements", Host::AddKeyedOSDMessage("ToggleTextureReplacements",
EmuConfig.GS.DumpReplaceableTextures ? "Texture dumping is now enabled." : "Texture dumping is now disabled.", EmuConfig.GS.DumpReplaceableTextures ? TRANSLATE_STR("Hotkeys", "Texture dumping is now enabled.") :
TRANSLATE_STR("Hotkeys", "Texture dumping is now disabled."),
Host::OSD_INFO_DURATION); Host::OSD_INFO_DURATION);
GetMTGS().ApplySettings(); GetMTGS().ApplySettings();
} }
}}, }},
{"ToggleTextureReplacements", "Graphics", "Toggle Texture Replacements", [](s32 pressed) { {"ToggleTextureReplacements", TRANSLATE_NOOP("Hotkeys", "Graphics"),
TRANSLATE_NOOP("Hotkeys", "Toggle Texture Replacements"),
[](s32 pressed) {
if (!pressed) if (!pressed)
{ {
EmuConfig.GS.LoadTextureReplacements = !EmuConfig.GS.LoadTextureReplacements; EmuConfig.GS.LoadTextureReplacements = !EmuConfig.GS.LoadTextureReplacements;
Host::AddKeyedOSDMessage("ToggleTextureReplacements", Host::AddKeyedOSDMessage("ToggleTextureReplacements",
EmuConfig.GS.LoadTextureReplacements ? "Texture replacements are now enabled." : "Texture replacements are now disabled.", EmuConfig.GS.LoadTextureReplacements ?
TRANSLATE_STR("Hotkeys", "Texture replacements are now enabled.") :
TRANSLATE_STR("Hotkeys", "Texture replacements are now disabled."),
Host::OSD_INFO_DURATION); Host::OSD_INFO_DURATION);
GetMTGS().ApplySettings(); GetMTGS().ApplySettings();
} }
}}, }},
{"ReloadTextureReplacements", "Graphics", "Reload Texture Replacements", [](s32 pressed) { {"ReloadTextureReplacements", TRANSLATE_NOOP("Hotkeys", "Graphics"),
TRANSLATE_NOOP("Hotkeys", "Reload Texture Replacements"),
[](s32 pressed) {
if (!pressed) if (!pressed)
{ {
if (!EmuConfig.GS.LoadTextureReplacements) if (!EmuConfig.GS.LoadTextureReplacements)
{ {
Host::AddKeyedOSDMessage("ReloadTextureReplacements", "Texture replacements are not enabled.", Host::OSD_INFO_DURATION); Host::AddKeyedOSDMessage("ReloadTextureReplacements",
TRANSLATE_STR("Hotkeys", "Texture replacements are not enabled."), Host::OSD_INFO_DURATION);
} }
else else
{ {
Host::AddKeyedOSDMessage("ReloadTextureReplacements", "Reloading texture replacements...", Host::OSD_INFO_DURATION); Host::AddKeyedOSDMessage("ReloadTextureReplacements",
GetMTGS().RunOnGSThread([]() { TRANSLATE_STR("Hotkeys", "Reloading texture replacements..."), Host::OSD_INFO_DURATION);
GSTextureReplacements::ReloadReplacementMap(); GetMTGS().RunOnGSThread([]() { GSTextureReplacements::ReloadReplacementMap(); });
});
} }
} }
}}, }},

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@ -426,21 +426,29 @@ static void CompressAndWriteScreenshot(std::string filename, u32 width, u32 heig
std::string key(fmt::format("GSScreenshot_{}", filename)); std::string key(fmt::format("GSScreenshot_{}", filename));
if (!GSDumpReplayer::IsRunner()) if (!GSDumpReplayer::IsRunner())
Host::AddIconOSDMessage(key, ICON_FA_CAMERA, fmt::format("Saving screenshot to '{}'.", Path::GetFileName(filename)), 60.0f); {
Host::AddIconOSDMessage(key, ICON_FA_CAMERA,
fmt::format(TRANSLATE_SV("GS", "Saving screenshot to '{}'."), Path::GetFileName(filename)), 60.0f);
}
// maybe std::async would be better here.. but it's definitely worth threading, large screenshots take a while to compress. // maybe std::async would be better here.. but it's definitely worth threading, large screenshots take a while to compress.
std::unique_lock lock(s_screenshot_threads_mutex); std::unique_lock lock(s_screenshot_threads_mutex);
s_screenshot_threads.emplace_back([key = std::move(key), filename = std::move(filename), image = std::move(image), quality = GSConfig.ScreenshotQuality]() { s_screenshot_threads.emplace_back([key = std::move(key), filename = std::move(filename), image = std::move(image),
quality = GSConfig.ScreenshotQuality]() {
if (image.SaveToFile(filename.c_str(), quality)) if (image.SaveToFile(filename.c_str(), quality))
{ {
if (!GSDumpReplayer::IsRunner()) if (!GSDumpReplayer::IsRunner())
{
Host::AddIconOSDMessage(std::move(key), ICON_FA_CAMERA, Host::AddIconOSDMessage(std::move(key), ICON_FA_CAMERA,
fmt::format("Saved screenshot to '{}'.", Path::GetFileName(filename)), Host::OSD_INFO_DURATION); fmt::format(TRANSLATE_SV("GS", "Saved screenshot to '{}'."), Path::GetFileName(filename)),
Host::OSD_INFO_DURATION);
}
} }
else else
{ {
Host::AddIconOSDMessage(std::move(key), ICON_FA_CAMERA, Host::AddIconOSDMessage(std::move(key), ICON_FA_CAMERA,
fmt::format("Failed to save screenshot to '{}'.", Path::GetFileName(filename), Host::OSD_ERROR_DURATION)); fmt::format(TRANSLATE_SV("GS", "Failed to save screenshot to '{}'."), Path::GetFileName(filename),
Host::OSD_ERROR_DURATION));
} }
// remove ourselves from the list, if the GS thread is waiting for us, we won't be in there // remove ourselves from the list, if the GS thread is waiting for us, we won't be in there
@ -510,7 +518,7 @@ bool GSRenderer::BeginPresentFrame(bool frame_skip)
// First frame after reopening is definitely going to be trash, so skip it. // First frame after reopening is definitely going to be trash, so skip it.
Host::AddIconOSDMessage("GSDeviceLost", ICON_FA_EXCLAMATION_TRIANGLE, Host::AddIconOSDMessage("GSDeviceLost", ICON_FA_EXCLAMATION_TRIANGLE,
"Host GPU device encountered an error and was recovered. This may have broken rendering.", TRANSLATE_SV("GS", "Host GPU device encountered an error and was recovered. This may have broken rendering."),
Host::OSD_CRITICAL_ERROR_DURATION); Host::OSD_CRITICAL_ERROR_DURATION);
return false; return false;
} }
@ -614,7 +622,9 @@ void GSRenderer::VSync(u32 field, bool registers_written, bool idle_frame)
else if (!cas_log_once) else if (!cas_log_once)
{ {
Host::AddIconOSDMessage("CASUnsupported", ICON_FA_EXCLAMATION_TRIANGLE, Host::AddIconOSDMessage("CASUnsupported", ICON_FA_EXCLAMATION_TRIANGLE,
"CAS is not available, your graphics driver does not support the required functionality.", 10.0f); TRANSLATE_SV("GS",
"CAS is not available, your graphics driver does not support the required functionality."),
10.0f);
cas_log_once = true; cas_log_once = true;
} }
} }
@ -686,9 +696,11 @@ void GSRenderer::VSync(u32 field, bool registers_written, bool idle_frame)
delete[] fd.data; delete[] fd.data;
Host::AddKeyedOSDMessage("GSDump", fmt::format("Saving {0} GS dump {1} to '{2}'", Host::AddKeyedOSDMessage("GSDump",
fmt::format(TRANSLATE_SV("GS", "Saving {0} GS dump {1} to '{2}'"),
(m_dump_frames == 1) ? "single frame" : "multi-frame", compression_str, (m_dump_frames == 1) ? "single frame" : "multi-frame", compression_str,
Path::GetFileName(m_dump->GetPath())), Host::OSD_INFO_DURATION); Path::GetFileName(m_dump->GetPath())),
Host::OSD_INFO_DURATION);
} }
const bool internal_resolution = (GSConfig.ScreenshotSize >= GSScreenshotSize::InternalResolution); const bool internal_resolution = (GSConfig.ScreenshotSize >= GSScreenshotSize::InternalResolution);
@ -705,7 +717,8 @@ void GSRenderer::VSync(u32 field, bool registers_written, bool idle_frame)
} }
else else
{ {
Host::AddIconOSDMessage("GSScreenshot", ICON_FA_CAMERA, "Failed to render/download screenshot.", Host::OSD_ERROR_DURATION); Host::AddIconOSDMessage("GSScreenshot", ICON_FA_CAMERA,
TRANSLATE_SV("GS", "Failed to render/download screenshot."), Host::OSD_ERROR_DURATION);
} }
m_snapshot = {}; m_snapshot = {};
@ -715,7 +728,9 @@ void GSRenderer::VSync(u32 field, bool registers_written, bool idle_frame)
const bool last = (m_dump_frames == 0); const bool last = (m_dump_frames == 0);
if (m_dump->VSync(field, last, m_regs)) if (m_dump->VSync(field, last, m_regs))
{ {
Host::AddKeyedOSDMessage("GSDump", fmt::format("Saved GS dump to '{}'.", Path::GetFileName(m_dump->GetPath())), Host::OSD_INFO_DURATION); Host::AddKeyedOSDMessage("GSDump",
fmt::format(TRANSLATE_SV("GS", "Saved GS dump to '{}'."), Path::GetFileName(m_dump->GetPath())),
Host::OSD_INFO_DURATION);
m_dump.reset(); m_dump.reset();
} }
else if (!last) else if (!last)

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@ -151,8 +151,10 @@ void GSRendererHW::VSync(u32 field, bool registers_written, bool idle_frame)
if (g_texture_cache->GetHashCacheMemoryUsage() > 1024 * 1024 * 1024) if (g_texture_cache->GetHashCacheMemoryUsage() > 1024 * 1024 * 1024)
{ {
Host::AddKeyedFormattedOSDMessage("HashCacheOverflow", Host::OSD_ERROR_DURATION, "Hash cache has used %.2f MB of VRAM, disabling.", Host::AddKeyedOSDMessage("HashCacheOverflow",
static_cast<float>(g_texture_cache->GetHashCacheMemoryUsage()) / 1048576.0f); fmt::format(TRANSLATE_SV("GS", "Hash cache has used {:.2f} MB of VRAM, disabling."),
static_cast<float>(g_texture_cache->GetHashCacheMemoryUsage()) / 1048576.0f),
Host::OSD_ERROR_DURATION);
g_texture_cache->RemoveAll(); g_texture_cache->RemoveAll();
g_gs_device->PurgePool(); g_gs_device->PurgePool();
GSConfig.TexturePreloading = TexturePreloadingLevel::Partial; GSConfig.TexturePreloading = TexturePreloadingLevel::Partial;

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@ -575,10 +575,11 @@ GSTexture* GSTextureReplacements::CreateReplacementTexture(const ReplacementText
static bool log_once = false; static bool log_once = false;
if (!log_once) if (!log_once)
{ {
static const char* message = Console.Warning("Disabling autogenerated mipmaps on one or more compressed replacement textures.");
"Disabling autogenerated mipmaps on one or more compressed replacement textures. Please generate mipmaps when compressing your textures."; Host::AddIconOSDMessage("DisablingReplacementAutoGeneratedMipmap", ICON_FA_EXCLAMATION_CIRCLE,
Console.Warning(message); TRANSLATE_SV("GS", "Disabling autogenerated mipmaps on one or more compressed replacement textures. "
Host::AddIconOSDMessage("DisablingReplacementAutoGeneratedMipmap", ICON_FA_EXCLAMATION_CIRCLE, message, Host::OSD_WARNING_DURATION); "Please generate mipmaps when compressing your textures."),
Host::OSD_WARNING_DURATION);
log_once = true; log_once = true;
} }

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@ -764,7 +764,7 @@ bool GSDeviceVK::CheckFeatures()
if (!m_features.texture_barrier && !m_features.stencil_buffer) if (!m_features.texture_barrier && !m_features.stencil_buffer)
{ {
Host::AddKeyedOSDMessage("GSDeviceVK_NoTextureBarrierOrStencilBuffer", Host::AddKeyedOSDMessage("GSDeviceVK_NoTextureBarrierOrStencilBuffer",
"Stencil buffers and texture barriers are both unavailable, this will break some graphical effects.", TRANSLATE_STR("GS", "Stencil buffers and texture barriers are both unavailable, this will break some graphical effects."),
Host::OSD_WARNING_DURATION); Host::OSD_WARNING_DURATION);
} }
@ -2939,7 +2939,8 @@ void GSDeviceVK::ExecuteCommandBufferForReadback()
{ {
m_warned_slow_spin = true; m_warned_slow_spin = true;
Host::AddKeyedOSDMessage("GSDeviceVK_NoCalibratedTimestamps", Host::AddKeyedOSDMessage("GSDeviceVK_NoCalibratedTimestamps",
"Spin GPU During Readbacks is enabled, but calibrated timestamps are unavailable. This might be really slow.", TRANSLATE_STR("GS", "Spin GPU During Readbacks is enabled, but calibrated timestamps are unavailable. "
"This might be really slow."),
Host::OSD_WARNING_DURATION); Host::OSD_WARNING_DURATION);
} }
} }

View File

@ -868,11 +868,14 @@ u32 GameDatabaseSchema::GameEntry::applyGSHardwareFixes(Pcsx2Config::GSOptions&
if (value >= 0 && value <= static_cast<int>(AccBlendLevel::Maximum) && static_cast<int>(EmuConfig.GS.AccurateBlendingUnit) < value) if (value >= 0 && value <= static_cast<int>(AccBlendLevel::Maximum) && static_cast<int>(EmuConfig.GS.AccurateBlendingUnit) < value)
{ {
Host::AddKeyedOSDMessage("HWBlendingWarning", Host::AddKeyedOSDMessage("HWBlendingWarning",
fmt::format(ICON_FA_PAINT_BRUSH " Current Blending Accuracy is {}.\n" fmt::format(TRANSLATE_SV("GameDatabase",
"Recommended Blending Accuracy for this game is {}.\n" "{0} Current Blending Accuracy is {1}.\n"
"Recommended Blending Accuracy for this game is {2}.\n"
"You can adjust the blending level in Game Properties to improve\n" "You can adjust the blending level in Game Properties to improve\n"
"graphical quality, but this will increase system requirements.", "graphical quality, but this will increase system requirements."),
Pcsx2Config::GSOptions::BlendingLevelNames[static_cast<int>(EmuConfig.GS.AccurateBlendingUnit)], ICON_FA_PAINT_BRUSH,
Pcsx2Config::GSOptions::BlendingLevelNames[static_cast<int>(
EmuConfig.GS.AccurateBlendingUnit)],
Pcsx2Config::GSOptions::BlendingLevelNames[value]), Pcsx2Config::GSOptions::BlendingLevelNames[value]),
Host::OSD_WARNING_DURATION); Host::OSD_WARNING_DURATION);
} }
@ -905,8 +908,9 @@ u32 GameDatabaseSchema::GameEntry::applyGSHardwareFixes(Pcsx2Config::GSOptions&
if (!disabled_fixes.empty()) if (!disabled_fixes.empty())
{ {
Host::AddKeyedOSDMessage("HWFixesWarning", Host::AddKeyedOSDMessage("HWFixesWarning",
fmt::format(ICON_FA_MAGIC " Manual GS hardware renderer fixes are enabled, automatic fixes were not applied:\n{}", fmt::format(ICON_FA_MAGIC " {}\n{}",
disabled_fixes), TRANSLATE_SV("Manual GS hardware renderer fixes are enabled, automatic fixes were not applied:",
disabled_fixes)),
Host::OSD_ERROR_DURATION); Host::OSD_ERROR_DURATION);
} }
else else

View File

@ -45,7 +45,9 @@ static void HotkeyAdjustTargetSpeed(double delta)
EmuConfig.LimiterMode = LimiterModeType::Unlimited; // force update EmuConfig.LimiterMode = LimiterModeType::Unlimited; // force update
VMManager::SetLimiterMode(LimiterModeType::Nominal); VMManager::SetLimiterMode(LimiterModeType::Nominal);
Host::AddIconOSDMessage("SpeedChanged", ICON_FA_CLOCK, Host::AddIconOSDMessage("SpeedChanged", ICON_FA_CLOCK,
fmt::format("Target speed set to {:.0f}%.", std::round(EmuConfig.Framerate.NominalScalar * 100.0)), Host::OSD_QUICK_DURATION); fmt::format(TRANSLATE_SV("Hotkeys", "Target speed set to {:.0f}%."),
std::round(EmuConfig.Framerate.NominalScalar * 100.0)),
Host::OSD_QUICK_DURATION);
} }
static void HotkeyAdjustVolume(s32 fixed, s32 delta) static void HotkeyAdjustVolume(s32 fixed, s32 delta)
@ -54,18 +56,19 @@ static void HotkeyAdjustVolume(s32 fixed, s32 delta)
return; return;
const s32 current_vol = SPU2::GetOutputVolume(); const s32 current_vol = SPU2::GetOutputVolume();
const s32 new_volume = std::clamp((fixed >= 0) ? fixed : (current_vol + delta), 0, Pcsx2Config::SPU2Options::MAX_VOLUME); const s32 new_volume =
std::clamp((fixed >= 0) ? fixed : (current_vol + delta), 0, Pcsx2Config::SPU2Options::MAX_VOLUME);
if (current_vol != new_volume) if (current_vol != new_volume)
SPU2::SetOutputVolume(new_volume); SPU2::SetOutputVolume(new_volume);
if (new_volume == 0) if (new_volume == 0)
{ {
Host::AddIconOSDMessage("VolumeChanged", ICON_FA_VOLUME_MUTE, "Volume: Muted"); Host::AddIconOSDMessage("VolumeChanged", ICON_FA_VOLUME_MUTE, TRANSLATE_STR("Hotkeys", "Volume: Muted"));
} }
else else
{ {
Host::AddIconOSDMessage( Host::AddIconOSDMessage("VolumeChanged", (current_vol < new_volume) ? ICON_FA_VOLUME_UP : ICON_FA_VOLUME_DOWN,
"VolumeChanged", (current_vol < new_volume) ? ICON_FA_VOLUME_UP : ICON_FA_VOLUME_DOWN, fmt::format("Volume: {}%", new_volume)); fmt::format(TRANSLATE_SV("Hotkeys", "Volume: {}%"), new_volume));
} }
} }
@ -99,11 +102,14 @@ static void HotkeyCycleSaveSlot(s32 delta)
date_buf[len - 1] = 0; date_buf[len - 1] = 0;
Host::AddIconOSDMessage("CycleSaveSlot", ICON_FA_SEARCH, Host::AddIconOSDMessage("CycleSaveSlot", ICON_FA_SEARCH,
fmt::format("Save slot {} selected (last save: {}).", s_current_save_slot, date_buf), Host::OSD_QUICK_DURATION); fmt::format(
TRANSLATE_SV("Hotkeys", "Save slot {} selected (last save: {})."), s_current_save_slot, date_buf),
Host::OSD_QUICK_DURATION);
} }
else else
{ {
Host::AddIconOSDMessage("CycleSaveSlot", ICON_FA_SEARCH, fmt::format("Save slot {} selected (no save yet).", s_current_save_slot), Host::AddIconOSDMessage("CycleSaveSlot", ICON_FA_SEARCH,
fmt::format(TRANSLATE_SV("Hotkeys", "Save slot {} selected (no save yet)."), s_current_save_slot),
Host::OSD_QUICK_DURATION); Host::OSD_QUICK_DURATION);
} }
} }
@ -114,8 +120,8 @@ static void HotkeyLoadStateSlot(s32 slot)
Host::RunOnCPUThread([slot]() { Host::RunOnCPUThread([slot]() {
if (!VMManager::HasSaveStateInSlot(VMManager::GetDiscSerial().c_str(), VMManager::GetDiscCRC(), slot)) if (!VMManager::HasSaveStateInSlot(VMManager::GetDiscSerial().c_str(), VMManager::GetDiscCRC(), slot))
{ {
Host::AddIconOSDMessage("LoadStateFromSlot", ICON_FA_EXCLAMATION_TRIANGLE, fmt::format("No save state found in slot {}.", slot), Host::AddIconOSDMessage("LoadStateFromSlot", ICON_FA_EXCLAMATION_TRIANGLE,
Host::OSD_INFO_DURATION); fmt::format(TRANSLATE_SV("Hotkeys", "No save state found in slot {}."), slot), Host::OSD_INFO_DURATION);
return; return;
} }
@ -129,54 +135,67 @@ static void HotkeySaveStateSlot(s32 slot)
} }
BEGIN_HOTKEY_LIST(g_common_hotkeys) BEGIN_HOTKEY_LIST(g_common_hotkeys)
DEFINE_HOTKEY("OpenPauseMenu", "System", "Open Pause Menu", [](s32 pressed) { DEFINE_HOTKEY("OpenPauseMenu", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Open Pause Menu"),
[](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
FullscreenUI::OpenPauseMenu(); FullscreenUI::OpenPauseMenu();
}) })
#ifdef ENABLE_ACHIEVEMENTS #ifdef ENABLE_ACHIEVEMENTS
DEFINE_HOTKEY("OpenAchievementsList", "System", "Open Achievements List", [](s32 pressed) { DEFINE_HOTKEY("OpenAchievementsList", TRANSLATE_NOOP("Hotkeys", "System"),
TRANSLATE_NOOP("Hotkeys", "Open Achievements List"), [](s32 pressed) {
if (!pressed) if (!pressed)
FullscreenUI::OpenAchievementsWindow(); FullscreenUI::OpenAchievementsWindow();
}) })
DEFINE_HOTKEY("OpenLeaderboardsList", "System", "Open Leaderboards List", [](s32 pressed) { DEFINE_HOTKEY("OpenLeaderboardsList", TRANSLATE_NOOP("Hotkeys", "System"),
TRANSLATE_NOOP("Hotkeys", "Open Leaderboards List"), [](s32 pressed) {
if (!pressed) if (!pressed)
FullscreenUI::OpenLeaderboardsWindow(); FullscreenUI::OpenLeaderboardsWindow();
}) })
#endif #endif
DEFINE_HOTKEY("TogglePause", "System", "Toggle Pause", [](s32 pressed) { DEFINE_HOTKEY(
"TogglePause", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Toggle Pause"), [](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
VMManager::SetPaused(VMManager::GetState() != VMState::Paused); VMManager::SetPaused(VMManager::GetState() != VMState::Paused);
}) })
DEFINE_HOTKEY("ToggleFullscreen", "System", "Toggle Fullscreen", [](s32 pressed) { DEFINE_HOTKEY("ToggleFullscreen", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Toggle Fullscreen"),
[](s32 pressed) {
if (!pressed) if (!pressed)
Host::SetFullscreen(!Host::IsFullscreen()); Host::SetFullscreen(!Host::IsFullscreen());
}) })
DEFINE_HOTKEY("ToggleFrameLimit", "System", "Toggle Frame Limit", [](s32 pressed) { DEFINE_HOTKEY("ToggleFrameLimit", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Toggle Frame Limit"),
[](s32 pressed) {
if (!pressed && VMManager::HasValidVM())
{
VMManager::SetLimiterMode((EmuConfig.LimiterMode != LimiterModeType::Unlimited) ?
LimiterModeType::Unlimited :
LimiterModeType::Nominal);
}
})
DEFINE_HOTKEY("ToggleTurbo", TRANSLATE_NOOP("Hotkeys", "System"),
TRANSLATE_NOOP("Hotkeys", "Toggle Turbo / Fast Forward"), [](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
{ {
VMManager::SetLimiterMode( VMManager::SetLimiterMode(
(EmuConfig.LimiterMode != LimiterModeType::Unlimited) ? LimiterModeType::Unlimited : LimiterModeType::Nominal); (EmuConfig.LimiterMode != LimiterModeType::Turbo) ? LimiterModeType::Turbo : LimiterModeType::Nominal);
} }
}) })
DEFINE_HOTKEY("ToggleTurbo", "System", "Toggle Turbo / Fast Forward", [](s32 pressed) { DEFINE_HOTKEY("ToggleSlowMotion", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Toggle Slow Motion"),
[](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
{ {
VMManager::SetLimiterMode((EmuConfig.LimiterMode != LimiterModeType::Turbo) ? LimiterModeType::Turbo : LimiterModeType::Nominal); VMManager::SetLimiterMode(
(EmuConfig.LimiterMode != LimiterModeType::Slomo) ? LimiterModeType::Slomo : LimiterModeType::Nominal);
} }
}) })
DEFINE_HOTKEY("ToggleSlowMotion", "System", "Toggle Slow Motion", [](s32 pressed) { DEFINE_HOTKEY("HoldTurbo", TRANSLATE_NOOP("Hotkeys", "System"),
if (!pressed && VMManager::HasValidVM()) TRANSLATE_NOOP("Hotkeys", "Turbo / Fast Forward (Hold)"), [](s32 pressed) {
{
VMManager::SetLimiterMode((EmuConfig.LimiterMode != LimiterModeType::Slomo) ? LimiterModeType::Slomo : LimiterModeType::Nominal);
}
})
DEFINE_HOTKEY("HoldTurbo", "System", "Turbo / Fast Forward (Hold)", [](s32 pressed) {
if (!VMManager::HasValidVM()) if (!VMManager::HasValidVM())
return; return;
if (pressed > 0 && !s_limiter_mode_prior_to_hold_interaction.has_value()) if (pressed > 0 && !s_limiter_mode_prior_to_hold_interaction.has_value())
{ {
s_limiter_mode_prior_to_hold_interaction = VMManager::GetLimiterMode(); s_limiter_mode_prior_to_hold_interaction = VMManager::GetLimiterMode();
VMManager::SetLimiterMode((s_limiter_mode_prior_to_hold_interaction.value() != LimiterModeType::Turbo) ? LimiterModeType::Turbo : VMManager::SetLimiterMode((s_limiter_mode_prior_to_hold_interaction.value() != LimiterModeType::Turbo) ?
LimiterModeType::Turbo :
LimiterModeType::Nominal); LimiterModeType::Nominal);
} }
else if (pressed >= 0 && s_limiter_mode_prior_to_hold_interaction.has_value()) else if (pressed >= 0 && s_limiter_mode_prior_to_hold_interaction.has_value())
@ -185,90 +204,102 @@ DEFINE_HOTKEY("HoldTurbo", "System", "Turbo / Fast Forward (Hold)", [](s32 press
s_limiter_mode_prior_to_hold_interaction.reset(); s_limiter_mode_prior_to_hold_interaction.reset();
} }
}) })
DEFINE_HOTKEY("IncreaseSpeed", "System", "Increase Target Speed", [](s32 pressed) { DEFINE_HOTKEY("IncreaseSpeed", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Increase Target Speed"),
[](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
HotkeyAdjustTargetSpeed(0.1); HotkeyAdjustTargetSpeed(0.1);
}) })
DEFINE_HOTKEY("DecreaseSpeed", "System", "Decrease Target Speed", [](s32 pressed) { DEFINE_HOTKEY("DecreaseSpeed", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Decrease Target Speed"),
[](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
HotkeyAdjustTargetSpeed(-0.1); HotkeyAdjustTargetSpeed(-0.1);
}) })
DEFINE_HOTKEY("IncreaseVolume", "System", "Increase Volume", [](s32 pressed) { DEFINE_HOTKEY("IncreaseVolume", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Increase Volume"),
[](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
HotkeyAdjustVolume(-1, 5); HotkeyAdjustVolume(-1, 5);
}) })
DEFINE_HOTKEY("DecreaseVolume", "System", "Decrease Volume", [](s32 pressed) { DEFINE_HOTKEY("DecreaseVolume", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Decrease Volume"),
[](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
HotkeyAdjustVolume(-1, -5); HotkeyAdjustVolume(-1, -5);
}) })
DEFINE_HOTKEY("Mute", "System", "Toggle Mute", [](s32 pressed) { DEFINE_HOTKEY("Mute", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Toggle Mute"), [](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
HotkeyAdjustVolume((SPU2::GetOutputVolume() == 0) ? EmuConfig.SPU2.FinalVolume : 0, 0); HotkeyAdjustVolume((SPU2::GetOutputVolume() == 0) ? EmuConfig.SPU2.FinalVolume : 0, 0);
}) })
DEFINE_HOTKEY("FrameAdvance", "System", "Frame Advance", [](s32 pressed) { DEFINE_HOTKEY(
"FrameAdvance", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Frame Advance"), [](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
VMManager::FrameAdvance(1); VMManager::FrameAdvance(1);
}) })
DEFINE_HOTKEY("ShutdownVM", "System", "Shut Down Virtual Machine", [](s32 pressed) { DEFINE_HOTKEY("ShutdownVM", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Shut Down Virtual Machine"),
[](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
Host::RequestVMShutdown(true, true, EmuConfig.SaveStateOnShutdown); Host::RequestVMShutdown(true, true, EmuConfig.SaveStateOnShutdown);
}) })
DEFINE_HOTKEY("ResetVM", "System", "Reset Virtual Machine", [](s32 pressed) { DEFINE_HOTKEY("ResetVM", TRANSLATE_NOOP("Hotkeys", "System"), TRANSLATE_NOOP("Hotkeys", "Reset Virtual Machine"),
[](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
VMManager::Reset(); VMManager::Reset();
}) })
DEFINE_HOTKEY("InputRecToggleMode", "System", "Toggle Input Recording Mode", [](s32 pressed) { DEFINE_HOTKEY("InputRecToggleMode", TRANSLATE_NOOP("Hotkeys", "System"),
TRANSLATE_NOOP("Hotkeys", "Toggle Input Recording Mode"), [](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
g_InputRecording.getControls().toggleRecordMode(); g_InputRecording.getControls().toggleRecordMode();
}) })
DEFINE_HOTKEY("PreviousSaveStateSlot", "Save States", "Select Previous Save Slot", [](s32 pressed) { DEFINE_HOTKEY("PreviousSaveStateSlot", TRANSLATE_NOOP("Hotkeys", "Save States"),
TRANSLATE_NOOP("Hotkeys", "Select Previous Save Slot"), [](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
HotkeyCycleSaveSlot(-1); HotkeyCycleSaveSlot(-1);
}) })
DEFINE_HOTKEY("NextSaveStateSlot", "Save States", "Select Next Save Slot", [](s32 pressed) { DEFINE_HOTKEY("NextSaveStateSlot", TRANSLATE_NOOP("Hotkeys", "Save States"),
TRANSLATE_NOOP("Hotkeys", "Select Next Save Slot"), [](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
HotkeyCycleSaveSlot(1); HotkeyCycleSaveSlot(1);
}) })
DEFINE_HOTKEY("SaveStateToSlot", "Save States", "Save State To Selected Slot", [](s32 pressed) { DEFINE_HOTKEY("SaveStateToSlot", TRANSLATE_NOOP("Hotkeys", "Save States"),
TRANSLATE_NOOP("Hotkeys", "Save State To Selected Slot"), [](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
VMManager::SaveStateToSlot(s_current_save_slot); VMManager::SaveStateToSlot(s_current_save_slot);
}) })
DEFINE_HOTKEY("LoadStateFromSlot", "Save States", "Load State From Selected Slot", [](s32 pressed) { DEFINE_HOTKEY("LoadStateFromSlot", TRANSLATE_NOOP("Hotkeys", "Save States"),
TRANSLATE_NOOP("Hotkeys", "Load State From Selected Slot"), [](s32 pressed) {
if (!pressed && VMManager::HasValidVM()) if (!pressed && VMManager::HasValidVM())
HotkeyLoadStateSlot(s_current_save_slot); HotkeyLoadStateSlot(s_current_save_slot);
}) })
#define DEFINE_HOTKEY_SAVESTATE_X(slotnum) \ #define DEFINE_HOTKEY_SAVESTATE_X(slotnum, title) \
DEFINE_HOTKEY("SaveStateToSlot" #slotnum, "Save States", "Save State To Slot " #slotnum, [](s32 pressed) { \ DEFINE_HOTKEY("SaveStateToSlot" #slotnum, "Save States", title, [](s32 pressed) { \
if (!pressed) \ if (!pressed) \
HotkeySaveStateSlot(slotnum); \ HotkeySaveStateSlot(slotnum); \
}) })
#define DEFINE_HOTKEY_LOADSTATE_X(slotnum) \ #define DEFINE_HOTKEY_LOADSTATE_X(slotnum, title) \
DEFINE_HOTKEY("LoadStateFromSlot" #slotnum, "Save States", "Load State From Slot " #slotnum, [](s32 pressed) { \ DEFINE_HOTKEY("LoadStateFromSlot" #slotnum, "Save States", title, [](s32 pressed) { \
if (!pressed) \ if (!pressed) \
HotkeyLoadStateSlot(slotnum); \ HotkeyLoadStateSlot(slotnum); \
}) })
DEFINE_HOTKEY_SAVESTATE_X(1) DEFINE_HOTKEY_SAVESTATE_X(1, TRANSLATE_NOOP("Hotkeys", "Save State To Slot 1"))
DEFINE_HOTKEY_LOADSTATE_X(1) DEFINE_HOTKEY_LOADSTATE_X(1, TRANSLATE_NOOP("Hotkeys", "Load State From Slot 1"))
DEFINE_HOTKEY_SAVESTATE_X(2) DEFINE_HOTKEY_SAVESTATE_X(2, TRANSLATE_NOOP("Hotkeys", "Save State To Slot 2"))
DEFINE_HOTKEY_LOADSTATE_X(2) DEFINE_HOTKEY_LOADSTATE_X(2, TRANSLATE_NOOP("Hotkeys", "Load State From Slot 2"))
DEFINE_HOTKEY_SAVESTATE_X(3) DEFINE_HOTKEY_SAVESTATE_X(3, TRANSLATE_NOOP("Hotkeys", "Save State To Slot 3"))
DEFINE_HOTKEY_LOADSTATE_X(3) DEFINE_HOTKEY_LOADSTATE_X(3, TRANSLATE_NOOP("Hotkeys", "Load State From Slot 3"))
DEFINE_HOTKEY_SAVESTATE_X(4) DEFINE_HOTKEY_SAVESTATE_X(4, TRANSLATE_NOOP("Hotkeys", "Save State To Slot 4"))
DEFINE_HOTKEY_LOADSTATE_X(4) DEFINE_HOTKEY_LOADSTATE_X(4, TRANSLATE_NOOP("Hotkeys", "Load State From Slot 4"))
DEFINE_HOTKEY_SAVESTATE_X(5) DEFINE_HOTKEY_SAVESTATE_X(5, TRANSLATE_NOOP("Hotkeys", "Save State To Slot 5"))
DEFINE_HOTKEY_LOADSTATE_X(5) DEFINE_HOTKEY_LOADSTATE_X(5, TRANSLATE_NOOP("Hotkeys", "Load State From Slot 5"))
DEFINE_HOTKEY_SAVESTATE_X(6) DEFINE_HOTKEY_SAVESTATE_X(6, TRANSLATE_NOOP("Hotkeys", "Save State To Slot 6"))
DEFINE_HOTKEY_LOADSTATE_X(6) DEFINE_HOTKEY_LOADSTATE_X(6, TRANSLATE_NOOP("Hotkeys", "Load State From Slot 6"))
DEFINE_HOTKEY_SAVESTATE_X(7) DEFINE_HOTKEY_SAVESTATE_X(7, TRANSLATE_NOOP("Hotkeys", "Save State To Slot 7"))
DEFINE_HOTKEY_LOADSTATE_X(7) DEFINE_HOTKEY_LOADSTATE_X(7, TRANSLATE_NOOP("Hotkeys", "Load State From Slot 7"))
DEFINE_HOTKEY_SAVESTATE_X(8) DEFINE_HOTKEY_SAVESTATE_X(8, TRANSLATE_NOOP("Hotkeys", "Save State To Slot 8"))
DEFINE_HOTKEY_LOADSTATE_X(8) DEFINE_HOTKEY_LOADSTATE_X(8, TRANSLATE_NOOP("Hotkeys", "Load State From Slot 8"))
DEFINE_HOTKEY_SAVESTATE_X(9) DEFINE_HOTKEY_SAVESTATE_X(9, TRANSLATE_NOOP("Hotkeys", "Save State To Slot 9"))
DEFINE_HOTKEY_LOADSTATE_X(9) DEFINE_HOTKEY_LOADSTATE_X(9, TRANSLATE_NOOP("Hotkeys", "Load State From Slot 9"))
DEFINE_HOTKEY_SAVESTATE_X(10) DEFINE_HOTKEY_SAVESTATE_X(10, TRANSLATE_NOOP("Hotkeys", "Save State To Slot 10"))
DEFINE_HOTKEY_LOADSTATE_X(10) DEFINE_HOTKEY_LOADSTATE_X(10, TRANSLATE_NOOP("Hotkeys", "Load State From Slot 10"))
#undef DEFINE_HOTKEY_SAVESTATE_X #undef DEFINE_HOTKEY_SAVESTATE_X
#undef DEFINE_HOTKEY_LOADSTATE_X #undef DEFINE_HOTKEY_LOADSTATE_X
END_HOTKEY_LIST() END_HOTKEY_LIST()

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@ -535,7 +535,8 @@ s32 FileMemoryCard::Save(uint slot, const u8* src, u32 adr, int size)
if (elapsed > std::chrono::seconds(5)) if (elapsed > std::chrono::seconds(5))
{ {
Host::AddIconOSDMessage(fmt::format("MemoryCardSave{}", slot), ICON_FA_SD_CARD, Host::AddIconOSDMessage(fmt::format("MemoryCardSave{}", slot), ICON_FA_SD_CARD,
fmt::format("Memory card '{}' was saved to storage.", Path::GetFileName(m_filenames[slot])), fmt::format(TRANSLATE_SV("MemoryCard", "Memory card '{}' was saved to storage."),
Path::GetFileName(m_filenames[slot])),
Host::OSD_INFO_DURATION); Host::OSD_INFO_DURATION);
last = std::chrono::system_clock::now(); last = std::chrono::system_clock::now();
} }

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@ -2359,7 +2359,8 @@ s32 FolderMemoryCardAggregator::Save(uint slot, const u8* src, u32 adr, int size
{ {
const std::string_view filename = Path::GetFileName(m_cards[slot].GetFolderName()); const std::string_view filename = Path::GetFileName(m_cards[slot].GetFolderName());
Host::AddIconOSDMessage(fmt::format("MemoryCardSave{}", slot), ICON_FA_SD_CARD, Host::AddIconOSDMessage(fmt::format("MemoryCardSave{}", slot), ICON_FA_SD_CARD,
fmt::format("Memory card '{}' was saved to storage.", filename), Host::OSD_INFO_DURATION); fmt::format(TRANSLATE_SV("MemoryCard", "Memory card '{}' was saved to storage."), filename),
Host::OSD_INFO_DURATION);
last = std::chrono::system_clock::now(); last = std::chrono::system_clock::now();
} }

View File

@ -351,88 +351,86 @@ void PAD::Update()
} }
static const InputBindingInfo s_dualshock2_binds[] = { static const InputBindingInfo s_dualshock2_binds[] = {
{"Up", "D-Pad Up", InputBindingInfo::Type::Button, PAD_UP, GenericInputBinding::DPadUp}, {"Up", TRANSLATE_NOOP("Pad", "D-Pad Up"), InputBindingInfo::Type::Button, PAD_UP, GenericInputBinding::DPadUp},
{"Right", "D-Pad Right", InputBindingInfo::Type::Button, PAD_RIGHT, GenericInputBinding::DPadRight}, {"Right", TRANSLATE_NOOP("Pad", "D-Pad Right"), InputBindingInfo::Type::Button, PAD_RIGHT, GenericInputBinding::DPadRight},
{"Down", "D-Pad Down", InputBindingInfo::Type::Button, PAD_DOWN, GenericInputBinding::DPadDown}, {"Down", TRANSLATE_NOOP("Pad", "D-Pad Down"), InputBindingInfo::Type::Button, PAD_DOWN, GenericInputBinding::DPadDown},
{"Left", "D-Pad Left", InputBindingInfo::Type::Button, PAD_LEFT, GenericInputBinding::DPadLeft}, {"Left", TRANSLATE_NOOP("Pad", "D-Pad Left"), InputBindingInfo::Type::Button, PAD_LEFT, GenericInputBinding::DPadLeft},
{"Triangle", "Triangle", InputBindingInfo::Type::Button, PAD_TRIANGLE, GenericInputBinding::Triangle}, {"Triangle", TRANSLATE_NOOP("Pad", "Triangle"), InputBindingInfo::Type::Button, PAD_TRIANGLE, GenericInputBinding::Triangle},
{"Circle", "Circle", InputBindingInfo::Type::Button, PAD_CIRCLE, GenericInputBinding::Circle}, {"Circle", TRANSLATE_NOOP("Pad", "Circle"), InputBindingInfo::Type::Button, PAD_CIRCLE, GenericInputBinding::Circle},
{"Cross", "Cross", InputBindingInfo::Type::Button, PAD_CROSS, GenericInputBinding::Cross}, {"Cross", TRANSLATE_NOOP("Pad", "Cross"), InputBindingInfo::Type::Button, PAD_CROSS, GenericInputBinding::Cross},
{"Square", "Square", InputBindingInfo::Type::Button, PAD_SQUARE, GenericInputBinding::Square}, {"Square", TRANSLATE_NOOP("Pad", "Square"), InputBindingInfo::Type::Button, PAD_SQUARE, GenericInputBinding::Square},
{"Select", "Select", InputBindingInfo::Type::Button, PAD_SELECT, GenericInputBinding::Select}, {"Select", TRANSLATE_NOOP("Pad", "Select"), InputBindingInfo::Type::Button, PAD_SELECT, GenericInputBinding::Select},
{"Start", "Start", InputBindingInfo::Type::Button, PAD_START, GenericInputBinding::Start}, {"Start", TRANSLATE_NOOP("Pad", "Start"), InputBindingInfo::Type::Button, PAD_START, GenericInputBinding::Start},
{"L1", "L1 (Left Bumper)", InputBindingInfo::Type::Button, PAD_L1, GenericInputBinding::L1}, {"L1", TRANSLATE_NOOP("Pad", "L1 (Left Bumper)"), InputBindingInfo::Type::Button, PAD_L1, GenericInputBinding::L1},
{"L2", "L2 (Left Trigger)", InputBindingInfo::Type::HalfAxis, PAD_L2, GenericInputBinding::L2}, {"L2", TRANSLATE_NOOP("Pad", "L2 (Left Trigger)"), InputBindingInfo::Type::HalfAxis, PAD_L2, GenericInputBinding::L2},
{"R1", "R1 (Right Bumper)", InputBindingInfo::Type::Button, PAD_R1, GenericInputBinding::R1}, {"R1", TRANSLATE_NOOP("Pad", "R1 (Right Bumper)"), InputBindingInfo::Type::Button, PAD_R1, GenericInputBinding::R1},
{"R2", "R2 (Right Trigger)", InputBindingInfo::Type::HalfAxis, PAD_R2, GenericInputBinding::R2}, {"R2", TRANSLATE_NOOP("Pad", "R2 (Right Trigger)"), InputBindingInfo::Type::HalfAxis, PAD_R2, GenericInputBinding::R2},
{"L3", "L3 (Left Stick Button)", InputBindingInfo::Type::Button, PAD_L3, GenericInputBinding::L3}, {"L3", TRANSLATE_NOOP("Pad", "L3 (Left Stick Button)"), InputBindingInfo::Type::Button, PAD_L3, GenericInputBinding::L3},
{"R3", "R3 (Right Stick Button)", InputBindingInfo::Type::Button, PAD_R3, GenericInputBinding::R3}, {"R3", TRANSLATE_NOOP("Pad", "R3 (Right Stick Button)"), InputBindingInfo::Type::Button, PAD_R3, GenericInputBinding::R3},
{"Analog", "Analog Toggle", InputBindingInfo::Type::Button, PAD_ANALOG, GenericInputBinding::System}, {"Analog", TRANSLATE_NOOP("Pad", "Analog Toggle"), InputBindingInfo::Type::Button, PAD_ANALOG, GenericInputBinding::System},
{"Pressure", "Apply Pressure", InputBindingInfo::Type::Button, PAD_PRESSURE, GenericInputBinding::Unknown}, {"Pressure", TRANSLATE_NOOP("Pad", "Apply Pressure"), InputBindingInfo::Type::Button, PAD_PRESSURE, GenericInputBinding::Unknown},
{"LUp", "Left Stick Up", InputBindingInfo::Type::HalfAxis, PAD_L_UP, GenericInputBinding::LeftStickUp}, {"LUp", TRANSLATE_NOOP("Pad", "Left Stick Up"), InputBindingInfo::Type::HalfAxis, PAD_L_UP, GenericInputBinding::LeftStickUp},
{"LRight", "Left Stick Right", InputBindingInfo::Type::HalfAxis, PAD_L_RIGHT, GenericInputBinding::LeftStickRight}, {"LRight", TRANSLATE_NOOP("Pad", "Left Stick Right"), InputBindingInfo::Type::HalfAxis, PAD_L_RIGHT, GenericInputBinding::LeftStickRight},
{"LDown", "Left Stick Down", InputBindingInfo::Type::HalfAxis, PAD_L_DOWN, GenericInputBinding::LeftStickDown}, {"LDown", TRANSLATE_NOOP("Pad", "Left Stick Down"), InputBindingInfo::Type::HalfAxis, PAD_L_DOWN, GenericInputBinding::LeftStickDown},
{"LLeft", "Left Stick Left", InputBindingInfo::Type::HalfAxis, PAD_L_LEFT, GenericInputBinding::LeftStickLeft}, {"LLeft", TRANSLATE_NOOP("Pad", "Left Stick Left"), InputBindingInfo::Type::HalfAxis, PAD_L_LEFT, GenericInputBinding::LeftStickLeft},
{"RUp", "Right Stick Up", InputBindingInfo::Type::HalfAxis, PAD_R_UP, GenericInputBinding::RightStickUp}, {"RUp", TRANSLATE_NOOP("Pad", "Right Stick Up"), InputBindingInfo::Type::HalfAxis, PAD_R_UP, GenericInputBinding::RightStickUp},
{"RRight", "Right Stick Right", InputBindingInfo::Type::HalfAxis, PAD_R_RIGHT, GenericInputBinding::RightStickRight}, {"RRight", TRANSLATE_NOOP("Pad", "Right Stick Right"), InputBindingInfo::Type::HalfAxis, PAD_R_RIGHT, GenericInputBinding::RightStickRight},
{"RDown", "Right Stick Down", InputBindingInfo::Type::HalfAxis, PAD_R_DOWN, GenericInputBinding::RightStickDown}, {"RDown", TRANSLATE_NOOP("Pad", "Right Stick Down"), InputBindingInfo::Type::HalfAxis, PAD_R_DOWN, GenericInputBinding::RightStickDown},
{"RLeft", "Right Stick Left", InputBindingInfo::Type::HalfAxis, PAD_R_LEFT, GenericInputBinding::RightStickLeft}, {"RLeft", TRANSLATE_NOOP("Pad", "Right Stick Left"), InputBindingInfo::Type::HalfAxis, PAD_R_LEFT, GenericInputBinding::RightStickLeft},
{"LargeMotor", "Large (Low Frequency) Motor", InputBindingInfo::Type::Motor, 0, GenericInputBinding::LargeMotor}, {"LargeMotor", TRANSLATE_NOOP("Pad", "Large (Low Frequency) Motor"), InputBindingInfo::Type::Motor, 0, GenericInputBinding::LargeMotor},
{"SmallMotor", "Small (High Frequency) Motor", InputBindingInfo::Type::Motor, 0, GenericInputBinding::SmallMotor}, {"SmallMotor", TRANSLATE_NOOP("Pad", "Small (High Frequency) Motor"), InputBindingInfo::Type::Motor, 0, GenericInputBinding::SmallMotor},
}; };
static const char* s_dualshock2_invert_entries[] = { static const char* s_dualshock2_invert_entries[] = {
"Not Inverted", TRANSLATE_NOOP("Pad", "Not Inverted"),
"Invert Left/Right", TRANSLATE_NOOP("Pad", "Invert Left/Right"),
"Invert Up/Down", TRANSLATE_NOOP("Pad", "Invert Up/Down"),
"Invert Left/Right + Up/Down", TRANSLATE_NOOP("Pad", "Invert Left/Right + Up/Down"),
nullptr}; nullptr};
static const SettingInfo s_dualshock2_settings[] = { static const SettingInfo s_dualshock2_settings[] = {
{SettingInfo::Type::IntegerList, "InvertL", "Invert Left Stick", {SettingInfo::Type::IntegerList, "InvertL", TRANSLATE_NOOP("Pad", "Invert Left Stick"),
"Inverts the direction of the left analog stick.", TRANSLATE_NOOP("Pad", "Inverts the direction of the left analog stick."), "0", "0", "3", nullptr, nullptr,
"0", "0", "3", nullptr, nullptr, s_dualshock2_invert_entries, nullptr, 0.0f}, s_dualshock2_invert_entries, nullptr, 0.0f},
{SettingInfo::Type::IntegerList, "InvertR", "Invert Right Stick", {SettingInfo::Type::IntegerList, "InvertR", TRANSLATE_NOOP("Pad", "Invert Right Stick"),
"Inverts the direction of the right analog stick.", TRANSLATE_NOOP("Pad", "Inverts the direction of the right analog stick."), "0", "0", "3", nullptr, nullptr,
"0", "0", "3", nullptr, nullptr, s_dualshock2_invert_entries, nullptr, 0.0f}, s_dualshock2_invert_entries, nullptr, 0.0f},
{SettingInfo::Type::Float, "Deadzone", "Analog Deadzone", {SettingInfo::Type::Float, "Deadzone", TRANSLATE_NOOP("Pad", "Analog Deadzone"),
"Sets the analog stick deadzone, i.e. the fraction of the analog stick movement which will be ignored.", TRANSLATE_NOOP("Pad",
"Sets the analog stick deadzone, i.e. the fraction of the analog stick movement which will be ignored."),
"0.00", "0.00", "1.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f}, "0.00", "0.00", "1.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f},
{SettingInfo::Type::Float, "AxisScale", "Analog Sensitivity", {SettingInfo::Type::Float, "AxisScale", TRANSLATE_NOOP("Pad", "Analog Sensitivity"),
TRANSLATE_NOOP("Pad",
"Sets the analog stick axis scaling factor. A value between 130% and 140% is recommended when using recent " "Sets the analog stick axis scaling factor. A value between 130% and 140% is recommended when using recent "
"controllers, e.g. DualShock 4, Xbox One Controller.", "controllers, e.g. DualShock 4, Xbox One Controller."),
"1.33", "0.01", "2.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f}, "1.33", "0.01", "2.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f},
{SettingInfo::Type::Float, "TriggerDeadzone", "Trigger Deadzone", {SettingInfo::Type::Float, "TriggerDeadzone", TRANSLATE_NOOP("Pad", "Trigger Deadzone"),
"Sets the deadzone for activating triggers, i.e. the fraction of the trigger press which will be ignored.", TRANSLATE_NOOP("Pad",
"Sets the deadzone for activating triggers, i.e. the fraction of the trigger press which will be ignored."),
"0.00", "0.00", "1.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f}, "0.00", "0.00", "1.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f},
{SettingInfo::Type::Float, "TriggerScale", "Trigger Sensitivity", {SettingInfo::Type::Float, "TriggerScale", TRANSLATE_NOOP("Pad", "Trigger Sensitivity"),
"Sets the trigger scaling factor.", TRANSLATE_NOOP("Pad", "Sets the trigger scaling factor."), "1.00", "0.01", "2.00", "0.01", "%.0f%%", nullptr,
"1.00", "0.01", "2.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f}, nullptr, 100.0f},
{SettingInfo::Type::Float, "LargeMotorScale", "Large Motor Vibration Scale", {SettingInfo::Type::Float, "LargeMotorScale", TRANSLATE_NOOP("Pad", "Large Motor Vibration Scale"),
"Increases or decreases the intensity of low frequency vibration sent by the game.", TRANSLATE_NOOP("Pad", "Increases or decreases the intensity of low frequency vibration sent by the game."),
"1.00", "0.00", "2.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f}, "1.00", "0.00", "2.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f},
{SettingInfo::Type::Float, "SmallMotorScale", "Small Motor Vibration Scale", {SettingInfo::Type::Float, "SmallMotorScale", TRANSLATE_NOOP("Pad", "Small Motor Vibration Scale"),
"Increases or decreases the intensity of high frequency vibration sent by the game.", TRANSLATE_NOOP("Pad", "Increases or decreases the intensity of high frequency vibration sent by the game."),
"1.00", "0.00", "2.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f}, "1.00", "0.00", "2.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f},
{SettingInfo::Type::Float, "ButtonDeadzone", "Button Deadzone", {SettingInfo::Type::Float, "ButtonDeadzone", TRANSLATE_NOOP("Pad", "Button Deadzone"),
"Sets the deadzone for activating buttons, i.e. the fraction of the button press which will be ignored.", TRANSLATE_NOOP("Pad",
"Sets the deadzone for activating buttons, i.e. the fraction of the button press which will be ignored."),
"0.00", "0.00", "1.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f}, "0.00", "0.00", "1.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f},
/*{SettingInfo::Type::Float, "InitialPressure", "Initial Pressure", {SettingInfo::Type::Float, "PressureModifier", TRANSLATE_NOOP("Pad", "Modifier Pressure"),
"Sets the pressure when the modifier button isn't held.", TRANSLATE_NOOP("Pad", "Sets the pressure when the modifier button is held."), "0.50", "0.01", "1.00", "0.01",
"1.00", "0.01", "1.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f},*/ "%.0f%%", nullptr, nullptr, 100.0f},
{SettingInfo::Type::Float, "PressureModifier", "Modifier Pressure",
"Sets the pressure when the modifier button is held.",
"0.50", "0.01", "1.00", "0.01", "%.0f%%", nullptr, nullptr, 100.0f},
}; };
static const PAD::ControllerInfo s_controller_info[] = { static const PAD::ControllerInfo s_controller_info[] = {
{PAD::ControllerType::NotConnected, "None", "Not Connected", {PAD::ControllerType::NotConnected, "None", TRANSLATE_NOOP("Pad", "Not Connected"), nullptr, 0, nullptr, 0,
nullptr, 0,
nullptr, 0,
PAD::VibrationCapabilities::NoVibration}, PAD::VibrationCapabilities::NoVibration},
{PAD::ControllerType::DualShock2, "DualShock2", "DualShock 2", {PAD::ControllerType::DualShock2, "DualShock2", TRANSLATE_NOOP("Pad", "DualShock 2"), s_dualshock2_binds,
s_dualshock2_binds, std::size(s_dualshock2_binds), std::size(s_dualshock2_binds), s_dualshock2_settings, std::size(s_dualshock2_settings),
s_dualshock2_settings, std::size(s_dualshock2_settings),
PAD::VibrationCapabilities::LargeSmallMotors}, PAD::VibrationCapabilities::LargeSmallMotors},
}; };

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@ -297,7 +297,8 @@ bool Patch::OpenPatchesZip()
if (!warning_shown) if (!warning_shown)
{ {
Host::AddIconOSDMessage("PatchesZipOpenWarning", ICON_FA_MICROCHIP, Host::AddIconOSDMessage("PatchesZipOpenWarning", ICON_FA_MICROCHIP,
fmt::format("Failed to open {}. Built-in game patches are not available.", PATCHES_ZIP_NAME), fmt::format(TRANSLATE_SV("Patch", "Failed to open {}. Built-in game patches are not available."),
PATCHES_ZIP_NAME),
Host::OSD_ERROR_DURATION); Host::OSD_ERROR_DURATION);
warning_shown = true; warning_shown = true;
} }
@ -519,7 +520,8 @@ u32 Patch::EnablePatches(const PatchList& patches, const EnablePatchList& enable
return count; return count;
} }
void Patch::ReloadPatches(const std::string& serial, u32 crc, bool reload_files, bool reload_enabled_list, bool verbose, bool verbose_if_changed) void Patch::ReloadPatches(const std::string& serial, u32 crc, bool reload_files, bool reload_enabled_list, bool verbose,
bool verbose_if_changed)
{ {
reload_files |= (s_patches_crc != crc); reload_files |= (s_patches_crc != crc);
s_patches_crc = crc; s_patches_crc = crc;
@ -578,16 +580,22 @@ void Patch::UpdateActivePatches(bool reload_enabled_list, bool verbose, bool ver
{ {
gp_count = EnablePatches(s_gamedb_patches, EnablePatchList()); gp_count = EnablePatches(s_gamedb_patches, EnablePatchList());
if (gp_count > 0) if (gp_count > 0)
fmt::format_to(std::back_inserter(message), "{} GameDB patches", gp_count); fmt::format_to(std::back_inserter(message), TRANSLATE_SV("Patch", "{} GameDB patches"), gp_count);
} }
const u32 p_count = EnablePatches(s_game_patches, s_enabled_patches); const u32 p_count = EnablePatches(s_game_patches, s_enabled_patches);
if (p_count > 0) if (p_count > 0)
fmt::format_to(std::back_inserter(message), "{}{} game patches", message.empty() ? "" : ", ", p_count); {
fmt::format_to(std::back_inserter(message), TRANSLATE_SV("Patch", "{}{} game patches"),
message.empty() ? "" : ", ", p_count);
}
const u32 c_count = EmuConfig.EnableCheats ? EnablePatches(s_cheat_patches, s_enabled_cheats) : 0; const u32 c_count = EmuConfig.EnableCheats ? EnablePatches(s_cheat_patches, s_enabled_cheats) : 0;
if (c_count > 0) if (c_count > 0)
fmt::format_to(std::back_inserter(message), "{}{} cheat patches", message.empty() ? "" : ", ", c_count); {
fmt::format_to(std::back_inserter(message), TRANSLATE_SV("Patch", "{}{} cheat patches"),
message.empty() ? "" : ", ", c_count);
}
// Display message on first boot when we load patches. // Display message on first boot when we load patches.
// Except when it's just GameDB. // Except when it's just GameDB.
@ -596,13 +604,14 @@ void Patch::UpdateActivePatches(bool reload_enabled_list, bool verbose, bool ver
{ {
if (!message.empty()) if (!message.empty())
{ {
fmt::format_to(std::back_inserter(message), " are active."); Host::AddIconOSDMessage("LoadPatches", ICON_FA_FILE_CODE,
Host::AddIconOSDMessage("LoadPatches", ICON_FA_FILE_CODE, std::move(message), Host::OSD_INFO_DURATION); fmt::format(TRANSLATE_SV("{} are active.", message)), Host::OSD_INFO_DURATION);
} }
else else
{ {
Host::AddIconOSDMessage("LoadPatches", ICON_FA_FILE_CODE, Host::AddIconOSDMessage("LoadPatches", ICON_FA_FILE_CODE,
"No cheats or patches (widescreen, compatibility or others) are found / enabled.", TRANSLATE_STR(
"Patch", "No cheats or patches (widescreen, compatibility or others) are found / enabled."),
Host::OSD_INFO_DURATION); Host::OSD_INFO_DURATION);
} }
} }

View File

@ -292,7 +292,9 @@ public:
if (!selected_device) if (!selected_device)
{ {
Host::AddIconOSDMessage("CubebDeviceNotFound", ICON_FA_VOLUME_MUTE, Host::AddIconOSDMessage("CubebDeviceNotFound", ICON_FA_VOLUME_MUTE,
fmt::format("Requested audio output device '{}' not found, using default.", selected_device_name), fmt::format(
TRANSLATE_SV("SPU2", "Requested audio output device '{}' not found, using default."),
selected_device_name),
Host::OSD_WARNING_DURATION); Host::OSD_WARNING_DURATION);
} }
} }

View File

@ -208,12 +208,10 @@ void Sio0::SetTxData(u8 value)
if (mcd->autoEjectTicks == 0) if (mcd->autoEjectTicks == 0)
{ {
Host::AddKeyedFormattedOSDMessage( Host::AddKeyedOSDMessage(fmt::format("AutoEjectSlotClear{}{}", port, slot),
StringUtil::StdStringFromFormat("AutoEjectSlotClear%u%u", port, slot), fmt::format(TRANSLATE_SV("MemoryCard", "Memory card in port %d / slot %d reinserted"),
10.0f, port + 1, slot + 1),
"Memory card in port %d / slot %d reinserted", Host::OSD_INFO_DURATION);
port + 1,
slot + 1);
} }
return; return;
@ -591,12 +589,10 @@ void Sio2::Memcard()
if (mcd->autoEjectTicks == 0) if (mcd->autoEjectTicks == 0)
{ {
Host::AddKeyedFormattedOSDMessage( Host::AddKeyedOSDMessage(fmt::format("AutoEjectSlotClear{}{}", port, slot),
StringUtil::StdStringFromFormat("AutoEjectSlotClear%u%u", port, slot), fmt::format(
10.0f, TRANSLATE_SV("MemoryCard", "Memory card in port {} / slot {} reinserted."), port + 1, slot + 1),
"Memory card in port %d / slot %d reinserted", Host::OSD_INFO_DURATION);
port + 1,
slot + 1);
} }
return; return;
@ -934,7 +930,8 @@ void AutoEject::Clear(size_t port, size_t slot)
void AutoEject::SetAll() void AutoEject::SetAll()
{ {
Host::AddIconOSDMessage("AutoEjectAllSet", ICON_FA_SD_CARD, "Force ejecting all memory cards.", Host::OSD_INFO_DURATION); Host::AddIconOSDMessage("AutoEjectAllSet", ICON_FA_SD_CARD,
TRANSLATE_SV("MemoryCard", "Force ejecting all memory cards."), Host::OSD_INFO_DURATION);
for (size_t port = 0; port < SIO::PORTS; port++) for (size_t port = 0; port < SIO::PORTS; port++)
{ {

View File

@ -550,7 +550,7 @@ const char* USB::DeviceTypeIndexToName(s32 device)
{ {
RegisterDevice& rd = RegisterDevice::instance(); RegisterDevice& rd = RegisterDevice::instance();
const DeviceProxy* proxy = (device != DEVTYPE_NONE) ? rd.Device(device) : nullptr; const DeviceProxy* proxy = (device != DEVTYPE_NONE) ? rd.Device(device) : nullptr;
return proxy ? proxy->TypeName() : "None"; return proxy ? proxy->TypeName() : TRANSLATE("USB", "None");
} }
std::vector<std::pair<const char*, const char*>> USB::GetDeviceTypes() std::vector<std::pair<const char*, const char*>> USB::GetDeviceTypes()
@ -558,7 +558,7 @@ std::vector<std::pair<const char*, const char*>> USB::GetDeviceTypes()
RegisterDevice& rd = RegisterDevice::instance(); RegisterDevice& rd = RegisterDevice::instance();
std::vector<std::pair<const char*, const char*>> ret; std::vector<std::pair<const char*, const char*>> ret;
ret.reserve(rd.Map().size() + 1); ret.reserve(rd.Map().size() + 1);
ret.emplace_back("None", "Not Connected"); ret.emplace_back("None", TRANSLATE("USB", "Not Connected"));
for (const auto& it : rd.Map()) for (const auto& it : rd.Map())
ret.emplace_back(it.second->TypeName(), it.second->Name()); ret.emplace_back(it.second->TypeName(), it.second->Name());
return ret; return ret;
@ -567,7 +567,7 @@ std::vector<std::pair<const char*, const char*>> USB::GetDeviceTypes()
const char* USB::GetDeviceName(const std::string_view& device) const char* USB::GetDeviceName(const std::string_view& device)
{ {
const DeviceProxy* dev = RegisterDevice::instance().Device(device); const DeviceProxy* dev = RegisterDevice::instance().Device(device);
return dev ? dev->Name() : "Not Connected"; return dev ? dev->Name() : TRANSLATE("USB", "Not Connected");
} }
const char* USB::GetDeviceSubtypeName(const std::string_view& device, u32 subtype) const char* USB::GetDeviceSubtypeName(const std::string_view& device, u32 subtype)

View File

@ -1,5 +1,5 @@
/* PCSX2 - PS2 Emulator for PCs /* PCSX2 - PS2 Emulator for PCs
* Copyright (C) 2002-2020 PCSX2 Dev Team * Copyright (C) 2002-2023 PCSX2 Dev Team
* *
* PCSX2 is free software: you can redistribute it and/or modify it under the terms * PCSX2 is free software: you can redistribute it and/or modify it under the terms
* of the GNU Lesser General Public License as published by the Free Software Found- * of the GNU Lesser General Public License as published by the Free Software Found-
@ -14,6 +14,7 @@
*/ */
#include "PrecompiledHeader.h" #include "PrecompiledHeader.h"
#include "Host.h"
#include "videodev.h" #include "videodev.h"
#include "usb-eyetoy-webcam.h" #include "usb-eyetoy-webcam.h"
#include "ov519.h" #include "ov519.h"
@ -485,7 +486,7 @@ namespace usb_eyetoy
const char* EyeToyWebCamDevice::Name() const const char* EyeToyWebCamDevice::Name() const
{ {
return "Webcam (EyeToy)"; return TRANSLATE_NOOP("USB", "Webcam (EyeToy)");
} }
const char* EyeToyWebCamDevice::TypeName() const const char* EyeToyWebCamDevice::TypeName() const
@ -515,15 +516,17 @@ namespace usb_eyetoy
gsl::span<const char*> EyeToyWebCamDevice::SubTypes() const gsl::span<const char*> EyeToyWebCamDevice::SubTypes() const
{ {
static const char* subtypes[] = {"Sony EyeToy", "Konami Capture Eye"}; static const char* subtypes[] = {
TRANSLATE_NOOP("USB", "Sony EyeToy"), TRANSLATE_NOOP("USB", "Konami Capture Eye")};
return subtypes; return subtypes;
} }
gsl::span<const SettingInfo> EyeToyWebCamDevice::Settings(u32 subtype) const gsl::span<const SettingInfo> EyeToyWebCamDevice::Settings(u32 subtype) const
{ {
static constexpr const SettingInfo info[] = { static constexpr const SettingInfo info[] = {
{SettingInfo::Type::StringList, "device_name", "Device Name", "Selects the device to capture images from.", "", nullptr, {SettingInfo::Type::StringList, "device_name", TRANSLATE_NOOP("USB", "Device Name"),
nullptr, nullptr, nullptr, nullptr, &VideoDevice::GetDeviceList}, TRANSLATE_NOOP("USB", "Selects the device to capture images from."), "", nullptr, nullptr, nullptr,
nullptr, nullptr, &VideoDevice::GetDeviceList},
}; };
return info; return info;
} }

View File

@ -25,6 +25,7 @@
#include "PrecompiledHeader.h" #include "PrecompiledHeader.h"
#include "Host.h"
#include "Input/InputManager.h" #include "Input/InputManager.h"
#include "StateWrapper.h" #include "StateWrapper.h"
#include "USB/USB.h" #include "USB/USB.h"
@ -939,7 +940,7 @@ namespace usb_hid
const char* HIDKbdDevice::Name() const const char* HIDKbdDevice::Name() const
{ {
return "HID Keyboard"; return TRANSLATE_NOOP("USB", "HID Keyboard");
} }
const char* HIDKbdDevice::TypeName() const const char* HIDKbdDevice::TypeName() const
@ -950,7 +951,7 @@ namespace usb_hid
gsl::span<const InputBindingInfo> HIDKbdDevice::Bindings(u32 subtype) const gsl::span<const InputBindingInfo> HIDKbdDevice::Bindings(u32 subtype) const
{ {
static constexpr const InputBindingInfo info[] = { static constexpr const InputBindingInfo info[] = {
{"Keyboard", "Keyboard", InputBindingInfo::Type::Keyboard, 0, GenericInputBinding::Unknown}, {"Keyboard", TRANSLATE_NOOP("USB", "Keyboard"), InputBindingInfo::Type::Keyboard, 0, GenericInputBinding::Unknown},
}; };
return info; return info;
} }
@ -1013,7 +1014,7 @@ namespace usb_hid
const char* HIDMouseDevice::Name() const const char* HIDMouseDevice::Name() const
{ {
return "HID Mouse"; return TRANSLATE_NOOP("USB", "HID Mouse");
} }
const char* HIDMouseDevice::TypeName() const const char* HIDMouseDevice::TypeName() const
@ -1043,10 +1044,10 @@ namespace usb_hid
gsl::span<const InputBindingInfo> HIDMouseDevice::Bindings(u32 subtype) const gsl::span<const InputBindingInfo> HIDMouseDevice::Bindings(u32 subtype) const
{ {
static constexpr const InputBindingInfo info[] = { static constexpr const InputBindingInfo info[] = {
{"Pointer", "Pointer", InputBindingInfo::Type::Pointer, INPUT_BUTTON__MAX, GenericInputBinding::Unknown}, {"Pointer", TRANSLATE_NOOP("USB", "Pointer"), InputBindingInfo::Type::Pointer, INPUT_BUTTON__MAX, GenericInputBinding::Unknown},
{"LeftButton", "Left Button", InputBindingInfo::Type::Button, INPUT_BUTTON_LEFT, GenericInputBinding::Unknown}, {"LeftButton", TRANSLATE_NOOP("USB", "Left Button"), InputBindingInfo::Type::Button, INPUT_BUTTON_LEFT, GenericInputBinding::Unknown},
{"RightButton", "Right Button", InputBindingInfo::Type::Button, INPUT_BUTTON_RIGHT, GenericInputBinding::Unknown}, {"RightButton", TRANSLATE_NOOP("USB", "Right Button"), InputBindingInfo::Type::Button, INPUT_BUTTON_RIGHT, GenericInputBinding::Unknown},
{"MiddleButton", "Middle Button", InputBindingInfo::Type::Button, INPUT_BUTTON_MIDDLE, GenericInputBinding::Unknown}, {"MiddleButton", TRANSLATE_NOOP("USB", "Middle Button"), InputBindingInfo::Type::Button, INPUT_BUTTON_MIDDLE, GenericInputBinding::Unknown},
}; };
return info; return info;
} }
@ -1124,7 +1125,7 @@ namespace usb_hid
const char* BeatManiaDevice::Name() const const char* BeatManiaDevice::Name() const
{ {
return "BeatMania Da Da Da!! Keyboard"; return TRANSLATE_NOOP("USB", "BeatMania Da Da Da!! Keyboard");
} }
const char* BeatManiaDevice::TypeName() const const char* BeatManiaDevice::TypeName() const

View File

@ -1,5 +1,5 @@
/* PCSX2 - PS2 Emulator for PCs /* PCSX2 - PS2 Emulator for PCs
* Copyright (C) 2002-2022 PCSX2 Dev Team * Copyright (C) 2002-2023 PCSX2 Dev Team
* *
* PCSX2 is free software: you can redistribute it and/or modify it under the terms * PCSX2 is free software: you can redistribute it and/or modify it under the terms
* of the GNU Lesser General Public License as published by the Free Software Found- * of the GNU Lesser General Public License as published by the Free Software Found-
@ -16,6 +16,7 @@
#include "PrecompiledHeader.h" #include "PrecompiledHeader.h"
#include "GS/GS.h" #include "GS/GS.h"
#include "Host.h"
#include "Input/InputManager.h" #include "Input/InputManager.h"
#include "StateWrapper.h" #include "StateWrapper.h"
#include "USB/USB.h" #include "USB/USB.h"
@ -404,7 +405,7 @@ namespace usb_lightgun
const char* GunCon2Device::Name() const const char* GunCon2Device::Name() const
{ {
return "GunCon 2"; return TRANSLATE_NOOP("USB", "GunCon 2");
} }
const char* GunCon2Device::TypeName() const const char* GunCon2Device::TypeName() const
@ -481,21 +482,21 @@ namespace usb_lightgun
{ {
static constexpr const InputBindingInfo bindings[] = { static constexpr const InputBindingInfo bindings[] = {
//{"pointer", "Pointer/Aiming", InputBindingInfo::Type::Pointer, BID_POINTER_X, GenericInputBinding::Unknown}, //{"pointer", "Pointer/Aiming", InputBindingInfo::Type::Pointer, BID_POINTER_X, GenericInputBinding::Unknown},
{"Up", "D-Pad Up", InputBindingInfo::Type::Button, BID_DPAD_UP, GenericInputBinding::DPadUp}, {"Up", TRANSLATE_NOOP("USB", "D-Pad Up"), InputBindingInfo::Type::Button, BID_DPAD_UP, GenericInputBinding::DPadUp},
{"Down", "D-Pad Down", InputBindingInfo::Type::Button, BID_DPAD_DOWN, GenericInputBinding::DPadDown}, {"Down", TRANSLATE_NOOP("USB", "D-Pad Down"), InputBindingInfo::Type::Button, BID_DPAD_DOWN, GenericInputBinding::DPadDown},
{"Left", "D-Pad Left", InputBindingInfo::Type::Button, BID_DPAD_LEFT, GenericInputBinding::DPadLeft}, {"Left", TRANSLATE_NOOP("USB", "D-Pad Left"), InputBindingInfo::Type::Button, BID_DPAD_LEFT, GenericInputBinding::DPadLeft},
{"Right", "D-Pad Right", InputBindingInfo::Type::Button, BID_DPAD_RIGHT, {"Right", TRANSLATE_NOOP("USB", "D-Pad Right"), InputBindingInfo::Type::Button, BID_DPAD_RIGHT,
GenericInputBinding::DPadRight}, GenericInputBinding::DPadRight},
{"Trigger", "Trigger", InputBindingInfo::Type::Button, BID_TRIGGER, GenericInputBinding::R2}, {"Trigger", TRANSLATE_NOOP("USB", "Trigger"), InputBindingInfo::Type::Button, BID_TRIGGER, GenericInputBinding::R2},
{"ShootOffscreen", "Shoot Offscreen", InputBindingInfo::Type::Button, BID_SHOOT_OFFSCREEN, {"ShootOffscreen", TRANSLATE_NOOP("USB", "Shoot Offscreen"), InputBindingInfo::Type::Button, BID_SHOOT_OFFSCREEN,
GenericInputBinding::R1}, GenericInputBinding::R1},
{"Recalibrate", "Calibration Shot", InputBindingInfo::Type::Button, BID_RECALIBRATE, {"Recalibrate", TRANSLATE_NOOP("USB", "Calibration Shot"), InputBindingInfo::Type::Button, BID_RECALIBRATE,
GenericInputBinding::Unknown}, GenericInputBinding::Unknown},
{"A", "A", InputBindingInfo::Type::Button, BID_A, GenericInputBinding::Cross}, {"A", TRANSLATE_NOOP("USB", "A"), InputBindingInfo::Type::Button, BID_A, GenericInputBinding::Cross},
{"B", "B", InputBindingInfo::Type::Button, BID_B, GenericInputBinding::Circle}, {"B", TRANSLATE_NOOP("USB", "B"), InputBindingInfo::Type::Button, BID_B, GenericInputBinding::Circle},
{"C", "C", InputBindingInfo::Type::Button, BID_C, GenericInputBinding::Triangle}, {"C", TRANSLATE_NOOP("USB", "C"), InputBindingInfo::Type::Button, BID_C, GenericInputBinding::Triangle},
{"Select", "Select", InputBindingInfo::Type::Button, BID_SELECT, GenericInputBinding::Select}, {"Select", TRANSLATE_NOOP("USB", "Select"), InputBindingInfo::Type::Button, BID_SELECT, GenericInputBinding::Select},
{"Start", "Start", InputBindingInfo::Type::Button, BID_START, GenericInputBinding::Start}, {"Start", TRANSLATE_NOOP("USB", "Start"), InputBindingInfo::Type::Button, BID_START, GenericInputBinding::Start},
}; };
return bindings; return bindings;
@ -504,23 +505,28 @@ namespace usb_lightgun
gsl::span<const SettingInfo> GunCon2Device::Settings(u32 subtype) const gsl::span<const SettingInfo> GunCon2Device::Settings(u32 subtype) const
{ {
static constexpr const SettingInfo info[] = { static constexpr const SettingInfo info[] = {
{SettingInfo::Type::Boolean, "custom_config", "Manual Screen Configuration", {SettingInfo::Type::Boolean, "custom_config", TRANSLATE_NOOP("USB", "Manual Screen Configuration"),
"Forces the use of the screen parameters below, instead of automatic parameters if available.", TRANSLATE_NOOP("USB",
"Forces the use of the screen parameters below, instead of automatic parameters if available."),
"false"}, "false"},
{SettingInfo::Type::Float, "scale_x", "X Scale (Sensitivity)", {SettingInfo::Type::Float, "scale_x", TRANSLATE_NOOP("USB", "X Scale (Sensitivity)"),
"Scales the position to simulate CRT curvature.", "100", "0", "200", "0.1", "%.2f%%", nullptr, nullptr, "Scales the position to simulate CRT curvature.", "100", "0", "200", "0.1", "%.2f%%", nullptr, nullptr,
1.0f}, 1.0f},
{SettingInfo::Type::Float, "scale_y", "Y Scale (Sensitivity)", {SettingInfo::Type::Float, "scale_y", TRANSLATE_NOOP("USB", "Y Scale (Sensitivity)"),
"Scales the position to simulate CRT curvature.", "100", "0", "200", "0.1", "%.2f%%", nullptr, nullptr, "Scales the position to simulate CRT curvature.", "100", "0", "200", "0.1", "%.2f%%", nullptr, nullptr,
1.0f}, 1.0f},
{SettingInfo::Type::Float, "center_x", "Center X", "Sets the horizontal center position of the simulated screen.", {SettingInfo::Type::Float, "center_x", TRANSLATE_NOOP("USB", "Center X"),
"320", "0", "1024", "1", "%.0fpx", nullptr, nullptr, 1.0f}, TRANSLATE_NOOP("USB", "Sets the horizontal center position of the simulated screen."), "320", "0",
{SettingInfo::Type::Float, "center_y", "Center Y", "Sets the vertical center position of the simulated screen.", "1024", "1", "%.0fpx", nullptr, nullptr, 1.0f},
"120", "0", "1024", "1", "%.0fpx", nullptr, nullptr, 1.0f}, {SettingInfo::Type::Float, "center_y", TRANSLATE_NOOP("USB", "Center Y"),
{SettingInfo::Type::Integer, "screen_width", "Screen Width", "Sets the width of the simulated screen.", TRANSLATE_NOOP("USB", "Sets the vertical center position of the simulated screen."), "120", "0", "1024",
"640", "1", "1024", "1", "%dpx", nullptr, nullptr, 1.0f}, "1", "%.0fpx", nullptr, nullptr, 1.0f},
{SettingInfo::Type::Integer, "screen_height", "Screen Height", "Sets the height of the simulated screen.", {SettingInfo::Type::Integer, "screen_width", TRANSLATE_NOOP("USB", "Screen Width"),
"240", "1", "1024", "1", "%dpx", nullptr, nullptr, 1.0f}, TRANSLATE_NOOP("USB", "Sets the width of the simulated screen."), "640", "1", "1024", "1", "%dpx",
nullptr, nullptr, 1.0f},
{SettingInfo::Type::Integer, "screen_height", TRANSLATE_NOOP("USB", "Screen Height"),
TRANSLATE_NOOP("USB", "Sets the height of the simulated screen."), "240", "1", "1024", "1", "%dpx",
nullptr, nullptr, 1.0f},
}; };
return info; return info;
} }

View File

@ -25,6 +25,7 @@
// Most stuff is based on Qemu 1.7 USB soundcard passthrough code. // Most stuff is based on Qemu 1.7 USB soundcard passthrough code.
#include "PrecompiledHeader.h" #include "PrecompiledHeader.h"
#include "Host.h"
#include "USB/qemu-usb/qusb.h" #include "USB/qemu-usb/qusb.h"
#include "USB/qemu-usb/desc.h" #include "USB/qemu-usb/desc.h"
#include "USB/qemu-usb/USBinternal.h" #include "USB/qemu-usb/USBinternal.h"
@ -957,7 +958,7 @@ namespace usb_mic
const char* HeadsetDevice::Name() const const char* HeadsetDevice::Name() const
{ {
return "Logitech USB Headset"; return TRANSLATE_NOOP("USB", "Logitech USB Headset");
} }
bool HeadsetDevice::Freeze(USBDevice* dev, StateWrapper& sw) const bool HeadsetDevice::Freeze(USBDevice* dev, StateWrapper& sw) const
@ -996,14 +997,18 @@ namespace usb_mic
gsl::span<const SettingInfo> HeadsetDevice::Settings(u32 subtype) const gsl::span<const SettingInfo> HeadsetDevice::Settings(u32 subtype) const
{ {
static constexpr const SettingInfo info[] = { static constexpr const SettingInfo info[] = {
{SettingInfo::Type::StringList, "input_device_name", "Input Device", "Selects the device to read audio from.", "", nullptr, {SettingInfo::Type::StringList, "input_device_name", TRANSLATE_NOOP("USB", "Input Device"),
nullptr, nullptr, nullptr, nullptr, &AudioDevice::GetInputDeviceList}, TRANSLATE_NOOP("USB", "Selects the device to read audio from."), "", nullptr, nullptr, nullptr, nullptr,
{SettingInfo::Type::StringList, "output_device_name", "Output Device", "Selects the device to output audio to.", "", nullptr, nullptr, &AudioDevice::GetInputDeviceList},
nullptr, nullptr, nullptr, nullptr, &AudioDevice::GetOutputDeviceList}, {SettingInfo::Type::StringList, "output_device_name", TRANSLATE_NOOP("USB", "Output Device"),
{SettingInfo::Type::Integer, "input_latency", "Input Latency", "Specifies the latency to the host input device.", AudioDevice::DEFAULT_LATENCY_STR, "1", TRANSLATE_NOOP("USB", "Selects the device to output audio to."), "", nullptr, nullptr, nullptr, nullptr,
"1000", "1", "%dms", nullptr, nullptr, 1.0f}, nullptr, &AudioDevice::GetOutputDeviceList},
{SettingInfo::Type::Integer, "output_latency", "Output Latency", "Specifies the latency to the host output device.", AudioDevice::DEFAULT_LATENCY_STR, "1", {SettingInfo::Type::Integer, "input_latency", TRANSLATE_NOOP("USB", "Input Latency"),
"1000", "1", "%dms", nullptr, nullptr, 1.0f}, TRANSLATE_NOOP("USB", "Specifies the latency to the host input device."),
AudioDevice::DEFAULT_LATENCY_STR, "1", "1000", "1", "%dms", nullptr, nullptr, 1.0f},
{SettingInfo::Type::Integer, "output_latency", TRANSLATE_NOOP("USB", "Output Latency"),
TRANSLATE_NOOP("USB", "Specifies the latency to the host output device."),
AudioDevice::DEFAULT_LATENCY_STR, "1", "1000", "1", "%dms", nullptr, nullptr, 1.0f},
}; };
return info; return info;
} }

View File

@ -747,7 +747,8 @@ namespace usb_mic
if (!s->audsrc[0] && !s->audsrc[1]) if (!s->audsrc[0] && !s->audsrc[1])
{ {
Host::AddOSDMessage("USB-Mic: Neither player 1 nor 2 is connected.", Host::OSD_ERROR_DURATION); Host::AddOSDMessage(
TRANSLATE_STR("USB", "USB-Mic: Neither player 1 nor 2 is connected."), Host::OSD_ERROR_DURATION);
goto fail; goto fail;
} }
@ -763,7 +764,9 @@ namespace usb_mic
s->buffer[i].resize(BUFFER_FRAMES * s->audsrc[i]->GetChannels()); s->buffer[i].resize(BUFFER_FRAMES * s->audsrc[i]->GetChannels());
if (!s->audsrc[i]->Start()) if (!s->audsrc[i]->Start())
{ {
Host::AddOSDMessage(fmt::format("USB-Mic: Failed to start player {} audio stream.", i + 1), Host::OSD_ERROR_DURATION); Host::AddOSDMessage(
fmt::format(TRANSLATE_SV("USB", "USB-Mic: Failed to start player {} audio stream."), i + 1),
Host::OSD_ERROR_DURATION);
goto fail; goto fail;
} }
} }
@ -805,7 +808,7 @@ namespace usb_mic
const char* SingstarDevice::Name() const const char* SingstarDevice::Name() const
{ {
return "Singstar"; return TRANSLATE_NOOP("USB", "Singstar");
} }
const char* SingstarDevice::TypeName() const const char* SingstarDevice::TypeName() const
@ -846,11 +849,14 @@ namespace usb_mic
gsl::span<const SettingInfo> SingstarDevice::Settings(u32 subtype) const gsl::span<const SettingInfo> SingstarDevice::Settings(u32 subtype) const
{ {
static constexpr const SettingInfo info[] = { static constexpr const SettingInfo info[] = {
{SettingInfo::Type::StringList, "player1_device_name", "Player 1 Device", "Selects the input for the first player.", "", {SettingInfo::Type::StringList, "player1_device_name", TRANSLATE_NOOP("USB", "Player 1 Device"),
nullptr, nullptr, nullptr, nullptr, nullptr, &AudioDevice::GetInputDeviceList}, TRANSLATE_NOOP("USB", "Selects the input for the first player."), "", nullptr, nullptr, nullptr,
{SettingInfo::Type::StringList, "player2_device_name", "Player 2 Device", "Selects the input for the second player.", "", nullptr, nullptr, &AudioDevice::GetInputDeviceList},
nullptr, nullptr, nullptr, nullptr, nullptr, &AudioDevice::GetInputDeviceList}, {SettingInfo::Type::StringList, "player2_device_name", TRANSLATE_NOOP("USB", "Player 2 Device"),
{SettingInfo::Type::Integer, "input_latency", "Input Latency", "Specifies the latency to the host input device.", TRANSLATE_NOOP("USB", "Selects the input for the second player."), "", nullptr, nullptr, nullptr,
nullptr, nullptr, &AudioDevice::GetInputDeviceList},
{SettingInfo::Type::Integer, "input_latency", TRANSLATE_NOOP("USB", "Input Latency"),
TRANSLATE_NOOP("USB", "Specifies the latency to the host input device."),
AudioDevice::DEFAULT_LATENCY_STR, "1", "1000", "1", "%dms", nullptr, nullptr, 1.0f}, AudioDevice::DEFAULT_LATENCY_STR, "1", "1000", "1", "%dms", nullptr, nullptr, 1.0f},
}; };
return info; return info;
@ -863,15 +869,17 @@ namespace usb_mic
const char* LogitechMicDevice::Name() const const char* LogitechMicDevice::Name() const
{ {
return "Logitech USB Mic"; return TRANSLATE_NOOP("USB", "Logitech USB Mic");
} }
gsl::span<const SettingInfo> LogitechMicDevice::Settings(u32 subtype) const gsl::span<const SettingInfo> LogitechMicDevice::Settings(u32 subtype) const
{ {
static constexpr const SettingInfo info[] = { static constexpr const SettingInfo info[] = {
{SettingInfo::Type::StringList, "input_device_name", "Input Device", "Selects the device to read audio from.", "", nullptr, {SettingInfo::Type::StringList, "input_device_name", TRANSLATE_NOOP("USB", "Input Device"),
nullptr, nullptr, nullptr, nullptr, &AudioDevice::GetInputDeviceList}, TRANSLATE_NOOP("USB", "Selects the device to read audio from."), "", nullptr, nullptr, nullptr, nullptr,
{SettingInfo::Type::Integer, "input_latency", "Input Latency", "Specifies the latency to the host input device.", nullptr, &AudioDevice::GetInputDeviceList},
{SettingInfo::Type::Integer, "input_latency", TRANSLATE_NOOP("USB", "Input Latency"),
TRANSLATE_NOOP("USB", "Specifies the latency to the host input device."),
AudioDevice::DEFAULT_LATENCY_STR, "1", "1000", "1", "%dms", nullptr, nullptr, 1.0f}, AudioDevice::DEFAULT_LATENCY_STR, "1", "1000", "1", "%dms", nullptr, nullptr, 1.0f},
}; };
return info; return info;

View File

@ -971,7 +971,8 @@ namespace usb_msd
std::string path(USB::GetConfigString(si, port, TypeName(), "ImagePath")); std::string path(USB::GetConfigString(si, port, TypeName(), "ImagePath"));
if (path.empty() || !(s->file = FileSystem::OpenCFile(path.c_str(), "r+b"))) if (path.empty() || !(s->file = FileSystem::OpenCFile(path.c_str(), "r+b")))
{ {
Host::AddOSDMessage(fmt::format("usb-msd: Could not open image file '{}'", path), Host::OSD_ERROR_DURATION); Host::AddOSDMessage(fmt::format(TRANSLATE_SV("USB", "usb-msd: Could not open image file '{}'"), path),
Host::OSD_ERROR_DURATION);
goto fail; goto fail;
} }
@ -1018,7 +1019,7 @@ namespace usb_msd
const char* MsdDevice::Name() const const char* MsdDevice::Name() const
{ {
return "Mass Storage Device"; return TRANSLATE_NOOP("USB", "Mass Storage Device");
} }
bool MsdDevice::Freeze(USBDevice* dev, StateWrapper& sw) const bool MsdDevice::Freeze(USBDevice* dev, StateWrapper& sw) const
@ -1038,7 +1039,8 @@ namespace usb_msd
// resetting port to try to avoid possible data corruption // resetting port to try to avoid possible data corruption
if (sw.IsReading() && old_mtime != s->f.mtime) if (sw.IsReading() && old_mtime != s->f.mtime)
{ {
Host::AddOSDMessage("Modification time to USB mass storage image changed, reattaching.", Host::AddOSDMessage(
TRANSLATE_STR("USB", "Modification time to USB mass storage image changed, reattaching."),
Host::OSD_ERROR_DURATION); Host::OSD_ERROR_DURATION);
usb_reattach(dev->port); usb_reattach(dev->port);
} }
@ -1054,7 +1056,8 @@ namespace usb_msd
gsl::span<const SettingInfo> MsdDevice::Settings(u32 subtype) const gsl::span<const SettingInfo> MsdDevice::Settings(u32 subtype) const
{ {
static constexpr const SettingInfo settings[] = { static constexpr const SettingInfo settings[] = {
{SettingInfo::Type::Path, "ImagePath", "Image Path", "Sets the path to image which will back the virtual mass storage device."}, {SettingInfo::Type::Path, "ImagePath", TRANSLATE_NOOP("USB", "Image Path"),
TRANSLATE_NOOP("USB", "Sets the path to image which will back the virtual mass storage device.")},
}; };
return settings; return settings;
} }

View File

@ -1,5 +1,5 @@
/* PCSX2 - PS2 Emulator for PCs /* PCSX2 - PS2 Emulator for PCs
* Copyright (C) 2002-2020 PCSX2 Dev Team * Copyright (C) 2002-2023 PCSX2 Dev Team
* *
* PCSX2 is free software: you can redistribute it and/or modify it under the terms * PCSX2 is free software: you can redistribute it and/or modify it under the terms
* of the GNU Lesser General Public License as published by the Free Software Found- * of the GNU Lesser General Public License as published by the Free Software Found-
@ -17,6 +17,7 @@
#include "usb-pad.h" #include "usb-pad.h"
#include "USB/qemu-usb/USBinternal.h" #include "USB/qemu-usb/USBinternal.h"
#include "USB/USB.h" #include "USB/USB.h"
#include "Host.h"
#include "StateWrapper.h" #include "StateWrapper.h"
#ifdef SDL_BUILD #ifdef SDL_BUILD
@ -88,25 +89,25 @@ namespace usb_pad
case WT_GENERIC: case WT_GENERIC:
{ {
static constexpr const InputBindingInfo bindings[] = { static constexpr const InputBindingInfo bindings[] = {
{"SteeringLeft", "Steering Left", InputBindingInfo::Type::HalfAxis, CID_STEERING_L, GenericInputBinding::LeftStickLeft}, {"SteeringLeft", TRANSLATE_NOOP("USB", "Steering Left"), InputBindingInfo::Type::HalfAxis, CID_STEERING_L, GenericInputBinding::LeftStickLeft},
{"SteeringRight", "Steering Right", InputBindingInfo::Type::HalfAxis, CID_STEERING_R, GenericInputBinding::LeftStickRight}, {"SteeringRight", TRANSLATE_NOOP("USB", "Steering Right"), InputBindingInfo::Type::HalfAxis, CID_STEERING_R, GenericInputBinding::LeftStickRight},
{"Throttle", "Throttle", InputBindingInfo::Type::HalfAxis, CID_THROTTLE, GenericInputBinding::R2}, {"Throttle", TRANSLATE_NOOP("USB", "Throttle"), InputBindingInfo::Type::HalfAxis, CID_THROTTLE, GenericInputBinding::R2},
{"Brake", "Brake", InputBindingInfo::Type::HalfAxis, CID_BRAKE, GenericInputBinding::L2}, {"Brake", TRANSLATE_NOOP("USB", "Brake"), InputBindingInfo::Type::HalfAxis, CID_BRAKE, GenericInputBinding::L2},
{"DPadUp", "D-Pad Up", InputBindingInfo::Type::Button, CID_DPAD_UP, GenericInputBinding::DPadUp}, {"DPadUp", TRANSLATE_NOOP("USB", "D-Pad Up"), InputBindingInfo::Type::Button, CID_DPAD_UP, GenericInputBinding::DPadUp},
{"DPadDown", "D-Pad Down", InputBindingInfo::Type::Button, CID_DPAD_DOWN, GenericInputBinding::DPadDown}, {"DPadDown", TRANSLATE_NOOP("USB", "D-Pad Down"), InputBindingInfo::Type::Button, CID_DPAD_DOWN, GenericInputBinding::DPadDown},
{"DPadLeft", "D-Pad Left", InputBindingInfo::Type::Button, CID_DPAD_LEFT, GenericInputBinding::DPadLeft}, {"DPadLeft", TRANSLATE_NOOP("USB", "D-Pad Left"), InputBindingInfo::Type::Button, CID_DPAD_LEFT, GenericInputBinding::DPadLeft},
{"DPadRight", "D-Pad Right", InputBindingInfo::Type::Button, CID_DPAD_RIGHT, GenericInputBinding::DPadRight}, {"DPadRight", TRANSLATE_NOOP("USB", "D-Pad Right"), InputBindingInfo::Type::Button, CID_DPAD_RIGHT, GenericInputBinding::DPadRight},
{"Cross", "Cross", InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::Cross}, {"Cross", TRANSLATE_NOOP("USB", "Cross"), InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::Cross},
{"Square", "Square", InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Square}, {"Square", TRANSLATE_NOOP("USB", "Square"), InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Square},
{"Circle", "Circle", InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Circle}, {"Circle", TRANSLATE_NOOP("USB", "Circle"), InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Circle},
{"Triangle", "Triangle", InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Triangle}, {"Triangle", TRANSLATE_NOOP("USB", "Triangle"), InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Triangle},
{"L1", "L1", InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::L1}, {"L1", TRANSLATE_NOOP("USB", "L1"), InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::L1},
{"R1", "R1", InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::R1}, {"R1", TRANSLATE_NOOP("USB", "R1"), InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::R1},
{"L2", "L2", InputBindingInfo::Type::Button, CID_BUTTON7, GenericInputBinding::Unknown}, // used L2 for brake {"L2", TRANSLATE_NOOP("USB", "L2"), InputBindingInfo::Type::Button, CID_BUTTON7, GenericInputBinding::Unknown}, // used L2 for brake
{"R2", "R2", InputBindingInfo::Type::Button, CID_BUTTON6, GenericInputBinding::Unknown}, // used R2 for throttle {"R2", TRANSLATE_NOOP("USB", "R2"), InputBindingInfo::Type::Button, CID_BUTTON6, GenericInputBinding::Unknown}, // used R2 for throttle
{"Select", "Select", InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Select}, {"Select", TRANSLATE_NOOP("USB", "Select"), InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Select},
{"Start", "Start", InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Start}, {"Start", TRANSLATE_NOOP("USB", "Start"), InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Start},
{"FFDevice", "Force Feedback", InputBindingInfo::Type::Device, 0, GenericInputBinding::Unknown}, {"FFDevice", TRANSLATE_NOOP("USB", "Force Feedback"), InputBindingInfo::Type::Device, 0, GenericInputBinding::Unknown},
}; };
return bindings; return bindings;
@ -116,26 +117,26 @@ namespace usb_pad
case WT_DRIVING_FORCE_PRO_1102: case WT_DRIVING_FORCE_PRO_1102:
{ {
static constexpr const InputBindingInfo bindings[] = { static constexpr const InputBindingInfo bindings[] = {
{"SteeringLeft", "Steering Left", InputBindingInfo::Type::HalfAxis, CID_STEERING_L, GenericInputBinding::LeftStickLeft}, {"SteeringLeft", TRANSLATE_NOOP("USB", "Steering Left"), InputBindingInfo::Type::HalfAxis, CID_STEERING_L, GenericInputBinding::LeftStickLeft},
{"SteeringRight", "Steering Right", InputBindingInfo::Type::HalfAxis, CID_STEERING_R, GenericInputBinding::LeftStickRight}, {"SteeringRight", TRANSLATE_NOOP("USB", "Steering Right"), InputBindingInfo::Type::HalfAxis, CID_STEERING_R, GenericInputBinding::LeftStickRight},
{"Throttle", "Throttle", InputBindingInfo::Type::HalfAxis, CID_THROTTLE, GenericInputBinding::R2}, {"Throttle", TRANSLATE_NOOP("USB", "Throttle"), InputBindingInfo::Type::HalfAxis, CID_THROTTLE, GenericInputBinding::R2},
{"Brake", "Brake", InputBindingInfo::Type::HalfAxis, CID_BRAKE, GenericInputBinding::L2}, {"Brake", TRANSLATE_NOOP("USB", "Brake"), InputBindingInfo::Type::HalfAxis, CID_BRAKE, GenericInputBinding::L2},
{"DPadUp", "D-Pad Up", InputBindingInfo::Type::Button, CID_DPAD_UP, GenericInputBinding::DPadUp}, {"DPadUp", TRANSLATE_NOOP("USB", "D-Pad Up"), InputBindingInfo::Type::Button, CID_DPAD_UP, GenericInputBinding::DPadUp},
{"DPadDown", "D-Pad Down", InputBindingInfo::Type::Button, CID_DPAD_DOWN, GenericInputBinding::DPadDown}, {"DPadDown", TRANSLATE_NOOP("USB", "D-Pad Down"), InputBindingInfo::Type::Button, CID_DPAD_DOWN, GenericInputBinding::DPadDown},
{"DPadLeft", "D-Pad Left", InputBindingInfo::Type::Button, CID_DPAD_LEFT, GenericInputBinding::DPadLeft}, {"DPadLeft", TRANSLATE_NOOP("USB", "D-Pad Left"), InputBindingInfo::Type::Button, CID_DPAD_LEFT, GenericInputBinding::DPadLeft},
{"DPadRight", "D-Pad Right", InputBindingInfo::Type::Button, CID_DPAD_RIGHT, GenericInputBinding::DPadRight}, {"DPadRight", TRANSLATE_NOOP("USB", "D-Pad Right"), InputBindingInfo::Type::Button, CID_DPAD_RIGHT, GenericInputBinding::DPadRight},
{"Cross", "Cross", InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::Cross}, {"Cross", TRANSLATE_NOOP("USB", "Cross"), InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::Cross},
{"Square", "Square", InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Square}, {"Square", TRANSLATE_NOOP("USB", "Square"), InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Square},
{"Circle", "Circle", InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Circle}, {"Circle", TRANSLATE_NOOP("USB", "Circle"), InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Circle},
{"Triangle", "Triangle", InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Triangle}, {"Triangle", TRANSLATE_NOOP("USB", "Triangle"), InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Triangle},
{"R1", "Shift Up / R1", InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::R1}, {"R1", TRANSLATE_NOOP("USB", "Shift Up / R1"), InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::R1},
{"L1", "Shift Down / L1", InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::L1}, {"L1", TRANSLATE_NOOP("USB", "Shift Down / L1"), InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::L1},
{"Select", "Select", InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Select}, {"Select", TRANSLATE_NOOP("USB", "Select"), InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Select},
{"Start", "Start", InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Start}, {"Start", TRANSLATE_NOOP("USB", "Start"), InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Start},
{"L2", "L2", InputBindingInfo::Type::Button, CID_BUTTON7, GenericInputBinding::Unknown}, // used L2 for brake {"L2", TRANSLATE_NOOP("USB", "L2"), InputBindingInfo::Type::Button, CID_BUTTON7, GenericInputBinding::Unknown}, // used L2 for brake
{"R2", "R2", InputBindingInfo::Type::Button, CID_BUTTON6, GenericInputBinding::Unknown}, // used R2 for throttle {"R2", TRANSLATE_NOOP("USB", "R2"), InputBindingInfo::Type::Button, CID_BUTTON6, GenericInputBinding::Unknown}, // used R2 for throttle
{"L3", "L3", InputBindingInfo::Type::Button, CID_BUTTON11, GenericInputBinding::L3}, {"L3", TRANSLATE_NOOP("USB", "L3"), InputBindingInfo::Type::Button, CID_BUTTON11, GenericInputBinding::L3},
{"R3", "R3", InputBindingInfo::Type::Button, CID_BUTTON10, GenericInputBinding::R3}, {"R3", TRANSLATE_NOOP("USB", "R3"), InputBindingInfo::Type::Button, CID_BUTTON10, GenericInputBinding::R3},
{"FFDevice", "Force Feedback", InputBindingInfo::Type::Device, 0, GenericInputBinding::Unknown}, {"FFDevice", "Force Feedback", InputBindingInfo::Type::Device, 0, GenericInputBinding::Unknown},
}; };
@ -145,17 +146,17 @@ namespace usb_pad
case WT_GT_FORCE: case WT_GT_FORCE:
{ {
static constexpr const InputBindingInfo bindings[] = { static constexpr const InputBindingInfo bindings[] = {
{"SteeringLeft", "Steering Left", InputBindingInfo::Type::HalfAxis, CID_STEERING_L, GenericInputBinding::LeftStickLeft}, {"SteeringLeft", TRANSLATE_NOOP("USB", "Steering Left"), InputBindingInfo::Type::HalfAxis, CID_STEERING_L, GenericInputBinding::LeftStickLeft},
{"SteeringRight", "Steering Right", InputBindingInfo::Type::HalfAxis, CID_STEERING_R, GenericInputBinding::LeftStickRight}, {"SteeringRight", TRANSLATE_NOOP("USB", "Steering Right"), InputBindingInfo::Type::HalfAxis, CID_STEERING_R, GenericInputBinding::LeftStickRight},
{"Throttle", "Throttle", InputBindingInfo::Type::HalfAxis, CID_THROTTLE, GenericInputBinding::R2}, {"Throttle", TRANSLATE_NOOP("USB", "Throttle"), InputBindingInfo::Type::HalfAxis, CID_THROTTLE, GenericInputBinding::R2},
{"Brake", "Brake", InputBindingInfo::Type::HalfAxis, CID_BRAKE, GenericInputBinding::L2}, {"Brake", TRANSLATE_NOOP("USB", "Brake"), InputBindingInfo::Type::HalfAxis, CID_BRAKE, GenericInputBinding::L2},
{"MenuUp", "Menu Up", InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::DPadUp}, {"MenuUp", TRANSLATE_NOOP("USB", "Menu Up"), InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::DPadUp},
{"MenuDown", "Menu Down", InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::DPadDown}, {"MenuDown", TRANSLATE_NOOP("USB", "Menu Down"), InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::DPadDown},
{"X", "X", InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Square}, {"X", TRANSLATE_NOOP("USB", "X"), InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Square},
{"Y", "Y", InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Triangle}, {"Y", TRANSLATE_NOOP("USB", "Y"), InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Triangle},
{"A", "A", InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::Cross}, {"A", TRANSLATE_NOOP("USB", "A"), InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::Cross},
{"B", "B", InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::Circle}, {"B", TRANSLATE_NOOP("USB", "B"), InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::Circle},
{"FFDevice", "Force Feedback", InputBindingInfo::Type::Device, 0, GenericInputBinding::Unknown}, {"FFDevice", TRANSLATE_NOOP("USB", "Force Feedback"), InputBindingInfo::Type::Device, 0, GenericInputBinding::Unknown},
}; };
return bindings; return bindings;
@ -174,14 +175,14 @@ namespace usb_pad
{ {
static constexpr const char* SteeringCurveExponentOptions[] = {"Off", "Low", "Medium", "High", nullptr}; static constexpr const char* SteeringCurveExponentOptions[] = {"Off", "Low", "Medium", "High", nullptr};
static constexpr const SettingInfo info[] = { static constexpr const SettingInfo info[] = {
{SettingInfo::Type::Integer, "SteeringSmoothing", "Steering Smoothing", {SettingInfo::Type::Integer, "SteeringSmoothing", TRANSLATE_NOOP("USB", "Steering Smoothing"),
"Smooths out changes in steering to the specified percentage per poll. Needed for using keyboards.", TRANSLATE_NOOP("USB", "Smooths out changes in steering to the specified percentage per poll. Needed for using keyboards."),
"0", "0", "100", "1", "%d%%", nullptr, nullptr, 1.0f}, "0", "0", "100", "1", "%d%%", nullptr, nullptr, 1.0f},
{SettingInfo::Type::Integer, "SteeringDeadzone", "Steering Deadzone", {SettingInfo::Type::Integer, "SteeringDeadzone", TRANSLATE_NOOP("USB", "Steering Deadzone"),
"Steering axis deadzone for pads or non self centering wheels.", TRANSLATE_NOOP("USB", "Steering axis deadzone for pads or non self centering wheels."),
"0", "0", "100", "1", "%d%%", nullptr, nullptr, 1.0f}, "0", "0", "100", "1", "%d%%", nullptr, nullptr, 1.0f},
{SettingInfo::Type::StringList, "SteeringCurveExponent", "Steering Damping", {SettingInfo::Type::StringList, "SteeringCurveExponent", TRANSLATE_NOOP("USB", "Steering Damping"),
"Applies power curve filter to steering axis values. Dampens small inputs.", TRANSLATE_NOOP("USB", "Applies power curve filter to steering axis values. Dampens small inputs."),
"Off", nullptr, nullptr, nullptr, nullptr, SteeringCurveExponentOptions} "Off", nullptr, nullptr, nullptr, nullptr, SteeringCurveExponentOptions}
}; };
@ -836,7 +837,7 @@ namespace usb_pad
const char* PadDevice::Name() const const char* PadDevice::Name() const
{ {
return "Wheel Device"; return TRANSLATE_NOOP("USB", "Wheel Device");
} }
const char* PadDevice::TypeName() const const char* PadDevice::TypeName() const
@ -875,7 +876,9 @@ namespace usb_pad
gsl::span<const char*> PadDevice::SubTypes() const gsl::span<const char*> PadDevice::SubTypes() const
{ {
static const char* subtypes[] = {"Driving Force", "Driving Force Pro", "Driving Force Pro (rev11.02)", "GT Force"}; static const char* subtypes[] = {TRANSLATE_NOOP("USB", "Driving Force"),
TRANSLATE_NOOP("USB", "Driving Force Pro"), TRANSLATE_NOOP("USB", "Driving Force Pro (rev11.02)"),
TRANSLATE_NOOP("USB", "GT Force")};
return subtypes; return subtypes;
} }
@ -907,7 +910,7 @@ namespace usb_pad
const char* RBDrumKitDevice::Name() const const char* RBDrumKitDevice::Name() const
{ {
return "Rock Band Drum Kit"; return TRANSLATE_NOOP("USB", "Rock Band Drum Kit");
} }
const char* RBDrumKitDevice::TypeName() const const char* RBDrumKitDevice::TypeName() const
@ -944,13 +947,13 @@ namespace usb_pad
gsl::span<const InputBindingInfo> RBDrumKitDevice::Bindings(u32 subtype) const gsl::span<const InputBindingInfo> RBDrumKitDevice::Bindings(u32 subtype) const
{ {
static constexpr const InputBindingInfo bindings[] = { static constexpr const InputBindingInfo bindings[] = {
{"Blue", "Blue", InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::R1}, {"Blue", TRANSLATE_NOOP("USB", "Blue"), InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::R1},
{"Green", "Green", InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Triangle}, {"Green", TRANSLATE_NOOP("USB", "Green"), InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Triangle},
{"Red", "Red", InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Circle}, {"Red", TRANSLATE_NOOP("USB", "Red"), InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Circle},
{"Yellow", "Yellow", InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Square}, {"Yellow", TRANSLATE_NOOP("USB", "Yellow"), InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Square},
{"Orange", "Orange", InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::Cross}, {"Orange", TRANSLATE_NOOP("USB", "Orange"), InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::Cross},
{"Select", "Select", InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Select}, {"Select", TRANSLATE_NOOP("USB", "Select"), InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Select},
{"Start", "Start", InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Start}, {"Start", TRANSLATE_NOOP("USB", "Start"), InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Start},
}; };
return bindings; return bindings;
@ -965,7 +968,7 @@ namespace usb_pad
const char* BuzzDevice::Name() const const char* BuzzDevice::Name() const
{ {
return "Buzz Controller"; return TRANSLATE_NOOP("USB", "Buzz Controller");
} }
const char* BuzzDevice::TypeName() const const char* BuzzDevice::TypeName() const
@ -981,29 +984,29 @@ namespace usb_pad
gsl::span<const InputBindingInfo> BuzzDevice::Bindings(u32 subtype) const gsl::span<const InputBindingInfo> BuzzDevice::Bindings(u32 subtype) const
{ {
static constexpr const InputBindingInfo bindings[] = { static constexpr const InputBindingInfo bindings[] = {
{"Red1", "Player 1 Red", InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::Circle}, {"Red1", TRANSLATE_NOOP("USB", "Player 1 Red"), InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::Circle},
{"Blue1", "Player 1 Blue", InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::R1}, {"Blue1", TRANSLATE_NOOP("USB", "Player 1 Blue"), InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::R1},
{"Orange1", "Player 1 Orange", InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Cross}, {"Orange1", TRANSLATE_NOOP("USB", "Player 1 Orange"), InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Cross},
{"Green1", "Player 1 Green", InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Triangle}, {"Green1", TRANSLATE_NOOP("USB", "Player 1 Green"), InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Triangle},
{"Yellow1", "Player 1 Yellow", InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Square}, {"Yellow1", TRANSLATE_NOOP("USB", "Player 1 Yellow"), InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Square},
{"Red2", "Player 2 Red", InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::Unknown}, {"Red2", TRANSLATE_NOOP("USB", "Player 2 Red"), InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::Unknown},
{"Blue2", "Player 2 Blue", InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Unknown}, {"Blue2", TRANSLATE_NOOP("USB", "Player 2 Blue"), InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Unknown},
{"Orange2", "Player 2 Orange", InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Unknown}, {"Orange2", TRANSLATE_NOOP("USB", "Player 2 Orange"), InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Unknown},
{"Green2", "Player 2 Green", InputBindingInfo::Type::Button, CID_BUTTON7, GenericInputBinding::Unknown}, {"Green2", TRANSLATE_NOOP("USB", "Player 2 Green"), InputBindingInfo::Type::Button, CID_BUTTON7, GenericInputBinding::Unknown},
{"Yellow2", "Player 2 Yellow", InputBindingInfo::Type::Button, CID_BUTTON6, GenericInputBinding::Unknown}, {"Yellow2", TRANSLATE_NOOP("USB", "Player 2 Yellow"), InputBindingInfo::Type::Button, CID_BUTTON6, GenericInputBinding::Unknown},
{"Red3", "Player 3 Red", InputBindingInfo::Type::Button, CID_BUTTON10, GenericInputBinding::Unknown}, {"Red3", TRANSLATE_NOOP("USB", "Player 3 Red"), InputBindingInfo::Type::Button, CID_BUTTON10, GenericInputBinding::Unknown},
{"Blue3", "Player 3 Blue", InputBindingInfo::Type::Button, CID_BUTTON14, GenericInputBinding::Unknown}, {"Blue3", TRANSLATE_NOOP("USB", "Player 3 Blue"), InputBindingInfo::Type::Button, CID_BUTTON14, GenericInputBinding::Unknown},
{"Orange3", "Player 3 Orange", InputBindingInfo::Type::Button, CID_BUTTON13, GenericInputBinding::Unknown}, {"Orange3", TRANSLATE_NOOP("USB", "Player 3 Orange"), InputBindingInfo::Type::Button, CID_BUTTON13, GenericInputBinding::Unknown},
{"Green3", "Player 3 Green", InputBindingInfo::Type::Button, CID_BUTTON12, GenericInputBinding::Unknown}, {"Green3", TRANSLATE_NOOP("USB", "Player 3 Green"), InputBindingInfo::Type::Button, CID_BUTTON12, GenericInputBinding::Unknown},
{"Yellow3", "Player 3 Yellow", InputBindingInfo::Type::Button, CID_BUTTON11, GenericInputBinding::Unknown}, {"Yellow3", TRANSLATE_NOOP("USB", "Player 3 Yellow"), InputBindingInfo::Type::Button, CID_BUTTON11, GenericInputBinding::Unknown},
{"Red4", "Player 4 Red", InputBindingInfo::Type::Button, CID_BUTTON15, GenericInputBinding::Unknown}, {"Red4", TRANSLATE_NOOP("USB", "Player 4 Red"), InputBindingInfo::Type::Button, CID_BUTTON15, GenericInputBinding::Unknown},
{"Blue4", "Player 4 Blue", InputBindingInfo::Type::Button, CID_BUTTON19, GenericInputBinding::Unknown}, {"Blue4", TRANSLATE_NOOP("USB", "Player 4 Blue"), InputBindingInfo::Type::Button, CID_BUTTON19, GenericInputBinding::Unknown},
{"Orange4", "Player 4 Orange", InputBindingInfo::Type::Button, CID_BUTTON18, GenericInputBinding::Unknown}, {"Orange4", TRANSLATE_NOOP("USB", "Player 4 Orange"), InputBindingInfo::Type::Button, CID_BUTTON18, GenericInputBinding::Unknown},
{"Green4", "Player 4 Green", InputBindingInfo::Type::Button, CID_BUTTON17, GenericInputBinding::Unknown}, {"Green4", TRANSLATE_NOOP("USB", "Player 4 Green"), InputBindingInfo::Type::Button, CID_BUTTON17, GenericInputBinding::Unknown},
{"Yellow4", "Player 4 Yellow", InputBindingInfo::Type::Button, CID_BUTTON16, GenericInputBinding::Unknown}, {"Yellow4", TRANSLATE_NOOP("USB", "Player 4 Yellow"), InputBindingInfo::Type::Button, CID_BUTTON16, GenericInputBinding::Unknown},
}; };
return bindings; return bindings;
@ -1039,7 +1042,7 @@ namespace usb_pad
const char* KeyboardmaniaDevice::Name() const const char* KeyboardmaniaDevice::Name() const
{ {
return "Keyboardmania"; return TRANSLATE_NOOP("USB", "Keyboardmania");
} }
const char* KeyboardmaniaDevice::TypeName() const const char* KeyboardmaniaDevice::TypeName() const
@ -1055,35 +1058,35 @@ namespace usb_pad
gsl::span<const InputBindingInfo> KeyboardmaniaDevice::Bindings(u32 subtype) const gsl::span<const InputBindingInfo> KeyboardmaniaDevice::Bindings(u32 subtype) const
{ {
static constexpr const InputBindingInfo bindings[] = { static constexpr const InputBindingInfo bindings[] = {
{"C1", "C 1", InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::Unknown}, {"C1", TRANSLATE_NOOP("USB", "C 1"), InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::Unknown},
{"CSharp1", "C# 1", InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Unknown}, {"CSharp1", TRANSLATE_NOOP("USB", "C# 1"), InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Unknown},
{"D1", "D 1", InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Unknown}, {"D1", TRANSLATE_NOOP("USB", "D 1"), InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::Unknown},
{"DSharp1", "D# 1", InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Unknown}, {"DSharp1", TRANSLATE_NOOP("USB", "D# 1"), InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Unknown},
{"E1", "E 1", InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::Unknown}, {"E1", TRANSLATE_NOOP("USB", "E 1"), InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::Unknown},
{"F1", "F 1", InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::Unknown}, {"F1", TRANSLATE_NOOP("USB", "F 1"), InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::Unknown},
{"FSharp1", "F# 1", InputBindingInfo::Type::Button, CID_BUTTON6, GenericInputBinding::Unknown}, {"FSharp1", TRANSLATE_NOOP("USB", "F# 1"), InputBindingInfo::Type::Button, CID_BUTTON6, GenericInputBinding::Unknown},
{"G1", "G 1", InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Unknown}, {"G1", TRANSLATE_NOOP("USB", "G 1"), InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Unknown},
{"GSharp1", "G# 1", InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Unknown}, {"GSharp1", TRANSLATE_NOOP("USB", "G# 1"), InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Unknown},
{"A1", "A 1", InputBindingInfo::Type::Button, CID_BUTTON10, GenericInputBinding::Unknown}, {"A1", TRANSLATE_NOOP("USB", "A 1"), InputBindingInfo::Type::Button, CID_BUTTON10, GenericInputBinding::Unknown},
{"ASharp1", "A# 1", InputBindingInfo::Type::Button, CID_BUTTON11, GenericInputBinding::Unknown}, {"ASharp1", TRANSLATE_NOOP("USB", "A# 1"), InputBindingInfo::Type::Button, CID_BUTTON11, GenericInputBinding::Unknown},
{"B1", "B 1", InputBindingInfo::Type::Button, CID_BUTTON12, GenericInputBinding::Unknown}, {"B1", TRANSLATE_NOOP("USB", "B 1"), InputBindingInfo::Type::Button, CID_BUTTON12, GenericInputBinding::Unknown},
{"C2", "C 2", InputBindingInfo::Type::Button, CID_BUTTON13, GenericInputBinding::Unknown}, {"C2", TRANSLATE_NOOP("USB", "C 2"), InputBindingInfo::Type::Button, CID_BUTTON13, GenericInputBinding::Unknown},
{"CSharp2", "C# 2", InputBindingInfo::Type::Button, CID_BUTTON16, GenericInputBinding::Unknown}, {"CSharp2", TRANSLATE_NOOP("USB", "C# 2"), InputBindingInfo::Type::Button, CID_BUTTON16, GenericInputBinding::Unknown},
{"D2", "D 2", InputBindingInfo::Type::Button, CID_BUTTON17, GenericInputBinding::Unknown}, {"D2", TRANSLATE_NOOP("USB", "D 2"), InputBindingInfo::Type::Button, CID_BUTTON17, GenericInputBinding::Unknown},
{"DSharp2", "D# 2", InputBindingInfo::Type::Button, CID_BUTTON18, GenericInputBinding::Unknown}, {"DSharp2", TRANSLATE_NOOP("USB", "D# 2"), InputBindingInfo::Type::Button, CID_BUTTON18, GenericInputBinding::Unknown},
{"E2", "E 2", InputBindingInfo::Type::Button, CID_BUTTON19, GenericInputBinding::Unknown}, {"E2", TRANSLATE_NOOP("USB", "E 2"), InputBindingInfo::Type::Button, CID_BUTTON19, GenericInputBinding::Unknown},
{"F2", "F 2", InputBindingInfo::Type::Button, CID_BUTTON20, GenericInputBinding::Unknown}, {"F2", TRANSLATE_NOOP("USB", "F 2"), InputBindingInfo::Type::Button, CID_BUTTON20, GenericInputBinding::Unknown},
{"FSharp2", "F# 2", InputBindingInfo::Type::Button, CID_BUTTON21, GenericInputBinding::Unknown}, {"FSharp2", TRANSLATE_NOOP("USB", "F# 2"), InputBindingInfo::Type::Button, CID_BUTTON21, GenericInputBinding::Unknown},
{"G2", "G 2", InputBindingInfo::Type::Button, CID_BUTTON24, GenericInputBinding::Unknown}, {"G2", TRANSLATE_NOOP("USB", "G 2"), InputBindingInfo::Type::Button, CID_BUTTON24, GenericInputBinding::Unknown},
{"GSharp2", "G# 2", InputBindingInfo::Type::Button, CID_BUTTON25, GenericInputBinding::Unknown}, {"GSharp2", TRANSLATE_NOOP("USB", "G# 2"), InputBindingInfo::Type::Button, CID_BUTTON25, GenericInputBinding::Unknown},
{"A2", "A 2", InputBindingInfo::Type::Button, CID_BUTTON26, GenericInputBinding::Unknown}, {"A2", TRANSLATE_NOOP("USB", "A 2"), InputBindingInfo::Type::Button, CID_BUTTON26, GenericInputBinding::Unknown},
{"ASharp2", "A# 2", InputBindingInfo::Type::Button, CID_BUTTON27, GenericInputBinding::Unknown}, {"ASharp2", TRANSLATE_NOOP("USB", "A# 2"), InputBindingInfo::Type::Button, CID_BUTTON27, GenericInputBinding::Unknown},
{"B2", "B 2", InputBindingInfo::Type::Button, CID_BUTTON28, GenericInputBinding::Unknown}, {"B2", TRANSLATE_NOOP("USB", "B 2"), InputBindingInfo::Type::Button, CID_BUTTON28, GenericInputBinding::Unknown},
{"Start", "Start", InputBindingInfo::Type::Button, CID_BUTTON22, GenericInputBinding::Unknown}, {"Start", TRANSLATE_NOOP("USB", "Start"), InputBindingInfo::Type::Button, CID_BUTTON22, GenericInputBinding::Unknown},
{"Select", "Select", InputBindingInfo::Type::Button, CID_BUTTON14, GenericInputBinding::Unknown}, {"Select", TRANSLATE_NOOP("USB", "Select"), InputBindingInfo::Type::Button, CID_BUTTON14, GenericInputBinding::Unknown},
{"WheelUp", "Wheel Up", InputBindingInfo::Type::Button, CID_BUTTON29, GenericInputBinding::Unknown}, {"WheelUp", TRANSLATE_NOOP("USB", "Wheel Up"), InputBindingInfo::Type::Button, CID_BUTTON29, GenericInputBinding::Unknown},
{"WheelDown", "Wheel Down", InputBindingInfo::Type::Button, CID_BUTTON30, GenericInputBinding::Unknown}, {"WheelDown", TRANSLATE_NOOP("USB", "Wheel Down"), InputBindingInfo::Type::Button, CID_BUTTON30, GenericInputBinding::Unknown},
}; };
return bindings; return bindings;

View File

@ -1,5 +1,5 @@
/* PCSX2 - PS2 Emulator for PCs /* PCSX2 - PS2 Emulator for PCs
* Copyright (C) 2002-2020 PCSX2 Dev Team * Copyright (C) 2002-2023 PCSX2 Dev Team
* *
* PCSX2 is free software: you can redistribute it and/or modify it under the terms * PCSX2 is free software: you can redistribute it and/or modify it under the terms
* of the GNU Lesser General Public License as published by the Free Software Found- * of the GNU Lesser General Public License as published by the Free Software Found-
@ -14,6 +14,7 @@
*/ */
#include "PrecompiledHeader.h" #include "PrecompiledHeader.h"
#include "Host.h"
#include "USB/usb-pad/usb-pad.h" #include "USB/usb-pad/usb-pad.h"
#include "USB/qemu-usb/desc.h" #include "USB/qemu-usb/desc.h"
#include "USB/usb-mic/usb-mic-singstar.h" #include "USB/usb-mic/usb-mic-singstar.h"
@ -344,7 +345,7 @@ namespace usb_pad
const char* SeamicDevice::Name() const const char* SeamicDevice::Name() const
{ {
return "Sega Seamic"; return TRANSLATE_NOOP("USB", "Sega Seamic");
} }
const char* SeamicDevice::TypeName() const const char* SeamicDevice::TypeName() const
@ -361,24 +362,24 @@ namespace usb_pad
{ {
// TODO: This is likely wrong. Someone who cares can fix it. // TODO: This is likely wrong. Someone who cares can fix it.
static constexpr const InputBindingInfo bindings[] = { static constexpr const InputBindingInfo bindings[] = {
{"StickLeft", "Stick Left", InputBindingInfo::Type::HalfAxis, CID_STEERING_L, GenericInputBinding::LeftStickLeft}, {"StickLeft", TRANSLATE_NOOP("USB", "Stick Left"), InputBindingInfo::Type::HalfAxis, CID_STEERING_L, GenericInputBinding::LeftStickLeft},
{"StickRight", "Stick Right", InputBindingInfo::Type::HalfAxis, CID_STEERING_R, GenericInputBinding::LeftStickRight}, {"StickRight", TRANSLATE_NOOP("USB", "Stick Right"), InputBindingInfo::Type::HalfAxis, CID_STEERING_R, GenericInputBinding::LeftStickRight},
{"StickUp", "Stick Up", InputBindingInfo::Type::HalfAxis, CID_THROTTLE, GenericInputBinding::LeftStickUp}, {"StickUp", TRANSLATE_NOOP("USB", "Stick Up"), InputBindingInfo::Type::HalfAxis, CID_THROTTLE, GenericInputBinding::LeftStickUp},
{"StickDown", "Stick Down", InputBindingInfo::Type::HalfAxis, CID_BRAKE, GenericInputBinding::LeftStickDown}, {"StickDown", TRANSLATE_NOOP("USB", "Stick Down"), InputBindingInfo::Type::HalfAxis, CID_BRAKE, GenericInputBinding::LeftStickDown},
{"A", "A", InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::Cross}, {"A", TRANSLATE_NOOP("USB", "A"), InputBindingInfo::Type::Button, CID_BUTTON0, GenericInputBinding::Cross},
{"B", "B", InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Circle}, {"B", TRANSLATE_NOOP("USB", "B"), InputBindingInfo::Type::Button, CID_BUTTON1, GenericInputBinding::Circle},
{"C", "C", InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::R2}, {"C", TRANSLATE_NOOP("USB", "C"), InputBindingInfo::Type::Button, CID_BUTTON2, GenericInputBinding::R2},
{"X", "X", InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Square}, {"X", TRANSLATE_NOOP("USB", "X"), InputBindingInfo::Type::Button, CID_BUTTON3, GenericInputBinding::Square},
{"Y", "Y", InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::Triangle}, {"Y", TRANSLATE_NOOP("USB", "Y"), InputBindingInfo::Type::Button, CID_BUTTON4, GenericInputBinding::Triangle},
{"Z", "Z", InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::L2}, {"Z", TRANSLATE_NOOP("USB", "Z"), InputBindingInfo::Type::Button, CID_BUTTON5, GenericInputBinding::L2},
{"L", "L", InputBindingInfo::Type::Button, CID_BUTTON6, GenericInputBinding::L1}, {"L", TRANSLATE_NOOP("USB", "L"), InputBindingInfo::Type::Button, CID_BUTTON6, GenericInputBinding::L1},
{"R", "R", InputBindingInfo::Type::Button, CID_BUTTON7, GenericInputBinding::R1}, {"R", TRANSLATE_NOOP("USB", "R"), InputBindingInfo::Type::Button, CID_BUTTON7, GenericInputBinding::R1},
{"Select", "Select", InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Select}, {"Select", TRANSLATE_NOOP("USB", "Select"), InputBindingInfo::Type::Button, CID_BUTTON8, GenericInputBinding::Select},
{"Start", "Start", InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Start}, {"Start", TRANSLATE_NOOP("USB", "Start"), InputBindingInfo::Type::Button, CID_BUTTON9, GenericInputBinding::Start},
{"DPadUp", "D-Pad Up", InputBindingInfo::Type::Button, CID_DPAD_UP, GenericInputBinding::DPadUp}, {"DPadUp", TRANSLATE_NOOP("USB", "D-Pad Up"), InputBindingInfo::Type::Button, CID_DPAD_UP, GenericInputBinding::DPadUp},
{"DPadDown", "D-Pad Down", InputBindingInfo::Type::Button, CID_DPAD_DOWN, GenericInputBinding::DPadDown}, {"DPadDown", TRANSLATE_NOOP("USB", "D-Pad Down"), InputBindingInfo::Type::Button, CID_DPAD_DOWN, GenericInputBinding::DPadDown},
{"DPadLeft", "D-Pad Left", InputBindingInfo::Type::Button, CID_DPAD_LEFT, GenericInputBinding::DPadLeft}, {"DPadLeft", TRANSLATE_NOOP("USB", "D-Pad Left"), InputBindingInfo::Type::Button, CID_DPAD_LEFT, GenericInputBinding::DPadLeft},
{"DPadRight", "D-Pad Right", InputBindingInfo::Type::Button, CID_DPAD_RIGHT, GenericInputBinding::DPadRight}, {"DPadRight", TRANSLATE_NOOP("USB", "D-Pad Right"), InputBindingInfo::Type::Button, CID_DPAD_RIGHT, GenericInputBinding::DPadRight},
}; };
return bindings; return bindings;
@ -387,9 +388,11 @@ namespace usb_pad
gsl::span<const SettingInfo> SeamicDevice::Settings(u32 subtype) const gsl::span<const SettingInfo> SeamicDevice::Settings(u32 subtype) const
{ {
static constexpr const SettingInfo info[] = { static constexpr const SettingInfo info[] = {
{SettingInfo::Type::StringList, "input_device_name", "Input Device", "Selects the device to read audio from.", "", nullptr, {SettingInfo::Type::StringList, "input_device_name", TRANSLATE_NOOP("USB", "Input Device"),
nullptr, nullptr, nullptr, nullptr, &AudioDevice::GetInputDeviceList}, TRANSLATE_NOOP("USB", "Selects the device to read audio from."), "", nullptr, nullptr, nullptr, nullptr,
{SettingInfo::Type::Integer, "input_latency", "Input Latency", "Specifies the latency to the host input device.", nullptr, &AudioDevice::GetInputDeviceList},
{SettingInfo::Type::Integer, "input_latency", TRANSLATE_NOOP("USB", "Input Latency"),
TRANSLATE_NOOP("USB", "Specifies the latency to the host input device."),
AudioDevice::DEFAULT_LATENCY_STR, "1", "1000", "1", "%dms", nullptr, nullptr, 1.0f}, AudioDevice::DEFAULT_LATENCY_STR, "1", "1000", "1", "%dms", nullptr, nullptr, 1.0f},
}; };
return info; return info;

View File

@ -97,12 +97,14 @@ namespace usb_printer
if (!s->print_file) if (!s->print_file)
{ {
Host::AddIconOSDMessage("USBPrinterOpen", ICON_FA_EXCLAMATION_TRIANGLE, Host::AddIconOSDMessage("USBPrinterOpen", ICON_FA_EXCLAMATION_TRIANGLE,
fmt::format("Failed to open '{}' for printing.", s->print_filename), Host::OSD_ERROR_DURATION); fmt::format(TRANSLATE_SV("USB", "Failed to open '{}' for printing."), s->print_filename),
Host::OSD_ERROR_DURATION);
return; return;
} }
Host::AddIconOSDMessage("USBPrinterOpen", ICON_FA_SAVE, Host::AddIconOSDMessage("USBPrinterOpen", ICON_FA_SAVE,
fmt::format("Printer saving to '{}'...", Path::GetFileName(s->print_filename)), Host::OSD_INFO_DURATION); fmt::format(TRANSLATE_SV("USB", "Printer saving to '{}'..."), Path::GetFileName(s->print_filename)),
Host::OSD_INFO_DURATION);
BMPHeader header = {0}; BMPHeader header = {0};
header.magic = 0x4D42; header.magic = 0x4D42;
@ -329,7 +331,7 @@ namespace usb_printer
const char* PrinterDevice::Name() const const char* PrinterDevice::Name() const
{ {
return "Printer"; return TRANSLATE_NOOP("USB", "Printer");
} }
const char* PrinterDevice::TypeName() const const char* PrinterDevice::TypeName() const

View File

@ -1541,7 +1541,8 @@ bool VMManager::DoSaveState(const char* filename, s32 slot_for_message, bool zip
if (!FileSystem::RenamePath(filename, backup_filename.c_str())) if (!FileSystem::RenamePath(filename, backup_filename.c_str()))
{ {
Host::AddIconOSDMessage(std::move(osd_key), ICON_FA_EXCLAMATION_TRIANGLE, Host::AddIconOSDMessage(std::move(osd_key), ICON_FA_EXCLAMATION_TRIANGLE,
fmt::format("Failed to back up old save state {}.", Path::GetFileName(filename)), fmt::format(
TRANSLATE_SV("VMManager", "Failed to back up old save state {}."), Path::GetFileName(filename)),
Host::OSD_ERROR_DURATION); Host::OSD_ERROR_DURATION);
} }
} }
@ -1564,7 +1565,8 @@ bool VMManager::DoSaveState(const char* filename, s32 slot_for_message, bool zip
catch (Exception::BaseException& e) catch (Exception::BaseException& e)
{ {
Host::AddIconOSDMessage(std::move(osd_key), ICON_FA_EXCLAMATION_TRIANGLE, Host::AddIconOSDMessage(std::move(osd_key), ICON_FA_EXCLAMATION_TRIANGLE,
fmt::format("Failed to save save state: {}.", e.DiagMsg()), Host::OSD_ERROR_DURATION); fmt::format(TRANSLATE_SV("VMManager", "Failed to save save state: {}."), e.DiagMsg()),
Host::OSD_ERROR_DURATION);
return false; return false;
} }
} }
@ -1578,13 +1580,17 @@ void VMManager::ZipSaveState(std::unique_ptr<ArchiveEntryList> elist,
if (SaveState_ZipToDisk(std::move(elist), std::move(screenshot), filename)) if (SaveState_ZipToDisk(std::move(elist), std::move(screenshot), filename))
{ {
if (slot_for_message >= 0 && VMManager::HasValidVM()) if (slot_for_message >= 0 && VMManager::HasValidVM())
{
Host::AddIconOSDMessage(std::move(osd_key), ICON_FA_SAVE, Host::AddIconOSDMessage(std::move(osd_key), ICON_FA_SAVE,
fmt::format("State saved to slot {}.", slot_for_message), Host::OSD_QUICK_DURATION); fmt::format(TRANSLATE_SV("VMManager", "State saved to slot {}."), slot_for_message),
Host::OSD_QUICK_DURATION);
}
} }
else else
{ {
Host::AddIconOSDMessage(std::move(osd_key), ICON_FA_EXCLAMATION_TRIANGLE, Host::AddIconOSDMessage(std::move(osd_key), ICON_FA_EXCLAMATION_TRIANGLE,
fmt::format("Failed to save save state to slot {}.", slot_for_message), Host::OSD_ERROR_DURATION); fmt::format(TRANSLATE_SV("VMManager", "Failed to save save state to slot {}."), slot_for_message,
Host::OSD_ERROR_DURATION));
} }
DevCon.WriteLn("Zipping save state to '%s' took %.2f ms", filename, timer.GetTimeMilliseconds()); DevCon.WriteLn("Zipping save state to '%s' took %.2f ms", filename, timer.GetTimeMilliseconds());
@ -1670,7 +1676,8 @@ bool VMManager::LoadStateFromSlot(s32 slot)
if (filename.empty()) if (filename.empty())
{ {
Host::AddIconOSDMessage("LoadStateFromSlot", ICON_FA_EXCLAMATION_TRIANGLE, Host::AddIconOSDMessage("LoadStateFromSlot", ICON_FA_EXCLAMATION_TRIANGLE,
fmt::format("There is no save state in slot {}.", slot), 5.0f); fmt::format(TRANSLATE_SV("VMManager", "There is no save state in slot {}."), slot),
Host::OSD_QUICK_DURATION);
return false; return false;
} }
@ -1682,7 +1689,7 @@ bool VMManager::LoadStateFromSlot(s32 slot)
#endif #endif
Host::AddIconOSDMessage("LoadStateFromSlot", ICON_FA_FOLDER_OPEN, Host::AddIconOSDMessage("LoadStateFromSlot", ICON_FA_FOLDER_OPEN,
fmt::format("Loading state from slot {}...", slot), Host::OSD_QUICK_DURATION); fmt::format(TRANSLATE_SV("VMManager", "Loading state from slot {}..."), slot), Host::OSD_QUICK_DURATION);
return DoLoadState(filename.c_str()); return DoLoadState(filename.c_str());
} }
@ -1698,8 +1705,8 @@ bool VMManager::SaveStateToSlot(s32 slot, bool zip_on_thread)
return false; return false;
// if it takes more than a minute.. well.. wtf. // if it takes more than a minute.. well.. wtf.
Host::AddIconOSDMessage( Host::AddIconOSDMessage(fmt::format("SaveStateSlot{}", slot), ICON_FA_SAVE,
fmt::format("SaveStateSlot{}", slot), ICON_FA_SAVE, fmt::format("Saving state to slot {}...", slot), 60.0f); fmt::format(TRANSLATE_SV("VMManager", "Saving state to slot {}..."), slot), 60.0f);
return DoSaveState(filename.c_str(), slot, zip_on_thread, EmuConfig.BackupSavestate); return DoSaveState(filename.c_str(), slot, zip_on_thread, EmuConfig.BackupSavestate);
} }
@ -1760,15 +1767,21 @@ bool VMManager::ChangeDisc(CDVD_SourceType source, std::string path)
if (result) if (result)
{ {
if (source == CDVD_SourceType::NoDisc) if (source == CDVD_SourceType::NoDisc)
Host::AddIconOSDMessage("ChangeDisc", ICON_FA_COMPACT_DISC, "Disc removed.", Host::OSD_INFO_DURATION); {
else Host::AddIconOSDMessage("ChangeDisc", ICON_FA_COMPACT_DISC, TRANSLATE_SV("VMManager", "Disc removed."),
Host::AddIconOSDMessage("ChangeDisc", ICON_FA_COMPACT_DISC, Host::OSD_INFO_DURATION);
fmt::format("Disc changed to '{}'.", display_name), Host::OSD_INFO_DURATION);
} }
else else
{ {
Host::AddIconOSDMessage("ChangeDisc", ICON_FA_COMPACT_DISC, Host::AddIconOSDMessage("ChangeDisc", ICON_FA_COMPACT_DISC,
fmt::format("Failed to open new disc image '{}'. Reverting to old image.", display_name), fmt::format(TRANSLATE_SV("VMManager", "Disc changed to '{}'."), display_name), Host::OSD_INFO_DURATION);
}
}
else
{
Host::AddIconOSDMessage("ChangeDisc", ICON_FA_COMPACT_DISC,
fmt::format(
TRANSLATE_SV("VMManager", "Failed to open new disc image '{}'. Reverting to old image."), display_name),
Host::OSD_ERROR_DURATION); Host::OSD_ERROR_DURATION);
CDVDsys_ChangeSource(old_type); CDVDsys_ChangeSource(old_type);
if (!old_path.empty()) if (!old_path.empty())
@ -1776,7 +1789,8 @@ bool VMManager::ChangeDisc(CDVD_SourceType source, std::string path)
if (!DoCDVDopen()) if (!DoCDVDopen())
{ {
Host::AddIconOSDMessage("ChangeDisc", ICON_FA_COMPACT_DISC, Host::AddIconOSDMessage("ChangeDisc", ICON_FA_COMPACT_DISC,
"Failed to switch back to old disc image. Removing disc.", Host::OSD_CRITICAL_ERROR_DURATION); TRANSLATE_SV("VMManager", "Failed to switch back to old disc image. Removing disc."),
Host::OSD_CRITICAL_ERROR_DURATION);
CDVDsys_ChangeSource(CDVD_SourceType::NoDisc); CDVDsys_ChangeSource(CDVD_SourceType::NoDisc);
DoCDVDopen(); DoCDVDopen();
} }
@ -2207,7 +2221,8 @@ void VMManager::EnforceAchievementsChallengeModeSettings()
if (EmuConfig.EnableCheats) if (EmuConfig.EnableCheats)
{ {
Host::AddKeyedOSDMessage("ChallengeDisableCheats", Host::AddKeyedOSDMessage("ChallengeDisableCheats",
"Cheats have been disabled due to achievements hardcore mode.", Host::OSD_WARNING_DURATION); TRANSLATE_STR("VMManager", "Cheats have been disabled due to achievements hardcore mode."),
Host::OSD_WARNING_DURATION);
EmuConfig.EnableCheats = false; EmuConfig.EnableCheats = false;
} }
@ -2251,52 +2266,95 @@ void VMManager::WarnAboutUnsafeSettings()
return; return;
std::string messages; std::string messages;
auto append = [&messages](const char* icon, const std::string_view& msg)
{
messages += icon;
messages += ' ';
messages += msg;
messages += '\n';
};
if (EmuConfig.Speedhacks.fastCDVD) if (EmuConfig.Speedhacks.fastCDVD)
messages += ICON_FA_COMPACT_DISC " Fast CDVD is enabled, this may break games.\n"; append(ICON_FA_COMPACT_DISC, TRANSLATE_SV("VMManager", "Fast CDVD is enabled, this may break games."));
if (EmuConfig.Speedhacks.EECycleRate != 0 || EmuConfig.Speedhacks.EECycleSkip != 0) if (EmuConfig.Speedhacks.EECycleRate != 0 || EmuConfig.Speedhacks.EECycleSkip != 0)
messages += {
ICON_FA_TACHOMETER_ALT " Cycle rate/skip is not at default, this may crash or make games run too slow.\n"; append(ICON_FA_TACHOMETER_ALT,
TRANSLATE_SV("VMManager", "Cycle rate/skip is not at default, this may crash or make games run too slow."));
}
if (EmuConfig.SPU2.SynchMode == Pcsx2Config::SPU2Options::SynchronizationMode::ASync) if (EmuConfig.SPU2.SynchMode == Pcsx2Config::SPU2Options::SynchronizationMode::ASync)
messages += ICON_FA_VOLUME_MUTE " Audio is using async mix, expect desynchronization in FMVs.\n"; {
append(ICON_FA_VOLUME_MUTE,
TRANSLATE_SV("VMManager", "Audio is using async mix, expect desynchronization in FMVs."));
}
if (EmuConfig.GS.UpscaleMultiplier < 1.0f) if (EmuConfig.GS.UpscaleMultiplier < 1.0f)
messages += ICON_FA_TV " Upscale multiplier is below native, this will break rendering.\n"; append(ICON_FA_TV, TRANSLATE_SV("VMManager", "Upscale multiplier is below native, this will break rendering."));
if (EmuConfig.GS.HWMipmap != HWMipmapLevel::Automatic) if (EmuConfig.GS.HWMipmap != HWMipmapLevel::Automatic)
messages += ICON_FA_IMAGES " Mipmapping is not set to automatic. This may break rendering in some games.\n"; {
append(ICON_FA_IMAGES,
TRANSLATE_SV("VMManager", "Mipmapping is not set to automatic. This may break rendering in some games."));
}
if (EmuConfig.GS.TextureFiltering != BiFiltering::PS2) if (EmuConfig.GS.TextureFiltering != BiFiltering::PS2)
messages += ICON_FA_FILTER {
" Texture filtering is not set to Bilinear (PS2). This will break rendering in some games.\n"; append(ICON_FA_FILTER,
TRANSLATE_SV("VMManager",
"Texture filtering is not set to Bilinear (PS2). This will break rendering in some games."));
}
if (EmuConfig.GS.TriFilter != TriFiltering::Automatic) if (EmuConfig.GS.TriFilter != TriFiltering::Automatic)
messages += {
ICON_FA_PAGER " Trilinear filtering is not set to automatic. This may break rendering in some games.\n"; append(
ICON_FA_PAGER, TRANSLATE_SV("VMManager",
"Trilinear filtering is not set to automatic. This may break rendering in some games."));
}
if (EmuConfig.GS.AccurateBlendingUnit <= AccBlendLevel::Minimum) if (EmuConfig.GS.AccurateBlendingUnit <= AccBlendLevel::Minimum)
messages += ICON_FA_BLENDER " Blending is below basic, this may break effects in some games.\n"; {
append(ICON_FA_BLENDER,
TRANSLATE_SV("VMManager", "Blending is below basic, this may break effects in some games."));
}
if (EmuConfig.GS.HWDownloadMode != GSHardwareDownloadMode::Enabled) if (EmuConfig.GS.HWDownloadMode != GSHardwareDownloadMode::Enabled)
messages += ICON_FA_DOWNLOAD {
" Hardware Download Mode is not set to Accurate, this may break rendering in some games.\n"; append(ICON_FA_DOWNLOAD,
TRANSLATE_SV(
"VMManager", "Hardware Download Mode is not set to Accurate, this may break rendering in some games."));
}
if (EmuConfig.Cpu.sseMXCSR.GetRoundMode() != SSEround_Chop) if (EmuConfig.Cpu.sseMXCSR.GetRoundMode() != SSEround_Chop)
messages += ICON_FA_MICROCHIP " EE FPU Round Mode is not set to default, this may break some games.\n"; {
append(ICON_FA_MICROCHIP,
TRANSLATE_SV("VMManager", "EE FPU Round Mode is not set to default, this may break some games."));
}
if (!EmuConfig.Cpu.Recompiler.fpuOverflow || EmuConfig.Cpu.Recompiler.fpuExtraOverflow || if (!EmuConfig.Cpu.Recompiler.fpuOverflow || EmuConfig.Cpu.Recompiler.fpuExtraOverflow ||
EmuConfig.Cpu.Recompiler.fpuFullMode) EmuConfig.Cpu.Recompiler.fpuFullMode)
messages += ICON_FA_MICROCHIP " EE FPU Clamp Mode is not set to default, this may break some games.\n"; {
append(ICON_FA_MICROCHIP,
TRANSLATE_SV("VMManager", "EE FPU Clamp Mode is not set to default, this may break some games."));
}
if (EmuConfig.Cpu.sseVU0MXCSR.GetRoundMode() != SSEround_Chop || if (EmuConfig.Cpu.sseVU0MXCSR.GetRoundMode() != SSEround_Chop ||
EmuConfig.Cpu.sseVU1MXCSR.GetRoundMode() != SSEround_Chop) EmuConfig.Cpu.sseVU1MXCSR.GetRoundMode() != SSEround_Chop)
messages += ICON_FA_MICROCHIP " VU Round Mode is not set to default, this may break some games.\n"; {
append(ICON_FA_MICROCHIP,
TRANSLATE_SV("VMManager", "VU Round Mode is not set to default, this may break some games."));
}
if (!EmuConfig.Cpu.Recompiler.vu0Overflow || EmuConfig.Cpu.Recompiler.vu0ExtraOverflow || if (!EmuConfig.Cpu.Recompiler.vu0Overflow || EmuConfig.Cpu.Recompiler.vu0ExtraOverflow ||
EmuConfig.Cpu.Recompiler.vu0SignOverflow || !EmuConfig.Cpu.Recompiler.vu1Overflow || EmuConfig.Cpu.Recompiler.vu0SignOverflow || !EmuConfig.Cpu.Recompiler.vu1Overflow ||
EmuConfig.Cpu.Recompiler.vu1ExtraOverflow || EmuConfig.Cpu.Recompiler.vu1SignOverflow) EmuConfig.Cpu.Recompiler.vu1ExtraOverflow || EmuConfig.Cpu.Recompiler.vu1SignOverflow)
{ {
messages += ICON_FA_MICROCHIP " VU Clamp Mode is not set to default, this may break some games.\n"; append(ICON_FA_MICROCHIP,
TRANSLATE_SV("VMManager", "VU Clamp Mode is not set to default, this may break some games."));
} }
if (!EmuConfig.EnableGameFixes) if (!EmuConfig.EnableGameFixes)
messages += ICON_FA_GAMEPAD " Game Fixes are not enabled. Compatibility with some games may be affected.\n"; {
append(ICON_FA_GAMEPAD,
TRANSLATE_SV("VMManager", "Game Fixes are not enabled. Compatibility with some games may be affected."));
}
if (!EmuConfig.EnablePatches) if (!EmuConfig.EnablePatches)
messages += {
ICON_FA_GAMEPAD " Compatibility Patches are not enabled. Compatibility with some games may be affected.\n"; append(ICON_FA_GAMEPAD,
TRANSLATE_SV(
"VMManager", "Compatibility Patches are not enabled. Compatibility with some games may be affected."));
}
if (EmuConfig.GS.FramerateNTSC != Pcsx2Config::GSOptions::DEFAULT_FRAME_RATE_NTSC) if (EmuConfig.GS.FramerateNTSC != Pcsx2Config::GSOptions::DEFAULT_FRAME_RATE_NTSC)
messages += ICON_FA_TV " Frame rate for NTSC is not default. This may break some games.\n"; append(ICON_FA_TV, TRANSLATE_SV("VMManager", "Frame rate for NTSC is not default. This may break some games."));
if (EmuConfig.GS.FrameratePAL != Pcsx2Config::GSOptions::DEFAULT_FRAME_RATE_PAL) if (EmuConfig.GS.FrameratePAL != Pcsx2Config::GSOptions::DEFAULT_FRAME_RATE_PAL)
messages += ICON_FA_TV " Frame rate for PAL is not default. This may break some games.\n"; append(ICON_FA_TV, TRANSLATE_SV("VMManager", "Frame rate for PAL is not default. This may break some games."));
if (!messages.empty()) if (!messages.empty())
{ {
@ -2313,33 +2371,65 @@ void VMManager::WarnAboutUnsafeSettings()
messages.clear(); messages.clear();
if (!EmuConfig.Cpu.Recompiler.EnableEE) if (!EmuConfig.Cpu.Recompiler.EnableEE)
messages += {
ICON_FA_EXCLAMATION_CIRCLE " EE Recompiler is not enabled, this will significantly reduce performance.\n"; append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "EE Recompiler is not enabled, this will significantly reduce performance."));
}
if (!EmuConfig.Cpu.Recompiler.EnableVU0) if (!EmuConfig.Cpu.Recompiler.EnableVU0)
messages += {
ICON_FA_EXCLAMATION_CIRCLE " VU0 Recompiler is not enabled, this will significantly reduce performance.\n"; append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "VU0 Recompiler is not enabled, this will significantly reduce performance."));
}
if (!EmuConfig.Cpu.Recompiler.EnableVU1) if (!EmuConfig.Cpu.Recompiler.EnableVU1)
messages += {
ICON_FA_EXCLAMATION_CIRCLE " VU1 Recompiler is not enabled, this will significantly reduce performance.\n"; append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "VU1 Recompiler is not enabled, this will significantly reduce performance."));
}
if (!EmuConfig.Cpu.Recompiler.EnableIOP) if (!EmuConfig.Cpu.Recompiler.EnableIOP)
messages += {
ICON_FA_EXCLAMATION_CIRCLE " IOP Recompiler is not enabled, this will significantly reduce performance.\n"; append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "IOP Recompiler is not enabled, this will significantly reduce performance."));
}
if (EmuConfig.Cpu.Recompiler.EnableEECache) if (EmuConfig.Cpu.Recompiler.EnableEECache)
messages += ICON_FA_EXCLAMATION_CIRCLE " EE Cache is enabled, this will significantly reduce performance.\n"; {
append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "EE Cache is enabled, this will significantly reduce performance."));
}
if (!EmuConfig.Speedhacks.WaitLoop) if (!EmuConfig.Speedhacks.WaitLoop)
messages += ICON_FA_EXCLAMATION_CIRCLE " EE Wait Loop Detection is not enabled, this may reduce performance.\n"; {
append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "EE Wait Loop Detection is not enabled, this may reduce performance."));
}
if (!EmuConfig.Speedhacks.IntcStat) if (!EmuConfig.Speedhacks.IntcStat)
messages += ICON_FA_EXCLAMATION_CIRCLE " INTC Spin Detection is not enabled, this may reduce performance.\n"; {
append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "INTC Spin Detection is not enabled, this may reduce performance."));
}
if (!EmuConfig.Speedhacks.vu1Instant) if (!EmuConfig.Speedhacks.vu1Instant)
messages += ICON_FA_EXCLAMATION_CIRCLE " Instant VU1 is disabled, this may reduce performance.\n"; {
append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "Instant VU1 is disabled, this may reduce performance."));
}
if (!EmuConfig.Speedhacks.vuFlagHack) if (!EmuConfig.Speedhacks.vuFlagHack)
messages += ICON_FA_EXCLAMATION_CIRCLE " mVU Flag Hack is not enabled, this may reduce performance.\n"; {
append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "mVU Flag Hack is not enabled, this may reduce performance."));
}
if (EmuConfig.GS.GPUPaletteConversion) if (EmuConfig.GS.GPUPaletteConversion)
messages += ICON_FA_EXCLAMATION_CIRCLE " GPU Palette Conversion is enabled, this may reduce performance.\n"; {
append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "GPU Palette Conversion is enabled, this may reduce performance."));
}
if (EmuConfig.GS.TexturePreloading != TexturePreloadingLevel::Full) if (EmuConfig.GS.TexturePreloading != TexturePreloadingLevel::Full)
messages += ICON_FA_EXCLAMATION_CIRCLE " Texture Preloading is not Full, this may reduce performance.\n"; {
append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "Texture Preloading is not Full, this may reduce performance."));
}
if (EmuConfig.GS.UserHacks_EstimateTextureRegion) if (EmuConfig.GS.UserHacks_EstimateTextureRegion)
messages += ICON_FA_EXCLAMATION_CIRCLE " Estimate texture region is enabled, this may reduce performance.\n"; {
append(ICON_FA_EXCLAMATION_CIRCLE,
TRANSLATE_SV("VMManager", "Estimate texture region is enabled, this may reduce performance."));
}
if (!messages.empty()) if (!messages.empty())
{ {