Ported from RP412: RIOBase split out of the serial RIO (L4RIO.h), rioPointer is RIOBase* (L4CTRL.h), PAD token -> new PadRIO() speaking the RIO surface from an XInput pad + keyboard (L4PADRIO/L4PADBINDINGS, vRIO bindings.txt grammar, hot-plug), KeyLight RGB mirror TU (BT412KEYLIGHT, /std:c++17 per-file). BT-side fixes PadRIO forced into the open: - Both keyboard input bridges (mech4.cpp, mechmppr.cpp BT_KEY_BRIDGE) stand down when a RIO device exists -- they overwrote the engine controls push every frame. M/X conveniences stay live. - Mapper attribute chain OFF BY ONE (latent real-pod bug): the DOS chain below MechControlsMapper carried two base attributes, WinTesla carries one, and AttributeIndexSet::Find is positional -- the .CTL stick mapping wrote throttlePosition. Pad slot + binary-locked enum; gotcha ledgered (reconstruction-gotchas #11). Verified: PAD throttle lever ramps + sticks, stick turns with the authentic speed-vs-turn clamp (61.5 -> 22.0 u/s), mech drives; keyboard fallback intact (BT_FORCE_THROTTLE harness). New diags: BT_CTRLMAP_LOG, BT_STICK_LOG. (Phase 2 of docs/BT412-ROADMAP.md) Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
398 lines
9.2 KiB
C++
398 lines
9.2 KiB
C++
//===========================================================================//
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// L4KEYLIGHT.cpp - Windows Dynamic Lighting keyboard mirror.
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//
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// COMPILED APART FROM THE ENGINE: /std:c++17, DEFAULT struct packing,
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// conformance mode (see the per-file settings in Munga_L4.vcxproj).
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// No engine headers may be included here - the engine compiles /Zp1
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// and its types would take a different layout in this translation
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// unit. The l4keylight.h interface is scalars only for that reason.
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//
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// Everything WinRT runs on a private worker thread: device watcher,
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// keyboard claiming, and a 100 ms paint loop that mirrors the lamp
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// bytes (same flash formula as the on-screen cockpit buttons in
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// L4MFDVIEW, so the board and the screen blink in step).
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//===========================================================================//
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#include <windows.h>
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#include <atomic>
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#include <mutex>
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#include <thread>
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#include <vector>
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#include <cstring>
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#include <cstdio>
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#include <winrt/base.h>
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#include <winrt/Windows.Foundation.h>
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#include <winrt/Windows.Foundation.Collections.h>
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#include <winrt/Windows.Devices.Enumeration.h>
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#include <winrt/Windows.Devices.Lights.h>
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#include <winrt/Windows.System.h>
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#include <winrt/Windows.UI.h>
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#pragma comment(lib, "windowsapp.lib")
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#include "l4keylight.h"
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namespace
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{
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using namespace winrt;
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using namespace winrt::Windows::Devices::Enumeration;
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using namespace winrt::Windows::Devices::Lights;
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using winrt::Windows::UI::Color;
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using winrt::Windows::System::VirtualKey;
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struct KeyEntry
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{
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int virtualKey;
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int address;
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bool yellow;
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};
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struct ClaimedArray
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{
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hstring id;
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LampArray array{ nullptr };
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bool perKey = false;
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bool baseCoated = false;
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};
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std::mutex gLock;
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std::vector<KeyEntry> gMap;
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unsigned char gLamps[64] = {};
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void (*gLogger)(const char *) = nullptr;
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std::atomic<bool> gRunning{ false };
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std::thread gWorker;
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void Log(const char *line)
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{
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void (*logger)(const char *);
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{
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std::lock_guard<std::mutex> hold(gLock);
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logger = gLogger;
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}
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if (logger != nullptr)
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{
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logger(line);
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}
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}
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void Logf(const char *format, ...)
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{
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char line[256];
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va_list args;
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va_start(args, format);
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_vsnprintf_s(line, sizeof(line), _TRUNCATE, format, args);
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va_end(args);
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Log(line);
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}
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//---------------------------------------------------------------
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// Lamp byte -> brightness level 0-3, animating the flash modes.
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// Identical to LampLevel in L4MFDVIEW.cpp so the keyboard and the
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// on-screen buttons blink together.
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//---------------------------------------------------------------
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int LampLevel(int lamp_state)
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{
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int mode = lamp_state & 0x03;
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int level1 = (lamp_state >> 2) & 0x03;
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int level2 = (lamp_state >> 4) & 0x03;
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if (mode == 0)
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{
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return level1;
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}
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static const int half_period[4] = { 0, 500, 250, 125 };
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return ((GetTickCount() / half_period[mode]) & 1) ? level2 : level1;
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}
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//---------------------------------------------------------------
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// The panel palette (vRIO's KeyboardLampMirror shades): red for
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// the banks, yellow for Secondary/Screen; the off shade keeps the
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// bound keys faintly visible so the board reads as a button field.
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//---------------------------------------------------------------
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Color Shade(int level, bool yellow)
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{
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Color color;
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color.A = 255;
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if (yellow)
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{
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if (level >= 3) { color.R = 245; color.G = 210; color.B = 60; }
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else if (level >= 1) { color.R = 140; color.G = 118; color.B = 38; }
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else { color.R = 70; color.G = 60; color.B = 24; }
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}
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else
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{
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if (level >= 3) { color.R = 230; color.G = 70; color.B = 70; }
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else if (level >= 1) { color.R = 120; color.G = 50; color.B = 50; }
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else { color.R = 64; color.G = 40; color.B = 40; }
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}
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return color;
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}
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bool SameColor(const Color &a, const Color &b)
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{
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return a.A == b.A && a.R == b.R && a.G == b.G && a.B == b.B;
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}
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//---------------------------------------------------------------
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// The worker: watcher + claim + paint loop
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//---------------------------------------------------------------
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void Worker()
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{
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try
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{
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init_apartment();
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}
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catch (...)
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{
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// apartment already set on this thread; carry on
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}
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std::mutex claimedLock;
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std::vector<ClaimedArray> claimed;
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bool anySeen = false;
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DeviceWatcher watcher{ nullptr };
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try
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{
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watcher = DeviceInformation::CreateWatcher(LampArray::GetDeviceSelector());
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watcher.Added([&](DeviceWatcher const &, DeviceInformation const &info)
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{
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try
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{
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LampArray array = LampArray::FromIdAsync(info.Id()).get();
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if (array == nullptr ||
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array.LampArrayKind() != LampArrayKind::Keyboard)
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{
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return; // mice / strips / cases stay untouched
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}
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anySeen = true;
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ClaimedArray entry;
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entry.id = info.Id();
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entry.array = array;
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entry.perKey = array.SupportsVirtualKeys();
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{
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std::lock_guard<std::mutex> hold(claimedLock);
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claimed.push_back(entry);
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}
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Logf(entry.perKey
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? "KeyLight: + %ls (%d LEDs, per-key)"
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: "KeyLight: + %ls (%d zones - board-wide mirror)",
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info.Name().c_str(), (int) array.LampCount());
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}
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catch (...)
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{
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Log("KeyLight: could not open a lamp array");
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}
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});
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watcher.Removed([&](DeviceWatcher const &, DeviceInformationUpdate const &update)
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{
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std::lock_guard<std::mutex> hold(claimedLock);
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for (size_t i = 0; i < claimed.size(); ++i)
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{
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if (claimed[i].id == update.Id())
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{
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claimed.erase(claimed.begin() + i);
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Log("KeyLight: keyboard disconnected");
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break;
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}
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}
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});
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watcher.Updated([](DeviceWatcher const &, DeviceInformationUpdate const &)
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{
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// required for the watcher to progress
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});
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watcher.Start();
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}
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catch (...)
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{
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Log("KeyLight: Dynamic Lighting unavailable on this system");
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return;
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}
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//
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// Paint loop: 100 ms cadence, repaint only on change
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//
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std::vector<Color> lastColors;
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int waited = 0;
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while (gRunning.load())
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{
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Sleep(50);
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waited += 50;
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if (waited < 100)
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{
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continue;
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}
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waited = 0;
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std::vector<KeyEntry> map;
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unsigned char lamps[64];
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{
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std::lock_guard<std::mutex> hold(gLock);
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map = gMap;
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memcpy(lamps, gLamps, sizeof(lamps));
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}
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std::vector<Color> colors(map.size());
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std::vector<VirtualKey> keys(map.size());
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int bestLevel = 0;
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bool bestYellow = false;
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bool changed = (lastColors.size() != map.size());
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for (size_t i = 0; i < map.size(); ++i)
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{
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int address = map[i].address;
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int level = (address >= 0 && address < 64)
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? LampLevel(lamps[address]) : 0;
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if (level > bestLevel)
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{
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bestLevel = level;
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bestYellow = map[i].yellow;
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}
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colors[i] = Shade(level, map[i].yellow);
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keys[i] = (VirtualKey) map[i].virtualKey;
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if (!changed && !SameColor(colors[i], lastColors[i]))
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{
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changed = true;
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}
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}
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std::lock_guard<std::mutex> hold(claimedLock);
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bool freshClaim = false;
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for (ClaimedArray &entry : claimed)
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{
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if (!entry.baseCoated)
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{
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freshClaim = true;
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}
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}
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if (!changed && !freshClaim)
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{
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continue;
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}
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Color aggregate = Shade(bestLevel, bestYellow);
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for (ClaimedArray &entry : claimed)
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{
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try
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{
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if (entry.perKey)
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{
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if (!entry.baseCoated)
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{
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Color black;
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black.A = 255; black.R = 0; black.G = 0; black.B = 0;
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entry.array.SetColor(black);
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entry.baseCoated = true;
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}
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if (!map.empty())
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{
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entry.array.SetColorsForKeys(
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array_view<Color const>(colors.data(), colors.data() + colors.size()),
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array_view<VirtualKey const>(keys.data(), keys.data() + keys.size()));
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}
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}
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else
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{
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entry.baseCoated = true;
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entry.array.SetColor(aggregate);
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}
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}
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catch (...)
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{
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// device wobble; the watcher handles removal
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}
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}
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lastColors = colors;
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}
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//
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// Releasing the arrays hands the LEDs back to Windows
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//
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try
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{
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watcher.Stop();
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}
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catch (...)
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{
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}
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{
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std::lock_guard<std::mutex> hold(claimedLock);
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claimed.clear();
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}
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if (!anySeen)
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{
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Log("KeyLight: no Dynamic Lighting keyboard was found this session");
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}
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}
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}
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//########################################################################
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// The scalar interface (safe across the packing boundary)
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//########################################################################
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void
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KeyLight_SetLogger(void (*logger)(const char *line))
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{
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std::lock_guard<std::mutex> hold(gLock);
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gLogger = logger;
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}
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void
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KeyLight_SetMap(
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const int *virtual_keys,
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const int *addresses,
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const unsigned char *yellow,
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int count
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)
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{
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std::lock_guard<std::mutex> hold(gLock);
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gMap.clear();
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gMap.reserve(count);
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for (int i = 0; i < count; ++i)
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{
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KeyEntry entry;
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entry.virtualKey = virtual_keys[i];
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entry.address = addresses[i];
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entry.yellow = (yellow[i] != 0);
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gMap.push_back(entry);
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}
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}
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void
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KeyLight_UpdateLamps(const unsigned char *lamp_state, int count)
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{
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if (count > 64)
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{
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count = 64;
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}
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std::lock_guard<std::mutex> hold(gLock);
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memcpy(gLamps, lamp_state, count);
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}
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void
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KeyLight_Start()
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{
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if (gRunning.exchange(true))
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{
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return;
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}
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gWorker = std::thread(Worker);
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}
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void
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KeyLight_Stop()
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{
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if (!gRunning.exchange(false))
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{
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return;
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}
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if (gWorker.joinable())
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{
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gWorker.join();
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}
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}
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