Files
RP412/RP_L4/RPL4CONSOLE.cpp
T
CydandClaude Fable 5 8d7373974f Results screen between race and menu
After a console-marshaled race ends, the race loop now shows a RACE
RESULTS screen (place / pilot / final score, sorted descending, with a
CONTINUE button) before returning to the setup menu. Scores come from
the local console's intake; single-player rows carry the pilot's own
name, additional pods show their host number until the Steam roster
maps IDs to personas.

The setup menu also keeps the player's selections and pilot name across
races now instead of resetting to defaults each cycle.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-12 19:05:55 -05:00

217 lines
6.0 KiB
C++

#include "..\munga_l4\mungal4.h"
#pragma hdrstop
#include "rpl4console.h"
#include "rpl4fe.h"
#include "..\munga\appmgr.h"
#include "..\munga\appmsg.h"
#include "..\rp\rpcnsl.h"
#include "..\munga_l4\l4app.h"
#include "..\munga_l4\l4net.h"
//########################################################################
// The local console runs on ITS OWN THREAD, like the real console: it
// stays alive across the whole session, owns the mission clock, and
// raises the stop request when the selected length expires. The game
// thread's per-frame tick is the only place engine calls happen - it
// reports state transitions to the console thread and executes the
// requested StopMissionMessage dispatch (the engine is single
// threaded; cross-thread dispatch is not safe).
//
// Results flow in through gConsoleScoreSink (RP layer): the same final
// scores RPPlayer sent the arcade console at mission end.
//########################################################################
namespace
{
enum ConsolePhase
{
PhaseWaiting = 0, // waiting for the mission to start running
PhaseRunning, // mission running, console thread watching the clock
PhaseStopped // stop dispatched, waiting for teardown
};
ConsolePhase gPhase = PhaseWaiting;
int gMissionSeconds = 0;
Application *gWatchedApp = NULL;
HANDLE gConsoleThread = NULL;
// shared with the console thread
volatile LONG gMissionRunning = 0;
volatile LONG gStopRequested = 0;
volatile LONG gShuttingDown = 0;
volatile LONG gRunStartTick = 0;
volatile LONG gLengthMs = 0;
// collected mission results (this session's last race)
enum { maxResults = 16 };
struct FinalScore
{
int hostID;
int score;
};
FinalScore gResults[maxResults];
int gResultCount = 0;
//---------------------------------------------------------------
// The console thread: the mission clock lives here
//---------------------------------------------------------------
DWORD WINAPI ConsoleThreadProc(LPVOID)
{
while (!gShuttingDown)
{
Sleep(250);
if (gMissionRunning && !gStopRequested)
{
LONG length_ms = gLengthMs;
if (length_ms > 0 &&
(LONG)(GetTickCount() - (DWORD) gRunStartTick) >= length_ms)
{
InterlockedExchange(&gStopRequested, 1);
}
}
}
return 0;
}
//---------------------------------------------------------------
// Final-score intake (called on the game thread from RPPlayer's
// mission-ending path, via the RP-layer sink)
//---------------------------------------------------------------
void CollectFinalScore(int host_ID, int score)
{
if (gResultCount < maxResults)
{
gResults[gResultCount].hostID = host_ID;
gResults[gResultCount].score = score;
++gResultCount;
}
DEBUG_STREAM << "LocalConsole: final score, host " << host_ID
<< " = " << score << "\n" << std::flush;
}
//---------------------------------------------------------------
// The game-thread tick: state reporting + engine-safe execution
//---------------------------------------------------------------
void ConsoleTick()
{
if (application == NULL)
{
return;
}
if (gPhase != PhaseWaiting && application != gWatchedApp)
{
return;
}
int state = application->GetApplicationState();
switch (gPhase)
{
case PhaseWaiting:
if (state == Application::RunningMission)
{
gPhase = PhaseRunning;
gWatchedApp = application;
gResultCount = 0;
InterlockedExchange(&gRunStartTick, (LONG) GetTickCount());
InterlockedExchange(&gStopRequested, 0);
InterlockedExchange(&gMissionRunning, 1);
DEBUG_STREAM << "LocalConsole: mission running, length "
<< gMissionSeconds << "s\n" << std::flush;
}
break;
case PhaseRunning:
if (state != Application::RunningMission)
{
// mission ended some other way (pilot exit etc.)
InterlockedExchange(&gMissionRunning, 0);
gPhase = PhaseStopped;
}
else if (gStopRequested)
{
//-----------------------------------------------------
// The console clock expired: end the race exactly the
// way the arcade console did, otherwise the mission
// clock rolls past 00:00 and counts up forever.
//-----------------------------------------------------
DEBUG_STREAM << "LocalConsole: time expired - stopping mission\n" << std::flush;
InterlockedExchange(&gMissionRunning, 0);
Application::StopMissionMessage message(0);
application->Dispatch(&message);
gPhase = PhaseStopped;
}
break;
case PhaseStopped:
// The application tears itself down after a stop (arcade
// pods were relaunched per mission). WinMain's race loop
// asks MissionCompleted() and cycles back to the setup
// screen in the same process.
break;
}
}
}
void
RPL4LocalConsole_Install(int mission_seconds)
{
// debug: L4CONSOLELEN overrides the mission length (test races)
const char *override_string = getenv("L4CONSOLELEN");
if (override_string != NULL && atoi(override_string) > 0)
{
mission_seconds = atoi(override_string);
DEBUG_STREAM << "LocalConsole: L4CONSOLELEN override, "
<< mission_seconds << "s\n" << std::flush;
}
gMissionSeconds = mission_seconds;
InterlockedExchange(&gLengthMs, (LONG) mission_seconds * 1000);
gPhase = PhaseWaiting;
gWatchedApp = NULL;
// game-thread execution point
gPerFrameHook = &ConsoleTick;
// results intake from the RP layer
gConsoleScoreSink = &CollectFinalScore;
// the console itself lives on its own thread, like the real one
if (gConsoleThread == NULL)
{
gConsoleThread = CreateThread(
NULL, 0, ConsoleThreadProc, NULL, 0, NULL);
}
DEBUG_STREAM << "LocalConsole: installed (length "
<< mission_seconds << "s, console thread "
<< (gConsoleThread != NULL ? "up" : "FAILED") << ")\n" << std::flush;
}
Logical
RPL4LocalConsole_MissionCompleted()
{
return gPhase == PhaseStopped;
}
int
RPL4LocalConsole_ResultCount()
{
return gResultCount;
}
Logical
RPL4LocalConsole_GetResult(int index, int *host_ID, int *score)
{
if (index < 0 || index >= gResultCount)
{
return False;
}
*host_ID = gResults[index].hostID;
*score = gResults[index].score;
return True;
}