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oot/src/code/audio_thread_manager.c
cadmic d2aca2239f
[ntsc-1.2] Match a bunch of small stuff (#2094) 
* Match z_fbdemo_wipe1.c

* Fix gDPSetTileCustom

* Match z_eff_ss_dead.c

* Match src/code/audio_thread_manager.c

* Match z_parameter.c

* Match KaleidoScope_DrawWorldMap

* Format

* 1 -> AUDIOMGR_DEBUG_LEVEL_NO_RSP

* Actually match KaleidoScope_DrawWorldMap

* Add comment on duplicate code

* Revert "Fix gDPSetTileCustom"

This reverts commit de09338d92.
2024-08-27 09:33:20 +02:00

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/**
* @file audio_thread_manager.c
*
* This file implements basic thread features for the audio driver. It manages updating the driver on vertical retrace
* and sending the audio rsp tasks generated by the driver to the task scheduler.
*/
#include "global.h"
void AudioMgr_NotifyTaskDone(AudioMgr* audioMgr) {
AudioTask* task = audioMgr->rspTask;
// If the audio rsp task has a message queue to receive task done notifications, post a message to it.
if (audioMgr->rspTask->msgQueue != NULL) {
osSendMesg(task->msgQueue, NULL, OS_MESG_BLOCK);
}
}
/**
* Handle retrace event.
* Update the audio driver and schedule audio rsp tasks.
*/
void AudioMgr_HandleRetrace(AudioMgr* audioMgr) {
AudioTask* rspTask;
if (R_AUDIOMGR_DEBUG_LEVEL > AUDIOMGR_DEBUG_LEVEL_NONE) {
// Inhibit audio rsp task processing
audioMgr->rspTask = NULL;
}
if (audioMgr->rspTask != NULL) {
// Got an rsp task to process, build the OSScTask and forward it to the scheduler to run
audioMgr->audioTask.next = NULL;
audioMgr->audioTask.flags = OS_SC_NEEDS_RSP;
audioMgr->audioTask.framebuffer = NULL;
audioMgr->audioTask.list = audioMgr->rspTask->task;
audioMgr->audioTask.msgQueue = &audioMgr->taskDoneQueue;
audioMgr->audioTask.msg = NULL;
osSendMesg(&audioMgr->sched->cmdQueue, (OSMesg)&audioMgr->audioTask, OS_MESG_BLOCK);
Sched_Notify(audioMgr->sched);
}
// Update the audio driver
gAudioThreadUpdateTimeStart = osGetTime();
if (R_AUDIOMGR_DEBUG_LEVEL >= AUDIOMGR_DEBUG_LEVEL_NO_UPDATE) {
// Skip update, no rsp task produced
rspTask = NULL;
} else {
rspTask = AudioThread_Update();
}
gAudioThreadUpdateTimeAcc += osGetTime() - gAudioThreadUpdateTimeStart;
gAudioThreadUpdateTimeStart = 0;
if (audioMgr->rspTask != NULL) {
// Wait for the audio rsp task scheduled on the previous retrace to complete. This looks like it should wait
// for the task scheduled on the current retrace, earlier in this function, but since the queue is initially
// filled in AudioMgr_Init this osRecvMesg call doesn't wait for the task scheduler to post a message for the
// most recent task as there is already a message waiting.
osRecvMesg(&audioMgr->taskDoneQueue, NULL, OS_MESG_BLOCK);
// Report task done
//! @bug As the above osRecvMesg is waiting for the previous task to complete rather than the current task,
//! the task done notification is sent to the task done queue for the current task as soon as the previous task
//! is completed, without waiting for the current task.
//! In practice, task done notifications are not used by the audio driver so this is inconsequential.
AudioMgr_NotifyTaskDone(audioMgr);
}
// Update rsp task to be scheduled on next retrace
audioMgr->rspTask = rspTask;
}
/**
* Handle Pre-NMI event.
* Implemented by the audio driver.
*
* @see Audio_PreNMI
*/
void AudioMgr_HandlePreNMI(AudioMgr* audioMgr) {
PRINTF(
T("オーディオマネージャが OS_SC_PRE_NMI_MSG を受け取りました\n", "Audio manager received OS_SC_PRE_NMI_MSG\n"));
Audio_PreNMI();
}
void AudioMgr_ThreadEntry(void* arg) {
AudioMgr* audioMgr = (AudioMgr*)arg;
IrqMgrClient irqClient;
s16* msg = NULL;
PRINTF(T("オーディオマネージャスレッド実行開始\n", "Start running audio manager thread\n"));
// Initialize audio driver
Audio_Init();
AudioLoad_SetDmaHandler(DmaMgr_AudioDmaHandler);
Audio_InitSound();
// Fill init queue to signal that the audio driver is initialized
osSendMesg(&audioMgr->initQueue, NULL, OS_MESG_BLOCK);
IrqMgr_AddClient(audioMgr->irqMgr, &irqClient, &audioMgr->interruptQueue);
// Spin waiting for events
for (;;) {
osRecvMesg(&audioMgr->interruptQueue, (OSMesg*)&msg, OS_MESG_BLOCK);
switch (*msg) {
case OS_SC_RETRACE_MSG:
AudioMgr_HandleRetrace(audioMgr);
// Empty the interrupt queue
while (!MQ_IS_EMPTY(&audioMgr->interruptQueue)) {
osRecvMesg(&audioMgr->interruptQueue, (OSMesg*)&msg, OS_MESG_BLOCK);
switch (*msg) {
case OS_SC_RETRACE_MSG:
// Don't process a retrace more than once in quick succession
break;
case OS_SC_PRE_NMI_MSG:
// Always handle Pre-NMI
AudioMgr_HandlePreNMI(audioMgr);
break;
}
}
break;
case OS_SC_PRE_NMI_MSG:
AudioMgr_HandlePreNMI(audioMgr);
break;
}
}
}
/**
* Stalls the current thread until the audio thread is sufficiently initialized.
*
* Note this function only works once. After the first call the message that the audio thread posted to the init queue
* will have been removed, subsequent calls to this function will block indefinitely as the audio thread does not refill
* the queue.
*/
void AudioMgr_WaitForInit(AudioMgr* audioMgr) {
osRecvMesg(&audioMgr->initQueue, NULL, OS_MESG_BLOCK);
}
void AudioMgr_Init(AudioMgr* audioMgr, void* stack, OSPri pri, OSId id, Scheduler* sched, IrqMgr* irqMgr) {
bzero(audioMgr, sizeof(AudioMgr));
audioMgr->sched = sched;
audioMgr->irqMgr = irqMgr;
audioMgr->rspTask = NULL;
#if PLATFORM_N64
R_AUDIOMGR_DEBUG_LEVEL = AUDIOMGR_DEBUG_LEVEL_NO_RSP;
#endif
osCreateMesgQueue(&audioMgr->taskDoneQueue, &audioMgr->taskDoneMsg, 1);
osCreateMesgQueue(&audioMgr->interruptQueue, audioMgr->interruptMsgBuf, ARRAY_COUNT(audioMgr->interruptMsgBuf));
osCreateMesgQueue(&audioMgr->initQueue, &audioMgr->initMsg, 1);
// Send a message to the task done queue so it is initially full
osSendMesg(&audioMgr->taskDoneQueue, NULL, OS_MESG_BLOCK);
osCreateThread(&audioMgr->thread, id, AudioMgr_ThreadEntry, audioMgr, stack, pri);
osStartThread(&audioMgr->thread);
}
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