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3b4f2a11296aac483e23b7f694d95c3a6db39da2
crosspoint-reader-mod/src/activities/ActivityManager.cpp
GenesiaW 3b4f2a1129 feat: Auto Page Turn for Epub Reader (#1219) 
## Summary

* **What is the goal of this PR?** (e.g., Implements the new feature for
file uploading.)
- Implements auto page turn feature for epub reader in the reader
submenu

* **What changes are included?**
  - added auto page turn feature in epub reader in the submenu
  - currently there are 5 settings, `OFF, 1, 3, 6, 12` pages per minute

## Additional Context
* Add any other information that might be helpful for the reviewer
(e.g., performance implications, potential risks,
  specific areas to focus on).
  - Replacement PR for #723 
- when auto turn is enabled, space reserved for chapter title will be
used to indicate auto page turn being active
  - Back and Confirm button is used to disable it

---

### AI Usage

While CrossPoint doesn't have restrictions on AI tools in contributing,
please be transparent about their usage as it
helps set the right context for reviewers.

Did you use AI tools to help write this code? _**Partially (mainly code
reviews)**_
2026-02-27 22:42:41 +03:00

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#include "ActivityManager.h"
#include <HalPowerManager.h>
#include "boot_sleep/BootActivity.h"
#include "boot_sleep/SleepActivity.h"
#include "browser/OpdsBookBrowserActivity.h"
#include "home/HomeActivity.h"
#include "home/MyLibraryActivity.h"
#include "home/RecentBooksActivity.h"
#include "network/CrossPointWebServerActivity.h"
#include "reader/ReaderActivity.h"
#include "settings/SettingsActivity.h"
#include "util/FullScreenMessageActivity.h"
void ActivityManager::begin() {
xTaskCreate(&renderTaskTrampoline, "ActivityManagerRender",
8192, // Stack size
this, // Parameters
1, // Priority
&renderTaskHandle // Task handle
);
assert(renderTaskHandle != nullptr && "Failed to create render task");
}
void ActivityManager::renderTaskTrampoline(void* param) {
auto* self = static_cast<ActivityManager*>(param);
self->renderTaskLoop();
}
void ActivityManager::renderTaskLoop() {
while (true) {
ulTaskNotifyTake(pdTRUE, portMAX_DELAY);
// Acquire the lock before reading currentActivity to avoid a TOCTOU race
// where the main task deletes the activity between the null-check and render().
RenderLock lock;
if (currentActivity) {
HalPowerManager::Lock powerLock; // Ensure we don't go into low-power mode while rendering
currentActivity->render(std::move(lock));
}
}
}
void ActivityManager::loop() {
if (currentActivity) {
// Note: do not hold a lock here, the loop() method must be responsible for acquire one if needed
currentActivity->loop();
}
while (pendingAction != PendingAction::None) {
if (pendingAction == PendingAction::Pop) {
RenderLock lock;
if (!currentActivity) {
// Should never happen in practice
LOG_ERR("ACT", "Pop set but currentActivity is null; ignoring pop request");
pendingAction = PendingAction::None;
continue;
}
ActivityResult pendingResult = std::move(currentActivity->result);
// Destroy the current activity
exitActivity(lock);
pendingAction = PendingAction::None;
if (stackActivities.empty()) {
LOG_DBG("ACT", "No more activities on stack, going home");
lock.unlock(); // goHome may acquire its own lock
goHome();
continue; // Will launch goHome immediately
} else {
currentActivity = std::move(stackActivities.back());
stackActivities.pop_back();
LOG_DBG("ACT", "Popped from activity stack, new size = %zu", stackActivities.size());
// Handle result if necessary
if (currentActivity->resultHandler) {
LOG_DBG("ACT", "Handling result for popped activity");
// Move it here to avoid the case where handler calling another startActivityForResult()
auto handler = std::move(currentActivity->resultHandler);
currentActivity->resultHandler = nullptr;
lock.unlock(); // Handler may acquire its own lock
handler(pendingResult);
}
// Request an update to ensure the popped activity gets re-rendered
if (pendingAction == PendingAction::None) {
requestUpdate();
}
// Handler may request another pending action, we will handle it in the next loop iteration
continue;
}
} else if (pendingActivity) {
// Current activity has requested a new activity to be launched
RenderLock lock;
if (pendingAction == PendingAction::Replace) {
// Destroy the current activity
exitActivity(lock);
// Clear the stack
while (!stackActivities.empty()) {
stackActivities.back()->onExit();
stackActivities.pop_back();
}
} else if (pendingAction == PendingAction::Push) {
// Move current activity to stack
stackActivities.push_back(std::move(currentActivity));
LOG_DBG("ACT", "Pushed to activity stack, new size = %zu", stackActivities.size());
}
pendingAction = PendingAction::None;
currentActivity = std::move(pendingActivity);
lock.unlock(); // onEnter may acquire its own lock
currentActivity->onEnter();
// onEnter may request another pending action, we will handle it in the next loop iteration
continue;
}
}
if (requestedUpdate) {
requestedUpdate = false;
// Using direct notification to signal the render task to update
// Increment counter so multiple rapid calls won't be lost
if (renderTaskHandle) {
xTaskNotify(renderTaskHandle, 1, eIncrement);
}
}
}
void ActivityManager::exitActivity(const RenderLock& lock) {
// Note: lock must be held by the caller
if (currentActivity) {
currentActivity->onExit();
currentActivity.reset();
}
}
void ActivityManager::replaceActivity(std::unique_ptr<Activity>&& newActivity) {
// Note: no lock here, this is usually called by loop() and we may run into deadlock
if (currentActivity) {
// Defer launch if we're currently in an activity, to avoid deleting the current activity
// leading to the "delete this" problem
pendingActivity = std::move(newActivity);
pendingAction = PendingAction::Replace;
} else {
// No current activity, safe to launch immediately
currentActivity = std::move(newActivity);
currentActivity->onEnter();
}
}
void ActivityManager::goToFileTransfer() {
replaceActivity(std::make_unique<CrossPointWebServerActivity>(renderer, mappedInput));
}
void ActivityManager::goToSettings() { replaceActivity(std::make_unique<SettingsActivity>(renderer, mappedInput)); }
void ActivityManager::goToMyLibrary(std::string path) {
replaceActivity(std::make_unique<MyLibraryActivity>(renderer, mappedInput, std::move(path)));
}
void ActivityManager::goToRecentBooks() {
replaceActivity(std::make_unique<RecentBooksActivity>(renderer, mappedInput));
}
void ActivityManager::goToBrowser() {
replaceActivity(std::make_unique<OpdsBookBrowserActivity>(renderer, mappedInput));
}
void ActivityManager::goToReader(std::string path) {
replaceActivity(std::make_unique<ReaderActivity>(renderer, mappedInput, std::move(path)));
}
void ActivityManager::goToSleep() {
replaceActivity(std::make_unique<SleepActivity>(renderer, mappedInput));
loop(); // Important: sleep screen must be rendered immediately, the caller will go to sleep right after this returns
}
void ActivityManager::goToBoot() { replaceActivity(std::make_unique<BootActivity>(renderer, mappedInput)); }
void ActivityManager::goToFullScreenMessage(std::string message, EpdFontFamily::Style style) {
replaceActivity(std::make_unique<FullScreenMessageActivity>(renderer, mappedInput, std::move(message), style));
}
void ActivityManager::goHome() { replaceActivity(std::make_unique<HomeActivity>(renderer, mappedInput)); }
void ActivityManager::pushActivity(std::unique_ptr<Activity>&& activity) {
if (pendingActivity) {
// Should never happen in practice
LOG_ERR("ACT", "pendingActivity while pushActivity is not expected");
pendingActivity.reset();
}
pendingActivity = std::move(activity);
pendingAction = PendingAction::Push;
}
void ActivityManager::popActivity() {
if (pendingActivity) {
// Should never happen in practice
LOG_ERR("ACT", "pendingActivity while popActivity is not expected");
pendingActivity.reset();
}
pendingAction = PendingAction::Pop;
}
bool ActivityManager::preventAutoSleep() const { return currentActivity && currentActivity->preventAutoSleep(); }
bool ActivityManager::isReaderActivity() const { return currentActivity && currentActivity->isReaderActivity(); }
bool ActivityManager::skipLoopDelay() const { return currentActivity && currentActivity->skipLoopDelay(); }
void ActivityManager::requestUpdate(bool immediate) {
if (immediate) {
if (renderTaskHandle) {
xTaskNotify(renderTaskHandle, 1, eIncrement);
}
} else {
// Deferring the update until current loop is finished
// This is to avoid multiple updates being requested in the same loop
requestedUpdate = true;
}
}
// RenderLock
RenderLock::RenderLock() {
xSemaphoreTake(activityManager.renderingMutex, portMAX_DELAY);
isLocked = true;
}
RenderLock::RenderLock(Activity& /* unused */) {
xSemaphoreTake(activityManager.renderingMutex, portMAX_DELAY);
isLocked = true;
}
RenderLock::~RenderLock() {
if (isLocked) {
xSemaphoreGive(activityManager.renderingMutex);
isLocked = false;
}
}
void RenderLock::unlock() {
if (isLocked) {
xSemaphoreGive(activityManager.renderingMutex);
isLocked = false;
}
}
/**
*
* Checks if renderingMutex is busy.
*
* @return true if renderingMutex is busy, otherwise false.
*
*/
bool RenderLock::peek() { return xQueuePeek(activityManager.renderingMutex, NULL, 0) != pdTRUE; };
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