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a/util: Add a generic callbacks collection.

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Based on the work for the Android surface callbacks,
just finished being made generic since we'll need to reuse it.
This commit is contained in:
Ryan Pavlik 2021-03-26 14:49:54 -05:00
parent 928771fddf
commit 417de87cb2
5 changed files with 343 additions and 0 deletions
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1
src/xrt/auxiliary/CMakeLists.txt
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@ -127,6 +127,7 @@ set(UTIL_SOURCE_FILES
util/u_format.h
util/u_frame.c
util/u_frame.h
util/u_generic_callbacks.hpp
util/u_git_tag.h
util/u_hand_tracking.c
util/u_hand_tracking.h

1
src/xrt/auxiliary/meson.build
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@ -36,6 +36,7 @@ lib_aux_util = static_library(
'util/u_format.h',
'util/u_frame.c',
'util/u_frame.h',
'util/u_generic_callbacks.hpp',
'util/u_git_tag.h',
'util/u_hand_tracking.c',
'util/u_hand_tracking.h',

231
src/xrt/auxiliary/util/u_generic_callbacks.hpp Normal file
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@ -0,0 +1,231 @@
// Copyright 2021, Collabora, Ltd.
// SPDX-License-Identifier: BSL-1.0
/*!
* @file
* @brief Implementation of a generic callback collection, intended to be wrapped for a specific event type.
* @author Ryan Pavlik <ryan.pavlik@collabora.com>
* @ingroup aux_util
*/
#include <vector>
#include <algorithm>
namespace xrt::auxiliary::util {
template <typename CallbackType, typename EventType> struct GenericCallbacks;
namespace detail {
/*!
* @brief Element type stored in @ref GenericCallbacks, for internal use only.
*/
template <typename CallbackType, typename MaskType = uint32_t> struct GenericCallbackEntry
{
CallbackType callback;
MaskType event_mask;
void *userdata;
bool should_remove = false;
GenericCallbackEntry(CallbackType callback_, MaskType event_mask_, void *userdata_) noexcept
: callback(callback_), event_mask(event_mask_), userdata(userdata_)
{}
/*!
* Do the two entries match? Used for removal "by value"
*/
bool
matches(GenericCallbackEntry const &other) const noexcept
{
return callback == other.callback && event_mask == other.event_mask &&
userdata == other.userdata;
}
bool
operator==(GenericCallbackEntry const &other) const noexcept
{
return matches(other);
}
bool
shouldInvoke(MaskType event) const noexcept
{
return (event_mask & event) != 0;
}
};
template <typename T> struct identity
{
using type = T;
};
// This lets us handle being passed an enum (which we can call underlying_type on) as well as an integer (which
// we cannot)
template <typename T>
using mask_from_enum_t =
typename std::conditional_t<std::is_enum<T>::value, std::underlying_type<T>, identity<T>>::type;
} // namespace detail
/*!
* @brief A generic collection of callbacks for event types represented as a bitmask, intended to be wrapped for each
* usage.
*
* A registered callback may identify one or more event types (bits in the bitmask) that it wants to be invoked for. A
* userdata void pointer is also stored for each callback. Bitmasks are tested at invocation time, and the general
* callback format allows for callbacks to indicate they should be removed from the collection. Actually calling each
* callback is left to a consumer-provided "invoker" to allow adding context and event data to the call. The "invoker"
* also allows the option of whether or how to expose the self-removal capability: yours might simply always return
* "false".
*
* This generic structure supports callbacks that are included multiple times in the collection, if the consuming code
* needs it. GenericCallbacks::contains may be used by consuming code before conditionally calling addCallback, to
* limit to a single instance in a collection.
*
* @tparam CallbackType the function pointer type to store for each callback.
* @tparam EventType the event enum type.
*/
template <typename CallbackType, typename EventType> struct GenericCallbacks
{
public:
static_assert(std::is_integral<EventType>::value || std::is_enum<EventType>::value,
"Your event type must either be an integer or an enum");
using callback_t = CallbackType;
using event_t = EventType;
using mask_t = detail::mask_from_enum_t<EventType>;
private:
static_assert(std::is_integral<mask_t>::value, "Our enum to mask conversion should have produced an integer");
//! The type stored for each added callback.
using callback_entry_t = detail::GenericCallbackEntry<CallbackType, mask_t>;
public:
/*!
* @brief Add a new callback entry with the given callback function pointer, event mask, and user data.
*
* New callback entries are always added at the end of the collection.
*/
void
addCallback(CallbackType callback, mask_t event_mask, void *userdata)
{
callbacks.emplace_back(callback, event_mask, userdata);
}
/*!
* @brief Remove some number of callback entries matching the given callback function pointer, event mask, and
* user data.
*
* @param callback The callback function pointer. Tested for equality with each callback entry.
* @param event_mask The callback event mask. Tested for equality with each callback entry.
* @param userdata The opaque user data pointer. Tested for equality with each callback entry.
* @param num_skip The number of matches to skip before starting to remove callbacks. Defaults to 0.
* @param max_remove The number of matches to remove, or negative if no limit. Defaults to -1.
*
* @returns the number of callbacks removed.
*/
int
removeCallback(
CallbackType callback, mask_t event_mask, void *userdata, unsigned int num_skip = 0, int max_remove = -1)
{
if (max_remove == 0) {
// We were told to remove none. We can do this very quickly.
// Avoids a corner case in the loop where we assume max_remove is non-zero.
return 0;
}
bool found = false;
const callback_entry_t needle{callback, event_mask, userdata};
for (auto &entry : callbacks) {
if (entry.matches(needle)) {
if (num_skip > 0) {
// We are still in our skipping phase.
num_skip--;
continue;
}
entry.should_remove = true;
found = true;
// Negatives (no max) get more negative, which is OK.
max_remove--;
if (max_remove == 0) {
// not looking for more
break;
}
}
}
if (found) {
return purgeMarkedCallbacks();
}
// if we didn't find any, we removed zero.
return 0;
}
/*!
* @brief See if the collection contains at least one matching callback.
*
* @param callback The callback function pointer. Tested for equality with each callback entry.
* @param event_mask The callback event mask. Tested for equality with each callback entry.
* @param userdata The opaque user data pointer. Tested for equality with each callback entry.
*
* @returns true if a matching callback is found.
*/
bool
contains(CallbackType callback, mask_t event_mask, void *userdata)
{
const callback_entry_t needle{callback, event_mask, userdata};
auto it = std::find(callbacks.begin(), callbacks.end(), needle);
return it != callbacks.end();
}
/*!
* @brief Invokes the callbacks, by passing the ones we should run to your "invoker" to add any desired
* context/event data and forward the call.
*
* Callbacks are called in order, filtering out those whose event mask does not include the given event.
*
* @param event The event type to invoke callbacks for.
* @param invoker A function/functor accepting the event, a callback function pointer, and the callback entry's
* userdata as parameters, and returning true if the callback should be removed from the collection. It is
* assumed that the invoker will add any additional context or event data and call the provided callback.
*
* Typically, a lambda with some captures and a single return statement will be sufficient for an invoker.
*
* @returns the number of callbacks run
*/
template <typename F>
int
invokeCallbacks(EventType event, F &&invoker)
{
bool needPurge = false;
int ran = 0;
for (auto &entry : callbacks) {
if (entry.shouldInvoke(static_cast<mask_t>(event))) {
bool willRemove = invoker(event, entry.callback, entry.userdata);
if (willRemove) {
entry.should_remove = true;
needPurge = true;
}
ran++;
}
}
if (needPurge) {
purgeMarkedCallbacks();
}
return ran;
}
private:
std::vector<callback_entry_t> callbacks;
int
purgeMarkedCallbacks()
{
auto b = callbacks.begin();
auto e = callbacks.end();
auto new_end = std::remove_if(b, e, [](callback_entry_t const &entry) { return entry.should_remove; });
auto num_removed = std::distance(new_end, e);
callbacks.erase(new_end, e);
return static_cast<int>(num_removed);
}
};
} // namespace xrt::auxiliary::util

6
tests/CMakeLists.txt
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@ -17,3 +17,9 @@ target_link_libraries(tests_input_transform PRIVATE
xrt-external-openxr
aux_util)
add_test(NAME input_transform COMMAND tests_input_transform --success)
# Generic callbacks
add_executable(tests_generic_callbacks tests_generic_callbacks.cpp)
target_link_libraries(tests_generic_callbacks PRIVATE tests_main)
target_link_libraries(tests_generic_callbacks PRIVATE aux_util)
add_test(NAME tests_generic_callbacks COMMAND tests_generic_callbacks --success)

104
tests/tests_generic_callbacks.cpp Normal file
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@ -0,0 +1,104 @@
// Copyright 2021, Collabora, Ltd.
// SPDX-License-Identifier: BSL-1.0
/*!
* @file
* @brief Generic callback collection tests.
* @author Ryan Pavlik <ryan.pavlik@collabora.com>
*/
#include "catch/catch.hpp"
#include <util/u_generic_callbacks.hpp>
using xrt::auxiliary::util::GenericCallbacks;
enum class MyEvent
{
ACQUIRED,
LOST,
};
using mask_t = std::underlying_type_t<MyEvent>;
static bool
increment_userdata_int(MyEvent event, void *userdata)
{
*static_cast<int *>(userdata) += 1;
return true;
}
using callback_t = bool (*)(MyEvent event, void *userdata);
TEST_CASE("u_generic_callbacks")
{
GenericCallbacks<callback_t, MyEvent> callbacks;
// Simplest possible invoker.
auto invoker = [](MyEvent event, callback_t callback, void *userdata) { return callback(event, userdata); };
SECTION("call when empty")
{
CHECK(0 == callbacks.invokeCallbacks(MyEvent::ACQUIRED, invoker));
CHECK(0 == callbacks.invokeCallbacks(MyEvent::LOST, invoker));
CHECK(0 == callbacks.removeCallback(&increment_userdata_int, (mask_t)MyEvent::LOST, nullptr));
}
SECTION("same function, different mask and userdata")
{
int numAcquired = 0;
int numLost = 0;
REQUIRE_NOTHROW(callbacks.addCallback(increment_userdata_int, (mask_t)MyEvent::ACQUIRED, &numAcquired));
REQUIRE_NOTHROW(callbacks.addCallback(increment_userdata_int, (mask_t)MyEvent::LOST, &numLost));
SECTION("contains")
{
CHECK(callbacks.contains(increment_userdata_int, (mask_t)MyEvent::LOST, &numLost));
CHECK_FALSE(callbacks.contains(increment_userdata_int, (mask_t)MyEvent::LOST, &numAcquired));
}
SECTION("removal matching")
{
CHECK(0 ==
callbacks.removeCallback(increment_userdata_int, (mask_t)MyEvent::LOST, &numAcquired));
CHECK(0 ==
callbacks.removeCallback(increment_userdata_int, (mask_t)MyEvent::ACQUIRED, &numLost));
}
SECTION("duplicates, contains, and removal")
{
REQUIRE(callbacks.contains(increment_userdata_int, (mask_t)MyEvent::ACQUIRED, &numAcquired));
REQUIRE_NOTHROW(
callbacks.addCallback(increment_userdata_int, (mask_t)MyEvent::ACQUIRED, &numAcquired));
CHECK(callbacks.contains(increment_userdata_int, (mask_t)MyEvent::ACQUIRED, &numAcquired));
// Now we have two ACQUIRED and one LOST callback.
SECTION("max_remove")
{
CHECK(0 == callbacks.removeCallback(increment_userdata_int, (mask_t)MyEvent::ACQUIRED,
&numAcquired, 0, 0));
CHECK(callbacks.contains(increment_userdata_int, (mask_t)MyEvent::ACQUIRED,
&numAcquired));
CHECK(1 == callbacks.removeCallback(increment_userdata_int, (mask_t)MyEvent::ACQUIRED,
&numAcquired, 0, 1));
CHECK(callbacks.contains(increment_userdata_int, (mask_t)MyEvent::ACQUIRED,
&numAcquired));
}
SECTION("large max_remove")
{
CHECK(2 == callbacks.removeCallback(increment_userdata_int, (mask_t)MyEvent::ACQUIRED,
&numAcquired, 0, 3));
CHECK_FALSE(callbacks.contains(increment_userdata_int, (mask_t)MyEvent::ACQUIRED,
&numAcquired));
}
SECTION("num_skip")
{
CHECK(0 == callbacks.removeCallback(increment_userdata_int, (mask_t)MyEvent::ACQUIRED,
&numAcquired, 3));
CHECK(callbacks.contains(increment_userdata_int, (mask_t)MyEvent::ACQUIRED,
&numAcquired));
CHECK(1 == callbacks.removeCallback(increment_userdata_int, (mask_t)MyEvent::ACQUIRED,
&numAcquired, 1));
CHECK(callbacks.contains(increment_userdata_int, (mask_t)MyEvent::ACQUIRED,
&numAcquired));
}
}
CHECK(1 == callbacks.removeCallback(increment_userdata_int, (mask_t)MyEvent::LOST, &numLost));
}
}