flipperzero-firmware/applications/tests/furi_value_expanders_test.c
Vadim Kaushan bb68fca20b
Implement ValueManager and ValueComposer (#183)
* Fix ValueManager implementation
* Implement ValueComposer
* Add constructor for ValueManager
* Add value-expanders.h to flipper_v2.h set
* Move COPY_COMPOSE body into a .c file
* Add test for ValueManager
* Add destructors for ValueMutex, ValueManager and ValueComposer
* Use destructors in tests
* Move composition logic into perform_compose()
* Add docs for perform_compose()
* Add test for ValueComposer
* Replace atomic_bool with bool as g++ compiler doesn't support C11 atomics
* Add Event type
* Add semaphore support to the local target
* Add test for Event
* Update input records and relevant examples
* Rename Event to AppEvent in the cc1101-workaround example
* Rename Event to AppEvent in the irda example
* Use Event in ValueComposer to wait for update request
* Add perform_compose_internal() function
* fix Event/AppEvent

Co-authored-by: aanper <mail@s3f.ru>
2020-10-26 12:26:15 +03:00

146 lines
4.1 KiB
C

#include "flipper_v2.h"
#include "minunit.h"
#include <stdint.h>
typedef struct {
uint8_t red;
uint8_t green;
uint8_t blue;
} Rgb;
static uint32_t rgb_final_state;
static void rgb_clear(void* ctx, void* state) {
Rgb* rgb = state;
rgb->red = 0;
rgb->green = 0;
rgb->blue = 0;
}
static void rgb_commit(void* ctx, void* state) {
Rgb* rgb = state;
rgb_final_state = ((uint32_t)rgb->red) | (((uint32_t)rgb->green) << 8) |
(((uint32_t)rgb->blue) << 16);
}
static void set_red_composer(void* ctx, void* state) {
Rgb* rgb = state;
uint8_t* red = ctx;
rgb->red = *red;
}
void test_furi_value_composer() {
Rgb rgb = {0, 0, 0};
ValueComposer composer;
Rgb layer1_rgb = {0, 0, 0};
ValueMutex layer1_mutex;
uint8_t layer2_red = 0;
rgb_final_state = 0xdeadbeef;
mu_check(init_composer(&composer, &rgb));
mu_check(init_mutex(&layer1_mutex, &layer1_rgb, sizeof(layer1_rgb)));
perform_compose(&composer, rgb_clear, rgb_commit, NULL);
mu_assert_int_eq(0xdeadbeef, rgb_final_state);
ValueComposerHandle* layer1_handle =
add_compose_layer(&composer, COPY_COMPOSE, &layer1_mutex, UiLayerNotify);
mu_assert_pointers_not_eq(layer1_handle, NULL);
// RGB state should be updated with the layer1 state
perform_compose(&composer, rgb_clear, rgb_commit, NULL);
mu_assert_int_eq(0x000000, rgb_final_state);
layer2_red = 0xcc;
ValueComposerHandle* layer2_handle =
add_compose_layer(&composer, set_red_composer, &layer2_red, UiLayerAboveNotify);
mu_assert_pointers_not_eq(layer2_handle, NULL);
// RGB state should be updated with the layer1 and layer2 state, in order
perform_compose(&composer, rgb_clear, rgb_commit, NULL);
mu_assert_int_eq(0x0000cc, rgb_final_state);
// Change layer1 state
Rgb* state = acquire_mutex(&layer1_mutex, 0);
mu_assert_pointers_not_eq(state, NULL);
state->red = 0x12;
state->green = 0x34;
state->blue = 0x56;
release_mutex(&layer1_mutex, state);
// Nothing should happen, we need to trigger composition request first
perform_compose(&composer, rgb_clear, rgb_commit, NULL);
mu_assert_int_eq(0x0000cc, rgb_final_state);
request_compose(layer1_handle);
perform_compose(&composer, rgb_clear, rgb_commit, NULL);
mu_assert_int_eq(0x5634cc, rgb_final_state);
// Change layer2 state
layer2_red = 0xff;
// Nothing should happen, we need to trigger composition request first
perform_compose(&composer, rgb_clear, rgb_commit, NULL);
mu_assert_int_eq(0x5634cc, rgb_final_state);
request_compose(layer2_handle);
perform_compose(&composer, rgb_clear, rgb_commit, NULL);
mu_assert_int_eq(0x5634ff, rgb_final_state);
// Remove layer1
mu_check(remove_compose_layer(layer1_handle));
perform_compose(&composer, rgb_clear, rgb_commit, NULL);
mu_assert_int_eq(0x0000ff, rgb_final_state);
// Remove layer2
mu_check(remove_compose_layer(layer2_handle));
perform_compose(&composer, rgb_clear, rgb_commit, NULL);
mu_assert_int_eq(0x000000, rgb_final_state);
mu_check(delete_composer(&composer));
}
static const uint32_t notify_value_0 = 0x12345678;
static const uint32_t notify_value_1 = 0x11223344;
static uint32_t pubsub_value = 0;
void test_value_manager_handler(void* arg, void* ctx) {
pubsub_value = *(uint32_t*)arg;
}
void test_furi_value_manager() {
uint32_t value = 0;
ValueManager managed;
mu_check(init_managed(&managed, &value, sizeof(value)));
pubsub_value = 0;
PubSubItem* test_pubsub_item;
test_pubsub_item = subscribe_pubsub(&managed.pubsub, test_value_manager_handler, 0);
mu_assert_pointers_not_eq(test_pubsub_item, NULL);
mu_check(write_managed(&managed, (void*)&notify_value_0, sizeof(notify_value_0), 100));
mu_assert_int_eq(pubsub_value, notify_value_0);
uint32_t* ptr = acquire_mutex(&managed.value, 100);
mu_assert_pointers_not_eq(ptr, NULL);
*ptr = notify_value_1;
mu_check(commit_managed(&managed, ptr));
mu_assert_int_eq(pubsub_value, notify_value_1);
mu_check(delete_managed(&managed));
}