Tizen Native API
5.0
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Ecore Library Public API Calls. These routines are used for Ecore Library interaction.
Ecore is a library of convenience functions. A brief explanation of how to use it can be found in The Ecore Main Loop. The Ecore library provides the following modules:
Ecore is a library your application links to. The procedure for this is very simple. You simply have to compile your application with the appropriate compiler flags that the pkg-config
script outputs. Note that each module is separate in pkg-config. For example using Ecore_Evas_Group: Compiling C or C++ files into object files:
* gcc -c -o main.o main.c `pkg-config --cflags ecore ecore-evas` *
Linking object files into a binary executable:
* gcc -o my_application main.o `pkg-config --libs ecore ecore-evas` *
See pkgconfig
After you understood what Ecore is and installed it in your system you should proceed to understand the programming interface. We'd recommend you to take a while to learn Eina as it is very convenient and optimized, and Ecore uses it extensively. Recommended reading:
//Compile with: // gcc -o ecore_timer_example ecore_timer_example.c `pkg-config --libs --cflags ecore` #include <Ecore.h> #include <unistd.h> #define TIMEOUT_1 1.0 // interval for timer1 #define TIMEOUT_2 3.0 // timer2 - delay timer1 #define TIMEOUT_3 8.2 // timer3 - pause timer1 #define TIMEOUT_4 11.0 // timer4 - resume timer1 #define TIMEOUT_5 14.0 // timer5 - change interval of timer1 #define TIMEOUT_6 18.0 // top timer1 and start timer7 and timer8 with changed precision #define TIMEOUT_7 1.1 // interval for timer7 #define TIMEOUT_8 1.2 // interval for timer8 #define DELAY_1 3.0 // delay time for timer1 - used by timer2 #define INTERVAL1 2.0 // new interval for timer1 - used by timer5 static double _initial_time = 0; struct context // helper struct to give some context to the callbacks { Ecore_Timer *timer1; Ecore_Timer *timer2; Ecore_Timer *timer3; Ecore_Timer *timer4; Ecore_Timer *timer5; Ecore_Timer *timer6; Ecore_Timer *timer7; Ecore_Timer *timer8; }; static double _get_current_time(void) { return ecore_time_get() - _initial_time; } static Eina_Bool _timer1_cb(void *data EINA_UNUSED) { printf("Timer1 expired after %0.3f seconds.\n", _get_current_time()); return ECORE_CALLBACK_RENEW; } static Eina_Bool _timer2_cb(void *data) { struct context *ctxt = data; printf("Timer2 expired after %0.3f seconds. " "Adding delay of %0.3f seconds to timer1.\n", _get_current_time(), DELAY_1); ecore_timer_delay(ctxt->timer1, DELAY_1); ctxt->timer2 = NULL; return ECORE_CALLBACK_CANCEL; } static Eina_Bool _timer3_cb(void *data) { struct context *ctxt = data; printf("Timer3 expired after %0.3f seconds. " "Freezing timer1.\n", _get_current_time()); ecore_timer_freeze(ctxt->timer1); ctxt->timer3 = NULL; return ECORE_CALLBACK_CANCEL; } static Eina_Bool _timer4_cb(void *data) { struct context *ctxt = data; printf("Timer4 expired after %0.3f seconds. " "Resuming timer1, which has %0.3f seconds left to expire.\n", _get_current_time(), ecore_timer_pending_get(ctxt->timer1)); ecore_timer_thaw(ctxt->timer1); ctxt->timer4 = NULL; return ECORE_CALLBACK_CANCEL; } static Eina_Bool _timer5_cb(void *data) { struct context *ctxt = data; double interval = ecore_timer_interval_get(ctxt->timer1); printf("Timer5 expired after %0.3f seconds. " "Changing interval of timer1 from %0.3f to %0.3f seconds.\n", _get_current_time(), interval, INTERVAL1); ecore_timer_interval_set(ctxt->timer1, INTERVAL1); ctxt->timer5 = NULL; return ECORE_CALLBACK_CANCEL; } static Eina_Bool _timer7_cb(void *data) { struct context *ctxt = data; printf("Timer7 expired after %0.3f seconds.\n", _get_current_time()); ctxt->timer7 = NULL; return ECORE_CALLBACK_CANCEL; } static Eina_Bool _timer8_cb(void *data) { struct context *ctxt = data; printf("Timer8 expired after %0.3f seconds.\n", _get_current_time()); ctxt->timer8 = NULL; return ECORE_CALLBACK_CANCEL; } static Eina_Bool _timer6_cb(void *data) { struct context *ctxt = data; printf("Timer6 expired after %0.3f seconds.\n", _get_current_time()); printf("Stopping timer1.\n"); ecore_timer_del(ctxt->timer1); ctxt->timer1 = NULL; printf("Starting timer7 (%0.3fs) and timer8 (%0.3fs).\n", TIMEOUT_7, TIMEOUT_8); ctxt->timer7 = ecore_timer_add(TIMEOUT_7, _timer7_cb, ctxt); ctxt->timer8 = ecore_timer_add(TIMEOUT_8, _timer8_cb, ctxt); ecore_timer_precision_set(0.2); ctxt->timer6 = NULL; return ECORE_CALLBACK_CANCEL; } int main(void) { struct context ctxt = {0}; if (!ecore_init()) { printf("ERROR: Cannot init Ecore!\n"); return -1; } _initial_time = ecore_time_get(); ctxt.timer1 = ecore_timer_add(TIMEOUT_1, _timer1_cb, &ctxt); ctxt.timer2 = ecore_timer_add(TIMEOUT_2, _timer2_cb, &ctxt); ctxt.timer3 = ecore_timer_add(TIMEOUT_3, _timer3_cb, &ctxt); ctxt.timer4 = ecore_timer_add(TIMEOUT_4, _timer4_cb, &ctxt); ctxt.timer5 = ecore_timer_add(TIMEOUT_5, _timer5_cb, &ctxt); ctxt.timer6 = ecore_timer_add(TIMEOUT_6, _timer6_cb, &ctxt); printf("start the main loop.\n"); ecore_main_loop_begin(); if (ctxt.timer1) ecore_timer_del(ctxt.timer1); if (ctxt.timer2) ecore_timer_del(ctxt.timer2); if (ctxt.timer3) ecore_timer_del(ctxt.timer3); if (ctxt.timer4) ecore_timer_del(ctxt.timer4); if (ctxt.timer5) ecore_timer_del(ctxt.timer5); if (ctxt.timer6) ecore_timer_del(ctxt.timer6); if (ctxt.timer7) ecore_timer_del(ctxt.timer7); if (ctxt.timer8) ecore_timer_del(ctxt.timer8); ecore_shutdown(); return 0; }
More examples can be found at Ecore Examples.