summaryrefslogtreecommitdiff
path: root/src/lib/eo/Eo.h
diff options
context:
space:
mode:
authorMarcel Hollerbach <mail@marcel-hollerbach.de>2019-02-05 16:11:44 +0100
committerMarcel Hollerbach <mail@marcel-hollerbach.de>2019-02-06 10:01:02 +0100
commit3009bee9eea4ec5f527d72bfa5fe7b67a3d04521 (patch)
tree5e662fccf7572b784a19cd9aeaf690317742fd69 /src/lib/eo/Eo.h
parent609e24eb85085eb5de5bab70208a1e3655037bbd (diff)
eo: remove whitespaces
remove the whitespaces from this file. Every editor in this world removes unneccessay whitespaces at the end of a line. So every time i am touching this header, i need to get rid of them, which is super annoying. I know we are used to *not* doing such patches, but this is just a waste of time, getting them out of the header every and every single time. Differential Revision: https://phab.enlightenment.org/D7880
Diffstat (limited to '')
-rw-r--r--src/lib/eo/Eo.h30
1 files changed, 15 insertions, 15 deletions
diff --git a/src/lib/eo/Eo.h b/src/lib/eo/Eo.h
index b86a556fe9..186d7fb0bf 100644
--- a/src/lib/eo/Eo.h
+++ b/src/lib/eo/Eo.h
@@ -1008,7 +1008,7 @@ typedef struct _Efl_Domain_Data Efl_Domain_Data;
1008 * where it's called. Calling it after this point will result in 1008 * where it's called. Calling it after this point will result in
1009 * undefined behavior, so be sure to call this immediaetly after a thread 1009 * undefined behavior, so be sure to call this immediaetly after a thread
1010 * begins to execute. You must not change the domain of the main thread. 1010 * begins to execute. You must not change the domain of the main thread.
1011 * 1011 *
1012 * @see efl_domain_switch() 1012 * @see efl_domain_switch()
1013 * @see efl_domain_current_get() 1013 * @see efl_domain_current_get()
1014 * @see efl_domain_current_set() 1014 * @see efl_domain_current_set()
@@ -1031,7 +1031,7 @@ EAPI Efl_Id_Domain efl_domain_get(void);
1031 * new domain temporarily with efl_domain_current_set(), 1031 * new domain temporarily with efl_domain_current_set(),
1032 * efl_domain_current_push() or efl_domain_current_pop(), 1032 * efl_domain_current_push() or efl_domain_current_pop(),
1033 * efl_domain_data_adopt() and efl_domain_data_return(). 1033 * efl_domain_data_adopt() and efl_domain_data_return().
1034 * 1034 *
1035 * @see efl_domain_get() 1035 * @see efl_domain_get()
1036 */ 1036 */
1037EAPI Eina_Bool efl_domain_switch(Efl_Id_Domain domain); 1037EAPI Eina_Bool efl_domain_switch(Efl_Id_Domain domain);
@@ -1044,7 +1044,7 @@ EAPI Eina_Bool efl_domain_switch(Efl_Id_Domain domain);
1044 * There is actually a stack of domans to use. You can alter this via 1044 * There is actually a stack of domans to use. You can alter this via
1045 * efl_domain_current_push() and efl_domain_current_pop(). This only gets 1045 * efl_domain_current_push() and efl_domain_current_pop(). This only gets
1046 * the domain for the current thread. 1046 * the domain for the current thread.
1047 * 1047 *
1048 * @see efl_domain_get() 1048 * @see efl_domain_get()
1049 */ 1049 */
1050EAPI Efl_Id_Domain efl_domain_current_get(void); 1050EAPI Efl_Id_Domain efl_domain_current_get(void);
@@ -1058,7 +1058,7 @@ EAPI Efl_Id_Domain efl_domain_current_get(void);
1058 * efl_domain_current_push() and efl_domain_current_pop(). The current 1058 * efl_domain_current_push() and efl_domain_current_pop(). The current
1059 * domain is the one on the top of the stack, so this entry is altered 1059 * domain is the one on the top of the stack, so this entry is altered
1060 * without pushing or popping. This only applies to the calling thread. 1060 * without pushing or popping. This only applies to the calling thread.
1061 * 1061 *
1062 * @see efl_domain_get() 1062 * @see efl_domain_get()
1063 */ 1063 */
1064EAPI Eina_Bool efl_domain_current_set(Efl_Id_Domain domain); 1064EAPI Eina_Bool efl_domain_current_set(Efl_Id_Domain domain);
@@ -1071,7 +1071,7 @@ EAPI Eina_Bool efl_domain_current_set(Efl_Id_Domain domain);
1071 * This pushes a domain on the domain stack that can be popped later with 1071 * This pushes a domain on the domain stack that can be popped later with
1072 * efl_domain_current_pop(). If the stack is full this may fail and return 1072 * efl_domain_current_pop(). If the stack is full this may fail and return
1073 * EINA_FALSE. This applies only to the calling thread. 1073 * EINA_FALSE. This applies only to the calling thread.
1074 * 1074 *
1075 * @see efl_domain_get() 1075 * @see efl_domain_get()
1076 */ 1076 */
1077EAPI Eina_Bool efl_domain_current_push(Efl_Id_Domain domain); 1077EAPI Eina_Bool efl_domain_current_push(Efl_Id_Domain domain);
@@ -1081,7 +1081,7 @@ EAPI Eina_Bool efl_domain_current_push(Efl_Id_Domain domain);
1081 * 1081 *
1082 * This pops the top domain off the domain stack for the calling thread 1082 * This pops the top domain off the domain stack for the calling thread
1083 * that was pushed with efl_domain_current_push(). 1083 * that was pushed with efl_domain_current_push().
1084 * 1084 *
1085 * @see efl_domain_get() 1085 * @see efl_domain_get()
1086 */ 1086 */
1087EAPI void efl_domain_current_pop(void); 1087EAPI void efl_domain_current_pop(void);
@@ -1120,7 +1120,7 @@ EAPI Efl_Domain_Data *efl_domain_data_get(void);
1120 * your local domain as well, but be aware that creation will require 1120 * your local domain as well, but be aware that creation will require
1121 * some switch of domain by push, pop or set. Return the domain with 1121 * some switch of domain by push, pop or set. Return the domain with
1122 * efl_domain_data_return() when done. 1122 * efl_domain_data_return() when done.
1123 * 1123 *
1124 * @see efl_domain_get() 1124 * @see efl_domain_get()
1125 */ 1125 */
1126EAPI Efl_Id_Domain efl_domain_data_adopt(Efl_Domain_Data *data_in); 1126EAPI Efl_Id_Domain efl_domain_data_adopt(Efl_Domain_Data *data_in);
@@ -1136,7 +1136,7 @@ EAPI Efl_Id_Domain efl_domain_data_adopt(Efl_Domain_Data *data_in);
1136 * the current domain is the same one pushed implicitly by 1136 * the current domain is the same one pushed implicitly by
1137 * efl_domain_data_adopt(). You cannot return your own native local 1137 * efl_domain_data_adopt(). You cannot return your own native local
1138 * domain, only the one that was adopted by efl_domain_data_adopt(). 1138 * domain, only the one that was adopted by efl_domain_data_adopt().
1139 * 1139 *
1140 * @see efl_domain_get() 1140 * @see efl_domain_get()
1141 */ 1141 */
1142EAPI Eina_Bool efl_domain_data_return(Efl_Id_Domain domain); 1142EAPI Eina_Bool efl_domain_data_return(Efl_Id_Domain domain);
@@ -1152,7 +1152,7 @@ EAPI Eina_Bool efl_domain_data_return(Efl_Id_Domain domain);
1152 * need to call this if you have objects from multiple domains (an 1152 * need to call this if you have objects from multiple domains (an
1153 * adopted domain with efl_domain_data_adopt() or the shared domain 1153 * adopted domain with efl_domain_data_adopt() or the shared domain
1154 * EFL_ID_DOMAIN_SHARED where objects may be accessed by any thread). 1154 * EFL_ID_DOMAIN_SHARED where objects may be accessed by any thread).
1155 * 1155 *
1156 * @see efl_domain_get() 1156 * @see efl_domain_get()
1157 */ 1157 */
1158EAPI Eina_Bool efl_compatible(const Eo *obj, const Eo *obj_target); 1158EAPI Eina_Bool efl_compatible(const Eo *obj, const Eo *obj_target);
@@ -1685,7 +1685,7 @@ EAPI int efl_ref_count(const Eo *obj);
1685 * is about to go from a reference count of 1 to 0, thus triggering actual 1685 * is about to go from a reference count of 1 to 0, thus triggering actual
1686 * destruction of the object. Instead of going to a reference count of 0 and 1686 * destruction of the object. Instead of going to a reference count of 0 and
1687 * being destroyed, the object will stay alive with a reference count of 1 1687 * being destroyed, the object will stay alive with a reference count of 1
1688 * and this intercept function will be called instead. 1688 * and this intercept function will be called instead.
1689 * The interceptor function handles any further deletion of of the object 1689 * The interceptor function handles any further deletion of of the object
1690 * from here. 1690 * from here.
1691 * 1691 *
@@ -1700,7 +1700,7 @@ EAPI int efl_ref_count(const Eo *obj);
1700 * on its owning loop to be destroyed at some time in the future and now 1700 * on its owning loop to be destroyed at some time in the future and now
1701 * set the intercept function to NULL so it is not called again on the next 1701 * set the intercept function to NULL so it is not called again on the next
1702 * "real deletion". 1702 * "real deletion".
1703 * 1703 *
1704 * @see efl_del_intercept_get() 1704 * @see efl_del_intercept_get()
1705 * @see efl_unref() 1705 * @see efl_unref()
1706 * @see efl_del() 1706 * @see efl_del()
@@ -1719,7 +1719,7 @@ EAPI void efl_del_intercept_set(Eo *obj, Efl_Del_Intercept del_intercept_func);
1719 * If you want to override the interceptor be sure to call it after your 1719 * If you want to override the interceptor be sure to call it after your
1720 * own interceptor function has finished. It's generally be a bad idea 1720 * own interceptor function has finished. It's generally be a bad idea
1721 * to override these functions however. 1721 * to override these functions however.
1722 * 1722 *
1723 * @see efl_del_intercept_set() 1723 * @see efl_del_intercept_set()
1724 */ 1724 */
1725EAPI Efl_Del_Intercept efl_del_intercept_get(const Eo *obj); 1725EAPI Efl_Del_Intercept efl_del_intercept_get(const Eo *obj);
@@ -1818,7 +1818,7 @@ EOAPI void *efl_key_data_get(const Eo *obj, const char * key);
1818 * @brief Generic object reference with string key to object. 1818 * @brief Generic object reference with string key to object.
1819 * 1819 *
1820 * The object will be automatically ref'd when set and unref'd when replaced or 1820 * The object will be automatically ref'd when set and unref'd when replaced or
1821 * deleted or when the referring object is deleted. If the referenced object 1821 * deleted or when the referring object is deleted. If the referenced object
1822 * is deleted, then the key is deleted automatically. 1822 * is deleted, then the key is deleted automatically.
1823 * 1823 *
1824 * This is the same key store used by key_data and key_value. Keys are shared 1824 * This is the same key store used by key_data and key_value. Keys are shared
@@ -1833,7 +1833,7 @@ EOAPI void efl_key_ref_set(Eo *obj, const char * key, const Efl_Object *objdata)
1833 * @brief Generic object reference with string key to object. 1833 * @brief Generic object reference with string key to object.
1834 * 1834 *
1835 * The object will be automatically ref'd when set and unref'd when replaced or 1835 * The object will be automatically ref'd when set and unref'd when replaced or
1836 * deleted or when the referring object is deleted. If the referenced object is 1836 * deleted or when the referring object is deleted. If the referenced object is
1837 * deleted then the key is deleted automatically. 1837 * deleted then the key is deleted automatically.
1838 * 1838 *
1839 * This is the same key store used by key_data and key_value. Keys are shared 1839 * This is the same key store used by key_data and key_value. Keys are shared
@@ -1908,7 +1908,7 @@ EOAPI Eina_Value *efl_key_value_get(const Eo *obj, const char * key);
1908 * @param obj the object to work on. 1908 * @param obj the object to work on.
1909 * @param manual_free indicates if the free is manual (EINA_TRUE) or automatic (EINA_FALSE). 1909 * @param manual_free indicates if the free is manual (EINA_TRUE) or automatic (EINA_FALSE).
1910 * 1910 *
1911 * The developer is in charge of calling the function efl_manual_free to free the memory 1911 * The developer is in charge of calling the function efl_manual_free to free the memory
1912 * allocated for this object. 1912 * allocated for this object.
1913 * 1913 *
1914 * Do not use this unless you really know what you are doing. It's used by Evas 1914 * Do not use this unless you really know what you are doing. It's used by Evas