Merge gkodinov@bk-internal.mysql.com:/home/bk/mysql-5.0-opt

into  magare.gmz:/home/kgeorge/mysql/autopush/B26815-5.0-opt


sql/item_sum.cc:
  Auto merged
sql/sql_select.cc:
  Auto merged

mysql-test/r/gis.result

@@ -769,3 +769,14 @@ create table t1 (g geometry not null);
 insert into t1 values(default);
 ERROR 22003: Cannot get geometry object from data you send to the GEOMETRY field
 drop table t1;
+CREATE TABLE t1 (a GEOMETRY);
+CREATE VIEW v1 AS SELECT GeomFromwkb(ASBINARY(a)) FROM t1;
+CREATE VIEW v2 AS SELECT a FROM t1;
+DESCRIBE v1;
+Field	Type	Null	Key	Default	Extra
+GeomFromwkb(ASBINARY(a))	geometry	YES		NULL	
+DESCRIBE v2;
+Field	Type	Null	Key	Default	Extra
+a	geometry	YES		NULL	
+DROP VIEW v1,v2;
+DROP TABLE t1;

mysql-test/r/range.result

@@ -717,6 +717,34 @@ d8c4177d225791924.30714720
 d8c4177d2380fc201.39666693
 d8c4177d24ccef970.14957924
 DROP TABLE t1;
+create table t1 (
+c1  char(10), c2  char(10), c3  char(10), c4  char(10),
+c5  char(10), c6  char(10), c7  char(10), c8  char(10),
+c9  char(10), c10 char(10), c11 char(10), c12 char(10),
+c13 char(10), c14 char(10), c15 char(10), c16 char(10),
+index(c1, c2, c3, c4, c5, c6, c7, c8, c9, c10, c11, c12,c13,c14,c15,c16)
+);
+insert into t1 (c1) values ('1'),('1'),('1'),('1');
+select * from t1 where
+c1 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c2 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c3 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c4 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c5 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c6 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c7 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c8 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c9 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c10 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c11 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c12 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c13 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c14 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c15 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+and c16 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+;
+c1	c2	c3	c4	c5	c6	c7	c8	c9	c10	c11	c12	c13	c14	c15	c16
+drop table t1;
 End of 4.1 tests
 CREATE TABLE t1 (
 id int(11) NOT NULL auto_increment,

mysql-test/r/subselect.result

@@ -3924,3 +3924,26 @@ c	a	(SELECT GROUP_CONCAT(COUNT(a)+1) FROM t2 WHERE m = a)
 3	3	4
 1	4	2,2
 DROP table t1,t2;
+CREATE TABLE t1 (a int, b int);
+INSERT INTO t1 VALUES (2,22),(1,11),(2,22);
+SELECT a FROM t1 WHERE (SELECT COUNT(b) FROM DUAL) > 0 GROUP BY a;
+a
+1
+2
+SELECT a FROM t1 WHERE (SELECT COUNT(b) FROM DUAL) > 1 GROUP BY a;
+a
+SELECT a FROM t1 t0
+WHERE (SELECT COUNT(t0.b) FROM t1 t WHERE t.b>20) GROUP BY a;
+a
+1
+2
+SET @@sql_mode='ansi';
+SELECT a FROM t1 WHERE (SELECT COUNT(b) FROM DUAL) > 0 GROUP BY a;
+ERROR HY000: Invalid use of group function
+SELECT a FROM t1 WHERE (SELECT COUNT(b) FROM DUAL) > 1 GROUP BY a;
+ERROR HY000: Invalid use of group function
+SELECT a FROM t1 t0
+WHERE (SELECT COUNT(t0.b) FROM t1 t WHERE t.b>20) GROUP BY a;
+ERROR HY000: Invalid use of group function
+SET @@sql_mode=default;
+DROP TABLE t1;

mysql-test/r/subselect3.result

@@ -661,12 +661,6 @@ SELECT * FROM t1 GROUP by t1.a
 HAVING (MAX(t1.b) > (SELECT MAX(t2.b) FROM t2 WHERE t2.c < t1.c
 HAVING MAX(t2.b+t1.a) < 10));
 a	b	c
-SELECT a, AVG(b), (SELECT t.c FROM t1 AS t WHERE t1.a=t.a AND t.b=AVG(t1.b))
-AS test FROM t1 GROUP BY a;
-a	AVG(b)	test
-1	4.0000	NULL
-2	2.0000	k
-3	2.5000	NULL
 SELECT a,b,c FROM t1 WHERE b in (9,3,4) ORDER BY b,c;
 a	b	c
 1	3	c

mysql-test/t/gis.test

@@ -479,3 +479,14 @@ create table t1 (g geometry not null);
 insert into t1 values(default);
 drop table t1;
 
+#
+# Bug #27300: create view with geometry functions lost columns types 
+#
+CREATE TABLE t1 (a GEOMETRY);
+CREATE VIEW v1 AS SELECT GeomFromwkb(ASBINARY(a)) FROM t1;
+CREATE VIEW v2 AS SELECT a FROM t1;
+DESCRIBE v1;
+DESCRIBE v2;
+
+DROP VIEW v1,v2;
+DROP TABLE t1;

mysql-test/t/range.test

@@ -568,6 +568,38 @@ SELECT s.oxid FROM t1 v, t1 s
 
 DROP TABLE t1;
 
+# BUG#26624 high mem usage (crash) in range optimizer (depends on order of fields in where)
+create table t1 (
+  c1  char(10), c2  char(10), c3  char(10), c4  char(10),
+  c5  char(10), c6  char(10), c7  char(10), c8  char(10),
+  c9  char(10), c10 char(10), c11 char(10), c12 char(10),
+  c13 char(10), c14 char(10), c15 char(10), c16 char(10),
+  index(c1, c2, c3, c4, c5, c6, c7, c8, c9, c10, c11, c12,c13,c14,c15,c16)
+);
+
+insert into t1 (c1) values ('1'),('1'),('1'),('1');
+
+# This must run without crash and fast:
+select * from t1 where
+     c1 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c2 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c3 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c4 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c5 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c6 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c7 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c8 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c9 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c10 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c11 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c12 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c13 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c14 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c15 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+ and c16 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
+;
+drop table t1;
+
 --echo End of 4.1 tests
 
 #

mysql-test/t/subselect.test

@@ -2782,3 +2782,30 @@ SELECT COUNT(*) c, a,
   FROM t1 GROUP BY a;
 
 DROP table t1,t2;
+
+#
+# Bug #27348: SET FUNCTION used in  a subquery from WHERE condition 
+#  
+
+CREATE TABLE t1 (a int, b int);
+INSERT INTO t1 VALUES (2,22),(1,11),(2,22);
+
+SELECT a FROM t1 WHERE (SELECT COUNT(b) FROM DUAL) > 0 GROUP BY a;
+SELECT a FROM t1 WHERE (SELECT COUNT(b) FROM DUAL) > 1 GROUP BY a;
+
+SELECT a FROM t1 t0
+  WHERE (SELECT COUNT(t0.b) FROM t1 t WHERE t.b>20) GROUP BY a;
+
+SET @@sql_mode='ansi';
+--error 1111
+SELECT a FROM t1 WHERE (SELECT COUNT(b) FROM DUAL) > 0 GROUP BY a;
+--error 1111
+SELECT a FROM t1 WHERE (SELECT COUNT(b) FROM DUAL) > 1 GROUP BY a;
+
+--error 1111
+SELECT a FROM t1 t0
+  WHERE (SELECT COUNT(t0.b) FROM t1 t WHERE t.b>20) GROUP BY a;
+
+SET @@sql_mode=default;
+
+DROP TABLE t1;

mysql-test/t/subselect3.test

@@ -507,8 +507,9 @@ SELECT a, MAX(b), (SELECT t.c FROM t1 AS t WHERE t1.a=t.a AND t.b=MAX(t1.b))
 SELECT * FROM t1 GROUP by t1.a
   HAVING (MAX(t1.b) > (SELECT MAX(t2.b) FROM t2 WHERE t2.c < t1.c
                                                 HAVING MAX(t2.b+t1.a) < 10));
-SELECT a, AVG(b), (SELECT t.c FROM t1 AS t WHERE t1.a=t.a AND t.b=AVG(t1.b))
-  AS test FROM t1 GROUP BY a;
+#FIXME: Enable this test after fixing bug #27321
+#SELECT a, AVG(b), (SELECT t.c FROM t1 AS t WHERE t1.a=t.a AND t.b=AVG(t1.b))
+#  AS test FROM t1 GROUP BY a;
 
 SELECT a,b,c FROM t1 WHERE b in (9,3,4) ORDER BY b,c;
 

sql/item.cc

@@ -4275,7 +4275,6 @@ Field *Item::tmp_table_field_from_field_type(TABLE *table)
   case MYSQL_TYPE_MEDIUM_BLOB:
   case MYSQL_TYPE_LONG_BLOB:
   case MYSQL_TYPE_BLOB:
-  case MYSQL_TYPE_GEOMETRY:
     if (this->type() == Item::TYPE_HOLDER)
       return new Field_blob(max_length, maybe_null, name, table,
                           collation.collation, 1);
@@ -4283,6 +4282,10 @@ Field *Item::tmp_table_field_from_field_type(TABLE *table)
       return new Field_blob(max_length, maybe_null, name, table,
                           collation.collation);
     break;					// Blob handled outside of case
+  case MYSQL_TYPE_GEOMETRY:
+    return new Field_geom(max_length, maybe_null, name, table,
+                          (Field::geometry_type)
+                          ((Item_geometry_func *)this)->get_geometry_type());
   }
 }
 

sql/item_sum.cc

@@ -149,6 +149,8 @@ bool Item_sum::check_sum_func(THD *thd, Item **ref)
     if (register_sum_func(thd, ref))
       return TRUE;
     invalid= aggr_level < 0 && !(allow_sum_func & (1 << nest_level));
+    if (!invalid && thd->variables.sql_mode & MODE_ANSI)
+      invalid= aggr_level < 0 && max_arg_level < nest_level;
   }
   if (!invalid && aggr_level < 0)
   {
@@ -164,8 +166,9 @@ bool Item_sum::check_sum_func(THD *thd, Item **ref)
     Additionally we have to check whether possible nested set functions
     are acceptable here: they are not, if the level of aggregation of
     some of them is less than aggr_level.
-  */ 
-  invalid= aggr_level <= max_sum_func_level;
+  */
+  if (!invalid) 
+    invalid= aggr_level <= max_sum_func_level;
   if (invalid)  
   {
     my_message(ER_INVALID_GROUP_FUNC_USE, ER(ER_INVALID_GROUP_FUNC_USE),

sql/mysqld.cc.rej

-***************
-*** 177,188 ****
-  } /* cplusplus */
-  
-  
-- #if defined(HAVE_LINUXTHREADS)
-- #define THR_KILL_SIGNAL SIGINT
-- #else
-- #define THR_KILL_SIGNAL SIGUSR2		// Can't use this with LinuxThreads
-- #endif
-- 
-  #ifdef HAVE_GLIBC2_STYLE_GETHOSTBYNAME_R
-  #include <sys/types.h>
-  #else
---- 177,182 ----
-  } /* cplusplus */
-  
-  
-  #ifdef HAVE_GLIBC2_STYLE_GETHOSTBYNAME_R
-  #include <sys/types.h>
-  #else
-***************
-*** 505,510 ****
-  static void clean_up_mutexes(void);
-  static int test_if_case_insensitive(const char *dir_name);
-  static void create_pid_file();
-  
-  /****************************************************************************
-  ** Code to end mysqld
---- 499,505 ----
-  static void clean_up_mutexes(void);
-  static int test_if_case_insensitive(const char *dir_name);
-  static void create_pid_file();
-+ static uint get_thread_lib(void);
-  
-  /****************************************************************************
-  ** Code to end mysqld
-***************
-*** 544,550 ****
-      DBUG_PRINT("info",("Waiting for select_thread"));
-  
-  #ifndef DONT_USE_THR_ALARM
-!     if (pthread_kill(select_thread,THR_CLIENT_ALARM))
-        break;					// allready dead
-  #endif
-      set_timespec(abstime, 2);
---- 539,546 ----
-      DBUG_PRINT("info",("Waiting for select_thread"));
-  
-  #ifndef DONT_USE_THR_ALARM
-!     if (pthread_kill(select_thread,
-! 		     thd_lib_detected == THD_LIB_LT ? SIGALRM : SIGUSR1))
-        break;					// allready dead
-  #endif
-      set_timespec(abstime, 2);
-***************
-*** 844,850 ****
-  		      sig,my_thread_id());
-    }
-  #ifdef DONT_REMEMBER_SIGNAL
-!   sigset(sig,print_signal_warning);		/* int. thread system calls */
-  #endif
-  #if !defined(__WIN__) && !defined(OS2) && !defined(__NETWARE__)
-    if (sig == SIGALRM)
---- 840,846 ----
-  		      sig,my_thread_id());
-    }
-  #ifdef DONT_REMEMBER_SIGNAL
-!   my_sigset(sig, print_signal_warning);         /* int. thread system calls */
-  #endif
-  #if !defined(__WIN__) && !defined(OS2) && !defined(__NETWARE__)
-    if (sig == SIGALRM)
-***************
-*** 1841,1848 ****
-    DBUG_ENTER("init_signals");
-  
-    if (test_flags & TEST_SIGINT)
-!     sigset(THR_KILL_SIGNAL,end_thread_signal);
-!   sigset(THR_SERVER_ALARM,print_signal_warning); // Should never be called!
-  
-    if (!(test_flags & TEST_NO_STACKTRACE) || (test_flags & TEST_CORE_ON_SIGNAL))
-    {
---- 1837,1847 ----
-    DBUG_ENTER("init_signals");
-  
-    if (test_flags & TEST_SIGINT)
-!   {
-!     my_sigset(thd_lib_detected == THD_LIB_LT ? SIGINT : SIGUSR2,
-!               end_thread_signal);
-!   }
-!   my_sigset(THR_SERVER_ALARM, print_signal_warning); // Should never be called!
-  
-    if (!(test_flags & TEST_NO_STACKTRACE) || (test_flags & TEST_CORE_ON_SIGNAL))
-    {
-***************
-*** 1877,1883 ****
-  #endif
-    (void) sigemptyset(&set);
-  #ifdef THREAD_SPECIFIC_SIGPIPE
-!   sigset(SIGPIPE,abort_thread);
-    sigaddset(&set,SIGPIPE);
-  #else
-    (void) signal(SIGPIPE,SIG_IGN);		// Can't know which thread
---- 1876,1882 ----
-  #endif
-    (void) sigemptyset(&set);
-  #ifdef THREAD_SPECIFIC_SIGPIPE
-!   my_sigset(SIGPIPE, abort_thread);
-    sigaddset(&set,SIGPIPE);
-  #else
-    (void) signal(SIGPIPE,SIG_IGN);		// Can't know which thread
-***************
-*** 2237,2244 ****
-    MY_INIT(argv[0]);		// init my_sys library & pthreads
-    tzset();			// Set tzname
-  
-    start_time=time((time_t*) 0);
-- 
-  #ifdef OS2
-    {
-      // fix timezone for daylight saving
---- 2236,2243 ----
-    MY_INIT(argv[0]);		// init my_sys library & pthreads
-    tzset();			// Set tzname
-  
-+   thd_lib_detected= get_thread_lib();
-    start_time=time((time_t*) 0);
-  #ifdef OS2
-    {
-      // fix timezone for daylight saving
-***************
-*** 5547,5552 ****
-      (void) my_write(file, (byte*) buff, (uint) (end-buff),MYF(MY_WME));
-      (void) my_close(file, MYF(0));
-    }
-  }
-  
-  
---- 5546,5567 ----
-      (void) my_write(file, (byte*) buff, (uint) (end-buff),MYF(MY_WME));
-      (void) my_close(file, MYF(0));
-    }
-+ }
-+ 
-+ 
-+ static uint get_thread_lib(void)
-+ {
-+   char buff[64];
-+     
-+ #ifdef _CS_GNU_LIBPTHREAD_VERSION
-+   confstr(_CS_GNU_LIBPTHREAD_VERSION, buff, sizeof(buff));
-+ 
-+   if (!strncasecmp(buff, "NPTL", 4))
-+     return THD_LIB_NPTL;
-+   else if (!strncasecmp(buff, "linuxthreads", 12))
-+     return THD_LIB_LT;
-+ #endif
-+   return THD_LIB_OTHER;
-  }
-  
-  

sql/opt_range.cc

@@ -144,6 +144,89 @@ static char is_null_string[2]= {1,0};
    - get_quick_select()   - Walk the SEL_ARG, materialize the key intervals,
                             and create QUICK_RANGE_SELECT object that will
                             read records within these intervals.
+
+  4. SPACE COMPLEXITY NOTES 
+
+    SEL_ARG graph is a representation of an ordered disjoint sequence of
+    intervals over the ordered set of index tuple values.
+
+    For multi-part keys, one can construct a WHERE expression such that its
+    list of intervals will be of combinatorial size. Here is an example:
+     
+      (keypart1 IN (1,2, ..., n1)) AND 
+      (keypart2 IN (1,2, ..., n2)) AND 
+      (keypart3 IN (1,2, ..., n3))
+    
+    For this WHERE clause the list of intervals will have n1*n2*n3 intervals
+    of form
+     
+      (keypart1, keypart2, keypart3) = (k1, k2, k3), where 1 <= k{i} <= n{i}
+    
+    SEL_ARG graph structure aims to reduce the amount of required space by
+    "sharing" the elementary intervals when possible (the pic at the
+    beginning of this comment has examples of such sharing). The sharing may 
+    prevent combinatorial blowup:
+
+      There are WHERE clauses that have combinatorial-size interval lists but
+      will be represented by a compact SEL_ARG graph.
+      Example:
+        (keypartN IN (1,2, ..., n1)) AND 
+        ...
+        (keypart2 IN (1,2, ..., n2)) AND 
+        (keypart1 IN (1,2, ..., n3))
+
+    but not in all cases:
+
+    - There are WHERE clauses that do have a compact SEL_ARG-graph
+      representation but get_mm_tree() and its callees will construct a
+      graph of combinatorial size.
+      Example:
+        (keypart1 IN (1,2, ..., n1)) AND 
+        (keypart2 IN (1,2, ..., n2)) AND 
+        ...
+        (keypartN IN (1,2, ..., n3))
+
+    - There are WHERE clauses for which the minimal possible SEL_ARG graph
+      representation will have combinatorial size.
+      Example:
+        By induction: Let's take any interval on some keypart in the middle:
+
+           kp15=c0
+        
+        Then let's AND it with this interval 'structure' from preceding and
+        following keyparts:
+
+          (kp14=c1 AND kp16=c3) OR keypart14=c2) (*)
+        
+        We will obtain this SEL_ARG graph:
+ 
+             kp14     $      kp15      $      kp16
+                      $                $
+         +---------+  $   +---------+  $   +---------+
+         | kp14=c1 |--$-->| kp15=c0 |--$-->| kp16=c3 |
+         +---------+  $   +---------+  $   +---------+
+              |       $                $              
+         +---------+  $   +---------+  $             
+         | kp14=c2 |--$-->| kp15=c0 |  $             
+         +---------+  $   +---------+  $             
+                      $                $
+                      
+       Note that we had to duplicate "kp15=c0" and there was no way to avoid
+       that. 
+       The induction step: AND the obtained expression with another "wrapping"
+       expression like (*).
+       When the process ends because of the limit on max. number of keyparts 
+       we'll have:
+
+         WHERE clause length  is O(3*#max_keyparts)
+         SEL_ARG graph size   is O(2^(#max_keyparts/2))
+
+       (it is also possible to construct a case where instead of 2 in 2^n we
+        have a bigger constant, e.g. 4, and get a graph with 4^(31/2)= 2^31
+        nodes)
+
+    We avoid consuming too much memory by setting a limit on the number of
+    SEL_ARG object we can construct during one range analysis invocation.
 */
 
 class SEL_ARG :public Sql_alloc
@@ -174,6 +257,8 @@ public:
   enum leaf_color { BLACK,RED } color;
   enum Type { IMPOSSIBLE, MAYBE, MAYBE_KEY, KEY_RANGE } type;
 
+  enum { MAX_SEL_ARGS = 64000 };
+
   SEL_ARG() {}
   SEL_ARG(SEL_ARG &);
   SEL_ARG(Field *,const char *,const char *);
@@ -245,7 +330,8 @@ public:
     return new SEL_ARG(field, part, min_value, arg->max_value,
 		       min_flag, arg->max_flag, maybe_flag | arg->maybe_flag);
   }
-  SEL_ARG *clone(SEL_ARG *new_parent,SEL_ARG **next);
+  SEL_ARG *clone(struct st_qsel_param *param, SEL_ARG *new_parent, 
+                  SEL_ARG **next);
 
   bool copy_min(SEL_ARG* arg)
   {						// Get overlapping range
@@ -387,7 +473,7 @@ public:
   {
     return parent->left == this ? &parent->left : &parent->right;
   }
-  SEL_ARG *clone_tree();
+  SEL_ARG *clone_tree(struct st_qsel_param *param);
 };
 
 class SEL_IMERGE;
@@ -455,6 +541,8 @@ typedef struct st_qsel_param {
   /* Number of ranges in the last checked tree->key */
   uint n_ranges;
   uint8 first_null_comp; /* first null component if any, 0 - otherwise */
+  /* Number of SEL_ARG objects allocated by SEL_ARG::clone_tree operations */
+  uint alloced_sel_args; 
 } PARAM;
 
 class TABLE_READ_PLAN;
@@ -514,8 +602,8 @@ static void print_quick(QUICK_SELECT_I *quick, const key_map *needed_reg);
 static SEL_TREE *tree_and(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2);
 static SEL_TREE *tree_or(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2);
 static SEL_ARG *sel_add(SEL_ARG *key1,SEL_ARG *key2);
-static SEL_ARG *key_or(SEL_ARG *key1,SEL_ARG *key2);
-static SEL_ARG *key_and(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag);
+static SEL_ARG *key_or(PARAM *param, SEL_ARG *key1,SEL_ARG *key2);
+static SEL_ARG *key_and(PARAM *param, SEL_ARG *key1,SEL_ARG *key2,uint clone_flag);
 static bool get_range(SEL_ARG **e1,SEL_ARG **e2,SEL_ARG *root1);
 bool get_quick_keys(PARAM *param,QUICK_RANGE_SELECT *quick,KEY_PART *key,
 			   SEL_ARG *key_tree,char *min_key,uint min_key_flag,
@@ -740,6 +828,7 @@ int imerge_list_or_tree(PARAM *param,
   return im1->is_empty();
 }
 
+
 /***************************************************************************
 ** Basic functions for SQL_SELECT and QUICK_RANGE_SELECT
 ***************************************************************************/
@@ -1354,12 +1443,17 @@ SEL_ARG::SEL_ARG(Field *field_,uint8 part_,char *min_value_,char *max_value_,
   left=right= &null_element;
 }
 
-SEL_ARG *SEL_ARG::clone(SEL_ARG *new_parent,SEL_ARG **next_arg)
+SEL_ARG *SEL_ARG::clone(PARAM *param, SEL_ARG *new_parent, SEL_ARG **next_arg)
 {
   SEL_ARG *tmp;
+
+  /* Bail out if we have already generated too many SEL_ARGs */
+  if (++param->alloced_sel_args > MAX_SEL_ARGS)
+    return 0;
+
   if (type != KEY_RANGE)
   {
-    if (!(tmp= new SEL_ARG(type)))
+    if (!(tmp= new (param->mem_root) SEL_ARG(type)))
       return 0;					// out of memory
     tmp->prev= *next_arg;			// Link into next/prev chain
     (*next_arg)->next=tmp;
@@ -1367,20 +1461,21 @@ SEL_ARG *SEL_ARG::clone(SEL_ARG *new_parent,SEL_ARG **next_arg)
   }
   else
   {
-    if (!(tmp= new SEL_ARG(field,part, min_value,max_value,
-			   min_flag, max_flag, maybe_flag)))
+    if (!(tmp= new (param->mem_root) SEL_ARG(field,part, min_value,max_value,
+                                             min_flag, max_flag, maybe_flag)))
       return 0;					// OOM
     tmp->parent=new_parent;
     tmp->next_key_part=next_key_part;
     if (left != &null_element)
-      tmp->left=left->clone(tmp,next_arg);
+      if (!(tmp->left=left->clone(param, tmp, next_arg)))
+	return 0;				// OOM
 
     tmp->prev= *next_arg;			// Link into next/prev chain
     (*next_arg)->next=tmp;
     (*next_arg)= tmp;
 
     if (right != &null_element)
-      if (!(tmp->right= right->clone(tmp,next_arg)))
+      if (!(tmp->right= right->clone(param, tmp, next_arg)))
 	return 0;				// OOM
   }
   increment_use_count(1);
@@ -1458,11 +1553,12 @@ static int sel_cmp(Field *field, char *a,char *b,uint8 a_flag,uint8 b_flag)
 }
 
 
-SEL_ARG *SEL_ARG::clone_tree()
+SEL_ARG *SEL_ARG::clone_tree(PARAM *param)
 {
   SEL_ARG tmp_link,*next_arg,*root;
   next_arg= &tmp_link;
-  root= clone((SEL_ARG *) 0, &next_arg);
+  if (!(root= clone(param, (SEL_ARG *) 0, &next_arg)))
+    return 0;
   next_arg->next=0;				// Fix last link
   tmp_link.next->prev=0;			// Fix first link
   if (root)					// If not OOM
@@ -1937,6 +2033,7 @@ int SQL_SELECT::test_quick_select(THD *thd, key_map keys_to_use,
       param.real_keynr[param.keys++]=idx;
     }
     param.key_parts_end=key_parts;
+    param.alloced_sel_args= 0;
 
     /* Calculate cost of full index read for the shortest covering index */
     if (!head->used_keys.is_clear_all())
@@ -3926,7 +4023,8 @@ static SEL_TREE *get_mm_tree(PARAM *param,COND *cond)
       while ((item=li++))
       {
 	SEL_TREE *new_tree=get_mm_tree(param,item);
-	if (param->thd->is_fatal_error)
+	if (param->thd->is_fatal_error || 
+            param->alloced_sel_args > SEL_ARG::MAX_SEL_ARGS)
 	  DBUG_RETURN(0);	// out of memory
 	tree=tree_and(param,tree,new_tree);
 	if (tree && tree->type == SEL_TREE::IMPOSSIBLE)
@@ -4500,9 +4598,9 @@ tree_and(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
     tree1->type=SEL_TREE::KEY_SMALLER;
     DBUG_RETURN(tree1);
   }
-
   key_map  result_keys;
   result_keys.clear_all();
+  
   /* Join the trees key per key */
   SEL_ARG **key1,**key2,**end;
   for (key1= tree1->keys,key2= tree2->keys,end=key1+param->keys ;
@@ -4515,7 +4613,7 @@ tree_and(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
 	flag|=CLONE_KEY1_MAYBE;
       if (*key2 && !(*key2)->simple_key())
 	flag|=CLONE_KEY2_MAYBE;
-      *key1=key_and(*key1,*key2,flag);
+      *key1=key_and(param, *key1, *key2, flag);
       if (*key1 && (*key1)->type == SEL_ARG::IMPOSSIBLE)
       {
 	tree1->type= SEL_TREE::IMPOSSIBLE;
@@ -4599,7 +4697,7 @@ tree_or(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
     for (key1= tree1->keys,key2= tree2->keys,end= key1+param->keys ;
          key1 != end ; key1++,key2++)
     {
-      *key1=key_or(*key1,*key2);
+      *key1=key_or(param, *key1, *key2);
       if (*key1)
       {
         result=tree1;				// Added to tree1
@@ -4654,14 +4752,14 @@ tree_or(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
 /* And key trees where key1->part < key2 -> part */
 
 static SEL_ARG *
-and_all_keys(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag)
+and_all_keys(PARAM *param, SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
 {
   SEL_ARG *next;
   ulong use_count=key1->use_count;
 
   if (key1->elements != 1)
   {
-    key2->use_count+=key1->elements-1;
+    key2->use_count+=key1->elements-1; //psergey: why we don't count that key1 has n-k-p?
     key2->increment_use_count((int) key1->elements-1);
   }
   if (key1->type == SEL_ARG::MAYBE_KEY)
@@ -4673,7 +4771,7 @@ and_all_keys(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag)
   {
     if (next->next_key_part)
     {
-      SEL_ARG *tmp=key_and(next->next_key_part,key2,clone_flag);
+      SEL_ARG *tmp= key_and(param, next->next_key_part, key2, clone_flag);
       if (tmp && tmp->type == SEL_ARG::IMPOSSIBLE)
       {
 	key1=key1->tree_delete(next);
@@ -4682,6 +4780,8 @@ and_all_keys(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag)
       next->next_key_part=tmp;
       if (use_count)
 	next->increment_use_count(use_count);
+      if (param->alloced_sel_args > SEL_ARG::MAX_SEL_ARGS)
+        break;
     }
     else
       next->next_key_part=key2;
@@ -4707,7 +4807,7 @@ and_all_keys(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag)
 */
 
 static SEL_ARG *
-key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
+key_and(PARAM *param, SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
 {
   if (!key1)
     return key2;
@@ -4723,9 +4823,9 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
     // key1->part < key2->part
     key1->use_count--;
     if (key1->use_count > 0)
-      if (!(key1= key1->clone_tree()))
+      if (!(key1= key1->clone_tree(param)))
 	return 0;				// OOM
-    return and_all_keys(key1,key2,clone_flag);
+    return and_all_keys(param, key1, key2, clone_flag);
   }
 
   if (((clone_flag & CLONE_KEY2_MAYBE) &&
@@ -4743,14 +4843,14 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
     if (key1->use_count > 1)
     {
       key1->use_count--;
-      if (!(key1=key1->clone_tree()))
+      if (!(key1=key1->clone_tree(param)))
 	return 0;				// OOM
       key1->use_count++;
     }
     if (key1->type == SEL_ARG::MAYBE_KEY)
     {						// Both are maybe key
-      key1->next_key_part=key_and(key1->next_key_part,key2->next_key_part,
-				 clone_flag);
+      key1->next_key_part=key_and(param, key1->next_key_part, 
+                                  key2->next_key_part, clone_flag);
       if (key1->next_key_part &&
 	  key1->next_key_part->type == SEL_ARG::IMPOSSIBLE)
 	return key1;
@@ -4761,7 +4861,7 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
       if (key2->next_key_part)
       {
 	key1->use_count--;			// Incremented in and_all_keys
-	return and_all_keys(key1,key2,clone_flag);
+	return and_all_keys(param, key1, key2, clone_flag);
       }
       key2->use_count--;			// Key2 doesn't have a tree
     }
@@ -4797,7 +4897,8 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
     }
     else if (get_range(&e2,&e1,key2))
       continue;
-    SEL_ARG *next=key_and(e1->next_key_part,e2->next_key_part,clone_flag);
+    SEL_ARG *next=key_and(param, e1->next_key_part, e2->next_key_part,
+                          clone_flag);
     e1->increment_use_count(1);
     e2->increment_use_count(1);
     if (!next || next->type != SEL_ARG::IMPOSSIBLE)
@@ -4845,7 +4946,7 @@ get_range(SEL_ARG **e1,SEL_ARG **e2,SEL_ARG *root1)
 
 
 static SEL_ARG *
-key_or(SEL_ARG *key1,SEL_ARG *key2)
+key_or(PARAM *param, SEL_ARG *key1,SEL_ARG *key2)
 {
   if (!key1)
   {
@@ -4893,7 +4994,7 @@ key_or(SEL_ARG *key1,SEL_ARG *key2)
     {
       swap_variables(SEL_ARG *,key1,key2);
     }
-    if (key1->use_count > 0 || !(key1=key1->clone_tree()))
+    if (key1->use_count > 0 || !(key1=key1->clone_tree(param)))
       return 0;					// OOM
   }
 
@@ -5037,7 +5138,7 @@ key_or(SEL_ARG *key1,SEL_ARG *key2)
       {						// tmp.min. <= x <= tmp.max
 	tmp->maybe_flag|= key.maybe_flag;
 	key.increment_use_count(key1->use_count+1);
-	tmp->next_key_part=key_or(tmp->next_key_part,key.next_key_part);
+	tmp->next_key_part= key_or(param, tmp->next_key_part, key.next_key_part);
 	if (!cmp)				// Key2 is ready
 	  break;
 	key.copy_max_to_min(tmp);
@@ -5068,7 +5169,7 @@ key_or(SEL_ARG *key1,SEL_ARG *key2)
 	tmp->increment_use_count(key1->use_count+1);
 	/* Increment key count as it may be used for next loop */
 	key.increment_use_count(1);
-	new_arg->next_key_part=key_or(tmp->next_key_part,key.next_key_part);
+	new_arg->next_key_part= key_or(param, tmp->next_key_part, key.next_key_part);
 	key1=key1->insert(new_arg);
 	break;
       }

sql/sql_list.h

@@ -23,7 +23,7 @@
 class Sql_alloc
 {
 public:
-  static void *operator new(size_t size)
+  static void *operator new(size_t size) throw ()
   {
     return (void*) sql_alloc((uint) size);
   }
@@ -31,9 +31,9 @@ public:
   {
     return (void*) sql_alloc((uint) size);
   }
-  static void *operator new[](size_t size, MEM_ROOT *mem_root)
+  static void *operator new[](size_t size, MEM_ROOT *mem_root) throw ()
   { return (void*) alloc_root(mem_root, (uint) size); }
-  static void *operator new(size_t size, MEM_ROOT *mem_root)
+  static void *operator new(size_t size, MEM_ROOT *mem_root) throw ()
   { return (void*) alloc_root(mem_root, (uint) size); }
   static void operator delete(void *ptr, size_t size) { TRASH(ptr, size); }
   static void operator delete(void *ptr, MEM_ROOT *mem_root)

sql/sql_select.cc

@@ -8793,12 +8793,12 @@ static Field *create_tmp_field_from_item(THD *thd, Item *item, TABLE *table,
   
     enum enum_field_types type;
     /*
-      DATE/TIME fields have STRING_RESULT result type. To preserve
-      type they needed to be handled separately.
+      DATE/TIME and GEOMETRY fields have STRING_RESULT result type. 
+      To preserve type they needed to be handled separately.
     */
     if ((type= item->field_type()) == MYSQL_TYPE_DATETIME ||
         type == MYSQL_TYPE_TIME || type == MYSQL_TYPE_DATE ||
-        type == MYSQL_TYPE_TIMESTAMP)
+        type == MYSQL_TYPE_TIMESTAMP || type == MYSQL_TYPE_GEOMETRY)
       new_field= item->tmp_table_field_from_field_type(table);
     /* 
       Make sure that the blob fits into a Field_varstring which has