This might be a bit old, but I was wondering this myself. So I performed a benchmark. First, I created a simple table:
SELECT * from random LIMIT 10;
+----+------------+
| id | rand_stuff |
+----+------------+
| 1 | 1988585319 |
| 2 | 1926594853 |
| 3 | 820681972 |
| 4 | 950331574 |
| 5 | 540721998 |
| 6 | 1284256353 |
| 7 | 12804417 |
| 8 | 2130482967 |
| 9 | 2018786156 |
| 10 | 285818156 |
+----+------------+
SELECT count(id) from random;
+-----------+
| count(id) |
+-----------+
| 3365586 |
+-----------+
/var/lib/mysql/benchmark# ls -laFh
total 101M
drwx------ 2 mysql mysql 4.0K 2011-05-28 00:06 ./
drwxr-xr-x 7 mysql mysql 4.0K 2011-05-27 23:53 ../
-rw-rw---- 1 mysql mysql 65 2011-05-27 23:53 db.opt
-rw-rw---- 1 mysql mysql 8.4K 2011-05-28 00:06 random.frm
-rw-rw---- 1 mysql mysql 55M 2011-05-28 00:32 random.MYD
-rw-rw---- 1 mysql mysql 47M 2011-05-28 00:32 random.MYI
Its a trivial structure that weighs in at ~100 MB. The random number was created with php's mt_rand() function.
Here's "Fetch.php":
<?php
$loops = $argv[1];
$mysqli = new mysqli("localhost", "bench", "bench", "benchmark");
if(mysqli_connect_errno()){
printf("Connect Failed: %s\n", mysqli_connect_error());
exit();
}
if($stmt = $mysqli->prepare("SELECT rand_stuff FROM random WHERE id = ?")){
for($i=1; $i<$loops; $i++){
$stmt->bind_param("i", $i) or die;
$stmt->execute() or die;
$stmt->bind_result($value) or die;
$stmt->fetch();
echo "$i \t $value\n";
}
$stmt->close();
}
And some benchmarks:
$time php fetch.php 10 > /dev/null
real 0m0.043s
user 0m0.024s
sys 0m0.012s
$ time php fetch.php 100 > /dev/null
real 0m0.057s
user 0m0.044s
sys 0m0.000s
$ time php fetch.php 1000 > /dev/null
real 0m0.166s
user 0m0.080s
sys 0m0.012s
$ time php fetch.php 10000 > /dev/null
real 0m1.083s
user 0m0.412s
sys 0m0.124s
Here's fetch2.php
<?php
$loops = $argv[1];
$mysqli = new mysqli("localhost", "bench", "bench", "benchmark");
if(mysqli_connect_errno()){
printf("Connect Failed: %s\n", mysqli_connect_error());
exit();
}
$array = array();
for($i=1; $i<$loops; $i++){
$array[] = $i;
}
$joined_array = join($array, ',');
$results = $mysqli->query("SELECT id, rand_stuff FROM random WHERE id IN ($joined_array)");
while($row = $results->fetch_row()){
$val1 = $row[0];
$val2 = $row[1];
echo "$val1\t$val2\n";
}
And here are its related benchmarks.
$time php fetch2.php 10 > /dev/null
real 0m0.037s
user 0m0.028s
sys 0m0.008s
$time php fetch2.php 100 > /dev/null
real 0m0.044s
user 0m0.032s
sys 0m0.008s
$ time php fetch2.php 1000 > /dev/null
real 0m0.050s
user 0m0.036s
sys 0m0.016s
$ time php fetch2.php 10000 > /dev/null
real 0m0.117s
user 0m0.088s
sys 0m0.024s
Side By Side, we get this table (Fetch.php is "WHERE id = ?" and prepared statements, while Fetch2.php uses the " WHERE x IN ()" syntax on a dumb query):
+--------+-----------+------------+
| Loop | Fetch.php | Fetch2.php |
+--------+-----------+------------+
| 10 | .043s | .037s |
| 100 | .057s | .044s |
| 1000 | .116s | .050s |
| 10000 | 1.083s | .117s |
+--------+-----------+------------+
Clearly, "Fetch2.php" is more efficient, but in this benchmark... it doesn't seem to really matter until you get into the 100+ elements range. Iterating over the prepared statement is simple and secure (no chance of SQL Injection at all), and doesn't seem to be much slower at the ~10 elements range. Repeating the test with ~10 elements can sometimes have "Fetch.php" win the benchmark. Overall, Fetch2.php won of course, but they're definitely close at this range.
I'd be inclined to say that... if you have less than 100 elements, just take advantage of the prepared statement and execute it repeatedly. That's what prepared statements are designed for after all. Nothing beats a single-round trip to the database of course, but the prepared statement approach may have acceptable performance. Of course, benchmark on your own system. Most likely, the above test was too trivial (there aren't any joins or subqueries... and the db is on the same system as the php script...)