Non-block statements in Qore are always terminated by a semi-colon ";"
as in Perl, C, C++, or Java. Statements can be grouped into blocks, which are delimited by curly brackets "{"
and "}"
containing zero or more semi-colon delimited statements, as in C or Java. Like C, C++, and Java, but unlike perl, any Qore statement taking a statement modifier will accept a single statement or a statement block.
A statement can be any of the following (note that statements are also recursively defined):
Qore Statements
Type | Examples | Reference |
An expression that changes an lvalue | | Expressions |
An expression with the new operator | new ObjectClass(1, 2, 3);
| New Object Operator (new) |
An expression with the background operator | | Background Operator (background) |
A call reference or closure call | $call_reference($arg1, $arg2);
| Call References, Closures |
A method call | | Classes |
An if statement | | if and else Statements |
An if ... else statement | if ($var == 3) {} else {}
| if and else Statements |
A while statement | | while Statements |
A do while statement | | do while Statements |
A for statement | for (my int $i = 0; $i < 10; ++ $i) {}
| for Statements |
A foreach statement | foreach my softint $i in ($list) {}
| foreach Statements |
A switch statement | switch ($var) { case =~ /error/: throw "ERROR", $var; default: printf( "%s\n", $var); }
| switch Statements |
A return statement | | return Statements |
A local variable declaration | my (int $a, string $b, bool $c);
| Variables, Variable Declarations and Lexical Scope |
A global variable declaration | our ( float $a, int $b, hash $c);
| Variables, Variable Declarations and Lexical Scope |
A function call | calculate($this, $that, $the_other);
| function_library |
A continue statement | | continue Statements |
A break statement | | break Statements |
A statement block | | zero or more statements enclosed in curly brackets |
A throw statement | throw "ERROR", $description;
| throw Statements |
A try and catch statement | try { func(); } catch ( hash $ex) { printf( "%s:%d: %s: %s\n", $ex.file, $ex.line, $ex.err, $ex.desc); }
| try and catch Statements |
A rethrow statement | | rethrow Statements |
A thread_exit statement | | thread_exit Statements |
A context statement | | context Statements |
A summarize statement | summarize ($q) by (% date) where (% id != NULL) {}
| summarize Statements |
A subcontext statement | subcontext where (% type == "INBOUND" ) {}
| subcontext Statements |
An on_exit statement | | on_exit Statements |
An on_success statement | | on_success Statements |
An on_error statement | | on_error Statements |
if and else Statements
- Synopsis
- The
if
statement allows for conditional logic in a Qore program's flow; the syntax is similar to that of C, C++, or Java.
- Syntax
if
(
expression)
statement
[else
statement]
- Description
- Qore if statements work like if statements in C or Java. If the result of evaluating the expression converted to a Boolean value is True, then the first statement (which can also be a block) is executed. If the result is False, and there is an
else
keyword after the first statement, the following statement is executed.
- Note
- Any expression that evaluates to a non-zero integer value will be converted to a Boolean True. Any expression that evaluates to zero value is interpreted as False. This is more like C and Java's behavior and not like Perl's (where any non-null string except "0" is True). To simulate Perl's boolean evaluation, use <value>::val().
for Statements
- Synopsis
- The Qore
for
statement is most similar to the for statement in C and Java, or the non array iterator for statement in Perl. This statement is ideal for loops that should execute a given number of times, then complete. Each of the three expressions in the for statement is optional and may be omitted. To iterate through a list without directly referencing list index values, see the foreach statement.
- Syntax
for
(
[initial_expression];
[test_expression];
[iterator_expression])
statement
- Description
- [initial_expression]
The initial_expression is executed only once at the start of each for loop. It is typically used to initialize a loop variable.
[test_expression]
The test_expression is executed at the start of each for loop iteration. If this expression evaluates to Boolean False, the loop will terminate.
[iterator_expression]
The iterator_expression is executed at the end of each for loop iteration. It is typically used to increment or decrement a loop variable that will be used in the test_expression.
- Example
- Here is an example of a for loop using a local variable:
for (my int $i = 0; $i < 10; $i++)
foreach Statements
- Synopsis
- The Qore
foreach
statement is most similar to the for
or foreach
array iterator statement in Perl. To iterate an action until a condition is True, use the for statement instead.
- Syntax
foreach
[my|our] [
type]
$variable in
(
expression)
statement
- Description
- If expression does not evaluate to a list, then the variable will be assigned the value of the expression evaluation and the statement will only execute one time. Otherwise the variable will be assigned to each value of the list and the statement will be called once for each value.
If expression evaluates to an object inheriting the AbstractIterator class, the foreach
operator iterates the object by calling AbstractIterator::next(), and the alues assigned to the iterator variable on each iteration are the container values returned by AbstractIterator::getValue(). If expression evalutes to NOTHING (no value); then the loop is not executed at all.
- Example
- Here is an example of a foreach loop using a local variable:
# if $str_list is a list of strings, this will remove all whitespace from the
# strings; the reference in the list expression ensures that changes
# to the iterator variable are written back to the list
foreach my string $str in (\$str_list)
Here is an example of a foreach loop using an object derived from AbstractIterator:
my
hash $h = (
"a": 1,
"b": 2);
foreach my
int $i in (
new HashIterator($h,
True))
printf("%s = %y\n", $i.key, $i.value);
- Note
- If a reference (
\$lvalue_expression
) is used as the list expression, any changes made to the foreach
iterator variable will be written back to the list (in which case any AbstractIterator object is not iterated; references cannot be used with AbstractIterator objects as such objects provide read-only iteration).
- See also
- Map Operator (map) for a flexible way to iterate a list or AbstractIterator object in a single expression
switch Statements
- Synopsis
- The Qore switch statement is similar to the switch statement in C and C++, except that the case values can be any expression that does not need run-time evaluation and can also be expressions with simple relational operators or regular expressions using the switch value as an implied operand.
- Syntax
switch
(
expression) {
case
case_expression:
[statement(s)...]
[default:
[statement(s)...]]
}
- Example
switch ($val) {
case < -1:
break;
case "string":
break;
case > 2007-01-22T15:00:00:
printf(
"greater than 2007-01-22 15:00:00\n");
break;
case /abc/:
printf(
"string with 'abc' somewhere inside\n");
break;
default:
break;
}
- Description
- The first expression is evaluated and then compared to the value of each case_expression in declaration order until one of the case_expressions matches or is evaluated to True. In this case all code up to a break statement is executed, at which time execution flow exits the
switch
statement.
Unless relational operators are used, the comparisons are "hard" comparisons; no type conversions are done, so in order for a match to be made, both the value and types of the expressions must match exactly. When relational operators are used, the operators are executed exactly as they are in the rest of Qore, so type conversions may be performed if nesessary. The only exception to this is when both arguments are strings then a soft comparison is made in order to avoid the case that strings fail to match only because their encodings are different.
To use soft comparisons, you must explicitly specify the soft equals operator as follows:
switch (1) {
case ==
"1":
print(
"true\n");
break;
}
If no match is found and a default label has been given, then any statements after the default label will be executed. If a match is made, then the statements following that case label are executed.
To break out of the switch statement, use the break statement.
As with C and C++, if no break or return statement is encountered, program control will continue to execute through other case
blocks until on of the previous statements is encountered or until the end of the switch
statement.
Valid Case Expression Operators
while Statements
- Synopsis
while
statements in Qore are similar to while statements in Perl, C and Java. They are used to loop while a given condition is True.
- Syntax
while
(
expression)
statement
- Description
- First the expression will be evaluated; if it evaluates to True, then statement will be executed. If it evaluates to False, the loop terminates.
- Example
my int $a = 1;
while ($a < 10)
$a++;
do while Statements
- Synopsis
do
while
statements in Qore are similar to do while statements in C. They are used to guarantee at least one iteration and loop until a given expression evaluates to False.
- Syntax
do
statement
while
(
expression);
- Description
- First, the statement will be executed, then the expression will be evaluated; if it evaluates to True, then the loop iterates again. If it evaluates to False, the loop terminates.
The difference between do
while
statements and while statements is that the do
while
statement evaluates its loop expression at the end of the loop, and therefore guarantees at least one iteration of the loop.
- Example
$a = 1;
do
$a++;
while ($a < 10);
continue Statements
- Synopsis
- Skips the rest of a loop and jumps right to the evaluation of the iteration expression.
- Syntax
continue
;
- Description
- The
continue
statement affects loop processing; that is; it has an affect on for, foreach, while, do while, context, summarize, and subcontext loop processing.
When this statement is encountered while executing a loop, execution control jumps immediately to the evaluation of the iteration expression, skipping any other statements that might otherwise be executed.
break Statements
- Synopsis
- Exits immediately from a loop statement or switch block.
- Syntax
break
;
- Description
- The
break
statement affects loop processing; that is; it has an affect on for, foreach, while, do while, context, summarize, and subcontext loop processing as well as on switch block processing.
When this statement is encountered while executing a loop, the loop is immediately exited, and execution control passes to the next statement outside the loop.
throw Statements
- Synopsis
- In order to throw an exception explicitly, the
throw
statement must be used.
- Syntax
throw
expression;
- Description
- The expression will be passed to the
catch
block of a try/catch statement, if the throw
is executed in a try block. Otherwise the default system exception handler will be run and the currently running thread will terminate.
Qore convention dictates that a direct list is thrown with at least two string elements, the error code and a description. All system exceptions have this format.
See try/catch statements for information on how to handle exceptions, and see Exception Handling for information about how throw arguments are mapped to the exception hash.
try and catch Statements
- Synopsis
- Some error conditions can only be detected and handled using exception handlers. To catch exceptions,
try
and catch
statements have to be used. When an exception occurs while executing the try
block, execution control will immediately be passed to the catch
block, which can capture information about the exception.
- Syntax
try
statement
catch ([
$exception_hash_variable])
statement
- Description
- A single variable can be specified in the catch block to be instantiated with the exception hash, giving information about the exception that has occurred. For detailed information about the exception hash, see Exception Handling.
If no variable is given in the catch
declaration, it will not be possible to access any information about the exception in the catch
block. However, the rethrow statement can be used to rethrow exceptions at any time in a catch
block.
rethrow Statements
- Synopsis
- A
rethrow
statement can be used to rethrow an exception in a catch
block. In this case a entry tagged as a rethrow entry will be placed on the exception call stack.
- Syntax
rethrow
;
- Description
- The rethrown exception will be either passed to the next higher-level
catch
block, or to the system default exception handler, as with a throw statement.
This statement can be used to maintain coherent call stacks even when exceptions are handled by more than one catch
block (for detailed information about the exception hash and the format of call stacks, see Exception Handling).
Note that it is an error to use the rethrow
statement outside of a catch
block.
thread_exit Statements
- Synopsis
thread_exit
statements cause the current thread to exit immediately. Use this statement instead of the exit() function when only the current thread should exit.
- Syntax
thread_exit
;
- Description
- This statement will cause the current thread to stop executing immediately.
context Statements
- Synopsis
- To easily iterate through multiple rows in a hash of arrays (such as a query result set returned by the Qore::SQL::Datasource::select() or Qore::SQL::SQLStatement::fetchColumns() methods), the
context
statement can be used. Column names can be referred to directly in expressions in the scope of the context statement by preceding the name with a "%"
character.
- Syntax
context
[name] (
data_expression)
[where (
where_expression)]
[sortBy (
sort_expression)]
[sortDescendingBy (
sort_descending_expression)]
statement
- Description
- data_expression
This must evaluate to a hash of arrays in order for the context
statement to execute.
where_expression
An optional where
expression may be given, in which case for each row in the hash, the expression will be executed, and if the where expression evaluates to True, the row will be iterated in the context loop. If this expression evaluates to False, then the row will not be iterated. This option is given so the programmer can create multiple views of a single data structure (such as a query result set) in memory rather than build different data structures by hand (or retrieve the data multiple times from a database).
sort_expression
An optional sortBy
by expression may also be given. In this case, the expression will be evaluated for each row of the query given, and then the result set will be sorted in ascending order by the results of the expressions according to the resulting type of the evaluated expression (i.e. if the result of the evaluation of the expression gives a string, then string order is used to sort, if the result of the evaluation is an integer, then integer order is used, etc).
sort_descending_expression
Another optional modifier to the context
statement that behaves the same as above except that the results are sorted in descending order.
- Example
# note that "%service_type" and "%effective_start_date" represent values
# in the $service_history hash of arrays.
context ($service_history) where (%service_type == "voice")
sortBy (%effective_start_date) {
printf(
"%s: start date: %s\n", %msisdn,
format_date(
"YYYY-MM-DD HH:mm:SS", %effective_start_date));
}
- See also
-
summarize Statements
- Synopsis
summarize
statements are like context statements with one important difference: results sets are grouped by a by expression, and the statement is executed only once per discrete by expression result. This statement is designed to be used with the subcontext statement.
- Syntax
summarize
(
data_expression) by (
by_expression)
[where (
where_expression)]
[sortBy (
sort_expression)]
[sortDescendingBy (
sort_descending_expression)]
statement
- Description
summarize
statements modifiers have the same effect as those for the context statement, except for the following:
by (
by_expression)
The by
expression is executed for each row in the data structure indicated. The set of unique results defines groups of result rows. For each group of result rows, each row having an identical result of the evaluation of the by expression, the statement is executed only once.
- Example
# note that "%service_type" and "%effective_start_date" represent values
# in the $services hash of arrays.
summarize ($services)
by (%effective_start_date)
where (%service_type == "voice")
sortBy (%effective_start_date) {
printf(
"account has %d service(s) starting on %s\n",
context_rows(),
format_date(
"YYYY-MM-DD HH:mm:SS", %effective_start_date));
}
- See also
-
subcontext Statements
- Synopsis
- Statement used to loop through values within a summarize statement.
- Syntax
subcontext
[where (
where_expression)]
[sortBy (
sort_expression)]
[sortDescendingBy (
sort_descending_expression)]
statement
- Description
- The
subcontext
statement is used in conjunction with summarize statements. When result rows of a query should be grouped, and then each row in the result set should be individually processed, the Qore programmer should first use a summarize statement, and then a subcontext
statement. The summarize statement will group rows, and then the nested subcontext
statement will iterate through each row in the current summary group.
- Example
summarize ($services)
by (%effective_start_date)
where (%service_type == "voice")
sortBy (%effective_start_date) {
printf(
"account has %d service(s) starting on %s\n",
context_rows(),
format_date(
"YYYY-MM-DD HH:mm:SS", %effective_start_date));
subcontext sortDescendingBy (%effective_end_date) {
printf(
"\tservice %s: ends: %s\n", %msisdn,
format_date(
"YYYY-MM-DD HH:mm:SS", %effective_end_date));
}
}
- See also
-
return Statements
- Synopsis
return
statements causes the flow of execution of the function, method or program to stop immediately and return to the caller. This statement can take an optional expression to return a value to the caller as well.
- Syntax
return
[expression];
- Description
- This statement causes execution of the current function, method, or program to returns to the caller, optionally with a return value.
- Example
string sub getName() {
return "Barney";
}
my string $name = getName();
on_exit Statements
- Synopsis
- Queues a statement or statement block for unconditional execution when the block is exited, even in the case of exceptions or return statements. For similar statement that queue code for execution depending on the exception status when the block exits, see on_success statements and on_error statements.
- Syntax
on_exit
statement
- Description
- The
on_exit
statement provides a clean way to do exception-safe cleanup within Qore code. Any single statment (or statement block) after the on_exit
keyword will be executed when the current block exits (as long as the statement itself is reached when executing - on_exit
statements that are never reached when executing will have no effect).
The position of the on_exit
statement in the block is important, as the immediate effect of this statement is to queue its code for execution when the block is exited. Even if an exception is raised or a return statement is executed, any on_exit
code that is queued will be executed. Therefore it's ideal for putting cleanup code right next to the code that requires the cleanup.
Note that if this statement is reached when executing in a loop, the on_exit
code will be executed for each iteration of the loop.
By using this statement, programmers ensure that necessary cleanup will be performed regardless of the exit status of the block (exception, return, etc).
- Example
{
$mutex.lock();
# here we queue the unlock of the mutex when the block exits, even if an exception is thrown below
on_exit $mutex.unlock();
if ($error)
throw "ERROR", "Scary error happened";
print(
"everything's OK!\n");
return "OK";
}
# when the block exits for any reason, the mutex will be unlocked
on_success Statements
- Synopsis
- Queues a statement or statement block for execution when the block is exited in the case that no exception is active. Used often in conjunction with the on_error statement and related to the on_exit statement.
- Syntax
on_success
statement
- Description
- The
on_success
statement provides a clean way to do block-level cleanup within Qore code in the case that no exception is thrown in the block. Any single statment (or statement block) after the on_success
keyword will be executed when the current block exits as long as no unhandled exception has been thrown (and as long as the statement itself is reached when executing - on_success
statements that are never reached when executing will have no effect).
The position of the on_success
statement in the block is important, as the immediate effect of this statement is to queue its code for conditional execution when the block is exited. Even if a return statement is executed later in the block, any on_success
code that is queued will be executed as long as there is no active (unhandled) exception. Therefore it's ideal for putting cleanup code right next to the code that requires the cleanup, along with on_error statements, which are executed in a manner similar to on_success
statements, except on_error
statements are only executed when there is an active exception when the block is exited.
Note that if this statement is reached when executing in a loop, the on_success
code will be executed for each iteration of the loop (as long as there is no active exception).
- Example
{
$db.beginTransaction();
# here we queue the commit in the case there are no errors
on_success $db.commit();
# here we queue a rollback in the case of an exception
on_error $db.rollback();
$db.select("select * from table where id = %v for update", $id);
# .. more code
return "OK";
}
# when the block exits. the transaction will be either committed or rolled back,
# depending on if an exception was raised or not
on_error Statements
- Synopsis
- Queues a statement or statement block for execution when the block is exited in the case that no exception is active. Used often in conjunction with the on_success statement and related to the on_exit statement.
- Syntax
on_error
statement
- Description
- The
on_error
statement provides a clean way to do block-level cleanup within Qore code in the case that an exception is thrown in the block. Any single statment (or statement block) after the on_error
keyword will be executed when the current block exits as long as an unhandled exception has been thrown (and as long as the statement itself is reached when executing - on_error
statements that are never reached when executing will have no effect).
The position of the on_error
statement in the block is important, as the immediate effect of this statement is to queue its code for conditional execution when the block is exited. Even if a return statement is executed later in the block, any on_error
code that is queued will be executed as long as there is an active (unhandled) exception. Therefore it's ideal for putting cleanup code right next to the code that requires the cleanup, along with on_success statements, which are executed in a manner similar to on_error
statements, except on_success statements are only executed when there is no active exception when the block is exited.
Note that the code in this statement can only be executed once in any block, as a block (even a block within a loop) can only exit the loop once with an active exception (in contrast to on_success and on_exit statements, which are executed for every iteration of a loop).
- Example
{
$db.beginTransaction();
# here we queue the commit in the case there are no errors
on_success $db.commit();
# here we queue a rollback in the case of an exception
on_error $db.rollback();
$db.select("select * from table where id = %v for update", $id);
# .. more code
return "OK";
}
# when the block exits. the transaction will be either committed or rolled back,
# depending on if an exception was raised or not