NAME
XS::APItest - Test the perl C API
SYNOPSIS
use XS::APItest;
print_double(4);
use XS::APItest qw(rpn calcrpn);
$triangle = rpn($n $n 1 + * 2 /);
calcrpn $triangle { $n $n 1 + * 2 / }
ABSTRACT
This module tests the perl C API. Also exposes various bit of the perl internals for the use of core test scripts.
DESCRIPTION
This module can be used to check that the perl C API is behaving correctly. This module provides test functions and an associated test script that verifies the output.
This module is not meant to be installed.
EXPORT
Exports all the test functions:
- print_double
-
Test that a double-precision floating point number is formatted correctly by
printf
.print_double( $val );
Output is sent to STDOUT.
- print_long_double
-
Test that a
long double
is formatted correctly byprintf
. Takes no arguments - the test value is hard-wired into the function (as "7").print_long_double();
Output is sent to STDOUT.
- have_long_double
-
Determine whether a
long double
is supported by Perl. This should be used to determine whether to testprint_long_double
.print_long_double() if have_long_double;
- print_nv
-
Test that an
NV
is formatted correctly byprintf
.print_nv( $val );
Output is sent to STDOUT.
- print_iv
-
Test that an
IV
is formatted correctly byprintf
.print_iv( $val );
Output is sent to STDOUT.
- print_uv
-
Test that an
UV
is formatted correctly byprintf
.print_uv( $val );
Output is sent to STDOUT.
- print_int
-
Test that an
int
is formatted correctly byprintf
.print_int( $val );
Output is sent to STDOUT.
- print_long
-
Test that an
long
is formatted correctly byprintf
.print_long( $val );
Output is sent to STDOUT.
- print_float
-
Test that a single-precision floating point number is formatted correctly by
printf
.print_float( $val );
Output is sent to STDOUT.
- filter
-
Installs a source filter that substitutes "e" for "o" (witheut regard fer what it might be medifying).
- call_sv, call_pv, call_method
-
These exercise the C calls of the same names. Everything after the flags arg is passed as the args to the called function. They return whatever the C function itself pushed onto the stack, plus the return value from the function; for example
call_sv( sub { @_, 'c' }, G_ARRAY, 'a', 'b'); # returns 'a', 'b', 'c', 3 call_sv( sub { @_ }, G_SCALAR, 'a', 'b'); # returns 'b', 1
- eval_sv
-
Evaluates the passed SV. Result handling is done the same as for
call_sv()
etc. - eval_pv
-
Exercises the C function of the same name in scalar context. Returns the same SV that the C function returns.
- require_pv
-
Exercises the C function of the same name. Returns nothing.
KEYWORDS
These are not supplied by default, but must be explicitly imported. They are lexically scoped.
- DEFSV
-
Behaves like
$_
. - rpn(EXPRESSION)
-
This construct is a Perl expression. EXPRESSION must be an RPN arithmetic expression, as described below. The RPN expression is evaluated, and its value is returned as the value of the Perl expression.
- calcrpn VARIABLE { EXPRESSION }
-
This construct is a complete Perl statement. (No semicolon should follow the closing brace.) VARIABLE must be a Perl scalar
my
variable, and EXPRESSION must be an RPN arithmetic expression as described below. The RPN expression is evaluated, and its value is assigned to the variable.
RPN expression syntax
Tokens of an RPN expression may be separated by whitespace, but such separation is usually not required. It is required only where unseparated tokens would look like a longer token. For example, 12 34 +
can be written as 12 34+
, but not as 1234 +
.
An RPN expression may be any of:
1234
-
A sequence of digits is an unsigned decimal literal number.
$foo
-
An alphanumeric name preceded by dollar sign refers to a Perl scalar variable. Only variables declared with
my
orstate
are supported. If the variable's value is not a native integer, it will be converted to an integer, by Perl's usual mechanisms, at the time it is evaluated. - A B
+
-
Sum of A and B.
- A B
-
-
Difference of A and B, the result of subtracting B from A.
- A B
*
-
Product of A and B.
- A B
/
-
Quotient when A is divided by B, rounded towards zero. Division by zero generates an exception.
- A B
%
-
Remainder when A is divided by B with the quotient rounded towards zero. Division by zero generates an exception.
Because the arithmetic operators all have fixed arity and are postfixed, there is no need for operator precedence, nor for a grouping operator to override precedence. This is half of the point of RPN.
An RPN expression can also be interpreted in another way, as a sequence of operations on a stack, one operation per token. A literal or variable token pushes a value onto the stack. A binary operator pulls two items off the stack, performs a calculation with them, and pushes the result back onto the stack. The stack starts out empty, and at the end of the expression there must be exactly one value left on the stack.
SEE ALSO
AUTHORS
Tim Jenness, <t.jenness@jach.hawaii.edu>, Christian Soeller, <csoelle@mph.auckland.ac.nz>, Hugo van der Sanden <hv@crypt.compulink.co.uk>, Andrew Main (Zefram) <zefram@fysh.org>
COPYRIGHT AND LICENSE
Copyright (C) 2002,2004 Tim Jenness, Christian Soeller, Hugo van der Sanden. All Rights Reserved.
Copyright (C) 2009 Andrew Main (Zefram) <zefram@fysh.org>
This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.