DESCRIPTIONintercalc is a simple desk calculator, allowing the user to enter INTERCAL statements (to see what they do) and expressions (to see what value they produce); it uses an interpreter object from CLC-INTERCAL to provide immediate feedback.
The desk calculator accepts several options, some of which are documented here.
User Interface Options
- -X / --graphic
- Enters X-based graphical user interface. Requires Perl-GTK. This is the default if Perl-GTK is installed, the environment variable $DISPLAY is set and the opening of the X display succeeds.
- -c / --curses
- Enters full screen, curses-based interface. This is the default if the X based interface cannot be started, the environment variable $TERM is set and the terminal name is known.
Enters the line-mode user interface. This is the default if the X based
and the curses based interfaces do not work.
In this mode, the program executes each line from standard input according to the current mode and language, and prints results to standard output. A line starting with a backspark is interpreted as a command to the calculator. Use backspark-g to GIVE UP (you'll need to do it twice), or backspark-h to display the ehm, help page. Things which are available via menu entries on the Curses and X interfaces are also available via the backspark. For now, you can refer to the source code for a list.
Command-line editing and command history is provided by the readline library. Command completion works if the underlying compiler supports it (the compilers provided with the distributions do).
- Avoids entering interactive mode. This is the default if the standard input and output are not connected to a terminal and the X based interface cannot be started. This mode is very similar to the line mode except that command-line editing and command history are not implemented. Backspark escapes work just the same.
- -itype / --interface=type
- Selects the user interface type. Currently, only X, Curses, Line and None are defined, but more can be installed as compiler plug-ins. If the interface selected is None, intercalc will work in batch mode. In addition, an empty string will reinstate the default behaviour.
Source language and compilation options
- Selects a different probability for the compiler bug. The compiler bug is implemented by initialising the compiler's state with the required probability: when a statement is compiled (usually at runtime), a ``BUG'' instruction is emitted with the required probability. The default is 1%.
- Selects a probability for the unexplainable compiler bug. This is the compiler bug which occurs when the probability of a (explainable) compiler bug is zero. Only wimps would use this option. The default is 0.01%.
- -Ipath / --include=path
Adds a directory before the standard search path for compiler objects
and source code. If a file is accessible from the current directory,
it is never searched in any include path.
If this option is repeated, the given paths will be searched in the order given, followed by the standard paths.
- -llanguage / --language=language
- Selects the language to use when interpreting user input. This should correspond to the name of a compiler, which is an INTERCAL object which was originally built by iacc. Only the expression and statement parsers are used, so it is possible to test incomplete compilers by loading them into intercalc even if they don't work with sick. The default is obtained from the sickrc option .INTERCALC.LANGUAGE.
- --ooption ---option=option
Adds a language option. For example, --o3 selects base 3 calculation,
and --owimp selects wimp mode. If no options are provided, and the
default language was taken from the sickrc file, the default options
are taken from the sickrc file. Note that if an option or a language is
specified on the command line, the sickrc defaults are ignored.
Unlike previous versions of intercalc, this version checks that the options make sense in the context of the calculator; for example trying to load a compiler as an option will cause an error, but a compiler extension will be OK.
- -mmode / --mode=mode
- Select operation mode. Currently, the only valid modes are full, expr and one. See ``Operating Modes''. If this is not specified, the default is taken from the sickrc option ..INTERCALC.MODE.
- -rname / --rcfile=name
Executes commands from file name before starting to accept input.
This option can be repeated, to execute more than one file. If it is
not specified, the standard library, the current directory, and the
current user's home directory are searched for files with name
system.sickrc or .sickrc, which are then executed. The order
for this search is: specified library (--include), system library,
home directory, current directory. This is different from the search
order used when looking for objects or source code. If a directory
contains both .sickrc and system.sickrc, the system.sickrc
is executed first, followed by .sickrc. Also note that if the
current directory or the home directory appear in the search path
and contain one of these files, they will be executed twice.
If filenames are explicitely specified, they must be fully qualified: the search path is not used to find them.
- Prevents loading a user rcfile (.sickrc); also limits loading of system.sickrc to the first one found. This option is normally only used when testing the installation, to prevent interference from previous versions of CLC-INTERCAL.
Operating ModesThe calculator can operate in the following modes:
- full Fully functional INTERCAL interpreter.
The calculator can parse and execute any statement or expression.
Statements are compiled as a one-statement program, and executed; any register value etc. will be preserved between statements, so entering a list of statements is equivalent to running a program in which all these statements are executed in sequence.
It is important to note that some statements will not execute in the normal manner. For example, a COME FROM will be parsed but have no effect, unless it is something like:
(1) PLEASE COME FROM (1)
which causes the calculator to hang. On the other hand, an ABSTAIN FROM or a REINSTATE will work as expected, as will CREATE and DESTROY. A GIVE UP does not cause the calculator to terminate. One final difference is that comments are not parsed, and therefore you get a ``Syntax Error'' from the calculator rather than a splat *000 from the INTERCAL interpreter.
For expressions, the calculator READs OUT the expression's result. Any side effects will be remembered, so if the expression contains overloads they will remain to haunt the calculator.
- expr INTERCAL expression interpreter
- The calculator can only parse expressions or assignments. In either case, the calculated values are READ OUT; assignments will also store the value to the destination, while expressions will then discard the result.
- oic The One Instruction Calculator.
This is something we've made
up one early morning while discussing desk calculators (as one does).
It is not INTERCAL at all, in fact it is inspired from the One Instruction
The calculator has a number of memories (default 100 - these can be changed by appending a number to the operating mode, for example oic10 will use a 10-memory calculator). These memories are identified by the letter m followed by a number; in the default 100-memory version, the first two digits after m are the memory, and any subsequent digit forms part of the next operand. At the start, all memories are initialised to 0.
Since there is only one operation, there is no need to specify it, so an ``operation'' is a sequence of three operands and a result. The result must be a memory, while each operand can be a number or a memory, with the limitation that consecutive numbers are acceptable only if the parser can determine where one ends and the next one starts. So for example ``1-0'' is two numeric operands, 1 and -0 (aka 0); ``1.2.3'' is also two operands, 1.2 and 3; ``12'' is a single operand, even if you intended it to be two operands, 1 and 2, and even if you put spaces: ``1 2'' is still interpreted as the single operand 12.
The operation performed is the difference between the first two operands, divided by the third. For example, the three operations:
7 m01 2 M01 1 m02 1 m02 m1 .5 m2 m03
will produce results m01=3.5 ((7-0)/2); m02=1 ((1-0)/1); m03=3 ((3.5-.5)/1). and will produce the following output if the calculator is running in batch mode:
m01 3.5 (7 - m01) / 2 m02 1 (1 - m02) / 1 m03 3 (m01 - .5) / m02