1stMUD/corefiles/
1stMUD/gods/
1stMUD/notes/
1stMUD/player/
1stMUD/win32/
1stMUD/win32/ROM/
Merc Release 2.1
Sunday 01 August 1993

Furey	mec@shell.portal.com
Hatchet	hatchet@uclink.berkeley.edu
Kahn	michael@uclink.berkeley.edu



=== Acknowledgement

This document contains information from 'database.doc', 'dbsup.doc', and
'values.doc', part of the original Diku mud release and copyrighted by the
Diku folks.  See their 'license.doc'.



=== Overview of Areas

An area is one piece of the world.  Each area is defined in a separate file.
All of our area files have the extension '.are', but you can call your area
files anything you want.

Because each area is defined in one file, it is easy to incorporate new areas
into Merc, or to send Merc areas to others for use.

All of our areas may be freely distributed, as long as the internal notices
(such as those on plaques, signs, graffiti, or tombstones) are kept.  If you
write new areas, and would like to contribute them back to Merc, just e-mail to
one of the addresses above.  As you can see from typing 'areas' in the game, we
credit the original authors whenever we can find them.

Although the format of Merc areas is (mostly) compatible with other Diku muds,
Merc ignores many of the fields in the area files, generating its own values
based on mobile and object levels.  We adopted this policy in order to maintain
balance between areas originally written by many different authors.



=== Sections of an Area

An area file contains the following sections:

    #AREA
    #HELPS
    #MOBILES
    #OBJECTS
    #ROOMS
    #RESETS
    #SHOPS
    #SPECIALS
    #$

An area is a collection of sections starting with #AREA until the next #AREA.
All of our area files (except 'help.are') contain just one #AREA section, which
is at the top of the file.

The file 'proto.are' contains a prototype for developing new area files.

Each of the sections contains its own format.  For #MOBILES, #OBJECTS, #ROOMS,
and #RESETS, this format is upward compatible with the original Diku formats
for tinyworld.mob, tinyworld.obj, tinyworld.wld, and tinyworld.zon,
respectively.  The #HELPS, #SHOPS, and #SPECIALS sections have new formats.



=== Memory Usage

In order to simplify the code, the Merc server has a fixed maximum size on
strings in the area database.  This size is defined at the beginning of 'db.c'
'db.c' with a '#define' statement.  As distributed, this size is:

    #define MAX_STRING	 1048576

This size is 10% larger than needed for the areas we distribute.  Thus, you
can add about 4 more areas without touching the server at all.  The server
will tell you when the string table overflows, and you can simply increase the
maximum limit and recompile.  The immortal 'memory' command will show you
memory usage from within the game.

There is no other limit on area sizes or memory usage.

We decided to use a fixed size because it simplifies our job.  It also allows
significant performance improvements: compare our load time and memory usage
versus other Diku muds with the same quantity of areas.



=== Data Types

All of the data in an area file (even the section headers) consists of a series
of values.  Each value has a specific type.  The server parses the file by
reading in data values one at a time according to the types it expects.

Blank characters (spaces, tabs, new lines, carriage returns) at the beginning
of a data value are always ignored (this includes strings).  Thus, you can
format the area files whatever way suits your taste and your needs.

The individual types are: 'letter', 'word', 'string', 'number', and 'to_eol'.

A 'letter' is a single non-blank character.

A 'word' is a sequence of non-blank characters terminated by a blank.

A 'string' is a seqence of non-tilde characters terminated by a tilde.  A tilde
is this character: '~'.  Thus, strings may contain blanks, and may be multiple
lines long.  There is no limit on the length of an individual string; however,
all strings go into a common memory pool whose size is fixed when the server is
compiled.

A 'number' is a decimal number with an optional leading '-' or '+'.  The '|'
character may be used in any number: '1|64|1048576' has the value 1048641.  The
individual values separated by '|' are added together, so '5|6' is 11, not 7.
The components need not be powers of 2.  This feature is extremely useful for
defining bit vectors, such as the ACT_* and AFF_* bits for mobiles, but is not
restricted to bit vectors: any number may use the '|' construction.

A 'to_eol' is all the characters from the current position to the end of the
current input line.  It is used for parsing comments at the ends of lines.

In the syntax description below, <value:type> indicates a value to be read of
the indicated type.  A backslash '\' indicates that the file format itself has
only one line, but several lines are used in this description to fit within
80 columns.

Braces '{ ... }' are used to enclose elements.  They are NOT literal parts of
the file format, but a way of indicating that the enclosed elements may be
repeated zero or more times.  Braces at the same level of indentation indicate
that the parallel elements may be present in any order.

All other characters in the syntax description are literal characters.

The file 'merc.h' lists the meanings of most of the flags and values.  The
section useful to area builders is set off by big comments; you can't miss it.
The file 'const.c' contains the spell list with slot numbers, and the file
'special.c' contains the list of special procedures.

Mobiles, objects, and rooms are identified by vnum (virtual number).  The range
of vnum's is 1 to 32767.  Vnum's must be unique (for that particular kind of
vnum).  Vnums do not have to be in increasing order.

Typically an area uses the same range of vnum's for mobile vnum's, object
vnum's, and room vnum's, starting with a multiple of 100.  This facilitates
adding the area into an existing set of areas.




=== The #AREA section

The syntax of this section is:

    #AREA	<area-name:string>

The 'area-name' can be any string.  The 'areas' command provides a list of
areas, so it's worth while to follow the standard Merc format for this string:

    #AREA	{ 5 35} Merc    Prototype for New Area~

The first two numbers are recommended level range.  The name is the name of the
original author of the area.  The last phrase is the name of the area.




=== The #HELPS section

The syntax of this section is:

    #HELPS
    {
	<level:number> <keywords:string>
	<help-text:string>
    }
    0 $~

The 'level' number is the minimum character level needed to read this section.
This allows for immortal-only help text.

The 'keywords' are a set of keywords for this help text.

The 'help-text' is the help text itself.

Normally when a player uses 'help', both the keywords and the help-text are
shown.  If the 'level' is negative, however, the keywords are suppressed.  This
allows the help file mechanism to be used for certain other commands, such as
the initial 'greetings' text.

If a 'help-text' begins with a leading '.', the leading '.' is stripped off.
This provides for an escape mechanism from the usual leading-blank stripping of
strings, so that picturesque greeting screens may be used.


    

=== The #MOBILES section

The syntax of this section is:

    #MOBILES
    {
	#<vnum:number>
	<keywords:string>
	<short-description:string>
	<long-description:string>
	<description:string>
	<act-flags:number> <affected-flags:number> <alignment:number> S
	<level:number> <hitroll:number> <armor:number>			\
	<hitnodice:number> d <hitsizedice:number> + <hitplus:number>	\
	<damnodice:number> d <damsizedice:number> + <damroll:number>
	<gold:number> <exp:number>
	<position:number> <position:number> <sex:number>
    }
    #0

The 'vnum' is the virtual number of the mobile.

The 'keywords' are words which can be used in commands to identify the mobile.

The 'short-description' is the description used by the 'act' function and other
functions to identify the mobile.

The 'long-description' is the description used when a character walks in the
room and the mobile is visible.

The 'description' is the longest description.  It is used when a character
explicitly looks at the mobile.

The 'act-flags' define how the mobile acts, and the 'affected-flags' define
more attributes of the mobile.

The 'alignment' of the mobile ranges from -1000 to +1000.  Keep in mind that
certain spells ('protection' and 'dispel evil') give characters fighting evil
monsters an advantage, and that experience earned is influenced by alignment.

The literal letter 'S' must be present after the alignment.  In the original
Diku mob format, 'S' stands for simple.  Merc supports only simple mobs, so the
'S' is redundant.  It is retained not only for compatibility with the Diku
format, but also because it helps the server report errors more accurately.

The 'level' is typically a number from 1 to 35, although there is no upper
limit.

The 'hitroll', 'armor', 'hitnodice, 'hitsizedice', 'hitplus', 'damnodice',
'damsizedice', 'damroll', 'gold', 'exp', 'position', and 'position' fields are
present for compatibility with original Diku mud, but their values are ignored.
Merc generates these values internally based on the level of the mobile.

The 'sex' value may be 0 for neutral, 1 for male, and 2 for female.



=== The #OBJECTS section

The syntax of this section is:

    #OBJECTS
    {
	#<vnum:number>
	<keywords:string>
	<short-description:string>
	<long-description:string>
	<action-description:string>
	<item-type:number> <extra-flags:number> <wear-flags:number>
	<value-0:number> <value-1:number> <value-2:number> <value-3:number>
	<weight:number> <cost:number> <cost-per-day:number>
	{
	    E
	    <keyword:string>
	    <description:string>
	}
	{
	    A
	    <apply-type:number> <apply-value:number>
	}
    }
    #0

The 'vnum' is the virtual number of the object.

The 'keywords' are words which can be used in commands to identify the object.

The 'short-description' is the description used by the 'act' function and other
functions to identify the object.  The first character of the short-description
should be lower case, because this description is used in the middle of
sentences.

The 'long-description' is the description used when a character walks in the
room and the object is visible.

The 'action-description' is not used.

The 'item-type' is the type of the item (weapon, armor, potion, et cetera).

The 'extra-flags' describe more attributes of the object.  The 'wear-flags'
describe whether the item can be picked up, and if so, what bodily locations
can wear it.

The interpretation of the four 'value' numbers depends upon the type of the
object.  Interpretations are given below.

The 'weight' of the object is just that.

'Cost' and 'cost-per-day' are ignored.  'Cost' is generated internally based on
the level of the object.  Because Merc has no rent, 'cost-per-day' is
completely ignored.

The optional 'E' sections and 'A' sections come after the main data.
An 'E' section ('extra description') contains a keyword-list and a string
associated with those keywords.  This description string is used when a
character looks at a word on the keyword list.

An 'A' section ('apply') contains an apply-type and an apply-value.  When a
character uses this object as equipment (holds, wields, or wears it), then
the value of 'apply-value' is added to the character attribute identified by
'apply-type'.  Not all 'apply-types' are implemented; you have to read the
function 'affect_modify' in handler.c to see exactly which ones are.

An object may have an unlimited number of 'E' and 'A' sections.



=== The #ROOMS section

The syntax of this section is:

    #ROOMS
    {
	#<vnum:number>
	<name:string>
	<description:string>
	<area:number> <room-flags:number> <sector-type:number>
	{
	    D <door:number>
	    <description:string>
	    <keywords:string>
	    <locks:number> <key:number> <to_room:number>
	}
	{
	    E
	    <keywords:string>
	    <description:string>
	}
	S
    }
    #0

The 'vnum' is the virtual number of the room.

The 'name' is the name of the room.

The 'description' is the long multi-line description of the room.

The 'area' is obsolete and unused.  Rooms belong to whatever area was most
recently defined with #AREA.

The 'room-flags' describe more attributes of the room.

The 'sector-type' identifies the type of terrain.  This affects movement cost
through the room.  Certain sector types (air and boat) require special
capabilities to enter.

Unlike mobiles and objects, rooms don't have any keywords associated with them.
One may not manipulate a room in the same way one manipulates a mobile or
object.

The optional 'D' sections and 'E' sections come after the main data.  A 'D'
section contains a 'door' in the range from 0 to 5:

	0	north
	1	east
	2	south
	3	west
	4	up
	5	down

A 'D' command also contains a 'description' for that direction, and 'keywords'
for manipulating the door.  'Doors' include not just real door, but any kind of
exit from the room.  The 'locks' value is 0 for an unhindered exit, 1 for a
door, and 2 for a pick-proof door.  The 'key' value is the vnum of an object
which locks and unlocks the door.  Lastly, 'to_room' is the vnum of the room to
which this door leads.

You must specify two 'D' sections, one for each side of the door.  If you
specify just one then you'll get a one-way exit.

An 'E' section (extended description) contains a 'keywords' string and a
'description' string.  As you might guess, looking at one of the words in
'keywords' yields the 'description' string.

The 'S' at the end marks the end of the room.  It is not optional.



=== The #RESETS section

The syntax of this section is:

    #RESETS
    {
	* <comment:to_eol>
    }
    {
	M <:number> <mob-vnum:number> <limit:number> <room-vnum:number>	\
	<comment:to_eol>
    }
    {
	O <:number> <obj-vnum:number> <:number> <room-vnum:number>	\
	<comment:to_eol>
    }
    {
	P <:number> <obj-vnum:number> <:number> <obj-vnum:number>	\
	<comment:to_eol>
    }
    {
	G <:number> <obj-vnum:number> <:number>				\
	<comment:to_eol>
    }
    {
	E <:number> <obj-vnum:number> <:number> <wear_loc:number>	\
	<comment:to_eol>
    }
    {
	D <:number> <room-vnum:number> <door:number> <state:number>	\
	<comment:to_eol>
    }
    {
	R <:number> <room-vnum:number> <last-door:number>		\
	<comment:to_eol>
    }
    S

To reset an area, the server executes each command in the list of reset
commands once.  Each area is reset once when the server loads, and again
periodically as it ages.  An area is reset if it is at least 3 area-minutes old
and is empty of players, or if it is 15 area-minutes old.  At the 14
area-minute mark, each (awake) player in the area is warned of the impending
reset.  These values are coded into the function 'reset_area' in 'db.c'.

An 'area-minute' varies between 30 and 90 seconds of real time, with an
average of 60 seconds.  The variation defeats area timekeepers.

The 'resets' section contains a series of single lines.  The backslashes and
line splitting above are for readability; they are not part of the file format.
Because of the end-of-line comments, this section is not as free-format as
other sections.

The reset commands are:

    *	comment
    M	read a mobile 
    O	read an object
    P	put object in object
    G	give object to mobile
    E	equip object to mobile
    D	set state of door
    R	randomize room exits
    S	stop (end of list)

The '*' lines contain comments.  The 'S' line is the last line of the section.

Every other command contains four numbers (three for the 'G' command).  The
first number is ignored.  The next three (or two) numbers are interpreted as
follows:

For the 'M' command, the second number is the vnum of a mobile to load.  The
third number is the limit of how many of this mobile may be present in the
world.  The fourth number is the vnum of the room where the mobile is loaded.

For the 'O', 'P', 'G', and 'E' commands, the second number is the vnum of an
object to load.  The third number is ignored.

For the 'O' command, the fourth number is the vnum of the room where the object
is loaded.  The object is not loaded if the target room already contains any
objects with this vnum.  The object is also not loaded if any players are
present in the area.

For the 'P' command, the fourth number is the vnum of a container object where
the object will be loaded.  The actual container used is the most recently
loaded object with the right vnum; for best results, there should be only one
such container in the world.  The object is not loaded if no container object
exists, or if someone is carrying it, or if it already contains one of the
to-be-loaded object.

For the 'G' command, there is no fourth number.  If the most recent 'M' command
succeeded (e.g. the mobile limit wasn't exceeded), the object is given to that
mobile.  If the most recent 'M' command failed (due to hitting mobile limit),
then the object is not loaded.

For the 'E' command, the fourth number is an equipment location.  If the most
recent 'M' command succeeded, that mobile is equipped with the object.  If the
most recent 'M' command failed, then the object is not loaded.

All objects have a level limit, which is computed by inheritance from the most
recently read 'M' command (whether it succeeded or not) in 'area_update' in
'db.c'.  As distributed, an object's level equals the mobile level minus 2,
clipped to the range 0 to 35.

For the 'D' command, the second number is the vnum of a room.  The third number
is a door number from 0 to 5.  The fourth number indicates how to set the door:
0 for open and unlocked; 1 for closed and unlocked; 2 for closed and locked.

Room exits must be coherent: if room 1 has an exit to room 2, and room 2 has an
exit in the reverse direction, that exit must go back to room 1.  This doesn't
prevent one-way exits; room 2 doesn't HAVE to have an exit in the reverse
direction.

For the 'R' command, the second number is the vnum of a room.  The third number
is a door number.  When this command, the doors from 0 to the indicated door
number are shuffled.  The room will still have the same exits leading to the
same other rooms as before, but the directions will be different.  Thus, a door
number of 4 makes a two-dimensional maze room; a door number of 6 makes a
three-dimensional maze room.

Use of both the 'D' and 'R' commands on the same room will yield unpredicatable
results.

Any line (except an 'S' line) may have a comment at the end.



=== The #SHOPS section

The syntax of this section is:

    #SHOPS
    {
	<keeper:number>						\
	<trade-0:number> <trade-1:number> <trade-2:number>	\
	<trade-3:number> <trade-4:number>			\
	<profit-buy:number> <profit-sell:number>		\
	<open-hour:number> <close-hour:number>			\
	<comment:to_eol>
    }
    0

Like the #RESETS section, the #SHOPS section has one command per line.

The 'keeper' is the vnum of the mobile who is the shopkeeper.  All mobiles
with that vnum will be shopkeepers.

The 'trade-0' through 'trade-5' numbers are item types which the shopkeeper
will buy.  Unused slots should have a '0' in them; for instance, a shopkeeper
who doesn't buy anything would have five zeroes.

The 'profit-buy' number is a markup for players buying the item, in percentage
points.  100 is nominal price; 150 is 50% markup, and so on.  The 'profit-sell'
number is a markdown for players selling the item, in percentage points.
100 is nominal price; 75 is a 25% markdown, and so on.  The buying markup
should be at least 100, and the selling markdown should be at most 100.

The 'open-hour' and 'close-hour' numbers define the hours when the shopkeeper
will do business.  For a 24-hour shop, these numbers would be 0 and 23.

Everything beyond 'close-hour' to the end of the line is taken to be a comment.

Note that there is no room number for a shop.  Just load the shopkeeper mobile
into the room of your choice, and make it a sentinel.  Or, for a roving
shopkeeper, just make it non-sentinel.

The objects a shopkeeper sells are exactly those loaded by 'G' reset commands
for that shopkeeper.  These items replenish automatically.  If a player sells
an object to a shopkeeper, the shopkeeper will keep it for resale if he, she,
or it doesn't already have an identical object.  These items do not replenish.



=== The #SPECIALS section

The syntax of this section is:

    #SPECIALS
    {
	* <comment_to_eol>
    }
    {
	M <mob-vnum:number> <spec-fun:word> <comment:to_eol>
    }
    S

Like the #RESETS section, the #SPECIALS section has one command per line.

This section defines special functions (spec-fun's) for mobiles.  A spec-fun
is a C function which gives additional behavior to all mobiles with a given
vnum, such as the peripatetic mayor or the beholder casting spells in combat.
See 'special.c' for a list of available spec-fun's.

The 'M' command assigns 'spec-fun' to all mobiles of with virtual number
'mob-vnum'.  All spec-fun's are assigned by name.  An 'M' line may have a
comment at the end.

Every three seconds, the server function 'mobile_update' examines every mobile
in the game.  If the mobile has an associated spec-fun, then 'mobile_update'
calls that spec-fun with a single parameter, the 'ch' pointer for that mob.
The spec-fun returns TRUE if the mobile did something, or FALSE if it did not.
If the spec-fun returns TRUE, then further activity by that mobile is
suppressed.

To add a new special function:

(1) Add a DECLARE_SPEC_FUN line to the top of 'special.c'.

(2) Add a line for translating the ascii name of the function into a function
    pointer to the function 'spec_lookup' in 'special.c'.

(3) Write the spec-fun and add it to 'special.c'.  Note that Merc special
    functions take a single parameter, rather than the three parameters of
    Diku.  If you have an Ansi C compiler, you're protected against accidental
    mismatches.

(4) Assign the spec-fun by writing an appropriate line into the #SPECIALS
    section in an area file.  Any number of mobs may have the same spec-fun.



=== The #$ section

The syntax of this section is:

    #$

This section marks the end of an area file.  If you concatenate several area
files into one, remember to delete the terminating '#$' from all but the last
file.  Conversely, if you split area files, remember to terminate each new file
with a '#$'.



=== Meaning of Value Numbers by Item Type

In the values below, 'sn' is a spell, indexed by slot number.  A zero or
negative sn means 'no spell'.

01 ITEM_LIGHT
   value[0]	unused
   value[1]	unused
   value[2]	hours of light available, 0 is dead, -1 is infinite
   value[3]	unused

02 ITEM_SCROLL
   value[0]	level
   value[1]	sn 1
   value[2]	sn 2
   value[3]	sn 3

03 ITEM_WAND
   value[0]	level
   value[1]	max charges
   value[2]	current charges
   value[3]	sn

04 ITEM_STAFF
   value[0]	level
   value[1]	max charges
   value[2]	current charges
   value[3]	sn

05 ITEM_WEAPON
   value[0]	unused
   value[1]	unused
   value[2]	unused
   value[3]	weapon type:
      01	   slice
      02	   stab
      03	   slash
      04	   whip
      05	   claw
      06	   blast
      07	   pound
      08	   crush
      09	   grep
      10	   bite
      11	   pierce
      12	   suction

08 ITEM_TREASURE
   value[0]	unused
   value[1]	unused
   value[2]	unused
   value[3]	unused

09 ITEM_ARMOR
   value[0]	unused
   value[1]	unused
   value[2]	unused
   value[3]	unused

10 ITEM_POTION
   value[0]	level
   value[1]	sn 1
   value[2]	sn 2
   value[3]	sn 3

12 ITEM_FURNITURE
   value[0]	unused
   value[1]	unused
   value[2]	unused
   value[3]	unused

13 ITEM_TRASH
   value[0]	unused
   value[1]	unused
   value[2]	unused
   value[3]	unused

15 ITEM_CONTAINER
   value[0]	weight capacity
   value[1]	flags: 1 closeable, 2 pickproof, 4 closed, 8 locked
   value[2]	key vnum
   value[3]	unused

17 ITEM_DRINK_CON
   value[0]	capacity
   value[1]	current quantity
   value[2]	liquid number (see 'liq_table' in const.c)
   value[3]	if non-zero, drink is poisoned

18 ITEM_KEY
   value[0]	unused
   value[1]	unused
   value[2]	unused
   value[3]	unused

19 ITEM_FOOD
   value[0]	hours of food value
   value[1]	unused
   value[2]	unused
   value[3]	if non-zero, food is poisoned

20 ITEM_MONEY
   value[0]	value in gold pieces
   value[1]	unused
   value[2]	unused
   value[3]	unused

22 ITEM_BOAT
   value[0]	unused
   value[1]	unused
   value[2]	unused
   value[3]	unused

23 ITEM_CORPSE_NPC
   value[0]	unused
   value[1]	unused
   value[2]	unused
   value[3]	unused

24 ITEM_CORPSE_PC
   value[0]	unused
   value[1]	unused
   value[2]	unused
   value[3]	unused

25 ITEM_FOUNTAIN
   value[0]	unused
   value[1]	unused
   value[2]	unused
   value[3]	unused

26 ITEM_PILL
   value[0]	level
   value[1]	sn 1
   value[2]	sn 2
   value[3]	sn 3



=== Slot Numbers

These slot numbers are used in magical objects to indicate spells.  Save files
do not use slot numbers; they use names instead.

	  0	NULL
	 70	acid blast
	  1	armor
	  3	bless
	  4	blindness
	  5	burning hands
	  6	call lightning
	 63	cause critical
	 62	cause light
	 64	cause serious
	 82	change sex
	  7	charm person
	  8	chill touch
	 10	colour spray
	 57	continual light
	 11	control weather
	 12	create food
	 80	create spring
	 13	create water
	 14	cure blindness
	 15	cure critical
	 16	cure light
	 43	cure poison
	 61	cure serious
	 17	curse
	 18	detect evil
	 44	detect hidden
	 19	detect invis
	 20	detect magic
	 21	detect poison
	 22	dispel evil
	 59	dispel magic
	 23	earthquake
	 24	enchant weapon
	 25	energy drain
	 72	faerie fire
	 73	faerie fog
	 26	fireball
	 65	flamestrike
	 56	fly
	 83	gate
	 39	giant strength
	 27	harm
	 28	heal
	 53	identify
	 77	infravision
	 29	invis
	 58	know alignment
	 30	lightning bolt
	 31	locate object
	 32	magic missile
	 69	mass invis
	 74	pass door
	 33	poison
	 34	protection
	 81	refresh
	 35	remove curse
	 36	sanctuary
	 67	shield
	 37	shocking grasp
	 38	sleep
	 66	stone skin
	 40	summon
	  2	teleport
	 41	ventriloquate
	 68	weaken
	 42	word of recall

	200	acid breath
	201	fire breath
	202	frost breath
	203	gas breath
	204	lightning breath



=== Booting and Testing Areas

When the Merc server starts, it reads a file named 'area.lst' in the current
directory.  This file contains a list of all the area files to read in.  To add
or delete areas, simply edit area.lst.

The server reads all of the area files into memory once at load time and then
closes them.  Thus you can edit area files while the server is running.
Changes will take effect the next time the server boots.  Because the server is
completely memory-based, zone resets are fast, too.  (And paradoxically, moving
to a memory-based system allowed certain memory optimizations to be made,
cutting memory usage by 50% from Merc 1.0).

You can test areas by running Merc in a different directory with a different
'area.lst' file with new areas dropped into it.  Setting up an appropriate
directory structure is an exercise for the student.  (You DID say you're
running a mud because you wanted to learn more about system administration,
right?)  Hint: you can run a program in another directory just by invoking its
full name: '../src/merc', for example.

The server reports syntax errors, including the area file name and a line
number.  Take the line number with a grain of salt; some kinds of errors cause
the server to run on for quite a few lines before ultimately detecting the
error.

The server also reports semantic errors, such as references to non-existent
mobiles, objects, or rooms.

Error recovery is simply not possible without far more sophisticated input
parsing than we're willing to write.  (Hey, feel free to write your own.)
Thus the server exits after reporting any error.  Merc takes only a few seconds
to load, however, so it's quite practical to use the whole server as a syntax
checker.



=== Compressing the Area Files

It is possible to run Merc with a single combined, compressed area file.
Here's how to do this on a Unix system:

(1) In 'area.lst', remove the last line (the '$' line).

(2) Execute the command:

	cat `cat area.lst` | compress > all_area.Z

(3) Edit 'area.lst' again.  Insert a '-' at the beginning of every line.
    Do not put any spaces between the '-' and the file name.  Put the last
    '$' line back at the end of the file.

(4) Edit 'startup'.  Change the line:

	../src/merc $port >&! $logfile

    to:

	zcat all_area.Z | ../src/merc $port >&! $logfile

(5) Test the changes so far.  Merc should start up normally, although it
    may take a few seconds longer to zcat everything.

Now you can remove all the original *.are files.

Notice that all of the compression and decompression takes place outside of the
Merc server.  Thus, you can substitute any archiving program of your choice, as
long as it can write its output to standard output.

You can recover the original areas simply by running 'uncompress all_area.Z'
and dissecting them out of all_area.

From the server's point of view, when an area file name starts with '-', it
simply reads standard input for the area, terminating at '#$' as usual (but
without closing standard input).  Diagnostic messages are given with the full
name (e.g. '-arachnos.are'), but the line number will be reported as zero.

You can freely mix areas from standard input with ordinary area files.  Thus,
you could compress all the Merc standard zones into a file such as merc_area.Z,
prefixing them with '-' in 'area.lst'.  Then you could add your own areas
anywhere in the file (beginning, middle, end, wherever your areas need to go),
and omit the '-' on the lines for your areas.

The server will take a little longer to load with compressed area files,
because 'zcat' needs time to run.  This is offset by a reduction in time spent
opening disk files.  After loading, the server has all of the area database in
memory and never rereads the files.  Thus, there is zero performance impact
on server operation after loading.