WML Utilities

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Revision as of 10:50, 16 February 2006 by Zookeeper (talk | contribs) (Added IF_HAVE_UNIT)

General shortcuts

# MODIFY_UNIT alters a unit variable (such as unit.x, unit.type,
# unit.side), handling all the storing and unstoring.
#
# Example that flips all spearmen to side 2:
# {MODIFY_UNIT type=Spearman side 2}
#define MODIFY_UNIT FILTER VAR VALUE [store_unit] [filter] {FILTER} [/filter]
variable=MODIFY_UNIT_store kill=yes [/store_unit]
{FOREACH MODIFY_UNIT_store MODIFY_UNIT_i} [set_variable] name=MODIFY_UNIT_store[$MODIFY_UNIT_i].{VAR} value={VALUE} [/set_variable]
[unstore_unit] variable=MODIFY_UNIT_store[$MODIFY_UNIT_i] find_vacant=no [/unstore_unit] {NEXT MODIFY_UNIT_i}
{CLEAR_VARIABLE MODIFY_UNIT_store} #enddef
# Shortcut for IF statements testing the value of a variable. You still need to
# write [then] and [else] tags manually, though.
#
# You can use it like this:
#
# {IF some_variable equals yes (
#     [then]
#         # something
#     [/then]
#
#     [else]
#         # something else
#     [/else]
# )}
#define IF VAR OP VAL CONTENTS [if] [variable] name={VAR} {OP}={VAL} [/variable]
{CONTENTS} [/if] #enddef
# Just a variation of the above, testing [have_unit] instead of [variable].
#define IF_HAVE_UNIT FILTER CONTENTS [if] [have_unit] {FILTER} [/have_unit]
{CONTENTS} [/if] #enddef
# Stores an attribute of a unit to the given variable.
#
# Example that flips all orcs to whatever side James is on:
#
# {STORE_UNIT_VAR description=James side side_of_James}
# {MODIFY_UNIT race=orc side $side_of_James}
#define STORE_UNIT_VAR FILTER VAR TO_VAR [store_unit] [filter] {FILTER} [/filter]
kill=no variable=STORE_UNIT_VAR_store [/store_unit]
{VARIABLE_OP {TO_VAR} format $STORE_UNIT_VAR_store.{VAR}}
{CLEAR_VARIABLE STORE_UNIT_VAR_store} #enddef
# Moves a unit from its current location to the given location along a
# relatively straight line displaying the movement just like [move_unit_fake]
# does.
#
# Note that setting the destination on an existing unit does not kill either
# one, but causes the unit to move to the nearest vacant hex instead.

#define MOVE_UNIT FILTER TO_X TO_Y
    [store_unit]
        [filter]
            {FILTER}
        [/filter]
variable=MOVE_UNIT_temp kill=no [/store_unit]
[scroll_to] x=$MOVE_UNIT_temp.x y=$MOVE_UNIT_temp.y [/scroll_to]
[hide_unit] x=$MOVE_UNIT_temp.x y=$MOVE_UNIT_temp.y [/hide_unit]
{VARIABLE_OP x_coords format ("$MOVE_UNIT_temp.x|,{TO_X}")} {VARIABLE_OP y_coords format ("$MOVE_UNIT_temp.y|,{TO_Y}")}
[move_unit_fake] type=$MOVE_UNIT_temp.type x=$x_coords y=$y_coords [/move_unit_fake]
[teleport] [filter] {FILTER} [/filter]
x,y={TO_X},{TO_Y} [/teleport]
[unhide_unit][/unhide_unit]
[redraw][/redraw] #enddef
# This is a way to check whether or not the terrain in the given coordinates
# is of the given type or types. Might be useful, since filtering by terrain
# isn't possible directly.
#
# You can use it for example like this:
#
# [event]
#     name=moveto
#     first_time_only=no
#
#     {IF_TERRAIN $x1 $y1 gfm (
#         [then]
#             {DEBUG_MSG "Stepped on grassland, forest or mountains!"}
#         [/then]
#     )}
# [/event]
#define IF_TERRAIN X Y TYPES CONTENTS [store_locations] x={X} y={Y} terrain={TYPES} variable=IF_TERRAIN_temp [/store_locations]
[if] [variable] name=IF_TERRAIN_temp.length not_equals=0 [/variable]
{CONTENTS} [/if]
{CLEAR_VARIABLE IF_TERRAIN_temp} #enddef
# You can iterate through a range of numbers with this macro. The CONTENTS
# are repeated with every iteration, and you can use the VAR variable to
# insert the number of the current step into each iteration. Note that
# when using this, you must iterate from a smaller number to the bigger
# number, because the increment is always 1.
#
# Example that spawns a row of skeletons into the coordinates (4,5),
# (5,5), (6,5), (7,5), (8,5) and (9,5):
#
# {ITERATE 4 9 i (
#     [unit]
#         type=Skeleton
#         x=$i
#         y=5
#     [/unit]
# )}
#define ITERATE FROM TO VAR CONTENTS {VARIABLE {VAR} {FROM}}
[while] [variable] name={VAR} less_than_equal_to={TO} [/variable]
[do] {CONTENTS}
{VARIABLE_OP {VAR} add 1} [/do] [/while] #enddef

More uncommon tasks

Returning a unit to the recall list

# This places a given unit back to the recall list of the side it is on.
# Note however, that the unit is not healed to full health, so when
# recalled (even if not until the next scenario) the unit may have less
# than his maximum hp left.
#
# An example, that returns all units stepping on (20,38) back to the recall
# list:
# 
# [event]
#     name=moveto
#
#     [filter]
#         x,y=20,38
#     [/filter]
#
#     {PUT_TO_RECALL_LIST x,y=20,38}
# [/event]
#define PUT_TO_RECALL_LIST FILTER [store_unit] [filter] {FILTER} [/filter]
variable=temp kill=yes [/store_unit]
{FOREACH temp i} {VARIABLE temp[$i].x "recall"} {VARIABLE temp[$i].y "recall"}
[unstore_unit] variable=temp[$i] find_vacant=no [/unstore_unit] {NEXT i} #enddef

Determining opposite coordinates

# Using this, you can determine the coordinates on the "opposite side" of a
# central hex, relative to another hex adjacent to it. What this really means
# is illustrated below:
#       __            __            __
#    __/  \__      __/2 \__      __/  \__
#   /  \__/1 \    /  \__/  \    /2 \__/  \    C: central point
#   \__/C \__/    \__/C \__/    \__/C \__/    1: the hex to "mirror"
#   /2 \__/  \    /  \__/  \    /  \__/1 \    2: the result
#   \__/  \__/    \__/1 \__/    \__/  \__/
#      \__/          \__/          \__/
#
# The coordinates of the central point are given in {CENTER_X} and {CENTER_Y},
# and the coordinates of hex 1 in {X} and {Y}. The coordinates of hex 2 are
# then stored in {VAR}, which will have member variables x and y.
#
# Note that this uses the IF macro given earlier on this page.
#define OPPOSITE_SIDE CENTER_X CENTER_Y X Y VAR {VARIABLE x_odd {X}}
{VARIABLE_OP x_odd multiply 0.5} {VARIABLE_OP x_odd multiply 2}
{VARIABLE c_x {CENTER_X}} {VARIABLE c_y {CENTER_Y}} {VARIABLE s_x {X}} {VARIABLE s_y {Y}}
{VARIABLE result_x {CENTER_X}} {VARIABLE result_y {CENTER_Y}}
{IF s_x greater_than $c_x ( [then] {VARIABLE_OP result_x add -1} [/then] )}
{IF s_x less_than $c_x ( [then] {VARIABLE_OP result_x add 1} [/then] )}
{IF s_x equals $c_x ( [then] {IF s_y less_than $c_y ( [then] {VARIABLE_OP result_y add 1} [/then] )}
{IF s_y greater_than $c_y ( [then] {VARIABLE_OP result_y add -1} [/then] )} [/then] )}
{IF x_odd not_equals $s_x ( [then] {IF s_y equals $c_y ( [then] {VARIABLE_OP result_y add 1} [/then] )} [/then]
[else] {IF s_y equals $c_y ( [then] {VARIABLE_OP result_y add -1} [/then] )} [/else] )}
{VARIABLE {VAR}.x $result_x} {VARIABLE {VAR}.y $result_y}
{CLEAR_VARIABLE c_x} {CLEAR_VARIABLE c_y} {CLEAR_VARIABLE s_x} {CLEAR_VARIABLE s_y} {CLEAR_VARIABLE result_x} {CLEAR_VARIABLE result_y} {CLEAR_VARIABLE x_odd} #enddef

See Also