Difference between revisions of "WML Utilities"

From The Battle for Wesnoth Wiki
(Determining opposite coordinates: bugfix s/ modulo for *0.5 then *2 which doesnt work in 1.6 due to floating point variables)
(Added search macro)
Line 168: Line 168:
 
     {CLEAR_VARIABLE result_y}
 
     {CLEAR_VARIABLE result_y}
 
     {CLEAR_VARIABLE x_odd}
 
     {CLEAR_VARIABLE x_odd}
 +
#enddef
 +
 +
== Find nearest hex(es) ==
 +
 +
#define FIND_NEARBY FILTER X Y LIMIT
 +
    # Does a search for a nearby location that matches the given filter.
 +
    # Basically just looks for such a location with increasing radius until it
 +
    # finds at least one. This is sadly inefficient, but implementing BFS in
 +
    # WML is... difficult. Once LIMIT is reached, the entire map is searched.
 +
    # This macro creates the 'nearby_locations' and 'nearby_distance'
 +
    # variables, which can be used to access a list of locations found and the
 +
    # distance to those locations, respectively. They should eventually be
 +
    # cleared, which can be accomplished using the CLEANUP_SEARCH macro.
 +
    [clear_variable]
 +
        name=nearby_locations
 +
    [/clear_variable]
 +
    [set_variable]
 +
        name=nearby_distance
 +
        value=0
 +
    [/set_variable]
 +
    [while]
 +
        [not]
 +
            [variable]
 +
                name=nearby_locations.length
 +
                greater_than=0
 +
            [/variable]
 +
        [/not]
 +
        [and]
 +
            [variable]
 +
                name=nearby_distance
 +
                less_than={LIMIT}
 +
            [/variable]
 +
        [/and]
 +
        [do]
 +
            {DEBUG "Searching depth $nearby_distance around ({X}, {Y})..."}
 +
            [store_locations]
 +
                variable=nearby_locations
 +
                {FILTER}
 +
                [and]
 +
                    x,y={X},{Y}
 +
                    radius=$nearby_distance
 +
                [/and]
 +
            [/store_locations]
 +
            {DEBUG "...found $nearby_locations.length locations."}
 +
            [set_variable]
 +
                name=nearby_distance
 +
                add=1
 +
            [/set_variable]
 +
        [/do]
 +
    [/while]
 +
    [if]
 +
        [variable]
 +
            name=nearby_locations.length
 +
            equals=0
 +
        [/variable]
 +
        [then]
 +
            [store_locations]
 +
                variable=nearby_locations
 +
                {FILTER}
 +
            [/store_locations]
 +
        [/then]
 +
    [/if]
 +
#enddef
 +
 +
#define CLEANUP_SEARCH
 +
    # Clears variables involved in searching (the FIND_NEARBY macro). Put this
 +
    # in your name=victory,defeat tag to clean up if you use FIND_NEARBY within
 +
    # a scenario.
 +
    [clear_variable]
 +
        name=nearby_locations, nearby_distance
 +
    [/clear_variable]
 
  #enddef
 
  #enddef
  

Revision as of 06:19, 29 September 2009

Filter by Terrain

# Check whethers or not the terrain in the given coordinates is of the given
# type or types. 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 Gg,Gs^Fp,Mm (
#         [then]
#             {DEBUG_MSG "Stepped on grassland, forest or mountains!"}
#         [/then]
#     )}
# [/event]
#define IF_TERRAIN X Y TERRAIN CONTENTS [store_locations] x={X} y={Y} terrain={TERRAIN} 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

Iterate

# 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

Adding unit overlays with a filter instead of (x,y)

# UNIT_OVERLAY adds an overlay to a unit, taking in a standard filter
#
# Example that gives all spearmen a book:
# {UNIT_OVERLAY type=Spearman items/book1.png}

#define UNIT_OVERLAY FILTER IMG
    [store_unit]
        [filter]
            {FILTER}
        [/filter]
        variable=UNIT_OVERLAY_store
        kill=no
    [/store_unit]
    {FOREACH UNIT_OVERLAY_store UNIT_OVERLAY_i}
	{VARIABLE_OP UNIT_OVERLAY_tempx format $UNIT_OVERLAY_store[$UNIT_OVERLAY_i].x}
	{VARIABLE_OP UNIT_OVERLAY_tempy format $UNIT_OVERLAY_store[$UNIT_OVERLAY_i].y}
        [unit_overlay]
            x=$UNIT_OVERLAY_tempx
            y=$UNIT_OVERLAY_tempy
		image={IMG}
        [/unit_overlay]
    {NEXT UNIT_OVERLAY_i}
    {CLEAR_VARIABLE UNIT_OVERLAY_store}
#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 modulo 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_VAR s_x greater_than $c_x ( [then] {VARIABLE_OP result_x add -1} [/then] )}
{IF_VAR s_x less_than $c_x ( [then] {VARIABLE_OP result_x add 1} [/then] )}
{IF_VAR s_x equals $c_x ( [then] {IF_VAR s_y less_than $c_y ( [then] {VARIABLE_OP result_y add 1} [/then] )}
{IF_VAR s_y greater_than $c_y ( [then] {VARIABLE_OP result_y add -1} [/then] )} [/then] )}
{IF_VAR x_odd equals 1 ( [then] {IF_VAR s_y equals $c_y ( [then] {VARIABLE_OP result_y add 1} [/then] )} [/then]
[else] {IF_VAR 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

Find nearest hex(es)

#define FIND_NEARBY FILTER X Y LIMIT
    # Does a search for a nearby location that matches the given filter.
    # Basically just looks for such a location with increasing radius until it
    # finds at least one. This is sadly inefficient, but implementing BFS in
    # WML is... difficult. Once LIMIT is reached, the entire map is searched.
    # This macro creates the 'nearby_locations' and 'nearby_distance'
    # variables, which can be used to access a list of locations found and the
    # distance to those locations, respectively. They should eventually be
    # cleared, which can be accomplished using the CLEANUP_SEARCH macro.
    [clear_variable]
        name=nearby_locations
    [/clear_variable]
    [set_variable]
        name=nearby_distance
        value=0
    [/set_variable]
    [while]
        [not]
            [variable]
                name=nearby_locations.length
                greater_than=0
            [/variable]
        [/not]
        [and]
            [variable]
                name=nearby_distance
                less_than={LIMIT}
            [/variable]
        [/and]
        [do]
            {DEBUG "Searching depth $nearby_distance around ({X}, {Y})..."}
            [store_locations]
                variable=nearby_locations
                {FILTER}
                [and]
                    x,y={X},{Y}
                    radius=$nearby_distance
                [/and]
            [/store_locations]
            {DEBUG "...found $nearby_locations.length locations."}
            [set_variable]
                name=nearby_distance
                add=1
            [/set_variable]
        [/do]
    [/while]
    [if]
        [variable]
            name=nearby_locations.length
            equals=0
        [/variable]
        [then]
            [store_locations]
                variable=nearby_locations
                {FILTER}
            [/store_locations]
        [/then]
    [/if]
#enddef

#define CLEANUP_SEARCH
    # Clears variables involved in searching (the FIND_NEARBY macro). Put this
    # in your name=victory,defeat tag to clean up if you use FIND_NEARBY within
    # a scenario.
    [clear_variable]
        name=nearby_locations, nearby_distance
    [/clear_variable]
#enddef

See Also