TerrainMacrosWML
Template:DevFeature1.9 This page is entirely base on the 1.9 macros, they are very close to the 1.8 macros, but no attempt has been done to document the difference
Contents
- 1 Flag Management
- 2 Layer Management
- 3 Precedence Management
- 4 Base Management
- 5 Macro naming convention
- 6 The TEST_COMPLETE macro
- 7 Image Builder macros
- 7.1 The problem
- 7.2 Common parameters for all builders
- 7.3 IMAGE_SINGLE IMAGESTEM POSTFIX
- 7.4 ANIMATION_03 IMAGESTEM POSTFIX
- 7.5 ANIMATION_04 IMAGESTEM POSTFIX
- 7.6 ANIMATION_10 IMAGESTEM POSTFIX
- 7.7 ANIMATION_15 IMAGESTEM POSTFIX
- 7.8 ANIMATION_04_140 IMAGESTEM POSTFIX
- 7.9 ANIMATION_18_70 IMAGESTEM POSTFIX
- 8 Base tile related macros
- 9 Overlay related macros
- 10 Keep related macros
- 11 Village related macros
- 12 Transition related macros
Flag Management
This section lists the common flags used by macros and their high level signification
- base: is set on all hex when the base tile is set.
- overlay: is set on all hex that have something drawn on the hex itself (i.e not a transition) over the base terrain.
- village: is set when a village is added on a tile.
- transition-@R*: is set on a tile which has a transition on it's corresponding side set (i.e if there is a transition with the tile at its north, transition-n will be set) possible values: n,ne,nw,s,se,sw Also not that the macros handl it in a reciprocal way. in other word if a tile has transition-n set, it's northern neighbour should have transition-s set
- overlay-connect-@R* : used for bridges, the bridge on this tile. The bridge "actually has" an "exit direction" in the @R direction indicated.
- overlay-away-@R* : used for bridges, the bridge does NOT have an exit on the given direction, but would be expected to...
A note about overlay-@R and overlay-away-@R flags
Suppose we have a n->s bridge hex who's ne neighbour is a ne->sw bridge. This mean that the n->s is actually a turn in the bridge that should use a graphic depicting a s->ne corner.
In that case the tile will have overlay-s and overlay-ne set (the directions where the bridge actually exits) and overlay-away-n (the direction where the bridge would exit according to terrain codes, but doesnt because of overall layout)
Layer Management
- -1000: default layer for base tiles
- -80: overlays that should always be drawn under units (like rails etc...)
- 0: default layer for overlays and villages
Normal units are drawn above layer 0, except if the basey of the tile is > 56 in which case they are drawn below
- 1: used by the base tile of castles/keeps
Flying/moving units are always drawn over terrain
Precedence Management
TBSL
Base Management
TBSL
Macro naming convention
for some common types of tiles, we have a lot of variation of macros. To simplify, they follow a naming convention
Macro names
Type is the type of macros (like KEEP,OVERLAY etc...) we are using
- TYPE_PLFB : puts an image on a tile
- TYPE_RANDOM_LFB : puts an image from a random set on a tile
- TYPE_RESTRICTED[23]_PLFB: puts an image on a tile if the tile has one [two or three] neighbours of a given type
- TYPE_RESTRICTED[23]_RANDOM_PLFB: combination of above
- TYPE_ROTATION_RESTRICTED[23]_PLFB: combination of above + the images will be named according to where the neighbours are
- TYPE_ROTATION_RESTRICTED[23]_RANDOM_PLFB: combination of above
here _PLFB means any combination of _P _PL _PF etc... will also be correct macro names with the corresponding parameters
each section describing a type will explain what values for PLFB are used for the functions that don't have them as parameters
Macro Parameters
These macros always have the parameters in the same orders (not all macros have all parameters, see below
TERRAIN ADJACENT PROB LAYER FLAG BUILDER IMAGESTEM
- TERRAIN : the type of terrain to put the image on
- ADJACENT : only for restricted the type of neighbours to test for
- PROB : only for _P The probability of the rules generated by the macros of being applied. See the discussion in TerrainGraphicsTutorial#Cumulative_Probabilities for complications
- LAYER : only for _L The layer that will be used for the generated rules
- FLAG : only for _F A flag to test and set on the tile
- BUILDER : only for _B the builder macro that will be used to create the animations in the image= field of the generated terrain code. See the dicussion at the begining of the builder section
- IMAGESTEM: the basename on which filenames will be based.
Image Names
- _RANDOM_
- {{BUILDER} {IMAGESTEM} ()}
- {{BUILDER} {IMAGESTEM}2 ()}
- {{BUILDER} {IMAGESTEM}3 ()}
- etc up to 11
- _ROTATION_
- 1 : {{BUILDER} {IMAGESTEM} (-@R0)} with @R0 being the orientation of the neighbouring tile
- 2 : {{BUILDER} {IMAGESTEM} (-@R0-@R1)} with @R0 and @R1 being the orientations of the neighbouring tiles
- 3 : {{BUILDER} {IMAGESTEM} (-@R0-@R1-@R2)} with @R0, @R1 and @R2 being the orientations of the neighbouring tiles
- _RANDOM_ + _ROTATION_
- {{BUILDER} {IMAGESTEM}# (-@R#)} similar to above with all combinations
The TEST_COMPLETE macro
there is one more macro which exist for most families of macro
#define TYPE_COMPLETE_LFB TERRAIN ADJACENT LAYER FLAG BUILDER IMAGESTEM {TYPE_ROTATION_RESTRICTED3_RANDOM_LFB ({TERRAIN}) ({ADJACENT}) {LAYER} {FLAG} {BUILDER} {IMAGESTEM}-small (-@R0-@R1-@R2)} {TYPE_ROTATION_RESTRICTED2_RANDOM_LFB ({TERRAIN}) ({ADJACENT}) {LAYER} {FLAG} {BUILDER} {IMAGESTEM}-small (-@R0-@R1)} {TYPE_ROTATION_RESTRICTED_RANDOM_LFB ({TERRAIN}) ({ADJACENT}) {LAYER} {FLAG} {BUILDER} {IMAGESTEM}-small (-@R0)} {TYPE_RESTRICTED_RANDOM_LFB ({TERRAIN}) ({ADJACENT}) {LAYER} {FLAG} {BUILDER} {IMAGESTEM}-small ()} {TYPE_SINGLE_RANDOM_LFB ({TERRAIN}) {LAYER} {FLAG} {BUILDER} {IMAGESTEM}} #enddef
This macro is a simpler way of handling the most common case of "use a smaller variation when next to some terrains"
- If it has three neighbours, it will try IMAGESTEM-small#-R1-R2-R3
- if it has two neighbour or the correct image wasn't found, it will try two-sided variations
- if it has one neighbour or the correct image wasn't found, it will try one sided variations
- if it has still not found anything, it will try IMAGESTEM-small
- if it has no neighbour or still hasn't found anything, it will try based on IMAGESTEM
Image Builder macros
The problem
suppose we want to animate a transition with the following line
image=image1;image2;image3
Since it's a transition, we would like to write something like (simplified)
{TRANSITION_BASE <parameters> image1;image2;image3}
However, for a north transition, the macro would expand to something similar to
image=image1;image2;image3-n
Which is wrong, we want the prefix added to all images in the animation
image=image1-n;image2-n;image3-n
To get the result we want, we use macro indirection. In other word, we have a set of macros who take two parameters
#define BUILDER IMAGESTEM POSTFIX
Which are in charge of returning what should be on the right side of the image= So, with the following macro
#define MY_BUILDER IMAGESTEM POSTFIX {IMAGESTEM}1{POSTFIX};{IMAGESTEM}2{POSTFIX};{IMAGESTEM}3{POSTFIX};
and the following code in the TRANSITION_BASE macro
image={{BUILDER} {IMAGESTEM} -n}
a call to
{TRANSITION_BASE_B <parameters> MY_BUILDER image}
would correctly expand.
Common parameters for all builders
All builders must have exactly the same parameters
- IMAGESTEM : the base name of the image from which to build
- POSTFIX : a postfix to add to all images
IMAGE_SINGLE IMAGESTEM POSTFIX
builds a single image image= line (i.e not animated) mainly used as default value for BUILDER parameter of meta-macros
ANIMATION_03 IMAGESTEM POSTFIX
builds a Three image animation, each image being displayed for 100 ms Images Used
- IMAGESTEM-A01
- IMAGESTEM-A02
- IMAGESTEM-A03
ANIMATION_04 IMAGESTEM POSTFIX
builds a four image animation, each image being displayed for 100 ms Images Used
- IMAGESTEM-A01
- IMAGESTEM-A02
- IMAGESTEM-A03
- IMAGESTEM-A04
ANIMATION_10 IMAGESTEM POSTFIX
builds a ten image animation, each image being displayed for 100 ms Images Used
- IMAGESTEM-A01
- IMAGESTEM-A02
- IMAGESTEM-A03
- IMAGESTEM-A04
- IMAGESTEM-A05
- IMAGESTEM-A06
- IMAGESTEM-A07
- IMAGESTEM-A08
- IMAGESTEM-A09
- IMAGESTEM-A10
ANIMATION_15 IMAGESTEM POSTFIX
builds a fifteen image animation, each image being displayed for 100 ms Images Used
- IMAGESTEM-A01
- IMAGESTEM-A02
- IMAGESTEM-A03
- IMAGESTEM-A04
- IMAGESTEM-A05
- IMAGESTEM-A06
- IMAGESTEM-A07
- IMAGESTEM-A08
- IMAGESTEM-A09
- IMAGESTEM-A10
- IMAGESTEM-A11
- IMAGESTEM-A12
- IMAGESTEM-A13
- IMAGESTEM-A14
- IMAGESTEM-A15
ANIMATION_04_140 IMAGESTEM POSTFIX
builds a four image animation, each image being displayed for 140 ms Images Used
- IMAGESTEM-A01
- IMAGESTEM-A02
- IMAGESTEM-A03
- IMAGESTEM-A04
ANIMATION_18_70 IMAGESTEM POSTFIX
builds a eighteen image animation, each image being displayed for 100 ms Images Used
- IMAGESTEM-A01
- IMAGESTEM-A02
- IMAGESTEM-A03
- IMAGESTEM-A04
- IMAGESTEM-A05
- IMAGESTEM-A06
- IMAGESTEM-A07
- IMAGESTEM-A08
- IMAGESTEM-A09
- IMAGESTEM-A10
- IMAGESTEM-A11
- IMAGESTEM-A12
- IMAGESTEM-A13
- IMAGESTEM-A14
- IMAGESTEM-A15
- IMAGESTEM-A16
- IMAGESTEM-A17
- IMAGESTEM-A18
Base terrains have all the combinations of macros as described in the naming convention section with the following definition
- TYPE : the name for all macros starts with TERRAIN_BASE
- PROB : 100
- LAYER: -1000
- FLAG': base
- BUILDER: IMAGE_SINGLE
Overlays have all the combinations of macros as described in the naming convention section with the following definition
- TYPE : the name for all macros starts with OVERLAY
- PROB : 100
- LAYER: 0
- FLAG': overlay
- BUILDER: IMAGE_SINGLE
Keeps are base terrains (they use the same flag) but drawn on layer -1
Keeps have all the combinations of macros as described in the naming convention section with the following definition
- TYPE : the name for all macros starts with KEEP_BASE
- PROB : 100
- LAYER: -1
- FLAG': base
- BUILDER: IMAGE_SINGLE
villages have all the combinations of macros as described in the naming convention section with the following definition
- TYPE : the name for all macros starts with VILLAGE
- PROB : 100
- LAYER: 0
- FLAG': village
- BUILDER: IMAGE_SINGLE
Generic Functions
transitions have most of the macros as described in the naming convention section with the following definition
- TYPE : the name for all macros starts with TRANSITION
- PROB : 100
- LAYER: -500
- FLAG: transition-@<side>
- BUILDER: IMAGE_SINGLE
However, unlike all previous type of macros, they are related to a side instead of the whole hex. Thus the following rules
- There are no ROTATION macros. Since they are always side related.
- All images are named as if they were ROTATION macros since they are all side related
- There is no SINGLE variation since it doesn't make sense to have it (a side is always relative to two hex)
- The flags are set and tested on a side related basis. i.e there can be more than one transition per tile, if they don't cover the same direction
- for RESTRICTED2 and RESTRICTED3, we only check for neighbouring hex of the ADJACENT type. This makes more sense for borders
- the COMPLETE variant looks as follows
#define BORDER_COMPLETE_LFB TERRAIN ADJACENT LAYER FLAG BUILDER IMAGESTEM {BORDER_RESTRICTED3_RANDOM_LFB ({TERRAIN}) ({ADJACENT}) {LAYER} {FLAG} {BUILDER} {IMAGESTEM}} {BORDER_RESTRICTED2_RANDOM_LFB ({TERRAIN}) ({ADJACENT}) {LAYER} {FLAG} {BUILDER} {IMAGESTEM}} {BORDER_RESTRICTED_RANDOM_LFB ({TERRAIN}) ({ADJACENT}) {LAYER} {FLAG} {BUILDER} {IMAGESTEM}} {BORDER_RESTRICTED_RANDOM_LFB ({TERRAIN}) ({ADJACENT}) {LAYER} {FLAG} {BUILDER} {IMAGESTEM}} #enddef
DISABLE_BASE_TRANSITIONS TERRAINLIST
This macro will set all transition-@R* on the tile (n,ne,se,s,sw) thus preventing any other transition from being added
Flag Management will set all transition-@R* on the TERRAINLIST tiles
DISABLE_BASE_TRANSITIONS_F TERRAINLIST FLAG
This macro will set all <FLAG>-@R* on the tile (n,ne,se,s,sw) thus preventing any other transition from being added
Flag Management will set all <FLAG>-@R* on the TERRAINLIST tiles