Wrap lines longer than 80 characters in lua_api.txt ...and minor formating changes

This commit is contained in:
rubenwardy 2015-02-22 17:12:55 +00:00 committed by Craig Robbins
parent 338e66af5f
commit 2b189d4507

@ -20,7 +20,8 @@ source code patches to <celeron55@gmail.com>.
Programming in Lua
------------------
If you have any difficulty in understanding this, please read [Programming in Lua](http://www.lua.org/pil/).
If you have any difficulty in understanding this, please read
[Programming in Lua](http://www.lua.org/pil/).
Startup
-------
@ -599,7 +600,8 @@ For supported model formats see Irrlicht engine documentation.
Noise Parameters
----------------
Noise Parameters, or commonly called "`NoiseParams`", define the properties of perlin noise.
Noise Parameters, or commonly called "`NoiseParams`", define the properties of
perlin noise.
### `offset`
Offset that the noise is translated by (i.e. added) after calculation.
@ -679,21 +681,23 @@ All default ores are of the uniformly-distributed scatter type.
Randomly chooses a location and generates a cluster of ore.
If `noise_params` is specified, the ore will be placed if the 3D perlin noise at
that point is greater than the `noise_threshold`, giving the ability to create a non-equal
distribution of ore.
that point is greater than the `noise_threshold`, giving the ability to create
a non-equal distribution of ore.
### `sheet`
Creates a sheet of ore in a blob shape according to the 2D perlin noise described by `noise_params`.
The relative height of the sheet can be controlled by the same perlin noise as well, by specifying
a non-zero `scale` parameter in `noise_params`.
Creates a sheet of ore in a blob shape according to the 2D perlin noise
described by `noise_params`. The relative height of the sheet can be
controlled by the same perlin noise as well, by specifying a non-zero
`scale` parameter in `noise_params`.
**IMPORTANT**: The noise is not transformed by `offset` or `scale` when comparing against the noise
threshold, but scale is used to determine relative height.
**IMPORTANT**: The noise is not transformed by `offset` or `scale` when comparing
against the noise threshold, but scale is used to determine relative height.
The height of the blob is randomly scattered, with a maximum height of `clust_size`.
`clust_scarcity` and `clust_num_ores` are ignored.
This is essentially an improved version of the so-called "stratus" ore seen in some unofficial mods.
This is essentially an improved version of the so-called "stratus" ore seen in
some unofficial mods.
### `blob`
Creates a deformed sphere of ore according to 3d perlin noise described by
@ -741,39 +745,47 @@ The varying types of decorations that can be placed.
The default value is `simple`, and is currently the only type supported.
### `simple`
Creates a 1 times `H` times 1 column of a specified node (or a random node from a list, if a
decoration list is specified). Can specify a certain node it must spawn next to, such as water or
lava, for example. Can also generate a decoration of random height between a specified lower and
upper bound. This type of decoration is intended for placement of grass, flowers, cacti, papyri,
and so on.
Creates a 1 times `H` times 1 column of a specified node (or a random node from
a list, if a decoration list is specified). Can specify a certain node it must
spawn next to, such as water or lava, for example. Can also generate a
decoration of random height between a specified lower and upper bound.
This type of decoration is intended for placement of grass, flowers, cacti,
papyri, and so on.
### `schematic`
Copies a box of `MapNodes` from a specified schematic file (or raw description). Can specify a
probability of a node randomly appearing when placed. This decoration type is intended to be used
for multi-node sized discrete structures, such as trees, cave spikes, rocks, and so on.
Copies a box of `MapNodes` from a specified schematic file (or raw description).
Can specify a probability of a node randomly appearing when placed.
This decoration type is intended to be used for multi-node sized discrete
structures, such as trees, cave spikes, rocks, and so on.
Schematic specifier
--------------------
A schematic specifier identifies a schematic by either a filename to a Minetest Schematic file (`.mts`)
or through raw data supplied through Lua, in the form of a table. This table must specify two fields:
A schematic specifier identifies a schematic by either a filename to a
Minetest Schematic file (`.mts`) or through raw data supplied through Lua,
in the form of a table. This table must specify two fields:
* The `size` field is a 3D vector containing the dimensions of the provided schematic.
* The `data` field is a flat table of MapNodes making up the schematic, in the order of `[z [y [x]]]`.
* The `data` field is a flat table of MapNodes making up the schematic,
in the order of `[z [y [x]]]`.
**Important**: The default value for `param1` in MapNodes here is `255`, which represents "always place".
**Important**: The default value for `param1` in MapNodes here is `255`,
which represents "always place".
In the bulk `MapNode` data, `param1`, instead of the typical light values, instead represents the
probability of that node appearing in the structure.
In the bulk `MapNode` data, `param1`, instead of the typical light values,
instead represents the probability of that node appearing in the structure.
When passed to `minetest.create_schematic`, probability is an integer value ranging from `0` to `255`:
When passed to `minetest.create_schematic`, probability is an integer value
ranging from `0` to `255`:
* A probability value of `0` means that node will never appear (0% chance).
* A probability value of `255` means the node will always appear (100% chance).
* If the probability value `p` is greater than `0`, then there is a `(p / 256 * 100)`% chance that node
will appear when the schematic is placed on the map.
* If the probability value `p` is greater than `0`, then there is a
`(p / 256 * 100)`% chance that node will appear when the schematic is
placed on the map.
**Important note**: Node aliases cannot be used for a raw schematic provided when registering as a decoration.
**Important note**: Node aliases cannot be used for a raw schematic provided
when registering as a decoration.
Schematic attributes
@ -791,14 +803,15 @@ HUD element types
-----------------
The position field is used for all element types.
To account for differing resolutions, the position coordinates are the percentage of the screen,
ranging in value from `0` to `1`.
To account for differing resolutions, the position coordinates are the percentage
of the screen, ranging in value from `0` to `1`.
The name field is not yet used, but should contain a description of what the HUD element represents.
The direction field is the direction in which something is drawn.
The name field is not yet used, but should contain a description of what the
HUD element represents. The direction field is the direction in which something
is drawn.
`0` draws from left to right, `1` draws from right to left, `2` draws from top to bottom,
and `3` draws from bottom to top.
`0` draws from left to right, `1` draws from right to left, `2` draws from
top to bottom, and `3` draws from bottom to top.
The `alignment` field specifies how the item will be aligned. It ranges from `-1` to `1`,
with `0` being the center, `-1` is moved to the left/up, and `1` is to the right/down.
@ -812,7 +825,8 @@ items in the HUD.
Below are the specific uses for fields in each type; fields not listed for that type are ignored.
**Note**: Future revisions to the HUD API may be incompatible; the HUD API is still in the experimental stages.
**Note**: Future revisions to the HUD API may be incompatible; the HUD API is still
in the experimental stages.
### `image`
Displays an image on the HUD.
@ -876,15 +890,18 @@ For helper functions see "Vector helpers".
Flag Specifier Format
---------------------
Flags using the standardized flag specifier format can be specified in either of two ways, by string or table.
Flags using the standardized flag specifier format can be specified in either of
two ways, by string or table.
The string format is a comma-delimited set of flag names; whitespace and unrecognized flag fields are ignored.
Specifying a flag in the string sets the flag, and specifying a flag prefixed by the string `"no"` explicitly
The string format is a comma-delimited set of flag names; whitespace and
unrecognized flag fields are ignored. Specifying a flag in the string sets the
flag, and specifying a flag prefixed by the string `"no"` explicitly
clears the flag from whatever the default may be.
In addition to the standard string flag format, the schematic flags field can also be a table of flag names
to boolean values representing whether or not the flag is set. Additionally, if a field with the flag name
prefixed with `"no"` is present, mapped to a boolean of any value, the specified flag is unset.
In addition to the standard string flag format, the schematic flags field can
also be a table of flag names to boolean values representing whether or not the
flag is set. Additionally, if a field with the flag name prefixed with `"no"`
is present, mapped to a boolean of any value, the specified flag is unset.
E.g. A flag field of value
@ -1177,7 +1194,8 @@ Damage calculation:
damage = 0
foreach group in cap.damage_groups:
damage += cap.damage_groups[group] * limit(actual_interval / cap.full_punch_interval, 0.0, 1.0)
damage += cap.damage_groups[group] * limit(actual_interval /
cap.full_punch_interval, 0.0, 1.0)
* (object.armor_groups[group] / 100.0)
-- Where object.armor_groups[group] is 0 for inexistent values
return damage
@ -1198,8 +1216,8 @@ On the Lua side, every punch calls:
entity:on_punch(puncher, time_from_last_punch, tool_capabilities, direction)
This should never be called directly, because damage is usually not handled by the entity
itself.
This should never be called directly, because damage is usually not handled by
the entity itself.
* `puncher` is the object performing the punch. Can be `nil`. Should never be
accessed unless absolutely required, to encourage interoperability.
@ -1244,12 +1262,14 @@ Example stuff:
print(dump(meta:to_table()))
meta:from_table({
inventory = {
main = {[1] = "default:dirt", [2] = "", [3] = "", [4] = "", [5] = "", [6] = "",
[7] = "", [8] = "", [9] = "", [10] = "", [11] = "", [12] = "", [13] = "",
[14] = "default:cobble", [15] = "", [16] = "", [17] = "", [18] = "",
[19] = "", [20] = "default:cobble", [21] = "", [22] = "", [23] = "",
[24] = "", [25] = "", [26] = "", [27] = "", [28] = "", [29] = "", [30] = "",
[31] = "", [32] = ""}
main = {[1] = "default:dirt", [2] = "", [3] = "", [4] = "",
[5] = "", [6] = "", [7] = "", [8] = "", [9] = "",
[10] = "", [11] = "", [12] = "", [13] = "",
[14] = "default:cobble", [15] = "", [16] = "", [17] = "",
[18] = "", [19] = "", [20] = "default:cobble", [21] = "",
[22] = "", [23] = "", [24] = "", [25] = "", [26] = "",
[27] = "", [28] = "", [29] = "", [30] = "", [31] = "",
[32] = ""}
},
fields = {
formspec = "size[8,9]list[context;main;0,0;8,4;]list[current_player;main;0,5;8,4;]",
@ -1866,8 +1886,10 @@ and `minetest.auth_reload` call the authetification handler.
`mgname`, `seed`, `chunksize`, `water_level`, and `flags`.
* `minetest.set_mapgen_params(MapgenParams)`
* Set map generation parameters
* Function cannot be called after the registration period; only initialization and `on_mapgen_init`
* Takes a table as an argument with the fields `mgname`, `seed`, `water_level`, and `flags`.
* Function cannot be called after the registration period; only initialization
and `on_mapgen_init`
* Takes a table as an argument with the fields `mgname`, `seed`, `water_level`,
and `flags`.
* Leave field unset to leave that parameter unchanged
* `flags` contains a comma-delimited string of flags to set,
or if the prefix `"no"` is attached, clears instead.
@ -1926,7 +1948,8 @@ and `minetest.auth_reload` call the authetification handler.
* `minetest.create_detached_inventory(name, callbacks)`: returns an `InvRef`
* callbacks: See "Detached inventory callbacks"
* Creates a detached inventory. If it already exists, it is cleared.
* `minetest.do_item_eat(hp_change, replace_with_item, itemstack, user, pointed_thing)`: returns left over ItemStack
* `minetest.do_item_eat(hp_change, replace_with_item, itemstack, user, pointed_thing)`:
returns left over ItemStack
* See `minetest.item_eat` and `minetest.register_on_item_eat`
### Formspec
@ -2100,12 +2123,15 @@ These functions return the leftover itemstack.
* Create a schematic from the volume of map specified by the box formed by p1 and p2.
* Apply the specified probability values to the specified nodes in `probability_list`.
* `probability_list` is an array of tables containing two fields, `pos` and `prob`.
* `pos` is the 3D vector specifying the absolute coordinates of the node being modified,
* `pos` is the 3D vector specifying the absolute coordinates of the
node being modified,
* `prob` is the integer value from `0` to `255` of the probability (see: Schematic specifier).
* If there are two or more entries with the same pos value, the last entry is used.
* If there are two or more entries with the same pos value, the
last entry is used.
* If `pos` is not inside the box formed by `p1` and `p2`, it is ignored.
* If `probability_list` equals `nil`, no probabilities are applied.
* Slice probability works in the same manner, except takes a field called `ypos` instead which
* Slice probability works in the same manner, except takes a field
called `ypos` instead which
indicates the y position of the slice with a probability applied.
* If slice probability list equals `nil`, no slice probabilities are applied.
* Saves schematic in the Minetest Schematic format to filename.
@ -2367,7 +2393,8 @@ This is basically a reference to a C++ `ServerActiveObject`
* `gravity`: multiplier to default gravity value (default: `1`)
* `sneak`: whether player can sneak (default: `true`)
* `sneak_glitch`: whether player can use the sneak glitch (default: `true`)
* `hud_add(hud definition)`: add a HUD element described by HUD def, returns ID number on success
* `hud_add(hud definition)`: add a HUD element described by HUD def, returns ID
number on success
* `hud_remove(id)`: remove the HUD element of the specified id
* `hud_change(id, stat, value)`: change a value of a previously added HUD element
* element `stat` values: `position`, `name`, `scale`, `text`, `number`, `item`, `dir`
@ -2399,13 +2426,16 @@ This is basically a reference to a C++ `ServerActiveObject`
* `override_day_night_ratio(ratio or nil)`
* `0`...`1`: Overrides day-night ratio, controlling sunlight to a specific amount
* `nil`: Disables override, defaulting to sunlight based on day-night cycle
* `set_local_animation({x=0, y=79}, {x=168, y=187}, {x=189, y=198}, {x=200, y=219}, frame_speed=30)`:
set animation for player model in third person view
* stand/idle animation key frames
* walk animation key frames
* dig animation key frames
* walk+dig animation key frames
* animation frame speed
* `set_local_animation(walk, dig, walk+dig, frame_speed=frame_speed)`
set animation for player model in third person view
set_local_animation({x=0, y=79}, -- < stand/idle animation key frames
{x=168, y=187}, -- < walk animation key frames
{x=189, y=198}, -- < dig animation key frames
{x=200, y=219}, -- < walk+dig animation key frames
frame_speed=30): -- < animation frame speed
* `set_eye_offset({x=0,y=0,z=0},{x=0,y=0,z=0})`: defines offset value for camera per player
* in first person view
* in third person view (max. values `{x=-10/10,y=-10,15,z=-5/5}`)
@ -2526,36 +2556,43 @@ It can be created via `VoxelManip()` or `minetest.get_voxel_manip()`.
The map will be pre-loaded if two positions are passed to either.
#### Methods
* `read_from_map(p1, p2)`: Reads a chunk of map from the map containing the region formed by `p1` and `p2`.
* `read_from_map(p1, p2)`: Reads a chunk of map from the map containing the
region formed by `p1` and `p2`.
* returns actual emerged `pmin`, actual emerged `pmax`
* `write_to_map()`: Writes the data loaded from the `VoxelManip` back to the map.
* **important**: data must be set using `VoxelManip:set_data` before calling this
* `get_node_at(pos)`: Returns a `MapNode` table of the node currently loaded in the `VoxelManip` at that position
* `set_node_at(pos, node)`: Sets a specific `MapNode` in the `VoxelManip` at that position
* `get_node_at(pos)`: Returns a `MapNode` table of the node currently loaded in
the `VoxelManip` at that position
* `set_node_at(pos, node)`: Sets a specific `MapNode` in the `VoxelManip` at
that position
* `get_data()`: Gets the data read into the `VoxelManip` object
* returns raw node data is in the form of an array of node content IDs
* `set_data(data)`: Sets the data contents of the `VoxelManip` object
* `update_map()`: Update map after writing chunk back to map.
* To be used only by `VoxelManip` objects created by the mod itself; not a `VoxelManip` that was
retrieved from `minetest.get_mapgen_object`
* To be used only by `VoxelManip` objects created by the mod itself;
not a `VoxelManip` that was retrieved from `minetest.get_mapgen_object`
* `set_lighting(light, p1, p2)`: Set the lighting within the `VoxelManip` to a uniform value
* `light` is a table, `{day=<0...15>, night=<0...15>}`
* To be used only by a `VoxelManip` object from `minetest.get_mapgen_object`
* (`p1`, `p2`) is the area in which lighting is set; defaults to the whole area if left out
* (`p1`, `p2`) is the area in which lighting is set;
defaults to the whole area if left out
* `get_light_data()`: Gets the light data read into the `VoxelManip` object
* Returns an array (indices 1 to volume) of integers ranging from `0` to `255`
* Each value is the bitwise combination of day and night light values (`0` to `15` each)
* `light = day + (night * 16)`
* `set_light_data(light_data)`: Sets the `param1` (light) contents of each node in the `VoxelManip`
* `set_light_data(light_data)`: Sets the `param1` (light) contents of each node
in the `VoxelManip`
* expects lighting data in the same format that `get_light_data()` returns
* `get_param2_data()`: Gets the raw `param2` data read into the `VoxelManip` object
* `set_param2_data(param2_data)`: Sets the `param2` contents of each node in the `VoxelManip`
* `calc_lighting(p1, p2)`: Calculate lighting within the `VoxelManip`
* To be used only by a `VoxelManip` object from `minetest.get_mapgen_object`
* (`p1`, `p2`) is the area in which lighting is set; defaults to the whole area if left out
* (`p1`, `p2`) is the area in which lighting is set; defaults to the whole area
if left out
* `update_liquids()`: Update liquid flow
* `was_modified()`: Returns `true` or `false` if the data in the voxel manipulator had been modified since
the last read from map, due to a call to `minetest.set_data()` on the loaded area elsewhere
* `was_modified()`: Returns `true` or `false` if the data in the voxel manipulator
had been modified since the last read from map, due to a call to
`minetest.set_data()` on the loaded area elsewhere
* `get_emerged_area()`: Returns actual emerged minimum and maximum positions.
### `VoxelArea`
@ -2564,10 +2601,12 @@ It can be created via `VoxelArea:new{MinEdge=pmin, MaxEdge=pmax}`.
The coordinates are *inclusive*, like most other things in Minetest.
#### Methods
* `getExtent()`: returns a 3D vector containing the size of the area formed by `MinEdge` and `MaxEdge`
* `getExtent()`: returns a 3D vector containing the size of the area formed by
`MinEdge` and `MaxEdge`
* `getVolume()`: returns the volume of the area formed by `MinEdge` and `MaxEdge`
* `index(x, y, z)`: returns the index of an absolute position in a flat array starting at `1`
* useful for things like `VoxelManip`, raw Schematic specifiers, `PerlinNoiseMap:get2d`/`3dMap`, and so on
* useful for things like `VoxelManip`, raw Schematic specifiers,
`PerlinNoiseMap:get2d`/`3dMap`, and so on
* `indexp(p)`: same as above, except takes a vector
* `position(i)`: returns the absolute position vector corresponding to index `i`
* `contains(x, y, z)`: check if (`x`,`y`,`z`) is inside area formed by `MinEdge` and `MaxEdge`
@ -2594,37 +2633,39 @@ It can be created via `Settings(filename)`.
Mapgen objects
--------------
A mapgen object is a construct used in map generation. Mapgen objects can be used by an `on_generate`
callback to speed up operations by avoiding unnecessary recalculations; these can be retrieved using the
`minetest.get_mapgen_object()` function. If the requested Mapgen object is unavailable, or
`get_mapgen_object()` was called outside of an `on_generate()` callback, `nil` is returned.
A mapgen object is a construct used in map generation. Mapgen objects can be used
by an `on_generate` callback to speed up operations by avoiding unnecessary
recalculations; these can be retrieved using the `minetest.get_mapgen_object()`
function. If the requested Mapgen object is unavailable, or `get_mapgen_object()`
was called outside of an `on_generate()` callback, `nil` is returned.
The following Mapgen objects are currently available:
### `voxelmanip`
This returns three values; the `VoxelManip` object to be used, minimum and maximum emerged position, in that
order. All mapgens support this object.
This returns three values; the `VoxelManip` object to be used, minimum and maximum
emerged position, in that order. All mapgens support this object.
### `heightmap`
Returns an array containing the y coordinates of the ground levels of nodes in the most recently
generated chunk by the current mapgen.
Returns an array containing the y coordinates of the ground levels of nodes in
the most recently generated chunk by the current mapgen.
### `biomemap`
Returns an array containing the biome IDs of nodes in the most recently generated chunk by the
current mapgen.
Returns an array containing the biome IDs of nodes in the most recently
generated chunk by the current mapgen.
### `heatmap`
Returns an array containing the temperature values of nodes in the most recently generated chunk by
the current mapgen.
Returns an array containing the temperature values of nodes in the most
recently generated chunk by the current mapgen.
### `humiditymap`
Returns an array containing the humidity values of nodes in the most recently generated chunk by the
current mapgen.
Returns an array containing the humidity values of nodes in the most recently
generated chunk by the current mapgen.
### `gennotify`
Returns a table mapping requested generation notification types to arrays of positions at which the
corresponding generated structures are located at within the current chunk. To set the capture of positions
of interest to be recorded on generate, use `minetest.set_gen_notify()`.
Returns a table mapping requested generation notification types to arrays of
positions at which the corresponding generated structures are located at within
the current chunk. To set the capture of positions of interest to be recorded
on generate, use `minetest.set_gen_notify()`.
Possible fields of the table returned are:
@ -2636,7 +2677,8 @@ Possible fields of the table returned are:
* `large_cave_end`
* `decoration`
Decorations have a key in the format of `"decoration#id"`, where `id` is the numeric unique decoration ID.
Decorations have a key in the format of `"decoration#id"`, where `id` is the
numeric unique decoration ID.
Registered entities
-------------------
@ -2683,7 +2725,8 @@ L-system trees
angle, --num angle in deg
iterations, --num max # of iterations, usually 2 -5
random_level, --num factor to lower nr of iterations, usually 0 - 3
trunk_type, --string single/double/crossed) type of trunk: 1 node, 2x2 nodes or 3x3 in cross shape
trunk_type, --string single/double/crossed) type of trunk: 1 node,
-- 2x2 nodes or 3x3 in cross shape
thin_branches, --boolean true -> use thin (1 node) branches
fruit, --string fruit node name
fruit_chance, --num chance (0-100) to replace leaves with fruit node