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Difference between revisions of "40d:Design strategies"
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+ | =Entrance Designs= | ||
+ | |||
+ | ==Flooded Entrance== | ||
+ | |||
+ | Using a chamber as your entrance alongside a chamber full of water and some machinary you can flood or drain the entrance at will. | ||
+ | |||
+ | The basic premise requires two levers, two screwpumps and two gears. Power and the additional components to get the power to the screwpumps varies depending on distance/setup. | ||
+ | One pump is placed to draw from chamber 1 and dump into chamber 2. The other is set in reverse. A gear is placed next to each pump and connected to the main power system. Each gear is linked to a lever. | ||
+ | Now at the flip of a switch you can submerge your entrance with water or magma for easy, secure defense. | ||
+ | |||
+ | |||
== 3D Map Format == | == 3D Map Format == | ||
The map is divided in ''levels''. Tiles on each level are composed by whatever is on that tile, and the floor (or absence of floor) below it. A virgin rock tile is composed of a wall of rock and a floor of rock, for example. | The map is divided in ''levels''. Tiles on each level are composed by whatever is on that tile, and the floor (or absence of floor) below it. A virgin rock tile is composed of a wall of rock and a floor of rock, for example. |
Revision as of 20:27, 1 November 2007
Entrance Designs
Flooded Entrance
Using a chamber as your entrance alongside a chamber full of water and some machinary you can flood or drain the entrance at will.
The basic premise requires two levers, two screwpumps and two gears. Power and the additional components to get the power to the screwpumps varies depending on distance/setup. One pump is placed to draw from chamber 1 and dump into chamber 2. The other is set in reverse. A gear is placed next to each pump and connected to the main power system. Each gear is linked to a lever. Now at the flip of a switch you can submerge your entrance with water or magma for easy, secure defense.
3D Map Format
The map is divided in levels. Tiles on each level are composed by whatever is on that tile, and the floor (or absence of floor) below it. A virgin rock tile is composed of a wall of rock and a floor of rock, for example.
In the following examples,
# is a wall of rock
= is a floor of rock
> is a stair down
< is a stair up
Side view:
# Level 1 = Level 1 + @ Level 0 ========<= Level 0 ####### > Level -1 ========== Level -1
A channel removes the floor on the level it was designated, and the wall on the level below.
@ 0 === ===== 0 ### ##### -1 ========= -1
Mining removes the walls, but does not affect the floors.
1 ========= 1 @### 0 ========= 0
Building new walls however can affect the floor above, replacing it if it is not already there. I have used the O symbol to show where a new wall would go, in each case it's just one wall but the left hand one would add a floor tile as shown.
==O ==== ##O @ O### ==========
Stairs down only remove the floor, and stairs up do not affect the floor or the ceiling. Stairs up+down act as a combination of both.
1 ==>=>==== 1 Level 1 view Level 0 view Level -1 view < X 0 ############ ############ ############ ====X=>== 0 > > < X > < < < < -1 ############ ############ ############ ========= -1
Up-ramps remove the ceiling above them and create a down-ramp automatically. They can't be used by dwarves unless built specifically. Up-ramps can be found in the same submenu of the designation menu as up- and down-staircases. Read more about this under digging.
1 ====v==== 1 ^#### 0 ========= 0