The Wiki for Tale 4 is in read-only mode and is available for archival and reference purposes only. Please visit the current Tale 11 Wiki in the meantime.
If you have any issues with this Wiki, please post in #wiki-editing on Discord or contact Brad in-game.
User:Numaris/Thistle Notes
This is a work in progress. It may or may not ever be completed. Thistles are a difficult subject to try to teach, and I am by no means the premier authority on them.
Introduction
Thistles seem to be a common point of frustration these days. They're complex to make, but difficult to buy, which makes Silk a major road block for certain projects. While there are a number of guides out there that describe the mechanics of the system quite well, there's very little practical information on how to actually go about making the thistle you need. I'd love to say that this guide will change all that, but unfortunately I can't make that promise. Since the rules change all the time, so do the strategies. The best I can do is provide some general pointers based on my experiences, which I will lay out below, along with my own description of the mechanics of the process.
A few things I'd like to get out of the way beforehand:
- I do not sell silk, thistles or thistle recipes. It can be a lot of work, and there's just too much else that I would rather be doing.
- If you're looking for step-by-step guide on how to make a thistle that has certain properties, this isn't it. Such a thing will probably never exist, because the system is just too complex and dynamic. If you're not willing to do a lot of trial-and-error work with a simulator, you're best off outsourcing your silk production.
- Tips/hints/strategies listed below are from my own experience. I would be very happy to hear other folks' experiences, but please use the Discussion page for that, rather than creating long discussion threads on this page.
This guide is divided into two sections. In the first, How Thistles Work, I present the mechanics of the thistle system. This is the same information presented in several other places, put in my own words. If you're already versed in the inner workings of the system, you can skip this section. In the second, Tips and Strategies, I'll provide you with some information that will hopefully give you a better idea of the direction to head in to get what you're looking for.
How Thistles Work
What Are Thistles?
Thistles are created by planting a Thistle Seed in a Thistle Garden and tending it for a few minutes while it grows. Once finished, you can harvest 5 debens of Thistle with seven specific attributes. These attributes represent the final values of the major nutrients in the thistle, and are what determines whether or not the thistle is appropriate for any given use.
Nutrients
Thistles are identified in your inventory or storage container by a string such as "A-B+C~F+N-P+T-". This represents the levels of the seven nutrients in the thistle. The nutrients are:
- Ascorbin
- Biotin
- Carotene
- Folin
- Niacin
- Pyroxidine
- Thiamine
During the growing process, each nutrient is represented by a value between 0 and 99. When the thistle matures, the nutrients' final values determine their level as displayed:
| Descriptor | Symbol | Value |
|---|---|---|
| Low | – | < 22 |
| Average | ~ | >= 22 and < 80 |
| High | + | >= 80 |
(TODO: I still need to verify these values. I stole them from the T3 thistle guide.)
Inputs and Controls
If you open the Thistle Garden's interface and start growing, you'll see the following:
The columns on the right represent the levels of your nutrients as described above. Unfortunately, you can't directly add or remove those nutrients. Instead, you use the buttons atop the columns on the left to set up the appropriate conditions to get what you need.
Nitrogen and Potassium
Nitrogen (Nit) and Potassium (Pot) act as input-only nutrients; that is, they can be turned into other nutrients in the system, but nothing gets turned into Nit or Pot. Nit and Pot levels decay by 10 every tick, regardless of whether or not they are used. Nit can be added using Dung; Pot requires Saltpeter. In both cases, 1 deben of material produces 20 units of the input.
Water and Oxygen
Water (H2O) and Oxygen (Oxy) can be considered catalysts in the system. They are added to the system in the same way as Nit and Pot: 1 deben of Water in Jugs becomes 20 H2O (the Jugs aren't consumed), and 20 Oxy can be added at a time without requiring any materials or tools. They also decay like Nit and Pot, at 10 units per tick. H2O and Oxy are not consumed or produced by any conversions; they simply facilitate them.
Sun
Sun is, as you can imagine, a measure of the amount of sunlight falling on the thistles. The sun level during Egypt nighttime is 0, and progresses quickly at mid-morning to 99 for the daytime. To control Sun, you can toggle the canopy open and closed; while it is closed, the sunlight is cut down to 1/3 of the ambient value. There is no middle ground... the canopy is either open or closed. Like H2O and Oxy, Sun is a catalyst. It facilitates conversions, but is never itself produced or consumed.
Nutrient Conversions
Every batch of thistle starts with the main nutrients set at a value of 0. So how do they get up to the levels that we need?
Each tick behind the scenes, the system steps through a list of nutrient conversions. Each conversion has four parts:
- Input Nutrient. The input nutrient can be any of the main seven nutrients (although Bio is never actually used as an input) as well as Nit or Pot.
- Condition. Each conversion will only be active when a certain condition is met. The condition is tied to the value of either H2O, Oxy, or Sun. Some conversions will require that the level be above a certain value, others will require that it be below.
- Output Nutrient. The output can be any of the seven main nutrients.
- Conversion Ratio. This determines how much of the output nutrient is created per input nutrient.
You will most often see the conversions listed in a form similar to:
10 Nia -> 30 Fol
For this reaction, the input nutrient is Nia, the output is Fol, and the conversion ratio is 3. If at least 10 Nia is available that tick, then 10 Nia will be turned into 30 Fol. If less than 10 Nia is available, whatever is there will be turned into 3 times as much Fol. The full list of possible conversions is shown in the table below.
| Conversion | Condition |
|---|---|
| 10 Nit -> 3.3 Asc | H2O > 79 |
| 10 Car -> 5 Asc | Oxy < 49 |
| 10 Fol -> 20 Asc | Sun > 69 |
| 10 Pot -> 2.5 Bio | Sun < 20 |
| 10 Asc -> 20 Bio | H2O < 29 |
| 10 Pyr -> 10 Bio | Oxy > 89 |
| 10 Pot -> 3.3 Car | Oxy > 69 |
| 10 Asc -> 10 Car | Sun > 79 |
| 10 Thi -> 20 Car | H2O < 39 |
| 10 Pot -> 2.5 Fol | Sun > 69 |
| 10 Nia -> 30 Fol | H2O < 59 |
| 10 Thi -> 20 Fol | Oxy < 49 |
| 10 Asc -> 20 Nia | Sun < 20 |
| 10 Pyr -> 5 Nia | H2O > 69 |
| 10 Thi -> 10 Nia | Oxy < 39 |
| 10 Nit -> 3.3 Pyr | H2O < 39 |
| 10 Car -> 10 Pyr | Sun > 59 |
| 10 Fol -> 20 Pyr | Oxy > 79 |
| 10 Asc -> 10 Thi | Sun < 40 |
| 10 Car -> 20 Thi | Oxy < 49 |
| 10 Nia -> 5 Thi | H2O < 49 |
Each tick, the system runs through the following steps:
- 10 Nit and 10 Pot are lost.
- The conversion table is stepped through from top to bottom. Order is important... once you generate some of one nutrient, it (or up to 10 of it, anyway) will be consumed by the first reaction that uses it as an input (if the condition is met).
- 10 H2O and 10 Oxy are lost.
- New nutrient and catalyst levels are displayed.
After 40 ticks, the thistles are mature and can be harvested. The thistles stop growing at that point. You cannot harvest a batch early, but you can abort a batch, losing the seed in the process.
Voids
As if all that wasn't complex enough, there's a huge wrinkle thrown in that makes the system very dynamic and contributes to the difficulty of finding recipes for a particular requirement: voids. Each Egypt week (about 2.5 real days), a random set of nutrient conversions is voided. That is to say, the conversions are removed from the table for that week. There's no pattern to the voids (that we can tell), and there's no set number of them that happen. It's possible for there to be 8+ voids, and it's possible for there to be no voids at all. The presence of voids can completely change the nature of the cycles that allow nutrients to build up, and drastically affect the strategies.
There are usually folks who test for voids each Egypt week and post them in their in-game info for the public. As of this writing, me (Numaris) and Ephemere are hosting voids in our info.
