In the latest version 1.7.0 of my favorite VR game, Primitier, a blueprint feature has been added.
With the object duplication function, you can summon anything from complex structures to simple materials.
By scanning any object, you can save it as a blueprint file.
When summoning, it requires power based on the corresponding materials and weight.
For detailed instructions, refer to this video.
In the official Primitier Discord, there is a forum for users to share blueprints they have created.
The official Discord link is: https://discord.gg/9dauxbp4Ju
Even though it may not be significant enough to share, I have placed some small items below that might be useful.
I will add more as I feel like it, but in general, I will prioritize updating the Japanese articles.
There are no specific usage restrictions, so feel free to modify, incorporate into your creations, distribute, etc. I have provided Google Drive links for each item, but if you want them all together, you can find them here:
20231015_PrimitierBlueprint - Google ドライブ
- Transportation Series
- Related things to the moon
- Ancient alloy for circuits
- Circuit components
- Machine/Tools
- Machine part
- Material
- Others
- Materials Collection World
- Where should I put the blueprints in?
Transportation Series
The electric helicopter of the Infinite generator ver.231009
This is a convenient electric helicopter with a payload of 500kg or more.
It can also utilize as a boat.
The production cost is on the heavier side:
Electricity: 1033kJ (equivalent to 2.9 batteries)
Ancient plastic: 78.5kg
Dried grass: 70.0kg
Ancient bearings (outer ring): 51.6kg (equivalent to 43 pieces)
Ancient bearings (axis): 20.2kg (equivalent to 42 pieces)
Ancient alloy: 45.4kg
Ancient motors: 6 units
Pine wood: 12.1kg
Limonite: 1.41kg
Ancient batteries: 3.75kg (3 units)
Tungsten: 1.43kg
Ancient LED: 1.31kg
Rubber: 0.50kg
Stone: 0.32kg
Blueprint on Google Drive:
blueprint_kurosakiworks_helicopter_v231009.pobj - Google ドライブ
You can learn how to perate on following YouTube video.
English CC is available.
The electric helicopter (previous version)
The previous version before the design change had a current leak in the infinite generator, resulting in a significant waste of output.
The one above is an improvement on this, so basically, it is inferior. The production cost is also heavier.*1
Blueprint on Google Drive:
blueprint_kurosakiworks_helicopter_v231001.pobj - Google ドライブ
The helicopter (the first model)
この時のデータを久しぶりに読み出して飛ばしてみたら、全然現行機並みに飛んだ。
— くろ(さき) (@hokuhou_seiki) 2023年10月3日
おまけに仕様が変わっているので当時より高出力。#Primitier https://t.co/6qxx5oY9Rm pic.twitter.com/MPOB6Z6qj1
The prototype of the helicopter.
It was initially created without much consideration, so the balance of the propellers may be off.
It doesn't have any particular practical use; it's more of a nostalgic aircraft.
Blueprint on Google Drive:
blueprint_kw-type_helicopter_proto.pobj - Google ドライブ
The helicopter (the first model) mod.1
The initial helicopter with improved symmetry in the propellers, giving it an aesthetically pleasing appearance.
It is prone to being affected by the wind and has low power, yet surprisingly capable of flying at high altitudes.
The production cost is relatively low, but the requirement of three motors adds a significant expense.*2
Blueprint on Google Drive:
blueprint_kw-type_LightWeightHelicopter3.pobj - Google ドライブ
The large sailing ship
The one referred to as the third ship.
It moves at a reasonable speed, but there is a problem where it cannot stop because the sails cannot be lowered.
It's a bit impractical when there is wind, but the sails cannot be lowered.
However, it feels good.
*Currently, there is a difficulty in summoning it as it tries to generate at the bottom of the sea.
Blueprint on Google Drive:
blueprint_kw_SailingShip_3rd.pobj - Google ドライブ
Related things to the moon
Tools and objects added in v1.8.0 for traveling to the moon.
A mass driver-like ejection device
Utilized for launching towards the moon.
改良したら月まで行けてしまった。 pic.twitter.com/pinmM4XDor
— くろ(さき) (@hokuhou_seiki) 2023年11月19日
It exploits the unique behavior of bearings, with a possibility of becoming unusable over time.
Caution is required as it tends to thrash when lifted off the ground.
When dismantling, first separate the two outer bearing rings that are bound by rubber.
By manipulating the coupling and separation of the bearing shaft installed on the pillar, it can be ejected.
It (almost) flies straight up, so it should not be placed directly under the moon, or it might end up stuck in the far reaches of space.
Large objects cannot be launched straight up, but small items can be managed.
Blueprint on Google Drive:
blueprint_kw_Massdriver.pobj - Google ドライブ
Transmission pole
Achieving wireless power transmission and wireless heat exchange by connecting through separation bearings.
The elevation around the monolith on the ground is fixed... I think it can be used elsewhere as well.
There are ones that come out on the back of the moon, on the lunar surface, and on the lunar surface with a drone spawner.
The blueprints are below.
I think it can only be used on the ground with the same elevation as the monolith and the big tree. *3
Blueprint on Google Drive:
ElectricalLine_toMoon - Google ドライブ
on the back of the moon
分離ベアリングの応用で、月の裏に無線送電することに成功したよ。#Primitier pic.twitter.com/TOJXmRMgmA
— くろ(さき) (@hokuhou_seiki) 2023年11月26日
on the lunar surface
設計図機能による送電柱の設置。
— くろ(さき) (@hokuhou_seiki) 2023年11月29日
地上と月面両方に固定されたオブジェクトが生成される。 pic.twitter.com/bMbmIIIOen
on the lunar surface with a drone spawner
一度月面に持ち込むことに成功した物品は、送電棒の先端に結合して図面化すると次から簡単に月面に送り込める。プリミティアの新要素に申し訳ない使い方だけど。 pic.twitter.com/skHOSAnxjx
— くろ(さき) (@hokuhou_seiki) 2023年11月29日
The minimum configuration of a power transmission block
It further reduces the size of the transmission pole, achieving it with a pair of bearings.
There are individual bearings, each with an item attached to its tip.
The ones with items generate a bearing axis on the ground and an outer ring with an item on the lunar surface.
物品を月面に生成する邪悪な図面をちょっとずつ作っていっている。
— くろ(さき) (@hokuhou_seiki) 2023年12月3日
図面を作るために一度は現地に持ち込まないといけないので、まだそんなに多くない。 pic.twitter.com/VOKjzF24uz
The current lineup includes:
- blueprint_kw_Transporter_Battery_x2.pobj
Transports two batteries. - blueprint_kw_Transporter_Solarcell_x2.pobj
Transports two solar cells. - blueprint_kw_Transporter_ElectricItemSet.pobj
Transports solar cells, batteries, large LEDs, and alloy pillars. - blueprint_kw_Transporter_Leaves_Sheet.pobj
Transports large sheets of thinly sliced leaves. - blueprint_kw_Transporter_DroneSpawner.pobj
Transports a drone spawner (red) covered with leaves. - blueprint_kw_ElectricalLine_onTheMoon_Simplest.pobj
The minimum configuration that generates an axis on the ground and an outer ring on the lunar surface. - blueprint_kw_ElectricalLine_onTheMoon_Simple.pobj
A nearly minimum configuration with an alloy-fixed outer ring on the ground and an axis generated on the lunar surface. - blueprint_kw_Transporter_Repair.pobj(new!)
Transports repair materials to the lunar surface. - blueprint_kw_Transporter_PineWood_90kg.pobj(new!)
Transports 90kg of pine wood to the lunar surface. - blueprint_kw_Transporter_Wood_100kg.pobj(new!)
Transports 100kg of wood to the lunar surface. - blueprint_kw_Transporter_RespawnPoint.pobj(new!)
Transports a respawn point column to the lunar surface. If destroyed, it turns into ancient alloy. - blueprint_kw_Transporter_Slimes_RedAndBlue.pobj(new!)
Transports a set of red and blue slimes to the lunar surface. - blueprint_kw_Transporter_RawRubber.pobj(new!)
Transports raw rubber to the lunar surface. - blueprint_kw_Transporter_Sulfur.pobj(new!)
Transports sulfur to the lunar surface. - blueprint_kw_Transporter_Rubber.pobj(new!)
Transports rubber to the lunar surface.
Blueprint on Google Drive:
TransportBlock_toMoon - Google ドライブ
Ancient alloy for circuits
Using ancient alloy in electrical circuits.
The surplus of the alloy begins when the civilization reaches a level where electricity is accessible. *4
The bearing shaft has a diameter of φ4 cm, and the outer ring has a thickness of 4 cm.
The battery and ancient LED are both 5 cm in each dimension, treated as a certain standard size.
I arbitrarily refer to them as the 4cm standard and 5cm standard.
5cm standard
A 1 cm thick board
The thickness is 1 cm, and the length ranges from 10 cm to 50 cm, with intervals of 5 cm.
AncientAlloy_5x1 - Google ドライブ
A 5 cm square rod
A 5 cm square rod, a rod of appropriate length, and a 10 cm length, 5 cm cube.
AncientAlloy_5x5x - Google ドライブ
A bundle of alloy material measuring 1x1x20
A bundle of alloy material measuring 1x1x20, used for controlling the balance of power supply to motors.
It is composed of materials reduced to the smallest size just before disappearance, bundled together.
One piece horizontally, five pieces arranged side by side, and twenty-five pieces arranged in a corner-shaped configuration.
AncientAlloy_1x1x20s - Google ドライブ
4cm standard
a 4x4 rectangular prism
The structure is a 4x4 rectangular prism with heights of 4cm (cube), 8cm, 12cm, and 16cm.
Additionally, there is a thin plate with a thickness of 1cm and a length of 48cm.
Circuit components
Circuit components such as switches and molded pyrite (diodes).
molded pyrite (diodes)
I refer to a set of alloys and pyrite as the "ancient diode."
It includes a 5cm square, a 4cm square, a 5x5x1, and a 5x4x1.
By the way, the 5cm x 5cm one is the same size as ancient batteries.
A switching panel
A general-purpose switch panel with input in the front and output at the back.
There are two types of output: either two or three, and there are two variations for each type, depending on the presence of a diode (as described later), making a total of four variations.
An Infinite Generator
The extracted power unit of an electric helicopter.
Simply secure it to the circuit using the portion of pyrite located directly beneath the LED.
Refer to the helicopter's instructional video for usage.
blueprint_kw_InfiniteGenerator_v2.pobj - Google ドライブ
Control panel for the infinite generator
This is the same as what is currently installed in the electric helicopter, so the explanation is the same.
Design to discard excess power in parallel.
Not suitable for batteries (inefficient), exclusively designed for infinite power.
Can be used for power control in combination with the above generator.
blueprint_kw_ControlPanel.pobj - Google ドライブ
Loop connected battery pack
Short-circuited battery sets utilizing the unique electrical properties of Primitier.
When connecting n batteries in parallel for input and output, various unpredictable behaviors occur.
Batteries attempt to output to all inputs except themselves.
When short-circuiting input and output, it results in charging other batteries and outputting to the motor.
Additionally, the input quantity changes based on the number of connected batteries, regardless of the intermediate paths.
In the left diagram, the motor, battery, and battery are equally divided into three sections.
In other words, the power from one battery to the motor is 2/3 kW.
For three batteries, the entire circuit inputs 2 kW into the motor.
In the right diagram, the motor, motor, motor, battery, and battery are equally divided into five sections.
In other words, the power from one battery to the motor is 6/5 kW.
For three batteries, it totals 18/5 kW = 3.6 kW.
Even if more batteries are added in parallel in the left diagram, the output remains consistently 2 kW.
By increasing the terminals inputting into the motor, it approaches 2 × (number of batteries) kW.
Battery versions with 2, 4, and 6 batteries were created.
Empty battery
The pre-drained batteries come in handy during tests or such occasions.
After all, it takes three minutes to deplete them since the maximum output is only 2kW.
blueprint_Battery_Empty.pobj - Google ドライブ
The battery (with separator)
If it gets too close within 2cm in this world, it starts conducting electricity.
The presence of insulating material makes a difference, but the detection is delicate and undesirable.
Therefore, to assemble it safely, a 3cm thick piece of wood is inserted.
Hence, a 5x3x14cm wooden block is attached to the battery.
It's deliberately burnt and colored black for aesthetic purposes.
blueprint_Battery_Separator.pobj - Google ドライブ
Ancient LED (the larger one)
It's not rare because you can obtain the schematic by finding an ancient buoy.
You can synthesize the larger LED by crushing LEDs or obtaining them from a wind power plant, requiring a total of eight LEDs.
blueprint_AncientLED_Large.pobj - Google ドライブ
Machine/Tools
Angle Conversion Block Manufacturing Machine
Usage is explained in a previous video.
blueprint_kw_AngledBlockMaker.pobj - Google ドライブ
A ruler (1m)
A readily available ruler made from wheat.
It utilizes the fact that wheat is 5cm square.
blueprint_1m-ruler.pobj - Google ドライブ
Precision rulers (1m, 2m)
Utilizes the 2cm intervals of wood grain for easy reading in 1cm increments.
Also designed for easy reading at 10cm, 50cm, and 1m based on the presence or absence of the surface layer.
blueprint_kw_PineWood_Ruler_1m.pobj - Google ドライブ
blueprint_kw_PineWood_Ruler_2m.pobj - Google ドライブ
Tungsten blade
Equipped with an easy-to-grip handle with a bearing shaft.
blueprint_kw_TungstenBlade.pobj - Google ドライブ
Standing work pine desk
A 5cm thick, 1m x 1.5m pine desk.
blueprint_PineWood_StandingDesk.pobj - Google ドライブ
Portable generator for blueprinting work
A handy infinite generator when worn on the back during blueprint-printing work.
Designed to reduce power waste, it can be used as a regular power source for operation.
blueprint_kw_PortableInfiniteGenerator.pobj - Google ドライブ
Bearing automatic generator
A machine that destroys with iron blades each time a drone appears, generating bearings endlessly as long as it doesn't get caught.
When not in use, stop the generation by placing three additional drones nearby.
blueprint_kw_BearingAutoCollector.pobj - Google ドライブ
Long object that makes objects disappear
An item that utilizes the center of mass position for object detection.
It takes advantage of the specification that objects are not drawn if their center of mass is outside the drawing range.
Can be made with a 1000kg stone and pine wood.
You can see how it works in following video.
blueprint_kw_VanishingMachine.pobj - Google ドライブ
Machine part
Bearing spring
A structure connecting the outer rings of two bearings with a shaft using a plate of 4×14×1 dimensions.
Can be used as a spring, switch-like.
blueprint_BearingSpring.pobj - Google ドライブ
Propeller, blade components
Previously made and removed from the vhiecles.
The long one
Width: 32cm
Length: 482cm
Thickness: 1cm
Consists of 16 layered pieces, 4 sets.
blueprint_wings_32x482x1cm_16layered-4set.pobj - Google ドライブ
The square one
Width: 83cm
Length: 83cm
Thickness: 1cm
Consists of 12 layered pieces, 8 sets.
blueprint_wings_83x83x1cm_12layeredx8sets.pobj - Google ドライブ
Decent width and length
Width: 83cm
Length: 218cm
Thickness: 1cm
Stacked in sets of 20 sheets.
Comes with an angled mounting base.
Rotate it in the direction where the base turns black to gain buoyancy.
Be cautious of the clockwise (CW) and counterclockwise (CCW) options.
blueprint_wings_218x83x1cm_20layered_CCW.pobj - Google ドライブ
blueprint_wings_218x83x1cm_20layered_CW.pobj - Google ドライブ
If you want to summon everything at once, use this
blueprint_wings_218x83x1cm_20layered_8sets.pobj - Google ドライブ
Compressed wing components
Items mentioned above, consolidated in one place using Michi's compression technique.
Width: 83cm
Length: 218cm
Thickness: 1cm
Stacked in sets of 2, 4, 8, 16, 32 sheets.
CompressedWings_218x83x1cm - Google ドライブ
Compressed wing components (Large Type)
Using Michi's compression technique, there are two, four, eight, sixteen, and thirty-two compressed leaves.
At the center of a side (and around the corner), there's a 4cm × 4cm pine cube.
The number of cubes on the sides, denoted as 'n,' corresponds to the number of leaves (2^n).
Width: 600cm
Length: 600cm
Thickness: 1cm
Stacked in sets of 2, 4, 8, 16, 32 sheets.
CompressedWings_600x600 - Google ドライブ
Various burnt items
All stacked with two different burnt leaves, making it easy to count the layers and looking delicious like chocolate.
Each has a 4cm square pine block attached to the center of the short side for connections.
- 120×210×1cm, 20 layers
- 160×210×1cm, 20 layers
- 120×280×1cm, 20 layers
- 35×50×1cm, 32 layers
Angle Adjustment Block
A 4 cm square block slightly twisted.
It has a suitable angle for helicopter propellers.
It seems to be similar to what is included in the aforementioned blades.
Also added a burnt one. *5
Dual-Axis Motors and Engines
Blueprinting them is convenient since making them is a bit troublesome.
Compressed Motor for Contrarotating Propeller
Utilizing Michi's technique*6, placing two motors in the same position.
The upper and lower parts rotate in opposite directions.
blueprint_kw_ContraRotatingMotor_C.pobj - Google ドライブ
Compressed Multiple Motors
A series using Michi's compression technique.
The main body and the axis are multiplexed with multiple motors.
Two and four of these have been made.
Since the torque characteristics are unknown, it's unclear if it's useful, but I made it.
Probably not suitable for power generation purposes as electricity may leak between the motors.
CompressedMultiMotor - Google ドライブ
Compressed Multiple Bearings
Using Michi's compression technique, the bearing is compressed.
Multiple bearings exist in the same position.
Three types have been made with 2, 4, and 8 bearings.
It is unverified whether this reduces axis wobble.
CompressedMultiBearings - Google ドライブ
Compressed Beam Turret
Utilizing Michi's compression technique, a beam turret overlaid in the same position.
The beam turret hangs from a drone, a small one without tracking.
Two, four, eight, and sixteen are overlaid.
When turrets are arranged side by side, they often shoot each other and ignite.
Being grouped like this makes it less likely to ignite, making it easy to use as a heat source, etc.
CompressedBeamTurret - Google ドライブ
Material
Something burned completely black
Burned until just before it goes out.
It disappears before becoming red-hot.
Could be used for time-saving incineration or as a stylish black material.
Blue Drone
Previously, it was challenging to cool, making it impossible to mass-produce blackened drones.
It's black.
blueprint_BlackCharred_BlueDrone.pobj - Google ドライブ
Wood, Pine Wood, Dry Leaves
設計図機能で製材や片付けが楽になった。
— くろ(さき) (@hokuhou_seiki) 2023年10月22日
枯れ葉は燃え尽きる寸前のものに置換してから焼却、材は設計図機能を利用してワープさせていくことで15分くらいの作業で片付く。
ちょっとずるいけど、これまで苦労してるから許してもらお。#Primitier pic.twitter.com/oA4D3Pu4DF
Burned apple tree and pine tree, along with dried leaves of appropriate size.
Some dimensions may include old measurements (not in centimeters).
Gathering items right before burning out, disappearing before turning red.
Large Dried Leaves (210×210×519)
For creating larger parts like wings, there are 3 different shades of partially burnt dried leaves in addition to fully burnt ones, making a total of 4 colors available.
BlackCharred_Leaves_210x210x519 - Google ドライブ
Cut Rubber
Rubber isn't generated in centimeters, so cutting and adjusting dimensions is a bit tedious.
With that in mind, I had prepared some pre-cut ones... or so I thought until I received comments from an expert mentioning its dependence on sulfur size
ゴムは合成に使用した硫黄の辺の長さを2倍にしたものが生成されるので、簡単にcm単位の生成ができますよ
— クロ とか clow とか いろいろ (@clow_akihito) 2023年10月16日
Well, setting that aside, there should be value in fixed-size drawings!
- 20×20×20
- 20×20×10
- 10×10×1
- 5×5×20
- 5×5×5
- 4×4×20
- 4×4×4
Non-flying Green Drones
Two green drones stuck back-to-back, resulting in no buoyancy.
The blueprint is probably not useful unless snagged somewhere.
blueprint_GreenDrone_x2.pobj - Google ドライブ
Cactus
Cutting a cactus turns it into withered leaves.
Rather than becoming smaller and suitable for blueprint material, the remnants turn into dried leaves.
For details on how to use and handle cacti, check out this YouTube video.
So, it's crucial to create as many blueprints as possible; otherwise, you might be in trouble in emergencies (?).
Here are the blueprints I created while measuring.
However, some seem to lack a perfect fit... assuming dimensions are in centimeters in the blueprints.
- 5×5×10 (new!)
- 6×6×24 (new!!)
- 7×7×32 (new!)
- 7×7×37
- 7×7×40
- 8×8×40 (new!)
- 8×8×41 (new!)
- 8×8×42
- 8×8×47
- 9×9×62
- 10×10×70
- 11×11×135 (new!)
- 11×11×137 (new!)
- 13×13×112
- 13×13×114
- 14×14×125
- 16×16×151
- 17×17×163
- 20×20×198
- 20×20×199
The flooring material (Pine Wood)
プリミティアで家造りするときに床を作るのがいつも大変だけど、ユニット化したら超楽だった。 pic.twitter.com/FcpnkV3cCs
— くろ(さき) (@hokuhou_seiki) 2023年10月22日
The flooring material is pine, with dimensions of 150×450×5, and it is constructed as a unit raised 45cm above the ground.
The terminal unit has three legs, while the intermediate unit has two.
When constructed nearby and connected, it creates a spacious floor.
Pine trees
Trunk: 9×9×125, Leaves: 45×45×105 (Seed)
blueprint_PineTree_Seed_9x9x125_45x45x105_.pobj - Google ドライブ
Trunk: 45×45×622, Leaves: 210×210×519 (Seed)
blueprint_PineTree_Seed_45x45x622_210x210x519.pobj - Google ドライブ
Others
Sun-Tracking Object
Inspired by Clowdayo's previous creation "Sunflower," this object adjusts its position based on the angle of its main body.
The light hitting two solar panels changes according to the body's angle, and it aligns itself with the sun by achieving a balance between the forces of two motors.
以前clowさんが作ってたひまわりを真似て作ってみた。
— くろ(さき) (@hokuhou_seiki) 2024年1月7日
上下方向もちゃんと追尾して、両翼の太陽電池の電力は柱に来るようになっている。#Primitier pic.twitter.com/w3mXBBNYGp
- For a single-axis rotation in the horizontal direction, you can modify the size of the solar panels or add weights without issues.
- For the two-axis vertical version, be cautious when adding objects like solar panels, as an imbalance in the center of rotation may prevent it from facing the sun.
- The two-axis version can be utilized for power generation since the power from both solar panels converges on the alloy part of the pillar.
Materials Collection World
While not a blueprint, it includes save data convenient for collecting blueprints.
When using, rename it in the format like "save1.dat."
Pine Big Tree + Tungsten Blade
Save data for when you want to cut 150cm pine material using a tungsten blade.
The tungsten blade is available, making it easy to fell with both hands.
It can be dropped into the sea or rolled on flat ground.
save_PineTree.dat - Google ドライブ
Apple Big Tree + Tungsten Blade
Originally from December 4, 2021, save data for when you want to cut 150cm wood (apple).
Similar to the Pine Big Tree save data, it has a tungsten blade for easy felling.
It's the first save data after scattering unnecessary items *7.
save_AppleTree.dat - Google ドライブ
Where should I put the blueprints in?
Often, you may find people searching within the Steam folder.
Primitier's user data is located in the Documents folder.
Blueprints are placed inside a subfolder within the save data folder.
C:\Users\%userprofile%\Documents\Primitier\Saves\Blueprints
*1: Electricity: 679 kJ
Ancient Plastic: 79.8 kg
Dry Grass: 69.3 kg
Ancient Bearing (Outer Ring): 50.4 kg
Ancient Alloy: 49.4 kg
Ancient Motors: 7 units
Ancient Bearing (Axle): 19.2 kg
Pine Wood: 10.4 kg
Pyrite: 3.04 kg
Ancient Batteries: 2.50 kg (2 pieces)
Tungsten: 1.43 kg
Ancient LEDs: 1.31 kg
Rubber: 1.03 kg
Stone: 0.32 kg
*2:Electric: 104 kJ
Dry grass: 39.6 kg
Wood: 36.4 kg
Ancient motors: 3 pieces
Ancient bearings: 3 sets + 3 shafts
Ancient alloy: 9.1 kg
Ancient LED: 1 piece
*3:I haven't verified it because it's troublesome.
*4:When capturing structures like windmills with batteries, a large amount of ancient alloy, which is the component of those structures, becomes available.
*5:2023/11/05
*6:"Michi @michi_07800 #Primitier くろさきさんの描画距離を利用した裏ワザで物を重ねてみた。これでニトロセルロースを何重にも重ねたり色々出来そう。" https://twitter.com/michi_07800/status/1736333233527374045
*7:In the official release for some time, the big tree was an apple, so if you bring save data from just after the release, you can get an apple big tree.