In the preceding text, systematic modifications have been completed concerning spatial rules, the function of points, and the female protagonist's character design.
The plot can proceed without readers referring back to the sections on the function of points and the female protagonist's character design.
Chapters that have undergone significant revisions to spatial rules will be marked with "Modified." Readers are encouraged to revisit those chapters if they have the time.
If time is limited, readers can directly refer to the summary of 7 simplified basic spatial rules and the 5 detailed spatial rules comprising 20 points below.
(Readers who have already reviewed the modified versions and understand the spatial rules can skip this section.)
【Basic Spatial Rules (Simplified Version)】
1. Expanding space and replicating items both consume spatial energy.
2. Items stored in space retain their state at the time of storage; living beings cannot be stored in space.
3. Replicating items consumes spatial energy, which will slow down, halt, or even shrink the rate of spatial expansion.
4. Removing items yields spatial energy, which can accelerate the rate of spatial expansion or replenish the consumption from replicating items.
5. Spatial energy consumed during replication can be recovered when replicated items are returned to space.
6. When the original body is removed, replicated bodies returned to space do not disappear immediately; they can only be actively removed. Replicated bodies cannot be replicated again and can only be stored in space.
7. The spatial energy recovered when items are returned to space, the spatial energy gained when items are removed, and the spatial energy consumed during replication are all equal.
(The following is the detailed version. Those who cannot understand it can simply remember the 7 points in the simplified version above.)
【Replication: Consumption and Recovery of Spatial Energy (Chapters 2, 74)】
1. When items within space are replicated, spatial energy is consumed. Upon returning replicated items to space, the spatial energy consumed during replication is recovered.
2. The slowing down, halting, or shrinking of the spatial expansion rate is solely related to the number of times items are replicated, not the quantity, quality, or energy of the replicated items.
3. Replicating items within 10 times slows down the spatial expansion rate; replicating items over 10 times halts spatial expansion; replicating items over 30 times causes space to shrink, with the shrinking rate increasing exponentially with the number of replications.
4. The quantity, quality, and energy of replicated items affect the time it takes for spatial expansion to recover after it has slowed down, halted, or shrunk.
【Removal: Acceleration of Spatial Expansion Rate (Chapters 18, 75)】
1. Removing items from space yields spatial energy, accelerating the spatial expansion rate.
2. The spatial energy obtained upon removing items is related to the quantity, quality, and energy of the removed items.
3. The spatial energy gained from removing items can accelerate the spatial expansion rate or shorten the recovery time after the expansion rate has slowed down, halted, or shrunk.
4. After the original body of an item is removed, replicated bodies returned to space do not immediately recover the spatial energy consumed during replication; they require active removal to be obtained.
【Rules for Storing and Retrieving Items from Space (Chapters 2, 3, 75)】
1. Living beings cannot be stored in space, nor can they be replicated.
2. Before the original body of an item is removed, replicated bodies returned to space disappear immediately and are converted into spatial energy.
3. After the original body of an item is removed, replicated bodies returned to space do not disappear, but they cannot be further replicated and can only be stored in space.
4. The spatial energy consumed during item replication is equal to the spatial energy gained during removal.
【Combined Usage of Space and Information Storage (Chapters 4, 69, 73)】 httpδ:/m.kuAisugg.nět
1. When replicated containers and their contents are stored together in space, the containers can be replicated along with their contents during subsequent replication.
2. Items that come into contact with the body can be stored in space and then replicated back to the same position on the body in their original form.
3. If scattered items in space are replicated, packaged using replicated packaging, and then returned to space, they can be directly replicated as packaged items upon the next replication.
4. Replicated ink, pigments, and paper, after being used to write or paint content and then returned to space, will restore the ink and paper to their original state, consuming the same amount of spatial energy as replicated. However, the written or painted content can still be replicated.
【Other Spatial Rules】
1. Because the space absorbs energy at an uneven rate, the speed of spatial expansion also fluctuates. (Chapter 2)
2. Items replicated within space retain the state they were in when first placed into space. (Chapter 8)
3. Space is not three-dimensional; items do not touch each other, and empty spaces and gaps within items, or non-physical portions, are compressed. (Chapters 2, 14)
4. Space has distinctions between old and new, and between inner and outer. The older, earlier generated space is the inner space, and the newly expanded space is the outer space. (Chapter 37)
【First Volume Point Income and Expenditure Table】