- Reduced ambient dripping particles of fluid pipes
- Fixed reversed uvs on encased fans
- Fixed tile entities not being added to contraptions client-side
- Added encased and non-opaque versions of the fluid pipe.
- Added new generic te behaviour across pipe blocks for their rims/attachment models
- Pipes and pumps now render a little drain cap when connected to a fluid inventory
- Implemented reworked chute models by Kryppers
- Implemented new basin model by Kryppers
- Chutes now have proper selection bounds
- Some minor texture & model touch-ups
- Fixed symmetry wand position in its GUI
- Fixed some inconsistencies with a tanks' fluidhandler invalidation when resized
- Patched crashes in present fluid handling of the basin
- Tanks now slightly shade horizontal faces of the contained liquid
- Tanks no longer resend data every tick when filled gradually
- Introduced a new lerped value type with better design decisions
- Refactored Smart tileentity serialization to better support custom overrides in contained behaviours
- Pumps propagate flows in the pipe networks in front and behind itself.
- Pumps collect all possible in and outputs across the reachable pipe graph as endpoints
- Flows move across multiple branches of a pipe network when both are equally viable
- Open-ended pipes are treated as endpoints and leak fluid into and out of a block space
- Open endpoints serialize stateful information about fluid units gathered and held at the interface
- Open endpoints turn a fluid block into 1000 fluid units and back
- Open endpoints undo their transaction when their flow changes from pull to push
- Open endpoints cannot pull fluids back when a full liquid block was not placed yet
- Open endpoints waterlog blocks when the provided fluid is water
- A collision response is triggered when different types of fluids meet at open endpoints
- Fluids are transferred instantly by the throughput of a completed flow per tick
- Pumps cut flows when vital pipes are removed
- Pumps do not lose progress of finished flows when an unrelated part of the pipe network changes
- Pumps do not lose progress of finished flows when reversed
- Pumps distribute their throughput across available input flows evenly
- Pumps distribute gathered input fluid across outputs evenly
- Pumps expose furthest reachable pipefaces to other pumps for chained transfer
- Chained pumps with fully overlapping flow sections provide their endpoints at the entrance of the other pump
- Chained pumps with overlapping flow sections participate in two shared endpoints, one for each pump dominating the contested region
- Chained pumps with overlapping flow only transfer via the optimal of the two possible endpoints based on their speeds
- Chained pumps of equal speed pick one of the two available endpoints deterministically
- Pumps transfer without flows when no pipe is between the pump and the endpoint
- Pumps serialize and recover stateful information about held fluid units at open endpoints
- Chained pumps do not actively transfer when both are partaking with push flows (or both pulling)
- A pull flow originating from an inter-pump endpoint only commences when the corresponding push flow is completed
- Chained pumps re-determine the optimal flow when the speed of one is changed at runtime
- Throughput of chained pumps is determined by their weakest link in terms of speed
- Endpoints created for chained pumps is treated equally to other available endpoints when fluid is distributed
- Pipes do not contain a physical amount of fluid.
- Pipes never hold serialized vital stateful information about fluid transfer.
- Pipes synchronize local flow progress and fluid type to clients
- Flows in a pipe progress with the speed of the network flow
- A networks flow speed depends on the speed of the aggregated pump
- Pipe flows of different flow graphs of different pumps interact with each other
- A collision response is triggered when two different types of fluid meet within a pipe
- Pipes spawn particles to illustrate contained flows/liquids of flows
- The fluid transfer role is exposed through a TE behaviour with some callbacks and properties
- Open endpoints show particles when interacting with in-world fluids
- buffering SeatMovementBehaviour
- changed visibility of AllMovementBehaviours.addMovementBehaviour(ResourceLocation, MovementBehaviour) to public for easier mod compat
- added console warn message when something tries to register more than one movement behaviour per block
- Seats now pick up non-player entities when touching them while being moved
- Seats now drop off entities when being moved into a solid block
- Previously colliding entities now get moved to match their position on the placed structure on disassembly
- Contraption motion no longer gets fed into the collision response for non-minecart contraptions
- The server now gets frequent updates about client players riding a contraption, fixes instabilities with projectiles, damage and anti-fly detection
- Players can now take fall damage when colliding with contraptions
- Any living entity can now use seats
- Fix client sync issues with seats
- Fixed contraptions double-reversing roll and pitch values when communicating to the collision engine
- Seats now transfer their passengers to a contraption when moved and back when disassembled
- Attempted further refinements to the collision response of horizontally rotated contraptions
- Set up a hook to inject custom interaction between players and contraption mounted blocks on right-click
- Seats can now by mounted by players while assembled to a contraption
- Minor refactors to the contraption class
- Collision separation now supports motion sweeping in order to avoid tunnelling when entities drop onto contraptions from a greater height
- Further improved the collision response
- Entities can no longer be clipped into solid walls by the collision response
- moved fan transparent blocks to block tag
- added blaze heater as transparent
- blaze heater on lowest level is now a valid bulk smokig block
- blaze heater on heat 2 and higher is now a valid bulk smelting block (that requires fuel but does not spill lava or set your house on fire)
- added empty blaze heater
- catching blazes (rclick blazes or a blaze spawner)
- only blaze heaters with blaze can heat basins or power fans
- updated item tooltip to fit the discussed fueling system
- Heated Mixing: Mixing can now require the player to heat the basin (with either the usual fan heaters for a heat level of 1 or the blaze heater for higher heat levels)
- Made mixing brass ingots from copper and zinc ingots require heating (as example)
- added the blaze heater to valid fan heaters
- added TE renderer for fan heater to display a blaze head always facing the player
- added fueling of blaze heater with furnace fuel (onUse event, not with inventory to challenge the automation. To be discussed.)
todo:
- add heat requirement display to JEI
- better item model for blaze heater
- new special fuel for higher heat levels
- fan stoking
- added Interface IExtendedProcessingRecipe supporting requiredHeat, fluid inputs and fluid outputs
- set Mixing recipes to use the extended serializer in AllRecipeTypes
- removed constructor parameters specifying fluid usage in recipes that do not support fluids (and changed the ConversionRecipe JEI support class back)
- cleaned up annotations, ordered AllRecipeType enum values and imports, reformatted recipe code