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// Hyperbolic Rogue -- items, monsters, walls, lands, descriptions, etc.
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// Copyright (C) 2011-2018 Zeno Rogue, see 'hyper.cpp' for details
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/** \file classes.cpp
* \ brief items , monsters , walls , lands , descriptions , etc .
*
* See content . cpp for actual items , monsters , walls and lands .
*/
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# include "hyper.h"
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namespace hr {
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// --- help ---
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const char * wormdes =
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" These huge monsters normally live below the sand, but your movements have "
" disturbed them. They are too big to be slain with your "
" weapons, but you can defeat them by making them unable to move. "
" This also produces some Spice. They move two times slower than you. " ;
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const char * cocytushelp =
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" This frozen lake is a hellish version of the Icy Land. Now, your body heat melts the floor, not the walls. " ;
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const char * tentdes =
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" The tentacles of Cthulhu are like sandworms, but longer. "
" They also withdraw one cell at a time, instead of exploding instantly. " ;
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const char * gameboardhelp =
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" Ever wondered how some boardgame would look on the hyperbolic plane? "
" I wondered about Go, so I have created this feature. Now you can try yourself! \n "
" Enter = pick up an item (and score), space = clear an item \n "
" Other keys place orbs and terrain features of various kinds \n "
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" In the periodic editor, press 0-4 to switch walls in different ways \n "
;
const char * ivydes =
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" A huge plant growing in the Jungle. Each Ivy has many branches, "
" and one branch grows per each of your moves. Branches grow in a clockwise "
" order. The root itself is vulnerable. " ;
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const char * slimehelp =
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" The Alchemists produce magical potions from pools of blue and red slime. You "
" can go through these pools, but you cannot move from a blue pool to a red "
" pool, or vice versa. Pools containing items count as colorless, and "
" they change color to the PC's previous color when the item is picked up. "
" Slime beasts also have to keep to their own color, "
" but when they are killed, they explode, destroying items and changing "
" the color of the slime and slime beasts around them. " ;
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const char * gdemonhelp =
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" These creatures are slow, but very powerful... more powerful than you. "
" You need some more experience in demon fighting before you will be able to defeat them. "
" Even then, you will be able to slay this one, but more powerful demons will come... \n \n "
" Each 10 lesser demons you kill, you become powerful enough to kill all the greater "
" demons on the screen, effectively turning them into lesser demons. " ;
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const char * ldemonhelp =
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" These creatures are slow, but they often appear in large numbers. " ;
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const char * trollhelp =
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" A big monster from the Living Caves. A dead Troll will be reunited "
" with the rocks, causing some walls to grow around its body. " ;
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EX const char * trollhelp2 =
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" Additionally, all items around the killed Troll will be destroyed. " ;
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const char * trollhelpX =
" There are several species of trolls living in the hyperbolic world. "
" Some of them leave this wall behind them when they die. " ;
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const char * camelothelp =
" The Knights of the Round Table are the greatest warriors of these lands. "
" They are not very inventive with names though, as they call each of their "
" castles Camelot. "
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" You are probably worthy of joining them, but they will surely give you "
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" some quest to prove yourself... \n \n "
" Each castle contains a single treasure, the Holy Grail, in the center. "
" The radius of the Round Table is usually 28, but after you find a Holy Grail "
" successfully, each new castle (and each Round Table) you find will be bigger. " ;
const char * templehelp =
" The temple of Cthulhu consists of many concentric circles of columns. "
" You will surely encounter many Cultists there, who believe that a pilgrimage "
" to the inner circles will bring them closer to Cthulhu himself, and Grimoires "
" which surely contain many interesting secrets. \n \n "
" The circles in the temple of Cthulhu are actually horocycles. They are "
" infinite, and there is an infinite number of them. " ;
const char * barrierhelp =
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" Huge, impassable walls which separate various lands. " ;
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const char * cavehelp =
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" This cave contains walls which are somehow living. After each turn, each cell "
" counts the number of living wall and living floor cells around it, and if it is "
" currently of a different type than the majority of cells around it, it switches. "
" Items count as three floor cells, and dead Trolls count as five wall cells. "
" Some foreign monsters also count as floor or wall cells. \n " ;
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const char * vinehelp =
" The Vineyard is filled with vines. A very dense pattern of straight lines here... \n \n "
" Vine Beasts and Vine Spirits change vine cells to grass, and vice versa. " ;
const char * hvinehelp =
" A vine is growing here... but only on a half of the cell. How is that even possible?! "
" Most monsters cannot move from this cell to the cell containing the other half. "
" Vine spirits can move only to the adjacent cells which are also adjacent to the "
" other half. " ;
const char * deadcavehelp =
" Somehow, this cave has not received the spark of Life yet. " ;
const char * foresthelp =
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" This forest is quite dry. Beware the bushfires! \n "
" Trees catch fire on the next turn. The temperature of the grass cells "
" rises once per turn for each fire nearby, and becomes fire itself "
" when its temperature has risen 10 times. \n "
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" You can also chop down the trees. Big trees take two turns to chop down. " ;
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const char * hivehelp =
" The Hive is filled with Hyperbugs. They are huge insects which look a bit like "
" ants, a bit like bees, and a bit like roaches. "
" They live in circular nests, and an army of Hyperbugs will attack any intruder, "
" including you and enemy Hyperbugs. Will you manage to get to the "
" heart of such a nest, and get the precious Royal Jelly? " ;
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const char * redrockhelp =
" This land contains high rock formations. Most of the valley is at level 0, "
" while items are found at level 3. It is impossible to gain two or more levels, "
" or to lose three levels, in a single move, (attacks are possible at any "
" difference, though). Kill Red Trolls and Rock Snakes to make a cell higher. " ;
const char * caribbeanhelp =
" This dangerous sea contains nasty sharks and pirates. " ;
const char * cislandhelp =
" The islands of Caribbean are infinite and circular, and "
" the pirates probably have hidden their treasures somewhere far from the coast. " ;
const char * redsnakedes =
" Rock snakes are similar to Sandworms, but they move each turn. However, they "
" only move on the hexagonal cells. They are also somewhat longer than the Sandworms. " ;
const char * minedesc =
" This minefield has been created by the Bomberbirds to protect their valuable eggs. "
" Mines explode when they are stepped on, creating fire all around them "
" (this fire never expires in the Minefield). If you don't step on a mine, you "
" know the number of mines in cells around you. These numbers are marked with "
" color codes on the cells you have visited. " ;
const char * palacedesc =
" So better just to concentrate on collecting treasure. "
" Beware the traps, and the guards, who are hard to kill! " ;
const char * gatedesc =
" Green pressure plates open all gates in radius 3 around them. "
" Similarly, red pressure plates close all gates in this radius. " ;
const char * princessdesc =
" A mouse squeaks at you. It seems that it wants you to go somewhere. "
" That's interesting, what could you find here? \n \n "
" Note: in the part of the Palace that you are exploring during this "
" quest, the distribution of monsters, pressure plates, and items has been "
" changed somewhat, to make it a bit more suitable for less "
" experienced players. The number of monsters does not depend on the "
" number of Hypersian Rugs you have collected, and there are more "
" opening plates. \n \n "
" However, even with the normal distribution, it appears that it should be "
" always possible to reach your goal. If you want this challenge, "
" select it from the special game modes menu. " ;
const char * elemdesc =
" The Elemental Planes are divided into four subzones: Planes of Fire, Water, Air, and Earth. "
" You need to collect a Shard from each Plane to construct an Elemental Gem. "
" It is dangerous to collect too many Shards of the same type without constructing a Gem. " ;
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const char * wildwestdesc =
" Take a revolver, kill outlaws, collect bounties. \n \n "
" Note: since this land is anachronistic, it is not available in normal game. "
" It is only available in special modes. " ;
const char * elecdesc =
" Whenever after your move there is a connection between a charged and a "
" grounded cell, there is a short circuit. All cells on any "
" path connecting a charged and a grounded cell (without repeated cells, "
" or two consecutive grounded/charged cells) become damaged. \n \n "
" Sandstone walls and most creatures are conductive. Great Walls are "
" isolators, but lands beyond them count as grounded. \n \n "
" Fulgurite, the treasure, is created when you manage to short circuit "
" a sandstone wall, or a Rich Metal Beast. \n \n "
" Trolls leave conductive rocks when killed, and Metal Beasts can only "
" be killed by electricity -- your attacks only stun them, or push "
" them away if already stunned. " ;
const char * overdesc =
" The Overgrown Woods are filled with mutant ivies! These plants "
" grow very fast. Each leaf, after being grown, can grow itself "
" on the next turn. However, each part is only able to grow "
" once in 16 turns. Outside of the Overgrown Woods, the Mutant Ivy "
" may grow only on hexagonal cells. \n \n "
" Maybe such fast growing plants could help you solve the problem "
" of hunger in your world? Kill the Mutant Ivies to collect Mutant Saplings. " ;
const char * cleardesc =
" A clearing in the Overgrown Woods. Obviously, this gives "
" the Mutant Ivies an infinite space to grow... \n \n "
" Mutant Fruits rot if they are not adjacent to a Mutant Ivy. " ;
const char * winddesc =
" Someone has put air fans in these plains, causing strong winds everywhere. "
" You think that the purpose is to harness the magical power of Air Elementals, but "
" you are not sure. \n \n "
" All cells except fans are grouped into three colors according to a pattern. "
" Wind blows counterclockwise around each group of cells of a single color. "
" Cells which are blocked by walls, or at distance at most 2 from an Air Elemental, "
" do not count for this. \n \n "
" It is illegal to move in a direction which is closer to incoming wind than to "
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" outgoing wind. However, you can move two cells with the wind in a single turn, "
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" and so can the birds. " ;
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const char * warningdesc =
" Warnings are issued when you try to do something that appears dangerous, "
" like stepping on a known mine, or getting your boat destroyed by "
" a Kraken without having Orb of the Fish. In some cases the action "
" might actually be safe -- so you can ignore the warning and do it anyway, "
" simply by repeating the action. " ;
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const char * hauntdesc =
" A dark forest filled with ghosts and graves. But there is also treasure hidden "
" deep within... But don't let greed make you stray from your path, as "
" you can get lost! \n \n "
" The Haunted Woods are bounded by a single equidistant curve. It is not a circle or horocycle. \n \n " ;
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const char * bulldashdesc =
" Butterflies don't pursue you -- unless you get next to them, they just spin around the obstacles. "
" They cannot be killed conventionally, but you get treasure when a Raging Bull crashes into a Butterfly. " ;
const char * prairiedesc =
" You can find safety in some places in the Prairie, but if you want treasures, "
" they can be found only on the other side of a giant herd of bulls. " ;
const char * cadesc =
" A land for people wanting to experiment with cellular automata in the HyperRogue grid. "
" Rules can be given on the command line; the default rules are: \n "
" -c07 00100000 -c06 0010000 -c17 00011000 -c16 0001100 -caprob 0.3 \n "
" (-c0 or -c1 can be given if the same rule is to be used for hexagonal "
" and heptagonal cells). " ;
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const char * huntingdesc =
" The Happy Hunting Ground is the place where hunting is easy; "
" the spirits of hunters go here after their death, if their life was deemed worthy. "
" You did not qualify though, so you will not ever be able to find your way to the places "
" where the hunter spirits and game are... "
" and their hunting dogs will hunt you instead! \n \n "
" You hope to use this to learn some "
" skills in fighting in open hyperbolic space, though. " ;
const char * terradesc =
" Spending 3-5 turns next to the Terracotta Warriors will cause them to awaken. "
" They have 7 HP, and get stunned for longer and longer time with each attack. " ;
const char * terraldesc =
" The Emperor's mausoleum. The army "
" of Terracotta Warriors is supposed to protect him in his "
" afterlife, while the traps are to protect the treasures "
" in the mausoleum from thieves. " ;
const char * arrowtrapdesc =
" The arrow traps will automatically launch a deadly arrow when stepped on. They are quite old though, so the arrow will "
" actually fly at the end of the next turn. " ;
const char * lavadesc =
" The volcanic activity in this land is extremely unstable. "
" Lava is too hot to walk on. It cools quickly, but another "
" flow will come soon... " ;
const char * blizzarddesc =
" Once in the past there lived a tribe whose prophets warned about the great blizzard that was to come and freeze the world. "
" They thought it was the wrath of the gods, so they put some altars, so that the gods could hear their pleas. "
" The mighty golems guarded those altars, making sure nobody steals the jewels, because a robbed god is a angry god. "
" Unfortunately winter has come (maybe because only the monks knew how to stop the golems, and they were said to had escaped earlier with some of the jewels). "
" The tribe has frozen to death, altars got covered with snow and ice. Only ice golems still guard them waiting for the spring. " ;
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const char * crystaldesc =
" Yes, this is definitely a crystal. A very regular crystalline structure. \n \n "
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" This land has been designed as a tool to play with various geometries, and it does not appear during a normal gameplay. " ;
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const char * NODESC = " No description yet. " ;
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const char * NODESCYET = " No description yet. " ;
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const char * GENDERSWITCH = NODESC ;
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// --- monsters ---
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EX const char * rosedesc =
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" Each eight turns, each rosebush at distance at most 5 from you will "
" release a wave of alluring scent. Creatures on the frontwave "
" will move towards where the scent came from. Even if it causes them "
" to attack their friends or beautiful creatures, or move into water, fire, chasm, or thorns of the rosebush. "
" Ivies, Ghosts, Rock Snakes, Rose Ladies and Lords, and monsters restricted to a specific "
" terrain are immune to scents. " ;
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EX const char * warpdesc =
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" This part of the world is warped, restricting the movement somewhat. "
" \" Diagonal \" movement and attacking between triangular cells is not allowed. "
" Flash, Storms, and Freedom spells ignore this, and Ghosts can move, attack, and "
" be attacked diagonally. " ;
const char * warplanddesc =
" This land is warped. Ironically, the coast is completely straight... " ;
const char * roselanddesc =
" This land is filled with beautiful, but dangerous, creatures and plants. " ;
const char * dragondesc =
" Dragons are powerful monsters. They are slow, but evil, "
" and love to pick on creatures who are even slower than "
" them. They must be stopped! \n \n "
" A Dragon moves each two turns. It may attack with all its segments, "
" or move its whole body forwards or "
" backwards, it may also move a frontal part backwards. To kill a Dragon, "
" you need to hit each of its segments. "
" The head will regenerate on the "
" turns the Dragon is not moving, so you will usually have to hit it with "
" your last attack; otherwise, if the head is healthy, it may breathe "
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" fire (at range 3), losing the hitpoint. Killing the Dragon "
" while still in the Dragon Chasms gives you treasure. " ;
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const char * tortoisedesc =
" Galápagos is the land of Tortoises. "
" They are very slow, which allows the Dragons to pick on them by "
" stealing and eating their young. Bring the Baby Tortoises back, "
" but, there is a catch: the Tortoises come in many varieties, depending "
" on the part of Galápagos they live in -- there are 21 binary environmental "
" factors, and thus "
" 2097152 varieties. You'll have to find a "
" Tortoise which matches the baby exactly! \n \n "
" Tortoises move each 3 turns, and attacks only stun them. \n \n "
" Bringing back a Baby Tortoise counts as 5 $$$. The more factors agree in "
" the given location of Galápagos, the brighter it is shown on your screen. " ;
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const char * krakendesc =
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" There are Krakens in your homeland, too... huge sea monsters which "
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" could easily destroy ships. The geometry of this strange world "
" prevents quick movement of huge objects, "
" so there are no large ships, only small boats, and "
" hyperbolic Krakens are relatively small too. Still, you suppose they might be "
" the widest creatures which could still move at considerable speed... \n \n "
" Kraken heads can move only on hexagons. You need to attack all the tentacles to "
" kill the Kraken. A tentacle cannot attack if it has been attacked on the "
" same turn. When a Kraken attacks you while you are in a boat, it "
" destroys the boat, but does not kill you. " ;
const char * halloweendesc =
" Halloween is a special land, that is available only in the spherical "
" or elliptic geometry (press 'o' to switch). You play on the surface of "
" a jack-o'-lantern, "
" and have to collect as many Treats as possible. Each Treat you collect "
" brings new monsters to fight, and new magical powers for you. You "
" have to fight the monsters while effectively managing your limited "
" resources. " ;
const char * reptiledesc =
" These reptiles are quite strange creatures. They "
" spend most of their lives sleeping as floors "
" that other creatures can walk on. "
" Sometimes they wake up to hunt their prey, "
" but they will happily go back to sleep if they "
" happen to move into a hole on their way. "
" Your attacks do not kill the Reptiles, but "
" you can push and stun them. " ;
const char * naturedesc =
" This Orb allows you to grow like an Ivy. "
" The Ivy is always rooted in your current location; "
" moving among the Ivy cells will move the root. "
" Moving to a new location will cause the Ivy to grow "
" , if an Ivy could make that movement "
" (otherwise it breaks). "
" You can also target one of the cells adjacent to your ivy "
" (not to you) to grow or attack there. " ;
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const char * mirroreddesc =
" A perfect mirror wall. It is unbreakable "
" and impassable "
" even for aethereal beings, and everything "
" you see inside is just an image of "
" the real world; you can swing your sword "
" at them, but that will not destroy them "
" in the real world. "
" Mirror walls reflect Mimics, lightning bolts, and "
" missiles perfectly. " ;
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const char * tamebomberdesc =
" This bomberbird will follow you at some distance, and attack your enemies. "
" You can kill it to place a mine. " ;
const char * gargdesc =
" A being made of stone, who likes high buildings. It becomes normal stone when "
" killed, but only if next to something stable -- otherwise it falls. " ;
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const char * lakeDesc = " Hell has these lakes everywhere... They are shaped like evil stars, and filled with burning sulphur. " ;
const char * thumpdesc = " A device that attracts sandworms and other enemies. You need to activate it. " ;
const char * twdesc = " This structure will disappear after some time. " ;
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const char * jellydesc =
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" Some of the Slime Beasts have decided to revolt against the color rules in the "
" Alchemist Lab. They have changed their shape and consistency, declared independence, and established their own Kingdom. \n \n "
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" Jellies switch between being a wall and being a monster after every treasure you collect. " ;
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const char * ruindesc =
" Once a beautiful city... but now overrun by the mighty Raiders of unknown origin. \n \n "
" Raiders cannot be harmed with mundane weapons, but each color has its movement restrictions. " ;
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const char * rock_description =
" Shoot the Space Rocks for score. Large Rocks will split into two smaller rocks. " ;
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# if HDR
enum eSlimegroup { sgNone , sgCave , sgWater , sgFloorA , sgFloorB , sgVine , sgTree } ;
# endif
# if HDR
// we use CF not MF to avoid confusion with MF_ movement flags
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static constexpr flagtype CF_NOGHOST = Flag ( 0 ) ;
static constexpr flagtype CF_RAIDER = Flag ( 1 ) ;
static constexpr flagtype CF_PRINCESS = Flag ( 2 ) ;
static constexpr flagtype CF_MIMIC = Flag ( 3 ) ;
static constexpr flagtype CF_GOK = Flag ( 4 ) ;
static constexpr flagtype CF_NONLIVING = Flag ( 5 ) ;
static constexpr flagtype CF_METAL = Flag ( 6 ) ;
static constexpr flagtype CF_STUNNABLE = Flag ( 7 ) ;
static constexpr flagtype CF_HP = Flag ( 8 ) ;
static constexpr flagtype CF_MOUNTABLE = Flag ( 9 ) ;
static constexpr flagtype CF_FRIENDLY = Flag ( 10 ) ;
static constexpr flagtype CF_PLAYER = Flag ( 11 ) ;
static constexpr flagtype CF_BUG = Flag ( 12 ) ;
static constexpr flagtype CF_IVY = Flag ( 13 ) ;
static constexpr flagtype CF_PART = Flag ( 14 ) ;
static constexpr flagtype CF_MUTANTIVY = Flag ( 15 ) ;
static constexpr flagtype CF_ANYIVY = Flag ( 16 ) ;
static constexpr flagtype CF_BULLET = Flag ( 17 ) ;
static constexpr flagtype CF_DEMON = Flag ( 18 ) ;
static constexpr flagtype CF_WORM = Flag ( 19 ) ;
static constexpr flagtype CF_WITCH = Flag ( 20 ) ;
static constexpr flagtype CF_BIRD = Flag ( 21 ) ;
static constexpr flagtype CF_SLOWMOVER = Flag ( 22 ) ;
static constexpr flagtype CF_MAGNETIC = Flag ( 23 ) ;
static constexpr flagtype CF_SWITCH = Flag ( 24 ) ;
static constexpr flagtype CF_GHOST = Flag ( 25 ) ;
static constexpr flagtype CF_SHARK = Flag ( 26 ) ;
static constexpr flagtype CF_SLIME = Flag ( 27 ) ;
static constexpr flagtype CF_DRAGON = Flag ( 28 ) ;
static constexpr flagtype CF_KRAKEN = Flag ( 29 ) ;
static constexpr flagtype CF_NOBLOW = Flag ( 30 ) ;
static constexpr flagtype CF_MULTITILE = Flag ( 31 ) ;
static constexpr flagtype CF_LEADER = Flag ( 32 ) ;
static constexpr flagtype CF_FLYING = Flag ( 33 ) ;
static constexpr flagtype CF_ATTACK_THRU_VINE = Flag ( 34 ) ;
static constexpr flagtype CF_ATTACK_NONADJACENT = Flag ( 35 ) ;
static constexpr flagtype CF_NOHIGHLIGHT = Flag ( 36 ) ;
static constexpr flagtype CF_INACTIVE = Flag ( 37 ) ;
static constexpr flagtype CF_UNARMED = Flag ( 38 ) ;
static constexpr flagtype CF_IGNORE_PLATE = Flag ( 39 ) ;
static constexpr flagtype CF_BULL = Flag ( 40 ) ;
static constexpr flagtype CF_TROLL = Flag ( 41 ) ;
static constexpr flagtype CF_IGNORE_SMELL = Flag ( 42 ) ;
static constexpr flagtype CF_RATLING = Flag ( 43 ) ;
static constexpr flagtype CF_POWER = Flag ( 44 ) ;
static constexpr flagtype CF_GHOSTMOVER = Flag ( 45 ) ;
static constexpr flagtype CF_TECHNICAL = Flag ( 46 ) ;
static constexpr flagtype CF_MOVED = Flag ( 47 ) ;
static constexpr flagtype CF_FACING = Flag ( 48 ) ;
static constexpr flagtype CF_FACE_UP = Flag ( 49 ) ;
static constexpr flagtype CF_FACE_SIDE = Flag ( 50 ) ;
static constexpr flagtype CF_HIGH_THREAT = Flag ( 51 ) ;
static constexpr flagtype CF_SPAM = Flag ( 52 ) ;
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static constexpr flagtype CF_FROG = Flag ( 53 ) ;
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enum eMonster {
# define MONSTER(a,b,c,d,e,f,g,h) d,
# include "content.cpp"
motypes
} ;
struct monstertype {
char glyph ;
color_t color ;
const char * name ;
flagtype flags ;
enum eMonster mgroup ;
const char * help ;
} ;
# endif
EX monstertype minf [ motypes ] = {
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# define MONSTER(a,b,c,d,e,f,g,h) {a,b,c,e,g,h},
# include "content.cpp"
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} ;
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# if HDR
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# define NUM_GS 8
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struct genderswitch_t {
int gender ;
eMonster m ;
const char * name ;
const char * desc ;
} ;
# endif
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EX genderswitch_t genderswitch [ NUM_GS ] = {
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{ GEN_F , moFalsePrincess , " False Princess " ,
" Don't be fooled by this red-haired girl, or you will be stabbed if you come too close! " } ,
{ GEN_M , moFalsePrincess , " False Prince " ,
" Don't be fooled by this red-haired boy, or you will be stabbed if you come too close! " } ,
{ GEN_F , moRoseLady , " Rose Lady " ,
" This false princess is immune to the alluring scent of roses. " } ,
{ GEN_M , moRoseLady , " Rose Lord " ,
" This false prince is immune to the alluring scent of roses. " } ,
{ GEN_F , moRoseBeauty , " Rose Beauty " ,
" She has flowers in her long fair hair. You could not bring yourself to attack such a beautiful woman. " } ,
{ GEN_M , moRoseBeauty , " Handsome Gardener " ,
" Tall, strong, and holding a flower in his hand. You could "
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" not bring yourself to attack such a handsome man. " } ,
{ GEN_F , moRusalka , " Rusałka " ,
" A malicious water being. When you kill her, she changes the tile you are standing on, from land to shallow water, or from shallow water to deep water. " } ,
{ GEN_M , moRusalka , " Topielec " ,
" A malicious water being. When you kill him, he changes the tile you are standing on, from land to shallow water, or from shallow water to deep water. " } ,
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} ;
// --- items ---
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# if HDR
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enum eOrbshape { osNone , osLove , osRanged , osOffensive , osFriend , osUtility , osDirectional , osWarping , osFrog , osPowerUtility , osProtective , osMovement , osTerraform } ;
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static constexpr flagtype ZERO = 0 ;
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static constexpr flagtype IF_SHARD = Flag ( 0 ) ;
static constexpr flagtype IF_FIREPROOF = Flag ( 1 ) ;
static constexpr flagtype IF_PROTECTION = Flag ( 2 ) ;
static constexpr flagtype IF_EMPATHY = Flag ( 3 ) ;
static constexpr flagtype IF_RANGED = Flag ( 4 ) ;
static constexpr flagtype IF_SHMUPLIFE = Flag ( 5 ) ;
static constexpr flagtype IF_REVIVAL = Flag ( 6 ) ;
static constexpr flagtype IF_CURSE = Flag ( 7 ) ;
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// 0 = basic treasure, 1 = other item, 2 = power orb, 3 = not an item
# define IC_TREASURE 0
# define IC_OTHER 1
# define IC_ORB 2
# define IC_NAI 3
struct itemtype {
char glyph ;
color_t color ;
const char * name ;
int itemclass ;
flagtype flags ;
eOrbshape orbshape ;
const char * help ;
} ;
enum eItem {
# define ITEM(a,b,c,d,e,f,g,h,i) d,
# include "content.cpp"
ittypes
} ;
# endif
EX itemtype iinf [ ittypes ] = {
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# define ITEM(a,b,c,d,e,f,g,h,i) {a,b,c,e,f,h,i},
# include "content.cpp"
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} ;
// --- wall types ---
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# if HDR
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static constexpr flagtype WF_WATER = Flag ( 0 ) ;
static constexpr flagtype WF_BOAT = Flag ( 1 ) ;
static constexpr flagtype WF_CHASM = Flag ( 2 ) ;
static constexpr flagtype WF_NOFLIGHT = Flag ( 3 ) ;
static constexpr flagtype WF_FIRE = Flag ( 4 ) ;
static constexpr flagtype WF_THUMPER = Flag ( 5 ) ;
static constexpr flagtype WF_ACTIVABLE = Flag ( 6 ) ;
static constexpr flagtype WF_ALCHEMY = Flag ( 7 ) ;
static constexpr flagtype WF_RED = Flag ( 8 ) ;
static constexpr flagtype WF_WALL = Flag ( 9 ) ;
static constexpr flagtype WF_PUSHABLE = Flag ( 10 ) ;
static constexpr flagtype WF_CONE = Flag ( 11 ) ;
static constexpr flagtype WF_STDTREE = Flag ( 12 ) ;
static constexpr flagtype WF_GRAVE = Flag ( 13 ) ;
static constexpr flagtype WF_REPTILE = Flag ( 14 ) ;
static constexpr flagtype WF_HEATCOLOR = Flag ( 15 ) ;
static constexpr flagtype WF_HIGHWALL = Flag ( 16 ) ;
static constexpr flagtype WF_THORNY = Flag ( 17 ) ;
static constexpr flagtype WF_TIMEOUT = Flag ( 18 ) ;
static constexpr flagtype WF_CISLAND = Flag ( 19 ) ;
static constexpr flagtype WF_SULPHURIC = Flag ( 20 ) ;
static constexpr flagtype WF_HALFVINE = Flag ( 21 ) ;
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static constexpr flagtype WF_NONBLOCK = Flag ( 22 ) ;
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static constexpr flagtype WF_ON = Flag ( 23 ) ; // just for grammar: 'on' not 'in'
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struct walltype {
char glyph ;
color_t color ;
const char * name ;
flagtype flags ;
int snakelevel ;
eSlimegroup sg ;
const char * help ;
} ;
enum eWall {
# define WALL(a,b,c,d,e,f,g,h,i) d,
# include "content.cpp"
walltypes
} ;
# endif
EX walltype winf [ walltypes ] = {
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# define WALL(a,b,c,d,e,f,g,h,i) {a,b,c,e,g,h,i},
# include "content.cpp"
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} ;
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// -- land types ---
# if HDR
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enum eCanvasFloor { caflNone , caflM , caflFull , caflWarp , caflStar , caflCloud , caflCross , caflCharged ,
caflSStar , caflOver , caflTri , caflFeather , caflBarrow , caflNew , caflTroll , caflButterfly , caflLava ,
caflPalace , caflDemon , caflCave , caflDesert , caflPower , caflRose , caflTurtle , caflDragon , caflReptile ,
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caflHive , caflSwitch , caflTower , caflEND } ;
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static constexpr flagtype LF_GENERATE_ALL = Flag ( 0 ) ;
static constexpr flagtype LF_ICY = Flag ( 1 ) ;
static constexpr flagtype LF_GRAVITY = Flag ( 2 ) ;
static constexpr flagtype LF_EQUI = Flag ( 3 ) ;
static constexpr flagtype LF_WARPED = Flag ( 4 ) ;
static constexpr flagtype LF_CYCLIC = Flag ( 5 ) ;
static constexpr flagtype LF_TECHNICAL = Flag ( 6 ) ;
static constexpr flagtype LF_MIRROR = Flag ( 7 ) ;
static constexpr flagtype LF_SEA = Flag ( 8 ) ;
static constexpr flagtype LF_COASTAL = Flag ( 9 ) ;
static constexpr flagtype LF_PURESEA = Flag ( 10 ) ;
static constexpr flagtype LF_ELEMENTAL = Flag ( 11 ) ;
static constexpr flagtype LF_HAUNTED = Flag ( 12 ) ;
static constexpr flagtype LF_TROLL = Flag ( 13 ) ;
static constexpr flagtype LF_INMIRROR = Flag ( 14 ) ;
static constexpr flagtype LF_INMIRRORORWALL = Flag ( 15 ) ;
static constexpr flagtype LF_ELECTRIC = Flag ( 17 ) ;
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struct landtype {
color_t color ;
const char * name ;
flagtype flags ;
eItem treasure ;
const char * help ;
} ;
enum eLand {
# define LAND(a,b,c,d,e,f,g) c,
# include "content.cpp"
landtypes
} ;
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extern color_t floorcolors [ landtypes ] ;
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# endif
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EX const char * canvasFloorNames [ caflEND ] = {
" default " , " smaller " , " full " , " warped " , " star " , " cloud " , " cross " , " charged " ,
" saloon " , " overgrown " , " triangle " , " feather " , " barrow " , " elemental " , " troll " , " butterfly " , " lava " ,
" palace " , " demon " , " cave " , " desert " , " power " , " rose " , " turtle " , " dragon " , " reptile " ,
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" hive " , " jelly " , " tower "
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} ;
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EX const landtype linf [ landtypes ] = {
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# define LAND(a,b,c,d,e,f,g) {a,b,d,e,g},
# include "content.cpp"
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} ;
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# if HDR
struct landtacinfo { eLand l ; int tries , multiplier ; } ;
# endif
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EX vector < landtacinfo > land_tac = {
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{ laIce , 10 , 1 } , { laDesert , 10 , 1 } ,
{ laHunting , 5 , 2 } ,
{ laMotion , 10 , 1 } , { laCaves , 10 , 1 } , { laAlchemist , 10 , 1 } ,
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{ laJungle , 10 , 1 } , { laMirror , 10 , 1 } , { laZebra , 10 , 1 } , { laPalace , 10 , 1 } ,
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{ laOcean , 10 , 1 } , { laLivefjord , 10 , 1 } , { laWarpCoast , 10 , 1 } , { laRlyeh , 10 , 1 } , { laHell , 10 , 1 } ,
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{ laDryForest , 10 , 1 } , { laWineyard , 10 , 1 } , { laSwitch , 10 , 1 } , { laReptile , 10 , 1 } ,
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{ laDeadCaves , 10 , 1 } , { laGraveyard , 10 , 1 } ,
{ laHaunted , 10 , 1 } ,
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{ laIvoryTower , 10 , 1 } , { laEndorian , 10 , 1 } , { laMountain , 5 , 2 } , { laDungeon , 5 , 2 } ,
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{ laRuins , 10 , 1 } , { laEmerald , 10 , 1 } ,
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{ laCocytus , 10 , 1 } ,
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{ laCaribbean , 5 , 2 } , { laWhirlpool , 5 , 2 } , { laKraken , 5 , 2 } ,
{ laTemple , 5 , 2 } , { laMinefield , 5 , 2 } ,
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{ laPower , 5 , 2 } , { laHive , 5 , 2 } , { laRedRock , 5 , 2 } , { laStorms , 5 , 2 } , { laOvergrown , 5 , 2 } ,
{ laClearing , 5 , 2 } ,
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{ laWhirlwind , 5 , 2 } ,
{ laBlizzard , 10 , 1 } ,
{ laRose , 5 , 2 } , { laVolcano , 10 , 1 } , { laDragon , 2 , 5 } , { laTortoise , 1 , 10 } ,
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{ laBurial , 5 , 2 } ,
{ laElementalWall , 10 , 1 } , { laTrollheim , 5 , 2 } ,
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{ laPrairie , 5 , 2 } , { laBull , 5 , 2 } , { laTerracotta , 10 , 1 } ,
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{ laDice , 5 , 2 } , { laCursed , 5 , 2 } ,
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{ laCrossroads , 10 , 1 } , { laCrossroads2 , 10 , 1 } , { laCrossroads3 , 10 , 1 } , { laCrossroads4 , 10 , 1 } , { laCrossroads5 , 5 , 2 } ,
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{ laCamelot , 1 , 100 } ,
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{ laWildWest , 10 , 1 } ,
{ laDual , 10 , 1 } ,
{ laSnakeNest , 10 , 1 } ,
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{ laDocks , 10 , 1 } ,
{ laBrownian , 10 , 1 } ,
{ laVariant , 10 , 1 } ,
{ laWestWall , 10 , 1 } ,
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{ laWet , 10 , 1 } , { laFrog , 10 , 1 } , { laEclectic , 10 , 1 } ,
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} ;
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EX vector < eLand > randlands = {
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laIce , laDesert , laCaves , laAlchemist , laGraveyard , laPower , laLivefjord , laZebra ,
laRlyeh , laDryForest , laEmerald , laWineyard , laDeadCaves , laRedRock ,
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laOvergrown , laWildWest , laWarpCoast , laRuins , laBull , laDragon , laReptile , laDocks ,
laFrog , laWet , laZebra
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} ;
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# if HDR
enum eGeometry {
gNormal , gEuclid , gSphere , gElliptic , gZebraQuotient , gFieldQuotient , gTorus , gOctagon , g45 , g46 , g47 , gSmallSphere , gTinySphere , gEuclidSquare , gSmallElliptic ,
gKleinQuartic , gBolza , gBolza2 , gMinimal , gBinaryTiling , gArchimedean ,
gMacbeath , gBring , gSchmutzM2 , gSchmutzM3 , gCrystal , gOctahedron ,
gBinary3 , gCubeTiling , gCell120 , gECell120 , gRhombic3 , gBitrunc3 ,
gSpace534 , gSpace435 ,
gCell5 ,
gCell16 , gECell16 ,
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gCell8 , gECell8 ,
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gCell24 , gECell24 ,
gCell600 , gECell600 ,
gHoroTris , gHoroRec , gHoroHex ,
gField435 , gField534 ,
gBinary4 , gSol ,
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gKiteDart2 , gKiteDart3 , gNil , gProduct , gTwistedProduct ,
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gTernary , gNIH , gSolN , gInfOrder , gSpace336 , gSpace344 , gCrystal344 ,
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gArnoldCat , gArbitrary , gInfOrder4 , gCrystal534 ,
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gSpace535 , gSpace536 , gSeifertCover , gSeifertWeber , gHomologySphere ,
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gInfOrderMixed , gSpace436 , gFake ,
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gSpace345 , gSpace353 , gSpace354 , gSpace355 ,
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gHalfBring ,
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gAperiodicHat ,
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gSierpinski3 , gSierpinski4 , gSixFlake , gMengerSponge , gSierpinskiTet ,
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gAperiodicSpectre ,
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gGUARD } ;
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enum eGeometryClass { gcHyperbolic , gcEuclid , gcSphere , gcSol , gcNIH , gcSolN , gcNil , gcProduct , gcSL2 } ;
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enum class eVariation { bitruncated , pure , goldberg , irregular , dual , untruncated , warped , unrectified , subcubes , coxeter , dual_subcubes , bch , bch_oct } ;
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typedef int modecode_t ;
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/** only the actual geometry */
struct geometryinfo1 {
/** geometry class */
eGeometryClass kind ;
/** dimension of the gameplay (2 for crystal) */
int gameplay_dimension ;
/** dimension of the graphics, may be greater than gameplay_dimension with vid.always3 on */
int graphical_dimension ;
/** dimension of the homogeneous vector space used, usually graphical_dimension+1, but 3 in product */
int homogeneous_dimension ;
/** signature of the scalar product used */
int sig [ 4 ] ;
} ;
struct geometryinfo {
std : : string tiling_name ;
std : : string quotient_name ;
const char * menu_displayed_name ;
const char * shortname ;
int sides ;
int vertex ;
flagtype flags ;
geometryinfo1 g ;
std : : array < int , 2 > distlimit ; // bitrunc, non-bitrunc
eVariation default_variation ;
} ;
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static constexpr flagtype qCLOSED = 1 ;
static constexpr flagtype qANYQ = 2 ;
static constexpr flagtype qNONORIENTABLE = 4 ;
static constexpr flagtype qSMALL = 8 ;
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static constexpr flagtype qFIELD = 16 ;
static constexpr flagtype qDOCKS = 32 ;
static constexpr flagtype qZEBRA = 64 ;
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static constexpr flagtype qELLIPTIC = 128 ;
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static constexpr flagtype qBINARY = 256 ;
static constexpr flagtype qKITE = 512 ;
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static constexpr flagtype qREGULAR = 1024 ; /* not set! */
static constexpr flagtype qARCHI = 2048 ;
static constexpr flagtype qHYBRID = 4096 ;
static constexpr flagtype qCRYSTAL = 8192 ;
static constexpr flagtype qSOL = 16384 ;
static constexpr flagtype qEXPERIMENTAL = 32768 ;
static constexpr flagtype qNIH = 65536 ;
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static constexpr flagtype qIDEAL = 131072 ;
static constexpr flagtype qHUGE_BOUNDED = 262144 ;
static constexpr flagtype qOPTQ = Flag ( 19 ) ;
static constexpr flagtype qSINGLE = Flag ( 20 ) ;
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static constexpr flagtype qDEPRECATED = Flag ( 21 ) ;
static constexpr flagtype qINFMIXED = Flag ( 22 ) ;
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static constexpr flagtype qRAYONLY = Flag ( 23 ) ;
static constexpr flagtype qAFFINE = Flag ( 24 ) ;
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static constexpr flagtype qULTRA = Flag ( 25 ) ;
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static constexpr flagtype qPORTALSPACE = Flag ( 26 ) ;
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static constexpr flagtype qSTRETCHABLE = Flag ( 27 ) ;
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static constexpr flagtype qCAT = Flag ( 28 ) ;
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static constexpr flagtype qAPERIODIC = Flag ( 29 ) ;
static constexpr flagtype qHAT = Flag ( 30 ) ;
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static constexpr flagtype qFRACTAL = Flag ( 31 ) ;
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// note: dnext assumes that x&7 equals 7
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static constexpr int SEE_ALL = 50 ;
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// note: check_football_colorability in arbitrile.cpp assumes OINF is divisible by 3
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static constexpr int OINF = 123 ;
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extern eGeometry geometry ;
extern eVariation variation ;
# endif
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# if HDR
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static constexpr flagtype qsNONOR = qANYQ | qSMALL | qCLOSED | qNONORIENTABLE ;
static constexpr flagtype qsNONORE = qsNONOR | qELLIPTIC ;
static constexpr flagtype qsBQ = qANYQ | qSMALL | qCLOSED ;
static constexpr flagtype qsSMALL = qANYQ | qSMALL | qCLOSED ;
static constexpr flagtype qsSMALLN = qANYQ | qSMALL | qCLOSED | qNONORIENTABLE ;
static constexpr flagtype qsZEBRA = qANYQ | qSMALL | qCLOSED | qZEBRA ;
static constexpr flagtype qsFIELD = qANYQ | qFIELD | qCLOSED ;
static constexpr flagtype qsDOCKS = qANYQ | qSMALL | qCLOSED | qDOCKS ;
static constexpr flagtype qsSMALLB = qSMALL | qCLOSED ;
static constexpr flagtype qsSMALLBF = qsSMALLB | qsFIELD | qANYQ ;
static constexpr flagtype qsSMALLBE = qsSMALLB | qELLIPTIC | qANYQ ;
static constexpr flagtype qsBP = qBINARY | qKITE ;
static constexpr flagtype qsSINGLE = qANYQ | qSMALL | qCLOSED | qSINGLE ;
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# endif
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EX geometryinfo1 giEuclid2 = { gcEuclid , 2 , 2 , 3 , { 1 , 1 , 0 , 0 } } ;
EX geometryinfo1 giHyperb2 = { gcHyperbolic , 2 , 2 , 3 , { 1 , 1 , - 1 , 0 } } ;
EX geometryinfo1 giSphere2 = { gcSphere , 2 , 2 , 3 , { 1 , 1 , + 1 , 0 } } ;
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EX geometryinfo1 giEuclid3 = { gcEuclid , 3 , 3 , 4 , { 1 , 1 , 1 , 0 } } ;
EX geometryinfo1 giHyperb3 = { gcHyperbolic , 3 , 3 , 4 , { 1 , 1 , 1 , - 1 } } ;
EX geometryinfo1 giSphere3 = { gcSphere , 3 , 3 , 4 , { 1 , 1 , 1 , + 1 } } ;
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EX geometryinfo1 giSol = { gcSol , 3 , 3 , 4 , { 1 , 1 , 1 , 0 } } ;
EX geometryinfo1 giNIH = { gcNIH , 3 , 3 , 4 , { 1 , 1 , 1 , 0 } } ;
EX geometryinfo1 giSolN = { gcSolN , 3 , 3 , 4 , { 1 , 1 , 1 , 0 } } ;
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EX geometryinfo1 giNil = { gcNil , 3 , 3 , 4 , { 1 , 1 , 1 , 0 } } ;
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EX geometryinfo1 giProductH = { gcProduct , 3 , 3 , 3 , { 1 , 1 , - 1 , 0 } } ;
EX geometryinfo1 giProductS = { gcProduct , 3 , 3 , 3 , { 1 , 1 , 1 , 0 } } ;
EX geometryinfo1 giProduct = { gcProduct , 3 , 3 , 3 , { 1 , 1 , 1 , 0 } /* will be filled in product::configure() */ } ;
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EX geometryinfo1 giSL2 = { gcSL2 , 3 , 3 , 4 , { 1 , 1 , - 1 , - 1 } } ;
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EX modecode_t no_code = 0x1 ;
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/** list of available geometries */
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EX vector < geometryinfo > ginf = {
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{ " {7,3} " , " none " , " {7,3} (standard HyperRogue map) " , " HR " , 7 , 3 , 0 , giHyperb2 , { { 7 , 5 } } , eVariation : : bitruncated } ,
{ " {6,3} " , " none " , " {6,3} (euclidean Hex grid) " , " euclid " , 6 , 3 , qOPTQ , giEuclid2 , { { 7 , 7 } } , eVariation : : bitruncated } ,
{ " {5,3} " , " none " , " {5,3} (dodecahedron) " , " sphere " , 5 , 3 , qsSMALLB , giSphere2 , { { SEE_ALL , SEE_ALL } } , eVariation : : bitruncated } ,
{ " {5,3} " , " elliptic " , " elliptic geometry in {5,3} " , " elliptic " , 5 , 3 , qsNONORE , giSphere2 , { { SEE_ALL , SEE_ALL } } , eVariation : : bitruncated } ,
{ " {7,3} " , " Zebra " , " Zebra quotient " , " Zebra " , 7 , 3 , qsZEBRA , giHyperb2 , { { 7 , 5 } } , eVariation : : bitruncated } ,
{ " {7,3} " , " field " , " field quotient " , " field " , 7 , 3 , qsFIELD , giHyperb2 , { { 7 , 5 } } , eVariation : : bitruncated } ,
{ " {6,3} " , " torus " , " torus/Klein bottle/... " , " torus " , 6 , 3 , qsBQ | qDEPRECATED , giEuclid2 , { { 7 , 7 } } , eVariation : : bitruncated } ,
{ " {8,3} " , " none " , " {8,3} (like standard but with octagons) " , " oct " , 8 , 3 , 0 , giHyperb2 , { { 6 , 4 } } , eVariation : : bitruncated } ,
{ " {5,4} " , " none " , " {5,4} (four pentagons) " , " 4x5 " , 5 , 4 , 0 , giHyperb2 , { { 6 , 4 } } , eVariation : : bitruncated } ,
{ " {6,4} " , " none " , " {6,4} (four hexagons) " , " 4x6 " , 6 , 4 , 0 , giHyperb2 , { { 5 , 3 } } , eVariation : : bitruncated } ,
{ " {7,4} " , " none " , " {7,4} (four heptagons) " , " 4x7 " , 7 , 4 , 0 , giHyperb2 , { { 4 , 3 } } , eVariation : : bitruncated } ,
{ " {4,3} " , " none " , " {4,3} (cube) " , " 3x4 " , 4 , 3 , qsSMALLB , giSphere2 , { { SEE_ALL , SEE_ALL } } , eVariation : : bitruncated } ,
{ " {3,3} " , " none " , " {3,3} (tetrahedron) " , " 3x3 " , 3 , 3 , qsSMALLB , giSphere2 , { { SEE_ALL , SEE_ALL } } , eVariation : : bitruncated } ,
{ " {4,4} " , " none " , " {4,4} (Euclidean square grid) " , " 4x4 " , 4 , 4 , qOPTQ , giEuclid2 , { { 7 , 7 } } , eVariation : : bitruncated } ,
{ " {4,3} " , " elliptic " , " elliptic geometry in {4,3} " , " e3x4 " , 4 , 3 , qsNONORE , giSphere2 , { { SEE_ALL , SEE_ALL } } , eVariation : : bitruncated } ,
{ " {7,3} " , " Klein " , " Klein Quartic " , " Klein " , 7 , 3 , qsSMALL , giHyperb2 , { { 7 , 5 } } , eVariation : : bitruncated } ,
{ " {8,3} " , " Bolza " , " Bolza Surface " , " Bolza " , 8 , 3 , qsDOCKS , giHyperb2 , { { 6 , 4 } } , eVariation : : bitruncated } ,
{ " {8,3} " , " Bolza2 " , " Bolza Surface x2 " , " Bolza2 " , 8 , 3 , qsDOCKS , giHyperb2 , { { 6 , 4 } } , eVariation : : bitruncated } ,
{ " {7,3} " , " minimal " , " minimal quotient " , " minimal " , 7 , 3 , qsSMALLN , giHyperb2 , { { 7 , 5 } } , eVariation : : bitruncated } ,
{ " binary " , " none " , " variant of the binary tiling " , " binary " , 7 , 3 , qBINARY , giHyperb2 , { { 7 , 5 } } , eVariation : : pure } ,
{ " Arch " , " none " , " Archimedean " , " A " , 7 , 3 , qARCHI , giHyperb2 , { { 7 , 5 } } , eVariation : : pure } ,
{ " {7,3} " , " Macbeath " , " Macbeath Surface " , " Macbeath " , 7 , 3 , qsSMALL , giHyperb2 , { { 7 , 5 } } , eVariation : : bitruncated } ,
{ " {5,4} " , " Bring " , " Bring's Surface " , " Bring " , 5 , 4 , qsSMALL , giHyperb2 , { { 6 , 4 } } , eVariation : : bitruncated } ,
{ " {12,3} " , " M3 " , " Schmutz's M(3) " , " M3 " , 12 , 3 , qsSMALL , giHyperb2 , { { 4 , 2 } } , eVariation : : bitruncated } ,
{ " {12,3} " , " M4 " , " Schmutz's M(4) " , " M4 " , 12 , 3 , qsSMALL , giHyperb2 , { { 4 , 2 } } , eVariation : : bitruncated } ,
{ " {6,4} " , " Crystal " , " dimensional crystal " , " Crystal " , 6 , 4 , qANYQ | qCRYSTAL , giHyperb2 , { { 5 , 3 } } , eVariation : : pure } ,
{ " {3,4} " , " none " , " {3,4} (octahedron) " , " 4x3 " , 3 , 4 , qsSMALLB , giSphere2 , { { SEE_ALL , SEE_ALL } } , eVariation : : bitruncated } ,
{ " bin{4,4} " , " none " , " {4,4} on horospheres " , " bin44 " , 9 , 3 , qBINARY , giHyperb3 , { { 7 , 3 } } , eVariation : : pure } ,
{ " {4,3,4} " , " none " , " {4,3,4} cube tiling " , " 434 " , 6 , 4 , qOPTQ , giEuclid3 , { { 7 , 5 } } , eVariation : : pure } ,
2021-03-21 10:25:46 +00:00
{ " {5,3,3} " , " none " , " {5,3,3} 120-cell " , " 533 " , 12 , 3 , qsSMALLB | qSTRETCHABLE , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
{ " {5,3,3} " , " elliptic " , " {5,3,3} 120-cell (elliptic space) " , " e533 " , 12 , 3 , qsSMALLBE | qSTRETCHABLE , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
2020-08-02 00:04:18 +00:00
{ " rh{4,3,4} " , " none " , " rhombic dodecahedral honeycomb " , " rh434 " , 12 , 3 , qOPTQ , giEuclid3 , { { 7 , 5 } } , eVariation : : pure } ,
{ " 2t{4,3,4} " , " none " , " bitruncated cubic honeycomb " , " 2t434 " , 14 , 3 , qOPTQ , giEuclid3 , { { 7 , 5 } } , eVariation : : pure } ,
{ " {5,3,4} " , " none " , " {5,3,4} hyperbolic honeycomb " , " 534 " , 12 , 4 , 0 , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {4,3,5} " , " none " , " {4,3,5} hyperbolic honeycomb " , " 435 " , 6 , 5 , 0 , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {3,3,3} " , " none " , " {3,3,3} 5-cell " , " 333 " , 4 , 3 , qsSMALLB , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
{ " {3,3,4} " , " none " , " {3,3,4} 16-cell " , " 334 " , 4 , 4 , qsSMALLB , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
{ " {3,3,4} " , " elliptic " , " {3,3,4} 16-cell (elliptic space) " , " e334 " , 4 , 4 , qsSMALLBE , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
2021-03-21 10:25:46 +00:00
{ " {4,3,3} " , " none " , " {4,3,3} 8-cell " , " 433 " , 6 , 4 , qsSMALLB | qSTRETCHABLE , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
{ " {4,3,3} " , " elliptic " , " {4,3,3} 8-cell (elliptic space) " , " e433 " , 6 , 4 , qsSMALLBE | qSTRETCHABLE , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
{ " {3,4,3} " , " none " , " {3,4,3} 24-cell " , " 343 " , 8 , 3 , qsSMALLB | qSTRETCHABLE , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
{ " {3,4,3} " , " elliptic " , " {3,4,3} 24-cell (elliptic space) " , " e343 " , 8 , 3 , qsSMALLBE | qSTRETCHABLE , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
2020-08-02 00:04:18 +00:00
{ " {3,3,5} " , " none " , " {3,3,5} 600-cell " , " 335 " , 4 , 3 , qsSMALLB , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
{ " {3,3,5} " , " elliptic " , " {3,3,5} 600-cell (elliptic space) " , " e335 " , 4 , 3 , qsSMALLBE , giSphere3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
{ " bin{3,6} " , " none " , " {3,6} on horospheres " , " bin36 " , 8 , 3 , qBINARY , giHyperb3 , { { 7 , 3 } } , eVariation : : pure } ,
{ " bin-rect " , " none " , " rectangles on horospheres " , " bin44/2 " , 7 , 3 , qBINARY , giHyperb3 , { { 7 , 3 } } , eVariation : : pure } ,
{ " bin{6,3} " , " none " , " {6,3} on horospheres " , " bin63 " , 14 , 3 , qBINARY , giHyperb3 , { { 7 , 3 } } , eVariation : : pure } ,
{ " {4,3,5} " , " field " , " {4,3,5} field quotient space " , " f435 " , 6 , 5 , qsSMALLBF | qDEPRECATED , giHyperb3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
{ " {5,3,4} " , " field " , " {5,3,4} field quotient space " , " f435 " , 12 , 4 , qsSMALLBF | qDEPRECATED , giHyperb3 , { { SEE_ALL , SEE_ALL } } , eVariation : : pure } ,
{ " binary4 " , " none " , " standard binary tiling " , " binary4 " , 5 , 3 , qBINARY , giHyperb2 , { { 7 , 5 } } , eVariation : : pure } ,
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{ " sol " , " none " , " Solv geometry " , " sol " , 8 , 3 , qBINARY | qSOL , giSol , { { 7 , 5 } } , eVariation : : pure } ,
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{ " kd2 " , " none " , " kite-and-dart " , " kd2 " , 4 , 3 , qKITE | qAPERIODIC , giEuclid2 , { { 7 , 7 } } , eVariation : : pure } ,
2020-08-02 00:04:18 +00:00
{ " kd3 " , " none " , " kite-and-dart on horospheres " , " kd3 " , 12 , 3 , qsBP , giHyperb3 , { { 7 , 3 } } , eVariation : : pure } ,
{ " nil " , " none " , " Nil geometry " , " nil " , 6 , 3 , qOPTQ , giNil , { { 7 , 5 } } , eVariation : : pure } ,
{ " product " , " none " , " product space " , " product " , 7 , 3 , qHYBRID , giProduct , { { 7 , 3 } } , eVariation : : pure } ,
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{ " twisted " , " none " , " twisted product space " , " twisted " , 7 , 3 , qHYBRID , giSL2 , { { 6 , 4 } } , eVariation : : pure } ,
2020-08-02 00:04:18 +00:00
{ " ternary " , " none " , " standard ternary tiling " , " ternary " , 6 , 3 , qBINARY , giHyperb2 , { { 6 , 4 } } , eVariation : : pure } ,
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{ " 3x2 " , " none " , " stretched hyperbolic " , " 3:2 " , 11 , 3 , qBINARY | qNIH , giNIH , { { 6 , 3 } } , eVariation : : pure } ,
{ " 3x1/2 " , " none " , " stretched Solv " , " 3:1/2 " , 9 , 3 , ( qBINARY | qSOL | qNIH ) , giSolN , { { 7 , 3 } } , eVariation : : pure } ,
2020-08-02 00:04:18 +00:00
{ " {3,oo} " , " none " , " {3,∞} (infinite triangles) " , " oox3 " , 3 , OINF , qIDEAL , giHyperb2 , { { 7 , 7 } } , eVariation : : pure } ,
{ " {3,3,6} " , " none " , " {3,3,6} hyperbolic honeycomb " , " 336 " , 4 , 6 , qIDEAL , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {3,4,4} " , " none " , " {3,4,4} hyperbolic honeycomb " , " 344 " , 8 , 4 , qIDEAL , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {3,4,4} " , " Crystal " , " 4D crystal in H3 " , " Cryst3 " , 8 , 4 , qIDEAL | qANYQ | qCRYSTAL , giHyperb3 , { { 7 , 3 } } , eVariation : : pure } ,
2022-12-13 18:46:57 +00:00
{ " cat " , " cat " , " Arnold's cat mapping torus " , " cat " , 12 , 3 , qBINARY | qSOL | qsBQ | qOPTQ | qCAT , giSol , { { 6 , 4 } } , eVariation : : pure } ,
2020-08-02 10:51:22 +00:00
{ " file " , " none " , " load from file " , " file " , 7 , 3 , 0 , giEuclid2 , { { 7 , 5 } } , eVariation : : pure } ,
2020-08-02 00:04:18 +00:00
{ " {4,oo} " , " none " , " {4,∞} (infinite squares) " , " oox4 " , 4 , OINF , qIDEAL , giHyperb2 , { { 5 , 5 } } , eVariation : : pure } ,
{ " {5,3,4} " , " Crystal " , " 6D crystal in H3 " , " Cryst6 " , 12 , 4 , qANYQ | qCRYSTAL , giHyperb3 , { { 7 , 3 } } , eVariation : : pure } ,
{ " {5,3,5} " , " none " , " {5,3,5} hyperbolic honeycomb " , " 535 " , 12 , 5 , 0 , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {5,3,6} " , " none " , " {5,3,6} hyperbolic honeycomb " , " 536 " , 12 , 6 , qIDEAL , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {5,3,5} " , " SWh " , " {5,3,5} quotient " , " 535c " , 12 , 5 , qsSMALLB | qANYQ , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {5,3,5} " , " SW " , " Seifert-Weber space " , " 535s " , 12 , 5 , qsSINGLE , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {5,3,3} " , " SW " , " Poincaré homology sphere " , " 533s " , 12 , 3 , qsSINGLE , giSphere3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {?,oo} " , " none " , " {3/4,∞} (infinite triangles and squares) " , " ooxm " , 3 , OINF , qIDEAL | qINFMIXED , giHyperb2 , { { 6 , 6 } } , eVariation : : pure } ,
{ " {4,3,6} " , " none " , " {4,3,6} hyperbolic honeycomb " , " 436 " , 6 , 6 , qIDEAL , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " ? " , " none " , " fake " , " " , 0 , 0 , qRAYONLY , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {3,4,5} " , " none " , " {3,4,5} hyperbolic honeycomb " , " 345 " , 8 , 5 , qIDEAL | qULTRA , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {3,5,3} " , " none " , " {3,5,3} hyperbolic honeycomb " , " 353 " , 20 , 5 , 0 , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {3,5,4} " , " none " , " {3,5,4} hyperbolic honeycomb " , " 354 " , 20 , 5 , qIDEAL | qULTRA , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
{ " {3,5,5} " , " none " , " {3,5,5} hyperbolic honeycomb " , " 355 " , 20 , 5 , qIDEAL | qULTRA , giHyperb3 , { { 7 , 2 } } , eVariation : : pure } ,
2021-09-30 10:04:26 +00:00
{ " {5,4} " , " pBring " , " projective Bring's Surface " , " pBring " , 5 , 4 , qsSMALLN , giHyperb2 , { { 6 , 4 } } , eVariation : : bitruncated } ,
2023-03-28 20:54:46 +00:00
{ " hat " , " none " , " aperiodic hat " , " hat " , 14 , 3 , qAPERIODIC | qHAT , giEuclid2 , { { 7 , 7 } } , eVariation : : pure } ,
{ " triangle " , " none " , " Sierpiński triangle " , " S3 " , 6 , 3 , qFRACTAL , giEuclid2 , { { 10 , 10 } } , eVariation : : pure } ,
{ " carpet " , " none " , " Sierpiński carpet " , " S4 " , 4 , 4 , qFRACTAL , giEuclid2 , { { 10 , 10 } } , eVariation : : pure } ,
{ " 6-flake " , " none " , " 6-flake fractal " , " S6 " , 6 , 3 , qFRACTAL , giEuclid2 , { { 10 , 10 } } , eVariation : : pure } ,
{ " {4,3,4} " , " none " , " Menger sponge " , " S8 " , 6 , 4 , qFRACTAL , giEuclid3 , { { 10 , 10 } } , eVariation : : pure } ,
{ " rh{4,3,4} " , " none " , " Sierpiński tetrahedron " , " S4b " , 12 , 3 , qFRACTAL , giEuclid3 , { { 10 , 10 } } , eVariation : : pure } ,
2023-05-30 16:35:08 +00:00
{ " spectre " , " none " , " aperiodic spectre " , " spectre " , 14 , 3 , qAPERIODIC | qHAT , giEuclid2 , { { 7 , 7 } } , eVariation : : pure } ,
2019-07-28 09:17:25 +00:00
} ;
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// bits: 9, 10, 15, 16, (reserved for later) 17, 18
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# if HDR
namespace mf {
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static constexpr flagtype azimuthal = 1 ;
static constexpr flagtype cylindrical = 2 ; /* usually you want 'band' */
static constexpr flagtype equiarea = 4 ;
static constexpr flagtype equidistant = 8 ;
static constexpr flagtype conformal = 16 ;
static constexpr flagtype euc_boring = 32 ;
static constexpr flagtype space = 64 ;
static constexpr flagtype hyper_only = 128 ;
static constexpr flagtype hyper_or_torus = 256 ;
static constexpr flagtype pseudocylindrical = 512 ; /* includes cylindrical; usually you want 'band' or 'pseudoband' */
static constexpr flagtype equivolume = 1024 ;
static constexpr flagtype twopoint = 2048 ;
static constexpr flagtype uses_bandshift = 4096 ;
static constexpr flagtype broken = 8192 ; /* in spherical case, these are broken along the meridian 180 deg */
static constexpr flagtype technical = 16384 ; /* don't display in the list */
static constexpr flagtype product_special = ( 1 < < 15 ) ;
static constexpr flagtype axial = ( 1 < < 16 ) ;
static constexpr flagtype perspective = ( 1 < < 17 ) ;
static constexpr flagtype orientation = ( 1 < < 18 ) ;
static constexpr flagtype transition = ( 1 < < 19 ) ;
static constexpr flagtype werner = ( 1 < < 20 ) ;
static constexpr flagtype horocyclic = ( 1 < < 21 ) ;
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static constexpr flagtype band = ( cylindrical | pseudocylindrical | uses_bandshift | orientation ) ;
static constexpr flagtype pseudoband = ( pseudocylindrical | uses_bandshift | orientation ) ;
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}
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struct modelinfo {
const char * name_hyperbolic ;
const char * name_euclidean ;
const char * name_spherical ;
flagtype flags ;
} ;
enum eModel : int {
mdDisk , mdHalfplane , mdBand , mdPolygonal , mdFormula ,
// 5..8.
mdEquidistant , mdEquiarea , mdBall , mdHyperboloid ,
// 9..13
mdHemisphere , mdBandEquidistant , mdBandEquiarea , mdSinusoidal , mdTwoPoint ,
// 14..16
mdFisheye , mdJoukowsky , mdJoukowskyInverted ,
// 17..19
mdRotatedHyperboles , mdSpiral , mdPerspective ,
// 20..24
mdEquivolume , mdCentralInversion , mdSimulatedPerspective , mdTwoHybrid , mdGeodesic ,
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// 25..27
mdMollweide , mdCentralCyl , mdCollignon ,
// 28..31
mdHorocyclic , mdQuadrant , mdAxial , mdAntiAxial ,
// 32..38
mdWerner , mdAitoff , mdHammer , mdLoximuthal , mdMiller , mdGallStereographic , mdWinkelTripel ,
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// 39..48
mdPoorMan , mdPanini , mdRetroCraig , mdRetroLittrow , mdRetroHammer , mdThreePoint , mdLiePerspective , mdLieOrthogonal , mdRelPerspective , mdRelOrthogonal ,
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// 49..53
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mdHorocyclicEqa , mdConformalSquare , mdFisheye2 , mdPolar ,
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// 54..
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mdGUARD , mdPixel , mdHyperboloidFlat , mdPolynomial , mdManual
} ;
# endif
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// remember to match the following mask when specifying codes for extra geometries: 0x78600
// (other bits are used for other information)
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# define X3(x) x, x, x
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/** list of available models (i.e., projections) */
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EX vector < modelinfo > mdinf = {
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{ " disk/Gans " , " general perspective " , " general perspective " , mf : : azimuthal | mf : : conformal | mf : : product_special } ,
{ " half-plane " , " inversion " , " stereographic projection [VR] " , mf : : conformal | mf : : orientation | mf : : horocyclic | mf : : product_special } ,
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{ " band " , " band " , " Mercator " , mf : : band | mf : : conformal | mf : : transition } ,
{ X3 ( " polygonal " ) , mf : : conformal | mf : : orientation } ,
{ X3 ( " formula " ) , 0 } ,
{ X3 ( " azimuthal equidistant " ) , mf : : azimuthal | mf : : equidistant | mf : : euc_boring | mf : : product_special } ,
{ X3 ( " azimuthal equi-area " ) , mf : : azimuthal | mf : : equiarea | mf : : euc_boring } ,
{ X3 ( " ball model " ) , mf : : conformal | mf : : azimuthal | mf : : space } ,
{ " Minkowski hyperboloid " , " plane " , " sphere " , mf : : conformal | mf : : space | mf : : euc_boring } ,
{ " hemisphere " , " sphere " , " Minkowski hyperboloid " , mf : : conformal | mf : : space } ,
{ X3 ( " band equidistant " ) , mf : : band | mf : : equidistant | mf : : euc_boring } ,
{ X3 ( " band equi-area " ) , mf : : band | mf : : equiarea | mf : : euc_boring } ,
{ X3 ( " sinusoidal " ) , mf : : pseudoband | mf : : equiarea | mf : : euc_boring } ,
{ X3 ( " two-point equidistant " ) , mf : : equidistant | mf : : euc_boring | mf : : twopoint | mf : : orientation } ,
{ X3 ( " fisheye " ) , 0 } ,
{ X3 ( " Joukowsky transform " ) , mf : : hyper_only | mf : : conformal | mf : : transition | mf : : orientation } ,
{ X3 ( " Joukowsky+inversion " ) , mf : : hyper_only | mf : : conformal | mf : : transition | mf : : orientation } ,
{ X3 ( " rotated hyperboles " ) , mf : : hyper_only | mf : : orientation } ,
{ X3 ( " spiral/ring " ) , mf : : hyper_or_torus | mf : : uses_bandshift | mf : : orientation } ,
{ X3 ( " native perspective " ) , mf : : perspective | mf : : product_special } ,
{ X3 ( " azimuthal equi-volume " ) , mf : : azimuthal | mf : : equivolume | mf : : euc_boring } ,
{ X3 ( " central inversion " ) , mf : : azimuthal | mf : : conformal } ,
{ X3 ( " two-point azimuthal " ) , mf : : euc_boring | mf : : azimuthal | mf : : twopoint | mf : : orientation } ,
{ X3 ( " two-point hybrid " ) , mf : : euc_boring | mf : : azimuthal | mf : : equidistant | mf : : twopoint | mf : : orientation } ,
{ X3 ( " geodesic " ) , mf : : perspective | mf : : product_special } ,
{ X3 ( " Mollweide " ) , mf : : euc_boring | mf : : pseudoband | mf : : equiarea } ,
{ X3 ( " central cylindrical " ) , mf : : euc_boring | mf : : band } ,
{ X3 ( " Collignon " ) , mf : : pseudoband | mf : : equiarea } ,
{ X3 ( " horocyclic coordinates " ) , mf : : euc_boring | mf : : orientation | mf : : horocyclic } ,
{ X3 ( " quadrant coordinates " ) , mf : : euc_boring | mf : : orientation } ,
{ X3 ( " axial coordinates " ) , mf : : euc_boring | mf : : transition | mf : : orientation } ,
{ X3 ( " anti-axial coordinates " ) , mf : : euc_boring | mf : : orientation } ,
{ X3 ( " Werner projection " ) , mf : : euc_boring | mf : : broken | mf : : werner | mf : : orientation } , // keep distances from pole, and distances along parallels
{ X3 ( " Aitoff projection " ) , mf : : euc_boring | mf : : broken | mf : : orientation } , // halve longitudes, do azequid, double x
{ X3 ( " Hammer projection " ) , mf : : euc_boring | mf : : broken | mf : : orientation } , // halve longitudes, do azequia, double x
{ X3 ( " loximuthal projection " ) , mf : : euc_boring | mf : : broken | mf : : orientation } , // map loxodromes azimuthally and equidistantly
{ X3 ( " Miller projection " ) , mf : : euc_boring | mf : : band } , // scale latitude 4/5 -> Mercator -> 5/4
{ X3 ( " Gall stereographic " ) , mf : : euc_boring | mf : : band } , // like central cylindrical but stereographic
{ X3 ( " Winkel tripel " ) , mf : : euc_boring | mf : : broken | mf : : orientation } , // mean of equirec and Aitoff
{ X3 ( " Poor man's square " ) , mf : : euc_boring | mf : : orientation } , // https://archive.bridgesmathart.org/2018/bridges2018-59.html
{ X3 ( " Panini projection " ) , mf : : euc_boring | mf : : orientation } ,
{ X3 ( " Craig retroazimuthal " ) , mf : : euc_boring | mf : : broken | mf : : pseudoband } , // retroazimuthal cylindrical
{ X3 ( " Littrow retroazimuthal " ) , mf : : euc_boring | mf : : broken | mf : : pseudoband } , // retroazimuthal conformal
{ X3 ( " Hammer retroazimuthal " ) , mf : : euc_boring | mf : : pseudoband } , // retroazimuthal equidistant
{ X3 ( " three-point equidistant " ) , mf : : euc_boring | mf : : equidistant | mf : : orientation | mf : : product_special | mf : : twopoint } ,
{ X3 ( " Lie perspective " ) , mf : : euc_boring | mf : : perspective } ,
{ X3 ( " Lie orthogonal " ) , mf : : euc_boring } ,
{ X3 ( " relativistic perspective " ) , mf : : euc_boring | mf : : perspective } ,
{ X3 ( " relativistic orthogonal " ) , mf : : euc_boring } ,
{ X3 ( " horocyclic equal-area " ) , mf : : euc_boring | mf : : equiarea | mf : : orientation | mf : : horocyclic } ,
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{ X3 ( " conformal square " ) , mf : : orientation | mf : : broken | mf : : transition } ,
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{ X3 ( " variant fisheye " ) , 0 } ,
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{ X3 ( " polar coordinates " ) , mf : : orientation } ,
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{ X3 ( " guard " ) , mf : : technical } ,
{ X3 ( " pixel " ) , mf : : technical } ,
{ X3 ( " hypflat " ) , mf : : technical } ,
{ X3 ( " polynomial " ) , mf : : technical | mf : : conformal | mf : : orientation } ,
{ X3 ( " manual " ) , mf : : technical } ,
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} ;
# undef X3
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# if HDR
static inline bool orbProtection ( eItem it ) { return false ; } // not implemented
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// these markers use lands which never appear on barrier sides
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const eLand NOWALLSEP = laNone ;
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const eLand NOWALLSEP_SWAP = laMountain ;
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const eLand NOWALLSEP_WALL = laHauntedWall ;
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const eLand NOWALLSEP_USED = laWhirlpool ;
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const eLand NOWALLSEP_WALL_CPOS = laBarrier ;
const eLand NOWALLSEP_WALL_CNEG = laOceanWall ;
const eLand NOWALLSEP_WALL_EPOS = laClearing ;
const eLand NOWALLSEP_WALL_ENEG = laPrincessQuest ;
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# endif
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}