OpenTTD Source  1.11.0-beta2
newgrf_town.cpp
Go to the documentation of this file.
1 /*
2  * This file is part of OpenTTD.
3  * OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2.
4  * OpenTTD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
5  * See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see <http://www.gnu.org/licenses/>.
6  */
7 
10 #include "stdafx.h"
11 #include "debug.h"
12 #include "town.h"
13 #include "newgrf_town.h"
14 
15 #include "safeguards.h"
16 
17 /* virtual */ uint32 TownScopeResolver::GetVariable(byte variable, uint32 parameter, bool *available) const
18 {
19  switch (variable) {
20  /* Larger towns */
21  case 0x40:
22  if (_settings_game.economy.larger_towns == 0) return 2;
23  if (this->t->larger_town) return 1;
24  return 0;
25 
26  /* Town index */
27  case 0x41: return this->t->index;
28 
29  /* Get a variable from the persistent storage */
30  case 0x7C: {
31  /* Check the persistent storage for the GrfID stored in register 100h. */
32  uint32 grfid = GetRegister(0x100);
33  if (grfid == 0xFFFFFFFF) {
34  if (this->ro.grffile == nullptr) return 0;
35  grfid = this->ro.grffile->grfid;
36  }
37 
38  std::list<PersistentStorage *>::iterator iter;
39  for (iter = this->t->psa_list.begin(); iter != this->t->psa_list.end(); iter++) {
40  if ((*iter)->grfid == grfid) return (*iter)->GetValue(parameter);
41  }
42 
43  return 0;
44  }
45 
46  /* Town properties */
47  case 0x80: return this->t->xy;
48  case 0x81: return GB(this->t->xy, 8, 8);
49  case 0x82: return ClampToU16(this->t->cache.population);
50  case 0x83: return GB(ClampToU16(this->t->cache.population), 8, 8);
51  case 0x8A: return this->t->grow_counter / TOWN_GROWTH_TICKS;
52  case 0x92: return this->t->flags; // In original game, 0x92 and 0x93 are really one word. Since flags is a byte, this is to adjust
53  case 0x93: return 0;
54  case 0x94: return ClampToU16(this->t->cache.squared_town_zone_radius[0]);
55  case 0x95: return GB(ClampToU16(this->t->cache.squared_town_zone_radius[0]), 8, 8);
56  case 0x96: return ClampToU16(this->t->cache.squared_town_zone_radius[1]);
57  case 0x97: return GB(ClampToU16(this->t->cache.squared_town_zone_radius[1]), 8, 8);
58  case 0x98: return ClampToU16(this->t->cache.squared_town_zone_radius[2]);
59  case 0x99: return GB(ClampToU16(this->t->cache.squared_town_zone_radius[2]), 8, 8);
60  case 0x9A: return ClampToU16(this->t->cache.squared_town_zone_radius[3]);
61  case 0x9B: return GB(ClampToU16(this->t->cache.squared_town_zone_radius[3]), 8, 8);
62  case 0x9C: return ClampToU16(this->t->cache.squared_town_zone_radius[4]);
63  case 0x9D: return GB(ClampToU16(this->t->cache.squared_town_zone_radius[4]), 8, 8);
64  case 0x9E: return this->t->ratings[0];
65  case 0x9F: return GB(this->t->ratings[0], 8, 8);
66  case 0xA0: return this->t->ratings[1];
67  case 0xA1: return GB(this->t->ratings[1], 8, 8);
68  case 0xA2: return this->t->ratings[2];
69  case 0xA3: return GB(this->t->ratings[2], 8, 8);
70  case 0xA4: return this->t->ratings[3];
71  case 0xA5: return GB(this->t->ratings[3], 8, 8);
72  case 0xA6: return this->t->ratings[4];
73  case 0xA7: return GB(this->t->ratings[4], 8, 8);
74  case 0xA8: return this->t->ratings[5];
75  case 0xA9: return GB(this->t->ratings[5], 8, 8);
76  case 0xAA: return this->t->ratings[6];
77  case 0xAB: return GB(this->t->ratings[6], 8, 8);
78  case 0xAC: return this->t->ratings[7];
79  case 0xAD: return GB(this->t->ratings[7], 8, 8);
80  case 0xAE: return this->t->have_ratings;
81  case 0xB2: return this->t->statues;
82  case 0xB6: return ClampToU16(this->t->cache.num_houses);
83  case 0xB9: return this->t->growth_rate / TOWN_GROWTH_TICKS;
84  case 0xBA: return ClampToU16(this->t->supplied[CT_PASSENGERS].new_max);
85  case 0xBB: return GB(ClampToU16(this->t->supplied[CT_PASSENGERS].new_max), 8, 8);
86  case 0xBC: return ClampToU16(this->t->supplied[CT_MAIL].new_max);
87  case 0xBD: return GB(ClampToU16(this->t->supplied[CT_MAIL].new_max), 8, 8);
88  case 0xBE: return ClampToU16(this->t->supplied[CT_PASSENGERS].new_act);
89  case 0xBF: return GB(ClampToU16(this->t->supplied[CT_PASSENGERS].new_act), 8, 8);
90  case 0xC0: return ClampToU16(this->t->supplied[CT_MAIL].new_act);
91  case 0xC1: return GB(ClampToU16(this->t->supplied[CT_MAIL].new_act), 8, 8);
92  case 0xC2: return ClampToU16(this->t->supplied[CT_PASSENGERS].old_max);
93  case 0xC3: return GB(ClampToU16(this->t->supplied[CT_PASSENGERS].old_max), 8, 8);
94  case 0xC4: return ClampToU16(this->t->supplied[CT_MAIL].old_max);
95  case 0xC5: return GB(ClampToU16(this->t->supplied[CT_MAIL].old_max), 8, 8);
96  case 0xC6: return ClampToU16(this->t->supplied[CT_PASSENGERS].old_act);
97  case 0xC7: return GB(ClampToU16(this->t->supplied[CT_PASSENGERS].old_act), 8, 8);
98  case 0xC8: return ClampToU16(this->t->supplied[CT_MAIL].old_act);
99  case 0xC9: return GB(ClampToU16(this->t->supplied[CT_MAIL].old_act), 8, 8);
100  case 0xCA: return this->t->GetPercentTransported(CT_PASSENGERS);
101  case 0xCB: return this->t->GetPercentTransported(CT_MAIL);
102  case 0xCC: return this->t->received[TE_FOOD].new_act;
103  case 0xCD: return GB(this->t->received[TE_FOOD].new_act, 8, 8);
104  case 0xCE: return this->t->received[TE_WATER].new_act;
105  case 0xCF: return GB(this->t->received[TE_WATER].new_act, 8, 8);
106  case 0xD0: return this->t->received[TE_FOOD].old_act;
107  case 0xD1: return GB(this->t->received[TE_FOOD].old_act, 8, 8);
108  case 0xD2: return this->t->received[TE_WATER].old_act;
109  case 0xD3: return GB(this->t->received[TE_WATER].old_act, 8, 8);
110  case 0xD4: return this->t->road_build_months;
111  case 0xD5: return this->t->fund_buildings_months;
112  }
113 
114  DEBUG(grf, 1, "Unhandled town variable 0x%X", variable);
115 
116  *available = false;
117  return UINT_MAX;
118 }
119 
120 /* virtual */ void TownScopeResolver::StorePSA(uint pos, int32 value)
121 {
122  if (this->readonly) return;
123 
124  assert(this->t != nullptr);
125  /* We can't store anything if the caller has no #GRFFile. */
126  if (this->ro.grffile == nullptr) return;
127 
128  /* Check the persistent storage for the GrfID stored in register 100h. */
129  uint32 grfid = GetRegister(0x100);
130 
131  /* A NewGRF can only write in the persistent storage associated to its own GRFID. */
132  if (grfid == 0xFFFFFFFF) grfid = this->ro.grffile->grfid;
133  if (grfid != this->ro.grffile->grfid) return;
134 
135  /* Check if the storage exists. */
136  std::list<PersistentStorage *>::iterator iter;
137  for (iter = t->psa_list.begin(); iter != t->psa_list.end(); iter++) {
138  if ((*iter)->grfid == grfid) {
139  (*iter)->StoreValue(pos, value);
140  return;
141  }
142  }
143 
144  /* Create a new storage. */
146  PersistentStorage *psa = new PersistentStorage(grfid, GSF_FAKE_TOWNS, this->t->xy);
147  psa->StoreValue(pos, value);
148  t->psa_list.push_back(psa);
149 }
150 
157 TownResolverObject::TownResolverObject(const struct GRFFile *grffile, Town *t, bool readonly)
158  : ResolverObject(grffile), town_scope(*this, t, readonly)
159 {
160 }
161 
TE_WATER
@ TE_WATER
Cargo behaves water-like.
Definition: cargotype.h:30
Town::have_ratings
CompanyMask have_ratings
which companies have a rating
Definition: town.h:69
TownScopeResolver::t
Town * t
Town of the scope.
Definition: newgrf_town.h:23
GB
static uint GB(const T x, const uint8 s, const uint8 n)
Fetch n bits from x, started at bit s.
Definition: bitmath_func.hpp:32
Town::road_build_months
byte road_build_months
fund road reconstruction in action?
Definition: town.h:91
Town::statues
CompanyMask statues
which companies have a statue?
Definition: town.h:66
TE_FOOD
@ TE_FOOD
Cargo behaves food/fizzy-drinks-like.
Definition: cargotype.h:31
TownCache::squared_town_zone_radius
uint32 squared_town_zone_radius[HZB_END]
UpdateTownRadius updates this given the house count.
Definition: town.h:45
TOWN_GROWTH_TICKS
static const int TOWN_GROWTH_TICKS
cycle duration for towns trying to grow. (this originates from the size of the town array in TTD
Definition: date_type.h:37
Pool::PoolItem::index
Tindex index
Index of this pool item.
Definition: pool_type.hpp:227
EconomySettings::larger_towns
uint8 larger_towns
the number of cities to build. These start off larger and grow twice as fast
Definition: settings_type.h:487
ResolverObject
Interface for SpriteGroup-s to access the gamestate.
Definition: newgrf_spritegroup.h:315
ResolverObject::grffile
const GRFFile * grffile
GRFFile the resolved SpriteGroup belongs to.
Definition: newgrf_spritegroup.h:343
GetRegister
static uint32 GetRegister(uint i)
Gets the value of a so-called newgrf "register".
Definition: newgrf_spritegroup.h:29
Town::xy
TileIndex xy
town center tile
Definition: town.h:51
town.h
Town::fund_buildings_months
byte fund_buildings_months
fund buildings program in action?
Definition: town.h:90
TownCache::population
uint32 population
Current population of people.
Definition: town.h:42
TownScopeResolver::readonly
bool readonly
When set, persistent storage of the town is read-only,.
Definition: newgrf_town.h:24
GSF_FAKE_TOWNS
@ GSF_FAKE_TOWNS
Fake town GrfSpecFeature for NewGRF debugging (parent scope)
Definition: newgrf.h:89
DEBUG
#define DEBUG(name, level,...)
Output a line of debugging information.
Definition: debug.h:35
PersistentStorage
Class for pooled persistent storage of data.
Definition: newgrf_storage.h:221
_settings_game
GameSettings _settings_game
Game settings of a running game or the scenario editor.
Definition: settings.cpp:80
GameSettings::economy
EconomySettings economy
settings to change the economy
Definition: settings_type.h:559
PersistentStorageArray::StoreValue
void StoreValue(uint pos, int32 value)
Stores some value at a given position.
Definition: newgrf_storage.h:95
safeguards.h
Town::growth_rate
uint16 growth_rate
town growth rate
Definition: town.h:88
stdafx.h
TownResolverObject::TownResolverObject
TownResolverObject(const struct GRFFile *grffile, Town *t, bool readonly)
Resolver for a town.
Definition: newgrf_town.cpp:157
Town::ratings
int16 ratings[MAX_COMPANIES]
ratings of each company for this town
Definition: town.h:73
TransportedCargoStat::new_max
Tstorage new_max
Maximum amount this month.
Definition: town_type.h:114
TransportedCargoStat::old_max
Tstorage old_max
Maximum amount last month.
Definition: town_type.h:113
newgrf_town.h
TransportedCargoStat::new_act
Tstorage new_act
Actually transported this month.
Definition: town_type.h:116
TransportedCargoStat::old_act
Tstorage old_act
Actually transported last month.
Definition: town_type.h:115
Town::cache
TownCache cache
Container for all cacheable data.
Definition: town.h:53
Pool::PoolItem<&_persistent_storage_pool >::CanAllocateItem
static bool CanAllocateItem(size_t n=1)
Helper functions so we can use PoolItem::Function() instead of _poolitem_pool.Function()
Definition: pool_type.hpp:299
Town
Town data structure.
Definition: town.h:50
TownCache::num_houses
uint32 num_houses
Amount of houses.
Definition: town.h:41
ClampToU16
static uint16 ClampToU16(const uint64 a)
Reduce an unsigned 64-bit int to an unsigned 16-bit one.
Definition: math_func.hpp:153
ScopeResolver::ro
ResolverObject & ro
Surrounding resolver object.
Definition: newgrf_spritegroup.h:297
Town::larger_town
bool larger_town
if this is a larger town and should grow more quickly
Definition: town.h:93
Town::supplied
TransportedCargoStat< uint32 > supplied[NUM_CARGO]
Cargo statistics about supplied cargo.
Definition: town.h:75
Town::grow_counter
uint16 grow_counter
counter to count when to grow, value is smaller than or equal to growth_rate
Definition: town.h:87
GRFFile
Dynamic data of a loaded NewGRF.
Definition: newgrf.h:105
debug.h
Town::received
TransportedCargoStat< uint16 > received[NUM_TE]
Cargo statistics about received cargotypes.
Definition: town.h:76
Town::flags
byte flags
See TownFlags.
Definition: town.h:62
TownScopeResolver::StorePSA
virtual void StorePSA(uint reg, int32 value)
Store a value into the persistent storage area (PSA).
Definition: newgrf_town.cpp:120
TownScopeResolver::GetVariable
virtual uint32 GetVariable(byte variable, uint32 parameter, bool *available) const
Get a variable value.
Definition: newgrf_town.cpp:17