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# include <math.h>
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# include <vector>
# include "Core.h"
# include <Console.h>
# include <Export.h>
# include <PluginManager.h>
# include <modules/Gui.h>
# include "modules/Materials.h"
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# include "modules/Maps.h"
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# include "DataDefs.h"
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# include "df/builtin_mats.h"
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# include "df/coord2d.h"
# include "df/creature_interaction_effect.h"
# include "df/creature_interaction_effect_display_symbolst.h"
# include "df/creature_interaction_effect_type.h"
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# include "df/entity_raw.h"
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# include "df/feature_init.h"
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# include "df/feature_init_deep_special_tubest.h"
# include "df/feature_init_magma_poolst.h"
# include "df/feature_init_volcanost.h"
# include "df/feature_type.h"
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# include "df/historical_entity.h"
# include "df/historical_entity_type.h"
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# include "df/inorganic_flags.h"
# include "df/inorganic_raw.h"
# include "df/interaction.h"
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# include "df/interaction_effect.h"
# include "df/interaction_effect_type.h"
# include "df/interaction_effect_animatest.h"
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# include "df/interaction_instance.h"
# include "df/interaction_source.h"
# include "df/interaction_source_regionst.h"
# include "df/interaction_source_type.h"
# include "df/interaction_target.h"
# include "df/interaction_target_corpsest.h"
# include "df/interaction_target_materialst.h"
# include "df/material_common.h"
# include "df/reaction.h"
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# include "df/reaction_product.h"
# include "df/reaction_product_itemst.h"
# include "df/reaction_product_type.h"
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# include "df/region_map_entry.h"
# include "df/syndrome.h"
# include "df/viewscreen.h"
# include "df/viewscreen_choose_start_sitest.h"
# include "df/world.h"
# include "df/world_data.h"
# include "df/world_geo_biome.h"
# include "df/world_geo_layer.h"
# include "df/world_raws.h"
# include "df/world_region.h"
# include "df/world_region_details.h"
# include "df/world_region_feature.h"
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# include "df/world_region_type.h"
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# include "df/world_river.h"
# include "df/world_site.h"
# include "df/world_site_type.h"
# include "df/world_underground_region.h"
# include "defs.h"
# include "survey.h"
using namespace DFHack ;
using namespace df : : enums ;
using namespace Gui ;
using df : : global : : world ;
namespace embark_assist {
namespace survey {
struct states {
uint16_t clay_reaction = - 1 ;
uint16_t flux_reaction = - 1 ;
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std : : vector < uint16_t > coals ;
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uint16_t x ;
uint16_t y ;
uint8_t local_min_x ;
uint8_t local_min_y ;
uint8_t local_max_x ;
uint8_t local_max_y ;
uint16_t max_inorganic ;
} ;
static states * state ;
//=======================================================================================
bool geo_survey ( embark_assist : : defs : : geo_data * geo_summary ) {
color_ostream_proxy out ( Core : : getInstance ( ) . getConsole ( ) ) ;
df : : world_data * world_data = world - > world_data ;
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auto reactions = df : : reaction : : get_vector ( ) ;
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bool non_soil_found ;
uint16_t size ;
for ( uint16_t i = 0 ; i < reactions . size ( ) ; i + + ) {
if ( reactions [ i ] - > code = = " MAKE_CLAY_BRICKS " ) {
state - > clay_reaction = i ;
}
if ( reactions [ i ] - > code = = " PIG_IRON_MAKING " ) {
state - > flux_reaction = i ;
}
}
if ( state - > clay_reaction = = - 1 ) {
out . printerr ( " The reaction 'MAKE_CLAY_BRICKS' was not found, so clay can't be identified. \n " ) ;
}
if ( state - > flux_reaction = = - 1 ) {
out . printerr ( " The reaction 'PIG_IRON_MAKING' was not found, so flux can't be identified. \n " ) ;
}
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for ( uint16_t i = 0 ; i < world - > raws . inorganics . size ( ) ; i + + ) {
for ( uint16_t k = 0 ; k < world - > raws . inorganics [ i ] - > economic_uses . size ( ) ; k + + ) {
for ( uint16_t l = 0 ; l < world - > raws . reactions . reactions [ world - > raws . inorganics [ i ] - > economic_uses [ k ] ] - > products . size ( ) ; l + + ) {
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df : : reaction_product_itemst * product = static_cast < df : : reaction_product_itemst * > ( world - > raws . reactions . reactions [ world - > raws . inorganics [ i ] - > economic_uses [ k ] ] - > products [ l ] ) ;
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if ( product - > mat_type = = df : : builtin_mats : : COAL ) {
state - > coals . push_back ( i ) ;
break ;
}
}
}
}
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for ( uint16_t i = 0 ; i < world_data - > geo_biomes . size ( ) ; i + + ) {
geo_summary - > at ( i ) . possible_metals . resize ( state - > max_inorganic ) ;
geo_summary - > at ( i ) . possible_economics . resize ( state - > max_inorganic ) ;
geo_summary - > at ( i ) . possible_minerals . resize ( state - > max_inorganic ) ;
non_soil_found = true ;
df : : world_geo_biome * geo = world_data - > geo_biomes [ i ] ;
for ( uint16_t k = 0 ; k < geo - > layers . size ( ) & & k < 16 ; k + + ) {
df : : world_geo_layer * layer = geo - > layers [ k ] ;
if ( layer - > type = = df : : geo_layer_type : : SOIL | |
layer - > type = = df : : geo_layer_type : : SOIL_SAND ) {
geo_summary - > at ( i ) . soil_size + = layer - > top_height - layer - > bottom_height + 1 ;
if ( world - > raws . inorganics [ layer - > mat_index ] - > flags . is_set ( df : : inorganic_flags : : SOIL_SAND ) ) {
geo_summary - > at ( i ) . sand_absent = false ;
}
if ( non_soil_found ) {
geo_summary - > at ( i ) . top_soil_only = false ;
}
}
else {
non_soil_found = true ;
}
geo_summary - > at ( i ) . possible_minerals [ layer - > mat_index ] = true ;
size = ( uint16_t ) world - > raws . inorganics [ layer - > mat_index ] - > metal_ore . mat_index . size ( ) ;
for ( uint16_t l = 0 ; l < size ; l + + ) {
geo_summary - > at ( i ) . possible_metals . at ( world - > raws . inorganics [ layer - > mat_index ] - > metal_ore . mat_index [ l ] ) = true ;
}
size = ( uint16_t ) world - > raws . inorganics [ layer - > mat_index ] - > economic_uses . size ( ) ;
if ( size ! = 0 ) {
geo_summary - > at ( i ) . possible_economics [ layer - > mat_index ] = true ;
for ( uint16_t l = 0 ; l < size ; l + + ) {
if ( world - > raws . inorganics [ layer - > mat_index ] - > economic_uses [ l ] = = state - > clay_reaction ) {
geo_summary - > at ( i ) . clay_absent = false ;
}
if ( world - > raws . inorganics [ layer - > mat_index ] - > economic_uses [ l ] = = state - > flux_reaction ) {
geo_summary - > at ( i ) . flux_absent = false ;
}
}
}
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for ( uint16_t l = 0 ; l < state - > coals . size ( ) ; l + + ) {
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if ( layer - > mat_index = = state - > coals [ l ] ) {
geo_summary - > at ( i ) . coal_absent = false ;
break ;
}
}
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size = ( uint16_t ) layer - > vein_mat . size ( ) ;
for ( uint16_t l = 0 ; l < size ; l + + ) {
auto vein = layer - > vein_mat [ l ] ;
geo_summary - > at ( i ) . possible_minerals [ vein ] = true ;
for ( uint16_t m = 0 ; m < world - > raws . inorganics [ vein ] - > metal_ore . mat_index . size ( ) ; m + + ) {
geo_summary - > at ( i ) . possible_metals . at ( world - > raws . inorganics [ vein ] - > metal_ore . mat_index [ m ] ) = true ;
}
if ( world - > raws . inorganics [ vein ] - > economic_uses . size ( ) ! = 0 ) {
geo_summary - > at ( i ) . possible_economics [ vein ] = true ;
for ( uint16_t m = 0 ; m < world - > raws . inorganics [ vein ] - > economic_uses . size ( ) ; m + + ) {
if ( world - > raws . inorganics [ vein ] - > economic_uses [ m ] = = state - > clay_reaction ) {
geo_summary - > at ( i ) . clay_absent = false ;
}
if ( world - > raws . inorganics [ vein ] - > economic_uses [ m ] = = state - > flux_reaction ) {
geo_summary - > at ( i ) . flux_absent = false ;
}
}
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for ( uint16_t m = 0 ; m < state - > coals . size ( ) ; m + + ) {
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if ( vein = = state - > coals [ m ] ) {
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geo_summary - > at ( i ) . coal_absent = false ;
break ;
}
}
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}
}
if ( layer - > bottom_height < = - 3 & &
world - > raws . inorganics [ layer - > mat_index ] - > flags . is_set ( df : : inorganic_flags : : AQUIFER ) ) {
geo_summary - > at ( i ) . aquifer_absent = false ;
}
if ( non_soil_found = = true ) {
geo_summary - > at ( i ) . top_soil_aquifer_only = false ;
}
}
}
return true ;
}
//=================================================================================
void survey_rivers ( embark_assist : : defs : : world_tile_data * survey_results ) {
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// color_ostream_proxy out(Core::getInstance().getConsole());
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df : : world_data * world_data = world - > world_data ;
int16_t x ;
int16_t y ;
for ( uint16_t i = 0 ; i < world_data - > rivers . size ( ) ; i + + ) {
for ( uint16_t k = 0 ; k < world_data - > rivers [ i ] - > path . x . size ( ) ; k + + ) {
x = world_data - > rivers [ i ] - > path . x [ k ] ;
y = world_data - > rivers [ i ] - > path . y [ k ] ;
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if ( world_data - > rivers [ i ] - > flow [ k ] < 5000 ) {
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if ( world_data - > region_map [ x ] [ y ] . flags . is_set ( df : : region_map_entry_flags : : is_brook ) ) {
survey_results - > at ( x ) . at ( y ) . river_size = embark_assist : : defs : : river_sizes : : Brook ;
}
else {
survey_results - > at ( x ) . at ( y ) . river_size = embark_assist : : defs : : river_sizes : : Stream ;
}
}
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else if ( world_data - > rivers [ i ] - > flow [ k ] < 10000 ) {
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survey_results - > at ( x ) . at ( y ) . river_size = embark_assist : : defs : : river_sizes : : Minor ;
}
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else if ( world_data - > rivers [ i ] - > flow [ k ] < 20000 ) {
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survey_results - > at ( x ) . at ( y ) . river_size = embark_assist : : defs : : river_sizes : : Medium ;
}
else {
survey_results - > at ( x ) . at ( y ) . river_size = embark_assist : : defs : : river_sizes : : Major ;
}
}
x = world_data - > rivers [ i ] - > end_pos . x ;
y = world_data - > rivers [ i ] - > end_pos . y ;
// Make the guess the river size for the end is the same as the tile next to the end. Note that DF
// doesn't actually recognize this tile as part of the river in the pre embark river name display.
// We also assume the is_river/is_brook flags are actually set properly for the end tile.
//
if ( x > = 0 & & y > = 0 & & x < world - > worldgen . worldgen_parms . dim_x & & y < world - > worldgen . worldgen_parms . dim_y ) {
if ( survey_results - > at ( x ) . at ( y ) . river_size = = embark_assist : : defs : : river_sizes : : None ) {
if ( world_data - > rivers [ i ] - > path . x . size ( ) & &
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world_data - > rivers [ i ] - > flow [ world_data - > rivers [ i ] - > path . x . size ( ) - 1 ] < 5000 ) {
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if ( world_data - > region_map [ x ] [ y ] . flags . is_set ( df : : region_map_entry_flags : : is_brook ) ) {
survey_results - > at ( x ) . at ( y ) . river_size = embark_assist : : defs : : river_sizes : : Brook ;
}
else {
survey_results - > at ( x ) . at ( y ) . river_size = embark_assist : : defs : : river_sizes : : Stream ;
}
}
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else if ( world_data - > rivers [ i ] - > flow [ world_data - > rivers [ i ] - > path . x . size ( ) - 1 ] < 10000 ) {
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survey_results - > at ( x ) . at ( y ) . river_size = embark_assist : : defs : : river_sizes : : Minor ;
}
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else if ( world_data - > rivers [ i ] - > flow [ world_data - > rivers [ i ] - > path . x . size ( ) - 1 ] < 20000 ) {
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survey_results - > at ( x ) . at ( y ) . river_size = embark_assist : : defs : : river_sizes : : Medium ;
}
else {
survey_results - > at ( x ) . at ( y ) . river_size = embark_assist : : defs : : river_sizes : : Major ;
}
}
}
}
}
//=================================================================================
void survey_evil_weather ( embark_assist : : defs : : world_tile_data * survey_results ) {
df : : world_data * world_data = world - > world_data ;
for ( uint16_t i = 0 ; i < world - > interaction_instances . all . size ( ) ; i + + ) {
auto interaction = world - > raws . interactions [ world - > interaction_instances . all [ i ] - > interaction_id ] ;
uint16_t region_index = world - > interaction_instances . all [ i ] - > region_index ;
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bool blood_rain = false ;
bool permanent_syndrome_rain = false ;
bool temporary_syndrome_rain = false ;
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bool thralling = false ;
bool reanimating = false ;
if ( interaction - > sources . size ( ) & &
interaction - > sources [ 0 ] - > getType ( ) = = df : : interaction_source_type : : REGION ) {
for ( uint16_t k = 0 ; k < interaction - > targets . size ( ) ; k + + ) {
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if ( interaction - > targets [ k ] - > getType ( ) = = df : : interaction_target_type : : CORPSE ) {
for ( uint16_t l = 0 ; l < interaction - > effects . size ( ) ; l + + ) {
if ( interaction - > effects [ l ] - > getType ( ) = = df : : interaction_effect_type : : ANIMATE ) {
reanimating = true ;
break ;
}
}
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}
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else if ( interaction - > targets [ k ] - > getType ( ) = = df : : interaction_target_type : : MATERIAL ) {
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df : : interaction_target_materialst * material = virtual_cast < df : : interaction_target_materialst > ( interaction - > targets [ k ] ) ;
if ( material & & DFHack : : MaterialInfo ( material - > mat_type , material - > mat_index ) . isInorganic ( ) ) {
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for ( const auto & syndrome : world - > raws . inorganics [ material - > mat_index ] - > material . syndrome ) {
for ( const auto & ce : syndrome - > ce ) {
df : : creature_interaction_effect_type ce_type = ce - > getType ( ) ;
if ( ce_type = = df : : creature_interaction_effect_type : : FLASH_TILE ) {
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// Using this as a proxy. There seems to be a group of 4 effects for thralls:
// display symbol, flash symbol, phys att change and one more.
thralling = true ;
}
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else if ( ce_type = = df : : creature_interaction_effect_type : : PAIN | |
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ce_type = = df : : creature_interaction_effect_type : : SWELLING | |
ce_type = = df : : creature_interaction_effect_type : : OOZING | |
ce_type = = df : : creature_interaction_effect_type : : BRUISING | |
ce_type = = df : : creature_interaction_effect_type : : BLISTERS | |
ce_type = = df : : creature_interaction_effect_type : : NUMBNESS | |
ce_type = = df : : creature_interaction_effect_type : : PARALYSIS | |
ce_type = = df : : creature_interaction_effect_type : : FEVER | |
ce_type = = df : : creature_interaction_effect_type : : BLEEDING | |
ce_type = = df : : creature_interaction_effect_type : : COUGH_BLOOD | |
ce_type = = df : : creature_interaction_effect_type : : VOMIT_BLOOD | |
ce_type = = df : : creature_interaction_effect_type : : NAUSEA | |
ce_type = = df : : creature_interaction_effect_type : : UNCONSCIOUSNESS | |
ce_type = = df : : creature_interaction_effect_type : : NECROSIS | |
ce_type = = df : : creature_interaction_effect_type : : IMPAIR_FUNCTION | |
ce_type = = df : : creature_interaction_effect_type : : DROWSINESS | |
ce_type = = df : : creature_interaction_effect_type : : DIZZINESS | |
ce_type = = df : : creature_interaction_effect_type : : ERRATIC_BEHAVIOR ) { // Doubtful if possible for region.
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if ( ce - > end = = - 1 ) {
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permanent_syndrome_rain = true ;
}
else {
temporary_syndrome_rain = true ;
}
}
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}
}
}
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else { // If not inorganic it's always blood, as far as known.
blood_rain = true ;
}
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}
}
}
for ( uint16_t k = 0 ; k < world_data - > regions [ region_index ] - > region_coords . size ( ) ; k + + ) {
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auto & results = survey_results - > at ( world_data - > regions [ region_index ] - > region_coords [ k ] . x ) . at ( world_data - > regions [ region_index ] - > region_coords [ k ] . y ) ;
results . blood_rain [ 5 ] = blood_rain ;
results . permanent_syndrome_rain [ 5 ] = permanent_syndrome_rain ;
results . temporary_syndrome_rain [ 5 ] = temporary_syndrome_rain ;
results . reanimating [ 5 ] = reanimating ;
results . thralling [ 5 ] = thralling ;
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}
}
for ( uint16_t i = 0 ; i < world - > worldgen . worldgen_parms . dim_x ; i + + ) {
for ( uint16_t k = 0 ; k < world - > worldgen . worldgen_parms . dim_y ; k + + ) {
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auto & results = survey_results - > at ( i ) . at ( k ) ;
results . blood_rain_possible = false ;
results . permanent_syndrome_rain_possible = false ;
results . temporary_syndrome_rain_possible = false ;
results . reanimating_possible = false ;
results . thralling_possible = false ;
results . blood_rain_full = true ;
results . permanent_syndrome_rain_full = true ;
results . temporary_syndrome_rain_full = true ;
results . reanimating_full = true ;
results . thralling_full = true ;
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for ( uint8_t l = 1 ; l < 10 ; l + + ) {
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if ( results . biome_index [ l ] ! = - 1 ) {
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df : : coord2d adjusted = apply_offset ( i , k , l ) ;
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results . blood_rain [ l ] = survey_results - > at ( adjusted . x ) . at ( adjusted . y ) . blood_rain [ 5 ] ;
results . permanent_syndrome_rain [ l ] = survey_results - > at ( adjusted . x ) . at ( adjusted . y ) . permanent_syndrome_rain [ 5 ] ;
results . temporary_syndrome_rain [ l ] = survey_results - > at ( adjusted . x ) . at ( adjusted . y ) . temporary_syndrome_rain [ 5 ] ;
results . reanimating [ l ] = survey_results - > at ( adjusted . x ) . at ( adjusted . y ) . reanimating [ 5 ] ;
results . thralling [ l ] = survey_results - > at ( adjusted . x ) . at ( adjusted . y ) . thralling [ 5 ] ;
if ( results . blood_rain [ l ] ) {
results . blood_rain_possible = true ;
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}
else {
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results . blood_rain_full = false ;
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}
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if ( results . permanent_syndrome_rain [ l ] ) {
results . permanent_syndrome_rain_possible = true ;
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}
else {
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results . permanent_syndrome_rain_full = false ;
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}
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if ( results . temporary_syndrome_rain [ l ] ) {
results . temporary_syndrome_rain_possible = true ;
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}
else {
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results . temporary_syndrome_rain_full = false ;
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}
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if ( results . reanimating [ l ] ) {
results . reanimating_possible = true ;
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}
else {
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results . reanimating_full = false ;
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}
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if ( results . thralling [ l ] ) {
results . thralling_possible = true ;
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}
else {
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results . thralling_full = false ;
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}
}
}
}
}
}
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//=================================================================================
int16_t min_temperature ( int16_t max_temperature , uint16_t latitude ) {
uint16_t divisor ;
uint16_t steps ;
uint16_t lat ;
if ( world - > world_data - > flip_latitude = = df : : world_data : : T_flip_latitude : : None ) {
return max_temperature ;
}
else if ( world - > world_data - > flip_latitude = = df : : world_data : : T_flip_latitude : : North | |
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world - > world_data - > flip_latitude = = df : : world_data : : T_flip_latitude : : South ) {
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steps = world - > world_data - > world_height / 2 ;
if ( latitude > steps ) {
lat = world - > world_data - > world_height - 1 - latitude ;
}
else
{
lat = latitude ;
}
}
else { // Both
steps = world - > world_data - > world_height / 4 ;
if ( latitude < steps ) {
lat = latitude ;
}
else if ( latitude < = steps * 2 ) {
lat = steps * 2 - latitude ;
}
else if ( latitude < = steps * 3 ) {
lat = latitude - steps * 2 ;
}
else {
lat = world - > world_data - > world_height - latitude ;
}
}
if ( world - > world_data - > world_height = = 17 ) {
divisor = ( 57 / steps * lat + 0.4 ) ;
}
else if ( world - > world_data - > world_height = = 33 ) {
divisor = ( 61 / steps * lat + 0.1 ) ;
}
else if ( world - > world_data - > world_height = = 65 ) {
divisor = ( 63 / steps * lat ) ;
}
else if ( world - > world_data - > world_height = = 129 | |
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world - > world_data - > world_height = = 257 ) {
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divisor = ( 64 / steps * lat ) ;
}
else {
return max_temperature ; // Not any standard world height. No formula available
}
return max_temperature - ceil ( divisor * 3 / 4 ) ;
}
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//=================================================================================
void process_embark_incursion ( embark_assist : : defs : : site_infos * site_info ,
embark_assist : : defs : : world_tile_data * survey_results ,
embark_assist : : defs : : mid_level_tile * mlt , // Note this is a single tile, as opposed to most usages of this variable name.
int16_t elevation ,
uint16_t x ,
uint16_t y ) {
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site_info - > aquifer = static_cast < embark_assist : : defs : : aquifer_sizes > ( static_cast < int8_t > ( mlt - > aquifer ) | static_cast < int8_t > ( site_info - > aquifer ) ) ;
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if ( mlt - > soil_depth < site_info - > min_soil ) {
site_info - > min_soil = mlt - > soil_depth ;
}
if ( mlt - > soil_depth > site_info - > max_soil ) {
site_info - > max_soil = mlt - > soil_depth ;
}
if ( elevation ! = mlt - > elevation ) {
site_info - > flat = false ;
}
if ( mlt - > clay ) {
site_info - > clay = true ;
}
if ( mlt - > sand ) {
site_info - > sand = true ;
}
if ( survey_results - > at ( x ) . at ( y ) . blood_rain [ mlt - > biome_offset ] ) {
site_info - > blood_rain = true ;
}
if ( survey_results - > at ( x ) . at ( y ) . permanent_syndrome_rain [ mlt - > biome_offset ] ) {
site_info - > permanent_syndrome_rain = true ;
}
if ( survey_results - > at ( x ) . at ( y ) . temporary_syndrome_rain [ mlt - > biome_offset ] ) {
site_info - > temporary_syndrome_rain = true ;
}
if ( survey_results - > at ( x ) . at ( y ) . reanimating [ mlt - > biome_offset ] ) {
site_info - > reanimating = true ;
}
if ( survey_results - > at ( x ) . at ( y ) . thralling [ mlt - > biome_offset ] ) {
site_info - > thralling = true ;
}
}
//=================================================================================
void process_embark_incursion_mid_level_tile ( uint8_t from_direction ,
embark_assist : : defs : : site_infos * site_info ,
embark_assist : : defs : : world_tile_data * survey_results ,
embark_assist : : defs : : mid_level_tiles * mlt ,
uint8_t i ,
uint8_t k ) {
int8_t fetch_i = i ;
int8_t fetch_k = k ;
int16_t fetch_x = state - > x ;
int16_t fetch_y = state - > y ;
df : : world_data * world_data = world - > world_data ;
// Logic can be implemented with modulo and division, but that's harder to read.
switch ( from_direction ) {
case 0 :
fetch_i = i - 1 ;
fetch_k = k - 1 ;
break ;
case 1 :
fetch_k = k - 1 ;
break ;
case 2 :
fetch_i = i + 1 ;
fetch_k = k - 1 ;
break ;
case 3 :
fetch_i = i - 1 ;
break ;
case 4 :
return ; // Own tile provides the data, so there's no incursion.
break ;
case 5 :
fetch_i = i + 1 ;
break ;
case 6 :
fetch_i = i - 1 ;
fetch_k = k + 1 ;
break ;
case 7 :
fetch_k = k + 1 ;
break ;
case 8 :
fetch_i = i + 1 ;
fetch_k = k + 1 ;
break ;
}
if ( fetch_i < 0 ) {
fetch_x = state - > x - 1 ;
}
else if ( fetch_i > 15 ) {
fetch_x = state - > x + 1 ;
}
if ( fetch_k < 0 ) {
fetch_y = state - > y - 1 ;
}
else if ( fetch_k > 15 ) {
fetch_y = state - > y + 1 ;
}
if ( fetch_x < 0 | |
fetch_x = = world_data - > world_width | |
fetch_y < 0 | |
fetch_y = = world_data - > world_height ) {
return ; // We're at the world edge, so no incursions from the outside.
}
if ( fetch_k < 0 ) {
if ( fetch_i < 0 ) {
process_embark_incursion ( site_info ,
survey_results ,
& survey_results - > at ( fetch_x ) . at ( fetch_y ) . south_row [ 15 ] ,
mlt - > at ( i ) . at ( k ) . elevation ,
fetch_x ,
fetch_y ) ;
}
else if ( fetch_i > 15 ) {
process_embark_incursion ( site_info ,
survey_results ,
& survey_results - > at ( fetch_x ) . at ( fetch_y ) . south_row [ 0 ] ,
mlt - > at ( i ) . at ( k ) . elevation ,
fetch_x ,
fetch_y ) ;
}
else {
process_embark_incursion ( site_info ,
survey_results ,
& survey_results - > at ( fetch_x ) . at ( fetch_y ) . south_row [ i ] ,
mlt - > at ( i ) . at ( k ) . elevation ,
fetch_x ,
fetch_y ) ;
}
}
else if ( fetch_k > 15 ) {
if ( fetch_i < 0 ) {
process_embark_incursion ( site_info ,
survey_results ,
& survey_results - > at ( fetch_x ) . at ( fetch_y ) . north_row [ 15 ] ,
mlt - > at ( i ) . at ( k ) . elevation ,
fetch_x ,
fetch_y ) ;
}
else if ( fetch_i > 15 ) {
process_embark_incursion ( site_info ,
survey_results ,
& survey_results - > at ( fetch_x ) . at ( fetch_y ) . north_row [ 0 ] ,
mlt - > at ( i ) . at ( k ) . elevation ,
fetch_x ,
fetch_y ) ;
}
else {
process_embark_incursion ( site_info ,
survey_results ,
& survey_results - > at ( fetch_x ) . at ( fetch_y ) . north_row [ i ] ,
mlt - > at ( i ) . at ( k ) . elevation ,
fetch_x ,
fetch_y ) ;
}
}
else {
if ( fetch_i < 0 ) {
process_embark_incursion ( site_info ,
survey_results ,
& survey_results - > at ( fetch_x ) . at ( fetch_y ) . east_column [ k ] ,
mlt - > at ( i ) . at ( k ) . elevation ,
fetch_x ,
fetch_y ) ;
}
else if ( fetch_i > 15 ) {
process_embark_incursion ( site_info ,
survey_results ,
& survey_results - > at ( fetch_x ) . at ( fetch_y ) . west_column [ k ] ,
mlt - > at ( i ) . at ( k ) . elevation ,
fetch_x ,
fetch_y ) ;
}
else {
process_embark_incursion ( site_info ,
survey_results ,
& mlt - > at ( fetch_i ) . at ( fetch_k ) ,
mlt - > at ( i ) . at ( k ) . elevation ,
fetch_x ,
fetch_y ) ;
}
}
}
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}
}
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//=================================================================================
// Exported operations
//=================================================================================
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void embark_assist : : survey : : setup ( uint16_t max_inorganic ) {
embark_assist : : survey : : state = new ( embark_assist : : survey : : states ) ;
embark_assist : : survey : : state - > max_inorganic = max_inorganic ;
}
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//=================================================================================
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df : : coord2d embark_assist : : survey : : get_last_pos ( ) {
return { embark_assist : : survey : : state - > x , embark_assist : : survey : : state - > y } ;
}
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//=================================================================================
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void embark_assist : : survey : : initiate ( embark_assist : : defs : : mid_level_tiles * mlt ) {
for ( uint8_t i = 0 ; i < 16 ; i + + ) {
for ( uint8_t k = 0 ; k < 16 ; k + + ) {
mlt - > at ( i ) . at ( k ) . metals . resize ( state - > max_inorganic ) ;
mlt - > at ( i ) . at ( k ) . economics . resize ( state - > max_inorganic ) ;
mlt - > at ( i ) . at ( k ) . minerals . resize ( state - > max_inorganic ) ;
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}
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}
}
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//=================================================================================
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void embark_assist : : survey : : clear_results ( embark_assist : : defs : : match_results * match_results ) {
for ( uint16_t i = 0 ; i < world - > worldgen . worldgen_parms . dim_x ; i + + ) {
for ( uint16_t k = 0 ; k < world - > worldgen . worldgen_parms . dim_y ; k + + ) {
match_results - > at ( i ) . at ( k ) . preliminary_match = false ;
match_results - > at ( i ) . at ( k ) . contains_match = false ;
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for ( uint16_t l = 0 ; l < 16 ; l + + ) {
for ( uint16_t m = 0 ; m < 16 ; m + + ) {
match_results - > at ( i ) . at ( k ) . mlt_match [ l ] [ m ] = false ;
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}
}
}
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}
}
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//=================================================================================
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embark_assist : : defs : : tree_levels tree_level_of ( df : : world_region_type region_type , int16_t vegetation ) {
if ( region_type = = df : : world_region_type : : Glacier | |
region_type = = df : : world_region_type : : Lake | |
region_type = = df : : world_region_type : : Mountains | |
region_type = = df : : world_region_type : : Ocean ) {
return embark_assist : : defs : : tree_levels : : None ;
}
else {
if ( vegetation = = 0 ) {
return embark_assist : : defs : : tree_levels : : None ;
}
else if ( vegetation < = 9 ) {
return embark_assist : : defs : : tree_levels : : Very_Scarce ;
}
else if ( vegetation < = 32 ) {
return embark_assist : : defs : : tree_levels : : Scarce ;
}
else if ( vegetation < = 65 ) {
return embark_assist : : defs : : tree_levels : : Woodland ;
}
else {
return embark_assist : : defs : : tree_levels : : Heavily_Forested ;
}
}
}
//=================================================================================
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void embark_assist : : survey : : high_level_world_survey ( embark_assist : : defs : : geo_data * geo_summary ,
embark_assist : : defs : : world_tile_data * survey_results ) {
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// color_ostream_proxy out(Core::getInstance().getConsole());
int16_t temperature ;
bool negative ;
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embark_assist : : survey : : geo_survey ( geo_summary ) ;
for ( uint16_t i = 0 ; i < world - > worldgen . worldgen_parms . dim_x ; i + + ) {
for ( uint16_t k = 0 ; k < world - > worldgen . worldgen_parms . dim_y ; k + + ) {
df : : coord2d adjusted ;
df : : world_data * world_data = world - > world_data ;
uint16_t geo_index ;
uint16_t sav_ev ;
uint8_t offset_count = 0 ;
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auto & results = survey_results - > at ( i ) . at ( k ) ;
results . surveyed = false ;
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results . aquifer = embark_assist : : defs : : aquifer_sizes : : NA ;
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results . clay_count = 0 ;
results . sand_count = 0 ;
results . flux_count = 0 ;
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results . coal_count = 0 ;
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results . min_region_soil = 10 ;
results . max_region_soil = 0 ;
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results . max_waterfall = 0 ;
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results . min_tree_level = embark_assist : : defs : : tree_levels : : Heavily_Forested ;
results . max_tree_level = embark_assist : : defs : : tree_levels : : None ;
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results . savagery_count [ 0 ] = 0 ;
results . savagery_count [ 1 ] = 0 ;
results . savagery_count [ 2 ] = 0 ;
results . evilness_count [ 0 ] = 0 ;
results . evilness_count [ 1 ] = 0 ;
results . evilness_count [ 2 ] = 0 ;
results . metals . resize ( state - > max_inorganic ) ;
results . economics . resize ( state - > max_inorganic ) ;
results . minerals . resize ( state - > max_inorganic ) ;
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// Evil weather and rivers are handled in later operations. Should probably be merged into one.
for ( uint8_t l = 1 ; l < 10 ; l + + )
{
adjusted = apply_offset ( i , k , l ) ;
if ( adjusted . x ! = i | | adjusted . y ! = k | | l = = 5 ) {
offset_count + + ;
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results . biome_index [ l ] = world_data - > region_map [ adjusted . x ] [ adjusted . y ] . region_id ;
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results . biome [ l ] = DFHack : : Maps : : GetBiomeTypeWithRef ( adjusted . x , adjusted . y , k ) ;
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temperature = world_data - > region_map [ adjusted . x ] [ adjusted . y ] . temperature ;
negative = temperature < 0 ;
if ( negative ) {
temperature = - temperature ;
}
results . max_temperature [ l ] = ( temperature / 4 ) * 3 ;
if ( temperature % 4 > 1 ) {
results . max_temperature [ l ] = results . max_temperature [ l ] + temperature % 4 - 1 ;
}
if ( negative ) {
results . max_temperature [ l ] = - results . max_temperature [ l ] ;
}
results . min_temperature [ l ] = min_temperature ( results . max_temperature [ l ] , adjusted . y ) ;
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geo_index = world_data - > region_map [ adjusted . x ] [ adjusted . y ] . geo_index ;
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if ( geo_summary - > at ( geo_index ) . aquifer_absent ) {
results . aquifer = static_cast < embark_assist : : defs : : aquifer_sizes > ( static_cast < int8_t > ( results . aquifer ) | 1 ) ;
}
else if ( world_data - > region_map [ adjusted . x ] [ adjusted . y ] . drainage % 20 = = 7 ) {
results . aquifer = static_cast < embark_assist : : defs : : aquifer_sizes > ( static_cast < int8_t > ( results . aquifer ) | 4 ) ;
}
else {
results . aquifer = static_cast < embark_assist : : defs : : aquifer_sizes > ( static_cast < int8_t > ( results . aquifer ) | 2 ) ;
}
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if ( ! geo_summary - > at ( geo_index ) . clay_absent ) results . clay_count + + ;
if ( ! geo_summary - > at ( geo_index ) . sand_absent ) results . sand_count + + ;
if ( ! geo_summary - > at ( geo_index ) . flux_absent ) results . flux_count + + ;
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if ( ! geo_summary - > at ( geo_index ) . coal_absent ) results . coal_count + + ;
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if ( geo_summary - > at ( geo_index ) . soil_size < results . min_region_soil )
results . min_region_soil = geo_summary - > at ( geo_index ) . soil_size ;
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if ( geo_summary - > at ( geo_index ) . soil_size > results . max_region_soil )
results . max_region_soil = geo_summary - > at ( geo_index ) . soil_size ;
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sav_ev = world_data - > region_map [ adjusted . x ] [ adjusted . y ] . savagery / 33 ;
if ( sav_ev = = 3 ) sav_ev = 2 ;
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results . savagery_count [ sav_ev ] + + ;
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sav_ev = world_data - > region_map [ adjusted . x ] [ adjusted . y ] . evilness / 33 ;
if ( sav_ev = = 3 ) sav_ev = 2 ;
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results . evilness_count [ sav_ev ] + + ;
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for ( uint16_t m = 0 ; m < state - > max_inorganic ; m + + ) {
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if ( geo_summary - > at ( geo_index ) . possible_metals [ m ] ) results . metals [ m ] = true ;
if ( geo_summary - > at ( geo_index ) . possible_economics [ m ] ) results . economics [ m ] = true ;
if ( geo_summary - > at ( geo_index ) . possible_minerals [ m ] ) results . minerals [ m ] = true ;
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}
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embark_assist : : defs : : tree_levels tree_level = tree_level_of ( world_data - > regions [ results . biome_index [ l ] ] - > type ,
world_data - > region_map [ adjusted . x ] [ adjusted . y ] . vegetation ) ;
if ( tree_level < results . min_tree_level ) results . min_tree_level = tree_level ;
if ( tree_level > results . max_tree_level ) results . max_tree_level = tree_level ;
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}
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else {
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results . biome_index [ l ] = - 1 ;
results . biome [ l ] = - 1 ;
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results . max_temperature [ l ] = - 30000 ;
results . min_temperature [ l ] = - 30000 ;
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}
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}
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results . biome_count = 0 ;
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for ( uint8_t l = 1 ; l < 10 ; l + + ) {
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if ( results . biome [ l ] ! = - 1 ) results . biome_count + + ;
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}
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if ( results . clay_count = = offset_count ) results . clay_count = 256 ;
if ( results . sand_count = = offset_count ) results . sand_count = 256 ;
if ( results . flux_count = = offset_count ) results . flux_count = 256 ;
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if ( results . coal_count = = offset_count ) results . coal_count = 256 ;
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for ( uint8_t l = 0 ; l < 3 ; l + + ) {
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if ( results . savagery_count [ l ] = = offset_count ) results . savagery_count [ l ] = 256 ;
if ( results . evilness_count [ l ] = = offset_count ) results . evilness_count [ l ] = 256 ;
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}
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}
}
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embark_assist : : survey : : survey_rivers ( survey_results ) ;
embark_assist : : survey : : survey_evil_weather ( survey_results ) ;
}
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//=================================================================================
void embark_assist : : survey : : survey_mid_level_tile ( embark_assist : : defs : : geo_data * geo_summary ,
embark_assist : : defs : : world_tile_data * survey_results ,
embark_assist : : defs : : mid_level_tiles * mlt ) {
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// color_ostream_proxy out(Core::getInstance().getConsole());
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auto screen = Gui : : getViewscreenByType < df : : viewscreen_choose_start_sitest > ( 0 ) ;
int16_t x = screen - > location . region_pos . x ;
int16_t y = screen - > location . region_pos . y ;
embark_assist : : defs : : region_tile_datum * tile = & survey_results - > at ( x ) . at ( y ) ;
int8_t max_soil_depth ;
int8_t offset ;
int16_t elevation ;
int16_t last_bottom ;
int16_t top_z ;
int16_t base_z ;
int16_t min_z = 0 ; // Initialized to silence warning about potential usage of uninitialized data.
int16_t bottom_z ;
df : : coord2d adjusted ;
df : : world_data * world_data = world - > world_data ;
df : : world_region_details * details = world_data - > region_details [ 0 ] ;
df : : region_map_entry * world_tile = & world_data - > region_map [ x ] [ y ] ;
std : : vector < df : : world_region_feature * > features ;
uint8_t soil_erosion ;
uint16_t end_check_l ;
uint16_t end_check_m ;
uint16_t end_check_n ;
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bool aquifer ;
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for ( uint16_t i = 0 ; i < state - > max_inorganic ; i + + ) {
tile - > metals [ i ] = 0 ;
tile - > economics [ i ] = 0 ;
tile - > minerals [ i ] = 0 ;
}
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for ( uint8_t i = 0 ; i < 16 ; i + + ) {
for ( uint8_t k = 0 ; k < 16 ; k + + ) {
mlt - > at ( i ) . at ( k ) . metals . resize ( state - > max_inorganic ) ;
mlt - > at ( i ) . at ( k ) . economics . resize ( state - > max_inorganic ) ;
mlt - > at ( i ) . at ( k ) . minerals . resize ( state - > max_inorganic ) ;
}
}
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for ( uint8_t i = 1 ; i < 10 ; i + + ) survey_results - > at ( x ) . at ( y ) . biome_index [ i ] = - 1 ;
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for ( uint8_t i = 0 ; i < 16 ; i + + ) {
for ( uint8_t k = 0 ; k < 16 ; k + + ) {
max_soil_depth = - 1 ;
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offset = details - > biome [ i ] [ k ] ;
adjusted = apply_offset ( x , y , offset ) ;
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if ( adjusted . x ! = x | | adjusted . y ! = y )
{
mlt - > at ( i ) . at ( k ) . biome_offset = offset ;
}
else
{
mlt - > at ( i ) . at ( k ) . biome_offset = 5 ;
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}
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survey_results - > at ( x ) . at ( y ) . biome_index [ mlt - > at ( i ) . at ( k ) . biome_offset ] =
world_data - > region_map [ adjusted . x ] [ adjusted . y ] . region_id ;
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mlt - > at ( i ) . at ( k ) . savagery_level = world_data - > region_map [ adjusted . x ] [ adjusted . y ] . savagery / 33 ;
if ( mlt - > at ( i ) . at ( k ) . savagery_level = = 3 ) {
mlt - > at ( i ) . at ( k ) . savagery_level = 2 ;
}
mlt - > at ( i ) . at ( k ) . evilness_level = world_data - > region_map [ adjusted . x ] [ adjusted . y ] . evilness / 33 ;
if ( mlt - > at ( i ) . at ( k ) . evilness_level = = 3 ) {
mlt - > at ( i ) . at ( k ) . evilness_level = 2 ;
}
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elevation = details - > elevation [ i ] [ k ] ;
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// Special biome adjustments
if ( ! world_data - > region_map [ adjusted . x ] [ adjusted . y ] . flags . is_set ( region_map_entry_flags : : is_lake ) ) {
if ( world_data - > region_map [ adjusted . x ] [ adjusted . y ] . elevation > = 150 ) { // Mountain
max_soil_depth = 0 ;
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}
else if ( world_data - > region_map [ adjusted . x ] [ adjusted . y ] . elevation < 100 ) { // Ocean
if ( elevation = = 99 ) {
elevation = 98 ;
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}
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if ( ( world_data - > geo_biomes [ world_data - > region_map [ x ] [ y ] . geo_index ] - > unk1 = = 4 | |
world_data - > geo_biomes [ world_data - > region_map [ x ] [ y ] . geo_index ] - > unk1 = = 5 ) & &
details - > unk12e8 < 500 ) {
max_soil_depth = 0 ;
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}
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}
}
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base_z = elevation - 1 ;
features = details - > features [ i ] [ k ] ;
std : : map < int , int > layer_bottom , layer_top ;
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mlt - > at ( i ) . at ( k ) . adamantine_level = - 1 ;
mlt - > at ( i ) . at ( k ) . magma_level = - 1 ;
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end_check_l = static_cast < uint16_t > ( features . size ( ) ) ;
for ( size_t l = 0 ; l < end_check_l ; l + + ) {
auto feature = features [ l ] ;
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if ( feature - > feature_idx ! = - 1 ) {
switch ( world_data - > feature_map [ x / 16 ] [ y / 16 ] . features - > feature_init [ x % 16 ] [ y % 16 ] [ feature - > feature_idx ] - > getType ( ) )
{
case df : : feature_type : : deep_special_tube :
mlt - > at ( i ) . at ( k ) . adamantine_level = world_data - > feature_map [ x / 16 ] [ y / 16 ] . features - > feature_init [ x % 16 ] [ y % 16 ] [ feature - > feature_idx ] - > start_depth ;
break ;
case df : : feature_type : : magma_pool :
mlt - > at ( i ) . at ( k ) . magma_level = 2 - world_data - > feature_map [ x / 16 ] [ y / 16 ] . features - > feature_init [ x % 16 ] [ y % 16 ] [ feature - > feature_idx ] - > start_depth ;
break ;
case df : : feature_type : : volcano :
mlt - > at ( i ) . at ( k ) . magma_level = 3 ;
break ;
default :
break ;
}
}
else if ( feature - > layer ! = - 1 & &
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feature - > min_z ! = - 30000 ) {
auto layer = world_data - > underground_regions [ feature - > layer ] ;
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layer_bottom [ layer - > layer_depth ] = feature - > min_z ;
layer_top [ layer - > layer_depth ] = feature - > max_z ;
base_z = std : : min ( ( int ) base_z , ( int ) feature - > min_z ) ;
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if ( layer - > type = = df : : world_underground_region : : MagmaSea ) {
min_z = feature - > min_z ; // The features are individual per region tile
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}
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}
}
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// Compute shifts for layers in the stack.
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if ( max_soil_depth = = - 1 ) { // Not set to zero by the biome
max_soil_depth = std : : max ( ( 154 - elevation ) / 5 , 1 ) ;
}
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soil_erosion = geo_summary - > at ( world_data - > region_map [ adjusted . x ] [ adjusted . y ] . geo_index ) . soil_size -
std : : min ( ( int ) geo_summary - > at ( world_data - > region_map [ adjusted . x ] [ adjusted . y ] . geo_index ) . soil_size , ( int ) max_soil_depth ) ;
int16_t layer_shift [ 16 ] ;
int16_t cur_shift = elevation + soil_erosion - 1 ;
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aquifer = false ;
mlt - > at ( i ) . at ( k ) . aquifer = embark_assist : : defs : : aquifer_sizes : : NA ;
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mlt - > at ( i ) . at ( k ) . clay = false ;
mlt - > at ( i ) . at ( k ) . sand = false ;
mlt - > at ( i ) . at ( k ) . flux = false ;
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mlt - > at ( i ) . at ( k ) . coal = false ;
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if ( max_soil_depth = = 0 ) {
mlt - > at ( i ) . at ( k ) . soil_depth = 0 ;
}
else {
mlt - > at ( i ) . at ( k ) . soil_depth = geo_summary - > at ( world_data - > region_map [ adjusted . x ] [ adjusted . y ] . geo_index ) . soil_size - soil_erosion ;
}
mlt - > at ( i ) . at ( k ) . offset = offset ;
mlt - > at ( i ) . at ( k ) . elevation = details - > elevation [ i ] [ k ] ;
mlt - > at ( i ) . at ( k ) . river_present = false ;
mlt - > at ( i ) . at ( k ) . river_elevation = 100 ;
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if ( details - > rivers_vertical . active [ i ] [ k ] ! = 0 ) {
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mlt - > at ( i ) . at ( k ) . river_present = true ;
mlt - > at ( i ) . at ( k ) . river_elevation = details - > rivers_vertical . elevation [ i ] [ k ] ;
}
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else if ( details - > rivers_horizontal . active [ i ] [ k ] ! = 0 ) {
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mlt - > at ( i ) . at ( k ) . river_present = true ;
mlt - > at ( i ) . at ( k ) . river_elevation = details - > rivers_horizontal . elevation [ i ] [ k ] ;
}
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if ( tile - > min_region_soil > mlt - > at ( i ) . at ( k ) . soil_depth ) {
tile - > min_region_soil = mlt - > at ( i ) . at ( k ) . soil_depth ;
}
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if ( tile - > max_region_soil < mlt - > at ( i ) . at ( k ) . soil_depth ) {
tile - > max_region_soil = mlt - > at ( i ) . at ( k ) . soil_depth ;
}
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end_check_l = static_cast < uint16_t > ( world_data - > geo_biomes [ world_data - > region_map [ adjusted . x ] [ adjusted . y ] . geo_index ] - > layers . size ( ) ) ;
if ( end_check_l > 16 ) end_check_l = 16 ;
for ( uint16_t l = 0 ; l < end_check_l ; l + + ) {
auto layer = world_data - > geo_biomes [ world_data - > region_map [ adjusted . x ] [ adjusted . y ] . geo_index ] - > layers [ l ] ;
layer_shift [ l ] = cur_shift ;
if ( layer - > type = = df : : geo_layer_type : : SOIL | |
layer - > type = = df : : geo_layer_type : : SOIL_SAND ) {
int16_t size = layer - > top_height - layer - > bottom_height - 1 ;
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// Comment copied from prospector.cpp (like the logic)...
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// This is to replicate the behavior of a probable bug in the
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// map generation code : if a layer is partially eroded, the
// removed levels are in fact transferred to the layer below,
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// because unlike the case of removing the whole layer, the code
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// does not execute a loop to shift the lower part of the stack up.
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if ( size > soil_erosion ) {
cur_shift = cur_shift - soil_erosion ;
}
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soil_erosion - = std : : min ( ( int ) soil_erosion , ( int ) size ) ;
}
}
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last_bottom = elevation ;
// Don't have to set up the end_check as we can reuse the one above.
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for ( uint16_t l = 0 ; l < end_check_l ; l + + ) {
auto layer = world_data - > geo_biomes [ world_data - > region_map [ adjusted . x ] [ adjusted . y ] . geo_index ] - > layers [ l ] ;
top_z = last_bottom - 1 ;
bottom_z = std : : max ( ( int ) layer - > bottom_height + layer_shift [ l ] , ( int ) min_z ) ;
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if ( l = = 15 ) {
bottom_z = min_z ; // stretch layer if needed
}
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if ( top_z > = bottom_z ) {
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last_bottom = bottom_z ;
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mlt - > at ( i ) . at ( k ) . minerals [ layer - > mat_index ] = true ;
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end_check_m = static_cast < uint16_t > ( world - > raws . inorganics [ layer - > mat_index ] - > metal_ore . mat_index . size ( ) ) ;
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for ( uint16_t m = 0 ; m < end_check_m ; m + + ) {
mlt - > at ( i ) . at ( k ) . metals [ world - > raws . inorganics [ layer - > mat_index ] - > metal_ore . mat_index [ m ] ] = true ;
}
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if ( layer - > type = = df : : geo_layer_type : : SOIL | |
layer - > type = = df : : geo_layer_type : : SOIL_SAND ) {
if ( world - > raws . inorganics [ layer - > mat_index ] - > flags . is_set ( df : : inorganic_flags : : SOIL_SAND ) ) {
mlt - > at ( i ) . at ( k ) . sand = true ;
}
}
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if ( world - > raws . inorganics [ layer - > mat_index ] - > economic_uses . size ( ) > 0 ) {
mlt - > at ( i ) . at ( k ) . economics [ layer - > mat_index ] = true ;
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end_check_m = static_cast < uint16_t > ( world - > raws . inorganics [ layer - > mat_index ] - > economic_uses . size ( ) ) ;
for ( uint16_t m = 0 ; m < end_check_m ; m + + ) {
if ( world - > raws . inorganics [ layer - > mat_index ] - > economic_uses [ m ] = = state - > clay_reaction ) {
mlt - > at ( i ) . at ( k ) . clay = true ;
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}
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else if ( world - > raws . inorganics [ layer - > mat_index ] - > economic_uses [ m ] = = state - > flux_reaction ) {
mlt - > at ( i ) . at ( k ) . flux = true ;
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}
}
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for ( uint16_t m = 0 ; m < state - > coals . size ( ) ; m + + ) {
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if ( layer - > mat_index = = state - > coals [ m ] ) {
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mlt - > at ( i ) . at ( k ) . coal = true ;
break ;
}
}
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}
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end_check_m = static_cast < uint16_t > ( layer - > vein_mat . size ( ) ) ;
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for ( uint16_t m = 0 ; m < end_check_m ; m + + ) {
mlt - > at ( i ) . at ( k ) . minerals [ layer - > vein_mat [ m ] ] = true ;
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end_check_n = static_cast < uint16_t > ( world - > raws . inorganics [ layer - > vein_mat [ m ] ] - > metal_ore . mat_index . size ( ) ) ;
for ( uint16_t n = 0 ; n < end_check_n ; n + + ) {
mlt - > at ( i ) . at ( k ) . metals [ world - > raws . inorganics [ layer - > vein_mat [ m ] ] - > metal_ore . mat_index [ n ] ] = true ;
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}
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if ( world - > raws . inorganics [ layer - > vein_mat [ m ] ] - > economic_uses . size ( ) > 0 ) {
mlt - > at ( i ) . at ( k ) . economics [ layer - > vein_mat [ m ] ] = true ;
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end_check_n = static_cast < uint16_t > ( world - > raws . inorganics [ layer - > vein_mat [ m ] ] - > economic_uses . size ( ) ) ;
for ( uint16_t n = 0 ; n < end_check_n ; n + + ) {
if ( world - > raws . inorganics [ layer - > vein_mat [ m ] ] - > economic_uses [ n ] = = state - > clay_reaction ) {
mlt - > at ( i ) . at ( k ) . clay = true ;
}
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else if ( world - > raws . inorganics [ layer - > vein_mat [ m ] ] - > economic_uses [ n ] = = state - > flux_reaction ) {
mlt - > at ( i ) . at ( k ) . flux = true ;
}
}
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for ( uint16_t n = 0 ; n < state - > coals . size ( ) ; n + + ) {
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if ( layer - > vein_mat [ m ] = = state - > coals [ n ] ) {
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mlt - > at ( i ) . at ( k ) . coal = true ;
break ;
}
}
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}
}
if ( bottom_z < = elevation - 3 & &
world - > raws . inorganics [ layer - > mat_index ] - > flags . is_set ( df : : inorganic_flags : : AQUIFER ) ) {
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aquifer = true ;
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}
}
}
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if ( ! aquifer ) {
mlt - > at ( i ) . at ( k ) . aquifer = embark_assist : : defs : : aquifer_sizes : : None ;
}
else if ( world_data - > region_map [ adjusted . x ] [ adjusted . y ] . drainage % 20 = = 7 ) {
mlt - > at ( i ) . at ( k ) . aquifer = embark_assist : : defs : : aquifer_sizes : : Heavy ;
}
else {
mlt - > at ( i ) . at ( k ) . aquifer = embark_assist : : defs : : aquifer_sizes : : Light ;
}
mlt - > at ( i ) . at ( k ) . trees = tree_level_of ( world_data - > regions [ world_data - > region_map [ adjusted . x ] [ adjusted . y ] . region_id ] - > type ,
world_data - > region_map [ adjusted . x ] [ adjusted . y ] . vegetation ) ;
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}
}
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// This is messy. DF has some weird logic to leave out river bends with a South and an East connection, as well
// as river sources (and presumably sinks) that are to the North or the West of the connecting river.
// Experiments indicate these implicit river bends inherit their River Elevation from the lower of the two
// "parents", and it's assumed river sources and sinks similarly inherit it from their sole "parent".
// Two issues are known:
// - Lake and Ocean tiles may be marked as having a river when DF doesn't. However, DF does allow for rivers to
// exist in Ocean/Lake tiles, as well as sources/sinks.
// - DF generates rivers on/under glaciers, but does not display them (as they're frozen), nor are their names
// displayed.
//
for ( uint8_t i = 1 ; i < 16 ; i + + ) {
for ( uint8_t k = 0 ; k < 15 ; k + + ) {
if ( details - > rivers_horizontal . active [ i ] [ k ] ! = 0 & &
details - > rivers_vertical . active [ i - 1 ] [ k + 1 ] ! = 0 & &
! mlt - > at ( i - 1 ) . at ( k ) . river_present ) { // Probably never true
mlt - > at ( i - 1 ) . at ( k ) . river_present = true ;
mlt - > at ( i - 1 ) . at ( k ) . river_elevation = mlt - > at ( i ) . at ( k ) . river_elevation ;
if ( mlt - > at ( i - 1 ) . at ( k ) . river_elevation > mlt - > at ( i - 1 ) . at ( k + 1 ) . river_elevation ) {
mlt - > at ( i - 1 ) . at ( k ) . river_elevation = mlt - > at ( i - 1 ) . at ( k + 1 ) . river_elevation ;
}
}
}
}
for ( uint8_t i = 0 ; i < 16 ; i + + ) {
for ( uint8_t k = 1 ; k < 16 ; k + + ) {
if ( details - > rivers_vertical . active [ i ] [ k ] ! = 0 & &
! mlt - > at ( i ) . at ( k - 1 ) . river_present ) {
mlt - > at ( i ) . at ( k - 1 ) . river_present = true ;
mlt - > at ( i ) . at ( k - 1 ) . river_elevation = mlt - > at ( i ) . at ( k ) . river_elevation ;
}
}
}
for ( uint8_t i = 1 ; i < 16 ; i + + ) {
for ( uint8_t k = 0 ; k < 16 ; k + + ) {
if ( details - > rivers_horizontal . active [ i ] [ k ] ! = 0 & &
! mlt - > at ( i - 1 ) . at ( k ) . river_present ) {
mlt - > at ( i - 1 ) . at ( k ) . river_present = true ;
mlt - > at ( i - 1 ) . at ( k ) . river_elevation = mlt - > at ( i ) . at ( k ) . river_elevation ;
}
}
}
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survey_results - > at ( x ) . at ( y ) . aquifer = embark_assist : : defs : : aquifer_sizes : : NA ;
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survey_results - > at ( x ) . at ( y ) . clay_count = 0 ;
survey_results - > at ( x ) . at ( y ) . sand_count = 0 ;
survey_results - > at ( x ) . at ( y ) . flux_count = 0 ;
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survey_results - > at ( x ) . at ( y ) . coal_count = 0 ;
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survey_results - > at ( x ) . at ( y ) . min_region_soil = 10 ;
survey_results - > at ( x ) . at ( y ) . max_region_soil = 0 ;
survey_results - > at ( x ) . at ( y ) . savagery_count [ 0 ] = 0 ;
survey_results - > at ( x ) . at ( y ) . savagery_count [ 1 ] = 0 ;
survey_results - > at ( x ) . at ( y ) . savagery_count [ 2 ] = 0 ;
survey_results - > at ( x ) . at ( y ) . evilness_count [ 0 ] = 0 ;
survey_results - > at ( x ) . at ( y ) . evilness_count [ 1 ] = 0 ;
survey_results - > at ( x ) . at ( y ) . evilness_count [ 2 ] = 0 ;
for ( uint8_t i = 0 ; i < 16 ; i + + ) {
for ( uint8_t k = 0 ; k < 16 ; k + + ) {
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survey_results - > at ( x ) . at ( y ) . aquifer = static_cast < embark_assist : : defs : : aquifer_sizes > ( static_cast < int8_t > ( survey_results - > at ( x ) . at ( y ) . aquifer ) | static_cast < int8_t > ( mlt - > at ( i ) . at ( k ) . aquifer ) ) ;
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if ( mlt - > at ( i ) . at ( k ) . clay ) { survey_results - > at ( x ) . at ( y ) . clay_count + + ; }
if ( mlt - > at ( i ) . at ( k ) . sand ) { survey_results - > at ( x ) . at ( y ) . sand_count + + ; }
if ( mlt - > at ( i ) . at ( k ) . flux ) { survey_results - > at ( x ) . at ( y ) . flux_count + + ; }
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if ( mlt - > at ( i ) . at ( k ) . coal ) { survey_results - > at ( x ) . at ( y ) . coal_count + + ; }
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if ( mlt - > at ( i ) . at ( k ) . soil_depth < survey_results - > at ( x ) . at ( y ) . min_region_soil ) {
survey_results - > at ( x ) . at ( y ) . min_region_soil = mlt - > at ( i ) . at ( k ) . soil_depth ;
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}
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if ( mlt - > at ( i ) . at ( k ) . soil_depth > survey_results - > at ( x ) . at ( y ) . max_region_soil ) {
survey_results - > at ( x ) . at ( y ) . max_region_soil = mlt - > at ( i ) . at ( k ) . soil_depth ;
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}
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if ( mlt - > at ( i ) . at ( k ) . river_present ) {
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if ( i < 15 & &
mlt - > at ( i + 1 ) . at ( k ) . river_present & &
abs ( mlt - > at ( i ) . at ( k ) . river_elevation - mlt - > at ( i + 1 ) . at ( k ) . river_elevation ) >
survey_results - > at ( x ) . at ( y ) . max_waterfall ) {
survey_results - > at ( x ) . at ( y ) . max_waterfall =
abs ( mlt - > at ( i ) . at ( k ) . river_elevation - mlt - > at ( i + 1 ) . at ( k ) . river_elevation ) ;
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}
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if ( k < 15 & &
mlt - > at ( i ) . at ( k + 1 ) . river_present & &
abs ( mlt - > at ( i ) . at ( k ) . river_elevation - mlt - > at ( i ) . at ( k + 1 ) . river_elevation ) >
survey_results - > at ( x ) . at ( y ) . max_waterfall ) {
survey_results - > at ( x ) . at ( y ) . max_waterfall =
abs ( mlt - > at ( i ) . at ( k ) . river_elevation - mlt - > at ( i ) . at ( k + 1 ) . river_elevation ) ;
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}
}
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// River size surveyed separately
// biome_index handled above
// biome handled below
// evil weather handled separately
// reanimating handled separately
// thralling handled separately
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if ( survey_results - > at ( x ) . at ( y ) . min_tree_level > mlt - > at ( i ) . at ( k ) . trees ) survey_results - > at ( x ) . at ( y ) . min_tree_level = mlt - > at ( i ) . at ( k ) . trees ;
if ( survey_results - > at ( x ) . at ( y ) . max_tree_level < mlt - > at ( i ) . at ( k ) . trees ) survey_results - > at ( x ) . at ( y ) . max_tree_level = mlt - > at ( i ) . at ( k ) . trees ;
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survey_results - > at ( x ) . at ( y ) . savagery_count [ mlt - > at ( i ) . at ( k ) . savagery_level ] + + ;
survey_results - > at ( x ) . at ( y ) . evilness_count [ mlt - > at ( i ) . at ( k ) . evilness_level ] + + ;
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for ( uint16_t l = 0 ; l < state - > max_inorganic ; l + + ) {
if ( mlt - > at ( i ) . at ( k ) . metals [ l ] ) { survey_results - > at ( x ) . at ( y ) . metals [ l ] = true ; }
if ( mlt - > at ( i ) . at ( k ) . economics [ l ] ) { survey_results - > at ( x ) . at ( y ) . economics [ l ] = true ; }
if ( mlt - > at ( i ) . at ( k ) . minerals [ l ] ) { survey_results - > at ( x ) . at ( y ) . minerals [ l ] = true ; }
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}
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}
}
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for ( uint8_t i = 1 ; i < 10 ; i + + ) {
if ( survey_results - > at ( x ) . at ( y ) . biome_index [ i ] = = - 1 ) {
survey_results - > at ( x ) . at ( y ) . biome [ i ] = - 1 ;
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}
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}
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bool biomes [ ENUM_LAST_ITEM ( biome_type ) + 1 ] ;
for ( uint8_t i = 0 ; i < = ENUM_LAST_ITEM ( biome_type ) ; i + + ) {
biomes [ i ] = false ;
}
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for ( uint8_t i = 1 ; i < 10 ; i + + )
{
if ( survey_results - > at ( x ) . at ( y ) . biome [ i ] ! = - 1 ) {
biomes [ survey_results - > at ( x ) . at ( y ) . biome [ i ] ] = true ;
}
}
int count = 0 ;
for ( uint8_t i = 0 ; i < = ENUM_LAST_ITEM ( biome_type ) ; i + + ) {
if ( biomes [ i ] ) count + + ;
}
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tile - > biome_count = count ;
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for ( uint8_t i = 0 ; i < 16 ; i + + ) {
tile - > north_row [ i ] . aquifer = mlt - > at ( i ) . at ( 0 ) . aquifer ;
tile - > south_row [ i ] . aquifer = mlt - > at ( i ) . at ( 15 ) . aquifer ;
tile - > west_column [ i ] . aquifer = mlt - > at ( 0 ) . at ( i ) . aquifer ;
tile - > east_column [ i ] . aquifer = mlt - > at ( 15 ) . at ( i ) . aquifer ;
tile - > north_row [ i ] . clay = mlt - > at ( i ) . at ( 0 ) . clay ;
tile - > south_row [ i ] . clay = mlt - > at ( i ) . at ( 15 ) . clay ;
tile - > west_column [ i ] . clay = mlt - > at ( 0 ) . at ( i ) . clay ;
tile - > east_column [ i ] . clay = mlt - > at ( 15 ) . at ( i ) . clay ;
tile - > north_row [ i ] . sand = mlt - > at ( i ) . at ( 0 ) . sand ;
tile - > south_row [ i ] . sand = mlt - > at ( i ) . at ( 15 ) . sand ;
tile - > west_column [ i ] . sand = mlt - > at ( 0 ) . at ( i ) . sand ;
tile - > east_column [ i ] . sand = mlt - > at ( 15 ) . at ( i ) . sand ;
tile - > north_row [ i ] . flux = mlt - > at ( i ) . at ( 0 ) . flux ; // Not used
tile - > south_row [ i ] . flux = mlt - > at ( i ) . at ( 15 ) . flux ;
tile - > west_column [ i ] . flux = mlt - > at ( 0 ) . at ( i ) . flux ;
tile - > east_column [ i ] . flux = mlt - > at ( 15 ) . at ( i ) . flux ;
tile - > north_row [ i ] . coal = mlt - > at ( i ) . at ( 0 ) . coal ; // Not used
tile - > south_row [ i ] . coal = mlt - > at ( i ) . at ( 15 ) . coal ;
tile - > west_column [ i ] . coal = mlt - > at ( 0 ) . at ( i ) . coal ;
tile - > east_column [ i ] . coal = mlt - > at ( 15 ) . at ( i ) . coal ;
tile - > north_row [ i ] . soil_depth = mlt - > at ( i ) . at ( 0 ) . soil_depth ;
tile - > south_row [ i ] . soil_depth = mlt - > at ( i ) . at ( 15 ) . soil_depth ;
tile - > west_column [ i ] . soil_depth = mlt - > at ( 0 ) . at ( i ) . soil_depth ;
tile - > east_column [ i ] . soil_depth = mlt - > at ( 15 ) . at ( i ) . soil_depth ;
tile - > north_row [ i ] . offset = mlt - > at ( i ) . at ( 0 ) . offset ; // Not used
tile - > south_row [ i ] . offset = mlt - > at ( i ) . at ( 15 ) . offset ;
tile - > west_column [ i ] . offset = mlt - > at ( 0 ) . at ( i ) . offset ;
tile - > east_column [ i ] . offset = mlt - > at ( 15 ) . at ( i ) . offset ;
tile - > north_row [ i ] . elevation = mlt - > at ( i ) . at ( 0 ) . elevation ;
tile - > south_row [ i ] . elevation = mlt - > at ( i ) . at ( 15 ) . elevation ;
tile - > west_column [ i ] . elevation = mlt - > at ( 0 ) . at ( i ) . elevation ;
tile - > east_column [ i ] . elevation = mlt - > at ( 15 ) . at ( i ) . elevation ;
tile - > north_row [ i ] . river_present = mlt - > at ( i ) . at ( 0 ) . river_present ; // Not used
tile - > south_row [ i ] . river_present = mlt - > at ( i ) . at ( 15 ) . river_present ;
tile - > west_column [ i ] . river_present = mlt - > at ( 0 ) . at ( i ) . river_present ;
tile - > east_column [ i ] . river_present = mlt - > at ( 15 ) . at ( i ) . river_present ;
tile - > north_row [ i ] . river_elevation = mlt - > at ( i ) . at ( 0 ) . river_elevation ; // Not used
tile - > south_row [ i ] . river_elevation = mlt - > at ( i ) . at ( 15 ) . river_elevation ;
tile - > west_column [ i ] . river_elevation = mlt - > at ( 0 ) . at ( i ) . river_elevation ;
tile - > east_column [ i ] . river_elevation = mlt - > at ( 15 ) . at ( i ) . river_elevation ;
tile - > north_row [ i ] . adamantine_level = mlt - > at ( i ) . at ( 0 ) . adamantine_level ; // Not used
tile - > south_row [ i ] . adamantine_level = mlt - > at ( i ) . at ( 15 ) . adamantine_level ;
tile - > west_column [ i ] . adamantine_level = mlt - > at ( 0 ) . at ( i ) . adamantine_level ;
tile - > east_column [ i ] . adamantine_level = mlt - > at ( 15 ) . at ( i ) . adamantine_level ;
tile - > north_row [ i ] . magma_level = mlt - > at ( i ) . at ( 0 ) . magma_level ; // Not used
tile - > south_row [ i ] . magma_level = mlt - > at ( i ) . at ( 15 ) . magma_level ;
tile - > west_column [ i ] . magma_level = mlt - > at ( 0 ) . at ( i ) . magma_level ;
tile - > east_column [ i ] . magma_level = mlt - > at ( 15 ) . at ( i ) . magma_level ;
tile - > north_row [ i ] . biome_offset = mlt - > at ( i ) . at ( 0 ) . biome_offset ;
tile - > south_row [ i ] . biome_offset = mlt - > at ( i ) . at ( 15 ) . biome_offset ;
tile - > west_column [ i ] . biome_offset = mlt - > at ( 0 ) . at ( i ) . biome_offset ;
tile - > east_column [ i ] . biome_offset = mlt - > at ( 15 ) . at ( i ) . biome_offset ;
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tile - > north_row [ i ] . trees = mlt - > at ( i ) . at ( 0 ) . trees ;
tile - > south_row [ i ] . trees = mlt - > at ( i ) . at ( 15 ) . trees ;
tile - > west_column [ i ] . trees = mlt - > at ( 0 ) . at ( i ) . trees ;
tile - > east_column [ i ] . trees = mlt - > at ( 15 ) . at ( i ) . trees ;
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tile - > north_row [ i ] . savagery_level = mlt - > at ( i ) . at ( 0 ) . savagery_level ;
tile - > south_row [ i ] . savagery_level = mlt - > at ( i ) . at ( 15 ) . savagery_level ;
tile - > west_column [ i ] . savagery_level = mlt - > at ( 0 ) . at ( i ) . savagery_level ;
tile - > east_column [ i ] . savagery_level = mlt - > at ( 15 ) . at ( i ) . savagery_level ;
tile - > north_row [ i ] . evilness_level = mlt - > at ( i ) . at ( 0 ) . evilness_level ;
tile - > south_row [ i ] . evilness_level = mlt - > at ( i ) . at ( 15 ) . evilness_level ;
tile - > west_column [ i ] . evilness_level = mlt - > at ( 0 ) . at ( i ) . evilness_level ;
tile - > east_column [ i ] . evilness_level = mlt - > at ( 15 ) . at ( i ) . evilness_level ;
tile - > north_row [ i ] . metals . resize ( 0 ) ; // Not used
tile - > south_row [ i ] . metals . resize ( 0 ) ;
tile - > west_column [ i ] . metals . resize ( 0 ) ;
tile - > east_column [ i ] . metals . resize ( 0 ) ;
tile - > north_row [ i ] . economics . resize ( 0 ) ; // Not used
tile - > south_row [ i ] . economics . resize ( 0 ) ;
tile - > west_column [ i ] . economics . resize ( 0 ) ;
tile - > east_column [ i ] . economics . resize ( 0 ) ;
tile - > north_row [ i ] . minerals . resize ( 0 ) ; // Not used
tile - > south_row [ i ] . minerals . resize ( 0 ) ;
tile - > west_column [ i ] . minerals . resize ( 0 ) ;
tile - > east_column [ i ] . minerals . resize ( 0 ) ;
tile - > north_corner_selection [ i ] = world_data - > region_details [ 0 ] - > edges . biome_corner [ i ] [ 0 ] ;
tile - > west_corner_selection [ i ] = world_data - > region_details [ 0 ] - > edges . biome_corner [ 0 ] [ i ] ;
}
for ( uint8_t i = 0 ; i < 16 ; i + + ) {
for ( uint8_t k = 0 ; k < 16 ; k + + ) {
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tile - > region_type [ i ] [ k ] = world_data - > regions [ tile - > biome_index [ mlt - > at ( i ) . at ( k ) . biome_offset ] ] - > type ;
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}
}
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// Focus has to be at the world tile to get neighbor info
//
if ( ! tile - > surveyed ) {
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for ( uint16_t i = 0 ; i < world - > entities . all . size ( ) ; i + + ) {
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if ( world - > entities . all [ i ] - > flags . bits . neighbor ) {
if ( world - > entities . all [ i ] - > type = = df : : historical_entity_type : : SiteGovernment ) {
tile - > necro_neighbors + + ;
}
else
{
tile - > neighbors . push_back ( world - > entities . all [ i ] - > entity_raw - > index ) ;
}
}
}
}
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tile - > surveyed = true ;
}
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//=================================================================================
df : : coord2d embark_assist : : survey : : apply_offset ( uint16_t x , uint16_t y , int8_t offset ) {
df : : coord2d result ;
result . x = x ;
result . y = y ;
switch ( offset ) {
case 1 :
result . x - - ;
result . y + + ;
break ;
case 2 :
result . y + + ;
break ;
case 3 :
result . x + + ;
result . y + + ;
break ;
case 4 :
result . x - - ;
break ;
case 5 :
break ; // Center. No change
case 6 :
result . x + + ;
break ;
case 7 :
result . x - - ;
result . y - - ;
break ;
case 8 :
result . y - - ;
break ;
case 9 :
result . x + + ;
result . y - - ;
break ;
default :
// Bug. Just act as if it's the center...
break ;
}
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if ( result . x < 0 ) {
result . x = 0 ;
}
else if ( result . x > = world - > worldgen . worldgen_parms . dim_x ) {
result . x = world - > worldgen . worldgen_parms . dim_x - 1 ;
}
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if ( result . y < 0 ) {
result . y = 0 ;
}
else if ( result . y > = world - > worldgen . worldgen_parms . dim_y ) {
result . y = world - > worldgen . worldgen_parms . dim_y - 1 ;
}
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return result ;
}
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//=================================================================================
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void adjust_coordinates ( int16_t * x , int16_t * y , int8_t * i , int8_t * k ) {
if ( * i < 0 ) {
* x = * x - 1 ;
* i = * i + 16 ;
}
else if ( * i > 15 ) {
* x = * x + 1 ;
* i = * i - 16 ;
}
if ( * k < 0 ) {
* y = * y - 1 ;
* k = * k + 16 ;
}
else if ( * k > 15 ) {
* y = * y + 1 ;
* k = * k - 16 ;
}
}
//=================================================================================
df : : world_region_type embark_assist : : survey : : region_type_of ( embark_assist : : defs : : world_tile_data * survey_results ,
int16_t x ,
int16_t y ,
int8_t i ,
int8_t k ) {
df : : world_data * world_data = world - > world_data ;
int16_t effective_x = x ;
int16_t effective_y = y ;
int8_t effective_i = i ;
int8_t effective_k = k ;
adjust_coordinates ( & effective_x , & effective_y , & effective_i , & effective_i ) ;
if ( effective_x < 0 | |
effective_x > = world_data - > world_width | |
effective_y < 0 | |
effective_y > = world_data - > world_height ) {
return df : : world_region_type : : Lake ; // Essentially dummy value, yielding to everything. It will
// be handled properly later anyway.
}
return survey_results - > at ( effective_x ) . at ( effective_y ) . region_type [ effective_i ] [ effective_k ] ;
}
//=================================================================================
uint8_t embark_assist : : survey : : translate_corner ( embark_assist : : defs : : world_tile_data * survey_results ,
uint8_t corner_location ,
uint16_t x ,
uint16_t y ,
uint8_t i ,
uint8_t k ) {
df : : world_data * world_data = world - > world_data ;
df : : world_region_type nw_region_type ;
df : : world_region_type n_region_type ;
df : : world_region_type w_region_type ;
df : : world_region_type home_region_type ;
int16_t effective_x = x ;
int16_t effective_y = y ;
int8_t effective_i = i ;
int8_t effective_k = k ;
uint8_t effective_corner ;
bool nw_region_type_active ;
bool n_region_type_active ;
bool w_region_type_active ;
bool home_region_type_active ;
uint8_t nw_region_type_level ;
uint8_t n_region_type_level ;
uint8_t w_region_type_level ;
uint8_t home_region_type_level ;
if ( corner_location = = 4 ) { // We're the reference. No change.
}
else if ( corner_location = = 5 ) { // Tile to the east is the reference
effective_i = i + 1 ;
}
else if ( corner_location = = 7 ) { // Tile to the south is the reference
effective_k = k + 1 ;
}
else { // 8, tile to the southeast is the reference.
effective_i = i + 1 ;
effective_k = k + 1 ;
}
adjust_coordinates ( & effective_x , & effective_y , & effective_i , & effective_i ) ;
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if ( effective_x = = world_data - > world_width ) {
if ( effective_y = = world_data - > world_height ) { // Only the SE corner of the SE most tile of the world can reference this.
return 4 ;
}
else { // East side corners of the east edge of the world
if ( corner_location = = 5 ) {
return 1 ;
}
else { // Can only be corner_location == 8
return 4 ;
}
}
}
else if ( effective_y = = world_data - > world_height ) {
if ( corner_location = = 7 ) {
return 4 ;
}
else { // Can only be corner_location == 8
return 3 ;
}
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}
if ( effective_x = = x & & effective_y = = y ) {
effective_corner = world_data - > region_details [ 0 ] - > edges . biome_corner [ effective_i ] [ effective_k ] ;
}
else if ( effective_y ! = y ) {
effective_corner = survey_results - > at ( effective_x ) . at ( effective_y ) . north_corner_selection [ effective_i ] ;
}
else {
effective_corner = survey_results - > at ( effective_x ) . at ( effective_y ) . west_corner_selection [ effective_k ] ;
}
nw_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , effective_i - 1 , effective_k - 1 ) ;
n_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , effective_i , effective_k - 1 ) ;
w_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , effective_i - 1 , effective_k ) ;
home_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , effective_i , effective_k ) ;
if ( nw_region_type = = df : : world_region_type : : Lake | |
nw_region_type = = df : : world_region_type : : Ocean ) {
nw_region_type_level = 0 ;
}
else if ( nw_region_type = = df : : world_region_type : : Mountains ) {
nw_region_type_level = 1 ;
}
else {
nw_region_type_level = 2 ;
}
if ( n_region_type = = df : : world_region_type : : Lake | |
n_region_type = = df : : world_region_type : : Ocean ) {
n_region_type_level = 0 ;
}
else if ( n_region_type = = df : : world_region_type : : Mountains ) {
n_region_type_level = 1 ;
}
else {
n_region_type_level = 2 ;
}
if ( w_region_type = = df : : world_region_type : : Lake | |
w_region_type = = df : : world_region_type : : Ocean ) {
w_region_type_level = 0 ;
}
else if ( w_region_type = = df : : world_region_type : : Mountains ) {
w_region_type_level = 1 ;
}
else {
w_region_type_level = 2 ;
}
if ( home_region_type = = df : : world_region_type : : Lake | |
home_region_type = = df : : world_region_type : : Ocean ) {
home_region_type_level = 0 ;
}
else if ( n_region_type = = df : : world_region_type : : Mountains ) {
home_region_type_level = 1 ;
}
else {
home_region_type_level = 2 ;
}
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if ( effective_x = = 0 & & effective_i = = 0 ) { // West edge of the world
if ( effective_y = = 0 & & effective_k = = 0 ) {
return 4 ; // Only a single reference to this info, the own tile.
}
else {
nw_region_type_level = - 1 ; // Knock out the unreachable corners
w_region_type_level = - 1 ;
}
}
if ( effective_y = = 0 & & effective_k = = 0 ) { // North edge of the world
nw_region_type_level = - 1 ; // Knock out the unreachable corners
n_region_type_level = - 1 ;
if ( corner_location = = 4 & & effective_corner = = 1 ) { // The logic below would select the wrong alternative.
effective_corner = 3 ;
}
}
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nw_region_type_active = nw_region_type_level > = n_region_type_level & &
nw_region_type_level > = w_region_type_level & &
nw_region_type_level > = home_region_type_level ;
n_region_type_active = n_region_type_level > = nw_region_type_level & &
n_region_type_level > = w_region_type_level & &
n_region_type_level > = home_region_type_level ;
w_region_type_active = w_region_type_level > = nw_region_type_level & &
w_region_type_level > = n_region_type_level & &
w_region_type_level > = home_region_type_level ;
home_region_type_active = home_region_type_level > = nw_region_type_level & &
home_region_type_level > = n_region_type_level & &
home_region_type_level > = w_region_type_level ;
if ( ( effective_corner = = 0 & & ! nw_region_type_active ) | |
( effective_corner = = 1 & & ! n_region_type_active ) | |
( effective_corner = = 2 & & ! w_region_type_active ) | |
( effective_corner = = 3 & & ! home_region_type_active ) ) {
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// The designated corner is suppressed. The precedence list below seems
// to match what DF produces except in the case adjusted above.
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if ( nw_region_type_active ) {
effective_corner = 0 ;
}
else if ( n_region_type_active ) {
effective_corner = 1 ;
}
else if ( w_region_type_active ) {
effective_corner = 2 ;
}
else {
effective_corner = 3 ;
}
}
switch ( effective_corner ) {
case 0 :
return corner_location - 4 ;
break ;
case 1 :
return corner_location - 3 ;
break ;
case 2 :
return corner_location - 1 ;
break ;
case 3 :
return corner_location ;
break ;
}
return - 1 ; // Should never happen
/* The logic that's reduced to the code above.
switch ( corner_location ) {
case 0 : // N/A Not to the north or west
case 1 : // N/A
case 2 : // N/A
case 3 : // N/A
case 6 : // N/A
return - 1 ; // Should never happen
break ;
case 4 : // Self
switch ( corner ) {
case 0 :
return 0 ; // Northwest
break ;
case 1 :
return 1 ; // North
break ;
case 2 :
return 3 ; // West
break ;
case 3 :
return 4 ; // Self
}
case 5 : // East
switch ( corner ) {
case 0 :
return 1 ; // North
break ;
case 1 :
return 2 ; // Northeast
break ;
case 2 :
return 4 ; // Self
break ;
case 3 :
return 5 ; // East
}
case 7 : // South
switch ( corner ) {
case 0 :
return 3 ; // West
break ;
case 1 :
return 4 ; // Self
break ;
case 2 :
return 6 ; // Southwest
break ;
case 3 :
return 7 ; // South
}
case 8 : // Southeast
switch ( corner ) {
case 0 :
return 4 ; // Self
break ;
case 1 :
return 5 ; // East
break ;
case 2 :
return 7 ; // South
break ;
case 3 :
return 8 ; // Southeast
}
}
*/
}
//=================================================================================
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uint8_t embark_assist : : survey : : translate_ns_edge ( embark_assist : : defs : : world_tile_data * survey_results ,
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bool own_edge ,
uint16_t x ,
uint16_t y ,
uint8_t i ,
uint8_t k ) {
df : : world_data * world_data = world - > world_data ;
uint8_t effective_edge ;
df : : world_region_type north_region_type ;
df : : world_region_type south_region_type ;
if ( own_edge ) {
effective_edge = world_data - > region_details [ 0 ] - > edges . biome_x [ i ] [ k ] ;
south_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , i , k ) ;
north_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , i , k - 1 ) ;
}
else {
effective_edge = world_data - > region_details [ 0 ] - > edges . biome_x [ i ] [ k + 1 ] ;
north_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , i , k ) ;
south_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , i , k + 1 ) ;
}
// Apply rules for Ocean && Lake to yield to everything else,
// and Mountain to everything but those.
//
if ( ( north_region_type = = df : : world_region_type : : Lake | |
north_region_type = = df : : world_region_type : : Ocean ) & &
south_region_type ! = df : : world_region_type : : Lake & &
south_region_type ! = df : : world_region_type : : Ocean ) {
effective_edge = 1 ;
}
if ( ( south_region_type = = df : : world_region_type : : Lake | |
south_region_type = = df : : world_region_type : : Ocean ) & &
north_region_type ! = df : : world_region_type : : Lake & &
north_region_type ! = df : : world_region_type : : Ocean ) {
effective_edge = 0 ;
}
if ( north_region_type = = df : : world_region_type : : Mountains & &
south_region_type ! = df : : world_region_type : : Lake & &
south_region_type ! = df : : world_region_type : : Ocean & &
south_region_type ! = df : : world_region_type : : Mountains ) {
effective_edge = 1 ;
}
if ( south_region_type = = df : : world_region_type : : Mountains & &
north_region_type ! = df : : world_region_type : : Lake & &
north_region_type ! = df : : world_region_type : : Ocean & &
north_region_type ! = df : : world_region_type : : Mountains ) {
effective_edge = 0 ;
}
if ( effective_edge = = 0 ) {
if ( own_edge ) {
return 1 ;
}
else {
return 4 ;
}
}
else {
if ( own_edge ) {
return 4 ;
}
else {
return 7 ;
}
}
}
//=================================================================================
uint8_t embark_assist : : survey : : translate_ew_edge ( embark_assist : : defs : : world_tile_data * survey_results ,
bool own_edge ,
uint16_t x ,
uint16_t y ,
uint8_t i ,
uint8_t k ) {
df : : world_data * world_data = world - > world_data ;
uint8_t effective_edge ;
df : : world_region_type west_region_type ;
df : : world_region_type east_region_type ;
if ( own_edge ) {
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effective_edge = world_data - > region_details [ 0 ] - > edges . biome_y [ i ] [ k ] ;
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east_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , i , k ) ;
west_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , i - 1 , k ) ;
}
else {
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effective_edge = world_data - > region_details [ 0 ] - > edges . biome_y [ i + 1 ] [ k ] ;
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west_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , i , k ) ;
east_region_type = embark_assist : : survey : : region_type_of ( survey_results , x , y , i + 1 , k ) ;
}
// Apply rules for Ocean && Lake to yield to everything else,
// and Mountain to everything but those.
//
if ( ( west_region_type = = df : : world_region_type : : Lake | |
west_region_type = = df : : world_region_type : : Ocean ) & &
east_region_type ! = df : : world_region_type : : Lake & &
east_region_type ! = df : : world_region_type : : Ocean ) {
effective_edge = 1 ;
}
if ( ( east_region_type = = df : : world_region_type : : Lake | |
east_region_type = = df : : world_region_type : : Ocean ) & &
west_region_type ! = df : : world_region_type : : Lake & &
west_region_type ! = df : : world_region_type : : Ocean ) {
effective_edge = 0 ;
}
if ( west_region_type = = df : : world_region_type : : Mountains & &
west_region_type ! = df : : world_region_type : : Lake & &
east_region_type ! = df : : world_region_type : : Ocean & &
east_region_type ! = df : : world_region_type : : Mountains ) {
effective_edge = 1 ;
}
if ( east_region_type = = df : : world_region_type : : Mountains & &
east_region_type ! = df : : world_region_type : : Lake & &
west_region_type ! = df : : world_region_type : : Ocean & &
west_region_type ! = df : : world_region_type : : Mountains ) {
effective_edge = 0 ;
}
if ( effective_edge = = 0 ) {
if ( own_edge ) {
return 3 ;
}
else {
return 4 ;
}
}
else {
if ( own_edge ) {
return 4 ;
}
else {
return 5 ;
}
}
}
//=================================================================================
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void embark_assist : : survey : : survey_region_sites ( embark_assist : : defs : : site_lists * site_list ) {
// color_ostream_proxy out(Core::getInstance().getConsole());
auto screen = Gui : : getViewscreenByType < df : : viewscreen_choose_start_sitest > ( 0 ) ;
df : : world_data * world_data = world - > world_data ;
int8_t index = 0 ;
site_list - > clear ( ) ;
for ( uint32_t i = 0 ; i < world_data - > region_map [ screen - > location . region_pos . x ] [ screen - > location . region_pos . y ] . sites . size ( ) ; i + + ) {
auto site = world_data - > region_map [ screen - > location . region_pos . x ] [ screen - > location . region_pos . y ] . sites [ i ] ;
switch ( site - > type ) {
case df : : world_site_type : : PlayerFortress :
case df : : world_site_type : : DarkFortress :
case df : : world_site_type : : MountainHalls :
case df : : world_site_type : : ForestRetreat :
case df : : world_site_type : : Town :
case df : : world_site_type : : Fortress :
break ; // Already visible
case df : : world_site_type : : Cave :
if ( ! world - > worldgen . worldgen_parms . all_caves_visible ) {
site_list - > push_back ( { ( uint8_t ) site - > rgn_min_x , ( uint8_t ) site - > rgn_min_y , ' c ' } ) ; // Cave
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}
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break ;
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case df : : world_site_type : : Monument :
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switch ( site - > subtype_info - > monument_type ) {
case df : : monument_type : : NONE :
case df : : monument_type : : TOMB :
break ; // NONE shouldn't appear, and Tombs are visible already
case df : : monument_type : : VAULT :
site_list - > push_back ( { ( uint8_t ) site - > rgn_min_x , ( uint8_t ) site - > rgn_min_y , ' V ' } ) ;
break ;
default :
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site_list - > push_back ( { ( uint8_t ) site - > rgn_min_x , ( uint8_t ) site - > rgn_min_y , ' M ' } ) ; // Any other Monument type. Pyramid?
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break ;
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}
break ;
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case df : : world_site_type : : ImportantLocation :
site_list - > push_back ( { ( uint8_t ) site - > rgn_min_x , ( uint8_t ) site - > rgn_min_y , ' i ' } ) ; // Don't really know what that is...
break ;
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case df : : world_site_type : : LairShrine :
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switch ( site - > subtype_info - > lair_type ) {
case df : : lair_type : : NONE :
break ;
case df : : lair_type : : SIMPLE_MOUND :
case df : : lair_type : : SIMPLE_BURROW :
case df : : lair_type : : WILDERNESS_LOCATION :
site_list - > push_back ( { ( uint8_t ) site - > rgn_min_x , ( uint8_t ) site - > rgn_min_y , ' l ' } ) ;
break ;
case df : : lair_type : : LABYRINTH :
site_list - > push_back ( { ( uint8_t ) site - > rgn_min_x , ( uint8_t ) site - > rgn_min_y , ' L ' } ) ;
break ;
case df : : lair_type : : SHRINE :
site_list - > push_back ( { ( uint8_t ) site - > rgn_min_x , ( uint8_t ) site - > rgn_min_y , ' S ' } ) ;
break ;
default :
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site_list - > push_back ( { ( uint8_t ) site - > rgn_min_x , ( uint8_t ) site - > rgn_min_y , ' ? ' } ) ; // Can these exist?
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break ;
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}
break ;
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case df : : world_site_type : : Camp :
site_list - > push_back ( { ( uint8_t ) site - > rgn_min_x , ( uint8_t ) site - > rgn_min_y , ' C ' } ) ; // Camp
break ;
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default :
site_list - > push_back ( { ( uint8_t ) site - > rgn_min_x , ( uint8_t ) site - > rgn_min_y , ' ! ' } ) ; // Not even in the enum...
break ;
}
}
}
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//=================================================================================
void embark_assist : : survey : : survey_embark ( embark_assist : : defs : : mid_level_tiles * mlt ,
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embark_assist : : defs : : world_tile_data * survey_results ,
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embark_assist : : defs : : site_infos * site_info ,
bool use_cache ) {
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//color_ostream_proxy out(Core::getInstance().getConsole());
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auto screen = Gui : : getViewscreenByType < df : : viewscreen_choose_start_sitest > ( 0 ) ;
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int16_t elevation = 0 ;
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uint16_t x = screen - > location . region_pos . x ;
uint16_t y = screen - > location . region_pos . y ;
std : : vector < bool > metals ( state - > max_inorganic ) ;
std : : vector < bool > economics ( state - > max_inorganic ) ;
std : : vector < bool > minerals ( state - > max_inorganic ) ;
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bool incursion_processing_failed = false ;
df : : world_data * world_data = world - > world_data ;
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if ( ! use_cache ) { // DF scrambles these values on world tile movements, while embark-tools stabilizes the movement, but its changes to the value are done after we've read them.
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state - > local_min_x = screen - > location . embark_pos_min . x ;
state - > local_min_y = screen - > location . embark_pos_min . y ;
state - > local_max_x = screen - > location . embark_pos_max . x ;
state - > local_max_y = screen - > location . embark_pos_max . y ;
}
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state - > x = x ;
state - > y = y ;
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site_info - > incursions_processed = true ;
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site_info - > aquifer = embark_assist : : defs : : aquifer_sizes : : NA ;
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site_info - > min_soil = 10 ;
site_info - > max_soil = 0 ;
site_info - > flat = true ;
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site_info - > max_waterfall = 0 ;
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site_info - > clay = false ;
site_info - > sand = false ;
site_info - > flux = false ;
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site_info - > coal = false ;
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site_info - > blood_rain = false ;
site_info - > permanent_syndrome_rain = false ;
site_info - > temporary_syndrome_rain = false ;
site_info - > reanimating = false ;
site_info - > thralling = false ;
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site_info - > metals . clear ( ) ;
site_info - > economics . clear ( ) ;
site_info - > metals . clear ( ) ;
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site_info - > neighbors . clear ( ) ;
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for ( uint8_t i = state - > local_min_x ; i < = state - > local_max_x ; i + + ) {
for ( uint8_t k = state - > local_min_y ; k < = state - > local_max_y ; k + + ) {
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site_info - > aquifer = static_cast < embark_assist : : defs : : aquifer_sizes > ( static_cast < int8_t > ( site_info - > aquifer ) | static_cast < int8_t > ( mlt - > at ( i ) . at ( k ) . aquifer ) ) ;
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if ( mlt - > at ( i ) . at ( k ) . soil_depth < site_info - > min_soil ) {
site_info - > min_soil = mlt - > at ( i ) . at ( k ) . soil_depth ;
}
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if ( mlt - > at ( i ) . at ( k ) . soil_depth > site_info - > max_soil ) {
site_info - > max_soil = mlt - > at ( i ) . at ( k ) . soil_depth ;
}
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if ( i = = state - > local_min_x & & k = = state - > local_min_y ) {
elevation = mlt - > at ( i ) . at ( k ) . elevation ;
}
else if ( elevation ! = mlt - > at ( i ) . at ( k ) . elevation ) {
site_info - > flat = false ;
}
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if ( mlt - > at ( i ) . at ( k ) . river_present ) {
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if ( i < 15 & &
mlt - > at ( i + 1 ) . at ( k ) . river_present & &
abs ( mlt - > at ( i ) . at ( k ) . river_elevation - mlt - > at ( i + 1 ) . at ( k ) . river_elevation ) >
site_info - > max_waterfall ) {
site_info - > max_waterfall =
abs ( mlt - > at ( i ) . at ( k ) . river_elevation - mlt - > at ( i + 1 ) . at ( k ) . river_elevation ) ;
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}
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if ( k < 15 & &
mlt - > at ( i ) . at ( k + 1 ) . river_present & &
abs ( mlt - > at ( i ) . at ( k ) . river_elevation - mlt - > at ( i ) . at ( k + 1 ) . river_elevation ) >
site_info - > max_waterfall ) {
site_info - > max_waterfall =
abs ( mlt - > at ( i ) . at ( k ) . river_elevation - mlt - > at ( i ) . at ( k + 1 ) . river_elevation ) ;
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}
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}
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if ( mlt - > at ( i ) . at ( k ) . clay ) {
site_info - > clay = true ;
}
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if ( mlt - > at ( i ) . at ( k ) . sand ) {
site_info - > sand = true ;
}
if ( mlt - > at ( i ) . at ( k ) . flux ) {
site_info - > flux = true ;
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}
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if ( mlt - > at ( i ) . at ( k ) . coal ) {
site_info - > coal = true ;
}
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if ( survey_results - > at ( x ) . at ( y ) . blood_rain [ mlt - > at ( i ) . at ( k ) . biome_offset ] ) {
site_info - > blood_rain = true ;
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}
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if ( survey_results - > at ( x ) . at ( y ) . permanent_syndrome_rain [ mlt - > at ( i ) . at ( k ) . biome_offset ] ) {
site_info - > permanent_syndrome_rain = true ;
}
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if ( survey_results - > at ( x ) . at ( y ) . temporary_syndrome_rain [ mlt - > at ( i ) . at ( k ) . biome_offset ] ) {
site_info - > temporary_syndrome_rain = true ;
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}
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if ( survey_results - > at ( x ) . at ( y ) . reanimating [ mlt - > at ( i ) . at ( k ) . biome_offset ] ) {
site_info - > reanimating = true ;
}
if ( survey_results - > at ( x ) . at ( y ) . thralling [ mlt - > at ( i ) . at ( k ) . biome_offset ] ) {
site_info - > thralling = true ;
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}
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for ( uint16_t l = 0 ; l < state - > max_inorganic ; l + + ) {
metals [ l ] = metals [ l ] | | mlt - > at ( i ) . at ( k ) . metals [ l ] ;
economics [ l ] = economics [ l ] | | mlt - > at ( i ) . at ( k ) . economics [ l ] ;
minerals [ l ] = minerals [ l ] | | mlt - > at ( i ) . at ( k ) . minerals [ l ] ;
}
}
}
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for ( uint16_t l = 0 ; l < state - > max_inorganic ; l + + ) {
if ( metals [ l ] ) {
site_info - > metals . push_back ( l ) ;
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}
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if ( economics [ l ] ) {
site_info - > economics . push_back ( l ) ;
}
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if ( minerals [ l ] ) {
site_info - > minerals . push_back ( l ) ;
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}
}
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// Take incursions into account.
for ( int8_t i = state - > local_min_x ; i < = state - > local_max_x ; i + + ) {
// NW corner, north row
if ( ( i = = 0 & & state - > local_min_y = = 0 & & x - 1 > = 0 & & y - 1 > = 0 & & ! survey_results - > at ( x - 1 ) . at ( y - 1 ) . surveyed ) | |
( i = = 0 & & x - 1 > = 0 & & ! survey_results - > at ( x - 1 ) . at ( y ) . surveyed ) | |
( state - > local_min_y = = 0 & & y - 1 > = 0 & & ! survey_results - > at ( x ) . at ( y - 1 ) . surveyed ) ) {
incursion_processing_failed = true ;
}
else {
process_embark_incursion_mid_level_tile
( translate_corner ( survey_results ,
4 ,
x ,
y ,
i ,
state - > local_min_y ) ,
site_info ,
survey_results ,
mlt ,
i ,
state - > local_min_y ) ;
}
// N edge, north row
if ( state - > local_min_y = = 0 & & y - 1 > = 0 & & ! survey_results - > at ( x ) . at ( y - 1 ) . surveyed ) {
incursion_processing_failed = true ;
}
else {
process_embark_incursion_mid_level_tile
( translate_ns_edge ( survey_results ,
true ,
x ,
y ,
i ,
state - > local_min_y ) ,
site_info ,
survey_results ,
mlt ,
i ,
state - > local_min_y ) ;
}
// NE corner, north row
if ( ( i = = 15 & & state - > local_min_y = = 0 & & x + 1 < world_data - > world_width & & y - 1 > = 0 & & ! survey_results - > at ( x + 1 ) . at ( y - 1 ) . surveyed ) | |
( i = = 15 & & x + 1 < world_data - > world_width & & ! survey_results - > at ( x + 1 ) . at ( y ) . surveyed ) | |
( state - > local_min_y = = 0 & & y - 1 > = 0 & & ! survey_results - > at ( x ) . at ( y - 1 ) . surveyed ) ) {
incursion_processing_failed = true ;
}
else {
process_embark_incursion_mid_level_tile
( translate_corner ( survey_results ,
5 ,
x ,
y ,
i ,
state - > local_min_y ) ,
site_info ,
survey_results ,
mlt ,
i ,
state - > local_min_y ) ;
}
// SW corner, south row
if ( ( i = = 0 & & state - > local_max_y = = 15 & & x - 1 > = 0 & & y + 1 < world_data - > world_height & & ! survey_results - > at ( x - 1 ) . at ( y + 1 ) . surveyed ) | |
( i = = 0 & & x - 1 > = 0 & & ! survey_results - > at ( x - 1 ) . at ( y ) . surveyed ) | |
( state - > local_max_y = = 15 & & y + 1 < world_data - > world_height & & ! survey_results - > at ( x ) . at ( y + 1 ) . surveyed ) ) {
incursion_processing_failed = true ;
}
else {
process_embark_incursion_mid_level_tile
( translate_corner ( survey_results ,
7 ,
x ,
y ,
i ,
state - > local_max_y ) ,
site_info ,
survey_results ,
mlt ,
i ,
state - > local_max_y ) ;
}
// S edge, south row
if ( state - > local_max_y = = 15 & & y + 1 < world_data - > world_height & & ! survey_results - > at ( x ) . at ( y + 1 ) . surveyed ) {
incursion_processing_failed = true ;
}
else {
process_embark_incursion_mid_level_tile
( translate_ns_edge ( survey_results ,
false ,
x ,
y ,
i ,
state - > local_max_y ) ,
site_info ,
survey_results ,
mlt ,
i ,
state - > local_max_y ) ;
}
// SE corner south row
if ( ( i = = 15 & & state - > local_max_y = = 15 & & x + 1 < world_data - > world_width & & y + 1 < world_data - > world_height & & ! survey_results - > at ( x + 1 ) . at ( y + 1 ) . surveyed ) | |
( i = = 15 & & x + 1 < world_data - > world_width & & ! survey_results - > at ( x + 1 ) . at ( y ) . surveyed ) | |
( state - > local_max_y = = 15 & & y + 1 < world_data - > world_height & & ! survey_results - > at ( x ) . at ( y + 1 ) . surveyed ) ) {
incursion_processing_failed = true ;
}
else {
process_embark_incursion_mid_level_tile
( translate_corner ( survey_results ,
8 ,
x ,
y ,
i ,
state - > local_max_y ) ,
site_info ,
survey_results ,
mlt ,
i ,
state - > local_max_y ) ;
}
}
for ( int8_t k = state - > local_min_y ; k < = state - > local_max_y ; k + + ) {
// NW corner, west side
if ( ( state - > local_min_x = = 0 & & x - 1 > = 0 & & ! survey_results - > at ( x - 1 ) . at ( y ) . surveyed ) ) {
incursion_processing_failed = true ;
}
else if ( k > state - > local_min_y ) { // We've already covered the NW corner of the NW, with its complications.
process_embark_incursion_mid_level_tile
( translate_corner ( survey_results ,
4 ,
x ,
y ,
state - > local_min_x ,
k ) ,
site_info ,
survey_results ,
mlt ,
state - > local_min_x ,
k ) ;
}
// W edge, west side
if ( state - > local_min_x = = 0 & & x - 1 > = 0 & & ! survey_results - > at ( x - 1 ) . at ( y ) . surveyed ) {
incursion_processing_failed = true ;
}
else {
process_embark_incursion_mid_level_tile
( translate_ns_edge ( survey_results ,
true ,
x ,
y ,
state - > local_min_x ,
k ) ,
site_info ,
survey_results ,
mlt ,
state - > local_min_x ,
k ) ;
}
// SW corner, west side
if ( state - > local_min_x = = 0 & & x - 1 > = 0 & & ! survey_results - > at ( x - 1 ) . at ( y ) . surveyed ) {
incursion_processing_failed = true ;
}
else if ( k < state - > local_max_y ) { // We've already covered the SW corner of the SW tile, with its complicatinons.
process_embark_incursion_mid_level_tile
( translate_corner ( survey_results ,
7 ,
x ,
y ,
state - > local_min_x ,
k ) ,
site_info ,
survey_results ,
mlt ,
state - > local_min_x ,
k ) ;
}
// NE corner, east side
if ( ( state - > local_max_x = = 15 & & x + 1 < world_data - > world_width & & ! survey_results - > at ( x + 1 ) . at ( y ) . surveyed ) ) {
incursion_processing_failed = true ;
}
else if ( k > state - > local_min_y ) { // We've already covered the NE tile's NE corner, with its complications.
process_embark_incursion_mid_level_tile
( translate_corner ( survey_results ,
5 ,
x ,
y ,
state - > local_max_x ,
k ) ,
site_info ,
survey_results ,
mlt ,
state - > local_max_x ,
k ) ;
}
// E edge, east side
if ( state - > local_max_x = = 15 & & x + 1 < world_data - > world_width & & ! survey_results - > at ( x + 1 ) . at ( y ) . surveyed ) {
incursion_processing_failed = true ;
}
else {
process_embark_incursion_mid_level_tile
( translate_ns_edge ( survey_results ,
false ,
x ,
y ,
state - > local_max_x ,
k ) ,
site_info ,
survey_results ,
mlt ,
state - > local_max_x ,
k ) ;
}
// SE corner, east side
if ( state - > local_max_x = = 15 & & x + 1 < world_data - > world_width & & ! survey_results - > at ( x + 1 ) . at ( y ) . surveyed ) {
incursion_processing_failed = true ;
}
else if ( k < state - > local_max_y ) { // We've already covered the SE tile's SE corner, with its complications.
process_embark_incursion_mid_level_tile
( translate_corner ( survey_results ,
8 ,
x ,
y ,
state - > local_max_x ,
k ) ,
site_info ,
survey_results ,
mlt ,
state - > local_max_x ,
k ) ;
}
}
if ( incursion_processing_failed ) site_info - > incursions_processed = false ;
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for ( uint16_t i = 0 ; i < survey_results - > at ( x ) . at ( y ) . neighbors . size ( ) ; i + + ) {
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site_info - > neighbors . push_back ( survey_results - > at ( x ) . at ( y ) . neighbors [ i ] ) ;
}
site_info - > necro_neighbors = survey_results - > at ( x ) . at ( y ) . necro_neighbors ;
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}
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//=================================================================================
void embark_assist : : survey : : shutdown ( ) {
delete state ;
}