(svn r7710) [cbh] - Fix: [YAPF] one more assert fixed. Call from the TrainController() added by (r7705) has broken YAPF because it was called when vehicle was already on the next tile (with cbh choice). Before it was always called before the train entered tile with choice.
/* $Id$ */
#include "stdafx.h"
#include "openttd.h"
#include "debug.h"
#include "macros.h"
#include "namegen.h"
#include "table/namegen.h"
#include "string.h"
static inline uint32 SeedChance(int shift_by, int max, uint32 seed)
{
return (GB(seed, shift_by, 16) * max) >> 16;
}
static inline uint32 SeedModChance(int shift_by, int max, uint32 seed)
{
/* This actually gives *MUCH* more even distribution of the values
* than SeedChance(), which is absolutely horrible in that. If
* you do not believe me, try with i.e. the Czech town names,
* compare the words (nicely visible on prefixes) generated by
* SeedChance() and SeedModChance(). Do not get dicouraged by the
* never-use-modulo myths, which hold true only for the linear
* congruential generators (and Random() isn't such a generator).
* --pasky */
// TODO: Perhaps we should use it for all the name generators? --pasky
return (seed >> shift_by) % max;
}
static inline int32 SeedChanceBias(int shift_by, int max, uint32 seed, int bias)
{
return SeedChance(shift_by, max + bias, seed) - bias;
}
static void ReplaceWords(const char *org, const char *rep, char *buf)
{
if (strncmp(buf, org, 4) == 0) strncpy(buf, rep, 4);
}
static byte MakeEnglishOriginalTownName(char *buf, uint32 seed, const char *last)
{
int i;
//null terminates the string for strcat
strecpy(buf, "", last);
// optional first segment
i = SeedChanceBias(0, lengthof(name_original_english_1), seed, 50);
if (i >= 0)
strecat(buf, name_original_english_1[i], last);
//mandatory middle segments
strecat(buf, name_original_english_2[SeedChance(4, lengthof(name_original_english_2), seed)], last);
strecat(buf, name_original_english_3[SeedChance(7, lengthof(name_original_english_3), seed)], last);
strecat(buf, name_original_english_4[SeedChance(10, lengthof(name_original_english_4), seed)], last);
strecat(buf, name_original_english_5[SeedChance(13, lengthof(name_original_english_5), seed)], last);
//optional last segment
i = SeedChanceBias(15, lengthof(name_original_english_6), seed, 60);
if (i >= 0)
strecat(buf, name_original_english_6[i], last);
if (buf[0] == 'C' && (buf[1] == 'e' || buf[1] == 'i'))
buf[0] = 'K';
ReplaceWords("Cunt", "East", buf);
ReplaceWords("Slag", "Pits", buf);
ReplaceWords("Slut", "Edin", buf);
//ReplaceWords("Fart", "Boot", buf);
ReplaceWords("Drar", "Quar", buf);
ReplaceWords("Dreh", "Bash", buf);
ReplaceWords("Frar", "Shor", buf);
ReplaceWords("Grar", "Aber", buf);
ReplaceWords("Brar", "Over", buf);
ReplaceWords("Wrar", "Inve", buf);
return 0;
}
static byte MakeEnglishAdditionalTownName(char *buf, uint32 seed, const char *last)
{
int i;
//null terminates the string for strcat
strecpy(buf, "", last);
// optional first segment
i = SeedChanceBias(0, lengthof(name_additional_english_prefix), seed, 50);
if (i >= 0)
strecat(buf,name_additional_english_prefix[i], last);
if (SeedChance(3, 20, seed) >= 14) {
strecat(buf, name_additional_english_1a[SeedChance(6, lengthof(name_additional_english_1a), seed)], last);
} else {
strecat(buf, name_additional_english_1b1[SeedChance(6, lengthof(name_additional_english_1b1), seed)], last);
strecat(buf, name_additional_english_1b2[SeedChance(9, lengthof(name_additional_english_1b2), seed)], last);
if (SeedChance(11, 20, seed) >= 4) {
strecat(buf, name_additional_english_1b3a[SeedChance(12, lengthof(name_additional_english_1b3a), seed)], last);
} else {
strecat(buf, name_additional_english_1b3b[SeedChance(12, lengthof(name_additional_english_1b3b), seed)], last);
}
}
strecat(buf, name_additional_english_2[SeedChance(14, lengthof(name_additional_english_2), seed)], last);
//optional last segment
i = SeedChanceBias(15, lengthof(name_additional_english_3), seed, 60);
if (i >= 0)
strecat(buf, name_additional_english_3[i], last);
ReplaceWords("Cunt", "East", buf);
ReplaceWords("Slag", "Pits", buf);
ReplaceWords("Slut", "Edin", buf);
ReplaceWords("Fart", "Boot", buf);
ReplaceWords("Drar", "Quar", buf);
ReplaceWords("Dreh", "Bash", buf);
ReplaceWords("Frar", "Shor", buf);
ReplaceWords("Grar", "Aber", buf);
ReplaceWords("Brar", "Over", buf);
ReplaceWords("Wrar", "Stan", buf);
return 0;
}
static byte MakeAustrianTownName(char *buf, uint32 seed, const char *last)
{
int i, j = 0;
strecpy(buf, "", last);
// Bad, Maria, Gross, ...
i = SeedChanceBias(0, lengthof(name_austrian_a1), seed, 15);
if (i >= 0) strecat(buf, name_austrian_a1[i], last);
i = SeedChance(4, 6, seed);
if (i >= 4) {
// Kaisers-kirchen
strecat(buf, name_austrian_a2[SeedChance( 7, lengthof(name_austrian_a2), seed)], last);
strecat(buf, name_austrian_a3[SeedChance(13, lengthof(name_austrian_a3), seed)], last);
} else if (i >= 2) {
// St. Johann
strecat(buf, name_austrian_a5[SeedChance( 7, lengthof(name_austrian_a5), seed)], last);
strecat(buf, name_austrian_a6[SeedChance( 9, lengthof(name_austrian_a6), seed)], last);
j = 1; // More likely to have a " an der " or " am "
} else {
// Zell
strecat(buf, name_austrian_a4[SeedChance( 7, lengthof(name_austrian_a4), seed)], last);
}
i = SeedChance(1, 6, seed);
if (i >= 4 - j) {
// an der Donau (rivers)
strecat(buf, name_austrian_f1[SeedChance(4, lengthof(name_austrian_f1), seed)], last);
strecat(buf, name_austrian_f2[SeedChance(5, lengthof(name_austrian_f2), seed)], last);
} else if (i >= 2 - j) {
// am Dachstein (mountains)
strecat(buf, name_austrian_b1[SeedChance(4, lengthof(name_austrian_b1), seed)], last);
strecat(buf, name_austrian_b2[SeedChance(5, lengthof(name_austrian_b2), seed)], last);
}
return 0;
}
static byte MakeGermanTownName(char *buf, uint32 seed, const char *last)
{
uint i;
uint seed_derivative;
//null terminates the string for strcat
strecpy(buf, "", last);
seed_derivative = SeedChance(7, 28, seed);
//optional prefix
if (seed_derivative == 12 || seed_derivative == 19) {
i = SeedChance(2, lengthof(name_german_pre), seed);
strecat(buf,name_german_pre[i], last);
}
// mandatory middle segments including option of hardcoded name
i = SeedChance(3, lengthof(name_german_real) + lengthof(name_german_1), seed);
if (i < lengthof(name_german_real)) {
strecat(buf,name_german_real[i], last);
} else {
strecat(buf, name_german_1[i - lengthof(name_german_real)], last);
i = SeedChance(5, lengthof(name_german_2), seed);
strecat(buf, name_german_2[i], last);
}
// optional suffix
if (seed_derivative == 24) {
i = SeedChance(9,
lengthof(name_german_4_an_der) + lengthof(name_german_4_am), seed);
if (i < lengthof(name_german_4_an_der)) {
strecat(buf, name_german_3_an_der[0], last);
strecat(buf, name_german_4_an_der[i], last);
} else {
strecat(buf, name_german_3_am[0], last);
strecat(buf, name_german_4_am[i - lengthof(name_german_4_an_der)], last);
}
}
return 0;
}
static byte MakeSpanishTownName(char *buf, uint32 seed, const char *last)
{
strecpy(buf, name_spanish_real[SeedChance(0, lengthof(name_spanish_real), seed)], last);
return 0;
}
static byte MakeFrenchTownName(char *buf, uint32 seed, const char *last)
{
strecpy(buf, name_french_real[SeedChance(0, lengthof(name_french_real), seed)], last);
return 0;
}
static byte MakeSillyTownName(char *buf, uint32 seed, const char *last)
{
strecpy(buf, name_silly_1[SeedChance( 0, lengthof(name_silly_1), seed)], last);
strecat(buf, name_silly_2[SeedChance(16, lengthof(name_silly_2), seed)], last);
return 0;
}
static byte MakeSwedishTownName(char *buf, uint32 seed, const char *last)
{
int i;
//null terminates the string for strcat
strecpy(buf, "", last);
// optional first segment
i = SeedChanceBias(0, lengthof(name_swedish_1), seed, 50);
if (i >= 0)
strecat(buf, name_swedish_1[i], last);
// mandatory middle segments including option of hardcoded name
if (SeedChance(4, 5, seed) >= 3) {
strecat(buf, name_swedish_2[SeedChance( 7, lengthof(name_swedish_2), seed)], last);
} else {
strecat(buf, name_swedish_2a[SeedChance( 7, lengthof(name_swedish_2a), seed)], last);
strecat(buf, name_swedish_2b[SeedChance(10, lengthof(name_swedish_2b), seed)], last);
strecat(buf, name_swedish_2c[SeedChance(13, lengthof(name_swedish_2c), seed)], last);
}
strecat(buf, name_swedish_3[SeedChance(16, lengthof(name_swedish_3), seed)], last);
return 0;
}
static byte MakeDutchTownName(char *buf, uint32 seed, const char *last)
{
int i;
//null terminates the string for strcat
strecpy(buf, "", last);
// optional first segment
i = SeedChanceBias(0, lengthof(name_dutch_1), seed, 50);
if (i >= 0)
strecat(buf, name_dutch_1[i], last);
// mandatory middle segments including option of hardcoded name
if (SeedChance(6, 9, seed) > 4) {
strecat(buf, name_dutch_2[SeedChance( 9, lengthof(name_dutch_2), seed)], last);
} else {
strecat(buf, name_dutch_3[SeedChance( 9, lengthof(name_dutch_3), seed)], last);
strecat(buf, name_dutch_4[SeedChance(12, lengthof(name_dutch_4), seed)], last);
}
strecat(buf, name_dutch_5[SeedChance(15, lengthof(name_dutch_5), seed)], last);
return 0;
}
static byte MakeFinnishTownName(char *buf, uint32 seed, const char *last)
{
//null terminates the string for strcat
strecpy(buf, "", last);
// Select randomly if town name should consists of one or two parts.
if (SeedChance(0, 15, seed) >= 10) {
strecat(buf, name_finnish_real[SeedChance(2, lengthof(name_finnish_real), seed)], last);
} else if (SeedChance(0, 15, seed) >= 5) {
// A two-part name by combining one of name_finnish_1 + "la"/"lä"
// The reason for not having the contents of name_finnish_{1,2} in the same table is
// that the ones in name_finnish_2 are not good for this purpose.
uint sel = SeedChance( 0, lengthof(name_finnish_1), seed);
char *end;
strecat(buf, name_finnish_1[sel], last);
end = &buf[strlen(buf)-1];
if (*end == 'i')
*end = 'e';
if (strstr(buf, "a") || strstr(buf, "o") || strstr(buf, "u") ||
strstr(buf, "A") || strstr(buf, "O") || strstr(buf, "U"))
{
strecat(buf, "la", last);
} else {
strecat(buf, "lä", last);
}
} else {
// A two-part name by combining one of name_finnish_{1,2} + name_finnish_3.
// Why aren't name_finnish_{1,2} just one table? See above.
uint sel = SeedChance(2,
lengthof(name_finnish_1) + lengthof(name_finnish_2), seed);
if (sel >= lengthof(name_finnish_1)) {
strecat(buf, name_finnish_2[sel-lengthof(name_finnish_1)], last);
} else {
strecat(buf, name_finnish_1[sel], last);
}
strecat(buf, name_finnish_3[SeedChance(10, lengthof(name_finnish_3), seed)], last);
}
return 0;
}
static byte MakePolishTownName(char *buf, uint32 seed, const char *last)
{
uint i;
uint j;
//null terminates the string for strcat
strecpy(buf, "", last);
// optional first segment
i = SeedChance(0,
lengthof(name_polish_2_o) + lengthof(name_polish_2_m) +
lengthof(name_polish_2_f) + lengthof(name_polish_2_n),
seed);
j = SeedChance(2, 20, seed);
if (i < lengthof(name_polish_2_o)) {
strecat(buf, name_polish_2_o[SeedChance(3, lengthof(name_polish_2_o), seed)], last);
} else if (i < lengthof(name_polish_2_m) + lengthof(name_polish_2_o)) {
if (j < 4)
strecat(buf, name_polish_1_m[SeedChance(5, lengthof(name_polish_1_m), seed)], last);
strecat(buf, name_polish_2_m[SeedChance(7, lengthof(name_polish_2_m), seed)], last);
if (j >= 4 && j < 16)
strecat(buf, name_polish_3_m[SeedChance(10, lengthof(name_polish_3_m), seed)], last);
} else if (i < lengthof(name_polish_2_f) + lengthof(name_polish_2_m) + lengthof(name_polish_2_o)) {
if (j < 4)
strecat(buf, name_polish_1_f[SeedChance(5, lengthof(name_polish_1_f), seed)], last);
strecat(buf, name_polish_2_f[SeedChance(7, lengthof(name_polish_2_f), seed)], last);
if (j >= 4 && j < 16)
strecat(buf, name_polish_3_f[SeedChance(10, lengthof(name_polish_3_f), seed)], last);
} else {
if (j < 4)
strecat(buf, name_polish_1_n[SeedChance(5, lengthof(name_polish_1_n), seed)], last);
strecat(buf, name_polish_2_n[SeedChance(7, lengthof(name_polish_2_n), seed)], last);
if (j >= 4 && j < 16)
strecat(buf, name_polish_3_n[SeedChance(10, lengthof(name_polish_3_n), seed)], last);
}
return 0;
}
static byte MakeCzechTownName(char *buf, uint32 seed, const char *last)
{
/* Probability of prefixes/suffixes */
/* 0..11 prefix, 12..13 prefix+suffix, 14..17 suffix, 18..31 nothing */
int prob_tails;
bool do_prefix, do_suffix, dynamic_subst;
/* IDs of the respective parts */
int prefix = 0, ending = 0, suffix = 0;
uint postfix = 0;
uint stem;
/* The select criteria. */
CzechGender gender;
CzechChoose choose;
CzechAllow allow;
// 1:3 chance to use a real name.
if (SeedModChance(0, 4, seed) == 0) {
strecpy(buf, name_czech_real[SeedModChance(4, lengthof(name_czech_real), seed)], last);
return 0;
}
// NUL terminates the string for strcat()
strecpy(buf, "", last);
prob_tails = SeedModChance(2, 32, seed);
do_prefix = prob_tails < 12;
do_suffix = prob_tails > 11 && prob_tails < 17;
if (do_prefix) prefix = SeedModChance(5, lengthof(name_czech_adj) * 12, seed) / 12;
if (do_suffix) suffix = SeedModChance(7, lengthof(name_czech_suffix), seed);
// 3:1 chance 3:1 to use dynamic substantive
stem = SeedModChance(9,
lengthof(name_czech_subst_full) + 3 * lengthof(name_czech_subst_stem),
seed);
if (stem < lengthof(name_czech_subst_full)) {
// That was easy!
dynamic_subst = false;
gender = name_czech_subst_full[stem].gender;
choose = name_czech_subst_full[stem].choose;
allow = name_czech_subst_full[stem].allow;
} else {
unsigned int map[lengthof(name_czech_subst_ending)];
int ending_start = -1, ending_stop = -1;
int i;
// Load the substantive
dynamic_subst = true;
stem -= lengthof(name_czech_subst_full);
stem %= lengthof(name_czech_subst_stem);
gender = name_czech_subst_stem[stem].gender;
choose = name_czech_subst_stem[stem].choose;
allow = name_czech_subst_stem[stem].allow;
// Load the postfix (1:1 chance that a postfix will be inserted)
postfix = SeedModChance(14, lengthof(name_czech_subst_postfix) * 2, seed);
if (choose & CZC_POSTFIX) {
// Always get a real postfix.
postfix %= lengthof(name_czech_subst_postfix);
}
if (choose & CZC_NOPOSTFIX) {
// Always drop a postfix.
postfix += lengthof(name_czech_subst_postfix);
}
if (postfix < lengthof(name_czech_subst_postfix)) {
choose |= CZC_POSTFIX;
} else {
choose |= CZC_NOPOSTFIX;
}
// Localize the array segment containing a good gender
for (ending = 0; ending < (int) lengthof(name_czech_subst_ending); ending++) {
const CzechNameSubst *e = &name_czech_subst_ending[ending];
if (gender == CZG_FREE ||
(gender == CZG_NFREE && e->gender != CZG_SNEUT && e->gender != CZG_PNEUT) ||
gender == e->gender) {
if (ending_start < 0)
ending_start = ending;
} else if (ending_start >= 0) {
ending_stop = ending - 1;
break;
}
}
if (ending_stop < 0) {
// Whoa. All the endings matched.
ending_stop = ending - 1;
}
// Make a sequential map of the items with good mask
i = 0;
for (ending = ending_start; ending <= ending_stop; ending++) {
const CzechNameSubst *e = &name_czech_subst_ending[ending];
if ((e->choose & choose) == choose && (e->allow & allow) != 0)
map[i++] = ending;
}
assert(i > 0);
// Load the ending
ending = map[SeedModChance(16, i, seed)];
// Override possible CZG_*FREE; this must be a real gender,
// otherwise we get overflow when modifying the adjectivum.
gender = name_czech_subst_ending[ending].gender;
assert(gender != CZG_FREE && gender != CZG_NFREE);
}
if (do_prefix && (name_czech_adj[prefix].choose & choose) != choose) {
// Throw away non-matching prefix.
do_prefix = false;
}
// Now finally construct the name
if (do_prefix) {
CzechPattern pattern = name_czech_adj[prefix].pattern;
size_t endpos;
strecat(buf, name_czech_adj[prefix].name, last);
endpos = strlen(buf) - 1;
/* Find the first character in a UTF-8 sequence */
while (GB(buf[endpos], 6, 2) == 2) endpos--;
if (gender == CZG_SMASC && pattern == CZP_PRIVL) {
/* -ovX -> -uv */
buf[endpos - 2] = 'u';
assert(buf[endpos - 1] == 'v');
buf[endpos] = '\0';
} else {
strecpy(buf + endpos, name_czech_patmod[gender][pattern], last);
}
strecat(buf, " ", last);
}
if (dynamic_subst) {
strecat(buf, name_czech_subst_stem[stem].name, last);
if (postfix < lengthof(name_czech_subst_postfix)) {
const char *poststr = name_czech_subst_postfix[postfix];
const char *endstr = name_czech_subst_ending[ending].name;
size_t postlen, endlen;
postlen = strlen(poststr);
endlen = strlen(endstr);
assert(postlen > 0 && endlen > 0);
// Kill the "avava" and "Jananna"-like cases
if (postlen < 2 || postlen > endlen || (
(poststr[1] != 'v' || poststr[1] != endstr[1]) &&
poststr[2] != endstr[1])
) {
size_t buflen;
strecat(buf, poststr, last);
buflen = strlen(buf);
// k-i -> c-i, h-i -> z-i
if (endstr[0] == 'i') {
switch (buf[buflen - 1]) {
case 'k': buf[buflen - 1] = 'c'; break;
case 'h': buf[buflen - 1] = 'z'; break;
default: break;
}
}
}
}
strecat(buf, name_czech_subst_ending[ending].name, last);
} else {
strecat(buf, name_czech_subst_full[stem].name, last);
}
if (do_suffix) {
strecat(buf, " ", last);
strecat(buf, name_czech_suffix[suffix], last);
}
return 0;
}
static byte MakeRomanianTownName(char *buf, uint32 seed, const char *last)
{
strecpy(buf, name_romanian_real[SeedChance(0, lengthof(name_romanian_real), seed)], last);
return 0;
}
static byte MakeSlovakTownName(char *buf, uint32 seed, const char *last)
{
strecpy(buf, name_slovak_real[SeedChance(0, lengthof(name_slovak_real), seed)], last);
return 0;
}
static byte MakeNorwegianTownName(char *buf, uint32 seed, const char *last)
{
strecpy(buf, "", last);
// Use first 4 bit from seed to decide whether or not this town should
// have a real name 3/16 chance. Bit 0-3
if (SeedChance(0, 15, seed) < 3) {
// Use 7bit for the realname table index. Bit 4-10
strecat(buf, name_norwegian_real[SeedChance(4, lengthof(name_norwegian_real), seed)], last);
} else {
// Use 7bit for the first fake part. Bit 4-10
strecat(buf, name_norwegian_1[SeedChance(4, lengthof(name_norwegian_1), seed)], last);
// Use 7bit for the last fake part. Bit 11-17
strecat(buf, name_norwegian_2[SeedChance(11, lengthof(name_norwegian_2), seed)], last);
}
return 0;
}
static byte MakeHungarianTownName(char *buf, uint32 seed, const char *last)
{
uint i;
//null terminates the string for strcat
strecpy(buf, "", last);
if (SeedChance(12, 15, seed) < 3) {
strecat(buf, name_hungarian_real[SeedChance(0, lengthof(name_hungarian_real), seed)], last);
} else {
// optional first segment
i = SeedChance(3, lengthof(name_hungarian_1) * 3, seed);
if (i < lengthof(name_hungarian_1))
strecat(buf, name_hungarian_1[i], last);
// mandatory middle segments
strecat(buf, name_hungarian_2[SeedChance(3, lengthof(name_hungarian_2), seed)], last);
strecat(buf, name_hungarian_3[SeedChance(6, lengthof(name_hungarian_3), seed)], last);
// optional last segment
i = SeedChance(10, lengthof(name_hungarian_4) * 3, seed);
if (i < lengthof(name_hungarian_4)) {
strecat(buf, name_hungarian_4[i], last);
}
}
return 0;
}
static byte MakeSwissTownName(char *buf, uint32 seed, const char *last)
{
strecpy(buf, name_swiss_real[SeedChance(0, lengthof(name_swiss_real), seed)], last);
return 0;
}
static byte MakeDanishTownName(char *buf, uint32 seed, const char *last)
{
int i;
// null terminates the string for strcat
strecpy(buf, "", last);
// optional first segment
i = SeedChanceBias(0, lengthof(name_danish_1), seed, 50);
if (i >= 0)
strecat(buf, name_danish_1[i], last);
// middle segments removed as this algorithm seems to create much more realistic names
strecat(buf, name_danish_2[SeedChance( 7, lengthof(name_danish_2), seed)], last);
strecat(buf, name_danish_3[SeedChance(16, lengthof(name_danish_3), seed)], last);
return 0;
}
static byte MakeTurkishTownName(char *buf, uint32 seed, const char *last)
{
uint i;
// null terminates the string for strcat
strecpy(buf, "", last);
if ((i = SeedModChance(0, 5, seed)) == 0) {
strecat(buf, name_turkish_prefix[SeedModChance( 2, lengthof(name_turkish_prefix), seed)], last);
// middle segment
strecat(buf, name_turkish_middle[SeedModChance( 4, lengthof(name_turkish_middle), seed)], last);
// optional suffix
if (SeedModChance(0, 7, seed) == 0) {
strecat(buf, name_turkish_suffix[SeedModChance( 10, lengthof(name_turkish_suffix), seed)], last);
}
} else {
if (i == 1 || i == 2) {
strecat(buf, name_turkish_prefix[SeedModChance( 2, lengthof(name_turkish_prefix), seed)], last);
strecat(buf, name_turkish_suffix[SeedModChance( 4, lengthof(name_turkish_suffix), seed)], last);
} else {
strecat(buf, name_turkish_real[SeedModChance( 4, lengthof(name_turkish_real), seed)], last);
}
}
return 0;
}
static const char *mascul_femin_italian[] = {
"o",
"a",
};
static byte MakeItalianTownName(char *buf, uint32 seed, const char *last)
{
strecpy(buf, "", last);
if (SeedModChance(0, 6, seed) == 0) { // real city names
strecat(buf, name_italian_real[SeedModChance(4, lengthof(name_italian_real), seed)], last);
} else {
uint i;
if (SeedModChance(0, 8, seed) == 0) { // prefix
strecat(buf, name_italian_pref[SeedModChance(11, lengthof(name_italian_pref), seed)], last);
}
i = SeedChance(0, 2, seed);
if (i == 0) { // masculine form
strecat(buf, name_italian_1m[SeedModChance(4, lengthof(name_italian_1m), seed)], last);
} else { // feminine form
strecat(buf, name_italian_1f[SeedModChance(4, lengthof(name_italian_1f), seed)], last);
}
if (SeedModChance(3, 3, seed) == 0) {
strecat(buf, name_italian_2[SeedModChance(11, lengthof(name_italian_2), seed)], last);
strecat(buf,mascul_femin_italian[i], last);
} else {
strecat(buf, name_italian_2i[SeedModChance(16, lengthof(name_italian_2i), seed)], last);
}
if (SeedModChance(15, 4, seed) == 0) {
if (SeedModChance(5, 2, seed) == 0) { // generic suffix
strecat(buf, name_italian_3[SeedModChance(4, lengthof(name_italian_3), seed)], last);
} else { // river name suffix
strecat(buf, name_italian_river1[SeedModChance(4, lengthof(name_italian_river1), seed)], last);
strecat(buf, name_italian_river2[SeedModChance(16, lengthof(name_italian_river2), seed)], last);
}
}
}
return 0;
}
static byte MakeCatalanTownName(char *buf, uint32 seed, const char *last)
{
strecpy(buf, "", last);
if (SeedModChance(0, 3, seed) == 0) { // real city names
strecat(buf, name_catalan_real[SeedModChance(4, lengthof(name_catalan_real), seed)], last);
} else {
uint i;
if (SeedModChance(0, 2, seed) == 0) { // prefix
strecat(buf, name_catalan_pref[SeedModChance(11, lengthof(name_catalan_pref), seed)], last);
}
i = SeedChance(0, 2, seed);
if (i == 0) { // masculine form
strecat(buf, name_catalan_1m[SeedModChance(4, lengthof(name_catalan_1m), seed)], last);
strecat(buf, name_catalan_2m[SeedModChance(11, lengthof(name_catalan_2m), seed)], last);
} else { // feminine form
strecat(buf, name_catalan_1f[SeedModChance(4, lengthof(name_catalan_1f), seed)], last);
strecat(buf, name_catalan_2f[SeedModChance(11, lengthof(name_catalan_2f), seed)], last);
}
if (SeedModChance(15, 5, seed) == 0) {
if (SeedModChance(5, 2, seed) == 0) { // generic suffix
strecat(buf, name_catalan_3[SeedModChance(4, lengthof(name_catalan_3), seed)], last);
} else { // river name suffix
strecat(buf, name_catalan_river1[SeedModChance(4, lengthof(name_catalan_river1), seed)], last);
}
}
}
return 0;
}
TownNameGenerator * const _town_name_generators[] =
{
MakeEnglishOriginalTownName,
MakeFrenchTownName,
MakeGermanTownName,
MakeEnglishAdditionalTownName,
MakeSpanishTownName,
MakeSillyTownName,
MakeSwedishTownName,
MakeDutchTownName,
MakeFinnishTownName,
MakePolishTownName,
MakeSlovakTownName,
MakeNorwegianTownName,
MakeHungarianTownName,
MakeAustrianTownName,
MakeRomanianTownName,
MakeCzechTownName,
MakeSwissTownName,
MakeDanishTownName,
MakeTurkishTownName,
MakeItalianTownName,
MakeCatalanTownName,
};
// DO WE NEED THIS ANY MORE?
#define FIXNUM(x, y, z) (((((x) << 16) / (y)) + 1) << z)
uint32 GetOldTownName(uint32 townnameparts, byte old_town_name_type)
{
switch (old_town_name_type) {
case 0: case 3: /* English, American */
/* Already OK */
return townnameparts;
case 1: /* French */
/* For some reason 86 needs to be subtracted from townnameparts
* 0000 0000 0000 0000 0000 0000 1111 1111 */
return FIXNUM(townnameparts - 86, lengthof(name_french_real), 0);
case 2: /* German */
DEBUG(misc, 0, "German Townnames are buggy (%d)", townnameparts);
return townnameparts;
case 4: /* Latin-American */
/* 0000 0000 0000 0000 0000 0000 1111 1111 */
return FIXNUM(townnameparts, lengthof(name_spanish_real), 0);
case 5: /* Silly */
/* NUM_SILLY_1 - lower 16 bits
* NUM_SILLY_2 - upper 16 bits without leading 1 (first 8 bytes)
* 1000 0000 2222 2222 0000 0000 1111 1111 */
return FIXNUM(townnameparts, lengthof(name_silly_1), 0) | FIXNUM(GB(townnameparts, 16, 8), lengthof(name_silly_2), 16);
}
return 0;
}