vrshoot

annotate libs/assimp/irrXML/irrString.h @ 3:c179c72369be

rename candy->vr
author John Tsiombikas <nuclear@member.fsf.org>
date Mon, 03 Feb 2014 08:52:13 +0200
parents
children
rev   line source
nuclear@0 1 // Copyright (C) 2002-2005 Nikolaus Gebhardt
nuclear@0 2 // This file is part of the "Irrlicht Engine" and the "irrXML" project.
nuclear@0 3 // For conditions of distribution and use, see copyright notice in irrlicht.h and irrXML.h
nuclear@0 4
nuclear@0 5 #ifndef __IRR_STRING_H_INCLUDED__
nuclear@0 6 #define __IRR_STRING_H_INCLUDED__
nuclear@0 7
nuclear@0 8 #include "irrTypes.h"
nuclear@0 9
nuclear@0 10 namespace irr
nuclear@0 11 {
nuclear@0 12 namespace core
nuclear@0 13 {
nuclear@0 14
nuclear@0 15 //! Very simple string class with some useful features.
nuclear@0 16 /** string<c8> and string<wchar_t> work both with unicode AND ascii,
nuclear@0 17 so you can assign unicode to string<c8> and ascii to string<wchar_t>
nuclear@0 18 (and the other way round) if your ever would want to.
nuclear@0 19 Note that the conversation between both is not done using an encoding.
nuclear@0 20
nuclear@0 21 Known bugs:
nuclear@0 22 Special characters like 'Ä', 'Ü' and 'Ö' are ignored in the
nuclear@0 23 methods make_upper, make_lower and equals_ignore_case.
nuclear@0 24 */
nuclear@0 25 template <class T>
nuclear@0 26 class string
nuclear@0 27 {
nuclear@0 28 public:
nuclear@0 29
nuclear@0 30 //! Default constructor
nuclear@0 31 string()
nuclear@0 32 : array(0), allocated(1), used(1)
nuclear@0 33 {
nuclear@0 34 array = new T[1];
nuclear@0 35 array[0] = 0x0;
nuclear@0 36 }
nuclear@0 37
nuclear@0 38
nuclear@0 39
nuclear@0 40 //! Constructor
nuclear@0 41 string(const string<T>& other)
nuclear@0 42 : array(0), allocated(0), used(0)
nuclear@0 43 {
nuclear@0 44 *this = other;
nuclear@0 45 }
nuclear@0 46
nuclear@0 47
nuclear@0 48 //! Constructs a string from an int
nuclear@0 49 string(int number)
nuclear@0 50 : array(0), allocated(0), used(0)
nuclear@0 51 {
nuclear@0 52 // store if negative and make positive
nuclear@0 53
nuclear@0 54 bool negative = false;
nuclear@0 55 if (number < 0)
nuclear@0 56 {
nuclear@0 57 number *= -1;
nuclear@0 58 negative = true;
nuclear@0 59 }
nuclear@0 60
nuclear@0 61 // temporary buffer for 16 numbers
nuclear@0 62
nuclear@0 63 c8 tmpbuf[16];
nuclear@0 64 tmpbuf[15] = 0;
nuclear@0 65 s32 idx = 15;
nuclear@0 66
nuclear@0 67 // special case '0'
nuclear@0 68
nuclear@0 69 if (!number)
nuclear@0 70 {
nuclear@0 71 tmpbuf[14] = '0';
nuclear@0 72 *this = &tmpbuf[14];
nuclear@0 73 return;
nuclear@0 74 }
nuclear@0 75
nuclear@0 76 // add numbers
nuclear@0 77
nuclear@0 78 while(number && idx)
nuclear@0 79 {
nuclear@0 80 idx--;
nuclear@0 81 tmpbuf[idx] = (c8)('0' + (number % 10));
nuclear@0 82 number = number / 10;
nuclear@0 83 }
nuclear@0 84
nuclear@0 85 // add sign
nuclear@0 86
nuclear@0 87 if (negative)
nuclear@0 88 {
nuclear@0 89 idx--;
nuclear@0 90 tmpbuf[idx] = '-';
nuclear@0 91 }
nuclear@0 92
nuclear@0 93 *this = &tmpbuf[idx];
nuclear@0 94 }
nuclear@0 95
nuclear@0 96
nuclear@0 97
nuclear@0 98 //! Constructor for copying a string from a pointer with a given lenght
nuclear@0 99 template <class B>
nuclear@0 100 string(const B* c, s32 lenght)
nuclear@0 101 : array(0), allocated(0), used(0)
nuclear@0 102 {
nuclear@0 103 if (!c)
nuclear@0 104 return;
nuclear@0 105
nuclear@0 106 allocated = used = lenght+1;
nuclear@0 107 array = new T[used];
nuclear@0 108
nuclear@0 109 for (s32 l = 0; l<lenght; ++l)
nuclear@0 110 array[l] = (T)c[l];
nuclear@0 111
nuclear@0 112 array[lenght] = 0;
nuclear@0 113 }
nuclear@0 114
nuclear@0 115
nuclear@0 116
nuclear@0 117 //! Constructor for unicode and ascii strings
nuclear@0 118 template <class B>
nuclear@0 119 string(const B* c)
nuclear@0 120 : array(0),allocated(0), used(0)
nuclear@0 121 {
nuclear@0 122 *this = c;
nuclear@0 123 }
nuclear@0 124
nuclear@0 125
nuclear@0 126
nuclear@0 127 //! destructor
nuclear@0 128 ~string()
nuclear@0 129 {
nuclear@0 130 delete [] array;
nuclear@0 131 }
nuclear@0 132
nuclear@0 133
nuclear@0 134
nuclear@0 135 //! Assignment operator
nuclear@0 136 string<T>& operator=(const string<T>& other)
nuclear@0 137 {
nuclear@0 138 if (this == &other)
nuclear@0 139 return *this;
nuclear@0 140
nuclear@0 141 delete [] array;
nuclear@0 142 allocated = used = other.size()+1;
nuclear@0 143 array = new T[used];
nuclear@0 144
nuclear@0 145 const T* p = other.c_str();
nuclear@0 146 for (s32 i=0; i<used; ++i, ++p)
nuclear@0 147 array[i] = *p;
nuclear@0 148
nuclear@0 149 return *this;
nuclear@0 150 }
nuclear@0 151
nuclear@0 152
nuclear@0 153
nuclear@0 154 //! Assignment operator for strings, ascii and unicode
nuclear@0 155 template <class B>
nuclear@0 156 string<T>& operator=(const B* c)
nuclear@0 157 {
nuclear@0 158 if (!c)
nuclear@0 159 {
nuclear@0 160 if (!array)
nuclear@0 161 {
nuclear@0 162 array = new T[1];
nuclear@0 163 allocated = 1;
nuclear@0 164 used = 1;
nuclear@0 165 }
nuclear@0 166 array[0] = 0x0;
nuclear@0 167 return *this;
nuclear@0 168 }
nuclear@0 169
nuclear@0 170 if ((void*)c == (void*)array)
nuclear@0 171 return *this;
nuclear@0 172
nuclear@0 173 s32 len = 0;
nuclear@0 174 const B* p = c;
nuclear@0 175 while(*p)
nuclear@0 176 {
nuclear@0 177 ++len;
nuclear@0 178 ++p;
nuclear@0 179 }
nuclear@0 180
nuclear@0 181 // we'll take the old string for a while, because the new string could be
nuclear@0 182 // a part of the current string.
nuclear@0 183 T* oldArray = array;
nuclear@0 184
nuclear@0 185 allocated = used = len+1;
nuclear@0 186 array = new T[used];
nuclear@0 187
nuclear@0 188 for (s32 l = 0; l<len+1; ++l)
nuclear@0 189 array[l] = (T)c[l];
nuclear@0 190
nuclear@0 191 delete [] oldArray;
nuclear@0 192 return *this;
nuclear@0 193 }
nuclear@0 194
nuclear@0 195 //! Add operator for other strings
nuclear@0 196 string<T> operator+(const string<T>& other)
nuclear@0 197 {
nuclear@0 198 string<T> str(*this);
nuclear@0 199 str.append(other);
nuclear@0 200
nuclear@0 201 return str;
nuclear@0 202 }
nuclear@0 203
nuclear@0 204 //! Add operator for strings, ascii and unicode
nuclear@0 205 template <class B>
nuclear@0 206 string<T> operator+(const B* c)
nuclear@0 207 {
nuclear@0 208 string<T> str(*this);
nuclear@0 209 str.append(c);
nuclear@0 210
nuclear@0 211 return str;
nuclear@0 212 }
nuclear@0 213
nuclear@0 214
nuclear@0 215
nuclear@0 216 //! Direct access operator
nuclear@0 217 T& operator [](const s32 index) const
nuclear@0 218 {
nuclear@0 219 _IRR_DEBUG_BREAK_IF(index>=used) // bad index
nuclear@0 220
nuclear@0 221 return array[index];
nuclear@0 222 }
nuclear@0 223
nuclear@0 224
nuclear@0 225 //! Comparison operator
nuclear@0 226 bool operator ==(const T* str) const
nuclear@0 227 {
nuclear@0 228 int i;
nuclear@0 229 for(i=0; array[i] && str[i]; ++i)
nuclear@0 230 if (array[i] != str[i])
nuclear@0 231 return false;
nuclear@0 232
nuclear@0 233 return !array[i] && !str[i];
nuclear@0 234 }
nuclear@0 235
nuclear@0 236
nuclear@0 237
nuclear@0 238 //! Comparison operator
nuclear@0 239 bool operator ==(const string<T>& other) const
nuclear@0 240 {
nuclear@0 241 for(s32 i=0; array[i] && other.array[i]; ++i)
nuclear@0 242 if (array[i] != other.array[i])
nuclear@0 243 return false;
nuclear@0 244
nuclear@0 245 return used == other.used;
nuclear@0 246 }
nuclear@0 247
nuclear@0 248
nuclear@0 249
nuclear@0 250 //! Is smaller operator
nuclear@0 251 bool operator <(const string<T>& other) const
nuclear@0 252 {
nuclear@0 253 for(s32 i=0; array[i] && other.array[i]; ++i)
nuclear@0 254 if (array[i] != other.array[i])
nuclear@0 255 return (array[i] < other.array[i]);
nuclear@0 256
nuclear@0 257 return used < other.used;
nuclear@0 258 }
nuclear@0 259
nuclear@0 260
nuclear@0 261
nuclear@0 262 //! Equals not operator
nuclear@0 263 bool operator !=(const string<T>& other) const
nuclear@0 264 {
nuclear@0 265 return !(*this == other);
nuclear@0 266 }
nuclear@0 267
nuclear@0 268
nuclear@0 269
nuclear@0 270 //! Returns length of string
nuclear@0 271 /** \return Returns length of the string in characters. */
nuclear@0 272 s32 size() const
nuclear@0 273 {
nuclear@0 274 return used-1;
nuclear@0 275 }
nuclear@0 276
nuclear@0 277
nuclear@0 278
nuclear@0 279 //! Returns character string
nuclear@0 280 /** \return Returns pointer to C-style zero terminated string. */
nuclear@0 281 const T* c_str() const
nuclear@0 282 {
nuclear@0 283 return array;
nuclear@0 284 }
nuclear@0 285
nuclear@0 286
nuclear@0 287
nuclear@0 288 //! Makes the string lower case.
nuclear@0 289 void make_lower()
nuclear@0 290 {
nuclear@0 291 const T A = (T)'A';
nuclear@0 292 const T Z = (T)'Z';
nuclear@0 293 const T diff = (T)'a' - A;
nuclear@0 294
nuclear@0 295 for (s32 i=0; i<used; ++i)
nuclear@0 296 {
nuclear@0 297 if (array[i]>=A && array[i]<=Z)
nuclear@0 298 array[i] += diff;
nuclear@0 299 }
nuclear@0 300 }
nuclear@0 301
nuclear@0 302
nuclear@0 303
nuclear@0 304 //! Makes the string upper case.
nuclear@0 305 void make_upper()
nuclear@0 306 {
nuclear@0 307 const T a = (T)'a';
nuclear@0 308 const T z = (T)'z';
nuclear@0 309 const T diff = (T)'A' - a;
nuclear@0 310
nuclear@0 311 for (s32 i=0; i<used; ++i)
nuclear@0 312 {
nuclear@0 313 if (array[i]>=a && array[i]<=z)
nuclear@0 314 array[i] += diff;
nuclear@0 315 }
nuclear@0 316 }
nuclear@0 317
nuclear@0 318
nuclear@0 319
nuclear@0 320 //! Compares the string ignoring case.
nuclear@0 321 /** \param other: Other string to compare.
nuclear@0 322 \return Returns true if the string are equal ignoring case. */
nuclear@0 323 bool equals_ignore_case(const string<T>& other) const
nuclear@0 324 {
nuclear@0 325 for(s32 i=0; array[i] && other[i]; ++i)
nuclear@0 326 if (toLower(array[i]) != toLower(other[i]))
nuclear@0 327 return false;
nuclear@0 328
nuclear@0 329 return used == other.used;
nuclear@0 330 }
nuclear@0 331
nuclear@0 332
nuclear@0 333 //! compares the first n characters of the strings
nuclear@0 334 bool equalsn(const string<T>& other, int len)
nuclear@0 335 {
nuclear@0 336 int i;
nuclear@0 337 for(i=0; array[i] && other[i] && i < len; ++i)
nuclear@0 338 if (array[i] != other[i])
nuclear@0 339 return false;
nuclear@0 340
nuclear@0 341 // if one (or both) of the strings was smaller then they
nuclear@0 342 // are only equal if they have the same lenght
nuclear@0 343 return (i == len) || (used == other.used);
nuclear@0 344 }
nuclear@0 345
nuclear@0 346
nuclear@0 347 //! compares the first n characters of the strings
nuclear@0 348 bool equalsn(const T* str, int len)
nuclear@0 349 {
nuclear@0 350 int i;
nuclear@0 351 for(i=0; array[i] && str[i] && i < len; ++i)
nuclear@0 352 if (array[i] != str[i])
nuclear@0 353 return false;
nuclear@0 354
nuclear@0 355 // if one (or both) of the strings was smaller then they
nuclear@0 356 // are only equal if they have the same lenght
nuclear@0 357 return (i == len) || (array[i] == 0 && str[i] == 0);
nuclear@0 358 }
nuclear@0 359
nuclear@0 360
nuclear@0 361 //! Appends a character to this string
nuclear@0 362 /** \param character: Character to append. */
nuclear@0 363 void append(T character)
nuclear@0 364 {
nuclear@0 365 if (used + 1 > allocated)
nuclear@0 366 reallocate((s32)used + 1);
nuclear@0 367
nuclear@0 368 used += 1;
nuclear@0 369
nuclear@0 370 array[used-2] = character;
nuclear@0 371 array[used-1] = 0;
nuclear@0 372 }
nuclear@0 373
nuclear@0 374 //! Appends a string to this string
nuclear@0 375 /** \param other: String to append. */
nuclear@0 376 void append(const string<T>& other)
nuclear@0 377 {
nuclear@0 378 --used;
nuclear@0 379
nuclear@0 380 s32 len = other.size();
nuclear@0 381
nuclear@0 382 if (used + len + 1 > allocated)
nuclear@0 383 reallocate((s32)used + (s32)len + 1);
nuclear@0 384
nuclear@0 385 for (s32 l=0; l<len+1; ++l)
nuclear@0 386 array[l+used] = other[l];
nuclear@0 387
nuclear@0 388 used = used + len + 1;
nuclear@0 389 }
nuclear@0 390
nuclear@0 391
nuclear@0 392 //! Appends a string of the length l to this string.
nuclear@0 393 /** \param other: other String to append to this string.
nuclear@0 394 \param length: How much characters of the other string to add to this one. */
nuclear@0 395 void append(const string<T>& other, s32 length)
nuclear@0 396 {
nuclear@0 397 s32 len = other.size();
nuclear@0 398
nuclear@0 399 if (len < length)
nuclear@0 400 {
nuclear@0 401 append(other);
nuclear@0 402 return;
nuclear@0 403 }
nuclear@0 404
nuclear@0 405 len = length;
nuclear@0 406 --used;
nuclear@0 407
nuclear@0 408 if (used + len > allocated)
nuclear@0 409 reallocate((s32)used + (s32)len);
nuclear@0 410
nuclear@0 411 for (s32 l=0; l<len; ++l)
nuclear@0 412 array[l+used] = other[l];
nuclear@0 413
nuclear@0 414 used = used + len;
nuclear@0 415 }
nuclear@0 416
nuclear@0 417
nuclear@0 418 //! Reserves some memory.
nuclear@0 419 /** \param count: Amount of characters to reserve. */
nuclear@0 420 void reserve(s32 count)
nuclear@0 421 {
nuclear@0 422 if (count < allocated)
nuclear@0 423 return;
nuclear@0 424
nuclear@0 425 reallocate(count);
nuclear@0 426 }
nuclear@0 427
nuclear@0 428
nuclear@0 429 //! finds first occurrence of character in string
nuclear@0 430 /** \param c: Character to search for.
nuclear@0 431 \return Returns position where the character has been found,
nuclear@0 432 or -1 if not found. */
nuclear@0 433 s32 findFirst(T c) const
nuclear@0 434 {
nuclear@0 435 for (s32 i=0; i<used; ++i)
nuclear@0 436 if (array[i] == c)
nuclear@0 437 return i;
nuclear@0 438
nuclear@0 439 return -1;
nuclear@0 440 }
nuclear@0 441
nuclear@0 442 //! finds first occurrence of a character of a list in string
nuclear@0 443 /** \param c: List of strings to find. For example if the method
nuclear@0 444 should find the first occurance of 'a' or 'b', this parameter should be "ab".
nuclear@0 445 \param count: Amount of characters in the list. Ususally,
nuclear@0 446 this should be strlen(ofParameter1)
nuclear@0 447 \return Returns position where one of the character has been found,
nuclear@0 448 or -1 if not found. */
nuclear@0 449 s32 findFirstChar(T* c, int count) const
nuclear@0 450 {
nuclear@0 451 for (s32 i=0; i<used; ++i)
nuclear@0 452 for (int j=0; j<count; ++j)
nuclear@0 453 if (array[i] == c[j])
nuclear@0 454 return i;
nuclear@0 455
nuclear@0 456 return -1;
nuclear@0 457 }
nuclear@0 458
nuclear@0 459
nuclear@0 460 //! Finds first position of a character not in a given list.
nuclear@0 461 /** \param c: List of characters not to find. For example if the method
nuclear@0 462 should find the first occurance of a character not 'a' or 'b', this parameter should be "ab".
nuclear@0 463 \param count: Amount of characters in the list. Ususally,
nuclear@0 464 this should be strlen(ofParameter1)
nuclear@0 465 \return Returns position where the character has been found,
nuclear@0 466 or -1 if not found. */
nuclear@0 467 template <class B>
nuclear@0 468 s32 findFirstCharNotInList(B* c, int count) const
nuclear@0 469 {
nuclear@0 470 for (int i=0; i<used; ++i)
nuclear@0 471 {
nuclear@0 472 int j;
nuclear@0 473 for (j=0; j<count; ++j)
nuclear@0 474 if (array[i] == c[j])
nuclear@0 475 break;
nuclear@0 476
nuclear@0 477 if (j==count)
nuclear@0 478 return i;
nuclear@0 479 }
nuclear@0 480
nuclear@0 481 return -1;
nuclear@0 482 }
nuclear@0 483
nuclear@0 484 //! Finds last position of a character not in a given list.
nuclear@0 485 /** \param c: List of characters not to find. For example if the method
nuclear@0 486 should find the first occurance of a character not 'a' or 'b', this parameter should be "ab".
nuclear@0 487 \param count: Amount of characters in the list. Ususally,
nuclear@0 488 this should be strlen(ofParameter1)
nuclear@0 489 \return Returns position where the character has been found,
nuclear@0 490 or -1 if not found. */
nuclear@0 491 template <class B>
nuclear@0 492 s32 findLastCharNotInList(B* c, int count) const
nuclear@0 493 {
nuclear@0 494 for (int i=used-2; i>=0; --i)
nuclear@0 495 {
nuclear@0 496 int j;
nuclear@0 497 for (j=0; j<count; ++j)
nuclear@0 498 if (array[i] == c[j])
nuclear@0 499 break;
nuclear@0 500
nuclear@0 501 if (j==count)
nuclear@0 502 return i;
nuclear@0 503 }
nuclear@0 504
nuclear@0 505 return -1;
nuclear@0 506 }
nuclear@0 507
nuclear@0 508 //! finds next occurrence of character in string
nuclear@0 509 /** \param c: Character to search for.
nuclear@0 510 \param startPos: Position in string to start searching.
nuclear@0 511 \return Returns position where the character has been found,
nuclear@0 512 or -1 if not found. */
nuclear@0 513 s32 findNext(T c, s32 startPos) const
nuclear@0 514 {
nuclear@0 515 for (s32 i=startPos; i<used; ++i)
nuclear@0 516 if (array[i] == c)
nuclear@0 517 return i;
nuclear@0 518
nuclear@0 519 return -1;
nuclear@0 520 }
nuclear@0 521
nuclear@0 522
nuclear@0 523 //! finds last occurrence of character in string
nuclear@0 524 //! \param c: Character to search for.
nuclear@0 525 //! \return Returns position where the character has been found,
nuclear@0 526 //! or -1 if not found.
nuclear@0 527 s32 findLast(T c) const
nuclear@0 528 {
nuclear@0 529 for (s32 i=used-1; i>=0; --i)
nuclear@0 530 if (array[i] == c)
nuclear@0 531 return i;
nuclear@0 532
nuclear@0 533 return -1;
nuclear@0 534 }
nuclear@0 535
nuclear@0 536
nuclear@0 537 //! Returns a substring
nuclear@0 538 //! \param begin: Start of substring.
nuclear@0 539 //! \param length: Length of substring.
nuclear@0 540 string<T> subString(s32 begin, s32 length)
nuclear@0 541 {
nuclear@0 542 if (length <= 0)
nuclear@0 543 return string<T>("");
nuclear@0 544
nuclear@0 545 string<T> o;
nuclear@0 546 o.reserve(length+1);
nuclear@0 547
nuclear@0 548 for (s32 i=0; i<length; ++i)
nuclear@0 549 o.array[i] = array[i+begin];
nuclear@0 550
nuclear@0 551 o.array[length] = 0;
nuclear@0 552 o.used = o.allocated;
nuclear@0 553
nuclear@0 554 return o;
nuclear@0 555 }
nuclear@0 556
nuclear@0 557
nuclear@0 558 void operator += (T c)
nuclear@0 559 {
nuclear@0 560 append(c);
nuclear@0 561 }
nuclear@0 562
nuclear@0 563 void operator += (const string<T>& other)
nuclear@0 564 {
nuclear@0 565 append(other);
nuclear@0 566 }
nuclear@0 567
nuclear@0 568 void operator += (int i)
nuclear@0 569 {
nuclear@0 570 append(string<T>(i));
nuclear@0 571 }
nuclear@0 572
nuclear@0 573 //! replaces all characters of a special type with another one
nuclear@0 574 void replace(T toReplace, T replaceWith)
nuclear@0 575 {
nuclear@0 576 for (s32 i=0; i<used; ++i)
nuclear@0 577 if (array[i] == toReplace)
nuclear@0 578 array[i] = replaceWith;
nuclear@0 579 }
nuclear@0 580
nuclear@0 581 //! trims the string.
nuclear@0 582 /** Removes whitespace from begin and end of the string. */
nuclear@0 583 void trim()
nuclear@0 584 {
nuclear@0 585 const char whitespace[] = " \t\n";
nuclear@0 586 const int whitespacecount = 3;
nuclear@0 587
nuclear@0 588 // find start and end of real string without whitespace
nuclear@0 589 int begin = findFirstCharNotInList(whitespace, whitespacecount);
nuclear@0 590 if (begin == -1)
nuclear@0 591 return;
nuclear@0 592
nuclear@0 593 int end = findLastCharNotInList(whitespace, whitespacecount);
nuclear@0 594 if (end == -1)
nuclear@0 595 return;
nuclear@0 596
nuclear@0 597 *this = subString(begin, (end +1) - begin);
nuclear@0 598 }
nuclear@0 599
nuclear@0 600
nuclear@0 601 //! Erases a character from the string. May be slow, because all elements
nuclear@0 602 //! following after the erased element have to be copied.
nuclear@0 603 //! \param index: Index of element to be erased.
nuclear@0 604 void erase(int index)
nuclear@0 605 {
nuclear@0 606 _IRR_DEBUG_BREAK_IF(index>=used || index<0) // access violation
nuclear@0 607
nuclear@0 608 for (int i=index+1; i<used; ++i)
nuclear@0 609 array[i-1] = array[i];
nuclear@0 610
nuclear@0 611 --used;
nuclear@0 612 }
nuclear@0 613
nuclear@0 614
nuclear@0 615
nuclear@0 616 private:
nuclear@0 617
nuclear@0 618 //! Returns a character converted to lower case
nuclear@0 619 T toLower(const T& t) const
nuclear@0 620 {
nuclear@0 621 if (t>=(T)'A' && t<=(T)'Z')
nuclear@0 622 return t + ((T)'a' - (T)'A');
nuclear@0 623 else
nuclear@0 624 return t;
nuclear@0 625 }
nuclear@0 626
nuclear@0 627 //! Reallocate the array, make it bigger or smaler
nuclear@0 628 void reallocate(s32 new_size)
nuclear@0 629 {
nuclear@0 630 T* old_array = array;
nuclear@0 631
nuclear@0 632 array = new T[new_size];
nuclear@0 633 allocated = new_size;
nuclear@0 634
nuclear@0 635 s32 amount = used < new_size ? used : new_size;
nuclear@0 636 for (s32 i=0; i<amount; ++i)
nuclear@0 637 array[i] = old_array[i];
nuclear@0 638
nuclear@0 639 if (allocated < used)
nuclear@0 640 used = allocated;
nuclear@0 641
nuclear@0 642 delete [] old_array;
nuclear@0 643 }
nuclear@0 644
nuclear@0 645
nuclear@0 646 //--- member variables
nuclear@0 647
nuclear@0 648 T* array;
nuclear@0 649 s32 allocated;
nuclear@0 650 s32 used;
nuclear@0 651 };
nuclear@0 652
nuclear@0 653
nuclear@0 654 //! Typedef for character strings
nuclear@0 655 typedef string<irr::c8> stringc;
nuclear@0 656
nuclear@0 657 //! Typedef for wide character strings
nuclear@0 658 typedef string<wchar_t> stringw;
nuclear@0 659
nuclear@0 660 } // end namespace core
nuclear@0 661 } // end namespace irr
nuclear@0 662
nuclear@0 663 #endif
nuclear@0 664