/* Legal: Version: MPL 1.1 The contents of this file are subject to the Mozilla Public License Version 1.1 the "License"; you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.mozilla.org/MPL/ Software distributed under the License is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the specific language governing rights and limitations under the License. The Original Code is the YSI framework. The Initial Developer of the Original Code is Alex "Y_Less" Cole. Portions created by the Initial Developer are Copyright C 2011 the Initial Developer. All Rights Reserved. Contributors: Y_Less koolk JoeBullet/Google63 g_aSlice/Slice Misiur samphunter tianmeta maddinat0r spacemud Crayder Dayvison Ahmad45123 Zeex irinel1996 Yiin- Chaprnks Konstantinos Masterchen09 Southclaws PatchwerkQWER m0k1 paulommu udan111 Thanks: JoeBullet/Google63 - Handy arbitrary ASM jump code using SCTRL. ZeeX - Very productive conversations. koolk - IsPlayerinAreaEx code. TheAlpha - Danish translation. breadfish - German translation. Fireburn - Dutch translation. yom - French translation. 50p - Polish translation. Zamaroht - Spanish translation. Los - Portuguese translation. Dracoblue, sintax, mabako, Xtreme, other coders - Producing other modes for me to strive to better. Pixels^ - Running XScripters where the idea was born. Matite - Pestering me to release it and using it. Very special thanks to: Thiadmer - PAWN, whose limits continue to amaze me! Kye/Kalcor - SA:MP. SA:MP Team past, present and future - SA:MP. Optional plugins: Gamer_Z - GPS. Incognito - Streamer. Me - sscanf2, fixes2, Whirlpool. */ // This is redefined below, don't worry. It's like this so the function // prototypes can use a familiar syntax. #define BitArray:%1<%2> Bit:%1[%2] #if cellbits == 32 #define CELLSHIFT (5) #else #if cellbits == 64 #define CELLSHIFT (6) #else #if cellbits == 16 #define CELLSHIFT (4) #else #error Unkown cell size #endif #endif #endif /*-------------------------------------------------------------------------*//** * Number of bits required. * * Number of cells required for the bit array. * *//*------------------------------------------------------------------------**/ // If this ever changes, update the size reference in y_users. P:D(Bit_Bits(size)); #define Bit_Bits(%1) (((%1)+cellbits-1)/cellbits) /*-------------------------------------------------------------------------*//** * Value to get the slot for. * * The true array slot for this value. * *//*------------------------------------------------------------------------**/ P:D(Bit_Slot(value)); #define Bit_Slot(%1) ((_:%1)>>>CELLSHIFT) /*-------------------------------------------------------------------------*//** * Value to get the mask for * * The bit in the array slot to use. * *//*------------------------------------------------------------------------**/ P:D(Bit_Mask(value)); #define Bit_Mask(%1) (Bit:(1<<((_:%1)&cellbits-1))) /*-------------------------------------------------------------------------*//** * Array of bits. * Bit slot. * * State of the provided slot, 0 on fail. * * * Unsafe but faster for when you're sure you're within range. * *//*------------------------------------------------------------------------**/ P:D(bool:Bit_GetBit(BitArray:array<>,slot)); #define Bit_GetBit(%1,%2) (%1[(%2)>>>CELLSHIFT]&Bit:(1<<((%2)&cellbits-1))) /*-------------------------------------------------------------------------*//** * Array of bits. * Bit slot. * Size of array. * * State of the provided slot, 0 on fail. * * * - * * native Bit_Get(BitArray:array<>, slot); * * *//*------------------------------------------------------------------------**/ P:D(bool:Bit_Get(BitArray:array<>,slot)); #define Bit_Get(%1,%2) bool:Bit_GetBit(Bit:%1,_:%2) /*-------------------------------------------------------------------------*//** * Array of bits. * Bit slot. * * Sets the slot to 1. * *//*------------------------------------------------------------------------**/ P:D(Bit_Let(BitArray:array<>,slot)); #define Bit_Let(%1,%2) %1[(%2)>>>CELLSHIFT]|=Bit:(1<<((%2)&cellbits-1)) /*-------------------------------------------------------------------------*//** * Array of bits. * Bit slot. * * Sets the slot to 0. * *//*------------------------------------------------------------------------**/ P:D(Bit_Vet(BitArray:array<>,slot)); #define Bit_Vet(%1,%2) %1[(%2)>>>CELLSHIFT]&=Bit:~(1<<((%2)&cellbits-1)) /*-------------------------------------------------------------------------*//** * Array of bits. * Bit slot. * State to set the slot to. * Size of array. *//*------------------------------------------------------------------------**/ stock Bit_Set(BitArray:array<>, slot, bool:set)//, size = sizeof (array)) { //if (slot >>> CELLSHIFT >= size) return; if (set) Bit_Let(array, slot); else Bit_Vet(array, slot); } /*-------------------------------------------------------------------------*//** * Array of bits. * Bit slot. * State to set the slot to. * Size of array. * * Exactly the same as "Bit_Set", but as a macro not a function. * * native Bit_FastSet(BitArray:array<>, slot, bool:set, size = sizeof (array)); * * *//*------------------------------------------------------------------------**/ P:D(Bit_FastSet(BitArray:array<>,slot,bool:set,size = sizeof (array))); #define Bit_FastSet(%0,%1,%2) ((%2)?(Bit_Let(%0,(%1))):(Bit_Vet(%0,(%1)))) /*-------------------------------------------------------------------------*//** * Array to set all values of. * Wether to set them all 0 or 1. * Size of array. *//*------------------------------------------------------------------------**/ stock Bit_SetAll(BitArray:array<>, bool:set, size = sizeof (array)) { memset(_:array, set ? 0xFFFFFFFF : 0, size); } /*-------------------------------------------------------------------------*//** * Array to count. * Size of array. * * Number of 1s in the array. * * * Code from: * * * native Bit_Count(BitArray:array<>, size = sizeof (array)); * * *//*------------------------------------------------------------------------**/ #define Bit_Count Bit_GetCount stock Bit_GetCount(BitArray:array<>, size = sizeof (array)) { new count; for (new i = 0; i != size; ++i) { count += Cell_CountBits(array[i]); } return count; } stock Bit_Display(BitArray:array<>, size = sizeof (array)) { new ret[YSI_MAX_STRING], val; while (size--) { val = Cell_ReverseBits(array[size]); format(ret, sizeof (ret), "%016b%016b%s", val >>> 16, val & 0xFFFF, ret); } //P:7("Bit_Display called: %s, %i", ret, size); return ret; } #define bitsof(%0) (sizeof(%0)*cellbits) stock Iter_Func@Bits(start, BitArray:data<>, size = sizeof (data)) { P:3("Iter_Func@Bits called: %s, %i", Bit_Display(data, size), start); new cur, i = Bit_Slot(++start); if (i == size) { return -1; } // Blank out the lowest bits to get the lowest bit not yet used. if ((cur = _:(data[i] & ~(Bit_Mask(start) - Bit:1)))) { P:7("Iter_Func@Bits: %d %d %d %d", cur, _:data[i], start, _:~(Bit_Mask(start) - Bit:1)); // Bits left in the current cell. return Cell_GetLowestBit(cur) + (i << CELLSHIFT); } while (++i != size) { if ((cur = _:data[i])) { return Cell_GetLowestBit(cur) + (i << CELLSHIFT); } } return -1; } #define Iterator@Bits iterstart(-1) stock Iter_Func@Blanks(start, BitArray:data<>, size = sizeof (data)) { P:3("Iter_Func@Blanks called: %s, %i", Bit_Display(data, size), start); new cur, i = Bit_Slot(++start); if (i == size) { return -1; } if ((cur = _:(~data[i] & ~(Bit_Mask(start) - Bit:1)))) { // Bits left in the current cell. return Cell_GetLowestBit(cur) + (i << CELLSHIFT); } while (++i != size) { if ((cur = ~_:data[i])) { return Cell_GetLowestBit(cur) + (i << CELLSHIFT); } } return -1; } #define Iterator@Blanks iterstart(-1) #define bits<%1> Bit_Bits(%1) #undef BitArray #define BitArray:%1<%2> Bit:%1[bits<%2>]