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git://xwords.git.sourceforge.net/gitroot/xwords/xwords
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240 lines
6.4 KiB
C
240 lines
6.4 KiB
C
/* -*-mode: C; fill-column: 78; c-basic-offset: 4; -*- */
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/*
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* Copyright 2000 by Eric House (xwords@eehouse.org). All rights reserved.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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*/
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/* #include <assert.h> */
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#include "pool.h"
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#include "dictnry.h"
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#include "xwstream.h"
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#define pEND 0x70454e44
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// #define BLANKS_FIRST 1
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struct PoolContext {
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XP_U8* lettersLeft;
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XP_U16 numTilesLeft;
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XP_U16 numFaces;
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#ifdef BLANKS_FIRST
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XP_S16 blankIndex;
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#endif
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MPSLOT
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};
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PoolContext*
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pool_make( MPFORMAL_NOCOMMA )
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{
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PoolContext* result = (PoolContext*)XP_MALLOC(mpool, sizeof(*result) );
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if ( result != NULL ) {
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XP_MEMSET( result, 0, sizeof( *result ) );
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MPASSIGN(result->mpool, mpool);
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#ifdef BLANKS_FIRST
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result->blankIndex = -1;
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#endif
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}
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return result;
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} /* pool_make */
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void
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pool_writeToStream( PoolContext* pool, XWStreamCtxt* stream )
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{
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stream_putU16( stream, pool->numTilesLeft );
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stream_putU16( stream, pool->numFaces );
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stream_putBytes( stream, pool->lettersLeft,
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(XP_U16)(pool->numFaces * sizeof(pool->lettersLeft[0])) );
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#ifdef DEBUG
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stream_putU32( stream, pEND );
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#endif
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} /* pool_writeToStream */
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PoolContext*
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pool_makeFromStream( MPFORMAL XWStreamCtxt* stream )
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{
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PoolContext* pool = pool_make( MPPARM_NOCOMMA(mpool) );
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pool->numTilesLeft = stream_getU16( stream );
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pool->numFaces = stream_getU16( stream );
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pool->lettersLeft = (XP_U8*)
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XP_MALLOC( mpool, pool->numFaces * sizeof(pool->lettersLeft[0]) );
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stream_getBytes( stream, pool->lettersLeft,
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(XP_U16)(pool->numFaces * sizeof(pool->lettersLeft[0])) );
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XP_ASSERT( stream_getU32( stream ) == pEND );
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return pool;
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} /* pool_makeFromStream */
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void
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pool_destroy( PoolContext* pool )
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{
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XP_ASSERT( pool != NULL );
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XP_FREE( pool->mpool, pool->lettersLeft );
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XP_FREE( pool->mpool, pool );
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} /* pool_destroy */
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static Tile
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getNthPoolTile( PoolContext* pool, short index )
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{
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Tile result;
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/* given an array of counts of remaining letters, subtract each in turn
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from the total we seek until that total is at or below zero. The count
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that put it (or would put it) under 0 is the one to pick. */
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if ( 0 ) {
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#ifdef BLANKS_FIRST
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} else if ( pool->blankIndex >= 0 && pool->lettersLeft[pool->blankIndex] > 0 ) {
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result = pool->blankIndex;
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#endif
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} else {
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XP_S16 nextCount = index;
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Tile curLetter = 0;
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for ( ; ; ) {
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nextCount -= pool->lettersLeft[(short)curLetter];
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if ( nextCount < 0 ) {
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XP_ASSERT( pool->lettersLeft[(short)curLetter] > 0 );
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result = curLetter;
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break;
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} else {
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++curLetter;
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}
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}
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}
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return result;
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} /* getNthPoolTile */
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static Tile
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getRandomTile( PoolContext* pool )
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{
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/* There's a good little article on shuffling algorithms here:
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* http://en.wikipedia.org/wiki/Shuffle#Shuffling_algorithms This puppy
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* can definitely be improved. PENDING. But note that what's here still
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* works when tiles are re-inserted in the pool. Will need to reshuffle
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* in that case if move to shuffling once and just taking tiles off the
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* top thereafter.
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*/
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XP_U16 r = (XP_U16)XP_RANDOM();
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XP_U16 index = (XP_U16)(r % pool->numTilesLeft);
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Tile result = getNthPoolTile( pool, index );
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--pool->lettersLeft[result];
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--pool->numTilesLeft;
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return result;
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} /* getRandomTile */
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void
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pool_requestTiles( PoolContext* pool, Tile* tiles, XP_U8* maxNum )
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{
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XP_S16 numWanted = *maxNum;
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XP_U16 numWritten = 0;
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XP_ASSERT( numWanted >= 0 );
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while ( pool->numTilesLeft > 0 && numWanted-- ) {
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Tile t = getRandomTile( pool );
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*tiles++ = t;
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++numWritten;
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}
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*maxNum = (XP_U8)numWritten;
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} /* pool_requestTiles */
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void
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pool_replaceTiles( PoolContext* pool, TrayTileSet* tiles )
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{
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XP_U16 nTiles = tiles->nTiles;
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Tile* tilesP = tiles->tiles;
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while ( nTiles-- ) {
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Tile tile = *tilesP++; /* do I need to filter off high bits? */
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XP_ASSERT( nTiles < MAX_TRAY_TILES );
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XP_ASSERT( tile < pool->numFaces );
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++pool->lettersLeft[tile];
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++pool->numTilesLeft;
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}
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} /* pool_replaceTiles */
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void
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pool_removeTiles( PoolContext* pool, TrayTileSet* tiles )
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{
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XP_U16 nTiles = tiles->nTiles;
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Tile* tilesP = tiles->tiles;
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XP_ASSERT( nTiles <= MAX_TRAY_TILES );
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while ( nTiles-- ) {
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Tile tile = *tilesP++; /* do I need to filter off high bits? */
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XP_ASSERT( tile < pool->numFaces );
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XP_ASSERT( pool->lettersLeft[tile] > 0 );
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XP_ASSERT( pool->numTilesLeft > 0 );
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--pool->lettersLeft[tile];
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--pool->numTilesLeft;
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}
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} /* pool_removeTiles */
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XP_U16
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pool_getNTilesLeft( PoolContext* pool )
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{
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return pool->numTilesLeft;
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} /* pool_remainingTileCount */
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XP_U16
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pool_getNTilesLeftFor( PoolContext* pool, Tile tile )
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{
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return pool->lettersLeft[tile];
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} /* pool_remainingTileCount */
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void
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pool_initFromDict( PoolContext* pool, DictionaryCtxt* dict )
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{
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XP_U16 numFaces = dict_numTileFaces( dict );
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Tile i;
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if ( pool->lettersLeft != NULL ) {
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XP_FREE( pool->mpool, pool->lettersLeft );
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}
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pool->lettersLeft
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= (XP_U8*)XP_MALLOC( pool->mpool,
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numFaces * sizeof(pool->lettersLeft[0]) );
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pool->numTilesLeft = 0;
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for ( i = 0; i < numFaces; ++i ) {
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XP_U16 numTiles = dict_numTiles( dict, i );
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pool->lettersLeft[i] = (XP_U8)numTiles;
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pool->numTilesLeft += numTiles;
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}
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pool->numFaces = numFaces;
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#ifdef BLANKS_FIRST
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if ( dict_hasBlankTile( dict ) ) {
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pool->blankIndex = dict_getBlankTile(dict);
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} else {
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pool->blankIndex = -1;
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}
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#endif
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} /* pool_initFromDict */
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