| author | Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com> |
| Fri, 19 Feb 2010 23:40:16 +0200 | |
| branch | RCL_3 |
| changeset 4 | 3b1da2848fc7 |
| parent 0 | 1918ee327afb |
| permissions | -rw-r--r-- |
| 0 | 1 |
/**************************************************************************** |
2 |
** |
|
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4
3b1da2848fc7
Revision: 201003
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
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** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). |
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** All rights reserved. |
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** Contact: Nokia Corporation (qt-info@nokia.com) |
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** |
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** This file is part of the QtGui module of the Qt Toolkit. |
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** |
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** $QT_BEGIN_LICENSE:LGPL$ |
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** No Commercial Usage |
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** This file contains pre-release code and may not be distributed. |
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** You may use this file in accordance with the terms and conditions |
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** contained in the Technology Preview License Agreement accompanying |
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** this package. |
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** |
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** GNU Lesser General Public License Usage |
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** Alternatively, this file may be used under the terms of the GNU Lesser |
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** General Public License version 2.1 as published by the Free Software |
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** Foundation and appearing in the file LICENSE.LGPL included in the |
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** packaging of this file. Please review the following information to |
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** ensure the GNU Lesser General Public License version 2.1 requirements |
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** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. |
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** |
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** In addition, as a special exception, Nokia gives you certain additional |
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** rights. These rights are described in the Nokia Qt LGPL Exception |
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** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. |
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** |
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** If you have questions regarding the use of this file, please contact |
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** Nokia at qt-info@nokia.com. |
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** |
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** |
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** |
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** |
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** |
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** |
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** |
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** |
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** $QT_END_LICENSE$ |
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** |
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****************************************************************************/ |
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||
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#ifndef QFRAGMENTMAP_P_H |
|
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#define QFRAGMENTMAP_P_H |
|
44 |
||
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// |
|
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// W A R N I N G |
|
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// ------------- |
|
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// |
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// This file is not part of the Qt API. It exists purely as an |
|
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// implementation detail. This header file may change from version to |
|
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// version without notice, or even be removed. |
|
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// |
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// We mean it. |
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// |
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||
56 |
#include "QtCore/qglobal.h" |
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#include <stdlib.h> |
|
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#include <private/qtools_p.h> |
|
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||
60 |
QT_BEGIN_NAMESPACE |
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61 |
||
62 |
||
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template <int N = 1> |
|
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class QFragment |
|
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{
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public: |
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quint32 parent; |
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quint32 left; |
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quint32 right; |
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quint32 color; |
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quint32 size_left_array[N]; |
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quint32 size_array[N]; |
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enum {size_array_max = N };
|
|
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}; |
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||
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template <class Fragment> |
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class QFragmentMapData |
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{
|
|
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enum Color { Red, Black };
|
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public: |
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QFragmentMapData(); |
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~QFragmentMapData(); |
|
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||
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void init(); |
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||
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class Header |
|
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{
|
|
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public: |
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quint32 root; // this relies on being at the same position as parent in the fragment struct |
|
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quint32 tag; |
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quint32 freelist; |
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quint32 node_count; |
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quint32 allocated; |
|
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}; |
|
95 |
||
96 |
||
97 |
enum {fragmentSize = sizeof(Fragment) };
|
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98 |
||
99 |
||
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int length(uint field = 0) const; |
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101 |
||
102 |
||
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inline Fragment *fragment(uint index) {
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return (fragments + index); |
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} |
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inline const Fragment *fragment(uint index) const {
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return (fragments + index); |
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} |
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109 |
||
110 |
||
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inline Fragment &F(uint index) { return fragments[index] ; }
|
|
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inline const Fragment &F(uint index) const { return fragments[index] ; }
|
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113 |
||
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inline bool isRoot(uint index) const {
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return !fragment(index)->parent; |
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} |
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||
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inline uint position(uint node, uint field = 0) const {
|
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Q_ASSERT(field < Fragment::size_array_max); |
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const Fragment *f = fragment(node); |
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uint offset = f->size_left_array[field]; |
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while (f->parent) {
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uint p = f->parent; |
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f = fragment(p); |
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if (f->right == node) |
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offset += f->size_left_array[field] + f->size_array[field]; |
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node = p; |
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} |
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return offset; |
|
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} |
|
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inline uint sizeRight(uint node, uint field = 0) const {
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Q_ASSERT(field < Fragment::size_array_max); |
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uint sr = 0; |
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const Fragment *f = fragment(node); |
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node = f->right; |
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while (node) {
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f = fragment(node); |
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sr += f->size_left_array[field] + f->size_array[field]; |
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node = f->right; |
|
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} |
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return sr; |
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} |
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inline uint sizeLeft(uint node, uint field = 0) const {
|
|
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Q_ASSERT(field < Fragment::size_array_max); |
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return fragment(node)->size_left_array[field]; |
|
146 |
} |
|
147 |
||
148 |
||
149 |
inline uint size(uint node, uint field = 0) const {
|
|
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Q_ASSERT(field < Fragment::size_array_max); |
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return fragment(node)->size_array[field]; |
|
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} |
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153 |
||
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inline void setSize(uint node, int new_size, uint field = 0) {
|
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Q_ASSERT(field < Fragment::size_array_max); |
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Fragment *f = fragment(node); |
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int diff = new_size - f->size_array[field]; |
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f->size_array[field] = new_size; |
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while (f->parent) {
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uint p = f->parent; |
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f = fragment(p); |
|
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if (f->left == node) |
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f->size_left_array[field] += diff; |
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node = p; |
|
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} |
|
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} |
|
167 |
||
168 |
||
169 |
uint findNode(int k, uint field = 0) const; |
|
170 |
||
171 |
uint insert_single(int key, uint length); |
|
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uint erase_single(uint f); |
|
173 |
||
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uint minimum(uint n) const {
|
|
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while (n && fragment(n)->left) |
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n = fragment(n)->left; |
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return n; |
|
178 |
} |
|
179 |
||
180 |
uint maximum(uint n) const {
|
|
181 |
while (n && fragment(n)->right) |
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n = fragment(n)->right; |
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return n; |
|
184 |
} |
|
185 |
||
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uint next(uint n) const; |
|
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uint previous(uint n) const; |
|
188 |
||
189 |
inline uint root() const {
|
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190 |
Q_ASSERT(!head->root || !fragment(head->root)->parent); |
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return head->root; |
|
192 |
} |
|
193 |
inline void setRoot(uint new_root) {
|
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Q_ASSERT(!head->root || !fragment(new_root)->parent); |
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head->root = new_root; |
|
196 |
} |
|
197 |
||
198 |
union {
|
|
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Header *head; |
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Fragment *fragments; |
|
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}; |
|
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||
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private: |
|
204 |
||
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void rotateLeft(uint x); |
|
206 |
void rotateRight(uint x); |
|
207 |
void rebalance(uint x); |
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208 |
void removeAndRebalance(uint z); |
|
209 |
||
210 |
uint createFragment(); |
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211 |
void freeFragment(uint f); |
|
212 |
||
213 |
}; |
|
214 |
||
215 |
template <class Fragment> |
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QFragmentMapData<Fragment>::QFragmentMapData() |
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: fragments(0) |
|
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{
|
|
219 |
init(); |
|
220 |
} |
|
221 |
||
222 |
template <class Fragment> |
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void QFragmentMapData<Fragment>::init() |
|
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{
|
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// the following code will realloc an existing fragment or create a new one. |
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// it will also ignore errors when shrinking an existing fragment. |
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227 |
Fragment *newFragments = (Fragment *)realloc(fragments, 64*fragmentSize); |
|
228 |
if (newFragments) {
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fragments = newFragments; |
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head->allocated = 64; |
|
231 |
} |
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Q_CHECK_PTR(fragments); |
|
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||
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head->tag = (((quint32)'p') << 24) | (((quint32)'m') << 16) | (((quint32)'a') << 8) | 'p'; //TAG('p', 'm', 'a', 'p');
|
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head->root = 0; |
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head->freelist = 1; |
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head->node_count = 0; |
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// mark all items to the right as unused |
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239 |
F(head->freelist).right = 0; |
|
240 |
} |
|
241 |
||
242 |
template <class Fragment> |
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QFragmentMapData<Fragment>::~QFragmentMapData() |
|
244 |
{
|
|
245 |
free(fragments); |
|
246 |
} |
|
247 |
||
248 |
template <class Fragment> |
|
249 |
uint QFragmentMapData<Fragment>::createFragment() |
|
250 |
{
|
|
251 |
Q_ASSERT(head->freelist <= head->allocated); |
|
252 |
||
253 |
uint freePos = head->freelist; |
|
254 |
if (freePos == head->allocated) {
|
|
255 |
// need to create some free space |
|
256 |
uint needed = qAllocMore((freePos+1)*fragmentSize, 0); |
|
257 |
Q_ASSERT(needed/fragmentSize > head->allocated); |
|
258 |
Fragment *newFragments = (Fragment *)realloc(fragments, needed); |
|
259 |
Q_CHECK_PTR(newFragments); |
|
260 |
fragments = newFragments; |
|
261 |
head->allocated = needed/fragmentSize; |
|
262 |
F(freePos).right = 0; |
|
263 |
} |
|
264 |
||
265 |
uint nextPos = F(freePos).right; |
|
266 |
if (!nextPos) {
|
|
267 |
nextPos = freePos+1; |
|
268 |
if (nextPos < head->allocated) |
|
269 |
F(nextPos).right = 0; |
|
270 |
} |
|
271 |
||
272 |
head->freelist = nextPos; |
|
273 |
||
274 |
++head->node_count; |
|
275 |
||
276 |
return freePos; |
|
277 |
} |
|
278 |
||
279 |
template <class Fragment> |
|
280 |
void QFragmentMapData<Fragment>::freeFragment(uint i) |
|
281 |
{
|
|
282 |
F(i).right = head->freelist; |
|
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head->freelist = i; |
|
284 |
||
285 |
--head->node_count; |
|
286 |
} |
|
287 |
||
288 |
||
289 |
template <class Fragment> |
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290 |
uint QFragmentMapData<Fragment>::next(uint n) const {
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291 |
Q_ASSERT(n); |
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292 |
if (F(n).right) {
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|
293 |
n = F(n).right; |
|
294 |
while (F(n).left) |
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295 |
n = F(n).left; |
|
296 |
} else {
|
|
297 |
uint y = F(n).parent; |
|
298 |
while (F(n).parent && n == F(y).right) {
|
|
299 |
n = y; |
|
300 |
y = F(y).parent; |
|
301 |
} |
|
302 |
n = y; |
|
303 |
} |
|
304 |
return n; |
|
305 |
} |
|
306 |
||
307 |
template <class Fragment> |
|
308 |
uint QFragmentMapData<Fragment>::previous(uint n) const {
|
|
309 |
if (!n) |
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310 |
return maximum(root()); |
|
311 |
||
312 |
if (F(n).left) {
|
|
313 |
n = F(n).left; |
|
314 |
while (F(n).right) |
|
315 |
n = F(n).right; |
|
316 |
} else {
|
|
317 |
uint y = F(n).parent; |
|
318 |
while (F(n).parent && n == F(y).left) {
|
|
319 |
n = y; |
|
320 |
y = F(y).parent; |
|
321 |
} |
|
322 |
n = y; |
|
323 |
} |
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324 |
return n; |
|
325 |
} |
|
326 |
||
327 |
||
328 |
/* |
|
329 |
x y |
|
330 |
\ / \ |
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331 |
y --> x b |
|
332 |
/ \ \ |
|
333 |
a b a |
|
334 |
*/ |
|
335 |
template <class Fragment> |
|
336 |
void QFragmentMapData<Fragment>::rotateLeft(uint x) |
|
337 |
{
|
|
338 |
uint p = F(x).parent; |
|
339 |
uint y = F(x).right; |
|
340 |
||
341 |
||
342 |
if (y) {
|
|
343 |
F(x).right = F(y).left; |
|
344 |
if (F(y).left) |
|
345 |
F(F(y).left).parent = x; |
|
346 |
F(y).left = x; |
|
347 |
F(y).parent = p; |
|
348 |
} else {
|
|
349 |
F(x).right = 0; |
|
350 |
} |
|
351 |
if (!p) {
|
|
352 |
Q_ASSERT(head->root == x); |
|
353 |
head->root = y; |
|
354 |
} |
|
355 |
else if (x == F(p).left) |
|
356 |
F(p).left = y; |
|
357 |
else |
|
358 |
F(p).right = y; |
|
359 |
F(x).parent = y; |
|
360 |
for (uint field = 0; field < Fragment::size_array_max; ++field) |
|
361 |
F(y).size_left_array[field] += F(x).size_left_array[field] + F(x).size_array[field]; |
|
362 |
} |
|
363 |
||
364 |
||
365 |
/* |
|
366 |
x y |
|
367 |
/ / \ |
|
368 |
y --> a x |
|
369 |
/ \ / |
|
370 |
a b b |
|
371 |
*/ |
|
372 |
template <class Fragment> |
|
373 |
void QFragmentMapData<Fragment>::rotateRight(uint x) |
|
374 |
{
|
|
375 |
uint y = F(x).left; |
|
376 |
uint p = F(x).parent; |
|
377 |
||
378 |
if (y) {
|
|
379 |
F(x).left = F(y).right; |
|
380 |
if (F(y).right) |
|
381 |
F(F(y).right).parent = x; |
|
382 |
F(y).right = x; |
|
383 |
F(y).parent = p; |
|
384 |
} else {
|
|
385 |
F(x).left = 0; |
|
386 |
} |
|
387 |
if (!p) {
|
|
388 |
Q_ASSERT(head->root == x); |
|
389 |
head->root = y; |
|
390 |
} |
|
391 |
else if (x == F(p).right) |
|
392 |
F(p).right = y; |
|
393 |
else |
|
394 |
F(p).left = y; |
|
395 |
F(x).parent = y; |
|
396 |
for (uint field = 0; field < Fragment::size_array_max; ++field) |
|
397 |
F(x).size_left_array[field] -= F(y).size_left_array[field] + F(y).size_array[field]; |
|
398 |
} |
|
399 |
||
400 |
||
401 |
template <class Fragment> |
|
402 |
void QFragmentMapData<Fragment>::rebalance(uint x) |
|
403 |
{
|
|
404 |
F(x).color = Red; |
|
405 |
||
406 |
while (F(x).parent && F(F(x).parent).color == Red) {
|
|
407 |
uint p = F(x).parent; |
|
408 |
uint pp = F(p).parent; |
|
409 |
Q_ASSERT(pp); |
|
410 |
if (p == F(pp).left) {
|
|
411 |
uint y = F(pp).right; |
|
412 |
if (y && F(y).color == Red) {
|
|
413 |
F(p).color = Black; |
|
414 |
F(y).color = Black; |
|
415 |
F(pp).color = Red; |
|
416 |
x = pp; |
|
417 |
} else {
|
|
418 |
if (x == F(p).right) {
|
|
419 |
x = p; |
|
420 |
rotateLeft(x); |
|
421 |
p = F(x).parent; |
|
422 |
pp = F(p).parent; |
|
423 |
} |
|
424 |
F(p).color = Black; |
|
425 |
if (pp) {
|
|
426 |
F(pp).color = Red; |
|
427 |
rotateRight(pp); |
|
428 |
} |
|
429 |
} |
|
430 |
} else {
|
|
431 |
uint y = F(pp).left; |
|
432 |
if (y && F(y).color == Red) {
|
|
433 |
F(p).color = Black; |
|
434 |
F(y).color = Black; |
|
435 |
F(pp).color = Red; |
|
436 |
x = pp; |
|
437 |
} else {
|
|
438 |
if (x == F(p).left) {
|
|
439 |
x = p; |
|
440 |
rotateRight(x); |
|
441 |
p = F(x).parent; |
|
442 |
pp = F(p).parent; |
|
443 |
} |
|
444 |
F(p).color = Black; |
|
445 |
if (pp) {
|
|
446 |
F(pp).color = Red; |
|
447 |
rotateLeft(pp); |
|
448 |
} |
|
449 |
} |
|
450 |
} |
|
451 |
} |
|
452 |
F(root()).color = Black; |
|
453 |
} |
|
454 |
||
455 |
||
456 |
template <class Fragment> |
|
457 |
uint QFragmentMapData<Fragment>::erase_single(uint z) |
|
458 |
{
|
|
459 |
uint w = previous(z); |
|
460 |
uint y = z; |
|
461 |
uint x; |
|
462 |
uint p; |
|
463 |
||
464 |
if (!F(y).left) {
|
|
465 |
x = F(y).right; |
|
466 |
} else if (!F(y).right) {
|
|
467 |
x = F(y).left; |
|
468 |
} else {
|
|
469 |
y = F(y).right; |
|
470 |
while (F(y).left) |
|
471 |
y = F(y).left; |
|
472 |
x = F(y).right; |
|
473 |
} |
|
474 |
||
475 |
if (y != z) {
|
|
476 |
F(F(z).left).parent = y; |
|
477 |
F(y).left = F(z).left; |
|
478 |
for (uint field = 0; field < Fragment::size_array_max; ++field) |
|
479 |
F(y).size_left_array[field] = F(z).size_left_array[field]; |
|
480 |
if (y != F(z).right) {
|
|
481 |
/* |
|
482 |
z y |
|
483 |
/ \ / \ |
|
484 |
a b a b |
|
485 |
/ / |
|
486 |
... --> ... |
|
487 |
/ / |
|
488 |
y x |
|
489 |
/ \ |
|
490 |
0 x |
|
491 |
*/ |
|
492 |
p = F(y).parent; |
|
493 |
if (x) |
|
494 |
F(x).parent = p; |
|
495 |
F(p).left = x; |
|
496 |
F(y).right = F(z).right; |
|
497 |
F(F(z).right).parent = y; |
|
498 |
uint n = p; |
|
499 |
while (n != y) {
|
|
500 |
for (uint field = 0; field < Fragment::size_array_max; ++field) |
|
501 |
F(n).size_left_array[field] -= F(y).size_array[field]; |
|
502 |
n = F(n).parent; |
|
503 |
} |
|
504 |
} else {
|
|
505 |
/* |
|
506 |
z y |
|
507 |
/ \ / \ |
|
508 |
a y --> a x |
|
509 |
/ \ |
|
510 |
0 x |
|
511 |
*/ |
|
512 |
p = y; |
|
513 |
} |
|
514 |
uint zp = F(z).parent; |
|
515 |
if (!zp) {
|
|
516 |
Q_ASSERT(head->root == z); |
|
517 |
head->root = y; |
|
518 |
} else if (F(zp).left == z) {
|
|
519 |
F(zp).left = y; |
|
520 |
for (uint field = 0; field < Fragment::size_array_max; ++field) |
|
521 |
F(zp).size_left_array[field] -= F(z).size_array[field]; |
|
522 |
} else {
|
|
523 |
F(zp).right = y; |
|
524 |
} |
|
525 |
F(y).parent = zp; |
|
526 |
// Swap the colors |
|
527 |
uint c = F(y).color; |
|
528 |
F(y).color = F(z).color; |
|
529 |
F(z).color = c; |
|
530 |
y = z; |
|
531 |
} else {
|
|
532 |
/* |
|
533 |
p p p p |
|
534 |
/ / \ \ |
|
535 |
z --> x z --> x |
|
536 |
| | |
|
537 |
x x |
|
538 |
*/ |
|
539 |
p = F(z).parent; |
|
540 |
if (x) |
|
541 |
F(x).parent = p; |
|
542 |
if (!p) {
|
|
543 |
Q_ASSERT(head->root == z); |
|
544 |
head->root = x; |
|
545 |
} else if (F(p).left == z) {
|
|
546 |
F(p).left = x; |
|
547 |
for (uint field = 0; field < Fragment::size_array_max; ++field) |
|
548 |
F(p).size_left_array[field] -= F(z).size_array[field]; |
|
549 |
} else {
|
|
550 |
F(p).right = x; |
|
551 |
} |
|
552 |
} |
|
553 |
uint n = z; |
|
554 |
while (F(n).parent) {
|
|
555 |
uint p = F(n).parent; |
|
556 |
if (F(p).left == n) {
|
|
557 |
for (uint field = 0; field < Fragment::size_array_max; ++field) |
|
558 |
F(p).size_left_array[field] -= F(z).size_array[field]; |
|
559 |
} |
|
560 |
n = p; |
|
561 |
} |
|
562 |
||
563 |
freeFragment(z); |
|
564 |
||
565 |
||
566 |
if (F(y).color != Red) {
|
|
567 |
while (F(x).parent && (x == 0 || F(x).color == Black)) {
|
|
568 |
if (x == F(p).left) {
|
|
569 |
uint w = F(p).right; |
|
570 |
if (F(w).color == Red) {
|
|
571 |
F(w).color = Black; |
|
572 |
F(p).color = Red; |
|
573 |
rotateLeft(p); |
|
574 |
w = F(p).right; |
|
575 |
} |
|
576 |
if ((F(w).left == 0 || F(F(w).left).color == Black) && |
|
577 |
(F(w).right == 0 || F(F(w).right).color == Black)) {
|
|
578 |
F(w).color = Red; |
|
579 |
x = p; |
|
580 |
p = F(x).parent; |
|
581 |
} else {
|
|
582 |
if (F(w).right == 0 || F(F(w).right).color == Black) {
|
|
583 |
if (F(w).left) |
|
584 |
F(F(w).left).color = Black; |
|
585 |
F(w).color = Red; |
|
586 |
rotateRight(F(p).right); |
|
587 |
w = F(p).right; |
|
588 |
} |
|
589 |
F(w).color = F(p).color; |
|
590 |
F(p).color = Black; |
|
591 |
if (F(w).right) |
|
592 |
F(F(w).right).color = Black; |
|
593 |
rotateLeft(p); |
|
594 |
break; |
|
595 |
} |
|
596 |
} else {
|
|
597 |
uint w = F(p).left; |
|
598 |
if (F(w).color == Red) {
|
|
599 |
F(w).color = Black; |
|
600 |
F(p).color = Red; |
|
601 |
rotateRight(p); |
|
602 |
w = F(p).left; |
|
603 |
} |
|
604 |
if ((F(w).right == 0 || F(F(w).right).color == Black) && |
|
605 |
(F(w).left == 0 || F(F(w).left).color == Black)) {
|
|
606 |
F(w).color = Red; |
|
607 |
x = p; |
|
608 |
p = F(x).parent; |
|
609 |
} else {
|
|
610 |
if (F(w).left == 0 || F(F(w).left).color == Black) {
|
|
611 |
if (F(w).right) |
|
612 |
F(F(w).right).color = Black; |
|
613 |
F(w).color = Red; |
|
614 |
rotateLeft(F(p).left); |
|
615 |
w = F(p).left; |
|
616 |
} |
|
617 |
F(w).color = F(p).color; |
|
618 |
F(p).color = Black; |
|
619 |
if (F(w).left) |
|
620 |
F(F(w).left).color = Black; |
|
621 |
rotateRight(p); |
|
622 |
break; |
|
623 |
} |
|
624 |
} |
|
625 |
} |
|
626 |
if (x) |
|
627 |
F(x).color = Black; |
|
628 |
} |
|
629 |
||
630 |
return w; |
|
631 |
} |
|
632 |
||
633 |
template <class Fragment> |
|
634 |
uint QFragmentMapData<Fragment>::findNode(int k, uint field) const |
|
635 |
{
|
|
636 |
Q_ASSERT(field < Fragment::size_array_max); |
|
637 |
uint x = root(); |
|
638 |
||
639 |
uint s = k; |
|
640 |
while (x) {
|
|
641 |
if (sizeLeft(x, field) <= s) {
|
|
642 |
if (s < sizeLeft(x, field) + size(x, field)) |
|
643 |
return x; |
|
644 |
s -= sizeLeft(x, field) + size(x, field); |
|
645 |
x = F(x).right; |
|
646 |
} else {
|
|
647 |
x = F(x).left; |
|
648 |
} |
|
649 |
} |
|
650 |
return 0; |
|
651 |
} |
|
652 |
||
653 |
template <class Fragment> |
|
654 |
uint QFragmentMapData<Fragment>::insert_single(int key, uint length) |
|
655 |
{
|
|
656 |
Q_ASSERT(!findNode(key) || (int)this->position(findNode(key)) == key); |
|
657 |
||
658 |
uint z = createFragment(); |
|
659 |
||
660 |
F(z).left = 0; |
|
661 |
F(z).right = 0; |
|
662 |
F(z).size_array[0] = length; |
|
663 |
for (uint field = 1; field < Fragment::size_array_max; ++field) |
|
664 |
F(z).size_array[field] = 1; |
|
665 |
for (uint field = 0; field < Fragment::size_array_max; ++field) |
|
666 |
F(z).size_left_array[field] = 0; |
|
667 |
||
668 |
uint y = 0; |
|
669 |
uint x = root(); |
|
670 |
||
671 |
Q_ASSERT(!x || F(x).parent == 0); |
|
672 |
||
673 |
uint s = key; |
|
674 |
bool right = false; |
|
675 |
while (x) {
|
|
676 |
y = x; |
|
677 |
if (s <= F(x).size_left_array[0]) {
|
|
678 |
x = F(x).left; |
|
679 |
right = false; |
|
680 |
} else {
|
|
681 |
s -= F(x).size_left_array[0] + F(x).size_array[0]; |
|
682 |
x = F(x).right; |
|
683 |
right = true; |
|
684 |
} |
|
685 |
} |
|
686 |
||
687 |
F(z).parent = y; |
|
688 |
if (!y) {
|
|
689 |
head->root = z; |
|
690 |
} else if (!right) {
|
|
691 |
F(y).left = z; |
|
692 |
for (uint field = 0; field < Fragment::size_array_max; ++field) |
|
693 |
F(y).size_left_array[field] = F(z).size_array[field]; |
|
694 |
} else {
|
|
695 |
F(y).right = z; |
|
696 |
} |
|
697 |
while (y && F(y).parent) {
|
|
698 |
uint p = F(y).parent; |
|
699 |
if (F(p).left == y) {
|
|
700 |
for (uint field = 0; field < Fragment::size_array_max; ++field) |
|
701 |
F(p).size_left_array[field] += F(z).size_array[field]; |
|
702 |
} |
|
703 |
y = p; |
|
704 |
} |
|
705 |
rebalance(z); |
|
706 |
||
707 |
return z; |
|
708 |
} |
|
709 |
||
710 |
||
711 |
template <class Fragment> |
|
712 |
int QFragmentMapData<Fragment>::length(uint field) const {
|
|
713 |
uint root = this->root(); |
|
714 |
return root ? sizeLeft(root, field) + size(root, field) + sizeRight(root, field) : 0; |
|
715 |
} |
|
716 |
||
717 |
||
718 |
template <class Fragment> // NOTE: must inherit QFragment |
|
719 |
class QFragmentMap |
|
720 |
{
|
|
721 |
public: |
|
722 |
class Iterator |
|
723 |
{
|
|
724 |
public: |
|
725 |
QFragmentMap *pt; |
|
726 |
quint32 n; |
|
727 |
||
728 |
Iterator() : pt(0), n(0) {}
|
|
729 |
Iterator(QFragmentMap *p, int node) : pt(p), n(node) {}
|
|
730 |
Iterator(const Iterator& it) : pt(it.pt), n(it.n) {}
|
|
731 |
||
732 |
inline bool atEnd() const { return !n; }
|
|
733 |
||
734 |
bool operator==(const Iterator& it) const { return pt == it.pt && n == it.n; }
|
|
735 |
bool operator!=(const Iterator& it) const { return pt != it.pt || n != it.n; }
|
|
736 |
bool operator<(const Iterator &it) const { return position() < it.position(); }
|
|
737 |
||
738 |
Fragment *operator*() { Q_ASSERT(!atEnd()); return pt->fragment(n); }
|
|
739 |
const Fragment *operator*() const { Q_ASSERT(!atEnd()); return pt->fragment(n); }
|
|
740 |
Fragment *operator->() { Q_ASSERT(!atEnd()); return pt->fragment(n); }
|
|
741 |
const Fragment *operator->() const { Q_ASSERT(!atEnd()); return pt->fragment(n); }
|
|
742 |
||
743 |
int position() const { Q_ASSERT(!atEnd()); return pt->data.position(n); }
|
|
744 |
const Fragment *value() const { Q_ASSERT(!atEnd()); return pt->fragment(n); }
|
|
745 |
Fragment *value() { Q_ASSERT(!atEnd()); return pt->fragment(n); }
|
|
746 |
||
747 |
Iterator& operator++() {
|
|
748 |
n = pt->data.next(n); |
|
749 |
return *this; |
|
750 |
} |
|
751 |
Iterator& operator--() {
|
|
752 |
n = pt->data.previous(n); |
|
753 |
return *this; |
|
754 |
} |
|
755 |
||
756 |
}; |
|
757 |
||
758 |
||
759 |
class ConstIterator |
|
760 |
{
|
|
761 |
public: |
|
762 |
const QFragmentMap *pt; |
|
763 |
quint32 n; |
|
764 |
||
765 |
/** |
|
766 |
* Functions |
|
767 |
*/ |
|
768 |
ConstIterator() : pt(0), n(0) {}
|
|
769 |
ConstIterator(const QFragmentMap *p, int node) : pt(p), n(node) {}
|
|
770 |
ConstIterator(const ConstIterator& it) : pt(it.pt), n(it.n) {}
|
|
771 |
ConstIterator(const Iterator& it) : pt(it.pt), n(it.n) {}
|
|
772 |
||
773 |
inline bool atEnd() const { return !n; }
|
|
774 |
||
775 |
bool operator==(const ConstIterator& it) const { return pt == it.pt && n == it.n; }
|
|
776 |
bool operator!=(const ConstIterator& it) const { return pt != it.pt || n != it.n; }
|
|
777 |
bool operator<(const ConstIterator &it) const { return position() < it.position(); }
|
|
778 |
||
779 |
const Fragment *operator*() const { Q_ASSERT(!atEnd()); return pt->fragment(n); }
|
|
780 |
const Fragment *operator->() const { Q_ASSERT(!atEnd()); return pt->fragment(n); }
|
|
781 |
||
782 |
int position() const { Q_ASSERT(!atEnd()); return pt->data.position(n); }
|
|
783 |
int size() const { Q_ASSERT(!atEnd()); return pt->data.size(n); }
|
|
784 |
const Fragment *value() const { Q_ASSERT(!atEnd()); return pt->fragment(n); }
|
|
785 |
||
786 |
ConstIterator& operator++() {
|
|
787 |
n = pt->data.next(n); |
|
788 |
return *this; |
|
789 |
} |
|
790 |
ConstIterator& operator--() {
|
|
791 |
n = pt->data.previous(n); |
|
792 |
return *this; |
|
793 |
} |
|
794 |
}; |
|
795 |
||
796 |
||
797 |
QFragmentMap() {}
|
|
798 |
~QFragmentMap() |
|
799 |
{
|
|
800 |
if (!data.fragments) |
|
801 |
return; // in case of out-of-memory, we won't have fragments |
|
802 |
for (Iterator it = begin(); !it.atEnd(); ++it) |
|
803 |
it.value()->free(); |
|
804 |
} |
|
805 |
||
806 |
inline void clear() {
|
|
807 |
for (Iterator it = begin(); !it.atEnd(); ++it) |
|
808 |
it.value()->free(); |
|
809 |
data.init(); |
|
810 |
} |
|
811 |
||
812 |
inline Iterator begin() { return Iterator(this, data.minimum(data.root())); }
|
|
813 |
inline Iterator end() { return Iterator(this, 0); }
|
|
814 |
inline ConstIterator begin() const { return ConstIterator(this, data.minimum(data.root())); }
|
|
815 |
inline ConstIterator end() const { return ConstIterator(this, 0); }
|
|
816 |
||
817 |
inline ConstIterator last() const { return ConstIterator(this, data.maximum(data.root())); }
|
|
818 |
||
819 |
inline bool isEmpty() const { return data.head->node_count == 0; }
|
|
820 |
inline int numNodes() const { return data.head->node_count; }
|
|
821 |
int length(uint field = 0) const { return data.length(field); }
|
|
822 |
||
823 |
Iterator find(int k, uint field = 0) { return Iterator(this, data.findNode(k, field)); }
|
|
824 |
ConstIterator find(int k, uint field = 0) const { return ConstIterator(this, data.findNode(k, field)); }
|
|
825 |
||
826 |
uint findNode(int k, uint field = 0) const { return data.findNode(k, field); }
|
|
827 |
||
828 |
uint insert_single(int key, uint length) |
|
829 |
{
|
|
830 |
uint f = data.insert_single(key, length); |
|
831 |
if (f != 0) {
|
|
832 |
Fragment *frag = fragment(f); |
|
833 |
Q_ASSERT(frag); |
|
834 |
frag->initialize(); |
|
835 |
} |
|
836 |
return f; |
|
837 |
} |
|
838 |
uint erase_single(uint f) |
|
839 |
{
|
|
840 |
if (f != 0) {
|
|
841 |
Fragment *frag = fragment(f); |
|
842 |
Q_ASSERT(frag); |
|
843 |
frag->free(); |
|
844 |
} |
|
845 |
return data.erase_single(f); |
|
846 |
} |
|
847 |
||
848 |
inline Fragment *fragment(uint index) {
|
|
849 |
Q_ASSERT(index != 0); |
|
850 |
return data.fragment(index); |
|
851 |
} |
|
852 |
inline const Fragment *fragment(uint index) const {
|
|
853 |
Q_ASSERT(index != 0); |
|
854 |
return data.fragment(index); |
|
855 |
} |
|
856 |
inline uint position(uint node, uint field = 0) const { return data.position(node, field); }
|
|
857 |
inline uint next(uint n) const { return data.next(n); }
|
|
858 |
inline uint previous(uint n) const { return data.previous(n); }
|
|
859 |
inline uint size(uint node, uint field = 0) const { return data.size(node, field); }
|
|
860 |
inline void setSize(uint node, int new_size, uint field = 0) |
|
861 |
{ data.setSize(node, new_size, field);
|
|
862 |
if (node != 0 && field == 0) {
|
|
863 |
Fragment *frag = fragment(node); |
|
864 |
Q_ASSERT(frag); |
|
865 |
frag->invalidate(); |
|
866 |
} |
|
867 |
} |
|
868 |
||
869 |
inline int firstNode() const { return data.minimum(data.root()); }
|
|
870 |
||
871 |
private: |
|
872 |
friend class Iterator; |
|
873 |
friend class ConstIterator; |
|
874 |
||
875 |
QFragmentMapData<Fragment> data; |
|
876 |
||
877 |
QFragmentMap(const QFragmentMap& m); |
|
878 |
QFragmentMap& operator= (const QFragmentMap& m); |
|
879 |
}; |
|
880 |
||
881 |
QT_END_NAMESPACE |
|
882 |
||
883 |
#endif // QFRAGMENTMAP_P_H |