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-rw-r--r--library/quuid.cpp133
-rw-r--r--library/quuid.h147
2 files changed, 157 insertions, 123 deletions
diff --git a/library/quuid.cpp b/library/quuid.cpp
index 46fd816..36469a8 100644
--- a/library/quuid.cpp
+++ b/library/quuid.cpp
@@ -53,3 +53,5 @@
53*/ 53*/
54
54#ifndef QT_NO_QUUID_STRING 55#ifndef QT_NO_QUUID_STRING
56
55/*! 57/*!
@@ -65,5 +67,6 @@ QUuid::QUuid( const QString &text )
65 data1 = temp.mid( 1, 8 ).toULong( &ok, 16 ); 67 data1 = temp.mid( 1, 8 ).toULong( &ok, 16 );
66 if ( !ok ) { 68 if ( !ok )
67 *this = QUuid(); 69 {
68 return; 70 *this = QUuid();
71 return;
69 } 72 }
@@ -71,30 +74,36 @@ QUuid::QUuid( const QString &text )
71 data2 = temp.mid( 10, 4 ).toUInt( &ok, 16 ); 74 data2 = temp.mid( 10, 4 ).toUInt( &ok, 16 );
72 if ( !ok ) { 75 if ( !ok )
73 *this = QUuid(); 76 {
74 return; 77 *this = QUuid();
78 return;
75 } 79 }
76 data3 = temp.mid( 15, 4 ).toUInt( &ok, 16 ); 80 data3 = temp.mid( 15, 4 ).toUInt( &ok, 16 );
77 if ( !ok ) { 81 if ( !ok )
78 *this = QUuid(); 82 {
79 return; 83 *this = QUuid();
84 return;
80 } 85 }
81 data4[0] = temp.mid( 20, 2 ).toUInt( &ok, 16 ); 86 data4[0] = temp.mid( 20, 2 ).toUInt( &ok, 16 );
82 if ( !ok ) { 87 if ( !ok )
83 *this = QUuid(); 88 {
84 return; 89 *this = QUuid();
90 return;
85 } 91 }
86 data4[1] = temp.mid( 22, 2 ).toUInt( &ok, 16 ); 92 data4[1] = temp.mid( 22, 2 ).toUInt( &ok, 16 );
87 if ( !ok ) { 93 if ( !ok )
88 *this = QUuid(); 94 {
89 return; 95 *this = QUuid();
96 return;
90 } 97 }
91 for ( int i = 2; i<8; i++ ) { 98 for ( int i = 2; i<8; i++ )
92 data4[i] = temp.mid( 25 + (i-2)*2, 2 ).toUShort( &ok, 16 ); 99 {
93 if ( !ok ) { 100 data4[i] = temp.mid( 25 + (i-2)*2, 2 ).toUShort( &ok, 16 );
94 *this = QUuid(); 101 if ( !ok )
95 return; 102 {
96 } 103 *this = QUuid();
104 return;
105 }
97 } 106 }
98} 107}
99#endif 108
100/*! 109/*!
@@ -116,3 +125,3 @@ QUuid::QUuid( const QString &text )
116*/ 125*/
117#ifndef QT_NO_QUUID_STRING 126
118/*! 127/*!
@@ -132,3 +141,3 @@ QString QUuid::toString() const
132 for ( int i = 2; i < 8; i++ ) 141 for ( int i = 2; i < 8; i++ )
133 result += QString::number( (int)data4[i], 16 ).rightJustify( 2, '0' ); 142 result += QString::number( (int)data4[i], 16 ).rightJustify( 2, '0' );
134 143
@@ -137,2 +146,3 @@ QString QUuid::toString() const
137#endif 146#endif
147
138/*! 148/*!
@@ -143,4 +153,75 @@ bool QUuid::isNull() const
143 return data4[0] == 0 && data4[1] == 0 && data4[2] == 0 && data4[3] == 0 && 153 return data4[0] == 0 && data4[1] == 0 && data4[2] == 0 && data4[3] == 0 &&
144 data4[4] == 0 && data4[5] == 0 && data4[6] == 0 && data4[7] == 0 && 154 data4[4] == 0 && data4[5] == 0 && data4[6] == 0 && data4[7] == 0 &&
145 data1 == 0 && data2 == 0 && data3 == 0; 155 data1 == 0 && data2 == 0 && data3 == 0;
156}
157
158
159/*!
160 \fn QUuid::Variant QUuid::variant() const
161
162 Returns the variant of the UUID.
163 The null UUID is considered to be of an unknown variant.
164
165 \sa version()
166*/
167QUuid::Variant QUuid::variant() const
168{
169 if ( isNull() )
170 return VarUnknown;
171 // Check the 3 MSB of data4[0]
172 if ( (data4[0] & 0x80) == 0x00 ) return NCS;
173 else if ( (data4[0] & 0xC0) == 0x80 ) return DCE;
174 else if ( (data4[0] & 0xE0) == 0xC0 ) return Microsoft;
175 else if ( (data4[0] & 0xE0) == 0xE0 ) return Reserved;
176 return VarUnknown;
177}
178
179/*!
180 \fn bool QUuid::operator<(const QUuid &other) const
181
182 Returns TRUE if this QUuid is of the same variant,
183 and lexicographically before the \a other QUuid;
184 otherwise returns FALSE.
185
186 \sa variant()
187*/
188#define ISLESS(f1, f2) if (f1!=f2) return (f1<f2);
189bool QUuid::operator<(const QUuid &other ) const
190{
191 if ( variant() != other.variant() )
192 return FALSE;
193
194 ISLESS( data1, other.data1 );
195 ISLESS( data2, other.data2 );
196 ISLESS( data3, other.data3 );
197 for ( int n = 0; n < 8; n++ )
198 {
199 ISLESS( data4[n], other.data4[n] );
200 }
201 return FALSE;
202}
203
204/*!
205 \fn bool QUuid::operator>(const QUuid &other) const
206
207 Returns TRUE if this QUuid is of the same variant,
208 and lexicographically after the \a other QUuid;
209 otherwise returns FALSE.
210
211 \sa variant()
212*/
213#define ISMORE(f1, f2) if (f1!=f2) return (f1>f2);
214bool QUuid::operator>(const QUuid &other ) const
215{
216 if ( variant() != other.variant() )
217 return FALSE;
218
219 ISMORE( data1, other.data1 );
220 ISMORE( data2, other.data2 );
221 ISMORE( data3, other.data3 );
222 for ( int n = 0; n < 8; n++ )
223 {
224 ISMORE( data4[n], other.data4[n] );
225 }
226 return FALSE;
146} 227}
diff --git a/library/quuid.h b/library/quuid.h
index 841a00f..1575711 100644
--- a/library/quuid.h
+++ b/library/quuid.h
@@ -27,26 +27,15 @@
27 27
28#include <memory.h>
29
30#if defined(Q_OS_WIN32)
31#ifndef GUID_DEFINED
32#define GUID_DEFINED
33typedef struct _GUID
34{
35 ulong Data1;
36 ushort Data2;
37 ushort Data3;
38 uchar Data4[ 8 ];
39} GUID;
40#endif
41#endif
42
43#if defined( Q_WS_QWS ) && !defined( UUID_H_INCLUDED )
44typedef unsigned char uuid_t[16];
45#endif
46
47struct Q_EXPORT QUuid 28struct Q_EXPORT QUuid
48{ 29{
30 enum Variant {
31 VarUnknown =-1,
32 NCS = 0, // 0 - -
33 DCE = 2, // 1 0 -
34 Microsoft = 6, // 1 1 0
35 Reserved = 7 // 1 1 1
36 };
37
49 QUuid() 38 QUuid()
50 { 39 {
51 memset( this, 0, sizeof(QUuid) ); 40 memset( this, 0, sizeof(QUuid) );
52 } 41 }
@@ -54,13 +43,13 @@ struct Q_EXPORT QUuid
54 { 43 {
55 data1 = l; 44 data1 = l;
56 data2 = w1; 45 data2 = w1;
57 data3 = w2; 46 data3 = w2;
58 data4[0] = b1; 47 data4[0] = b1;
59 data4[1] = b2; 48 data4[1] = b2;
60 data4[2] = b3; 49 data4[2] = b3;
61 data4[3] = b4; 50 data4[3] = b4;
62 data4[4] = b5; 51 data4[4] = b5;
63 data4[5] = b6; 52 data4[5] = b6;
64 data4[6] = b7; 53 data4[6] = b7;
65 data4[7] = b8; 54 data4[7] = b8;
66 } 55 }
@@ -68,4 +57,11 @@ struct Q_EXPORT QUuid
68 { 57 {
69 memcpy( this, &uuid, sizeof(QUuid) ); 58 uint i;
59
60 data1 = uuid.data1;
61 data2 = uuid.data2;
62 data3 = uuid.data3;
63 for( i = 0; i < 8; i++ )
64 data4[ i ] = uuid.data4[ i ];
70 } 65 }
66
71#ifndef QT_NO_QUUID_STRING 67#ifndef QT_NO_QUUID_STRING
@@ -78,80 +74,37 @@ struct Q_EXPORT QUuid
78 { 74 {
79 memcpy( this, &orig, sizeof(QUuid) ); 75 uint i;
80 return *this;
81 }
82 76
83 bool operator==(const QUuid &orig ) const 77 data1 = orig.data1;
84 { 78 data2 = orig.data2;
85 return !memcmp( this, &orig, sizeof(QUuid) ); 79 data3 = orig.data3;
86 } 80 for( i = 0; i < 8; i++ )
81 data4[ i ] = orig.data4[ i ];
87 82
88 bool operator!=(const QUuid &orig ) const 83 return *this;
89 {
90 return !( *this == orig );
91 } 84 }
92 85
93 inline bool operator<(const QUuid &orig) const 86 bool operator==(const QUuid &orig ) const
94 {
95 return ( memcmp(this, &orig, sizeof(QUuid)) < 0);
96 }
97
98 inline bool operator>(const QUuid &orig) const
99 {
100 return ( memcmp(this, &orig, sizeof(QUuid) ) > 0);
101 }
102
103#if defined(Q_OS_WIN32)
104 // On Windows we have a type GUID that is used by the platform API, so we
105 // provide convenience operators to cast from and to this type.
106 QUuid( const GUID &guid )
107 { 87 {
108 memcpy( this, &guid, sizeof(GUID) ); 88 uint i;
109 } 89 if ( data1 != orig.data1 || data2 != orig.data2 ||
90 data3 != orig.data3 )
91 return FALSE;
110 92
111 QUuid &operator=(const GUID &orig ) 93 for( i = 0; i < 8; i++ )
112 { 94 if ( data4[i] != orig.data4[i] )
113 memcpy( this, &orig, sizeof(QUuid) ); 95 return FALSE;
114 return *this;
115 }
116 96
117 operator GUID() const 97 return TRUE;
118 {
119 GUID guid = { data1, data2, data3, { data4[0], data4[1], data4[2], data4[3], data4[4], data4[5], data4[6], data4[7] } };
120 return guid;
121 } 98 }
122 99
123 bool operator==( const GUID &guid ) const 100 bool operator!=(const QUuid &orig ) const
124 { 101 {
125 return !memcmp( this, &guid, sizeof(QUuid) ); 102 return !( *this == orig );
126 } 103 }
127 104
128 bool operator!=( const GUID &guid ) const 105 bool operator<(const QUuid &other ) const;
129 { 106 bool operator>(const QUuid &other ) const;
130 return !( *this == guid ); 107
131 } 108 QUuid::Variant variant() const;
132
133 inline bool operator<(const QUuid &orig) const
134 {
135 return ( memcmp(this, &orig, sizeof(QUuid) ) < 0);
136 }
137
138 inline bool operator>(const QUuid &orig) const
139 {
140 return ( memcmp(this, &orig, sizeof(QUuid) ) > 0);
141 }
142
143#endif
144#if defined (Q_WS_QWS)
145 QUuid( uuid_t uuid )
146 {
147 memcpy( this, uuid, sizeof(uuid_t) );
148 }
149 109
150 QUuid &operator=(const uuid_t &orig )
151 {
152 memcpy( this, &orig, sizeof(uuid_t) );
153 return *this;
154 }
155#endif
156
157 ulong data1; 110 ulong data1;