#ifndef FILE_TEMPLATE #define FILE_TEMPLATE /**************************************************************************/ /* File: template.hh */ /* Author: Joachim Schoeberl */ /* Date: 01. Jun. 95 */ /**************************************************************************/ #include namespace netgen { using namespace ngcore; /* templates, global types, defines and variables */ DLL_HEADER extern const std::string netgen_version; /// The following value may be adapted to the hardware ! #ifndef CLOCKS_PER_SEC #define CLOCKS_PER_SEC 1000000 #endif // #include /** output stream for testing. testout is opened by main */ /** use instead of cout */ DLL_HEADER extern ostream * mycout; /** error output stream */ DLL_HEADER extern ostream * myerr; /** Error messages display. Error messages are displayed by this function */ DLL_HEADER extern void MyError (const char * ch); /** Rings the bell. Produces nr beeps. */ DLL_HEADER extern void MyBeep (int nr = 1); /** INDEX is a typedef for (at least) 4-byte integer */ typedef int INDEX; /** BOOL is a typedef for boolean variables */ // typedef int BOOL; typedef int ELIND; typedef int PIND; class twoint { public: /// int i1, i2; /// twoint() {}; /// twoint(int ii1, int ii2) {i1 = ii1; i2 = ii2;} friend int operator== (const twoint& t1, const twoint& t2); /// void Swap() {int x = i1; i1 = i2; i2 = x;} void Sort() {if (i1 > i2) {Swap();}} }; inline int operator== (const twoint& t1, const twoint& t2) { return t1.i1 == t2.i1 && t1.i2 == t2.i2; } class threeint { public: /// int i1, i2, i3; /// threeint() {}; /// threeint(int ii1, int ii2, int ii3) {i1 = ii1; i2 = ii2; i3 = ii3;} }; /// class twodouble { public: /// double d1, d2; /// twodouble() {d1 = 0; d2 = 0;}; /// twodouble(double id1, double id2) {d1 = id1; d2 = id2;} /// void Swap() {double x = d1; d1 = d2; d2 = x;} }; class fourint { public: int i1, i2, i3, i4; fourint() {}; }; /// class INDEX_2; ostream & operator<<(ostream & s, const INDEX_2 & i2); class INDEX_2 { /// INDEX i[2]; public: /// INDEX_2 () { } /// INDEX_2 (INDEX ai1, INDEX ai2) { i[0] = ai1; i[1] = ai2; } /// INDEX_2 (const INDEX_2 & in2) { i[0] = in2.i[0]; i[1] = in2.i[1]; } /// int operator== (const INDEX_2 & in2) const { return i[0] == in2.i[0] && i[1] == in2.i[1]; } /// INDEX_2 Sort () { if (i[0] > i[1]) { INDEX hi = i[0]; i[0] = i[1]; i[1] = hi; } return *this; } static INDEX_2 Sort (int i1, int i2) { if (i1 > i2) return INDEX_2 (i2,i1); else return INDEX_2 (i1,i2); } /// INDEX & I1 () { return i[0]; } /// INDEX & I2 () { return i[1]; } /// INDEX & I (int j) { return i[j-1]; } /// const INDEX & I1 () const { return i[0]; } /// const INDEX & I2 () const { return i[1]; } /// const INDEX & I (int j) const { return i[j-1]; } /// int & operator[] (int j) { return i[j]; } /// const int & operator[] (int j) const { return i[j]; } /// friend ostream & operator<<(ostream & s, const INDEX_2 & i2); }; /* inline INDEX_2 Sort (const INDEX_2 & i2) { INDEX_2 tmp = i2; tmp.Sort(); return tmp; } */ inline INDEX_2 Sort (INDEX_2 i2) { i2.Sort(); return i2; } inline bool operator< (const INDEX_2 ia, const INDEX_2 ib) { if (ia[0] < ib[0]) return true; if (ia[0] > ib[0]) return false; if (ia[1] < ib[1]) return true; return false; } /// class INDEX_3 { /// INDEX i[3]; public: /// INDEX_3 () { } /// INDEX_3 (INDEX ai1, INDEX ai2, INDEX ai3) { i[0] = ai1; i[1] = ai2; i[2] = ai3; } /// INDEX_3 (const INDEX_3 & in2) { i[0] = in2.i[0]; i[1] = in2.i[1]; i[2] = in2.i[2]; } static INDEX_3 Sort (INDEX_3 i3) { return i3.Sort(); } static INDEX_3 Sort (int i1, int i2, int i3) { if (i1 > i2) Swap (i1, i2); if (i2 > i3) Swap (i2, i3); if (i1 > i2) Swap (i1, i2); return INDEX_3 (i1, i2, i3); } INDEX_3 Sort () { if (i[0] > i[1]) Swap (i[0], i[1]); if (i[1] > i[2]) Swap (i[1], i[2]); if (i[0] > i[1]) Swap (i[0], i[1]); return *this; } int operator== (const INDEX_3 & in2) const { return i[0] == in2.i[0] && i[1] == in2.i[1] && i[2] == in2.i[2];} /// INDEX & I1 () { return i[0]; } /// INDEX & I2 () { return i[1]; } /// INDEX & I3 () { return i[2]; } /// INDEX & I (int j) { return i[j-1]; } /// const INDEX & I1 () const { return i[0]; } /// const INDEX & I2 () const { return i[1]; } /// const INDEX & I3 () const { return i[2]; } /// const INDEX & I (int j) const { return i[j-1]; } /// int & operator[] (int j) { return i[j]; } /// const int & operator[] (int j) const { return i[j]; } /// friend ostream & operator<<(ostream & s, const INDEX_3 & i3); }; /// class INDEX_4 { /// INDEX i[4]; public: /// INDEX_4 () { } /// INDEX_4 (INDEX ai1, INDEX ai2, INDEX ai3, INDEX ai4) { i[0] = ai1; i[1] = ai2; i[2] = ai3; i[3] = ai4; } /// INDEX_4 (const INDEX_4 & in2) { i[0] = in2.i[0]; i[1] = in2.i[1]; i[2] = in2.i[2]; i[3] = in2.i[3]; } /// void Sort (); /// int operator== (const INDEX_4 & in2) const { return i[0] == in2.i[0] && i[1] == in2.i[1] && i[2] == in2.i[2] && i[3] == in2.i[3]; } /// INDEX & I1 () { return i[0]; } /// INDEX & I2 () { return i[1]; } /// INDEX & I3 () { return i[2]; } /// INDEX & I4 () { return i[3]; } /// INDEX & I (int j) { return i[j-1]; } /// const INDEX & I1 () const { return i[0]; } /// const INDEX & I2 () const { return i[1]; } /// const INDEX & I3 () const { return i[2]; } /// const INDEX & I4 () const { return i[3]; } /// const INDEX & I (int j) const { return i[j-1]; } /// int & operator[] (int j) { return i[j]; } /// const int & operator[] (int j) const { return i[j]; } /// friend ostream & operator<<(ostream & s, const INDEX_4 & i4); }; /// The sort preserves quads !!! class INDEX_4Q { /// INDEX i[4]; public: /// INDEX_4Q () { } /// INDEX_4Q (INDEX ai1, INDEX ai2, INDEX ai3, INDEX ai4) { i[0] = ai1; i[1] = ai2; i[2] = ai3; i[3] = ai4; } /// INDEX_4Q (const INDEX_4Q & in2) { i[0] = in2.i[0]; i[1] = in2.i[1]; i[2] = in2.i[2]; i[3] = in2.i[3]; } /// void Sort (); /// int operator== (const INDEX_4Q & in2) const { return i[0] == in2.i[0] && i[1] == in2.i[1] && i[2] == in2.i[2] && i[3] == in2.i[3]; } /// INDEX & I1 () { return i[0]; } /// INDEX & I2 () { return i[1]; } /// INDEX & I3 () { return i[2]; } /// INDEX & I4 () { return i[3]; } /// INDEX & I (int j) { return i[j-1]; } /// const INDEX & I1 () const { return i[0]; } /// const INDEX & I2 () const { return i[1]; } /// const INDEX & I3 () const { return i[2]; } /// const INDEX & I4 () const { return i[3]; } /// const INDEX & I (int j) const { return i[j-1]; } /// friend ostream & operator<<(ostream & s, const INDEX_4Q & i4); }; inline bool operator< (const INDEX_4 & a, const INDEX_4 & b) { for (int j = 0; j < 4; j++) { if (a[j] < b[j]) return true; if (a[j] > b[j]) return false; } return false; } /* /// template inline T min2 (T a, T b) { /// return (a < b) ? a : b; } /// template inline T max2 (T a, T b) { /// return (a > b) ? a : b; } /// template inline T min3 (T a, T b, T c) { /// return (a < b) ? (a < c) ? a : c : (b < c) ? b : c; } /// template inline T max3 (T a, T b, T c) { /// return (a > b) ? ((a > c) ? a : c) : ((b > c) ? b : c); } /// /// template inline int sgn (T a) { return (a > 0) ? 1 : ( ( a < 0) ? -1 : 0 ); } /// template inline T sqr (const T a) { return a * a; } /// template inline T pow3 (const T a) { return a * a * a; } */ /* template void BubbleSort (int size, T * data); template void MergeSort (int size, T * data, T * help); */ } #endif