source: src/helpers.cpp@ fc1b24

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Last change on this file since fc1b24 was e138de, checked in by Frederik Heber <heber@…>, 15 years ago

Huge change from ofstream * (const) out --> Log().

  • first shift was done via regular expressions
  • then via error messages from the code
  • note that class atom, class element and class molecule kept in parts their output stream, was they print to file.
  • make check runs fine
  • MISSING: Verbosity is not fixed for everything (i.e. if no endl; is present and next has Verbose(0) ...)

Signed-off-by: Frederik Heber <heber@…>

  • Property mode set to 100755
File size: 7.6 KB
Line 
1/** \file helpers.cpp
2 *
3 * Implementation of some auxiliary functions for memory dis-/allocation and so on
4 */
5
6
7#include "helpers.hpp"
8#include "log.hpp"
9#include "memoryusageobserver.hpp"
10
11/********************************************** helpful functions *********************************/
12
13
14/** Asks for a double value and checks input
15 * \param *text question
16 */
17double ask_value(const char *text)
18{
19 double test = 0.1439851348959832147598734598273456723948652983045928346598365;
20 do {
21 Log() << Verbose(0) << text;
22 cin >> test;
23 } while (test == 0.1439851348959832147598734598273456723948652983045928346598365);
24 return test;
25};
26
27/** Output of a debug message to stderr.
28 * \param *P Problem at hand, points to ParallelSimulationData#me
29 * \param output output string
30 */
31#ifdef HAVE_DEBUG
32void debug_in(const char *output, const char *file, const int line) {
33 if (output) fprintf(stderr,"DEBUG: in %s at line %i: %s\n", file, line, output);
34}
35#else
36void debug_in(const char *output, const char *file, const int line) {} // print nothing
37#endif
38
39/** modulo operator for doubles.
40 * \param *b pointer to double
41 * \param lower_bound lower bound
42 * \param upper_bound upper bound
43 */
44void bound(double *b, double lower_bound, double upper_bound)
45{
46 double step = (upper_bound - lower_bound);
47 while (*b >= upper_bound)
48 *b -= step;
49 while (*b < lower_bound)
50 *b += step;
51};
52
53/** Returns the power of \a n with respect to \a base.
54 * \param base basis
55 * \param n power
56 * \return \f$base^n\f$
57 */
58int pot(int base, int n)
59{
60 int res = 1;
61 int j;
62 for (j=n;j--;)
63 res *= base;
64 return res;
65};
66
67/** Counts lines in file.
68 * Note we are scanning lines from current position, not from beginning.
69 * \param InputFile file to be scanned.
70 */
71int CountLinesinFile(ifstream &InputFile)
72{
73 char *buffer = Malloc<char>(MAXSTRINGSIZE, "CountLinesinFile: *buffer");
74 int lines=0;
75
76 int PositionMarker = InputFile.tellg(); // not needed as Inputfile is copied, given by value, not by ref
77 // count the number of lines, i.e. the number of fragments
78 InputFile.getline(buffer, MAXSTRINGSIZE); // skip comment lines
79 InputFile.getline(buffer, MAXSTRINGSIZE);
80 while(!InputFile.eof()) {
81 InputFile.getline(buffer, MAXSTRINGSIZE);
82 lines++;
83 }
84 InputFile.seekg(PositionMarker, ios::beg);
85 Free(&buffer);
86 return lines;
87};
88
89/** Returns a string with \a i prefixed with 0s to match order of total number of molecules in digits.
90 * \param FragmentNumber total number of fragments to determine necessary number of digits
91 * \param digits number to create with 0 prefixed
92 * \return allocated(!) char array with number in digits, ten base.
93 */
94char *FixedDigitNumber(const int FragmentNumber, const int digits)
95{
96 char *returnstring;
97 int number = FragmentNumber;
98 int order = 0;
99 while (number != 0) { // determine number of digits needed
100 number = (int)floor(((double)number / 10.));
101 order++;
102 //Log() << Verbose(0) << "Number is " << number << ", order is " << order << "." << endl;
103 }
104 // allocate string
105 returnstring = Malloc<char>(order + 2, "FixedDigitNumber: *returnstring");
106 // terminate and fill string array from end backward
107 returnstring[order] = '\0';
108 number = digits;
109 for (int i=order;i--;) {
110 returnstring[i] = '0' + (char)(number % 10);
111 number = (int)floor(((double)number / 10.));
112 }
113 //Log() << Verbose(0) << returnstring << endl;
114 return returnstring;
115};
116
117/** Tests whether a given string contains a valid number or not.
118 * \param *string
119 * \return true - is a number, false - is not a valid number
120 */
121bool IsValidNumber( const char *string)
122{
123 int ptr = 0;
124 if ((string[ptr] == '.') || (string[ptr] == '-')) // number may be negative or start with dot
125 ptr++;
126 if ((string[ptr] >= '0') && (string[ptr] <= '9'))
127 return true;
128 return false;
129};
130
131/** Blows the 6-dimensional \a cell_size array up to a full NDIM by NDIM matrix.
132 * \param *symm 6-dim array of unique symmetric matrix components
133 * \return allocated NDIM*NDIM array with the symmetric matrix
134 */
135double * ReturnFullMatrixforSymmetric(const double * const symm)
136{
137 double *matrix = Malloc<double>(NDIM * NDIM, "molecule::ReturnFullMatrixforSymmetric: *matrix");
138 matrix[0] = symm[0];
139 matrix[1] = symm[1];
140 matrix[2] = symm[3];
141 matrix[3] = symm[1];
142 matrix[4] = symm[2];
143 matrix[5] = symm[4];
144 matrix[6] = symm[3];
145 matrix[7] = symm[4];
146 matrix[8] = symm[5];
147 return matrix;
148};
149
150/** Calculate the inverse of a 3x3 matrix.
151 * \param *matrix NDIM_NDIM array
152 */
153double * InverseMatrix( const double * const A)
154{
155 double *B = Malloc<double>(NDIM * NDIM, "Vector::InverseMatrix: *B");
156 double detA = RDET3(A);
157 double detAReci;
158
159 for (int i=0;i<NDIM*NDIM;++i)
160 B[i] = 0.;
161 // calculate the inverse B
162 if (fabs(detA) > MYEPSILON) {; // RDET3(A) yields precisely zero if A irregular
163 detAReci = 1./detA;
164 B[0] = detAReci*RDET2(A[4],A[5],A[7],A[8]); // A_11
165 B[1] = -detAReci*RDET2(A[1],A[2],A[7],A[8]); // A_12
166 B[2] = detAReci*RDET2(A[1],A[2],A[4],A[5]); // A_13
167 B[3] = -detAReci*RDET2(A[3],A[5],A[6],A[8]); // A_21
168 B[4] = detAReci*RDET2(A[0],A[2],A[6],A[8]); // A_22
169 B[5] = -detAReci*RDET2(A[0],A[2],A[3],A[5]); // A_23
170 B[6] = detAReci*RDET2(A[3],A[4],A[6],A[7]); // A_31
171 B[7] = -detAReci*RDET2(A[0],A[1],A[6],A[7]); // A_32
172 B[8] = detAReci*RDET2(A[0],A[1],A[3],A[4]); // A_33
173 }
174 return B;
175};
176
177/** hard-coded determinant of a 3x3 matrix.
178 * \param a[9] matrix
179 * \return \f$det(a)\f$
180 */
181double RDET3(const double a[NDIM*NDIM])
182{
183 return ((a)[0]*(a)[4]*(a)[8] + (a)[3]*(a)[7]*(a)[2] + (a)[6]*(a)[1]*(a)[5] - (a)[2]*(a)[4]*(a)[6] - (a)[5]*(a)[7]*(a)[0] - (a)[8]*(a)[1]*(a)[3]);
184};
185
186/** hard-coded determinant of a 2x2 matrix.
187 * \param a[4] matrix
188 * \return \f$det(a)\f$
189 */
190double RDET2(const double a[4])
191{
192 return ((a[0])*(a[3])-(a[1])*(a[2]));
193};
194
195/** hard-coded determinant of a 2x2 matrix.
196 * \param a0 (0,0) entry of matrix
197 * \param a1 (0,1) entry of matrix
198 * \param a2 (1,0) entry of matrix
199 * \param a3 (1,1) entry of matrix
200 * \return \f$det(a)\f$
201 */
202double RDET2(const double a0, const double a1, const double a2, const double a3)
203{
204 return ((a0)*(a3)-(a1)*(a2));
205};
206
207/** Comparison function for GSL heapsort on distances in two molecules.
208 * \param *a
209 * \param *b
210 * \return <0, \a *a less than \a *b, ==0 if equal, >0 \a *a greater than \a *b
211 */
212int CompareDoubles (const void * a, const void * b)
213{
214 if (*(double *)a > *(double *)b)
215 return -1;
216 else if (*(double *)a < *(double *)b)
217 return 1;
218 else
219 return 0;
220};
221
222
223/** Allocates a memory range using malloc().
224 * Prints the provided error message in case of a failure.
225 *
226 * \param number of memory slices of type X to allocate
227 * \param failure message which is printed if the allocation fails
228 * \return pointer to the allocated memory range, will be NULL if a failure occurred
229 */
230template <> char* Malloc<char>(size_t size, const char* output)
231{
232 char* buffer = NULL;
233 buffer = (char*) malloc(sizeof(char) * (size + 1));
234 for (size_t i = size; i--;)
235 buffer[i] = (i % 2 == 0) ? 'p': 'c';
236 buffer[size] = '\0';
237
238 if (buffer != NULL) {
239 MemoryUsageObserver::getInstance()->addMemory(buffer, size);
240 } else {
241 Log() << Verbose(0) << "Malloc for datatype " << typeid(char).name()
242 << " failed - pointer is NULL: " << output << endl;
243 }
244
245 return buffer;
246};
247
248/**
249 * Frees all memory registered by the memory observer and calls exit(225) afterwards.
250 */
251void performCriticalExit() {
252 map<void*, size_t> pointers = MemoryUsageObserver::getInstance()->getPointersToAllocatedMemory();
253 for (map<void*, size_t>::iterator runner = pointers.begin(); runner != pointers.end(); runner++) {
254 Free(((void**) &runner->first));
255 }
256
257 exit(255);
258}
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