Changeset 3383
- Timestamp:
- Mar 7, 2005, 11:15:14 AM (21 years ago)
- Location:
- trunk/psLib/test/dataManip
- Files:
-
- 2 edited
-
tst_psFunc00.c (modified) (4 diffs)
-
verified/tst_psFunc00.stderr (modified) (1 diff)
Legend:
- Unmodified
- Added
- Removed
-
trunk/psLib/test/dataManip/tst_psFunc00.c
r3382 r3383 11 11 * are good. 12 12 * 13 * @version $Revision: 1.1 8$ $Name: not supported by cvs2svn $14 * @date $Date: 2005-03-07 21: 00:03 $13 * @version $Revision: 1.19 $ $Name: not supported by cvs2svn $ 14 * @date $Date: 2005-03-07 21:15:13 $ 15 15 * 16 16 * Copyright 2004-2005 Maui High Performance Computing Center, Univ. of Hawaii … … 20 20 #include "pslib.h" 21 21 #include "psTest.h" 22 #include "psMemory.h"23 #include "psFunctions.h"24 22 25 23 // Defines 26 24 #define ORDER 3 27 28 29 #define MISC_FLOAT_NUMBER 345.030 #define MISC_X_VALUE 5.031 #define MISC_X_CHEB_VALUE 0.532 #define MISC_INT_NUMBER 3533 #define AN 234 #define BN 435 #define CN 636 #define DN 837 38 static psS32 t01(void);39 25 40 26 static psS32 testPolynomial1DAlloc(void); … … 56 42 {testDPolynomial3DAlloc,579,"psDPolynomial3DAlloc",0,false}, 57 43 {testDPolynomial4DAlloc,579,"psDPolynomial4DAlloc",0,false}, 58 {t01,0000,"psPolynomial1DAlloc",0,false},59 44 {NULL} 60 45 }; … … 653 638 } 654 639 655 656 // XXX: This test comes from Paul Price. We should add into the code.657 #define ORDER 3658 #define BAD 1659 psS32 t01(void)660 {661 psPolynomial1D *poly = psPolynomial1DAlloc(ORDER, PS_POLYNOMIAL_ORD);662 663 for (int i = 0; i < poly->n; i++) {664 poly->coeff[i] = (float)i;665 if (i == BAD) {666 poly->mask[i] = 1; // Don't use this coefficient!667 } else {668 poly->mask[i] = 0;669 }670 }671 672 fprintf(stderr,"Value using mask: %f\n", psPolynomial1DEval(poly, 0.5));673 674 // A different method of doing the same thing675 poly->coeff[BAD] = 0.0;676 poly->mask[BAD] = 0;677 678 fprintf(stderr,"Value using coefficient zeroing: %f\n", psPolynomial1DEval(poly, 0.5));679 680 psFree(poly);681 682 return(0);683 }684 685 686 psS32 myTest()687 {688 t01();689 690 psPolynomial1D *my1DPoly = NULL;691 psPolynomial2D *my2DPoly = NULL;692 psPolynomial3D *my3DPoly = NULL;693 psPolynomial4D *my4DPoly = NULL;694 psDPolynomial1D *my1DPolyD = NULL;695 psDPolynomial2D *my2DPolyD = NULL;696 psDPolynomial3D *my3DPolyD = NULL;697 psDPolynomial4D *my4DPolyD = NULL;698 psS32 testStatus = true;699 psS32 memLeaks = 0;700 psS32 a = 0;701 psS32 b = 0;702 psS32 c = 0;703 psS32 d = 0;704 psS32 currentId = 0;705 706 currentId = psMemGetId();707 /*************************************************************************/708 /* Allocate and initialize data structures */709 /*************************************************************************/710 printPositiveTestHeader(stdout,711 "psFunctions functions",712 "Allocate/Deallocate the psPolynomial1D structure.");713 714 my1DPoly = psPolynomial1DAlloc(AN, PS_POLYNOMIAL_ORD);715 for (a = 0; a < AN ; a++) {716 my1DPoly->coeff[a] = MISC_FLOAT_NUMBER;717 my1DPoly->coeffErr[a] = MISC_FLOAT_NUMBER;718 my1DPoly->mask[a] = MISC_INT_NUMBER;719 }720 psMemCheckCorruption(1);721 722 printf("At (x) = (%f): %f\n", MISC_X_VALUE,723 psPolynomial1DEval(724 my1DPoly,725 MISC_X_VALUE726 ));727 728 psFree(my1DPoly);729 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);730 if (0 != memLeaks) {731 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);732 }733 printFooter(stdout,734 "psFunctions functions",735 "Allocate/Deallocate the psPolynomial1D structure.",736 testStatus);737 738 739 740 741 742 printPositiveTestHeader(stdout,743 "psFunctions functions",744 "Allocate/Deallocate the psPolynomial2D structure.");745 my2DPoly = psPolynomial2DAlloc(AN, BN, PS_POLYNOMIAL_ORD);746 for (a = 0; a < AN ; a++) {747 for (b = 0; b < BN ; b++) {748 my2DPoly->coeff[a][b] = MISC_FLOAT_NUMBER;749 my2DPoly->coeffErr[a][b] = MISC_FLOAT_NUMBER;750 my2DPoly->mask[a][b] = MISC_INT_NUMBER;751 }752 }753 psMemCheckCorruption(1);754 755 printf("At (x, y) = (%f, %f): %f\n", MISC_X_VALUE, MISC_X_VALUE,756 psPolynomial2DEval(757 my2DPoly,758 MISC_X_VALUE,759 MISC_X_VALUE760 ));761 762 psFree(my2DPoly);763 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);764 if (0 != memLeaks) {765 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);766 }767 printFooter(stdout,768 "psFunctions functions",769 "Allocate/Deallocate the psPolynomial2D structure.",770 testStatus);771 772 773 774 printPositiveTestHeader(stdout,775 "psFunctions functions",776 "Allocate/Deallocate the psPolynomial3D structure.");777 my3DPoly = psPolynomial3DAlloc(AN, BN, CN, PS_POLYNOMIAL_ORD);778 for (a = 0; a < AN ; a++) {779 for (b = 0; b < BN ; b++) {780 for (c = 0; c < CN ; c++) {781 my3DPoly->coeff[a][b][c] = MISC_FLOAT_NUMBER;782 my3DPoly->coeffErr[a][b][c] = MISC_FLOAT_NUMBER;783 my3DPoly->mask[a][b][c] = MISC_INT_NUMBER;784 }785 }786 }787 psMemCheckCorruption(1);788 789 printf("At (x, y, z) = (%f, %f, %f): %f\n", MISC_X_VALUE, MISC_X_VALUE,790 MISC_X_VALUE,791 psPolynomial3DEval(792 my3DPoly,793 MISC_X_VALUE,794 MISC_X_VALUE,795 MISC_X_VALUE796 ));797 798 psFree(my3DPoly);799 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);800 if (0 != memLeaks) {801 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);802 }803 printFooter(stdout,804 "psFunctions functions",805 "Allocate/Deallocate the psPolynomial3D structure.",806 testStatus);807 808 809 810 811 printPositiveTestHeader(stdout,812 "psFunctions functions",813 "Allocate/Deallocate the psPolynomial4D structure.");814 my4DPoly = psPolynomial4DAlloc(AN, BN, CN, DN, PS_POLYNOMIAL_ORD);815 for (a = 0; a < AN ; a++) {816 for (b = 0; b < BN ; b++) {817 for (c = 0; c < CN ; c++) {818 for (d = 0; d < DN ; d++) {819 my4DPoly->coeff[a][b][c][d] = MISC_FLOAT_NUMBER;820 my4DPoly->coeffErr[a][b][c][d] = MISC_FLOAT_NUMBER;821 my4DPoly->mask[a][b][c][d] = MISC_INT_NUMBER;822 }823 }824 }825 }826 psMemCheckCorruption(1);827 828 printf("At (w, x, y, z) = (%f, %f, %f, %f): %f\n", MISC_X_VALUE, MISC_X_VALUE,829 MISC_X_VALUE, MISC_X_VALUE,830 psPolynomial4DEval(831 my4DPoly,832 MISC_X_VALUE,833 MISC_X_VALUE,834 MISC_X_VALUE,835 MISC_X_VALUE836 ));837 838 psFree(my4DPoly);839 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);840 if (0 != memLeaks) {841 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);842 }843 printFooter(stdout,844 "psFunctions functions",845 "Allocate/Deallocate the psPolynomial4D structure.",846 testStatus);847 848 849 850 /*************************************************************************/851 /* Allocate and initialize data structures */852 /*************************************************************************/853 printPositiveTestHeader(stdout,854 "psFunctions functions",855 "Allocate/Deallocate the psDPolynomial1D structure.");856 857 my1DPolyD = psDPolynomial1DAlloc(AN, PS_POLYNOMIAL_ORD);858 for (a = 0; a < AN ; a++) {859 my1DPolyD->coeff[a] = MISC_FLOAT_NUMBER;860 my1DPolyD->coeffErr[a] = MISC_FLOAT_NUMBER;861 my1DPolyD->mask[a] = MISC_INT_NUMBER;862 }863 psMemCheckCorruption(1);864 865 printf("At (x) = (%f): %f\n", MISC_X_VALUE,866 psDPolynomial1DEval(867 my1DPolyD,868 MISC_X_VALUE869 ));870 871 psFree(my1DPolyD);872 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);873 if (0 != memLeaks) {874 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);875 }876 printFooter(stdout,877 "psFunctions functions",878 "Allocate/Deallocate the psDPolynomial1D structure.",879 testStatus);880 881 printPositiveTestHeader(stdout,882 "psFunctions functions",883 "Allocate/Deallocate the psDPolynomial2D structure.");884 my2DPolyD = psDPolynomial2DAlloc(AN, BN, PS_POLYNOMIAL_ORD);885 for (a = 0; a < AN ; a++) {886 for (b = 0; b < BN ; b++) {887 my2DPolyD->coeff[a][b] = MISC_FLOAT_NUMBER;888 my2DPolyD->coeffErr[a][b] = MISC_FLOAT_NUMBER;889 my2DPolyD->mask[a][b] = MISC_INT_NUMBER;890 }891 }892 psMemCheckCorruption(1);893 894 printf("At (x, y) = (%f, %f): %f\n", MISC_X_VALUE, MISC_X_VALUE,895 psDPolynomial2DEval(896 my2DPolyD,897 MISC_X_VALUE,898 MISC_X_VALUE899 ));900 901 psFree(my2DPolyD);902 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);903 if (0 != memLeaks) {904 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);905 }906 printFooter(stdout,907 "psFunctions functions",908 "Allocate/Deallocate the psDPolynomial2D structure.",909 testStatus);910 911 912 913 printPositiveTestHeader(stdout,914 "psFunctions functions",915 "Allocate/Deallocate the psDPolynomial3D structure.");916 my3DPolyD = psDPolynomial3DAlloc(AN, BN, CN, PS_POLYNOMIAL_ORD);917 for (a = 0; a < AN ; a++) {918 for (b = 0; b < BN ; b++) {919 for (c = 0; c < CN ; c++) {920 my3DPolyD->coeff[a][b][c] = MISC_FLOAT_NUMBER;921 my3DPolyD->coeffErr[a][b][c] = MISC_FLOAT_NUMBER;922 my3DPolyD->mask[a][b][c] = MISC_INT_NUMBER;923 }924 }925 }926 psMemCheckCorruption(1);927 928 printf("At (x, y, z) = (%f, %f, %f): %f\n", MISC_X_VALUE, MISC_X_VALUE,929 MISC_X_VALUE,930 psDPolynomial3DEval(931 my3DPolyD,932 MISC_X_VALUE,933 MISC_X_VALUE,934 MISC_X_VALUE935 ));936 937 psFree(my3DPolyD);938 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);939 if (0 != memLeaks) {940 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);941 }942 printFooter(stdout,943 "psFunctions functions",944 "Allocate/Deallocate the psDPolynomial3D structure.",945 testStatus);946 947 948 949 950 printPositiveTestHeader(stdout,951 "psFunctions functions",952 "Allocate/Deallocate the psDPolynomial4D structure.");953 my4DPolyD = psDPolynomial4DAlloc(AN, BN, CN, DN, PS_POLYNOMIAL_ORD);954 for (a = 0; a < AN ; a++) {955 for (b = 0; b < BN ; b++) {956 for (c = 0; c < CN ; c++) {957 for (d = 0; d < DN ; d++) {958 my4DPolyD->coeff[a][b][c][d] = MISC_FLOAT_NUMBER;959 my4DPolyD->coeffErr[a][b][c][d] = MISC_FLOAT_NUMBER;960 my4DPolyD->mask[a][b][c][d] = MISC_INT_NUMBER;961 }962 }963 }964 }965 psMemCheckCorruption(1);966 967 printf("At (w, x, y, z) = (%f, %f, %f, %f): %f\n", MISC_X_VALUE, MISC_X_VALUE,968 MISC_X_VALUE, MISC_X_VALUE,969 psDPolynomial4DEval(970 my4DPolyD,971 MISC_X_VALUE,972 MISC_X_VALUE,973 MISC_X_VALUE,974 MISC_X_VALUE975 ));976 977 psFree(my4DPolyD);978 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);979 if (0 != memLeaks) {980 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);981 }982 printFooter(stdout,983 "psFunctions functions",984 "Allocate/Deallocate the psDPolynomial4D structure.",985 testStatus);986 987 988 989 /*************************************************************************/990 /* Allocate and initialize data structures */991 /*************************************************************************/992 printPositiveTestHeader(stdout,993 "psFunctions functions",994 "Allocate/Deallocate the psPolynomial1D structure (CHEBYSHEV).");995 996 my1DPoly = psPolynomial1DAlloc(AN, PS_POLYNOMIAL_CHEB);997 for (a = 0; a < AN ; a++) {998 my1DPoly->coeff[a] = MISC_FLOAT_NUMBER;999 my1DPoly->coeffErr[a] = MISC_FLOAT_NUMBER;1000 my1DPoly->mask[a] = MISC_INT_NUMBER;1001 }1002 psMemCheckCorruption(1);1003 1004 printf("At (x) = (%f): %f\n", MISC_X_VALUE,1005 psPolynomial1DEval(1006 my1DPoly,1007 MISC_X_CHEB_VALUE1008 ));1009 1010 psFree(my1DPoly);1011 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);1012 if (0 != memLeaks) {1013 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);1014 }1015 printFooter(stdout,1016 "psFunctions functions",1017 "Allocate/Deallocate the psPolynomial1D structure (CHEBYSHEV).",1018 testStatus);1019 1020 1021 1022 1023 printPositiveTestHeader(stdout,1024 "psFunctions functions",1025 "Allocate/Deallocate the psPolynomial2D structure (CHEBYSHEV).");1026 my2DPoly = psPolynomial2DAlloc(AN, BN, PS_POLYNOMIAL_CHEB);1027 for (a = 0; a < AN ; a++) {1028 for (b = 0; b < BN ; b++) {1029 my2DPoly->coeff[a][b] = MISC_FLOAT_NUMBER;1030 my2DPoly->coeffErr[a][b] = MISC_FLOAT_NUMBER;1031 my2DPoly->mask[a][b] = MISC_INT_NUMBER;1032 }1033 }1034 psMemCheckCorruption(1);1035 1036 printf("At (x, y) = (%f, %f): %f\n", MISC_X_CHEB_VALUE, MISC_X_CHEB_VALUE,1037 psPolynomial2DEval(1038 my2DPoly,1039 MISC_X_CHEB_VALUE,1040 MISC_X_CHEB_VALUE1041 ));1042 1043 psFree(my2DPoly);1044 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);1045 if (0 != memLeaks) {1046 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);1047 }1048 printFooter(stdout,1049 "psFunctions functions",1050 "Allocate/Deallocate the psPolynomial2D structure (CHEBYSHEV).",1051 testStatus);1052 1053 1054 1055 printPositiveTestHeader(stdout,1056 "psFunctions functions",1057 "Allocate/Deallocate the psPolynomial3D structure (CHEBYSHEV).");1058 my3DPoly = psPolynomial3DAlloc(AN, BN, CN, PS_POLYNOMIAL_CHEB);1059 for (a = 0; a < AN ; a++) {1060 for (b = 0; b < BN ; b++) {1061 for (c = 0; c < CN ; c++) {1062 my3DPoly->coeff[a][b][c] = MISC_FLOAT_NUMBER;1063 my3DPoly->coeffErr[a][b][c] = MISC_FLOAT_NUMBER;1064 my3DPoly->mask[a][b][c] = MISC_INT_NUMBER;1065 }1066 }1067 }1068 psMemCheckCorruption(1);1069 1070 printf("At (x, y, z) = (%f, %f, %f): %f\n", MISC_X_CHEB_VALUE, MISC_X_CHEB_VALUE,1071 MISC_X_CHEB_VALUE,1072 psPolynomial3DEval(1073 my3DPoly,1074 MISC_X_CHEB_VALUE,1075 MISC_X_CHEB_VALUE,1076 MISC_X_CHEB_VALUE1077 ));1078 1079 psFree(my3DPoly);1080 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);1081 if (0 != memLeaks) {1082 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);1083 }1084 printFooter(stdout,1085 "psFunctions functions",1086 "Allocate/Deallocate the psPolynomial3D structure (CHEBYSHEV).",1087 testStatus);1088 1089 1090 1091 1092 printPositiveTestHeader(stdout,1093 "psFunctions functions",1094 "Allocate/Deallocate the psPolynomial4D structure (CHEBYSHEV).");1095 my4DPoly = psPolynomial4DAlloc(AN, BN, CN, DN, PS_POLYNOMIAL_CHEB);1096 for (a = 0; a < AN ; a++) {1097 for (b = 0; b < BN ; b++) {1098 for (c = 0; c < CN ; c++) {1099 for (d = 0; d < DN ; d++) {1100 my4DPoly->coeff[a][b][c][d] = MISC_FLOAT_NUMBER;1101 my4DPoly->coeffErr[a][b][c][d] = MISC_FLOAT_NUMBER;1102 my4DPoly->mask[a][b][c][d] = MISC_INT_NUMBER;1103 }1104 }1105 }1106 }1107 psMemCheckCorruption(1);1108 1109 printf("At (w, x, y, z) = (%f, %f, %f, %f): %f\n", MISC_X_CHEB_VALUE, MISC_X_CHEB_VALUE,1110 MISC_X_CHEB_VALUE, MISC_X_CHEB_VALUE,1111 psPolynomial4DEval(1112 my4DPoly,1113 MISC_X_CHEB_VALUE,1114 MISC_X_CHEB_VALUE,1115 MISC_X_CHEB_VALUE,1116 MISC_X_CHEB_VALUE1117 ));1118 1119 psFree(my4DPoly);1120 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);1121 if (0 != memLeaks) {1122 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);1123 }1124 printFooter(stdout,1125 "psFunctions functions",1126 "Allocate/Deallocate the psPolynomial4D structure (CHEBYSHEV).",1127 testStatus);1128 1129 1130 1131 /*************************************************************************/1132 /* Allocate and initialize data structures */1133 /*************************************************************************/1134 printPositiveTestHeader(stdout,1135 "psFunctions functions",1136 "Allocate/Deallocate the psDPolynomial1D structure (CHEBYSHEV).");1137 1138 my1DPolyD = psDPolynomial1DAlloc(AN, PS_POLYNOMIAL_CHEB);1139 for (a = 0; a < AN ; a++) {1140 my1DPolyD->coeff[a] = MISC_FLOAT_NUMBER;1141 my1DPolyD->coeffErr[a] = MISC_FLOAT_NUMBER;1142 my1DPolyD->mask[a] = MISC_INT_NUMBER;1143 }1144 psMemCheckCorruption(1);1145 1146 printf("At (x) = (%f): %f\n", MISC_X_CHEB_VALUE,1147 psDPolynomial1DEval(1148 my1DPolyD,1149 MISC_X_CHEB_VALUE1150 ));1151 1152 psFree(my1DPolyD);1153 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);1154 if (0 != memLeaks) {1155 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);1156 }1157 printFooter(stdout,1158 "psFunctions functions",1159 "Allocate/Deallocate the psDPolynomial1D structure (CHEBYSHEV).",1160 testStatus);1161 1162 printPositiveTestHeader(stdout,1163 "psFunctions functions",1164 "Allocate/Deallocate the psDPolynomial2D structure (CHEBYSHEV).");1165 my2DPolyD = psDPolynomial2DAlloc(AN, BN, PS_POLYNOMIAL_CHEB);1166 for (a = 0; a < AN ; a++) {1167 for (b = 0; b < BN ; b++) {1168 my2DPolyD->coeff[a][b] = MISC_FLOAT_NUMBER;1169 my2DPolyD->coeffErr[a][b] = MISC_FLOAT_NUMBER;1170 my2DPolyD->mask[a][b] = MISC_INT_NUMBER;1171 }1172 }1173 psMemCheckCorruption(1);1174 1175 printf("At (x, y) = (%f, %f): %f\n", MISC_X_CHEB_VALUE, MISC_X_CHEB_VALUE,1176 psDPolynomial2DEval(1177 my2DPolyD,1178 MISC_X_CHEB_VALUE,1179 MISC_X_CHEB_VALUE1180 ));1181 1182 psFree(my2DPolyD);1183 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);1184 if (0 != memLeaks) {1185 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);1186 }1187 printFooter(stdout,1188 "psFunctions functions",1189 "Allocate/Deallocate the psDPolynomial2D structure (CHEBYSHEV).",1190 testStatus);1191 1192 1193 1194 printPositiveTestHeader(stdout,1195 "psFunctions functions",1196 "Allocate/Deallocate the psDPolynomial3D structure (CHEBYSHEV).");1197 my3DPolyD = psDPolynomial3DAlloc(AN, BN, CN, PS_POLYNOMIAL_CHEB);1198 for (a = 0; a < AN ; a++) {1199 for (b = 0; b < BN ; b++) {1200 for (c = 0; c < CN ; c++) {1201 my3DPolyD->coeff[a][b][c] = MISC_FLOAT_NUMBER;1202 my3DPolyD->coeffErr[a][b][c] = MISC_FLOAT_NUMBER;1203 my3DPolyD->mask[a][b][c] = MISC_INT_NUMBER;1204 }1205 }1206 }1207 psMemCheckCorruption(1);1208 1209 printf("At (x, y, z) = (%f, %f, %f): %f\n", MISC_X_CHEB_VALUE, MISC_X_CHEB_VALUE,1210 MISC_X_CHEB_VALUE,1211 psDPolynomial3DEval(1212 my3DPolyD,1213 MISC_X_CHEB_VALUE,1214 MISC_X_CHEB_VALUE,1215 MISC_X_CHEB_VALUE1216 ));1217 1218 psFree(my3DPolyD);1219 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);1220 if (0 != memLeaks) {1221 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);1222 }1223 printFooter(stdout,1224 "psFunctions functions",1225 "Allocate/Deallocate the psDPolynomial3D structure (CHEBYSHEV).",1226 testStatus);1227 1228 1229 1230 1231 printPositiveTestHeader(stdout,1232 "psFunctions functions",1233 "Allocate/Deallocate the psDPolynomial4D structure (CHEBYSHEV).");1234 my4DPolyD = psDPolynomial4DAlloc(AN, BN, CN, DN, PS_POLYNOMIAL_CHEB);1235 for (a = 0; a < AN ; a++) {1236 for (b = 0; b < BN ; b++) {1237 for (c = 0; c < CN ; c++) {1238 for (d = 0; d < DN ; d++) {1239 my4DPolyD->coeff[a][b][c][d] = MISC_FLOAT_NUMBER;1240 my4DPolyD->coeffErr[a][b][c][d] = MISC_FLOAT_NUMBER;1241 my4DPolyD->mask[a][b][c][d] = MISC_INT_NUMBER;1242 }1243 }1244 }1245 }1246 psMemCheckCorruption(1);1247 1248 printf("At (w, x, y, z) = (%f, %f, %f, %f): %f\n", MISC_X_CHEB_VALUE, MISC_X_CHEB_VALUE,1249 MISC_X_CHEB_VALUE, MISC_X_CHEB_VALUE,1250 psDPolynomial4DEval(1251 my4DPolyD,1252 MISC_X_CHEB_VALUE,1253 MISC_X_CHEB_VALUE,1254 MISC_X_CHEB_VALUE,1255 MISC_X_CHEB_VALUE1256 ));1257 1258 psFree(my4DPolyD);1259 memLeaks = psMemCheckLeaks(currentId,NULL,stderr,false);1260 if (0 != memLeaks) {1261 psAbort(__func__,"Memory Leaks! (%d leaks)", memLeaks);1262 }1263 printFooter(stdout,1264 "psFunctions functions",1265 "Allocate/Deallocate the psDPolynomial4D structure (CHEBYSHEV).",1266 testStatus);1267 1268 return (!testStatus);1269 }1270 -
trunk/psLib/test/dataManip/verified/tst_psFunc00.stderr
r3382 r3383 151 151 ---> TESTPOINT PASSED (psPolynomialXD{psDPolynomial4DAlloc} | tst_psFunc00.c) 152 152 153 /***************************** TESTPOINT ******************************************\154 * TestFile: tst_psFunc00.c *155 * TestPoint: psPolynomialXD{psPolynomial1DAlloc} *156 * TestType: Positive *157 \**********************************************************************************/158 159 Value using mask: 0.500000160 Value using coefficient zeroing: 0.500000161 162 ---> TESTPOINT PASSED (psPolynomialXD{psPolynomial1DAlloc} | tst_psFunc00.c)163
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