1 | *DECK PCHFE |
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2 | SUBROUTINE PCHFE (N, X, F, D, INCFD, SKIP, NE, XE, FE, IERR) |
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3 | C***BEGIN PROLOGUE PCHFE |
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4 | C***PURPOSE Evaluate a piecewise cubic Hermite function at an array of |
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5 | C points. May be used by itself for Hermite interpolation, |
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6 | C or as an evaluator for PCHIM or PCHIC. |
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7 | C***LIBRARY SLATEC (PCHIP) |
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8 | C***CATEGORY E3 |
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9 | C***TYPE SINGLE PRECISION (PCHFE-S, DPCHFE-D) |
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10 | C***KEYWORDS CUBIC HERMITE EVALUATION, HERMITE INTERPOLATION, PCHIP, |
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11 | C PIECEWISE CUBIC EVALUATION |
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12 | C***AUTHOR Fritsch, F. N., (LLNL) |
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13 | C Lawrence Livermore National Laboratory |
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14 | C P.O. Box 808 (L-316) |
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15 | C Livermore, CA 94550 |
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16 | C FTS 532-4275, (510) 422-4275 |
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17 | C***DESCRIPTION |
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18 | C |
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19 | C PCHFE: Piecewise Cubic Hermite Function Evaluator |
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20 | C |
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21 | C Evaluates the cubic Hermite function defined by N, X, F, D at |
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22 | C the points XE(J), J=1(1)NE. |
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23 | C |
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24 | C To provide compatibility with PCHIM and PCHIC, includes an |
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25 | C increment between successive values of the F- and D-arrays. |
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26 | C |
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27 | C ---------------------------------------------------------------------- |
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28 | C |
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29 | C Calling sequence: |
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30 | C |
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31 | C PARAMETER (INCFD = ...) |
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32 | C INTEGER N, NE, IERR |
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33 | C REAL X(N), F(INCFD,N), D(INCFD,N), XE(NE), FE(NE) |
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34 | C LOGICAL SKIP |
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35 | C |
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36 | C CALL PCHFE (N, X, F, D, INCFD, SKIP, NE, XE, FE, IERR) |
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37 | C |
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38 | C Parameters: |
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39 | C |
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40 | C N -- (input) number of data points. (Error return if N.LT.2 .) |
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41 | C |
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42 | C X -- (input) real array of independent variable values. The |
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43 | C elements of X must be strictly increasing: |
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44 | C X(I-1) .LT. X(I), I = 2(1)N. |
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45 | C (Error return if not.) |
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46 | C |
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47 | C F -- (input) real array of function values. F(1+(I-1)*INCFD) is |
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48 | C the value corresponding to X(I). |
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49 | C |
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50 | C D -- (input) real array of derivative values. D(1+(I-1)*INCFD) is |
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51 | C the value corresponding to X(I). |
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52 | C |
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53 | C INCFD -- (input) increment between successive values in F and D. |
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54 | C (Error return if INCFD.LT.1 .) |
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55 | C |
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56 | C SKIP -- (input/output) logical variable which should be set to |
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57 | C .TRUE. if the user wishes to skip checks for validity of |
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58 | C preceding parameters, or to .FALSE. otherwise. |
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59 | C This will save time in case these checks have already |
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60 | C been performed (say, in PCHIM or PCHIC). |
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61 | C SKIP will be set to .TRUE. on normal return. |
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62 | C |
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63 | C NE -- (input) number of evaluation points. (Error return if |
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64 | C NE.LT.1 .) |
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65 | C |
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66 | C XE -- (input) real array of points at which the function is to be |
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67 | C evaluated. |
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68 | C |
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69 | C NOTES: |
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70 | C 1. The evaluation will be most efficient if the elements |
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71 | C of XE are increasing relative to X; |
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72 | C that is, XE(J) .GE. X(I) |
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73 | C implies XE(K) .GE. X(I), all K.GE.J . |
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74 | C 2. If any of the XE are outside the interval [X(1),X(N)], |
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75 | C values are extrapolated from the nearest extreme cubic, |
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76 | C and a warning error is returned. |
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77 | C |
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78 | C FE -- (output) real array of values of the cubic Hermite function |
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79 | C defined by N, X, F, D at the points XE. |
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80 | C |
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81 | C IERR -- (output) error flag. |
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82 | C Normal return: |
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83 | C IERR = 0 (no errors). |
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84 | C Warning error: |
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85 | C IERR.GT.0 means that extrapolation was performed at |
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86 | C IERR points. |
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87 | C "Recoverable" errors: |
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88 | C IERR = -1 if N.LT.2 . |
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89 | C IERR = -2 if INCFD.LT.1 . |
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90 | C IERR = -3 if the X-array is not strictly increasing. |
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91 | C IERR = -4 if NE.LT.1 . |
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92 | C (The FE-array has not been changed in any of these cases.) |
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93 | C NOTE: The above errors are checked in the order listed, |
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94 | C and following arguments have **NOT** been validated. |
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95 | C |
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96 | C***REFERENCES (NONE) |
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97 | C***ROUTINES CALLED CHFEV, XERMSG |
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98 | C***REVISION HISTORY (YYMMDD) |
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99 | C 811020 DATE WRITTEN |
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100 | C 820803 Minor cosmetic changes for release 1. |
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101 | C 870707 Minor cosmetic changes to prologue. |
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102 | C 890531 Changed all specific intrinsics to generic. (WRB) |
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103 | C 890831 Modified array declarations. (WRB) |
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104 | C 890831 REVISION DATE from Version 3.2 |
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105 | C 891214 Prologue converted to Version 4.0 format. (BAB) |
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106 | C 900315 CALLs to XERROR changed to CALLs to XERMSG. (THJ) |
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107 | C***END PROLOGUE PCHFE |
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108 | C Programming notes: |
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109 | C |
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110 | C 1. To produce a double precision version, simply: |
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111 | C a. Change PCHFE to DPCHFE, and CHFEV to DCHFEV, wherever they |
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112 | C occur, |
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113 | C b. Change the real declaration to double precision, |
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114 | C |
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115 | C 2. Most of the coding between the call to CHFEV and the end of |
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116 | C the IR-loop could be eliminated if it were permissible to |
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117 | C assume that XE is ordered relative to X. |
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118 | C |
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119 | C 3. CHFEV does not assume that X1 is less than X2. thus, it would |
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120 | C be possible to write a version of PCHFE that assumes a strict- |
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121 | C ly decreasing X-array by simply running the IR-loop backwards |
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122 | C (and reversing the order of appropriate tests). |
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123 | C |
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124 | C 4. The present code has a minor bug, which I have decided is not |
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125 | C worth the effort that would be required to fix it. |
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126 | C If XE contains points in [X(N-1),X(N)], followed by points .LT. |
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127 | C X(N-1), followed by points .GT.X(N), the extrapolation points |
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128 | C will be counted (at least) twice in the total returned in IERR. |
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129 | C |
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130 | C DECLARE ARGUMENTS. |
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131 | C |
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132 | INTEGER N, INCFD, NE, IERR |
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133 | REAL X(*), F(INCFD,*), D(INCFD,*), XE(*), FE(*) |
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134 | LOGICAL SKIP |
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135 | C |
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136 | C DECLARE LOCAL VARIABLES. |
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137 | C |
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138 | INTEGER I, IERC, IR, J, JFIRST, NEXT(2), NJ |
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139 | C |
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140 | C VALIDITY-CHECK ARGUMENTS. |
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141 | C |
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142 | C***FIRST EXECUTABLE STATEMENT PCHFE |
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143 | IF (SKIP) GO TO 5 |
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144 | C |
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145 | IF ( N<2 ) GO TO 5001 |
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146 | IF ( INCFD<1 ) GO TO 5002 |
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147 | DO I = 2, N |
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148 | IF ( X(I)<=X(I-1) ) GO TO 5003 |
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149 | END DO |
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150 | C |
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151 | C FUNCTION DEFINITION IS OK, GO ON. |
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152 | C |
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153 | 5 CONTINUE |
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154 | IF ( NE<1 ) GO TO 5004 |
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155 | IERR = 0 |
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156 | SKIP = .TRUE. |
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157 | C |
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158 | C LOOP OVER INTERVALS. ( INTERVAL INDEX IS IL = IR-1 . ) |
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159 | C ( INTERVAL IS X(IL).LE.X.LT.X(IR) . ) |
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160 | JFIRST = 1 |
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161 | IR = 2 |
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162 | 10 CONTINUE |
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163 | C |
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164 | C SKIP OUT OF LOOP IF HAVE PROCESSED ALL EVALUATION POINTS. |
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165 | C |
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166 | IF (JFIRST > NE) GO TO 5000 |
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167 | C |
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168 | C LOCATE ALL POINTS IN INTERVAL. |
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169 | C |
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170 | DO J = JFIRST, NE |
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171 | IF (XE(J) >= X(IR)) GO TO 30 |
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172 | END DO |
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173 | J = NE + 1 |
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174 | GO TO 40 |
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175 | C |
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176 | C HAVE LOCATED FIRST POINT BEYOND INTERVAL. |
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177 | C |
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178 | 30 CONTINUE |
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179 | IF (IR == N) J = NE + 1 |
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180 | C |
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181 | 40 CONTINUE |
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182 | NJ = J - JFIRST |
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183 | C |
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184 | C SKIP EVALUATION IF NO POINTS IN INTERVAL. |
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185 | C |
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186 | IF (NJ == 0) GO TO 50 |
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187 | C |
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188 | C EVALUATE CUBIC AT XE(I), I = JFIRST (1) J-1 . |
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189 | C |
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190 | C ---------------------------------------------------------------- |
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191 | CALL CHFEV (X(IR-1),X(IR), F(1,IR-1),F(1,IR), D(1,IR-1),D(1,IR), |
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192 | * NJ, XE(JFIRST), FE(JFIRST), NEXT, IERC) |
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193 | C ---------------------------------------------------------------- |
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194 | IF (IERC < 0) GO TO 5005 |
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195 | C |
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196 | IF (NEXT(2) == 0) GO TO 42 |
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197 | C IF (NEXT(2) .GT. 0) THEN |
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198 | C IN THE CURRENT SET OF XE-POINTS, THERE ARE NEXT(2) TO THE |
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199 | C RIGHT OF X(IR). |
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200 | C |
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201 | IF (IR < N) GO TO 41 |
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202 | C IF (IR .EQ. N) THEN |
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203 | C THESE ARE ACTUALLY EXTRAPOLATION POINTS. |
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204 | IERR = IERR + NEXT(2) |
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205 | GO TO 42 |
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206 | 41 CONTINUE |
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207 | C ELSE |
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208 | C WE SHOULD NEVER HAVE GOTTEN HERE. |
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209 | GO TO 5005 |
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210 | C ENDIF |
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211 | C ENDIF |
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212 | 42 CONTINUE |
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213 | C |
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214 | IF (NEXT(1) == 0) GO TO 49 |
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215 | C IF (NEXT(1) .GT. 0) THEN |
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216 | C IN THE CURRENT SET OF XE-POINTS, THERE ARE NEXT(1) TO THE |
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217 | C LEFT OF X(IR-1). |
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218 | C |
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219 | IF (IR > 2) GO TO 43 |
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220 | C IF (IR .EQ. 2) THEN |
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221 | C THESE ARE ACTUALLY EXTRAPOLATION POINTS. |
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222 | IERR = IERR + NEXT(1) |
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223 | GO TO 49 |
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224 | 43 CONTINUE |
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225 | C ELSE |
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226 | C XE IS NOT ORDERED RELATIVE TO X, SO MUST ADJUST |
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227 | C EVALUATION INTERVAL. |
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228 | C |
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229 | C FIRST, LOCATE FIRST POINT TO LEFT OF X(IR-1). |
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230 | DO I = JFIRST, J-1 |
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231 | IF (XE(I) < X(IR-1)) GO TO 45 |
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232 | END DO |
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233 | C NOTE-- CANNOT DROP THROUGH HERE UNLESS THERE IS AN ERROR |
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234 | C IN CHFEV. |
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235 | GO TO 5005 |
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236 | C |
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237 | 45 CONTINUE |
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238 | C RESET J. (THIS WILL BE THE NEW JFIRST.) |
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239 | J = I |
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240 | C |
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241 | C NOW FIND OUT HOW FAR TO BACK UP IN THE X-ARRAY. |
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242 | DO I = 1, IR-1 |
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243 | IF (XE(J) < X(I)) GO TO 47 |
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244 | END DO |
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245 | C NB-- CAN NEVER DROP THROUGH HERE, SINCE XE(J).LT.X(IR-1). |
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246 | C |
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247 | 47 CONTINUE |
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248 | C AT THIS POINT, EITHER XE(J) .LT. X(1) |
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249 | C OR X(I-1) .LE. XE(J) .LT. X(I) . |
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250 | C RESET IR, RECOGNIZING THAT IT WILL BE INCREMENTED BEFORE |
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251 | C CYCLING. |
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252 | IR = MAX(1, I-1) |
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253 | C ENDIF |
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254 | C ENDIF |
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255 | 49 CONTINUE |
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256 | C |
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257 | JFIRST = J |
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258 | C |
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259 | C END OF IR-LOOP. |
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260 | C |
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261 | 50 CONTINUE |
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262 | IR = IR + 1 |
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263 | IF (IR <= N) GO TO 10 |
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264 | C |
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265 | C NORMAL RETURN. |
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266 | C |
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267 | 5000 CONTINUE |
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268 | RETURN |
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269 | C |
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270 | C ERROR RETURNS. |
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271 | C |
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272 | 5001 CONTINUE |
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273 | C N.LT.2 RETURN. |
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274 | IERR = -1 |
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275 | CALL XERMSG ('SLATEC', 'PCHFE', |
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276 | + 'NUMBER OF DATA POINTS LESS THAN TWO', IERR, 1) |
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277 | RETURN |
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278 | C |
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279 | 5002 CONTINUE |
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280 | C INCFD.LT.1 RETURN. |
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281 | IERR = -2 |
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282 | CALL XERMSG ('SLATEC', 'PCHFE', 'INCREMENT LESS THAN ONE', IERR, |
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283 | + 1) |
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284 | RETURN |
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285 | C |
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286 | 5003 CONTINUE |
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287 | C X-ARRAY NOT STRICTLY INCREASING. |
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288 | IERR = -3 |
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289 | CALL XERMSG ('SLATEC', 'PCHFE', 'X-ARRAY NOT STRICTLY INCREASING' |
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290 | + , IERR, 1) |
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291 | RETURN |
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292 | C |
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293 | 5004 CONTINUE |
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294 | C NE.LT.1 RETURN. |
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295 | IERR = -4 |
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296 | CALL XERMSG ('SLATEC', 'PCHFE', |
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297 | + 'NUMBER OF EVALUATION POINTS LESS THAN ONE', IERR, 1) |
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298 | RETURN |
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299 | C |
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300 | 5005 CONTINUE |
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301 | C ERROR RETURN FROM CHFEV. |
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302 | C *** THIS CASE SHOULD NEVER OCCUR *** |
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303 | IERR = -5 |
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304 | CALL XERMSG ('SLATEC', 'PCHFE', |
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305 | + 'ERROR RETURN FROM CHFEV -- FATAL', IERR, 2) |
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306 | RETURN |
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307 | C------------- LAST LINE OF PCHFE FOLLOWS ------------------------------ |
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308 | END |
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