1 | *DECK XERPRN |
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2 | SUBROUTINE XERPRN (PREFIX, NPREF, MESSG, NWRAP) |
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3 | IMPLICIT NONE |
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4 | C***BEGIN PROLOGUE XERPRN |
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5 | C***SUBSIDIARY |
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6 | C***PURPOSE Print error messages processed by XERMSG. |
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7 | C***LIBRARY SLATEC (XERROR) |
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8 | C***CATEGORY R3C |
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9 | C***TYPE ALL (XERPRN-A) |
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10 | C***KEYWORDS ERROR MESSAGES, PRINTING, XERROR |
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11 | C***AUTHOR Fong, Kirby, (NMFECC at LLNL) |
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12 | C***DESCRIPTION |
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13 | C |
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14 | C This routine sends one or more lines to each of the (up to five) |
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15 | C logical units to which error messages are to be sent. This routine |
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16 | C is called several times by XERMSG, sometimes with a single line to |
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17 | C print and sometimes with a (potentially very long) message that may |
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18 | C wrap around into multiple lines. |
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19 | C |
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20 | C PREFIX Input argument of type CHARACTER. This argument contains |
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21 | C characters to be put at the beginning of each line before |
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22 | C the body of the message. No more than 16 characters of |
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23 | C PREFIX will be used. |
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24 | C |
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25 | C NPREF Input argument of type INTEGER. This argument is the number |
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26 | C of characters to use from PREFIX. If it is negative, the |
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27 | C intrinsic function LEN is used to determine its length. If |
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28 | C it is zero, PREFIX is not used. If it exceeds 16 or if |
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29 | C LEN(PREFIX) exceeds 16, only the first 16 characters will be |
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30 | C used. If NPREF is positive and the length of PREFIX is less |
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31 | C than NPREF, a copy of PREFIX extended with blanks to length |
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32 | C NPREF will be used. |
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33 | C |
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34 | C MESSG Input argument of type CHARACTER. This is the text of a |
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35 | C message to be printed. If it is a long message, it will be |
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36 | C broken into pieces for printing on multiple lines. Each line |
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37 | C will start with the appropriate prefix and be followed by a |
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38 | C piece of the message. NWRAP is the number of characters per |
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39 | C piece; that is, after each NWRAP characters, we break and |
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40 | C start a new line. In addition the characters '$$' embedded |
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41 | C in MESSG are a sentinel for a new line. The counting of |
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42 | C characters up to NWRAP starts over for each new line. The |
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43 | C value of NWRAP typically used by XERMSG is 72 since many |
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44 | C older error messages in the SLATEC Library are laid out to |
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45 | C rely on wrap-around every 72 characters. |
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46 | C |
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47 | C NWRAP Input argument of type INTEGER. This gives the maximum size |
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48 | C piece into which to break MESSG for printing on multiple |
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49 | C lines. An embedded '$$' ends a line, and the count restarts |
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50 | C at the following character. If a line break does not occur |
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51 | C on a blank (it would split a word) that word is moved to the |
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52 | C next line. Values of NWRAP less than 16 will be treated as |
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53 | C 16. Values of NWRAP greater than 132 will be treated as 132. |
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54 | C The actual line length will be NPREF + NWRAP after NPREF has |
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55 | C been adjusted to fall between 0 and 16 and NWRAP has been |
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56 | C adjusted to fall between 16 and 132. |
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57 | C |
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58 | C***REFERENCES R. E. Jones and D. K. Kahaner, XERROR, the SLATEC |
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59 | C Error-handling Package, SAND82-0800, Sandia |
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60 | C Laboratories, 1982. |
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61 | C***ROUTINES CALLED I1MACH, XGETUA |
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62 | C***REVISION HISTORY (YYMMDD) |
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63 | C 880621 DATE WRITTEN |
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64 | C 880708 REVISED AFTER THE SLATEC CML SUBCOMMITTEE MEETING OF |
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65 | C JUNE 29 AND 30 TO CHANGE THE NAME TO XERPRN AND TO REWORK |
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66 | C THE HANDLING OF THE NEW LINE SENTINEL TO BEHAVE LIKE THE |
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67 | C SLASH CHARACTER IN FORMAT STATEMENTS. |
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68 | C 890706 REVISED WITH THE HELP OF FRED FRITSCH AND REG CLEMENS TO |
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69 | C STREAMLINE THE CODING AND FIX A BUG THAT CAUSED EXTRA BLANK |
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70 | C LINES TO BE PRINTED. |
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71 | C 890721 REVISED TO ADD A NEW FEATURE. A NEGATIVE VALUE OF NPREF |
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72 | C CAUSES LEN(PREFIX) TO BE USED AS THE LENGTH. |
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73 | C 891013 REVISED TO CORRECT ERROR IN CALCULATING PREFIX LENGTH. |
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74 | C 891214 Prologue converted to Version 4.0 format. (WRB) |
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75 | C 900510 Added code to break messages between words. (RWC) |
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76 | C 920501 Reformatted the REFERENCES section. (WRB) |
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77 | C***END PROLOGUE XERPRN |
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78 | CHARACTER*(*) PREFIX, MESSG |
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79 | INTEGER NPREF, NWRAP |
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80 | CHARACTER*148 CBUFF |
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81 | INTEGER IU(5), NUNIT |
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82 | CHARACTER*2 NEWLIN |
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83 | PARAMETER (NEWLIN = '$$') |
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84 | INTEGER N, I1MACH, I, LPREF, LWRAP, LENMSG, NEXTC |
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85 | INTEGER LPIECE, IDELTA |
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86 | C***FIRST EXECUTABLE STATEMENT XERPRN |
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87 | CALL XGETUA(IU,NUNIT) |
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88 | C |
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89 | C A ZERO VALUE FOR A LOGICAL UNIT NUMBER MEANS TO USE THE STANDARD |
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90 | C ERROR MESSAGE UNIT INSTEAD. I1MACH(4) RETRIEVES THE STANDARD |
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91 | C ERROR MESSAGE UNIT. |
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92 | C |
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93 | N = I1MACH(4) |
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94 | DO I=1,NUNIT |
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95 | IF (IU(I) == 0) IU(I) = N |
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96 | END DO |
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97 | C |
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98 | C LPREF IS THE LENGTH OF THE PREFIX. THE PREFIX IS PLACED AT THE |
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99 | C BEGINNING OF CBUFF, THE CHARACTER BUFFER, AND KEPT THERE DURING |
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100 | C THE REST OF THIS ROUTINE. |
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101 | C |
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102 | IF ( NPREF < 0 ) THEN |
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103 | LPREF = LEN(PREFIX) |
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104 | ELSE |
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105 | LPREF = NPREF |
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106 | ENDIF |
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107 | LPREF = MIN(16, LPREF) |
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108 | IF (LPREF /= 0) CBUFF(1:LPREF) = PREFIX |
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109 | C |
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110 | C LWRAP IS THE MAXIMUM NUMBER OF CHARACTERS WE WANT TO TAKE AT ONE |
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111 | C TIME FROM MESSG TO PRINT ON ONE LINE. |
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112 | C |
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113 | LWRAP = MAX(16, MIN(132, NWRAP)) |
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114 | C |
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115 | C SET LENMSG TO THE LENGTH OF MESSG, IGNORE ANY TRAILING BLANKS. |
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116 | C |
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117 | LENMSG = LEN(MESSG) |
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118 | N = LENMSG |
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119 | DO I=1,N |
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120 | IF (MESSG(LENMSG:LENMSG) /= ' ') GO TO 30 |
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121 | LENMSG = LENMSG - 1 |
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122 | END DO |
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123 | 30 CONTINUE |
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124 | C |
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125 | C IF THE MESSAGE IS ALL BLANKS, THEN PRINT ONE BLANK LINE. |
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126 | C |
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127 | IF (LENMSG == 0) THEN |
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128 | CBUFF(LPREF+1:LPREF+1) = ' ' |
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129 | DO I=1,NUNIT |
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130 | WRITE(IU(I), '(A)') CBUFF(1:LPREF+1) |
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131 | END DO |
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132 | RETURN |
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133 | ENDIF |
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134 | C |
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135 | C SET NEXTC TO THE POSITION IN MESSG WHERE THE NEXT SUBSTRING |
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136 | C STARTS. FROM THIS POSITION WE SCAN FOR THE NEW LINE SENTINEL. |
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137 | C WHEN NEXTC EXCEEDS LENMSG, THERE IS NO MORE TO PRINT. |
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138 | C WE LOOP BACK TO LABEL 50 UNTIL ALL PIECES HAVE BEEN PRINTED. |
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139 | C |
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140 | C WE LOOK FOR THE NEXT OCCURRENCE OF THE NEW LINE SENTINEL. THE |
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141 | C INDEX INTRINSIC FUNCTION RETURNS ZERO IF THERE IS NO OCCURRENCE |
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142 | C OR IF THE LENGTH OF THE FIRST ARGUMENT IS LESS THAN THE LENGTH |
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143 | C OF THE SECOND ARGUMENT. |
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144 | C |
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145 | C THERE ARE SEVERAL CASES WHICH SHOULD BE CHECKED FOR IN THE |
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146 | C FOLLOWING ORDER. WE ARE ATTEMPTING TO SET LPIECE TO THE NUMBER |
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147 | C OF CHARACTERS THAT SHOULD BE TAKEN FROM MESSG STARTING AT |
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148 | C POSITION NEXTC. |
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149 | C |
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150 | C LPIECE .EQ. 0 THE NEW LINE SENTINEL DOES NOT OCCUR IN THE |
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151 | C REMAINDER OF THE CHARACTER STRING. LPIECE |
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152 | C SHOULD BE SET TO LWRAP OR LENMSG+1-NEXTC, |
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153 | C WHICHEVER IS LESS. |
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154 | C |
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155 | C LPIECE .EQ. 1 THE NEW LINE SENTINEL STARTS AT MESSG(NEXTC: |
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156 | C NEXTC). LPIECE IS EFFECTIVELY ZERO, AND WE |
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157 | C PRINT NOTHING TO AVOID PRODUCING UNNECESSARY |
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158 | C BLANK LINES. THIS TAKES CARE OF THE SITUATION |
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159 | C WHERE THE LIBRARY ROUTINE HAS A MESSAGE OF |
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160 | C EXACTLY 72 CHARACTERS FOLLOWED BY A NEW LINE |
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161 | C SENTINEL FOLLOWED BY MORE CHARACTERS. NEXTC |
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162 | C SHOULD BE INCREMENTED BY 2. |
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163 | C |
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164 | C LPIECE .GT. LWRAP+1 REDUCE LPIECE TO LWRAP. |
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165 | C |
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166 | C ELSE THIS LAST CASE MEANS 2 .LE. LPIECE .LE. LWRAP+1 |
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167 | C RESET LPIECE = LPIECE-1. NOTE THAT THIS |
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168 | C PROPERLY HANDLES THE END CASE WHERE LPIECE .EQ. |
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169 | C LWRAP+1. THAT IS, THE SENTINEL FALLS EXACTLY |
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170 | C AT THE END OF A LINE. |
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171 | C |
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172 | NEXTC = 1 |
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173 | 50 LPIECE = INDEX(MESSG(NEXTC:LENMSG), NEWLIN) |
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174 | IF (LPIECE == 0) THEN |
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175 | C |
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176 | C THERE WAS NO NEW LINE SENTINEL FOUND. |
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177 | C |
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178 | IDELTA = 0 |
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179 | LPIECE = MIN(LWRAP, LENMSG+1-NEXTC) |
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180 | IF (LPIECE < LENMSG+1-NEXTC) THEN |
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181 | DO I=LPIECE+1,2,-1 |
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182 | IF (MESSG(NEXTC+I-1:NEXTC+I-1) == ' ') THEN |
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183 | LPIECE = I-1 |
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184 | IDELTA = 1 |
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185 | GOTO 54 |
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186 | ENDIF |
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187 | END DO |
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188 | ENDIF |
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189 | 54 CBUFF(LPREF+1:LPREF+LPIECE) = MESSG(NEXTC:NEXTC+LPIECE-1) |
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190 | NEXTC = NEXTC + LPIECE + IDELTA |
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191 | ELSEIF (LPIECE == 1) THEN |
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192 | C |
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193 | C WE HAVE A NEW LINE SENTINEL AT MESSG(NEXTC:NEXTC+1). |
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194 | C DON'T PRINT A BLANK LINE. |
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195 | C |
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196 | NEXTC = NEXTC + 2 |
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197 | GO TO 50 |
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198 | ELSEIF (LPIECE > LWRAP+1) THEN |
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199 | C |
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200 | C LPIECE SHOULD BE SET DOWN TO LWRAP. |
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201 | C |
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202 | IDELTA = 0 |
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203 | LPIECE = LWRAP |
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204 | DO I=LPIECE+1,2,-1 |
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205 | IF (MESSG(NEXTC+I-1:NEXTC+I-1) == ' ') THEN |
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206 | LPIECE = I-1 |
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207 | IDELTA = 1 |
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208 | GOTO 58 |
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209 | ENDIF |
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210 | END DO |
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211 | 58 CBUFF(LPREF+1:LPREF+LPIECE) = MESSG(NEXTC:NEXTC+LPIECE-1) |
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212 | NEXTC = NEXTC + LPIECE + IDELTA |
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213 | ELSE |
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214 | C |
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215 | C IF WE ARRIVE HERE, IT MEANS 2 .LE. LPIECE .LE. LWRAP+1. |
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216 | C WE SHOULD DECREMENT LPIECE BY ONE. |
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217 | C |
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218 | LPIECE = LPIECE - 1 |
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219 | CBUFF(LPREF+1:LPREF+LPIECE) = MESSG(NEXTC:NEXTC+LPIECE-1) |
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220 | NEXTC = NEXTC + LPIECE + 2 |
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221 | ENDIF |
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222 | C |
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223 | C PRINT |
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224 | C |
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225 | DO I=1,NUNIT |
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226 | WRITE(IU(I), '(A)') CBUFF(1:LPREF+LPIECE) |
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227 | END DO |
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228 | C |
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229 | IF (NEXTC <= LENMSG) GO TO 50 |
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230 | RETURN |
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231 | END |
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