1 | *DECK I1MACH |
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2 | INTEGER FUNCTION I1MACH (I) |
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3 | C***BEGIN PROLOGUE I1MACH |
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4 | C***PURPOSE Return integer machine dependent constants. |
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5 | C***LIBRARY SLATEC |
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6 | C***CATEGORY R1 |
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7 | C***TYPE INTEGER (I1MACH-I) |
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8 | C***KEYWORDS MACHINE CONSTANTS |
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9 | C***AUTHOR Fox, P. A., (Bell Labs) |
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10 | C Hall, A. D., (Bell Labs) |
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11 | C Schryer, N. L., (Bell Labs) |
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12 | C***DESCRIPTION |
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13 | C |
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14 | C I1MACH can be used to obtain machine-dependent parameters for the |
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15 | C local machine environment. It is a function subprogram with one |
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16 | C (input) argument and can be referenced as follows: |
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17 | C |
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18 | C K = I1MACH(I) |
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19 | C |
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20 | C where I=1,...,16. The (output) value of K above is determined by |
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21 | C the (input) value of I. The results for various values of I are |
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22 | C discussed below. |
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23 | C |
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24 | C I/O unit numbers: |
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25 | C I1MACH( 1) = the standard input unit. |
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26 | C I1MACH( 2) = the standard output unit. |
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27 | C I1MACH( 3) = the standard punch unit. |
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28 | C I1MACH( 4) = the standard error message unit. |
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29 | C |
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30 | C Words: |
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31 | C I1MACH( 5) = the number of bits per integer storage unit. |
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32 | C I1MACH( 6) = the number of characters per integer storage unit. |
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33 | C |
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34 | C Integers: |
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35 | C assume integers are represented in the S-digit, base-A form |
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36 | C |
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37 | C sign ( X(S-1)*A**(S-1) + ... + X(1)*A + X(0) ) |
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38 | C |
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39 | C where 0 .LE. X(I) .LT. A for I=0,...,S-1. |
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40 | C I1MACH( 7) = A, the base. |
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41 | C I1MACH( 8) = S, the number of base-A digits. |
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42 | C I1MACH( 9) = A**S - 1, the largest magnitude. |
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43 | C |
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44 | C Floating-Point Numbers: |
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45 | C Assume floating-point numbers are represented in the T-digit, |
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46 | C base-B form |
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47 | C sign (B**E)*( (X(1)/B) + ... + (X(T)/B**T) ) |
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48 | C |
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49 | C where 0 .LE. X(I) .LT. B for I=1,...,T, |
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50 | C 0 .LT. X(1), and EMIN .LE. E .LE. EMAX. |
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51 | C I1MACH(10) = B, the base. |
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52 | C |
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53 | C Single-Precision: |
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54 | C I1MACH(11) = T, the number of base-B digits. |
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55 | C I1MACH(12) = EMIN, the smallest exponent E. |
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56 | C I1MACH(13) = EMAX, the largest exponent E. |
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57 | C |
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58 | C Double-Precision: |
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59 | C I1MACH(14) = T, the number of base-B digits. |
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60 | C I1MACH(15) = EMIN, the smallest exponent E. |
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61 | C I1MACH(16) = EMAX, the largest exponent E. |
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62 | C |
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63 | C To alter this function for a particular environment, the desired |
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64 | C set of DATA statements should be activated by removing the C from |
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65 | C column 1. Also, the values of I1MACH(1) - I1MACH(4) should be |
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66 | C checked for consistency with the local operating system. |
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67 | C |
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68 | C***REFERENCES P. A. Fox, A. D. Hall and N. L. Schryer, Framework for |
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69 | C a portable library, ACM Transactions on Mathematical |
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70 | C Software 4, 2 (June 1978), pp. 177-188. |
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71 | C***ROUTINES CALLED (NONE) |
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72 | C***REVISION HISTORY (YYMMDD) |
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73 | C 750101 DATE WRITTEN |
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74 | C 891012 Added VAX G-floating constants. (WRB) |
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75 | C 891012 REVISION DATE from Version 3.2 |
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76 | C 891214 Prologue converted to Version 4.0 format. (BAB) |
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77 | C 900618 Added DEC RISC constants. (WRB) |
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78 | C 900723 Added IBM RS 6000 constants. (WRB) |
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79 | C 901009 Correct I1MACH(7) for IBM Mainframes. Should be 2 not 16. |
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80 | C (RWC) |
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81 | C 910710 Added HP 730 constants. (SMR) |
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82 | C 911114 Added Convex IEEE constants. (WRB) |
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83 | C 920121 Added SUN -r8 compiler option constants. (WRB) |
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84 | C 920229 Added Touchstone Delta i860 constants. (WRB) |
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85 | C 920501 Reformatted the REFERENCES section. (WRB) |
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86 | C 920625 Added Convex -p8 and -pd8 compiler option constants. |
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87 | C (BKS, WRB) |
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88 | C 930201 Added DEC Alpha and SGI constants. (RWC and WRB) |
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89 | C 930618 Corrected I1MACH(5) for Convex -p8 and -pd8 compiler |
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90 | C options. (DWL, RWC and WRB). |
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91 | C 100623 Use Fortran 95 intrinsic functions (Lionel GUEZ) |
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92 | C***END PROLOGUE I1MACH |
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93 | C |
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94 | INTEGER IMACH(16),OUTPUT |
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95 | SAVE IMACH |
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96 | EQUIVALENCE (IMACH(4),OUTPUT) |
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97 | C***FIRST EXECUTABLE STATEMENT I1MACH |
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98 | IMACH( 1) = 5 |
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99 | IMACH( 2) = 6 |
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100 | IMACH( 3) = 6 |
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101 | IMACH( 4) = 6 |
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102 | IMACH( 5) = bit_size(0) |
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103 | IMACH( 6) = IMACH( 5) / 8 |
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104 | IMACH( 7) = radix(0) |
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105 | IMACH( 8) = digits(0) |
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106 | IMACH( 9) = huge(0) |
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107 | IMACH(10) = radix(0.) |
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108 | IMACH(11) = digits(0.) |
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109 | IMACH(12) = minexponent(0.) |
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110 | IMACH(13) = maxexponent(0.) |
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111 | IMACH(14) = digits(0d0) |
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112 | IMACH(15) = minexponent(0d0) |
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113 | IMACH(16) = maxexponent(0d0) |
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114 | IF (I .LT. 1 .OR. I .GT. 16) GO TO 10 |
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115 | C |
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116 | I1MACH = IMACH(I) |
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117 | RETURN |
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118 | C |
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119 | 10 CONTINUE |
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120 | WRITE (UNIT = OUTPUT, FMT = 9000) |
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121 | 9000 FORMAT ('1ERROR 1 IN I1MACH - I OUT OF BOUNDS') |
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122 | C |
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123 | C CALL FDUMP |
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124 | C |
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125 | STOP |
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126 | END |
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