24 



TWO FORTRAN II PROGRAMS FOR ANALYSIS OF MORPHOMETRIC DATA 



of specimen identification numbers. (Note 

 that if the number for Instruction 2 is maxi- 

 mal, i.e., 53, there is no room remaining for 

 additional univariate variables, and the uni- 

 variate output array will consist only of the 

 array A shown in Figure 1.) Punch in col- 

 umns 2-3. 



The number is 73 for the problem in Fig- 

 ure 1. 



4. ( 1 ) : The number of variables in the bivariate ar- 



ray (from to 56), including the column of 

 specimen identification numbers. Punch in 

 columns 2-3. 



The number is 9 for the problem in Fig- 

 ure 1. 



5. ( 1 ) : Signal for the calling of Subroutine RAW- 



TAB (one) or the bypassing of RAWTAB 

 (zero) , punched in column 3. RAWTAB may 

 be bypassed if no new univariate variables 

 are to be added to the input array. 



6. (1): Signal for the calling (one) or bypassing 



(zero) of Subroutine XRATIO, punched in 

 column 3. XRATIO may be bypassed if no 

 ratios are to be computed and if no bivariate 

 analyses are to be run. 

 7- ( 1 ) : (a) Columns 2-3: The number of univariate 



input variables (from to 30) from which a 

 constant, the value of which is specified in In- 

 struction 33, is to be subtracted. 



(b) Columns 5-6: The number of univari- 

 ate input variables (from to 30) which are 

 always to be divided by a constant, the value 

 of which is specified in Instruction 34. (See 

 also Instruction 9.) 



(c) Column 9: The number of univariate 

 input variables (from to 5) which may or 

 may not be divided by the constant referred 

 to above (7b) depending on the value of a 

 signal included with the data for each speci- 

 men. (See discussion of data deck in Instruc- 

 tions 21 and 37.) 



(d) Columns 11-12: The number of uni- 

 variate variables (from to 30) to be gener- 

 ated by subtracting one input variable from 

 another. 



(e) Columns 14-15: The number of uni- 

 variate variables (from to 30) to be gener- 

 ated by adding two input variables. 



(f) Columns 17-18: The number of uni- 

 variate variables (from to 30) to be trans- 

 formed to logarithms to the base 10 and to be 

 added as new columns to the original array. 



For the problem in Figure 1, the control card 

 for Instruction 7 is punched 01 01 02 01 02. 



8. (0-2) : The column numbers of variables in the 



univariate output array from which a con- 

 stant, specified in Instruction 33, is to be sub- 

 tracted. (See also Instruction 7a.) Punch 

 numbers in fields of 3 in columns 1-72. 



The card is punched 006 for the problem 

 in Figure 1. 



9. (0-2) : The column numbers of variables in the 



univariate output array which are always to 

 be divided by a constant, specified in Instruc- 

 tion 34. (See also Instruction 7b.) Punch 

 numbers in fields of 3 in columns 1-72. 



The card is punched 004 for the problem 

 in Figure 1. 



10. (0-1) : The column numbers of variables in the uni- 



variate output array which may or may not 

 be divided by a constant, specified in Instruc- 

 tion 34, depending on a signal read in with 

 the data for each specimen (see Instruction 

 21 ) . The maximum number of column num- 

 bers which can be listed here is 5. Punch 

 numbers in fields of 3 in columns 1-15. 



No card is required here for the problem in 

 Figure 1 . 



11. (0-2): Column numbers of variables in the uni- 



variate output array which are to serve as 

 minuends (see Instructions 7d and 12) . Punch 

 in fields of 3 in columns 1-72. 



The card is punched 002002 for the problem 

 in Figure 1. 



12. (0-2): Column numbers of variables in the univari- 



ate output array which are to serve as sub- 

 trahends, so that the first subtrahend specified 

 here is subtracted from the first minuend 

 specified in Instruction 11, the second subtra- 

 hend from the second minuend, etc. Punch 

 numbers in fields of 3 in columns 1-72. 



The card is punched 002002 for the problem 

 in Figure 1. 



13. (0-2) : Column numbers of variables in the univari- 



ate output array to which other variables, 

 specified in Instruction 14, are to be added. 

 (See also Instruction 7e.) Punch in fields of 3 

 in columns 1-72. 



The card is punched 005 for the problem in 

 Figure 1 . 



14. (0-2) : Column numbers of variables in the univari- 



ate output array which are to be added to 

 variables specified in Instruction 13, such that 

 the first variable specified here is added to the 



