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INPUT PROGRAM. … input commands … END INPUT PROGRAM.
INPUT PROGRAM
…END INPUT PROGRAM
specifies a
complex input program. By placing data input commands within INPUT
PROGRAM
, PSPP programs can take advantage of more complex file
structures than available with only DATA LIST
.
The first sort of extended input program is to simply put multiple DATA
LIST
commands within the INPUT PROGRAM
. This will cause all of
the data
files to be read in parallel. Input will stop when end of file is
reached on any of the data files.
Transformations, such as conditional and looping constructs, can also be
included within INPUT PROGRAM
. These can be used to combine input
from several data files in more complex ways. However, input will still
stop when end of file is reached on any of the data files.
To prevent INPUT PROGRAM
from terminating at the first end of
file, use
the END
subcommand on DATA LIST
. This subcommand takes a
variable name,
which should be a numeric scratch variable (see Scratch Variables).
(It need not be a scratch variable but otherwise the results can be
surprising.) The value of this variable is set to 0 when reading the
data file, or 1 when end of file is encountered.
Two additional commands are useful in conjunction with INPUT PROGRAM
.
END CASE
is the first. Normally each loop through the
INPUT PROGRAM
structure produces one case. END CASE
controls exactly
when cases are output. When END CASE
is used, looping from the end of
INPUT PROGRAM
to the beginning does not cause a case to be output.
END FILE
is the second. When the END
subcommand is used on DATA
LIST
, there is no way for the INPUT PROGRAM
construct to stop
looping,
so an infinite loop results. END FILE
, when executed,
stops the flow of input data and passes out of the INPUT PROGRAM
structure.
INPUT PROGRAM
must contain at least one DATA LIST
or
END FILE
command.
The following example reads variable X from file a.txt and variable Y from file b.txt. If one file is shorter than the other then the extra data in the longer file is ignored.
INPUT PROGRAM. DATA LIST NOTABLE FILE='a.txt'/X 1-10. DATA LIST NOTABLE FILE='b.txt'/Y 1-10. END INPUT PROGRAM. LIST.
The following example also reads variable X from a.txt and variable Y from b.txt. If one file is shorter than the other then it continues reading the longer to its end, setting the other variable to system-missing.
INPUT PROGRAM. NUMERIC #A #B. DO IF NOT #A. DATA LIST NOTABLE END=#A FILE='a.txt'/X 1-10. END IF. DO IF NOT #B. DATA LIST NOTABLE END=#B FILE='b.txt'/Y 1-10. END IF. DO IF #A AND #B. END FILE. END IF. END CASE. END INPUT PROGRAM. LIST.
The following example reads data from file a.txt, then from b.txt, and concatenates them into a single active dataset.
INPUT PROGRAM. NUMERIC #A #B. DO IF #A. DATA LIST NOTABLE END=#B FILE='b.txt'/X 1-10. DO IF #B. END FILE. ELSE. END CASE. END IF. ELSE. DATA LIST NOTABLE END=#A FILE='a.txt'/X 1-10. DO IF NOT #A. END CASE. END IF. END IF. END INPUT PROGRAM. LIST.
This is another way to do the same thing as Example 3.
INPUT PROGRAM. NUMERIC #EOF. LOOP IF NOT #EOF. DATA LIST NOTABLE END=#EOF FILE='a.txt'/X 1-10. DO IF NOT #EOF. END CASE. END IF. END LOOP. COMPUTE #EOF = 0. LOOP IF NOT #EOF. DATA LIST NOTABLE END=#EOF FILE='b.txt'/X 1-10. DO IF NOT #EOF. END CASE. END IF. END LOOP. END FILE. END INPUT PROGRAM. LIST.
The follows example creates a dataset that consists of 50 random variates between 0 and 10.
INPUT PROGRAM. LOOP #I=1 TO 50. COMPUTE X=UNIFORM(10). END CASE. END LOOP. END FILE. END INPUT PROGRAM. LIST /FORMAT=NUMBERED.
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