Difference between revisions of "What does BINARY(4) mean in API documentation?"
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BINARY(4) means a 4-byte binary number. | BINARY(4) means a 4-byte binary number. | ||
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Why does RPG's 'binary 4' drop the high-order digit? | Why does RPG's 'binary 4' drop the high-order digit? | ||
− | Well, RPG's 'binary' data type does not support the full range of numbers possible in a binary number. | + | Well, RPG's 'binary' data type does not support the full range of numbers possible in a binary number. |
− | 2 (binary) to the 2nd (two digits) | + | Maybe I need to back up. A binary number (in the sense that the manual uses the word binary) is one whereby each binary digit is used to represent a numeric value in increasing powers of two. So, a 2 digit binary number can hold numeric values as high(!) as 4: |
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+ | 2 (binary) to the 2nd power(two digits) = 4. | ||
An 8 digit binary number can hold numeric values as high as 2^8, or 256. A two byte binary number has 16 bits (digits) so it can hold numeric values as high as 2^16, or 65536. (I'm ignoring the sign for this discussion.) | An 8 digit binary number can hold numeric values as high as 2^8, or 256. A two byte binary number has 16 bits (digits) so it can hold numeric values as high as 2^16, or 65536. (I'm ignoring the sign for this discussion.) | ||
− | An RPG 'binary' data type can be two bytes or four. Sneaking a peek at the RPG Reference, Chapter 10 (Data types) we can see that the 2 byte 'binary' gets defined with a length of 4. Theoretically a two byte field should be able to hold a value up to 65536 as described above. But with length 4, we can only store up to 9999! That high-order digit simply can't be stored in a 4 digit field. | + | An RPG 'binary' data type can be two bytes or four. |
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+ | Sneaking a peek at the RPG Reference, Chapter 10 (Data types) we can see that the 2 byte 'binary' gets defined with a length of 4. | ||
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+ | From the manual | ||
+ | Every input field read in binary format is assigned a field length (number of | ||
+ | digits) '''by the compiler'''. A length of 4 is assigned to a 2-byte binary field; a length | ||
+ | of 9 is assigned to a 4-byte binary field, '''if the field is not defined elsewhere in the | ||
+ | program.''' | ||
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+ | Because of these length restrictions, the highest decimal value that can be | ||
+ | assigned to a 2-byte binary field is 9999 and the highest decimal value that can be | ||
+ | assigned to a 4-byte binary field is 999 999 999. | ||
+ | |||
+ | Theoretically a two byte field should be able to hold a value up to 65536 as described above. But with length 4, we can only store up to 9999! That high-order digit simply can't be stored in a 4 digit field. | ||
An RPG 'integer' data type is a Real, True, Honest implementation of the binary data format (as laid out in the RPG Reference.) 'Integer' includes interpreting the highest-order bit as the sign, so a two byte integer actually can hold values between -32767 and +32767 (2^15=32768). The 'unsigned' data type is what I was describing above. | An RPG 'integer' data type is a Real, True, Honest implementation of the binary data format (as laid out in the RPG Reference.) 'Integer' includes interpreting the highest-order bit as the sign, so a two byte integer actually can hold values between -32767 and +32767 (2^15=32768). The 'unsigned' data type is what I was describing above. | ||
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− | Also, see Barbara's excellent article on converting C prototypes to RPG at [http://www.opensource400.org/callc.html] | + | Also, see Barbara's excellent article on converting C prototypes to RPG at [http://www.opensource400.org/callc.html http://www.opensource400.org/callc.html] |
+ | |||
+ | ==Categories== | ||
+ | [[Category:RPG FAQ]] | ||
+ | [[Category:Programming]] | ||
+ | [[Category:RPG]] |
Latest revision as of 04:10, 5 August 2008
BINARY(4) means a 4-byte binary number.
In RPG III, this means a subfield of a data structure that is defined with 4 bytes, and has the 'B' type.
In RPG IV, there are two kinds of 4-byte binary number: the 10-digit integer or the 9-digit binary. The 10-digit integer is better when dealing with APIs.
If you define an integer or binary number using length notation (no from-position), you give the number of digits. 10I-0 or 9B-0.
A very common error is to define a BINARY(4) field or parameter using length notation as 4B-0. This always causes problems calling the API.
Why does RPG's 'binary 4' drop the high-order digit?
Well, RPG's 'binary' data type does not support the full range of numbers possible in a binary number.
Maybe I need to back up. A binary number (in the sense that the manual uses the word binary) is one whereby each binary digit is used to represent a numeric value in increasing powers of two. So, a 2 digit binary number can hold numeric values as high(!) as 4:
2 (binary) to the 2nd power(two digits) = 4.
An 8 digit binary number can hold numeric values as high as 2^8, or 256. A two byte binary number has 16 bits (digits) so it can hold numeric values as high as 2^16, or 65536. (I'm ignoring the sign for this discussion.)
An RPG 'binary' data type can be two bytes or four.
Sneaking a peek at the RPG Reference, Chapter 10 (Data types) we can see that the 2 byte 'binary' gets defined with a length of 4.
From the manual
Every input field read in binary format is assigned a field length (number of digits) by the compiler. A length of 4 is assigned to a 2-byte binary field; a length of 9 is assigned to a 4-byte binary field, if the field is not defined elsewhere in the program.
Because of these length restrictions, the highest decimal value that can be assigned to a 2-byte binary field is 9999 and the highest decimal value that can be assigned to a 4-byte binary field is 999 999 999.
Theoretically a two byte field should be able to hold a value up to 65536 as described above. But with length 4, we can only store up to 9999! That high-order digit simply can't be stored in a 4 digit field.
An RPG 'integer' data type is a Real, True, Honest implementation of the binary data format (as laid out in the RPG Reference.) 'Integer' includes interpreting the highest-order bit as the sign, so a two byte integer actually can hold values between -32767 and +32767 (2^15=32768). The 'unsigned' data type is what I was describing above.
Also, see Barbara's excellent article on converting C prototypes to RPG at http://www.opensource400.org/callc.html