CVI: Difference between revisions
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{{Cl|_PRINTSTRING}} (152, 240), "{{Cl|MKI$}} creates 2 byte ASCII string: " + Q + ASCII$ + Q ' displays character(s) | {{Cl|_PRINTSTRING}} (152, 240), "{{Cl|MKI$}} creates 2 byte ASCII string: " + Q + ASCII$ + Q ' displays character(s) | ||
asc1% = {{Cl|ASC}}(ASCII$) ' find the ASCII code values of each character | asc1% = {{Cl|ASC (function)|ASC}}(ASCII$) ' find the ASCII code values of each character | ||
asc2% = {{Cl|ASC}}(ASCII$, 2) ' '''QB64''' allows ASC to read specific characters in a string | asc2% = {{Cl|ASC (function)|ASC}}(ASCII$, 2) ' '''QB64''' allows ASC to read specific characters in a string | ||
{{Cl|LOCATE}} 18, 20: {{Cl|PRINT USING}} tmp1$; asc1%; asc1% | {{Cl|LOCATE}} 18, 20: {{Cl|PRINT USING}} tmp1$; asc1%; asc1% |
Revision as of 00:31, 26 February 2023
The CVI function decodes a 2-byte STRING generated by MKI$ (or read from a file) to INTEGER numeric values.
Syntax
- result% = CVI(stringData$)
Description
- CV functions (CVD, CVS, CVI, CVL, CVDMBF, CVSMBF) are used to convert values encoded by MK$ functions (MKD$, MKS$, MKI$, MKL$, MKDMBF$, MKSMBF$).
- QB64 has _CV and _MK$ functions which can also deal with extended data types.
- INTEGER values can range from -32768 to 32767.
- Doesn't return _UNSIGNED values.
Examples
Example 1:
FIELD #1, 2 AS N$, 12 AS B$... GET #1 'GET does not need a position or variable with successive FIELD buffer reads Y = CVI(N$) |
- Explanation: Reads a field from file #1, and converts the first two bytes (N$) into an integer number assigned to the variable Y.
- Since the representation of an integer number can use up to 5 ASCII characters (five bytes), writing to a file using MKI$ conversion, and then reading back with the CVI conversion can save up to 3 bytes of storage space.
Example 2: How CVI converts the ASCII code values created by the MKI$ function.
SCREEN 12 DIM Q AS STRING * 1 Q = CHR$(34) ' create Print using templates to align the values returned tmp1$ = "1st character code = ### * 1 = ### " tmp2$ = "2nd character code = ### * 256 = ##### " tmp3$ = " & " tmp4$ = " CVI Total = ##### " DO COLOR 14: LOCATE 13, 20: INPUT "Enter an Integer from 1 to 32767(0 quits): ", number% IF number% < 1 THEN EXIT DO CLS ASCII$ = MKI$(number%) ' create the 2 byte character string COLOR 11 _PRINTSTRING (152, 240), "MKI$ creates 2 byte ASCII string: " + Q + ASCII$ + Q ' displays character(s) asc1% = ASC(ASCII$) ' find the ASCII code values of each character asc2% = ASC(ASCII$, 2) ' QB64 allows ASC to read specific characters in a string LOCATE 18, 20: PRINT USING tmp1$; asc1%; asc1% LOCATE 19, 20: PRINT USING tmp2$; asc2%; asc2% * 256 LOCATE 20, 20: PRINT USING tmp3$; "-----" LOCATE 21, 20: PRINT USING tmp4$; asc1% + (256 * asc2%) LOOP SYSTEM |
- Explanation: All ASCII characters can be displayed using _PRINTSTRING . The routine gets the ASCII code, which is the actual value needed by CVI. The first byte code is always between 0 and 255. The second byte can return 0 thru 127 and CVI multiplies that value by 256. This proves that you cannot just feed a string number value to CVI and get the result desired. ("90" gets decoded to 12345).
See also