DEFF3.TXT --------- I have given, below, a description of each of the functions which I have written for the file - DEFF3.C and which may be accessed through - DEFF3(.CRL) when you use the CLINK function with BDS C. It is not necessary to specify "DEFF3" on the command line as BDS C will look for any missing functions in the DEFF files, automatically, in answer to a RETURN entered when it asks you for instructions as to which CRL files it should search for the missing functions. If you intend to use DEFF3 in this way then it should be on the same disk as the BDS C DEFF files. Now, the functions I have written are - BINARY GET_DEFAULT RESET_DSK BITCOUNT GET_IOBYTE REVERSE CGET INDEX SEARCH_FIRST CLOSE_FILE ISALNUM SEARCH_NEXT CLRSCREEN ITOA SELECT_DSK CPUT LISTC SET_ATTRIBUTES CON_STAT MAKE_RO SETDMA CREATE_FILE OPEN_FILE SET_IOBYTE DIRECTC PRINT_DEC SHELL_SORT DPB_ADR PRT_STR SWAP_POINTERS ERASE_FILE READ_SEQ_SEC USER_ID GET_CPM READ_STR WRITE_SEQ_SEC ADDED FUNCTIONS --------------- L_SHIFT R_SHIFT PRT_BIN BIT_SET BIT_RESET ISPRINT SCOPY_N GET_ALV char BINARY(x, v, n) int x, v[], n; -------------------- Checks whether a binary number (x) occurs in a sorted array (v, of n elements) and, if so, returns the binary number or else returns -1 if it doesn't occur. char BITCOUNT(n) unsigned n; ---------------- Returns the number of set bits ( = 1) in a byte. unsigned BIT_RESET(u, n) unsigned u; int n; ------------------------ Will reset (to zero) the nominated bit number ( n = 0 to 15) in an unsigned integer "u". Returns the unsigned integer with the nominated bit reset to zero. unsigned BIT_SET(u, n) unsigned u; int n; ---------------------- Will set (to one) the nominated bit number ( n = 0 to 15) in an unsigned integer "u". Returns the unsigned integer with the nominated bit set to one. char CGET() ----------- Similar to "getchar" in what it does except that it will read ANY byte value from the console. i.e. the value you enter doesn't have to be either ASCII or printable. It returns the value of the byte entry. char CLOSE_FILE(fcb) char fcb[36]; -------------------- This will close the file whose name is included in the file control block pointed to by "fcb". It is the companion function to "OPEN_FILE" and should be used to close any file previously opened with OPEN_FILE. It returns the same values as OPEN_FILE. void CLRSCREEN() ---------------- Will clear the screen and home the cursor, using in-built terminal software commands. It is (probably) only usable by Hazeltine family terminals but could be altered to suit other terminals provided you know the byte value(s) to send to the terminal to activate the clear screen/home function. Doesn't return anything. char CON_STAT() --------------- This checks the console status and returns ZERO if there is no character waiting, else it returns 0xff....NOT the character itself. It is a useful function for those inputs where you tell the user - "Enter any character to continue." void CPUT(c) int c; ------------ Similar to "putchar" except that it will send ANY byte value to the console. Naturally the console will only display the "visible" characters. Doesn't return anything useful. char CREATE_FILE(fcb) char fcb[36]; --------------------- This will create the file named in the file control block (see open_file for a description of this) an initialise it for both read and write functions. Note particularly that it doesn't check to see whether a file of this name already exists so you need to do this independently if you want to make sure you haven't got two files of the same name in the disk directory. It is supposed to return 0xff (255 decimal) if the disk is full and the name can't be created, but I'm not so sure that you can rely on it to do so. Probably the best way to be sure is to now try to open the file (with open_file) and see what happens then. char DIRECTC(duty) int duty; ------------------ This is CP/M function No. 6 and it can be used to either get a character from the terminal, or to send a character to the console. It depends on the value of "duty" which should be either - 0xff for input from the terminal or the byte value for output to the console It returns the input character in the first case or zero in the second case. unsigned DPB_ADR() ------------------ Gives the Disk Parameter Block address (pointer to). You should first have declared the pointer as - struct dpb *pointer; This allows access to the following values - int pointer->SPT No. of records per track char pointer->BSH Block Shift Factor char pointer->BKM Block Mask char pointer->EXM Extent Mask int pointer->DSM Disk Space Maximum (highest block) int pointer->DRM Directory Maximum (highest entry) char pointer->AL0 Initial Allocation Vector char pointer->AL1 do (high byte) int pointer->CKS Check Area Size int pointer->OFF Count of reserved tracks Note that the definition for "dpb" is given in "PEC.H" and this should be "included" in the programme if you wish to access the disk parameter block. char ERASE_FILE(fcb) char fcb[36]; -------------------- Erases from the directory the name of the file in the file control block. For a description of this see open_file. It will return 0xff if the file isn't found. unsigned GET_ALV() ------------------ Returns a pointer to the Allocation Vector which gives the allocation block map for the selected disk. Note the map is a number of bytes with a particular bit set if the block is in use. You can obtain the highest allocation block number from the Disk Parameter Block (see DPB_ADR). int GET_CPM() ------------- Returns a 16-bit number (in HL) with the details - H = 0x00 for CP/M OR H = 0x01 for MP/M L = 0x00 for all releases prior to 2.0 L = 0x20 for version 2.0, 0x21 for version 2.1, 0x22 for version 2.2, and so on. If you want to use any of this information then you will need to mask off H (or L) to find out what it was the function returned. char GET_DEFAULT() ------------------ Returns the name for the current default disk. Note A = 0, B = 1....and so on. char GET_IOBYTE() ----------------- Returns the current IOBYTE setting under CP/M 2.2. int INDEX(s, t) char s[], t[]; --------------- Returns a pointer to the position of string "t" inside string "s", else returns -1 if no match is found. char ISALNUM(c) char c; --------------- Returns TRUE/FALSE whether the character is alpha-numeric. char ISNUM(c) char c; ------------- Returns TRUE/FALSE whether the character is numeric (0..9) or not. char ISPRINT(c) char c; --------------- Returns TRUE/FALSE whether the character is printable (to the console) or not. void ITOA(n, str) int n; char s[]; ----------------- Will convert an integer (n) into a printable ASCII string, which is placed in "str". This is one of the obvious functions which should already have been included in BDS C. unsigned L_SHIFT(value, number) unsigned value; int number; ------------------------------- Performs a logical left shift on "value" the number of times specified by "number". Returns the final left-shifted value. void MAKE_RO() -------------- Makes the current logical disk read-only status. I don't think it returns anything. char OPEN_FILE(fcb) char fcb[36]; ------------------- Opens the nominated file, the name of which must be in the file control block ("fcb") in the manner required by CP/M. Note that the file is opened for BOTH reading and writing. Before using this function you should have already made a file control block with the function - setfcb(fcb, filename) Note particularly "fcb" as used in these functions is a pointer to the file control block or, as used in assembly language programming, it is the address of the fcb which holds the file name. This should be an external buffer so that it is known to all functions in the programme. This will return 0xff if the open was unsuccessful or a number 0, 1, 2 or 3 (which is an offset into the DMA buffer) if the open succeeded. For those who understand the way CP/M works, this offset may be used to get the directory entry information on the opened file. To be able to access the DMA buffer you must have first created a DMA buffer whose address (the pointer to) is known to you. Do this with the function - set_dma(dma) char dma[128]; void PRINT_BIN(n) unsigned n; ----------------- Prints an unsigned number (Note: No negatives allowed) in binary form. e.g. the number 15 ( = 0xff) will be printed to the console as - 0000000011111111 because all 16 bits are accounted for. void PRINT_DEC(n) int n; ----------------- Prints a decimal number (n) to the console. void PRT_STR(str) char *str; ----------------- Prints a string (terminated by the character "$") to the console. Doesn't return anything. Note you shouldn't use this function if you expect to meet with the dollar sign other than as the end of line marker. char READ_SEQ_SEC(fcb) char fcb[36]; ---------------------- Starting from the first available sector (of 128 bytes) it will reach each successive sector in the file until the end of the file is reached. Returns zero when the read is successful, else returns a non-zero number. Note that the file must already have been opened prior to this function being called. void READ_STR(str) char *str; ------------------ Will read a RETURN-terminated string from the terminal and place it, as a NULL-terminated string, into the str buffer. Note, when calculating the size of the string buffer you will use, you have to add one for the '\0' character which will terminate the string. e.g. if you want the maximum length of the string to be 80 characters then specify - char str[81]; for the string buffer. void RESET_DSK() ---------------- This resets the disk system and reads the active disk details into memory again. It is typically used in a programme after a disk has been changed, or swapped. It doesn't return anything. void REVERSE(str) char str[]; ----------------- Will reverse a null-terminated string in place. unsigned R_SHIFT(value, number) unsigned value; int number; ------------------------------- Performs a logical right shift on "value" the number of times specified by "number". Returns the final right-shifted value. void SCOPY_N(str1, str2, n) char *str1, *str2; int n; --------------------------- This copies "n" characters from string "str2" to string "str1". Note that if n is greater than strlen(str2) then only strlen(str2) characters will be copied. Also str1 is not terminated with the '\0' character on completion so this function can be used to overwrite a buffer. char SEARCH_FIRST(fcb) char fcb[36]; ---------------------- This searches the disk directory for the first file name which matches the name given in the file control block pointed to by "fcb". Note - see OPEN_FILE for a run-down on the file control block under CP/M. The file name you choose may be either ambiguous or specific. If it is ambiguous, this function will return the first file name which matches the given name. When a match has occurred, it returns 0, 1, 2 or 3 which is the offset into the DMA buffer where the directory information has been placed by CP/M. Knowing the offset (which is a factor of 32 bytes) you can now recover the actual directory entry as stored by CP/M. e.g. if the offset is, say, 2 then if you look 2 x 32 = 64 bytes into the DMA you will find the first byte of the directory entry for the matching file name. If it returns 0xff (255 decimal) then you didn't find any file which matched the name you gave. char SEARCH_NEXT() ----------------- Carries on from search_first to locate any further names which match the name in the file control block. Note this can only be used after a successful search_first. It will return the same parameters as search_first for both failure and success. void SELECT_DSK(drive) int drive; ---------------------- This allows you to change the "logical" drive during the course of a programme. Just enter the drive name as A, B, C...M, etc and the function converts this to the value required by CP/M. Doesn't return anything. char SET_ATTRIBUTES(fcb) char fcb[36]; ------------------------ Used to set (or re-set) the attributes for R/O, R/W, DIR, SYS and ARC and CPY (in my backup programme) so that CP/M will know how to deal with a particular file in the disk directory. To use this function successfully you must have first formulated a file control block with the bits you want CP/M to recognise either set ( = 1) or re-set to zero, as the case may be. Will return 0xff if the file can't be located in the disk directory. void SETDMA(buffer) char buffer[128]; ------------------- Creates a pointer to the DMA (CP/M's direct memory address) buffer which can then be used in the read/write and other CP/M functions where a DMA is required. It is probably most useful when "buffer" is declared externally. void SET_IOBYTE(iob) int iob; -------------------- Re-sets the IOBYTE to the specified value. Doesn't return anything. void SHELL_SORT(v, n) int v[], n; --------------------- Sorts an array "v" of "n" elements into increasing order. void SWAP_POINTERS(px, py) char *px[], *py[]; -------------------------- Will interchange two pointers. char USER_ID(code) int code; ------------------ Will either return the current User Number, if code = 255 (0xff), or will change the User Number if code = 0 to 15. char WRITE_SEQ_SEC(fcb) char fcb[36]; ----------------------- A companion function to read_seq_sec. This will write successive sectors to the open file named in the file control block. It will return zero if successful or a non-zero number if not successful in completing the write.  ch