*** Auto generated by docgen.cmd *** ## Copyright Copyright 2015 - 2020, Remy Gibert and the A2osX contributors. # Shift ## ASM A = argument index. ## RETURN VALUE CC : success Y,A = PTR To Arg[A] CS : Out Of Bound # ArgV ## ASM A = argument index. ## RETURN VALUE CC : success Y,A = PTR To Arg[A] CS : Out Of Bound # Arg2ArgV Expand String and convert to StrV List ## C short int arg2argv(char* args, char* argv[]) ## ASM `>PUSHW args` `>PUSHW argv` `>SYSCALL Arg2ArgV` ## RETURN VALUE A = Arg count # ArgVDup ## ASM Y,A = Src StrV ## RETURN VALUE X = hMem of new StrV A = Str Count # LoadDrv ## ASM Y,A = PTR to "NAME.DRV [PARAM]" C-String ## RETURN VALUE none # InsDrv ## C `void * insdrv (void * src, void * crvcsstart, void * drvcssize, void * drvend);` ## ASM `>PUSHW DRV.END` `>PUSHW DRV.CS.SIZE` `>PUSHW DRV.CS.START` `>LDYA L.SRC` `>SYSCALL insdrv` ## RETURN VALUE Y,A = Ptr to installed driver # GetDevByName Y,A = Ptr to device name (C-String) ## RETURN VALUE CC = OK, CS = ERROR Y,A = FD X = hFD # MkFD ## C `short int mkfd(short int type, );` ## ASM `>PUSHB DevID` `>PUSHW S.DIB` `>SYSCALL MkFD` ## RETURN VALUE # MKDev Create a hDEV ## C `hDEV mkdev (S.FD *fd, const char *devname)` ## ASM `>PUSHW fd` `>PUSHW devname` `>SYSCALL mkdev` ## RETURN VALUE A = hDEV # IOCTL ## C `int ioctl(short int hFD, short int request, void *param);` ## ASM `>PUSHB hDEV` `>PUSHB request` `>PUSHW param` `>SYSCALL IOCTL` ## RETURN VALUE Y,A = ... # OpenDir ## C `short int hDIR opendir (const char * dirpath);` ## ASM `>LDYA dirpath` `>SYSCALL opendir` ## RETURN VALUE CC : success A = hDIR CS : error A = EC # ReadDir ## C `struct dirent *readdir (short int hDIR);` ## ASM `lda hDIR` `>SYSCALL readdir` ## RETURN VALUE CC : success X = hDIRENT Y,A = PTR to S.DIRENT CS : error A = EC note : A = 0 means no more entry # CloseDir ## C `void closedir(hDIR);` ## ASM `lda hDIR` `>SYSCALL closedir` ## RETURN VALUE none, always succeed. # SetEnv Change or add an environment variable ## C / CSH `int setenv(const char *name, const char *value);` ## ASM `>PUSHW name` `>PUSHW value` `>SYSCALL setenv` ## RETURN VALUE # GetEnv searches the environment list to find the environment variable name, and returns a pointer to the corresponding value string. ## C / CSH `char *getenv(const char *name, char *value);` ## ASM `>PUSHW name` `>PUSHW value` `>SYSCALL getenv` ## RETURN VALUE CC : Y,A = PTR to VALUE (C-String) CS : not found # PutEnv Change or add an environment variable, string is 'NAME=VALUE' ## C / CSH `int putenv(char *string);` ## ASM `>PUSHW string` `>SYSCALL putenv` ## RETURN VALUE # UnsetEnv Remove an environment variable ## C / CSH `int unsetenv(const char *name);` ## ASM `>PUSHW name` `>SYSCALL unsetenv` ## RETURN VALUE # Add32,Sub32,Mul32,IMul32,Div32,IDiv32,Mod32,IMod32,Cmp32,ICmp32 Return X+Y, X-Y, X*Y, X/Y, X mod Y.... ## ASM `>PUSHL X (long)` `>PUSHL Y (long)` `>FPU add32` `...` ## RETURN VALUE On stack (long) # FAdd,FSub,FMul,FDiv,FPwr Return X*Y, X/Y, X+Y, X-Y ## C `float pwr ( float x, float y);` ## ASM `>PUSHF X (float)` `>PUSHF Y (float)` `>FPU fmul` `>FPU fdiv` `>FPU fmod` TODO `>FPU fadd` `>FPU fsub` `>FPU fpwr` ## RETURN VALUE On stack (float) # Log,Sqr,Exp,Cos,Sin,Tan,ATan Return Log(x), Sqr(x), E^X, Cos(x), Sin(X), Tan(x), ATan(x) ## C `float log ( float x);` `float sqr ( float x);` `float exp ( float x);` `float cos ( float x);` `float sin ( float x);` `float tan ( float x);` `float atan ( float x);` ## ASM `>PUSHF x (Float)` `>FPU log` ## RETURN VALUE On stack (Float) # float Return 'floated' long ## C `float f = (float)l; ## ASM `>PUSHL l` (long) `>FPU float` ## RETURN VALUE On stack (float) # lrintf Return float rounded into a long ## C `long int lrintf (float x);` ## ASM `>PUSHF x` `>FPU lrintf` ## RETURN VALUE On stack (long) ## MD5 Return MD5 Hash for input String # C `void md5 (const char* str, char* digest);` # ASM `>PUSHW str` `>PUSHW digest` `>SYSCALL md5` ## RETURN VALUE CC ## MD5Init Initialize a MD5 computation # C `short int md5init();` # ASM `>SYSCALL MD5Init` ## RETURN VALUE A = hMem To S.MD5 ## MD5Update Add Data to MD5 computation # C `void md5update (short int md5, char* data, int len);` # ASM `>PUSHB md5` `>PUSHW data` `>PUSHW len` `>SYSCALL MD5Update` ## RETURN VALUE ## MD5Finalize # C `void md5finalize (short int md5, char* digest);` # ASM `>PUSHB md5` `>PUSHW digest` `>SYSCALL MD5Finalize` ## RETURN VALUE # Realloc ## C `void *realloc(short int hMem, int size);` ## ASM `>PUSHB hMem` `>PUSHW size` `>SYSCALL realloc` ## RETURN VALUE YA = ptr X = hMem # GetMem Y,A = Size Requested ## RETURN VALUE CC : success YA = PTR to Mem (Uninitialised) * X = hMem CS : A = EC # Free Y,A = Ptr To Free ## RETURN VALUE none. (X unmodified) # FreeMem A = hMem To Free ## RETURN VALUE none. (X unmodified) # GetMemPtr A = hMem ## RETURN VALUE Y,A = PTR to MemBlock (X unmodified) # NewStkObj Y,A = Size Requested ## RETURN VALUE CC : success YA = PTR to Mem (Uninitialised) * X = hMem CS : A = EC # GetStkObjPtr ## ASM `lda hStkObj` `>SYSCALL GetStkObjPtr` ## RETURN VALUE # FreeStkObj A = hMem To Free (AUX Memory) ## RETURN VALUE none. (X,Y unmodified) # Online Get ProDOS Volume Info ## C `int online(short int volid, void *buf);` ## ASM `>PUSHB volid` `>PUSHW buf` `>SYSCALL Online` ## RETURN VALUE # ChTyp Change Type of a ProDOS File ## C `int chtyp(const char *filepath, short int filetype);` ## ASM `>PUSHW filepath` `>PUSHB filetype` `>SYSCALL ChTyp` ## RETURN VALUE # ChAux Change AuxType of a ProDOS File ## C `int chaux(const char *filepath, int auxtype);` ## ASM `>PUSHW filepath` `>PUSHW auxtype` `>SYSCALL ChAux` ## RETURN VALUE # SetAttr Change Attributes of a ProDOS File ## C `int setattr(const char *filepath, short int attributes);` ## ASM `>PUSHW filepath` `>PUSHB attributes` `>SYSCALL setattr` ## RETURN VALUE # ExecL ## C / CSH `short int execl(const char *cmdline, short int flags);` ## ASM `>PUSHW cmdline` `>PUSHB flags` `>SYSCALL execl` ## RETURN VALUE A = Child PSID # ExecV ## C / CSH `short int execv(const char* argv[], short int flags);` ## ASM `>PUSHW argv` `>PUSHB flags` `>SYSCALL execv` ## RETURN VALUE A = Child PSID # Fork ## C `short int fork();` ## ASM `>SYSCALL fork` ## RETURN VALUE A = Child PSID # Kill ## C `int kill(short int pid, short int sig);` ## ASM `>PUSHB pid` `>PUSHB sig` `>SYSCALL kill` ## RETURN VALUE # LoadTxtFile Load TXT a file in memory (with ending 0) ## C `int loadtxtfile ( const char * filename );` ## ASM `>LDYA filename` `>SYSCALL loadtxtfile` ## RETURN VALUE Y,A = File Length (without ending 0) X = hMem of Loaded File # LoadFile Load a file in memory ## C `int loadfile ( const char * filename, short int flags, short int ftype, int auxtype );` ## ASM `>PUSHW filename` `>PUSHB flags` `>PUSHB ftype` `>PUSHW auxtype` `>SYSCALL loadfile` ## RETURN VALUE Y,A = File Length X = hMem of Loaded File # FileSearch Search a file in the provided PATH list And return, if found, the full path to it. ## C `int filesearch( char *filename, char *searchpath, char *fullpath, stat *filestat);` ## ASM `>PUSHW filename` `>PUSHW fullpath` `>PUSHW searchpath` `>PUSHW filestat` `>SYSCALL filesearch` ## RETURN VALUE CC : success DstBuf = FilePath DstStat = S.STAT CS : not found # GetMemStat Y,A = Ptr to 24 bytes buffer ## RETURN VALUE Buffer filled with memory stats # GetPWUID ## C `int getpwuid(short int uid, S.PW *passwd);` ## ASM `PUSHB uid` `>PUSHW passwd` `>SYSCALL getpwuid` ## RETURN VALUE # GetGRGID ## C `int getgrgid(short int gid, S.GRP *group);` ## ASM `>PUSHB gid` `>PUSHW group` `>SYSCALL getpwname` ## RETURN VALUE # CloseSession ## C `int closesession(short int hSID);` ## ASM `>PUSHB hSID` `>SYSCALL CloseSession` ## RETURN VALUE # OpenSession ## C `short int hSID opensession(const char *name, const char *passwd);` ## ASM `>PUSHW name` `>PUSHW passwd` `>SYSCALL OpenSession` ## RETURN VALUE # GetPWName ## C `int getpwname(const char* name, S.PW *passwd);` ## ASM `>PUSHW name` `>PUSHW passwd` `>SYSCALL getpwname` ## RETURN VALUE # GetGRName ## C `int getgrgid(const char* name, S.GRP *group);` ## ASM `>PUSHW name` `>PUSHW group` `>SYSCALL getpwname` ## RETURN VALUE # PutPW ## C `int putpw(S.PW* passwd);` ## ASM `>PUSHW passwd` `>SYSCALL putpw` ## RETURN VALUE # PutGR ## C `int putgr(S.GRP *group);` ## ASM `>PUSHW group` `>SYSCALL putgr` ## RETURN VALUE # SListGetData ## ASM `>PUSHB hSList` `>PUSHW KeyID` `>PUSHW DataPtr` (0 if KERNEL should allocate a buffer) `>PUSHW DataLen` (Data bytes to return, 0 if String mode) `>PUSHW DataOfs` (Start offset in Data) `>SYSCALL SListGetData` ## RETURN VALUE Y,A = Byte Count X = hMem (if DataPtr = 0) # SListAddData ## ASM `>PUSHB hSList` `>PUSHW KeyID` `>PUSHW DataPtr` `>PUSHW DataLen` (Data bytes to add, 0 if String mode) `>SYSCALL SListAddData` ## RETURN VALUE # SListSetData ## ASM `>PUSHB hSList` `>PUSHW KeyID` `>PUSHW DataPtr` `>PUSHW DataLen` (Data bytes to set, 0 if String mode) `>SYSCALL SListSetData` ## RETURN VALUE # SListGetByID ## ASM `>PUSHB hSList` `>PUSHW KeyID` `>PUSHW KeyPtr` `>SYSCALL SListGetByID` ## RETURN VALUE Y,A = Next KeyID # SListNewKey ## ASM `>PUSHB hSList` `>PUSHW KeyPtr` `>PUSHW ScopeID` `>SYSCALL SListNewKey` ## RETURN VALUE Y,A = KeyID X = KeyLen # SListLookup ## ASM `>PUSHB hSList` `>PUSHW KeyPtr` `>PUSHW ScopeID` `>SYSCALL SListLookup` ## RETURN VALUE Y,A = KeyID X = Key Length # SListFree ## ASM `lda hSList` `>SYSCALL SListFree` ## RETURN VALUE # SListNew ## ASM `lda Opt` `>SYSCALL SListNew` ## RETURN VALUE A=hSList # ChMod change permissions of a file ## C `int chmod(const char *pathname, int mode);` ## ASM `>PUSHW pathname` `>PUSHW mode` `>SYSCALL chmod` ## RETURN VALUE # FStat Return information about a hFILE ## C `int fstat(short int hFILE, struct stat *statbuf);` ## ASM `>PUSHB hFILE` `>PUSHW statbuf` `>SYSCALL fstat` ## RETURN VALUE # Stat Return information about a file ## C `int stat(const char *pathname, struct stat *statbuf);` ## ASM `>PUSHW pathname` `>PUSHW statbuf` `>SYSCALL stat` ## RETURN VALUE # MKDir create a directory ## C `int mkdir(const char *pathname, int mode);` ## ASM `>PUSHW pathname` `>PUSHW mode` `>SYSCALL mkdir` ## RETURN VALUE CC : success CS : error A = EC # MKFIFO return a pathname to a new FIFO ## C `hFILE mkfifo(const char *pathname, int mode);` ## ASM `>PUSHW pathname` `>PUSHW mode` `>SYSCALL mkfifo` ## RETURN VALUE CC = OK, CS = ERROR A = hFILE # MkNod Create a special or ordinary file. (CDEV, BDEV, DSOCK, SSOCK, PIPE) ## C `hFILE mknod(const char *pathname, int mode, hFD fd);` ## ASM `>PUSHW pathname` `>PUSHW mode` `>PUSHB fd` `>SYSCALL mknod` ## RETURN VALUE CC = OK, CS = ERROR A = hFILE # pipe ## C `hFD pipe(int size);` ## ASM `>LDYA size` `>SYSCALL pipe` ## RETURN VALUE CC = OK, CS = ERROR A = hFD # fputc (BLOCKING) Print A (char) to hFILE ## C `int fputc ( hFILE stream , short int character );` ## ASM `>PUSHB stream` `>PUSHB character` `>SYSCALL fputc` ## RETURN VALUE CC = success # putchar (BLOCKING) Print A (char) to StdOut ## C `int putchar ( short int character );` ## ASM `lda character` `>SYSCALL putchar` ## RETURN VALUE CC = success # puts (BLOCKING) Write Str to StdOut, appends '\r\n' ## C `int puts ( const char * str );` ## ASM `>LDYAI str` `>SYSCALL PutS` ## RETURN VALUE CC = success # fputs (BLOCKING) Write Str to hFILE ## C `int fputs (hFILE stream, const char * str );` ## ASM `>PUSHB stream` `>PUSHW str` `>SYSCALL fputs` ## RETURN VALUE CC = success # fgets (BLOCKING) read bytes from stream into the array pointed to by s, until n-1 bytes are read, or a is read and transferred to s, or an end-of-file condition is encountered. The string is then terminated with a null byte. ## C `char *fgets(hFILE stream, char * s, int n);` ## ASM `>PUSHB hFILE` `>PUSHW s` `>PUSHW n` `>SYSCALL fgets` ## RETURN VALUE Y,A: s CC = success # getchar (BLOCKING) Get char from StdIn ## C `short int getchar ( );` ## ASM `>SYSCALL getchar` ## RETURN VALUE CC = success A = char # getc (BLOCKING) Get char from Node ## C `short int getc ( short int stream );` ## ASM `lda stream` `>SYSCALL getc` ## RETURN VALUE CC = success A = char # ungetc push byte back into input stream ## C `short int ungetc(short int c, short int stream);` ## ASM `>PUSHB c` `>PUSHB stream` `>SYSCALL ungetc` ## RETURN VALUE CC = success A = char # FOpen Open a file ## C `short int fopen ( const char *filename, short int flags, short int ftype, int auxtype );` ## ASM `>PUSHW filename` `>PUSHB flags` + O.RDONLY : if R and exists -> ERROR + O.WRONLY : if W and exists -> CREATE + O.TRUNC : Reset Size To 0 + O.APPEND : Append + O.TEXT : Open/Append in Text mode + O.CREATE : Create if not exists `>PUSHB ftype` `>PUSHW auxtype` TODO: replace flags/ftype/auxtype with mode="w+,t=TYP,x=AUXTYPE" + r = O_RDONLY + r+ = O_RDWR + w = O_WRONLY | O_CREAT | O_TRUNC + w+ = O_RDWR | O_CREAT | O_TRUNC + a = O_WRONLY | O_CREAT | O_APPEND + a+ = O_RDWR | O_CREAT | O_APPEND + ,t=123 or t=$ff or t=TXT + ,x=12345 or x=$ffff ## RETURN VALUE CC : A = hFILE CS : A = EC # FClose Close a file ## C `int fclose ( short int stream );` ## ASM `lda stream` `>SYSCALL FClose` ## RETURN VALUE # FRead (BLOCKING) Read bytes from file ## C `int fread (short int stream, void * ptr, int count );` ## ASM `>PUSHB stream` `>PUSHW ptr` `>PUSHW count` `>SYSCALL fread` ## RETURN VALUE Y,A = Bytes Read # FWrite (BLOCKING) Write bytes to file ## C `int fwrite ( short int stream, const void * ptr, int count );` ## ASM `>PUSHB stream` `>PUSHW ptr` `>PUSHW count` `>SYSCALL fwrite` ## RETURN VALUE Y,A = Bytes Written # FFlush ## C `int fflush( short int stream );` ## ASM `lda stream` `>SYSCALL fflush` # FSeek Set the file-position indicator for hFILE ## C `int fseek( short int stream, long offset, short int whence );` ## ASM `>PUSHB stream` `>PUSHL offset` `>PUSHB whence` `>SYSCALL fseek` # FEOF Test the end-of-file indicator for hFILE ## C `short int feof( short int stream );` ## ASM `lda stream` `>SYSCALL feof` ## RETURN VALUE CC : A = $ff EOF A = 0 NOT EOF CS : # FTell Return the current value of the file-position indicator ## C `long ftell( short int stream );` ## ASM `lda stream` `>SYSCALL ftell` ## RETURN VALUE On stack (long) # Remove Remove a file or directory ## C `int remove ( const char *pathname );` ## ASM `>LDYA pathname` `>SYSCALL remove` ## RETURN VALUE # Rename Rename a file ## C `int rename ( const char * oldpath, const char * newpath );` ## ASM `>PUSHW oldpath` `>PUSHW newpath` `>SYSCALL rename` ## RETURN VALUE # PrintF (BLOCKING) # FPrintF (BLOCKING) # SPrintF Prints C-Style String ## C `int printf ( const char *format, ... );` `int fprintf ( short int stream, const char *format, ... );` `int sprintf ( char *str, const char *format, ... );` ## ASM PrintF : (example is for printing Y,A as integer : format="%I", 2 bytes) `>PUSHW format` `>PUSHW i` `...` `>PUSHBI 2` #bytecount `>SYSCALL PrintF` FPrintF : `>PUSHB hFILE` `>PUSHW format` `>PUSHW i` `...` `>PUSHBI 2` #bytecount `>SYSCALL fprintf` SPrintF : `>PUSHW str` `>PUSHW format` `>PUSHW i` `...` `>PUSHBI 2` #bytecount `>SYSCALL sprintf` ## RETURN VALUE CC : success, Y,A = bytes sent CS : error, A = code from Output Specifiers : + %b : pull 1 byte to Print BIN + %d : pull 1 byte unsigned DEC 0..255 + %D : pull 2 bytes unsigned DEC 0..65535 + %u : pull 4 bytes long unsigned DEC 0..4294967295 + %e : pull 5 Bytes float (-)1.23456789e+12 + %f : pull 5 Bytes float (-)3.1415 + %h : pull 1 byte to Print HEX + %H : pull 2 bytes to Print HEX + %i : pull 1 byte to Print signed DEC -128..127 + %I : pull 2 bytes to Print signed DEC -32768..32767 + %L : pull 4 bytes signed DEC -2147483648..2147483647 + %s : pull 2 bytes ptr to C-Style String + %S : pull 2 bytes ptr to P-Style String Modifiers for len and padding : + %d : '9' '12' + %2d : ' 9' '12' + %02d : '09' '12' + %11s : 'ABCDEFGH ' + %011s : 'ABCDEFGH000' + %2f : '3.14' # ScanF (BLOCKING) # FScanF (BLOCKING) # SScanF Read formatted data from string ## C `int scanf( const char *format, ... );` `int fscanf( short int stream, const char *format, ... );` `int sscanf ( const char *s, const char *format, ... );` ## ASM ScanF : `>PUSHW format` `>PUSHW ptr` `...` `>PUSHB bytecount` `>SYSCALL scanf` FScanF : `>PUSHB stream` `>PUSHW format` `>PUSHW ptr` `...` `>PUSHB bytecount` `>SYSCALL fscanf` SScanF : `>PUSHW s` `>PUSHW format` `>PUSHW ptr` `...` `>PUSHB bytecount` `>SYSCALL sscanf` Specifiers : + %i : short int + %d : byte + %I : int + %D : word + %L : long int + %U : dword + %h : HEX byte + %H : HEX word + %s : string TODO : %10s ## RETURN VALUE A = Number of arguments filled. # StrToF Convert String to 40 bits Float ## C `float strtof (const char* str, char** endptr );` ## ASM `>PUSHW str` `>PUSHWI EndPtr` `>SYSCALL StrToF` ## RETURN VALUE On stack (float) # AToF Convert String to 40 bits Float ## C `float atof ( const char* str );` ## ASM `>LDYA str` `>SYSCALL atof` ## RETURN VALUE On stack (float) # StrToL/StrToUL Convert String to 32 bits (unsigned) int ## C `long strtol (const char* str, char** endptr, int base);` `unsigned long strtoul (const char* str, char** endptr, int base);` ## ASM `>PUSHW str` `>PUSHW EndPtr` `>PUSHB Base` `>SYSCALL StrToL` ## RETURN VALUE On stack (long) # atol Convert String to 32 bits long ## C `long atol ( const char * str );` ## ASM `>LDYA str` `>SYSCALL atol` ## RETURN VALUE On stack (long) # atoi Convert String to 16 bits int ## C `int atoi ( const char * str );` ## ASM `>LDYAI str` `>SYSCALL atoi` ## RETURN VALUE Y,A = int # RealPath Return the canonicalized absolute pathname ## C / CSH `char *realpath(const char *path, char *resolvedpath);` ## ASM `>PUSHW path` `>PUSHW resolvedpath` `>SYSCALL realpath` ## RETURN VALUE CC : success Y,A = Ptr to Full Path (C-String Buffer, MLI.MAXPATH+1) X = hMem of Full Path CS : A = Error Code # Expand ## C `char *expand(const char *str, char *expanded);` ## ASM `>PUSHW str` `>PUSHW expanded` `>SYSCALL expand` ## RETURN VALUE if expanded == null Y,A = PTR to Expanded String X = hMem to Expanded String if expanded = null Y,A = strlen # LoadStkObj Load a file in AUX memory (Stock Objects) PUSHW = PATH (Handled by.... PUSHB = MODE ... PUSHB = TYPE ... PUSHW = AUXTYPE ...FOpen) ## RETURN VALUE Y,A = File Length X = hMem of Loaded Object in AUX mem # GetStkObj ## C `int *ptr getstkobj (short int hStkObj);` ## ASM `lda hStkObj` `>SYSCALL GetStkObj` ## RETURN VALUE CC : success X = hMem Y,A = ptr CS : error A = EC # StrLen Returns Length of C-String ## C `int strlen ( char * str);` ## ASM `>LDYAI str` `>SYSCALL strlen` ## RETURN VALUE Y,A = String length # StrCat Concatenate strings ## C `char * strcat ( char * destination, const char * source );` ## ASM `>PUSHWI destination` `>PUSHWI source` `>SYSCALL strcat` ## RETURN VALUE Y,A = destination # StrCpy Copy string ## C `char * strcpy ( char * destination, const char * source );` ## ASM `>PUSHWI destination` `>PUSHWI source` `>SYSCALL strcpy` ## RETURN VALUE Y,A = destination # StrDup Create a new copy of this C-String ## C `char * strdup ( char * str);` ## ASM Y,A = Ptr to source C-String CC : success Y,A = PTR to String X = hMem (C-String) CS : error A = SYS error code # StrUpr/StrLwr Convert string to UPPERCASE/lowercase ## C `int strupr ( char * str);` `int strlwr ( char * str);` ## ASM `>LDYAI str` `>SYSCALL strupr` `>SYSCALL strlwr` ## RETURN VALUE Uppercased/lowercased String in Buffer Y,A = str # StrCmp Compare 2 strings ## C `int strcmp(const char *s1, const char *s2);` ## ASM `>PUSHWI s1` `>PUSHWI s2` `>SYSCALL strcmp` ## RETURN VALUE CC : match CS : no match CC, Y,A=0 CS, Y,A > 0 or < 0 # StrCaseCmp Compare 2 strings, ignoring case ## C `int strcasecmp(const char *s1, const char *s2);` ## ASM `>PUSHWI s1` `>PUSHWI s2` `>SYSCALL strcasecmp` ## RETURN VALUE CC : match CS : no match CC, Y,A=0 CS, Y,A > 0 or < 0 # StrVSet ## ASM `>PUSHB hSTRV` `>PUSHW id` `>PUSHW ptr` `>SYSCALL StrVSet` ## RETURN VALUE # StrVGet ## ASM `>PUSHB hSTRV` `>PUSHW id` `>PUSHW ptr` `>SYSCALL StrVGet` ## RETURN VALUE CC: Y,A = Ptr CS: Y,A = NULL # StrVNew ## ASM `>LDYA size` `>SYSCALL StrVNew` ## RETURN VALUE # StrVFree ## ASM `lda hSTRV` `>SYSCALL StrVFree` ## RETURN VALUE # Time Get System Time in Buffer ## C `void time (struct tm* timeptr);` ## ASM `>PUSHW timer` `>SYSCALL time` ## RETURN VALUE S.TIME filled with System date/time # StrFTime ## C Convert S.TIME struct to CSTR `void strftime (char* str, const char* format, const struct tm* timeptr );` ## ASM `>PUSHW str` `>PUSHW format` + %a : Abbreviated weekday name : Thu + %A : Full weekday name : Thursday + %b : Abbreviated month name : Aug + %B : Full month name : August + %d : Day of the month, zero-padded (01-31) + %H : Hour in 24h format (00-23) 14 + %I : Hour in 12h format (01-12) 02 + %m : Month as a decimal number (01-12) 08 + %M : Minute (00-59) 55 + %p : AM or PM designation PM + %S : Second (00-61) 02 + %w : Weekday as a decimal number with Sunday as 0 (0-6) + %y : Year, last two digits (00-99) + %Y : Year four digits 2001 `>PUSHW timeptr` `>SYSCALL strftime` ## RETURN VALUE none. always succeed. # PTime2Time Convert ProDOS Time To S.TIME ## C `void PTime2Time (long* ptime, const struct tm* timeptr );` ## ASM `>PUSHW ptime` `>PUSHW timer` `>SYSCALL PTime2Time` ## RETURN VALUE # CTime2Time Convert CTime Time To S.TIME ## C `void CTime2Time (long* ctime, const struct tm* timeptr );` ## ASM `>PUSHW ctime` `>PUSHW timer` `>SYSCALL CTime2Time` ## RETURN VALUE # open ## C `hFD open(const char *pathname, short int flags);` ## ASM `>PUSHW pathname` `>PUSHB flags` `>SYSCALL open` ## RETURN VALUE A = hFD REG File created on ProDOS : T=TXT,X=$0000 # close ## C `int close(hFD fd);` ## ASM `lda fd` `>SYSCALL close` # read ## C `int read(hFD fd, void *buf, int count);` ## ASM `>PUSHB fd` `>PUSHW buf` `>PUSHW count` `>SYSCALL read` ## RETURN VALUE CC: Y,A = bytes read CS: A = EC # write ## C `int write(hFD fd, const void *buf, int count);` ## ASM `>PUSHB fd` `>PUSHW buf` `>PUSHW count` `>SYSCALL write` ## RETURN VALUE CC: Y,A = bytes written CS: A = EC # LSeek Set the file-position indicator for hFD ## C `int lseek( short int hFD, long offset, short int whence );` ## ASM `>PUSHB hFD` `>PUSHL offset` `>PUSHB whence` `>SYSCALL fseek` # ChOwn ## C `short int chown(const char *pathname, short int owner, short int group);` ## ASM `>PUSHW pathname` `>PUSHB owner` `>PUSHB group` `>SYSCALL chown` ## RETURN VALUE ## License A2osX is licensed under the GNU General Public License. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. The full A2osX license can be found **[Here](../LICENSE)**. *** End of Auto generated file ***