; ;***************************************************************************** ; ; This program provides a table based command line monitor accessable to a ; user via an ascii terminal (9600,8,n,1) connected to USART1 or ; accessable via interprocessor communication over the i2c bus. ; ; All PICos source files are intended to be viewed with tabs set to 4 spaces. ; ; Input is echoed back to the USART and accumulated in a buffer one character ; at a time. Each command line of text is delivered to the command processor ; Cmd when it is terminated by a CR character. The file uart1.asm contains ; the user I/O utilities. ; ; Input is also accumulated by the i2c slave peripheral. The first byte ; received is the sending devices i2c slave address and the next byte is a ; count of the bytes to follow. Once the transmission is complete the buffer ; is submitted to Cmd just as if it had been entered by a user. ; ; Each command line is passed to a command processor which matches it against ; the commands listed in a program memory table. Each table entry contains ; a format string to match the command against, a function address to involke ; if the string matches and a string describing the command. The table begins ; at the address CmdMenu and the entry for each command is added using a block ; of directives at the beginning of the function for that command. Therefore ; the source for the function and the command table entry are all coded ; together in one source location which can even be in another file. If so ; this file must be included. If a function provides a non null output ; string this string is submitted back to the command processor at the source ; which provided the command, i.e. If the command was entered locally by a ; user via the usart then the result string is resubmitted to the local Cmd. ; If the command was received from the i2c slave then the result string is ; trasnmitted back to the sending device to be executed there. Typically ; the function executed by a result string is u1: which transmits the string ; parameter via the local usart providing output to the user including ; redrawing the command prompt. ; ; NOTE: CR terminates command input buffer ; 0 terminates string parameter overwriting CR ; LF terminating output string causes ui: to redisplay cmd line prompt ; Therefore strings output by functions must end in \n\r since \r is replaced ; with a 0 by Cmd when parsing the string parameter for u1: and the remaining ; \n causes u1: to redraw the prompt. ; ; Revision history: ; John E. Andrews Version equ 0x0104 ; machine readable version 1.04 ; Oct 17th 1998 ver 1.04 - Qualcomm Hardware Test Platform ; fix EE byte read and write, add register and bit read and write ; Mar 22nd 1998 ver 1.03 - ESC East Chicago ; I2C remote command execution and response protocol ; Mar 13th 1998 ver 1.02 - '756 workshop San Diego ; Modular CmdMenu table entry definition along with function source ; Feb 13th 1998 ver 1.01 - Disti FAE certification San Diego ; Modular peripheral isr bit test macro InstallIsr ; Feb 7th 1998 ver 1.00 ; Initial command monitor ; ; Needed Improvements: ; 1) port to MPLINK (use relocatable object modules) ; 2) elliminate buffer copy w/ string parameters in Cmd, especially for u1: ; use pointer to string in cmdPrmBuff, leave string were it is? ; 2.1) string parameters containing CR screw up the parameter copy ; 2.1.1) s param copy should be to next format string char not CR ; 2.2) Cmd buffer management is weak overall, need system strategy ; 3) make cmd line parameters compatible with C17 auto input variables ; 4) make command line of CR only reexecute last cmd entered ; 5) eeprom routines need to be converted to byte count based binary ; 6) major error (nack) detection needed in i2c, even before arbitration ; 7) add interprocess cmd ready flag like rxRdy and i2cRxRdy elim return cmd? ; 8) StartTx doesn't handle special characters. Need a subroutine called by ; UART1Tx isr and StartTx called U1TxByte. (rename UART1Tx to U1TxIsr) ; 9) Interactive user I/O while command is running ; ;***************************************************************************** ; ; specify processor, default constant radix, spaces/tab, and width list p=17C756,r=dec,b=4,c=132 #include <p17C756.inc> ; include processor specific declarations ; specify microcontroller mode, WDT off, Brown out on, external clock __CONFIG _MC_MODE & _WDT_OFF & _BODEN_ON & _EC_OSC ; don't produce the following listed messages and warnings errorlevel -207, -302, -305 ; ; Suppressed Warnings ; 207 Found label after column 1. ; A label was found after column one, which is often due to a ; misspelled opcode. ; ; Suppressed Messages ; 302 Register in operand not in bank 0. ; Ensure that bank bits are correct. ; Register address was specified by a value that included the ; bank bits. For example, RAM locations in the PIC16CXX are ; specified with 7 bits in the instruction and one or two ; bank bits. ; 305 Using default destination of 1 (file). ; If no destination bit is specified, the default is used. ; ;***************************************************************************** ; Reset Vector ;***************************************************************************** ; org 0 ; reset vector location goto Start ; goto beginning of execution after reset ; ;***************************************************************************** ; Peripheral Interrupt Vector ;***************************************************************************** ; org 0x20 ; ***** Variable and symbol declarations for peripheral int ***** cblock 0x1A ; declare unbanked variables ALUSTA_S ; context save variables for isr BSR_S WREG_S PCLATH_S FSR0_S FSR1_S ; last unbanked location endc ; ***** Executable code for peripheral int ***** ; save context movfp ALUSTA, ALUSTA_S ; save ALUSTA movfp BSR, BSR_S ; save BSR movfp WREG, WREG_S ; save WREG movfp PCLATH, PCLATH_S ; save PCLATH movfp FSR0, FSR0_S ; save FSR0 movfp FSR1, FSR1_S ; save FSR1 ; ; All interrupt flag tests and the jumps to the associated isr ; functions are installed here via usage of the InstallISR macro. ; ; init the MPASM variable to the current assembly time PC value CurIsrTstAdr = $ ; ;********************************************************************** InstallISR macro IFRegBank, IFReg, IF ; ; IFRegBank - sfr bank containing register with interrupt flag ; IFReg - register address containing interrupt flag bit ; IF - high active interrupt flag bit ; ; This macro allows installation at assembly time of isr functions ; at any source code location. This permits source code for the isr ; and the bit testing that occurs at the processors interrupt vector, ; and determines which isr to involke, to be located with the source ; code for other associated functions, even in other files. When MPASM ; assembles the source the org statements cause the executable to be ; placed at the correct locations. ; ; This macro must be used immediately following the label at the ; beginning of the isr function and prior to any executable code. ; ; Note: This is only a macro definition, code is generated where the ; macro is used at the beginning of the isr function. ;********************************************************************** ; InlinePC = $ ; save current inline assembly PC value org CurIsrTstAdr ; set assembly PC to addr for new isr test movlb IFRegBank ; switch to the sfr bank containing the reg btfsc IFReg, IF ; skip if the int flag in its reg is clear btfss IFReg+1, IF ; IF is set, skip if IE is set in next reg goto $+3 ; jump to test next installed int flag call InlinePC ; int is active so call isr function goto ExitInt ; then goto restore context and exit int CurIsrTstAdr = $ ; set current tst addr to next entry org InlinePC ; begin isr code gen at inline address endm ; end of isr install macro ; ; InstallISR is composed of 6 instructions. This org allows room for ; 10 interrupts to have service routines installed. org $ + 60 ; ExitInt ; restore context and exit interrupt movfp FSR1_S, FSR1 ; FSR1 movfp FSR0_S, FSR0 ; FSR0 movfp PCLATH_S, PCLATH ; restore PCLATH movfp WREG_S, WREG ; restore WREG movfp BSR_S, BSR ; restore BSR movfp ALUSTA_S, ALUSTA ; restore ALUSTA retfie ; return from int ; ; **** end of peripheral interrupt processing **** ; ;***************************************************************************** ; Included code begins here after isr return ;***************************************************************************** ; ; utility and driver files included here include "oututil.asm" ; output string generation utilities include "uart1.asm" ; uart1 isr and init code CurCmdMenuAdr = CmdMenu ; starting addr for CmdMenu entries ; Note: must be before files are included ; ***** Note: Include files here to add commands to PICos **************** include "stdcmd.asm" ; standard PICos commands include "capcmd.asm" ; capture commands include "a2dcmd.asm" ; a/d commands include "pwmcmd.asm" ; pwm commands include "i2ccmd.asm" ; i2c commands include "lcd.asm" ; lcd module utilities ; ;***************************************************************************** ; Entry Point from Reset Vector ;***************************************************************************** ; Start ; start execution here after reset ; call InitLCD ; init lcd flag byte ; call InitU1 ; init USART1 ; call InitI2C ; init I2C state var ; ; init peripheral and global interrupts bcf INTSTA, PEIF ; init periph int flag bsf INTSTA, PEIE ; enable periph ints bcf CPUSTA, GLINTD ; enable global ints ; ; init portd as debug LED outputs displaying i2c slave address movlb 1 ; select SFR bank for PORTD clrf DDRD ; set to all outputs movlw DfltSlvAddr ; load default i2c slave addr into W movwf PORTD ; display on portd ; ; preload rxBuffer w/ null command to gen first prompt movlw '\r' ; load CR char movwf rxBuffer ; into uart1 Rx buffer bsf u1Flags, RxRdy ; set bit to tell wait loop to process ; ;********************************************************************** ; Main loop of command monitor ;********************************************************************** ; Wt4Cmd ; wait here for next cmd line from uart1 or i2c slave btfsc u1Flags, RxRdy ; skip if no new UART1 data buffer ready call U1Rdy ; otherwise uart1 has cmd buffer ready btfsc i2cFlags, i2cRxRdy ; skip if no new i2c data buffer ready call I2CRdy ; otherwise i2c has cmd buffer ready goto Wt4Cmd ; retest until input is ready ; U1Rdy ; a locally entered cmd line is ready from uart1 movlw rxBuffer ; load cmd buffer addr into W call Cmd ; process cmd line ; output string is returned in cmdOutBuff movlw cmdOutBuff ; load addr of output buffer into W tstfsz cmdOutBuff ; skip if output buffer is null goto $-3 ; otherwise resubmit output to Cmd ; reset USART1 Rx buffer pointers movlw rxBuffer-1 ; load prestart of Rx buffer movwf rxPtr ; into Rx buffer pointer bsf u1Flags, RstRxPtr ; tell isr to reset IntRx pointer bcf u1Flags, RxRdy ; clear data ready flag return ; return to wait for next command ; I2CRdy ; a new cmd line is ready from i2c bcf i2cFlags, i2cRxRdy ; clear flag: no new i2c data buffer ready movlw i2cRxBuffer ; load cmd buffer addr into W call Cmd ; process cmd line ; output string is returned in cmdOutBuff movlw cmdOutBuff ; load start of output buffer into W tstfsz cmdOutBuff ; skip if output buffer is null call KickI2CRpy ; otherwise start int based reply on i2c return ; return to wait for next command ; ;********************************************************************** Cmd ; Command Processor ;********************************************************************** ; ; Parse and execute received cmd based on format strings stored in ; program memory table at location CmdMenu. The received cmd buffer ; pointer is passed in as a parameter in W. The cmd format strings ; specify the text and input parameters that are matched against ; the characters in the cmd buffer. If a cmd line is identified ; by a format string then execution is redirected to the function ; address which is stored after the format string in each CmdMenu ; table entry. Input parameters are converted from ascii as ; decimal or hexidecimal integers or as strings and passed to the ; cmd functions in the command parameter buffer: cmdPrmBuff. Each ; cmd function generates an output string in the buffer starting at ; address cmdOutBuff. During command parsing FSR0 is used to point ; into the command string buffer and FSR1 points into the parameter ; buffer. ; ; ***** Variable and symbol declarations for command processor ***** ; cmdPrmBuffSize equ 30 ; size of buffer for command parameters cmdOutBuffSize equ 40 ; size of buffer for command output ; cblock cmdPrmC ; cmd parameter digit count cmdPrmBuff: cmdPrmBuffSize ; cmd parameter buffer cmdTblChar ; CmdMenu table value cmdBuffPtr ; head of cmd buffer provided as input in W cmdFlags ; flags for cmd proccessor cmdOutBuff: cmdOutBuffSize+10 ; cmd function output buffer cmdOutPtr ; ptr to current location in output buff testaddr ; dummy to show address of end of used ram endc ; ; bit flag definitions for cmdFlags CmdByte equ 0 ; last cmd byte from TABLAT was hi or lo DataByte equ 1 ; last data byte from TABLAT was hi or lo Hundreds equ 2 ; number > 100 in decimal to ascii conv ; ; ***** Executable code for command processor ***** ; ; support lcd command line display here? ; call Cmd2LCD ; display new cmd line on LCD ; Parse and execute cmd line movwf FSR0 ; load cmd buffer addr into FSR0 movwf cmdBuffPtr ; save cmd buffer start in cmdBuffPtr movlw cmdPrmBuff ; load cmd parameter buffer addr movwf FSR1 ; into FSR1 movlw high(CmdMenu) ; load upper byte of menu addr movwf TBLPTRH ; place it in the table pointer movlw low(CmdMenu) ; load lower byte of menu addr movwf TBLPTRL ; place it in the table pointer tablrd 0, 1, WREG ; perform dummy read to init TABLAT bcf cmdFlags, CmdByte ; init CmdByte flag causing hi read first ; RdTbl ; FSR0 points to cmd char, read next format string char from CmdMenu btfss cmdFlags, CmdByte ; if last table byte read was hi then skip tlrd 1, cmdTblChar ; otherwise fetch upper byte btfsc cmdFlags, CmdByte ; if last table byte read was lo then skip tablrd 0, 1, cmdTblChar ; otherwise fetch lower byte btg cmdFlags, CmdByte ; toggle bit indicating hi or lo byte read ; ; analyze the format string and compare with each cmd char ; ; test for 0 termination of CmdMenu tstfsz cmdTblChar ; skip if 0 at end of CmdMenu was read goto NotCmdZ ; otherwise not at end goto UnCmd ; end of format strings with no match NotCmdZ ; if here valid format string char is available ; ; test for format string indicating cmd termination by carriage return movlw 0x0D ; load CR character cpfseq cmdTblChar ; skip if carriage return is indicated goto NotCmdC ; otherwise not a carriage return cpfseq INDF0 ; skip if cmd char is CR goto SkpCmd ; CR not found, advance past this menu cmd ; cmd has been matched with format string, execute function btfsc cmdFlags, CmdByte ; if last table byte read was lo then skip tablrd 0, 1, cmdTblChar ; otherwise update TABLAT and skip 0 pad ; init output buffer to cause u1: to display new prompt after cmd movlw cmdOutBuff ; load start of output buffer movwf FSR1 ; into FSR1 movlw 'u' ; load ascii u movwf INDF1 ; into buffer incf FSR1 ; point to next location movlw '1' ; load ascii 1 movwf INDF1 ; into buffer incf FSR1 ; point to next location movlw ':' ; load ascii : movwf INDF1 ; into buffer incf FSR1 ; point to next location movlw '\n' ; load ascii LF movwf INDF1 ; into buffer movpf FSR1, cmdOutPtr ; save current location in output pointer incf FSR1 ; point to next location movlw '\r' ; load ascii CR into last location in buff movwf INDF1 ; CR terminates cmd line when resubmited ; fetch command function address pointer from CmdMenu table and vector tlrd 1, PCLATH ; fetch upper byte of pointer into PCLATH tlrd 0, PCL ; fetch lower byte into PCL causing jump NotCmdC ; if here format string char is not a carriage return ; ; test for format string indicating string parameter movlw 's' ; load string parameter indicating char cpfseq cmdTblChar ; skip if string parameter indicated goto NotPrmS ; otherwise not a string parameter movlw 0x0D ; load CR character into W NxtPrmS movfp INDF0, INDF1 ; move char from cmd into parameter cpfseq INDF1 ; skip if last parameter is CR goto PrmSc ; CR not found, copy next char ; CR has terminated string parameter copy clrf INDF1 ; replace CR with 0 termination incf FSR1 ; point to next parameter addr goto RdTbl ; evaluate next format string char PrmSc ; prepare to copy next char incf FSR0 ; point to next cmd char incf FSR1 ; point to next parameter addr goto NxtPrmS ; copy next char NotPrmS ; if here format string char does not indicate a string parameter ; ; test for format string indicating decimal parameter movlw 'n' ; load decimal parameter indicating char cpfseq cmdTblChar ; skip if decimal parameter indicated goto NotPrmN ; otherwise not a decimal parameter clrf cmdPrmC ; clear parameter digit count clrf INDF1 ; init current parameter GetPrmN movlw '0'-1 ; load ascii 0 - 1 cpfsgt INDF0 ; skip if cmd char is >= ascii 0 goto EndPrmN ; otherwise determine if param was read movlw '9'+1 ; load ascii 9 + 1 cpfslt INDF0 ; skip if cmd char is <= ascii 9 goto EndPrmN ; otherwise determine if param was read ; cmd char is a valid decimal digit incf cmdPrmC ; increment parameter digit count movlw 10 ; load 10 mulwf INDF1 ; multiply by current parameter value movfp PRODL, INDF1 ; update current parameter with x10 value movlw 0x0F ; load lower nibble mask andwf INDF0, W ; mask new cmd param digit into W addwf INDF1 ; add to current parameter incf FSR0 ; point to next cmd char goto GetPrmN ; see if still a parameter digit EndPrmN ; current cmd char is not a decimal digit tstfsz cmdPrmC ; if param digit count is zero then skip goto $+2 ; param was read, move to next cmd char goto SkpCmd ; nothing read, advance past this menu cmd incf FSR1 ; point to next parameter addr goto RdTbl ; evaluate next format string char NotPrmN ; if here format string char does not indicate a decimal parameter ; ; test for format string indicating hexidecimal parameter movlw 'x' ; load hexidecimal param indicating char cpfseq cmdTblChar ; skip if hexidecimal parameter indicated goto NotPrmX ; otherwise not a hexidecimal parameter clrf cmdPrmC ; clear parameter digit count clrf INDF1 ; init current parameter GetPrmX movlw '0'-1 ; load ascii 0 - 1 cpfsgt INDF0 ; skip if cmd char is >= ascii 0 goto EndPrmX ; otherwise determine if param was read movlw '9'+1 ; load ascii 9 + 1 cpfslt INDF0 ; skip if cmd char is <= ascii 9 goto PrmXA ; otherwise check for upper case alpha movlw 0x0F ; load lower nibble mask andwf INDF0, W ; mask new cmd param digit into W goto VldPrmX ; char is a valid hexidecimal digit PrmXA movlw 'A'-1 ; load ascii A - 1 cpfsgt INDF0 ; skip if cmd char is >= ascii A goto EndPrmX ; otherwise determine if param was read movlw 'F'+1 ; load ascii F + 1 cpfslt INDF0 ; skip if cmd char is <= ascii F goto PrmXa ; otherwise check for lower case alpha movlw 0x0F ; load lower nibble mask andwf INDF0, W ; mask new cmd param digit into W addlw 9 ; adjust to correct numeric value goto VldPrmX ; char is a valid hexidecimal digit PrmXa movlw 'a'-1 ; load ascii a - 1 cpfsgt INDF0 ; skip if cmd char is >= ascii a goto EndPrmX ; otherwise determine if param was read movlw 'f'+1 ; load ascii f + 1 cpfslt INDF0 ; skip if cmd char is <= ascii f goto EndPrmX ; otherwise determine if param was read movlw 0x0F ; load lower nibble mask andwf INDF0, W ; mask new cmd param digit into W addlw 9 ; adjust to correct numeric value ; fall through to valid hexidecimal digit VldPrmX ; valid hexidecimal value is in W incf cmdPrmC ; increment parameter digit count bcf INDF1, 7 ; clear upper nibble bcf INDF1, 6 bcf INDF1, 5 bcf INDF1, 4 swapf INDF1 ; multiply current parameter value by 16 addwf INDF1 ; add new value to current parameter incf FSR0 ; point to next cmd char goto GetPrmX ; see if still a parameter digit EndPrmX ; current cmd char is not a hexidecimal digit tstfsz cmdPrmC ; if param digit count is zero then skip goto $+2 ; param was read, move to next cmd char goto SkpCmd ; nothing read, advance past this menu cmd incf FSR1 ; point to next parameter addr goto RdTbl ; evaluate next format string char NotPrmX ; if here format string char does not indicate a decimal parameter ; ; test for alphabetic format string char, automatically capitalize cmd movlw 'A'-1 ; load ascii A - 1 cpfsgt cmdTblChar ; skip if format string char is >= A goto NotCmdA ; otherwise not an alphabetic char movlw 'Z'+1 ; load an ascii Z + 1 cpfslt cmdTblChar ; skip if format string char <= Z goto NotCmdA ; otherwise not an alphabetic char movfp INDF0, WREG ; alphabetic, load cmd char into W bcf WREG, 5 ; capitalize cmd buffer char cpfseq cmdTblChar ; skip if cmd char equals format string goto SkpCmd ; no match, advance past this menu cmd ; current cmd char matches alphabetic format string char incf FSR0 ; point to next cmd char goto RdTbl ; evaluate next format string char NotCmdA ; if here format string char is not alphabetic ; ; char is not alphabetic, parametric or CR so cmd must match exactly movfp INDF0, WREG ; load cmd char into W cpfseq cmdTblChar ; skip if cmd char equals format string goto SkpCmd ; no match, advance past this menu cmd ; current cmd char matches format string char incf FSR0 ; point to next cmd char goto RdTbl ; evaluate next format string char ; SkpCmd ; cmd line does not match, advance to next format string ; test for format string indicating cmd termination by carriage return movlw 0x0D ; load CR character call Adv2Mch ; adv thru format string until CR is found ; current format string char is CR btfsc cmdFlags, CmdByte ; if last table byte read was lo then skip tablrd 0, 1, cmdTblChar ; otherwise update TABLAT and skip 0 pad tablrd 0, 1, WREG ; flush cmd pointer from TABLAT ; cmd function pointer is flushed, TABLAT contains start of description tlrd 1, cmdTblChar ; read first byte of command description bsf cmdFlags, CmdByte ; set flag to cause lo byte read first movlw 0x0A ; load LF character call Adv2Mch ; adv thru descrip string until LF is found ; current desription string char is LF btfsc cmdFlags, CmdByte ; if last table byte read was lo then skip tablrd 0, 1, cmdTblChar ; otherwise update TABLAT and skip 0 pad bcf cmdFlags, CmdByte ; clear flag to cause hi byte read first movfp cmdBuffPtr, FSR0 ; reload cmd buffer addr into FSR0 movlw cmdPrmBuff ; reload start of parameter buffer movwf FSR1 ; into FSR1 goto RdTbl ; analyze new format string ; Adv2Mch ; advance thru table entry until char in W is found cpfseq cmdTblChar ; skip if carriage return is indicated goto $+2 ; otherwise get next table character return ; if CR then return btfss cmdFlags, CmdByte ; if last table byte read was hi then skip tlrd 1, cmdTblChar ; otherwise fetch upper byte btfsc cmdFlags, CmdByte ; if last table byte read was lo then skip tablrd 0, 1, cmdTblChar ; otherwise fetch lower byte btg cmdFlags, CmdByte ; toggle bit indicating hi or lo byte read goto Adv2Mch ; check new format string char for match ; UnCmd ; end of format string entries was reached without matching the cmd movlw cmdOutBuff ; load start of output buffer movwf cmdOutPtr ; into output pointer ; copy result string into output buffer using FSR0 CpyTbl2Out UnCmdD ; copy in unknown command string return ; return from Cmd ; This is the end of the functions executable code ; ; These data statements store constant ascii output strings in program ; memory. They're accessed using the CpyTbl2Out macro. UnCmdD ; constant string for unknown command data "u1:\nUnknown Command\n\r",0 ; ;********************************************************************** ; Location of lookup table defining all commands available to Cmd org 0x1000 ; hardcode table start address to 1000 hex ;********************************************************************** CmdMenu ; Cmd line menu ;********************************************************************** ; ; All cmd format strings, descriptions and the jumps to the associated ; functions are installed here via directives at the beginning of each ; command functions source file. The following directives are used: ; ; CmdPC = $ ; save current inline assembly PC value ; org CurCmdMenuAdr ; set assembly PC to addr for new entry ; data "CmdFormatString", CmdPC, "CmdDescription" ; CmdMenu table entry ; CurCmdMenuAdr = $ ; set current CmdMenu addr for next entry ; org CmdPC ; begin function code gen at inline address ; ; CmdFormatString - format string defining syntax of command ; CmdDescription - string with < 40 char description of command ; ; CurCmdMenuAdr, the current entry address as each entry is added to ; the table, is initialized to CmdMenu, the beginning of the table, ; early in this file before the command source files are included. ; ; When MPASM assembles the source the first org statement causes the ; strings and function pointer to be placed in the CmdMenu lookup ; table after any previously installed commands, The second org ; returns to the previous program memory address for generation of ; command functions executable code. ; The data statement that defines each entry includes a cmd format ; string, a cmd function pointer and a command description string. ; These three items together comprise one entry in the cmd menu table ; which defines all of the commands available to the cmd processor. ; The table is terminated by a 0 were a format string should start. ; This 0 is added by a data staement following these comments. ; Each format string is comprised of the characters of the cmd, all ; in upper case, and the input parameters of the function indicated ; by the lower case n, x, and s characters. An n indicates a decimal ; integer 0-255, x indicates a hexidecimal integer from 0-FF, and s ; indicates a string parameter comprised of all the remaininng ; characters from the cmd line and a 0 termination. ; The decimal and hex input parameters are converted by Cmd from ascii ; text in the cmd line input buffer into numerical values in the ; parameter buffer were they are available to the command function. ; The format string in each CmdMenu table entry is terminated by a \r ; carriage return character and is automatically padded by MPASM to ; fill whole words. Care must be taken in the ordering of entries ; since some input parameters are supersets of others. ; ; These directives must be used immediately following the label at ; the beginning of the cmd function and prior to any executable code. ; They allow installation at assembly time of an entry into the ; CmdMenu lookup table from any source code location. This permits ; source code for the function, which is executed when the command is ; matched; the format string that the command processor matches the ; command against; and a string describing the command, to all be ; in one source location. Therfore addition of commands to the ; command processor is modular with all necessary source located in ; one file together. Therefore no changes are required to the central ; command processor source code other than including the command file. ; ; Examples of the use of these directives and of receiving input ; parameters from the cmdPrmBuff and generating output strings into ; the cmdOutBuff are given in "stdcmd.asm" the command definition file ; for standard PICos commands. ; ; Add terminating 0 to end of entire command list org CurCmdMenuAdr ; set assembly PC to addr for new entry data 0 ; add table terminating zero ; ;********************************************************************** ; Note: this macro doesn't work since no space or \ are allowed in text ; substitution and are required as part of the format string. ;********************************************************************** InstallCmd macro CmdFormatString, CmdDescription CmdPC = $ ; save current inline assembly PC value org CurCmdMenuAdr ; set assembly PC to addr for new entry data "CmdFormatString", CmdPC, "CmdDescription" ; CmdMenu table entry CurCmdMenuAdr = $ ; set current CmdMenu addr for next entry data 0 ; add table terminating zero org CmdPC ; begin cmd code gen at inline address endm ; end of cmd install macro end ; MPASM stops assembling here
file: /Techref/piclist/andrewspicos/picos.htm, 28KB, , updated: 2000/2/22 15:20, local time: 2024/12/17 21:09,
3.15.142.70:LOG IN
|
©2024 These pages are served without commercial sponsorship. (No popup ads, etc...).Bandwidth abuse increases hosting cost forcing sponsorship or shutdown. This server aggressively defends against automated copying for any reason including offline viewing, duplication, etc... Please respect this requirement and DO NOT RIP THIS SITE. Questions? <A HREF="http://techref.massmind.org/techref/piclist/andrewspicos/picos.htm"> piclist andrewspicos picos</A> |
Did you find what you needed? |
Welcome to massmind.org! |
Welcome to techref.massmind.org! |
.