CA2319965A1 - Scriptor and interpreter - Google Patents

Scriptor and interpreter Download PDF

Info

Publication number
CA2319965A1
CA2319965A1 CA002319965A CA2319965A CA2319965A1 CA 2319965 A1 CA2319965 A1 CA 2319965A1 CA 002319965 A CA002319965 A CA 002319965A CA 2319965 A CA2319965 A CA 2319965A CA 2319965 A1 CA2319965 A1 CA 2319965A1
Authority
CA
Canada
Prior art keywords
command
script
wam
variable
code segment
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
CA002319965A
Other languages
French (fr)
Inventor
Gaspar Hernandez Iii
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nokia of America Corp
Original Assignee
Lucent Technologies Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Lucent Technologies Inc filed Critical Lucent Technologies Inc
Publication of CA2319965A1 publication Critical patent/CA2319965A1/en
Abandoned legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F8/00Arrangements for software engineering
    • G06F8/30Creation or generation of source code
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F8/00Arrangements for software engineering
    • G06F8/40Transformation of program code
    • G06F8/41Compilation
    • G06F8/43Checking; Contextual analysis

Abstract

A scriptor and interpreter are disclosed. The scriptor and interpreter each not only check the syntax of a command in a script, but also that the values for the variables passed as arguments to command are consistent with the values attributed to those variables in preceding portions of the script.

Description

a Hernandez 3 SCRIPTOR AND INTERPRETER
Field Of The Invention The invention is directed toward the field of scriptors and interpreters, and more particularly to a scriptor and an interpreter that check both syntax and whether values for variables have been recited/used consistently throughout the script.
Background Of The Invention A script is a sequence of commands that are to be interpreted, i.e., executed by a program running on a processor, as contrasted with a program that is compiled into machine code of a processor and then directly executed by the processor. Such a programmed processor that interprets a script is typically referred to as an interpreter.
A script can be generated using a text editor. As an alternative, it is known to provide a graphical user interface (GUI) that permits a user to write a script by assembling commands and their arguments from pull-down menus. Such a GUI for scripting is typically referred to as a scriptor.
Scriptors and interpreters that check the syntax of the commands are known.
1 S Such syntax checking is limited to ( 1 ) verifying that command is a valid command, and (2) confirming that a required argument for the command is present.
As an example, a script written in the Wireless Automation Manager Interface Language (WAMIL), that is the subject of a co-pending application, will be considered after a general discussion concerning wireless technology. The general discussion of wireless technology is presented to ensure and appreciation of the context of this script, and others, that will follow.
Large systems often include monitoring systems that permit one or more users to monitor the performance of the system in general, and to specifically monitor the state of one or more parameters of the large system. In some instances, the manner in which the monitoring system delivers information to the user can be a burden.

Hernandez 3 An example of the large system discussed above is a wireless communication network that provides wireless communications service to a wireless unit that is situated within a geographic region. A Mobile Switching Center (MSC) is responsible for, among other things, establishing and maintaining calls between wireless units and calls between a wireless unit and a wireline unit . As such, the MSC interconnects the wireless units within its geographic region with a public switched telephone network (PSTN). The geographic area serviced by the MSC is divided into spatially distinct areas called "cells." In a schematic block diagram, each cell could be schematically represented by one hexagon in a honeycomb pattern.
But, in practice, each cell has an irregular shape that depends on the topography of the terrain surrounding the cell. Typically, each cell contains a base station, which comprises the radios and antennas that the base station uses to communicate with the wireless units in that cell. The base stations also comprise the transmission equipment that the base station uses to communicate with the MSC in the geographic area via communication links. One cell site may sometimes provide coverage for several sectors. Here, cells and sectors are referred to interchangeably.
In a wireless cellular communications system, a base station and a wireless unit communicate voice and/or data over a forward link and a reverse link, wherein the forward link carries communication signals over at least one forward channel from the base station to the wireless unit and the reverse link carries communication signals on at least one reverse channel from the wireless unit to the base station.
There are many dii~erent schemes for determining how wireless units and base stations communicate in a cellular communications system. For example, wireless communications links between the wireless units and the base stations can be defined according to different radio protocols, including time-division multiple access (TDMA), Frequency Division Multiple Access (FDMA), Code Division Multiple Access (CDMA) and others.
Within the geographic region, the MSC switches a call between base stations in real time as the wireless unit moves between cells, referred to as a handoff.
Currently, in FDMA, TDMA, CDMA and GSM, cell site planning to determine the geographic coverage for a cell is a manually intensive task that needs constant adjustment. In planning a cell, the topology of the geographic area and a suitable Hernandez 3 3 antenna site is selected based on availability and zoning rules. Such a selection is typically not optimal but adequate. Drive tests and manually collecting signaling data are then performed mostly on the perimeter of the coverage area. Transmit and receive antennas and power are then adjusted in a manually iterative manner to improve the call quality. Sometimes, frequencies are swapped with neighbor cells and/or transmit power is readjusted to improve the coverage. Over time, the cell site engineers review customer complaints and cell site dropped call reports and again try to manually optimize the RF performance.
Lucent Technologies Inc. has developed a monitoring system that a user can use to change parameters of the wireless communication system as well as to extract data about it. This monitoring system can generate the TIpdunix (TI) interface, the Status Display Page (SDP) interface and/or the AUTOPLEX Recent Change &
Verification Database (APXRCV) interface. These interfaces can be used individually. But typically, information extracted from one of the interfaces is used to make a decision to use a second one of the interfaces in one way or another.
To use an interface, a user must start a discrete process. In a windows-based environment, each interface session has its own window.
Example Script No. 1 follows.
Script No. 1 Line Command O1 WAM:MSC 5 02 WAM:CELL 123 03 WAM:BBA 8 04 WAM:CONNECT TI
OS TI:op:cell 101, BBA 8 06 WAM:DISCONNECT TI
07 WAM:ENDTEST

Hernandez 3 4 In line 2, the variable CELL is set to value 123. Embedded in line 5 is the operations command, op, of the known Tipdunix Interface (TI). The complete embedded command is op:cell 101, BBA 8. It operates on cell 101. But this is different than the value to which the global variable CELL was set in line 2 (namely the value 123). A known scriptor or interpreter would not consider this to be a bug/error in a script. Because this is merely an operations command that retrieves status information, the discrepancy between the value of cell in line 2 and cell identified in line 5 is harmless.
But if the embedded command in line 5 had been a diagnostics command, dgn, this could potentially be a very big problem. No calls can be carried by a cell during the diagnostics procedure. Plus, once diagnostics are initiated, a cell refuses to carry new calls. And, the actual testing procedures cannot begin until all calls (existing at the time that the diagnostics was requested) terminate. The lengths of time it takes for such calls to end varies depending upon the nature of the conversation taking place in those calls.
Only after the diagnostics is over cam the cell take new calls again.
Line 2 of Script No. 1 indicates that the cell intended to be operated upon is 123.
But line 5 inconsistently operates upon a different cell, namely 101. If a person made plans to perform diagnostics on cell 123, then many users would be upset and/or inconvenienced if diagnostics were performed inadvertently on cell 101.
Known scriptors and interpreters cannot identify such inconsistent setting of variable value. Unfortunately, such inconsistencies within a script are relatively common, especially where the script is lengthy or where user has edited an existing script without realizing the need to propagate his change throughout the script.
Scripting languages and their use are not exclusive to wireless technology.
Suppose a script was written in an appropriate language for the banking industry. An analogous error to that discussed above concerning Script No. I would be if line 2 set the value for the variable ACCOUNT to 567 while line 5 transferred money into account 568. The owner of account 568 might be happy, but the owner of account 567 (who was the intended recipient of the transfer, as evidenced by line 2) would be upset at the least.

Hernandez 3 5 Summary Of The Invention The invention is, in part, a recognition of the need to check not only the syntax of commands in a script, but also the need to check for the consistent use of variables throughout a script. The invention, among other things, solves the problems identified S by the inventor to exist in the Background Art.
The invention, in part, provides a method (and the associated program and programmed device) for processing an at least partially-completed script having at least one command, wherein the method checks syntax and argument consistency. Such a method comprises: a) providing a current command to be evaluated from the script, the.
command having a current argument; b) generating an ideal command from a set of permissible commands, the ideal command having a ideal argument that is consistent with preexisting values of variables identified in the script; c) comparing the current command against the ideal command; d) returning, if the step c) results in a match, to the step a) using a second command from the script; and e) repeating, if the step c) does not result in a match, the steps b) and c) for additional ideal commands until a match is found or until the set of permissible commands has been exhausted. Also, such a method can additionally include: f) returning, if a match is found via the step e), to the step a) using a second command from the script.
The invention also, in part, provides a method (and the associated program and apparatus) of editing a script having a sequence of commands. Such a method comprises: a) providing a script; b) selecting a command to be edited from the script, the selected command having an associated argument that sets the value of a variable;
c) updating the associated argument of the selected command to change the value of the variable; wherein the script includes a second command that has a defined argument that corresponds to the variable but that which does not equal the updated value of the variable; and d) regenerating the script to update the defined argument to equal the updated value of the variable.
The invention also, in part, provides, a method (and the associated program and apparatus) of interpreting each command in a script having a sequence thereof written in a high-level scripting language, wherein the method checks syntax and argument consistency. Such a method comprises: a) providing a current command Hernandez 3 6 to be evaluated from the script, the command having a current argument; b) generating an ideal command from a set of permissible commands, the ideal command having a ideal argument that is consistent with preexisting values of variables identified in the script; c) comparing the current command against the ideal command; d) executing, if the step c) results in a match, the current command;
e) returning, if the step c) results in a match, to the step a) using a second command from the script; f) repeating, if the step c) does not result in a match, the steps b) and c) for additional ideal commands until a match is found or until the set of permissible commands has been exhausted; and g) executing, if a match is found via the step f), the current command. Such a method can also include: h) returning, if a match is found via the step fJ, to the step a) using a second command from the script.
The foregoing and other objectives of the present invention will become more apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
Brief Description Of Drawings The present invention will become more fially understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus do not limit the present invention.
Fig. 1 is a flow chart generally depicting the process steps carried out by an embodiment of the interpreter according to the invention;
Figs 2A and 2B constitute a flow chart depicting the steps carried out to perform syntax and variable value consistency checking by an embodiment of the scriptor and an embodiment of the interpreter according to the invention;
Fig. 3 is a flow chart depicting steps taken by an embodiment of scriptor according to the invention to prorogate changes throughout an existing script;
and Hernandez 3 7 Fig. 4 is a schematic depiction of a hardware embodiment of the .scriptor and/or interpreter according to the invention.
Detailed Description Of Preferred Embodiments A scriptor and/or interpreter according to the invention is preferably implemented as in the example schematic depiction of Fig. 4, which takes the form of a programmed system 400 that includes a processor 402, a video display device (VDD) 406, a user input device 408 such as a mouse and/or keyboard and a memory device 404. The memory 404 stores one or more programs or scripts that cause the processor 402 to generate the scriptor and/or interpreter according to the invention.
Embodiments of the invention, for example, have been written in two languages, the Tool Command Language (TCL) and C.
The computer-readable memory 404 can include RAM, ROM, a fixed hard disk drive, and/or a removable storage medium for a non-fixed disk drive such as a floppy disk or a CDROM. The program which causes the processor 402 to generate 1 S the scriptor and/or interpreter according to the invention can be downloaded to the processor 402 from a remote host 410 over an optional connection 412. As the program is downloaded through the optional connection 412, the computer-readable medium in which the program is embodied takes the form of a propagated signal.
Generation of the scriptor and/or interpreter according to the invention involves many sorting and comparison operations as well as accesses to look-up tables (LUTs). As such, the processor 404 should be of sufficient processing power to assure reasonably quick results. Examples of adequate processors are those from the Pentium family of processors marketed by Intel Inc.
The scriptor and interpreter according to the invention can be tailored to work with a great many languages. They are especially well-suited to the Wireless Automation Manager Interface language (WAMIL) that is the subject of a first co-pending application. WAMIL language includes commands, if construct elements and while-construct elements. A WAMIL command has the format of "interface:command," e.g., "TI:OP:CELL ARGUMENT," "WAM:CONNECT
SDP," or "WAM:GETSDP." In other words, a WAMIL command has a first field Hernandez 3 8 that identifies an interface and a second field that identifies a command. The first field actually identifies the interface in which the command of the second field is valid. Preferably, the first field precedes, or is a header for, the second field and is separated by an alphanumeric character such as a colon.
The embodiment of the WAMIL language discussed here is a specific embodiment of the Wireless Automation Manager Interface Language (WAMIL). It is noted that many variations of the WAMIL language, having different combinations of commands, IF-construct elements and (optionally) WHILE-construct elements, could embody the scripting language for which the scriptor and interpreter according to the invention can be tailored to work.
Details of the WAMIL language are contained in the first co-pending U.S.
patent application, entitled "Multiple Interface Scripting Language," by the same inventor, Gaspar Hernandez, III, filed on the same date, , that is assigned to the same assignee, Lucent Technologies Inc. The entire contents of this first co-pending application are hereby incorporated by reference.
One of the commands listed in the first copending application is the "GETSDP" command. Details of this command can be found in a second copending U. S. patent application, entitled "Technology to Translate Non-Text Display Generation Data Representing An Indicator Into Text Variables," by the same inventor, Gaspar Hernandez, III, filed on the same date, , that is assigned to the same assignee, Lucent Technologies Inc. The entire contents of this second copending application are hereby incorporated by reference.
Details of a preferred context in which to use scripts written in the WAMIL
language are contained in a third co-pending application, entitled "Liaison Interface,"
by the same inventor, Gaspar Hernandez, III, filed on the same date, , that is assigned to the same assignee, Lucent Technologies Inc. The entire contents of this third co-pending application are hereby incorporated by reference.
The interpreter according to the invention can be executed from a command line or by way of a graphical user interface (GUI). Details of a graphical user interface (GUI) to ease the burden on a user represented by command line execution Hernandez 3 9 are contained in a fourth co-pending application, entitled "Command Line Generator," by the same inventor, Gaspar Hernandez, III, filed on the same date, that is assigned to the same assignee, Lucent Technologies Inc. The entire contents of this fourth copending application are hereby incorporated by reference.
WAMIL Scriptor Interface Process Requirements The WAMIL (Wireless Automation Manager Interface Language) scriptor interface allows a user to generate WAMIL test scripts which can be saved and then executed as automated test scripts. The WAMIL test scripts can be generated, e.g., via WAMIL commands selected from a graphical scriptor Interface pull down menus.
WAMIL Script Generation Process To create a new WAMIL test script, a user simply selects the desired WAMIL
commands from the WAMI scriptor interface pull down menus, one at a time, and then upon completion, saves the completed script in the user's home directory, or WAMT
SHARE sub-directory, or anywhere else under a specified filename which is entered by the user in the WAMIL script text entry box. As WAMIL commands are selected from the pull down menus, they are added to the TEST SCRIPT list box, in sequential order.
Each time a WAMIL command is added to the TEST SCRIPT list box, a unique line number appears before the command. To save the completed WAMIL script, the user then simply selects the save WAMIL script command button.
All WAMIL scripts created by a user should (in this WAMIL embodiment) have the extension wamil. For example a WAMII. script file called jt1242 will be saved asjtl242.wamil. Scriptor automatically adds the extension, ".wamil".
The WAMIL scriptor interface pull down menus support all, APX, SDP, WAM, and TI interface commands. Each pull down menu allows a user to select and configure a specific WAMIL command.

Hernandez 3 10 WAMIL Script Example An example, WAMIL script follows.

Line Command O1 WAM:INITIALIZE

02 WAM:PRINT Test Case:
jt1242 03 WAM:DATE

04 WAM:TIME

OS WAM:MSC 5 06 WAM:CELL 101 07 WAM:CCC 23 08 WAM: GETAPX backup ce112 09 WANT: PUTAPX cells jt1242 WAM: EXEC SHARE initscript 11 WAM:CONNECT TI

12 IF: LFAIL

13 THENDO:

14 WAM:ENDTEST

ELSDO:

16 ENDIF:

17 TI:OP:CELL 101, ccc 18 IF: COMPLETED

19 THEN:CONTIN-UE

ELSI:WAITQUERY 10 TI

21 IF:OMSG:CCC 23 ACTIVE

23 WAM:EXEC SHARE

- Hernandez 3 11 24 ELSEDO:
25 WAM:PUTAPX cell2 backup 26 ENDIF:
27 WAM:ENDTEST
In line 1, the WAMIL, script will first initialize all the WAMI variables to their initial states. The script will then print (line 2) the text, Test Case:
jt1242 to the WAMIL script report file, print (lines 3-4) the date and time to the report file, set (lines 5-7) the mobile switching center variable, MSC, to 5, the cell variable, CELL, to 101, and the variable, CCC to 23.
Next, the WAMIL script will save (line 8) the MSC 5, cell 101 cell2 DB forms in the user's home output sub-directory under the master DB filename, backup, and then (in line 9) restore (download) a new version of the cell2 DB form via the APXRCV
interface, from the user's home output sub-directory, using the master DB file jtl2-I2.
The script will then execute (line 10) the WAMIL, script initscript, which is located in the WAMI SHARE wam.wamil sub-directory. Upon completion of the WAMIL initscript execution, the WAMIL script will then attempt (line 11 ) to connect to the TI interface. If the attempt is successful, the script will continue (line 17) to the next WAMIL command. If the attempt is unsuccessful, the script will end the test at line 14.
Once a connection to the TI interface is established, the WAMIL script will execute (line 17) the TI op: cell lOl, ccc 23 command, and wait for a response. If a COMPLETED output message is received from the TI interface, the script will continue (line 19) to the next WAMIL command. If the COMPLETED output message is not received, the script will (line 20) wait 10 seconds and query the TI interface for an output message up to 5 times. The WAMIL script will continue to query the TI
interface every 10 seconds up to 5 times until a COMPLETED output message is received, or the amount of times has been reached.

Hernandez 3 12 When the COMPLETED output message is received, the WAMIL .script will then test (line 21) the output message to determine if CCC 23 is ACTIVE. If the CCC is ACTIVE, the script will execute (line 23) the WAMIL script jtl2;t3, located in the WAMI SHARE wam.wamil sub-directory, and then end (line 27) the test. If the CC
is not ACTIVE, the script will restore (line 25) the ce112 DB form, saved at the beginning of the script, from the master DB file backup, and then end (line 27) the test.
Check WAMIL Script Syntax and Variable Consistency Function A user can check the syntax of a WAMIL script currently loaded into the SCRIPTOR TEST SCRIPT list box at any time. Although scripts generated from the WAMIL scriptor interface pull down menus are syntax error free, this feature exists as a function for users who have inserted specific WAMTL commands through the use of the WAMIL scriptor interface command insertion feature.
To check the syntax and variable consistency of the currently loaded script, the user simply selects the Check Script syntax command button and the Wireless 1 S Automation Manager (WAM) interpreter (WAMI) will check the syntax of every line in the script for any errors which would cause an abort or failure of the script during execution.
If a syntax error is found in the script, the WAMI will display an appropriate error message that includes of the script line number, and WAMIL, command, in which the syntax error was found.
A syntax error check by the WAM interpreter also includes verification that a script includes key WAMIL commands needed for successful execution. For example, WAMIL commands in which the MSC and cell number are set must (for this particular embodiment of WAMIL) be included in a WAMIL script, otherwise the interpreter will assume the current cell, or MSC number, defined in the WAMI is the value used to expand a specific interface command. Thus, if the cell number in an interface command differs from the current cell number defined in the WAMI, a syntax error will occur. In other words, the interpreter, and also the scriptor, check both syntax and variable values consistency, i.e., the use/recitation of variables in the script in a consistent manner.

_ Hernandez 3 13 The syntax and variable values consistency check will be discussed in more detail later.
Select WAMIL Command Function A user can select and edit any WAMIL, command from the currently loaded WAMIL script in the SCRIPTOR TEST SCRIPT list box. To edit a WAMIL command, a user simply double-clicks on a command and the command is displayed in the Current Command selected text entry box. The user can then edit the command as desired and replace the selected command with the new edited command.
If the newly edited command has a syntax error, the WAMI will display an error message showing an explanation of the error, and the selected command in the TEST
SCRIPT list box will not be replaced.
The WAMIL scriptor interface can allow only existing commands to be replaced with the same type command. The WAMIL scriptor interface will not allow a user to replace an existing command with a different type edited command.
WAM Interpreter Process Requirements Fig. 1 is a flow chart generally depicting the process steps carried out by an embodiment of the interpreter according to the invention.
The WAM interpreter will start at step 102 of Fig. 1 and then will read in a WAMIL command from a WAMIL script file at step 104. A WAMIL script file will preferably have the extension .wamil added to the filename. For example, a script file called jt1242 will be saved with the filename jt1242.wamil. all (for this particular embodiment of WAMIL) WAMIL script files generated by a user will preferably be stored under the WAMI wam.wamil user sub-directory (known as Home to WAMI) or can be saved anywhere else.
A WAMIL line will include a WAMIL command such as an interface command or an element of an if construct or while-construct. The interpreter reads and executes one WAMIL command at a time, from a WAMIL script file.

Hernandez 3 14 At step 106, if the command is an interface command rather than an element of an if construct, it is determined if the interface corresponding to the command is supported. If not, flow proceeds to step 108, where the script is aborted.
Then, flow proceeds to step 110, where the user is notified or warned that the script has been aborted and to the end step 112. But if the interface is supported, flow proceeds to step 114.
At step 114, the syntax, as well as variable consistency, are checked. If incorrect, then flow proceeds to step 108, etc. But, if the syntax and variable values are correct, and the command is recognized as a WAMI interface command at decision step 116, or is not recognized as an if construct element at decision step 126 thereby impliedly determining the command to be an interface command for a non-WAMI
interface, then the WAM interpreter will send the corresponding command to the interface at steps 130 and 132, respectively, and wait for its execution to be completed (at which point flow proceeds to step 120). The WAM interpreter will support WAMIL
commands for at least the following interfaces: TI Interface (The TIpdunix Interface);
SDP Interface (The Status Display Page Interface); APX Interface (The APXRC~
Interface); and WAMI Interface (internal WAM platform commands).
Again, if the interface command syntax and variable values consistency is invalid at step 114, or the interface is not supported at step 106, the WAM
interpreter will abort the script at step 108 and notify the user at step 110 of the WAMII. script line number where the syntax, or interface error, occurred.
Upon the execution of the WAMIL interface command at step 132, the interpreter's OutBuff buffer will hold the interface output from the interface session. The contents of the OutBuff will remain unchanged until another TI, SDP, or APX
WAMIL
command is executed, or a WAM platform command to flush the buffer is executed.
Prior to the execution of any (in this WAMIL embodiment) TI, SDP, or APX WAMIL
command, the OutBuff is always flushed.
Upon successful execution of the WAMIL command, OutBuff is then processed as follows: a) If the next WAMIL command to be executed (at step 132) is also a TI, or SDP, command, OutBuff is flushed at step 130; b) If the next WAMIL command to be executed is a WAM platform command, other than a WAM platform command to Hernandez 3 15 flush the buffer (as determined at step 116), the WAM command is executed and OutBuff remains unchanged; and c) If the next WAMIL command to be executed is a WAMIL IF command construct (as determined at step 126), the contents of OutBuff are processed (at step 128).
Upon completion of the WAMIL script, the WAM interpreter preferably always does the following (at step 124): a) Close all WAMI interface connections which have been opened during the WAMIL script execution; b) Finish appending any data to the WAMII, I/O log file for the script, and close and save the file as the script report; c) Finish appending any log data to an OutBuf~ redirection file, if one has been created for the script, and close the file; and d) Flush OutBuff.
Once the WAMIL script has been completed (as determined by step 120), the WAMI will return to its idle state, unless a series of WAMIL scripts have been linked together for execution (as determined at step 122), at which point the WAM
interpreter will start the execution of the next WAMMII, script in the linked list.
WAM Interface Language (WAMIL) Requirements This section reiterates the WAMII, (WAM Interface Language) command structure and syntax.
The format of a WAMIL interface command shall be as follows:
TI:op:cell, generic The text string, TI, denotes the interface to which the command corresponds, and the remaining syntax after the colon is the specific embedded interface command.
The WAMI will support an interface language at least for each of the following interfaces: the TI Interface (TIpdunix Interface); the Status Display Page (SDP) interface; the APX Interface (APXRCV Interface); and the WAMI Interface (internal WAMI platform commands).

Hernandez 3 16 WAMIL TI Interface Commands Requirements A WAMIL TI interface command shall be structured as follows:
Tl:op:cell, generic The WAM interpreter supports all TIpdunix related TI commands. The TI
commands shall be generated per user configuration settings. For example, if a user has selected cell 93 and CCC 2, or set these parameters via WAMI platform commands, then the command op: cell x, ccc y is generated as follows:
TI:op:cell 93, ccc 2 WAMI Platform Interface Commands Requirements This section describes the WAMI platform interface commands which can be used in WAMIL scripts to change script variables, input/output parameters, and scrip looping techniques.
A WAMI platform interface command shall be structured as follows:
WAM:CELL 93 Where CELL is and example WAMI interface command and the value of 93 is an example of the command argument. The WAM interpreter shall support all WAMI
platform interface commands for any (in this WAMIL embodiment) existing WAM
variable, input/output process, file selection process, and data redirection process.
The following is a list of WAM interface commands:
WAM COMMAND: PURPOSE:
WAM:ADDCE value Changes the WAM global number of channel elements to add variable, ADDCE, to the value provided as an argument.
WAM:ADRS value Changes the WAM global memory address number variable, ADRS, to the value provided as an argument.

Hernandez 3 17 WAM:ANT value Changes the WAM global antenna face variable, ANT, to the value provided as an argument.

WAM:ANTVAR Declares to the WAM Interpreter, that a value for the WAM VAR variable ANTVAR will be supplied to the script.

WAM:APXVAR Declares to the WAM Interpreter, that a value or string for the WAM VAR variable APXVAR
will be promptstring supplied to the script.

WAM:AU value Changes the WAM global cell amplifier unit number variable, AU, to the value provided as an argument.

WAM:BBA value Changes the WAM global BCR-BIU-ACU trio variable, BBA, to the value provided as an argument.

WAM:BBALIST value Declares to the WAM Interpreter, that a list of WAM

VARn BBA numbers will be supplied to the script.

WAM:BBAVAR Declares to the WAM Interpreter, that a value for the WAM VAR variable BBAVAR will be supplied to the script.
WAM:BBAVARn Instructs the WAM interpreter to set the WAM global BBA variable to the value of the referenced WAM
VARn BBA variable, in position n, of the BBA List passed as an argument.
WAM:CAT value Changes the WAM global clock and tone board number variable, CAT, to the value provided as an argument.
WAM:CATLIST value Declares to the WAM Interpreter, that a list of WAM
VARn CAT numbers will be supplied to the script.
WAM:CARVARn Instructs the WAM interpreter to set the WAM global CAT variable to the value of the referenced WAM
VARn CAT variable, in position n, of the CAT List passed as an argument.
WAM:CCC value Changes the WAM global CDMA Cluster Controller number variable, CCC, to the value provided as an argument.
WAM:CCCLIST value Declares to the WAM Interpreter, that a list of WAM
VARn CCC numbers will be supplied to the script.
WAM:CCCVAR Declares to the WAM Interpreter, that a value for the WAM VAR variable CCCVAR will be supplied to the script.

Hernandez 3 18 WAM:CCCVARn Instructs the WAM interpreter to set the WAM global CCC variable to the value of the referenced WAM
VARn CCC variable, in position n, of the CCC List passed as an argument.
WAM:CCU value Changes the WAM global CDMA Channel Unit number variable, CCU, to the value provided as an argument.
WAM:CCULIST value Declares to the WAM Interpreter, that a list of WAM
VARn CCU numbers will be supplied to the script.
WAM:CCUVAR Declares to the WAM Interpreter, that a value for the WAM VAR variable CCUVAR will be supplied to the script.
WAM:CCUVARn Instructs the WAM interpreter to set the WAM global CCU variable to the value of the referenced WAM
VARn CCU variable, in position n, of the CCU List passed as an argument.
WAM:CDMADPC value Changes the WAM global BCR-BIU-ACU power control option number variable, CDMADPC, to the value provided as an argument.
WAM:CE value Changes the WAM global Channel Element number variable, CE, to the value provided as an argument.
WAM:CELL value Changes the WAM global cell number variable, CELL, to the value provided as an argument.
WAM:CELLVAR Declares to the WAM Interpreter, that a value for the WAM VAR variable CELLVAR will be supplied to the script.
WAM:CGSA value Changes the WAM global cellular geographic service area number variable, CGSA, to the value provided as an argument.
WAM:CLOSE filename Causes the WAM Interpreter to stop saving OutBuff to the filename provided as an argument, and close the file.
WAM:COMMENT string Adds a comment line to the WAMIL script..
WAM:CONFIG value Changes the WAM global cell configuration option number variable, CONFIG, to the value provided as an argument.

Hernandez 3 19 WAM:CONNECT interface Instructs the WAM Interpreter to create a new VAR
variable provided by the argument WAM:CREATEVAR Instructs the WAM Interpreter to create a new VAR
variable provided by the argument newvarname.
rtew varttame WAM:CSC vahre Changes the WAM global cell site controller variable, CSC, to the value provided as an argument.
WAM:CSCVAR Declares to the WAM Interpreter, that a value for the WAM VAR variable CSCVAR will be supplied to the script.
WAM:DATE Prints the current system date in the WAMIL report file.
WAM:DCCH value Changes the WAM global dedicated/digital control channel number variable, DCCH, to the value provided as an argument.

WAM:DCS value Changes the WAM global digital cellular switch number variable, DCS, to the value provided as an argument.

WAM:DECR Instructs the WAM Interpreter to decrement the WAM

global variable provided, by the value given.

globalvariable value WAM:DECRVAR The DECRVAR command instructs the WAM

Interpreter to decrement the WAM VAR
variable varvariable value provided as an argument by the value given.

WAM:DELCE value Changes the WAM global number of channel elements to delete variable, DELCE, to the value provided as an argument.

WAM:DISCONNECT Instructs the WAM Interpreter to disconnect from the interface given, and terminate all (for this particular interface embodiment of WAMIL) its associated processes.

WAM:DISPLAY seconds Instructs the WAM Interpreter to open an xterm window which allows a user to monitor the WAMIL

script progress.

WAM:DL value Changes the WAM global cell site data link number variable, DL, to the value provided as an argument.

WAM:DSI value Changes the WAM global digital service 1 variable, DS 1, to the value provided as an argument.

Hernandez 3 20 WAM:ECP value Changes the WAM global executive cellular processor number variable, ECP, to the value provided as an argument.

WAM:EMAIL .string Instructs the WAM Interpreter to email the .string provided as an argument to the user.

WAM:EMAILRPT Instructs the WAM Interpreter to email the entire WAMIL report file to the user after the script execution has been completed or terminated.

WAM:ENDTEST Instructs the WAM Interpreter to terminate the WAMIL script.

WAM:EXEC Instructs the WAM Interpreter to execute the WAMIL

script provided as an argument.

path wamilscript WAM:FLUSHBUFF Instructs the WAM Interpreter to flush OutBuf~.

WAM:FLUSHIP Instructs the WAM Interpreter to flush OutBuf~up to the next incoming IP output message of the TI

interface messages.

WAM:FLUSHTAGS Instructs the WAM Interpreter to flush the internal TAGS FIFO buffer.

WAM:GEN value Changes the WAM global generic load number variable, GEN, to the value provided as an argument.

WAM:GENVAR Declares to the WAM Interpreter, that a value for the WAM VAR variable GENVAR will be supplied to the scnpt.
WAM:GETAPX Instructs the WAM Interpreter to save the APXRCV
DB form provided as an argument.
dbformname dbfrlename WAM:GETAPXFLD Instructs the WAM Interpreter to get the APXRCV
DB form field name, provided as an argument, and set dbformname dbfrlename the WAMI VAR variable APXVAR to the field value.
WAM:GETCELLS Instructs the WAM Interpreter to retrieve all (for this particular embodiment of WAMIL) the cell numbers for the current MSC.
WAM:GETGEN Instructs the WAM Interpreter to retrieve the generic value for the current cell number and set the WAM
global variable GEN to that value.

Hernandez 3 21 WAM:GETLISTVAR Instructs the WAM Interpreter to assign the WAM
VARn List, varlistname, variable value, in the position varvariable varlisname index indicated by the argument index, to the WAM VAR
variable varvariable WAM:GETROP range pattern Instructs the WAM Interpreter to retrieve all (for this particular embodiment of WAMIL) the ROP
information specified by the arguments.
WAM:GETSDP indicatorname Retrieves an indicator STATE, COLOR, and VALUE
from the current SDP in the WAMI OutBuff for the WAMI global variable associated with the indicator name, SDPVAR, provided as an argument.
WAM:GET_1 Instructs the WAM Interpreter to assign to varvariable the value located in position index relative varvariable index to the string provided.
string WAM:INCR Instructs the WAM Interpreter to increment the WAM

global variable provided, by the value given.

globalvariable value WAM:INCRVAR The INCRVAR command instructs the WAM

Interpreter to increment the WAM VAR
variable varvariable value provided as an argument by the value given.

WAM:INITIALIZE Sets all (for this particular embodiment of WAMIL) WAM global variables to an initial state.

WAM:INPUT filename Replaces the WAM Interpreter OutBu~with the contents of filename.

WAM:LAC value Changes the WAM global linear amplifier circuit number variable, LAC, to the value provided as an argument.
WAM:LAUNCH Instructs the WAM Interpreter to launch the WAMIL
script provided as argument.
path wamilscript -switch...
WAM:LC value Changes the WAM global locate radio number variable, LC, to the value provided as an argument.
WAM:LMT valve Changes the WAM global lightwave microcell transceiver number variable, LMT, to the value provided as an argument.
WAM:LOOPCELL cells... Instructs the WAM Interpreter to execute the entire WAMIL script once per cell number provided in the command arguments.

Hernandez 3 22 WAM:LOOPCELLVAR Instructs the WAM Interpreter to execute the. entire WAMIL script once per cell number supplied to the script.
WAM:MATHVAR Causes the WAM Interpreter to perform simple mathematics, per the type of operator provided, on the varvariable operator value ~y~I VAR variable provided by the argument varvariable.
WAM:MICROCELL value Changes the WAM global rcs number variable, MICROCELL, to the value provided as an argument.
WAM:MSC value Changes the WAM Interpreter global mobile switching center number variable, MSC, to the value provided as an argument.
WAM:MSCVAR Declares to the WAM Interpreter, that a value for the WAM VAR variable MSCVAR will be supplied to the script.
WAM:OC value Changes the WAM global overhead channel number variable, OC, to the value provided as an argument.
WAM:OPEN filename Instructs the WAM Interpreter to open a file to which OutBuff will be saved.
WAM:OUTPUT frlename Instructs the WAM Interpreter to append OutBufh to the file specified.

WAM:OUTPUTOFF Causes the WAM Interpreter to not generate any (in this WAMII. embodiment) output messages to the script WAMIL report file for all (for this particular embodiment of WAMIL) general WAM Interpreter commands executed within the script.

WAM:OUTPUTON Causes the WAM Interpreter to generate all (for this particular embodiment of WAMIL) output messages to the script WAMIL, report file for all (for this particular embodiment of WAMIL) WAM
Interpreter commands executed within the script.

WAM:PAUSE string Instructs the WAM Interpreter to stop execution of the WAMIL script and prompt the user for continuation or termination.

WAM:PH value Changes the WAM global phase number variable, PH, to the value provided as an argument.

WAM:PL value Changes the WAM global pilot level number variable, PL, to the value provided as an argument.

Hernandez 3 23 WAM:PRINT string Instructs the WAM Interpreter to print the string provided in the script WAMIL report file.

WAM:PUTAPX Instructs the WAM Interpreter to replace the APXRCV DB form, provided as an argument, with the dbformname dbfilerzameDB filename provided.

WAM:PUTAPXFLD Instructs the WAM Interpreter to replace the APXRCV DB form field name, provided as an dbformname dbfilenameargument, with the current value of the WAM VAR

variable APXVAR.

WAM:PUTS Instructs the WAM Interpreter to append the .string provided to the filename located at path.

path filename string WAM:RA value Changes the WAM global radio number variable, RA, to the value provided as an argument.

WAM:RALIST value Declares to the WAM Interpreter, that a list of WAM

VARn RA numbers will be supplied to the script.

WAM:RAVAR Declares to the WAM Interpreter, that a value for the WAM VAR variable RAVAR will be supplied to the script.
WAM:RAVARn Instructs the WAM Interpreter to set the WAM global RA variable to the value of the referenced WAM
VARn RA variable, in position n, of the RA List passed as an argument.
WAM:REPORT string Instructs the WAM Interpreter to name the script WAMIL report file as the string provided as an argument.
WAM:RESTOREWAM Restores all (for this particular embodiment of WAMIL) WAM Interpreter variables, flags, and states to the values and states saved by the previous execution of the SAVEWAM command.
WAM:RG value Changes the WAM global reference generator number variable, RG, to the value provided as an argument.
WAM:RPT valve Changes the WAM global diagnostics repeat number variable, RPT, to the value provided as an argument.
WAM:SAVEWAM Saves all (for this particular embodiment of WAMIL) current WAM Interpreter variables, flags, and states.
WAM: SEND interface string Instructs the WAM Interpreter to send string to the interface provided as an argument.

Hernandez 3 24 WAM: SET Instructs the WAM Interpreter to assign the value given to the WAM global variable, globalvariable, and globalcariable enable an association if value references value a WAM VAR

variable.

WAM:SETLISTVAR The SETLISTVAR command instructs the WAM

Interpreter to assign the values of varlist2 to varlistl.

varlistl varlist2 WAM: SETVAR The SETVAR command instructs the WAM

Interpreter to assign the value provided as an varvariable value argument to the WAM VAR variable, varvariable.

WAM: SG value Changes the WAM global server group number variable, SG, to the value provided as an argument.

WAM:SPOOL seconds Changes the WAM Interpreter spooler input pause to the time provided, in seconds.

WAM: SU value Changes the WAM global setup radio number variable, SU, to the value provided as an argument.

WAM:SW value Changes the WAM global switch identification number variable, SW, to the value provided as an argument.

WAM:TIME Prints the current system time in the script WAMIL

report file.

WAM:TIMEOUT seconds Changes the WAM Interpreter overall time out variable, TimeOut, to the value provided as an argument.

WAM:TIMER action Instructs the WAM Interpreter to perform a specified internal timer action, and update the TIMER variable accordingly.

WAM:TP value Changes the WAM global traffic path number variable, TP, to the value provided as an argument.

WAM:TRACE options Activates the WAM Interpreter TRACE
feature specified by the TRACE options.

WAM:TRACEOFF Stops output to the WAMI TRACE xterm window.

WAM:TRACEON ~ Starts output to the WAMI TRACE xterm window.

WAM:TRKGRP value Changes the WAM global trunk group number variable, TRKGRP, to the value provided as an argument.

Hernandez 3 25 WAM:TRKMBR value Changes the WAM global trunk member number variable, TRKMBR, to the value provided as an argument.

WAM:LJNIX command Instructs the WAM Interpreter to execute the command provided as a UNIX executable program.

WAM: VRADPC value Changes the WAM global voice radio power control option number variable, VRADPC, to the value provided as an argument.

WAM:VRN value Changes the WAM global voice radio number variable, VRN, to the value provided as an argument.

WAM:WAIT seconds Instructs the WAM Interpreter to wait a specified number of seconds before execution of the next WAMIL script command.

WAM:WAM string Changes the Interpreter global variable WAM value, WAM, to the value provided as an argument.

WAM:WAMLIST string Declares to the WAM Interpreter that a list of values will be supplied to the script.

WAM:WAMVAR Declares to the WAM Interpreter, that a value or promptstring string for the WAM VAR variable WAMVAR
will be supplied to the script.

WAM:WAMVARn Instructs the WAM interpreter to set the global variable WAM to the value of the referenced WAM

VARn WAM variable, in position n, of the WAM List passed as an argument.

WAM: W1VPVII Instructs the WAM Interpreter to generate paging messages to specified mobile units at a specified rate.

start stop rate mobiles message WAM:WMIVII GET Instructs the WAM Interpreter to get the WN11~II

project parameter value, defined by the argument wmmiparameter varvariablewmmiparameter, and place the value in the WAM

VAR variable, varvariable.

WAM:WNiNII_SEND Instructs the WAM Interpreter to send the specified WNINII command to the active WNiNII
project.

wmmicommand value WAM:VV~VII STOP Instructs the WAM Interpreter to terminate -- the active WNINII pagging project.

Hernandez 3 26 WAM:XMITC valise Changes the WAM global transmitter control action option number variable, XMITC, to the value provided as,an argument.
WAMI Variables Initial States This section lists and describes all (for this particular embodiment of WAMIL) the predefined WAMI variables that exist on the platform, and their initial states upon an initial start-up of the WAM. These variables are also returned to their initial states upon the execution of a WAM:INITIALIZE WAMIL command.
The following is a brief listing of the name, value, and description of WAM
variables:
Table 1, WAM Global Variables VARIABLE DEFAULT TYPE DESCRIPTION
VALUE

AD~CE o IntegerNumber of Channel Elements to add.

ADRS NULL String Memory Address AFAIL 0 IntegerppXRCV failure flag ANT o IntegerAntenna face Number AU I IntegerCell Amplifier Unit Number BBA I IntegerBCR-BIU-ACU Trio Number CAT o IntegerClock and Tone Board Number CCC I IntegerCDMA Cluster Controller Number CCU I IntegerCDMA Channel Unit Number CDMADPC o IntegerBBA Power Control Option CELL o IntegerCell Site Number CELL TYPE SERIESII string Cell Site Equipment Type CFAtL o IntegerInterface Connection Flag Hernandez 3 27 CGSA o IntegerCellular Geographic Service Area CONFIG 0 IntegerCell Configuration Option CSC o IntegerCell Site Controller DCCH o integerDedicated/Digital Control Channel DCS o IntegerDigital Cellular Switch Number DisplayDelay1 IntegerScript Display Window Delay DL o IntegerCell Site Data Link DS1 o IntegerDigital Service 1 Number ECP o IntegerExecutive Cellular Processor Number ERR o IntegerWAM Interpreter exit value GEN o String Generic Number/Name INACT 60 IntegerInterface Session Inactivity (Minutes) LAC 0 IntegerCell Linear Amplifier Circuit Number LC 0 IntegerCell Locate Radio Number LFAIL 0 IntegerInterface Login Flag LMT o IntegerLightwave Microcell Transceiver Number LOOPERcnt I IntegerWpMI script looping counter LOOPER 1 IntegerWpMI script looping limit MICROCELL 0 IntegerFLEXANT RCS Number MSC o IntegerMobile Switching Center Number OC o IntegerOverhead Channel Number PH o String TI Specified Phase Numbers) PL o IntegerPilot Level Number RA o String Cell Radio Number REL s.0 String Current software release RG o IntegerCell Reference Generator Number Hernandez 3 28 RPT o IntegerTI Repeat Diagnostics Number RptName None String Script Report Name SDPFAIL o IntegerSDP interface failure flag SDPPORT o IntegerSDP port flag SG o integerServer Group Number SPOOL 1o IntegerWAMI Spooler Pause (Seconds) SU o IntegerCell Setup Radio Number Sw o IntegerSwitch Identification Number TFAIL o IntegerInterface Command Time Out Flag TimeOut 30 IntegerW~ Interface Time Out (Seconds) TP o IntegerTraffic Path Number TRACE 0 IntegerWpNjI 'fI~CE Flag TRKGRP 0 IntegerTrunk Group Number TRKNBR o IntegerTrunk Member Number vRADPC o IntegerVoice Radio Power Control Option VRN o IntegerVoice Radio Number Wait to IntegerWpMI Script Execution Pause (Seconds) WAM o String WAM Interpreter global variable XMITC o IntegerTransmitter Control Action Option WAMIL IF' THEN ELSE Type of If Construct Requirements This section describes the WAMIL IF test expressions which can be used in an IF THEN ELSE Type of if construct to test the results of a WAMIL interface command S that have been stored in the buffer OutBuff, and execute a specified WAMIL
command if the test result is true, or false.

Hernandez 3 29 An example WAMIL IF THEN ELSE type of if construct is structured as follows:
IF:GENERIC a34y12.Ot THEN:PRINT Pass ELSE: CONTINUE
Here, GENERIC a34y12.Ot is the actual WAMIL test expression, PRINT is the WAMIL command (for which the text string "Pass" is the argument to be printed) that is executed if the results of the test are true, and CONTIN-UE is the WAMIL
command executed if the results of the test are false. all (for this particular embodiment of WAMIL) WAMIL IF THEN ELSE constructs must (for this particular embodiment of WAMIL) be complete, and include an IF, and at a minimum a THEN and an ELSE.
The WAM interpreter preferably will not accept incomplete IF THEN ELSE constructs.
Any (in this WAMIL embodiment) incomplete IF THEN ELSE construct will preferably generate a syntax error from the WAM interpreter.
The WAM interpreter supports IF test expressions for all (for this particular embodiment of WAMIL) WAMIL interface commands outputs. A WAMIL IF test expression shall signify a specific test which shall be evaluated against the contents of the WAM interpreter output buffer OutBuff, or the state of a flag or value of a variable.
In the case of a variable or flag, this test is evaluated against the current WAM variable value or flag state. For example, if the above WAMIL IF THEN ELSE construct is executed, the test expression GENERIC a34y12.Ot would test if the specified generic load number is equal to the current WAMI generic variable setting, for the current WAMI cell variable.
The following is a list of WAMIL IF keywords, and WAMIL THEN and ELSE
commands:
IF CONSTRUCTS: PURPOSE:

IF:ACTIVITY .string Tests if the activity for the current CELL is equal to the string provided as an argument.

IF:AFAIL .string Tests if the execution if the last WAMIL APXRCV

command failed.

Hernandez 3 30 IF:APXVAR operator stringTests the value of the WAM VAR variable APXVAR.

IF:CFAIL Tests if a disconnect occurred during a CONNECT

command execution, or a WAM interface command execution.

IF:COMPLETED Tests if a completion message was returned for the I

previous WAMIL interface command executed.

IF:GENERIC string Tests if the generic for the current CELL is equal to the string provided as an argument.

IF:LASTTEST Tests if the WAMIL script has been executed for the ' last cell.

IF:LFAIL Tests if a login attempt failed during execution of a CONNECT command.

IF:OMSG string Tests if the string provided was returned for the previous WAMIL interface command executed.

IF: SDPFAIL Tests if an SDP interface command execution or connection attempt failed.

IF:SDPPORT Tests if a login attempt to an SDP
port failed due to unavailable ports.

IF: SDPVAR-COLOR Tests if the COLOR of the SDPVAR indicator is equal to, or not equal to, a valid, pre-defined color.

operator string IF: SDPVAR-STATE Tests if the STATE of the SDPVAR indicator is equal to, or not equal to, a valid, pre-defined state.

operator string IF: SDPVAR VALUE Tests the VALUE of the SDPVAR indicator.

operator string IF:TEST EXPR Instructs the WAM Interpreter to perform a relational comparison between string! and string2.

string! operator string2 IF:TFAIL Tests if a no input message was received from the last WAMIL interface command executed.

IF:WAMVAR operator stringTests the value of the WAM VAR variable WAMVAR.

Hernandez 3 31 THEN/ELSE PURPOSE:

COMMANDS:

THEN:CONTINUE Instructs the WAM Interpreter to execute the next WAMIL script command.

THEN:ENDTEST Instructs the WAM Interpreter to terminate the WAMIL script.

THEN:PRINT string Instructs the WAM Interpreter to print the string provided in the WAMIL report file.

THEN:TIMEOUT value Changes the WAM Interpreter global TimeOut variable, TimeOut, to the value provided as an argument.

THEN: WAIT value Instructs the WAM Interpreter to wait a specified number of seconds before execution of the next WAMIL script command.

THEN:WAITQUERY Instructs the WAM Interpreter to wait a specified number of seconds and then query the TI interface up seconds TI value to a total amount of queries defined by value.

IF THENDO ELSEDO ENDIF Type of If Construct This section describes the WAMIL IF THENDO ELSEDO ENDIF type of if construct which can be used with any (in this WAMIL embodiment) IF construct commands to execute a group of commands based upon the results of the IF test expression.
A WAMIL IF THENDO ELSEDO ENDIF construct is structured as follows:
IF:GENERICa34y l2.Ot THENDO:
WAM:PR1NT The generic for the cell is valid.
IF:ACTIVITY NO
THEN:PRINT No activity on current cell.
ELSE:ENDTEST
ELSEDO:

Hernandez 3 32 WAM:PRINT Generic on cell is incorrect.
WAM:ENDTEST
ENDIF:
All (for this particular embodiment of WAMIL) the commands between the THENDO and ELSEDO constructs are executed if the result of the IF command execution is TRUE, and all (for this particular embodiment of WAMIL) the commands between the ELSEDO and ENDIF are executed if the result of the IF command execution is FALSE.
All WAMIL IF THENDO ELSEDO ENDIF constructs must (for this particular embodiment of WAMIL) be complete and include an IF, a THENDO, an ELSEDO, and an ENDIF. The WAM interpreter will not accept incomplete constructs. Any (in this WAMIL embodiment) incomplete construct will generate a syntax error from the WAM
interpreter. Any WAMIL IF THEN ELSE constructs can be nested within any (in this WAMIL embodiment) THENDO ELSEDO, or ELSEDO ENDIF construct. Also, IF THENDO ELSEDO ENDIF constructs can be nested within other IF THENDn ELSEDO ENDIF constructs, as desired.
WAMIL Script Execution Process A user can execute the script by selecting Run script from the WAM Graphical User Interface (GUI) Main Menu TOOLS pull down menu or from a command line, e.g., such as facilitated by the fourth copending application mentioned above.
Once the Run Script Command is selected, it will appear in the Current Selected command box below the pull down menu.
A user can then simply select the Execute Command button, and the WAMIL
script will be executed, after the WAM GUI has prompted the user for confirmation When a WAMIL script is executed, the WAM GUI passes the script to the interpreter, and the test is launched as a stand-alone process. From that point forward, the WAM GUI session is independent of the script execution, or any existing execution.
The WAM interpreter preferably handles the execution of the script and placement of Hernandez 3 33 the script output file independently of the WAM GUI platform, as specified by the user before the script was launched.
Prior to launching a WAMIL script, the WAM GUI will however search through the selected WAMIL script file and check for any WAMIL variables which need to be passed as arguments to the interpreter prior to the script execution. The WAMGUI will then prompt the user for each needed variable prior to launching the script, and pass the values to the WAM interpreter as needed, along with the script name.
Once a script has been launched, the WAMGUI will update the WAMGUI
CURRENT SELECTIONS display with the script name, script report name, and the script status state. The script report name shall be the WAMIL script name unless a report filename has been defined within the selected WAMIL script.
For each executed WAMIL script, the WAM will add an entry into the WAMIL
exec. wam file.
The WAMIL script status states are preferably defined as follows.
WAMIL SCRIPT STATE DESCRIPTION:

STATE:

Aborted The WAMIL script has been aborted by the user.

Completed The WAMIL test script execution has completed.
The WAM

status does not display script execution completion states.

This state is displayed by the WAM interpreter.

Error A error has occurred in the process of executing the WAMIL

script. The WAM status display does not display a WAMIL

script execution error state, nor any errors associated with its execution. Rather, this state, and all (for this particular embodiment of WAMIL) associated errors, are displayed by the WAM interpreter. Note. Not all (for this particular embodiment of WAMIL) script execution errors cause immediate termination of the script.

Executed date The WAMIL script has been executed (launched), where date, is the system date and time upon execution.

None The current selected script, if any, is not in any specific state.

. Hernandez 3 34 Running The WAMIL script execution is in progress.
This state is only displayed by the WAM interpreter during the script execution.

Scheduled dateThe WAMIL script execution has been scheduled for the date and time specified.

The WAMGUI may not display all of the above status states, but the WAM
interpreter can display any of these states during the execution of a WAMIL
script. The WAMGUI CURRENT SELECTIONS display however, will remain unchanged until the S execution of another script, or a script is aborted.
WAMIL Script Abort Process Requirements A WAMIL script execution in progress can be aborted at any (in this WAMIL
embodiment) time through the WAMGUI platform. This is preferably be the only (for this particular embodiment of WAMIL) method through which a script can be aborted.
Alternatively, the WAM interpreter can also have the capability to abort a script, through the script status display window.
A WAM>I. script in execution should be aborted through either of these processes otherwise not all (for this particular embodiment of WAMIL) existing children of a launched WAMIL script may be terminated. If other ways are used to abort a script, other than those provided by the WAMGUI or the interpreter, existing processes and connections may not be terminated.
To abort a WAMIL script, a user must (for this particular embodiment of WAMIL) select the Scripts Status... command from the WAMGUI Main Menu TOOLS
pull down menu. Upon selection, the WAMGUI Scripts Status window will appear.
The WAM GUI Scripts status window displays the history of the current user WAMIL scripts which have been executed over time, in the following format:
date .scriptname scriptstate - Hernandez 3 35 Where date, is the system date and time the WAMIL script was executed, or scheduled to be executed, in the format YY: MM: DD: HH: mm: SS., where YY is the two digit year, MM is the two digit month, DD is the two digit day, HH is the two digit hour, mm is the two digit minute, and SS is the two digit seconds, and, scriptname is the WAMIL script name, and scriptstate is the current status state of the WAMIL
script.
This information is displayed in the SCRIPTS STATUS list box. The script names are listed in alphanumeric order. The WAM GUI keeps other information on launched scripts, such as unique process ID numbers, but this information is not displayed to the user. This information is contained in the WAMIL exec.wam file, as explained below.
To abort a WAMIL script execution in progress, a user simply double clicks on the desired WAMIL script name in the SCRIPTS STATUS list box. The script name will then appear at the bottom of the window. The user then selects the Abort command button, and the WAM GUI will terminate the script, and all its child processes and related connections, after prompting the user for verification.
The SCRIPTS STATUS display list box is then immediately updated with the new state of the selected script. Only (for this particular embodiment of WAMIL) WAMIL scripts which are in a state of Running or Scheduled can be aborted.
The WAM GUI scripts history log shows the complete history of all WAMIL
scripts executed by the user via the WAM GUI. This history log is continuously appended to by the WAM GUI every time a WAMIL script is executed, and can grow to a large size over time. The executed scripts history log file is called wam. te.stlog, and is kept in the users HOME wam. wamil sub-directory. The format of the wam.
testlog file is the same as the information displayed in the SCRIPTS STATUS list box, but also contains additional information, such as the user of the script and system being used.
There is one line in the wam.testlog file for each executed WAMIL script.
A user can save the wam. testlog history file under a different name, at whicr point the WAM GUI will start a new wam. testlog history file upon execution of a new WAMIL script, or purge all WAMIL scripts with Completed states from the file, therefore shortening the file. Once a log file has been purged of Completed states, the information can no longer be recovered. So it is good practice to save the file.

Hernandez 3 36 To save the history log file, a user simply selects the save history button.
Upon selection of this button, the text entry box below the button will be enabled.
(This button is always selected by default by the WAM GUI upon initial display of the WAM
GUI
Scripts status display window).
The user then simply enters a new history log file name and executes the save/clear command button. The wam. testlog file is automatically renamed to the new filename specified in the text entry box. A new wam. testlog file will be created upon the next WAMIL script execution.
To purge the history log file of all completed scripts, a user selects the Clear History button. Upon selection of this button, the text entry box is disabled.
The user then simply executes the save/Clear command button and the wam. testlog history file is purged of all completed scripts. Prior to purging the log file, the WAM GUI
will prompt the user for verification.
WAMI Environment Structure Requirements This section describes the WAMI software environment and user setup requirements. The WAMI is preferably capable of full functionality within a UNIX Open Windows environment, and should be easily accessible from the user's Open Windows menu.
The following example WAMI home files and sub-directories should preferably exist:
WAM FILES OR DESCRIPTION

SUB-DIRECTORIES

WAM The WAM GUI main program.

WAMI The WAM interpreter program.

WAMbin Executable programs used by WAMI

WAMIib A WAM sub-directory which contains all WAMI libraries, procedures, and executable scripts, programs and GUI

libraries.

Hernandez 3 37 WAMsetup The WAMI setup script which must (for this particular embodiment of WAMIL) be executed upon login to setup and export all WAMI variables and paths.

wam.apxforms A WAM GUI file which contains a list of APXRCV DB

forms supported by the WAM GUI APXRCV
function.

wam.bba A list of valid BBA numbers.

wam. cat A list of CAT numbers.

wam.ccc A list of valid CCC numbers.

wam. ccu A list of valid CCU numbers.

wam.cells A WAMI file which contains a list of MSC
and corresponding cell numbers supported by the WAMI.

wam.colors A WAM GUI file which contains a list of all the GUI

colors supported by the WAM GUI.

wam.fonts A WAM GUI file which contains a list of all the GUI fonts supported by the WAM GUI.

wam.msc A list of valid MSC numbers.

wam.users A WAMI file which contains a list of all the authorized WAMI users. This file exists simply as a means of tracking WAMI users which have undergone training and demonstration sessions.

wam.vars The WAM GUI & WAMI main global variables and arrays file. This file also contains variables which can be used as command line arguments by the WAM GUI
to call up and execute other existing tools.

Syntax and Variable Consistency Checking , Figs. 2A and 2B represent a flow chart that depicts an example implementation of the syntax and variable value consistence checking that is performed by the scriptor according to the invention. Flow starts at step 202 and proceeds to step 204 where the script is provided. Flow then proceeds to step where the scriptor examines the current (here, the first) line of the script.
Flow proceeds to step 208 where the scriptor determines the interface identified in the line under consideration.

Hernandez 3 38 It is to be recalled that WAMIL commands take the format of a text string preferably having the format: interface:command. The memory 404 of the system 400 has a look-up table storing the text strings associated with each of the interfaces, e.g., TI, WAM and SDP. The processor 402 treats the script line under consideration as a text string and compares each entry in the look-up table against the text string. When a match is found, this identifies the interface involved.
Flow proceeds from step 208 to 210 of Fig. 2A, where the set of permissible commands for the identified interface is retrieved. Each of the interfaces has a set of permissible commands stored in the memory 404.
Flow proceeds from step 210 to step 212 in Fig. 2A. In step 212, the processor 402 strips the interface identifier string and connective alphanumeric character, e.g., ":", from the current script line to form a current command string.
Flow then proceeds to step 214, where the processor 402 retrieves a first ideal command string. Flow proceeds to step 216 where the processor 402 substitutes the current values for any variables listed as arguments in the ideal command string to form an updated ideal command string.
Flow proceeds from step 216 to step 218 in Fig. 2A, where the processor 402 compares the current command string to the updated ideal command string. Flow proceeds to step 220 of Fig. 2B, where it is determined whether these two text strings match. If so, then the syntax is correct and the values for the variables used by the command are consistent with the values for these variables set previously in the script. When a match is found, flow proceeds from step 220 to step 222, where the processor 402 sets the next line in the script to be the current line.
Flow then proceeds back up to step 206.
If a text string match is not found in step 220 of Fig. 2B, flow proceeds to step 224. There, it is determined whether the ideal command under consideration is the last ideal command in the set. If not, then flow proceeds to step 226 where the processor sets the next ideal command to be the current ideal command. Flow proceeds from step 226 in Fig. 2B back up to step 214 in Fig. 2A. But if it is determined in step 224 that the last ideal command has failed to produced a match, then flow proceeds to step 228, where the processor 402 aborts debugging. Flow Hernandez 3 39 proceeds to step 230, where the syntax and variable consistence checking procedure terminates.
Figs. 2A and 2B have been described in terms of the syntax and variable value consistence checking performed by the scriptor according to the invention during debugging. This same set of steps is performed by the interpreter when it interprets commands during execution of a script, with one main difference. According to the scriptor, flow proceeds from step 220 to step 222 when a match is found.
According to the interpreter, flow proceeds from step 220 to step 232, where the command under consideration is interpreted/executed. Flow then proceeds from step 232 to 222. From step 222 the flow is the same as described above relative to the scriptor.
Also, in step 230, if it is necessary to abort, the interpreter aborts the interpreting procedure rather than aborting the debugging procedure.
Fig. 3 depicts an example .of a procedure followed by the scriptor to propagate, throughout the entire script, changes that have been made to a line of the script. Flow starts at step 302 and proceeds to step 304, where a script to be edited is provided. Flow proceeds to step 306, where the user selects for editing a command that sets the value of a variable. Preferably, but not necessarily, the changes desired by the user are made using a graphical user interface (GUI).
Flow proceeds to step 308, where the user actually changes the value of the variable being set by the chosen command.
Flow proceeds from step 308 in Fig. 3 to step 310. In step 310, the processor 402 regenerates the entire script to update other command arguments that correspond to variable whose value was updated in step 308. Flow proceeds to step 312, where it is determined whether another command is to be edited. If so, flow proceeds to 314, where the next command to be edited is chosen. From there, flow proceeds back up to step 308. If no other command is to be edited at step 312, then flow proceeds to step 316 where the edit propagation procedure terminates.
Examples of operation of the scriptor and/or interpreter according to the invention follow. First, consider the script discussed in the background section of this application, i.e., Script No. 1. If this script were debugged using the scriptor according to the invention or interpreted using the interpreter according to the ~ Hernandez 3 40 invention, the debugging/interpreting would abort because the value used for variable "cell" in line S (namely, 101) is not the same as the value for the variable "CELL" set in line 2 (namely, 123).
Now consider a variation of the example script in the background section.
S Script No. 2 Line Command O1 WAM:MSC 5 02 WAM:CELL 49 03 WAM:BBA 8 04 WAM:CONNECT TI
OS TI:op:cell 49, BBA 8 06 WAM:DISCONNECT TI
07 WAM:ENDTEST
Script No. 2 is again written in the WAMIL language and deals with cell number 49 of the mobile switching center (MSC) number 5. It connects (or establishes) a TI session, issues the op:cell command embedded in line 5 and then disconnects or terminates the session. If the user intended at line 5 to deal with the circuit board BBA No. 1 instead of BBA No. 8, then the script would not need line 3 because the default value for the variable BBA in the WAMIL language is set to equal 1. But because line 5 was written as "TI:op:cell 49, BBA 8,", than the scriptor debugging the script or the interpreter interpreting the script would abort without line 3. They would abort because the value for the variable BBA that is being set in the embedded command of line 5 is not consistent with the default value for the variable BBA in the WAMIL language and because there would be no intervening command to afi rmatively set the value of the variable BBA to No. 8. Similarly, if line 5 recited BBA 9 instead of BBA 8, then the scriptor or interpreter would abort because of the inconsistency.

Hernandez 3 41 If a user were to edit this script to change the value of the variable in line from 49 to 101 then the scriptor would propagate this change throughout the script.
Here, the scriptor would change the value of the variable "cell" in the embedded command of line 5 from 49 to 101 without involving the user in that update. In other words, the scriptor would automatically propagate the change from line 2 throughout the corresponding parts of the script.
The scriptor and interpreter according to the invention, have the advantage of not only checking command syntax, but also checking that the values for the variable in any given line are set in a manner that is consistent with the values for those variables that have been set previously in the script. In scripts that are of a short length, the advantage is not as readily appreciated as in lengthy scripts. But the value in avoiding the mistakes that the invention prevents is very clear. Again, these errors are not detected by the scriptors and interpreters of the Background Art because they do not represent improper syntax. Rather, they represent instances in which values for variables are set in consistently, e.g., due to user oversight .
The invention may be embodied in other forms without departing from its spirit and essential characteristics. The described embodiments are to be considered only non-limiting examples of the invention. The scope of the invention is to be measured by the appended claims. All changes which come within the meaning and equivalency of the claims are to be embraced within their scope.

Claims (28)

1. A method of processing an at least partially-completed script at least one command, wherein said method checks syntax and argument consistency, the method comprising:
a) providing a current command to be evaluated from said script, said command having a current argument;
b) generating an ideal command from a set of permissible commands, said ideal command having a ideal argument that is consistent with preexisting values of variables identified in said script;
c) comparing said current command against said ideal command;
d) returning, if said step c) results in a match, to said step a) using a second command from said script; and e) repeating, if said step c) does not result in a match, said steps b) and c) for additional ideal commands until a match is found or until said set of permissible commands has been exhausted
2. The method of claim 1, further comprising:
f) warning, if said step e) exhausts said set of permissible commands without finding a match, of a bug in said script.
3. The method of claim 1, wherein said step b) includes:
b1) retrieving a first string from a list of strings representing valid command syntaxes, said first string having a substring representing a variable; and b2) revising said first string by replacing said substring with the preexisting value of said variable.
4. The method of claim 1, further comprising:
f) providing a line in said script, said line indicating a command and a domain in which said command is to be used;

g) determining the domain identified by said line; and h) retrieving a set of permissible commands for said domain;
wherein said step a) strips domain information from said first line to obtain said current command.
5. The method of claim 4, wherein said domain relates to a user interface to a system.
6. The method of claim 1, further comprising:
f) returning, if a match is found via said step e), to said step a) using a second command from said script.
7. A method of editing a script having a sequence of commands, the method comprising:
a) providing a script;
b) selecting a command to be edited from said script, the selected command having an associated argument that sets the value of a variable;
c) updating said associated argument of said selected command to change said value of said variable;
wherein said script includes a second command that has a defined argument that corresponds to said variable but that which does not equal the updated value of said variable; and d) regenerating said script to update said defined argument to equal said updated value of said variable.
8. The method of claim 7, wherein said script has at least a third command that has another defined argument that corresponds to said variable, but which does not equal said updated value of said variable, and said step c) also updates said the other argument to equal said updated value of said variable.
9. A method of interpreting each command in a script having a sequence thereof written in a high-level scripting language, wherein said method checks syntax and argument consistency, the method comprising:
a) providing a current command to be evaluated from said script, said command having a current argument;
b) generating an ideal command from a set of permissible commands, said ideal command having a ideal argument that is consistent with preexisting values of variables identified in said script;
c) comparing said current command against said ideal command;
d) executing, if said step c) results in a match, said current command;
e) returning, if said step c) results in a match, to said step a) using a second command from said script;
f) repeating, if said step c) does not result in a match, said steps b) and c) for additional ideal commands until a match is found or until said set of permissible commands has been exhausted; and g) executing, if a match is found via said step f), said current command.
10. The method of claim 9, further comprising:
h) returning, if a match is found via said step f), to said step a) using a second command from said script.
11. The method of claim 10, further comprising:
i) aborting, if said step f) exhausts said set of permissible commands without finding a match, interpretation of said script.
12. The method of claim 9, wherein said step b) includes:
b1) retrieving a first string from a list of strings representing valid command syntaxes, said first string having a substring representing a variable; and b2) revising said first string by replacing said substring with the preexisting value of said variable.
13. The method of claim 9, further comprising:
h) providing a line in said script, said line indicating a command and a domain in which said command is to be used;
i) determining the domain identified by said line; and j) retrieving a set of permissible commands for said domain;
wherein said step a) strips domain information from said first line to obtain said current command.
14. The method of claim 13, wherein said domain relates to a user interface to a system.
15. A computer-readable medium having embodied thereon a program to be processed by a machine to debug an at least partially-completed script having a sequence of commands, wherein said computer-readable-medium-embodied program checks syntax and argument consistency, said computer-readable-medium-embodied program comprising:
a first code segment to select a current command to be evaluated from said script, said command having a current argument;
a second code segment to generate an ideal command from a set of permissible commands, said ideal command having a ideal argument that is consistent with preexisting values of variables identified in said script;
a third code segment to compare said current command against said ideal command;
a fourth code segment to return, if said third code segment achieves a match, to said first code segment using a second command from said script; and a fifth code segment to repeat, if said third codes segment does not achieve a match, said second and third codes segments for additional ideal commands until a match is found or until said set of permissible commands has been exhausted.
16. The computer-readable-medium-embodied program of claim 15, further comprising:
a sixth code segment to return, if a match is found via said fifth code segment, to said first code segment using a second command from said script.
17. The computer-readable-medium-embodied program of claim 15, further comprising:
a seventh code segment to warn, if said fifth code segment exhausts said set of permissible commands without finding a match, of a bug in said script.
18. The computer-readable-medium-embodied program of claim 15, wherein said second code segment includes:
a first code subsegment to retrieve a first string from a list of strings representing valid command syntaxes, said first string having a substring representing a variable; and a second code subsegment to revise said first string by replacing said substring with the preexisting value of said variable.
19. The computer-readable-medium-embodied program of claim 15, further comprising:
a seventh code segment to provide a line in said script, said line indicating a command and a domain in which said command is to be used;
an eighth code to determine the domain identified by said line; and a ninth code segment to retrieve a set of permissible commands for said domain;

wherein said first code segment strips domain information from said first line to obtain said current command.
20. The computer-readable-medium-embodied program of claim 15, wherein said domain relates to a user interface to a system.
21. A computer-readable medium having embodied thereon a program to be processed by a machine to edit a script having a sequence of commands, said computer-readable-medium-embodied program comprising:
a first code segment to select a command to be edited from said script, the selected command having an associated argument that sets the value of a variable;
a second code segment to update the selected argument of the selected current command to change said value of said variable;
wherein said script includes a second command that has a defined argument that corresponds to said variable, but which does not equal the updated value of said variable; and a third code segment to regenerate said script to update said defined argument to equal said updated value of said variable.
22. The computer-readable-medium-embodied program of claim 21, herein said script has at least a third command that has another defined argument that corresponds to said variable, but which does not equal said updated value of said variable, and said third code segment also updates said third argument to equal said updated value of said variable.
23. A computer readable medium having embodied thereon a program to be processed by a machine to interpret each command in a script having a sequence thereof written in a high-level scripting language, wherein said computer-readable-medium-embodied program checks syntax and argument consistency, said computer-readable-medium-embodied program comprising:
a first code segment to provide a current command to be evaluated from said script, said command having a current argument;

a second code segment to generate an ideal command from a set of permissible commands, said ideal command having a ideal argument that is consistent with preexisting values of variables identified in said script;
a third code segment to compare said current command against said ideal command;
a fourth code segment to execute, if said third code segment achieves a match, said current command;
a fifth code segment to return, if said third codes segment achieves a match, to said first code segment using a second command from said script;
a sixth code segment to repeat, if said third code segment does not achieve a match, said code second and third code segments for additional ideal commands until a match is found or until said set of permissible commands has been exhausted;
and a seventh code segment to execute, if a match is found by said sixth code segment), said current command.
24. The computer-readable-medium-embodied program of claim 23, further comprising:
an eighth code segment to return, if a match is found via said sixth code segment, to said first code segment using a second command from said script.
25. The computer-readable-medium-embodied program of claim 23, further comprising:
a ninth code segment to abort, if said sixth code segment exhausts said set of permissible commands without finding a match, interpretation of said script.
26. The computer-readable-medium-embodied program of claim 23, wherein said second code segment includes:
a first code subsegment to retrieve a first string from a list of strings representing valid command syntaxes, said first string having a substring representing a variable; and a second code segment to revise said first string by replacing said substring with the preexisting value of said variable.
27. The computer-readable-medium-embodied program of claim 23, further comprising:
a ninth code segment to provide a line in said script, said line indicating a command and a domain in which said command is to be used;
a tenth code segment to determine the domain identified by said line; and an eleventh code segment to retrieve a set of permissible commands for said domain;
wherein said first code segment strips domain information from said first line to obtain said current command.
28. The computer-readable-medium-embodied program of claim 23, wherein said domain relates to a user interface to a system.
CA002319965A 1999-09-29 2000-09-19 Scriptor and interpreter Abandoned CA2319965A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US09/407,885 US6651241B1 (en) 1999-09-29 1999-09-29 Scriptor and interpreter
US09/407,885 1999-09-29

Publications (1)

Publication Number Publication Date
CA2319965A1 true CA2319965A1 (en) 2001-03-29

Family

ID=23613939

Family Applications (1)

Application Number Title Priority Date Filing Date
CA002319965A Abandoned CA2319965A1 (en) 1999-09-29 2000-09-19 Scriptor and interpreter

Country Status (4)

Country Link
US (2) US6651241B1 (en)
EP (1) EP1100011A3 (en)
JP (1) JP3732731B2 (en)
CA (1) CA2319965A1 (en)

Families Citing this family (45)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10361802B1 (en) 1999-02-01 2019-07-23 Blanding Hovenweep, Llc Adaptive pattern recognition based control system and method
US7904187B2 (en) 1999-02-01 2011-03-08 Hoffberg Steven M Internet appliance system and method
US7367017B2 (en) * 2001-01-31 2008-04-29 Hewlett-Packard Development Company, L.P. Method and apparatus for analyzing machine control sequences
US20030131146A1 (en) * 2002-01-09 2003-07-10 International Business Machines Corporation Interactive monitoring and control of computer script commands in a network environment
US7451206B2 (en) * 2002-05-20 2008-11-11 Siemens Communications, Inc. Send of software tracer messages via IP from several sources to be stored by a remote server
US7000221B2 (en) * 2002-07-31 2006-02-14 International Business Machines Corporation Script evaluator
US7231633B2 (en) * 2003-07-15 2007-06-12 Lsi Corporation Debugging with set verbosity level during read and analysis of executable code and associated comments while logging according to set verbosity level
US7155706B2 (en) * 2003-10-24 2006-12-26 Microsoft Corporation Administrative tool environment
US8180864B2 (en) * 2004-05-21 2012-05-15 Oracle International Corporation System and method for scripting tool for server configuration
US8615738B2 (en) * 2004-07-16 2013-12-24 International Business Machines Corporation System and method for software product test modularization
US7624373B2 (en) * 2005-03-31 2009-11-24 Microsoft Corporation Security mechanism for interpreting scripts in an interpretive environment
US7631341B2 (en) * 2005-04-28 2009-12-08 Microsoft Corporation Extensible security architecture for an interpretive environment
US20070079309A1 (en) * 2005-09-30 2007-04-05 David Schmidt Task generation using information handling system
US8078971B2 (en) * 2006-01-24 2011-12-13 Oracle International Corporation System and method for scripting explorer for server configuration
US20080066005A1 (en) * 2006-09-07 2008-03-13 Mcmullen David Systems and Methods of Interfacing with Enterprise Resource Planning Systems
JP5039414B2 (en) * 2007-04-02 2012-10-03 キヤノン株式会社 Control device, program creation method, and program
US8424004B2 (en) * 2007-06-23 2013-04-16 Microsoft Corporation High performance script behavior detection through browser shimming
US8473915B2 (en) * 2007-08-03 2013-06-25 International Business Machines Corporation Coverage analysis tool for testing database-aware software applications
US8276117B2 (en) * 2007-08-03 2012-09-25 International Business Machines Corporation Displaying and refactoring programs that include database statements
TWI373711B (en) * 2008-10-09 2012-10-01 Primax Electronics Ltd Method for testing controls of application software automatically
US9430612B2 (en) 2009-02-04 2016-08-30 NaviNet, Inc. System and method for healthcare data management
JP2010287213A (en) * 2009-05-11 2010-12-24 Nec Corp File conversion device, file conversion method, and file conversion program
US9106726B2 (en) * 2010-10-14 2015-08-11 Verizon Patent And Licensing Inc. Method and system for provisioning packetized voice communication services
US8904356B2 (en) 2010-10-20 2014-12-02 International Business Machines Corporation Collaborative software debugging in a distributed system with multi-member variable expansion
US9009673B2 (en) 2010-10-21 2015-04-14 International Business Machines Corporation Collaborative software debugging in a distributed system with collaborative step over operation
US8671393B2 (en) 2010-10-21 2014-03-11 International Business Machines Corporation Collaborative software debugging in a distributed system with client-specific dynamic breakpoints
US8972945B2 (en) 2010-10-21 2015-03-03 International Business Machines Corporation Collaborative software debugging in a distributed system with client-specific access control
US9411709B2 (en) 2010-11-10 2016-08-09 International Business Machines Corporation Collaborative software debugging in a distributed system with client-specific event alerts
US8990775B2 (en) 2010-11-10 2015-03-24 International Business Machines Corporation Collaborative software debugging in a distributed system with dynamically displayed chat sessions
US8850397B2 (en) 2010-11-10 2014-09-30 International Business Machines Corporation Collaborative software debugging in a distributed system with client-specific display of local variables
US8739127B2 (en) 2011-04-20 2014-05-27 International Business Machines Corporation Collaborative software debugging in a distributed system with symbol locking
US8656360B2 (en) 2011-04-20 2014-02-18 International Business Machines Corporation Collaborative software debugging in a distributed system with execution resumption on consensus
US8806438B2 (en) 2011-04-20 2014-08-12 International Business Machines Corporation Collaborative software debugging in a distributed system with variable-specific messages
US20120278790A1 (en) * 2011-04-26 2012-11-01 International Business Machines Corporation Collaborative Software Debugging In A Distributed System With Real-Time Variable Modification Indicators
US8756577B2 (en) 2011-06-28 2014-06-17 International Business Machines Corporation Collaborative software debugging in a distributed system with private debug sessions
US9459994B2 (en) 2013-02-20 2016-10-04 Kony, Inc. Mobile application testing systems and methods
JP6191440B2 (en) 2013-12-18 2017-09-06 富士通株式会社 Script management program, script management apparatus, and script management method
US10031643B2 (en) 2014-09-26 2018-07-24 At&T Mobility Ii Llc Predictive determination of actions
US11200249B2 (en) 2015-04-16 2021-12-14 Nuix Limited Systems and methods for data indexing with user-side scripting
US10528607B2 (en) * 2016-07-29 2020-01-07 Splunk Inc. Syntax templates for coding
US11054971B2 (en) 2017-05-23 2021-07-06 Salesforce.Com., Inc. Modular runtime environment
US10852926B2 (en) 2017-05-23 2020-12-01 Salesforce.Com., Inc. Filter of data presentations via user-generated links
US10360136B2 (en) * 2017-05-23 2019-07-23 Salesforce.Com., Inc. Dashboard execution engine
US10725890B1 (en) 2017-07-12 2020-07-28 Amazon Technologies, Inc. Program testing service
CN111475415B (en) * 2020-04-07 2021-07-27 北京航空航天大学 Method and device for detecting consistency of reliability policy model and codes

Family Cites Families (25)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6381529A (en) * 1986-09-25 1988-04-12 Nec Corp Program correcting system
JPS63245738A (en) * 1987-04-01 1988-10-12 Nec Corp Automatic correcting system for data item with undefined program
JPH03161844A (en) * 1989-11-20 1991-07-11 Fujitsu Ltd Spelling correcting system
JPH03189725A (en) * 1989-12-19 1991-08-19 Fanuc Ltd Analogous word retrieving system for automatic programming device
JPH05313878A (en) * 1992-05-08 1993-11-26 Nec Corp Program coding back-up system
JPH0736734A (en) * 1993-06-29 1995-02-07 Nec Corp Method for checking argument value
JP2636720B2 (en) * 1993-12-08 1997-07-30 日本電気株式会社 Input character string correction device for coding
US5600831A (en) * 1994-02-28 1997-02-04 Lucent Technologies Inc. Apparatus and methods for retrieving information by modifying query plan based on description of information sources
JPH0863346A (en) * 1994-08-25 1996-03-08 Canon Inc Program editing method and device therefor
US5813019A (en) * 1995-07-06 1998-09-22 Sun Microsystems, Inc. Token-based computer program editor with program comment management
US6112242A (en) * 1996-07-10 2000-08-29 Uln Corporation System and method for dynamic data interaction in a hypertext data processing system
JP4533974B2 (en) * 1996-08-01 2010-09-01 康 清木 Heterogeneous database integration system
US6449661B1 (en) * 1996-08-09 2002-09-10 Yamaha Corporation Apparatus for processing hyper media data formed of events and script
US5898835A (en) * 1996-08-16 1999-04-27 Electronic Data Systems Corporation System and method for remotely executing a command
US6598023B1 (en) * 1996-11-27 2003-07-22 Diebold, Incorporated Automated banking machine system using internet address customer input
US5854930A (en) * 1996-12-30 1998-12-29 Mci Communications Corporations System, method, and computer program product for script processing
CA2198189C (en) * 1997-02-21 2001-05-29 Ibm Canada Limited-Ibm Canada Limitee Internet browser based data entry architecture
US6041331A (en) * 1997-04-01 2000-03-21 Manning And Napier Information Services, Llc Automatic extraction and graphic visualization system and method
US6101503A (en) * 1998-03-02 2000-08-08 International Business Machines Corp. Active markup--a system and method for navigating through text collections
US6085227A (en) * 1998-03-20 2000-07-04 International Business Machines Corporation System and method for operating scientific instruments over wide area networks
JP3548459B2 (en) * 1998-11-20 2004-07-28 富士通株式会社 Guide information presenting apparatus, guide information presenting processing method, recording medium recording guide information presenting program, guide script generating apparatus, guide information providing apparatus, guide information providing method, and guide information providing program recording medium
US6269254B1 (en) * 1998-09-28 2001-07-31 Motorola, Inc. Radio communications device and method with API between user application program and telephony program and method
US6434615B1 (en) * 1999-04-30 2002-08-13 Compaq Information Technologies Group, L.P. Method and apparatus for remote computer management using HTML in a web browser application and an internet server extension on an internet server API-compliant web server
US6516340B2 (en) * 1999-07-08 2003-02-04 Central Coast Patent Agency, Inc. Method and apparatus for creating and executing internet based lectures using public domain web page
US6516339B1 (en) * 1999-08-18 2003-02-04 International Business Machines Corporation High performance client/server editor

Also Published As

Publication number Publication date
JP3732731B2 (en) 2006-01-11
US7343586B1 (en) 2008-03-11
EP1100011A3 (en) 2004-04-28
EP1100011A2 (en) 2001-05-16
JP2001142738A (en) 2001-05-25
US6651241B1 (en) 2003-11-18

Similar Documents

Publication Publication Date Title
US6651241B1 (en) Scriptor and interpreter
US6658646B1 (en) Multiple interface scripting language
US5367667A (en) System for performing remote computer system diagnostic tests
US7184801B2 (en) Mobile application builder
CN1089538C (en) Flexible downloading of software
US8150948B2 (en) Complex software deployment
EP0774853A2 (en) Method and system for graphically displaying and navigating through an interactive voice response menu
US6668368B1 (en) Variable-extracting command line generator
CN113946358A (en) Automatic driving vehicle software remote upgrading method based on vehicle management system
CN113203935A (en) Chip testing method, system and readable storage medium
JPH0667867A (en) Data base accessing system for application program
CN100428824C (en) Method for carrying out active inquiry maintenance on mobile terminal
CN111813683B (en) Universal automatic synchronization method for software testing environment
EP1100009A2 (en) Liaison interface
US20040123268A1 (en) Program code distribution
CN113918150A (en) Method for automatically configuring interface front-end code
CN110377298B (en) Distributed cluster upgrading method and distributed cluster
CN111930625A (en) Log obtaining method, device and system based on cloud service platform
JP2006072806A (en) Script generation device, script generation method and script generation program
CN112615745B (en) Method and system for accessing Internet of things card platform to upstream through parameter configuration
US20230050723A1 (en) Device testing arrangement
JP2001051884A (en) Network operation system, command feeding method, and recording medium
CN117370196A (en) Agile development automatic test method and system
CN116095072A (en) Communication matrix management method and device, electronic equipment and storage medium
CN112199286A (en) Special item testing system and method

Legal Events

Date Code Title Description
EEER Examination request
FZDE Discontinued