NO854374L - IMPROVEMENT IN, OR RELATED TO, DATA PROCESSING SYSTEM. - Google Patents

Description

The present invention relates to a data processing system especially intended for use in connection with the storage and retrieval of data from a warehouse of data, e.g. a database. As a result of the development of computers with large storage capacities and fast operation, more and more information is stored in databases in data processing systems. However, the effectiveness of the databases is limited to the ability of the user, whether trained or untrained, to store and/or retrieve data from the database.

In general, data processing systems and the like are controlled by means of a control body which has a plurality of instructions. Each of the instructions has its own special requirements. In order to effectively use such data processing systems, an operator must therefore be very familiar with these requirements, often referred to as syntax.

The requirements include formatting of the instruction and especially the order of the components within the instruction.

The present connection provides a data processing system that can be controlled by means of instructions that comprise a relatively small number of instruction component parts, all instructions can be defined by a selection of the components that does not depend on order. Consequently, an operator who is less skilled than necessary according to previously known data processing systems can effectively and easily use the data processing system according to the present invention.

Furthermore, the instructions for the governing body according to previously known data processing systems and the like are not immediately easy to explain with regard to their function. This means that an operator who reads the instructions for the governing body is not immediately able to decipher the effect that one or more of the instructions may contain.

Typically, such known instructions include comment instructions. The comment instructions do not provide control for the data processing system, but explain to the operator the purpose and meaning of one or more of the instructions.

The present invention provides a data processing system which can be controlled by means of instructions in a control body, which provides self-documentation and thus makes explanatory comment instructions unnecessary. Furthermore, data processing systems and the like have a plurality of data files arranged in a directory. The data files have arranged data in several formats. When new data arrives, e.g. data relating to a new data file drawing layout is to be added or deleted, the user of the system may not be competent to perform such an action. In such a case, it may be necessary for a particularly skilled person to change the system to thereby make it possible to allow the introduction of e.g. the new data file drawing layout.

The data processing system according to the present invention has an arrangement of files which allows the addition or deletion or the like of data and data files in an easier way. In this connection, the data files are defined on a

recursive way.

The recursive definition of data files means that fresh data files have data format definitions provided by first data definition files. The first definition files in turn are defined using other data definition files and so on, as needed.

The requirement for additional definition files preferably ends when the definition files define themselves. In general, it has been found that only the first and second data definition files are required for the establishment of full definitions of all the data files.

Thus, any change to the format of a data file could be affected by changes to the data contained in a definition file corresponding to the data file. Such a change can be carried out by the user of the system.

The recursive nature of the file structures also increases the need for the user of the system to be familiar with the format of the data in the data files. When the user gains access to a data file, a corresponding definition file provides the necessary formatting information to the system independently of the user.

According to one aspect of the present invention, a data processing system for data storage and data retrieval is provided, comprising a system bus, a bus controller, a storage device, an operating system, a central processing unit (CPU) and input/output devices, the system bus being arranged, to provide electrical communication between the components of the apparatus depending on the bus controller and depending on the operating system, the storage means comprising a first storage means containing a plurality of instructions to be used in an instruction means for directing the operation of the data processing system and another storage means which under use contains a plurality of command instructions for use in a command instruction body for controlling the operation of the data processing system, the operating system providing an intermediate link between the instruction body and the command instruction body and the rest of the data processing system, the command instruction body controlling the data processing system during routing of the instruction body, and as the input/output body serves for inputting data to the device and outputting data from the device, as the command instructions include command components and connection components, each of the command components and each of the connection components having one or more parameter components, the command components control the operation of the apparatus depending on one or more parameter components related by one or more of the connection components, so that the structure of the command statement is independent of the order of the parameter components and their corresponding connection components.

According to another aspect of the present invention, there is provided a method for controlling the data processing system with respect to data storage and data retrieval, which comprises a user entering a plurality of command instructions into another storage means for use in a command instruction means introducing a plurality of instructions in a first storage means for use in an instruction means and interconnects command instruction means and the instruction means with the data processing system when introducing an operating system, the command instructions comprising command components and connection components, each of the command components and each of the connection components having one or more parameter components, the command components controlling the operation of the data processing system depending on one or more of the parameter components related by one or more of the connection components, so that the structure of the command instruction is dependent on the order of parame the ter constituents and their corresponding connecting constituents.

According to yet another aspect of the present invention, a data processing system for data storage and data retrieval is provided, comprising a system bus, a bus controller, a storage device, an operating system, a central processing unit (CPU), and input/output devices, the system bus being arranged to provide electrical communication between the components of the apparatus depending on the bus controller and depending on the operating system, the storage means comprising a first storage containing a plurality of instructions for use in an instruction means for directing the operation of the data processing system and another storage means which in use contains a plurality of command instructions for use in an instruction body for controlling the operation of the data processing system, the operating system providing an intermediate link between the instruction body and the command instruction body and the rest of the system, the command instruction body controlling the data processing system while directing instruction the body, and the input/output body is arranged for introducing data to the device and outputting data from the device, the storage body also comprising a third storage body containing a plurality of data storage bodies, the data storage body including storage body for new data, first data definition storage bodies and second data definition storage bodies.

According to yet another side of the present invention, there is provided a method for controlling a data processing system in relation to data storage and data retrieval, which comprises obtaining a plurality of files for fresh data containing fresh data in a storage means for fresh data for a data storage means in a third storage means in a storage means in the data processing system, to provide a plurality of first data definition files containing data which provides first data definition files in a first data definition storage means in the storage means and to obtain a plurality of second data definition files containing data which provides other data definitions in another data definition storage means, the fresh data in the fresh definition storage means having characteristics defined by the first data definition storage means, the data in the first data definition storage means having characteristics defined by the second data definition storage means, the data in the second data definition storage means rgan has characteristics that are defined by itself, while fresh data in the fresh data storage means, the data in the first data definition storage means and the data in the second data definition storage means are essentially independent.

The present invention will now be explained by means of examples with reference to the attached drawing. Fig. 1 is a schematic representation of the apparatus containing the data processing system according to the present invention. Fig. 2 is a table showing the interaction between command components and connection components for instructions to be used in relation to the apparatus of Fig. 1. Figs. 3 and 4 are flowcharts for implementing the data processing system according to the present invention. Fig. 5 is a schematic representation of a structure of files according to a further aspect of the present invention.

In fig. 1 shows an apparatus 10 comprising the data processing system according to the present invention and usable for being incorporated into the method according to the present invention.

The device 10 comprises a central processing unit (CPU) 12 and a system bus 14.

The system bus 14 provides electrical communication between a storage device 16, an input/output (I/O) device 18, a bus controller 20 and an operating system 22. The storage device 16 comprises a first storage device and a second storage device, each of which has a plurality of instructions temporarily or permanently stored in it. The instructions in the first storage device and the second storage device are respectively for use in an instruction device and a command device in the data processing system according to the present invention as described in a simultaneously filed patent application, as will be described in the following. The command instruction body is arranged to control the data processing system under the influence of the instruction body.

The properties of the command instruction body and its control over the data processing system can be changed by the user of the data processing system, by changing the instructions in the other storage body. The instructions in the first storage means are instructions used in the instruction means and correspond to the command instructions used for direct control of the apparatus 10.

The second storage means includes a plurality of instructions used in the command instruction means, which are related to process commands for the instruction means of the first storage means for controlling the apparatus 10.

This means that the instruction organ directs the command-instruct ion organ, which in turn provides control of the device.

The storage body also includes a third storage body containing stores of data arranged in data files. The data files can be introduced into the device 10 via the I/O device 18. Access to the data files and their processing will be carried out by the data processing system according to the present invention.

A plurality of command instructions in the second storage device have to do with a method for realizing the apparatus and process according to the present invention, as desired by the user to provide access to and/or process data that is housed in the storage device 16.

The instruction body and the command instruction body are interconnected by means of the operating system 22 to the rest of the apparatus 10 .

The command instruction device, which is interconnected with the operating system 22, controls the operation of the instruction device and the rest of the device 10. The I/O device 18 includes devices that allow the input and output of instructions and data to and from the device 10. More specifically, the I/O device 18 can include video display units, printers, automatic mail systems, disk drive assemblies, etc. (not shown).

Data and command instructions are entered by the user to the I/O device 18 and passed to the rest of the apparatus 10.

The transmission of data and instruction commands is guided and controlled around the device 10 along the bus 14 by means of the bus controller 20.

The bus controller 20 can e.g. order exclusive use of the bus 14 to the I/O means 18, such exclusive use being guaranteed to a disk drive assembly in the I/O means 18 to allow it to store and/or read data into the storage means 16 under the influence of a direct memory access (DMA) controller (not shown).

The control system 22 is also required to interconnect the method according to the invention with the other device 10 and a user of the device 10. The operating system 20 provides further instructions and data format changes that are suitable for allowing the instructions from the storage device 16 and is used against a variety of CPU's 12 , the I/O body 18 and bus controllers 20.

The apparatus and process according to the present invention are particularly intended to be used in connection with the AT and T Bell Laboratories developed UNIX operating system, although it can be adapted for use with other operating systems. In fig. 2 there is shown an intermediate action table 30, comprising a plurality of instruction components for use in the command instruction body. The instruction components consist of command components 32 and connection components 34.

The command components or constituents 32 are usually referred to as verbs 32. The verbs 32 provide commands for the apparatus 10 in FIG. 1, which may include e.g. ADD, ANALYZE etc. as shown in fig. 2. The verbs 32 in fig. 2 has been assigned reference numbers 36-56. The connection components 58 are conveniently referred to as conjunctions 58. The conjunctions 58 provide a basis for the format of instructions to be used in the command instruction body of the system and process of the invention. The conjunctions 58 can include e.g. THE, BY, FOR etc as appears from fig. 2 and is assigned reference numbers 60-76. The conjunctions 58 describe and specify instructions in relation to the device 10.

The instruction components also include parameter components. The parameter components provide data for the command and connection components. Each of the verbs 32 provides a special command for the command instruction body and thus a special control of the apparatus 10, and can be conditioned by one or more and in some cases all the conjunctions 58. In fig. 2 represents "X" conjunctions 58 which cannot condition a particular verb 32.

The verb 32 of a command instruction is interpreted by the operating system 22 and then commands a predefined action according to the instruction body, to be performed by the device 10. The predefined actions to be performed in relation to the verbs 32 are defined by the instruction body.

The verb 32 referred to as ADD 36 provides a command to the apparatus 10 to add new data to a specified data file in the third storage means under the influence of conditions specified and described by the conjunctions 58. When the data is presented in a FORM, new data is supplied to the device 10 via the specified FORM. In that case, a user can input data via a video display unit in the I/O device 18 to the storage device 16.

As can be seen from fig. 2, ADD 36 cannot be conditioned by BY 62 or FOR 64 conjunctions 58. A command instruction with ADD 36 command can be conditioned by one or more of the remaining conjunctions 58 arranged in any order. The verb 32 ANALYZE 38 provides a command to the apparatus 10 for statistical analysis of data for a specified data file and report regarding the results of the analysis. A command instruction with the ANALYZE 38 command can be conditioned by any of the conjunctions 58 arranged in any order.

The verb 32 BAR 40 provides a command to the apparatus 10 interpreted by the operating systems 22 to represent existing data of a specified data file in bar graph form.

food.

A command instruction with the BAR 40 command can be conditioned by any one or more of the conjunctions 58 arranged in an arbitrary order.

The verb 32 CULL 41 provides a command to the device 10 to remove data from a specified data file where the data has been flagged for removal by the DELETE 42 command as described below. The purpose of the CULL 41 command is to update existing data files by removing data flagged for removal.

A command instruction with the CULL 41 command can be conditioned by all the conjunctions 58 with the exception of the BY 62, USING 68 and TO 74 conjunctions.

The verb 32 DELETE 42 provides a command to the device 10 to provide the data flag for the removal of specified data according to the CULL 41 command file. Preferably, DELETE 42 will also send a copy of the remote information to a nominated data file or device. A command instruction with the DELETE 42 command can be conditioned by one or more of the conjunctions 58 arranged in an arbitrary order.

The verb 32 EDIT 44 provides a command to the apparatus 10 for modification to existing data in a specified data file of the storage means 16 in a specified format. When data is presented in a FORM, the specified format is FORM. A command instruction with the EDIT 44 command can be conditioned by any one or more of the conjunctions 58.

The verb 32 LINE 46 provides a command to the apparatus 10 for the representation of existing data for a specified data file in line graphics format. A command instruction with LINE 46 command can be conditioned by any one or more of the conjunctions 58.

The verb 32 MENU 48 provides a command to the device 10 to display a specified data file in a menu format and allow the operator to select one or more items from the menu list. The MENU 48 command directs the instruction body to make the data in the specified data file available to the user in a query format.

The verb 32 PIE 50 provides a command to the device 10 to represent existing data of a specified data file in a graphical pie format. The pie graph may be a round or square pie graph as appropriate for the characteristics of a VDU in the I/O means 18. For video display devices without an appropriate graphical property, the pie graph is represented as a PERCENT graph in the form of a horizontal bar graph. A command instruction with the PIE 50 command may be conditioned by any one or more of the conjunctions 58. The verb 32 PRINT 52 provides a command to the apparatus 10 for printing a specified data file in a pre-described manner for the desired data in a specified format for a desired destination. A command instruction with the PRINT 52 command may be conditioned by any one or more of the conjunctions 58. The verb 32 TOTAL 56 provides a command to the apparatus 10 for total information for data, with respect to a specified data file in a desired format.

The conditioning provided by each of the conjunctions 58 will be described below.

The conjunction 58 THE 60 refers to the data file for the storage organ 16 on which the verbs 32 are to act.

E.g. will the command instructions:

EDIT THE DEBTORS

execute an EDIT 44 command on the data file named DEBTORS where DEBTORS is the file name. Here, DEBTORS is a parameter component of the command statement. The possibility for a file name to identify a corresponding file for the apparatus and process according to the present invention will be

described in the following.

The conjunction 58 BY 62 specifies an index of fields representing a specified data file to be affected by the verb 32 of an instruction. E.g. will command instruction-down:

EDIT THE DEBTORS BY NAME

execute an EDIT 44 command on a data file named DEBTORS for an index named DEBTORS. NAME.

An index, e.g. DEBTORS. NAME, is a cross-reference that provides a list of DEBTORS that can be accessed by calling a name on the list, e.g. SMITH. The conjunction 58 FOR 64 specifies an area or list of references for a specified data file in the storage device 16 on which a verb 32 is to act. The area or list of references can be physical record numbers or keyed areas if an index is selected using the BY conjunction. E.g. the instruction will:

EDIT THE DEBROTHERS BY NAME FOR CITIZEN, JONES-SMITH

execute an EDIT 44 command on a data file called DEBTORS for an index of names in the range from Jones to Smith and including Citizen.

The conjunction 59 IF 66 specifies a condition that must be met before the execution of a verb 32 is allowed to continue for a specified data file. The condition may be an arithmetic expression to be evaluated by the CPU 12 and from which a truth value is returned.

The conditions include operands, eg: "=", "+,"*", "/", "<", ">" and the like. E.g. the instruction will:

EDIT THE DEBTORS IF DEBTOR: AMOUNT> $200.00

execute an EDIT 44 command on the DEBTORS files, but only for DEBTORS with a debit amount exceeding $200.00.

Preferably, the operands can include parentheses or macro symbols stored in files, so that multiple expression conditions can be provided. It must be understood that the conditions may enable the incorporation of data operators, e.g. DAY, MONTH, IN-DAYS, IN-WEEKS so that the influence of a verb 32 may depend on the datum.

The conjunction 58 USING 68 specifies a desired format to be used when displaying and accessing data from a specified data file. The format can also be specified as a FORM, as will be discussed below, and accessed by supplying an appropriate form name.

E.g. the instruction will:

EDIT THE DEBTORS USING TRIAL BALANCE

execute an EDIT 44 command during the use of a FORM, whose format is defined in the file TRIAL-BALANCE.

The conjunction 58 USING 68 can also be specified with a field of a running data file. For example:

USING DEBTORS: DATE

direct a command to be executed using the data (from the data file) from which a result is to be extracted.

The conjunction 58 AT 70 specifies a position on a video display device or printer or the like where a window containing the results of the action of a verb 32 will appear. E.g. the instruction will:

EDIT THE DEBTORS BY NAME AT 1, 1, 12, 20

execute an EDIT 44 command on a file called DEBTORS with respect to the debtor's name and print the result to a video display device window or a printer, the window being 12 lines deep and 20 lines wide. The coordinates for

the window is specified by the row and column of the top and left point, followed by a bottom and rightmost point.

However, it should be understood that any of the coordinates that define a window can be used.

The conjunction 58 WHEN 72 is similar to the conjunction IF 66. However, the conjunction WHEN 72 specifies a condition that must be met before a verb 32 is executed. This means that for the conjunction WHEN 72, the parameter component is evaluated before the verb 32 is executed, and the verb 32 is only executed if the conditions specified by the parameter component are fulfilled.

The conjunctions 58 TO 74 describe a list of devices, files or users to which the results of an instruction are to be sent.

E.g. the instruction will:

EDIT THE DEBTORS IF DEBT: AMOUNT > $200.00 TO PRINTER 1, INVOICE NO

execute an EDIT 44 command on the file DEBTORS for the third storage agency for outstanding accounts in excess of $200.00, the output being sent to a printer designated PRINTER 1 and to a file designated INVOICE.NO.

The conjunction TO 74 may also specify a list of video display devices, printers, user files, and similar components of the apparatus 10 to which the results of a verb 32 command are to be sent. The conjunction TO 74 could also specify an electronic mailing list. The conjunction 58 WITH 76 describes alternatives that can be used in relation to a verb 32. E.g. the instruction will:

EDIT THE DEBTORS BY NAME WITH COLUMNS

execute an EDIT 44 command for the file DEBTORS using the debtor's name and print results in column format. Additional measures obtained using WITH 76 also include sort, count, organ, medium, rate, standard deviation, percent, spread, value of each plot, no limit, no display, no header, no break, or the like.

The sorting option directs the results to be sorted, and is particularly related to the BAR 40 and PRINT 52 verbs 32. The statistical options count, average, medium, range, standard deviation and percentage are particularly related to ANALYSIS 38 verb 32. The spread function involves printing the results of a verb 32 on a "spread sheet format". The alternative value of each record is used in relation to CULL 41 and DELETE 42 and asks a user whether the present data should be looped or not before allowing the data to be deleted from the storage body 16. The options no border, no plot, no header, and no break all have to do with outputting data to a video display device or printer.

Where a verb 32 is defined with less than all of its valid conjunctions 58, non-appearance arguments are provided for the conjunctions 58 that are not specified in the command instructions. If e.g. AT 70 conjunction 58 is not used for a verb 32, the instruction is assigned an absent AT 70 destination which can be 1, 1, 28, 80 (ie the entire video display device screen).

The commands also include a plurality of pseudo-verbs. The pseudo-verbs provide commands that are used with respect to the apparatus and process of the present invention. The pseudo-verbs include a RUN command which detects the instructions for executing a specified storage of instructions, e.g. a plurality of instructions in another storage body. RUN assumes that the storage of instructions is stored according to the apparatus and process according to the present invention, as disclosed in the applicant's Australian Complete Specification No. entitled "Data Processing System". E.g. the instruction given by a user will:

RUN ALFRED

command the command instruction device to execute the set of instructions named ALFRED according to the instruction means.

RUN may be conditional using the conjunctions 58 IF 66 and WHEN 72. Where the collection of instructions has a name that is not a verb 32 or a pseudo-verb, execution may be initiated by entering only the name. E.g. ALFRED can be executed by entering ALFRED via a keyboard on the I/O means 18, while a collection of instructions designated EDIT need not be executed by entering RUN EDIT. RUN direct the operating system 22 to interconnect the instruction means and the command instruction means with the rest of the apparatus 10 to execute the indicated instructions in the other storage means. The pseudo-verbs also include a command that allows the use of commands in the operating system 22 under the control of the command instruction means.

Where the operating system includes the UNIX operating system, e.g. a user provides the pseudo-verb UNIX followed by a UNIX command required for use with an instruction body. The pseudo-verb also includes a CD command for changing the control of the device from an address directory in the storage body 16 to an alternative address directory under the operating system 22. The CD command need not depend on any of the conjunctions.

The pseudo-verb also includes a DO command that provides measures to perform an arithmetic function or a macro instruction and store the results thereof. The DO command can be conditionally adapted using the IF 66, WHEN 72, AT 70 and WITH 76 conjunctions.

In fig. 3 and 4 show a flowchart for the process according to the present invention comprising operation blocks with reference numbers 100-148. Execution via the flow form is under the direction of the instructional bodies.

The operation block 100 directs the operating system 22 to start up the apparatus 10 to provide intermediate connection between the instruction means and the command instruction means.

The block 100 also loads the verbs 32 and the conjunctions 58 into the storage device 16. The block 100 also allows an operator to manually enter the verbs 32 and the conjunctions 58 into the storage device 16. Thus, the verbs 32 and conjunctions can

one 58 is tailored for the user's purpose.

E.g. a user who does not speak English can redefine the verbs 32 and the conjunctions 58 to their native language as desired.

Once initialization is complete, block 102 checks to determine the manner in which the process of the present invention is to be used. If the process is to be used as a subroutine, the control is transferred to the block 104. The block 104 carries out loading into the storage device 16 of the parameter and arguments with the help of which the subroutine call is carried out. If the process is not used as a subroutine, control is passed from block 102 to block 106. Block 106 allows instructions comprising verbs 32 and conjunctions 58 and parameter components to be entered into storage device 16 from I/O device 18 along system bus 14 below control of the bus controller 20 and CPU 12.

The format of the instructions is as described above, and the layout of the instructions is as described in the applicant's patent application entitled "Data Processing System".

The block 106 preferably allows the verbs 32 to be compounded, such that in the event that one or more successive instructions at the same level of nesting within the same nesting of instructions (as discussed in Applicant's Australian Complete Specification No. ) are related to the same conjunctions 58 and parameter components, the verbs 32 can be assembled by the user into an instruction.

For example will the instructions:

MENU THE DEBTORS BY NAME

LINE THE DEBTORS BY NAME

PRINT THE DEBTORS BY NAME

could be compiled by the user to:

MENU, LINE, PRINT THE DEBTORS BY NAME.

The instructions can be composed by the user of the system before they are entered into the I/O member 18. The instructions which are entered into the storage member 16 via the blocks 104 and 106 represent an instruction table which can appropriately be termed a text table.

The block 108 operates on the text table for expanding the composite instructions and produces a corresponding expanded text table. If no composite instructions exist, the blocker 108 directs the device 10 to perform no operations on the text table.

As discussed in Applicant's Australian Full Specification No, the extended text table may include indents defining nested and nested instructions (which are referred to as verb lines). A verb line nests a following verb line if the following verb line is indented by one or more spaces to the right compared to the start of the nested verb line.

The part of the flowchart according to the present invention which is shown in fig. 4, interprets the contents of the extended text table and directs the apparatus 10 to obtain a table of pointers that can be appropriately designated as a character table.

The character table comprises a plurality of pointers assigned to each verb line in the extended text table. The pointers represent the location and characteristic of the verbs 32, the conjunctions 58 and the parameter components of the verb line.

Block 110 directs apparatus 10 to interpret the number of spaces a verb line is indented, and enters a corresponding digit in the character table (as discussed in applicant's Australian Complete Specification No. entitled "Data Processing Apparatus").

The block 112 directs the apparatus 10 to determine which conjunctions 58 have been used in a verb line. The block 112 also directs the apparatus 10 to check that the parameter components used are valid and that they exist. If an invalid parameter component is dictated, the block 112 will direct the device 10 to give a corresponding error message.

When the arguments for the conjunctions 58 have been evaluated, the apparatus 10 will store, in the character table in the storage member 16, a further corresponding set of pointers.

Block 114 determines a set of pointers for each verb line that relate to the location of an existing verb line relative to surrounding verb lines. There are four such pointers which can be appropriately designated as IN, FORWARD, OUT and BACK. These pointers are disclosed in Applicant's Australian Complete Specification No. entitled "Data Processing Apparatus".

The block 116 determines which verb 32 is provided in an existing verb line and stores a corresponding entry in the character table. Blocks 118-134 interpret the parameter component for each of the conjunctions 58, and enter corresponding pointers in the character table. Blocks 118-134 separately interpret THE 60, BY 62, FOR 64, IF 66, USING 68, AT 70, WHEN 72, TO 74 and WITH 76 conjunction. E.g. for the instruction:

EDIT THE DEBTORS

block 118 determines the relevant file name to which DEBTORS refers. Next, block 118 will check an address directory for all files associated with the DEBTORS file and set a pointer to a file called a schema file which is associated with the DEBTORS file as discussed below. The pointer is entered in the character table for the relevant verb line. The form file provides definitions for all records held in a corresponding data file. This means that the drawing of a data file is defined using a definition file called a schema file which is otherwise dependent on the data file.

If the process is introduced via block 104, blocks 110-134 will interpret the entire extended text table in a single round and produce the character table.

If the process is introduced via block 106, blocks 110-134 will interpret a single verb line and obtain pointers corresponding to that verb line, and store the pointers in the character table in storage device 16. If any errors are detected using block 140, an appropriate error message will be sent to the user's terminal under the control of block 142.

If no errors are detected using blocks 110-134, block 140 will transfer control to block 144. Block 144 provides an output path from the process where the process is entered via block 104 as a subroutine for a further process. Exit from the process can take place at block 146.

Block 146 edits all temporary data, temporary files and the like before output is effected. Once the pointers are entered into the character table, block 147 will direct CPU 12 and operating system 22 to execute the verb line provided by block 108. When a single verb line is executed by block 137, block 148 will allow entry of an additional verb line. The block 148 also provides a path for controlling the apparatus 10 and the process according to the present invention to expand the new verb line via the block 108. The interpretation and execution proceeds as described above.

When blocks 110-134 detect errors, block 140 will direct control to block 142. Block 142 provides an appropriate error message that is displayed to the user. Block 142 then transfers control to block 148 which advises the user to correct the error. In fig. 5 shows an example of an arrangement of files according to a further aspect of the present invention. This arrangement of files is necessary to enable the apparatus and process of the present invention to store and retrieve data therefrom. Traditionally, data files have been structured as shown in area 150 of FIG. 5. In the traditional arrangement of data files, a JOB 150a, e.g. JOB 1, will comprise a plurality of data files. The data files

includes a register file 150b, data files 150c, and index files 150d which are already stored in the storage device 16. The index files 150d correspond to the directory files 150b and the data files 150c.

The directory file 150b includes a list of all files associated with JOB 150a. The contents of the directory are updated by the operating system 22 when files belonging to the JOB are removed or new files are obtained and the CULL 41 command is executed.

The data files 150c include data related to JOB 150a. E.g. may JOB 1 include data files designated

DEBTORS, INVOICES and DATES.

The index files 150d provide cross-reference lists for the data files. The cross-reference lists contribute to the storage and retrieval of data. An index file 150d is designated DEBTORS. NAME provides a cross-reference for the file named DEBTORS using the debtor's name. Thus, a user of the system according to the present invention can gain access to data from a data file 150c by means of one or more of a number of fields of the file defined by the index files 150d. This means that data can be added or removed from the DEBTORS file by specifying the debtor's name. When the debtor's name is specified, the corresponding index file DEBTORS. NAME obtain the cross-reference necessary to locate the debtor's details from the file DEBTORS. The remaining index files 150d can be

INVOICES.NO., INVOICES.AMOUNT & DATES.NAME.

The present invention requires additional arrangements with respect to files comprising first data definition files 152a for data files 150c of JOB 150a. In fig. 5 is e.g. the first data definition files 152a shown in area 152, DEBTORS, INVOICES and DATES corresponding to data files 150c.

Each of the definition files 152a comprises a directory file 152b, data files 152c and index files 152d. The names of the data files 152c in the definition files 152a are mak for each definition file. This means that all the definition files 152a preferably include the same file name.

For the definition file 152a designated DEBTORS, a directory file 152b designated FILES will provide a directory of all the files for that definition file, as discussed above. The data definition files 152a include data files 152c designated as SCHEMA, MASTER, FORMS of INDEXES. These data files 152c contain data that defines the format and characteristics of data in the data files 150c.

The data file 152c designated SCHEMA defines the format and characteristics of data stored in the data file 150c designated DEBTORS in JOB 150. This meant that the DEBTORS data file 150c in JOB 1 has a data format that is specified by the data file 152c SCHEMA for the definition file 152c which is denoted DEBTORS. During use, data will thus be available from the data file 150c DEBTORS and the format and characteristics of the data are specified by the data file 152c SCHENA for the definition file 150a DEBTORS. This means that the user of the system can access data from the data files 150c without needing to know the format of the data. When the conjunction 58 THE 60 is used, a SCHEMA file corresponding to the argument for THE 60 will define the structure for said file. E.g. will in the instructions:

EDIT THE DEBTORS

used in the process according to the present invention for JOB 1, the format for the data in the data file 150c DEBTORS in JOB 1 will be specified by SCHEMA data file 152c in the definition file 152a which is designated DEBTORS.

In a similar way, the data file 152c which is designated MASTER will specify the names or forms that are used in relation to data in the data files 150c.

The forms are defined by means of the data file 152c which is designated FORMS. When the conjunction 58 USING 68 appears as a verb line, as described above, the MASTER or FORMS data file 152c from the data definition files 152a will define the FORMS to be used by the apparatus 10. E.g. in the instructions:

EDIT THE DEBTORS USING TRIAL BALANCE

used for JOB 1, the form TRIAL BALANCE will be defined in the FORMS data file 152c and listed in the MASTER data file 152c in the definition files in the storage body 16. The data file 152c, which is designated INDEXES, is provided to define an index in the index files 152d for the data file 152c.

Each of the data files 152c for the definition files 152a has a corresponding index file 152d. These data files 152c would have index files 152d designated FILES.INDEX, SCHEMA.INDEX, MASTER.INDEX, FORMS.INDEX and INDEXES.INDEX. The index files 152d provide a cross-reference to data in the data files 152c.

The INDEXES file 152c in the definition files 152a define the type of data in the index files 150d in a JOB and is required by a BY 62 conjunction 58. Eg. is the instruction:

EDIT THE DEBTORS BY NAME

which is used for JOB 1, the index file 152d DEBTORS.NAME, defined by the data file 152c INDEXES in the DEBTORS definition file 152a. The files in area 150 constitute fresh data and indexes.

The files in area 152 are themselves data and indexes. Furthermore, the files in area 152 treat the files in area 150 as data. This means that the files in the area 152 define the data in the area 150. There exists a first data definition file 152a for each data file 150c.

The files in area 152 are further processed as data by the files in area 154. Area 154 includes other data definition files 154a for the definition files in areas 152.

The other data definition files 154a comprise the same file types as the first definition files 152a. The second definition files 154a correspond to the data files 152c of the first data definition files 152a.

The second data definition files 154a comprise a directory file 154b denoted FILES, data files 154c denoted SCHEMA, MASTER FORMS of INDEXES and corresponding index files 154d as discussed above for the first data definition files 152a.

The data file 154c SCHEMA comprises a SCHEMA file which specifies the data format for SCHEMA files in the first data definition files 152a, which in turn specifies the data format for fresh data files in JOB 150a. Thus, there is a recursive property for file structure. The recursive property with respect to file structure provides a means by which the definition of data in the data file (e.g., format definitions) can be easily described by specifying the first data definition files 152a or second data definition files 154a, as appropriate, with the same name as the data file 150c.

In the process according to the present invention, operations performed by the apparatus 10 on the data file of a JOB under the direction of the instruction body will automatically be directed to search the corresponding definition file for obtaining the definitions for the data stored in the data file. Thus, a user of the apparatus and process according to the present invention can be given access to process data from the data files without the need to specify the format or characteristics of the data.

The third storage means in the storage means 16 comprises a storage means for fresh data, containing the raw data files 150a, a first data definition means containing the first data definition files 152a and another data definition means containing the second data definition files 154a. The other data definition means provide definitions for the other data definition files 154a. The definition of data in the other data definition files 154a also has a predetermined format provided by the instructions. The other data definition files 154a are not intended to be modified by a user of the system.

The first data definition files 152a are provided by a user of the system according to the second data definition files 154a and the instructions. The first data definition files 152a are obtained by first obtaining the directory file 152 designated FILES which represents the files stored in the definition files 152. Then the data files 152c designated SCHEMA, MASTER, FORMS and INDEXES are separately obtained, containing data that are representative for definitions of the characteristics of the data files, formats in which the data in the data files can be displayed and index of the indexes available for the data files 152b. Although the present invention has been discussed with respect to two recursive arrangements with regard to definition files, it should be understood that more or more recursive arrangements may be used.

In the applicant's Australian full specification no.

entitled "Data Processing System", a data processing system for data storage and data retrieval is described and claimed therein, comprising a central processing unit, a storage device, an input/output device and an operating system which is connected to a system bus under the control of a bus controller, the storage devices has a first storage means containing a plurality of instructions for use in an instruction means for directing the operation of the data processing system and a second storage system provided with, in use, a plurality of instructions for use in a command instruction means, the operating system providing interconnection for

.the instruction bodies and the command instruction bodies to the rest of the data processing system, the command instruction bodies for controlling the data processing system under the direction of the instruction bodies, at the same time that the instruction bodies provide and add pointers for each of the instructions in the command instruction bodies, the pointers being representative of the location of preceding and subsequent instructions where the pointers comprise a first pointer representing the location of a subsequent instruction that is nested within a current instruction, a second pointer representing the location of a subsequent in-

instruction located at a level of nesting of the same as and inside a nest of instructions equal to the current instruction, a third pointer representing the location zone of a preceding instruction that nests the current instruction, and a fourth pointer representing the location of a preceding instruction which is at a nesting level of the same as and within a nesting of instructions which is the same as the present instruction, the system being manually controlled by means of a manual control means and/or automatically controlled by by means of an automatic governing body. The entire description of the aforementioned application shall here be regarded as incorporated in the present description. Modifications and variations which are obvious to those skilled in the art are intended to be within the scope of the present invention. E.g. the verbs 32, the conjunctions 58 and the files can be referred to by means of words different from those indicated above, e.g. SCHEMA files can be referred to as CONTENT files, MASTER files as FORM files and FORM files as LAYOUT files. Furthermore, additional verbs 32 can be used, e.g. EXTEND, SHANGE and READ verb 32 similarly to ADP 36, EDIT 44 and PRINT 52 verb 32, but without providing an output signal to the I/O device 18. Furthermore, a further conjunction 58 can be used, e.g. FROM and THEN conjunctions for matching the verbs 32 with a source and respectively obtaining a matching response.

Furthermore, verb 32 which provides functions of a graphic nature can be used. Additionally, verb 32 that provides program evaluation and review techniques (PERT), e.g. project planning, is used.

As a further alternative, the device 10 can be arranged to contain a storage of data in the third storage device corresponding to frequently used information, e.g. text used in standard letters, which data could be defined by one of the FORMS data files 152c which can be printed in a format similar to a friendly letter.

Claims (15)

1. Data processing system for data storage and data retrieval, characterized in that it includes a system bus, a bus controller, a storage device, an operating system, a central processing unit (CPU) and input/output devices, the system bus being arranged to provide electrical communication between the components of the apparatus depending on the bus controller and depending on the operating system, the storage means comprising a first storage means containing a plurality of instructions to be used in an instruction means for guiding the operation of the data processing system and a second storage means which during use contains a plurality of command instructions for use in a command instruction means for controlling the operation of the data processing system, the operating system providing an intermediate connection between the instruction body and the command instruction body and the rest of the data processing system, the command instruction body controls the data processing system under the direction of the instruction body, and the input/output body serves for the input of data to the device and the output of data from the device, the command-doins the tricks include command components and connection components, each of the command components and each of the connection components having one or more parameter components, the command components controlling the operation of the apparatus depending on one or more parameter components related to one or more of the connection components, so that the structure of the command instruction is independent of the order of the parameter constituents and their corresponding connecting constituents. 2. Data storage system as stated in claim 1, characterized in that the instruction bodies, during use, obtain and store in the storage bodies a pointer for each of the command components, the connection components and the parameter components of a command instruction being used in the command instruction body, the pointers being representative of the characteristics and location of the command components, the connection components and the parameter components, the instruction means then executing the components in a predetermined order. 3. Procedure for managing a data processing system in relation to data storage and data retrieval, characterized in that it includes that a user enters a plurality of command instructions into another storage means for use in a command instruction means introduces a plurality of instructions into a first storage means for use in an instruction means and interconnects command instruction means and the instruction means with the data processing system when introducing an operating system, the command instructions comprising command components and connection components, each of the command components and each of the connection components having one or more parameter components, the command components controlling the operation of the data processing system depending on one or more of the parameter components related by one or more of the connection components, so that the structure of the command instruction is dependent on the order of the parameter constituents and their corresponding connecting constituents. 4. Method as stated in claim 3, characterized in that the instruction body provides and stores pointers for each of the command components, connection components and parameter components in a command instruction, the pointers representing the characteristics and location of the command components, connection components and parameter components, with the instruction body then executing the components in a predetermined sequence. 5. Data processing system for data storage and data retrieval, characterized in that it includes a system bus, a bus controller, a storage device, an operating system, a central processing unit (CPU), and input/output devices, the system bus being arranged to provide electrical communication between the components of the apparatus depending on the bus controller and depending on the operating system , the storage means comprising a first storage containing a plurality of instructions for use in an instruction means for directing the operation of the data processing system and a second storage means which during use contains a plurality of command instructions for use in an instruction means for controlling the operation of the data processing system, the operating system providing an intermediate link between the instruction body and the command instruction body and the rest of the system, the command instruction body controls the data processing system under the direction of the instruction body, and the input/output body is arranged for the input of data to the device and the output of data from the device, as the bearing body also includes a third e storage means containing a plurality of data storage means, the data storage means including storage means for new data, first data definition storage means and second data definition storage means. 6. Data processing device as stated in claim 5, characterized in that the raw data storage means, the first data definition storage means and the second definition data storage means each comprise a plurality of data files and index files, the index files providing indexes for data in the data files, the first definition data storage means providing means to define the characteristics of the raw data in the raw data storage means, the second data definition storage means providing the means to define the characteristics of data in the first data definition storage means and means to define their own data, at the same time as the data in the raw data storage means, the first data definition storage means and the second data definition storage means are mainly independent. 7. Data processing device as stated in claim 6, characterized in that organs are arranged which, during use, enable the command instruction body to be informed about the definition of data in one of the data storage organs by means of the data storage organ which defines such data. 8. Data processing system as set forth in one of claims 5-7, characterized in that the first data definition storage means and the second data definition storage means provide means for storing data in a predetermined format, the second data definition storage means being predefined and provided by the instruction means and the first data definition storage means containing data files and index files which have been entered by a user and/or provided by instruction bodies to define data in the raw data storage body. 9. Data processing system as stated in one of the claims 5-8, characterized in that there are arranged bodies for obtaining and storing data in the first data definition storage body according to the definitions obtained by the second data definition storage body. 10. Data processing system as stated in claim 6, characterized in that the first data definition storage body and the second data definition storage body comprise bodies for representing all storages of data therein, bodies for representing indexes for the stored data, bodies for defining the characteristics of the stores of data and means to represent formats in which the data can be displayed by an input/output device. 11. Procedure for managing a data processing system in relation to data storage and data retrieval, characterized in that it includes providing a plurality of files for fresh data containing fresh data in a storage means for fresh data for a data storage means in a third storage means in a storage means in the data processing system, providing a plurality of first data definition files containing data obtaining first data definition files in a first data def initial storage means in the storage means and to obtain a plurality of other data definition files containing data which obtains other data definitions in another data definition storage means, the fresh data in the fresh definition storage means having characteristics defined by the first data storage means, the data in the first data de- definition storage body has characteristics that are defined by the second data definition storage body, the data in the second data definition storage body has characteristics that are defined by itself, at the same time as fresh data in the fresh data storage body, the data in the first data definition storage body and the data in the second data definition storage body Agerorgan are mainly independent. 12. Method as stated in claim 11, characterized in that it comprises informing the definition of data in one or more data storage bodies by querying the data storage body that defines such data. 13. Method as stated in claim 11 or 12, characterized in that it includes pre-defining and providing other data definition files in the second data definition body with the help of the instruction bodies, and directing a user of the data processing system to provide the first data definition files in the first data definition storage means and/or directing the plurality of instructions to provide the first data definition files. 14. Method as stated in claim 13, characterized in that it includes providing to store data in the first data definition storage device according to the definitions provided by the second data definition storage device. 15. Method as set forth in claim 14, characterized in that it comprises providing for the first data definition storage means and the second data definition storage means, a file of data representing the data files stored therein, a file of data representing indexes for the data that are stored therein, a file of data for defining the characteristics of the data files stored therein and means for representing formats by means of which the data in the data files can be displayed by means of a device in the data processing means.