CN109388836B - Method and device for making unstructured well logging interpretation chart - Google Patents

Abstract

The invention provides a method and a device for manufacturing an unstructured well logging interpretation plate, wherein the method comprises the following steps: obtaining drawing elements of a logging interpretation plate, wherein the drawing elements comprise comprehensive description information, static drawing elements and dynamic drawing elements; acquiring the attribute of the comprehensive description information, the attribute of the static drawing element and the attribute of the dynamic drawing element, and combining the attribute of the comprehensive description information, the attribute of the static drawing element and the attribute of the dynamic drawing element into a logging interpretation plate expression; calling a visualization method function corresponding to each element in the drawing elements from the visualization method library, wherein the visualization method function is used for drawing the elements corresponding to the visualization method function on the logging interpretation plate; and drawing a logging explanation plate according to the visualization method function and the logging explanation plate expression. The method and the device for manufacturing the unstructured well logging interpretation plate improve the expandability of the interpretation plate.

Description

Method and device for making unstructured well logging interpretation chart

Technical Field

The invention relates to an oil and gas field exploration technology, in particular to a method and a device for manufacturing an unstructured well logging interpretation chart.

Background

The interpretation plate is a drawing interpretation technology of logging information, the interpretation plate takes two kinds of logging data as coordinates, a sample is drawn on a plane graph, and elements such as standard lines are added in the plane graph according to the distribution rule of sample points to assist in marking required drawing elements.

In the prior art, when an explanation plate is manufactured, the explanation plate analyzes a plate expression with known data structure definition through a visualization program, and then finishes drawing the explanation plate according to a drawing code of each analyzed drawing element.

By adopting the prior art, when a new drawing element needs to be added in the interpretation plate, the analysis function of the interpretation plate expression data needs to be rewritten and the drawing code of the drawing element needs to be added, so that the extensibility of the interpretation plate is poor.

Disclosure of Invention

The invention provides a method and a device for manufacturing an unstructured well logging interpretation plate, which improve the expandability of the interpretation plate.

The invention provides a method for manufacturing an unstructured well logging interpretation plate, which comprises the following steps:

obtaining drawing elements of a logging interpretation plate, wherein the drawing elements comprise comprehensive description information, static drawing elements and dynamic drawing elements;

acquiring the attribute of the comprehensive description information, the attribute of the static drawing element and the attribute of the dynamic drawing element, and combining the attribute of the comprehensive description information, the attribute of the static drawing element and the attribute of the dynamic drawing element into a logging interpretation plate expression;

calling a visualization method function corresponding to each element in the drawing elements from a visualization method library, wherein the visualization method function is used for drawing the elements corresponding to the visualization method function on a logging interpretation plate;

and drawing the logging interpretation plate according to the visualization method function and the logging interpretation plate expression.

In an embodiment of the present invention, the comprehensive description information includes one or more of the following items: the name of the plate, the display name of the plate and the type of the plate;

the static drawing elements include one or more of: logging response parameters, sample point data expression, coordinate axis expression and icon meaning expression;

the dynamic drawing elements include one or more of: the method comprises the following steps of lithology judgment standard, reservoir effectiveness judgment and marking, oil-gas-water identification standard and productivity grade standard.

In an embodiment of the present invention, before obtaining the drawing element of the well logging interpretation plate, the method further includes:

and acquiring a new visual method function, and storing the new visual method function into the visual method library.

In an embodiment of the present invention, all visualization method functions in the visualization method library share a call interface.

In an embodiment of the present invention, all visualization method functions in the visualization method library share an attribute resolution code, and the attribute resolution code is used for resolving an attribute of an element corresponding to the visualization method function.

The invention provides a device for making an unstructured well logging interpretation chart, which comprises:

the element acquisition module is used for acquiring drawing elements of the logging interpretation plate, and the drawing elements comprise comprehensive description information, static drawing elements and dynamic drawing elements;

an attribute obtaining module, configured to obtain an attribute of the integrated description information, an attribute of the static drawing element, and an attribute of the dynamic drawing element, and combine the attribute of the integrated description information, the attribute of the static drawing element, and the attribute of the dynamic drawing element into a logging interpretation plate expression;

a calling module, configured to call, from a visualization method library, a visualization method function corresponding to each of the rendering elements, where the visualization method function is configured to render an element corresponding to the visualization method function on a logging interpretation plate;

and the drawing module is used for drawing the logging interpretation plate according to the visualization method function and the logging interpretation plate expression.

In an embodiment of the present invention, the integrated description information includes a plate name, a plate display name, and/or a plate type;

the static drawing elements include: logging response parameters, sample point data expression, coordinate axis expression and/or icon meaning expression;

the dynamic drawing elements include: the method comprises the following steps of lithology judgment standard, reservoir effectiveness judgment and marking, oil-gas-water identification standard and/or productivity grade standard.

In an embodiment of the present invention, the obtaining module is further configured to obtain a new visualization method function, and store the new visualization method function in the visualization method library.

In an embodiment of the present invention, all visualization method functions in the visualization method library share a call interface.

In an embodiment of the present invention, all visualization method functions in the visualization method library share an attribute resolution code, and the attribute resolution code is used for resolving an attribute of an element corresponding to the visualization method function.

The invention provides a method and a device for manufacturing an unstructured well logging interpretation plate, wherein the method comprises the following steps: obtaining drawing elements of a logging interpretation plate, wherein the drawing elements comprise comprehensive description information, static drawing elements and dynamic drawing elements; acquiring the attribute of the comprehensive description information, the attribute of the static drawing element and the attribute of the dynamic drawing element, and combining the attribute of the comprehensive description information, the attribute of the static drawing element and the attribute of the dynamic drawing element into a logging interpretation plate expression; calling a visualization method function corresponding to each element in the drawing elements from the visualization method library, wherein the visualization method function is used for drawing the elements corresponding to the visualization method function on the logging interpretation plate; and drawing a logging explanation plate according to the visualization method function and the logging explanation plate expression. The method and the device for manufacturing the unstructured well logging interpretation plate improve the expandability of the interpretation plate. The invention provides a method and a device for manufacturing an unstructured well logging interpretation plate, which are characterized in that an unstructured data structure is adopted to express comprehensive description information, static drawing elements and dynamic drawing elements of the plate in the well logging interpretation plate, and any type of well logging interpretation plate can be expressed through an organization mode, so that the expression mode of the well logging interpretation plate is unified; and the visualization method with the uniform attribute analysis code and the uniform drawing attribute list interface is adopted, and for newly added drawing elements, only the visualization method of the newly added drawing elements is needed to be realized, so that the expandability of the visualization function of the interpretation plate is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic flow chart of a first embodiment of a method for making an unstructured well logging interpretation plate according to the present invention;

FIG. 2 is a schematic diagram of a first embodiment of an unstructured well logging interpretation template of the present invention;

FIG. 3 is a schematic diagram of a second embodiment of an unstructured well logging interpretation template of the present invention;

FIG. 4 is a schematic view of a third embodiment of an unstructured well logging interpretation template of the present invention;

FIG. 5 is a schematic structural diagram of a first embodiment of an unstructured well logging interpretation plate making apparatus according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The technical solution of the present invention will be described in detail below with specific examples. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments.

FIG. 1 is a schematic flow chart of a first embodiment of a method for making an unstructured well logging interpretation plate according to the present invention. The execution main body of the embodiment can be an electronic device such as a mobile phone, a computer or a television. As shown in fig. 1, the method of this embodiment includes the following steps:

s101: and obtaining drawing elements of the logging interpretation plate, wherein the drawing elements comprise comprehensive description information, static drawing elements and dynamic drawing elements.

In particular, the drawing element information may be input by a user of the electronic device.

Wherein, the comprehensive description information can be defined as

<chart name＝""alias＝""type＝"">

The method includes, but is not limited to, the following three types of fixed attribute information:

name: the name of the well logging interpretation plate;

alias: displaying the name of the well logging interpretation chart;

type: well logging interpretation plate type.

Static drawing elements include, but are not limited to, x coordinate axes, y coordinate axes, icon type information, and sample point data. The expression format of the static drawing elements is as follows:

the x field and the y field respectively represent attribute information of an x coordinate axis and a y coordinate axis, and include but are not limited to the following six kinds of fixed attribute information:

name: a name of the curve;

alias: displaying names by coordinate axes;

leftscale: left scale numerical value;

right scale: right scale numerical values;

scalestep: the scale interval drawn;

scaletype: scale type (there may be 2 types: linear; log: logarithmic).

The Legend field represents attribute information of an icon type, including but not limited to the following two types of attribute information:

name: an icon type name;

alias: the icon type displays a name.

The data field represents sample point data information, including but not limited to the following two types of attribute information:

name: a sample point data name;

alias: the sample point data shows a name.

At the next stage of the data, a plurality of data fields are included, point is used as a field name, and the data fields include but are not limited to the following three attributes:

x: the x-axis value;

y: the value of the y axis;

legend: the name of the icon.

Dynamic drawing elements include, but are not limited to, standard lines, standard regions, text. The expression format of the dynamic drawing element is as follows:

wherein obj represents attribute information of each dynamic drawing element, including but not limited to the following two fixed attributes:

name: dynamic drawing element names;

type: dynamic drawing element types.

At the next level of obj, several dynamic properties are included, with "property" as the field name, and the dynamic properties include, but are not limited to, the following two properties:

name: an attribute name;

value: an attribute value.

S102: and acquiring the attribute of the comprehensive description information, the attribute of the static drawing element and the attribute of the dynamic drawing element, and combining the attribute of the comprehensive description information, the attribute of the static drawing element and the attribute of the dynamic drawing element into a logging interpretation plate expression.

Specifically, the format in which the attribute of the integrated description information, the attribute of the static drawing element, and the attribute of the dynamic drawing element are combined into the interpretation layout expression is as follows:

s103: and calling a visualization method function corresponding to each element in the drawing elements from the visualization method library, wherein the visualization method function is used for drawing the elements corresponding to the visualization method function on the logging interpretation plate.

Specifically, the visualization method library includes a visualization method function, and the visualization method function includes a drawing function for the layout comprehensive description information, the static drawing element, and the dynamic drawing element. Each item element in the description information, each item element in the static drawing elements and each item element in the dynamic drawing elements have their corresponding visualization method functions. Each element uniquely corresponds to a visualization method function, and the visualization method function is used for drawing the element uniquely corresponding to the visualization method function on a logging interpretation plate.

S104: and drawing a logging explanation plate according to the visualization method function and the logging explanation plate expression.

Specifically, the electronic device calls attributes of elements in the well logging interpretation plate expression, namely names and values of the elements, by executing the visualization method function, and draws the elements into the well logging interpretation plate. When a plurality of elements are included in the well logging interpretation plate expression, the element corresponding to each visualization method function is drawn by executing the visualization method function.

Optionally, in the above embodiment, before S101, the method further includes: and acquiring a newly added visual method function, and storing the newly added visual method function into a visual method library.

Specifically, the new visualization method function may be input by the user. When the logging interpretation plate is drawn, if new elements are added, new method functions are added in the visualization method library, and the drawing program does not need to be modified again.

Optionally, in the above embodiment, all visualization method functions in the visualization method library share the call interface.

Optionally, in the above embodiment, all visualization method functions in the visualization method library share an attribute resolution code, and the attribute resolution code is used to resolve an attribute of an element corresponding to the visualization method function.

Specifically, the visualization method library has a uniform attribute analysis code and a uniform drawing attribute list interface for the drawing codes of the plate comprehensive description information, the static drawing elements and the dynamic drawing elements. The visualization method library can be expanded by adding new drawing element drawing codes.

The method for manufacturing the unstructured well logging interpretation plate improves the expandability of the interpretation plate. In the method for making the unstructured well logging interpretation plate, the integrated description information, the static drawing elements and the dynamic drawing elements of the plate in the well logging interpretation plate are expressed by adopting an unstructured data structure, and any type of well logging interpretation plate can be expressed by the organization mode, so that the expression mode of the well logging interpretation plate is unified; and the visualization method with the uniform attribute analysis code and the uniform drawing attribute list interface is adopted, and for newly added drawing elements, only the visualization method of the newly added drawing elements is needed to be realized, so that the expandability of the visualization function of the interpretation plate is greatly improved.

Specifically, in the above-described embodiments, the integrated description information includes one or more of the following: the name of the plate, the display name of the plate and the type of the plate; the static drawing elements include one or more of: logging response parameters, sample point data expression, coordinate axis expression and icon meaning expression; the dynamic drawing elements include one or more of: the method comprises the following steps of lithology judgment standard, reservoir effectiveness judgment and marking, oil-gas-water identification standard and productivity grade standard.

For example, FIG. 2 is a schematic diagram of a first embodiment of an unstructured well logging interpretation template of the present invention. The logging interpretation plate shown in fig. 2 is a porosity-resistivity logging interpretation plate, and the method for drawing the logging interpretation plate is as follows:

step 1, defining the comprehensive description information attribute of the logging interpretation plate. The porosity-resistivity well interpretation plate is a Fluid Identification (Fluid Identification) type plate, which is designated as "Fluid Identification". The general description information is expressed as follows:

< chart name ═ XXX _ POR _ RT "alias ═ XXX well porosity-resistivity logging interpretation template" type ═ FluidIdentification ">

And 2, defining attributes of static drawing elements in the logging interpretation plate. The porosity-resistivity logging interpretation plate comprises four static drawing elements, namely an x coordinate axis, a y coordinate axis, icon type information and sample point data, wherein the porosity interval is 1-100, the resistivity interval is 0.1-100, and the used icon is an oil and gas conclusion icon. The static drawing elements are expressed as follows:

< x name ═ por ═ porosity (%) "leftscale ═ 1" rightscale ═ 100"scalestep ═ 0" scaletype ═ log "/>, and

the term "resistivity (Ω. m)" leftscale ═ 0.1"rightscale ═ 100" scalestep ═ 0"scaletype ═ log"/>, and the term "resistivity (Ω. m)" left ═ 0.1 "scalestscale ═ 0" scaletype ═ log "/>, respectively

< legend name ═ og _ result ═ alias ═ oil and gas conclusion "/>

<data>

< point x ═ 16.25 ═ 3.85 ═ legend ═ oil layer'/>, and

< point x ═ 13.70 ═ 2.62 ═ legend ═ oil layer'/>, and

…

< point x ═ 10.55"y ═ 0.88" legend ═ dry layer "/>

</data>

And 3, defining the attribute of the dynamic drawing element in the logging interpretation plate. The dynamic mapping elements of the porosity-resistivity well logging interpretation plate contain four water saturation (Sw) standard lines and four corresponding texts, wherein the standard lines are determined by five parameters, namely a, b, m, n, Rw and Sw. One of the standard lines and the corresponding text are expressed as follows:

<obj name＝"line1"type＝"rt_por_line">

<property name＝"a"value＝"1"/>

<property name＝"b"value＝"0.945"/>

<property name＝"m value＝"0.2047*ln(X/100)+2.1109"/>

<property name＝"n"value＝"1.9612"/>

<property name＝"Rw"value＝"0.015"/>

<property name＝"Sw"value＝"30"/>

<property name＝"style"value＝"solid"/>

<property name＝"color"value＝"black"/>

<property name＝"width"value＝"2"/>

</obj>

<obj name＝"text1"type＝"text">

<property name＝"text"value＝"Sw＝30％"/>

<property name＝"position"value＝"1.8,34"/>

<property name＝"color"value＝"black"/>

<property name＝"font"value＝"Times New Roman"/>

<property name＝"size"value＝"14"/>

<property name＝"rotation"value＝"20"/>

</obj>

and 4, combining the description attribute definition of the logging interpretation plate, the attribute definition of the static drawing element and the attribute definition of the dynamic drawing element to form the expression of the logging interpretation plate, wherein the combined logging interpretation plate is expressed as follows:

< chart name ═ XXX _ POR _ RT "alias ═ XXX well porosity-resistivity logging interpretation template" type ═ FluidIdentification ">

< x name ═ por ═ porosity (%) "leftscale ═ 1" rightscale ═ 100"scalestep ═ 0" scaletype ═ log "/>, and

the term "resistivity (Ω. m)" leftscale ═ 0.1"rightscale ═ 100" scalestep ═ 0"scaletype ═ log"/>, and the term "resistivity (Ω. m)" left ═ 0.1 "scalestscale ═ 0" scaletype ═ log "/>, respectively

< legend name ═ og _ result ═ alias ═ oil and gas conclusion "/>

<data>

< point x ═ 16.25 ═ 3.85 ═ legend ═ oil layer'/>, and

< point x ═ 13.70 ═ 2.62 ═ legend ═ oil layer'/>, and

…

< point x ═ 10.55"y ═ 0.88" legend ═ dry layer "/>

</data>

<obj name＝"line1"type＝"rt_por_line">

<property name＝"a"value＝"1"/>

<property name＝"b"value＝"0.945"/>

<property name＝"m"value＝"0.2047*ln(X/100)+2.1109"/>

<property name＝"n"value＝"1.9612"/>

<property name＝"Rw"value＝"0.015"/>

<property name＝"Sw"value＝"30"/>

<property name＝"style"value＝"solid"/>

<property name＝"color"value＝"black"/>

<property name＝"width"value＝"2"/>

</obj>

<obj name＝"text1"type＝"text">

<property name＝"text"value＝"Sw＝30％"/>

<property name＝"position"value＝"1.8,34"/>

<property name＝"color"value＝"black"/>

<property name＝"font"value＝"Times New Roman"/>

<property name＝"size"value＝"14"/>

<property name＝"rotation"value＝"20"/>

</obj>

</chart>

And 5, establishing a visual method library corresponding to the comprehensive description information, the static drawing elements and the dynamic drawing elements contained in the well logging interpretation plate expression. In the method library, visualization methods of the layout comprehensive description information, the static drawing elements and the dynamic drawing elements are respectively established, a visualization program adopts a uniform interface Draw (type, propertyList), and searches out a corresponding visualization method to visualize the object according to the analyzed object type, wherein the type in the interface represents the object type, and the propertyList represents the object attribute list. For example, for a standard line of water saturation of a porosity-resistivity well log interpretation plate, the visualization method library determines the visualization method of the standard line according to the object type rt _ por _ line, the visualization method obtains numerical values or calculation formulas of a, b, m, n, Rw and Sw from the object attribute list, and the relation between the porosity and the resistivity of the formation resistance is determined according to an Archie's formula:

wherein the content of the first and second substances,

rt is the formation resistivity, porosity. The visualization method is used for the porosity value phi of any point in the x coordinate axis_iDetermining a coordinate point in the plate by using the Archie's formula to obtain a corresponding resistivity value Rti

And after one coordinate point is obtained for all the points in the x coordinate axis, all the coordinate points are sequentially connected, and the visualization of the water saturation standard line is completed.

The method and the device for manufacturing the unstructured well logging interpretation plate improve the expandability of the interpretation plate. In the method for making the unstructured well logging interpretation plate, the integrated description information, the static drawing elements and the dynamic drawing elements of the plate in the well logging interpretation plate are expressed by adopting an unstructured data structure, and any type of well logging interpretation plate can be expressed by the organization mode, so that the expression mode of the well logging interpretation plate is unified; and the visualization method with the uniform attribute analysis code and the uniform drawing attribute list interface is adopted, and for newly added drawing elements, only the visualization method of the newly added drawing elements is needed to be realized, so that the expandability of the visualization function of the interpretation plate is greatly improved.

FIG. 3 is a schematic diagram of a second embodiment of an unstructured well logging interpretation template of the present invention; FIG. 3 is a diagram illustrating a seed life logging interpretation, and the embodiment shown in FIG. 3 is a visualization function for increasing the tax saturation standard of the seed life diagram based on the embodiment shown in FIG. 2. FIG. 4 is a schematic view of a third embodiment of an unstructured well logging interpretation template of the present invention; fig. 4 is a reservoir effectiveness judgment plate, and the embodiment shown in fig. 4 is a visualization method that adds two drawing elements, namely a conventional standard line and a standard area, on the basis of the embodiment shown in fig. 2. The implementation and codes are the same as those in the embodiment shown in fig. 2, and are not described again.

FIG. 5 is a schematic structural diagram of a first embodiment of an unstructured well logging interpretation plate making apparatus according to the present invention. As shown in fig. 5, the apparatus for making an unstructured well logging interpretation plate of the present embodiment includes: an element obtaining module 01, an attribute obtaining module 502, a calling module 503 and a drawing module 504. The element obtaining module 501 is configured to obtain drawing elements of a logging interpretation plate, where the drawing elements include description information, static drawing elements, and dynamic drawing elements; the attribute obtaining module 502 is configured to obtain attributes of the description information, attributes of the static drawing elements, and attributes of the dynamic drawing elements, and combine the attributes of the description information, the attributes of the static drawing elements, and the attributes of the dynamic drawing elements into a logging interpretation plate expression; the calling module 503 is configured to call a visualization method function corresponding to each element in the drawing elements from the visualization method library, where the visualization method function is configured to draw an element corresponding to the visualization method function on the logging interpretation plate; the rendering module 504 is configured to render a logging interpretation plate based on the visualization method function and the logging interpretation plate representation.

Optionally, in the above embodiment, the description information includes a plate name, a plate display name, and/or a plate type; the static drawing elements include: logging response parameters, sample point data expression, coordinate axis expression and/or icon meaning expression; the dynamic drawing elements include: the method comprises the following steps of lithology judgment standard, reservoir effectiveness judgment and marking, oil-gas-water identification standard and/or productivity grade standard.

Optionally, in the foregoing embodiment, the obtaining module is further configured to obtain a new visualization method function, and store the new visualization method function into the visualization method library.

Optionally, in the above embodiment, all visualization method functions in the visualization method library share the call interface. All visualization method functions in the visualization method library share an attribute analysis code, and the attribute analysis code is used for analyzing the attribute of the corresponding element of the visualization method function.

The device for making an unstructured well logging interpretation plate provided in this embodiment is used for executing the method for making an unstructured well logging interpretation plate in the embodiment shown in fig. 1, and has the same technical features and technical effects, which are not described herein again.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. A method for making an unstructured well logging interpretation plate, comprising:

obtaining drawing elements of a logging interpretation chart input by a user, wherein the drawing elements comprise comprehensive description information, static drawing elements and dynamic drawing elements;

acquiring the attribute of the comprehensive description information, the attribute of the static drawing element and the attribute of the dynamic drawing element, and combining the attribute of the comprehensive description information, the attribute of the static drawing element and the attribute of the dynamic drawing element into a logging interpretation plate expression;

calling a visualization method function corresponding to each element in the drawing elements from a visualization method library, wherein the visualization method function is used for drawing the elements corresponding to the visualization method function on a logging interpretation plate;

drawing the logging interpretation plate according to the visualization method function and the logging interpretation plate expression; all visualization method functions in the visualization method library share a calling interface; all visualization method functions in the visualization method library share an attribute analysis code, and the attribute analysis code is used for analyzing the attribute of the corresponding element of the visualization method function.

2. The method of claim 1,

the comprehensive description information comprises one or more of the following items: the name of the plate, the display name of the plate and the type of the plate;

the static drawing elements include one or more of: logging response parameters, sample point data expression, coordinate axis expression and icon meaning expression;

the dynamic drawing elements include one or more of: the method comprises the following steps of lithology judgment standard, reservoir effectiveness judgment and marking, oil-gas-water identification standard and productivity grade standard.

3. The method of claim 1, wherein prior to obtaining the drawing elements of the well log interpretation plate, further comprising:

and acquiring a new visual method function, and storing the new visual method function into the visual method library.

4. An apparatus for making an unstructured well logging interpretation plate, comprising:

the element acquisition module is used for acquiring drawing elements of a logging interpretation plate input by a user, and the drawing elements comprise comprehensive description information, static drawing elements and dynamic drawing elements;

an attribute obtaining module, configured to obtain an attribute of the integrated description information, an attribute of the static drawing element, and an attribute of the dynamic drawing element, and combine the attribute of the integrated description information, the attribute of the static drawing element, and the attribute of the dynamic drawing element into a logging interpretation plate expression;

a calling module, configured to call, from a visualization method library, a visualization method function corresponding to each of the rendering elements, where the visualization method function is configured to render an element corresponding to the visualization method function on a logging interpretation plate;

the drawing module is used for drawing the logging interpretation plate according to the visualization method function and the logging interpretation plate expression; all visualization method functions in the visualization method library share a calling interface; all visualization method functions in the visualization method library share an attribute analysis code, and the attribute analysis code is used for analyzing the attribute of the corresponding element of the visualization method function.

5. The apparatus of claim 4,

the comprehensive description information comprises a plate name, a plate display name and/or a plate type;

the static drawing elements include: logging response parameters, sample point data expression, coordinate axis expression and/or icon meaning expression;

the dynamic drawing elements include: the method comprises the following steps of lithology judgment standard, reservoir effectiveness judgment and marking, oil-gas-water identification standard and/or productivity grade standard.

6. The apparatus of claim 4,

the acquisition module is further used for acquiring a new visualization method function and storing the new visualization method function into the visualization method library.

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