CN113239418A - Pattern making method, computer device and readable storage medium - Google Patents

Abstract

The application discloses a pattern making method, computer equipment and a computer readable storage medium, and relates to the technical field of clothing manufacturing. The pattern making method comprises the steps of receiving technological parameters of the knitted fabric, and generating a contour map and a corresponding pattern map of the knitted fabric based on the technological parameters; filling at least one pattern color code into the outline image, and acquiring a filling position corresponding to the pattern color code from the outline image; filling the positions to be filled corresponding to the filling positions in the pattern drawing, and filling the pattern color codes corresponding to the filling positions; and modifying the pattern color codes of the outline or the pattern to modify the pattern color codes corresponding to the outline or the pattern. The pattern plate making process can be simplified.

Description

Pattern making method, computer device and readable storage medium

Technical Field

The application relates to the technical field of garment manufacturing, in particular to a pattern making method, computer equipment and a computer readable storage medium.

Background

The pattern plate making process in the plate making of the flat knitting machine is carried out in plate making software at present, and the plate making software can be CAD software. The steps of pattern making by the typical plate making software are as follows: step 1: generating a sweater pattern diagram according to the input sweater process; step 2: receiving the drawing operation of the outer contour drawing of the garment piece on the pattern color code drawing, and determining the pattern color codes for filling the garment piece and the relative positions of the pattern color codes in the garment piece; and step 3: filling the sweater pattern picture with the pattern color codes according to the determined pattern color codes for filling the garment pieces and the relative positions of the pattern color codes in the garment pieces; and 4, step 4: and carrying out modification operation on the filled pattern color codes in the sweater pattern drawing. The flat knitting machine carries out knitting based on the modified sweater pattern drawing.

When the sweater pattern is reformed by using the sweater process in the original pattern plate-making process to regenerate the sweater pattern picture, the corresponding modification operation can only be manually repeated in the regenerated sweater pattern picture in order to modify the original sweater pattern picture. Leading to the technical problem of complicated design flow.

Disclosure of Invention

In view of the above, to solve the above technical problems, the present application provides a pattern making method, a computer apparatus, and a computer-readable storage medium.

To achieve the above object, the present application provides a pattern making method, comprising:

receiving technological parameters of the knitted fabric, and generating a contour map and a corresponding pattern map of the knitted fabric based on the technological parameters;

filling at least one pattern color code into the outline image, and acquiring a filling position corresponding to the pattern color code from the outline image;

filling the positions to be filled corresponding to the filling positions in the pattern drawing, and filling the pattern color codes corresponding to the filling positions;

and modifying the pattern color codes of the outline or the pattern to modify the pattern color codes corresponding to the outline or the pattern.

In order to solve the above technical problem, another technical solution adopted by the present application is to provide a computer device, including a memory and a processor, wherein the memory stores program data; the program data can be executed by a processor to implement the above-described method.

In order to solve the above technical problem, another technical solution adopted by the present application is to provide a computer-readable storage medium, in which program data is stored, and the program data can be executed by a processor to implement the above method.

Has the advantages that: different from the prior art, the method modifies the pattern color codes of the pattern drawing or the outline drawing to modify the pattern color codes corresponding to the outline drawing or the pattern drawing, so that the related information of the pattern color codes is stored in the outline drawing, and when the pattern drawing and the corresponding outline drawing of the knitted fabric are regenerated by reforming the pattern color codes by using the process parameters in the original pattern plate-making method, the regenerated knitted fabric pattern drawing is conveniently filled with the corresponding pattern color codes, and the original modifying operation does not need to be manually repeated in the regenerated knitted fabric pattern drawing. Thereby simplifying the design flow.

Drawings

FIG. 1 is a schematic flow chart of a first embodiment of a pattern making method of the present application;

FIG. 2 is a schematic structural diagram of a pattern diagram of one embodiment of a pattern making process of the present application;

FIG. 3 is an enlarged schematic view of region A of FIG. 2;

FIG. 4 is a schematic structural diagram of an outline of an embodiment of a pattern making process of the present application;

FIG. 5 is an enlarged schematic view of region B of FIG. 4;

FIG. 6 is a schematic flowchart of step S120 of a second embodiment of a pattern making method of the present application;

FIG. 7 is a schematic diagram of an implementation environment of step S120 of an embodiment of a pattern making method of the present application;

FIG. 8 is an enlarged schematic view of region C of FIG. 7;

FIG. 9 is an enlarged schematic view of the minimum circulation cell of the pattern of FIG. 8;

FIG. 10 is a schematic flowchart of step S110 of a third embodiment of a pattern making method according to the present application;

FIG. 11 is a schematic flowchart of step S120 of a third embodiment of a pattern making method of the present application;

FIG. 12 is a schematic diagram showing the division of knitting sections of a knitted fabric according to an embodiment of the pattern making method of the present application;

FIG. 13 is a schematic representation of the parameters of a stitch step of an embodiment of a pattern making process of the present application;

FIG. 14 is a schematic illustration of pattern color code filling of an outline of another embodiment of a pattern making process of the present application;

FIG. 15 is a schematic illustration of pattern color code filling of a pattern image of another embodiment of a pattern making process of the present application;

FIG. 16 is a schematic flowchart showing steps S150 to S190 of a pattern making method according to a fourth embodiment of the present application;

FIG. 17 is a schematic block diagram of an embodiment of a computer apparatus of the present application;

FIG. 18 is a schematic structural diagram of an embodiment of a computer-readable storage medium of the present application.

Detailed Description

In order to make the technical solutions of the present application better understood by those skilled in the art, the present application is described in further detail below with reference to the accompanying drawings and the detailed description. It is to be understood that the described embodiments are merely some embodiments of the present application and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any creative effort based on the embodiments in the present application belong to the protection scope of the present application.

Referring to FIG. 1, FIG. 1 is a schematic flow chart of a first embodiment of a pattern making method of the present application.

The pattern plate making method can be applied to plate making software. The plate making software may be CAD software. The pattern making method of the present application as shown in fig. 1 may include the steps of:

step S110: receiving the technological parameters of the knitted fabric, and generating a contour map and a corresponding pattern map of the knitted fabric based on the technological parameters.

The knitted fabric may be a sweater. The sweater is a knitted jacket woven by wool yarns or wool type chemical fiber yarns; of course in other embodiments, the knitted fabric may be a knit lower garment, such as various knit pants; or the knitted fabric may be a knitted undergarment; or the knitted fabric may be a knitted hat; or the knitted fabric may be a knitted scarf. In the examples of the present application, for convenience of description, a knitted fabric is described as a sweater.

In the first embodiment, fig. 2 to 5 are taken as an example for explanation, and fig. 2 is a schematic structural view of a pattern diagram of an embodiment of the pattern making method of the present application; FIG. 3 is an enlarged schematic view of region A of FIG. 2; FIG. 4 is a schematic structural diagram of an outline of an embodiment of a pattern making process of the present application; fig. 5 is an enlarged schematic view of a region B of fig. 4.

The pattern diagram 100 generated based on the process parameters includes a basic knitting color code defining basic knitting motion and a needle number changing color code 3p defining needle number changing motion, and various knitting splits exist. The basic knitting motion is the default knitting motion. The base knitting action may be a plain knitting action. The profile map 200 generated based on the process parameters includes a base weave color code defining a base weave action, and there are no various weave splits.

It should be appreciated that for the fully formed pattern 100, the base weave color codes include a front panel front weave color code 121 and a rear panel rear weave color code 122. For the fully formed pattern 100, the corresponding contour 200 may have a front panel contour 200a and a rear panel contour (not shown). As shown in fig. 4 to 5, the front panel contour diagram 200a includes a front panel front knitting color code 121, and the flat knitting motion of the front panel is defined by the front panel front knitting color code 121; the contour drawing of the rear garment piece comprises a rear knitting color code 122 of the rear garment piece, and the flat knitting motion of the rear garment piece is defined by the rear knitting color code 122 of the rear garment piece; both the front panel contour view 200a and the rear panel contour view include a body panel 210 and a sleeve panel 220. However, the front panel contour diagram 200a and the rear panel contour diagram are different in the area division of the body panel 210, and detailed descriptions thereof are omitted herein for reference in the prior art.

In other embodiments, for a non-fully formed pattern (not shown), the base color-coded weave includes a front panel front weave color-coded 121 or a rear panel rear weave color-coded 122. In the case where the non-full-molded pattern includes the front-part front knitting color code 121 and does not include the rear-part rear knitting color code 122, the outline corresponding to the non-full-molded pattern is the front-part outline 200a, and in the case where the non-full-molded pattern includes the rear-part rear knitting color code 122 and does not include the front-part front knitting color code 121, the outline corresponding to the non-full-molded pattern is the rear-part outline (not shown).

In the first embodiment, the basic knitting color codes in the outline 200 all have corresponding basic knitting color codes in the pattern 100 according to the knitting rules of the flat knitting machine, and the basic knitting color codes in the outline 200 and the corresponding basic knitting color codes in the pattern 100 define the same basic knitting actions. Specifically, the base knitting motion defined by the base knitting color code in the pattern diagram 100 has a corresponding knitting position in the knitted fabric, and the base knitting motion defined by the base knitting color code in the contour diagram 200 also has a corresponding knitting position in the knitted fabric, so that the base knitting color code in the contour diagram 200 and the base knitting color code in the pattern diagram 200 can be associated in accordance with the same correspondence relationship in the knitting positions of the defined base knitting motions in the knitted fabric according to the knitting law of the flat knitting machine.

In this embodiment, the platemaking software may receive the process parameters of the knitted fabric, and generate the contour map and the corresponding pattern map of the knitted fabric based on the process parameters.

Step S120: filling at least one pattern color code into the outline image, and acquiring a filling position corresponding to the pattern color code from the outline image.

In step S120, the basic weave color codes of the outline drawing are filled with pattern color codes, each pattern color code is correspondingly filled in one basic weave color code, and the basic weave color code is a filling position corresponding to the pattern color code.

Therefore, in step S120, the base weave color code filled with the pattern color code is acquired from the outline, that is, the filling position corresponding to the pattern color code is acquired from the outline.

Step S130: and filling the positions to be filled corresponding to the filling positions in the pattern drawing, and filling the pattern color codes corresponding to the filling positions.

In step S130, based on the basic weave color codes obtained in step S120, according to the corresponding relationship between the basic weave color codes in the pattern diagram and the basic weave color codes in the outline diagram, the corresponding basic weave color codes may be searched for in the pattern diagram, so as to fill the corresponding pattern color codes in the searched basic weave color codes.

Step S140: and modifying the pattern color codes of the outline or the pattern to modify the pattern color codes corresponding to the outline or the pattern.

In step S140, modifying the pattern color code of the pattern diagram to modify the pattern color code corresponding to the outline diagram; or, modifying the pattern color codes of the outline map to modify the pattern color codes corresponding to the pattern map.

Wherein the modification operation may be at least one of a move operation, a delete operation, and a replace operation. The moving operation can move the pattern and color codes from one filling position to another filling position; the deleting operation can delete the filled pattern color codes; the replacement operation may replace one pattern color code with another pattern color code.

In this way, in the first embodiment, the pattern color codes of the pattern drawing or the outline drawing are modified to modify the pattern color codes corresponding to the outline drawing or the pattern drawing, so that the related information of the pattern color codes is stored in the outline drawing, and when the process parameters in the original pattern plate-making method are modified to perform reshaping so as to regenerate the pattern drawing and the corresponding outline drawing of the knitted fabric, the plate-making software is convenient to fill the pattern color codes into the regenerated sweater outline drawing according to the circulation rule of the pattern color codes. Thereby simplifying the design flow.

Specifically, step S140 may include steps S141 to S142.

Wherein, step S141: and modifying the pattern color code of the pattern drawing or the outline drawing, and acquiring a modification position corresponding to the modification operation from the pattern drawing or the outline drawing.

In step S141, the basic weave color code corresponding to the pattern color code modified by the modifying operation in the pattern drawing or the contour drawing is the modifying position corresponding to the modifying operation, so that the basic weave color code corresponding to the modified pattern color code in the pattern drawing or the contour drawing can be obtained as the modifying position corresponding to the modifying operation.

Step S142: and carrying out corresponding modification operation on the pattern color codes filled in the positions to be modified corresponding to the modification positions in the outline diagram or the pattern diagram.

If the modified pattern color code is the basic weaving color code corresponding to the pattern image obtained in step S141, in step S142, a corresponding modification operation is performed on the pattern color code filled in the position to be modified corresponding to the contour image and the modification position, that is, the pattern color code filled in the basic weaving color code corresponding to the contour image and the obtained basic weaving color code is correspondingly modified.

If the modified pattern color code is the basic weaving color code corresponding to the contour map obtained in step S141, in step S142, a corresponding modification operation is performed on the pattern color code filled in the position to be modified corresponding to the pattern map and the modification position, that is, the corresponding modification operation is performed on the pattern color code filled in the basic weaving color code corresponding to the pattern map and the obtained basic weaving color code.

Referring to fig. 6, fig. 6 is a schematic flowchart of step S120 of the second embodiment of the pattern making method of the present application.

The pattern making method of the second embodiment is obtained by further limiting the pattern making method of the first embodiment, and is further limited in that step S120 further includes steps S121a to S124 a.

Step S121 a: and presetting a pattern color code graph to obtain an outer contour graph of the contour graph.

Fig. 7-9 are schematic diagrams illustrating an implementation environment of step S120 according to an embodiment of the pattern making method of the present application; FIG. 8 is an enlarged schematic view of region C of FIG. 7; fig. 9 is an enlarged schematic view of the pattern minimum circulation unit of fig. 8.

In the second embodiment, a pattern color code pattern 300 may be provided in advance, a plurality of pattern color codes 30 may be included in the pattern color code pattern 300, and the plurality of pattern color codes 30 may be used to define a pattern structure. The plurality of pattern color codes 30 may form a plurality of pattern minimum circulation cells 310 in the pattern color code pattern 300, and as shown in fig. 8 and 9, the pattern color code pattern 300 may include a plurality of pattern minimum circulation cells 310, and the plurality of pattern minimum circulation cells 310 may be arranged in a row direction and a column direction.

Alternatively, as shown in fig. 9, the pattern minimum circulation unit 310 includes pattern color codes 30 such as a pin flipping code 31, a left shift code 32, and a right shift code 33, and the pin flipping code 31, the left shift code 32, and the right shift code 33 may be distributed as shown in fig. 9 to form a 3 × 3 twisted pattern.

Alternatively, as shown in fig. 9, the minimum circulation unit 10 of the pattern color code 30 includes a stitch change color code 31, a left shift stitch color code 32, and a right shift stitch color code 33, a front panel front knitting color code 121, and a front panel rear knitting color code 123 to form a more complicated pattern. In this second embodiment, the outline map 201 may be a figure formed by the outer edge lines of the outline map 200.

Step S122 a: the outline pattern is arranged on the pattern color code pattern.

In the present embodiment, taking fig. 7 as an example for explanation, the outer contour map 201 may be disposed on the pattern color code map 300, and the outer contour map 201 may be dragged to change the position of the outer contour map 201 in the pattern color code map 300. Specifically, a center point D may be displayed in the outline diagram 201, and the user drags the center point D to adjust the position of the outline diagram 201 in the design color code diagram 300.

Step S123 a: filling the figure color codes of the figure color code graph positioned in the outer contour graph onto the contour graph.

In the second embodiment, the design color codes in the outline drawing are respectively filled on the basic weaving color codes at corresponding positions in the outline drawing on the basis of the relative position relationship between the design color codes and the outline drawing.

In the second embodiment, the outer contour diagram is arranged on the pattern color diagram, and the pattern color codes of the pattern color diagram in the outer contour diagram are automatically filled in the outer contour diagram, so that the relative positions of the pattern color codes in the outer contour diagram and the outer contour diagram are changed by adjusting the position of the outer contour diagram in the pattern color diagram, and the pattern color codes can be filled in the outer contour diagram at more proper positions.

Referring to fig. 10, fig. 10 is a schematic flow chart of step S110 of the third embodiment of the pattern making method of the present application; fig. 11 is a schematic flowchart of step S120 of the third embodiment of the pattern making method of the present application.

The pattern making method of the third embodiment is obtained by further limiting the pattern making method of the first embodiment, and is further limited in that step S110 further includes step S111 to step S113; and step S120 further includes steps S121b to S124 b.

Step S111: receiving the style parameter of the knitted fabric, and dividing the knitted fabric into a plurality of knitting subareas based on the style parameter.

The knitted fabric can have different knitting subareas according to different style parameters. The description will be made by taking a knitted fabric as an example, wherein the knitted fabric includes a front garment piece and a rear garment piece. Fig. 12 is a schematic diagram illustrating the division of knitting regions of a knitted fabric according to an embodiment of the pattern making method of the present application. The front panel contour view 200a includes a front body panel 210a and a front sleeve panel 220 a. The knitted zones are illustrated by way of example of the front body panel 210 a. The front body panel 210a may be divided into a plurality of knitted zones. The plurality of knitting subareas can comprise a lower hem flat-swinging area 1, a lower clamping narrowing area 2, a middle waist flat-swinging area 3, a lower clamping needle adding area 4, a lower clamping flat-swinging area 5, a flat-narrowing area 6, a shoulder-hanging narrowing area 7, an upper clamping flat-swinging area 8, a sleeve tail sewing area 9 and a shoulder-hanging area 10.

The division of the knitted fabric sections is not constant, and for example, in the sweater of other styles, the front body 210a may not include the clip narrowing section 2 and the clip widening section 4.

Step S112: and acquiring the size parameters of the knitting subareas, and generating the needle transfer step parameters based on the size parameters of the knitting subareas.

In this third embodiment, the dimensional parameters of the braid-sections may include the height of the braid-sections and the width of each portion of the braid-sections. The stitch step parameters may be configured based on the height of the knitted zone and the width of each portion of the knitted zone. Fig. 13 is a schematic diagram illustrating parameters of a stitching step according to an embodiment of the pattern making method of the present application. As shown in fig. 13, the parameters of the needle rotation step may include an initial knitting width (not shown in fig. 13), a current step number (a number directly below "left side" shown in fig. 13), a needle rotation parameter (a number directly below "rotation" shown in fig. 13), a needle number variation parameter (a number directly below "needle" shown in fig. 13), a running number parameter of the current step (a number directly below "next" shown in fig. 13), a total height of the knitted fabric after the current step is completed (a number directly below "high" shown in fig. 13), a width of the knitted fabric after the current step is completed (a number directly below "wide" shown in fig. 13), and a functional parameter of the current step (a character directly below "function" shown in fig. 13).

In this step, for example, a needle rotation parameter, a needle number variation parameter, and a current step operation number parameter may be generated in accordance with the width dimension parameters of the knitting sections at different heights of the knitted fabric. Specifically, the generation of the parameters of the needle rotation step may refer to related records in the prior art, and will not be described in detail herein.

Step S113: and generating a contour map and a corresponding pattern map of the knitted fabric according to the needle rotation step parameters.

For example, the basic knitting color codes corresponding to the knitting sub-areas in the pattern drawing may be generated according to the needle rotation parameter, the needle number variation parameter, and the motion number parameter of the current step, and the basic knitting color codes corresponding to the knitting sub-areas in the contour drawing may be generated according to the needle number variation color codes corresponding to the knitting sub-areas in the pattern drawing according to the function parameter of the current step.

Step S121 b: and presetting a pattern color code graph to obtain an outer contour graph of the contour graph.

Step S121b is the same as step S121a, and is not repeated here.

Step S122 b: the outline pattern is arranged on the pattern color code pattern.

Step S122b is the same as step S122a, and is not repeated here.

Step S123 b: and acquiring the pattern color codes of the pattern color code graph positioned in the outer contour graph.

Taking fig. 7-9 as an example, in this embodiment, after the outer contour diagram 201 is arranged on the pattern color diagram 300, the pattern color codes 30 in the pattern color diagram 300 can be divided into the pattern color codes 30 located in the outer contour diagram 201 and the pattern color codes 30 located outside the outer contour diagram 201, and in step 123b, the pattern color codes 30 in the outer contour diagram 201 of the pattern color diagram 300 can be obtained.

Step S124 b: and acquiring the selected knitting subarea on the contour map.

In step S124b, the user may select a braid partition on the outline so that the platemaking software can obtain the braid partition selected by the user on the outline. The description will be given by taking fig. 12 as an example. For example, the user can select the middle waist panning area 3 and the clip lower stitch area 4 on the outline map, and the plate making software can obtain the middle waist panning area 3 and the clip lower stitch area 4.

Step S125 b: filling the pattern color codes of the weaving subareas correspondingly selected from the obtained pattern color codes in the outer contour diagram to the selected weaving subareas.

In step S125b, the pattern color codes corresponding to the selected knitting sub-area in the acquired pattern color codes in the outer contour diagram are filled into the selected knitting sub-area, and the pattern color codes are not filled into the unselected knitting sub-areas.

Taking fig. 7-9 and 12 as examples, if the user selects the middle waist panning area 3 and the clip lower stitch area 4 in step S124b, in step S125b, the pattern color codes corresponding to the middle waist panning area 3 in the obtained pattern color codes 30 in the outer contour map 201 are filled into the middle waist panning area 3, the pattern color codes 30 corresponding to the clip lower stitch area 4 in the obtained pattern color codes 30 in the outer contour map 201 are filled into the clip lower stitch area 4, and in the unselected knitting areas, the pattern color codes 30 are not filled as in the lower swing panning area 1, the clip lower stitch area 2, the clip lower panning area 5, the flat stitch area 6, the shoulder hanging stitch area 7, the clip upper panning area 8, the sleeve tail stitch area 9 and the shoulder hanging area 10.

In the third embodiment, the pattern color code 30 can be selectively filled in each area of the outline, which facilitates the user operation.

In another embodiment, the partition manner of the knitting partition is not limited to the manner shown in fig. 12, for example, in this another embodiment, fig. 14 and fig. 15 are taken as examples for explanation, and fig. 14 is a pattern color code filling schematic diagram of an outline of another embodiment of the pattern making method of the present application; fig. 15 is a schematic view of pattern color code filling of a pattern image according to another embodiment of the pattern making method of the present application.

In another embodiment, as shown in fig. 14, the knitted fabric may be divided into a preset pattern filling area 1b and an un-pattern area 2b, and the pattern color corresponding to the preset pattern filling area 1b in the obtained pattern color pattern in the outer contour diagram may be filled into the preset pattern filling area 1b, while the un-pattern area 2b is not filled with the pattern color. The pattern diagram 100 corresponding to fig. 14 is shown in fig. 15, wherein the pattern color codes filled in the area 3b of fig. 15 correspond to the pattern color codes filled in the preset pattern filling area 1b of fig. 14, and the area 4b corresponds to the non-pattern area 2 b.

Referring to fig. 16, fig. 16 is a schematic flow chart of steps S150 to S190 of the pattern making method according to the fourth embodiment of the present application.

The pattern making method of the fourth embodiment is obtained by further limiting the pattern making method of the third embodiment, and further includes steps S150 to S190 after step S140.

Step S150: and receiving the size parameters of the knitted fabric, and correspondingly changing the size parameters of each knitting subarea of the knitted fabric based on the size parameters.

Common size parameters of the knitted fabric include S size, M size, L size, XL size and XXL size, and the size parameters have corresponding conversion relations, so that the size parameters corresponding to different size parameters can be obtained according to the conversion relations between the size parameters and the size parameters. Therefore, when the size parameter of the knitted fabric is received, the size parameter of each knitting section of the knitted fabric can be actively obtained from the conversion relationship between the size parameter and the size parameter. Generally, the ratio between the size of the different knitting sections of the size-changed knitted fabric and the size of the corresponding knitting sections of the knitted fabric before the size change is the same.

For example, if the size of the knitted fabric is changed from S size to M size, the knitted fabric of M size is obtained by enlarging the knitted fabric of S size in an equal proportion.

Step S160: the parameter of the needle rotation step is changed based on the changed size parameter of each knitting section of the knitted fabric.

In step S160, if the size parameter of the knitting section is changed, the corresponding needle rotation parameter and the total height of the knitted fabric after the execution of the current step, and/or the needle number variation parameter and the width of the knitted fabric after the execution of the current step, and/or the number of times of operation of the current step and the total height and width of the knitted fabric after the execution of the current step are changed in the needle rotation step parameter. Specifically, reference may be made to related descriptions in the prior art, which are not repeated herein.

Step S170: and generating a modified pattern diagram and a modified contour diagram of the knitted fabric according to the modified needle rotation step parameters.

The manner of generating the modified pattern diagram and the modified outline diagram in step S170 may specifically refer to the description about generating the outline diagram of the knitted fabric and the corresponding pattern diagram in step S113, and the difference is that the dimensions of the modified pattern diagram and the modified outline diagram are changed relative to those before modification, and are not described herein again.

Step S180: and acquiring the weaving subarea corresponding to the at least one pattern color code from the contour map before modification.

Step S190: filling the knitting subareas corresponding to the acquired knitting subareas in the changed outline of the knitted fabric with pattern color codes corresponding to the acquired knitting subareas.

The following describes steps S180 to S190.

The changed contour map is obtained by reducing or enlarging the contour map before being changed according to a preset proportion relative to the contour map before being changed in the size relation, so that the splitting of each weaving subarea is not changed relative to the contour map before being changed. That is, the knitting section after the modification and the knitting section before the modification have the same style based on the knitted fabric and have a corresponding relationship. Therefore, the knitting subarea filled with at least one pattern color code in the profile before modification can be obtained, the knitting subarea corresponding to the obtained knitting subarea can be searched in the profile after modification, and the corresponding pattern color code can be automatically filled.

In this way, in the fourth embodiment, the corresponding pattern color codes can be automatically filled in the corresponding knitting subareas after the change of the outline map based on the pattern color code filling condition of the knitting subareas before the change of the outline map, and the operation of a user is facilitated.

Referring to fig. 17, fig. 17 is a schematic structural diagram of an embodiment of a computer device of the present application.

As shown in fig. 17, computer device 400 may include a memory 410 and a processor 420. The processor 420 is electrically coupled to the memory 410. The memory 410 is used to store program data. The program data can be loaded and executed by processor 420 to implement the pattern making method of the above-described embodiment of the present application.

Referring to fig. 18, fig. 18 is a schematic structural diagram of an embodiment of a computer-readable storage medium of the present application.

As shown in fig. 18, the computer-readable storage medium 500 may include at least one storage block 510, and the program data is stored in the at least one storage block 510, or in a part of the storage block 510, respectively. The program data can be executed by a processor to implement the pattern making method of the above embodiment.

The computer-readable storage medium 500 in the present embodiment may be a storage medium built in the memory 410 of the computer apparatus 400 in fig. 17. In other embodiments, the storage device may be a usb disk, a network disk, a storage hard disk, or the like having a storage function.

The above embodiments are merely examples and are not intended to limit the scope of the present disclosure, and all modifications, equivalents, and flow charts using the contents of the specification and drawings are included in the scope of the present disclosure.

Claims (10)

1. A pattern plate making method, comprising:

receiving technological parameters of the knitted fabric, and generating a contour map and a corresponding pattern map of the knitted fabric based on the technological parameters;

filling at least one pattern color code into the outline, and acquiring a filling position corresponding to the pattern color code from the outline;

filling the pattern color codes corresponding to the filling positions into the positions to be filled corresponding to the filling positions of the pattern drawings;

and modifying the pattern color codes of the pattern drawings or the outline drawings so as to modify the pattern color codes corresponding to the outline drawings or the pattern drawings.

2. The pattern making method according to claim 1, wherein the step of modifying the pattern color code of the pattern drawing or the outline drawing to modify the outline drawing or the pattern color code corresponding to the pattern drawing comprises:

modifying the pattern color codes of the pattern drawing or the outline drawing, and acquiring a modification position corresponding to the modification operation from the pattern drawing or the outline drawing;

and carrying out corresponding modification operation on the pattern color codes filled in the positions to be modified corresponding to the modification positions in the outline diagram or the pattern diagram.

3. The pattern making method according to claim 2,

the step of filling the outline with at least one pattern color code comprises:

presetting a pattern color code graph, and acquiring an outer contour graph of the contour graph;

arranging the outer contour drawing on the pattern color code drawing;

filling the figure color codes of the figure color code graph positioned in the outer contour graph onto the contour graph.

4. The pattern making method according to claim 1,

the step of receiving the technological parameters of the knitted fabric and generating the contour map and the corresponding pattern map of the knitted fabric based on the technological parameters comprises the following steps:

receiving style parameters of the knitted fabric, and dividing the knitted fabric into a plurality of knitting subareas based on the style parameters;

obtaining the size parameters of the knitting subareas, and generating needle transfer step parameters based on the size parameters of the knitting subareas;

and generating a contour map and a corresponding pattern map of the knitted fabric according to the needle rotation step parameters.

5. The pattern making method according to claim 4,

the step of filling the outline with at least one pattern color code comprises:

presetting a pattern color code graph, and acquiring an outer contour graph of the contour graph;

arranging the outer contour drawing on the pattern color code drawing;

acquiring pattern color codes of the pattern color code image in the outer contour image;

acquiring a weaving subarea selected on the contour map;

filling the pattern color codes corresponding to the selected weaving subarea in the obtained pattern color codes in the outer contour diagram to the selected weaving subarea.

6. The pattern making method according to claim 4,

the step of modifying the pattern color code of the pattern drawing to modify the pattern color code corresponding to the outline drawing comprises the following steps:

receiving size parameters of the knitted fabric, and correspondingly changing the size parameters of all knitting subareas of the knitted fabric based on the size parameters;

changing the parameter of the needle rotation step based on the changed size parameter of each knitting subarea of the knitted fabric;

generating a modified pattern diagram and a modified contour diagram of the knitted fabric according to the modified needle turning step parameters;

acquiring a weaving subarea corresponding to the at least one pattern color code from the contour map before modification;

and filling the knitting subareas corresponding to the acquired knitting subareas in the changed outline of the knitted fabric with pattern color codes corresponding to the acquired knitting subareas.

7. The pattern making method according to claim 1,

the modifying operation of the pattern color codes of the pattern drawing or the outline drawing comprises the following steps:

and performing at least one of a shift operation, a delete operation and a replace operation on the pattern color code of the pattern drawing or the outline drawing.

8. The pattern making method according to claim 1,

the step of modifying the pattern color code of the outline or the pattern drawing to modify the pattern color code corresponding to the outline or the pattern drawing comprises the following steps:

modifying the pattern color codes of the pattern drawings to modify the pattern color codes corresponding to the outline drawings;

or modifying the pattern color codes of the outline drawing to modify the pattern color codes corresponding to the pattern drawing.

9. A computer device, characterized in that the computer device comprises:

a memory storing program data;

and a processor, said program data being executable by said processor to implement the pattern making method of any one of claims 1 to 8.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium stores program data executable by a processor to implement the pattern plate making method according to any one of claims 1 to 8.

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