Export from QGis to CAD » History » Version 24
Giulio Di Anastasio, 06/05/2021 17:19
| 1 | 1 | Giulio Di Anastasio | h1. Export from QGis to CAD |
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| 2 | 1 | Giulio Di Anastasio | |
| 3 | 1 | Giulio Di Anastasio | An algorithm has been created by Selvarani, to see the whole process click here: |
| 4 | 1 | Giulio Di Anastasio | https://redmine.auroville.org.in/projects/gis/wiki/Automatic_export_from_QGis_to_dxf |
| 5 | 2 | Giulio Di Anastasio | |
| 6 | 2 | Giulio Di Anastasio | h1. QGis Graphical Modeler: An algorithm to automatically export data directly from Gisaf to .dxf format (CAD) |
| 7 | 2 | Giulio Di Anastasio | |
| 8 | 4 | Giulio Di Anastasio | > * Login to PostGIS |
| 9 | 4 | Giulio Di Anastasio | |
| 10 | 4 | Giulio Di Anastasio | > * Directly from the Gisaf server, load all the layers which need to be converted into .dxf format |
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| 12 | 4 | Giulio Di Anastasio | > * Go to Processing Menu, click on “Graphical Modeler” (or Ctrl+Alt+G) |
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| 15 | 7 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10620/Graphical%20Modeler%20Menu.png! |
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| 19 | 5 | Giulio Di Anastasio | > * The “Model Designer” window will open: |
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| 21 | 10 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10621/Graphical%20Modeler%20Window.png! |
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| 23 | 9 | Giulio Di Anastasio | The final model will look like this: |
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| 25 | 10 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10622/Final%20Model%20Image.png! |
| 26 | 11 | Giulio Di Anastasio | |
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| 28 | 11 | Giulio Di Anastasio | *Below, the explanation on how the algorithm has been created.* |
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| 30 | 13 | Giulio Di Anastasio | > * An input to the algorithm is needed: go to “Inputs” tab and double click on “Vector Layer” |
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| 32 | 13 | Giulio Di Anastasio | |
| 33 | 13 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10623/Inputs.png! |
| 34 | 14 | Giulio Di Anastasio | |
| 35 | 14 | Giulio Di Anastasio | The window “Input Vector layer Parameter Definition” will open: |
| 36 | 14 | Giulio Di Anastasio | > * in “Description”, enter “Input Vector layer” |
| 37 | 14 | Giulio Di Anastasio | > * in “Geometry type” select “Any Geometry Type” |
| 38 | 14 | Giulio Di Anastasio | > * Click “Ok” |
| 39 | 14 | Giulio Di Anastasio | |
| 40 | 14 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10624/Inputs%20Window.png! |
| 41 | 15 | Giulio Di Anastasio | |
| 42 | 15 | Giulio Di Anastasio | Input is created as above. |
| 43 | 15 | Giulio Di Anastasio | As a second step, features need to be filtered, because some layers have different “Status” (E, D, F, etc. as defined in CSR Geomatics CAD Layer Naming Standards): |
| 44 | 15 | Giulio Di Anastasio | > * in the Algorithms panel, type “filter” in the Search Box: this way, all existing algorithms related to “filter” will be listed |
| 45 | 15 | Giulio Di Anastasio | > * double click on “Feature filter” |
| 46 | 15 | Giulio Di Anastasio | |
| 47 | 15 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10625/Feature%20Filter.png! |
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| 50 | 16 | Giulio Di Anastasio | “Feature filter” window will open: |
| 51 | 16 | Giulio Di Anastasio | |
| 52 | 16 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10626/Feature%20Filter%20Window.png! |
| 53 | 16 | Giulio Di Anastasio | |
| 54 | 16 | Giulio Di Anastasio | > * Click on ‘Add output filter’ icon |
| 55 | 16 | Giulio Di Anastasio | |
| 56 | 16 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10627/Add%20Output%20Filter.png! |
| 57 | 16 | Giulio Di Anastasio | |
| 58 | 16 | Giulio Di Anastasio | > * Click on expression button !https://redmine.auroville.org.in/attachments/download/10628/Expression%20Button.png! to write an expression for the filter. |
| 59 | 16 | Giulio Di Anastasio | |
| 60 | 16 | Giulio Di Anastasio | > * The Expression dialog will open, type the criteria for defining the filter, e.g. “STATUS”=’E’ |
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| 62 | 16 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10629/Status%20E%20Expression.png! |
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| 64 | 17 | Giulio Di Anastasio | > * Click “Ok”: the expression is added in the table of “Outputs and filters” as below. |
| 65 | 17 | Giulio Di Anastasio | > * In the field “Output Name”, type in the output as ‘E’. |
| 66 | 17 | Giulio Di Anastasio | |
| 67 | 17 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10630/Output%20Name.png! |
| 68 | 18 | Giulio Di Anastasio | |
| 69 | 18 | Giulio Di Anastasio | > * Repeat the same steps for all other status (Like D,F,N,T,M and X) |
| 70 | 18 | Giulio Di Anastasio | > * Click on the “Input layer” button and select “Model Input” in the drop-down list, it will change to “Input Vector layer”. Click on “Ok” |
| 71 | 18 | Giulio Di Anastasio | |
| 72 | 18 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10631/All%20Filters%20Ready.png! |
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| 74 | 18 | Giulio Di Anastasio | --- |
| 75 | 18 | Giulio Di Anastasio | |
| 76 | 18 | Giulio Di Anastasio | --- |
| 77 | 18 | Giulio Di Anastasio | |
| 78 | 18 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10632/Input%20Layer%20for%20Filters.png! |
| 79 | 19 | Giulio Di Anastasio | |
| 80 | 19 | Giulio Di Anastasio | The model will look like below: |
| 81 | 19 | Giulio Di Anastasio | |
| 82 | 19 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10633/Model%201%20Graphics.png! |
| 83 | 19 | Giulio Di Anastasio | |
| 84 | 19 | Giulio Di Anastasio | As the input layers were taken directly from Gisaf server, where their CRS is WGS 84-EPSG:4326, all outputs need to be reprojected in TM AUSPOS CRS, because the CAD overall survey map is in TM AUSPOS: |
| 85 | 19 | Giulio Di Anastasio | > * Go to “Algorithms” panel and type “reproject” in the Search Box: this way, all existing algorithms related to “reproject” will be listed |
| 86 | 19 | Giulio Di Anastasio | > * Double click on “Reproject layer” under “Vector general” |
| 87 | 19 | Giulio Di Anastasio | |
| 88 | 19 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10634/Reproject%20Algorithm.png! |
| 89 | 20 | Giulio Di Anastasio | |
| 90 | 20 | Giulio Di Anastasio | The “Reproject layer” dialog will open: |
| 91 | 20 | Giulio Di Anastasio | > * In the “Description” box type “Reproject layer ‘E’”: this will reproject only the features with status ‘E’ |
| 92 | 20 | Giulio Di Anastasio | |
| 93 | 20 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10635/Reproject%20Layer.png! |
| 94 | 20 | Giulio Di Anastasio | |
| 95 | 20 | Giulio Di Anastasio | > * In “Input layer” drop-down select “Algorithm Output”, click on the related box and a list of all available algorithm outputs will appear. |
| 96 | 20 | Giulio Di Anastasio | > * In “Using algorithm output” select ““E” from algorithm “Feature filter”” |
| 97 | 20 | Giulio Di Anastasio | |
| 98 | 20 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10636/Reproject%20Layer%20Input.png! |
| 99 | 20 | Giulio Di Anastasio | |
| 100 | 20 | Giulio Di Anastasio | > * In “Target CRS” select “USER;100028-TM AUSPOS” |
| 101 | 20 | Giulio Di Anastasio | |
| 102 | 20 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10637/Reproject%20Layer%20CRS.png! |
| 103 | 21 | Giulio Di Anastasio | |
| 104 | 21 | Giulio Di Anastasio | > * Click “Ok”. The model will look like below: |
| 105 | 21 | Giulio Di Anastasio | |
| 106 | 21 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10638/Model%201%20with%20Reprojection%20Graphics.png! |
| 107 | 22 | Giulio Di Anastasio | |
| 108 | 22 | Giulio Di Anastasio | > * Follow the same steps for all the status (N, D, F, T, M, X), from “Reproject” onwards |
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| 110 | 22 | Giulio Di Anastasio | Once finished, the model will look like this: |
| 111 | 22 | Giulio Di Anastasio | |
| 112 | 22 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10639/Full%20Model%20Image%20with%20Reprojections.png! |
| 113 | 22 | Giulio Di Anastasio | |
| 114 | 22 | Giulio Di Anastasio | The final step of the algorithm is to convert the outputs to .dxf format: |
| 115 | 22 | Giulio Di Anastasio | |
| 116 | 22 | Giulio Di Anastasio | > * Go to “Algorithms” panel, type “dxf” in the Search Box: this way, all existing algorithms related to “dxf” will be listed, |
| 117 | 22 | Giulio Di Anastasio | > * Double click on “v.out.dxf” from “GRASS” |
| 118 | 22 | Giulio Di Anastasio | |
| 119 | 22 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10640/Grass%20dxf%20Algorithm.png! |
| 120 | 22 | Giulio Di Anastasio | |
| 121 | 22 | Giulio Di Anastasio | > * The “v.out.dxf” window will open. In “Description” type “v.out.dxf ‘E’” |
| 122 | 22 | Giulio Di Anastasio | > * In “Name of input vector map”, click on the button and select “Algorithm output” |
| 123 | 22 | Giulio Di Anastasio | |
| 124 | 22 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10641/Grass%20dxf%20Algorithm%20Window.png! |
| 125 | 22 | Giulio Di Anastasio | |
| 126 | 22 | Giulio Di Anastasio | > * In the drop-down list, select ““Reprojected” from algorithm “Reproject layer “E”” |
| 127 | 22 | Giulio Di Anastasio | |
| 128 | 23 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10642/Grass%20dxf%20Algorithm%20Inputs%20Window.png! |
| 129 | 24 | Giulio Di Anastasio | |
| 130 | 24 | Giulio Di Anastasio | > * In “DXF vector” type “DXF ‘E’”. This means that the dxf is the final output of the algorithm |
| 131 | 24 | Giulio Di Anastasio | |
| 132 | 24 | Giulio Di Anastasio | p=. !https://redmine.auroville.org.in/attachments/download/10643/Grass%20dxf%20Algorithm%20Output%20Window.png! |