├── .gitignore
├── LICENSE
├── Main.py
├── README.md
└── epic
├── __init__.py
├── additional_files
├── EPiC_Database_2024.pkl
├── EPiC_Database_2024.xlsx
└── EPiC_Plugin_Modules_Only_v_1-02.ghpy
├── epic.py
├── epic_plugin_assembly_info.py
├── img
├── EPiC_Analysis_icon.png
├── EPiC_Built_Asset_icon.png
├── EPiC_Custom_Material_icon.png
├── EPiC_GH_Logo.jpg
├── EPiC_Help_icon.png
├── EPiC_Linear_Assembly_icon.png
├── EPiC_Material_icon.png
├── EPiC_Surface_Assembly_icon.png
├── EPiC_Unit_Assembly_icon.png
├── EPiC_Volumetric_Assembly_icon.png
└── EPiC_logo.png
├── src
├── EPiC_Analysis_Component.py
├── EPiC_Assembly_Linear_Component.py
├── EPiC_Assembly_Surface_Component.py
├── EPiC_Assembly_Units_Component.py
├── EPiC_Assembly_Volumetric_Component.py
├── EPiC_Built_Asset.py
├── EPiC_Custom_Material.py
├── EPiC_Help.py
└── EPiC_Material_Component.py
└── user_objects
├── EPiC Analysis_v1-02.ghuser
├── EPiC Assembly - Linear (m)_v1-02.ghuser
├── EPiC Assembly - Surface (m²)_v1-02.ghuser
├── EPiC Assembly - Units (no.)_v1-02.ghuser
├── EPiC Assembly - Volumetric (m³)_v1-02.ghuser
├── EPiC Built Asset_v1-02.ghuser
├── EPiC Custom Material_v1-02.ghuser
├── EPiC Help_v1-02.ghuser
└── EPiC Material_v1-02.ghuser
/.gitignore:
--------------------------------------------------------------------------------
https://raw.githubusercontent.com/beyondepic/EPiC_Grasshopper/dbd60529a190cebf1d0af4d6c2e0ec91e110e388/.gitignore
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/LICENSE:
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674 | .
675 |
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/Main.py:
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1 | import clr
2 | import epic.epic as epic
3 |
4 | clr.CompileModules("EPiC_Plugin_Modules_Only_v" + '_' + epic.__version__.replace('.','-') + ".ghpy",
5 | "epic/epic.py", "epic/epic_plugin_assembly_info.py")
6 |
7 |
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/README.md:
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1 | # EPiC Grasshopper
2 | *A Plugin for analysing embodied environmental flows*
3 |
4 | 
5 |
6 | **Authors:** André Stephan, Fabian Prideaux
7 |
8 | *Funded by the [Université Catholique de Louvain](https://www.uclouvain.be), Belgium*
9 |
10 | *How to cite in scientific articles:*
11 |
12 | Stephan, A., Prideaux, F., & Crawford, R. H. (2024). EPiC grasshopper: A bottom-up parametric tool to quantify life cycle embodied environmental flows of buildings and infrastructure assets. Building and Environment, 248, 111077. doi: [https://doi.org/10.1016/j.buildenv.2023.111077](https://doi.org/10.1016/j.buildenv.2023.111077)
13 |
14 |
15 | ## About:
16 | EPiC Grasshopper is a plug-in for Grasshopper (Rhinoceros) used to quantify
17 | life cycle embodied energy, greenhouse emissions and water for buildings and other built assets. It enables designers,
18 | engineers and other actors of the built environment to use the EPiC database directly within Grasshopper,
19 | in order to improve the life cycle embodied environmental performance of buildings and infrastructure assets.
20 |
21 | Calculations are made using hybrid embodied environmental flow coefficients from the EPiC Database.
22 | EPiC Grasshopper enables direct access to all EPiC materials, allows combining them into construction assemblies,
23 | and in turn, into built assets. The plug-in provides advanced data visualisation and slicing capabilities,
24 | enabling its users to quickly evaluate the total life cycle embodied environmental flows of assemblies
25 | and/or built assets, compare them, and break them down by material contribution.
26 | EPiC Grasshopper enables users to define their own custom materials, to export results to csv and
27 | to suggest a feature or report a bug directly from Grasshopper.
28 |
29 | ### EPiC Database
30 | 
31 |
32 | The EPiC Database is a comprehensive and consistent open-access Life Cycle Inventory of environmental flow coefficients for construction materials developed by the University of Melbourne. The database contains over 850 coefficients that can be incorporated into existing Life Cycle Assessment workflows and processes.
33 |
34 | Further information about the database, how it was compiled, and access to detailed datasets can be found at: www.epicdatabase.com.au
35 |
36 | ### License agreement
37 | EPiC Grasshopper is open-source, and licensed under a GNU GPLv3 license agreement.
38 | For more information visit: https://www.gnu.org/licenses/
39 |
40 | ### Plug-in download:
41 | Download the latest compiled version of the plugin at [food4Rhino.](https://www.food4rhino.com/en/app/epic-grasshopper)
42 |
43 | ### Requirements and dependencies:
44 | 1. [Rhino3d](https://www.rhino3d.com/)
45 | 2. [Grasshopper](https://www.grasshopper3d.com/) (included in Rhino3D)
46 |
47 | ### Installation
48 | - Download the latest compiled version of the plugin at [food4Rhino.](https://www.food4rhino.com/en/app/epic-grasshopper)
49 | - Expand the downloaded zip file
50 | - Delete any previous versions of EPiC Grasshopper
51 |
52 | > **Windows Installation:**
53 | > 1. Use the 220318_EPiC_Plugin_v_installer.exe file and follow the prompts
54 | > 2. Start Rhino/GH and enjoy EPiC Grasshopper
55 |
56 | > **Manual installation (MAC OS and Windows):**
57 | >
58 | > 1. Copy the folder 'Libraries\EPiC Grasshopper' to the 'Components' folder of Grasshopper (in Grasshopper hit File>Special Folders>Components Folder)
59 | > 2. Copy the folder 'User Objects\EPiC Grasshopper' to the 'User Objects' folder of Grasshopper (in Grasshopper hit File>Special Folders>User Objects Folder)
60 | > 3. Restart Rhino
61 | > 4. Enjoy EPiC Grasshopper
62 |
63 | ### Feedback
64 | Please reach out on https://bit.ly/EPiCGrashopper_Bug, or get in contact via www.epicdatabase.com.au
65 |
66 | ### Disclaimer
67 | The authors disclaim any liability, in whole or in part, arising from information contained in this plugin.
68 | They do not take any responsibility for any action taken, decision-made, or result associated with use of this plugin
69 |
70 | ## EPiC Grasshopper Components
71 | > ### EPiC Material
72 | >*Select a material from the EPiC Database*
73 | >
74 | >
75 | >
76 | >> **Inputs:** *(Toggle_Switch_to_Activate, Material_Category, Selected_Material, Wastage_Coefficient_(%), Material_Service_Life_(Years), Energy_Reduction_Factor_(%), Water_Reduction_Factor_(%), GHG_Reduction_Factor_(%), Comments, Toggle_Switch_to_Open_EPiC_Database)*
77 | >
78 | >> **Outputs:** *(EPiC_Material, Embodied_Energy_Coefficient_(MJ/FU), Embodied_Water_Coefficient_(L/FU), Embodied_GHG_Coefficient_(kgCO₂e/FU), Digital Object Identifier (DOI), Density_(kg/m³), Functional_Unit, Wastage_Coefficient_(%), Material_Service_Life_(Years), Disclaimer*)
79 |
80 | >### EPiC Custom Material
81 | > *Creates a custom material using custom environmental flows*
82 | >
83 | >
84 | >
85 | >> **Inputs:** *(Material_Name, Material_Category, Functional_Unit_(m,m²,m³,kg,no.), Density_(kg/m³), Embodied_Energy_Coefficient_(MJ/FU), Embodied_Water_Coefficient_(L/FU), Embodied_GHG_Coefficient_(kgCO₂e/FU), Wastage_Coefficient_(%), Material_Service_Life_(Years), Comments)*
86 | >
87 | >> **Outputs:** *(Custom_Material, Embodied_Energy_Coefficient_(MJ/FU), Embodied_Water_Coefficient_(L/FU), Embodied_GHG_Coefficient_(kgCO₂e/FU), Density_(kg/m³), Functional_Unit, Wastage_Coefficient_(%), Material_Service_Life_(Years)*)
88 |
89 | > ### EPiC Assembly — Units
90 | > *Creates a unit assembly based on the selected geometry and EPiC Materials*
91 | >
92 | > 
93 | >
94 | >> **Inputs:** *(Assembly_Name, Assembly_Category, Assembly_Comments, Selected_Units_(no.), Service_Life_(Years)_Assembly_Override, Wastage_Coefficient_(%)_Assembly_Override)*
95 | >
96 | >> **Outputs:** *(EPiC_Assembly, Initial_Embodied_Energy_(MJ), Initial_Embodied_Water_(L), Initial_Embodied_GHG_(kgCO₂e), Geometry)*
97 |
98 | > ### EPiC Assembly — Linear
99 | > *Creates a linear assembly based on the selected geometry and EPiC Materials*
100 | >
101 | > 
102 | >
103 | >> **Inputs:** *(Assembly_Name, Assembly_Category, Assembly_Comments, Selected_Lines_(m), Service_Life_(Years)_Assembly_Override, Wastage_Coefficient_(%)_Assembly_Override)*
104 | >
105 | >> **Outputs:** *(EPiC_Assembly, Initial_Embodied_Energy_(MJ), Initial_Embodied_Water_(L), Initial_Embodied_GHG_(kgCO₂e), Geometry)*
106 |
107 | > ### EPiC Assembly — Surface
108 | > *Creates a surface assembly based on the selected geometry and EPiC Materials*
109 | >
110 | > 
111 | >
112 | >> **Inputs:** *(Assembly_Name, Assembly_Category, Assembly_Comments, Selected_Surfaces_(m²), Service_Life_(Years)_Assembly_Override, Wastage_Coefficient_(%)_Assembly_Override)*
113 | >
114 | >> **Outputs:** *(EPiC_Assembly, Initial_Embodied_Energy_(MJ), Initial_Embodied_Water_(L), Initial_Embodied_GHG_(kgCO₂e), Geometry)*
115 |
116 | > ### EPiC Assembly — Volumetric
117 | > *Creates a volumetric assembly based on the selected geometry and EPiC Materials*
118 | >
119 | > 
120 | >
121 | >> **Inputs:** *(Assembly_Name, Assembly_Category, Assembly_Comments, Selected_Volumes_(m³), Service_Life_(Years)_Assembly_Override, Wastage_Coefficient_(%)_Assembly_Override)*
122 | >
123 | >> **Outputs:** *(EPiC_Assembly, Initial_Embodied_Energy_(MJ), Initial_Embodied_Water_(L), Initial_Embodied_GHG_(kgCO₂e), Geometry)*
124 |
125 | > ### EPiC Built Asset
126 | > *Creates a built asset object using multiple EPiC_Assembly items*
127 | >
128 | > 
129 | >
130 | >> **Inputs:** *(Asset_Name, EPiC_Assemblies)*
131 | >
132 | >> **Outputs:** *(EPiC_Built_Asset, Geometry_by_Assembly)*
133 |
134 | > ### EPiC Analysis
135 | > *Calculates Embodied Environmental Flows and plots a stacked bar chart of the results, with the ability to generate a csv report*
136 | >
137 | > 
138 | >
139 | >
140 | >> **Inputs:** *(Analysis_Name, EPiC_Assemblies_or_Built_Assets, Comparison_Values_(EPiC_Assemblies), Period_of_Analysis_(Years), Connect_Button_to_Load_Analysis_Types, Analysis_Type, Graph_Origin_Point, Graph_Scale, csv_Folder_location, Connect_Button_to_Generate_csv)*
141 | >
142 | >> **Outputs:** *(Detailed_Report_Information, Graph_Outputs, Output_Breakdown, Initial_Embodied_Energy_(MJ), Initial_Wastage_Embodied_Energy_(MJ), Recurrent_Embodied_Energy_(MJ), Recurrent_Wastage_Embodied_Energy_(MJ), Life_Cycle_Embodied_Energy_(MJ), Life_Cycle_Wastage_Embodied_Energy_(MJ), Initial_Embodied_Water_(L), Initial_Wastage_Embodied_Water_(L), Recurrent_Embodied_Water_(L), Recurrent_Wastage_Embodied_Water_(L), Life_Cycle_Embodied_Water_(L), Life_Cycle_Wastage_Embodied_Water_(L), Initial_Embodied_GHG_(kgCO₂e), Initial_Wastage_Embodied_GHG_(kgCO₂e), Recurrent_Embodied_GHG_(kgCO₂e), Recurrent_Wastage_Embodied_GHG_(kgCO₂e), Life_Cycle_Embodied_GHG_(kgCO₂e), Life_Cycle_Wastage_Embodied_GHG_(kgCO₂e), Geometry_by_Assembly)*
143 |
144 | >### EPiC Help
145 | > *Link to EPiC resources and information*
146 | >
147 | > 
148 | >
149 | >> **Inputs:** *(Toggle_Switch_to_Open_EPiC_Database, Connect_Toggle_Switch_to_Suggest_Feature, Connect_Toggle_Switch_to_Report_Issue/Bug)*
150 |
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/epic/__init__.py:
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https://raw.githubusercontent.com/beyondepic/EPiC_Grasshopper/dbd60529a190cebf1d0af4d6c2e0ec91e110e388/epic/__init__.py
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/epic/additional_files/EPiC_Database_2024.pkl:
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/epic/additional_files/EPiC_Database_2024.xlsx:
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/epic/additional_files/EPiC_Plugin_Modules_Only_v_1-02.ghpy:
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/epic/epic_plugin_assembly_info.py:
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1 | # -*- coding: UTF-8 -*-
2 |
3 | from datetime import date
4 | import GhPython
5 | import System
6 |
7 | __author__ = "André Stephan & Fabian Prideaux"
8 | __version__ = "1.02"
9 | __date__ = date.today().strftime("%B %d, %Y")
10 | __message__ = 'EPiC Plugin ' + __version__ + '\n' + __date__
11 | epic_version = 'AU2024'
12 |
13 |
14 | class AssemblyInfo(GhPython.Assemblies.PythonAssemblyInfo):
15 | def get_AssemblyName(self):
16 | return "EPiC"
17 |
18 | def get_AssemblyDescription(self):
19 | return """EPiC Grasshopper: A Plugin for analysing embodied environmental flows"""
20 |
21 | def get_AssemblyVersion(self):
22 | return __version__
23 |
24 | def get_AuthorName(self):
25 | return __author__
26 |
27 | def get_Id(self):
28 | return System.Guid("1f4e9641-a2a2-4578-a8af-dbb844d7e281")
29 |
30 |
31 |
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/epic/src/EPiC_Analysis_Component.py:
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1 | # -*- coding: UTF-8 -*-
2 | # EPiC Grasshopper: A Plugin for analysing embodied environmental flows
3 | #
4 | # Copyright (c) 2023, EPiC Grasshopper.
5 | # You should have received a copy of the GNU General Public License
6 | # along with EPiC Grasshopper; If not, see .
7 | #
8 | # Further information about the EPiC Database can be found at
9 | # To download a full copy of the database, goto
10 | #
11 | # @license GPL-3.0+
12 |
13 | """
14 | Calculates Embodied Environmental Flows and plots a stacked bar chart of the results, with the ability to generate a csv report
15 |
16 | Inputs:
17 |
18 | Analysis_Name: Name for the Analysis Report
19 | ***Optional***
20 |
21 | **EPiC_Assemblies_or_Built_Assets: Input EPiC_Assembly and/or EPiC_Built_Asset items for built_assets
22 | (**REQUIRED)
23 |
24 | Comparison_Values_(EPiC_Assemblies): Input EPiC_Assembly items to compare (not shown in .csv report)
25 | ***Optional***
26 |
27 | Period_of_Analysis_(Years): The period of analysis to be used for calculations.
28 | Default value of None - indicating that no recurrent calculations will be made.
29 | ***Optional***
30 |
31 | >>Connect_Button_to_Load_Analysis_Types: Connect and activate a button.
32 | This will generate a dropdown list for the Analysis Type input
33 |
34 | Analysis_Type: Input the type of built_assets to be used for graph visualisations.
35 | Possible inputs include: 'total', 'by_material', 'by_assembly', or 'by_assembly_and_material'
36 | Defaults to: 'total'
37 | ***Optional***
38 |
39 | Graph_Origin_Point: Specify the origin point for graph visualisations. Defaults to 0,0,0.
40 | ***Optional***
41 |
42 | Graph_Scale: Specify the scale of the graph visualisations. 1=normal size, 0.5=half size, 2=double size
43 | ***Optional***
44 |
45 | csv_Folder_location: Folder location for generation of a csv report. Use the 'path' object in grasshopper
46 | (**REQUIRED for report generation)
47 |
48 | >>Connect_Button_to_Generate_csv: Connect a Button to Generate the csv. report
49 |
50 | Outputs:
51 | Detailed_Report_Information: Detailed report information
52 | ***Connect that output to a panel for a summary***
53 |
54 | Graph_Outputs: Outputs a list of bakeable geometry for the graph visualisation
55 |
56 | Output_Breakdown: Text detailing the flow outputs, depending on the analysis type.
57 | For 'by_assembly_and_by_material' this will be a nested list
58 |
59 | Initial_Embodied_Energy_(MJ): Initial Embodied Energy (MJ)
60 | This includes wastage
61 |
62 | Initial_Wastage_Embodied_Energy_(MJ): Initial Wastage Embodied Energy (MJ)
63 |
64 | Recurrent_Embodied_Energy_(MJ): Recurrent Embodied Energy (MJ)
65 | This includes wastage
66 |
67 | Recurrent_Wastage_Embodied_Energy_(MJ): Recurrent Wastage Embodied Energy (MJ)
68 |
69 | Life_Cycle_Embodied_Energy_(MJ): Life Cycle Embodied Energy (MJ)
70 | This includes initial, recurrent, and wastage flows
71 |
72 | Life_Cycle_Wastage_Embodied_Energy_(MJ): Life Cycle Wastage Embodied Energy (MJ)
73 |
74 | Initial_Embodied_Water_(L): Initial Embodied Water (L)
75 | This includes wastage
76 |
77 | Initial_Wastage_Embodied_Water_(L): Initial Wastage Embodied Water (L)
78 |
79 | Recurrent_Embodied_Water_(L): Recurrent Embodied Water (L)
80 | This includes wastage
81 |
82 | Recurrent_Wastage_Embodied_Water_(L): Recurrent Wastage Embodied Water (L)
83 |
84 | Life_Cycle_Embodied_Water_(L): Life Cycle Embodied Water (L)
85 | This includes initial, recurrent, and wastage flows
86 |
87 | Life_Cycle_Wastage_Embodied_Water_(L): Life Cycle Wastage Embodied Water (L)
88 |
89 | Initial_Embodied_GHG_(kgCO₂e): Initial Embodied GHG (kgCO₂e)
90 | This includes wastage
91 |
92 | Initial_Wastage_Embodied_GHG_(kgCO₂e): Initial Wastage Embodied GHG (kgCO₂e)
93 |
94 | Recurrent_Embodied_GHG_(kgCO₂e): Recurrent Embodied GHG (kgCO₂e)
95 | This includes wastage
96 |
97 | Recurrent_Wastage_Embodied_GHG_(kgCO₂e): Recurrent Wastage Embodied GHG (kgCO₂e)
98 |
99 | Life_Cycle_Embodied_GHG_(kgCO₂e): Life Cycle Embodied GHG (kgCO₂e)
100 | This includes initial, recurrent, and wastage flows
101 |
102 | Life_Cycle_Wastage_Embodied_GHG_(kgCO₂e): Life Cycle Wastage Embodied GHG (kgCO₂e)
103 |
104 | Geometry_by_Assembly: A collection of all selected geometries for each EPiC Assembly (including within EPiC Built Assets)
105 |
106 | """
107 |
108 | import os.path as path
109 | from collections import OrderedDict
110 |
111 | from Grasshopper.Kernel import GH_RuntimeMessageLevel as RML
112 | import Grasshopper.Kernel.Data as ghp
113 | from Rhino import RhinoApp
114 | from ghpythonlib.componentbase import executingcomponent as component
115 | import ghpythonlib.treehelpers as th
116 | from scriptcontext import sticky as st
117 |
118 | import epic
119 |
120 | # Allow realtime feedback with external python files in grasshopper
121 | epic = reload(epic)
122 | no_inputs_warning = "No assemblies nor built assets linked, please input assemblies and/or built assets"
123 |
124 |
125 | class EPiCAnalysisComponent(component):
126 | def RunScript(self,
127 | report_name,
128 | epic_inputs,
129 | period_of_analysis,
130 | _null,
131 | analysis_button,
132 | analysis_type,
133 | graph_origin,
134 | graph_scale,
135 | _null2,
136 | folder_location,
137 | button):
138 |
139 | # Component and version information
140 | __author__ = epic.__author__
141 | __version__ = "1.02"
142 | if __version__ == epic.__version__:
143 | ghenv.Component.Message = epic.__message__
144 | else:
145 | ghenv.Component.Message = epic.version_mismatch(__version__)
146 | ghenv.Component.AddRuntimeMessage(RML.Remark, ghenv.Component.Message)
147 | ghenv.Component.Name = "EPiC Analysis"
148 | ghenv.Component.NickName = "EPiC Analysis"
149 |
150 | # Convert inputs to flat list
151 | epic_inputs.Flatten(ghp.GH_Path(0))
152 | epic_inputs = th.tree_to_list(epic_inputs)
153 |
154 | # Remove any file names from folder path
155 | if folder_location:
156 | folder_location = path.dirname(folder_location)
157 |
158 | # Component variables
159 | analysis_types = OrderedDict([('Total', 'total'),
160 | ('By Material', 'by_material'),
161 | ('By Assembly', 'by_assembly'),
162 | ('By Assembly and material', 'by_assembly_and_material')])
163 |
164 | # Default name for built_assets report
165 | report_name = 'EPiC Analysis' if not report_name else report_name
166 |
167 | # Default name for EPiC_Assembly inputs
168 | epic_assemblies_name = 'Assembly Collection'
169 | if analysis_button:
170 | epic.make_value_list_input_component(5, analysis_types.values(), ghenv,
171 | valuelist_names=analysis_types.keys(),
172 | xloc=-170,
173 | yloc=10)
174 |
175 | if epic_inputs:
176 | # Process the built_assets inputs and create an EPiCAnalysis class instance
177 | epic_analysis, epic_inputs = epic.EPiCAnalysis.process_inputs(epic_inputs,
178 | analysis_type,
179 | graph_origin=graph_origin,
180 | graph_scale=graph_scale,
181 | period_of_analysis=period_of_analysis,
182 | report_name=report_name,
183 | epic_assemblies_name=epic_assemblies_name)
184 |
185 | # Stop report from printing whenever component is updated (if toggle is connected).
186 | if 'report_exporting' not in st:
187 | st['report_exporting'] = True
188 |
189 | # Button / toggle must return to 'False' before a new report is printed
190 | elif not button:
191 | st['report_exporting'] = False
192 |
193 | # Create CSV report when button is pressed
194 | if button and folder_location and not st['report_exporting']:
195 | st['report_exporting'] = True
196 | message = epic.print_csv(report_name, folder_location, period_of_analysis, epic_analysis, epic_inputs)
197 | RhinoApp.WriteLine(message)
198 |
199 | # Hide output geometry
200 | ghenv.Component.Params.Output[25].Hidden = True
201 |
202 | # Generate component outputs depending on the analysis_type
203 | return epic_analysis.generate_analysis_breakdown_for_outputs(analysis_type=analysis_type)
204 | else:
205 | ghenv.Component.AddRuntimeMessage(RML.Warning,
206 | "Input EPiCAssembly or EPiCBuiltAsset items for built_assets")
--------------------------------------------------------------------------------
/epic/src/EPiC_Assembly_Linear_Component.py:
--------------------------------------------------------------------------------
1 | # -*- coding: UTF-8 -*-
2 | # EPiC Grasshopper: A Plugin for analysing embodied environmental flows
3 | #
4 | # Copyright (c) 2023, EPiC Grasshopper.
5 | # You should have received a copy of the GNU General Public License
6 | # along with EPiC Grasshopper; If not, see .
7 | #
8 | # Further information about the EPiC Database can be found at
9 | # To download a full copy of the database, goto
10 | #
11 | # @license GPL-3.0+
12 |
13 | """
14 | Creates a linear assembly based on the selected geometry and EPiC Materials
15 |
16 | Inputs:
17 | Assembly_Name: Name for the assembly - this will appear in data EPiC Built Assets and reports.
18 | ***Optional***
19 |
20 | Assembly_Category: Name for the assembly category, overrides assembly name. Will use assembly name if none specified.
21 | Note that assemblies in the same category will be grouped together in the EPiC Built Assets and EPiC Analysis.
22 | ***Optional***
23 |
24 | Assembly_Comments: Comments about the assembly - these will appear in the data EPiC Built Assets and reports.
25 | ***Optional***
26 |
27 | **Selected_Lines_and/or_Numerical_Values_(m): A selection of lines that represent the EPiC Assembly AND/OR values in meters.
28 | A length calculation will be performed on geometry to calculate embodied environmental flows.
29 | (**REQUIRED)
30 |
31 | Service_Life_(Years)_Assembly_Override: Estimated service_life (in years) for the assembly.
32 | Note this will override all material service_life attributes.
33 | ***Optional***
34 |
35 | Wastage_Coefficient_(%)_Assembly_Override: Estimated wastage percentage (%) for the material.
36 | Note this will override all material wastage attributes.
37 | ***Optional***
38 |
39 | Outputs:
40 | EPiC_Assembly: Outputs a class object (EPiC_Assembly) to be used in EPiC_Analysis and EPiC_Built_Asset.
41 | This contains all of the embedded assembly attributes.
42 | (selected_geometry, name, thickness, service_life, wastage, comments, epic_materials, assembly_units)
43 | ***Connect that output to a panel for a summary***
44 |
45 | Initial_Embodied_Energy_(MJ): The total initial Embodied Energy (MJ) for the assembly.
46 | This includes the wastage coefficient but does NOT include service_life calculations.
47 |
48 | Initial_Embodied_Water_(L): The total initial Embodied Water (L) for the assembly.
49 | This includes the wastage coefficient but does NOT include service_life calculations.
50 |
51 | Initial_Embodied_GHG_(kgCO₂e): The total initial Embodied Greenhouse Gas Emissions (kgCO₂e) for the assembly.
52 | This includes the wastage coefficient but does NOT include service_life calculations.
53 |
54 | Geometry: The geometry used to define the assembly.
55 | """
56 |
57 | from Grasshopper.Kernel import GH_RuntimeMessageLevel as RML
58 | from ghpythonlib.componentbase import executingcomponent as component
59 | import epic
60 |
61 | # Allow realtime feedback with external python files in grasshopper
62 | epic = reload(epic)
63 |
64 | # Specify component attributes and units to use for the assembly
65 | units = 'm'
66 | component_name = "EPiC Assembly - Linear (m)"
67 | geometry_warning = "Brep/surface/point input detected. Please input a line, curve, polyline, or numerical value"
68 |
69 | class EPiCAssemblyVolumetricComponent(component):
70 |
71 | def RunScript(self,
72 | input_assembly_name,
73 | input_assembly_category,
74 | input_assembly_comments,
75 | input_selected_geometry,
76 | input_service_life_override,
77 | input_wastage_override,
78 | _null,
79 | material_01,
80 | material_01_qty,
81 | material_02,
82 | material_02_qty,
83 | material_03,
84 | material_03_qty,
85 | material_04,
86 | material_04_qty,
87 | material_05,
88 | material_05_qty,
89 | material_06,
90 | material_06_qty,
91 | material_07,
92 | material_07_qty,
93 | material_08,
94 | material_08_qty,
95 | material_09,
96 | material_09_qty,
97 | material_10,
98 | material_10_qty):
99 |
100 | # Component and version information
101 | __author__ = epic.__author__
102 | __version__ = "1.02"
103 | if __version__ == epic.__version__:
104 | ghenv.Component.Message = epic.__message__
105 | else:
106 | ghenv.Component.Message = epic.version_mismatch(__version__)
107 | ghenv.Component.AddRuntimeMessage(RML.Remark, ghenv.Component.Message)
108 | ghenv.Component.Name = component_name
109 | ghenv.Component.NickName = component_name
110 |
111 | # Added for compatability with Rhino 8.
112 | # Get material variables from locals(), so it is possible to create inputs dynamically. Check for up to 20 materials.
113 | material_list = []
114 | for num in range(1, 21):
115 | if num < 10:
116 | num = str(0) + str(num)
117 | else:
118 | num = str(num)
119 | _ = 'material_' + num
120 | if _ and _ + '_qty' in locals():
121 | material_list.append(locals()[_])
122 | material_list.append(locals()[_ + '_qty'])
123 | else:
124 | break
125 |
126 | # Sort the material inputs and quantities
127 | material_list = epic.EPiCAssembly.create_list_of_input_materials_and_qty(ghenv.Component, units, material_list)
128 |
129 | # Create an EPiCAssembly class object
130 | try:
131 | assembly = epic.EPiCAssembly(input_selected_geometry, input_assembly_name, input_service_life_override,
132 | input_wastage_override, input_assembly_comments, material_list,
133 | assembly_units=units, category=input_assembly_category)
134 | except TypeError:
135 | ghenv.Component.AddRuntimeMessage(RML.Warning, geometry_warning)
136 | return [geometry_warning]*5
137 |
138 | # Test to see if geometry is connected to the component
139 | if not input_selected_geometry:
140 | ghenv.Component.AddRuntimeMessage(RML.Warning, "No geometry is connected to the assembly")
141 |
142 | # Test to see if any material inputs exist
143 | if len(material_list) < 1:
144 | ghenv.Component.AddRuntimeMessage(RML.Warning, "No input EPiC_Material inputs or material quantities have been found ")
145 |
146 | # Calculate the environmental flows for the assembly
147 | assembly.calculate_flows()
148 |
149 | # Specify the component outputs
150 | output_initial_energy = assembly.flows['initial']['energy']
151 | output_initial_water = assembly.flows['initial']['water']
152 | output_initial_ghg = assembly.flows['initial']['ghg']
153 |
154 | # Return all component outputs
155 | return assembly, None, output_initial_energy, output_initial_water, output_initial_ghg, None, assembly.output_geometry
156 |
--------------------------------------------------------------------------------
/epic/src/EPiC_Assembly_Surface_Component.py:
--------------------------------------------------------------------------------
1 | # -*- coding: UTF-8 -*-
2 | # EPiC Grasshopper: A Plugin for analysing embodied environmental flows
3 | #
4 | # Copyright (c) 2023, EPiC Grasshopper.
5 | # You should have received a copy of the GNU General Public License
6 | # along with EPiC Grasshopper; If not, see .
7 | #
8 | # Further information about the EPiC Database can be found at
9 | # To download a full copy of the database, goto
10 | #
11 | # @license GPL-3.0+
12 |
13 | """
14 | Creates a surface assembly based on the selected geometry and EPiC Materials
15 |
16 | Inputs:
17 | Assembly_Name: Name for the assembly - this will appear in data EPiC Built Assets and reports.
18 | ***Optional***
19 |
20 | Assembly_Category: Name for the assembly category. Will use assembly name if none specified.
21 | Note that assemblies in the same category will be grouped together in the EPiC Built Assets.
22 | ***Optional***
23 |
24 | Assembly_Comments: Comments about the assembly - these will appear in the data EPiC Built Assets and reports.
25 | ***Optional***
26 |
27 | **Selected_Surfaces_and/or_Numerical_Values_(m²): A selection of surfaces that represent the EPiC Assembly AND/OR values in m².
28 | An area calculation will be performed on geometry to calculate embodied environmental flows.
29 | (**REQUIRED)
30 |
31 | Service_Life_(Years)_Assembly_Override: Estimated service_life (in years) for the assembly.
32 | Note this will override all material service_life attributes.
33 | ***Optional***
34 |
35 | Wastage_Coefficient_(%)_Assembly_Override: Estimated wastage percentage (%) for the material.
36 | Note this will override all material wastage attributes.
37 | ***Optional***
38 |
39 | Outputs:
40 | EPiC_Assembly: Outputs a class object (EPiC_Assembly) to be used in EPiC_Analysis.
41 | This contains all of the embedded assembly attributes.
42 | (selected_geometry, name, thickness, service_life, wastage, comments, epic_materials, assembly_units)
43 | ***Connect that output to a panel for a summary***
44 |
45 | Initial_Embodied_Energy_(MJ): The total initial Embodied Energy (MJ) for the assembly.
46 | This includes the wastage coefficient but does NOT include service_life calculations.
47 |
48 | Initial_Embodied_Water_(L): The total initial Embodied Water (L) for the assembly.
49 | This includes the wastage coefficient but does NOT include service_life calculations.
50 |
51 | Initial_Embodied_GHG_(kgCO₂e): The total initial Embodied Greenhouse Gas Emissions (kgCO₂e) for the assembly.
52 | This includes the wastage coefficient but does NOT include service_life calculations.
53 |
54 | Geometry: The geometry used to define the assembly.
55 | """
56 |
57 | from Grasshopper.Kernel import GH_RuntimeMessageLevel as RML
58 | from ghpythonlib.componentbase import executingcomponent as component
59 | import epic
60 |
61 | # Allow realtime feedback with external python files in grasshopper
62 | epic = reload(epic)
63 |
64 | # Specify component attributes and units to use for the assembly
65 | units = 'm²'
66 | component_name = "EPiC Assembly - Surface (m²)"
67 | geometry_warning = "Brep/line/point input detected. Please input a surface, closed polyline, or numerical value"
68 |
69 |
70 | class EPiCAssemblyVolumetricComponent(component):
71 |
72 | def RunScript(self,
73 | input_assembly_name,
74 | input_assembly_category,
75 | input_assembly_comments,
76 | input_selected_geometry,
77 | input_service_life_override,
78 | input_wastage_override,
79 | _null,
80 | material_01,
81 | material_01_qty,
82 | material_02,
83 | material_02_qty,
84 | material_03,
85 | material_03_qty,
86 | material_04,
87 | material_04_qty,
88 | material_05,
89 | material_05_qty,
90 | material_06,
91 | material_06_qty,
92 | material_07,
93 | material_07_qty,
94 | material_08,
95 | material_08_qty,
96 | material_09,
97 | material_09_qty,
98 | material_10,
99 | material_10_qty):
100 |
101 | # Component and version information
102 | __author__ = epic.__author__
103 | __version__ = "1.02"
104 | if __version__ == epic.__version__:
105 | ghenv.Component.Message = epic.__message__
106 | else:
107 | ghenv.Component.Message = epic.version_mismatch(__version__)
108 | ghenv.Component.AddRuntimeMessage(RML.Remark, ghenv.Component.Message)
109 | ghenv.Component.Name = component_name
110 | ghenv.Component.NickName = component_name
111 |
112 | # Added for compatability with Rhino 8.
113 | # Get material variables from locals(), so it is possible to create inputs dynamically. Check for up to 20 materials.
114 | material_list = []
115 | for num in range(1, 21):
116 | if num < 10:
117 | num = str(0) + str(num)
118 | else:
119 | num = str(num)
120 | _ = 'material_' + num
121 | if _ and _ + '_qty' in locals():
122 | material_list.append(locals()[_])
123 | material_list.append(locals()[_ + '_qty'])
124 | else:
125 | break
126 |
127 | # Sort the material inputs and quantities
128 | material_list = epic.EPiCAssembly.create_list_of_input_materials_and_qty(ghenv.Component, units, material_list)
129 |
130 | # Create an EPiCAssembly class object
131 | try:
132 | assembly = epic.EPiCAssembly(input_selected_geometry, input_assembly_name, input_service_life_override,
133 | input_wastage_override, input_assembly_comments, material_list,
134 | assembly_units=units, category=input_assembly_category)
135 | except TypeError:
136 | ghenv.Component.AddRuntimeMessage(RML.Warning, geometry_warning)
137 | return [geometry_warning]*5
138 |
139 | # Test to see if geometry is connected to the component
140 | if not input_selected_geometry:
141 | ghenv.Component.AddRuntimeMessage(RML.Warning, "No geometry is connected to the assembly")
142 |
143 | # Test to see if any material inputs exist
144 | if len(material_list) < 1:
145 | ghenv.Component.AddRuntimeMessage(RML.Warning, "No input EPiC_Material inputs or material quantities have been found ")
146 |
147 | # Calculate the environmental flows for the assembly
148 | assembly.calculate_flows()
149 |
150 | # Specify the component outputs
151 | output_initial_energy = assembly.flows['initial']['energy']
152 | output_initial_water = assembly.flows['initial']['water']
153 | output_initial_ghg = assembly.flows['initial']['ghg']
154 |
155 | # Return all component outputs
156 | return assembly, None, output_initial_energy, output_initial_water, output_initial_ghg, None, assembly.output_geometry
157 |
--------------------------------------------------------------------------------
/epic/src/EPiC_Assembly_Units_Component.py:
--------------------------------------------------------------------------------
1 | # -*- coding: UTF-8 -*-
2 | # EPiC Grasshopper: A Plugin for analysing embodied environmental flows
3 | #
4 | # Copyright (c) 2023, EPiC Grasshopper.
5 | # You should have received a copy of the GNU General Public License
6 | # along with EPiC Grasshopper; If not, see .
7 | #
8 | # Further information about the EPiC Database can be found at
9 | # To download a full copy of the database, goto
10 | #
11 | # @license GPL-3.0+
12 |
13 | """
14 | Creates a unit assembly based on the selected geometry and EPiC Materials
15 |
16 | Inputs:
17 | Assembly_Name: Name for the assembly - this will appear in data EPiC Built Assets and reports.
18 | ***Optional***
19 |
20 | Assembly_Category: Name for the assembly category. Will use assembly name if none specified.
21 | Note that assemblies in the same category will be grouped together in the EPiC Built Assets.
22 | ***Optional***
23 |
24 | Assembly_Comments: Comments about the assembly - these will appear in the data EPiC Built Assets and reports.
25 | ***Optional***
26 |
27 | **Selected_Units_and/or_Numerical_Values_(no.): A selection of geometry that represent the EPiC Assembly AND/OR values in no.
28 | Geometry will be counted to calculate embodied environmental flows.
29 | (**REQUIRED)
30 |
31 | Service_Life_(Years)_Assembly_Override: Estimated service_life (in years) for the assembly.
32 | Note this will override all material service_life attributes.
33 | ***Optional***
34 |
35 | Wastage_Coefficient_(%)_Assembly_Override: Estimated wastage percentage (%) for the material.
36 | Note this will override all material wastage attributes.
37 | ***Optional***
38 |
39 | Outputs:
40 | EPiC_Assembly: Outputs a class object (EPiC_Assembly) to be used in EPiC_Analysis.
41 | This contains all of the embedded assembly attributes.
42 | (selected_geometry, name, thickness, service_life, wastage, comments, epic_materials, assembly_units)
43 | ***Connect that output to a panel for a summary***
44 |
45 | Initial_Embodied_Energy_(MJ): The total initial Embodied Energy (MJ) for the assembly.
46 | This includes the wastage coefficient but does NOT include service_life calculations.
47 |
48 | Initial_Embodied_Water_(L): The total initial Embodied Water (L) for the assembly.
49 | This includes the wastage coefficient but does NOT include service_life calculations.
50 |
51 | Initial_Embodied_GHG_(kgCO₂e): The total initial Embodied Greenhouse Gas Emissions (kgCO₂e) for the assembly.
52 | This includes the wastage coefficient but does NOT include service_life calculations.
53 |
54 | Geometry: The geometry used to define the assembly.
55 | """
56 |
57 | from Grasshopper.Kernel import GH_RuntimeMessageLevel as RML
58 | from ghpythonlib.componentbase import executingcomponent as component
59 | import epic
60 |
61 | # Allow realtime feedback with external python files in grasshopper
62 | epic = reload(epic)
63 |
64 | # Specify component attributes and units to use for the assembly
65 | units = 'no.'
66 | component_name = "EPiC Assembly - Units (no.)"
67 | geometry_warning = "Brep/surface/line input detected, please input point/unit geometry"
68 |
69 |
70 | class EPiCAssemblyVolumetricComponent(component):
71 |
72 | def RunScript(self,
73 | input_assembly_name,
74 | input_assembly_category,
75 | input_assembly_comments,
76 | input_selected_geometry,
77 | input_service_life_override,
78 | input_wastage_override,
79 | _null,
80 | material_01,
81 | material_01_qty,
82 | material_02,
83 | material_02_qty,
84 | material_03,
85 | material_03_qty,
86 | material_04,
87 | material_04_qty,
88 | material_05,
89 | material_05_qty,
90 | material_06,
91 | material_06_qty,
92 | material_07,
93 | material_07_qty,
94 | material_08,
95 | material_08_qty,
96 | material_09,
97 | material_09_qty,
98 | material_10,
99 | material_10_qty):
100 |
101 | # Component and version information
102 | __author__ = epic.__author__
103 | __version__ = "1.02"
104 | if __version__ == epic.__version__:
105 | ghenv.Component.Message = epic.__message__
106 | else:
107 | ghenv.Component.Message = epic.version_mismatch(__version__)
108 | ghenv.Component.AddRuntimeMessage(RML.Remark, ghenv.Component.Message)
109 | ghenv.Component.Name = component_name
110 | ghenv.Component.NickName = component_name
111 |
112 | # Added for compatability with Rhino 8.
113 | # Get material variables from locals(), so it is possible to create inputs dynamically. Check for up to 20 materials.
114 | material_list = []
115 | for num in range(1, 21):
116 | if num < 10:
117 | num = str(0) + str(num)
118 | else:
119 | num = str(num)
120 | _ = 'material_' + num
121 | if _ and _ + '_qty' in locals():
122 | material_list.append(locals()[_])
123 | material_list.append(locals()[_ + '_qty'])
124 | else:
125 | break
126 |
127 | # Sort the material inputs and quantities
128 | material_list = epic.EPiCAssembly.create_list_of_input_materials_and_qty(ghenv.Component, units, material_list)
129 |
130 | # Create an EPiCAssembly class object
131 | try:
132 | assembly = epic.EPiCAssembly(input_selected_geometry, input_assembly_name, input_service_life_override,
133 | input_wastage_override, input_assembly_comments, material_list,
134 | assembly_units=units, category=input_assembly_category)
135 | except TypeError:
136 | ghenv.Component.AddRuntimeMessage(RML.Warning, geometry_warning)
137 | return [geometry_warning]*5
138 |
139 | # Test to see if geometry is connected to the component
140 | if not input_selected_geometry:
141 | ghenv.Component.AddRuntimeMessage(RML.Warning, "No geometry is connected to the assembly")
142 |
143 | # Test to see if any material inputs exist
144 | if len(material_list) < 1:
145 | ghenv.Component.AddRuntimeMessage(RML.Warning, "No input EPiC_Material inputs or material quantities have been found ")
146 |
147 | # Calculate the environmental flows for the assembly
148 | assembly.calculate_flows()
149 |
150 | # Specify the component outputs
151 | output_initial_energy = assembly.flows['initial']['energy']
152 | output_initial_water = assembly.flows['initial']['water']
153 | output_initial_ghg = assembly.flows['initial']['ghg']
154 |
155 | # Return all component outputs
156 | return assembly, None, output_initial_energy, output_initial_water, output_initial_ghg, None, assembly.output_geometry
157 |
--------------------------------------------------------------------------------
/epic/src/EPiC_Assembly_Volumetric_Component.py:
--------------------------------------------------------------------------------
1 | # -*- coding: UTF-8 -*-
2 | # EPiC Grasshopper: A Plugin for analysing embodied environmental flows
3 | #
4 | # Copyright (c) 2023, EPiC Grasshopper.
5 | # You should have received a copy of the GNU General Public License
6 | # along with EPiC Grasshopper; If not, see .
7 | #
8 | # Further information about the EPiC Database can be found at
9 | # To download a full copy of the database, goto
10 | #
11 | # @license GPL-3.0+
12 |
13 | """
14 | Creates a volumetric assembly based on the selected geometry and EPiC Materials
15 |
16 | Inputs:
17 | Assembly_Name: Name for the assembly - this will appear in data EPiC Built Assets and reports.
18 | ***Optional***
19 |
20 | Assembly_Category: Name for the assembly category. Will use assembly name if none specified.
21 | Note that assemblies in the same category will be grouped together in the EPiC Built Assets.
22 | ***Optional***
23 |
24 | Assembly_Comments: Comments about the assembly - these will appear in the data EPiC Built Assets and reports.
25 | ***Optional***
26 |
27 | **Selected_Volumes_and/or_Numerical_Values_(m³): A selection of volumes that represent the EPiC Assembly AND/OR values in m³.
28 | A volume calculation will be performed on geometry to calculate embodied environmental flows.
29 | (**REQUIRED)
30 |
31 | Service_Life_(Years)_Assembly_Override: Estimated service_life (in years) for the assembly.
32 | Note this will override all material service_life attributes.
33 | ***Optional***
34 |
35 | Wastage_Coefficient_(%)_Assembly_Override: Estimated wastage percentage (%) for the material.
36 | Note this will override all material wastage attributes.
37 | ***Optional***
38 |
39 | Outputs:
40 | EPiC_Assembly: Outputs a class object (EPiC_Assembly) to be used in EPiC_Analysis.
41 | This contains all of the embedded assembly attributes.
42 | (selected_geometry, name, thickness, service_life, wastage, comments, epic_materials, assembly_units)
43 | ***Connect that output to a panel for a summary***
44 |
45 | Initial_Embodied_Energy_(MJ): The total initial Embodied Energy (MJ) for the assembly.
46 | This includes the wastage coefficient but does NOT include service_life calculations.
47 |
48 | Initial_Embodied_Water_(L): The total initial Embodied Water (L) for the assembly.
49 | This includes the wastage coefficient but does NOT include service_life calculations.
50 |
51 | Initial_Embodied_GHG_(kgCO₂e): The total initial Embodied Greenhouse Gas Emissions (kgCO₂e) for the assembly.
52 | This includes the wastage coefficient but does NOT include service_life calculations.
53 |
54 | Geometry: The geometry used to define the assembly.
55 | """
56 |
57 | from Grasshopper.Kernel import GH_RuntimeMessageLevel as RML
58 | from ghpythonlib.componentbase import executingcomponent as component
59 | import epic
60 |
61 | # Allow realtime feedback with external python files in grasshopper
62 | epic = reload(epic)
63 |
64 | # Specify component attributes and units to use for the assembly
65 | units = 'm³'
66 | component_name = "EPiC Assembly - Volumetric (m³)"
67 | geometry_warning = "Surface/line/point input detected. Please input Brep geometry"
68 |
69 |
70 | class EPiCAssemblyVolumetricComponent(component):
71 |
72 | def RunScript(self,
73 | input_assembly_name,
74 | input_assembly_category,
75 | input_assembly_comments,
76 | input_selected_geometry,
77 | input_service_life_override,
78 | input_wastage_override,
79 | _null,
80 | material_01,
81 | material_01_qty,
82 | material_02,
83 | material_02_qty,
84 | material_03,
85 | material_03_qty,
86 | material_04,
87 | material_04_qty,
88 | material_05,
89 | material_05_qty,
90 | material_06,
91 | material_06_qty,
92 | material_07,
93 | material_07_qty,
94 | material_08,
95 | material_08_qty,
96 | material_09,
97 | material_09_qty,
98 | material_10,
99 | material_10_qty):
100 |
101 | # Component and version information
102 | __author__ = epic.__author__
103 | __version__ = "1.02"
104 | if __version__ == epic.__version__:
105 | ghenv.Component.Message = epic.__message__
106 | else:
107 | ghenv.Component.Message = epic.version_mismatch(__version__)
108 | ghenv.Component.AddRuntimeMessage(RML.Remark, ghenv.Component.Message)
109 | ghenv.Component.Name = component_name
110 | ghenv.Component.NickName = component_name
111 |
112 | # Added for compatability with Rhino 8.
113 | # Get material variables from locals(), so it is possible to create inputs dynamically. Check for up to 20 materials.
114 | material_list = []
115 | for num in range(1, 21):
116 | if num < 10:
117 | num = str(0) + str(num)
118 | else:
119 | num = str(num)
120 | _ = 'material_' + num
121 | if _ and _ + '_qty' in locals():
122 | material_list.append(locals()[_])
123 | material_list.append(locals()[_ + '_qty'])
124 | else:
125 | break
126 |
127 | # Sort the material inputs and quantities
128 | material_list = epic.EPiCAssembly.create_list_of_input_materials_and_qty(ghenv.Component, units, material_list)
129 |
130 | # Create an EPiCAssembly class object
131 | try:
132 | assembly = epic.EPiCAssembly(input_selected_geometry, input_assembly_name, input_service_life_override,
133 | input_wastage_override, input_assembly_comments, material_list,
134 | assembly_units=units, category=input_assembly_category)
135 | except TypeError:
136 | ghenv.Component.AddRuntimeMessage(RML.Warning, geometry_warning)
137 | return [geometry_warning]*5
138 |
139 | # Test to see if geometry is connected to the component
140 | if not input_selected_geometry:
141 | ghenv.Component.AddRuntimeMessage(RML.Warning, "No geometry is connected to the assembly")
142 |
143 | # Test to see if any material inputs exist
144 | if len(material_list) < 1:
145 | ghenv.Component.AddRuntimeMessage(RML.Warning, "No input EPiC_Material inputs or material quantities have been found ")
146 |
147 | # Calculate the environmental flows for the assembly
148 | assembly.calculate_flows()
149 |
150 | # Specify the component outputs
151 | output_initial_energy = assembly.flows['initial']['energy']
152 | output_initial_water = assembly.flows['initial']['water']
153 | output_initial_ghg = assembly.flows['initial']['ghg']
154 |
155 | # Return all component outputs
156 | return assembly, None, output_initial_energy, output_initial_water, output_initial_ghg, None, assembly.output_geometry
157 |
--------------------------------------------------------------------------------
/epic/src/EPiC_Built_Asset.py:
--------------------------------------------------------------------------------
1 | # -*- coding: UTF-8 -*-
2 | # EPiC Grasshopper: A Plugin for analysing embodied environmental flows
3 | #
4 | # Copyright (c) 2023, EPiC Grasshopper.
5 | # You should have received a copy of the GNU General Public License
6 | # along with EPiC Grasshopper; If not, see .
7 | #
8 | # Further information about the EPiC Database can be found at
9 | # To download a full copy of the database, goto
10 | #
11 | # @license GPL-3.0+
12 |
13 | """
14 | Creates a built asset object using multiple EPiC_Assembly items
15 |
16 | Inputs:
17 |
18 | Asset_Name: Name for the Built Asset
19 | ***Optional***
20 |
21 | Asset_Comments: Comments for the Built Asset
22 | ***Optional***
23 |
24 | EPiC_Assemblies: In input one or more EPiC_Assembly objects
25 | (**REQUIRED)
26 |
27 | Outputs:
28 | EPiC_Built_Asset: Built Asset class with detailed report
29 | ***Connect that output to a panel for a summary***
30 |
31 | Geometry_by_Assembly: A collection of all selected geometries for each EPiC Assembly
32 | """
33 |
34 | from Grasshopper.Kernel import GH_RuntimeMessageLevel as RML
35 | import Grasshopper.Kernel.Data as ghp
36 | from ghpythonlib.componentbase import executingcomponent as component
37 | import ghpythonlib.treehelpers as th
38 | import epic
39 |
40 | # Allow realtime feedback with external python files in grasshopper
41 | epic = reload(epic)
42 |
43 |
44 | class MyComponent(component):
45 | def RunScript(self, input_name, input_comments, _null, epic_assemblies):
46 | # Component and version information
47 | __author__ = epic.__author__
48 | __version__ = "1.02"
49 | if __version__ == epic.__version__:
50 | ghenv.Component.Message = epic.__message__
51 | else:
52 | ghenv.Component.Message = epic.version_mismatch(__version__)
53 | ghenv.Component.AddRuntimeMessage(RML.Remark, ghenv.Component.Message)
54 | ghenv.Component.Name = "EPiC Built Asset"
55 | ghenv.Component.NickName = "EPiC Built Asset"
56 |
57 | if epic_assemblies:
58 | # Convert inputs to flat list
59 | epic_assemblies.Flatten(ghp.GH_Path(0))
60 | epic_assemblies = th.tree_to_list(epic_assemblies)
61 |
62 | # Provide a default name if none provided
63 | input_name = 'EPiC Built Asset' if not input_name else input_name
64 | # Generate an EPiCBuiltAsset class object
65 | built_asset = epic.EPiCBuiltAsset(input_name, epic_assemblies, comments=input_comments)
66 | return built_asset, None, built_asset.fetch_geometry_as_list()
67 | else:
68 | ghenv.Component.AddRuntimeMessage(RML.Warning,
69 | "No input detected, please provide one/multiple EPiC_Assembly objects")
70 |
--------------------------------------------------------------------------------
/epic/src/EPiC_Custom_Material.py:
--------------------------------------------------------------------------------
1 | # -*- coding: UTF-8 -*-
2 | # EPiC Grasshopper: A Plugin for analysing embodied environmental flows
3 | #
4 | # Copyright (c) 2023, EPiC Grasshopper.
5 | # You should have received a copy of the GNU General Public License
6 | # along with EPiC Grasshopper; If not, see .
7 | #
8 | # Further information about the EPiC Database can be found at
9 | # To download a full copy of the database, goto
10 | #
11 | # @license GPL-3.0+
12 |
13 | """
14 | Creates a custom material using custom environmental flows
15 |
16 | Inputs:
17 | Material_Name: Name of the material- this will appear in the printed/exported reports
18 | ***Optional***
19 |
20 | Material_Category: Name of the material category
21 | ***Optional***
22 |
23 | **Functional_Unit_(m,m²,m³,kg,etc): Functional unit for the material (e.g m, m² ,m³,no. or kg)
24 | (**REQUIRED)
25 |
26 | Density_(kg/m³): The density of the material in kg/m³
27 | ***Optional***
28 |
29 | **Embodied_Energy_Coefficient_(MJ/FU): The embodied energy coefficient for the material in MJ/Functional Unit
30 | (**REQUIRED)
31 |
32 | **Embodied_Water_Coefficient_(L/FU): The embodied water coefficient for the material in L/Functional Unit
33 | (**REQUIRED)
34 |
35 | **Embodied_GHG_Coefficient_(kgCO₂e/FU): The embodied greenhouse gas emissions coefficient for the material
36 | in kgCO₂e/Functional Unit
37 | (**REQUIRED)
38 |
39 | Wastage_Coefficient_(%): Estimated wastage percentage (%) for the material.
40 | 0 indicates no wastage, 100 indicates 100% wastage.
41 | ***Optional***
42 |
43 | Material_Service_Life_(Years): Estimated service_life (in years) for the material.
44 | 0 indicates that the material will never need to be replaced
45 | ***Optional***
46 |
47 | Comments: Comments about the material - these will appear in the printed/exported reports.
48 | ***Optional***
49 |
50 | Outputs:
51 | Custom_Material: Outputs a class object (CustomMaterial) containing all of the embedded material attributes:
52 | (name, energy, water, ghg, functional_unit, doi, category, material_id, wastage, service_life, comments)
53 | ***Connect that output to a panel for a summary***
54 |
55 | Embodied_Energy_Coefficient_(MJ/FU): The Embodied Energy Coefficient for this material.
56 | Note this does not include wastage in the calculation
57 |
58 | Embodied_Water_Coefficient_(L/FU): The Embodied Water Coefficient for this material.
59 | Note this does not include wastage in the calculation
60 |
61 | Embodied_GHG_Coefficient_(kgCO₂e/FU): The Embodied Greenhouse Gas Emissions Coefficient for this material.
62 | Note this does not include wastage in the calculation
63 |
64 | Density_(kg/m³): Material density, as provided in the EPiC Database
65 |
66 | Functional_Unit: Functional Unit, as provided in the EPiC Database
67 |
68 | Wastage_Coefficient_(%): Estimated wastage percentage (%) for the material.
69 | This will use the default value for the material (if it exists in the database), otherwise it will default to 0.
70 | 0 indicates no wastage, 100 indicates 100% wastage
71 |
72 | Material_Service_Life_(Years): Estimated service_life (in years) for the material.
73 | This will use the default value for the material (if it exists in the database), otherwise it will default to 0.
74 | 0 indicates that the material will never need to be replaced
75 | """
76 |
77 | from Grasshopper.Kernel import GH_RuntimeMessageLevel as RML
78 | from ghpythonlib.componentbase import executingcomponent as component
79 |
80 | import epic
81 |
82 | # Allow realtime feedback with external python files in grasshopper
83 | epic = reload(epic)
84 |
85 |
86 | class EPiCCustomMaterialComponent(component):
87 |
88 | def RunScript(self, name, category, _null, functional_unit, density, _null2, energy, water, ghg, _null3,
89 | wastage, service_life, comments):
90 |
91 | # Component and version information
92 | __author__ = epic.__author__
93 | __version__ = "1.02"
94 | if __version__ == epic.__version__:
95 | self.Message = epic.__message__
96 | else:
97 | self.Message = epic.version_mismatch(__version__)
98 | self.AddRuntimeMessage(RML.Remark, self.Message)
99 | self.Name = "EPiC Custom Material"
100 | self.NickName = "EPiC Custom Material"
101 |
102 | # Create attribute values if none exist for custom material
103 | name = 'Custom Material' if not name else name
104 | density = 0 if not density else density
105 | wastage = 0 if not wastage else wastage
106 | service_life = 0 if not service_life else service_life
107 | comments = '' if not comments else comments
108 | warning = None
109 |
110 | # check if functional unit is acceptable
111 | if functional_unit is not None:
112 | warning, functional_unit = epic.check_functional_unit_and_return_formatted_version(str(functional_unit))
113 | if warning:
114 | self.AddRuntimeMessage(RML.Warning, warning)
115 | return [warning] * 7
116 |
117 | # Output CustomMaterial class object if inputs have been provided
118 | if None not in (functional_unit, energy, ghg, water):
119 | output_epic_material = epic.CustomMaterial(name=name, water=water, ghg=ghg, energy=energy,
120 | functional_unit=functional_unit, category=category,
121 | wastage=wastage, service_life=service_life,
122 | comments=comments, density=density)
123 | return output_epic_material, None, output_epic_material.energy, output_epic_material.water, \
124 | output_epic_material.ghg, None, output_epic_material.density, output_epic_material.functional_unit, \
125 | wastage, service_life
126 |
127 | # Output error message if inputs not provided
128 | else:
129 | warning = 'Provide required inputs, specified with ** (functional_unit, energy, ghg, water)'
130 | self.AddRuntimeMessage(RML.Warning, warning)
131 | return [warning] * 7
132 |
--------------------------------------------------------------------------------
/epic/src/EPiC_Help.py:
--------------------------------------------------------------------------------
1 | # -*- coding: UTF-8 -*-
2 | # EPiC Grasshopper: A Plugin for analysing embodied environmental flows
3 | #
4 | # Copyright (c) 2023, EPiC Grasshopper.
5 | # You should have received a copy of the GNU General Public License
6 | # along with EPiC Grasshopper; If not, see .
7 | #
8 | # Further information about the EPiC Database can be found at
9 | # To download a full copy of the database, goto
10 | #
11 | # @license GPL-3.0+
12 |
13 | """
14 | Link to EPiC resources and information
15 |
16 | Inputs:
17 | >>Connect_Toggle_Switch_to_Open_EPiC_Database: Connect a toggle switch and set to True.
18 | This will open https://bit.ly/EPiC_Database in a web browser
19 |
20 | >>Connect_Toggle_Switch_to_Open_GitHub: Connect a toggle switch and set to True.
21 | This will open https://bit.ly/EPiCGrashopper_Bug in a web browser
22 |
23 | >>Connect_Toggle_Switch_to_Suggest_Feature: Connect a toggle switch and set to True.
24 | This will open https://bit.ly/EPiCGrasshopper_FeatureSuggestion in a web browser
25 |
26 | >>Connect_Toggle_Switch_to_Report_Issue/Bug: Connect a toggle switch and set to True.
27 | This will open https://bit.ly/EPiCGrashopper_Bug in a web browser
28 | """
29 |
30 | from ghpythonlib.componentbase import executingcomponent as component
31 | from Grasshopper.Kernel import GH_RuntimeMessageLevel as RML
32 | import webbrowser
33 |
34 | import epic
35 |
36 | # Allow realtime feedback with external python files in grasshopper
37 | epic = reload(epic)
38 |
39 |
40 | class EPiCHelp(component):
41 |
42 | def RunScript(self, epic_database, github, suggest_feature, report_issue):
43 |
44 | # Component and version information
45 | __author__ = epic.__author__
46 | __version__ = "1.02"
47 | if __version__ == epic.__version__:
48 | self.Message = epic.__message__
49 | else:
50 | self.Message = epic.version_mismatch(__version__)
51 | self.AddRuntimeMessage(RML.Remark, self.Message)
52 | self.Name = "EPiC Material"
53 | self.NickName = "EPiC Material"
54 |
55 | # Open the EPiC Database or EPiC Grasshopper Bugs / Suggestions Google Form
56 | if epic_database:
57 | webbrowser.open("https://bit.ly/EPiC_Database", new=1)
58 | if report_issue:
59 | webbrowser.open("https://bit.ly/EPiCGrashopper_Bug", new=1)
60 | if suggest_feature:
61 | webbrowser.open("https://bit.ly/EPiCGrasshopper_FeatureSuggestion", new=1)
62 | if github:
63 | webbrowser.open("https://bit.ly/EPiCGrasshopperGitHub", new=1)
64 |
--------------------------------------------------------------------------------
/epic/src/EPiC_Material_Component.py:
--------------------------------------------------------------------------------
1 | # -*- coding: UTF-8 -*-
2 | # EPiC Grasshopper: A Plugin for analysing embodied environmental flows
3 | #
4 | # Copyright (c) 2023, EPiC Grasshopper.
5 | # You should have received a copy of the GNU General Public License
6 | # along with EPiC Grasshopper; If not, see .
7 | #
8 | # Further information about the EPiC Database can be found at
9 | # To download a full copy of the database, goto
10 | #
11 | # @license GPL-3.0+
12 |
13 | """
14 | Select a material from the EPiC Database
15 |
16 | Inputs:
17 | >>**Connect_Toggle_Switch_to_Activate: Connect a toggle switch and set to 'True' to activate this component.
18 | (**REQUIRED)
19 |
20 | **Material_Category: Once the EPiC Material component has been activated,
21 | a value list will be automatically generated with pre-filled categories wired to this input.
22 | *** To reset this input, delete any connected wires, and re-activate the button ***
23 |
24 | **Selected_Material: Once the EPiC Material component has been activated,
25 | a value list will be automatically generated with pre-filled materials, based on the selected category (above).
26 | *** To reset this input, delete any connected wires, and re-activate the button ***
27 |
28 | Wastage_Coefficient_(%): Estimated wastage percentage (%) for the material.
29 | This will use the default value for the material (if it exists in the database), otherwise it will default to 0.
30 | 0 indicates no wastage, 100 indicates 100% wastage.
31 | ***Optional***
32 |
33 | Material_Service_Life_(Years): Estimated service_life (in years) for the material.
34 | This will use the default value for the material (if it exists in the database), otherwise it will default to 0.
35 | 0 indicates that the material will never need to be replaced.
36 | ***Optional***
37 |
38 | Energy_Reduction_Factor_(%): Reduce the value of the energy coefficient by a percentage
39 | 0(%) indicates no change, 50(%) half of the value, and 100(%) reduces the energy coefficient to zero
40 | ***Optional***
41 |
42 | Water_Reduction_Factor_(%): Reduce the value of the water coefficient by a percentage
43 | 0(%) indicates no change, 50(%) half of the value, and 100(%) reduces the water coefficient to zero
44 | ***Optional***
45 |
46 | GHG_Reduction_Factor_(%): Reduce the value of the GHG emissions coefficient by a percentage
47 | 0(%) indicates no change, 50(%) half of the value, and 100(%) reduces the GHG emissions coefficient to zero
48 | ***Optional***
49 | Comments: Comments about the material - these will appear in the printed/exported reports.
50 | ***Optional***
51 |
52 | >>Connect_Toggle_Switch_to_Open_EPiC_Database: Connect a toggle switch and set to True.
53 | This will open https://bit.ly/EPiC_Database in a web browser
54 |
55 | Outputs:
56 | EPiC_Material: Outputs a class object (EPiCMaterial) containing all of the embedded material attributes:
57 | (name, energy, water, ghg, functional_unit, doi, category, material_id, wastage, service_life, comments)
58 | ***Connect that output to a panel for a summary***
59 |
60 | Embodied_Energy_Coefficient_(MJ/FU): The Embodied Energy Coefficient for this material.
61 | Values are imported from the EPiC Database
62 | ***Note this does not include wastage in the calculation***
63 |
64 | Embodied_Water_Coefficient_(L/FU): The Embodied Water Coefficient for this material.
65 | Values are imported from the EPiC Database.
66 | ***Note this does not include wastage in the calculation***
67 |
68 | Embodied_GHG_Coefficient_(kgCO₂e/FU): The Embodied Greenhouse Gas Emissions Coefficient for this material.
69 | Values are imported from the EPiC Database.
70 | ***Note this does not include wastage in the calculation***
71 |
72 | Digital Object Identifier (DOI): A link to the material information sheet in the EPiC Database
73 |
74 | Density_(kg/m³): Material density, as provided in the EPiC Database
75 |
76 | Functional_Unit: Functional Unit, as provided in the EPiC Database
77 |
78 | Wastage_Coefficient_(%): Estimated wastage percentage (%) for the material.
79 | This will use the default value for the material (if it exists in the database), otherwise it will default to 0.
80 | 0 indicates no wastage, 100 indicates 100% wastage
81 |
82 | Material_Service_Life_(Years): Estimated service_life (in years) for the material.
83 | This will use the default value for the material (if it exists in the database), otherwise it will default to 0.
84 | 0 indicates that the material will never need to be replaced
85 |
86 | Disclaimer: Disclaimer of the authors associated with the use of the EPiC Grasshopper plugin
87 | """
88 |
89 | import webbrowser
90 | from Grasshopper.Kernel.Special import GH_NumberSlider
91 | from Grasshopper import Folders
92 | from Grasshopper.Kernel import GH_RuntimeMessageLevel as RML
93 | from ghpythonlib.componentbase import executingcomponent as component
94 | from scriptcontext import sticky as st
95 |
96 | import epic
97 |
98 | # Allow realtime feedback with external python files in grasshopper
99 | epic = reload(epic)
100 |
101 |
102 | class EPiCMaterialComponent(component):
103 |
104 | def RunScript(self,
105 | connect_button,
106 | material_category,
107 | material_id,
108 | comments,
109 | _null,
110 | wastage,
111 | service_life,
112 | _null2,
113 | energy_reduction,
114 | water_reduction,
115 | ghg_reduction,
116 | _null3,
117 | epic_help):
118 |
119 | # Component and version information
120 | __author__ = epic.__author__
121 | __version__ = "1.02"
122 | if __version__ == epic.__version__:
123 | ghenv.Component.Message = epic.__message__
124 | else:
125 | ghenv.Component.Message = epic.version_mismatch(__version__)
126 | ghenv.Component.AddRuntimeMessage(RML.Remark, ghenv.Component.Message)
127 | ghenv.Component.Name = "EPiC Material"
128 | ghenv.Component.NickName = "EPiC Material"
129 |
130 | # Setup a global sticky variable for the component, ensuring sliders component are not continuously generated.
131 | component_id = ghenv.Component.InstanceGuid
132 | if component_id not in st:
133 | st[component_id] = material_id
134 |
135 | # Open the EPiC Database or EPiC Grasshopper Bugs / Suggestions Google Form
136 | if epic_help:
137 | webbrowser.open("https://bit.ly/EPiC_Database", new=1)
138 |
139 | # Specify the directory where the EPiC Database is stored (usually the grasshopper library folder), only load once into sticky dictionary
140 | if 'epic_db' not in st:
141 | st['epic_db'] = epic.EPiCDatabase(Folders.DefaultAssemblyFolder)
142 | epic_db = st['epic_db']
143 |
144 | if material_category:
145 | if isinstance(material_category, list):
146 | material_category = material_category[0]
147 | if ':' in material_category:
148 | material_category = material_category.split(': ')[1]
149 |
150 | # Generate a material and category list when button is turned on
151 | if connect_button:
152 | if not material_id or not material_category:
153 | if material_category:
154 | epic.EPiCMaterial.generate_material_and_category_dropdown_list(ghenv.Component, ghenv, epic_db,
155 | category=material_category)
156 | else:
157 | epic.EPiCMaterial.generate_material_and_category_dropdown_list(ghenv.Component, ghenv, epic_db)
158 | # Reset the global sticky value
159 | st[component_id] = None
160 |
161 | # Make sure that a material category & material have been selected
162 | if material_id and material_category:
163 |
164 | # Flatten material category list and remove number from start of string
165 |
166 | # Test if the selected material is in the selected category
167 | if material_id not in epic_db.dict_of_categories[material_category]:
168 |
169 | # Test if material is in old database
170 | legacy_material = epic_db._query_for_name_or_old_mat_id(material_id)
171 | if legacy_material:
172 | material_id = legacy_material
173 | ghObject = ghenv.Component.Params.Input[2].Sources[0]
174 | epic.EPiCMaterial.recreate_material_list(epic_db, ghObject, material_category, ghenv.Component,
175 | set_material=material_id)
176 | else:
177 | ghObject = ghenv.Component.Params.Input[2].Sources[0]
178 | epic.EPiCMaterial.recreate_material_list(epic_db, ghObject, material_category, ghenv.Component)
179 | # Load the material values from the database
180 | energy, water, ghg, functional_unit, name, doi, category, density = \
181 | epic_db.query(material_id, ['Energy', 'Water', 'GHG', 'Functional Unit', 'name',
182 | 'DOI', 'Category', 'Density'])
183 | process_shares = {flow: epic_db.query(material_id, 'hybrid_process_proportion_' + str(flow)) for
184 | flow in epic.DEFINED_FLOWS.keys()}
185 |
186 | # Only run this code if the material selection has changed. Uses global sticky to track material choice.
187 | if material_id != st[component_id]:
188 | # Fetch the wastage/service life coefficient from the EPiCDB (if exists)
189 | try:
190 | # In db, wastage coefficient of 1 = 0%, 1.1 = 10%. Scale accordingly
191 | # In db, service life of -1 = no service life.
192 | epic_wastage = (epic_db.query(material_id, 'Wastage') - 1) * 100
193 | epic_service_life = (epic_db.query(material_id, 'Service Life'))
194 | if epic_service_life == -1 or not epic_service_life:
195 | epic_service_life = 0
196 | except TypeError:
197 | epic_wastage = 0
198 | epic_service_life = 0
199 |
200 | # Generate a slider input and set wastage/service life. If one already exists, change the value to new material.
201 | for input in [(5, epic_wastage), (6, epic_service_life)]:
202 | if not ghenv.Component.Params.Input[input[0]].Sources:
203 | epic.EPiCMaterial.generate_slider_input(ghenv.Component, None, input[1], input[0])
204 | else:
205 | list_object = ghenv.Component.Params.Input[input[0]].Sources[0]
206 | # Only change value if input is a number slider, otherwise leave untouched
207 | if isinstance(list_object, GH_NumberSlider):
208 | ghenv.Component.OnPingDocument().ScheduleSolution(5,
209 | ScheduleCallback(list_object, input[1]))
210 |
211 | # Reset global sticky value to the current material selection choice
212 | st[component_id] = material_id
213 |
214 | # Include reduction factor for materials
215 | if water and ghg and energy:
216 | energy = energy if not energy_reduction and energy_reduction != 0 \
217 | else energy / 100 * abs(100 - energy_reduction)
218 | water = water if not water_reduction and water_reduction != 0 else water / 100 * abs(
219 | 100 - water_reduction)
220 | ghg = ghg if not ghg_reduction and ghg_reduction != 0 else ghg / 100 * abs(100 - ghg_reduction)
221 |
222 | # Create the EPiCMaterial class object
223 | output_epic_material = epic.EPiCMaterial(name=name, water=water, ghg=ghg, energy=energy,
224 | functional_unit=functional_unit, doi=doi, category=category,
225 | material_id=material_id, wastage=wastage,
226 | service_life=service_life,
227 | comments=comments,
228 | density=density,
229 | process_shares=process_shares)
230 |
231 | # Component outputs
232 | return output_epic_material, None, output_epic_material.energy, output_epic_material.water, \
233 | output_epic_material.ghg, None, output_epic_material.doi, output_epic_material.density, \
234 | output_epic_material.functional_unit, wastage, service_life, epic.DISCLAIMER
235 |
236 | # Raise error when there is no material and category selected
237 | else:
238 | warning = 'Connect a button to the first input, and activate to generate a material & category list'
239 | ghenv.Component.AddRuntimeMessage(RML.Warning, warning)
240 | return [warning] * 11 + [epic.DISCLAIMER]
241 |
242 |
243 | def ScheduleCallback(obj, val=0):
244 | if val:
245 | if val > 100:
246 | obj.Slider.Maximum = val
247 | obj.Slider.Value = val
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