359
Comment:
|
2052
|
Deletions are marked like this. | Additions are marked like this. |
Line 2: | Line 2: |
= ScrumPy Manual = | = ScrumPy - Metabolic Modelling in Python = <<TableOfContents>> |
Line 4: | Line 6: |
=== Metabolic Modelling === === Design Philosophy === Scrumpy is unusual, but not unique, in that the primary user interface is a language (it is an oversimplification to refer to it as a command line interface) rather than a more conventional GUI. The underlying reason for this choice is a simple one: A GUI restricts the user to only those actions which the programmer mpredicted the user might wish to perform. In some contexts this is not a problem, simple text editing and web-browsing being examples. |
|
Line 5: | Line 10: |
=== Why Python ? === | However, in metabolic modelling (and scietific/research contexts in general) it is much harder for the programmer to predict what a user may wish to do. MORE HERE - |
Line 7: | Line 12: |
'cause it's great. | Furthermore, in the twenty or so years in which I have been involved in the field, I have lost count of the number of presentations I've listened to for software (not only modelling or scientific) making the claim that the software is intuitive and user friendly, to the extent that this has become a mantra to be uttered at the begining of every presentation. Most of it has been unconvincing at best. |
Line 9: | Line 14: |
=== Python === [[ScrumPy/Doc/PyNotes|Python notes]] |
|
Line 10: | Line 17: |
=== What ScrumPy Is === | == ScrumPy Model Description Language == [[SpyMDL#Overview|Overview]] |
Line 12: | Line 20: |
=== What ScrumPy Isn't === | [[SpyMDL#Identifiers|Identifiers]] |
Line 14: | Line 22: |
=== Quick examples === | [[SpyMDL#Reactions|Reactions]] |
Line 16: | Line 24: |
[[SpyMDL#Directives|Directives]] | |
Line 17: | Line 26: |
== ScrumPy model format == | == Analysis of Models With ScrumPy == === The ScrumPy Modelling Environment === |
Line 19: | Line 29: |
== Structural Analysis of Models == | [[ScrumPy/Doc/ModEnv#RunSpy | Running ScrumPy]] |
Line 21: | Line 31: |
== Kinetic Analysis of Models == | === The Matrix Class === Fully described in utility section - enough here to understand SMs, datasets and monitors. |
Line 23: | Line 34: |
=== Anatomy of a ScrumPy Model === === Kinetic Modelling === === Structural Modelling === === Linear Programming === == Secondary Analysis of Model Results == === Data sets === === Fitting and Optimisation === == Automatic Model Building == |
|
Line 24: | Line 43: |
== The Utility Package == === Dynamic Matrices === |
ScrumPy - Metabolic Modelling in Python
Contents
Introduction
Metabolic Modelling
Design Philosophy
Scrumpy is unusual, but not unique, in that the primary user interface is a language (it is an oversimplification to refer to it as a command line interface) rather than a more conventional GUI. The underlying reason for this choice is a simple one: A GUI restricts the user to only those actions which the programmer mpredicted the user might wish to perform. In some contexts this is not a problem, simple text editing and web-browsing being examples.
However, in metabolic modelling (and scietific/research contexts in general) it is much harder for the programmer to predict what a user may wish to do. MORE HERE -
Furthermore, in the twenty or so years in which I have been involved in the field, I have lost count of the number of presentations I've listened to for software (not only modelling or scientific) making the claim that the software is intuitive and user friendly, to the extent that this has become a mantra to be uttered at the begining of every presentation. Most of it has been unconvincing at best.
Python
ScrumPy Model Description Language
Analysis of Models With ScrumPy
The ScrumPy Modelling Environment
The Matrix Class
Fully described in utility section - enough here to understand SMs, datasets and monitors.
Anatomy of a ScrumPy Model
Kinetic Modelling
Structural Modelling
Linear Programming
Secondary Analysis of Model Results
Data sets
Fitting and Optimisation
Automatic Model Building
Bioinformatics Functions
The Utility Package