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-rw-r--r--topics/documentation/gn-hacking-documentation.gmi69
1 files changed, 51 insertions, 18 deletions
diff --git a/topics/documentation/gn-hacking-documentation.gmi b/topics/documentation/gn-hacking-documentation.gmi
index 60b34a3..b744053 100644
--- a/topics/documentation/gn-hacking-documentation.gmi
+++ b/topics/documentation/gn-hacking-documentation.gmi
@@ -32,6 +32,12 @@ Datasets 'contain' or organise traits. The do not have much in terms of direct o
They can be envisioned as a bag of traits.
+Common dataset traits are:
+
+* dataset_name <string>: Name of the dataset
+* dataset_type <string>: Type of dataset. Valid values are 'Temp', 'Publish', 'ProbeSet' and 'Genotype'
+* group_name <string>: ??
+
### Traits
A trait is a abstract concept - with the somewhat concrete forms being
@@ -41,21 +47,38 @@ A trait is a abstract concept - with the somewhat concrete forms being
* Publish
* Temp
-Here, my understanding is spotty.
-
-What are the differences between these?
-
-The genotype traits probably have something to do with actual genes.
-
-What is a ProbeSet Trait?
-
-What is a Publish Trait?
-
-What is a Temp Trait?
-
-The thing that seems common among all trait types is that they have:
-
-* samples/strains - some sort of name e.g. BXD12
+From the GeneNetwork2 repository, specifically the `wqflask.base.trait` module:
+
+```
+... a trait in webqtl, can be either Microarray, Published phenotype, genotype,
+or user input trait
+```
+
+From the `wqflask.base.trait.GeneralTrait` class, the common properties for all the trait types above are:
+
+* dataset <Dataset>: a pointer to the dataset that the trait is a member of
+* trait_name <string>: the name of the trait
+* cellid <?>: ?
+* identification: <string?>: ?
+* haveinfo <boolean>: ?
+* sequence <?>: ?
+* data <dict>: ? - In GN2, retrieval of this is indirect, via the dataset but it is a trait property.
+* view <boolean>: ?
+* locus <None or ?>: ?
+* lrs <None or real number?>: Lifetime reproductive success?
+* pValue <None or real number?>: ?
+* mean <None or real number?>: ?
+* additive <None or real number?>: ?
+* num_overlap <None or integer?>: ?
+* strand_probe <None or ?>: ?
+* symbol <None or ?>: ?
+* display_name <string>: a name to use in the display of the trait on the UI
+* LRS_score_repr <string>: ?
+
+
+The *data* property of a trait has items with at least the following important properties:
+
+* sample/strain name- some sort of name e.g. BXD12
* value - a numerical value corresponding to the sample/strain
* variance - a numerical value corresponding to the sample/strain
* ndata - a numerical value
@@ -64,12 +87,22 @@ the trait properties above are the ones I have run into that seem to be used in
There are other properties like:
-* mb (Megabases?)
-* chr (Chromosome?)
+* mb <?>: Megabases?
+* chr <?>: Chromosome?
+* location <?>: ?
that are used less often.
-Each of the different types of the traits then has other properties, that thus far, seem to be used for display purposes only, e.g. "pre_publication_description" in "Publish" traits.
+Some extra properties for 'ProbeSet' traits:
+
+* description <None or string>: ?
+* probe_target_description <None or string>: ?
+
+Some extra properties for 'Publish' traits:
+
+* confidential <?>: ?
+* pre_publication_description <string>: ?
+* post_publication_description <string>: ?
When doing computations, it is unnecessary to load the display-only properties of a trait, deferring this to when/if we need to display such to the user/client.