fixed duplicities

v.0.0.4
Merge branch 'develop' of github.com:CartoDB/crankshaft into add-salesforce
2016-09-30 18:32:20 +02:00 · 2016-09-29 17:20:25 +02:00 · 2016-09-22 15:09:54 +02:00 · 2016-09-22 15:09:41 +02:00 · 2016-09-22 12:38:11 +02:00 · 2016-09-22 11:11:58 +02:00
214 changed files with 30792 additions and 284 deletions
--- a/.brackets.json
+++ b/.brackets.json
@@ -0,0 +1,3 @@
+{
+    "sbruchmann.staticpreview.basepath": "/home/carto/Projects/crankshaft/"
+}
--- a/.travis.yml
+++ b/.travis.yml
@@ -0,0 +1,57 @@
+language: c
+
+env:
+  global:
+    - PAGER=cat
+
+before_install:
+  - ./check-up-to-date-with-master.sh
+  - sudo apt-get -y install python-pip
+
+  - sudo apt-get -y install python-software-properties
+  - sudo add-apt-repository -y ppa:cartodb/sci
+  - sudo add-apt-repository -y ppa:cartodb/postgresql-9.5
+  - sudo add-apt-repository -y ppa:cartodb/gis
+  - sudo add-apt-repository -y ppa:cartodb/gis-testing
+  - sudo apt-get update
+
+  - sudo apt-get -y install python-joblib=0.8.3-1-cdb1
+  - sudo apt-get -y install python-numpy=1:1.6.1-6ubuntu1
+
+  # Install pysal
+  - sudo pip install -I pysal==1.11.2
+
+  - sudo apt-get -y install python-scipy=0.14.0-2-cdb6
+  - sudo apt-get -y --no-install-recommends install python-sklearn-lib=0.14.1-3-cdb2
+  - sudo apt-get -y --no-install-recommends install python-sklearn=0.14.1-3-cdb2
+  - sudo apt-get -y --no-install-recommends install python-scikits-learn=0.14.1-3-cdb2
+
+  # Force instalation of libgeos-3.5.0 (presumably needed because of existing version of postgis)
+  - sudo apt-get -y install libgeos-3.5.0=3.5.0-1cdb2
+
+  # Install postgres db and build deps
+  - sudo /etc/init.d/postgresql stop # stop travis default instance
+  - sudo apt-get -y remove --purge postgresql-9.1
+  - sudo apt-get -y remove --purge postgresql-9.2
+  - sudo apt-get -y remove --purge postgresql-9.3
+  - sudo apt-get -y remove --purge postgresql-9.4
+  - sudo apt-get -y remove --purge postgis
+  - sudo apt-get -y autoremove
+
+  - sudo apt-get -y install postgresql-9.5=9.5.2-2ubuntu1
+  - sudo apt-get -y install postgresql-server-dev-9.5=9.5.2-2ubuntu1
+  - sudo apt-get -y install postgresql-plpython-9.5=9.5.2-2ubuntu1
+  - sudo apt-get -y install postgresql-9.5-postgis-2.2=2.2.2.0-cdb2
+  - sudo apt-get -y install postgresql-9.5-postgis-scripts=2.2.2.0-cdb2
+
+  # configure it to accept local connections from postgres
+  - echo -e "# TYPE  DATABASE        USER            ADDRESS                 METHOD \nlocal   all             postgres                                trust\nlocal   all             all                                     trust\nhost    all             all             127.0.0.1/32            trust" \
+    | sudo tee /etc/postgresql/9.5/main/pg_hba.conf
+  - sudo /etc/init.d/postgresql restart 9.5
+
+install:
+  - sudo make install
+
+script:
+  - make test || { cat src/pg/test/regression.diffs; false; }
+  - ./check-compatibility.sh
--- a/CONTRIBUTING.md
+++ b/CONTRIBUTING.md
@@ -1,10 +1,7 @@
 # Development process

-Please read the Working Process/Quickstart Guide in [README.md](https://github.com/CartoDB/crankshaft/blob/master/README.md) first.
-
 For any modification of crankshaft, such as adding new features,
-refactoring or bug-fixing, topic branch must be created out of the `develop`
-branch and be used for the development process.
+refactoring or bugfixing, a topic branch must be created out of the `develop`.

 Modifications are done inside `src/pg/sql` and `src/py/crankshaft`.

@@ -14,80 +11,47 @@ Take into account:
   (inside `src/pg/test`, `src/py/crankshaft/test`) as well as to
   detect any bugs that are being fixed.
 *  Add or modify the corresponding documentation files in the `doc` folder.
-   Since we expect to have highly technical functions here, an extense
-   background explanation would be of great help to users of this extension.
-*  Convention: snake case(i.e. `snake_case` and not `CamelCase`)
-   shall be used for all function names.
-   Prefix function names intended for public use with `cdb_`
-   and private functions (to be used only internally inside
-   the extension)  with `_cdb_`.
+*  Naming conventions for function names:
+   - use `CamelCase`
+   - prefix "public" functions with `CDB_`. E.g: `CDB_SpatialMarkovTrend`
+   - prefix "private" functions with an underscore. E.g: `_CDB_MyObscureInternalImplementationDetail`

 Once the code is ready to be tested, update the local development installation
 with `sudo make install`.
 This will update the 'dev' version of the extension in `src/pg/` and
 make it available to PostgreSQL.
-It will also install the python package (crankshaft) in a virtual
-environment `env/dev`.
-
-The version number of the Python package, defined in
-`src/pg/crankshaft/setup.py` will be overridden when
-the package is released and always match the extension version number,
-but for development it shall be kept as '0.0.0'.

 Run the tests with `make test`.

-To use the python extension for custom tests, activate the virtual
-environment with:
-
-```
-source envs/dev/bin/activate
-```
-
 Update extension in a working database with:

-* `ALTER EXTENSION crankshaft UPDATE TO 'current';`
-  `ALTER EXTENSION crankshaft UPDATE TO 'dev';`
-
-Note: we keep the current development version install as 'dev' always;
-we update through the 'current' alias to allow changing the extension
-contents but not the version identifier. This will fail if the
-changes involve incompatible function changes such as a different
-return type; in that case the offending function (or the whole extension)
-should be dropped manually before the update.
+```sql
+ALTER EXTENSION crankshaft UPDATE TO 'current';
+ALTER EXTENSION crankshaft UPDATE TO 'dev';
+```

 If the extension has not previously been installed in a database,
 it can be installed directly with:
-
-* `CREATE EXTENSION IF NOT EXISTS plpythonu;`
-  `CREATE EXTENSION IF NOT EXISTS postgis;`
-  `CREATE EXTENSION crankshaft WITH VERSION 'dev';`
-
-Note: the development extension uses the development python virtual
-environment automatically.
-
-Before proceeding to the release process peer code reviewing of the code is
-a must.
+```sql
+CREATE EXTENSION IF NOT EXISTS plpythonu;
+CREATE EXTENSION IF NOT EXISTS postgis;
+CREATE EXTENSION crankshaft WITH VERSION 'dev';
+```

 Once the feature or bugfix is completed and all the tests are passing
-a Pull-Request shall be created on the topic branch, reviewed by a peer
-and then merged back into the `develop` branch when all CI tests pass.
+a pull request shall be created, reviewed by a peer
+and then merged back into the `develop` branch once all the CI tests pass.

-When the changes in the `develop` branch are to be released in a new
-version of the extension, a PR must be created on the `develop` branch.

-The release manage will take hold of the PR at this moment to proceed
-to the release process for a new revision of the extension.
+## Relevant development targets in the Makefile

-## Relevant development tasks available in the Makefile
+```shell
+# Show a short description of the available targets
+make help

-```
-* `make help` show a short description of the available targets
-
-* `sudo make install` will generate the extension scripts for the development
-  version ('dev'/'current') and install the python package into the
-  development virtual environment `envs/dev`.
-  Intended for use by developers.
-
-* `make test` will run the tests for the installed development extension.
-  Intended for use by developers.
+# Generate the extension scripts and install the python package.
+sudo make install
+
+#  Run the tests against the installed extension.
+make test
 ```
--- a/NEWS.md
+++ b/NEWS.md
@@ -1,3 +1,35 @@
+0.4.2 (2016-09-22)
+------------------
+* Bugfix for cdb_areasofinterestglobal: import correct modules
+
+0.4.1 (2016-09-21)
+------------------
+* Let the user set the resolution in CDB_Contour function
+* Add Nearest Neighbors method to CDB_SpatialInterpolation
+* Improve error reporting for moran and markov functions
+
+0.4.0 (2016-08-30)
+------------------
+* Add CDB_Contour
+* Add CDB_PIA
+* Add CDB_Densify
+* Add CDB_TINmap
+
+0.3.1 (2016-08-18)
+------------------
+* Fix Voronoi projection issue
+* Fix Voronoi spurious segments issue
+* Add tests for interpolation
+
+0.3.0 (2016-08-17)
+------------------
+* Adds Voronoi function
+* Fixes barycenter method in interpolation
+
+0.2.0 (2016-08-11)
+------------------
+* Adds Gravity Model
+
 0.1.0 (2016-06-29)
 ------------------
 * Adds Spatial Markov function
--- a/README.md
+++ b/README.md
@@ -1,70 +1,67 @@
-# crankshaft
+# Crankshaft [![Build Status](https://travis-ci.org/CartoDB/crankshaft.svg?branch=develop)](https://travis-ci.org/CartoDB/crankshaft)

-CartoDB Spatial Analysis extension for PostgreSQL.
+CARTO Spatial Analysis extension for PostgreSQL.

 ## Code organization

-* *doc* documentation
-* *src* source code
-* - *src/pg* contains the PostgreSQL extension source code
-* - *src/py* Python module source code
-* *release* reseleased versions
+* `doc/` documentation
+* `src/` source code
+ - `pg/` contains the PostgreSQL extension source code
+ - `py/` Python module source code
+* `release` reseleased versions

 ## Requirements

-* pip, PostgreSQL
-* python-scipy system package (see [src/py/README.md](https://github.com/CartoDB/crankshaft/blob/master/src/py/README.md))
+* PostgreSQL
+* plpythonu and postgis extensions
+* python-scipy system package (see [src/py/README.md](https://github.com/CartoDB/crankshaft/blob/develop/src/py/README.md))

-# Working Process -- Quickstart Guide
+# Development Process

-We distinguish two roles regarding the development cycle of crankshaft:
+We distinguish two roles:

 * *developers* will implement new functionality and bugfixes into
-  the codebase and will request for new releases of the extension.
-* A *release manager* will attend these requests and will handle
-  the release process. The release process is sequential:
-  no concurrent releases will ever be in the works.
+  the codebase.
+* A *release manager* will handle the release process.

-We use the default `develop` branch as the basis for development.
-The `master` branch is used to merge and tag releases to be
-deployed in production.
+We use the branch `develop` as the main integration branch for development. The `master` is reserved to handle releases.

-Developers shall create a new topic branch from `develop` for any new feature
-or bugfix and commit their changes to it and eventually merge back into
-the `develop` branch. When a new release is required a Pull Request
-will be open against the `develop` branch.
+The process is as follows:
+
+1. Create a new **topic branch** from `develop` for any new feature
+or bugfix and commit their changes to it:
+
+  ```shell
+  git fetch && git checkout -b my-cool-feature origin/develop
+  ```
+1. Code, commit, push, repeat.
+1. Write some **tests** for your feature or bugfix.
+1. Update the [NEWS.md](https://github.com/CartoDB/crankshaft/blob/develop/NEWS.md) doc.
+1. Create a pull request and mention relevant people for a **peer review**.
+1. Address the comments and improvements you get from the peer review.
+1. Mention `@CartoDB/dataservices` in the PR to get it merged into `develop`.
+
+In order for a pull request to be accepted, the following criteria should be met:
+* The peer review should pass and no major issue should be left unaddressed.
+* CI tests must pass (travis will take care of that).

-The `develop` pull requests will be handled by the release manage,
-who will merge into master where new releases are prepared and tagged.
-The `master` branch is the sole responsibility of the release masters
-and developers must not commit or merge into it.

 ## Development Guidelines

 For a detailed description of the development process please see
-the [CONTRIBUTING.md](https://github.com/CartoDB/crankshaft/blob/master/CONTRIBUTING.md) guide.
+the [CONTRIBUTING.md](https://github.com/CartoDB/crankshaft/blob/develop/CONTRIBUTING.md) guide.

-Any modification to the source code (`src/pg/sql` for the SQL extension,
-`src/py/crankshaft` for the Python package) shall always be done
-in a topic branch created from the `develop` branch.

-Tests, documentation and peer code reviewing are required for all
-modifications.
+## Testing

-The tests (both for SQL and Python) are executed by running,
-from the top directory:
+The tests (both for SQL and Python) are executed by running, from the top directory:

-```
+```shell
 sudo make install
 make test
 ```

-To request a new release, which will be handled by them
-release manager, a Pull Request must be created in the `develop`
-branch.
-
 ## Release

-The release and deployment process is described in the
-[RELEASE.md](https://github.com/CartoDB/crankshaft/blob/master/RELEASE.md) guide and it is the responsibility of the designated
-release manager.
+The release process is described in the
+[RELEASE.md](https://github.com/CartoDB/crankshaft/blob/develop/RELEASE.md) guide and is the responsibility of the designated *release manager*.
--- a/RELEASE.md
+++ b/RELEASE.md
@@ -1,93 +1,54 @@
 # Release & Deployment Process

-Please read the Working Process/Quickstart Guide in README.md
-and the Development guidelines in CONTRIBUTING.md.
-
 The release process of a new version of the extension
 shall be performed by the designated *Release Manager*.

-Note that we expect to gradually automate more of this process.
+## Release steps
+1. Make sure `develop` branch passes all the tests.
+1. Merge `develop` into `master`
+1. Update the version number in `src/pg/crankshaft.control`.
+1. Generate the next release files with this command:

-Having checked PR to be released it shall be
-merged back into the `master` branch to prepare the new release.
+  ```shell
+  make release
+  ```
+1. Generate an upgrade path from the previous to the next release by copying the generated release file. E.g:

-The version number in `pg/cranckshaft.control` must first be updated.
-To do so [Semantic Versioning 2.0](http://semver.org/) is in order.
+  ```shell
+  cp release/crankshaft--X.Y.Z.sql release/crankshaft--A.B.C--X.Y.Z.sql
+  ```
+  NOTE: you can rely on this thanks to the compatibility checks. 
+  
+  TODO: automate this step [#94](https://github.com/CartoDB/crankshaft/issues/94)
+2. Update the [NEWS.md](https://github.com/CartoDB/crankshaft/blob/master/NEWS.md) file
+1. Commit and push the generated files.
+1. Tag the release:

-Thew `NEWS.md` will be updated.
+  ```
+  git tag -a X.Y.Z -m "Release X.Y.Z"
+  git push origin X.Y.Z
+  ```
+1. Deploy and test in staging
+1. Deploy and test in production
+1. Merge back into develop

-We now will explain the process for the case of backwards-compatible
-releases (updating the minor or patch version numbers).

-TODO: document the complex case of major releases.
+## Some remarks
+* Version numbers shall follow [Semantic Versioning 2.0](http://semver.org/).
+* CI tests will take care of **forward compatibility** of the extension at postgres level.
+* **Major version changes** (breaking forward compatibility) are a major event and are out of the scope of this doc. They **shall be avoided as much as we can**.
+* We will go forward, never backwards. **Generating upgrade paths automatically is easy** and we'll rely on the CI checks for that.

-The next command must be executed to produce the main installation
-script for the new release, `release/cranckshaft--X.Y.Z.sql` and
-also to copy the python package to `release/python/X.Y.Z/crankshaft`.
-
-```
-make release
-```
-
-Then, the release manager shall produce upgrade and downgrade scripts
-to migrate to/from the previous release. In the case of minor/patch
-releases this simply consist in extracting the functions that have changed
-and placing them in the proper `release/cranckshaft--X.Y.Z--A.B.C.sql`
-file.
+## Deploy commands

 The new release can be deployed for staging/smoke tests with this command:

-```
-sudo make deploy
-```
+  ```shell
+  sudo make deploy
+  ```

-This will copy the current 'X.Y.Z' released version of the extension to
-PostgreSQL. The corresponding Python extension will be installed in a
-virtual environment in `envs/X.Y.Z`.
+To install a specific version 'X.Y.Z' different from the default one:

-It can be activated with:
-
-```
-source envs/X.Y.Z/bin/activate
-```
-
-But note that this is needed only for using the package directly;
-the 'X.Y.Z' version of the extension will automatically use the
-python package from this virtual environment.
-
-The `sudo make deploy` operation can be also used for installing
-the new version after it has been released.
-
-To install a specific version 'X.Y.Z' different from the current one
-(which must be present in `releases/`) you can:
-
-```
-sudo make deploy RELEASE_VERSION=X.Y.Z
-```
-
-TODO: testing procedure for the new release.
-
-TODO: procedure for staging deployment.
-
-TODO: procedure for merging to master, tagging and deploying
-in production.
-
-## Relevant release & deployment tasks available in the Makefile
-
-```
-* `make help` show a short description of the available targets
-
-* `make release` will generate a new release (version number defined in
-  `src/pg/crankshaft.control`) into `release/`.
-  Intended for use by the release manager.
-
-* `sudo make deploy` will install the current release X.Y.Z from the
-  `release/` files into PostgreSQL and a Python virtual environment
-  `envs/X.Y.Z`.
-  Intended for use by the release manager and deployment jobs.
-
-* `sudo make deploy RELEASE_VERSION=X.Y.Z` will install specified version
-  previously generated in `release/`
-  into PostgreSQL and a Python virtual environment `envs/X.Y.Z`.
-  Intended for use by the release manager and deployment jobs.
-```
+  ```shell
+  sudo make deploy RELEASE_VERSION=X.Y.Z
+  ```
--- a/check-compatibility.sh
+++ b/check-compatibility.sh
@@ -0,0 +1,108 @@
+#!/bin/bash
+
+export PGUSER=postgres
+
+DBNAME=crankshaft_compatcheck
+
+function die {
+    echo $1
+    exit -1
+}
+
+# Create fresh DB
+psql -c "CREATE DATABASE $DBNAME;" || die "Could not create DB"
+
+# Hook for cleanup
+function cleanup {
+    psql -c "DROP DATABASE IF EXISTS crankshaft_compatcheck;"
+}
+trap cleanup EXIT
+
+# Deploy previous release
+(cd src/py && sudo make deploy RUN_OPTIONS="--no-deps") || die "Could not deploy python extension"
+(cd src/pg && sudo make deploy) || die " Could not deploy last release"
+psql -c "SELECT * FROM pg_available_extension_versions WHERE name LIKE 'crankshaft';"
+
+# Install in the fresh DB
+psql $DBNAME <<'EOF'
+-- Install dependencies
+CREATE EXTENSION plpythonu;
+CREATE EXTENSION postgis VERSION '2.2.2';
+
+-- Create role publicuser if it does not exist
+DO
+$$
+BEGIN
+   IF NOT EXISTS (
+      SELECT *
+      FROM   pg_catalog.pg_user
+      WHERE  usename = 'publicuser') THEN
+
+      CREATE ROLE publicuser LOGIN;
+   END IF;
+END
+$$ LANGUAGE plpgsql;
+
+-- Install the default version
+CREATE EXTENSION crankshaft;
+\dx
+EOF
+
+# Save public function signatures
+psql $DBNAME <<'EOF'
+CREATE TABLE release_function_signatures AS
+  SELECT
+    p.proname as name,
+    pg_catalog.pg_get_function_result(p.oid) as result_type,
+    pg_catalog.pg_get_function_arguments(p.oid) as arguments,
+   CASE
+    WHEN p.proisagg THEN 'agg'
+    WHEN p.proiswindow THEN 'window'
+    WHEN p.prorettype = 'pg_catalog.trigger'::pg_catalog.regtype THEN 'trigger'
+    ELSE 'normal'
+   END as type
+  FROM pg_catalog.pg_proc p
+       LEFT JOIN pg_catalog.pg_namespace n ON n.oid = p.pronamespace
+  WHERE
+       n.nspname = 'cdb_crankshaft'
+       AND p.proname LIKE 'cdb_%'
+  ORDER BY 1, 2, 4;
+EOF
+
+# Deploy current dev branch
+make clean-dev || die "Could not clean dev files"
+sudo make install || die "Could not deploy current dev branch"
+
+# Check it can be upgraded
+psql $DBNAME -c "ALTER EXTENSION crankshaft update to 'dev';" || die "Cannot upgrade to dev version"
+
+# Check against saved public function signatures
+psql $DBNAME <<'EOF'
+CREATE TABLE dev_function_signatures AS
+  SELECT
+    p.proname as name,
+    pg_catalog.pg_get_function_result(p.oid) as result_type,
+    pg_catalog.pg_get_function_arguments(p.oid) as arguments,
+   CASE
+    WHEN p.proisagg THEN 'agg'
+    WHEN p.proiswindow THEN 'window'
+    WHEN p.prorettype = 'pg_catalog.trigger'::pg_catalog.regtype THEN 'trigger'
+    ELSE 'normal'
+   END as type
+  FROM pg_catalog.pg_proc p
+       LEFT JOIN pg_catalog.pg_namespace n ON n.oid = p.pronamespace
+  WHERE
+       n.nspname = 'cdb_crankshaft'
+       AND p.proname LIKE 'cdb_%'
+  ORDER BY 1, 2, 4;
+EOF
+
+echo "Functions in development not in latest release (ok):"
+psql $DBNAME -c "SELECT * FROM dev_function_signatures EXCEPT SELECT * FROM release_function_signatures;"
+
+echo "Functions in latest release not in development (compat issue):"
+psql $DBNAME -c "SELECT * FROM release_function_signatures EXCEPT SELECT * FROM dev_function_signatures;"
+
+# Fail if there's a signature mismatch / missing functions
+psql $DBNAME -c "SELECT * FROM release_function_signatures EXCEPT SELECT * FROM dev_function_signatures;" | fgrep '(0 rows)' \
+    || die "Function signatures changed"
--- a/check-up-to-date-with-master.sh
+++ b/check-up-to-date-with-master.sh
@@ -0,0 +1,24 @@
+#!/bin/bash
+
+CURRENT_BRANCH=$(git rev-parse --abbrev-ref HEAD)
+
+if [[ "$CURRENT_BRANCH" == "master" || "$CURRENT_BRANCH" == "HEAD" ]]
+then
+    echo "master branch or detached HEAD"
+    exit 0
+fi
+
+# Add remote-master
+git remote add -t master remote-master https://github.com/CartoDB/crankshaft.git
+
+# Fetch master reference
+git fetch --depth=1 remote-master master
+
+# Compare HEAD with master
+# NOTE: travis by default uses --depth=50 so we are actually checking that the tip
+# of the branch is no more than 50 commits away from master as well.
+git rev-list HEAD | grep $(git rev-parse remote-master/master) ||
+    { echo "Your branch is not up to date with latest release";
+      echo "Please update it by running the following:";
+      echo "    git fetch && git merge origin/develop";
+      false; }
--- a/doc/02_moran.md
+++ b/doc/02_moran.md
@@ -37,7 +37,7 @@ SELECT
  aoi.quads,
  aoi.significance,
  c.num_cyclists_per_total_population
-FROM CDB_GetAreasOfInterestLocal('SELECT * FROM commute_data'
+FROM CDB_AreasOfInterestLocal('SELECT * FROM commute_data'
                                 'num_cyclists_per_total_population') As aoi
 JOIN commute_data As c
 ON c.cartodb_id = aoi.rowid;
@@ -113,7 +113,7 @@ SELECT
  aoi.quads,
  aoi.significance,
  c.cyclists_per_total_population
-FROM CDB_GetAreasOfInterestLocalRate('SELECT * FROM commute_data'
+FROM CDB_AreasOfInterestLocalRate('SELECT * FROM commute_data'
                                     'num_cyclists',
                                     'total_population') As aoi
 JOIN commute_data As c
--- a/doc/07_gravity.md
+++ b/doc/07_gravity.md
@@ -0,0 +1,78 @@
+## Gravity Model
+
+Gravity Models are derived from Newton's Law of Gravity and are used to predict the interaction between a group of populated areas (sources) and a specific target among a group of potential targets, in terms of an attraction factor (weight)
+
+**CDB_Gravity** is based on the model defined in *Huff's Law of Shopper attraction (1963)*
+
+### CDB_Gravity(t_id bigint[], t_geom geometry[], t_weight numeric[], s_id bigint[], s_geom geometry[], s_pop numeric[], target bigint, radius integer, minval numeric DEFAULT -10e307)
+
+#### Arguments
+
+| Name | Type | Description |
+|------|------|-------------|
+| t_id     | bigint[]    | Array of targets ID |
+| t_geom   | geometry[]  | Array of targets' geometries |
+| t_weight | numeric[]   | Array of targets's weights |
+| s_id     | bigint[]    | Array of sources ID |
+| s_geom   | geometry[]  | Array of sources' geometries |
+| s_pop    | numeric[]   | Array of sources's population |
+| target   | bigint      | ID of the target under study |
+| radius   | integer     | Radius in meters around the target under study that will be taken into account|
+| minval (optional)   | numeric     | Lowest accepted value of weight, defaults to numeric min_value |
+
+### CDB_Gravity( target_query text, weight_column text, source_query text, pop_column text, target bigint, radius integer, minval numeric DEFAULT -10e307)
+
+#### Arguments
+
+| Name | Type | Description |
+|------|------|-------------|
+| target_query     | text    | Query that defines targets |
+| weight_column   | text  | Column name of weights |
+| source_query     | text    | Query that defines sources |
+| pop_column   | text  | Column name of population |
+| target   | bigint      | cartodb_id of the target under study |
+| radius   | integer     | Radius in meters around the target under study that will be taken into account|
+| minval (optional)   | numeric     | Lowest accepted value of weight, defaults to numeric min_value |
+
+
+### Returns
+
+| Column Name | Type | Description |
+|-------------|------|-------------|
+| the_geom  | geometry | Geometries of the sources within the radius |
+| source_id | bigint  | ID of the source |
+| target_id | bigint  | Target ID from input |
+| dist      | numeric | Distance in meters source to target (if not points, distance between centroids) |
+| h         | numeric | Probability of patronage |
+| hpop      | numeric | Patronaging population |
+
+
+#### Example Usage
+
+```sql
+with t as (
+SELECT
+    array_agg(cartodb_id::bigint) as id,
+    array_agg(the_geom) as g,
+    array_agg(coalesce(gla,0)::numeric) as w
+FROM
+    abel.centros_comerciales_de_madrid
+WHERE not no_cc
+),
+s as (
+SELECT
+    array_agg(cartodb_id::bigint) as id,
+    array_agg(center) as g,
+    array_agg(coalesce(t1_1, 0)::numeric) as p
+FROM
+    sscc_madrid
+)
+select
+    g.the_geom,
+    trunc(g.h,2) as h,
+    round(g.hpop) as hpop,
+    trunc(g.dist/1000,2) as dist_km
+FROM t, s, CDB_Gravity1(t.id, t.g, t.w, s.id, s.g, s.p, newmall_ID, 100000, 5000) g
+```
+
+
--- a/doc/08_interpolation.md
+++ b/doc/08_interpolation.md
@@ -2,7 +2,7 @@

 Function to interpolate a numeric attribute of a point in a scatter dataset of points, using one of three methos:

-* [Nearest neighbor](https://en.wikipedia.org/wiki/Nearest-neighbor_interpolation)
+* [Nearest neighbor(s)](https://en.wikipedia.org/wiki/Nearest-neighbor_interpolation)
 * [Barycentric](https://en.wikipedia.org/wiki/Barycentric_coordinate_system)
 * [IDW](https://en.wikipedia.org/wiki/Inverse_distance_weighting)

@@ -15,7 +15,7 @@ Function to interpolate a numeric attribute of a point in a scatter dataset of p
 | query   | text | query that returns at least `the_geom` and a numeric value as `attrib` |
 | point   | geometry | The target point to calc the value |
 | method   | integer     | 0:nearest neighbor, 1: barycentric, 2: IDW|
-| p1   | integer     | IDW: limit the number of neighbors, 0->no limit|
+| p1   | integer     | limit the number of neighbors, IDW: 0->no limit, NN: 0-> closest one|
 | p2   | integer     | IDW: order of distance decay, 0-> order 1|

 ### CDB_SpatialInterpolation (geom geometry[], values numeric[], point geometry, method integer DEFAULT 1, p1 integer DEFAULT 0, ps integer DEFAULT 0)
@@ -28,7 +28,7 @@ Function to interpolate a numeric attribute of a point in a scatter dataset of p
 | values | numeric[]   | Array of points' values for the param under study|
 | point   | geometry | The target point to calc the value |
 | method   | integer     | 0:nearest neighbor, 1: barycentric, 2: IDW|
-| p1   | integer     | IDW: limit the number of neighbors, 0->no limit|
+| p1   | integer     | limit the number of neighbors, IDW: 0->no limit, NN: 0-> closest one|
 | p2   | integer     | IDW: order of distance decay, 0-> order 1|

 ### Returns
@@ -37,6 +37,9 @@ Function to interpolate a numeric attribute of a point in a scatter dataset of p
 |-------------|------|-------------|
 | value  | numeric | Interpolated value at the given point, `-888.888` if the given point is out of the boundaries of the source points set |

+Default values:
+* -888.888: when using Barycentric, the target point is out of the realm of the input points
+* -777.777: asking for a method not available

 #### Example Usage

--- a/doc/09_voronoi.md
+++ b/doc/09_voronoi.md
@@ -0,0 +1,38 @@
+## Voronoi
+
+Function to construct the [Voronoi Diagram](https://en.wikipedia.org/wiki/Voronoi_diagram) from a dataset of scatter points, clipped to the significant area
+
+PostGIS wil include this in future versions ([doc for dev branch](http://postgis.net/docs/manual-dev/ST_Voronoi.html)) and will perform faster for sure, but in the meantime...
+
+
+### CDB_Voronoi (geom geometry[], buffer numeric DEFAULT 0.5, tolerance numeric DEFAULT 1e-9)
+
+#### Arguments
+
+| Name | Type | Description |
+|------|------|-------------|
+| geom   | geometry[]  | Array of points's geometries |
+| buffer | numeric   | enlargment ratio for the envelope area used for the restraints|
+| tolerance   | numeric |  Delaunay tolerance, optional |
+
+### Returns
+
+| Column Name | Type | Description |
+|-------------|------|-------------|
+| geom  | geometry collection | Collection of polygons of the Voronoi cells|
+
+
+#### Example Usage
+
+```sql
+WITH a AS (
+    SELECT
+    ARRAY[ST_GeomFromText('POINT(2.1744 41.403)', 4326),ST_GeomFromText('POINT(2.1228 41.380)', 4326),ST_GeomFromText('POINT(2.1511 41.374)', 4326),ST_GeomFromText('POINT(2.1528 41.413)', 4326),ST_GeomFromText('POINT(2.165 41.391)', 4326),ST_GeomFromText('POINT(2.1498 41.371)', 4326),ST_GeomFromText('POINT(2.1533 41.368)', 4326),ST_GeomFromText('POINT(2.131386 41.41399)', 4326)] AS geomin
+)
+SELECT
+    st_transform(
+    (st_dump(CDB_voronoi(geomin, 0.2, 1e-9)
+    )).geom
+        , 3857) as the_geom_webmercator
+FROM a;
+```
--- a/doc/13_PIA.md
+++ b/doc/13_PIA.md
@@ -0,0 +1,33 @@
+## Pole of inaccessibility (PIA)
+
+Function to find the [PIA](https://en.wikipedia.org/wiki/Pole_of_inaccessibility) from a given polygon and tolerance, following the quadtree approach by [Vladimir Agafonkin](https://github.com/mourner) described [here](https://github.com/mapbox/polylabel)
+
+
+
+### CDB_PIA (polygon geometry, tolerance numeric DEFAULT 1.0)
+
+#### Arguments
+
+| Name | Type | Description |
+|------|------|-------------|
+| polygon   | geometry  | Target polygon |
+| tolerance   | numeric | Threshold to decide to take a cell into account |
+
+### Returns
+
+| Column Name | Type | Description |
+|-------------|------|-------------|
+| point  | geometry| Pole of inaccessibility |
+
+
+#### Example Usage
+
+```sql
+with a as(
+ select st_geomfromtext('POLYGON((-432540.453078056 4949775.20452642,-432329.947920966 4951361.232584,-431245.028163694 4952223.31516671,-429131.071033529 4951768.00415574,-424622.07505895 4952843.13503987,-423688.327170174 4953499.20752423,-424086.294349759 4954968.38274191,-423068.388925945 4954378.63345336,-423387.653225542 4953355.67417084,-420594.869840519 4953781.00230592,-416026.095299382 4951484.06849063,-412483.018546414 4951024.5410983,-410490.399661215 4954502.24032205,-408186.197521284 4956398.91417441,-407627.262358013 4959300.94633864,-406948.770061627 4959874.85407739,-404949.583326472 4959047.74518163,-402570.908447199 4953743.46829807,-400971.358683991 4952193.11680804,-403533.488084088 4949649.89857885,-406335.177028373 4950193.19571096,-407790.456731515 4952391.46015616,-412060.672398345 4950381.2389307,-410716.93482498 4949156.7509561,-408464.162289794 4943912.8940387,-409350.599394983 4942819.84896006,-408087.791091424 4942451.6711778,-407274.045613725 4940572.4807777,-404446.196589102 4939976.71501489,-402422.964843936 4940450.3670813,-401010.654464241 4939054.8061663,-397647.247369412 4940679.80737878,-395658.413346901 4940528.84765185,-395536.852462953 4938829.79565997,-394268.923462818 4938003.7277717,-393388.720249116 4934757.80596815,-392393.301362444 4934326.71675815,-392573.527618037 4932323.40974412,-393464.640141837 4931903.10653605,-393085.597275686 4931094.7353605,-398426.261165985 4929156.87541607,-398261.174361137 4926238.00816416,-394045.059966834 4925765.18668498,-392982.960705174 4926391.81893628,-393090.272694301 4927176.84692181,-391648.240010564 4924626.06386961,-391889.914625075 4923086.14787613,-394345.177314013 4923235.086036,-395550.878718795 4917812.79243978,-399009.463978251 4912927.7157945,-398948.794855767 4911941.91010796,-398092.636652078 4911806.57392519,-401991.601817112 4911722.9204501,-406225.972607907 4914505.47286319,-411104.994569885 4912569.26941163,-412925.513522316 4913030.3608866,-414630.148884835 4914436.69169949,-414207.691417276 4919205.78028405,-418306.141109809 4917994.9580478,-424184.700779621 4918938.12432889,-426816.961458921 4923664.37379373,-420956.324227126 4923381.98014807,-420186.661267781 4924286.48693378,-420943.411166194 4926812.76394433,-419779.45457046 4928527.43466337,-419768.767899344 4930681.94459216,-421911.668097113 4930432.40620397,-423482.386112205 4933451.28047252,-427272.814773717 4934151.56473242,-427144.908678797 4939731.77191996,-428982.125554848 4940522.84445172,-428986.133056516 4942437.17281266,-431237.792396792 4947309.68284815,-432476.889648814 4947791.74800037,-432540.453078056 4949775.20452642))', 3857) as g
+),
+b as (
+    select ST_Transform(g, 4326) as g from a
+)
+SELECT st_astext(CDB_PIA(g)) from b;
+```
--- a/doc/14_densify.md
+++ b/doc/14_densify.md
@@ -0,0 +1,35 @@
+## Densify function
+
+Iterative densification of a set of scattered points using Delaunay triangulation. The new points are located at the centroids of the grid cells and  have as assigned value the barycentric average value of the cell's vertex.
+
+### CDB_Densify(geomin geometry[], colin numeric[], iterations integer)
+
+#### Arguments
+
+| Name | Type | Description |
+|------|------|-------------|
+| geomin   | geometry[]  | Array of points geometries |
+| colin | numeric[]   | Array of points' values |
+| iterations   | integer     | Number of iterations |
+
+### Returns
+
+Returns a table object
+
+| Name | Type | Description |
+|------|------|-------------|
+| geomout   | geometry  | Geometries of new dataset of points|
+| colout | numeric   | Values of points|
+
+#### Example Usage
+
+```sql
+with data as (
+    select
+    ARRAY[7.0,8.0,1.0,2.0,3.0,5.0,6.0,4.0] as colin,
+    ARRAY[ST_GeomFromText('POINT(2.1744 41.4036)'),ST_GeomFromText('POINT(2.1228 41.3809)'),ST_GeomFromText('POINT(2.1511 41.3742)'),ST_GeomFromText('POINT(2.1528 41.4136)'),ST_GeomFromText('POINT(2.165 41.3917)'),ST_GeomFromText('POINT(2.1498 41.3713)'),ST_GeomFromText('POINT(2.1533 41.3683)'),ST_GeomFromText('POINT(2.131386 41.413998)')] as geomin
+)
+select CDB_Densify(geomin, colin, 2) from data;
+```
+
+
--- a/doc/15_tinmap.md
+++ b/doc/15_tinmap.md
@@ -0,0 +1,36 @@
+## TINMAP function
+
+Generates a fake contour map, in the form of a TIN map, from a set of scattered points.Depends on **CDB_Densify**.
+
+Its iterative nature lets the user smooth the final result as much as desired, but with a exponential time cost increase.
+
+### CDB_TINmap(geomin geometry[], colin numeric[], iterations integer)
+
+#### Arguments
+
+| Name | Type | Description |
+|------|------|-------------|
+| geomin   | geometry[]  | Array of points geometries |
+| colin | numeric[]   | Array of points' values |
+| iterations   | integer     | Number of iterations |
+
+### Returns
+
+Returns a table object
+
+| Name | Type | Description |
+|------|------|-------------|
+| geomout   | geometry  | Geometries of new dataset of polygons|
+| colout | numeric   | Values of each cell|
+
+#### Example Usage
+
+```sql
+with data as (
+    select
+    ARRAY[7.0,8.0,1.0,2.0,3.0,5.0,6.0,4.0] as colin,
+    ARRAY[ST_GeomFromText('POINT(2.1744 41.4036)'),ST_GeomFromText('POINT(2.1228 41.3809)'),ST_GeomFromText('POINT(2.1511 41.3742)'),ST_GeomFromText('POINT(2.1528 41.4136)'),ST_GeomFromText('POINT(2.165 41.3917)'),ST_GeomFromText('POINT(2.1498 41.3713)'),ST_GeomFromText('POINT(2.1533 41.3683)'),ST_GeomFromText('POINT(2.131386 41.413998)')] as geomin
+)
+select CDB_TINmap(geomin, colin, 2) from data;
+```
+
--- a/doc/19_contour.md
+++ b/doc/19_contour.md
@@ -0,0 +1,50 @@
+## Contour maps
+
+Function to generate a contour map from an scatter dataset of points, using one of these three methods:
+
+* [Nearest neighbor](https://en.wikipedia.org/wiki/Nearest-neighbor_interpolation)
+* [Barycentric](https://en.wikipedia.org/wiki/Barycentric_coordinate_system)
+* [IDW](https://en.wikipedia.org/wiki/Inverse_distance_weighting)
+
+### CDB_Contour (geom geometry[], values numeric[], resolution integer, buffer numeric, method, classmethod integer, steps integer)
+
+#### Arguments
+
+| Name | Type | Description |
+|------|------|-------------|
+| geom   | geometry[]  | Array of points's geometries |
+| values | numeric[]   | Array of points' values for the param under study|
+| buffer   | numeric     | Value between 0 and 1 for spatial buffer of the set of points
+| method   | integer     | 0:nearest neighbor, 1: barycentric, 2: IDW|
+| classmethod   | integer     | 0:equals, 1: heads&tails, 2:jenks, 3:quantiles |
+| steps   | integer     | Number of steps in the classification|
+| max_time   | integer     | if <= 0: max processing time in seconds (smart resolution) , if >0: resolution in meters
+
+### Returns
+Returns a table object
+
+| Name | Type | Description |
+|------|------|-------------|
+| the_geom   | geometry  | Geometries of the classified contour map|
+| avg_value | numeric   | Avg value of the area|
+| min_value | numeric   | Min value of the area|
+| max_value | numeric   | Max value of the areal|
+| bin | integer   | Index of the class of the area|
+
+#### Example Usage
+
+```sql
+WITH a AS (
+    SELECT
+    ARRAY[800, 700, 600, 500, 400, 300, 200, 100]::numeric[] AS vals,
+    ARRAY[ST_GeomFromText('POINT(2.1744 41.403)',4326),ST_GeomFromText('POINT(2.1228 41.380)',4326),ST_GeomFromText('POINT(2.1511 41.374)',4326),ST_GeomFromText('POINT(2.1528 41.413)',4326),ST_GeomFromText('POINT(2.165 41.391)',4326),ST_GeomFromText('POINT(2.1498 41.371)',4326),ST_GeomFromText('POINT(2.1533 41.368)',4326),ST_GeomFromText('POINT(2.131386 41.41399)',4326)] AS g
+),
+b as(
+SELECT
+    foo.*
+FROM
+    a,
+    cdb_crankshaft.CDB_contour(a.g, a.vals,  0.0, 1, 3, 5, 60) foo
+)
+SELECT bin, avg_value from b order by bin;
+```
--- a/release/crankshaft--0.1.0--0.2.0.sql
+++ b/release/crankshaft--0.1.0--0.2.0.sql
@@ -0,0 +1,827 @@
+--DO NOT MODIFY THIS FILE, IT IS GENERATED AUTOMATICALLY FROM SOURCES
+-- Complain if script is sourced in psql, rather than via CREATE EXTENSION
+\echo Use "CREATE EXTENSION crankshaft" to load this file. \quit
+-- Version number of the extension release
+CREATE OR REPLACE FUNCTION cdb_crankshaft_version()
+RETURNS text AS $$
+  SELECT '0.2.0'::text;
+$$ language 'sql' STABLE STRICT;
+
+-- Internal identifier of the installed extension instence
+-- e.g. 'dev' for current development version
+CREATE OR REPLACE FUNCTION _cdb_crankshaft_internal_version()
+RETURNS text AS $$
+  SELECT installed_version FROM pg_available_extensions where name='crankshaft' and pg_available_extensions IS NOT NULL;
+$$ language 'sql' STABLE STRICT;
+-- Internal function.
+-- Set the seeds of the RNGs (Random Number Generators)
+-- used internally.
+CREATE OR REPLACE FUNCTION
+_cdb_random_seeds (seed_value INTEGER) RETURNS VOID
+AS $$
+  from crankshaft import random_seeds
+  random_seeds.set_random_seeds(seed_value)
+$$ LANGUAGE plpythonu;
+CREATE OR REPLACE FUNCTION
+    CDB_PyAggS(current_state Numeric[], current_row Numeric[]) 
+    returns NUMERIC[] as $$
+    BEGIN
+        if array_upper(current_state,1) is null  then
+            RAISE NOTICE 'setting state %',array_upper(current_row,1);
+            current_state[1] = array_upper(current_row,1);
+        end if;
+        return array_cat(current_state,current_row) ;
+    END
+    $$ LANGUAGE plpgsql;
+
+-- Create aggregate if it did not exist
+DO $$
+BEGIN
+    IF NOT EXISTS (
+        SELECT *
+        FROM pg_catalog.pg_proc p
+            LEFT JOIN pg_catalog.pg_namespace n ON n.oid = p.pronamespace
+        WHERE n.nspname = 'cdb_crankshaft'
+            AND p.proname = 'cdb_pyagg'
+            AND p.proisagg)
+    THEN
+        CREATE AGGREGATE CDB_PyAgg(NUMERIC[]) (
+            SFUNC = CDB_PyAggS,
+            STYPE = Numeric[],
+            INITCOND = "{}"
+        );
+    END IF;
+END
+$$ LANGUAGE plpgsql;
+
+CREATE OR REPLACE FUNCTION
+  CDB_CreateAndPredictSegment(
+    target NUMERIC[],
+    features NUMERIC[],
+    target_features NUMERIC[],
+    target_ids NUMERIC[],
+    n_estimators INTEGER DEFAULT 1200,
+    max_depth INTEGER DEFAULT 3,
+    subsample DOUBLE PRECISION DEFAULT 0.5,
+    learning_rate DOUBLE PRECISION DEFAULT 0.01,
+    min_samples_leaf INTEGER DEFAULT 1)
+RETURNS TABLE(cartodb_id NUMERIC, prediction NUMERIC, accuracy NUMERIC)
+AS $$
+    import numpy as np
+    import plpy
+
+    from crankshaft.segmentation import create_and_predict_segment_agg
+    model_params = {'n_estimators': n_estimators,
+                    'max_depth': max_depth,
+                    'subsample': subsample,
+                    'learning_rate': learning_rate,
+                    'min_samples_leaf': min_samples_leaf}
+
+    def unpack2D(data):
+        dimension = data.pop(0)
+        a = np.array(data, dtype=float)
+        return a.reshape(len(a)/dimension, dimension)
+
+    return create_and_predict_segment_agg(np.array(target, dtype=float),
+            unpack2D(features),
+            unpack2D(target_features),
+            target_ids,
+            model_params)
+
+$$ LANGUAGE plpythonu;
+
+CREATE OR REPLACE FUNCTION
+  CDB_CreateAndPredictSegment (
+      query TEXT,
+      variable_name TEXT,
+      target_table TEXT,
+      n_estimators INTEGER DEFAULT 1200,
+      max_depth INTEGER DEFAULT 3,
+      subsample DOUBLE PRECISION DEFAULT 0.5,
+      learning_rate DOUBLE PRECISION DEFAULT 0.01,
+      min_samples_leaf INTEGER DEFAULT 1)
+RETURNS TABLE (cartodb_id TEXT, prediction NUMERIC, accuracy NUMERIC)
+AS $$
+  from crankshaft.segmentation import create_and_predict_segment
+  model_params = {'n_estimators': n_estimators, 'max_depth':max_depth, 'subsample' : subsample, 'learning_rate': learning_rate, 'min_samples_leaf' : min_samples_leaf}
+  return create_and_predict_segment(query,variable_name,target_table, model_params)
+$$ LANGUAGE plpythonu;
+CREATE OR REPLACE FUNCTION CDB_Gravity(
+    IN target_query text,
+    IN weight_column text,
+    IN source_query text,
+    IN pop_column text,
+    IN target bigint,
+    IN radius integer,
+    IN minval numeric DEFAULT -10e307
+    )
+RETURNS TABLE(
+    the_geom geometry,
+    source_id bigint,
+    target_id bigint,
+    dist numeric,
+    h numeric,
+    hpop numeric)  AS $$
+DECLARE
+    t_id bigint[];
+    t_geom geometry[];
+    t_weight numeric[];
+    s_id bigint[];
+    s_geom geometry[];
+    s_pop numeric[];
+BEGIN
+    EXECUTE 'WITH foo as('+target_query+') SELECT array_agg(cartodb_id), array_agg(the_geom), array_agg(' || weight_column || ') FROM foo' INTO t_id, t_geom, t_weight;
+    EXECUTE 'WITH foo as('+source_query+') SELECT array_agg(cartodb_id), array_agg(the_geom), array_agg(' || pop_column || ') FROM foo' INTO s_id, s_geom, s_pop;
+    RETURN QUERY
+    SELECT g.* FROM t, s, CDB_Gravity(t_id, t_geom, t_weight, s_id, s_geom, s_pop, target, radius, minval) g;
+END;
+$$ language plpgsql;
+
+CREATE OR REPLACE FUNCTION CDB_Gravity(
+    IN t_id bigint[],
+    IN t_geom geometry[],
+    IN t_weight numeric[],
+    IN s_id bigint[],
+    IN s_geom geometry[],
+    IN s_pop numeric[],
+    IN target bigint,
+    IN radius integer,
+    IN minval numeric DEFAULT -10e307
+    )
+RETURNS TABLE(
+    the_geom geometry,
+    source_id bigint,
+    target_id bigint,
+    dist numeric,
+    h numeric,
+    hpop numeric)  AS $$
+DECLARE
+    t_type text;
+    s_type text;
+    t_center geometry[];
+    s_center geometry[];
+BEGIN
+    t_type := GeometryType(t_geom[1]);
+    s_type := GeometryType(s_geom[1]);
+    IF t_type = 'POINT' THEN
+        t_center := t_geom;
+    ELSE
+        WITH tmp as (SELECT unnest(t_geom) as g) SELECT array_agg(ST_Centroid(g)) INTO t_center FROM tmp;
+    END IF;
+    IF s_type = 'POINT' THEN
+        s_center := s_geom;
+    ELSE
+        WITH tmp as (SELECT unnest(s_geom) as g) SELECT array_agg(ST_Centroid(g)) INTO s_center FROM tmp;
+    END IF;
+    RETURN QUERY
+        with target0 as(
+            SELECT unnest(t_center) as tc, unnest(t_weight) as tw, unnest(t_id) as td
+        ),
+        source0 as(
+            SELECT unnest(s_center) as sc, unnest(s_id) as sd, unnest (s_geom) as sg, unnest(s_pop) as sp
+        ),
+        prev0 as(
+            SELECT
+                source0.sg,
+                source0.sd as sourc_id,
+                coalesce(source0.sp,0) as sp,
+                target.td as targ_id,
+                coalesce(target.tw,0) as tw,
+                GREATEST(1.0,ST_Distance(geography(target.tc), geography(source0.sc)))::numeric as distance
+            FROM source0
+            CROSS JOIN LATERAL
+                (
+                SELECT
+                    *
+                FROM target0
+                    WHERE tw > minval
+                    AND ST_DWithin(geography(source0.sc), geography(tc), radius)
+                ) AS target
+        ),
+        deno as(
+            SELECT
+                sourc_id,
+                sum(tw/distance) as h_deno
+            FROM
+                prev0
+            GROUP BY sourc_id
+        )
+        SELECT
+            p.sg as the_geom,
+            p.sourc_id as source_id,
+            p.targ_id as target_id,
+            case when p.distance > 1 then p.distance else 0.0 end as dist,
+            100*(p.tw/p.distance)/d.h_deno as h,
+            p.sp*(p.tw/p.distance)/d.h_deno as hpop
+        FROM
+            prev0 p,
+            deno d
+        WHERE
+            p.targ_id = target AND
+            p.sourc_id = d.sourc_id;
+END;
+$$ language plpgsql;
+-- 0: nearest neighbor
+-- 1: barymetric
+-- 2: IDW
+
+CREATE OR REPLACE FUNCTION CDB_SpatialInterpolation(
+    IN query text,
+    IN point geometry,
+    IN method integer DEFAULT 1,
+    IN p1 numeric DEFAULT 0,
+    IN p2 numeric DEFAULT 0
+    )
+RETURNS numeric AS
+$$
+DECLARE
+    gs geometry[];
+    vs numeric[];
+    output numeric;
+BEGIN
+    EXECUTE 'WITH a AS('||query||') SELECT array_agg(the_geom), array_agg(attrib) FROM a' INTO gs, vs;
+    SELECT CDB_SpatialInterpolation(gs, vs, point, method, p1,p2) INTO output FROM a;
+
+    RETURN output;
+END;
+$$
+language plpgsql IMMUTABLE;
+
+CREATE OR REPLACE FUNCTION CDB_SpatialInterpolation(
+    IN geomin geometry[],
+    IN colin numeric[],
+    IN point geometry,
+    IN method integer DEFAULT 1,
+    IN p1 numeric DEFAULT 0,
+    IN p2 numeric DEFAULT 0
+    )
+RETURNS numeric AS
+$$
+DECLARE
+    gs geometry[];
+    vs numeric[];
+    gs2 geometry[];
+    vs2 numeric[];
+    g geometry;
+    vertex geometry[];
+    sg numeric;
+    sa numeric;
+    sb numeric;
+    sc numeric;
+    va numeric;
+    vb numeric;
+    vc numeric;
+    output numeric;
+BEGIN
+    output :=  -999.999;
+    -- nearest
+    IF method = 0 THEN
+
+        WITH    a as (SELECT unnest(geomin) as g, unnest(colin) as v)
+        SELECT a.v INTO output FROM a ORDER BY point<->a.g LIMIT 1;
+        RETURN output;
+
+    -- barymetric
+    ELSIF method = 1 THEN
+        WITH    a as (SELECT unnest(geomin) AS e),
+                b as (SELECT ST_DelaunayTriangles(ST_Collect(a.e),0.001, 0) AS t FROM a),
+                c as (SELECT (ST_Dump(t)).geom as v FROM b),
+                d as (SELECT v FROM c WHERE ST_Within(point, v))
+            SELECT v INTO g FROM d;
+        IF g is null THEN
+            -- out of the realm of the input data
+            RETURN -888.888;
+        END IF;
+        -- vertex of the selected cell
+        WITH a AS (SELECT (ST_DumpPoints(g)).geom AS v)
+                SELECT array_agg(v) INTO vertex FROM a;
+
+            -- retrieve the value of each vertex
+        WITH a AS(SELECT unnest(vertex) as geo, unnest(colin) as c)
+            SELECT c INTO va FROM a WHERE ST_Equals(geo, vertex[1]);
+        WITH a AS(SELECT unnest(vertex) as geo, unnest(colin) as c)
+            SELECT c INTO vb FROM a WHERE ST_Equals(geo, vertex[2]);
+        WITH a AS(SELECT unnest(vertex) as geo, unnest(colin) as c)
+                SELECT c INTO vc FROM a WHERE ST_Equals(geo, vertex[3]);
+
+        SELECT ST_area(g), ST_area(ST_MakePolygon(ST_MakeLine(ARRAY[point, vertex[2], vertex[3], point]))), ST_area(ST_MakePolygon(ST_MakeLine(ARRAY[point, vertex[1], vertex[3], point]))), ST_area(ST_MakePolygon(ST_MakeLine(ARRAY[point,vertex[1],vertex[2], point]))) INTO sg, sa, sb, sc;
+
+        output := (coalesce(sa,0) * coalesce(va,0) + coalesce(sb,0) * coalesce(vb,0) + coalesce(sc,0) * coalesce(vc,0)) / coalesce(sg);
+        RETURN output;
+
+    -- IDW
+    -- p1: limit the number of neighbors, 0->no limit
+    -- p2: order of distance decay, 0-> order 1
+    ELSIF method = 2 THEN
+
+        IF p2 = 0 THEN
+            p2 := 1;
+        END IF;
+
+        WITH    a as (SELECT unnest(geomin) as g, unnest(colin) as v),
+                b as (SELECT a.g, a.v FROM a ORDER BY point<->a.g)
+        SELECT array_agg(b.g), array_agg(b.v) INTO gs, vs FROM b;
+        IF p1::integer>0 THEN
+            gs2:=gs;
+            vs2:=vs;
+            FOR i IN 1..p1
+            LOOP
+                gs2 := gs2 || gs[i];
+                vs2 := vs2 || vs[i];
+            END LOOP;
+        ELSE
+            gs2:=gs;
+            vs2:=vs;
+        END IF;
+
+        WITH    a as (SELECT unnest(gs2) as g, unnest(vs2) as v),
+                b as (
+                    SELECT
+                    (1/ST_distance(point, a.g)^p2::integer) as k,
+                    (a.v/ST_distance(point, a.g)^p2::integer) as f
+                    FROM a
+                )
+        SELECT sum(b.f)/sum(b.k) INTO output FROM b;
+        RETURN output;
+
+    END IF;
+
+    RETURN -777.777;
+
+END;
+$$
+language plpgsql IMMUTABLE;
+-- Moran's I Global Measure (public-facing)
+CREATE OR REPLACE FUNCTION
+  CDB_AreasOfInterestGlobal(
+      subquery TEXT,
+      column_name TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS TABLE (moran NUMERIC, significance NUMERIC)
+AS $$
+  from crankshaft.clustering import moran_local
+  # TODO: use named parameters or a dictionary
+  return moran(subquery, column_name, w_type, num_ngbrs, permutations, geom_col, id_col)
+$$ LANGUAGE plpythonu;
+
+-- Moran's I Local (internal function)
+CREATE OR REPLACE FUNCTION
+  _CDB_AreasOfInterestLocal(
+      subquery TEXT,
+      column_name TEXT,
+      w_type TEXT,
+      num_ngbrs INT,
+      permutations INT,
+      geom_col TEXT,
+      id_col TEXT)
+RETURNS TABLE (moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+  from crankshaft.clustering import moran_local
+  # TODO: use named parameters or a dictionary
+  return moran_local(subquery, column_name, w_type, num_ngbrs, permutations, geom_col, id_col)
+$$ LANGUAGE plpythonu;
+
+-- Moran's I Local (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_AreasOfInterestLocal(
+    subquery TEXT,
+    column_name TEXT,
+    w_type TEXT DEFAULT 'knn',
+    num_ngbrs INT DEFAULT 5,
+    permutations INT DEFAULT 99,
+    geom_col TEXT DEFAULT 'the_geom',
+    id_col TEXT DEFAULT 'cartodb_id')
+RETURNS TABLE (moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocal(subquery, column_name, w_type, num_ngbrs, permutations, geom_col, id_col);
+
+$$ LANGUAGE SQL;
+
+-- Moran's I only for HH and HL (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialHotspots(
+    subquery TEXT,
+    column_name TEXT,
+    w_type TEXT DEFAULT 'knn',
+    num_ngbrs INT DEFAULT 5,
+    permutations INT DEFAULT 99,
+    geom_col TEXT DEFAULT 'the_geom',
+    id_col TEXT DEFAULT 'cartodb_id')
+    RETURNS TABLE (moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocal(subquery, column_name, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('HH', 'HL');
+
+$$ LANGUAGE SQL;
+
+-- Moran's I only for LL and LH (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialColdspots(
+    subquery TEXT,
+    attr TEXT,
+    w_type TEXT DEFAULT 'knn',
+    num_ngbrs INT DEFAULT 5,
+    permutations INT DEFAULT 99,
+    geom_col TEXT DEFAULT 'the_geom',
+    id_col TEXT DEFAULT 'cartodb_id')
+    RETURNS TABLE (moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocal(subquery, attr, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('LL', 'LH');
+
+$$ LANGUAGE SQL;
+
+-- Moran's I only for LH and HL (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialOutliers(
+    subquery TEXT,
+    attr TEXT,
+    w_type TEXT DEFAULT 'knn',
+    num_ngbrs INT DEFAULT 5,
+    permutations INT DEFAULT 99,
+    geom_col TEXT DEFAULT 'the_geom',
+    id_col TEXT DEFAULT 'cartodb_id')
+    RETURNS TABLE (moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocal(subquery, attr, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('HL', 'LH');
+
+$$ LANGUAGE SQL;
+
+-- Moran's I Global Rate (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_AreasOfInterestGlobalRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS TABLE (moran FLOAT, significance FLOAT)
+AS $$
+  from crankshaft.clustering import moran_local
+  # TODO: use named parameters or a dictionary
+  return moran_rate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col)
+$$ LANGUAGE plpythonu;
+
+
+-- Moran's I Local Rate (internal function)
+CREATE OR REPLACE FUNCTION
+  _CDB_AreasOfInterestLocalRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT,
+      num_ngbrs INT,
+      permutations INT,
+      geom_col TEXT,
+      id_col TEXT)
+RETURNS
+TABLE(moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+  from crankshaft.clustering import moran_local_rate
+  # TODO: use named parameters or a dictionary
+  return moran_local_rate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col)
+$$ LANGUAGE plpythonu;
+
+-- Moran's I Local Rate (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_AreasOfInterestLocalRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS
+TABLE(moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocalRate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col);
+
+$$ LANGUAGE SQL;
+
+-- Moran's I Local Rate only for HH and HL (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialHotspotsRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS
+TABLE(moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocalRate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('HH', 'HL');
+
+$$ LANGUAGE SQL;
+
+-- Moran's I Local Rate only for LL and LH (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialColdspotsRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS
+TABLE(moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocalRate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('LL', 'LH');
+
+$$ LANGUAGE SQL;
+
+-- Moran's I Local Rate only for LH and HL (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialOutliersRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS
+TABLE(moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocalRate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('HL', 'LH');
+
+$$ LANGUAGE SQL;
+CREATE OR REPLACE FUNCTION  CDB_KMeans(query text, no_clusters integer,no_init integer default 20)
+RETURNS table (cartodb_id integer, cluster_no integer) as $$
+    
+    from crankshaft.clustering import kmeans
+    return kmeans(query,no_clusters,no_init)
+
+$$ language plpythonu;
+
+
+CREATE OR REPLACE FUNCTION CDB_WeightedMeanS(state Numeric[],the_geom GEOMETRY(Point, 4326), weight NUMERIC)
+RETURNS Numeric[] AS 
+$$
+DECLARE 
+    newX NUMERIC;
+    newY NUMERIC;
+    newW NUMERIC;
+BEGIN
+    IF weight IS NULL OR the_geom IS NULL THEN 
+        newX = state[1];
+        newY = state[2];
+        newW = state[3];
+    ELSE
+        newX = state[1] + ST_X(the_geom)*weight;
+        newY = state[2] + ST_Y(the_geom)*weight;
+        newW = state[3] + weight;
+    END IF;
+    RETURN Array[newX,newY,newW];
+
+END
+$$ LANGUAGE plpgsql;
+
+CREATE OR REPLACE FUNCTION CDB_WeightedMeanF(state Numeric[])
+RETURNS GEOMETRY AS 
+$$
+BEGIN
+    IF state[3] = 0 THEN 
+        RETURN ST_SetSRID(ST_MakePoint(state[1],state[2]), 4326);
+    ELSE 
+        RETURN ST_SETSRID(ST_MakePoint(state[1]/state[3], state[2]/state[3]),4326);
+    END IF;
+END
+$$ LANGUAGE plpgsql;
+
+-- Create aggregate if it did not exist
+DO $$
+BEGIN
+    IF NOT EXISTS (
+        SELECT *
+        FROM pg_catalog.pg_proc p
+            LEFT JOIN pg_catalog.pg_namespace n ON n.oid = p.pronamespace
+        WHERE n.nspname = 'cdb_crankshaft'
+            AND p.proname = 'cdb_weightedmean'
+            AND p.proisagg)
+    THEN
+        CREATE AGGREGATE CDB_WeightedMean(geometry(Point, 4326), NUMERIC) (
+            SFUNC = CDB_WeightedMeanS,
+            FINALFUNC = CDB_WeightedMeanF,
+            STYPE = Numeric[],
+            INITCOND = "{0.0,0.0,0.0}" 
+        );
+    END IF;
+END
+$$ LANGUAGE plpgsql;
+-- Spatial Markov
+
+-- input table format:
+-- id | geom | date_1 | date_2 | date_3
+--  1 | Pt1  | 12.3   | 13.1   | 14.2
+--  2 | Pt2  | 11.0   | 13.2   | 12.5
+--  ...
+-- Sample Function call:
+-- SELECT CDB_SpatialMarkov('SELECT * FROM real_estate',
+--                          Array['date_1', 'date_2', 'date_3'])
+
+CREATE OR REPLACE FUNCTION
+  CDB_SpatialMarkovTrend (
+      subquery TEXT,
+      time_cols TEXT[],
+      num_classes INT DEFAULT 7,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+  	  permutations INT DEFAULT 99,
+  	  geom_col TEXT DEFAULT 'the_geom',
+  	  id_col TEXT DEFAULT 'cartodb_id')
+RETURNS TABLE (trend NUMERIC, trend_up NUMERIC, trend_down NUMERIC, volatility NUMERIC, rowid INT)
+AS $$
+
+  from crankshaft.space_time_dynamics import spatial_markov_trend
+
+  ## TODO: use named parameters or a dictionary
+  return spatial_markov_trend(subquery, time_cols, num_classes, w_type, num_ngbrs, permutations, geom_col, id_col)
+$$ LANGUAGE plpythonu;
+
+-- input table format: identical to above but in a predictable format
+-- Sample function call:
+-- SELECT cdb_spatial_markov('SELECT * FROM real_estate',
+--                           'date_1')
+
+
+-- CREATE OR REPLACE FUNCTION
+--   cdb_spatial_markov (
+--       subquery TEXT,
+--       time_col_min text,
+--       time_col_max text,
+--       date_format text, -- '_YYYY_MM_DD'
+--       num_time_per_bin INT DEFAULT 1,
+--   	  permutations INT DEFAULT 99,
+--   	  geom_column TEXT DEFAULT 'the_geom',
+--   	  id_col TEXT DEFAULT 'cartodb_id',
+--       w_type TEXT DEFAULT 'knn',
+--       num_ngbrs int DEFAULT 5)
+-- RETURNS TABLE (moran FLOAT, quads TEXT, significance FLOAT, ids INT)
+-- AS $$
+--   plpy.execute('SELECT cdb_crankshaft._cdb_crankshaft_activate_py()')
+--   from crankshaft.clustering import moran_local
+--   # TODO: use named parameters or a dictionary
+--   return spatial_markov(subquery, time_cols, permutations, geom_column, id_col, w_type, num_ngbrs)
+-- $$ LANGUAGE plpythonu;
+--
+-- -- input table format:
+-- -- id | geom | date  | measurement
+-- --  1 | Pt1  | 12/3  | 13.2
+-- --  2 | Pt2  | 11/5  | 11.3
+-- --  3 | Pt1  | 11/13 | 12.9
+-- --  4 | Pt3  | 12/19 | 10.1
+-- -- ...
+--
+-- CREATE OR REPLACE FUNCTION
+--   cdb_spatial_markov (
+--       subquery TEXT,
+--       time_col text,
+--       num_time_per_bin INT DEFAULT 1,
+--   	  permutations INT DEFAULT 99,
+--   	  geom_column TEXT DEFAULT 'the_geom',
+--   	  id_col TEXT DEFAULT 'cartodb_id',
+--       w_type TEXT DEFAULT 'knn',
+--       num_ngbrs int DEFAULT 5)
+-- RETURNS TABLE (moran FLOAT, quads TEXT, significance FLOAT, ids INT)
+-- AS $$
+--   plpy.execute('SELECT cdb_crankshaft._cdb_crankshaft_activate_py()')
+--   from crankshaft.clustering import moran_local
+--   # TODO: use named parameters or a dictionary
+--   return spatial_markov(subquery, time_cols, permutations, geom_column, id_col, w_type, num_ngbrs)
+-- $$ LANGUAGE plpythonu;
+-- Function by Stuart Lynn for a simple interpolation of a value
+-- from a polygon table over an arbitrary polygon
+-- (weighted by the area proportion overlapped)
+-- Aereal weighting is a very simple form of aereal interpolation.
+--
+-- Parameters:
+--   * geom a Polygon geometry which defines the area where a value will be
+--     estimated as the area-weighted sum of a given table/column
+--   * target_table_name table name of the table that provides the values
+--   * target_column column name of the column that provides the values
+--   * schema_name optional parameter to defina the schema the target table
+--     belongs to, which is necessary if its not in the search_path.
+--     Note that target_table_name should never include the schema in it.
+-- Return value:
+--   Aereal-weighted interpolation of the column values over the geometry
+CREATE OR REPLACE
+FUNCTION cdb_overlap_sum(geom geometry, target_table_name text, target_column text, schema_name text DEFAULT NULL)
+  RETURNS numeric AS
+$$
+DECLARE
+	result numeric;
+  qualified_name text;
+BEGIN
+  IF schema_name IS NULL THEN
+    qualified_name := Format('%I', target_table_name);
+  ELSE
+    qualified_name := Format('%I.%s', schema_name, target_table_name);
+  END IF;
+  EXECUTE Format('
+    SELECT sum(%I*ST_Area(St_Intersection($1, a.the_geom))/ST_Area(a.the_geom))
+    FROM %s AS a
+    WHERE $1 && a.the_geom
+  ', target_column, qualified_name)
+  USING geom
+  INTO result;
+  RETURN result;
+END;
+$$ LANGUAGE plpgsql;
+--
+-- Creates N points randomly distributed arround the polygon
+--
+-- @param g - the geometry to be turned in to points
+--
+-- @param no_points - the number of points to generate
+--
+-- @params max_iter_per_point - the function generates points in the polygon's bounding box
+-- and discards points which don't lie in the polygon. max_iter_per_point specifies how many
+-- misses per point the funciton accepts before giving up.
+--
+-- Returns: Multipoint with the requested points
+CREATE OR REPLACE FUNCTION cdb_dot_density(geom geometry , no_points Integer, max_iter_per_point Integer DEFAULT 1000)
+RETURNS GEOMETRY AS $$
+DECLARE
+  extent GEOMETRY;
+  test_point Geometry;
+  width                NUMERIC;
+  height               NUMERIC;
+  x0                   NUMERIC;
+  y0                   NUMERIC;
+  xp                   NUMERIC;
+  yp                   NUMERIC;
+  no_left              INTEGER;
+  remaining_iterations INTEGER;
+  points               GEOMETRY[];
+  bbox_line            GEOMETRY;
+  intersection_line    GEOMETRY;
+BEGIN
+  extent  := ST_Envelope(geom);
+  width   := ST_XMax(extent) - ST_XMIN(extent);
+  height  := ST_YMax(extent) - ST_YMIN(extent);
+  x0 	  := ST_XMin(extent);
+  y0 	  := ST_YMin(extent);
+  no_left := no_points;
+
+  LOOP
+    if(no_left=0) THEN
+      EXIT;
+    END IF;
+    yp = y0 + height*random();
+    bbox_line  = ST_MakeLine(
+      ST_SetSRID(ST_MakePoint(yp, x0),4326),
+      ST_SetSRID(ST_MakePoint(yp, x0+width),4326)
+    );
+    intersection_line = ST_Intersection(bbox_line,geom);
+  	test_point = ST_LineInterpolatePoint(st_makeline(st_linemerge(intersection_line)),random());
+	  points := points || test_point;
+	  no_left = no_left - 1 ;
+  END LOOP;
+  RETURN ST_Collect(points);
+END;
+$$
+LANGUAGE plpgsql VOLATILE;
+-- Make sure by default there are no permissions for publicuser
+-- NOTE: this happens at extension creation time, as part of an implicit transaction.
+-- REVOKE ALL PRIVILEGES ON SCHEMA cdb_crankshaft FROM PUBLIC, publicuser CASCADE;
+
+-- Grant permissions on the schema to publicuser (but just the schema)
+GRANT USAGE ON SCHEMA cdb_crankshaft TO publicuser;
+
+-- Revoke execute permissions on all functions in the schema by default
+-- REVOKE EXECUTE ON ALL FUNCTIONS IN SCHEMA cdb_crankshaft FROM PUBLIC, publicuser;
--- a/release/crankshaft--0.2.0--0.3.0.sql
+++ b/release/crankshaft--0.2.0--0.3.0.sql
--- a/release/crankshaft--0.2.0.sql
+++ b/release/crankshaft--0.2.0.sql
@@ -0,0 +1,827 @@
+--DO NOT MODIFY THIS FILE, IT IS GENERATED AUTOMATICALLY FROM SOURCES
+-- Complain if script is sourced in psql, rather than via CREATE EXTENSION
+\echo Use "CREATE EXTENSION crankshaft" to load this file. \quit
+-- Version number of the extension release
+CREATE OR REPLACE FUNCTION cdb_crankshaft_version()
+RETURNS text AS $$
+  SELECT '0.2.0'::text;
+$$ language 'sql' STABLE STRICT;
+
+-- Internal identifier of the installed extension instence
+-- e.g. 'dev' for current development version
+CREATE OR REPLACE FUNCTION _cdb_crankshaft_internal_version()
+RETURNS text AS $$
+  SELECT installed_version FROM pg_available_extensions where name='crankshaft' and pg_available_extensions IS NOT NULL;
+$$ language 'sql' STABLE STRICT;
+-- Internal function.
+-- Set the seeds of the RNGs (Random Number Generators)
+-- used internally.
+CREATE OR REPLACE FUNCTION
+_cdb_random_seeds (seed_value INTEGER) RETURNS VOID
+AS $$
+  from crankshaft import random_seeds
+  random_seeds.set_random_seeds(seed_value)
+$$ LANGUAGE plpythonu;
+CREATE OR REPLACE FUNCTION
+    CDB_PyAggS(current_state Numeric[], current_row Numeric[]) 
+    returns NUMERIC[] as $$
+    BEGIN
+        if array_upper(current_state,1) is null  then
+            RAISE NOTICE 'setting state %',array_upper(current_row,1);
+            current_state[1] = array_upper(current_row,1);
+        end if;
+        return array_cat(current_state,current_row) ;
+    END
+    $$ LANGUAGE plpgsql;
+
+-- Create aggregate if it did not exist
+DO $$
+BEGIN
+    IF NOT EXISTS (
+        SELECT *
+        FROM pg_catalog.pg_proc p
+            LEFT JOIN pg_catalog.pg_namespace n ON n.oid = p.pronamespace
+        WHERE n.nspname = 'cdb_crankshaft'
+            AND p.proname = 'cdb_pyagg'
+            AND p.proisagg)
+    THEN
+        CREATE AGGREGATE CDB_PyAgg(NUMERIC[]) (
+            SFUNC = CDB_PyAggS,
+            STYPE = Numeric[],
+            INITCOND = "{}"
+        );
+    END IF;
+END
+$$ LANGUAGE plpgsql;
+
+CREATE OR REPLACE FUNCTION
+  CDB_CreateAndPredictSegment(
+    target NUMERIC[],
+    features NUMERIC[],
+    target_features NUMERIC[],
+    target_ids NUMERIC[],
+    n_estimators INTEGER DEFAULT 1200,
+    max_depth INTEGER DEFAULT 3,
+    subsample DOUBLE PRECISION DEFAULT 0.5,
+    learning_rate DOUBLE PRECISION DEFAULT 0.01,
+    min_samples_leaf INTEGER DEFAULT 1)
+RETURNS TABLE(cartodb_id NUMERIC, prediction NUMERIC, accuracy NUMERIC)
+AS $$
+    import numpy as np
+    import plpy
+
+    from crankshaft.segmentation import create_and_predict_segment_agg
+    model_params = {'n_estimators': n_estimators,
+                    'max_depth': max_depth,
+                    'subsample': subsample,
+                    'learning_rate': learning_rate,
+                    'min_samples_leaf': min_samples_leaf}
+
+    def unpack2D(data):
+        dimension = data.pop(0)
+        a = np.array(data, dtype=float)
+        return a.reshape(len(a)/dimension, dimension)
+
+    return create_and_predict_segment_agg(np.array(target, dtype=float),
+            unpack2D(features),
+            unpack2D(target_features),
+            target_ids,
+            model_params)
+
+$$ LANGUAGE plpythonu;
+
+CREATE OR REPLACE FUNCTION
+  CDB_CreateAndPredictSegment (
+      query TEXT,
+      variable_name TEXT,
+      target_table TEXT,
+      n_estimators INTEGER DEFAULT 1200,
+      max_depth INTEGER DEFAULT 3,
+      subsample DOUBLE PRECISION DEFAULT 0.5,
+      learning_rate DOUBLE PRECISION DEFAULT 0.01,
+      min_samples_leaf INTEGER DEFAULT 1)
+RETURNS TABLE (cartodb_id TEXT, prediction NUMERIC, accuracy NUMERIC)
+AS $$
+  from crankshaft.segmentation import create_and_predict_segment
+  model_params = {'n_estimators': n_estimators, 'max_depth':max_depth, 'subsample' : subsample, 'learning_rate': learning_rate, 'min_samples_leaf' : min_samples_leaf}
+  return create_and_predict_segment(query,variable_name,target_table, model_params)
+$$ LANGUAGE plpythonu;
+CREATE OR REPLACE FUNCTION CDB_Gravity(
+    IN target_query text,
+    IN weight_column text,
+    IN source_query text,
+    IN pop_column text,
+    IN target bigint,
+    IN radius integer,
+    IN minval numeric DEFAULT -10e307
+    )
+RETURNS TABLE(
+    the_geom geometry,
+    source_id bigint,
+    target_id bigint,
+    dist numeric,
+    h numeric,
+    hpop numeric)  AS $$
+DECLARE
+    t_id bigint[];
+    t_geom geometry[];
+    t_weight numeric[];
+    s_id bigint[];
+    s_geom geometry[];
+    s_pop numeric[];
+BEGIN
+    EXECUTE 'WITH foo as('+target_query+') SELECT array_agg(cartodb_id), array_agg(the_geom), array_agg(' || weight_column || ') FROM foo' INTO t_id, t_geom, t_weight;
+    EXECUTE 'WITH foo as('+source_query+') SELECT array_agg(cartodb_id), array_agg(the_geom), array_agg(' || pop_column || ') FROM foo' INTO s_id, s_geom, s_pop;
+    RETURN QUERY
+    SELECT g.* FROM t, s, CDB_Gravity(t_id, t_geom, t_weight, s_id, s_geom, s_pop, target, radius, minval) g;
+END;
+$$ language plpgsql;
+
+CREATE OR REPLACE FUNCTION CDB_Gravity(
+    IN t_id bigint[],
+    IN t_geom geometry[],
+    IN t_weight numeric[],
+    IN s_id bigint[],
+    IN s_geom geometry[],
+    IN s_pop numeric[],
+    IN target bigint,
+    IN radius integer,
+    IN minval numeric DEFAULT -10e307
+    )
+RETURNS TABLE(
+    the_geom geometry,
+    source_id bigint,
+    target_id bigint,
+    dist numeric,
+    h numeric,
+    hpop numeric)  AS $$
+DECLARE
+    t_type text;
+    s_type text;
+    t_center geometry[];
+    s_center geometry[];
+BEGIN
+    t_type := GeometryType(t_geom[1]);
+    s_type := GeometryType(s_geom[1]);
+    IF t_type = 'POINT' THEN
+        t_center := t_geom;
+    ELSE
+        WITH tmp as (SELECT unnest(t_geom) as g) SELECT array_agg(ST_Centroid(g)) INTO t_center FROM tmp;
+    END IF;
+    IF s_type = 'POINT' THEN
+        s_center := s_geom;
+    ELSE
+        WITH tmp as (SELECT unnest(s_geom) as g) SELECT array_agg(ST_Centroid(g)) INTO s_center FROM tmp;
+    END IF;
+    RETURN QUERY
+        with target0 as(
+            SELECT unnest(t_center) as tc, unnest(t_weight) as tw, unnest(t_id) as td
+        ),
+        source0 as(
+            SELECT unnest(s_center) as sc, unnest(s_id) as sd, unnest (s_geom) as sg, unnest(s_pop) as sp
+        ),
+        prev0 as(
+            SELECT
+                source0.sg,
+                source0.sd as sourc_id,
+                coalesce(source0.sp,0) as sp,
+                target.td as targ_id,
+                coalesce(target.tw,0) as tw,
+                GREATEST(1.0,ST_Distance(geography(target.tc), geography(source0.sc)))::numeric as distance
+            FROM source0
+            CROSS JOIN LATERAL
+                (
+                SELECT
+                    *
+                FROM target0
+                    WHERE tw > minval
+                    AND ST_DWithin(geography(source0.sc), geography(tc), radius)
+                ) AS target
+        ),
+        deno as(
+            SELECT
+                sourc_id,
+                sum(tw/distance) as h_deno
+            FROM
+                prev0
+            GROUP BY sourc_id
+        )
+        SELECT
+            p.sg as the_geom,
+            p.sourc_id as source_id,
+            p.targ_id as target_id,
+            case when p.distance > 1 then p.distance else 0.0 end as dist,
+            100*(p.tw/p.distance)/d.h_deno as h,
+            p.sp*(p.tw/p.distance)/d.h_deno as hpop
+        FROM
+            prev0 p,
+            deno d
+        WHERE
+            p.targ_id = target AND
+            p.sourc_id = d.sourc_id;
+END;
+$$ language plpgsql;
+-- 0: nearest neighbor
+-- 1: barymetric
+-- 2: IDW
+
+CREATE OR REPLACE FUNCTION CDB_SpatialInterpolation(
+    IN query text,
+    IN point geometry,
+    IN method integer DEFAULT 1,
+    IN p1 numeric DEFAULT 0,
+    IN p2 numeric DEFAULT 0
+    )
+RETURNS numeric AS
+$$
+DECLARE
+    gs geometry[];
+    vs numeric[];
+    output numeric;
+BEGIN
+    EXECUTE 'WITH a AS('||query||') SELECT array_agg(the_geom), array_agg(attrib) FROM a' INTO gs, vs;
+    SELECT CDB_SpatialInterpolation(gs, vs, point, method, p1,p2) INTO output FROM a;
+
+    RETURN output;
+END;
+$$
+language plpgsql IMMUTABLE;
+
+CREATE OR REPLACE FUNCTION CDB_SpatialInterpolation(
+    IN geomin geometry[],
+    IN colin numeric[],
+    IN point geometry,
+    IN method integer DEFAULT 1,
+    IN p1 numeric DEFAULT 0,
+    IN p2 numeric DEFAULT 0
+    )
+RETURNS numeric AS
+$$
+DECLARE
+    gs geometry[];
+    vs numeric[];
+    gs2 geometry[];
+    vs2 numeric[];
+    g geometry;
+    vertex geometry[];
+    sg numeric;
+    sa numeric;
+    sb numeric;
+    sc numeric;
+    va numeric;
+    vb numeric;
+    vc numeric;
+    output numeric;
+BEGIN
+    output :=  -999.999;
+    -- nearest
+    IF method = 0 THEN
+
+        WITH    a as (SELECT unnest(geomin) as g, unnest(colin) as v)
+        SELECT a.v INTO output FROM a ORDER BY point<->a.g LIMIT 1;
+        RETURN output;
+
+    -- barymetric
+    ELSIF method = 1 THEN
+        WITH    a as (SELECT unnest(geomin) AS e),
+                b as (SELECT ST_DelaunayTriangles(ST_Collect(a.e),0.001, 0) AS t FROM a),
+                c as (SELECT (ST_Dump(t)).geom as v FROM b),
+                d as (SELECT v FROM c WHERE ST_Within(point, v))
+            SELECT v INTO g FROM d;
+        IF g is null THEN
+            -- out of the realm of the input data
+            RETURN -888.888;
+        END IF;
+        -- vertex of the selected cell
+        WITH a AS (SELECT (ST_DumpPoints(g)).geom AS v)
+                SELECT array_agg(v) INTO vertex FROM a;
+
+            -- retrieve the value of each vertex
+        WITH a AS(SELECT unnest(vertex) as geo, unnest(colin) as c)
+            SELECT c INTO va FROM a WHERE ST_Equals(geo, vertex[1]);
+        WITH a AS(SELECT unnest(vertex) as geo, unnest(colin) as c)
+            SELECT c INTO vb FROM a WHERE ST_Equals(geo, vertex[2]);
+        WITH a AS(SELECT unnest(vertex) as geo, unnest(colin) as c)
+                SELECT c INTO vc FROM a WHERE ST_Equals(geo, vertex[3]);
+
+        SELECT ST_area(g), ST_area(ST_MakePolygon(ST_MakeLine(ARRAY[point, vertex[2], vertex[3], point]))), ST_area(ST_MakePolygon(ST_MakeLine(ARRAY[point, vertex[1], vertex[3], point]))), ST_area(ST_MakePolygon(ST_MakeLine(ARRAY[point,vertex[1],vertex[2], point]))) INTO sg, sa, sb, sc;
+
+        output := (coalesce(sa,0) * coalesce(va,0) + coalesce(sb,0) * coalesce(vb,0) + coalesce(sc,0) * coalesce(vc,0)) / coalesce(sg);
+        RETURN output;
+
+    -- IDW
+    -- p1: limit the number of neighbors, 0->no limit
+    -- p2: order of distance decay, 0-> order 1
+    ELSIF method = 2 THEN
+
+        IF p2 = 0 THEN
+            p2 := 1;
+        END IF;
+
+        WITH    a as (SELECT unnest(geomin) as g, unnest(colin) as v),
+                b as (SELECT a.g, a.v FROM a ORDER BY point<->a.g)
+        SELECT array_agg(b.g), array_agg(b.v) INTO gs, vs FROM b;
+        IF p1::integer>0 THEN
+            gs2:=gs;
+            vs2:=vs;
+            FOR i IN 1..p1
+            LOOP
+                gs2 := gs2 || gs[i];
+                vs2 := vs2 || vs[i];
+            END LOOP;
+        ELSE
+            gs2:=gs;
+            vs2:=vs;
+        END IF;
+
+        WITH    a as (SELECT unnest(gs2) as g, unnest(vs2) as v),
+                b as (
+                    SELECT
+                    (1/ST_distance(point, a.g)^p2::integer) as k,
+                    (a.v/ST_distance(point, a.g)^p2::integer) as f
+                    FROM a
+                )
+        SELECT sum(b.f)/sum(b.k) INTO output FROM b;
+        RETURN output;
+
+    END IF;
+
+    RETURN -777.777;
+
+END;
+$$
+language plpgsql IMMUTABLE;
+-- Moran's I Global Measure (public-facing)
+CREATE OR REPLACE FUNCTION
+  CDB_AreasOfInterestGlobal(
+      subquery TEXT,
+      column_name TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS TABLE (moran NUMERIC, significance NUMERIC)
+AS $$
+  from crankshaft.clustering import moran_local
+  # TODO: use named parameters or a dictionary
+  return moran(subquery, column_name, w_type, num_ngbrs, permutations, geom_col, id_col)
+$$ LANGUAGE plpythonu;
+
+-- Moran's I Local (internal function)
+CREATE OR REPLACE FUNCTION
+  _CDB_AreasOfInterestLocal(
+      subquery TEXT,
+      column_name TEXT,
+      w_type TEXT,
+      num_ngbrs INT,
+      permutations INT,
+      geom_col TEXT,
+      id_col TEXT)
+RETURNS TABLE (moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+  from crankshaft.clustering import moran_local
+  # TODO: use named parameters or a dictionary
+  return moran_local(subquery, column_name, w_type, num_ngbrs, permutations, geom_col, id_col)
+$$ LANGUAGE plpythonu;
+
+-- Moran's I Local (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_AreasOfInterestLocal(
+    subquery TEXT,
+    column_name TEXT,
+    w_type TEXT DEFAULT 'knn',
+    num_ngbrs INT DEFAULT 5,
+    permutations INT DEFAULT 99,
+    geom_col TEXT DEFAULT 'the_geom',
+    id_col TEXT DEFAULT 'cartodb_id')
+RETURNS TABLE (moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocal(subquery, column_name, w_type, num_ngbrs, permutations, geom_col, id_col);
+
+$$ LANGUAGE SQL;
+
+-- Moran's I only for HH and HL (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialHotspots(
+    subquery TEXT,
+    column_name TEXT,
+    w_type TEXT DEFAULT 'knn',
+    num_ngbrs INT DEFAULT 5,
+    permutations INT DEFAULT 99,
+    geom_col TEXT DEFAULT 'the_geom',
+    id_col TEXT DEFAULT 'cartodb_id')
+    RETURNS TABLE (moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocal(subquery, column_name, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('HH', 'HL');
+
+$$ LANGUAGE SQL;
+
+-- Moran's I only for LL and LH (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialColdspots(
+    subquery TEXT,
+    attr TEXT,
+    w_type TEXT DEFAULT 'knn',
+    num_ngbrs INT DEFAULT 5,
+    permutations INT DEFAULT 99,
+    geom_col TEXT DEFAULT 'the_geom',
+    id_col TEXT DEFAULT 'cartodb_id')
+    RETURNS TABLE (moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocal(subquery, attr, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('LL', 'LH');
+
+$$ LANGUAGE SQL;
+
+-- Moran's I only for LH and HL (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialOutliers(
+    subquery TEXT,
+    attr TEXT,
+    w_type TEXT DEFAULT 'knn',
+    num_ngbrs INT DEFAULT 5,
+    permutations INT DEFAULT 99,
+    geom_col TEXT DEFAULT 'the_geom',
+    id_col TEXT DEFAULT 'cartodb_id')
+    RETURNS TABLE (moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocal(subquery, attr, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('HL', 'LH');
+
+$$ LANGUAGE SQL;
+
+-- Moran's I Global Rate (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_AreasOfInterestGlobalRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS TABLE (moran FLOAT, significance FLOAT)
+AS $$
+  from crankshaft.clustering import moran_local
+  # TODO: use named parameters or a dictionary
+  return moran_rate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col)
+$$ LANGUAGE plpythonu;
+
+
+-- Moran's I Local Rate (internal function)
+CREATE OR REPLACE FUNCTION
+  _CDB_AreasOfInterestLocalRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT,
+      num_ngbrs INT,
+      permutations INT,
+      geom_col TEXT,
+      id_col TEXT)
+RETURNS
+TABLE(moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+  from crankshaft.clustering import moran_local_rate
+  # TODO: use named parameters or a dictionary
+  return moran_local_rate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col)
+$$ LANGUAGE plpythonu;
+
+-- Moran's I Local Rate (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_AreasOfInterestLocalRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS
+TABLE(moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocalRate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col);
+
+$$ LANGUAGE SQL;
+
+-- Moran's I Local Rate only for HH and HL (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialHotspotsRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS
+TABLE(moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocalRate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('HH', 'HL');
+
+$$ LANGUAGE SQL;
+
+-- Moran's I Local Rate only for LL and LH (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialColdspotsRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS
+TABLE(moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocalRate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('LL', 'LH');
+
+$$ LANGUAGE SQL;
+
+-- Moran's I Local Rate only for LH and HL (public-facing function)
+CREATE OR REPLACE FUNCTION
+  CDB_GetSpatialOutliersRate(
+      subquery TEXT,
+      numerator TEXT,
+      denominator TEXT,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+      permutations INT DEFAULT 99,
+      geom_col TEXT DEFAULT 'the_geom',
+      id_col TEXT DEFAULT 'cartodb_id')
+RETURNS
+TABLE(moran NUMERIC, quads TEXT, significance NUMERIC, rowid INT, vals NUMERIC)
+AS $$
+
+  SELECT moran, quads, significance, rowid, vals
+  FROM cdb_crankshaft._CDB_AreasOfInterestLocalRate(subquery, numerator, denominator, w_type, num_ngbrs, permutations, geom_col, id_col)
+  WHERE quads IN ('HL', 'LH');
+
+$$ LANGUAGE SQL;
+CREATE OR REPLACE FUNCTION  CDB_KMeans(query text, no_clusters integer,no_init integer default 20)
+RETURNS table (cartodb_id integer, cluster_no integer) as $$
+    
+    from crankshaft.clustering import kmeans
+    return kmeans(query,no_clusters,no_init)
+
+$$ language plpythonu;
+
+
+CREATE OR REPLACE FUNCTION CDB_WeightedMeanS(state Numeric[],the_geom GEOMETRY(Point, 4326), weight NUMERIC)
+RETURNS Numeric[] AS 
+$$
+DECLARE 
+    newX NUMERIC;
+    newY NUMERIC;
+    newW NUMERIC;
+BEGIN
+    IF weight IS NULL OR the_geom IS NULL THEN 
+        newX = state[1];
+        newY = state[2];
+        newW = state[3];
+    ELSE
+        newX = state[1] + ST_X(the_geom)*weight;
+        newY = state[2] + ST_Y(the_geom)*weight;
+        newW = state[3] + weight;
+    END IF;
+    RETURN Array[newX,newY,newW];
+
+END
+$$ LANGUAGE plpgsql;
+
+CREATE OR REPLACE FUNCTION CDB_WeightedMeanF(state Numeric[])
+RETURNS GEOMETRY AS 
+$$
+BEGIN
+    IF state[3] = 0 THEN 
+        RETURN ST_SetSRID(ST_MakePoint(state[1],state[2]), 4326);
+    ELSE 
+        RETURN ST_SETSRID(ST_MakePoint(state[1]/state[3], state[2]/state[3]),4326);
+    END IF;
+END
+$$ LANGUAGE plpgsql;
+
+-- Create aggregate if it did not exist
+DO $$
+BEGIN
+    IF NOT EXISTS (
+        SELECT *
+        FROM pg_catalog.pg_proc p
+            LEFT JOIN pg_catalog.pg_namespace n ON n.oid = p.pronamespace
+        WHERE n.nspname = 'cdb_crankshaft'
+            AND p.proname = 'cdb_weightedmean'
+            AND p.proisagg)
+    THEN
+        CREATE AGGREGATE CDB_WeightedMean(geometry(Point, 4326), NUMERIC) (
+            SFUNC = CDB_WeightedMeanS,
+            FINALFUNC = CDB_WeightedMeanF,
+            STYPE = Numeric[],
+            INITCOND = "{0.0,0.0,0.0}" 
+        );
+    END IF;
+END
+$$ LANGUAGE plpgsql;
+-- Spatial Markov
+
+-- input table format:
+-- id | geom | date_1 | date_2 | date_3
+--  1 | Pt1  | 12.3   | 13.1   | 14.2
+--  2 | Pt2  | 11.0   | 13.2   | 12.5
+--  ...
+-- Sample Function call:
+-- SELECT CDB_SpatialMarkov('SELECT * FROM real_estate',
+--                          Array['date_1', 'date_2', 'date_3'])
+
+CREATE OR REPLACE FUNCTION
+  CDB_SpatialMarkovTrend (
+      subquery TEXT,
+      time_cols TEXT[],
+      num_classes INT DEFAULT 7,
+      w_type TEXT DEFAULT 'knn',
+      num_ngbrs INT DEFAULT 5,
+  	  permutations INT DEFAULT 99,
+  	  geom_col TEXT DEFAULT 'the_geom',
+  	  id_col TEXT DEFAULT 'cartodb_id')
+RETURNS TABLE (trend NUMERIC, trend_up NUMERIC, trend_down NUMERIC, volatility NUMERIC, rowid INT)
+AS $$
+
+  from crankshaft.space_time_dynamics import spatial_markov_trend
+
+  ## TODO: use named parameters or a dictionary
+  return spatial_markov_trend(subquery, time_cols, num_classes, w_type, num_ngbrs, permutations, geom_col, id_col)
+$$ LANGUAGE plpythonu;
+
+-- input table format: identical to above but in a predictable format
+-- Sample function call:
+-- SELECT cdb_spatial_markov('SELECT * FROM real_estate',
+--                           'date_1')
+
+
+-- CREATE OR REPLACE FUNCTION
+--   cdb_spatial_markov (
+--       subquery TEXT,
+--       time_col_min text,
+--       time_col_max text,
+--       date_format text, -- '_YYYY_MM_DD'
+--       num_time_per_bin INT DEFAULT 1,
+--   	  permutations INT DEFAULT 99,
+--   	  geom_column TEXT DEFAULT 'the_geom',
+--   	  id_col TEXT DEFAULT 'cartodb_id',
+--       w_type TEXT DEFAULT 'knn',
+--       num_ngbrs int DEFAULT 5)
+-- RETURNS TABLE (moran FLOAT, quads TEXT, significance FLOAT, ids INT)
+-- AS $$
+--   plpy.execute('SELECT cdb_crankshaft._cdb_crankshaft_activate_py()')
+--   from crankshaft.clustering import moran_local
+--   # TODO: use named parameters or a dictionary
+--   return spatial_markov(subquery, time_cols, permutations, geom_column, id_col, w_type, num_ngbrs)
+-- $$ LANGUAGE plpythonu;
+--
+-- -- input table format:
+-- -- id | geom | date  | measurement
+-- --  1 | Pt1  | 12/3  | 13.2
+-- --  2 | Pt2  | 11/5  | 11.3
+-- --  3 | Pt1  | 11/13 | 12.9
+-- --  4 | Pt3  | 12/19 | 10.1
+-- -- ...
+--
+-- CREATE OR REPLACE FUNCTION
+--   cdb_spatial_markov (
+--       subquery TEXT,
+--       time_col text,
+--       num_time_per_bin INT DEFAULT 1,
+--   	  permutations INT DEFAULT 99,
+--   	  geom_column TEXT DEFAULT 'the_geom',
+--   	  id_col TEXT DEFAULT 'cartodb_id',
+--       w_type TEXT DEFAULT 'knn',
+--       num_ngbrs int DEFAULT 5)
+-- RETURNS TABLE (moran FLOAT, quads TEXT, significance FLOAT, ids INT)
+-- AS $$
+--   plpy.execute('SELECT cdb_crankshaft._cdb_crankshaft_activate_py()')
+--   from crankshaft.clustering import moran_local
+--   # TODO: use named parameters or a dictionary
+--   return spatial_markov(subquery, time_cols, permutations, geom_column, id_col, w_type, num_ngbrs)
+-- $$ LANGUAGE plpythonu;
+-- Function by Stuart Lynn for a simple interpolation of a value
+-- from a polygon table over an arbitrary polygon
+-- (weighted by the area proportion overlapped)
+-- Aereal weighting is a very simple form of aereal interpolation.
+--
+-- Parameters:
+--   * geom a Polygon geometry which defines the area where a value will be
+--     estimated as the area-weighted sum of a given table/column
+--   * target_table_name table name of the table that provides the values
+--   * target_column column name of the column that provides the values
+--   * schema_name optional parameter to defina the schema the target table
+--     belongs to, which is necessary if its not in the search_path.
+--     Note that target_table_name should never include the schema in it.
+-- Return value:
+--   Aereal-weighted interpolation of the column values over the geometry
+CREATE OR REPLACE
+FUNCTION cdb_overlap_sum(geom geometry, target_table_name text, target_column text, schema_name text DEFAULT NULL)
+  RETURNS numeric AS
+$$
+DECLARE
+	result numeric;
+  qualified_name text;
+BEGIN
+  IF schema_name IS NULL THEN
+    qualified_name := Format('%I', target_table_name);
+  ELSE
+    qualified_name := Format('%I.%s', schema_name, target_table_name);
+  END IF;
+  EXECUTE Format('
+    SELECT sum(%I*ST_Area(St_Intersection($1, a.the_geom))/ST_Area(a.the_geom))
+    FROM %s AS a
+    WHERE $1 && a.the_geom
+  ', target_column, qualified_name)
+  USING geom
+  INTO result;
+  RETURN result;
+END;
+$$ LANGUAGE plpgsql;
+--
+-- Creates N points randomly distributed arround the polygon
+--
+-- @param g - the geometry to be turned in to points
+--
+-- @param no_points - the number of points to generate
+--
+-- @params max_iter_per_point - the function generates points in the polygon's bounding box
+-- and discards points which don't lie in the polygon. max_iter_per_point specifies how many
+-- misses per point the funciton accepts before giving up.
+--
+-- Returns: Multipoint with the requested points
+CREATE OR REPLACE FUNCTION cdb_dot_density(geom geometry , no_points Integer, max_iter_per_point Integer DEFAULT 1000)
+RETURNS GEOMETRY AS $$
+DECLARE
+  extent GEOMETRY;
+  test_point Geometry;
+  width                NUMERIC;
+  height               NUMERIC;
+  x0                   NUMERIC;
+  y0                   NUMERIC;
+  xp                   NUMERIC;
+  yp                   NUMERIC;
+  no_left              INTEGER;
+  remaining_iterations INTEGER;
+  points               GEOMETRY[];
+  bbox_line            GEOMETRY;
+  intersection_line    GEOMETRY;
+BEGIN
+  extent  := ST_Envelope(geom);
+  width   := ST_XMax(extent) - ST_XMIN(extent);
+  height  := ST_YMax(extent) - ST_YMIN(extent);
+  x0 	  := ST_XMin(extent);
+  y0 	  := ST_YMin(extent);
+  no_left := no_points;
+
+  LOOP
+    if(no_left=0) THEN
+      EXIT;
+    END IF;
+    yp = y0 + height*random();
+    bbox_line  = ST_MakeLine(
+      ST_SetSRID(ST_MakePoint(yp, x0),4326),
+      ST_SetSRID(ST_MakePoint(yp, x0+width),4326)
+    );
+    intersection_line = ST_Intersection(bbox_line,geom);
+  	test_point = ST_LineInterpolatePoint(st_makeline(st_linemerge(intersection_line)),random());
+	  points := points || test_point;
+	  no_left = no_left - 1 ;
+  END LOOP;
+  RETURN ST_Collect(points);
+END;
+$$
+LANGUAGE plpgsql VOLATILE;
+-- Make sure by default there are no permissions for publicuser
+-- NOTE: this happens at extension creation time, as part of an implicit transaction.
+-- REVOKE ALL PRIVILEGES ON SCHEMA cdb_crankshaft FROM PUBLIC, publicuser CASCADE;
+
+-- Grant permissions on the schema to publicuser (but just the schema)
+GRANT USAGE ON SCHEMA cdb_crankshaft TO publicuser;
+
+-- Revoke execute permissions on all functions in the schema by default
+-- REVOKE EXECUTE ON ALL FUNCTIONS IN SCHEMA cdb_crankshaft FROM PUBLIC, publicuser;
--- a/release/crankshaft--0.3.0--0.3.1.sql
+++ b/release/crankshaft--0.3.0--0.3.1.sql
--- a/release/crankshaft--0.3.0.sql
+++ b/release/crankshaft--0.3.0.sql
--- a/release/crankshaft--0.3.1--0.4.0.sql
+++ b/release/crankshaft--0.3.1--0.4.0.sql
--- a/release/crankshaft--0.3.1.sql
+++ b/release/crankshaft--0.3.1.sql
--- a/release/crankshaft--0.4.0--0.4.1.sql
+++ b/release/crankshaft--0.4.0--0.4.1.sql
--- a/release/crankshaft--0.4.0.sql
+++ b/release/crankshaft--0.4.0.sql
--- a/release/crankshaft--0.4.1--0.4.2.sql
+++ b/release/crankshaft--0.4.1--0.4.2.sql
--- a/release/crankshaft--0.4.1.sql
+++ b/release/crankshaft--0.4.1.sql
--- a/release/crankshaft--0.4.2.sql
+++ b/release/crankshaft--0.4.2.sql
--- a/release/crankshaft.control
+++ b/release/crankshaft.control
@@ -1,5 +1,5 @@
 comment = 'CartoDB Spatial Analysis extension'
-default_version = '0.1.0'
+default_version = '0.4.2'
 requires = 'plpythonu, postgis'
 superuser = true
 schema = cdb_crankshaft
--- a/release/python/0.2.0/crankshaft/crankshaft/init.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/init.py
@@ -0,0 +1,5 @@
+"""Import all modules"""
+import crankshaft.random_seeds
+import crankshaft.clustering
+import crankshaft.space_time_dynamics
+import crankshaft.segmentation
--- a/release/python/0.2.0/crankshaft/crankshaft/clustering/init.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/clustering/init.py
@@ -0,0 +1,3 @@
+"""Import all functions from for clustering"""
+from moran import *
+from kmeans import *
--- a/release/python/0.2.0/crankshaft/crankshaft/clustering/kmeans.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/clustering/kmeans.py
@@ -0,0 +1,18 @@
+from sklearn.cluster import KMeans
+import plpy
+
+def kmeans(query, no_clusters, no_init=20):
+    data = plpy.execute('''select array_agg(cartodb_id order by cartodb_id) as ids,
+        array_agg(ST_X(the_geom) order by cartodb_id) xs,
+        array_agg(ST_Y(the_geom) order by cartodb_id) ys from ({query}) a
+        where the_geom is not null
+    '''.format(query=query))
+
+    xs  = data[0]['xs']
+    ys  = data[0]['ys']
+    ids = data[0]['ids']
+
+    km = KMeans(n_clusters= no_clusters, n_init=no_init)
+    labels = km.fit_predict(zip(xs,ys))
+    return zip(ids,labels)
+
--- a/release/python/0.2.0/crankshaft/crankshaft/clustering/moran.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/clustering/moran.py
@@ -0,0 +1,262 @@
+"""
+Moran's I geostatistics (global clustering & outliers presence)
+"""
+
+# TODO: Fill in local neighbors which have null/NoneType values with the
+#       average of the their neighborhood
+
+import pysal as ps
+import plpy
+from collections import OrderedDict
+
+# crankshaft module
+import crankshaft.pysal_utils as pu
+
+# High level interface ---------------------------------------
+
+def moran(subquery, attr_name,
+          w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+    Moran's I (global)
+    Implementation building neighbors with a PostGIS database and Moran's I
+     core clusters with PySAL.
+    Andy Eschbacher
+    """
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", attr_name),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    plpy.notice('** Query: %s' % query)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(2)
+        plpy.notice('** Query returned with %d rows' % len(result))
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        plpy.notice('** Error: %s' % plpy.SPIError)
+        return pu.empty_zipped_array(2)
+
+    ## collect attributes
+    attr_vals = pu.get_attributes(result)
+
+    ## calculate weights
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    ## calculate moran global
+    moran_global = ps.esda.moran.Moran(attr_vals, weight,
+                                       permutations=permutations)
+
+    return zip([moran_global.I], [moran_global.EI])
+
+def moran_local(subquery, attr,
+                w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+    Moran's I implementation for PL/Python
+    Andy Eschbacher
+    """
+
+    # geometries with attributes that are null are ignored
+    # resulting in a collection of not as near neighbors
+
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", attr),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(5)
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        return pu.empty_zipped_array(5)
+
+    attr_vals = pu.get_attributes(result)
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    # calculate LISA values
+    lisa = ps.esda.moran.Moran_Local(attr_vals, weight,
+                                     permutations=permutations)
+
+    # find quadrants for each geometry
+    quads = quad_position(lisa.q)
+
+    return zip(lisa.Is, quads, lisa.p_sim, weight.id_order, lisa.y)
+
+def moran_rate(subquery, numerator, denominator,
+               w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+    Moran's I Rate (global)
+    Andy Eschbacher
+    """
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", numerator),
+                         ("attr2", denominator)
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    plpy.notice('** Query: %s' % query)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(2)
+        plpy.notice('** Query returned with %d rows' % len(result))
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        plpy.notice('** Error: %s' % plpy.SPIError)
+        return pu.empty_zipped_array(2)
+
+    ## collect attributes
+    numer = pu.get_attributes(result, 1)
+    denom = pu.get_attributes(result, 2)
+
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    ## calculate moran global rate
+    lisa_rate = ps.esda.moran.Moran_Rate(numer, denom, weight,
+                                         permutations=permutations)
+
+    return zip([lisa_rate.I], [lisa_rate.EI])
+
+def moran_local_rate(subquery, numerator, denominator,
+                     w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+        Moran's I Local Rate
+        Andy Eschbacher
+    """
+    # geometries with values that are null are ignored
+    # resulting in a collection of not as near neighbors
+
+    qvals = OrderedDict([("id_col", id_col),
+                         ("numerator", numerator),
+                         ("denominator", denominator),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(5)
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        plpy.notice('** Error: %s' % plpy.SPIError)
+        return pu.empty_zipped_array(5)
+
+    ## collect attributes
+    numer = pu.get_attributes(result, 1)
+    denom = pu.get_attributes(result, 2)
+
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    # calculate LISA values
+    lisa = ps.esda.moran.Moran_Local_Rate(numer, denom, weight,
+                                          permutations=permutations)
+
+    # find quadrants for each geometry
+    quads = quad_position(lisa.q)
+
+    return zip(lisa.Is, quads, lisa.p_sim, weight.id_order, lisa.y)
+
+def moran_local_bv(subquery, attr1, attr2,
+                   permutations, geom_col, id_col, w_type, num_ngbrs):
+    """
+        Moran's I (local) Bivariate (untested)
+    """
+    plpy.notice('** Constructing query')
+
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", attr1),
+                         ("attr2", attr2),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(4)
+    except plpy.SPIError:
+        plpy.error("Error: areas of interest query failed, " \
+                   "check input parameters")
+        plpy.notice('** Query failed: "%s"' % query)
+        return pu.empty_zipped_array(4)
+
+    ## collect attributes
+    attr1_vals = pu.get_attributes(result, 1)
+    attr2_vals = pu.get_attributes(result, 2)
+
+    # create weights
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    # calculate LISA values
+    lisa = ps.esda.moran.Moran_Local_BV(attr1_vals, attr2_vals, weight,
+                                        permutations=permutations)
+
+    plpy.notice("len of Is: %d" % len(lisa.Is))
+
+    # find clustering of significance
+    lisa_sig = quad_position(lisa.q)
+
+    plpy.notice('** Finished calculations')
+
+    return zip(lisa.Is, lisa_sig, lisa.p_sim, weight.id_order)
+
+# Low level functions ----------------------------------------
+
+def map_quads(coord):
+    """
+        Map a quadrant number to Moran's I designation
+        HH=1, LH=2, LL=3, HL=4
+        Input:
+        @param coord (int): quadrant of a specific measurement
+        Output:
+            classification (one of 'HH', 'LH', 'LL', or 'HL')
+    """
+    if coord == 1:
+        return 'HH'
+    elif coord == 2:
+        return 'LH'
+    elif coord == 3:
+        return 'LL'
+    elif coord == 4:
+        return 'HL'
+    else:
+        return None
+
+def quad_position(quads):
+    """
+        Produce Moran's I classification based of n
+        Input:
+        @param quads ndarray: an array of quads classified by
+          1-4 (PySAL default)
+        Output:
+        @param list: an array of quads classied by 'HH', 'LL', etc.
+    """
+    return [map_quads(q) for q in quads]
--- a/release/python/0.2.0/crankshaft/crankshaft/pysal_utils/init.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/pysal_utils/init.py
@@ -0,0 +1,2 @@
+"""Import all functions for pysal_utils"""
+from crankshaft.pysal_utils.pysal_utils import *
--- a/release/python/0.2.0/crankshaft/crankshaft/pysal_utils/pysal_utils.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/pysal_utils/pysal_utils.py
@@ -0,0 +1,188 @@
+"""
+    Utilities module for generic PySAL functionality, mainly centered on
+      translating queries into numpy arrays or PySAL weights objects
+"""
+
+import numpy as np
+import pysal as ps
+
+def construct_neighbor_query(w_type, query_vals):
+    """Return query (a string) used for finding neighbors
+        @param w_type text: type of neighbors to calculate ('knn' or 'queen')
+        @param query_vals dict: values used to construct the query
+    """
+
+    if w_type.lower() == 'knn':
+        return knn(query_vals)
+    else:
+        return queen(query_vals)
+
+## Build weight object
+def get_weight(query_res, w_type='knn', num_ngbrs=5):
+    """
+        Construct PySAL weight from return value of query
+        @param query_res dict-like: query results with attributes and neighbors
+    """
+    # if w_type.lower() == 'knn':
+    #     row_normed_weights = [1.0 / float(num_ngbrs)] * num_ngbrs
+    #     weights = {x['id']: row_normed_weights for x in query_res}
+    # else:
+    #     weights = {x['id']: [1.0 / len(x['neighbors'])] * len(x['neighbors'])
+    #                         if len(x['neighbors']) > 0
+    #                         else [] for x in query_res}
+
+    neighbors = {x['id']: x['neighbors'] for x in query_res}
+    print 'len of neighbors: %d' % len(neighbors)
+
+    built_weight = ps.W(neighbors)
+    built_weight.transform = 'r'
+
+    return built_weight
+
+def query_attr_select(params):
+    """
+        Create portion of SELECT statement for attributes inolved in query.
+        @param params: dict of information used in query (column names,
+                       table name, etc.)
+    """
+
+    attr_string = ""
+    template = "i.\"%(col)s\"::numeric As attr%(alias_num)s, "
+
+    if 'time_cols' in params:
+        ## if markov analysis
+        attrs = params['time_cols']
+
+        for idx, val in enumerate(attrs):
+            attr_string += template % {"col": val, "alias_num": idx + 1}
+    else:
+        ## if moran's analysis
+        attrs = [k for k in params
+                 if k not in ('id_col', 'geom_col', 'subquery', 'num_ngbrs', 'subquery')]
+
+        for idx, val in enumerate(sorted(attrs)):
+            attr_string += template % {"col": params[val], "alias_num": idx + 1}
+
+    return attr_string
+
+def query_attr_where(params):
+    """
+      Construct where conditions when building neighbors query
+        Create portion of WHERE clauses for weeding out NULL-valued geometries
+        Input: dict of params:
+            {'subquery': ...,
+             'numerator': 'data1',
+             'denominator': 'data2',
+             '': ...}
+        Output: 'idx_replace."data1" IS NOT NULL AND idx_replace."data2" IS NOT NULL'
+        Input:
+        {'subquery': ...,
+         'time_cols': ['time1', 'time2', 'time3'],
+         'etc': ...}
+        Output: 'idx_replace."time1" IS NOT NULL AND idx_replace."time2" IS NOT
+          NULL AND idx_replace."time3" IS NOT NULL'
+    """
+    attr_string = []
+    template = "idx_replace.\"%s\" IS NOT NULL"
+
+    if 'time_cols' in params:
+        ## markov where clauses
+        attrs = params['time_cols']
+        # add values to template
+        for attr in attrs:
+            attr_string.append(template % attr)
+    else:
+        ## moran where clauses
+
+        # get keys
+        attrs = sorted([k for k in params
+                        if k not in ('id_col', 'geom_col', 'subquery', 'num_ngbrs', 'subquery')])
+        # add values to template
+        for attr in attrs:
+            attr_string.append(template % params[attr])
+
+        if len(attrs) == 2:
+            attr_string.append("idx_replace.\"%s\" <> 0" % params[attrs[1]])
+
+    out = " AND ".join(attr_string)
+
+    return out
+
+def knn(params):
+    """SQL query for k-nearest neighbors.
+        @param vars: dict of values to fill template
+    """
+
+    attr_select = query_attr_select(params)
+    attr_where = query_attr_where(params)
+
+    replacements = {"attr_select": attr_select,
+                    "attr_where_i": attr_where.replace("idx_replace", "i"),
+                    "attr_where_j": attr_where.replace("idx_replace", "j")}
+
+    query = "SELECT " \
+                "i.\"{id_col}\" As id, " \
+                "%(attr_select)s" \
+                "(SELECT ARRAY(SELECT j.\"{id_col}\" " \
+                              "FROM ({subquery}) As j " \
+                              "WHERE " \
+                                "i.\"{id_col}\" <> j.\"{id_col}\" AND " \
+                                "%(attr_where_j)s " \
+                              "ORDER BY " \
+                                "j.\"{geom_col}\" <-> i.\"{geom_col}\" ASC " \
+                              "LIMIT {num_ngbrs})" \
+                ") As neighbors " \
+            "FROM ({subquery}) As i " \
+            "WHERE " \
+                "%(attr_where_i)s " \
+            "ORDER BY i.\"{id_col}\" ASC;" % replacements
+
+    return query.format(**params)
+
+## SQL query for finding queens neighbors (all contiguous polygons)
+def queen(params):
+    """SQL query for queen neighbors.
+        @param params dict: information to fill query
+    """
+    attr_select = query_attr_select(params)
+    attr_where = query_attr_where(params)
+
+    replacements = {"attr_select": attr_select,
+                    "attr_where_i": attr_where.replace("idx_replace", "i"),
+                    "attr_where_j": attr_where.replace("idx_replace", "j")}
+
+    query = "SELECT " \
+                "i.\"{id_col}\" As id, " \
+                "%(attr_select)s" \
+                "(SELECT ARRAY(SELECT j.\"{id_col}\" " \
+                 "FROM ({subquery}) As j " \
+                 "WHERE i.\"{id_col}\" <> j.\"{id_col}\" AND " \
+                       "ST_Touches(i.\"{geom_col}\", j.\"{geom_col}\") AND " \
+                       "%(attr_where_j)s)" \
+                ") As neighbors " \
+            "FROM ({subquery}) As i " \
+            "WHERE " \
+                "%(attr_where_i)s " \
+            "ORDER BY i.\"{id_col}\" ASC;" % replacements
+
+    return query.format(**params)
+
+## to add more weight methods open a ticket or pull request
+
+def get_attributes(query_res, attr_num=1):
+    """
+        @param query_res: query results with attributes and neighbors
+        @param attr_num: attribute number (1, 2, ...)
+    """
+    return np.array([x['attr' + str(attr_num)] for x in query_res], dtype=np.float)
+
+def empty_zipped_array(num_nones):
+    """
+        prepare return values for cases of empty weights objects (no neighbors)
+        Input:
+        @param num_nones int: number of columns (e.g., 4)
+        Output:
+        [(None, None, None, None)]
+    """
+
+    return [tuple([None] * num_nones)]
--- a/release/python/0.2.0/crankshaft/crankshaft/random_seeds.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/random_seeds.py
@@ -0,0 +1,11 @@
+"""Random seed generator used for non-deterministic functions in crankshaft"""
+import random
+import numpy
+
+def set_random_seeds(value):
+    """
+    Set the seeds of the RNGs (Random Number Generators)
+    used internally.
+    """
+    random.seed(value)
+    numpy.random.seed(value)
--- a/release/python/0.2.0/crankshaft/crankshaft/segmentation/init.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/segmentation/init.py
@@ -0,0 +1 @@
+from segmentation import * 
--- a/release/python/0.2.0/crankshaft/crankshaft/segmentation/segmentation.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/segmentation/segmentation.py
@@ -0,0 +1,176 @@
+"""
+Segmentation creation and prediction
+"""
+
+import sklearn
+import numpy as np
+import plpy
+from sklearn.ensemble import GradientBoostingRegressor
+from sklearn import metrics
+from sklearn.cross_validation import train_test_split
+
+# Lower level functions
+#----------------------
+
+def replace_nan_with_mean(array):
+    """
+        Input:
+            @param array: an array of floats which may have null-valued entries
+        Output:
+            array with nans filled in with the mean of the dataset
+    """
+    # returns an array of rows and column indices
+    indices = np.where(np.isnan(array))
+
+    # iterate through entries which have nan values
+    for row, col in zip(*indices):
+            array[row, col] = np.mean(array[~np.isnan(array[:, col]), col])
+
+    return array
+
+def get_data(variable, feature_columns, query):
+    """
+        Fetch data from the database, clean, and package into
+          numpy arrays
+        Input:
+            @param variable: name of the target variable
+            @param feature_columns: list of column names
+            @param query: subquery that data is pulled from for the packaging
+        Output:
+            prepared data, packaged into NumPy arrays
+    """
+
+    columns = ','.join(['array_agg("{col}") As "{col}"'.format(col=col) for col in feature_columns])
+
+    try:
+        data = plpy.execute('''SELECT array_agg("{variable}") As target, {columns} FROM ({query}) As a'''.format(
+            variable=variable,
+            columns=columns,
+            query=query))
+    except Exception, e:
+        plpy.error('Failed to access data to build segmentation model: %s' % e)
+
+    # extract target data from plpy object
+    target = np.array(data[0]['target'])
+
+    # put n feature data arrays into an n x m array of arrays
+    features = np.column_stack([np.array(data[0][col], dtype=float) for col in feature_columns])
+
+    return replace_nan_with_mean(target), replace_nan_with_mean(features)
+
+# High level interface
+# --------------------
+
+def create_and_predict_segment_agg(target, features, target_features, target_ids, model_parameters):
+    """
+    Version of create_and_predict_segment that works on arrays that come stright form the SQL calling
+    the function.
+
+        Input:
+            @param target: The 1D array of lenth NSamples containing the target variable we want the model to predict
+            @param features: Thw 2D array of size NSamples * NFeatures that form the imput to the model
+            @param target_ids: A 1D array of target_ids that will be used to associate the results of the prediction with the rows which they come from
+            @param model_parameters: A dictionary containing parameters for the model.
+    """
+
+    clean_target = replace_nan_with_mean(target)
+    clean_features = replace_nan_with_mean(features)
+    target_features = replace_nan_with_mean(target_features)
+
+    model, accuracy = train_model(clean_target, clean_features, model_parameters, 0.2)
+    prediction = model.predict(target_features)
+    accuracy_array = [accuracy]*prediction.shape[0]
+    return zip(target_ids, prediction, np.full(prediction.shape, accuracy_array))
+
+
+
+def create_and_predict_segment(query, variable, target_query, model_params):
+    """
+    generate a segment with machine learning
+    Stuart Lynn
+    """
+
+    ## fetch column names
+    try:
+        columns = plpy.execute('SELECT * FROM ({query}) As a LIMIT 1  '.format(query=query))[0].keys()
+    except Exception, e:
+        plpy.error('Failed to build segmentation model: %s' % e)
+
+    ## extract column names to be used in building the segmentation model
+    feature_columns = set(columns) - set([variable, 'cartodb_id', 'the_geom', 'the_geom_webmercator'])
+    ## get data from database
+    target, features = get_data(variable, feature_columns, query)
+
+    model, accuracy = train_model(target, features, model_params, 0.2)
+    cartodb_ids, result = predict_segment(model, feature_columns, target_query)
+    accuracy_array = [accuracy]*result.shape[0]
+    return zip(cartodb_ids, result, accuracy_array)
+
+
+def train_model(target, features, model_params, test_split):
+    """
+        Train the Gradient Boosting model on the provided data and calculate the accuracy of the model
+        Input:
+            @param target: 1D Array of the variable that the model is to be trianed to predict
+            @param features: 2D Array NSamples * NFeatures to use in trining the model
+            @param model_params: A dictionary of model parameters, the full specification can be found on the
+                scikit learn page for [GradientBoostingRegressor](http://scikit-learn.org/stable/modules/generated/sklearn.ensemble.GradientBoostingRegressor.html)
+            @parma test_split: The fraction of the data to be withheld for testing the model / calculating the accuray
+    """
+    features_train, features_test, target_train, target_test = train_test_split(features, target, test_size=test_split)
+    model = GradientBoostingRegressor(**model_params)
+    model.fit(features_train, target_train)
+    accuracy = calculate_model_accuracy(model, features, target)
+    return model, accuracy
+
+def calculate_model_accuracy(model, features, target):
+    """
+        Calculate the mean squared error of the model prediction
+        Input:
+            @param model: model trained from input features
+            @param features: features to make a prediction from
+            @param target: target to compare prediction to
+        Output:
+            mean squared error of the model prection compared to the target
+    """
+    prediction = model.predict(features)
+    return metrics.mean_squared_error(prediction, target)
+
+def predict_segment(model, features, target_query):
+    """
+    Use the provided model to predict the values for the new feature set
+        Input:
+            @param model: The pretrained model
+            @features: A list of features to use in the model prediction (list of column names)
+            @target_query: The query to run to obtain the data to predict on and the cartdb_ids associated with it.
+    """
+
+    batch_size = 1000
+    joined_features = ','.join(['"{0}"::numeric'.format(a) for a in features])
+
+    try:
+        cursor = plpy.cursor('SELECT Array[{joined_features}] As features FROM ({target_query}) As a'.format(
+            joined_features=joined_features,
+            target_query=target_query))
+    except Exception, e:
+        plpy.error('Failed to build segmentation model: %s' % e)
+
+    results = []
+
+    while True:
+        rows = cursor.fetch(batch_size)
+        if not rows:
+            break
+        batch = np.row_stack([np.array(row['features'], dtype=float) for row in rows])
+
+        #Need to fix this. Should be global mean. This will cause weird effects
+        batch = replace_nan_with_mean(batch)
+        prediction = model.predict(batch)
+        results.append(prediction)
+
+    try:
+        cartodb_ids = plpy.execute('''SELECT array_agg(cartodb_id ORDER BY cartodb_id) As cartodb_ids FROM ({0}) As a'''.format(target_query))[0]['cartodb_ids']
+    except Exception, e:
+        plpy.error('Failed to build segmentation model: %s' % e)
+
+    return cartodb_ids, np.concatenate(results)
--- a/release/python/0.2.0/crankshaft/crankshaft/space_time_dynamics/init.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/space_time_dynamics/init.py
@@ -0,0 +1,2 @@
+"""Import all functions from clustering libraries."""
+from markov import *
--- a/release/python/0.2.0/crankshaft/crankshaft/space_time_dynamics/markov.py
+++ b/release/python/0.2.0/crankshaft/crankshaft/space_time_dynamics/markov.py
@@ -0,0 +1,189 @@
+"""
+Spatial dynamics measurements using Spatial Markov
+"""
+
+
+import numpy as np
+import pysal as ps
+import plpy
+import crankshaft.pysal_utils as pu
+
+def spatial_markov_trend(subquery, time_cols, num_classes=7,
+                         w_type='knn', num_ngbrs=5, permutations=0,
+                         geom_col='the_geom', id_col='cartodb_id'):
+    """
+        Predict the trends of a unit based on:
+        1. history of its transitions to different classes (e.g., 1st quantile -> 2nd quantile)
+        2. average class of its neighbors
+
+        Inputs:
+        @param subquery string: e.g., SELECT the_geom, cartodb_id,
+          interesting_time_column FROM table_name
+        @param time_cols list of strings: list of strings of column names
+        @param num_classes (optional): number of classes to break distribution
+          of values into. Currently uses quantile bins.
+        @param w_type string (optional): weight type ('knn' or 'queen')
+        @param num_ngbrs int (optional): number of neighbors (if knn type)
+        @param permutations int (optional): number of permutations for test
+          stats
+        @param geom_col string (optional): name of column which contains the
+          geometries
+        @param id_col string (optional): name of column which has the ids of
+          the table
+
+        Outputs:
+        @param trend_up float: probablity that a geom will move to a higher
+          class
+        @param trend_down float: probablity that a geom will move to a lower
+          class
+        @param trend float: (trend_up - trend_down) / trend_static
+        @param volatility float: a measure of the volatility based on
+          probability stddev(prob array)
+    """
+
+    if len(time_cols) < 2:
+        plpy.error('More than one time column needs to be passed')
+
+    qvals = {"id_col": id_col,
+             "time_cols": time_cols,
+             "geom_col": geom_col,
+             "subquery": subquery,
+             "num_ngbrs": num_ngbrs}
+
+    try:
+        query_result = plpy.execute(
+            pu.construct_neighbor_query(w_type, qvals)
+        )
+        if len(query_result) == 0:
+            return zip([None], [None], [None], [None], [None])
+    except plpy.SPIError, err:
+        plpy.debug('Query failed with exception %s: %s' % (err, pu.construct_neighbor_query(w_type, qvals)))
+        plpy.error('Query failed, check the input parameters')
+        return zip([None], [None], [None], [None], [None])
+
+    ## build weight
+    weights = pu.get_weight(query_result, w_type)
+    weights.transform = 'r'
+
+    ## prep time data
+    t_data = get_time_data(query_result, time_cols)
+
+    plpy.debug('shape of t_data %d, %d' % t_data.shape)
+    plpy.debug('number of weight objects: %d, %d' % (weights.sparse).shape)
+    plpy.debug('first num elements: %f' % t_data[0, 0])
+
+    sp_markov_result = ps.Spatial_Markov(t_data,
+                                         weights,
+                                         k=num_classes,
+                                         fixed=False,
+                                         permutations=permutations)
+
+    ## get lag classes
+    lag_classes = ps.Quantiles(
+        ps.lag_spatial(weights, t_data[:, -1]),
+        k=num_classes).yb
+
+    ## look up probablity distribution for each unit according to class and lag class
+    prob_dist = get_prob_dist(sp_markov_result.P,
+                              lag_classes,
+                              sp_markov_result.classes[:, -1])
+
+    ## find the ups and down and overall distribution of each cell
+    trend_up, trend_down, trend, volatility = get_prob_stats(prob_dist,
+                                                             sp_markov_result.classes[:, -1])
+
+    ## output the results
+    return zip(trend, trend_up, trend_down, volatility, weights.id_order)
+
+def get_time_data(markov_data, time_cols):
+    """
+        Extract the time columns and bin appropriately
+    """
+    num_attrs = len(time_cols)
+    return np.array([[x['attr' + str(i)] for x in markov_data]
+                     for i in range(1, num_attrs+1)], dtype=float).transpose()
+
+## not currently used
+def rebin_data(time_data, num_time_per_bin):
+    """
+        Convert an n x l matrix into an (n/m) x l matrix where the values are
+         reduced (averaged) for the intervening states:
+          1 2 3 4    1.5 3.5
+          5 6 7 8 -> 5.5 7.5
+          9 8 7 6    8.5 6.5
+          5 4 3 2    4.5 2.5
+
+          if m = 2, the 4 x 4 matrix is transformed to a 2 x 4 matrix.
+
+        This process effectively resamples the data at a longer time span n
+         units longer than the input data.
+        For cases when there is a remainder (remainder(5/3) = 2), the remaining
+         two columns are binned together as the last time period, while the
+         first three are binned together for the first period.
+
+        Input:
+          @param time_data n x l  ndarray: measurements of an attribute at
+           different time intervals
+          @param num_time_per_bin int: number of columns to average into a new
+           column
+        Output:
+          ceil(n / m) x l ndarray of resampled time series
+    """
+
+    if time_data.shape[1] % num_time_per_bin == 0:
+        ## if fit is perfect, then use it
+        n_max = time_data.shape[1] / num_time_per_bin
+    else:
+        ## fit remainders into an additional column
+        n_max = time_data.shape[1] / num_time_per_bin + 1
+
+    return np.array([time_data[:, num_time_per_bin * i:num_time_per_bin * (i+1)].mean(axis=1)
+                     for i in range(n_max)]).T
+
+def get_prob_dist(transition_matrix, lag_indices, unit_indices):
+    """
+        Given an array of transition matrices, look up the probability
+        associated with the arrangements passed
+
+        Input:
+        @param transition_matrix ndarray[k,k,k]:
+        @param lag_indices ndarray:
+        @param unit_indices ndarray:
+
+        Output:
+        Array of probability distributions
+    """
+
+    return np.array([transition_matrix[(lag_indices[i], unit_indices[i])]
+                     for i in range(len(lag_indices))])
+
+def get_prob_stats(prob_dist, unit_indices):
+    """
+        get the statistics of the probability distributions
+
+        Outputs:
+            @param trend_up ndarray(float): sum of probabilities for upward
+               movement (relative to the unit index of that prob)
+            @param trend_down ndarray(float): sum of probabilities for downward
+               movement (relative to the unit index of that prob)
+            @param trend ndarray(float): difference of upward and downward
+               movements
+    """
+
+    num_elements = len(unit_indices)
+    trend_up = np.empty(num_elements, dtype=float)
+    trend_down = np.empty(num_elements, dtype=float)
+    trend = np.empty(num_elements, dtype=float)
+
+    for i in range(num_elements):
+        trend_up[i] = prob_dist[i, (unit_indices[i]+1):].sum()
+        trend_down[i] = prob_dist[i, :unit_indices[i]].sum()
+        if prob_dist[i, unit_indices[i]] > 0.0:
+            trend[i] = (trend_up[i] - trend_down[i]) / prob_dist[i, unit_indices[i]]
+        else:
+            trend[i] = None
+
+    ## calculate volatility of distribution
+    volatility = prob_dist.std(axis=1)
+
+    return trend_up, trend_down, trend, volatility
--- a/release/python/0.2.0/crankshaft/setup.py
+++ b/release/python/0.2.0/crankshaft/setup.py
@@ -0,0 +1,49 @@
+
+"""
+CartoDB Spatial Analysis Python Library
+See:
+https://github.com/CartoDB/crankshaft
+"""
+
+from setuptools import setup, find_packages
+
+setup(
+    name='crankshaft',
+
+    version='0.2.0',
+
+    description='CartoDB Spatial Analysis Python Library',
+
+    url='https://github.com/CartoDB/crankshaft',
+
+    author='Data Services Team - CartoDB',
+    author_email='dataservices@cartodb.com',
+
+    license='MIT',
+
+    classifiers=[
+        'Development Status :: 3 - Alpha',
+        'Intended Audience :: Mapping comunity',
+        'Topic :: Maps :: Mapping Tools',
+        'License :: OSI Approved :: MIT License',
+        'Programming Language :: Python :: 2.7',
+    ],
+
+    keywords='maps mapping tools spatial analysis geostatistics',
+
+    packages=find_packages(exclude=['contrib', 'docs', 'tests']),
+
+    extras_require={
+        'dev': ['unittest'],
+        'test': ['unittest', 'nose', 'mock'],
+    },
+
+    # The choice of component versions is dictated by what's
+    # provisioned in the production servers.
+    # IMPORTANT NOTE: please don't change this line. Instead issue a ticket to systems for evaluation.
+    install_requires=['joblib==0.8.3', 'numpy==1.6.1', 'scipy==0.14.0', 'pysal==1.11.2', 'scikit-learn==0.14.1'],
+
+    requires=['pysal', 'numpy', 'sklearn'],
+
+    test_suite='test'
+)
--- a/release/python/0.2.0/crankshaft/test/fixtures/kmeans.json
+++ b/release/python/0.2.0/crankshaft/test/fixtures/kmeans.json
@@ -0,0 +1 @@
+[{"xs": [9.917239463463458, 9.042767302696836, 10.798929825304187, 8.763751051762995, 11.383882954810852, 11.018206993460897, 8.939526075734316, 9.636159342565252, 10.136336896960058, 11.480610059427342, 12.115011910725082, 9.173267848893428, 10.239300931201738, 8.00012512174072, 8.979962292282131, 9.318376124429575, 10.82259513754284, 10.391747171927115, 10.04904588886165, 9.96007160443463, -0.78825626804569, -0.3511819898577426, -1.2796410003764271, -0.3977049391203402, 2.4792311265774667, 1.3670311632092624, 1.2963504112955613, 2.0404844103073025, -1.6439708506073223, 0.39122885445645805, 1.026031821452462, -0.04044477160482201, -0.7442346929085072, -0.34687120826243034, -0.23420359971379054, -0.5919629143336708, -0.202903054395391, -0.1893399644841902, 1.9331834251176807, -0.12321054392851609], "ys": [8.735627063679981, 9.857615954045011, 10.81439096759407, 10.586727233537191, 9.232919976568622, 11.54281262696508, 8.392787912674466, 9.355119689665944, 9.22380703532752, 10.542142541823122, 10.111980619367035, 10.760836265570738, 8.819773453269804, 10.25325722424816, 9.802077905695608, 8.955420161552611, 9.833801181904477, 10.491684241001613, 12.076108669877556, 11.74289693140474, -0.5685725015474191, -0.5715728344759778, -0.20180907868635137, 0.38431336480089595, -0.3402202083684184, -2.4652736827783586, 0.08295159401756182, 0.8503818775816505, 0.6488691600321166, 0.5794762568230527, -0.6770063922144103, -0.6557616416449478, -1.2834289177624947, 0.1096318195532717, -0.38986922166834853, -1.6224497706950238, 0.09429787743230483, 0.4005097316394031, -0.508002811195673, -1.2473463371366507], "ids": [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39]}]
--- a/release/python/0.2.0/crankshaft/test/fixtures/markov.json
+++ b/release/python/0.2.0/crankshaft/test/fixtures/markov.json
@@ -0,0 +1 @@
+[[0.11111111111111112, 0.10000000000000001, 0.0, 0.35213633723318016, 0], [0.03125, 0.030303030303030304, 0.0, 0.3850273981640871, 1], [0.03125, 0.030303030303030304, 0.0, 0.3850273981640871, 2], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 3], [0.0, 0.065217391304347824, 0.065217391304347824, 0.33605067580764519, 4], [-0.054054054054054057, 0.0, 0.05128205128205128, 0.37488547451276033, 5], [0.1875, 0.23999999999999999, 0.12, 0.23731835158706122, 6], [0.034482758620689655, 0.0625, 0.03125, 0.35388469167230169, 7], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 8], [0.19047619047619049, 0.16, 0.0, 0.32594478059941379, 9], [-0.23529411764705882, 0.0, 0.19047619047619047, 0.31356338348865387, 10], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 11], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 12], [0.027777777777777783, 0.11111111111111112, 0.088888888888888892, 0.30339641183779581, 13], [0.03125, 0.030303030303030304, 0.0, 0.3850273981640871, 14], [0.052631578947368425, 0.090909090909090912, 0.045454545454545456, 0.33352611505171165, 15], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 16], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 17], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 18], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 19], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 20], [0.078947368421052641, 0.073170731707317083, 0.0, 0.36451788667842738, 21], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 22], [-0.16666666666666663, 0.18181818181818182, 0.27272727272727271, 0.20246415864836445, 23], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 24], [0.1875, 0.23999999999999999, 0.12, 0.23731835158706122, 25], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 26], [-0.043478260869565216, 0.0, 0.041666666666666664, 0.37950991789118999, 27], [0.22222222222222221, 0.18181818181818182, 0.0, 0.31701083225750354, 28], [-0.054054054054054057, 0.0, 0.05128205128205128, 0.37488547451276033, 29], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 30], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 31], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 32], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 33], [0.034482758620689655, 0.0625, 0.03125, 0.35388469167230169, 34], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 35], [-0.054054054054054057, 0.0, 0.05128205128205128, 0.37488547451276033, 36], [0.11111111111111112, 0.10000000000000001, 0.0, 0.35213633723318016, 37], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 38], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 39], [0.034482758620689655, 0.0625, 0.03125, 0.35388469167230169, 40], [0.11111111111111112, 0.10000000000000001, 0.0, 0.35213633723318016, 41], [0.052631578947368425, 0.090909090909090912, 0.045454545454545456, 0.33352611505171165, 42], [0.0, 0.0, 0.0, 0.40000000000000002, 43], [0.0, 0.065217391304347824, 0.065217391304347824, 0.33605067580764519, 44], [0.078947368421052641, 0.073170731707317083, 0.0, 0.36451788667842738, 45], [0.052631578947368425, 0.090909090909090912, 0.045454545454545456, 0.33352611505171165, 46], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 47]]
--- a/release/python/0.2.0/crankshaft/test/fixtures/moran.json
+++ b/release/python/0.2.0/crankshaft/test/fixtures/moran.json
@@ -0,0 +1,52 @@
+[[0.9319096128346788, "HH"],
+[-1.135787401862846, "HL"],
+[0.11732030672508517, "LL"],
+[0.6152779669180425, "LL"],
+[-0.14657336660125297, "LH"],
+[0.6967858120189607, "LL"],
+[0.07949310115714454, "HH"],
+[0.4703198759258987, "HH"],
+[0.4421125200498064, "HH"],
+[0.5724288737143592, "LL"],
+[0.8970743435692062, "LL"],
+[0.18327334401918674, "LL"],
+[-0.01466729201304962, "HL"],
+[0.3481559372544409, "LL"],
+[0.06547094736902978, "LL"],
+[0.15482141569329988, "HH"],
+[0.4373841193538136, "HH"],
+[0.15971286468915544, "LL"],
+[1.0543588860308968, "HH"],
+[1.7372866900020818, "HH"],
+[1.091998586053999, "LL"],
+[0.1171572584252222, "HH"],
+[0.08438455015300014, "LL"],
+[0.06547094736902978, "LL"],
+[0.15482141569329985, "HH"],
+[1.1627044812890683, "HH"],
+[0.06547094736902978, "LL"],
+[0.795275137550483, "HH"],
+[0.18562939195219, "LL"],
+[0.3010757406693439, "LL"],
+[2.8205795942839376, "HH"],
+[0.11259190602909264, "LL"],
+[-0.07116352791516614, "HL"],
+[-0.09945240794119009, "LH"],
+[0.18562939195219, "LL"],
+[0.1832733440191868, "LL"],
+[-0.39054253768447705, "HL"],
+[-0.1672071289487642, "HL"],
+[0.3337669247916343, "HH"],
+[0.2584386102554792, "HH"],
+[-0.19733845476322634, "HL"],
+[-0.9379282899805409, "LH"],
+[-0.028770969951095866, "LH"],
+[0.051367269430983485, "LL"],
+[-0.2172548045913472, "LH"],
+[0.05136726943098351, "LL"],
+[0.04191046803899837, "LL"],
+[0.7482357030403517, "HH"],
+[-0.014585767863118111, "LH"],
+[0.5410013139159929, "HH"],
+[1.0223932668429925, "LL"],
+[1.4179402898927476, "LL"]]
--- a/release/python/0.2.0/crankshaft/test/fixtures/neighbors.json
+++ b/release/python/0.2.0/crankshaft/test/fixtures/neighbors.json
@@ -0,0 +1,54 @@
+[
+    {"neighbors": [48, 26, 20, 9, 31], "id": 1, "value": 0.5},
+    {"neighbors": [30, 16, 46, 3, 4], "id": 2, "value": 0.7},
+    {"neighbors": [46, 30, 2, 12, 16], "id": 3, "value": 0.2},
+    {"neighbors": [18, 30, 23, 2, 52], "id": 4, "value": 0.1},
+    {"neighbors": [47, 40, 45, 37, 28], "id": 5, "value": 0.3},
+    {"neighbors": [10, 21, 41, 14, 37], "id": 6, "value": 0.05},
+    {"neighbors": [8, 17, 43, 25, 12], "id": 7, "value": 0.4},
+    {"neighbors": [17, 25, 43, 22, 7], "id": 8, "value": 0.7},
+    {"neighbors": [39, 34, 1, 26, 48], "id": 9, "value": 0.5},
+    {"neighbors": [6, 37, 5, 45, 49], "id": 10, "value": 0.04},
+    {"neighbors": [51, 41, 29, 21, 14], "id": 11, "value": 0.08},
+    {"neighbors": [44, 46, 43, 50, 3], "id": 12, "value": 0.2},
+    {"neighbors": [45, 23, 14, 28, 18], "id": 13, "value": 0.4},
+    {"neighbors": [41, 29, 13, 23, 6], "id": 14, "value": 0.2},
+    {"neighbors": [36, 27, 32, 33, 24], "id": 15, "value": 0.3},
+    {"neighbors": [19, 2, 46, 44, 28], "id": 16, "value": 0.4},
+    {"neighbors": [8, 25, 43, 7, 22], "id": 17, "value": 0.6},
+    {"neighbors": [23, 4, 29, 14, 13], "id": 18, "value": 0.3},
+    {"neighbors": [42, 16, 28, 26, 40], "id": 19, "value": 0.7},
+    {"neighbors": [1, 48, 31, 26, 42], "id": 20, "value": 0.8},
+    {"neighbors": [41, 6, 11, 14, 10], "id": 21, "value": 0.1},
+    {"neighbors": [25, 50, 43, 31, 44], "id": 22, "value": 0.4},
+    {"neighbors": [18, 13, 14, 4, 2], "id": 23, "value": 0.1},
+    {"neighbors": [33, 49, 34, 47, 27], "id": 24, "value": 0.3},
+    {"neighbors": [43, 8, 22, 17, 50], "id": 25, "value": 0.4},
+    {"neighbors": [1, 42, 20, 31, 48], "id": 26, "value": 0.6},
+    {"neighbors": [32, 15, 36, 33, 24], "id": 27, "value": 0.3},
+    {"neighbors": [40, 45, 19, 5, 13], "id": 28, "value": 0.8},
+    {"neighbors": [11, 51, 41, 14, 18], "id": 29, "value": 0.3},
+    {"neighbors": [2, 3, 4, 46, 18], "id": 30, "value": 0.1},
+    {"neighbors": [20, 26, 1, 50, 48], "id": 31, "value": 0.9},
+    {"neighbors": [27, 36, 15, 49, 24], "id": 32, "value": 0.3},
+    {"neighbors": [24, 27, 49, 34, 32], "id": 33, "value": 0.4},
+    {"neighbors": [47, 9, 39, 40, 24], "id": 34, "value": 0.3},
+    {"neighbors": [38, 51, 11, 21, 41], "id": 35, "value": 0.3},
+    {"neighbors": [15, 32, 27, 49, 33], "id": 36, "value": 0.2},
+    {"neighbors": [49, 10, 5, 47, 24], "id": 37, "value": 0.5},
+    {"neighbors": [35, 21, 51, 11, 41], "id": 38, "value": 0.4},
+    {"neighbors": [9, 34, 48, 1, 47], "id": 39, "value": 0.6},
+    {"neighbors": [28, 47, 5, 9, 34], "id": 40, "value": 0.5},
+    {"neighbors": [11, 14, 29, 21, 6], "id": 41, "value": 0.4},
+    {"neighbors": [26, 19, 1, 9, 31], "id": 42, "value": 0.2},
+    {"neighbors": [25, 12, 8, 22, 44], "id": 43, "value": 0.3},
+    {"neighbors": [12, 50, 46, 16, 43], "id": 44, "value": 0.2},
+    {"neighbors": [28, 13, 5, 40, 19], "id": 45, "value": 0.3},
+    {"neighbors": [3, 12, 44, 2, 16], "id": 46, "value": 0.2},
+    {"neighbors": [34, 40, 5, 49, 24], "id": 47, "value": 0.3},
+    {"neighbors": [1, 20, 26, 9, 39], "id": 48, "value": 0.5},
+    {"neighbors": [24, 37, 47, 5, 33], "id": 49, "value": 0.2},
+    {"neighbors": [44, 22, 31, 42, 26], "id": 50, "value": 0.6},
+    {"neighbors": [11, 29, 41, 14, 21], "id": 51, "value": 0.01},
+    {"neighbors": [4, 18, 29, 51, 23], "id": 52, "value": 0.01}
+  ]
--- a/release/python/0.2.0/crankshaft/test/fixtures/neighbors_markov.json
+++ b/release/python/0.2.0/crankshaft/test/fixtures/neighbors_markov.json
--- a/release/python/0.2.0/crankshaft/test/helper.py
+++ b/release/python/0.2.0/crankshaft/test/helper.py
@@ -0,0 +1,13 @@
+import unittest
+
+from mock_plpy import MockPlPy
+plpy = MockPlPy()
+
+import sys
+sys.modules['plpy'] = plpy
+
+import os
+
+def fixture_file(name):
+    dir = os.path.dirname(os.path.realpath(__file__))
+    return os.path.join(dir, 'fixtures', name)
--- a/release/python/0.2.0/crankshaft/test/mock_plpy.py
+++ b/release/python/0.2.0/crankshaft/test/mock_plpy.py
@@ -0,0 +1,52 @@
+import re
+
+class MockCursor:
+    def __init__(self, data):
+        self.cursor_pos = 0
+        self.data = data
+
+    def fetch(self, batch_size):
+        batch = self.data[self.cursor_pos : self.cursor_pos + batch_size]
+        self.cursor_pos += batch_size
+        return batch
+
+
+class MockPlPy:
+    def __init__(self):
+        self._reset()
+
+    def _reset(self):
+        self.infos = []
+        self.notices = []
+        self.debugs = []
+        self.logs = []
+        self.warnings = []
+        self.errors = []
+        self.fatals = []
+        self.executes = []
+        self.results = []
+        self.prepares = []
+        self.results = []
+
+    def _define_result(self, query, result):
+        pattern = re.compile(query, re.IGNORECASE | re.MULTILINE)
+        self.results.append([pattern, result])
+
+    def notice(self, msg):
+        self.notices.append(msg)
+
+    def debug(self, msg):
+        self.notices.append(msg)
+
+    def info(self, msg):
+        self.infos.append(msg)
+
+    def cursor(self, query):
+        data = self.execute(query)
+        return MockCursor(data)
+
+    def execute(self, query): # TODO: additional arguments
+       for result in self.results:
+          if result[0].match(query):
+            return result[1]
+       return []
--- a/release/python/0.2.0/crankshaft/test/test_cluster_kmeans.py
+++ b/release/python/0.2.0/crankshaft/test/test_cluster_kmeans.py
@@ -0,0 +1,38 @@
+import unittest
+import numpy as np
+
+
+# from mock_plpy import MockPlPy
+# plpy = MockPlPy()
+#
+# import sys
+# sys.modules['plpy'] = plpy
+from helper import plpy, fixture_file
+import numpy as np
+import crankshaft.clustering as cc
+import crankshaft.pysal_utils as pu
+from crankshaft import random_seeds
+import json
+
+class KMeansTest(unittest.TestCase):
+    """Testing class for Moran's I functions"""
+
+    def setUp(self):
+        plpy._reset()
+        self.cluster_data = json.loads(open(fixture_file('kmeans.json')).read())
+        self.params = {"subquery": "select * from table",
+                       "no_clusters": "10"
+                       }
+
+    def test_kmeans(self):
+        data = self.cluster_data
+        plpy._define_result('select' ,data)
+        clusters = cc.kmeans('subquery', 2)
+        labels  = [a[1] for a in clusters]
+        c1 = [a for a in clusters if a[1]==0]
+        c2 = [a for a in clusters if a[1]==1]
+
+        self.assertEqual(len(np.unique(labels)),2)
+        self.assertEqual(len(c1),20)
+        self.assertEqual(len(c2),20)
+
--- a/release/python/0.2.0/crankshaft/test/test_clustering_moran.py
+++ b/release/python/0.2.0/crankshaft/test/test_clustering_moran.py
@@ -0,0 +1,88 @@
+import unittest
+import numpy as np
+
+
+# from mock_plpy import MockPlPy
+# plpy = MockPlPy()
+#
+# import sys
+# sys.modules['plpy'] = plpy
+from helper import plpy, fixture_file
+
+import crankshaft.clustering as cc
+import crankshaft.pysal_utils as pu
+from crankshaft import random_seeds
+import json
+
+class MoranTest(unittest.TestCase):
+    """Testing class for Moran's I functions"""
+
+    def setUp(self):
+        plpy._reset()
+        self.params = {"id_col": "cartodb_id",
+                       "attr1": "andy",
+                       "attr2": "jay_z",
+                       "subquery": "SELECT * FROM a_list",
+                       "geom_col": "the_geom",
+                       "num_ngbrs": 321}
+        self.params_markov = {"id_col": "cartodb_id",
+                              "time_cols": ["_2013_dec", "_2014_jan", "_2014_feb"],
+                              "subquery": "SELECT * FROM a_list",
+                              "geom_col": "the_geom",
+                              "num_ngbrs": 321}
+        self.neighbors_data = json.loads(open(fixture_file('neighbors.json')).read())
+        self.moran_data = json.loads(open(fixture_file('moran.json')).read())
+
+    def test_map_quads(self):
+        """Test map_quads"""
+        self.assertEqual(cc.map_quads(1), 'HH')
+        self.assertEqual(cc.map_quads(2), 'LH')
+        self.assertEqual(cc.map_quads(3), 'LL')
+        self.assertEqual(cc.map_quads(4), 'HL')
+        self.assertEqual(cc.map_quads(33), None)
+        self.assertEqual(cc.map_quads('andy'), None)
+
+    def test_quad_position(self):
+        """Test lisa_sig_vals"""
+
+        quads = np.array([1, 2, 3, 4], np.int)
+
+        ans = np.array(['HH', 'LH', 'LL', 'HL'])
+        test_ans = cc.quad_position(quads)
+
+        self.assertTrue((test_ans == ans).all())
+
+    def test_moran_local(self):
+        """Test Moran's I local"""
+        data = [ { 'id': d['id'], 'attr1': d['value'], 'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1234)
+        result = cc.moran_local('subquery', 'value', 'knn', 5, 99, 'the_geom', 'cartodb_id')
+        result = [(row[0], row[1]) for row in result]
+        expected = self.moran_data
+        for ([res_val, res_quad], [exp_val, exp_quad]) in zip(result, expected):
+            self.assertAlmostEqual(res_val, exp_val)
+            self.assertEqual(res_quad, exp_quad)
+
+    def test_moran_local_rate(self):
+        """Test Moran's I rate"""
+        data = [ { 'id': d['id'], 'attr1': d['value'], 'attr2': 1, 'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1234)
+        result = cc.moran_local_rate('subquery', 'numerator', 'denominator', 'knn', 5, 99, 'the_geom', 'cartodb_id')
+        print 'result == None? ', result == None
+        result = [(row[0], row[1]) for row in result]
+        expected = self.moran_data
+        for ([res_val, res_quad], [exp_val, exp_quad]) in zip(result, expected):
+            self.assertAlmostEqual(res_val, exp_val)
+
+    def test_moran(self):
+        """Test Moran's I global"""
+        data = [{ 'id': d['id'], 'attr1': d['value'], 'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1235)
+        result = cc.moran('table', 'value', 'knn', 5, 99, 'the_geom', 'cartodb_id')
+        print 'result == None?', result == None
+        result_moran = result[0][0]
+        expected_moran = np.array([row[0] for row in self.moran_data]).mean()
+        self.assertAlmostEqual(expected_moran, result_moran, delta=10e-2)
--- a/release/python/0.2.0/crankshaft/test/test_pysal_utils.py
+++ b/release/python/0.2.0/crankshaft/test/test_pysal_utils.py
@@ -0,0 +1,142 @@
+import unittest
+
+import crankshaft.pysal_utils as pu
+from crankshaft import random_seeds
+
+
+class PysalUtilsTest(unittest.TestCase):
+    """Testing class for utility functions related to PySAL integrations"""
+
+    def setUp(self):
+        self.params = {"id_col": "cartodb_id",
+                       "attr1": "andy",
+                       "attr2": "jay_z",
+                       "subquery": "SELECT * FROM a_list",
+                       "geom_col": "the_geom",
+                       "num_ngbrs": 321}
+
+        self.params_array = {"id_col": "cartodb_id",
+                             "time_cols": ["_2013_dec", "_2014_jan", "_2014_feb"],
+                             "subquery": "SELECT * FROM a_list",
+                             "geom_col": "the_geom",
+                             "num_ngbrs": 321}
+
+    def test_query_attr_select(self):
+        """Test query_attr_select"""
+
+        ans = "i.\"andy\"::numeric As attr1, " \
+              "i.\"jay_z\"::numeric As attr2, "
+
+        ans_array = "i.\"_2013_dec\"::numeric As attr1, " \
+                    "i.\"_2014_jan\"::numeric As attr2, " \
+                    "i.\"_2014_feb\"::numeric As attr3, "
+
+        self.assertEqual(pu.query_attr_select(self.params), ans)
+        self.assertEqual(pu.query_attr_select(self.params_array), ans_array)
+
+    def test_query_attr_where(self):
+        """Test pu.query_attr_where"""
+
+        ans = "idx_replace.\"andy\" IS NOT NULL AND " \
+              "idx_replace.\"jay_z\" IS NOT NULL AND " \
+              "idx_replace.\"jay_z\" <> 0"
+
+        ans_array = "idx_replace.\"_2013_dec\" IS NOT NULL AND " \
+                    "idx_replace.\"_2014_jan\" IS NOT NULL AND " \
+                    "idx_replace.\"_2014_feb\" IS NOT NULL"
+
+        self.assertEqual(pu.query_attr_where(self.params), ans)
+        self.assertEqual(pu.query_attr_where(self.params_array), ans_array)
+
+    def test_knn(self):
+        """Test knn neighbors constructor"""
+
+        ans = "SELECT i.\"cartodb_id\" As id, " \
+                     "i.\"andy\"::numeric As attr1, " \
+                     "i.\"jay_z\"::numeric As attr2, " \
+                     "(SELECT ARRAY(SELECT j.\"cartodb_id\" " \
+                                   "FROM (SELECT * FROM a_list) As j " \
+                                   "WHERE " \
+                                    "i.\"cartodb_id\" <> j.\"cartodb_id\" AND " \
+                                    "j.\"andy\" IS NOT NULL AND " \
+                                    "j.\"jay_z\" IS NOT NULL AND " \
+                                    "j.\"jay_z\" <> 0 " \
+                                   "ORDER BY " \
+                                    "j.\"the_geom\" <-> i.\"the_geom\" ASC " \
+                      "LIMIT 321)) As neighbors " \
+              "FROM (SELECT * FROM a_list) As i " \
+              "WHERE i.\"andy\" IS NOT NULL AND " \
+                    "i.\"jay_z\" IS NOT NULL AND " \
+                    "i.\"jay_z\" <> 0 " \
+              "ORDER BY i.\"cartodb_id\" ASC;"
+        
+        ans_array = "SELECT i.\"cartodb_id\" As id, " \
+              "i.\"_2013_dec\"::numeric As attr1, " \
+              "i.\"_2014_jan\"::numeric As attr2, " \
+              "i.\"_2014_feb\"::numeric As attr3, " \
+              "(SELECT ARRAY(SELECT j.\"cartodb_id\" " \
+                            "FROM (SELECT * FROM a_list) As j " \
+                            "WHERE i.\"cartodb_id\" <> j.\"cartodb_id\" AND " \
+                                  "j.\"_2013_dec\" IS NOT NULL AND " \
+                                  "j.\"_2014_jan\" IS NOT NULL AND " \
+                                  "j.\"_2014_feb\" IS NOT NULL " \
+                            "ORDER BY j.\"the_geom\" <-> i.\"the_geom\" ASC " \
+                            "LIMIT 321)) As neighbors " \
+              "FROM (SELECT * FROM a_list) As i " \
+              "WHERE i.\"_2013_dec\" IS NOT NULL AND " \
+                    "i.\"_2014_jan\" IS NOT NULL AND " \
+                    "i.\"_2014_feb\" IS NOT NULL "\
+              "ORDER BY i.\"cartodb_id\" ASC;"
+
+        self.assertEqual(pu.knn(self.params), ans)
+        self.assertEqual(pu.knn(self.params_array), ans_array)
+
+    def test_queen(self):
+        """Test queen neighbors constructor"""
+
+        ans = "SELECT i.\"cartodb_id\" As id, " \
+                     "i.\"andy\"::numeric As attr1, " \
+                     "i.\"jay_z\"::numeric As attr2, " \
+                     "(SELECT ARRAY(SELECT j.\"cartodb_id\" " \
+                                   "FROM (SELECT * FROM a_list) As j " \
+                                   "WHERE " \
+                                   "i.\"cartodb_id\" <> j.\"cartodb_id\" AND " \
+                                   "ST_Touches(i.\"the_geom\", " \
+                                              "j.\"the_geom\") AND " \
+                                   "j.\"andy\" IS NOT NULL AND " \
+                                   "j.\"jay_z\" IS NOT NULL AND " \
+                                   "j.\"jay_z\" <> 0)" \
+                                  ") As neighbors " \
+              "FROM (SELECT * FROM a_list) As i " \
+              "WHERE i.\"andy\" IS NOT NULL AND " \
+                    "i.\"jay_z\" IS NOT NULL AND " \
+                    "i.\"jay_z\" <> 0 " \
+              "ORDER BY i.\"cartodb_id\" ASC;"
+
+        self.assertEqual(pu.queen(self.params), ans)
+
+    def test_construct_neighbor_query(self):
+        """Test construct_neighbor_query"""
+
+        # Compare to raw knn query
+        self.assertEqual(pu.construct_neighbor_query('knn', self.params),
+                         pu.knn(self.params))
+
+    def test_get_attributes(self):
+        """Test get_attributes"""
+
+        ## need to add tests
+
+        self.assertEqual(True, True)
+
+    def test_get_weight(self):
+        """Test get_weight"""
+
+        self.assertEqual(True, True)
+
+    def test_empty_zipped_array(self):
+        """Test empty_zipped_array"""
+        ans2 = [(None, None)]
+        ans4 = [(None, None, None, None)]
+        self.assertEqual(pu.empty_zipped_array(2), ans2)
+        self.assertEqual(pu.empty_zipped_array(4), ans4)
--- a/release/python/0.2.0/crankshaft/test/test_segmentation.py
+++ b/release/python/0.2.0/crankshaft/test/test_segmentation.py
@@ -0,0 +1,64 @@
+import unittest
+import numpy as np
+from helper import plpy, fixture_file
+import crankshaft.segmentation as segmentation
+import json
+
+class SegmentationTest(unittest.TestCase):
+    """Testing class for Moran's I functions"""
+
+    def setUp(self):
+        plpy._reset()
+
+    def generate_random_data(self,n_samples,random_state,  row_type=False):
+        x1 = random_state.uniform(size=n_samples)
+        x2 = random_state.uniform(size=n_samples)
+        x3 = random_state.randint(0, 4, size=n_samples)
+
+        y = x1+x2*x2+x3
+        cartodb_id  = range(len(x1))
+
+        if row_type:
+            return [ {'features': vals} for vals in zip(x1,x2,x3)], y
+        else:
+            return  [dict( zip(['x1','x2','x3','target', 'cartodb_id'],[x1,x2,x3,y,cartodb_id]))]
+
+    def test_replace_nan_with_mean(self):
+        test_array = np.array([1.2, np.nan, 3.2, np.nan, np.nan])
+
+    def test_create_and_predict_segment(self):
+        n_samples = 1000
+
+        random_state_train = np.random.RandomState(13)
+        random_state_test = np.random.RandomState(134)
+        training_data = self.generate_random_data(n_samples, random_state_train)
+        test_data, test_y = self.generate_random_data(n_samples, random_state_test, row_type=True)
+
+
+        ids =  [{'cartodb_ids': range(len(test_data))}]
+        rows =  [{'x1': 0,'x2':0,'x3':0,'y':0,'cartodb_id':0}]
+
+        plpy._define_result('select \* from  \(select \* from training\) a  limit 1',rows)
+        plpy._define_result('.*from \(select \* from training\) as a' ,training_data)
+        plpy._define_result('select array_agg\(cartodb\_id order by cartodb\_id\) as cartodb_ids from \(.*\) a',ids)
+        plpy._define_result('.*select \* from test.*' ,test_data)
+
+        model_parameters =  {'n_estimators': 1200,
+                             'max_depth': 3,
+                             'subsample' : 0.5,
+                             'learning_rate': 0.01,
+                             'min_samples_leaf': 1}
+
+        result = segmentation.create_and_predict_segment(
+                'select * from training',
+                'target',
+                'select * from test',
+                model_parameters)
+
+        prediction = [r[1] for r in result]
+
+        accuracy =np.sqrt(np.mean( np.square( np.array(prediction) - np.array(test_y))))
+
+        self.assertEqual(len(result),len(test_data))
+        self.assertTrue( result[0][2] < 0.01)
+        self.assertTrue( accuracy < 0.5*np.mean(test_y)  )
--- a/release/python/0.2.0/crankshaft/test/test_space_time_dynamics.py
+++ b/release/python/0.2.0/crankshaft/test/test_space_time_dynamics.py
@@ -0,0 +1,324 @@
+import unittest
+import numpy as np
+
+import unittest
+
+
+# from mock_plpy import MockPlPy
+# plpy = MockPlPy()
+#
+# import sys
+# sys.modules['plpy'] = plpy
+from helper import plpy, fixture_file
+
+import crankshaft.space_time_dynamics as std
+from crankshaft import random_seeds
+import json
+
+class SpaceTimeTests(unittest.TestCase):
+    """Testing class for Markov Functions."""
+
+    def setUp(self):
+        plpy._reset()
+        self.params = {"id_col": "cartodb_id",
+                       "time_cols": ['dec_2013', 'jan_2014', 'feb_2014'],
+                       "subquery": "SELECT * FROM a_list",
+                       "geom_col": "the_geom",
+                       "num_ngbrs": 321}
+        self.neighbors_data = json.loads(open(fixture_file('neighbors_markov.json')).read())
+        self.markov_data = json.loads(open(fixture_file('markov.json')).read())
+
+        self.time_data = np.array([i * np.ones(10, dtype=float) for i in range(10)]).T
+
+        self.transition_matrix = np.array([
+                [[ 0.96341463, 0.0304878 , 0.00609756, 0.        , 0.        ],
+                 [ 0.06040268, 0.83221477, 0.10738255, 0.        , 0.        ],
+                 [ 0.        , 0.14      , 0.74      , 0.12      , 0.        ],
+                 [ 0.        , 0.03571429, 0.32142857, 0.57142857, 0.07142857],
+                 [ 0.        , 0.        , 0.        , 0.16666667, 0.83333333]],
+                [[ 0.79831933, 0.16806723, 0.03361345, 0.        , 0.        ],
+                 [ 0.0754717 , 0.88207547, 0.04245283, 0.        , 0.        ],
+                 [ 0.00537634, 0.06989247, 0.8655914 , 0.05913978, 0.        ],
+                 [ 0.        , 0.        , 0.06372549, 0.90196078, 0.03431373],
+                 [ 0.        , 0.        , 0.        , 0.19444444, 0.80555556]],
+                [[ 0.84693878, 0.15306122, 0.        , 0.        , 0.        ],
+                 [ 0.08133971, 0.78947368, 0.1291866 , 0.        , 0.        ],
+                 [ 0.00518135, 0.0984456 , 0.79274611, 0.0984456 , 0.00518135],
+                 [ 0.        , 0.        , 0.09411765, 0.87058824, 0.03529412],
+                 [ 0.        , 0.        , 0.        , 0.10204082, 0.89795918]],
+                [[ 0.8852459 , 0.09836066, 0.        , 0.01639344, 0.        ],
+                 [ 0.03875969, 0.81395349, 0.13953488, 0.        , 0.00775194],
+                 [ 0.0049505 , 0.09405941, 0.77722772, 0.11881188, 0.0049505 ],
+                 [ 0.        , 0.02339181, 0.12865497, 0.75438596, 0.09356725],
+                 [ 0.        , 0.        , 0.        , 0.09661836, 0.90338164]],
+                [[ 0.33333333, 0.66666667, 0.        , 0.        , 0.        ],
+                 [ 0.0483871 , 0.77419355, 0.16129032, 0.01612903, 0.        ],
+                 [ 0.01149425, 0.16091954, 0.74712644, 0.08045977, 0.        ],
+                 [ 0.        , 0.01036269, 0.06217617, 0.89637306, 0.03108808],
+                 [ 0.        , 0.        , 0.        , 0.02352941, 0.97647059]]]
+                 )
+
+    def test_spatial_markov(self):
+        """Test Spatial Markov."""
+        data = [ { 'id': d['id'],
+                   'attr1': d['y1995'],
+                   'attr2': d['y1996'],
+                   'attr3': d['y1997'],
+                   'attr4': d['y1998'],
+                   'attr5': d['y1999'],
+                   'attr6': d['y2000'],
+                   'attr7': d['y2001'],
+                   'attr8': d['y2002'],
+                   'attr9': d['y2003'],
+                   'attr10': d['y2004'],
+                   'attr11': d['y2005'],
+                   'attr12': d['y2006'],
+                   'attr13': d['y2007'],
+                   'attr14': d['y2008'],
+                   'attr15': d['y2009'],
+                   'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        print(str(data[0]))
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1234)
+
+        result = std.spatial_markov_trend('subquery', ['y1995', 'y1996', 'y1997', 'y1998', 'y1999', 'y2000', 'y2001', 'y2002', 'y2003', 'y2004', 'y2005', 'y2006', 'y2007', 'y2008', 'y2009'], 5, 'knn', 5, 0, 'the_geom', 'cartodb_id')
+
+        self.assertTrue(result != None)
+        result = [(row[0], row[1], row[2], row[3], row[4]) for row in result]
+        print result[0]
+        expected = self.markov_data
+        for ([res_trend, res_up, res_down, res_vol, res_id],
+             [exp_trend, exp_up, exp_down, exp_vol, exp_id]
+             ) in zip(result, expected):
+            self.assertAlmostEqual(res_trend, exp_trend)
+
+    def test_get_time_data(self):
+        """Test get_time_data"""
+        data = [ { 'attr1': d['y1995'],
+                   'attr2': d['y1996'],
+                   'attr3': d['y1997'],
+                   'attr4': d['y1998'],
+                   'attr5': d['y1999'],
+                   'attr6': d['y2000'],
+                   'attr7': d['y2001'],
+                   'attr8': d['y2002'],
+                   'attr9': d['y2003'],
+                   'attr10': d['y2004'],
+                   'attr11': d['y2005'],
+                   'attr12': d['y2006'],
+                   'attr13': d['y2007'],
+                   'attr14': d['y2008'],
+                   'attr15': d['y2009'] } for d in self.neighbors_data]
+
+        result = std.get_time_data(data, ['y1995', 'y1996', 'y1997', 'y1998', 'y1999', 'y2000', 'y2001', 'y2002', 'y2003', 'y2004', 'y2005', 'y2006', 'y2007', 'y2008', 'y2009'])
+
+        ## expected was prepared from PySAL example:
+        ### f = ps.open(ps.examples.get_path("usjoin.csv"))
+        ### pci = np.array([f.by_col[str(y)] for y in range(1995, 2010)]).transpose()
+        ### rpci = pci / (pci.mean(axis = 0))
+
+        expected = np.array([[ 0.87654416, 0.863147, 0.85637567, 0.84811668, 0.8446154,  0.83271652
+        ,  0.83786314, 0.85012593, 0.85509656, 0.86416612, 0.87119375, 0.86302631
+        ,  0.86148267, 0.86252252, 0.86746356],
+         [ 0.9188951,  0.91757931, 0.92333258, 0.92517289, 0.92552388, 0.90746978
+        ,  0.89830489, 0.89431991, 0.88924794, 0.89815176, 0.91832091, 0.91706054
+        ,  0.90139505, 0.87897455, 0.86216858],
+         [ 0.82591007, 0.82548596, 0.81989793, 0.81503235, 0.81731522, 0.78964559
+        ,  0.80584442, 0.8084998,  0.82258551, 0.82668196, 0.82373724, 0.81814804
+        ,  0.83675961, 0.83574199, 0.84647177],
+         [ 1.09088176, 1.08537689, 1.08456418, 1.08415404, 1.09898841, 1.14506948
+        ,  1.12151133, 1.11160697, 1.10888621, 1.11399806, 1.12168029, 1.13164797
+        ,  1.12958508, 1.11371818, 1.09936775],
+         [ 1.10731446, 1.11373944, 1.13283638, 1.14472559, 1.15910025, 1.16898201
+        ,  1.17212488, 1.14752303, 1.11843284, 1.11024964, 1.11943471, 1.11736468
+        ,  1.10863242, 1.09642516, 1.07762337],
+         [ 1.42269757, 1.42118434, 1.44273502, 1.43577571, 1.44400684, 1.44184737
+        ,  1.44782832, 1.41978227, 1.39092208, 1.4059372,  1.40788646, 1.44052766
+        ,  1.45241216, 1.43306098, 1.4174431 ],
+         [ 1.13073885, 1.13110513, 1.11074708, 1.13364636, 1.13088149, 1.10888138
+        ,  1.11856629, 1.13062931, 1.11944984, 1.12446239, 1.11671008, 1.10880034
+        ,  1.08401709, 1.06959206, 1.07875225],
+         [ 1.04706124, 1.04516831, 1.04253372, 1.03239987, 1.02072545, 0.99854316
+        ,  0.9880258,  0.99669587, 0.99327676, 1.01400905, 1.03176742, 1.040511
+        ,  1.01749645, 0.9936394,  0.98279746],
+         [ 0.98996986, 1.00143564, 0.99491,  1.00188408, 1.00455845, 0.99127006
+        ,  0.97925917, 0.9683482,  0.95335147, 0.93694787, 0.94308213, 0.92232874
+        ,  0.91284091, 0.89689833, 0.88928858],
+         [ 0.87418391, 0.86416601, 0.84425695, 0.8404494,  0.83903044, 0.8578708
+        ,  0.86036185, 0.86107306, 0.8500772,  0.86981998, 0.86837929, 0.87204141
+        ,  0.86633032, 0.84946077, 0.83287146],
+         [ 1.14196118, 1.14660262, 1.14892712, 1.14909594, 1.14436624, 1.14450183
+        ,  1.12349752, 1.12596664, 1.12213996, 1.1119989,  1.10257792, 1.10491258
+        ,  1.11059842, 1.10509795, 1.10020097],
+         [ 0.97282463, 0.96700147, 0.96252588, 0.9653878,  0.96057687, 0.95831051
+        ,  0.94480909, 0.94804195, 0.95430286, 0.94103989, 0.92122519, 0.91010201
+        ,  0.89280392, 0.89298243, 0.89165385],
+         [ 0.94325468, 0.96436902, 0.96455242, 0.95243009, 0.94117647, 0.9480927
+        ,  0.93539182, 0.95388718, 0.94597005, 0.96918424, 0.94781281, 0.93466815
+        ,  0.94281559, 0.96520315, 0.96715441],
+         [ 0.97478408, 0.98169225, 0.98712809, 0.98474769, 0.98559897, 0.98687073
+        ,  0.99237486, 0.98209969, 0.9877653,  0.97399471, 0.96910087, 0.98416665
+        ,  0.98423613, 0.99823861, 0.99545704],
+         [ 0.85570269, 0.85575915, 0.85986132, 0.85693406, 0.8538012,  0.86191535
+        ,  0.84981451, 0.85472102, 0.84564835, 0.83998883, 0.83478547, 0.82803648
+        ,  0.8198736,  0.82265395, 0.8399404 ],
+         [ 0.87022047, 0.85996258, 0.85961813, 0.85689572, 0.83947136, 0.82785597
+        ,  0.86008789, 0.86776298, 0.86720209, 0.8676334,  0.89179317, 0.94202108
+        ,  0.9422231,  0.93902708, 0.94479184],
+         [ 0.90134907, 0.90407738, 0.90403991, 0.90201769, 0.90399238, 0.90906632
+        ,  0.92693339, 0.93695966, 0.94242697, 0.94338265, 0.91981796, 0.91108804
+        ,  0.90543476, 0.91737138, 0.94793657],
+         [ 1.1977611,  1.18222564, 1.18439158, 1.18267865, 1.19286723, 1.20172869
+        ,  1.21328691, 1.22624778, 1.22397075, 1.23857042, 1.24419893, 1.23929384
+        ,  1.23418676, 1.23626739, 1.26754398],
+         [ 1.24919678, 1.25754773, 1.26991161, 1.28020651, 1.30625667, 1.34790023
+        ,  1.34399863, 1.32575181, 1.30795492, 1.30544841, 1.30303302, 1.32107766
+        ,  1.32936244, 1.33001241, 1.33288462],
+         [ 1.06768004, 1.03799276, 1.03637303, 1.02768449, 1.03296093, 1.05059016
+        ,  1.03405057, 1.02747623, 1.03162734, 0.9961416,  0.97356208, 0.94241549
+        ,  0.92754547, 0.92549227, 0.92138102],
+         [ 1.09475614, 1.11526796, 1.11654299, 1.13103948, 1.13143264, 1.13889622
+        ,  1.12442212, 1.13367018, 1.13982256, 1.14029944, 1.11979401, 1.10905389
+        ,  1.10577769, 1.11166825, 1.09985155],
+         [ 0.76530058, 0.76612841, 0.76542451, 0.76722683, 0.76014284, 0.74480073
+        ,  0.76098396, 0.76156903, 0.76651952, 0.76533288, 0.78205934, 0.76842416
+        ,  0.77487118, 0.77768683, 0.78801192],
+         [ 0.98391336, 0.98075816, 0.98295341, 0.97386015, 0.96913803, 0.97370819
+        ,  0.96419154, 0.97209861, 0.97441313, 0.96356162, 0.94745352, 0.93965462
+        ,  0.93069645, 0.94020973, 0.94358232],
+         [ 0.83561828, 0.82298088, 0.81738502, 0.81748588, 0.80904801, 0.80071489
+        ,  0.83358256, 0.83451613, 0.85175032, 0.85954307, 0.86790024, 0.87170334
+        ,  0.87863799, 0.87497981, 0.87888675],
+         [ 0.98845573, 1.02092428, 0.99665283, 0.99141823, 0.99386619, 0.98733195
+        ,  0.99644997, 0.99669587, 1.02559097, 1.01116651, 0.99988024, 0.97906749
+        ,  0.99323123, 1.00204939, 0.99602148],
+         [ 1.14930913, 1.15241949, 1.14300962, 1.14265542, 1.13984683, 1.08312397
+        ,  1.05192626, 1.04230892, 1.05577278, 1.08569751, 1.12443486, 1.08891079
+        ,  1.08603695, 1.05997314, 1.02160943],
+         [ 1.11368269, 1.1057147,  1.11893431, 1.13778669, 1.1432272,  1.18257029
+        ,  1.16226243, 1.16009196, 1.14467789, 1.14820235, 1.12386598, 1.12680236
+        ,  1.12357937, 1.1159258,  1.12570828],
+         [ 1.30379431, 1.30752186, 1.31206366, 1.31532267, 1.30625667, 1.31210239
+        ,  1.29989156, 1.29203193, 1.27183516, 1.26830786, 1.2617743,  1.28656675
+        ,  1.29734097, 1.29390205, 1.29345446],
+         [ 0.83953719, 0.82701448, 0.82006005, 0.81188876, 0.80294864, 0.78772975
+        ,  0.82848011, 0.8259679,  0.82435705, 0.83108634, 0.84373784, 0.83891093
+        ,  0.84349247, 0.85637272, 0.86539395],
+         [ 1.23450087, 1.2426022,  1.23537935, 1.23581293, 1.24522626, 1.2256767
+        ,  1.21126648, 1.19377804, 1.18355337, 1.19674434, 1.21536573, 1.23653297
+        ,  1.27962009, 1.27968392, 1.25907738],
+         [ 0.9769662,  0.97400719, 0.98035944, 0.97581531, 0.95543282, 0.96480308
+        ,  0.94686376, 0.93679073, 0.92540049, 0.92988835, 0.93442917, 0.92100464
+        ,  0.91475304, 0.90249622, 0.9021363 ],
+         [ 0.84986886, 0.8986851,  0.84295997, 0.87280534, 0.85659368, 0.88937573
+        ,  0.894401, 0.90448993, 0.95495898, 0.92698333, 0.94745352, 0.92562488
+        ,  0.96635366, 1.02520312, 1.0394296 ],
+         [ 1.01922808, 1.00258203, 1.00974428, 1.00303417, 0.99765073, 1.00759019
+        ,  0.99192968, 0.99747298, 0.99550759, 0.97583768, 0.9610168,  0.94779638
+        ,  0.93759089, 0.93353431, 0.94121705],
+         [ 0.86367411, 0.85558932, 0.85544346, 0.85103025, 0.84336613, 0.83434854
+        ,  0.85813595, 0.84667961, 0.84374558, 0.85951183, 0.87194227, 0.89455097
+        ,  0.88283929, 0.90349491, 0.90600675],
+         [ 1.00947534, 1.00411055, 1.00698819, 0.99513687, 0.99291086, 1.00581626
+        ,  0.98850522, 0.99291168, 0.98983209, 0.97511924, 0.96134615, 0.96382634
+        ,  0.95011401, 0.9434686,  0.94637765],
+         [ 1.05712571, 1.05459419, 1.05753012, 1.04880786, 1.05103857, 1.04800023
+        ,  1.03024941, 1.04200483, 1.0402554,  1.03296979, 1.02191682, 1.02476275
+        ,  1.02347523, 1.02517684, 1.04359571],
+         [ 1.07084189, 1.06669497, 1.07937623, 1.07387988, 1.0794043,  1.0531801
+        ,  1.07452771, 1.09383478, 1.1052447,  1.10322136, 1.09167939, 1.08772756
+        ,  1.08859544, 1.09177338, 1.1096083 ],
+         [ 0.86719222, 0.86628896, 0.86675156, 0.86425632, 0.86511809, 0.86287327
+        ,  0.85169796, 0.85411285, 0.84886336, 0.84517414, 0.84843858, 0.84488343
+        ,  0.83374329, 0.82812044, 0.82878599],
+         [ 0.88389211, 0.92288667, 0.90282398, 0.91229186, 0.92023286, 0.92652175
+        ,  0.94278865, 0.93682452, 0.98655146, 0.992237, 0.9798497,  0.93869677
+        ,  0.96947771, 1.00362626, 0.98102351],
+         [ 0.97082064, 0.95320233, 0.94534081, 0.94215593, 0.93967,  0.93092109
+        ,  0.92662519, 0.93412152, 0.93501274, 0.92879506, 0.92110542, 0.91035556
+        ,  0.90430364, 0.89994694, 0.90073864],
+         [ 0.95861858, 0.95774543, 0.98254811, 0.98919472, 0.98684824, 0.98882205
+        ,  0.97662234, 0.95601578, 0.94905385, 0.94934888, 0.97152609, 0.97163004
+        ,  0.9700702,  0.97158948, 0.95884908],
+         [ 0.83980439, 0.84726737, 0.85747,  0.85467221, 0.8556751,  0.84818516
+        ,  0.85265681, 0.84502402, 0.82645665, 0.81743586, 0.83550406, 0.83338919
+        ,  0.83511679, 0.82136617, 0.80921874],
+         [ 0.95118156, 0.9466212,  0.94688098, 0.9508583,  0.9512441,  0.95440787
+        ,  0.96364363, 0.96804412, 0.97136214, 0.97583768, 0.95571724, 0.96895368
+        ,  0.97001634, 0.97082733, 0.98782366],
+         [ 1.08910044, 1.08248968, 1.08492895, 1.08656923, 1.09454249, 1.10558188
+        ,  1.1214086,  1.12292577, 1.13021031, 1.13342735, 1.14686068, 1.14502975
+        ,  1.14474747, 1.14084037, 1.16142926],
+         [ 1.06336033, 1.07365823, 1.08691496, 1.09764846, 1.11669863, 1.11856702
+        ,  1.09764283, 1.08815849, 1.08044313, 1.09278827, 1.07003204, 1.08398066
+        ,  1.09831768, 1.09298232, 1.09176125],
+         [ 0.79772065, 0.78829196, 0.78581151, 0.77615922, 0.77035744, 0.77751194
+        ,  0.79902974, 0.81437881, 0.80788828, 0.79603865, 0.78966436, 0.79949807
+        ,  0.80172182, 0.82168155, 0.85587911],
+         [ 1.0052447,  1.00007696, 1.00475899, 1.00613942, 1.00639561, 1.00162979
+        ,  0.99860739, 1.00814981, 1.00574316, 0.99030032, 0.97682565, 0.97292596
+        ,  0.96519561, 0.96173403, 0.95890284],
+         [ 0.95808419, 0.9382568,  0.9654441,  0.95561201, 0.96987289, 0.96608031
+        ,  0.99727185, 1.00781194, 1.03484236, 1.05333619, 1.0983263,  1.1704974
+        ,  1.17025154, 1.18730553, 1.14242645]])
+
+        self.assertTrue(np.allclose(result, expected))
+        self.assertTrue(type(result) == type(expected))
+        self.assertTrue(result.shape == expected.shape)
+
+    def test_rebin_data(self):
+        """Test rebin_data"""
+        ## sample in double the time (even case since 10 % 2 = 0):
+        ##   (0+1)/2, (2+3)/2, (4+5)/2, (6+7)/2, (8+9)/2
+        ## = 0.5,     2.5,     4.5,     6.5,     8.5
+        ans_even = np.array([(i + 0.5) * np.ones(10, dtype=float)
+                             for i in range(0, 10, 2)]).T
+
+        self.assertTrue(np.array_equal(std.rebin_data(self.time_data, 2), ans_even))
+
+        ## sample in triple the time (uneven since 10 % 3 = 1):
+        ##   (0+1+2)/3, (3+4+5)/3, (6+7+8)/3, (9)/1
+        ## = 1,         4,         7,         9
+        ans_odd  = np.array([i * np.ones(10, dtype=float)
+                             for i in (1, 4, 7, 9)]).T
+        self.assertTrue(np.array_equal(std.rebin_data(self.time_data, 3), ans_odd))
+
+    def test_get_prob_dist(self):
+        """Test get_prob_dist"""
+        lag_indices = np.array([1, 2, 3, 4])
+        unit_indices = np.array([1, 3, 2, 4])
+        answer = np.array([
+            [ 0.0754717 , 0.88207547, 0.04245283, 0.        , 0.        ],
+            [ 0.        , 0.        , 0.09411765, 0.87058824, 0.03529412],
+            [ 0.0049505 , 0.09405941, 0.77722772, 0.11881188, 0.0049505 ],
+            [ 0.        , 0.        , 0.        , 0.02352941, 0.97647059]
+        ])
+        result = std.get_prob_dist(self.transition_matrix, lag_indices, unit_indices)
+
+        self.assertTrue(np.array_equal(result, answer))
+
+    def test_get_prob_stats(self):
+        """Test get_prob_stats"""
+
+        probs = np.array([
+            [ 0.0754717 , 0.88207547, 0.04245283, 0.        , 0.        ],
+            [ 0.        , 0.        , 0.09411765, 0.87058824, 0.03529412],
+            [ 0.0049505 , 0.09405941, 0.77722772, 0.11881188, 0.0049505 ],
+            [ 0.        , 0.        , 0.        , 0.02352941, 0.97647059]
+        ])
+        unit_indices = np.array([1, 3, 2, 4])
+        answer_up = np.array([0.04245283, 0.03529412, 0.12376238, 0.])
+        answer_down = np.array([0.0754717, 0.09411765, 0.0990099, 0.02352941])
+        answer_trend = np.array([-0.03301887 / 0.88207547, -0.05882353 / 0.87058824,  0.02475248 / 0.77722772, -0.02352941 / 0.97647059])
+        answer_volatility = np.array([ 0.34221495,  0.33705421,  0.29226542,  0.38834223])
+
+        result = std.get_prob_stats(probs, unit_indices)
+        result_up = result[0]
+        result_down = result[1]
+        result_trend = result[2]
+        result_volatility = result[3]
+
+        self.assertTrue(np.allclose(result_up, answer_up))
+        self.assertTrue(np.allclose(result_down, answer_down))
+        self.assertTrue(np.allclose(result_trend, answer_trend))
+        self.assertTrue(np.allclose(result_volatility, answer_volatility))
--- a/release/python/0.3.0/crankshaft/crankshaft/init.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/init.py
@@ -0,0 +1,5 @@
+"""Import all modules"""
+import crankshaft.random_seeds
+import crankshaft.clustering
+import crankshaft.space_time_dynamics
+import crankshaft.segmentation
--- a/release/python/0.3.0/crankshaft/crankshaft/clustering/init.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/clustering/init.py
@@ -0,0 +1,3 @@
+"""Import all functions from for clustering"""
+from moran import *
+from kmeans import *
--- a/release/python/0.3.0/crankshaft/crankshaft/clustering/kmeans.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/clustering/kmeans.py
@@ -0,0 +1,18 @@
+from sklearn.cluster import KMeans
+import plpy
+
+def kmeans(query, no_clusters, no_init=20):
+    data = plpy.execute('''select array_agg(cartodb_id order by cartodb_id) as ids,
+        array_agg(ST_X(the_geom) order by cartodb_id) xs,
+        array_agg(ST_Y(the_geom) order by cartodb_id) ys from ({query}) a
+        where the_geom is not null
+    '''.format(query=query))
+
+    xs  = data[0]['xs']
+    ys  = data[0]['ys']
+    ids = data[0]['ids']
+
+    km = KMeans(n_clusters= no_clusters, n_init=no_init)
+    labels = km.fit_predict(zip(xs,ys))
+    return zip(ids,labels)
+
--- a/release/python/0.3.0/crankshaft/crankshaft/clustering/moran.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/clustering/moran.py
@@ -0,0 +1,262 @@
+"""
+Moran's I geostatistics (global clustering & outliers presence)
+"""
+
+# TODO: Fill in local neighbors which have null/NoneType values with the
+#       average of the their neighborhood
+
+import pysal as ps
+import plpy
+from collections import OrderedDict
+
+# crankshaft module
+import crankshaft.pysal_utils as pu
+
+# High level interface ---------------------------------------
+
+def moran(subquery, attr_name,
+          w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+    Moran's I (global)
+    Implementation building neighbors with a PostGIS database and Moran's I
+     core clusters with PySAL.
+    Andy Eschbacher
+    """
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", attr_name),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    plpy.notice('** Query: %s' % query)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(2)
+        plpy.notice('** Query returned with %d rows' % len(result))
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        plpy.notice('** Error: %s' % plpy.SPIError)
+        return pu.empty_zipped_array(2)
+
+    ## collect attributes
+    attr_vals = pu.get_attributes(result)
+
+    ## calculate weights
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    ## calculate moran global
+    moran_global = ps.esda.moran.Moran(attr_vals, weight,
+                                       permutations=permutations)
+
+    return zip([moran_global.I], [moran_global.EI])
+
+def moran_local(subquery, attr,
+                w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+    Moran's I implementation for PL/Python
+    Andy Eschbacher
+    """
+
+    # geometries with attributes that are null are ignored
+    # resulting in a collection of not as near neighbors
+
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", attr),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(5)
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        return pu.empty_zipped_array(5)
+
+    attr_vals = pu.get_attributes(result)
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    # calculate LISA values
+    lisa = ps.esda.moran.Moran_Local(attr_vals, weight,
+                                     permutations=permutations)
+
+    # find quadrants for each geometry
+    quads = quad_position(lisa.q)
+
+    return zip(lisa.Is, quads, lisa.p_sim, weight.id_order, lisa.y)
+
+def moran_rate(subquery, numerator, denominator,
+               w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+    Moran's I Rate (global)
+    Andy Eschbacher
+    """
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", numerator),
+                         ("attr2", denominator)
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    plpy.notice('** Query: %s' % query)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(2)
+        plpy.notice('** Query returned with %d rows' % len(result))
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        plpy.notice('** Error: %s' % plpy.SPIError)
+        return pu.empty_zipped_array(2)
+
+    ## collect attributes
+    numer = pu.get_attributes(result, 1)
+    denom = pu.get_attributes(result, 2)
+
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    ## calculate moran global rate
+    lisa_rate = ps.esda.moran.Moran_Rate(numer, denom, weight,
+                                         permutations=permutations)
+
+    return zip([lisa_rate.I], [lisa_rate.EI])
+
+def moran_local_rate(subquery, numerator, denominator,
+                     w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+        Moran's I Local Rate
+        Andy Eschbacher
+    """
+    # geometries with values that are null are ignored
+    # resulting in a collection of not as near neighbors
+
+    qvals = OrderedDict([("id_col", id_col),
+                         ("numerator", numerator),
+                         ("denominator", denominator),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(5)
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        plpy.notice('** Error: %s' % plpy.SPIError)
+        return pu.empty_zipped_array(5)
+
+    ## collect attributes
+    numer = pu.get_attributes(result, 1)
+    denom = pu.get_attributes(result, 2)
+
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    # calculate LISA values
+    lisa = ps.esda.moran.Moran_Local_Rate(numer, denom, weight,
+                                          permutations=permutations)
+
+    # find quadrants for each geometry
+    quads = quad_position(lisa.q)
+
+    return zip(lisa.Is, quads, lisa.p_sim, weight.id_order, lisa.y)
+
+def moran_local_bv(subquery, attr1, attr2,
+                   permutations, geom_col, id_col, w_type, num_ngbrs):
+    """
+        Moran's I (local) Bivariate (untested)
+    """
+    plpy.notice('** Constructing query')
+
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", attr1),
+                         ("attr2", attr2),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(4)
+    except plpy.SPIError:
+        plpy.error("Error: areas of interest query failed, " \
+                   "check input parameters")
+        plpy.notice('** Query failed: "%s"' % query)
+        return pu.empty_zipped_array(4)
+
+    ## collect attributes
+    attr1_vals = pu.get_attributes(result, 1)
+    attr2_vals = pu.get_attributes(result, 2)
+
+    # create weights
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    # calculate LISA values
+    lisa = ps.esda.moran.Moran_Local_BV(attr1_vals, attr2_vals, weight,
+                                        permutations=permutations)
+
+    plpy.notice("len of Is: %d" % len(lisa.Is))
+
+    # find clustering of significance
+    lisa_sig = quad_position(lisa.q)
+
+    plpy.notice('** Finished calculations')
+
+    return zip(lisa.Is, lisa_sig, lisa.p_sim, weight.id_order)
+
+# Low level functions ----------------------------------------
+
+def map_quads(coord):
+    """
+        Map a quadrant number to Moran's I designation
+        HH=1, LH=2, LL=3, HL=4
+        Input:
+        @param coord (int): quadrant of a specific measurement
+        Output:
+            classification (one of 'HH', 'LH', 'LL', or 'HL')
+    """
+    if coord == 1:
+        return 'HH'
+    elif coord == 2:
+        return 'LH'
+    elif coord == 3:
+        return 'LL'
+    elif coord == 4:
+        return 'HL'
+    else:
+        return None
+
+def quad_position(quads):
+    """
+        Produce Moran's I classification based of n
+        Input:
+        @param quads ndarray: an array of quads classified by
+          1-4 (PySAL default)
+        Output:
+        @param list: an array of quads classied by 'HH', 'LL', etc.
+    """
+    return [map_quads(q) for q in quads]
--- a/release/python/0.3.0/crankshaft/crankshaft/pysal_utils/init.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/pysal_utils/init.py
@@ -0,0 +1,2 @@
+"""Import all functions for pysal_utils"""
+from crankshaft.pysal_utils.pysal_utils import *
--- a/release/python/0.3.0/crankshaft/crankshaft/pysal_utils/pysal_utils.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/pysal_utils/pysal_utils.py
@@ -0,0 +1,188 @@
+"""
+    Utilities module for generic PySAL functionality, mainly centered on
+      translating queries into numpy arrays or PySAL weights objects
+"""
+
+import numpy as np
+import pysal as ps
+
+def construct_neighbor_query(w_type, query_vals):
+    """Return query (a string) used for finding neighbors
+        @param w_type text: type of neighbors to calculate ('knn' or 'queen')
+        @param query_vals dict: values used to construct the query
+    """
+
+    if w_type.lower() == 'knn':
+        return knn(query_vals)
+    else:
+        return queen(query_vals)
+
+## Build weight object
+def get_weight(query_res, w_type='knn', num_ngbrs=5):
+    """
+        Construct PySAL weight from return value of query
+        @param query_res dict-like: query results with attributes and neighbors
+    """
+    # if w_type.lower() == 'knn':
+    #     row_normed_weights = [1.0 / float(num_ngbrs)] * num_ngbrs
+    #     weights = {x['id']: row_normed_weights for x in query_res}
+    # else:
+    #     weights = {x['id']: [1.0 / len(x['neighbors'])] * len(x['neighbors'])
+    #                         if len(x['neighbors']) > 0
+    #                         else [] for x in query_res}
+
+    neighbors = {x['id']: x['neighbors'] for x in query_res}
+    print 'len of neighbors: %d' % len(neighbors)
+
+    built_weight = ps.W(neighbors)
+    built_weight.transform = 'r'
+
+    return built_weight
+
+def query_attr_select(params):
+    """
+        Create portion of SELECT statement for attributes inolved in query.
+        @param params: dict of information used in query (column names,
+                       table name, etc.)
+    """
+
+    attr_string = ""
+    template = "i.\"%(col)s\"::numeric As attr%(alias_num)s, "
+
+    if 'time_cols' in params:
+        ## if markov analysis
+        attrs = params['time_cols']
+
+        for idx, val in enumerate(attrs):
+            attr_string += template % {"col": val, "alias_num": idx + 1}
+    else:
+        ## if moran's analysis
+        attrs = [k for k in params
+                 if k not in ('id_col', 'geom_col', 'subquery', 'num_ngbrs', 'subquery')]
+
+        for idx, val in enumerate(sorted(attrs)):
+            attr_string += template % {"col": params[val], "alias_num": idx + 1}
+
+    return attr_string
+
+def query_attr_where(params):
+    """
+      Construct where conditions when building neighbors query
+        Create portion of WHERE clauses for weeding out NULL-valued geometries
+        Input: dict of params:
+            {'subquery': ...,
+             'numerator': 'data1',
+             'denominator': 'data2',
+             '': ...}
+        Output: 'idx_replace."data1" IS NOT NULL AND idx_replace."data2" IS NOT NULL'
+        Input:
+        {'subquery': ...,
+         'time_cols': ['time1', 'time2', 'time3'],
+         'etc': ...}
+        Output: 'idx_replace."time1" IS NOT NULL AND idx_replace."time2" IS NOT
+          NULL AND idx_replace."time3" IS NOT NULL'
+    """
+    attr_string = []
+    template = "idx_replace.\"%s\" IS NOT NULL"
+
+    if 'time_cols' in params:
+        ## markov where clauses
+        attrs = params['time_cols']
+        # add values to template
+        for attr in attrs:
+            attr_string.append(template % attr)
+    else:
+        ## moran where clauses
+
+        # get keys
+        attrs = sorted([k for k in params
+                        if k not in ('id_col', 'geom_col', 'subquery', 'num_ngbrs', 'subquery')])
+        # add values to template
+        for attr in attrs:
+            attr_string.append(template % params[attr])
+
+        if len(attrs) == 2:
+            attr_string.append("idx_replace.\"%s\" <> 0" % params[attrs[1]])
+
+    out = " AND ".join(attr_string)
+
+    return out
+
+def knn(params):
+    """SQL query for k-nearest neighbors.
+        @param vars: dict of values to fill template
+    """
+
+    attr_select = query_attr_select(params)
+    attr_where = query_attr_where(params)
+
+    replacements = {"attr_select": attr_select,
+                    "attr_where_i": attr_where.replace("idx_replace", "i"),
+                    "attr_where_j": attr_where.replace("idx_replace", "j")}
+
+    query = "SELECT " \
+                "i.\"{id_col}\" As id, " \
+                "%(attr_select)s" \
+                "(SELECT ARRAY(SELECT j.\"{id_col}\" " \
+                              "FROM ({subquery}) As j " \
+                              "WHERE " \
+                                "i.\"{id_col}\" <> j.\"{id_col}\" AND " \
+                                "%(attr_where_j)s " \
+                              "ORDER BY " \
+                                "j.\"{geom_col}\" <-> i.\"{geom_col}\" ASC " \
+                              "LIMIT {num_ngbrs})" \
+                ") As neighbors " \
+            "FROM ({subquery}) As i " \
+            "WHERE " \
+                "%(attr_where_i)s " \
+            "ORDER BY i.\"{id_col}\" ASC;" % replacements
+
+    return query.format(**params)
+
+## SQL query for finding queens neighbors (all contiguous polygons)
+def queen(params):
+    """SQL query for queen neighbors.
+        @param params dict: information to fill query
+    """
+    attr_select = query_attr_select(params)
+    attr_where = query_attr_where(params)
+
+    replacements = {"attr_select": attr_select,
+                    "attr_where_i": attr_where.replace("idx_replace", "i"),
+                    "attr_where_j": attr_where.replace("idx_replace", "j")}
+
+    query = "SELECT " \
+                "i.\"{id_col}\" As id, " \
+                "%(attr_select)s" \
+                "(SELECT ARRAY(SELECT j.\"{id_col}\" " \
+                 "FROM ({subquery}) As j " \
+                 "WHERE i.\"{id_col}\" <> j.\"{id_col}\" AND " \
+                       "ST_Touches(i.\"{geom_col}\", j.\"{geom_col}\") AND " \
+                       "%(attr_where_j)s)" \
+                ") As neighbors " \
+            "FROM ({subquery}) As i " \
+            "WHERE " \
+                "%(attr_where_i)s " \
+            "ORDER BY i.\"{id_col}\" ASC;" % replacements
+
+    return query.format(**params)
+
+## to add more weight methods open a ticket or pull request
+
+def get_attributes(query_res, attr_num=1):
+    """
+        @param query_res: query results with attributes and neighbors
+        @param attr_num: attribute number (1, 2, ...)
+    """
+    return np.array([x['attr' + str(attr_num)] for x in query_res], dtype=np.float)
+
+def empty_zipped_array(num_nones):
+    """
+        prepare return values for cases of empty weights objects (no neighbors)
+        Input:
+        @param num_nones int: number of columns (e.g., 4)
+        Output:
+        [(None, None, None, None)]
+    """
+
+    return [tuple([None] * num_nones)]
--- a/release/python/0.3.0/crankshaft/crankshaft/random_seeds.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/random_seeds.py
@@ -0,0 +1,11 @@
+"""Random seed generator used for non-deterministic functions in crankshaft"""
+import random
+import numpy
+
+def set_random_seeds(value):
+    """
+    Set the seeds of the RNGs (Random Number Generators)
+    used internally.
+    """
+    random.seed(value)
+    numpy.random.seed(value)
--- a/release/python/0.3.0/crankshaft/crankshaft/segmentation/init.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/segmentation/init.py
@@ -0,0 +1 @@
+from segmentation import * 
--- a/release/python/0.3.0/crankshaft/crankshaft/segmentation/segmentation.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/segmentation/segmentation.py
@@ -0,0 +1,176 @@
+"""
+Segmentation creation and prediction
+"""
+
+import sklearn
+import numpy as np
+import plpy
+from sklearn.ensemble import GradientBoostingRegressor
+from sklearn import metrics
+from sklearn.cross_validation import train_test_split
+
+# Lower level functions
+#----------------------
+
+def replace_nan_with_mean(array):
+    """
+        Input:
+            @param array: an array of floats which may have null-valued entries
+        Output:
+            array with nans filled in with the mean of the dataset
+    """
+    # returns an array of rows and column indices
+    indices = np.where(np.isnan(array))
+
+    # iterate through entries which have nan values
+    for row, col in zip(*indices):
+            array[row, col] = np.mean(array[~np.isnan(array[:, col]), col])
+
+    return array
+
+def get_data(variable, feature_columns, query):
+    """
+        Fetch data from the database, clean, and package into
+          numpy arrays
+        Input:
+            @param variable: name of the target variable
+            @param feature_columns: list of column names
+            @param query: subquery that data is pulled from for the packaging
+        Output:
+            prepared data, packaged into NumPy arrays
+    """
+
+    columns = ','.join(['array_agg("{col}") As "{col}"'.format(col=col) for col in feature_columns])
+
+    try:
+        data = plpy.execute('''SELECT array_agg("{variable}") As target, {columns} FROM ({query}) As a'''.format(
+            variable=variable,
+            columns=columns,
+            query=query))
+    except Exception, e:
+        plpy.error('Failed to access data to build segmentation model: %s' % e)
+
+    # extract target data from plpy object
+    target = np.array(data[0]['target'])
+
+    # put n feature data arrays into an n x m array of arrays
+    features = np.column_stack([np.array(data[0][col], dtype=float) for col in feature_columns])
+
+    return replace_nan_with_mean(target), replace_nan_with_mean(features)
+
+# High level interface
+# --------------------
+
+def create_and_predict_segment_agg(target, features, target_features, target_ids, model_parameters):
+    """
+    Version of create_and_predict_segment that works on arrays that come stright form the SQL calling
+    the function.
+
+        Input:
+            @param target: The 1D array of lenth NSamples containing the target variable we want the model to predict
+            @param features: Thw 2D array of size NSamples * NFeatures that form the imput to the model
+            @param target_ids: A 1D array of target_ids that will be used to associate the results of the prediction with the rows which they come from
+            @param model_parameters: A dictionary containing parameters for the model.
+    """
+
+    clean_target = replace_nan_with_mean(target)
+    clean_features = replace_nan_with_mean(features)
+    target_features = replace_nan_with_mean(target_features)
+
+    model, accuracy = train_model(clean_target, clean_features, model_parameters, 0.2)
+    prediction = model.predict(target_features)
+    accuracy_array = [accuracy]*prediction.shape[0]
+    return zip(target_ids, prediction, np.full(prediction.shape, accuracy_array))
+
+
+
+def create_and_predict_segment(query, variable, target_query, model_params):
+    """
+    generate a segment with machine learning
+    Stuart Lynn
+    """
+
+    ## fetch column names
+    try:
+        columns = plpy.execute('SELECT * FROM ({query}) As a LIMIT 1  '.format(query=query))[0].keys()
+    except Exception, e:
+        plpy.error('Failed to build segmentation model: %s' % e)
+
+    ## extract column names to be used in building the segmentation model
+    feature_columns = set(columns) - set([variable, 'cartodb_id', 'the_geom', 'the_geom_webmercator'])
+    ## get data from database
+    target, features = get_data(variable, feature_columns, query)
+
+    model, accuracy = train_model(target, features, model_params, 0.2)
+    cartodb_ids, result = predict_segment(model, feature_columns, target_query)
+    accuracy_array = [accuracy]*result.shape[0]
+    return zip(cartodb_ids, result, accuracy_array)
+
+
+def train_model(target, features, model_params, test_split):
+    """
+        Train the Gradient Boosting model on the provided data and calculate the accuracy of the model
+        Input:
+            @param target: 1D Array of the variable that the model is to be trianed to predict
+            @param features: 2D Array NSamples * NFeatures to use in trining the model
+            @param model_params: A dictionary of model parameters, the full specification can be found on the
+                scikit learn page for [GradientBoostingRegressor](http://scikit-learn.org/stable/modules/generated/sklearn.ensemble.GradientBoostingRegressor.html)
+            @parma test_split: The fraction of the data to be withheld for testing the model / calculating the accuray
+    """
+    features_train, features_test, target_train, target_test = train_test_split(features, target, test_size=test_split)
+    model = GradientBoostingRegressor(**model_params)
+    model.fit(features_train, target_train)
+    accuracy = calculate_model_accuracy(model, features, target)
+    return model, accuracy
+
+def calculate_model_accuracy(model, features, target):
+    """
+        Calculate the mean squared error of the model prediction
+        Input:
+            @param model: model trained from input features
+            @param features: features to make a prediction from
+            @param target: target to compare prediction to
+        Output:
+            mean squared error of the model prection compared to the target
+    """
+    prediction = model.predict(features)
+    return metrics.mean_squared_error(prediction, target)
+
+def predict_segment(model, features, target_query):
+    """
+    Use the provided model to predict the values for the new feature set
+        Input:
+            @param model: The pretrained model
+            @features: A list of features to use in the model prediction (list of column names)
+            @target_query: The query to run to obtain the data to predict on and the cartdb_ids associated with it.
+    """
+
+    batch_size = 1000
+    joined_features = ','.join(['"{0}"::numeric'.format(a) for a in features])
+
+    try:
+        cursor = plpy.cursor('SELECT Array[{joined_features}] As features FROM ({target_query}) As a'.format(
+            joined_features=joined_features,
+            target_query=target_query))
+    except Exception, e:
+        plpy.error('Failed to build segmentation model: %s' % e)
+
+    results = []
+
+    while True:
+        rows = cursor.fetch(batch_size)
+        if not rows:
+            break
+        batch = np.row_stack([np.array(row['features'], dtype=float) for row in rows])
+
+        #Need to fix this. Should be global mean. This will cause weird effects
+        batch = replace_nan_with_mean(batch)
+        prediction = model.predict(batch)
+        results.append(prediction)
+
+    try:
+        cartodb_ids = plpy.execute('''SELECT array_agg(cartodb_id ORDER BY cartodb_id) As cartodb_ids FROM ({0}) As a'''.format(target_query))[0]['cartodb_ids']
+    except Exception, e:
+        plpy.error('Failed to build segmentation model: %s' % e)
+
+    return cartodb_ids, np.concatenate(results)
--- a/release/python/0.3.0/crankshaft/crankshaft/space_time_dynamics/init.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/space_time_dynamics/init.py
@@ -0,0 +1,2 @@
+"""Import all functions from clustering libraries."""
+from markov import *
--- a/release/python/0.3.0/crankshaft/crankshaft/space_time_dynamics/markov.py
+++ b/release/python/0.3.0/crankshaft/crankshaft/space_time_dynamics/markov.py
@@ -0,0 +1,189 @@
+"""
+Spatial dynamics measurements using Spatial Markov
+"""
+
+
+import numpy as np
+import pysal as ps
+import plpy
+import crankshaft.pysal_utils as pu
+
+def spatial_markov_trend(subquery, time_cols, num_classes=7,
+                         w_type='knn', num_ngbrs=5, permutations=0,
+                         geom_col='the_geom', id_col='cartodb_id'):
+    """
+        Predict the trends of a unit based on:
+        1. history of its transitions to different classes (e.g., 1st quantile -> 2nd quantile)
+        2. average class of its neighbors
+
+        Inputs:
+        @param subquery string: e.g., SELECT the_geom, cartodb_id,
+          interesting_time_column FROM table_name
+        @param time_cols list of strings: list of strings of column names
+        @param num_classes (optional): number of classes to break distribution
+          of values into. Currently uses quantile bins.
+        @param w_type string (optional): weight type ('knn' or 'queen')
+        @param num_ngbrs int (optional): number of neighbors (if knn type)
+        @param permutations int (optional): number of permutations for test
+          stats
+        @param geom_col string (optional): name of column which contains the
+          geometries
+        @param id_col string (optional): name of column which has the ids of
+          the table
+
+        Outputs:
+        @param trend_up float: probablity that a geom will move to a higher
+          class
+        @param trend_down float: probablity that a geom will move to a lower
+          class
+        @param trend float: (trend_up - trend_down) / trend_static
+        @param volatility float: a measure of the volatility based on
+          probability stddev(prob array)
+    """
+
+    if len(time_cols) < 2:
+        plpy.error('More than one time column needs to be passed')
+
+    qvals = {"id_col": id_col,
+             "time_cols": time_cols,
+             "geom_col": geom_col,
+             "subquery": subquery,
+             "num_ngbrs": num_ngbrs}
+
+    try:
+        query_result = plpy.execute(
+            pu.construct_neighbor_query(w_type, qvals)
+        )
+        if len(query_result) == 0:
+            return zip([None], [None], [None], [None], [None])
+    except plpy.SPIError, err:
+        plpy.debug('Query failed with exception %s: %s' % (err, pu.construct_neighbor_query(w_type, qvals)))
+        plpy.error('Query failed, check the input parameters')
+        return zip([None], [None], [None], [None], [None])
+
+    ## build weight
+    weights = pu.get_weight(query_result, w_type)
+    weights.transform = 'r'
+
+    ## prep time data
+    t_data = get_time_data(query_result, time_cols)
+
+    plpy.debug('shape of t_data %d, %d' % t_data.shape)
+    plpy.debug('number of weight objects: %d, %d' % (weights.sparse).shape)
+    plpy.debug('first num elements: %f' % t_data[0, 0])
+
+    sp_markov_result = ps.Spatial_Markov(t_data,
+                                         weights,
+                                         k=num_classes,
+                                         fixed=False,
+                                         permutations=permutations)
+
+    ## get lag classes
+    lag_classes = ps.Quantiles(
+        ps.lag_spatial(weights, t_data[:, -1]),
+        k=num_classes).yb
+
+    ## look up probablity distribution for each unit according to class and lag class
+    prob_dist = get_prob_dist(sp_markov_result.P,
+                              lag_classes,
+                              sp_markov_result.classes[:, -1])
+
+    ## find the ups and down and overall distribution of each cell
+    trend_up, trend_down, trend, volatility = get_prob_stats(prob_dist,
+                                                             sp_markov_result.classes[:, -1])
+
+    ## output the results
+    return zip(trend, trend_up, trend_down, volatility, weights.id_order)
+
+def get_time_data(markov_data, time_cols):
+    """
+        Extract the time columns and bin appropriately
+    """
+    num_attrs = len(time_cols)
+    return np.array([[x['attr' + str(i)] for x in markov_data]
+                     for i in range(1, num_attrs+1)], dtype=float).transpose()
+
+## not currently used
+def rebin_data(time_data, num_time_per_bin):
+    """
+        Convert an n x l matrix into an (n/m) x l matrix where the values are
+         reduced (averaged) for the intervening states:
+          1 2 3 4    1.5 3.5
+          5 6 7 8 -> 5.5 7.5
+          9 8 7 6    8.5 6.5
+          5 4 3 2    4.5 2.5
+
+          if m = 2, the 4 x 4 matrix is transformed to a 2 x 4 matrix.
+
+        This process effectively resamples the data at a longer time span n
+         units longer than the input data.
+        For cases when there is a remainder (remainder(5/3) = 2), the remaining
+         two columns are binned together as the last time period, while the
+         first three are binned together for the first period.
+
+        Input:
+          @param time_data n x l  ndarray: measurements of an attribute at
+           different time intervals
+          @param num_time_per_bin int: number of columns to average into a new
+           column
+        Output:
+          ceil(n / m) x l ndarray of resampled time series
+    """
+
+    if time_data.shape[1] % num_time_per_bin == 0:
+        ## if fit is perfect, then use it
+        n_max = time_data.shape[1] / num_time_per_bin
+    else:
+        ## fit remainders into an additional column
+        n_max = time_data.shape[1] / num_time_per_bin + 1
+
+    return np.array([time_data[:, num_time_per_bin * i:num_time_per_bin * (i+1)].mean(axis=1)
+                     for i in range(n_max)]).T
+
+def get_prob_dist(transition_matrix, lag_indices, unit_indices):
+    """
+        Given an array of transition matrices, look up the probability
+        associated with the arrangements passed
+
+        Input:
+        @param transition_matrix ndarray[k,k,k]:
+        @param lag_indices ndarray:
+        @param unit_indices ndarray:
+
+        Output:
+        Array of probability distributions
+    """
+
+    return np.array([transition_matrix[(lag_indices[i], unit_indices[i])]
+                     for i in range(len(lag_indices))])
+
+def get_prob_stats(prob_dist, unit_indices):
+    """
+        get the statistics of the probability distributions
+
+        Outputs:
+            @param trend_up ndarray(float): sum of probabilities for upward
+               movement (relative to the unit index of that prob)
+            @param trend_down ndarray(float): sum of probabilities for downward
+               movement (relative to the unit index of that prob)
+            @param trend ndarray(float): difference of upward and downward
+               movements
+    """
+
+    num_elements = len(unit_indices)
+    trend_up = np.empty(num_elements, dtype=float)
+    trend_down = np.empty(num_elements, dtype=float)
+    trend = np.empty(num_elements, dtype=float)
+
+    for i in range(num_elements):
+        trend_up[i] = prob_dist[i, (unit_indices[i]+1):].sum()
+        trend_down[i] = prob_dist[i, :unit_indices[i]].sum()
+        if prob_dist[i, unit_indices[i]] > 0.0:
+            trend[i] = (trend_up[i] - trend_down[i]) / prob_dist[i, unit_indices[i]]
+        else:
+            trend[i] = None
+
+    ## calculate volatility of distribution
+    volatility = prob_dist.std(axis=1)
+
+    return trend_up, trend_down, trend, volatility
--- a/release/python/0.3.0/crankshaft/setup.py
+++ b/release/python/0.3.0/crankshaft/setup.py
@@ -0,0 +1,49 @@
+
+"""
+CartoDB Spatial Analysis Python Library
+See:
+https://github.com/CartoDB/crankshaft
+"""
+
+from setuptools import setup, find_packages
+
+setup(
+    name='crankshaft',
+
+    version='0.3.0',
+
+    description='CartoDB Spatial Analysis Python Library',
+
+    url='https://github.com/CartoDB/crankshaft',
+
+    author='Data Services Team - CartoDB',
+    author_email='dataservices@cartodb.com',
+
+    license='MIT',
+
+    classifiers=[
+        'Development Status :: 3 - Alpha',
+        'Intended Audience :: Mapping comunity',
+        'Topic :: Maps :: Mapping Tools',
+        'License :: OSI Approved :: MIT License',
+        'Programming Language :: Python :: 2.7',
+    ],
+
+    keywords='maps mapping tools spatial analysis geostatistics',
+
+    packages=find_packages(exclude=['contrib', 'docs', 'tests']),
+
+    extras_require={
+        'dev': ['unittest'],
+        'test': ['unittest', 'nose', 'mock'],
+    },
+
+    # The choice of component versions is dictated by what's
+    # provisioned in the production servers.
+    # IMPORTANT NOTE: please don't change this line. Instead issue a ticket to systems for evaluation.
+    install_requires=['joblib==0.8.3', 'numpy==1.6.1', 'scipy==0.14.0', 'pysal==1.11.2', 'scikit-learn==0.14.1'],
+
+    requires=['pysal', 'numpy', 'sklearn'],
+
+    test_suite='test'
+)
--- a/release/python/0.3.0/crankshaft/test/fixtures/kmeans.json
+++ b/release/python/0.3.0/crankshaft/test/fixtures/kmeans.json
@@ -0,0 +1 @@
+[{"xs": [9.917239463463458, 9.042767302696836, 10.798929825304187, 8.763751051762995, 11.383882954810852, 11.018206993460897, 8.939526075734316, 9.636159342565252, 10.136336896960058, 11.480610059427342, 12.115011910725082, 9.173267848893428, 10.239300931201738, 8.00012512174072, 8.979962292282131, 9.318376124429575, 10.82259513754284, 10.391747171927115, 10.04904588886165, 9.96007160443463, -0.78825626804569, -0.3511819898577426, -1.2796410003764271, -0.3977049391203402, 2.4792311265774667, 1.3670311632092624, 1.2963504112955613, 2.0404844103073025, -1.6439708506073223, 0.39122885445645805, 1.026031821452462, -0.04044477160482201, -0.7442346929085072, -0.34687120826243034, -0.23420359971379054, -0.5919629143336708, -0.202903054395391, -0.1893399644841902, 1.9331834251176807, -0.12321054392851609], "ys": [8.735627063679981, 9.857615954045011, 10.81439096759407, 10.586727233537191, 9.232919976568622, 11.54281262696508, 8.392787912674466, 9.355119689665944, 9.22380703532752, 10.542142541823122, 10.111980619367035, 10.760836265570738, 8.819773453269804, 10.25325722424816, 9.802077905695608, 8.955420161552611, 9.833801181904477, 10.491684241001613, 12.076108669877556, 11.74289693140474, -0.5685725015474191, -0.5715728344759778, -0.20180907868635137, 0.38431336480089595, -0.3402202083684184, -2.4652736827783586, 0.08295159401756182, 0.8503818775816505, 0.6488691600321166, 0.5794762568230527, -0.6770063922144103, -0.6557616416449478, -1.2834289177624947, 0.1096318195532717, -0.38986922166834853, -1.6224497706950238, 0.09429787743230483, 0.4005097316394031, -0.508002811195673, -1.2473463371366507], "ids": [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39]}]
--- a/release/python/0.3.0/crankshaft/test/fixtures/markov.json
+++ b/release/python/0.3.0/crankshaft/test/fixtures/markov.json
@@ -0,0 +1 @@
+[[0.11111111111111112, 0.10000000000000001, 0.0, 0.35213633723318016, 0], [0.03125, 0.030303030303030304, 0.0, 0.3850273981640871, 1], [0.03125, 0.030303030303030304, 0.0, 0.3850273981640871, 2], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 3], [0.0, 0.065217391304347824, 0.065217391304347824, 0.33605067580764519, 4], [-0.054054054054054057, 0.0, 0.05128205128205128, 0.37488547451276033, 5], [0.1875, 0.23999999999999999, 0.12, 0.23731835158706122, 6], [0.034482758620689655, 0.0625, 0.03125, 0.35388469167230169, 7], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 8], [0.19047619047619049, 0.16, 0.0, 0.32594478059941379, 9], [-0.23529411764705882, 0.0, 0.19047619047619047, 0.31356338348865387, 10], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 11], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 12], [0.027777777777777783, 0.11111111111111112, 0.088888888888888892, 0.30339641183779581, 13], [0.03125, 0.030303030303030304, 0.0, 0.3850273981640871, 14], [0.052631578947368425, 0.090909090909090912, 0.045454545454545456, 0.33352611505171165, 15], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 16], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 17], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 18], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 19], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 20], [0.078947368421052641, 0.073170731707317083, 0.0, 0.36451788667842738, 21], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 22], [-0.16666666666666663, 0.18181818181818182, 0.27272727272727271, 0.20246415864836445, 23], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 24], [0.1875, 0.23999999999999999, 0.12, 0.23731835158706122, 25], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 26], [-0.043478260869565216, 0.0, 0.041666666666666664, 0.37950991789118999, 27], [0.22222222222222221, 0.18181818181818182, 0.0, 0.31701083225750354, 28], [-0.054054054054054057, 0.0, 0.05128205128205128, 0.37488547451276033, 29], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 30], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 31], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 32], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 33], [0.034482758620689655, 0.0625, 0.03125, 0.35388469167230169, 34], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 35], [-0.054054054054054057, 0.0, 0.05128205128205128, 0.37488547451276033, 36], [0.11111111111111112, 0.10000000000000001, 0.0, 0.35213633723318016, 37], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 38], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 39], [0.034482758620689655, 0.0625, 0.03125, 0.35388469167230169, 40], [0.11111111111111112, 0.10000000000000001, 0.0, 0.35213633723318016, 41], [0.052631578947368425, 0.090909090909090912, 0.045454545454545456, 0.33352611505171165, 42], [0.0, 0.0, 0.0, 0.40000000000000002, 43], [0.0, 0.065217391304347824, 0.065217391304347824, 0.33605067580764519, 44], [0.078947368421052641, 0.073170731707317083, 0.0, 0.36451788667842738, 45], [0.052631578947368425, 0.090909090909090912, 0.045454545454545456, 0.33352611505171165, 46], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 47]]
--- a/release/python/0.3.0/crankshaft/test/fixtures/moran.json
+++ b/release/python/0.3.0/crankshaft/test/fixtures/moran.json
@@ -0,0 +1,52 @@
+[[0.9319096128346788, "HH"],
+[-1.135787401862846, "HL"],
+[0.11732030672508517, "LL"],
+[0.6152779669180425, "LL"],
+[-0.14657336660125297, "LH"],
+[0.6967858120189607, "LL"],
+[0.07949310115714454, "HH"],
+[0.4703198759258987, "HH"],
+[0.4421125200498064, "HH"],
+[0.5724288737143592, "LL"],
+[0.8970743435692062, "LL"],
+[0.18327334401918674, "LL"],
+[-0.01466729201304962, "HL"],
+[0.3481559372544409, "LL"],
+[0.06547094736902978, "LL"],
+[0.15482141569329988, "HH"],
+[0.4373841193538136, "HH"],
+[0.15971286468915544, "LL"],
+[1.0543588860308968, "HH"],
+[1.7372866900020818, "HH"],
+[1.091998586053999, "LL"],
+[0.1171572584252222, "HH"],
+[0.08438455015300014, "LL"],
+[0.06547094736902978, "LL"],
+[0.15482141569329985, "HH"],
+[1.1627044812890683, "HH"],
+[0.06547094736902978, "LL"],
+[0.795275137550483, "HH"],
+[0.18562939195219, "LL"],
+[0.3010757406693439, "LL"],
+[2.8205795942839376, "HH"],
+[0.11259190602909264, "LL"],
+[-0.07116352791516614, "HL"],
+[-0.09945240794119009, "LH"],
+[0.18562939195219, "LL"],
+[0.1832733440191868, "LL"],
+[-0.39054253768447705, "HL"],
+[-0.1672071289487642, "HL"],
+[0.3337669247916343, "HH"],
+[0.2584386102554792, "HH"],
+[-0.19733845476322634, "HL"],
+[-0.9379282899805409, "LH"],
+[-0.028770969951095866, "LH"],
+[0.051367269430983485, "LL"],
+[-0.2172548045913472, "LH"],
+[0.05136726943098351, "LL"],
+[0.04191046803899837, "LL"],
+[0.7482357030403517, "HH"],
+[-0.014585767863118111, "LH"],
+[0.5410013139159929, "HH"],
+[1.0223932668429925, "LL"],
+[1.4179402898927476, "LL"]]
--- a/release/python/0.3.0/crankshaft/test/fixtures/neighbors.json
+++ b/release/python/0.3.0/crankshaft/test/fixtures/neighbors.json
@@ -0,0 +1,54 @@
+[
+    {"neighbors": [48, 26, 20, 9, 31], "id": 1, "value": 0.5},
+    {"neighbors": [30, 16, 46, 3, 4], "id": 2, "value": 0.7},
+    {"neighbors": [46, 30, 2, 12, 16], "id": 3, "value": 0.2},
+    {"neighbors": [18, 30, 23, 2, 52], "id": 4, "value": 0.1},
+    {"neighbors": [47, 40, 45, 37, 28], "id": 5, "value": 0.3},
+    {"neighbors": [10, 21, 41, 14, 37], "id": 6, "value": 0.05},
+    {"neighbors": [8, 17, 43, 25, 12], "id": 7, "value": 0.4},
+    {"neighbors": [17, 25, 43, 22, 7], "id": 8, "value": 0.7},
+    {"neighbors": [39, 34, 1, 26, 48], "id": 9, "value": 0.5},
+    {"neighbors": [6, 37, 5, 45, 49], "id": 10, "value": 0.04},
+    {"neighbors": [51, 41, 29, 21, 14], "id": 11, "value": 0.08},
+    {"neighbors": [44, 46, 43, 50, 3], "id": 12, "value": 0.2},
+    {"neighbors": [45, 23, 14, 28, 18], "id": 13, "value": 0.4},
+    {"neighbors": [41, 29, 13, 23, 6], "id": 14, "value": 0.2},
+    {"neighbors": [36, 27, 32, 33, 24], "id": 15, "value": 0.3},
+    {"neighbors": [19, 2, 46, 44, 28], "id": 16, "value": 0.4},
+    {"neighbors": [8, 25, 43, 7, 22], "id": 17, "value": 0.6},
+    {"neighbors": [23, 4, 29, 14, 13], "id": 18, "value": 0.3},
+    {"neighbors": [42, 16, 28, 26, 40], "id": 19, "value": 0.7},
+    {"neighbors": [1, 48, 31, 26, 42], "id": 20, "value": 0.8},
+    {"neighbors": [41, 6, 11, 14, 10], "id": 21, "value": 0.1},
+    {"neighbors": [25, 50, 43, 31, 44], "id": 22, "value": 0.4},
+    {"neighbors": [18, 13, 14, 4, 2], "id": 23, "value": 0.1},
+    {"neighbors": [33, 49, 34, 47, 27], "id": 24, "value": 0.3},
+    {"neighbors": [43, 8, 22, 17, 50], "id": 25, "value": 0.4},
+    {"neighbors": [1, 42, 20, 31, 48], "id": 26, "value": 0.6},
+    {"neighbors": [32, 15, 36, 33, 24], "id": 27, "value": 0.3},
+    {"neighbors": [40, 45, 19, 5, 13], "id": 28, "value": 0.8},
+    {"neighbors": [11, 51, 41, 14, 18], "id": 29, "value": 0.3},
+    {"neighbors": [2, 3, 4, 46, 18], "id": 30, "value": 0.1},
+    {"neighbors": [20, 26, 1, 50, 48], "id": 31, "value": 0.9},
+    {"neighbors": [27, 36, 15, 49, 24], "id": 32, "value": 0.3},
+    {"neighbors": [24, 27, 49, 34, 32], "id": 33, "value": 0.4},
+    {"neighbors": [47, 9, 39, 40, 24], "id": 34, "value": 0.3},
+    {"neighbors": [38, 51, 11, 21, 41], "id": 35, "value": 0.3},
+    {"neighbors": [15, 32, 27, 49, 33], "id": 36, "value": 0.2},
+    {"neighbors": [49, 10, 5, 47, 24], "id": 37, "value": 0.5},
+    {"neighbors": [35, 21, 51, 11, 41], "id": 38, "value": 0.4},
+    {"neighbors": [9, 34, 48, 1, 47], "id": 39, "value": 0.6},
+    {"neighbors": [28, 47, 5, 9, 34], "id": 40, "value": 0.5},
+    {"neighbors": [11, 14, 29, 21, 6], "id": 41, "value": 0.4},
+    {"neighbors": [26, 19, 1, 9, 31], "id": 42, "value": 0.2},
+    {"neighbors": [25, 12, 8, 22, 44], "id": 43, "value": 0.3},
+    {"neighbors": [12, 50, 46, 16, 43], "id": 44, "value": 0.2},
+    {"neighbors": [28, 13, 5, 40, 19], "id": 45, "value": 0.3},
+    {"neighbors": [3, 12, 44, 2, 16], "id": 46, "value": 0.2},
+    {"neighbors": [34, 40, 5, 49, 24], "id": 47, "value": 0.3},
+    {"neighbors": [1, 20, 26, 9, 39], "id": 48, "value": 0.5},
+    {"neighbors": [24, 37, 47, 5, 33], "id": 49, "value": 0.2},
+    {"neighbors": [44, 22, 31, 42, 26], "id": 50, "value": 0.6},
+    {"neighbors": [11, 29, 41, 14, 21], "id": 51, "value": 0.01},
+    {"neighbors": [4, 18, 29, 51, 23], "id": 52, "value": 0.01}
+  ]
--- a/release/python/0.3.0/crankshaft/test/fixtures/neighbors_markov.json
+++ b/release/python/0.3.0/crankshaft/test/fixtures/neighbors_markov.json
--- a/release/python/0.3.0/crankshaft/test/helper.py
+++ b/release/python/0.3.0/crankshaft/test/helper.py
@@ -0,0 +1,13 @@
+import unittest
+
+from mock_plpy import MockPlPy
+plpy = MockPlPy()
+
+import sys
+sys.modules['plpy'] = plpy
+
+import os
+
+def fixture_file(name):
+    dir = os.path.dirname(os.path.realpath(__file__))
+    return os.path.join(dir, 'fixtures', name)
--- a/release/python/0.3.0/crankshaft/test/mock_plpy.py
+++ b/release/python/0.3.0/crankshaft/test/mock_plpy.py
@@ -0,0 +1,52 @@
+import re
+
+class MockCursor:
+    def __init__(self, data):
+        self.cursor_pos = 0
+        self.data = data
+
+    def fetch(self, batch_size):
+        batch = self.data[self.cursor_pos : self.cursor_pos + batch_size]
+        self.cursor_pos += batch_size
+        return batch
+
+
+class MockPlPy:
+    def __init__(self):
+        self._reset()
+
+    def _reset(self):
+        self.infos = []
+        self.notices = []
+        self.debugs = []
+        self.logs = []
+        self.warnings = []
+        self.errors = []
+        self.fatals = []
+        self.executes = []
+        self.results = []
+        self.prepares = []
+        self.results = []
+
+    def _define_result(self, query, result):
+        pattern = re.compile(query, re.IGNORECASE | re.MULTILINE)
+        self.results.append([pattern, result])
+
+    def notice(self, msg):
+        self.notices.append(msg)
+
+    def debug(self, msg):
+        self.notices.append(msg)
+
+    def info(self, msg):
+        self.infos.append(msg)
+
+    def cursor(self, query):
+        data = self.execute(query)
+        return MockCursor(data)
+
+    def execute(self, query): # TODO: additional arguments
+       for result in self.results:
+          if result[0].match(query):
+            return result[1]
+       return []
--- a/release/python/0.3.0/crankshaft/test/test_cluster_kmeans.py
+++ b/release/python/0.3.0/crankshaft/test/test_cluster_kmeans.py
@@ -0,0 +1,38 @@
+import unittest
+import numpy as np
+
+
+# from mock_plpy import MockPlPy
+# plpy = MockPlPy()
+#
+# import sys
+# sys.modules['plpy'] = plpy
+from helper import plpy, fixture_file
+import numpy as np
+import crankshaft.clustering as cc
+import crankshaft.pysal_utils as pu
+from crankshaft import random_seeds
+import json
+
+class KMeansTest(unittest.TestCase):
+    """Testing class for Moran's I functions"""
+
+    def setUp(self):
+        plpy._reset()
+        self.cluster_data = json.loads(open(fixture_file('kmeans.json')).read())
+        self.params = {"subquery": "select * from table",
+                       "no_clusters": "10"
+                       }
+
+    def test_kmeans(self):
+        data = self.cluster_data
+        plpy._define_result('select' ,data)
+        clusters = cc.kmeans('subquery', 2)
+        labels  = [a[1] for a in clusters]
+        c1 = [a for a in clusters if a[1]==0]
+        c2 = [a for a in clusters if a[1]==1]
+
+        self.assertEqual(len(np.unique(labels)),2)
+        self.assertEqual(len(c1),20)
+        self.assertEqual(len(c2),20)
+
--- a/release/python/0.3.0/crankshaft/test/test_clustering_moran.py
+++ b/release/python/0.3.0/crankshaft/test/test_clustering_moran.py
@@ -0,0 +1,88 @@
+import unittest
+import numpy as np
+
+
+# from mock_plpy import MockPlPy
+# plpy = MockPlPy()
+#
+# import sys
+# sys.modules['plpy'] = plpy
+from helper import plpy, fixture_file
+
+import crankshaft.clustering as cc
+import crankshaft.pysal_utils as pu
+from crankshaft import random_seeds
+import json
+
+class MoranTest(unittest.TestCase):
+    """Testing class for Moran's I functions"""
+
+    def setUp(self):
+        plpy._reset()
+        self.params = {"id_col": "cartodb_id",
+                       "attr1": "andy",
+                       "attr2": "jay_z",
+                       "subquery": "SELECT * FROM a_list",
+                       "geom_col": "the_geom",
+                       "num_ngbrs": 321}
+        self.params_markov = {"id_col": "cartodb_id",
+                              "time_cols": ["_2013_dec", "_2014_jan", "_2014_feb"],
+                              "subquery": "SELECT * FROM a_list",
+                              "geom_col": "the_geom",
+                              "num_ngbrs": 321}
+        self.neighbors_data = json.loads(open(fixture_file('neighbors.json')).read())
+        self.moran_data = json.loads(open(fixture_file('moran.json')).read())
+
+    def test_map_quads(self):
+        """Test map_quads"""
+        self.assertEqual(cc.map_quads(1), 'HH')
+        self.assertEqual(cc.map_quads(2), 'LH')
+        self.assertEqual(cc.map_quads(3), 'LL')
+        self.assertEqual(cc.map_quads(4), 'HL')
+        self.assertEqual(cc.map_quads(33), None)
+        self.assertEqual(cc.map_quads('andy'), None)
+
+    def test_quad_position(self):
+        """Test lisa_sig_vals"""
+
+        quads = np.array([1, 2, 3, 4], np.int)
+
+        ans = np.array(['HH', 'LH', 'LL', 'HL'])
+        test_ans = cc.quad_position(quads)
+
+        self.assertTrue((test_ans == ans).all())
+
+    def test_moran_local(self):
+        """Test Moran's I local"""
+        data = [ { 'id': d['id'], 'attr1': d['value'], 'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1234)
+        result = cc.moran_local('subquery', 'value', 'knn', 5, 99, 'the_geom', 'cartodb_id')
+        result = [(row[0], row[1]) for row in result]
+        expected = self.moran_data
+        for ([res_val, res_quad], [exp_val, exp_quad]) in zip(result, expected):
+            self.assertAlmostEqual(res_val, exp_val)
+            self.assertEqual(res_quad, exp_quad)
+
+    def test_moran_local_rate(self):
+        """Test Moran's I rate"""
+        data = [ { 'id': d['id'], 'attr1': d['value'], 'attr2': 1, 'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1234)
+        result = cc.moran_local_rate('subquery', 'numerator', 'denominator', 'knn', 5, 99, 'the_geom', 'cartodb_id')
+        print 'result == None? ', result == None
+        result = [(row[0], row[1]) for row in result]
+        expected = self.moran_data
+        for ([res_val, res_quad], [exp_val, exp_quad]) in zip(result, expected):
+            self.assertAlmostEqual(res_val, exp_val)
+
+    def test_moran(self):
+        """Test Moran's I global"""
+        data = [{ 'id': d['id'], 'attr1': d['value'], 'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1235)
+        result = cc.moran('table', 'value', 'knn', 5, 99, 'the_geom', 'cartodb_id')
+        print 'result == None?', result == None
+        result_moran = result[0][0]
+        expected_moran = np.array([row[0] for row in self.moran_data]).mean()
+        self.assertAlmostEqual(expected_moran, result_moran, delta=10e-2)
--- a/release/python/0.3.0/crankshaft/test/test_pysal_utils.py
+++ b/release/python/0.3.0/crankshaft/test/test_pysal_utils.py
@@ -0,0 +1,142 @@
+import unittest
+
+import crankshaft.pysal_utils as pu
+from crankshaft import random_seeds
+
+
+class PysalUtilsTest(unittest.TestCase):
+    """Testing class for utility functions related to PySAL integrations"""
+
+    def setUp(self):
+        self.params = {"id_col": "cartodb_id",
+                       "attr1": "andy",
+                       "attr2": "jay_z",
+                       "subquery": "SELECT * FROM a_list",
+                       "geom_col": "the_geom",
+                       "num_ngbrs": 321}
+
+        self.params_array = {"id_col": "cartodb_id",
+                             "time_cols": ["_2013_dec", "_2014_jan", "_2014_feb"],
+                             "subquery": "SELECT * FROM a_list",
+                             "geom_col": "the_geom",
+                             "num_ngbrs": 321}
+
+    def test_query_attr_select(self):
+        """Test query_attr_select"""
+
+        ans = "i.\"andy\"::numeric As attr1, " \
+              "i.\"jay_z\"::numeric As attr2, "
+
+        ans_array = "i.\"_2013_dec\"::numeric As attr1, " \
+                    "i.\"_2014_jan\"::numeric As attr2, " \
+                    "i.\"_2014_feb\"::numeric As attr3, "
+
+        self.assertEqual(pu.query_attr_select(self.params), ans)
+        self.assertEqual(pu.query_attr_select(self.params_array), ans_array)
+
+    def test_query_attr_where(self):
+        """Test pu.query_attr_where"""
+
+        ans = "idx_replace.\"andy\" IS NOT NULL AND " \
+              "idx_replace.\"jay_z\" IS NOT NULL AND " \
+              "idx_replace.\"jay_z\" <> 0"
+
+        ans_array = "idx_replace.\"_2013_dec\" IS NOT NULL AND " \
+                    "idx_replace.\"_2014_jan\" IS NOT NULL AND " \
+                    "idx_replace.\"_2014_feb\" IS NOT NULL"
+
+        self.assertEqual(pu.query_attr_where(self.params), ans)
+        self.assertEqual(pu.query_attr_where(self.params_array), ans_array)
+
+    def test_knn(self):
+        """Test knn neighbors constructor"""
+
+        ans = "SELECT i.\"cartodb_id\" As id, " \
+                     "i.\"andy\"::numeric As attr1, " \
+                     "i.\"jay_z\"::numeric As attr2, " \
+                     "(SELECT ARRAY(SELECT j.\"cartodb_id\" " \
+                                   "FROM (SELECT * FROM a_list) As j " \
+                                   "WHERE " \
+                                    "i.\"cartodb_id\" <> j.\"cartodb_id\" AND " \
+                                    "j.\"andy\" IS NOT NULL AND " \
+                                    "j.\"jay_z\" IS NOT NULL AND " \
+                                    "j.\"jay_z\" <> 0 " \
+                                   "ORDER BY " \
+                                    "j.\"the_geom\" <-> i.\"the_geom\" ASC " \
+                      "LIMIT 321)) As neighbors " \
+              "FROM (SELECT * FROM a_list) As i " \
+              "WHERE i.\"andy\" IS NOT NULL AND " \
+                    "i.\"jay_z\" IS NOT NULL AND " \
+                    "i.\"jay_z\" <> 0 " \
+              "ORDER BY i.\"cartodb_id\" ASC;"
+        
+        ans_array = "SELECT i.\"cartodb_id\" As id, " \
+              "i.\"_2013_dec\"::numeric As attr1, " \
+              "i.\"_2014_jan\"::numeric As attr2, " \
+              "i.\"_2014_feb\"::numeric As attr3, " \
+              "(SELECT ARRAY(SELECT j.\"cartodb_id\" " \
+                            "FROM (SELECT * FROM a_list) As j " \
+                            "WHERE i.\"cartodb_id\" <> j.\"cartodb_id\" AND " \
+                                  "j.\"_2013_dec\" IS NOT NULL AND " \
+                                  "j.\"_2014_jan\" IS NOT NULL AND " \
+                                  "j.\"_2014_feb\" IS NOT NULL " \
+                            "ORDER BY j.\"the_geom\" <-> i.\"the_geom\" ASC " \
+                            "LIMIT 321)) As neighbors " \
+              "FROM (SELECT * FROM a_list) As i " \
+              "WHERE i.\"_2013_dec\" IS NOT NULL AND " \
+                    "i.\"_2014_jan\" IS NOT NULL AND " \
+                    "i.\"_2014_feb\" IS NOT NULL "\
+              "ORDER BY i.\"cartodb_id\" ASC;"
+
+        self.assertEqual(pu.knn(self.params), ans)
+        self.assertEqual(pu.knn(self.params_array), ans_array)
+
+    def test_queen(self):
+        """Test queen neighbors constructor"""
+
+        ans = "SELECT i.\"cartodb_id\" As id, " \
+                     "i.\"andy\"::numeric As attr1, " \
+                     "i.\"jay_z\"::numeric As attr2, " \
+                     "(SELECT ARRAY(SELECT j.\"cartodb_id\" " \
+                                   "FROM (SELECT * FROM a_list) As j " \
+                                   "WHERE " \
+                                   "i.\"cartodb_id\" <> j.\"cartodb_id\" AND " \
+                                   "ST_Touches(i.\"the_geom\", " \
+                                              "j.\"the_geom\") AND " \
+                                   "j.\"andy\" IS NOT NULL AND " \
+                                   "j.\"jay_z\" IS NOT NULL AND " \
+                                   "j.\"jay_z\" <> 0)" \
+                                  ") As neighbors " \
+              "FROM (SELECT * FROM a_list) As i " \
+              "WHERE i.\"andy\" IS NOT NULL AND " \
+                    "i.\"jay_z\" IS NOT NULL AND " \
+                    "i.\"jay_z\" <> 0 " \
+              "ORDER BY i.\"cartodb_id\" ASC;"
+
+        self.assertEqual(pu.queen(self.params), ans)
+
+    def test_construct_neighbor_query(self):
+        """Test construct_neighbor_query"""
+
+        # Compare to raw knn query
+        self.assertEqual(pu.construct_neighbor_query('knn', self.params),
+                         pu.knn(self.params))
+
+    def test_get_attributes(self):
+        """Test get_attributes"""
+
+        ## need to add tests
+
+        self.assertEqual(True, True)
+
+    def test_get_weight(self):
+        """Test get_weight"""
+
+        self.assertEqual(True, True)
+
+    def test_empty_zipped_array(self):
+        """Test empty_zipped_array"""
+        ans2 = [(None, None)]
+        ans4 = [(None, None, None, None)]
+        self.assertEqual(pu.empty_zipped_array(2), ans2)
+        self.assertEqual(pu.empty_zipped_array(4), ans4)
--- a/release/python/0.3.0/crankshaft/test/test_segmentation.py
+++ b/release/python/0.3.0/crankshaft/test/test_segmentation.py
@@ -0,0 +1,64 @@
+import unittest
+import numpy as np
+from helper import plpy, fixture_file
+import crankshaft.segmentation as segmentation
+import json
+
+class SegmentationTest(unittest.TestCase):
+    """Testing class for Moran's I functions"""
+
+    def setUp(self):
+        plpy._reset()
+
+    def generate_random_data(self,n_samples,random_state,  row_type=False):
+        x1 = random_state.uniform(size=n_samples)
+        x2 = random_state.uniform(size=n_samples)
+        x3 = random_state.randint(0, 4, size=n_samples)
+
+        y = x1+x2*x2+x3
+        cartodb_id  = range(len(x1))
+
+        if row_type:
+            return [ {'features': vals} for vals in zip(x1,x2,x3)], y
+        else:
+            return  [dict( zip(['x1','x2','x3','target', 'cartodb_id'],[x1,x2,x3,y,cartodb_id]))]
+
+    def test_replace_nan_with_mean(self):
+        test_array = np.array([1.2, np.nan, 3.2, np.nan, np.nan])
+
+    def test_create_and_predict_segment(self):
+        n_samples = 1000
+
+        random_state_train = np.random.RandomState(13)
+        random_state_test = np.random.RandomState(134)
+        training_data = self.generate_random_data(n_samples, random_state_train)
+        test_data, test_y = self.generate_random_data(n_samples, random_state_test, row_type=True)
+
+
+        ids =  [{'cartodb_ids': range(len(test_data))}]
+        rows =  [{'x1': 0,'x2':0,'x3':0,'y':0,'cartodb_id':0}]
+
+        plpy._define_result('select \* from  \(select \* from training\) a  limit 1',rows)
+        plpy._define_result('.*from \(select \* from training\) as a' ,training_data)
+        plpy._define_result('select array_agg\(cartodb\_id order by cartodb\_id\) as cartodb_ids from \(.*\) a',ids)
+        plpy._define_result('.*select \* from test.*' ,test_data)
+
+        model_parameters =  {'n_estimators': 1200,
+                             'max_depth': 3,
+                             'subsample' : 0.5,
+                             'learning_rate': 0.01,
+                             'min_samples_leaf': 1}
+
+        result = segmentation.create_and_predict_segment(
+                'select * from training',
+                'target',
+                'select * from test',
+                model_parameters)
+
+        prediction = [r[1] for r in result]
+
+        accuracy =np.sqrt(np.mean( np.square( np.array(prediction) - np.array(test_y))))
+
+        self.assertEqual(len(result),len(test_data))
+        self.assertTrue( result[0][2] < 0.01)
+        self.assertTrue( accuracy < 0.5*np.mean(test_y)  )
--- a/release/python/0.3.0/crankshaft/test/test_space_time_dynamics.py
+++ b/release/python/0.3.0/crankshaft/test/test_space_time_dynamics.py
@@ -0,0 +1,324 @@
+import unittest
+import numpy as np
+
+import unittest
+
+
+# from mock_plpy import MockPlPy
+# plpy = MockPlPy()
+#
+# import sys
+# sys.modules['plpy'] = plpy
+from helper import plpy, fixture_file
+
+import crankshaft.space_time_dynamics as std
+from crankshaft import random_seeds
+import json
+
+class SpaceTimeTests(unittest.TestCase):
+    """Testing class for Markov Functions."""
+
+    def setUp(self):
+        plpy._reset()
+        self.params = {"id_col": "cartodb_id",
+                       "time_cols": ['dec_2013', 'jan_2014', 'feb_2014'],
+                       "subquery": "SELECT * FROM a_list",
+                       "geom_col": "the_geom",
+                       "num_ngbrs": 321}
+        self.neighbors_data = json.loads(open(fixture_file('neighbors_markov.json')).read())
+        self.markov_data = json.loads(open(fixture_file('markov.json')).read())
+
+        self.time_data = np.array([i * np.ones(10, dtype=float) for i in range(10)]).T
+
+        self.transition_matrix = np.array([
+                [[ 0.96341463, 0.0304878 , 0.00609756, 0.        , 0.        ],
+                 [ 0.06040268, 0.83221477, 0.10738255, 0.        , 0.        ],
+                 [ 0.        , 0.14      , 0.74      , 0.12      , 0.        ],
+                 [ 0.        , 0.03571429, 0.32142857, 0.57142857, 0.07142857],
+                 [ 0.        , 0.        , 0.        , 0.16666667, 0.83333333]],
+                [[ 0.79831933, 0.16806723, 0.03361345, 0.        , 0.        ],
+                 [ 0.0754717 , 0.88207547, 0.04245283, 0.        , 0.        ],
+                 [ 0.00537634, 0.06989247, 0.8655914 , 0.05913978, 0.        ],
+                 [ 0.        , 0.        , 0.06372549, 0.90196078, 0.03431373],
+                 [ 0.        , 0.        , 0.        , 0.19444444, 0.80555556]],
+                [[ 0.84693878, 0.15306122, 0.        , 0.        , 0.        ],
+                 [ 0.08133971, 0.78947368, 0.1291866 , 0.        , 0.        ],
+                 [ 0.00518135, 0.0984456 , 0.79274611, 0.0984456 , 0.00518135],
+                 [ 0.        , 0.        , 0.09411765, 0.87058824, 0.03529412],
+                 [ 0.        , 0.        , 0.        , 0.10204082, 0.89795918]],
+                [[ 0.8852459 , 0.09836066, 0.        , 0.01639344, 0.        ],
+                 [ 0.03875969, 0.81395349, 0.13953488, 0.        , 0.00775194],
+                 [ 0.0049505 , 0.09405941, 0.77722772, 0.11881188, 0.0049505 ],
+                 [ 0.        , 0.02339181, 0.12865497, 0.75438596, 0.09356725],
+                 [ 0.        , 0.        , 0.        , 0.09661836, 0.90338164]],
+                [[ 0.33333333, 0.66666667, 0.        , 0.        , 0.        ],
+                 [ 0.0483871 , 0.77419355, 0.16129032, 0.01612903, 0.        ],
+                 [ 0.01149425, 0.16091954, 0.74712644, 0.08045977, 0.        ],
+                 [ 0.        , 0.01036269, 0.06217617, 0.89637306, 0.03108808],
+                 [ 0.        , 0.        , 0.        , 0.02352941, 0.97647059]]]
+                 )
+
+    def test_spatial_markov(self):
+        """Test Spatial Markov."""
+        data = [ { 'id': d['id'],
+                   'attr1': d['y1995'],
+                   'attr2': d['y1996'],
+                   'attr3': d['y1997'],
+                   'attr4': d['y1998'],
+                   'attr5': d['y1999'],
+                   'attr6': d['y2000'],
+                   'attr7': d['y2001'],
+                   'attr8': d['y2002'],
+                   'attr9': d['y2003'],
+                   'attr10': d['y2004'],
+                   'attr11': d['y2005'],
+                   'attr12': d['y2006'],
+                   'attr13': d['y2007'],
+                   'attr14': d['y2008'],
+                   'attr15': d['y2009'],
+                   'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        print(str(data[0]))
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1234)
+
+        result = std.spatial_markov_trend('subquery', ['y1995', 'y1996', 'y1997', 'y1998', 'y1999', 'y2000', 'y2001', 'y2002', 'y2003', 'y2004', 'y2005', 'y2006', 'y2007', 'y2008', 'y2009'], 5, 'knn', 5, 0, 'the_geom', 'cartodb_id')
+
+        self.assertTrue(result != None)
+        result = [(row[0], row[1], row[2], row[3], row[4]) for row in result]
+        print result[0]
+        expected = self.markov_data
+        for ([res_trend, res_up, res_down, res_vol, res_id],
+             [exp_trend, exp_up, exp_down, exp_vol, exp_id]
+             ) in zip(result, expected):
+            self.assertAlmostEqual(res_trend, exp_trend)
+
+    def test_get_time_data(self):
+        """Test get_time_data"""
+        data = [ { 'attr1': d['y1995'],
+                   'attr2': d['y1996'],
+                   'attr3': d['y1997'],
+                   'attr4': d['y1998'],
+                   'attr5': d['y1999'],
+                   'attr6': d['y2000'],
+                   'attr7': d['y2001'],
+                   'attr8': d['y2002'],
+                   'attr9': d['y2003'],
+                   'attr10': d['y2004'],
+                   'attr11': d['y2005'],
+                   'attr12': d['y2006'],
+                   'attr13': d['y2007'],
+                   'attr14': d['y2008'],
+                   'attr15': d['y2009'] } for d in self.neighbors_data]
+
+        result = std.get_time_data(data, ['y1995', 'y1996', 'y1997', 'y1998', 'y1999', 'y2000', 'y2001', 'y2002', 'y2003', 'y2004', 'y2005', 'y2006', 'y2007', 'y2008', 'y2009'])
+
+        ## expected was prepared from PySAL example:
+        ### f = ps.open(ps.examples.get_path("usjoin.csv"))
+        ### pci = np.array([f.by_col[str(y)] for y in range(1995, 2010)]).transpose()
+        ### rpci = pci / (pci.mean(axis = 0))
+
+        expected = np.array([[ 0.87654416, 0.863147, 0.85637567, 0.84811668, 0.8446154,  0.83271652
+        ,  0.83786314, 0.85012593, 0.85509656, 0.86416612, 0.87119375, 0.86302631
+        ,  0.86148267, 0.86252252, 0.86746356],
+         [ 0.9188951,  0.91757931, 0.92333258, 0.92517289, 0.92552388, 0.90746978
+        ,  0.89830489, 0.89431991, 0.88924794, 0.89815176, 0.91832091, 0.91706054
+        ,  0.90139505, 0.87897455, 0.86216858],
+         [ 0.82591007, 0.82548596, 0.81989793, 0.81503235, 0.81731522, 0.78964559
+        ,  0.80584442, 0.8084998,  0.82258551, 0.82668196, 0.82373724, 0.81814804
+        ,  0.83675961, 0.83574199, 0.84647177],
+         [ 1.09088176, 1.08537689, 1.08456418, 1.08415404, 1.09898841, 1.14506948
+        ,  1.12151133, 1.11160697, 1.10888621, 1.11399806, 1.12168029, 1.13164797
+        ,  1.12958508, 1.11371818, 1.09936775],
+         [ 1.10731446, 1.11373944, 1.13283638, 1.14472559, 1.15910025, 1.16898201
+        ,  1.17212488, 1.14752303, 1.11843284, 1.11024964, 1.11943471, 1.11736468
+        ,  1.10863242, 1.09642516, 1.07762337],
+         [ 1.42269757, 1.42118434, 1.44273502, 1.43577571, 1.44400684, 1.44184737
+        ,  1.44782832, 1.41978227, 1.39092208, 1.4059372,  1.40788646, 1.44052766
+        ,  1.45241216, 1.43306098, 1.4174431 ],
+         [ 1.13073885, 1.13110513, 1.11074708, 1.13364636, 1.13088149, 1.10888138
+        ,  1.11856629, 1.13062931, 1.11944984, 1.12446239, 1.11671008, 1.10880034
+        ,  1.08401709, 1.06959206, 1.07875225],
+         [ 1.04706124, 1.04516831, 1.04253372, 1.03239987, 1.02072545, 0.99854316
+        ,  0.9880258,  0.99669587, 0.99327676, 1.01400905, 1.03176742, 1.040511
+        ,  1.01749645, 0.9936394,  0.98279746],
+         [ 0.98996986, 1.00143564, 0.99491,  1.00188408, 1.00455845, 0.99127006
+        ,  0.97925917, 0.9683482,  0.95335147, 0.93694787, 0.94308213, 0.92232874
+        ,  0.91284091, 0.89689833, 0.88928858],
+         [ 0.87418391, 0.86416601, 0.84425695, 0.8404494,  0.83903044, 0.8578708
+        ,  0.86036185, 0.86107306, 0.8500772,  0.86981998, 0.86837929, 0.87204141
+        ,  0.86633032, 0.84946077, 0.83287146],
+         [ 1.14196118, 1.14660262, 1.14892712, 1.14909594, 1.14436624, 1.14450183
+        ,  1.12349752, 1.12596664, 1.12213996, 1.1119989,  1.10257792, 1.10491258
+        ,  1.11059842, 1.10509795, 1.10020097],
+         [ 0.97282463, 0.96700147, 0.96252588, 0.9653878,  0.96057687, 0.95831051
+        ,  0.94480909, 0.94804195, 0.95430286, 0.94103989, 0.92122519, 0.91010201
+        ,  0.89280392, 0.89298243, 0.89165385],
+         [ 0.94325468, 0.96436902, 0.96455242, 0.95243009, 0.94117647, 0.9480927
+        ,  0.93539182, 0.95388718, 0.94597005, 0.96918424, 0.94781281, 0.93466815
+        ,  0.94281559, 0.96520315, 0.96715441],
+         [ 0.97478408, 0.98169225, 0.98712809, 0.98474769, 0.98559897, 0.98687073
+        ,  0.99237486, 0.98209969, 0.9877653,  0.97399471, 0.96910087, 0.98416665
+        ,  0.98423613, 0.99823861, 0.99545704],
+         [ 0.85570269, 0.85575915, 0.85986132, 0.85693406, 0.8538012,  0.86191535
+        ,  0.84981451, 0.85472102, 0.84564835, 0.83998883, 0.83478547, 0.82803648
+        ,  0.8198736,  0.82265395, 0.8399404 ],
+         [ 0.87022047, 0.85996258, 0.85961813, 0.85689572, 0.83947136, 0.82785597
+        ,  0.86008789, 0.86776298, 0.86720209, 0.8676334,  0.89179317, 0.94202108
+        ,  0.9422231,  0.93902708, 0.94479184],
+         [ 0.90134907, 0.90407738, 0.90403991, 0.90201769, 0.90399238, 0.90906632
+        ,  0.92693339, 0.93695966, 0.94242697, 0.94338265, 0.91981796, 0.91108804
+        ,  0.90543476, 0.91737138, 0.94793657],
+         [ 1.1977611,  1.18222564, 1.18439158, 1.18267865, 1.19286723, 1.20172869
+        ,  1.21328691, 1.22624778, 1.22397075, 1.23857042, 1.24419893, 1.23929384
+        ,  1.23418676, 1.23626739, 1.26754398],
+         [ 1.24919678, 1.25754773, 1.26991161, 1.28020651, 1.30625667, 1.34790023
+        ,  1.34399863, 1.32575181, 1.30795492, 1.30544841, 1.30303302, 1.32107766
+        ,  1.32936244, 1.33001241, 1.33288462],
+         [ 1.06768004, 1.03799276, 1.03637303, 1.02768449, 1.03296093, 1.05059016
+        ,  1.03405057, 1.02747623, 1.03162734, 0.9961416,  0.97356208, 0.94241549
+        ,  0.92754547, 0.92549227, 0.92138102],
+         [ 1.09475614, 1.11526796, 1.11654299, 1.13103948, 1.13143264, 1.13889622
+        ,  1.12442212, 1.13367018, 1.13982256, 1.14029944, 1.11979401, 1.10905389
+        ,  1.10577769, 1.11166825, 1.09985155],
+         [ 0.76530058, 0.76612841, 0.76542451, 0.76722683, 0.76014284, 0.74480073
+        ,  0.76098396, 0.76156903, 0.76651952, 0.76533288, 0.78205934, 0.76842416
+        ,  0.77487118, 0.77768683, 0.78801192],
+         [ 0.98391336, 0.98075816, 0.98295341, 0.97386015, 0.96913803, 0.97370819
+        ,  0.96419154, 0.97209861, 0.97441313, 0.96356162, 0.94745352, 0.93965462
+        ,  0.93069645, 0.94020973, 0.94358232],
+         [ 0.83561828, 0.82298088, 0.81738502, 0.81748588, 0.80904801, 0.80071489
+        ,  0.83358256, 0.83451613, 0.85175032, 0.85954307, 0.86790024, 0.87170334
+        ,  0.87863799, 0.87497981, 0.87888675],
+         [ 0.98845573, 1.02092428, 0.99665283, 0.99141823, 0.99386619, 0.98733195
+        ,  0.99644997, 0.99669587, 1.02559097, 1.01116651, 0.99988024, 0.97906749
+        ,  0.99323123, 1.00204939, 0.99602148],
+         [ 1.14930913, 1.15241949, 1.14300962, 1.14265542, 1.13984683, 1.08312397
+        ,  1.05192626, 1.04230892, 1.05577278, 1.08569751, 1.12443486, 1.08891079
+        ,  1.08603695, 1.05997314, 1.02160943],
+         [ 1.11368269, 1.1057147,  1.11893431, 1.13778669, 1.1432272,  1.18257029
+        ,  1.16226243, 1.16009196, 1.14467789, 1.14820235, 1.12386598, 1.12680236
+        ,  1.12357937, 1.1159258,  1.12570828],
+         [ 1.30379431, 1.30752186, 1.31206366, 1.31532267, 1.30625667, 1.31210239
+        ,  1.29989156, 1.29203193, 1.27183516, 1.26830786, 1.2617743,  1.28656675
+        ,  1.29734097, 1.29390205, 1.29345446],
+         [ 0.83953719, 0.82701448, 0.82006005, 0.81188876, 0.80294864, 0.78772975
+        ,  0.82848011, 0.8259679,  0.82435705, 0.83108634, 0.84373784, 0.83891093
+        ,  0.84349247, 0.85637272, 0.86539395],
+         [ 1.23450087, 1.2426022,  1.23537935, 1.23581293, 1.24522626, 1.2256767
+        ,  1.21126648, 1.19377804, 1.18355337, 1.19674434, 1.21536573, 1.23653297
+        ,  1.27962009, 1.27968392, 1.25907738],
+         [ 0.9769662,  0.97400719, 0.98035944, 0.97581531, 0.95543282, 0.96480308
+        ,  0.94686376, 0.93679073, 0.92540049, 0.92988835, 0.93442917, 0.92100464
+        ,  0.91475304, 0.90249622, 0.9021363 ],
+         [ 0.84986886, 0.8986851,  0.84295997, 0.87280534, 0.85659368, 0.88937573
+        ,  0.894401, 0.90448993, 0.95495898, 0.92698333, 0.94745352, 0.92562488
+        ,  0.96635366, 1.02520312, 1.0394296 ],
+         [ 1.01922808, 1.00258203, 1.00974428, 1.00303417, 0.99765073, 1.00759019
+        ,  0.99192968, 0.99747298, 0.99550759, 0.97583768, 0.9610168,  0.94779638
+        ,  0.93759089, 0.93353431, 0.94121705],
+         [ 0.86367411, 0.85558932, 0.85544346, 0.85103025, 0.84336613, 0.83434854
+        ,  0.85813595, 0.84667961, 0.84374558, 0.85951183, 0.87194227, 0.89455097
+        ,  0.88283929, 0.90349491, 0.90600675],
+         [ 1.00947534, 1.00411055, 1.00698819, 0.99513687, 0.99291086, 1.00581626
+        ,  0.98850522, 0.99291168, 0.98983209, 0.97511924, 0.96134615, 0.96382634
+        ,  0.95011401, 0.9434686,  0.94637765],
+         [ 1.05712571, 1.05459419, 1.05753012, 1.04880786, 1.05103857, 1.04800023
+        ,  1.03024941, 1.04200483, 1.0402554,  1.03296979, 1.02191682, 1.02476275
+        ,  1.02347523, 1.02517684, 1.04359571],
+         [ 1.07084189, 1.06669497, 1.07937623, 1.07387988, 1.0794043,  1.0531801
+        ,  1.07452771, 1.09383478, 1.1052447,  1.10322136, 1.09167939, 1.08772756
+        ,  1.08859544, 1.09177338, 1.1096083 ],
+         [ 0.86719222, 0.86628896, 0.86675156, 0.86425632, 0.86511809, 0.86287327
+        ,  0.85169796, 0.85411285, 0.84886336, 0.84517414, 0.84843858, 0.84488343
+        ,  0.83374329, 0.82812044, 0.82878599],
+         [ 0.88389211, 0.92288667, 0.90282398, 0.91229186, 0.92023286, 0.92652175
+        ,  0.94278865, 0.93682452, 0.98655146, 0.992237, 0.9798497,  0.93869677
+        ,  0.96947771, 1.00362626, 0.98102351],
+         [ 0.97082064, 0.95320233, 0.94534081, 0.94215593, 0.93967,  0.93092109
+        ,  0.92662519, 0.93412152, 0.93501274, 0.92879506, 0.92110542, 0.91035556
+        ,  0.90430364, 0.89994694, 0.90073864],
+         [ 0.95861858, 0.95774543, 0.98254811, 0.98919472, 0.98684824, 0.98882205
+        ,  0.97662234, 0.95601578, 0.94905385, 0.94934888, 0.97152609, 0.97163004
+        ,  0.9700702,  0.97158948, 0.95884908],
+         [ 0.83980439, 0.84726737, 0.85747,  0.85467221, 0.8556751,  0.84818516
+        ,  0.85265681, 0.84502402, 0.82645665, 0.81743586, 0.83550406, 0.83338919
+        ,  0.83511679, 0.82136617, 0.80921874],
+         [ 0.95118156, 0.9466212,  0.94688098, 0.9508583,  0.9512441,  0.95440787
+        ,  0.96364363, 0.96804412, 0.97136214, 0.97583768, 0.95571724, 0.96895368
+        ,  0.97001634, 0.97082733, 0.98782366],
+         [ 1.08910044, 1.08248968, 1.08492895, 1.08656923, 1.09454249, 1.10558188
+        ,  1.1214086,  1.12292577, 1.13021031, 1.13342735, 1.14686068, 1.14502975
+        ,  1.14474747, 1.14084037, 1.16142926],
+         [ 1.06336033, 1.07365823, 1.08691496, 1.09764846, 1.11669863, 1.11856702
+        ,  1.09764283, 1.08815849, 1.08044313, 1.09278827, 1.07003204, 1.08398066
+        ,  1.09831768, 1.09298232, 1.09176125],
+         [ 0.79772065, 0.78829196, 0.78581151, 0.77615922, 0.77035744, 0.77751194
+        ,  0.79902974, 0.81437881, 0.80788828, 0.79603865, 0.78966436, 0.79949807
+        ,  0.80172182, 0.82168155, 0.85587911],
+         [ 1.0052447,  1.00007696, 1.00475899, 1.00613942, 1.00639561, 1.00162979
+        ,  0.99860739, 1.00814981, 1.00574316, 0.99030032, 0.97682565, 0.97292596
+        ,  0.96519561, 0.96173403, 0.95890284],
+         [ 0.95808419, 0.9382568,  0.9654441,  0.95561201, 0.96987289, 0.96608031
+        ,  0.99727185, 1.00781194, 1.03484236, 1.05333619, 1.0983263,  1.1704974
+        ,  1.17025154, 1.18730553, 1.14242645]])
+
+        self.assertTrue(np.allclose(result, expected))
+        self.assertTrue(type(result) == type(expected))
+        self.assertTrue(result.shape == expected.shape)
+
+    def test_rebin_data(self):
+        """Test rebin_data"""
+        ## sample in double the time (even case since 10 % 2 = 0):
+        ##   (0+1)/2, (2+3)/2, (4+5)/2, (6+7)/2, (8+9)/2
+        ## = 0.5,     2.5,     4.5,     6.5,     8.5
+        ans_even = np.array([(i + 0.5) * np.ones(10, dtype=float)
+                             for i in range(0, 10, 2)]).T
+
+        self.assertTrue(np.array_equal(std.rebin_data(self.time_data, 2), ans_even))
+
+        ## sample in triple the time (uneven since 10 % 3 = 1):
+        ##   (0+1+2)/3, (3+4+5)/3, (6+7+8)/3, (9)/1
+        ## = 1,         4,         7,         9
+        ans_odd  = np.array([i * np.ones(10, dtype=float)
+                             for i in (1, 4, 7, 9)]).T
+        self.assertTrue(np.array_equal(std.rebin_data(self.time_data, 3), ans_odd))
+
+    def test_get_prob_dist(self):
+        """Test get_prob_dist"""
+        lag_indices = np.array([1, 2, 3, 4])
+        unit_indices = np.array([1, 3, 2, 4])
+        answer = np.array([
+            [ 0.0754717 , 0.88207547, 0.04245283, 0.        , 0.        ],
+            [ 0.        , 0.        , 0.09411765, 0.87058824, 0.03529412],
+            [ 0.0049505 , 0.09405941, 0.77722772, 0.11881188, 0.0049505 ],
+            [ 0.        , 0.        , 0.        , 0.02352941, 0.97647059]
+        ])
+        result = std.get_prob_dist(self.transition_matrix, lag_indices, unit_indices)
+
+        self.assertTrue(np.array_equal(result, answer))
+
+    def test_get_prob_stats(self):
+        """Test get_prob_stats"""
+
+        probs = np.array([
+            [ 0.0754717 , 0.88207547, 0.04245283, 0.        , 0.        ],
+            [ 0.        , 0.        , 0.09411765, 0.87058824, 0.03529412],
+            [ 0.0049505 , 0.09405941, 0.77722772, 0.11881188, 0.0049505 ],
+            [ 0.        , 0.        , 0.        , 0.02352941, 0.97647059]
+        ])
+        unit_indices = np.array([1, 3, 2, 4])
+        answer_up = np.array([0.04245283, 0.03529412, 0.12376238, 0.])
+        answer_down = np.array([0.0754717, 0.09411765, 0.0990099, 0.02352941])
+        answer_trend = np.array([-0.03301887 / 0.88207547, -0.05882353 / 0.87058824,  0.02475248 / 0.77722772, -0.02352941 / 0.97647059])
+        answer_volatility = np.array([ 0.34221495,  0.33705421,  0.29226542,  0.38834223])
+
+        result = std.get_prob_stats(probs, unit_indices)
+        result_up = result[0]
+        result_down = result[1]
+        result_trend = result[2]
+        result_volatility = result[3]
+
+        self.assertTrue(np.allclose(result_up, answer_up))
+        self.assertTrue(np.allclose(result_down, answer_down))
+        self.assertTrue(np.allclose(result_trend, answer_trend))
+        self.assertTrue(np.allclose(result_volatility, answer_volatility))
--- a/release/python/0.3.1/crankshaft/crankshaft/init.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/init.py
@@ -0,0 +1,5 @@
+"""Import all modules"""
+import crankshaft.random_seeds
+import crankshaft.clustering
+import crankshaft.space_time_dynamics
+import crankshaft.segmentation
--- a/release/python/0.3.1/crankshaft/crankshaft/clustering/init.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/clustering/init.py
@@ -0,0 +1,3 @@
+"""Import all functions from for clustering"""
+from moran import *
+from kmeans import *
--- a/release/python/0.3.1/crankshaft/crankshaft/clustering/kmeans.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/clustering/kmeans.py
@@ -0,0 +1,18 @@
+from sklearn.cluster import KMeans
+import plpy
+
+def kmeans(query, no_clusters, no_init=20):
+    data = plpy.execute('''select array_agg(cartodb_id order by cartodb_id) as ids,
+        array_agg(ST_X(the_geom) order by cartodb_id) xs,
+        array_agg(ST_Y(the_geom) order by cartodb_id) ys from ({query}) a
+        where the_geom is not null
+    '''.format(query=query))
+
+    xs  = data[0]['xs']
+    ys  = data[0]['ys']
+    ids = data[0]['ids']
+
+    km = KMeans(n_clusters= no_clusters, n_init=no_init)
+    labels = km.fit_predict(zip(xs,ys))
+    return zip(ids,labels)
+
--- a/release/python/0.3.1/crankshaft/crankshaft/clustering/moran.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/clustering/moran.py
@@ -0,0 +1,262 @@
+"""
+Moran's I geostatistics (global clustering & outliers presence)
+"""
+
+# TODO: Fill in local neighbors which have null/NoneType values with the
+#       average of the their neighborhood
+
+import pysal as ps
+import plpy
+from collections import OrderedDict
+
+# crankshaft module
+import crankshaft.pysal_utils as pu
+
+# High level interface ---------------------------------------
+
+def moran(subquery, attr_name,
+          w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+    Moran's I (global)
+    Implementation building neighbors with a PostGIS database and Moran's I
+     core clusters with PySAL.
+    Andy Eschbacher
+    """
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", attr_name),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    plpy.notice('** Query: %s' % query)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(2)
+        plpy.notice('** Query returned with %d rows' % len(result))
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        plpy.notice('** Error: %s' % plpy.SPIError)
+        return pu.empty_zipped_array(2)
+
+    ## collect attributes
+    attr_vals = pu.get_attributes(result)
+
+    ## calculate weights
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    ## calculate moran global
+    moran_global = ps.esda.moran.Moran(attr_vals, weight,
+                                       permutations=permutations)
+
+    return zip([moran_global.I], [moran_global.EI])
+
+def moran_local(subquery, attr,
+                w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+    Moran's I implementation for PL/Python
+    Andy Eschbacher
+    """
+
+    # geometries with attributes that are null are ignored
+    # resulting in a collection of not as near neighbors
+
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", attr),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(5)
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        return pu.empty_zipped_array(5)
+
+    attr_vals = pu.get_attributes(result)
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    # calculate LISA values
+    lisa = ps.esda.moran.Moran_Local(attr_vals, weight,
+                                     permutations=permutations)
+
+    # find quadrants for each geometry
+    quads = quad_position(lisa.q)
+
+    return zip(lisa.Is, quads, lisa.p_sim, weight.id_order, lisa.y)
+
+def moran_rate(subquery, numerator, denominator,
+               w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+    Moran's I Rate (global)
+    Andy Eschbacher
+    """
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", numerator),
+                         ("attr2", denominator)
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    plpy.notice('** Query: %s' % query)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(2)
+        plpy.notice('** Query returned with %d rows' % len(result))
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        plpy.notice('** Error: %s' % plpy.SPIError)
+        return pu.empty_zipped_array(2)
+
+    ## collect attributes
+    numer = pu.get_attributes(result, 1)
+    denom = pu.get_attributes(result, 2)
+
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    ## calculate moran global rate
+    lisa_rate = ps.esda.moran.Moran_Rate(numer, denom, weight,
+                                         permutations=permutations)
+
+    return zip([lisa_rate.I], [lisa_rate.EI])
+
+def moran_local_rate(subquery, numerator, denominator,
+                     w_type, num_ngbrs, permutations, geom_col, id_col):
+    """
+        Moran's I Local Rate
+        Andy Eschbacher
+    """
+    # geometries with values that are null are ignored
+    # resulting in a collection of not as near neighbors
+
+    qvals = OrderedDict([("id_col", id_col),
+                         ("numerator", numerator),
+                         ("denominator", denominator),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(5)
+    except plpy.SPIError:
+        plpy.error('Error: areas of interest query failed, check input parameters')
+        plpy.notice('** Query failed: "%s"' % query)
+        plpy.notice('** Error: %s' % plpy.SPIError)
+        return pu.empty_zipped_array(5)
+
+    ## collect attributes
+    numer = pu.get_attributes(result, 1)
+    denom = pu.get_attributes(result, 2)
+
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    # calculate LISA values
+    lisa = ps.esda.moran.Moran_Local_Rate(numer, denom, weight,
+                                          permutations=permutations)
+
+    # find quadrants for each geometry
+    quads = quad_position(lisa.q)
+
+    return zip(lisa.Is, quads, lisa.p_sim, weight.id_order, lisa.y)
+
+def moran_local_bv(subquery, attr1, attr2,
+                   permutations, geom_col, id_col, w_type, num_ngbrs):
+    """
+        Moran's I (local) Bivariate (untested)
+    """
+    plpy.notice('** Constructing query')
+
+    qvals = OrderedDict([("id_col", id_col),
+                         ("attr1", attr1),
+                         ("attr2", attr2),
+                         ("geom_col", geom_col),
+                         ("subquery", subquery),
+                         ("num_ngbrs", num_ngbrs)])
+
+    query = pu.construct_neighbor_query(w_type, qvals)
+
+    try:
+        result = plpy.execute(query)
+        # if there are no neighbors, exit
+        if len(result) == 0:
+            return pu.empty_zipped_array(4)
+    except plpy.SPIError:
+        plpy.error("Error: areas of interest query failed, " \
+                   "check input parameters")
+        plpy.notice('** Query failed: "%s"' % query)
+        return pu.empty_zipped_array(4)
+
+    ## collect attributes
+    attr1_vals = pu.get_attributes(result, 1)
+    attr2_vals = pu.get_attributes(result, 2)
+
+    # create weights
+    weight = pu.get_weight(result, w_type, num_ngbrs)
+
+    # calculate LISA values
+    lisa = ps.esda.moran.Moran_Local_BV(attr1_vals, attr2_vals, weight,
+                                        permutations=permutations)
+
+    plpy.notice("len of Is: %d" % len(lisa.Is))
+
+    # find clustering of significance
+    lisa_sig = quad_position(lisa.q)
+
+    plpy.notice('** Finished calculations')
+
+    return zip(lisa.Is, lisa_sig, lisa.p_sim, weight.id_order)
+
+# Low level functions ----------------------------------------
+
+def map_quads(coord):
+    """
+        Map a quadrant number to Moran's I designation
+        HH=1, LH=2, LL=3, HL=4
+        Input:
+        @param coord (int): quadrant of a specific measurement
+        Output:
+            classification (one of 'HH', 'LH', 'LL', or 'HL')
+    """
+    if coord == 1:
+        return 'HH'
+    elif coord == 2:
+        return 'LH'
+    elif coord == 3:
+        return 'LL'
+    elif coord == 4:
+        return 'HL'
+    else:
+        return None
+
+def quad_position(quads):
+    """
+        Produce Moran's I classification based of n
+        Input:
+        @param quads ndarray: an array of quads classified by
+          1-4 (PySAL default)
+        Output:
+        @param list: an array of quads classied by 'HH', 'LL', etc.
+    """
+    return [map_quads(q) for q in quads]
--- a/release/python/0.3.1/crankshaft/crankshaft/pysal_utils/init.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/pysal_utils/init.py
@@ -0,0 +1,2 @@
+"""Import all functions for pysal_utils"""
+from crankshaft.pysal_utils.pysal_utils import *
--- a/release/python/0.3.1/crankshaft/crankshaft/pysal_utils/pysal_utils.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/pysal_utils/pysal_utils.py
@@ -0,0 +1,188 @@
+"""
+    Utilities module for generic PySAL functionality, mainly centered on
+      translating queries into numpy arrays or PySAL weights objects
+"""
+
+import numpy as np
+import pysal as ps
+
+def construct_neighbor_query(w_type, query_vals):
+    """Return query (a string) used for finding neighbors
+        @param w_type text: type of neighbors to calculate ('knn' or 'queen')
+        @param query_vals dict: values used to construct the query
+    """
+
+    if w_type.lower() == 'knn':
+        return knn(query_vals)
+    else:
+        return queen(query_vals)
+
+## Build weight object
+def get_weight(query_res, w_type='knn', num_ngbrs=5):
+    """
+        Construct PySAL weight from return value of query
+        @param query_res dict-like: query results with attributes and neighbors
+    """
+    # if w_type.lower() == 'knn':
+    #     row_normed_weights = [1.0 / float(num_ngbrs)] * num_ngbrs
+    #     weights = {x['id']: row_normed_weights for x in query_res}
+    # else:
+    #     weights = {x['id']: [1.0 / len(x['neighbors'])] * len(x['neighbors'])
+    #                         if len(x['neighbors']) > 0
+    #                         else [] for x in query_res}
+
+    neighbors = {x['id']: x['neighbors'] for x in query_res}
+    print 'len of neighbors: %d' % len(neighbors)
+
+    built_weight = ps.W(neighbors)
+    built_weight.transform = 'r'
+
+    return built_weight
+
+def query_attr_select(params):
+    """
+        Create portion of SELECT statement for attributes inolved in query.
+        @param params: dict of information used in query (column names,
+                       table name, etc.)
+    """
+
+    attr_string = ""
+    template = "i.\"%(col)s\"::numeric As attr%(alias_num)s, "
+
+    if 'time_cols' in params:
+        ## if markov analysis
+        attrs = params['time_cols']
+
+        for idx, val in enumerate(attrs):
+            attr_string += template % {"col": val, "alias_num": idx + 1}
+    else:
+        ## if moran's analysis
+        attrs = [k for k in params
+                 if k not in ('id_col', 'geom_col', 'subquery', 'num_ngbrs', 'subquery')]
+
+        for idx, val in enumerate(sorted(attrs)):
+            attr_string += template % {"col": params[val], "alias_num": idx + 1}
+
+    return attr_string
+
+def query_attr_where(params):
+    """
+      Construct where conditions when building neighbors query
+        Create portion of WHERE clauses for weeding out NULL-valued geometries
+        Input: dict of params:
+            {'subquery': ...,
+             'numerator': 'data1',
+             'denominator': 'data2',
+             '': ...}
+        Output: 'idx_replace."data1" IS NOT NULL AND idx_replace."data2" IS NOT NULL'
+        Input:
+        {'subquery': ...,
+         'time_cols': ['time1', 'time2', 'time3'],
+         'etc': ...}
+        Output: 'idx_replace."time1" IS NOT NULL AND idx_replace."time2" IS NOT
+          NULL AND idx_replace."time3" IS NOT NULL'
+    """
+    attr_string = []
+    template = "idx_replace.\"%s\" IS NOT NULL"
+
+    if 'time_cols' in params:
+        ## markov where clauses
+        attrs = params['time_cols']
+        # add values to template
+        for attr in attrs:
+            attr_string.append(template % attr)
+    else:
+        ## moran where clauses
+
+        # get keys
+        attrs = sorted([k for k in params
+                        if k not in ('id_col', 'geom_col', 'subquery', 'num_ngbrs', 'subquery')])
+        # add values to template
+        for attr in attrs:
+            attr_string.append(template % params[attr])
+
+        if len(attrs) == 2:
+            attr_string.append("idx_replace.\"%s\" <> 0" % params[attrs[1]])
+
+    out = " AND ".join(attr_string)
+
+    return out
+
+def knn(params):
+    """SQL query for k-nearest neighbors.
+        @param vars: dict of values to fill template
+    """
+
+    attr_select = query_attr_select(params)
+    attr_where = query_attr_where(params)
+
+    replacements = {"attr_select": attr_select,
+                    "attr_where_i": attr_where.replace("idx_replace", "i"),
+                    "attr_where_j": attr_where.replace("idx_replace", "j")}
+
+    query = "SELECT " \
+                "i.\"{id_col}\" As id, " \
+                "%(attr_select)s" \
+                "(SELECT ARRAY(SELECT j.\"{id_col}\" " \
+                              "FROM ({subquery}) As j " \
+                              "WHERE " \
+                                "i.\"{id_col}\" <> j.\"{id_col}\" AND " \
+                                "%(attr_where_j)s " \
+                              "ORDER BY " \
+                                "j.\"{geom_col}\" <-> i.\"{geom_col}\" ASC " \
+                              "LIMIT {num_ngbrs})" \
+                ") As neighbors " \
+            "FROM ({subquery}) As i " \
+            "WHERE " \
+                "%(attr_where_i)s " \
+            "ORDER BY i.\"{id_col}\" ASC;" % replacements
+
+    return query.format(**params)
+
+## SQL query for finding queens neighbors (all contiguous polygons)
+def queen(params):
+    """SQL query for queen neighbors.
+        @param params dict: information to fill query
+    """
+    attr_select = query_attr_select(params)
+    attr_where = query_attr_where(params)
+
+    replacements = {"attr_select": attr_select,
+                    "attr_where_i": attr_where.replace("idx_replace", "i"),
+                    "attr_where_j": attr_where.replace("idx_replace", "j")}
+
+    query = "SELECT " \
+                "i.\"{id_col}\" As id, " \
+                "%(attr_select)s" \
+                "(SELECT ARRAY(SELECT j.\"{id_col}\" " \
+                 "FROM ({subquery}) As j " \
+                 "WHERE i.\"{id_col}\" <> j.\"{id_col}\" AND " \
+                       "ST_Touches(i.\"{geom_col}\", j.\"{geom_col}\") AND " \
+                       "%(attr_where_j)s)" \
+                ") As neighbors " \
+            "FROM ({subquery}) As i " \
+            "WHERE " \
+                "%(attr_where_i)s " \
+            "ORDER BY i.\"{id_col}\" ASC;" % replacements
+
+    return query.format(**params)
+
+## to add more weight methods open a ticket or pull request
+
+def get_attributes(query_res, attr_num=1):
+    """
+        @param query_res: query results with attributes and neighbors
+        @param attr_num: attribute number (1, 2, ...)
+    """
+    return np.array([x['attr' + str(attr_num)] for x in query_res], dtype=np.float)
+
+def empty_zipped_array(num_nones):
+    """
+        prepare return values for cases of empty weights objects (no neighbors)
+        Input:
+        @param num_nones int: number of columns (e.g., 4)
+        Output:
+        [(None, None, None, None)]
+    """
+
+    return [tuple([None] * num_nones)]
--- a/release/python/0.3.1/crankshaft/crankshaft/random_seeds.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/random_seeds.py
@@ -0,0 +1,11 @@
+"""Random seed generator used for non-deterministic functions in crankshaft"""
+import random
+import numpy
+
+def set_random_seeds(value):
+    """
+    Set the seeds of the RNGs (Random Number Generators)
+    used internally.
+    """
+    random.seed(value)
+    numpy.random.seed(value)
--- a/release/python/0.3.1/crankshaft/crankshaft/segmentation/init.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/segmentation/init.py
@@ -0,0 +1 @@
+from segmentation import * 
--- a/release/python/0.3.1/crankshaft/crankshaft/segmentation/segmentation.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/segmentation/segmentation.py
@@ -0,0 +1,176 @@
+"""
+Segmentation creation and prediction
+"""
+
+import sklearn
+import numpy as np
+import plpy
+from sklearn.ensemble import GradientBoostingRegressor
+from sklearn import metrics
+from sklearn.cross_validation import train_test_split
+
+# Lower level functions
+#----------------------
+
+def replace_nan_with_mean(array):
+    """
+        Input:
+            @param array: an array of floats which may have null-valued entries
+        Output:
+            array with nans filled in with the mean of the dataset
+    """
+    # returns an array of rows and column indices
+    indices = np.where(np.isnan(array))
+
+    # iterate through entries which have nan values
+    for row, col in zip(*indices):
+            array[row, col] = np.mean(array[~np.isnan(array[:, col]), col])
+
+    return array
+
+def get_data(variable, feature_columns, query):
+    """
+        Fetch data from the database, clean, and package into
+          numpy arrays
+        Input:
+            @param variable: name of the target variable
+            @param feature_columns: list of column names
+            @param query: subquery that data is pulled from for the packaging
+        Output:
+            prepared data, packaged into NumPy arrays
+    """
+
+    columns = ','.join(['array_agg("{col}") As "{col}"'.format(col=col) for col in feature_columns])
+
+    try:
+        data = plpy.execute('''SELECT array_agg("{variable}") As target, {columns} FROM ({query}) As a'''.format(
+            variable=variable,
+            columns=columns,
+            query=query))
+    except Exception, e:
+        plpy.error('Failed to access data to build segmentation model: %s' % e)
+
+    # extract target data from plpy object
+    target = np.array(data[0]['target'])
+
+    # put n feature data arrays into an n x m array of arrays
+    features = np.column_stack([np.array(data[0][col], dtype=float) for col in feature_columns])
+
+    return replace_nan_with_mean(target), replace_nan_with_mean(features)
+
+# High level interface
+# --------------------
+
+def create_and_predict_segment_agg(target, features, target_features, target_ids, model_parameters):
+    """
+    Version of create_and_predict_segment that works on arrays that come stright form the SQL calling
+    the function.
+
+        Input:
+            @param target: The 1D array of lenth NSamples containing the target variable we want the model to predict
+            @param features: Thw 2D array of size NSamples * NFeatures that form the imput to the model
+            @param target_ids: A 1D array of target_ids that will be used to associate the results of the prediction with the rows which they come from
+            @param model_parameters: A dictionary containing parameters for the model.
+    """
+
+    clean_target = replace_nan_with_mean(target)
+    clean_features = replace_nan_with_mean(features)
+    target_features = replace_nan_with_mean(target_features)
+
+    model, accuracy = train_model(clean_target, clean_features, model_parameters, 0.2)
+    prediction = model.predict(target_features)
+    accuracy_array = [accuracy]*prediction.shape[0]
+    return zip(target_ids, prediction, np.full(prediction.shape, accuracy_array))
+
+
+
+def create_and_predict_segment(query, variable, target_query, model_params):
+    """
+    generate a segment with machine learning
+    Stuart Lynn
+    """
+
+    ## fetch column names
+    try:
+        columns = plpy.execute('SELECT * FROM ({query}) As a LIMIT 1  '.format(query=query))[0].keys()
+    except Exception, e:
+        plpy.error('Failed to build segmentation model: %s' % e)
+
+    ## extract column names to be used in building the segmentation model
+    feature_columns = set(columns) - set([variable, 'cartodb_id', 'the_geom', 'the_geom_webmercator'])
+    ## get data from database
+    target, features = get_data(variable, feature_columns, query)
+
+    model, accuracy = train_model(target, features, model_params, 0.2)
+    cartodb_ids, result = predict_segment(model, feature_columns, target_query)
+    accuracy_array = [accuracy]*result.shape[0]
+    return zip(cartodb_ids, result, accuracy_array)
+
+
+def train_model(target, features, model_params, test_split):
+    """
+        Train the Gradient Boosting model on the provided data and calculate the accuracy of the model
+        Input:
+            @param target: 1D Array of the variable that the model is to be trianed to predict
+            @param features: 2D Array NSamples * NFeatures to use in trining the model
+            @param model_params: A dictionary of model parameters, the full specification can be found on the
+                scikit learn page for [GradientBoostingRegressor](http://scikit-learn.org/stable/modules/generated/sklearn.ensemble.GradientBoostingRegressor.html)
+            @parma test_split: The fraction of the data to be withheld for testing the model / calculating the accuray
+    """
+    features_train, features_test, target_train, target_test = train_test_split(features, target, test_size=test_split)
+    model = GradientBoostingRegressor(**model_params)
+    model.fit(features_train, target_train)
+    accuracy = calculate_model_accuracy(model, features, target)
+    return model, accuracy
+
+def calculate_model_accuracy(model, features, target):
+    """
+        Calculate the mean squared error of the model prediction
+        Input:
+            @param model: model trained from input features
+            @param features: features to make a prediction from
+            @param target: target to compare prediction to
+        Output:
+            mean squared error of the model prection compared to the target
+    """
+    prediction = model.predict(features)
+    return metrics.mean_squared_error(prediction, target)
+
+def predict_segment(model, features, target_query):
+    """
+    Use the provided model to predict the values for the new feature set
+        Input:
+            @param model: The pretrained model
+            @features: A list of features to use in the model prediction (list of column names)
+            @target_query: The query to run to obtain the data to predict on and the cartdb_ids associated with it.
+    """
+
+    batch_size = 1000
+    joined_features = ','.join(['"{0}"::numeric'.format(a) for a in features])
+
+    try:
+        cursor = plpy.cursor('SELECT Array[{joined_features}] As features FROM ({target_query}) As a'.format(
+            joined_features=joined_features,
+            target_query=target_query))
+    except Exception, e:
+        plpy.error('Failed to build segmentation model: %s' % e)
+
+    results = []
+
+    while True:
+        rows = cursor.fetch(batch_size)
+        if not rows:
+            break
+        batch = np.row_stack([np.array(row['features'], dtype=float) for row in rows])
+
+        #Need to fix this. Should be global mean. This will cause weird effects
+        batch = replace_nan_with_mean(batch)
+        prediction = model.predict(batch)
+        results.append(prediction)
+
+    try:
+        cartodb_ids = plpy.execute('''SELECT array_agg(cartodb_id ORDER BY cartodb_id) As cartodb_ids FROM ({0}) As a'''.format(target_query))[0]['cartodb_ids']
+    except Exception, e:
+        plpy.error('Failed to build segmentation model: %s' % e)
+
+    return cartodb_ids, np.concatenate(results)
--- a/release/python/0.3.1/crankshaft/crankshaft/space_time_dynamics/init.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/space_time_dynamics/init.py
@@ -0,0 +1,2 @@
+"""Import all functions from clustering libraries."""
+from markov import *
--- a/release/python/0.3.1/crankshaft/crankshaft/space_time_dynamics/markov.py
+++ b/release/python/0.3.1/crankshaft/crankshaft/space_time_dynamics/markov.py
@@ -0,0 +1,189 @@
+"""
+Spatial dynamics measurements using Spatial Markov
+"""
+
+
+import numpy as np
+import pysal as ps
+import plpy
+import crankshaft.pysal_utils as pu
+
+def spatial_markov_trend(subquery, time_cols, num_classes=7,
+                         w_type='knn', num_ngbrs=5, permutations=0,
+                         geom_col='the_geom', id_col='cartodb_id'):
+    """
+        Predict the trends of a unit based on:
+        1. history of its transitions to different classes (e.g., 1st quantile -> 2nd quantile)
+        2. average class of its neighbors
+
+        Inputs:
+        @param subquery string: e.g., SELECT the_geom, cartodb_id,
+          interesting_time_column FROM table_name
+        @param time_cols list of strings: list of strings of column names
+        @param num_classes (optional): number of classes to break distribution
+          of values into. Currently uses quantile bins.
+        @param w_type string (optional): weight type ('knn' or 'queen')
+        @param num_ngbrs int (optional): number of neighbors (if knn type)
+        @param permutations int (optional): number of permutations for test
+          stats
+        @param geom_col string (optional): name of column which contains the
+          geometries
+        @param id_col string (optional): name of column which has the ids of
+          the table
+
+        Outputs:
+        @param trend_up float: probablity that a geom will move to a higher
+          class
+        @param trend_down float: probablity that a geom will move to a lower
+          class
+        @param trend float: (trend_up - trend_down) / trend_static
+        @param volatility float: a measure of the volatility based on
+          probability stddev(prob array)
+    """
+
+    if len(time_cols) < 2:
+        plpy.error('More than one time column needs to be passed')
+
+    qvals = {"id_col": id_col,
+             "time_cols": time_cols,
+             "geom_col": geom_col,
+             "subquery": subquery,
+             "num_ngbrs": num_ngbrs}
+
+    try:
+        query_result = plpy.execute(
+            pu.construct_neighbor_query(w_type, qvals)
+        )
+        if len(query_result) == 0:
+            return zip([None], [None], [None], [None], [None])
+    except plpy.SPIError, err:
+        plpy.debug('Query failed with exception %s: %s' % (err, pu.construct_neighbor_query(w_type, qvals)))
+        plpy.error('Query failed, check the input parameters')
+        return zip([None], [None], [None], [None], [None])
+
+    ## build weight
+    weights = pu.get_weight(query_result, w_type)
+    weights.transform = 'r'
+
+    ## prep time data
+    t_data = get_time_data(query_result, time_cols)
+
+    plpy.debug('shape of t_data %d, %d' % t_data.shape)
+    plpy.debug('number of weight objects: %d, %d' % (weights.sparse).shape)
+    plpy.debug('first num elements: %f' % t_data[0, 0])
+
+    sp_markov_result = ps.Spatial_Markov(t_data,
+                                         weights,
+                                         k=num_classes,
+                                         fixed=False,
+                                         permutations=permutations)
+
+    ## get lag classes
+    lag_classes = ps.Quantiles(
+        ps.lag_spatial(weights, t_data[:, -1]),
+        k=num_classes).yb
+
+    ## look up probablity distribution for each unit according to class and lag class
+    prob_dist = get_prob_dist(sp_markov_result.P,
+                              lag_classes,
+                              sp_markov_result.classes[:, -1])
+
+    ## find the ups and down and overall distribution of each cell
+    trend_up, trend_down, trend, volatility = get_prob_stats(prob_dist,
+                                                             sp_markov_result.classes[:, -1])
+
+    ## output the results
+    return zip(trend, trend_up, trend_down, volatility, weights.id_order)
+
+def get_time_data(markov_data, time_cols):
+    """
+        Extract the time columns and bin appropriately
+    """
+    num_attrs = len(time_cols)
+    return np.array([[x['attr' + str(i)] for x in markov_data]
+                     for i in range(1, num_attrs+1)], dtype=float).transpose()
+
+## not currently used
+def rebin_data(time_data, num_time_per_bin):
+    """
+        Convert an n x l matrix into an (n/m) x l matrix where the values are
+         reduced (averaged) for the intervening states:
+          1 2 3 4    1.5 3.5
+          5 6 7 8 -> 5.5 7.5
+          9 8 7 6    8.5 6.5
+          5 4 3 2    4.5 2.5
+
+          if m = 2, the 4 x 4 matrix is transformed to a 2 x 4 matrix.
+
+        This process effectively resamples the data at a longer time span n
+         units longer than the input data.
+        For cases when there is a remainder (remainder(5/3) = 2), the remaining
+         two columns are binned together as the last time period, while the
+         first three are binned together for the first period.
+
+        Input:
+          @param time_data n x l  ndarray: measurements of an attribute at
+           different time intervals
+          @param num_time_per_bin int: number of columns to average into a new
+           column
+        Output:
+          ceil(n / m) x l ndarray of resampled time series
+    """
+
+    if time_data.shape[1] % num_time_per_bin == 0:
+        ## if fit is perfect, then use it
+        n_max = time_data.shape[1] / num_time_per_bin
+    else:
+        ## fit remainders into an additional column
+        n_max = time_data.shape[1] / num_time_per_bin + 1
+
+    return np.array([time_data[:, num_time_per_bin * i:num_time_per_bin * (i+1)].mean(axis=1)
+                     for i in range(n_max)]).T
+
+def get_prob_dist(transition_matrix, lag_indices, unit_indices):
+    """
+        Given an array of transition matrices, look up the probability
+        associated with the arrangements passed
+
+        Input:
+        @param transition_matrix ndarray[k,k,k]:
+        @param lag_indices ndarray:
+        @param unit_indices ndarray:
+
+        Output:
+        Array of probability distributions
+    """
+
+    return np.array([transition_matrix[(lag_indices[i], unit_indices[i])]
+                     for i in range(len(lag_indices))])
+
+def get_prob_stats(prob_dist, unit_indices):
+    """
+        get the statistics of the probability distributions
+
+        Outputs:
+            @param trend_up ndarray(float): sum of probabilities for upward
+               movement (relative to the unit index of that prob)
+            @param trend_down ndarray(float): sum of probabilities for downward
+               movement (relative to the unit index of that prob)
+            @param trend ndarray(float): difference of upward and downward
+               movements
+    """
+
+    num_elements = len(unit_indices)
+    trend_up = np.empty(num_elements, dtype=float)
+    trend_down = np.empty(num_elements, dtype=float)
+    trend = np.empty(num_elements, dtype=float)
+
+    for i in range(num_elements):
+        trend_up[i] = prob_dist[i, (unit_indices[i]+1):].sum()
+        trend_down[i] = prob_dist[i, :unit_indices[i]].sum()
+        if prob_dist[i, unit_indices[i]] > 0.0:
+            trend[i] = (trend_up[i] - trend_down[i]) / prob_dist[i, unit_indices[i]]
+        else:
+            trend[i] = None
+
+    ## calculate volatility of distribution
+    volatility = prob_dist.std(axis=1)
+
+    return trend_up, trend_down, trend, volatility
--- a/release/python/0.3.1/crankshaft/setup.py
+++ b/release/python/0.3.1/crankshaft/setup.py
@@ -0,0 +1,49 @@
+
+"""
+CartoDB Spatial Analysis Python Library
+See:
+https://github.com/CartoDB/crankshaft
+"""
+
+from setuptools import setup, find_packages
+
+setup(
+    name='crankshaft',
+
+    version='0.0.0',
+
+    description='CartoDB Spatial Analysis Python Library',
+
+    url='https://github.com/CartoDB/crankshaft',
+
+    author='Data Services Team - CartoDB',
+    author_email='dataservices@cartodb.com',
+
+    license='MIT',
+
+    classifiers=[
+        'Development Status :: 3 - Alpha',
+        'Intended Audience :: Mapping comunity',
+        'Topic :: Maps :: Mapping Tools',
+        'License :: OSI Approved :: MIT License',
+        'Programming Language :: Python :: 2.7',
+    ],
+
+    keywords='maps mapping tools spatial analysis geostatistics',
+
+    packages=find_packages(exclude=['contrib', 'docs', 'tests']),
+
+    extras_require={
+        'dev': ['unittest'],
+        'test': ['unittest', 'nose', 'mock'],
+    },
+
+    # The choice of component versions is dictated by what's
+    # provisioned in the production servers.
+    # IMPORTANT NOTE: please don't change this line. Instead issue a ticket to systems for evaluation.
+    install_requires=['joblib==0.8.3', 'numpy==1.6.1', 'scipy==0.14.0', 'pysal==1.11.2', 'scikit-learn==0.14.1'],
+
+    requires=['pysal', 'numpy', 'sklearn'],
+
+    test_suite='test'
+)
--- a/release/python/0.3.1/crankshaft/setup.py-r
+++ b/release/python/0.3.1/crankshaft/setup.py-r
@@ -0,0 +1,49 @@
+
+"""
+CartoDB Spatial Analysis Python Library
+See:
+https://github.com/CartoDB/crankshaft
+"""
+
+from setuptools import setup, find_packages
+
+setup(
+    name='crankshaft',
+
+    version='0.0.0',
+
+    description='CartoDB Spatial Analysis Python Library',
+
+    url='https://github.com/CartoDB/crankshaft',
+
+    author='Data Services Team - CartoDB',
+    author_email='dataservices@cartodb.com',
+
+    license='MIT',
+
+    classifiers=[
+        'Development Status :: 3 - Alpha',
+        'Intended Audience :: Mapping comunity',
+        'Topic :: Maps :: Mapping Tools',
+        'License :: OSI Approved :: MIT License',
+        'Programming Language :: Python :: 2.7',
+    ],
+
+    keywords='maps mapping tools spatial analysis geostatistics',
+
+    packages=find_packages(exclude=['contrib', 'docs', 'tests']),
+
+    extras_require={
+        'dev': ['unittest'],
+        'test': ['unittest', 'nose', 'mock'],
+    },
+
+    # The choice of component versions is dictated by what's
+    # provisioned in the production servers.
+    # IMPORTANT NOTE: please don't change this line. Instead issue a ticket to systems for evaluation.
+    install_requires=['joblib==0.8.3', 'numpy==1.6.1', 'scipy==0.14.0', 'pysal==1.11.2', 'scikit-learn==0.14.1'],
+
+    requires=['pysal', 'numpy', 'sklearn'],
+
+    test_suite='test'
+)
--- a/release/python/0.3.1/crankshaft/test/fixtures/kmeans.json
+++ b/release/python/0.3.1/crankshaft/test/fixtures/kmeans.json
@@ -0,0 +1 @@
+[{"xs": [9.917239463463458, 9.042767302696836, 10.798929825304187, 8.763751051762995, 11.383882954810852, 11.018206993460897, 8.939526075734316, 9.636159342565252, 10.136336896960058, 11.480610059427342, 12.115011910725082, 9.173267848893428, 10.239300931201738, 8.00012512174072, 8.979962292282131, 9.318376124429575, 10.82259513754284, 10.391747171927115, 10.04904588886165, 9.96007160443463, -0.78825626804569, -0.3511819898577426, -1.2796410003764271, -0.3977049391203402, 2.4792311265774667, 1.3670311632092624, 1.2963504112955613, 2.0404844103073025, -1.6439708506073223, 0.39122885445645805, 1.026031821452462, -0.04044477160482201, -0.7442346929085072, -0.34687120826243034, -0.23420359971379054, -0.5919629143336708, -0.202903054395391, -0.1893399644841902, 1.9331834251176807, -0.12321054392851609], "ys": [8.735627063679981, 9.857615954045011, 10.81439096759407, 10.586727233537191, 9.232919976568622, 11.54281262696508, 8.392787912674466, 9.355119689665944, 9.22380703532752, 10.542142541823122, 10.111980619367035, 10.760836265570738, 8.819773453269804, 10.25325722424816, 9.802077905695608, 8.955420161552611, 9.833801181904477, 10.491684241001613, 12.076108669877556, 11.74289693140474, -0.5685725015474191, -0.5715728344759778, -0.20180907868635137, 0.38431336480089595, -0.3402202083684184, -2.4652736827783586, 0.08295159401756182, 0.8503818775816505, 0.6488691600321166, 0.5794762568230527, -0.6770063922144103, -0.6557616416449478, -1.2834289177624947, 0.1096318195532717, -0.38986922166834853, -1.6224497706950238, 0.09429787743230483, 0.4005097316394031, -0.508002811195673, -1.2473463371366507], "ids": [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39]}]
--- a/release/python/0.3.1/crankshaft/test/fixtures/markov.json
+++ b/release/python/0.3.1/crankshaft/test/fixtures/markov.json
@@ -0,0 +1 @@
+[[0.11111111111111112, 0.10000000000000001, 0.0, 0.35213633723318016, 0], [0.03125, 0.030303030303030304, 0.0, 0.3850273981640871, 1], [0.03125, 0.030303030303030304, 0.0, 0.3850273981640871, 2], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 3], [0.0, 0.065217391304347824, 0.065217391304347824, 0.33605067580764519, 4], [-0.054054054054054057, 0.0, 0.05128205128205128, 0.37488547451276033, 5], [0.1875, 0.23999999999999999, 0.12, 0.23731835158706122, 6], [0.034482758620689655, 0.0625, 0.03125, 0.35388469167230169, 7], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 8], [0.19047619047619049, 0.16, 0.0, 0.32594478059941379, 9], [-0.23529411764705882, 0.0, 0.19047619047619047, 0.31356338348865387, 10], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 11], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 12], [0.027777777777777783, 0.11111111111111112, 0.088888888888888892, 0.30339641183779581, 13], [0.03125, 0.030303030303030304, 0.0, 0.3850273981640871, 14], [0.052631578947368425, 0.090909090909090912, 0.045454545454545456, 0.33352611505171165, 15], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 16], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 17], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 18], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 19], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 20], [0.078947368421052641, 0.073170731707317083, 0.0, 0.36451788667842738, 21], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 22], [-0.16666666666666663, 0.18181818181818182, 0.27272727272727271, 0.20246415864836445, 23], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 24], [0.1875, 0.23999999999999999, 0.12, 0.23731835158706122, 25], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 26], [-0.043478260869565216, 0.0, 0.041666666666666664, 0.37950991789118999, 27], [0.22222222222222221, 0.18181818181818182, 0.0, 0.31701083225750354, 28], [-0.054054054054054057, 0.0, 0.05128205128205128, 0.37488547451276033, 29], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 30], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 31], [0.030303030303030304, 0.078947368421052627, 0.052631578947368418, 0.33560628561957595, 32], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 33], [0.034482758620689655, 0.0625, 0.03125, 0.35388469167230169, 34], [0.0, 0.10000000000000001, 0.10000000000000001, 0.30331501776206204, 35], [-0.054054054054054057, 0.0, 0.05128205128205128, 0.37488547451276033, 36], [0.11111111111111112, 0.10000000000000001, 0.0, 0.35213633723318016, 37], [-0.22222222222222224, 0.13333333333333333, 0.26666666666666666, 0.22310934040908681, 38], [-0.0625, 0.095238095238095233, 0.14285714285714285, 0.28634850244519822, 39], [0.034482758620689655, 0.0625, 0.03125, 0.35388469167230169, 40], [0.11111111111111112, 0.10000000000000001, 0.0, 0.35213633723318016, 41], [0.052631578947368425, 0.090909090909090912, 0.045454545454545456, 0.33352611505171165, 42], [0.0, 0.0, 0.0, 0.40000000000000002, 43], [0.0, 0.065217391304347824, 0.065217391304347824, 0.33605067580764519, 44], [0.078947368421052641, 0.073170731707317083, 0.0, 0.36451788667842738, 45], [0.052631578947368425, 0.090909090909090912, 0.045454545454545456, 0.33352611505171165, 46], [-0.20512820512820512, 0.0, 0.1702127659574468, 0.32172013908826891, 47]]
--- a/release/python/0.3.1/crankshaft/test/fixtures/moran.json
+++ b/release/python/0.3.1/crankshaft/test/fixtures/moran.json
@@ -0,0 +1,52 @@
+[[0.9319096128346788, "HH"],
+[-1.135787401862846, "HL"],
+[0.11732030672508517, "LL"],
+[0.6152779669180425, "LL"],
+[-0.14657336660125297, "LH"],
+[0.6967858120189607, "LL"],
+[0.07949310115714454, "HH"],
+[0.4703198759258987, "HH"],
+[0.4421125200498064, "HH"],
+[0.5724288737143592, "LL"],
+[0.8970743435692062, "LL"],
+[0.18327334401918674, "LL"],
+[-0.01466729201304962, "HL"],
+[0.3481559372544409, "LL"],
+[0.06547094736902978, "LL"],
+[0.15482141569329988, "HH"],
+[0.4373841193538136, "HH"],
+[0.15971286468915544, "LL"],
+[1.0543588860308968, "HH"],
+[1.7372866900020818, "HH"],
+[1.091998586053999, "LL"],
+[0.1171572584252222, "HH"],
+[0.08438455015300014, "LL"],
+[0.06547094736902978, "LL"],
+[0.15482141569329985, "HH"],
+[1.1627044812890683, "HH"],
+[0.06547094736902978, "LL"],
+[0.795275137550483, "HH"],
+[0.18562939195219, "LL"],
+[0.3010757406693439, "LL"],
+[2.8205795942839376, "HH"],
+[0.11259190602909264, "LL"],
+[-0.07116352791516614, "HL"],
+[-0.09945240794119009, "LH"],
+[0.18562939195219, "LL"],
+[0.1832733440191868, "LL"],
+[-0.39054253768447705, "HL"],
+[-0.1672071289487642, "HL"],
+[0.3337669247916343, "HH"],
+[0.2584386102554792, "HH"],
+[-0.19733845476322634, "HL"],
+[-0.9379282899805409, "LH"],
+[-0.028770969951095866, "LH"],
+[0.051367269430983485, "LL"],
+[-0.2172548045913472, "LH"],
+[0.05136726943098351, "LL"],
+[0.04191046803899837, "LL"],
+[0.7482357030403517, "HH"],
+[-0.014585767863118111, "LH"],
+[0.5410013139159929, "HH"],
+[1.0223932668429925, "LL"],
+[1.4179402898927476, "LL"]]
--- a/release/python/0.3.1/crankshaft/test/fixtures/neighbors.json
+++ b/release/python/0.3.1/crankshaft/test/fixtures/neighbors.json
@@ -0,0 +1,54 @@
+[
+    {"neighbors": [48, 26, 20, 9, 31], "id": 1, "value": 0.5},
+    {"neighbors": [30, 16, 46, 3, 4], "id": 2, "value": 0.7},
+    {"neighbors": [46, 30, 2, 12, 16], "id": 3, "value": 0.2},
+    {"neighbors": [18, 30, 23, 2, 52], "id": 4, "value": 0.1},
+    {"neighbors": [47, 40, 45, 37, 28], "id": 5, "value": 0.3},
+    {"neighbors": [10, 21, 41, 14, 37], "id": 6, "value": 0.05},
+    {"neighbors": [8, 17, 43, 25, 12], "id": 7, "value": 0.4},
+    {"neighbors": [17, 25, 43, 22, 7], "id": 8, "value": 0.7},
+    {"neighbors": [39, 34, 1, 26, 48], "id": 9, "value": 0.5},
+    {"neighbors": [6, 37, 5, 45, 49], "id": 10, "value": 0.04},
+    {"neighbors": [51, 41, 29, 21, 14], "id": 11, "value": 0.08},
+    {"neighbors": [44, 46, 43, 50, 3], "id": 12, "value": 0.2},
+    {"neighbors": [45, 23, 14, 28, 18], "id": 13, "value": 0.4},
+    {"neighbors": [41, 29, 13, 23, 6], "id": 14, "value": 0.2},
+    {"neighbors": [36, 27, 32, 33, 24], "id": 15, "value": 0.3},
+    {"neighbors": [19, 2, 46, 44, 28], "id": 16, "value": 0.4},
+    {"neighbors": [8, 25, 43, 7, 22], "id": 17, "value": 0.6},
+    {"neighbors": [23, 4, 29, 14, 13], "id": 18, "value": 0.3},
+    {"neighbors": [42, 16, 28, 26, 40], "id": 19, "value": 0.7},
+    {"neighbors": [1, 48, 31, 26, 42], "id": 20, "value": 0.8},
+    {"neighbors": [41, 6, 11, 14, 10], "id": 21, "value": 0.1},
+    {"neighbors": [25, 50, 43, 31, 44], "id": 22, "value": 0.4},
+    {"neighbors": [18, 13, 14, 4, 2], "id": 23, "value": 0.1},
+    {"neighbors": [33, 49, 34, 47, 27], "id": 24, "value": 0.3},
+    {"neighbors": [43, 8, 22, 17, 50], "id": 25, "value": 0.4},
+    {"neighbors": [1, 42, 20, 31, 48], "id": 26, "value": 0.6},
+    {"neighbors": [32, 15, 36, 33, 24], "id": 27, "value": 0.3},
+    {"neighbors": [40, 45, 19, 5, 13], "id": 28, "value": 0.8},
+    {"neighbors": [11, 51, 41, 14, 18], "id": 29, "value": 0.3},
+    {"neighbors": [2, 3, 4, 46, 18], "id": 30, "value": 0.1},
+    {"neighbors": [20, 26, 1, 50, 48], "id": 31, "value": 0.9},
+    {"neighbors": [27, 36, 15, 49, 24], "id": 32, "value": 0.3},
+    {"neighbors": [24, 27, 49, 34, 32], "id": 33, "value": 0.4},
+    {"neighbors": [47, 9, 39, 40, 24], "id": 34, "value": 0.3},
+    {"neighbors": [38, 51, 11, 21, 41], "id": 35, "value": 0.3},
+    {"neighbors": [15, 32, 27, 49, 33], "id": 36, "value": 0.2},
+    {"neighbors": [49, 10, 5, 47, 24], "id": 37, "value": 0.5},
+    {"neighbors": [35, 21, 51, 11, 41], "id": 38, "value": 0.4},
+    {"neighbors": [9, 34, 48, 1, 47], "id": 39, "value": 0.6},
+    {"neighbors": [28, 47, 5, 9, 34], "id": 40, "value": 0.5},
+    {"neighbors": [11, 14, 29, 21, 6], "id": 41, "value": 0.4},
+    {"neighbors": [26, 19, 1, 9, 31], "id": 42, "value": 0.2},
+    {"neighbors": [25, 12, 8, 22, 44], "id": 43, "value": 0.3},
+    {"neighbors": [12, 50, 46, 16, 43], "id": 44, "value": 0.2},
+    {"neighbors": [28, 13, 5, 40, 19], "id": 45, "value": 0.3},
+    {"neighbors": [3, 12, 44, 2, 16], "id": 46, "value": 0.2},
+    {"neighbors": [34, 40, 5, 49, 24], "id": 47, "value": 0.3},
+    {"neighbors": [1, 20, 26, 9, 39], "id": 48, "value": 0.5},
+    {"neighbors": [24, 37, 47, 5, 33], "id": 49, "value": 0.2},
+    {"neighbors": [44, 22, 31, 42, 26], "id": 50, "value": 0.6},
+    {"neighbors": [11, 29, 41, 14, 21], "id": 51, "value": 0.01},
+    {"neighbors": [4, 18, 29, 51, 23], "id": 52, "value": 0.01}
+  ]
--- a/release/python/0.3.1/crankshaft/test/fixtures/neighbors_markov.json
+++ b/release/python/0.3.1/crankshaft/test/fixtures/neighbors_markov.json
--- a/release/python/0.3.1/crankshaft/test/helper.py
+++ b/release/python/0.3.1/crankshaft/test/helper.py
@@ -0,0 +1,13 @@
+import unittest
+
+from mock_plpy import MockPlPy
+plpy = MockPlPy()
+
+import sys
+sys.modules['plpy'] = plpy
+
+import os
+
+def fixture_file(name):
+    dir = os.path.dirname(os.path.realpath(__file__))
+    return os.path.join(dir, 'fixtures', name)
--- a/release/python/0.3.1/crankshaft/test/mock_plpy.py
+++ b/release/python/0.3.1/crankshaft/test/mock_plpy.py
@@ -0,0 +1,52 @@
+import re
+
+class MockCursor:
+    def __init__(self, data):
+        self.cursor_pos = 0
+        self.data = data
+
+    def fetch(self, batch_size):
+        batch = self.data[self.cursor_pos : self.cursor_pos + batch_size]
+        self.cursor_pos += batch_size
+        return batch
+
+
+class MockPlPy:
+    def __init__(self):
+        self._reset()
+
+    def _reset(self):
+        self.infos = []
+        self.notices = []
+        self.debugs = []
+        self.logs = []
+        self.warnings = []
+        self.errors = []
+        self.fatals = []
+        self.executes = []
+        self.results = []
+        self.prepares = []
+        self.results = []
+
+    def _define_result(self, query, result):
+        pattern = re.compile(query, re.IGNORECASE | re.MULTILINE)
+        self.results.append([pattern, result])
+
+    def notice(self, msg):
+        self.notices.append(msg)
+
+    def debug(self, msg):
+        self.notices.append(msg)
+
+    def info(self, msg):
+        self.infos.append(msg)
+
+    def cursor(self, query):
+        data = self.execute(query)
+        return MockCursor(data)
+
+    def execute(self, query): # TODO: additional arguments
+       for result in self.results:
+          if result[0].match(query):
+            return result[1]
+       return []
--- a/release/python/0.3.1/crankshaft/test/test_cluster_kmeans.py
+++ b/release/python/0.3.1/crankshaft/test/test_cluster_kmeans.py
@@ -0,0 +1,38 @@
+import unittest
+import numpy as np
+
+
+# from mock_plpy import MockPlPy
+# plpy = MockPlPy()
+#
+# import sys
+# sys.modules['plpy'] = plpy
+from helper import plpy, fixture_file
+import numpy as np
+import crankshaft.clustering as cc
+import crankshaft.pysal_utils as pu
+from crankshaft import random_seeds
+import json
+
+class KMeansTest(unittest.TestCase):
+    """Testing class for Moran's I functions"""
+
+    def setUp(self):
+        plpy._reset()
+        self.cluster_data = json.loads(open(fixture_file('kmeans.json')).read())
+        self.params = {"subquery": "select * from table",
+                       "no_clusters": "10"
+                       }
+
+    def test_kmeans(self):
+        data = self.cluster_data
+        plpy._define_result('select' ,data)
+        clusters = cc.kmeans('subquery', 2)
+        labels  = [a[1] for a in clusters]
+        c1 = [a for a in clusters if a[1]==0]
+        c2 = [a for a in clusters if a[1]==1]
+
+        self.assertEqual(len(np.unique(labels)),2)
+        self.assertEqual(len(c1),20)
+        self.assertEqual(len(c2),20)
+
--- a/release/python/0.3.1/crankshaft/test/test_clustering_moran.py
+++ b/release/python/0.3.1/crankshaft/test/test_clustering_moran.py
@@ -0,0 +1,88 @@
+import unittest
+import numpy as np
+
+
+# from mock_plpy import MockPlPy
+# plpy = MockPlPy()
+#
+# import sys
+# sys.modules['plpy'] = plpy
+from helper import plpy, fixture_file
+
+import crankshaft.clustering as cc
+import crankshaft.pysal_utils as pu
+from crankshaft import random_seeds
+import json
+
+class MoranTest(unittest.TestCase):
+    """Testing class for Moran's I functions"""
+
+    def setUp(self):
+        plpy._reset()
+        self.params = {"id_col": "cartodb_id",
+                       "attr1": "andy",
+                       "attr2": "jay_z",
+                       "subquery": "SELECT * FROM a_list",
+                       "geom_col": "the_geom",
+                       "num_ngbrs": 321}
+        self.params_markov = {"id_col": "cartodb_id",
+                              "time_cols": ["_2013_dec", "_2014_jan", "_2014_feb"],
+                              "subquery": "SELECT * FROM a_list",
+                              "geom_col": "the_geom",
+                              "num_ngbrs": 321}
+        self.neighbors_data = json.loads(open(fixture_file('neighbors.json')).read())
+        self.moran_data = json.loads(open(fixture_file('moran.json')).read())
+
+    def test_map_quads(self):
+        """Test map_quads"""
+        self.assertEqual(cc.map_quads(1), 'HH')
+        self.assertEqual(cc.map_quads(2), 'LH')
+        self.assertEqual(cc.map_quads(3), 'LL')
+        self.assertEqual(cc.map_quads(4), 'HL')
+        self.assertEqual(cc.map_quads(33), None)
+        self.assertEqual(cc.map_quads('andy'), None)
+
+    def test_quad_position(self):
+        """Test lisa_sig_vals"""
+
+        quads = np.array([1, 2, 3, 4], np.int)
+
+        ans = np.array(['HH', 'LH', 'LL', 'HL'])
+        test_ans = cc.quad_position(quads)
+
+        self.assertTrue((test_ans == ans).all())
+
+    def test_moran_local(self):
+        """Test Moran's I local"""
+        data = [ { 'id': d['id'], 'attr1': d['value'], 'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1234)
+        result = cc.moran_local('subquery', 'value', 'knn', 5, 99, 'the_geom', 'cartodb_id')
+        result = [(row[0], row[1]) for row in result]
+        expected = self.moran_data
+        for ([res_val, res_quad], [exp_val, exp_quad]) in zip(result, expected):
+            self.assertAlmostEqual(res_val, exp_val)
+            self.assertEqual(res_quad, exp_quad)
+
+    def test_moran_local_rate(self):
+        """Test Moran's I rate"""
+        data = [ { 'id': d['id'], 'attr1': d['value'], 'attr2': 1, 'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1234)
+        result = cc.moran_local_rate('subquery', 'numerator', 'denominator', 'knn', 5, 99, 'the_geom', 'cartodb_id')
+        print 'result == None? ', result == None
+        result = [(row[0], row[1]) for row in result]
+        expected = self.moran_data
+        for ([res_val, res_quad], [exp_val, exp_quad]) in zip(result, expected):
+            self.assertAlmostEqual(res_val, exp_val)
+
+    def test_moran(self):
+        """Test Moran's I global"""
+        data = [{ 'id': d['id'], 'attr1': d['value'], 'neighbors': d['neighbors'] } for d in self.neighbors_data]
+        plpy._define_result('select', data)
+        random_seeds.set_random_seeds(1235)
+        result = cc.moran('table', 'value', 'knn', 5, 99, 'the_geom', 'cartodb_id')
+        print 'result == None?', result == None
+        result_moran = result[0][0]
+        expected_moran = np.array([row[0] for row in self.moran_data]).mean()
+        self.assertAlmostEqual(expected_moran, result_moran, delta=10e-2)
--- a/release/python/0.3.1/crankshaft/test/test_pysal_utils.py
+++ b/release/python/0.3.1/crankshaft/test/test_pysal_utils.py
@@ -0,0 +1,142 @@
+import unittest
+
+import crankshaft.pysal_utils as pu
+from crankshaft import random_seeds
+
+
+class PysalUtilsTest(unittest.TestCase):
+    """Testing class for utility functions related to PySAL integrations"""
+
+    def setUp(self):
+        self.params = {"id_col": "cartodb_id",
+                       "attr1": "andy",
+                       "attr2": "jay_z",
+                       "subquery": "SELECT * FROM a_list",
+                       "geom_col": "the_geom",
+                       "num_ngbrs": 321}
+
+        self.params_array = {"id_col": "cartodb_id",
+                             "time_cols": ["_2013_dec", "_2014_jan", "_2014_feb"],
+                             "subquery": "SELECT * FROM a_list",
+                             "geom_col": "the_geom",
+                             "num_ngbrs": 321}
+
+    def test_query_attr_select(self):
+        """Test query_attr_select"""
+
+        ans = "i.\"andy\"::numeric As attr1, " \
+              "i.\"jay_z\"::numeric As attr2, "
+
+        ans_array = "i.\"_2013_dec\"::numeric As attr1, " \
+                    "i.\"_2014_jan\"::numeric As attr2, " \
+                    "i.\"_2014_feb\"::numeric As attr3, "
+
+        self.assertEqual(pu.query_attr_select(self.params), ans)
+        self.assertEqual(pu.query_attr_select(self.params_array), ans_array)
+
+    def test_query_attr_where(self):
+        """Test pu.query_attr_where"""
+
+        ans = "idx_replace.\"andy\" IS NOT NULL AND " \
+              "idx_replace.\"jay_z\" IS NOT NULL AND " \
+              "idx_replace.\"jay_z\" <> 0"
+
+        ans_array = "idx_replace.\"_2013_dec\" IS NOT NULL AND " \
+                    "idx_replace.\"_2014_jan\" IS NOT NULL AND " \
+                    "idx_replace.\"_2014_feb\" IS NOT NULL"
+
+        self.assertEqual(pu.query_attr_where(self.params), ans)
+        self.assertEqual(pu.query_attr_where(self.params_array), ans_array)
+
+    def test_knn(self):
+        """Test knn neighbors constructor"""
+
+        ans = "SELECT i.\"cartodb_id\" As id, " \
+                     "i.\"andy\"::numeric As attr1, " \
+                     "i.\"jay_z\"::numeric As attr2, " \
+                     "(SELECT ARRAY(SELECT j.\"cartodb_id\" " \
+                                   "FROM (SELECT * FROM a_list) As j " \
+                                   "WHERE " \
+                                    "i.\"cartodb_id\" <> j.\"cartodb_id\" AND " \
+                                    "j.\"andy\" IS NOT NULL AND " \
+                                    "j.\"jay_z\" IS NOT NULL AND " \
+                                    "j.\"jay_z\" <> 0 " \
+                                   "ORDER BY " \
+                                    "j.\"the_geom\" <-> i.\"the_geom\" ASC " \
+                      "LIMIT 321)) As neighbors " \
+              "FROM (SELECT * FROM a_list) As i " \
+              "WHERE i.\"andy\" IS NOT NULL AND " \
+                    "i.\"jay_z\" IS NOT NULL AND " \
+                    "i.\"jay_z\" <> 0 " \
+              "ORDER BY i.\"cartodb_id\" ASC;"
+        
+        ans_array = "SELECT i.\"cartodb_id\" As id, " \
+              "i.\"_2013_dec\"::numeric As attr1, " \
+              "i.\"_2014_jan\"::numeric As attr2, " \
+              "i.\"_2014_feb\"::numeric As attr3, " \
+              "(SELECT ARRAY(SELECT j.\"cartodb_id\" " \
+                            "FROM (SELECT * FROM a_list) As j " \
+                            "WHERE i.\"cartodb_id\" <> j.\"cartodb_id\" AND " \
+                                  "j.\"_2013_dec\" IS NOT NULL AND " \
+                                  "j.\"_2014_jan\" IS NOT NULL AND " \
+                                  "j.\"_2014_feb\" IS NOT NULL " \
+                            "ORDER BY j.\"the_geom\" <-> i.\"the_geom\" ASC " \
+                            "LIMIT 321)) As neighbors " \
+              "FROM (SELECT * FROM a_list) As i " \
+              "WHERE i.\"_2013_dec\" IS NOT NULL AND " \
+                    "i.\"_2014_jan\" IS NOT NULL AND " \
+                    "i.\"_2014_feb\" IS NOT NULL "\
+              "ORDER BY i.\"cartodb_id\" ASC;"
+
+        self.assertEqual(pu.knn(self.params), ans)
+        self.assertEqual(pu.knn(self.params_array), ans_array)
+
+    def test_queen(self):
+        """Test queen neighbors constructor"""
+
+        ans = "SELECT i.\"cartodb_id\" As id, " \
+                     "i.\"andy\"::numeric As attr1, " \
+                     "i.\"jay_z\"::numeric As attr2, " \
+                     "(SELECT ARRAY(SELECT j.\"cartodb_id\" " \
+                                   "FROM (SELECT * FROM a_list) As j " \
+                                   "WHERE " \
+                                   "i.\"cartodb_id\" <> j.\"cartodb_id\" AND " \
+                                   "ST_Touches(i.\"the_geom\", " \
+                                              "j.\"the_geom\") AND " \
+                                   "j.\"andy\" IS NOT NULL AND " \
+                                   "j.\"jay_z\" IS NOT NULL AND " \
+                                   "j.\"jay_z\" <> 0)" \
+                                  ") As neighbors " \
+              "FROM (SELECT * FROM a_list) As i " \
+              "WHERE i.\"andy\" IS NOT NULL AND " \
+                    "i.\"jay_z\" IS NOT NULL AND " \
+                    "i.\"jay_z\" <> 0 " \
+              "ORDER BY i.\"cartodb_id\" ASC;"
+
+        self.assertEqual(pu.queen(self.params), ans)
+
+    def test_construct_neighbor_query(self):
+        """Test construct_neighbor_query"""
+
+        # Compare to raw knn query
+        self.assertEqual(pu.construct_neighbor_query('knn', self.params),
+                         pu.knn(self.params))
+
+    def test_get_attributes(self):
+        """Test get_attributes"""
+
+        ## need to add tests
+
+        self.assertEqual(True, True)
+
+    def test_get_weight(self):
+        """Test get_weight"""
+
+        self.assertEqual(True, True)
+
+    def test_empty_zipped_array(self):
+        """Test empty_zipped_array"""
+        ans2 = [(None, None)]
+        ans4 = [(None, None, None, None)]
+        self.assertEqual(pu.empty_zipped_array(2), ans2)
+        self.assertEqual(pu.empty_zipped_array(4), ans4)
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
abelvm	7c4849d62e	fixed duplicities	2016-09-30 18:32:20 +02:00
abelvm	45e30973a0	v.0.0.4	2016-09-29 17:20:25 +02:00
abelvm	d51b02b61e	Merge branch 'develop' of github.com:CartoDB/crankshaft into add-salesforce	2016-09-22 15:09:54 +02:00
abelvm	9b1a889133	first commit, just to save the work	2016-09-22 15:09:41 +02:00
Carla	c7bb9698a9	Merge pull request #135 from CartoDB/master Merge back releases 0.4.1 and 0.4.2 to develop	2016-09-22 12:38:11 +02:00
Carla Iriberri	b68f1c53b6	Release 0.4.2	2016-09-22 11:11:58 +02:00
Carla	a665e41a83	Merge pull request #134 from CartoDB/develop Release bugfix version 0.4.2	2016-09-22 11:02:19 +02:00
Carla	d0e967d22c	Merge pull request #133 from CartoDB/moran-global-fix Moran global fix	2016-09-22 10:49:52 +02:00
Carla	bcb73dee11	Merge pull request #132 from CartoDB/iriberri-patch-1 Typos in function names in Moran [docs]	2016-09-22 10:44:38 +02:00
Andy Eschbacher	c52eb507ea	revert to old query styles even though it breaks pep8	2016-09-21 16:43:30 -04:00
Andy Eschbacher	375f765531	more pep8 updates	2016-09-21 15:57:49 -04:00
Andy Eschbacher	e924abbacc	formatted for pep8	2016-09-21 13:09:42 -04:00
Andy Eschbacher	dc150e6936	add test for moran global	2016-09-21 12:55:58 -04:00
Andy Eschbacher	24b9cda5aa	import correct function from python lib	2016-09-21 12:55:21 -04:00
Carla	2ed9479e8f	Typos in function names	2016-09-21 18:23:27 +02:00
Carla Iriberri	84896e0634	Release 0.4.1 and update NEWS.md	2016-09-21 17:47:55 +02:00
Carla	ff0363894f	Merge pull request #131 from CartoDB/develop Release 0.4.1	2016-09-21 17:37:32 +02:00
Carla	d216b02928	Merge pull request #123 from CartoDB/error-reporting-moran-queries Error reporting moran and markov queries	2016-09-21 17:19:58 +02:00
Carla	eee612b12d	Merge pull request #129 from CartoDB/add-interpolation [interpolation] Add NN(s) method	2016-09-21 17:19:29 +02:00
Carla	4a65c88300	Merge pull request #120 from CartoDB/add-contour Let the user set the resolution [19]	2016-09-21 17:14:05 +02:00
abelvm	754e66c02c	leftovers and docs	2016-09-21 14:24:35 +02:00
abelvm	37e4fc7cad	add NN(s) support	2016-09-20 13:57:58 +02:00
abelvm	4902f6a9d4	add NN(s) support	2016-09-20 13:37:50 +02:00
abelvm	5f1cf951ea	Merge branch 'develop' of github.com:CartoDB/crankshaft into add-interpolation	2016-09-20 12:57:51 +02:00
abelvm	2ff20e596e	add NN(s) support	2016-09-20 12:57:41 +02:00
Andy Eschbacher	c229a85491	adding better reporting to markov	2016-09-02 18:02:56 -04:00
Andy Eschbacher	6d6d7ef2ba	removing notices	2016-09-02 17:58:19 -04:00
Andy Eschbacher	feab6f177e	clearer error message	2016-09-02 17:52:41 -04:00
Andy Eschbacher	a6440f2ef7	reports error string	2016-09-02 16:39:35 -04:00
abelvm	a530de80f1	back to the original signature	2016-09-02 14:57:21 +02:00
abelvm	139e86d414	back to the original signature	2016-09-02 14:43:48 +02:00
abelvm	b8ce37eb60	back to the original signature	2016-09-02 14:37:52 +02:00
abelvm	036a33aced	drop	2016-09-02 12:58:13 +02:00
abelvm	90f36b4058	drop	2016-09-02 12:35:54 +02:00
abelvm	df68d2454e	smart guessing optional	2016-09-02 12:24:31 +02:00
abelvm	bbdd4de6ee	smart guessing optional	2016-09-02 12:23:47 +02:00
Carla	2261d11de0	Reordering NEWS.md update step so that if somebody needs to go to a specific tag, the NEWS.md file is updated according to the version and not afterwards.	2016-08-30 14:25:24 +02:00
Carla	2a665a60db	Fix typo	2016-08-30 13:44:58 +02:00
Carla	22cdc53c49	Fix typos	2016-08-30 13:38:09 +02:00
Carla Iriberri	6ed9901103	Update NEWS.md for version 0.4.0	2016-08-30 12:51:57 +02:00
Carla Iriberri	02c98443be	Merge branch 'master' of https://github.com/CartoDB/crankshaft	2016-08-30 12:30:57 +02:00
Carla Iriberri	a42eb400d8	Release crankshaft 0.4.0	2016-08-30 12:30:39 +02:00
Carla	457f54007e	crankshaft typo	2016-08-30 12:27:10 +02:00
Carla	e071d323d4	Merge pull request #84 from CartoDB/add-PIA Add Pole of Inaccessibility [13]	2016-08-30 12:12:53 +02:00
Carla	23a576939b	Merge pull request #90 from CartoDB/add-densify-tinmaps Add densify / tinmaps functions [14] [15]	2016-08-30 12:12:26 +02:00
abelvm	2b75da1db2	fix test	2016-08-30 06:02:42 -04:00
abelvm	37eb85350d	fix projection	2016-08-30 05:55:34 -04:00
abelvm	72ee1a6d48	missed files	2016-08-30 05:50:20 -04:00
abelvm	605e6e88ae	remove redundant function	2016-08-30 05:47:20 -04:00
abelvm	7e88ca6c47	merge develop	2016-08-30 05:43:55 -04:00
Carla	c3e12036e7	Merge pull request #103 from CartoDB/add-contour Add contour [19]	2016-08-30 11:35:15 +02:00
abelvm	ef436546b4	add cdb_utils	2016-08-29 11:26:02 -04:00
abelvm	fa14b8d9bb	SRG test	2016-08-18 16:33:38 -04:00
abelvm	43d00a9976	Merge branch 'develop' of github.com:CartoDB/crankshaft into add-contour	2016-08-18 16:14:07 -04:00
abelvm	0f47659cf9	smart resolution guessing	2016-08-18 16:13:56 -04:00
Carla	5423684e46	Add 0.3.1 to NEWS.md	2016-08-18 18:03:31 +02:00
Carla	eeb3a01c62	Add instruction to update NEWS.md	2016-08-18 18:01:59 +02:00
Carla Iriberri	f127d4a18e	Update 0.3.1 version with voronoi fix	2016-08-18 17:38:24 +02:00
Carla Iriberri	9016e5f35e	Merge branch 'develop'	2016-08-18 17:35:36 +02:00
Carla	66a0c80aee	Merge pull request #114 from CartoDB/add-voronoi [FIX] Voronoi spurious segments [09]	2016-08-18 17:30:01 +02:00
abelvm	1061c85405	doc example fixed	2016-08-18 11:16:12 -04:00
abelvm	6fc460f6db	removed spikes	2016-08-18 10:16:26 -04:00
abelvm	ce86c4c5b4	removed spikes	2016-08-18 10:12:15 -04:00
abelvm	4352d3ded7	removed spurious segments	2016-08-18 09:36:15 -04:00
abelvm	cd0a802aff	Merge branch 'develop' of github.com:CartoDB/crankshaft into add-voronoi	2016-08-18 09:31:14 -04:00
abelvm	6fe467366a	removed spurious segments	2016-08-18 09:31:08 -04:00
Carla	2963afd711	Rename crankshaft--0.3.0-0.3.1.sql to crankshaft--0.3.0--0.3.1.sql	2016-08-18 10:43:43 +02:00
Carla	dd6e116da9	Rebranding	2016-08-18 10:35:54 +02:00
Carla Iriberri	aa745f67db	Release 0.3.1	2016-08-18 10:34:52 +02:00
Carla	c668a82fcf	Merge pull request #112 from CartoDB/add-voronoi [Hot Fix] Voronoi projection issue [09]	2016-08-18 10:13:53 +02:00
Carla	cfacda5799	Merge pull request #106 from CartoDB/add-interpolation [Add interpolation] Tests for the three methods [08]	2016-08-18 10:13:36 +02:00
abelvm	cbc505a62b	fix test out	2016-08-17 12:51:34 -04:00
abelvm	e9ce87fb99	fix test out	2016-08-17 12:43:44 -04:00
abelvm	d67f3951a7	fix test	2016-08-17 12:32:17 -04:00
abelvm	3ddcd4ed2d	Merge branch 'develop' of github.com:CartoDB/crankshaft into add-voronoi	2016-08-17 12:22:30 -04:00
abelvm	94497cd791	fix projection issues	2016-08-17 12:22:22 -04:00
Rafa de la Torre	cf38cb43c0	Update RELEASE.md Add a couple of additional steps	2016-08-17 10:58:12 +02:00
Carla	c16a364254	Fixes markdown style	2016-08-17 10:41:13 +02:00
Carla	990e714685	Fixes markdown style	2016-08-17 10:39:53 +02:00
Rafa de la Torre	1889c52578	Add generated files for v0.3.0	2016-08-17 10:36:50 +02:00
Rafa de la Torre	fba043e832	Update NEWS and default version for v0.3.0	2016-08-17 10:35:01 +02:00
Rafa de la Torre	5dcbbe0429	Merge pull request #81 from CartoDB/add-voronoi Add voronoi [09]	2016-08-17 10:28:02 +02:00
Rafa de la Torre	c181bfa72e	Small fix for type checking	2016-08-17 10:21:07 +02:00
abelvm	b7a412fa4d	fixed spaces	2016-08-16 14:17:14 -04:00
abelvm	f6cedd7c86	fixed spaces	2016-08-16 14:05:53 -04:00
abelvm	0ea060a698	added srid to tests	2016-08-16 13:56:01 -04:00
abelvm	ed6ecd0fef	added schema	2016-08-16 13:29:55 -04:00
abelvm	0afb39fb1d	Merge branch 'develop' of github.com:CartoDB/crankshaft into add-contour	2016-08-16 13:15:20 -04:00
abelvm	bae3362b59	added CDB stuff	2016-08-16 13:15:13 -04:00
abelvm	edeac18389	changed test	2016-08-16 13:02:28 -04:00
abelvm	e2f8c67034	test->avg area	2016-08-16 12:54:15 -04:00
abelvm	250f932915	add CDB_dependencies	2016-08-16 11:35:15 -04:00
abelvm	2c373dd9c7	add CDB_dependencies	2016-08-16 11:28:34 -04:00
abelvm	6b4b04d9a3	Merge branch 'develop' of github.com:CartoDB/crankshaft into add-PIA	2016-08-16 11:16:59 -04:00
abelvm	8a529fc956	add CDB_dependencies	2016-08-16 11:16:51 -04:00
abelvm	756db707b5	fix results	2016-08-16 11:08:17 -04:00
abelvm	5b8f7c4cd5	add schema	2016-08-16 11:01:25 -04:00
abelvm	51b8da5bf8	add full tests	2016-08-16 10:44:13 -04:00
abelvm	630965605c	add full tests	2016-08-16 10:41:54 -04:00
abelvm	14e5ca4b22	add full tests	2016-08-16 10:40:32 -04:00
Rafa de la Torre	ebbf68af57	Merge pull request #101 from CartoDB/fix-interpolation HOTFIX barycenter method	2016-08-16 10:09:17 +02:00
abelvm	cb39d1830d	2nd commit	2016-08-15 17:23:52 -04:00
abelvm	5b6d2c568b	first commit	2016-08-15 17:15:36 -04:00
abelvm	7914fcdb87	fix barycenter method	2016-08-15 16:32:25 -04:00
abelvm	317f7f2fa6	change results	2016-08-12 14:10:57 -04:00
abelvm	e95374646f	change force2d signature	2016-08-12 13:54:54 -04:00
abelvm	5c207d9ec0	test	2016-08-12 13:48:55 -04:00
abelvm	8430b98931	Merge branch 'develop' of github.com:CartoDB/crankshaft into add-voronoi	2016-08-12 13:47:56 -04:00
abelvm	644542e5df	fixed internals	2016-08-12 13:34:29 -04:00
Rafa de la Torre	7f6766b6c1	Merge pull request #99 from CartoDB/update-process-docs Update process docs	2016-08-12 19:14:59 +02:00
Rafa de la Torre	8953bf92ee	Update release process	2016-08-12 18:56:03 +02:00
Rafa de la Torre	065dc476b4	Revamp the dev process	2016-08-12 18:34:13 +02:00
Rafa de la Torre	170260b7f5	Revamp the dev process	2016-08-12 18:17:13 +02:00
Rafa de la Torre	a6b5f74d67	Merge pull request #95 from CartoDB/master merging release 0.2.0 back to development	2016-08-12 17:00:07 +02:00
Rafa de la Torre	47f1f918d4	Do not check code is updated when not needed Particularly, when it is master or a detached HEAD (usually when checking out tags).	2016-08-11 19:20:04 +02:00
Rafa de la Torre	9ada8d12ca	Add upgrade file from 0.1.0 to 0.2.0 As compatibility was checked with CI tests, this is simply a copy: ``` cp release/crankshaft--0.2.0.sql release/crankshaft--0.1.0--0.2.0.sql ``` To be automated in `make release` command.	2016-08-11 18:52:30 +02:00
Rafa de la Torre	1bad568fbf	Add files generated with make release v0.2.0	2016-08-11 18:49:55 +02:00
Rafa de la Torre	75b34d29ce	Update default_version and NEWS in prep of v0.2.0	2016-08-11 18:47:41 +02:00
Rafa de la Torre	1e74be7cac	Merge pull request #92 from CartoDB/compat-checks2 Compatibility checks - take 2	2016-08-11 15:42:20 +02:00
abelvm	66f4dfa4ea	spaces again	2016-08-10 14:39:31 -04:00
abelvm	60eb316cbe	spaces again	2016-08-10 14:32:59 -04:00
abelvm	592eb68d42	tests rectangle grid	2016-08-10 14:15:22 -04:00
abelvm	b80324c0d1	tests rectangle grid	2016-08-10 14:06:28 -04:00
abelvm	7c2d160da0	tests rectangle grid	2016-08-10 13:58:37 -04:00
abelvm	01b0efd82b	tests spaces	2016-08-10 13:55:22 -04:00
abelvm	749953931c	tests spaces	2016-08-10 13:54:11 -04:00
abelvm	4986743ce9	tests spaces	2016-08-10 13:52:00 -04:00
Rafa de la Torre	4886c187c4	Check function signatures	2016-08-10 19:39:39 +02:00
abelvm	8ea1f2edea	tests IN	2016-08-10 13:33:45 -04:00
abelvm	3284ed19a5	tests	2016-08-10 13:32:55 -04:00
abelvm	a31921409c	Merge branch 'develop' of github.com:CartoDB/crankshaft into add-densify-tinmaps	2016-08-10 13:25:58 -04:00
abelvm	0b2caa48e9	fixed tests	2016-08-10 13:22:10 -04:00
Rafa de la Torre	4118b57f1f	Create aggregates only if they do not exist	2016-08-10 18:56:11 +02:00
Rafa de la Torre	ac51256463	Fix for stale builds	2016-08-10 18:28:56 +02:00
Rafa de la Torre	e74d80f3ea	Add compat checks as a build step	2016-08-10 18:28:56 +02:00
Rafa de la Torre	abe07166de	Add installation of current dev version	2016-08-10 18:28:56 +02:00
Rafa de la Torre	cdc072b098	Add upgrade path from release to dev version	2016-08-10 18:28:56 +02:00
Rafa de la Torre	34c9a7d4cf	First version of the compat check script	2016-08-10 18:28:56 +02:00
abelvm	75a0e54849	fixed tests	2016-08-10 12:23:32 -04:00
abelvm	667bdb79a2	fixed tests	2016-08-10 12:16:36 -04:00
abelvm	613cdb4c6f	fixed tests	2016-08-10 12:15:50 -04:00
abelvm	d88c967bb7	fixed tests	2016-08-10 12:13:55 -04:00
Rafa de la Torre	5f154d84d6	Merge pull request #87 from CartoDB/gravity2 Recommit gravity model	2016-08-10 17:23:19 +02:00
Rafa de la Torre	244cf65617	Fix gravity tests	2016-08-10 10:38:05 +02:00
abelvm	2d8d5e8c2e	check tests	2016-08-09 14:09:45 -04:00
abelvm	358202d324	check tests	2016-08-09 13:03:24 -04:00
abelvm	3becd449c2	check tests	2016-08-09 13:02:23 -04:00
abelvm	b5142002e9	Merge branch 'add-voronoi' of github.com:CartoDB/crankshaft into add-voronoi	2016-08-09 13:01:22 -04:00
abelvm	8c273a53bc	check tests	2016-08-09 13:01:05 -04:00
abelvm	c4b2ae91bf	check tests	2016-08-09 12:57:50 -04:00
abelvm	b2eb5bd355	Merge branch 'gravity2' of github.com:CartoDB/crankshaft into gravity2	2016-08-09 12:53:48 -04:00
abelvm	448562f53e	check tests	2016-08-09 12:52:37 -04:00
abelvm	5f339a01f7	recommit from postgresql repo	2016-08-09 12:09:19 -04:00
abelvm	132f4bbda9	Merge branch 'develop' of github.com:CartoDB/crankshaft into add-densify-tinmaps	2016-08-09 10:58:08 -04:00
Rafa de la Torre	4fdb28e2df	Merge remote-tracking branch 'origin/develop' into add-PIA	2016-08-09 16:24:51 +02:00
Rafa de la Torre	c7788b7b2c	Merge remote-tracking branch 'origin/develop' into add-voronoi	2016-08-09 16:21:04 +02:00
Rafa de la Torre	e8e6f2b6b6	Merge remote-tracking branch 'origin/develop' into gravity2	2016-08-09 16:17:25 +02:00
Rafa de la Torre	b5c3e73bc0	Merge pull request #89 from CartoDB/check-up-to-date-with-master Check up to date with master	2016-08-09 16:01:59 +02:00
Rafa de la Torre	a148fc7d89	Remove PGPORT hack It is no longer needed as pg9.5 is installed in its standard port.	2016-08-09 15:45:47 +02:00
Rafa de la Torre	84d3238d59	Split installation into its own phase	2016-08-09 15:44:36 +02:00
Rafa de la Torre	58ef79fb6a	Script to check whether a branch is up to date	2016-08-09 15:42:08 +02:00
Rafa de la Torre	33aff6a744	Update README.md	2016-08-09 13:19:41 +02:00
Rafa de la Torre	6a5f9155cc	Merge pull request #88 from CartoDB/ci-automation Ci automation	2016-08-09 13:12:59 +02:00
Rafa de la Torre	c3afdbff4b	Remove all the travis pg/postgis stuff	2016-08-09 12:05:49 +02:00
Rafa de la Torre	6de5fb10a0	Add gis-testing ppa to the mix Seems like the production postgis 2.2.2 is only present in gis-testing for the moment.	2016-08-09 11:50:37 +02:00
Rafa de la Torre	a636d28457	Install specific postgres versions This is meant to solve the issue with postgis and the error message "GEOS 3.4 or higher required" as that error is compiled statically into postgis. That basically means the build was using a wrong postgis binary.	2016-08-09 11:36:54 +02:00
Rafa de la Torre	927d66911e	Remove traces from travis	2016-08-09 11:04:48 +02:00
Rafa de la Torre	955f25cdae	Force installation of postgis specific version	2016-08-09 11:04:33 +02:00
Rafa de la Torre	2362e51c10	Add postgis version diagnosing traces	2016-08-09 10:46:23 +02:00
Rafa de la Torre	14b44c358f	Add postgis version diagnosing traces	2016-08-09 10:36:03 +02:00
Rafa de la Torre	02a20566dc	Force instalation of libgeos-3.5.0	2016-08-08 19:12:55 +02:00
Rafa de la Torre	491eeb34d8	Show the regression.diffs in case of failure	2016-08-08 18:52:48 +02:00
Rafa de la Torre	3ef7c9f62e	Run the tests against the right PG9.5 port	2016-08-08 18:41:22 +02:00
abelvm	1abb7d669d	recommit	2016-08-08 12:36:44 -04:00
Rafa de la Torre	60b9f9bd0e	Add a couple of lines to diagnose pg port issue	2016-08-08 18:23:27 +02:00
Rafa de la Torre	d078a87890	Check port and restart pg9.5	2016-08-08 18:09:51 +02:00
Rafa de la Torre	57aa28ee5c	Stop postgresql default instance Stop travis postgres default instance before trying to install postgres 9.5.	2016-08-08 17:53:09 +02:00
Rafa de la Torre	3181c51637	Install all postgres packages at once Install all postgres packages at once in order to avoid package configuration issues.	2016-08-08 17:15:44 +02:00
Rafa de la Torre	1234bfeb9d	Use c instead of python as language Otherwise it installs a different version of python. We want to test the exact dependencies whenever possible.	2016-08-08 17:12:56 +02:00
Rafa de la Torre	f2b5c788c0	Avoid backslash multiline syntax	2016-08-08 16:48:44 +02:00
Rafa de la Torre	45653a850e	Fix travis script by using a single line	2016-08-08 16:34:02 +02:00
Rafa de la Torre	c48f9b67b7	First attempt with a .travis.yml file	2016-08-08 16:26:35 +02:00
Rafa de la Torre	966dd4268a	Create role publicuser if it does not exist	2016-08-08 15:24:21 +02:00
abelvm	15aad5a695	clean	2016-07-14 15:46:09 +02:00
abelvm	0eca26d515	performance x20	2016-07-14 15:07:45 +02:00
abelvm	27971711b5	Merge branch 'add-PIA' of github.com:CartoDB/crankshaft into add-PIA	2016-07-12 15:49:15 +02:00
abelvm	cb3a49594d	add PIA, first commit	2016-07-12 15:48:38 +02:00
abelvm	e84dc30b77	format	2016-06-30 16:11:28 +02:00
abelvm	55f8626901	add files	2016-06-30 16:09:13 +02:00
Rafa de la Torre	e82f5b0264	Merge pull request #80 from CartoDB/master Merge back the release 0.1.0 to develop	2016-06-30 15:56:48 +02:00
				`@@ -0,0 +1 @@`
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				`@@ -0,0 +1 @@`
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