Merge pull request #11 from CartoDB/new-versioning-package-varenv

New versioning process (with multiple virtual environments)
2016-03-16 18:21:52 +01:00 · 2016-03-16 18:21:52 +01:00 · 692014d694
commit 692014d694
parent 46c66476b5 47e0253652
55 changed files with 520 additions and 349 deletions
--- a/python/.gitignore
+++ b/python/.gitignore
@ -1 +1,2 @@
 envs/
 *.pyc
--- a/CONTRIBUTING.md
+++ b/CONTRIBUTING.md
@ -1,84 +1,91 @@
-# Contributing guide
+# Development process
-## How to add new functions
+Please read the Working Process/Quickstart Guide in README.md first.
-Try to put as little logic in the SQL extension as possible and
+For any modification of crankshaft, such as adding new features,
-just use it as a wrapper to the Python module functionality.
+refactoring or bug-fixing, topic branch must be created out of the `develop`
 branch and be used for the development process.
-Once a function is defined it should never change its signature in subsequent
+Modifications are done inside `src/pg/sql` and `src/py/crankshaft`.
 versions. To change a function's signature a new function with a different
 name must be created.
-### Version numbers
+Take into account:
-The version of both the SQL extension and the Python package shall
+*  Tests must be added for any new functionality
-follow the [Semantic Versioning 2.0](http://semver.org/) guidelines:
+   (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_`.
-* When backwards incompatibility is introduced the major number is incremented
+Once the code is ready to be tested, update the local development installation
-* When functionally is added (in a backwards-compatible manner) the minor number
+with `sudo make install`.
-  is incremented
+This will update the 'dev' version of the extension in `src/pg/` and
-* When only fixes are introduced (backwards-compatible) the patch number is
+make it available to PostgreSQL.
-  incremented
+It will also install the python package (crankshaft) in a virtual
 environment `env/dev`.
-### Python Package
+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`.
-### SQL Extension
+To use the python extension for custom tests, activate the virtual
-
+environment with:
 * Generate a **new subfolder version** for `sql` and `test` folders to define
  the new functions and tests
  - Use symlinks to avoid file duplication between versions that don't update them
  - Add new files or modify copies of the old files to add new functions or
    modify existing functions (remember to rename a function if the signature
    changes)
  - 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.
  - Create tests for the new functions/behaviour
 * Generate the **upgrade and downgrade files** for the extension
 * Update the control file and the Makefile to generate the complete SQL
  file for the new created version. After running `make` a new
  file `crankshaft--X.Y.Z.sql` will be created for the current version.
  Additional files for migrating to/from the previous version A.B.Z should be
  created:
  - `crankshaft--X.Y.Z--A.B.C.sql`
  - `crankshaft--A.B.C--X.Y.Z.sql`
  All these new files must be added to git and pushed.
 * Update the public docs! ;-)
 ## Conventions
 # SQL
 Use snake case (i.e. `snake_case` and not `CamelCase`) for all
 functions. Prefix functions intended for public use with `cdb_`
 and private functions (to be used only internally inside
 the extension)  with `_cdb_`.
 # Python
 ...
 ## Testing
 Running just the Python tests:
 ```
-(cd python && make test)
+source envs/dev/bin/activate
 ```
-Installing the Extension and running just the PostgreSQL tests:
+Update extension in a working database with:
 * `ALTER EXTENSION crankshaft VERSION TO 'current';`
  `ALTER EXTENSION crankshaft VERSION 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.
 If the extension has not previously been installed in a database,
 it can be installed directly with:
 * `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.
 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.
 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 tasks available in the Makefile
 ```
-(cd pg && sudo make install && PGUSER=postgres make installcheck)
+* `make help` show a short description of the available targets
 ```
-Installing and testing everything:
+* `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.
-sudo make install && PGUSER=postgres make testinstalled
+  Intended for use by developers.
 ```
--- a/DEPLOYING.md
+++ b/DEPLOYING.md
@ -1,43 +0,0 @@
 # Workflow
 ... (branching/merging flow)
 # Deployment
 ...
 Deployment to db servers: the next command will install both the Python
 package and the extension.
 ```
 sudo make install
 ```
 Installing only the Python package:
 ```
 sudo pip install python/crankshaft --upgrade
 ```
 Caveat: note that `pip install ./crankshaft` will install
 from local files, but `pip install crankshaft` will not.
 CI: Install and run the tests on the installed extension and package:
 ```
 (sudo make install && PGUSER=postgres make testinstalled)
 ```
 Installing the extension in user databases:
 Once installed in a server, the extension can be added
 to a database with the next SQL command:
 ```
 CREATE EXTENSION crankshaft;
 ```
 To upgrade the extension to an specific version X.Y.Z:
 ```
 ALTER EXTENSION crankshaft UPGRADE TO 'X.Y.Z';
 ```
--- a/69
+++ b/69
@ -1,13 +1,70 @@
-EXT_DIR = pg
+include ./Makefile.global
-PYP_DIR = python
+
 EXT_DIR = src/pg
 PYP_DIR = src/py
 .PHONY: install
 .PHONY: run_tests
 .PHONY: release
 .PHONY: deploy
-install:
+# Generate and install developmet versions of the extension
 # and python package.
 # The extension is named 'dev' with a 'current' alias for easily upgrading.
 # The Python package is installed in a virtual environment envs/dev/
 # Requires sudo.
 install: ## Generate and install development version of the extension; requires sudo.
 	$(MAKE) -C $(PYP_DIR) install
 	$(MAKE) -C $(EXT_DIR) install
-testinstalled:
+# Run the tests for the installed development extension and
-	$(MAKE) -C $(PYP_DIR) testinstalled
+# python package
-	$(MAKE) -C $(EXT_DIR) installcheck
+test:   ## Run the tests for the development version of the extension
 	$(MAKE) -C $(PYP_DIR) test
 	$(MAKE) -C $(EXT_DIR) test
 # Generate a new release into release
 release: ## Generate a new release of the extension. Only for telease manager
 	$(MAKE) -C $(EXT_DIR) release
 	$(MAKE) -C $(PYP_DIR) release
 # Install the current release.
 # The Python package is installed in a virtual environment envs/X.Y.Z/
 # Requires sudo.
 # Use the RELEASE_VERSION environment variable to deploy a specific version:
 #     sudo make deploy RELEASE_VERSION=1.0.0
 deploy: ## Deploy a released extension. Only for release manager. Requires sudo.
 	$(MAKE) -C $(EXT_DIR) deploy
 	$(MAKE) -C $(PYP_DIR) deploy
 # Cleanup development extension script files
 clean-dev: ## clean up development extension script files
 	rm -f src/pg/$(EXTENSION)--*.sql
 # Cleanup all releases
 clean-releases: ## clean up all releases
 	rm -rf release/python/*
 	rm -f release/$(EXTENSION)--*.sql
 	rm -f release/$(EXTENSION).control
 # Cleanup current/specific version
 clean-release: ## clean up current release
 	rm -rf release/python/$(RELEASE_VERSION)
 	rm -f release/$(RELEASE_VERSION)--*.sql
 # Cleanup all virtual environments
 clean-environments: ## clean up all virtual environments
 	rm -rf envs/*
 clean-all: clean-dev clean-release clean-environments
 help:
 	@IFS=$$'\n' ; \
 	help_lines=(`fgrep -h "##" $(MAKEFILE_LIST) | fgrep -v fgrep | sed -e 's/\\$$//'`); \
 	for help_line in $${help_lines[@]}; do \
 		IFS=$$'#' ; \
 		help_split=($$help_line) ; \
 		help_command=`echo $${help_split[0]} | sed -e 's/^ *//' -e 's/ *$$//'` ; \
 		help_info=`echo $${help_split[2]} | sed -e 's/^ *//' -e 's/ *$$//'` ; \
 		printf "%-30s %s\n" $$help_command $$help_info ; \
 	done
--- a/Makefile.global
+++ b/Makefile.global
@ -0,0 +1,6 @@
 SELF_DIR         := $(dir $(lastword $(MAKEFILE_LIST)))
 EXTENSION        = crankshaft
 PACKAGE          = crankshaft
 EXTVERSION       = $(shell grep default_version $(SELF_DIR)/src/pg/$(EXTENSION).control | sed -e "s/default_version[[:space:]]*=[[:space:]]*'\([^']*\)'/\1/")
 RELEASE_VERSION ?= $(EXTVERSION)
 SED              = sed
--- a/NEWS.md
+++ b/NEWS.md
@ -0,0 +1,3 @@
 0.0.1 (2016-03-15)
 ------------------
 * Preliminar release
--- a/README.md
+++ b/README.md
@ -4,9 +4,68 @@ CartoDB Spatial Analysis extension for PostgreSQL.
 ## Code organization
-* *pg* contains the PostgreSQL extension source code
+* *doc* documentation
-* *python* Python module
+* *src* source code
 * - *src/pg* contains the PostgreSQL extension source code
 * - *src/py* Python module source code
 * *release* reseleased versions
 * *env* base directory for Python virtual environments
 ## Requirements
-* pip
+* pip, virtualenv, PostgreSQL
 * python-scipy system package (see src/py/README.md)
 # Working Process -- Quickstart Guide
 We distinguish two roles regarding the development cycle of crankshaft:
 * *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.
 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.
 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 againt the `develop` branch.
 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 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.
 The tests (both for SQL and Pyhton) are executed by running,
 from the top directory:
 ```
 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 guide and it is the responsibility of the designated
 release manager.
--- a/RELEASE.md
+++ b/RELEASE.md
@ -0,0 +1,93 @@
 # 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.
 Having checked PR to be released it shall be
 merged back into the `master` branch to prepare the new release.
 The version number in `pg/cranckshaft.control` must first be updated.
 To do so [Semantic Versioning 2.0](http://semver.org/) is in order.
 Thew `NEWS.md` will be updated.
 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.
 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.
 The new release can be deployed for staging/smoke tests with this command:
 ```
 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`.
 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.
 ```
--- a/TODO.md
+++ b/TODO.md
@ -1,9 +0,0 @@
 * [x] Support versioning
 * [x] Test use of `plpy` from python Package
 * [x] Add `pysal` etc. dependencies
 * [x] Define documentation practices (general, per extension/package?)
 * [x] Add initial function set (WIP)
 * Unify style of function comments
 * [x] Add integration tests
 * Make target to open a new version development (create symlinks, etc.)
 * [x] Should add cartodb ext. as a dependency?
--- a/pg/doc/02_moran.md
+++ b/pg/doc/02_moran.md
--- a/pg/doc/03_overlap_sum.md
+++ b/pg/doc/03_overlap_sum.md
--- a/pg/.gitignore
+++ b/pg/.gitignore
@ -1,3 +0,0 @@
 regression.diffs
 regression.out
 results/
--- a/pg/Makefile
+++ b/pg/Makefile
@ -1,33 +0,0 @@
 # Makefile to generate the extension out of separate sql source files.
 # Once a version is released, it is not meant to be changed. E.g: once version 0.0.1 is out, it SHALL NOT be changed.
 EXTENSION    = crankshaft
 EXTVERSION   = $(shell grep default_version $(EXTENSION).control | sed -e "s/default_version[[:space:]]*=[[:space:]]*'\([^']*\)'/\1/")
 # The new version to be generated from templates
 NEW_EXTENSION_ARTIFACT = $(EXTENSION)--$(EXTVERSION).sql
 # DATA is a special variable used by postgres build infrastructure
 # These are the files to be installed in the server shared dir,
 # for installation from scratch, upgrades and downgrades.
 # @see http://www.postgresql.org/docs/current/static/extend-pgxs.html
 DATA =  $(NEW_EXTENSION_ARTIFACT)
 SOURCES_DATA_DIR = sql/$(EXTVERSION)
 SOURCES_DATA = $(wildcard sql/$(EXTVERSION)/*.sql)
 # The extension installation artifacts are stored in the base subdirectory
 $(NEW_EXTENSION_ARTIFACT): $(SOURCES_DATA)
 	rm -f $@
 	cat $(SOURCES_DATA_DIR)/*.sql >> $@
 REGRESS = $(notdir $(basename $(wildcard test/$(EXTVERSION)/sql/*test.sql)))
 TEST_DIR = test/$(EXTVERSION)
 REGRESS_OPTS = --inputdir='$(TEST_DIR)' --outputdir='$(TEST_DIR)'
 PG_CONFIG = pg_config
 PGXS := $(shell $(PG_CONFIG) --pgxs)
 include $(PGXS)
 # This seems to be needed at least for PG 9.3.11
 all: $(DATA)
--- a/pg/README.md
+++ b/pg/README.md
@ -1,7 +0,0 @@
 # Running the tests:
 ```
 sudo make install
 PGUSER=postgres make installcheck
 ```
--- a/pg/crankshaft--0.0.1.sql
+++ b/pg/crankshaft--0.0.1.sql
@ -1,148 +0,0 @@
 --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
 -- 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;
 -- Moran's I
 CREATE OR REPLACE FUNCTION
  cdb_moran_local (
      t TEXT,
  	  attr TEXT,
  	  significance float DEFAULT 0.05,
  	  num_ngbrs INT DEFAULT 5,
  	  permutations INT DEFAULT 99,
  	  geom_column TEXT DEFAULT 'the_geom',
  	  id_col TEXT DEFAULT 'cartodb_id',
      w_type TEXT DEFAULT 'knn')
 RETURNS TABLE (moran FLOAT, quads TEXT, significance FLOAT, ids INT)
 AS $$
  from crankshaft.clustering import moran_local
  # TODO: use named parameters or a dictionary
  return moran_local(t, attr, significance, num_ngbrs, permutations, geom_column, id_col, w_type)
 $$ LANGUAGE plpythonu;
 -- Moran's I Local Rate
 CREATE OR REPLACE FUNCTION
  cdb_moran_local_rate(t TEXT,
 		 numerator TEXT,
 		 denominator TEXT,
 		 significance FLOAT DEFAULT 0.05,
 		 num_ngbrs INT DEFAULT 5,
 		 permutations INT DEFAULT 99,
 		 geom_column TEXT DEFAULT 'the_geom',
 		 id_col TEXT DEFAULT 'cartodb_id',
 		 w_type TEXT DEFAULT 'knn')
 RETURNS TABLE(moran FLOAT, quads TEXT, significance FLOAT, ids INT, y numeric)
 AS $$
  from crankshaft.clustering import moran_local_rate
  # TODO: use named parameters or a dictionary
  return moran_local_rate(t, numerator, denominator, significance, num_ngbrs, permutations, geom_column, id_col, w_type)
 $$ 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/pg/test/0.0.1/results/01_install_test.out
+++ b/pg/test/0.0.1/results/01_install_test.out
@ -1,6 +0,0 @@
 -- Install dependencies
 CREATE EXTENSION plpythonu;
 CREATE EXTENSION postgis;
 CREATE EXTENSION cartodb;
 -- Install the extension
 CREATE EXTENSION crankshaft;
--- a/python/Makefile
+++ b/python/Makefile
@ -1,11 +0,0 @@
 # Install the package (needs root privileges)
 install:
 	pip install ./crankshaft --upgrade
 # Test from source code
 test:
 	(cd crankshaft && nosetests test/)
 # Test currently installed package
 testinstalled:
 	nosetests crankshaft/test/
--- a/python/README.md
+++ b/python/README.md
@ -1,9 +0,0 @@
 # Crankshaft Python Package
 ...
 ### Run the tests
 ```bash
 cd crankshaft
 nosetests test/
 ```
--- a/release/.gitignore
+++ b/release/.gitignore
--- a/release/python/.gitignore
+++ b/release/python/.gitignore
--- a/src/pg/.gitignore
+++ b/src/pg/.gitignore
@ -0,0 +1,6 @@
 regression.diffs
 regression.out
 results/
 crankshaft--dev.sql
 crankshaft--dev--current.sql
 crankshaft--current--dev.sql
--- a/src/pg/Makefile
+++ b/src/pg/Makefile
@ -0,0 +1,60 @@
 include ../../Makefile.global
 # Development tasks:
 #
 # * install generates the control & script files into src/pg/
 #   and installs then into the PostgreSQL extensions directory;
 #   requires sudo. In additionof the current development version
 #   named 'dev', an alias 'current' is generating for ease of
 #   update (upgrade to 'current', then to 'dev').
 #   the python module is installed in a virtualenv in envs/dev/
 # * test runs the tests for the currently generated Development
 #   extension.
 DATA         = $(EXTENSION)--dev.sql \
 	             $(EXTENSION)--current--dev.sql \
 	             $(EXTENSION)--dev--current.sql
 SOURCES_DATA_DIR = sql
 SOURCES_DATA = $(wildcard $(SOURCES_DATA_DIR)/*.sql)
 VIRTUALENV_PATH = $(realpath ../../envs)
 ESC_VIRVIRTUALENV_PATH = $(subst /,\/,$(VIRTUALENV_PATH))
 REPLACEMENTS = -e 's/@@VERSION@@/$(EXTVERSION)/g' \
               -e 's/@@VIRTUALENV_PATH@@/$(ESC_VIRVIRTUALENV_PATH)/g'
 $(DATA): $(SOURCES_DATA)
 	$(SED) $(REPLACEMENTS) $(SOURCES_DATA_DIR)/*.sql > $@
 TEST_DIR = test
 REGRESS = $(notdir $(basename $(wildcard $(TEST_DIR)/sql/*test.sql)))
 REGRESS_OPTS = --inputdir='$(TEST_DIR)' --outputdir='$(TEST_DIR)'
 PG_CONFIG = pg_config
 PGXS := $(shell $(PG_CONFIG) --pgxs)
 include $(PGXS)
 # This seems to be needed at least for PG 9.3.11
 all: $(DATA)
 test: export PGUSER=postgres
 test: installcheck
 # Release tasks
 ../../release/$(EXTENSION).control: $(EXTENSION).control
 	cp $< $@
 # Prepare new release from the currently installed development version,
 # for the current version X.Y.Z (defined in the control file)
 # producing the extension script and control files in releases/
 # and the python package in releases/python/X.Y.Z/crankshaft/
 release: ../../release/$(EXTENSION).control $(SOURCES_DATA)
 	$(SED) $(REPLACEMENTS) $(SOURCES_DATA_DIR)/*.sql > ../../release/$(EXTENSION)--$(EXTVERSION).sql
 # Install the current relese into the PostgreSQL extensions directory
 # and the Python package in a virtual environment envs/X.Y.Z
 deploy:
 	$(INSTALL_DATA) ../../release/$(EXTENSION).control '$(DESTDIR)$(datadir)/extension/'
 	$(INSTALL_DATA) ../../release/*.sql '$(DESTDIR)$(datadir)/extension/'
--- a/src/pg/crankshaft.control
+++ b/src/pg/crankshaft.control
--- a/pg/sql/0.0.1/00_header.sql
+++ b/pg/sql/0.0.1/00_header.sql
--- a/src/pg/sql/01_version.sql
+++ b/src/pg/sql/01_version.sql
@ -0,0 +1,12 @@
 -- Version number of the extension release
 CREATE OR REPLACE FUNCTION cdb_crankshaft_version()
 RETURNS text AS $$
  SELECT '@@VERSION@@'::text;
 $$ 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;
--- a/src/pg/sql/02_py.sql
+++ b/src/pg/sql/02_py.sql
@ -0,0 +1,23 @@
 CREATE OR REPLACE FUNCTION _cdb_crankshaft_virtualenvs_path()
 RETURNS text
 AS $$
  BEGIN
    -- RETURN '/opt/virtualenvs/crankshaft';
    RETURN '@@VIRTUALENV_PATH@@';
  END;
 $$ language plpgsql IMMUTABLE STRICT;
 -- Use the crankshaft python module
 CREATE OR REPLACE FUNCTION _cdb_crankshaft_activate_py()
 RETURNS VOID
 AS $$
    import os
    # plpy.notice('%',str(os.environ))
    # activate virtualenv
    crankshaft_version = plpy.execute('SELECT cdb_crankshaft._cdb_crankshaft_internal_version()')[0]['_cdb_crankshaft_internal_version']
    base_path = plpy.execute('SELECT cdb_crankshaft._cdb_crankshaft_virtualenvs_path()')[0]['_cdb_crankshaft_virtualenvs_path']
    default_venv_path = os.path.join(base_path, crankshaft_version)
    venv_path =  os.environ.get('CRANKSHAFT_VENV', default_venv_path)
    activate_path = venv_path + '/bin/activate_this.py'
    exec(open(activate_path).read(), dict(__file__=activate_path))
 $$ LANGUAGE plpythonu;
--- a/pg/sql/0.0.1/01_random_seeds.sql
+++ b/pg/sql/0.0.1/01_random_seeds.sql
@ -4,6 +4,7 @@
 CREATE OR REPLACE FUNCTION
 _cdb_random_seeds (seed_value INTEGER) RETURNS VOID
 AS $$
  plpy.execute('SELECT cdb_crankshaft._cdb_crankshaft_activate_py()')
  from crankshaft import random_seeds
  random_seeds.set_random_seeds(seed_value)
 $$ LANGUAGE plpythonu;
--- a/pg/sql/0.0.1/02_moran.sql
+++ b/pg/sql/0.0.1/02_moran.sql
@ -11,6 +11,7 @@ CREATE OR REPLACE FUNCTION
      w_type TEXT DEFAULT 'knn')
 RETURNS TABLE (moran FLOAT, quads TEXT, significance FLOAT, ids INT)
 AS $$
  plpy.execute('SELECT cdb_crankshaft._cdb_crankshaft_activate_py()')
  from crankshaft.clustering import moran_local
  # TODO: use named parameters or a dictionary
  return moran_local(t, attr, significance, num_ngbrs, permutations, geom_column, id_col, w_type)
@ -29,6 +30,7 @@ CREATE OR REPLACE FUNCTION
 		 w_type TEXT DEFAULT 'knn')
 RETURNS TABLE(moran FLOAT, quads TEXT, significance FLOAT, ids INT, y numeric)
 AS $$
  plpy.execute('SELECT cdb_crankshaft._cdb_crankshaft_activate_py()')
  from crankshaft.clustering import moran_local_rate
  # TODO: use named parameters or a dictionary
  return moran_local_rate(t, numerator, denominator, significance, num_ngbrs, permutations, geom_column, id_col, w_type)
--- a/pg/sql/0.0.1/03_overlap_sum.sql
+++ b/pg/sql/0.0.1/03_overlap_sum.sql
--- a/pg/sql/0.0.1/04_dot_density.sql
+++ b/pg/sql/0.0.1/04_dot_density.sql
--- a/pg/sql/0.0.1/90_permissions.sql
+++ b/pg/sql/0.0.1/90_permissions.sql
--- a/pg/test/0.0.1/expected/01_install_test.out
+++ b/pg/test/0.0.1/expected/01_install_test.out
@ -3,4 +3,4 @@ CREATE EXTENSION plpythonu;
 CREATE EXTENSION postgis;
 CREATE EXTENSION cartodb;
 -- Install the extension
-CREATE EXTENSION crankshaft;
+CREATE EXTENSION crankshaft VERSION 'dev';
--- a/pg/test/0.0.1/expected/02_moran_test.out
+++ b/pg/test/0.0.1/expected/02_moran_test.out
--- a/pg/test/0.0.1/expected/03_overlap_sum_test.out
+++ b/pg/test/0.0.1/expected/03_overlap_sum_test.out
--- a/pg/test/0.0.1/expected/04_dot_density_test.out
+++ b/pg/test/0.0.1/expected/04_dot_density_test.out
--- a/src/pg/test/fixtures/polyg_values.sql
+++ b/src/pg/test/fixtures/polyg_values.sql
--- a/src/pg/test/fixtures/ppoints.sql
+++ b/src/pg/test/fixtures/ppoints.sql
--- a/src/pg/test/fixtures/ppoints2.sql
+++ b/src/pg/test/fixtures/ppoints2.sql
--- a/pg/test/0.0.1/sql/01_install_test.sql
+++ b/pg/test/0.0.1/sql/01_install_test.sql
@ -4,4 +4,4 @@ CREATE EXTENSION postgis;
 CREATE EXTENSION cartodb;
 -- Install the extension
-CREATE EXTENSION crankshaft;
+CREATE EXTENSION crankshaft VERSION 'dev';
--- a/pg/test/0.0.1/sql/02_moran_test.sql
+++ b/pg/test/0.0.1/sql/02_moran_test.sql
--- a/pg/test/0.0.1/sql/03_overlap_sum_test.sql
+++ b/pg/test/0.0.1/sql/03_overlap_sum_test.sql
--- a/pg/test/0.0.1/sql/04_dot_density_test.sql
+++ b/pg/test/0.0.1/sql/04_dot_density_test.sql
--- a/pg/test/0.0.1/sql/90_permissions.sql
+++ b/pg/test/0.0.1/sql/90_permissions.sql
--- a/src/py/Makefile
+++ b/src/py/Makefile
@ -0,0 +1,22 @@
 include ../../Makefile.global
 # Install the package locally for development
 install:
 	virtualenv --system-site-packages ../../envs/dev
 	# source ../../envs/dev/bin/activate
 	../../envs/dev/bin/pip install -I ./crankshaft
 	../../envs/dev/bin/pip install -I nose
 # Test develpment install
 test:
 	../../envs/dev/bin/nosetests crankshaft/test/
 release: ../../release/$(EXTENSION).control $(SOURCES_DATA)
 	mkdir -p ../../release/python/$(EXTVERSION)
 	cp -r ./$(PACKAGE) ../../release/python/$(EXTVERSION)/
 	$(SED) -i -r 's/version='"'"'[0-9]+\.[0-9]+\.[0-9]+'"'"'/version='"'"'$(EXTVERSION)'"'"'/g'  ../../release/python/$(EXTVERSION)/$(PACKAGE)/setup.py
 deploy:
 	virtualenv --system-site-packages $(VIRTUALENV_PATH)/$(RELEASE_VERSION)
 	$(VIRTUALENV_PATH)/$(RELEASE_VERSION)/bin/pip install -I -U ../../release/python/$(RELEASE_VERSION)/$(PACKAGE)
 	$(VIRTUALENV_PATH)/$(RELEASE_VERSION)/bin/pip install -I nose
--- a/src/py/README.md
+++ b/src/py/README.md
@ -0,0 +1,88 @@
 # Crankshaft Python Package
 ...
 ### Run the tests
 ```bash
 cd crankshaft
 nosetests test/
 ```
 ## Notes about python dependencies
 * This extension is targeted at production databases. Therefore certain restrictions must be assumed about the production environment vs other experimental environments.
 * We're using `pip` and `virtualenv` to generate a suitable isolated environment for python code that has  all the dependencies
 * Every dependency should be:
  - Added to the `setup.py` file
  - Installed through it
  - Tested, when they have a test suite.
  - Fixed in the `requirements.txt`
 * At present we use Python version 2.7.3
 ---
 To avoid troublesome compilations/linkings we will use
 the available system package `python-scipy`.
 This package and its dependencies provide numpy 1.6.1
 and scipy 0.9.0. To be able to use these versions we cannot
 PySAL 1.10 or later, so we'll stick to 1.9.1.
 ```
 apt-get install -y python-scipy
 ```
 We'll use virtual environments to install our packages,
 but configued to use also system modules so that the
 mentioned scipy and numpy are used.
    # Create a virtual environment for python
    $ virtualenv --system-site-packages dev
    # Activate the virtualenv
    $ source dev/bin/activate
    # Install all the requirements
    # expect this to take a while, as it will trigger a few compilations
    (dev) $ pip install -I ./crankshaft
 #### Test the libraries with that virtual env
 ##### Test numpy library dependency:
    import numpy
    numpy.test('full')
 ##### Run scipy tests
    import scipy
    scipy.test('full')
 ##### Testing pysal
 See [http://pysal.readthedocs.org/en/latest/developers/testing.html]
 This will require putting this into `dev/lib/python2.7/site-packages/setup.cfg`:
 ```
 [nosetests]
 ignore-files=collection
 exclude-dir=pysal/contrib
 [wheel]
 universal=1
 ```
 And copying some files before executing the tests:
 (we'll use a temporary directory from where the tests will be executed because
 some tests expect some files in the current directory). Next must be executed
 from
 ```
 cp dev/lib/python2.7/site-packages/pysal/examples/geodanet/* dev/local/lib/python2.7/site-packages/pysal/examples
 mkdir -p test_tmp && cd test_tmp && cp ../dev/lib/python2.7/site-packages/pysal/examples/geodanet/* ./
 ```
 Then, execute the tests with:
    import pysal
    import nose
    nose.runmodule('pysal')
--- a/src/py/crankshaft/crankshaft/init.py
+++ b/src/py/crankshaft/crankshaft/init.py
--- a/src/py/crankshaft/crankshaft/clustering/init.py
+++ b/src/py/crankshaft/crankshaft/clustering/init.py
--- a/src/py/crankshaft/crankshaft/clustering/moran.py
+++ b/src/py/crankshaft/crankshaft/clustering/moran.py
--- a/src/py/crankshaft/crankshaft/random_seeds.py
+++ b/src/py/crankshaft/crankshaft/random_seeds.py
--- a/src/py/crankshaft/setup.py
+++ b/src/py/crankshaft/setup.py
@ -10,7 +10,7 @@ from setuptools import setup, find_packages
 setup(
    name='crankshaft',
-    version='0.0.1',
+    version='0.0.0',
    description='CartoDB Spatial Analysis Python Library',
@ -40,9 +40,9 @@ setup(
    # The choice of component versions is dictated by what's
    # provisioned in the production servers.
-    install_requires=['pysal==1.11.0','numpy==1.6.1','scipy==0.17.0'],
+    install_requires=['pysal==1.9.1'],
-    requires=['pysal', 'numpy'],
+    requires=['pysal', 'numpy' ],
    test_suite='test'
 )
--- a/src/py/crankshaft/test/fixtures/moran.json
+++ b/src/py/crankshaft/test/fixtures/moran.json
--- a/src/py/crankshaft/test/fixtures/neighbors.json
+++ b/src/py/crankshaft/test/fixtures/neighbors.json
--- a/src/py/crankshaft/test/helper.py
+++ b/src/py/crankshaft/test/helper.py
--- a/src/py/crankshaft/test/mock_plpy.py
+++ b/src/py/crankshaft/test/mock_plpy.py
--- a/src/py/crankshaft/test/test_clustering_moran.py
+++ b/src/py/crankshaft/test/test_clustering_moran.py