wiki:WKTRaster/PlanningAndFunding

Version 126 (modified by pracine, 13 years ago) ( diff )

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PostGIS Raster Planning and Funding

This is the development page of PostGIS Raster - a project extending PostGIS engine with raster support.

Need more PostGIS Raster features? - If you need support for raster in PostgreSQL or you have to do raster/vector operations, help us develop PostGIS Raster! PostGIS Raster development is a work in progress. Each slice of 2000$ will bring new functions in! The approximate cost of the whole project is about 60 000$US. If 30 groups each give 2000$US, we will have the best seamless raster/vector set of SQL functions available!

Time or Money - You can contribute with money or developer time (DevTime). Contributing give you the opportunity to have a word to say on the development priorities and on the schedule.

For financial contribution, the conversion rate between time and money is 1200$ per week = approx. 5000US$ per month = approx. 60 000 US$ per year. Coders have to be experienced C developer with a minimal object oriented database development experience. There are some developers out there willing to offer their services to implement your needs.

Expectations - We expect that contributors will:

  • Try to follow the schedule or at least arrange it to fit their particular needs as much as possible in accordance with the project roadmap. The project is divided into coherent groups of tasks. We are very flexible on modifying the content of those sections.
  • Contribute to the specifications in order to agree and to keep track of what's done. Specifications of the intented development should be described in the Specifications page and submited to the postgis-devel mailing list for comments before starting development. Ask Pierre Racine to get write access to the specification page.
  • Contribute to the Documentation as much as they can to make sure we produce a coherent and a professional open source product.

Advices to developers - We can assure degree of quality with obeying basic rules and development cycle process, most of them are easily executable:

  1. If you add new C API function, always add test case for it in test/core.
  2. If you add new SQL function, always add test case for it in test/regress.
  3. Always do full build of PostGIS Raster before commit (with new tests included).
  4. Always run all PostGIS Raster unit tests before commit (with new tests included).
  5. Do not commit anything if any of the two occurs: a) PostGIS Raster build failed b) PostGIS Raster tests failed.
  6. Try to do full rebuild and full tests run of all related components: GEOS + PostGIS + PostGIS Raster.
  7. Frequently check if PostGIS Raster build is "green" in the very our :-) Hudson bay http://office.refractions.net:1500/view/WKTRaster/
  8. Don't worry if something got broken after a commit. A broken code is a daily bread and errors are valuable. Just don't let buggy commits to accumulate, but fix as soon as first error is spotted.
  9. Adding new test cases are the only time consuming element, but even a very simple test is worth (i.e. test/regress/rt_box2d.sql)

Objectives & Tasks - are arranged into coherent groups: Similar functions together and dependencies first.

Developers having worked or available for future work on the project

PostGIS Raster development team members with officially allocated tasks:

Unofficial PostGIS Raster development members with unofficially allocated tasks:

Funding Contributors

Prime financial contributors who established development of the PostGIS Raster project:

Development Status

Explanation of status markers used in the tables below:

  • todo: The task has not yet been funded. Everything is to do.
  • funded: Someone committed some funding or developer time and the task has been assigned to a developper but the task is still to do.
  • in-progress: The task is being implemented.
  • pending: The developer is waiting for other development to continue.
  • buggy: The tast has been implemented but is disfunctional for some reason.
  • done: The task is finished.

Milestones for PostGIS 2.0

Objectives and TasksCoderApprox. ScheduleTimeApprox. Contribution (US$)Status

Objective 2.0.01 - Being able to get and set the rotation of a raster. (specifications)
- ST_Rotation(raster)
- ST_SetRotation(raster, rotation)
DZ2 days480funded

Objective 2.0.02 - Being able to create a raster as the expression of another raster (specifications)
- ST_MapAlgebra(raster)JA2 weeks2400funded

Objective 2.0.04 - Implement better handling for NULL, ST_IsEmpty, ST_HasNoBand and ST_BandIsNodata rasters (specifications)
- ST_IsEmpty(raster)
- ST_HasNoBand(raster, band)
- ST_BandIsNodata(raster, band)
PR2 weeks2400funded

Objective 2.0.05 - Being able to set and get values for part of a raster (specifications)
- ST_SetValues(raster)
- ST_Clip(raster)
PR2 weeks2400funded

Objective 2.0.06 - Being able to add a band to a raster (specifications)
- ST_AddBand()PR2 weeks2400funded

Milestones for Future Versions

Objectives and TasksCoderApprox. ScheduleTimeApprox. Contribution (US$)Status

Objective FV.01 - Being able to return a JPEG, a TIFF or a PNG - Done (specifications)
- ST_Band(raster, band) -> raster
- ST_AsJPEG(raster, band, quality) -> JPEG as "bytea"
- ST_AsTIFF(raster, band, compression) -> TIFF as "bytea"
- ST_AsPNG(raster, band) -> PNG as "bytea"
MLTBD2 weeks2400 / DevTime from MLtodo

Objective FV.02 - Being able to intersect vector and raster to produce raster. (specifications)
- ST_AsRaster(geometry, pixelsize) -> raster
- Changes to ST_Intersection
TBDTBD4 weeks4800todo

Objective FV.03 - Implement all the necessary versions of ST_MapAlgebra. (specifications)
- ST_MapAlgebraExpr()
- ST_MapAlgebraFct()
- ST_MapAlgebraFctNgb(taking one raster)
- ST_MapAlgebraFctNgb(taking one coverage (table))
- ST_MapAlgebraExpr(taking two rasters)
- ST_MapAlgebraExpr(taking two coverages (tables))
- ST_MapAlgebraFct(taking two rasters)
- ST_MapAlgebraFct(taking two coverages (tables))
TBDTBD8 weeks9600todo

Objective FV.04 - Being able to use "group by" to accumulate tiles to form a new raster. (specifications)
- ST_Union(raster|geometry, raster|geometry, ‘raster’|’geometry’) -> raster/geometry
- ST_Accum(raster set|geometry set, ‘raster’|’geometry’) -> raster/geometry
TBDTBD2 weeks2400todo

Objective FV.05 - Being able to reproject a raster - Done (specifications)
- ST_Transform(raster|geometry, SRID) -> same type as inputTBD1 week1200todo

Objective FV.06 - Being able todo some base raster operations. (specifications)
- ST_Area(raster|geometry) -> double
- ST_Count(raster, value) -> integer
- ST_Resample(raster, pixelsize, method) -> raster
- ST_SelectByValue(raster|geometry, ‘expression’) -> same type as first argument
- ST_Reclass(raster|geometry,string) -> same type as first argument
- ST_Clip(raster|geometry,geometry) -> same type as first argument
- ST_Flip(raster|geometry, ’vertical’|’horizontal’) -> same type as first argument
TBD6 weeks7200todo

Objective FV.07 - Being able to convert a raster to standards formats. (specifications)
- ST_AsKML(raster|geometry) -> string
- ST_AsSVG(raster|geometry) -> string
TBD2 weeks2400todo

Objective FV.08 - Being able to control the validity of a raster. (specifications)
- ST_IsEmpty(raster|geometry) -> boolean
- ST_mem_size(raster|geometry) -> integer
- ST_isvalid(raster|geometry) -> boolean
TBD1 week1200todo

Objective FV.09 - Being able to use other major topological operators. (specifications)
- ST_Within(raster|geometry A, raster|geometry B)
- ST_Contains(raster|geometry A, raster|geometry B)
- ST_Overlaps(raster|geometry, raster|geometry)
TBD1 week1200todo

Objective FV.10 - Being able to derive a raster layer from vector layer. (specifications)
- ST_Interpolate(points, pixelsize, method) -> rasterTBD1 week1200todo

Objective FV.11 - Being able todo on rasters most operations available on geometries. (specifications)
- ST_Centroid(raster|geometry) -> point geometry
- ST_PointOnSurface(raster|geometry) -> point geometry
- ST_Buffer(raster|geometry, double) -> same type as first arg.
- ST_Difference(raster|geometry A, raster|geometry B) -> same type as first argument
- ST_SymDifference(raster|geometry,raster|geometry,‘raster’|’geometry’) -> raster/geometry
TBD4 weeks4800todo

Objective FV.12 - Being able to use all the other topological operators. (specifications)
- ST_Equals(raster|geometry, raster|geometry)
- ST_Disjoint(raster|geometry, raster|geometry)
- ST_Touches(raster|geometry, raster|geometry)
- ST_Crosses(raster|geometry, raster|geometry)
- ST_Covers(raster|geometry A, raster|geometry B)
- ST_IsCoveredBy(raster|geometry A, raster|geometry B)
- ST_Relate(raster|geometry, raster|geometry, intersectionPatternMatrix )
TBD2 weeks2400todo

Objective FV.13 - Being able to edit a raster. (specifications)
- ST_Affine(raster|geometry,...) -> same type as input
- ST_Translate(raster|geometry,...) -> same type as input
- ST_Scale(raster|geometry,...) -> same type as input
- ST_TransScale(raster|geometry,...) -> same type as input
- ST_RotateZ,Y,Z(raster|geometry, float8) -> same type as input
TBD2 weeks2400todo

Objective FV.16 - Being able to quickly get raster statistics - Done (specifications)
- ST_SummaryStats(raster, nband) -> record
- ST_ApproxSummaryStats(rast raster, nband int, exclude_nodata_value boolean, sample_percent double precision) -> record
- ST_Count(raster, nband) -> bigint
- ST_ApproxCount(rast raster, nband int, exclude_nodata_value boolean, sample_percent double precision) -> bigint
- ST_Histogram(raster, nband) -> set of records
- ST_ApproxHistogram(rast raster, nband int, exclude_nodata_value boolean, sample_percent double precision, bins int, width double precision[], right boolean) -> set of record
- ST_Quantile(raster, nband) -> set of records
- ST_ApproxQuantile(rast raster, nband int, exclude_nodata_value boolean, sample_percent double precision, quantiles double precision[]) -> set of records
TBD2 weeks2400todo

Other functions
- ST_AsBinary(raster, compression) (specifications) ML (start ST_AsBinary) 2 weeks2400 / DevTime from MDin-progress
- ST_RasterFromWKB(raster, [<srid>]) TBD TBD - - todo
- ST_RasterFromText(string, [<srid>]) TBD TBD - - todo
- ST_AsText(raster)) TBD TBD - - todo
- ST_SetPath(string) TBD TBD - - todo

GDAL Driver Milestones

Objectives and TasksCoderApprox. ScheduleTimeApprox. Contribution (US$)Status

Objective 1 - Being able to read in-db regular blocking WKT Raster with the GDAL driver. (specifications)
- Read a WKT Raster from database (in-db, regular blocking)JAJuly - August 2010TBDDevTime from JA done

Objective 2 - Being able to read out-db irregular blocking WKT Raster with the GDAL driver. (specifications)
- Read a WKT Raster from database (out-db, irregular blocking)JAJuly - August 2010TBDDevTime from JA todo

Objective 3 - Being able to write WKT Raster with the GDAL driver. (specifications)
- Create a new WKT Raster in database (in-db/out-db, regular/irregular blocking)JAJuly - August 2010TBDDevTime from JA todo

Old Milestones for Beta 0.1.6 - All Done

Objectives and TasksCoderApprox. ScheduleTimeApprox. Contribution (US$)Status

Objective 0.1.6a - Being able to create tables with RASTER fields
Initial setup: type definition, canonical input/outputSSJanuary 20094 weeks2400 by SC
2600 by MD
done

Objective 0.1.6b - Being able to select RASTER values based on bbox spatial relation
Spatial operators with semantic matching postgis ones SSFebruary 20091 week1200 by TEdone
GiST indexing supportPRFebruary 20091 week1200 by SCdone

Objective 0.1.6c - Being able to load raster in the database (specifications)
gdal2wktraster.py as a prototype of raster2pgsql.exe based on GDALMLFebruary 20091 weekDevTime from MDdone

Objective 0.1.6d - Being able to get all the properties of a raster (all the "Get" functions). (specifications)
- ST_SRID(raster|geometry) -> integer
- ST_Width(raster) -> integer
- ST_Height(raster) -> integer
- ST_PixelSizeX(raster) -> float32
- ST_PixelSizeY(raster) -> float32
- ST_RotationX(raster) -> float32
- ST_RotationY(raster) -> float32
- ST_UpperLeftX(raster) -> float32
- ST_UpperLeftY(raster) -> float32
- ST_GeoReference(raster) -> string
- ST_NumBands(raster) -> integer
- ST_BandPixelType(raster, band) -> string
- ST_BandNoDataValue(raster, band) -> float32
MLFebruary 20091 weeksDevTime from MDdone

Objective 0.1.6e - Being able to intersect geometries and rasters to produce geometries . (specifications)
- ST_ConvexHull(raster) -> polygon geometry
- ST_Envelope(raster|geometry) -> polygon geometry
- ST_Polygon(raster) -> polygon geometry
- ST_DumpAsPolygons(raster) -> polygon geometry set
- ST_Intersects(raster|geometry, raster|geometry)
- ST_Intersection(raster|geometry, raster|geometry)->geometry set
JA & PRJuly - August 20108 weeks4800 by SC / DevTime from JA done

Objective 0.1.6f - Being able to set all the properties of a raster. (specifications)
- ST_SetSRID(raster|geometry, integer)
- ST_SetPixelSize(raster, pixelsizex, pixelsizey)
- ST_SetBandNoDataValue(raster, band, nodatavalue)
- ST_SetGeoReference(raster, string)
- ST_SetSkew(raster, skewx, skewy)
- ST_SetUpperLeft(raster, x, y)
DZApril 20101 weekDevtime from DZdone

Objective 0.1.6g - Being able to register images as raster stored outside the database. (specifications)
- Mostly changes to gdal2wktraster.py
- ST_BandPath() -> string
PRFebruary 20101 weeks2400done

Objective 0.1.6h - Being able to quickly get metadata for raster and band.
- ST_Metadata(rast)
- ST_BandMetadata(rast
PRJune 20101 dayDevTime from SCdone

Objective 0.1.6i - Being able to easily convert world coordinates to raster coordinates.
- ST_World2RasterCoordX(rast, xw, yw)
- ST_World2RasterCoordY(rast, xw, yw)
- ST_Raster2WorldCoordX(rast, xr, yr)
- ST_Raster2WorldCoordY(rast, xr, yr)
PRJune 20103 dayDevTime from SCdone

Objective 0.1.6j - Being able to set and know if a band nodata value is a true nodata value.
- ST_BandHasNodataValue(rast, band)
- ST_SetBandHasNodataValue(rast, band, boolean)
PRJune 20101 dayDevTime from SCdone

Objective 0.1.6k - Being able to get and set the value of a pixel.
- ST_Value(rast, band, x, y)
- ST_SetValue(rast, band, x, y, val)
PRJuly 20101 dayDevTime from SCdone
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