NEWS_v3.md

lidR v3.2.3 (Release date: ...)

• Fix: bitmerge strategy was bugged and may return NaN and also probably duplicated IDs (#492)

lidR v3.2.2 (Release date: 2021-10-18)

• Enhance: grid_*() functions support a RasterLayer smaller than the point cloud (#483)
• Fix: las_check() with a LAScatalog and with deep = TRUE failed with a output file template (#484).
• Fix: readLAS() no longer reads LAS files on some Windows/Mac machine (#485). It seems it is an issue with CRAN binaries. By releasing 3.2.2 we hope to trigger a new build.
• Enhance: get_range() and consequently range_correction() no longer throw high range error for highly variable range sensor like TLS (#490).

lidR v3.2.1 (Release date: 2021-09-27)

• Fix stuff on Solaris.

lidR v3.2.0 (Release date: 2021-09-26)

ANNOUNCEMENT

rgdal and rgeos will be retired on Jan 1st 2024. raster and sp are based on rgdal/rgeos. lidR is based on raster and sp because it was created before sf, terra and stars. This means that sooner or later lidR will run into trouble (actually it has already started to be the case). So, it is time to fully embrace sf, terra/stars and to leave sp and raster. This will require an in-depth rebase of lidR. We have started the work and we plan to release lidR 4.0.0 that will no longer have any internal code that uses sp and raster. This version already no longer uses rgdal. We hope make these changes with minimal breakage in backward compatibility by maintaining the conversion to sp/raster for functions from v < 4.0.0, but some backward incompatibilities will necessarily arise. In particular, LAS will no longer inherit the sp::Spatial class and will no longer contain a sp::CRS but a sf::crs and LAScatalog will no longer be sp::SpatialPolygonDataFrame. Our plan is (hopefully) to rebase lidR in such a way that nobody will notice the changes expect users who dig a little deeper into the objects.

CHANGES

1. hexbin_metrics() was an unused function and has been removed from lidR. It can be retrieved in lidRplugins

2. Functions using the former namespace such as lassomething() that were renamed into verb_noun() in version 3.0.0 now throw a warning. In v3.0.0 they were still usable for backward compatibility but not documented. In v3.1.0 they printed a message saying to move on to the new namespace. Now in 3.2.0 they throw a formal warning saying to move on to the new namespace. They will throw an error in the next version.

NEW FEATURES

1. classify_poi(). New function capable of attributing a class of choice to any points that meet a logical criterion (e.g. Z > 2) and/or a spatial criterion (e.g. inside a polygon). For example, the following will attribute the class "high vegetation" to each non-ground point that is not in the lake polygon.

   las <- classify_poi(las, LASHIGHVEGETATION, poi = ~Classification != 2, roi = lakes, inverse = TRUE)

2. LAScatalog

   • New function rbind() for LAScatalog.
   • New functions projection()<- and crs()<- for LAScatalog. Those two functions were already working in previous versions but in absence of dedicated functions in lidR the functions that were actually called were raster::projection() and raster::crs() thanks to class inheritance. However the functions from raster do not support crs from sf or numbers as input. Adding a dedicated function in lidR brings consistency between LAS and LAScatalog (#405):

     projection(ctg) <- st_crs(3625)
     # or
     projection(ctg) <- 3625

   • The processing engine has a new option to drop some chunks under ctg@chunk_options$drop. This generates regions that won't be processed. This option accepts a vector of chunk IDs that are dropped and is thus versatile, but its main role is to allow restarting a computation that failed. We consequently introduced the function opt_restart(). Let's assume that the computation failed after few hours at 80% in chunk number 800. Users get a partial output for the first 799 chunks but chunk 800 has a problem that can be solved. It is now possible to restart at 800 and get the second part of the output without restarting from 0:

     output <-    catlog_apply(ctg, myfun, param)
     # Failed after 80%, 'output' contains a partial output
     # Fix the trouble
     
     opt_restart(ctg) <- 800
     output2 <- catlog_apply(ctg, myfun, param)
     
     # Merge 'output' and 'output2'

   • The vignette LAScatalog engine and the manual LAScatalog-class were updated to reflect these features

3. LASheader

   • The function LASheader() can now create a LASheader object from a data.frame. This addition aims to facilitate the creation of valid LAS objects from external data.
   • las_check() can now check a standalone LASheader

     las_check(las@header)

4. LAS

   • The function LAS now automatically fixes the font case of attributes names to match the naming convention of the rlas package. This simplifies the creation of compatible objects from non-LAS file sources.

     data <- data.frame(x = runif(10), Y = runif(10), z = runif(10), pointsourceid = 1:10)
     las <- LAS(data)
     #> Attribute 'x' renamed 'X' to match with default attribute names.
     #> Attribute 'z' renamed 'Z' to match with default attribute names.
     #> Attribute 'pointsourceid' renamed 'PointSourceID' to match with default attribute names.
     las$PointSourceID
     #> [1]  1  2  3  4  5  6  7  8  9 10

5. Full waveform: with most recent versions of the rlas package, full waveform (FWF) can be read and lidR provides some compatible functions. However the support of FWF is still a work in progress in the rlas package. How it is read, interpreted and represented in R may change. Consequently, tools provided by lidR may also change until the support of FWF becomes mature and stable in rlas.

   • New function interpret_waveform() to transform waveform into a regular point cloud
   • New supported flag W for parameter select in readLAS()
   • New automatic colouring scheme for attribute Amplitude in plot(las, color = "Amplitude") that aims to be used with FWF.

6. catalog_intersect() now supports sf, sfc, Extent and bbox objects

7. Concave hull: lidR now includes its own C++ code to compute concave hulls using concaveman-cpp.

   • New function concaveman() to compute concave hulls
   • delineate_crowns() using concave hulls is now between 10 to 50 times faster.

     LASfile <- system.file("extdata", "MixedConifer.laz", package="lidR")
     las = readLAS(LASfile, select = "xyz0")
     concave_hulls <- delineate_crowns(las, "concave")
     # Before v3.2.0: 7.1 seconds
     # From v3.2.0  : 0.2 seconds

   • grid_terrain() with is_concave = TRUE should also be faster.

8. New function catalog_boundary() to compute the actual shape of the point-cloud

9. In find_trees() and segment_trees() the bitmerge strategy to generate robust unique IDs was not actually a valid and robust procedure. It had the advantage of generating integers but was not 100% unique. The probability to generate duplicates was low but we changed the strategy to use a true bit-merging procedure anyway. The new IDs thus generated are weird decimal number such as 5.001120e-310 but are guaranteed to be unique. The documentation has been updated to explain the method.

10. New algorithm random_per_voxel() for decimate_points that keep n points per voxel (#406).

11. 3D rendering:

    • plot() gains a new parameter voxels = TRUE or voxels = 0.5 to render a point cloud with voxels. This is useful to render the output of voxelize_points() or voxel_metrics(), for example. This is computationally demanding and takes time so it should be reserved to small scenes with 30,000 or 40,000 voxels maximum, but note that there is no hard coded limit.

      vm <- voxel_metrics(las, ~list(N = length(Z)), 8)
      plot(vm, color = "V1", voxels = T)

    • specular reflections are now disable in plot().

12. New function plot_metrics() that wraps several other functions into one seamless function that extracts ground inventory plots, computes metrics for each plot and returns a ready to use data.frame for statistical modelling.

13. New function point_eigenvalue() that is equivalent to point_metrics(las, .stdshapemetrics) but specialized, optimized and parallelized to be 10 times faster.

14. grid_metrics() gains a new parameters by_echo allowing users to compute the metrics for different types of echos independently. It is now possible to map e.g. mean(Intensity) for first returns only + multiple return only + single return only. All metrics are computed in a single run and returned in a raster stack.

15. merge_spatial() supports sfc

ENHANCEMENTS

1. grid_density() is 10 times faster

FIXES

1. Fix: quantize() now preserves NaN values instead of converting them into minus infinity (#460).
2. Fix: stdmetrics_i() now fails with an informative message when the sum of intensities is greater than .Machine$integer.max and becomes double (#463)
3. Fix: find_localmaxima() respects the filter argument. It was previously not considered.

MISCELLANEOUS

1. Remove crayon and hexbin dependencies
2. Packages RCSF and rgeos are now only suggested and they are consequently no longer installed by default with lidR
3. Change: rgdal will be retired in 2024. Code using rgdal internally has been removed. In many cases this will not change anything for users but in some cases it may fail when assigning an EPSG code to the LAS file. Also, old versions of rgdal built with old versions of gdal and proj are no longer supported (#466)

lidR v3.1.4 (Release date: 2021-06-22)

• Change: manual() now uses the middle button to perform the selection. Historically the button was "right" but later the right button was added in lidR and attributed to the dragging action. By using "right" in this function this disabled the possibility to drag the scene. Consequently we changed the default to use the middle button. (#442).
• Change: manual() now removes all apices in the selection rectangle when removing some false positive (#445).
• Doc: fix some code block rendering in catalog_apply man page
• Fix: fix catalog processing engine edge case when the last chunks fail (#435).
• Fix: voxel_metrics() with all_voxels = TRUE did not work as expected. The insertion of empty voxels corrupted some of the real voxels. This bug lead to invalid output and some floating points precision errors lead to supernumerary voxels (#437, #439).
• Fix: grid_terrain() used with a LAScatalog no longer propagated the options. For example when using use_class = c(2L, 8L, 9L, 10L) this was not propagated and the option was actually the default one i.e. use_class = c(2L, 9L). This bug was introduced in 3.1.0
• Fix: delineate_crowns() now returns NULL if the input point-cloud has only points with treeID = NA. It also triggers a warning. (#438).
• Fix: manual() the function that allow for finding the trees manually was no longer working probably because of some slight modifications in the rgl package.
• Enhance: the plot function used to display the output of voxel_metrics() now internally uses the same function than LAS objects. This enhances the rendering using the clear_artifact option by default and allows for a lot more flexibility in the rendering.
• Enhance: new parameter button in manual() to choose which button to use.
• Enhance: segment_trees() now print a message if all points are NA to suggest to use other parameters

lidR v3.1.3 (Release date: 2021-05-20)

• Fix: las_check(..., deep = TRUE) was not working in parallel (#411).
• Fix: the LAScatalog processing engine printed the outputs twice for rare functions that print something like las_check() (#414)
• Fix: the internal way lidR is checking for nested parallelism has been reworked in depth fixing some bugs and allowing to support more strategies thanks to @Lenostatos (#418, #421)
• Fix: merge_spatial() did not work with sf objects.
• New: las_check() introduces a new type of message called "message". Some message previously classified as "warning" are now classified as "message". Warnings are now displayed in orange and messages in yellow. The output of las_check() has now 3 items instead of 2.
• New: stdmetrics_z gains a new parameter zmin = 0 to control the lower bound of the integration for metrics zpcumx (#424).
• Enhance: max_cr_factor in silva2019() is now allowed to be in [0, inf[ instead of [0,1] (#417)
• Enhance: added a workaround to avoid sp printing proj_create: crs not found for non recognized EPSG codes and avoid throwing warning Discarded datum [...] in Proj4 definition
• Enhance: readLAScatalog() throws a more informative error when attempting to read an non-existing folder.
• Enhance: readXXXLAS() now throws an error for LAScluster (#430).
• Doc: Updates and clarifications in the doc of stdmetrics.
• Misc: removed LazyData in DESCRIPTION

lidR v3.1.2 (Release date: 2021-03-11)

• New: the class LASheader has a new slot @EVLR for the extended variable length records. print() has been extended to display EVLR. While this change is compatible with rlas <= 1.3.9 it is only used with version of rlas >= 1.4.0.
• New: algorithm lowest() for decimate_points()
• Fix: usban outside the range of representable values of type 'char' for spatial indexes built with 0 point.
• Fix: build failure with GCC 4.x
• Fix: catalog_apply() now works with cluster plan plan(cluster) meaning that it can be used on HPC e.g. with MDPI. We took advantage of this bug to better detect the parallel strategy used and disable or not OpenMP. When lidR is not able to figure out if the strategy involves multiple machines or multiple cores of a single machine, then a warning is thrown and OpenMP is disabled by security.

  The parallel evaluation strategy was no recognized and lidR does not know if OpenMP should be disabled.
  OpenMP has been disabled by security. 
  Use options(lidR.check.nested.parallelism = FALSE) and set_lidr_threads() for a fine control of parallelism.
  

• Fix: incorrect offset computation in spTransform() have for consequences to make the function failing with error: Non quantizable value outside the range of representable values of type 'int'.
• Fix: attribution of a WKT string with projection() when using an epsg code as input (projection(las) <- 12345).
• Fix: partial processing mode now respects the raster alignment when processed by file
• Fix: readLAScatalog() now reads the WKT CRS of LAS files format 1.4. To support both EPSG and WKT the table of attribute of a LAScatalog now has a column named CRS that replace former column EPSG.
• Fix: print() for a LAScatalog now prints the CRS exactly like print for LAS.
• Doc: documentation of options(lidR.check.nested.parallelism = FALSE) was missing. Information can now be found in ?lidR-package and ?lidR-parallelism
• Enhance: in catalog_apply() if lidR.check.nested.parallelism = FALSE it now respects the input of set_lidr_thread() instead of the output of get_lidr_threads(). For example if set_lidr_thread(0) it now propagates the information 0 (all cores) instead of the output of get_lidr_thread() which might be e.g. 4 on the master worker but might be different on the slave workers. Similarly set_lidr_thread(20) will request 20 cores to the workers even if get_lidr_thread() returns 4 on the local machine.
• Enhance: set_lidr_thread() accepts inputs < 1 such as 0.5 or 0.25 to mean 'half' or 'quarter' of available cores.
• Enhance: grid_density() now returns 0 for pixels with 0 points instead of NA which make more sense and corresponds to what should be expected.

lidR v3.1.1 (Release date: 2021-01-22)

• Fix usban issue: outside the range of representable values of type 'int' for spatial indexes built with 0 point.
• Fix usban issue: outside the range of representable values of type 'int' when quantizing or counting non quantized values that are not quantizable according the the given scale and offset.
• Remove lax files in example data.

lidR v3.1.0 (Release date: 2021-01-15)

MAJOR NEW FEATURES

The release of lidR 3.1.0 comes with major internal modifications enabling users to chose different kinds of spatial indexes to process the point-clouds, including Quadtrees and Octrees, plus others. Previous releases were optimized to process ALS data but were suboptimal for TLS data (for example) because the spatial index in use was specialized for ALS. With 3 new spatial indexes, version 3.1.0 brings the capability to process TLS (but not only) data more efficiently. For the time being, however, lidR is still mainly focused on ALS and does not include many functions for TLS processing, but the existing functions that be used on all kinds of point-cloud, such as point_metrics(), detect_shape(), and classify_noise() are already much faster for TLS data.

1. The class LAS has a new slot @index that registers the source of the point cloud (e.g. ALS, TLS, UAV, DAP) and the spatial index that must be used (e.g. grid partition, voxel partition, quadtree, octree). See help("lidR-spatial-index").
2. This comes with several new read*LAS() functions, such as readTLSLAS(), which registers the point-cloud type and a default spatial index. Registering the correct point type improves the performance of some functions. This is particularly visible in functions that perform 3D knn searches, such as point_metrics(). Computing point_metrics() on a TLS point-cloud tagged as TLS is much faster than if it is not tagged. If performance is not improved in this release the future versions of the package may bring enhancements transparently.
3. New functions index() and sensor() to manually modify the spatial indexing-related information. help("lidR-spatial-index").
4. New C++ API: the C++ classes for spatial indexing are header-only and stored in inst/include, meaning that other packages can link to lidR to uses the spatial index at C++ level. The classes are not documented yet but the source code is simple and commented, and the lidR book contains (or will contain) a chapter on spatial indexing.

CHANGES

1. The use of old deprecated namespaces (such as lassomething()) now triggers a message inviting users to move on the new namespace.
2. The construction of a LAS object with LAS() now triggers warnings with incorrectly quantized coordinates according to the information in the header.
3. grid_terrain() now has a parameter ... after algorithm that invalidates code that uses too many parameters without naming them. This no longer works:

grid_terrain(las, 1, tin(), TRUE, TRUE, 8)
# Use instead
grid_terrain(las, 1, tin(), keep_lowest = TRUE, full_raster = TRUE, use_class = 8)

4. opt_cores() and opt_cores<-() are now defunct. These functions did not have any effect because they only throw a warning to alert about deprecation since v2.1.0 (July 2019).
5. The LAS* classes have a new slot @index (see above). This should not break anything expect when a LAS* object is saved in an Rds file and loaded as an R object instead of being read with readLAS.

NEW FEATURES

1. classify_noise()

   • New function classify_noise() to classify the outliers of a point-cloud according to ASPRS standard
   • New algorithm sor() (statistical outlier removal) for noise classification
   • New algorithm ivf() (isolated voxel filter) for noise classification

2. Quantization of the coordinates. LAS objects in lidR closely respect the ASPRS standard. When modified manually by users, some inadequate practices may generate invalid LAS objects. We thus decided to export some internal functions to help in creating valid LAS objects and we modified the behavior of the [[<- and $<- operators to ensure that it is more difficult to create LAS objects that are not ASPRS compliant.

   • New functions las_quantize(), quantize(), is.quantized(), count_not_quantized() to ensure that coordinates are quantized according to the metadata in the header.
   • New function las_update() to update the header (bounding box, number of points, return count and so on) if a LAS object was modified outside a lidR functions.
   • Enhanced behaviour of [[<- and $<- operators. Values are quantized on-the-fly and the header is updated automatically when attributing new values to X, Y or Z.

   las$X # Original values
   #> [1] 0.755 0.286 0.100 0.954 0.416 0.455 0.971 0.584 0.962 0.762
   las$X + 5/3 # Many decimals because 5/3 = 1.666666...
   #> [1] 2.421667 1.952667 1.766667 2.620667 2.082667 2.121667 2.637667 2.250667 2.628667 2.428667
   las$X <- las$X + 5/3 # Updates X with these numbers
   las$X # Values were quantized (and header updated)
   #> [1] 2.422 1.953 1.767 2.621 2.083 2.122 2.638 2.251 2.629 2.429

   • New manual page can be found in help("las_utilities").

3. metrics

   • voxel_metrics() gained a parameter all_voxels to include "empty" voxels (i.e. those with 0 points) in the output #375.

4. grid_terrain()

   • new parameter ... after algorithm that invalidates code that uses too many parameters without naming them. This no longer works:

   grid_terrain(las, 1, tin(), TRUE, TRUE, 8)
   # Use instead
   grid_terrain(las, 1, tin(), keep_lowest = TRUE, full_raster = TRUE, use_class = 8)

   • new parameter is_concave to compute a nicer DTM if the point-cloud boundaries are not convex #374

FIXES

1. In clip_transect() the polygon generated to extract the transect defined by points p1, p2 was created by buffering the line p1-p2 with a SQUARE cap style meaning that the transect was extended beyond points p1, p2. It now uses a FLAT cap style meaning that the transect is no longer extended beyond the limits of the user input.
2. In segment_trees() when using a raster-based algorithm, some points may have been misclassified as NAs at the edges of the point cloud instead of getting the correct tree ID found in the raster because of some edge effects. Now, all points are correctly classified and there are no longer false positive NAs.
3. normalize_intensity() was previously not working with a LAScatalog. Now fixed. See #388
4. In grid_*() functions when a RasterLayer is given as layout, the computation was performed for all the cells no matter if the extent of the loaded point-cloud was much smaller than the raster. For large rasters this dramatically increased the workload with redundant computation and saturated the RAM to a point that the computation was no longer possible.
5. In track_sensor() pulse IDs could be wrongly attributed for multi-beam sensors if the number of points is very low. See #392
6. In track_sensor(), if thin_pulses_with_time = 0 a single pulse was loaded with a LAScatalog. However it worked as expected with a LAS object. This behaviour has been fixed.
7. Fixed some new warnings coming from future and related to RNG.
8. clip_*() in a region with no points from a LAScatalog + an output file no longer fails. See #400.

ENHANCEMENTS

• Doc: The documentation of point_metrics() clarifies how the user-defined function is fed and in which order the points are sorted.
• Doc: The argument Wdegenerated in grid_terrain() and normalize_height() was misleading. A wrong interpretation was that degenerated ground points were discarded from the dataset. The documentation now clarifies the text to avoid misinterpretation.
• Doc: minor fixes and clarifications in the LAScatalog-class page of the manual.
• Enhance: plot_dtm3d() now enables pan by default, like plot() for LAS objects.
• Enhance: track_sensor() throws a new warning if a swath in the point cloud does not produce any sensor location. This addresses #391.
• Misc: switch to C++14 (see #402)

lidR v3.0.4 (Release date: 2020-10-08)

• Fix: in readLAScatalog() the documentation states that ... is propagated to list.files(), but the argument pattern was actually hard coded internally and this prevents it being overwritten. When using readLAScatalog(..., pattern = "xxx") this previously triggered an error, formal argument "pattern" matched by multiple actual arguments. It now works. See #368.
• Fix: in spTransform() the reprojected point cloud now has quantized coordinates and is thus LAS compliant #369.
• Fix: The local maximum filter algorithm more robustly finds local maxima when two or more close points or pixels share the exact same height and are both locally the highest. Previously, if two or more points in a close neighbourhood were both the highest, they may all be missed depending on the order they were processed (which is somewhat random). The fix allows users to retain one local maximum among multiple ones with a precedence to the first one identified as local maximum. The consequences of this fix are that slightly more apices may be found, especially when processing a CHM in RasterLayer.
• Fix: classify_ground() no longer erases the previous classification when no ground points were recorded but some points are classified with other classes.
• Fix #365. Poor interpolation at the very edge of the Delaunay triangulation in some cases. Triangles with too steep a slope are now removed. This triggers a knnidw interpolation instead.
• Fix #371: las_reoffset() may not have caught extremely rare Z coordinate overflow when converting to integers.
• Fix #372. las_reoffset() incorrectly converted decimal coordinates to integers using trunc instead of round.
• Fix: projection<-() and crs<-() properly attributes NA CRS for LAS 1.4 objects
• Change: in print the CRS of LAS and LAScatalog is no longer displayed as a proj4 string but uses the WTK string with sf style display. E.g. NAD83 / UTM zone 17N is displayed instead of +proj=utm +zone=17 +datum=NAD83 +units=m +no_defs. This is part of the migration toward WTK instead of proj4.
• Change: lidR now explicitly depends on rgdal >= 1.5.8.
• Change: grid_canopy() now rounds the values of the pixels for not outputting pixels that with an irrelevant number of decimal digits.
• Enhance: epsg() now throws a warning if the LAS is in format 1.4 and CRS is stored as WKT.
• New: projection()<- supports crs from sf and numeric values for espg code: projection(las) <- 26918.
• New: in spTransform() it is now possible to use a parameter scale to change the scale factor after reprojection. This is useful for projecting from lon-lat data las2 = spTransform(las, crs, scale = 0.01).
• Internal: better support in projection<- of the current changes with CRS representation in the R spatial ecosystem.
• Doc: new CITATION file. citation("lidR")

lidR v3.0.3 (Release date: 2020-08-05)

• New: tin() gains a parameter extrapolate to control how the method treats interpolation of points outside the convex hull determined by ground points. This solves #356
• Doc: supported processing options in grid_terrain() were incorrect especially the buffer that is required.
• Doc: in Wing2015() the mention about weak performance was removed since it was not longer true for a while.
• Doc: clarification of the supported templates in man page named clip
• Enhance: a more informative error is thrown when using {ORIGINALFILENAME} as a template in clip_*().
• Misc: fix C++ error that will happen in next version of Rcpp ahead of the release of Rcpp. Thanks to @waltersom in #358

lidR v3.0.2 (Release date: 2020-07-05)

• Fix: in grid_metrics() and grid_canopy() when processing a LAScatalog the option to process by files without buffer and disabling the wall-to-wall guarantees (processing independent files) is now respected. See also.
• Fix: in grid_metrics() NA pixels were zeroed. They are now properly initialized to NA.

lidR v3.0.1 (Release date: 2020-06-18)

• Fix: in grid_terrain() and normalize_height() we introduced few releases ago an option use_class but we did not removed an internal test consisting in failing in absence of point classified 2. This invalidated the possibility to use e.g. use_class = 1 in files that do not respect ASPRS standards #350.
• Fix: many troubles introduced in v3.0.0 on CRAN
• Fix: package explicitly depends on sp >= 1.4.2
• Fix: readLAS(filter = "-help") was not working but was suggested in the documentation.

lidR v3.0.0 (Release date: 2020-06-08)

MAJOR CHANGES

Summary

In lidR version 3.0.0, 80% of the functions were renamed. Old functions were soft-deprecated, meaning that they still exist so version 3 is fully compatible with version 2, at least for 1 year. Users should start to use the new names. See ?lidR::deprecated for the list of deprecated functions and their new names. The plan is to remove these functions in 1 year so they will progressively print a message, then throw a warning, then throw an error, after which they will be definitively removed.

Full explanation

At the very beginning of the development of lidR we started to name the functions that return a LAS object lassomething(). At that point there were 5 functions and ~10 users. As lidR grew up, we kept going with this naming convention but now lidR is used worldwide and this naming convention now overlaps with the LAStools software suite created by Martin Isenburg. This creates confusion for users which is problematic both for Martin and for us. This situation is likely to get worse as more tools are released into LAStools. We discussed the issue with Martin Isenburg and we took the decision to rename the functions in the lidR package so that the overlaps in namespace will progressively disappear.

The new naming convention follows the currently trending verb_noun syntax initiated by the tidyverse. For example, lasnormalize() becomes normalize_height(), while lasground() becomes classify_ground(). The full list of changes can be found in ?lidR::deprecated.

In efforts to avoid breaking users' scripts version 3 is fully backwards-compatible. For example, the function lasground() still exists and can be used without throwing a warning or error message. But this will progressively change with versions 3.1.0, 3.2.0 and 3.3.0. First a message will be displayed to invite users to change to using the new names, then a warning, then finally an error. After a year, maybe 18 months, the function will no longer exist. So users are invited to adopt the new naming convention as soon as possible.

NEW FEATURES

1. readLAScatalog() has new parameters to tune the processing options at read time without using the functions opt_*().

   readLAScatalog("folder/", chunk_buffer = 60, filter = "-drop_z_below 2")

2. New function clip_transect() to extract a transect between two points. The function has the capability to reorient the point cloud to put it on XZ coordinates and easily create some 2D rendering of the transects in e.g. ggplot2.

3. New function readMSLAS() to read multisprectral data from 3 different files.

   readMSLAS("channel1.las", "channel2.las", "channel3.las", filter = "-keep_first")

4. delineate_crowns() (formerly named tree_hulls()) now returns 3 metrics: XTOP, YTOP and ZTOP, that contain the coordinates of the apices of the trees.

5. segment_trees() (formerly named lastrees()) and find_trees() (formerly tree_detection()) can now perform the computation on a LAScatalog using two strategies to ensure that tree IDs are always unique on a coverage and that trees that belong on the edge of two tiles will independently get the same IDs.

6. point_metrics()

   • supports a knn neighborhood search with missing r and given k
   • supports a spherical neighborhood search with missing k and given r
   • supports a knn neighborhood + a radius limit with k and r given
   • default setting is now xyz = FALSE
   • if xyz = FALSE the the output now contains a column (the first one) named pointID that references the point of the original las object. See #325

7. normalize_height() (formerly named lasnormalize())

   • new argument add_lasattribute. If TRUE the absolute elevation (above sea level) is retained as before, but the header is updated so the absolute elevation becomes an extrabyte attribute writable on a las file. Otherwise the information is discarded at write time.
   • new argument Wdegenerated. If FALSE the function does not warn about degenerated points. Degenerated points are removed anyway.

8. New function find_localmaxima() to find local maxima with different windows. This function is designed for programming purposes, not to find individual trees. This latter task is still performed by find_trees() (formerly called tree_detection()). Instead, find_localmaxima() may help with finding other human-made structures.

9. Internal global variables were exported to help with ASPRS LAS classification standard. Instead of remembering the classification table of the specification it is now possible to use one of LASNONCLASSIFIED, LASUNCLASSIFIED, LASGROUND, LASLOWVEGETATION, LASMEDIUMVEGETATION, LASHIGHVEGETATION, LASBUILDING, LASLOWPOINT, LASKEYPOINT, LASWATER, LASRAIL, LASROADSURFACE, LASWIREGUARD, LASWIRECONDUCTOR, LASTRANSMISSIONTOWER, LASBRIGDE, LASNOISE. e.g.:

   filter_poi(las, !Classification %in% c(LASWIRECONDUCTOR, LASTRANSMISSIONTOWER))

10. The internal function engine_chunks() has been exported. It is not actually intended to be used by regular users but might be useful in some specific cases for debugging purposes.

11. lasmetrics(), grid_metrics3d(), grid_hexametrics() were deprecated in previous versions. They are now defunct.

12. las_check() (formerly named lascheck()):

    • gains an option print = FALSE.
    • now returns a list for further automatic processing/parsing. If print = TRUE the list is returned invisibly so the former behaviour looks the same.

    las_check(las, FALSE)
    #> $warnings
    #> [1] "1 points are duplicated and share XYZ coordinates with other points"                                         
    #> [2] "There were 1 degenerated ground points. Some X Y Z coordinates were repeated."                               
    #> [3] "There were 1 degenerated ground points. Some X Y coordinates were repeated but with different Z coordinates."
    #> 
    #> $errors
    #> [1] "Invalid header: X scale factors should be factor ten of 0.1 or 0.5 or 0.25 not 0.123"                      
    #> [2] "Invalid file: the data contains a 'gpstime' attribute but point data format is not set to 1, 3, 6, 7 or 8."

    • gains an option deep = TRUE with a LAScatalog only. In this case it performs a deep inspection of each file reading each point cloud.
    • the coordinates of the points are expected to be given with a resolution e.g. 0.01 meaning a centimetre accuracy. It means we are expecting values like 12345.67 and not like 12345.6712. This is always the case when read from a LAS file but users (or lidR itself) may transform the point cloud and generate LAS objects where this rule is no longer respected. lidR always ensures to return LAS objects that are strictly valid with respect to ASPRS standard. If not valid this may lead to failure in lidR because some functions, such as tin(), dsmtin(), pitfree() work with the integer representation of the coordinates. This is why we introduced a quantization check in las_check().
    • now reports problems for invalid data reported in #327

13. merge_spatial() (formerly named lasmergespatial()) now supports sf POLYGON objects.

14. plot()

    • for LAS object gains an argument add to overprint two point clouds with e.g. different colour palettes #325.

    las = readLAS("classified.las")
    nonveg = filter_poi(las, Classification != LASHIGHVEGETATION)
    veg = filter_poi(las, Classification == LASHIGHVEGETATION)
    x = plot(nonveg, color = "Classification")
    plot(veg, add = x)

    • for LAScatalog objects gains an argument overlaps = TRUE to highlight the overlaps.

15. New function add_lasrgb() to add RGB attributes. The function updates the header in such a way that the LAS object has a valid point format that supports RGB.

16. LAScatalog processing engine

    • gains a generic option opt_merge(ctg) <- FALSE to disable final merging and force the engine to return a list
    • gains a generic option opt_independent_files(ctg) <- TRUE to set adequate options to a collection of independent files, for example a set of circular ground inventory plots. It is equivalent to set no buffer, processing by file and no wall-to-wall guarantee.
    • gains an option autoread = TRUE in catalog_apply(). Not actually intended to be used widely but might be convenient for some use cases.

17. New function get_range().

18. knnidw() gains an argument rmax to set a maximum radius search in which to find the knn. This fixes computation time issues with non-convex point clouds.

19. track_sensor() (formerly sensor_tracking())

    • now has two available algorithms.
    • supports systems with multiple pulses emission which formerly failed

20. writeLAS() gains a parameter index = TRUE to automatically write a lax file along with the las/laz file.

ENHANCEMENTS

1. readLAS() now warns when reading incompatible files. Point coordinates are recomputed on-the-fly as it has always been done but now the user is aware of potential problems or precision loss.

2. A new vignette named LAScatalog processing engine has been added and documents in-depth the catalog_apply() engine of lidR.

3. In clip_*() several lines of codes were removed because they were not used. We suspected these lines covered old cases from lidR v1.x.y that are no longer relevant. If a user encounters problems, please report.

4. The arguments select and filter from readLAS() are not expected to be used with a LAScluster when processing a LAScatalog. The options are carried by the LAScatalog itself with opt_select() and opt_filter(). If used, a warning is now thrown.

5. Enhancements made here and there to improve the support of the CRS when reading and checking a LAS file.

6. When processing by file with a raster output, automatic chunk extension to match with a raster resolution now performs a tighter extension.

7. Minor modification of print() methods to enhance information displayed.

8. All algorithms such as tin(), p2r(), knnidw(), li2012(), and so on, now have the classes c("lidRAlgorithm", "something") and a dedicated print function. The source code is no longer displayed when printing these objects

   f = lmf(2)
   f
   #> Object of class lidR algorithm
   #> Algorithm for: individual tree detection 
   #> Designed to be used with: find_trees 
   #> Native C++ parallelization: yes 
   #> Parameters: 
   #>  - circ = TRUE <logical>
   #>  - hmin = 2 <numeric>
   #>  - shape = circular <character>
   #>  - ws = 2 <numeric>

9. In grid_metrics() the RasterBrick is built much faster.

FIXES

1. In delineate_crowns(), formerly named tree_hull(), when applied to a LAScatalog the buffer was not properly removed. The polygons were simply clipped using the bounding box of the chunk. Now the trees that have an apex in the buffer are removed and the trees that have an apex outside the buffer are retained. Thus, when merging, everything is smooth and continuous.

2. catalog_retile() returns a LAScatalog with only the newly created files even if the folder contains other las files. It formerly read every las file in the folder leading to an invalid catalog if the folder already contained las files.

3. Previously in automatic filename generation the template YCENTER was not actually recognized. However, XCENTER was recognized but actually contained the value for YCENTER. This was working for lasclip() thanks to a previous fix but was still a problem in other functions when processing chunks.

4. Function wkt() no longer masks the new function wkt() in sp.

5. merge_spatial() (formerly named lasmergespatial()) no longer fails with a LAS object containing a single point.

lidR v 2.x.y

lidR v2.x.y changelog has been moved to NEWS_v2.md