rasterVis: vectorplot – R documentation

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rasterVis

vectorplot

Vector plots of Raster objects.

Description

vectorplot displays vector fields from Raster objects using arrows.

streamplot displays streamlines with a procedure inspired by the FROLIC algorithm (see references): for each point (droplet) of a jittered regular grid, a short streamline portion (streamlet) is calculated by integrating the underlying vector field at that point. The main color of each streamlet indicates local vector magnitude (slope). Streamlets are composed of points whose sizes, positions and color degradation encode the local vector direction (aspect).

Usage

## S4 method for signature 'Raster'
vectorplot(object, layers,
            narrows=2e3, lwd.arrows=0.6, col.arrows='black',
            length=unit(1e-2, 'npc'),
            maxpixels=1e5, region=TRUE, margin=FALSE,  
            isField=FALSE, reverse=FALSE,
            unit='radians', scaleSlope=TRUE,
            aspX=0.08, aspY=aspX,
            key.arrow = NULL,
            ...)

## S4 method for signature 'RasterStack'
vectorplot(object, layers,
            narrows=2e3, lwd.arrows=0.6, col.arrows='black',
            length=unit(1e-2, 'npc'),
            maxpixels=1e5, region=TRUE, margin=FALSE,
            isField=FALSE, reverse=FALSE,
            unit='radians', scaleSlope=TRUE,
            aspX=0.08, aspY=aspX,
            key.arrow = NULL,
            uLayers, vLayers, ...)

## S4 method for signature 'Raster'
streamplot(object, layers,
            droplet = list(), streamlet = list(),
            par.settings = streamTheme(),
            colorkey = FALSE,
            isField = FALSE, reverse = FALSE, 
            parallel = TRUE, mc.cores = detectCores(), cl = NULL,
            ...)

## S4 method for signature 'RasterStack'
streamplot(object, layers,
            droplet = list(), streamlet = list(),
            par.settings=streamTheme(),
            colorkey = FALSE,
            isField = FALSE, reverse = FALSE, 
            parallel = TRUE, mc.cores = detectCores(), cl = NULL,
            ...)

Arguments

`object`	A Raster object. If `isField=FALSE` the vector field is calculated internally from the result of `terrain`.
`layers`	A numeric or character which should indicate the layers to be displayed.
`maxpixels`	A numeric, number of cells to be shown if `region=TRUE` or if `region` is a `Raster*` object.
`narrows`	A numeric, number of arrows.
`lwd.arrows`	Numeric, width of the lines of the arrows
`col.arrows`	character, color of the arrows
`length`	Unit, extent of the arrow head.
`margin`	Logical, if TRUE two marginal graphics show the summaries of the object.
`scaleSlope`	Logical or numeric. If TRUE the slope (vector magnitude) is scaled (but not centered) with its standard deviation. If it is a numeric, the slope is scaled with this value. It is not used if `isField='dXY'`.
`aspX, aspY`	Numeric. Multipliers to convert the slope values into horizontal (`aspX`) and vertical (`aspY`) displacements.
`key.arrow`	A reference (or legend) vector. If is not NULL, it is a list with two named components, `size`, a numeric to define the length of the arrow (default 1), and `label`, a character to define the label (default `''`).
`uLayers, vLayers`	Numeric, indexes of layers with horizontal and vertical components, respectively, when `isField='dXY'` and the `RasterStack` has more than 2 layers. If missing, the horizontal components are the layers of the first half of the object, and the vertical components are the layers of the second half.
`droplet`	A list whose elements define the droplet configuration: cropExtent: Percentage of the object extent to be cropped (default .97) to avoid droplets at boundaries pc: A numeric. It is the percentage of cells used to compute droplets. Its default value is 0.5. Therefore, only the 0.5% of the cells are used. For example, if you use a Raster with 180 rows and 360 columns (64800 cells), with this default value `streamplot` will produce 324 droplets.
`streamlet`	A list whose elements define the streamlet configuration: L: length of the streamlet (number of points, default 10) h: streamlet calculation step (default `mean(res(object))`).
`par.settings`	A list to define the graphical parameters. For `streamplot` there is an specific theme, `streamTheme`.
`colorkey`	A logical specifying whether a color key is to be drawn alongside the plot (default is `FALSE`), or a list describing the color key (see the `colorkey` section of the help page of `levelplot` for details).
`parallel`	Logical, TRUE (default) to use `parallel` package.
`cl`	a cluster object. Read the help page of `parLapply` for details.
`mc.cores`	The number of cores to use if `parallel=TRUE` and no `cl` is provided. Read the help page of `mclapply` for details.
`region`	Logical, if `TRUE` the region is displayed as the background using `levelplot`. It can be a `Raster*` with the same extent and resolution as `object`.
`reverse`	Logical, TRUE if arrows or streamlets go against the direction of the gradient.
`isField`	If `TRUE` the object is a vector field. Thus, `object` must be a Raster* with two layers, slope (local vector magnitude) and aspect (local vector direction), in this order. The aspect angle, following the conventions of `raster::terrain`, must be computed clockwise from 0 (due north). The slope layer will be used as the background if `region` is `TRUE`. If `isField='dXY'` `object` must be a Raster* with two layers representing the horizontal and the vertical components, respectively. The slope is computed and used as the background if `region` is TRUE.
`unit`	Character, angle units of the `aspect` layer if `isField=TRUE`: 'radians' or 'degrees'.
`...`	Additional arguments for `levelplot`

Author(s)

Oscar Perpiñán Lamigueiro

References

R. Wegenkittl and E. Gröller, Fast Oriented Line Integral Convolution for Vector Field Visualization via the Internet, Proceedings IEEE Visualization ’97, 1997, http://www.cg.tuwien.ac.at/research/vis-dyn-syst/frolic/frolic_crc.pdf

Examples

## Not run: 
proj <- CRS('+proj=longlat +datum=WGS84')

df <- expand.grid(x=seq(-2, 2, .01), y=seq(-2, 2, .01))
df$z <- with(df, (3*x^2 + y)*exp(-x^2-y^2))
r1 <- rasterFromXYZ(df, crs=proj)
df$z <- with(df, x*exp(-x^2-y^2))
r2 <- rasterFromXYZ(df, crs=proj)
df$z <- with(df, y*exp(-x^2-y^2))
r3 <- rasterFromXYZ(df, crs=proj)
s <- stack(r1, r2, r3)
names(s) <- c('R1', 'R2', 'R3')

vectorplot(r1)
vectorplot(r2, par.settings=RdBuTheme())
vectorplot(r3, par.settings=PuOrTheme())

## scaleSlope, aspX and aspY
vectorplot(r1, scaleSlope=FALSE)
vectorplot(r1, scaleSlope=1e-5)
vectorplot(r1, scaleSlope=5e-6, alpha=0.6)
vectorplot(r1, scaleSlope=TRUE, aspX=0.1, alpha=0.6)
vectorplot(r1, scaleSlope=TRUE, aspX=0.3, alpha=0.3)


## Reference vector
# Default size (1)
vectorplot(r1, region = FALSE,
           key.arrow = list(label = 'm/s'))
vectorplot(r1, region = FALSE,
           key.arrow = list(size = 2, label = 'm/s'))

## A vector field defined with horizontal and vertical components
u <- v <- raster(xmn=0, xmx=2, ymn=0, ymx=2, ncol=1e3, nrow=1e3)
x <- init(u, v='x')
y <- init(u, v='y')
u <- y * cos(x)
v <- y * sin(x) 
field <- stack(u, v)
names(field) <- c('u', 'v')

vectorplot(field, isField='dXY', narrows=5e2)

## We can display both components as the background
vectorplot(field, isField='dXY', narrows=5e2, region=field)

## It is also possible to use a RasterStack
## with more than 2 layers when isField='dXY'
u1 <- cos(y) * cos(x)
v1 <- cos(y) * sin(x)
u2 <- sin(y) * sin(x)
v2 <- sin(y) * cos(x)
field <- stack(u, u1, u2, v, v1, v2)
names(field) <- c('u', 'u1', 'u2', 'v', 'v1', 'v2')

vectorplot(field, isField='dXY',
           narrows=300, lwd.arrows=.4,
           par.settings=BTCTheme(),
           layout=c(3, 1))

## uLayer and vLayer define which layers contain
## horizontal and vertical components, respectively
vectorplot(field, isField='dXY',
           narrows=300,
           uLayer=1:3,
           vLayer=6:4)

##################################################################
## Streamplot
##################################################################
## If no cluster is provided, streamplot uses parallel::mclapply except
## with Windows. Therefore, next code could spend a long time under
## Windows.
streamplot(r1)

## With a cluster
hosts <- rep('localhost', 4)
cl <- parallel::makeCluster(hosts)
palRed <- RColorBrewer::brewer.pal(n = 5, name = 'Reds')
streamplot(r2, cl=cl,
           par.settings=streamTheme(symbol= palRed))
parallel::stopCluster(cl)

## Without parallel
palGreen <- RColorBrewer::brewer.pal(n = 5, name = 'Greens')
streamplot(r3, parallel=FALSE,
           par.settings=streamTheme(symbol = palGreen))

## Configuration of droplets and streamlets
streamplot(s, layout=c(1, 3), droplet=list(pc=.2), streamlet=list(L=20),
           par.settings=streamTheme(cex=.6))

## End(Not run)

rasterVis

Visualization Methods for Raster Data

v0.50.2

GPL-3

Authors

Oscar Perpinan Lamigueiro [cre, aut] (<https://orcid.org/0000-0002-4134-7196>), Robert Hijmans [aut]

Initial release

vectorplot

Description

Usage

Arguments

Author(s)

References

See Also

Examples

rasterVis

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