TIS: Tissue Image Simulator (TIS)

View source: R/TIS.R

TISR Documentation

Tissue Image Simulator (TIS)

Description

Tissue Image Simulator (TIS) integrates the basic simulation functions in spaSim, including simulating (mixed) background image, clusters, immune rings, double immune rings and stripes. The patterns are simulated on separate layers sequentially (e.g. immune rings are simulated after/on top of background cells). And each layer is also plot sequentially.

Pattern properties (e.g. properties_of_clusters) contain the properties of a pattern in the format of list where each element is one pattern. These properties need to be manually defined. Details about the format of the properties see the examples in simulate_clusters simulate_immune_rings simulate_double_rings simulate_stripes

Usage

TIS(
  bg_sample = NULL,
  n_cells = NULL,
  width = NULL,
  height = NULL,
  bg_method = NULL,
  min_d = NULL,
  oversampling_rate = 1.2,
  jitter = 0.3,
  names_of_bg_cells = NULL,
  proportions_of_bg_cells = NULL,
  n_clusters = NULL,
  properties_of_clusters = NULL,
  n_immune_rings = NULL,
  properties_of_immune_rings = NULL,
  n_double_rings = NULL,
  properties_of_double_rings = NULL,
  n_stripe_type = NULL,
  properties_of_stripes = NULL,
  image_name = NULL,
  plot_image = FALSE,
  plot_categories = NULL,
  plot_colours = NULL
)

Arguments

bg_sample

(OPTIONAL) A data frame or SpatialExperiment class object with locations of points representing background cells. Further cell types will be simulated based on this background sample. The data.frame or the spatialCoords of the SPE object should have colnames including "Cell.X.Positions" and "Cell.Y.Positions". By default use the internal bg1 background image.

n_cells

(OPTIONAL) Number of background cells to simulate. Only when bg_sample is NULL.

width

(OPTIONAL) Number The width of the image.

height

(OPTIONAL) Number The height of the image.

bg_method

(OPTIONAL) String specifying the distribution of the background cells. Choose from "Hardcore" and "Even".

min_d

(OPTIONAL) Number The minimum distance between two cells.

oversampling_rate

(OPTIONAL) Numeric. The multiplier for oversampling. Without oversampling, the simulation deletes cells that are within min_d from each other, resulting in a less total number of cells than n_cells. Default is 1.2 (this should be set based on n_cells and min_d; should always be larger than 1).

jitter

(OPTIONAL) Numeric. Use when method is "Even". The uniform distribution parameter to generate the jitter distance for each cell from the vertices of the hexagon.

names_of_bg_cells

(OPTIONAL) Vector The cell types of the background cells. If NULL, the background cells are of one type.

proportions_of_bg_cells

(OPTIONAL) Vector The corresponding proportion of each cell type in the background cells.

n_clusters

(OPTIONAL) Number of cell clusters. If NULL, no clusters to simulate.

properties_of_clusters

(OPTIONAL) List of parameters to define the clusters.

n_immune_rings

(OPTIONAL) Number of immune rings. If NULL, no immune rings to simulate.

properties_of_immune_rings

(OPTIONAL) List of parameters to define the immune rings.

n_double_rings

(OPTIONAL) Number of double immune rings. If NULL, no double rings to simulate.

properties_of_double_rings

(OPTIONAL) List of parameters to define the double immune rings.

n_stripe_type

(OPTIONAL) Number of stripe (vessel) types. If NULL, no stripes to simulate.

properties_of_stripes

(OPTIONAL) List of parameters to define the stripes.

image_name

(OPTIONAL) String to name the output tissue image.

plot_image

Boolean. Whether the simulated image is plotted.

plot_categories

String Vector specifying the order of the cell categories to be plotted. Default is NULL - the cell categories under the "Cell.Type" column would be used for plotting.

plot_colours

String Vector specifying the order of the colours that correspond to the plot_categories arg. Default is NULL - the predefined colour vector would be used for plotting.

Value

An spe object of the simulated image

Examples

set.seed(610)
double_ring_image <- TIS(bg_sample=bg1, n_clusters=1,
properties_of_clusters=list(C1=list( name_of_cluster_cell="Tumour",
size=300, shape="Oval", centre_loc=data.frame("x"=500, "y"=500),
infiltration_types=c("Immune1", "Others"), infiltration_proportions=c(0.1, 0.05))),
plot_image=TRUE)

TrigosTeam/spaSim documentation built on May 25, 2023, 4:20 p.m.