---
title: "Warp Affine using R"
author: "Lampros Mouselimis"
date: "`r Sys.Date()`"
output: rmarkdown::html_vignette
vignette: >
%\VignetteIndexEntry{Warp Affine using R}
%\VignetteEngine{knitr::rmarkdown}
%\VignetteEncoding{UTF-8}
---
The **getAffineTransform()** and **warpAffine()** functions of the OpenImageR package is an RcppArmadillo re-implementation of [existing Python Code](https://github.com/OlehOnyshchak/ImageTransformations/blob/master/AffineTransformation.ipynb) and this vignette shows how these functions can be used from within R based on the [author's .ipynb](https://github.com/OlehOnyshchak/ImageTransformations/blob/master/AffineTransformation.ipynb) file
<br>
```{r, eval = T}
require(OpenImageR)
path = system.file('tmp_images', 'landscape.jpg', package = "OpenImageR")
img = readImage(path)
print(dim(img))
```
<br>
```{r, out.width = "65%", out.height = "50%", fig.align = 'center', fig.cap = "Input Image", fig.alt="Input Image", echo = F, eval = T}
knitr::include_graphics(path)
```
<br>
```{r, eval = T}
r = ncol(img)
c = nrow(img)
offset = 50
original_points = matrix(data = c(0, 0, r, 0, 0, c),
nrow = 3,
ncol = 2,
byrow = TRUE)
transformed_points = matrix(data = c(offset, 0, r, offset, 0, c-offset),
nrow = 3,
ncol = 2,
byrow = TRUE)
M_aff = getAffineTransform(original_points = original_points,
transformed_points = transformed_points)
```
<br>
The following is the Affine transformation matrix,
```{r, eval = T}
print(M_aff)
```
<br>
The Affine transformation matrix can be used as input in the *warpAffine()* function,
```{r, eval = T}
res_3d = warpAffine(img = img,
M = M_aff,
R = r,
C = c,
verbose = TRUE)
str(res_3d)
```
<br>
The next image shows the output based on the input data and parameters,
```{r, out.width = "65%", out.height = "50%", fig.align = 'center', fig.cap = "Output of Warp Affine function", fig.alt="Output of Warp Affine function", echo = T, eval = T}
imageShow(res_3d, clear_viewer = FALSE)
```
<br>