package convert
import (
"github.com/nfnt/resize"
"github.com/qeesung/image2ascii/terminal"
"image"
"log"
)
// NewResizeHandler create a new resize handler
func NewResizeHandler() ResizeHandler {
return &ImageResizeHandler{
terminal: terminal.NewTerminalAccessor(),
}
}
// ResizeHandler define the operation to resize a image
type ResizeHandler interface {
ScaleImage(image image.Image, options *Options) (newImage image.Image)
}
// ImageResizeHandler implement the ResizeHandler interface and
// responsible for image resizing
type ImageResizeHandler struct {
terminal terminal.Terminal
}
// ScaleImage resize the convert to expected size base on the convert options
func (handler *ImageResizeHandler) ScaleImage(image image.Image, options *Options) (newImage image.Image) {
sz := image.Bounds()
ratio := options.Ratio
newHeight := sz.Max.Y
newWidth := sz.Max.X
if options.FixedWidth != -1 {
newWidth = options.FixedWidth
}
if options.FixedHeight != -1 {
newHeight = options.FixedHeight
}
// use the ratio the scale the image
if options.FixedHeight == -1 && options.FixedWidth == -1 && ratio != 1 {
newWidth = handler.ScaleWidthByRatio(float64(sz.Max.X), ratio)
newHeight = handler.ScaleHeightByRatio(float64(sz.Max.Y), ratio)
}
//Stretch the picture to overspread the terminal
if ratio == 1 &&
options.FixedWidth == -1 &&
options.FixedHeight == -1 &&
options.StretchedScreen {
screenWidth, screenHeight, err := handler.terminal.ScreenSize()
if err != nil {
log.Fatal(err)
}
newWidth = int(screenWidth)
newHeight = int(screenHeight)
}
// fit the screen
if ratio == 1 &&
options.FixedWidth == -1 &&
options.FixedHeight == -1 &&
options.FitScreen &&
!options.StretchedScreen {
fitWidth, fitHeight, err := handler.CalcProportionalFittingScreenSize(image)
if err != nil {
log.Fatal(err)
}
newWidth = int(fitWidth)
newHeight = int(fitHeight)
}
newImage = resize.Resize(uint(newWidth), uint(newHeight), image, resize.Lanczos3)
return
}
// CalcProportionalFittingScreenSize proportional scale the image
// so that the terminal can just show the picture.
func (handler *ImageResizeHandler) CalcProportionalFittingScreenSize(image image.Image) (newWidth, newHeight int, err error) {
screenWidth, screenHeight, err := handler.terminal.ScreenSize()
if err != nil {
log.Fatal(nil)
}
sz := image.Bounds()
newWidth, newHeight = handler.CalcFitSize(
float64(screenWidth),
float64(screenHeight),
float64(sz.Max.X),
float64(sz.Max.Y))
return
}
// CalcFitSizeRatio through the given length and width,
// the computation can match the optimal scaling ratio of the length and width.
// In other words, it is able to give a given size rectangle to contain pictures
// Either match the width first, then scale the length equally,
// or match the length first, then scale the height equally.
// More detail please check the example
func (handler *ImageResizeHandler) CalcFitSizeRatio(width, height, imageWidth, imageHeight float64) (ratio float64) {
ratio = 1.0
// try to fit the height
ratio = height / imageHeight
scaledWidth := imageWidth * ratio / handler.terminal.CharWidth()
if scaledWidth < width {
return ratio / handler.terminal.CharWidth()
}
// try to fit the width
ratio = width / imageWidth
return ratio
}
// CalcFitSize through the given length and width ,
// Calculation is able to match the length and width of
// the specified size, and is proportional scaling.
func (handler *ImageResizeHandler) CalcFitSize(width, height, toBeFitWidth, toBeFitHeight float64) (fitWidth, fitHeight int) {
ratio := handler.CalcFitSizeRatio(width, height, toBeFitWidth, toBeFitHeight)
fitWidth = handler.ScaleWidthByRatio(toBeFitWidth, ratio)
fitHeight = handler.ScaleHeightByRatio(toBeFitHeight, ratio)
return
}
// ScaleWidthByRatio scaled the width by ratio
func (handler *ImageResizeHandler) ScaleWidthByRatio(width float64, ratio float64) int {
return int(width * ratio)
}
// ScaleHeightByRatio scaled the height by ratio
func (handler *ImageResizeHandler) ScaleHeightByRatio(height float64, ratio float64) int {
return int(height * ratio * handler.terminal.CharWidth())
}