import org.openrndr.application import org.openrndr.color.ColorRGBa import org.openrndr.draw.ColorBuffer import org.openrndr.draw.isolatedWithTarget import org.openrndr.draw.loadFont import org.openrndr.draw.renderTarget import org.openrndr.extra.imageFit.FitMethod import org.openrndr.extra.imageFit.imageFit import org.openrndr.extra.shapes.grid /** * Tests `drawer.imageFit()` with all FitMethods for portrait and landscape images. */ fun main() = application { configure { width = 1600 height = 900 } program { val font = loadFont("demo-data/fonts/IBMPlexMono-Regular.ttf", 18.0) // Create a test image with circles fun makeImage(cols: Int, rows: Int, side: Int = 400): ColorBuffer { val rt = renderTarget(cols * side, rows * side) { colorBuffer() } drawer.isolatedWithTarget(rt) { clear(ColorRGBa.WHITE) stroke = null ortho(rt) bounds.grid(cols, rows).flatten().forEachIndexed { i, it -> fill = if (i % 2 == 0) ColorRGBa.PINK else ColorRGBa.GRAY circle(it.center, side / 2.0) } } return rt.colorBuffer(0) } val layouts = mapOf( "portrait" to makeImage(1, 2), "landscape" to makeImage(2, 1) ) val fitMethods = FitMethod.values() val grid = drawer.bounds.grid(fitMethods.size, layouts.size, 30.0, 30.0, 30.0, 30.0) extend { drawer.fontMap = font drawer.stroke = null fitMethods.forEachIndexed { y, fitMethod -> layouts.entries.forEachIndexed { x, (layoutName, img) -> val cell = grid[x][y] // In each grid cell draw 9 fitted images combining // [left, center, right] and [top, center, bottom] alignment val subgrid = cell.grid(3, 3, 0.0, 0.0, 4.0, 4.0) subgrid.forEachIndexed { yy, rects -> rects.forEachIndexed { xx, rect -> drawer.fill = ColorRGBa.WHITE.shade(0.25) drawer.rectangle(rect) drawer.imageFit(img, rect, xx - 1.0, yy - 1.0, fitMethod) } } drawer.fill = ColorRGBa.WHITE drawer.text("${fitMethod.name}, $layoutName", cell.position(0.0, 1.038).toInt().vector2) } } } } }