package camlimages
Image processing library
Install
dune-project
Dependency
Authors
Maintainers
Sources
camlimages-5.0.4.tar.bz2
sha256=1c9a68bdc3d348c9f859d490dadf384926213e47a584159832f7fc4a20242865
md5=1ddba74d210b86a899b5d6565f45c2dc
doc/src/camlimages.core/rgb24.ml.html
Source file rgb24.ml
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g = str @% pos + 1; b = str @% pos + 2 } let set str pos t = str << pos & char_of_int t.r; str << pos + 1 & char_of_int t.g; str << pos + 2 & char_of_int t.b let make t = let str = Bytes.create bytes_per_pixel in set str 0 t; str end module RI = Genimage.MakeRawImage(E) type rawimage = RI.t type elt = Color.rgb type t = { width : int; height : int; rawimage : RI.t; mutable infos : Info.info list } module C = struct type rawimage = RI.t type container = t let rawimage x = x.rawimage let create_default width height rawimage = { width = width; height = height; rawimage = rawimage; infos = [] } let create_duplicate src width height rawimage = { width = width; height = height; rawimage = rawimage; infos = src.infos } end module IMAGE = Genimage.Make(RI)(C) let create_with width height infos data = { width = width; height = height; rawimage = RI.create_with width height data; infos = infos } let create_with_scanlines width height infos data = { width = width; height = height; rawimage = RI.create_with_scanlines width height data; infos = infos; } let rawimage = C.rawimage let create = IMAGE.create let make = IMAGE.make let dump = IMAGE.dump let unsafe_access = IMAGE.unsafe_access let get_strip = IMAGE.get_strip let set_strip = IMAGE.set_strip let get_scanline = IMAGE.get_scanline let get_scanline_ptr = IMAGE.get_scanline_ptr let set_scanline = IMAGE.set_scanline let unsafe_get = IMAGE.unsafe_get let unsafe_set = IMAGE.unsafe_set let get = IMAGE.get let set = IMAGE.set let destroy = IMAGE.destroy let copy = IMAGE.copy let sub = IMAGE.sub let blit = IMAGE.blit let map = IMAGE.map let blocks = IMAGE.blocks let dump_block = IMAGE.dump_block open Color (* image resize with smoothing *) (* good result for reducing *) let resize_reduce prog img nw nh = let newimage = create nw nh in let xscale = float nw /. float img.width in let yscale = float nh /. float img.height in let xs = Array.init nw (fun x -> let sx = truncate (float x /. xscale) in let ex = truncate ((float x +. 0.99) /. xscale) in let dx = ex - sx + 1 in (sx, ex, dx)) in let ys = Array.init nh (fun y -> let sy = truncate (float y /. yscale) in let ey = truncate ((float y +. 0.99) /. yscale) in let dy = ey - sy + 1 in (sy, ey, dy)) in for x = 0 to nw - 1 do let sx,ex,dx = xs.(x) in for y = 0 to nh - 1 do let sy,ey,dy = ys.(y) in let size = dx * dy in let sr = ref 0 and sg = ref 0 and sb = ref 0 in for xx = sx to ex do for yy = sy to ey do let c = unsafe_get img xx yy in sr := !sr + c.r; sg := !sg + c.g; sb := !sb + c.b done done; unsafe_set newimage x y { r = !sr / size; g = !sg / size; b = !sb / size; } done; match prog with | Some p -> p (float (x + 1) /. float nw) | None -> () done; newimage let resize_enlarge prog img nw nh = let newimage = create nw nh in let xscale = float nw /. float img.width in let yscale = float nh /. float img.height in let ww = truncate (ceil xscale) and wh = truncate (ceil yscale) in let weight = Array.init ww (fun x -> Array.init wh (fun y -> let x0 = x - ww / 2 and y0 = y - wh / 2 in let x1 = x0 + ww - 1 and y1 = y0 + wh - 1 in let a = Array.init 3 (fun xx -> Array.init 3 (fun yy -> let mx0 = (xx - 1) * ww and my0 = (yy - 1) * wh in let mx1 = mx0 + ww - 1 and my1 = my0 + wh - 1 in let cx0 = if x0 < mx0 then mx0 else x0 in let cy0 = if y0 < my0 then my0 else y0 in let cx1 = if x1 > mx1 then mx1 else x1 in let cy1 = if y1 > my1 then my1 else y1 in let dx = cx1 - cx0 + 1 and dy = cy1 - cy0 + 1 in let dx = if dx < 0 then 0 else dx and dy = if dy < 0 then 0 else dy in dx * dy)) in a )) in let wsum = Array.init ww (fun x -> Array.init wh (fun y -> let sum = ref 0 in Array.iter (Array.iter (fun w -> sum := !sum + w)) weight.(x).(y); if !sum = 0 then raise (Failure "resize_enlarge wsum"); !sum)) in let xs = Array.init img.width (fun x -> let sx = truncate (float x *. xscale) in let ex = truncate (float (x + 1) *. xscale) - 1 in let dx = ex - sx + 1 in if dx > ww then raise (Failure "resize_enlarge"); (sx, ex, dx)) in let ys = Array.init img.height (fun y -> let sy = truncate (float y *. yscale) in let ey = truncate ((float (y + 1)) *. yscale) - 1 in let dy = ey - sy + 1 in if dy > wh then raise (Failure "resize_enlarge"); (sy, ey, dy)) in let query c x y = if x < 0 || y < 0 || x >= img.width || y >= img.height then c else unsafe_get img x y in for y = 0 to img.height - 1 do let sy,_ey,dy = ys.(y) in for x = 0 to img.width - 1 do let sx,_ex,dx = xs.(x) in let colors = let c = unsafe_get img x y in Array.init 3 (fun dx -> Array.init 3 (fun dy -> query c (x + dx - 1) (y + dy - 1))) in for xx = 0 to dx - 1 do for yy = 0 to dy - 1 do let sr = ref 0 and sg = ref 0 and sb = ref 0 in let weight = weight.(xx).(yy) in let wsum = wsum.(xx).(yy) in for xxx = 0 to 2 do for yyy = 0 to 2 do let c = colors.(xxx).(yyy) in sr := !sr + c.r * weight.(xxx).(yyy); sg := !sg + c.g * weight.(xxx).(yyy); sb := !sb + c.b * weight.(xxx).(yyy); done done; let r = !sr / wsum and g = !sg / wsum and b = !sb / wsum in unsafe_set newimage (sx + xx) (sy + yy) { r = r; g = g; b = b; } done done done; match prog with | Some p -> p (float (y + 1) /. float img.height) | None -> () done; newimage let resize prog img nw nh = let xscale = float nw /. float img.width in let yscale = float nh /. float img.height in if xscale >= 1.0 && yscale >= 1.0 then resize_enlarge prog img nw nh else if xscale <= 1.0 && yscale <= 1.0 then resize_reduce prog img nw nh else resize_reduce prog img nw nh (* let project prog img fill proj proj' smooth = if smooth < 0 then raise (Invalid_argument "project"); (* calculation of the destination image size *) let w = 0.49 in let w' = 1.0 -. w in let topleft = proj (-. w) (-. w) in let topright = proj (float (img.width - 1) +. w) (-. w) in let bottomleft = proj (-. w) (float (img.height - 1) +. w) in let bottomright = proj (float (img.width - 1) +. w) (float (img.height - 1) +. w) in let minx, miny, maxx, maxy = let minx = ref (fst topleft) and miny = ref (snd topleft) and maxx = ref (fst topleft) and maxy = ref (snd topleft) in let rec calc_bbox = function | [] -> int_of_float (ceil (!minx +. w')), int_of_float (ceil (!miny +. w')), int_of_float (floor (!maxx -. w')), int_of_float (floor (!maxy -. w')) | (x,y)::xs -> if !minx > x then minx := x else if !maxx < x then maxx := x; if !miny > y then miny := y else if !maxy < y then maxy := y; calc_bbox xs in calc_bbox [topright; bottomleft; bottomright] in let nw = maxx - minx + 1 and nh = maxy - miny + 1 in let scale = smooth + 1 in let weight = scale * scale in let dst = create (nw * scale) (nh * scale) in for y = 0 to nh - 1 do for x = 0 to nw - 1 do let sr = ref 0 and sg = ref 0 and sb = ref 0 in for yy = 0 to scale - 1 do for xx = 0 to scale - 1 do let sx = float x -. 0.5 +. (float xx +. 0.5) /. float scale in let sy = float y -. 0.5 +. (float yy +. 0.5) /. float scale in let ox, oy = proj' sx sy in let oxi = int_of_float (ox +. 0.5) and oyi = int_of_float (oy +. 0.5) in let c = try get img oxi oyi with | Image.Out_of_image -> fill in sr := !sr + c.r; sg := !sg + c.g; sb := !sb + c.b; done done; unsafe_set dst x y { r = !sr / weight; g = !sb / weight; b = !sg / weight; } done done; dst *) let to_rgba32 t = let rgba32 = Rgba32.create t.width t.height in for y = 0 to t.height - 1 do for x = 0 to t.width - 1 do Rgba32.unsafe_set rgba32 x y { color = unsafe_get t x y; alpha = 255; } done done; rgba32 let of_rgba32 t = let rgb24 = create t.Rgba32.width t.Rgba32.height in for y = 0 to t.Rgba32.height - 1 do for x = 0 to t.Rgba32.width - 1 do let { color = c } = Rgba32.unsafe_get t x y in unsafe_set rgb24 x y c done done; rgb24