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-------------------------------------------------------------------------------
-- Creates a new function, with the name suffixed by "New". This new function
-- creates a new image, based on a source image, and calls the previous function
-- with this new image.
-- We assume here that the functions returns only one parameter or none.
local function OneSourceOneDest (funcname, width, height, color_space, data_type)
local func = im[funcname]
assert(func) -- see if function is really defined
-- define function with "New" suffix
im[funcname.."New"] = function (src_image, ...)
-- create destination image
local dst_image = im.ImageCreateBased(src_image, width, height, color_space, data_type)
-- call previous method, repassing all parameters
local ret = func(src_image, dst_image, unpack(arg))
if (ret) then
return ret, dst_image
else
return dst_image
end
end
end
-------------------------------------------------------------------------------
-- This function is similar to OneSourceOneDest, but it receives two source
-- images.
local function TwoSourcesOneDest (funcname, width, height, color_space, data_type)
local func = im[funcname]
-- see if function is really defined
assert(func, string.format("undefined function `%s'", funcname))
-- define function with "New" suffix
im[funcname.."New"] = function (src_image1, src_image2, ...)
-- create destination image
local dst_image = im.ImageCreateBased(src_image1, width, height, color_space, data_type)
-- call previous method, repassing all parameters
local ret = func(src_image1, src_image2, dst_image, unpack(arg))
if (ret) then
return ret, dst_image
else
return dst_image
end
end
end
-------------------------------------------------------------------------------
-- This function is similar to OneSourceOneDest, but it receives three source
-- images.
local function ThreeSourcesOneDest (funcname, width, height, color_space, data_type)
local func = im[funcname]
assert(func) -- see if function is really defined
-- define function with "New" suffix
im[funcname.."New"] = function (src_image1, src_image2, src_image3, ...)
-- create destination image
local dst_image = im.ImageCreateBased(src_image1, width, height, color_space, data_type)
-- call previous method, repassing all parameters
local ret = func(src_image1, src_image2, src_image3, dst_image, unpack(arg))
if (ret) then
return ret, dst_image
else
return dst_image
end
end
end
-------------------------------------------------------------------------------
-- This function is similar to OneSourceOneDest, but it creates two destiny
-- images.
local function OneSourceTwoDests (funcname, width, height, color_space, data_type)
local func = im[funcname]
assert(func) -- see if function is really defined
-- define function with "New" suffix
im[funcname.."New"] = function (src_image, ...)
-- create destination image
local dst_image1 = im.ImageCreateBased(src_image, width, height, color_space, data_type)
local dst_image2 = im.ImageCreateBased(src_image, width, height, color_space, data_type)
-- call previous method, repassing all parameters
local ret = func(src_image, dst_image1, dst_image2, unpack(arg))
if (ret) then
return ret, dst_image1, dst_image2
else
return dst_image1, dst_image2
end
end
end
-------------------------------------------------------------------------------
-- This function is similar to OneSourceOneDest, but it creates three destiny
-- images.
local function OneSourceThreeDests (funcname, width, height, color_space, data_type)
local func = im[funcname]
assert(func) -- see if function is really defined
-- define function with "New" suffix
im[funcname.."New"] = function (src_image, ...)
-- create destination image
local dst_image1 = im.ImageCreateBased(src_image, width, height, color_space, data_type)
local dst_image2 = im.ImageCreateBased(src_image, width, height, color_space, data_type)
local dst_image3 = im.ImageCreateBased(src_image, width, height, color_space, data_type)
-- call previous method, repassing all parameters
local ret = func(src_image, dst_image1, dst_image2, dst_image3, unpack(arg))
if (ret) then
return ret, dst_image1, dst_image2, dst_image3
else
return dst_image1, dst_image2, dst_image3
end
end
end
-------------------------------------------------------------------------------
local function hough_height(image)
local function sqr(x) return x*x end
local rmax = math.sqrt(sqr(image:Width()) + sqr(image:Height())) / 2
return 2*rmax+1
end
OneSourceOneDest("AnalyzeFindRegions", nil, nil, nil, im.USHORT)
OneSourceOneDest("ProcessPerimeterLine")
OneSourceOneDest("ProcessRemoveByArea")
OneSourceOneDest("ProcessFillHoles")
OneSourceOneDest("ProcessHoughLines", 180, hough_height, im.GRAY, im.INT)
OneSourceOneDest("ProcessHoughLinesDraw")
OneSourceOneDest("ProcessDistanceTransform", nil, nil, nil, im.FLOAT)
OneSourceOneDest("ProcessRegionalMaximum", nil, nil, im.BINARY, nil)
function im.ProcessReduceNew (src_image, width, height)
local dst_image = im.ImageCreateBased(src_image, width, height)
return im.ProcessReduce(src_image, dst_image), dst_image
end
function im.ProcessResizeNew (src_image, width, height)
local dst_image = im.ImageCreateBased(src_image, width, height)
return im.ProcessResize(src_image, dst_image), dst_image
end
OneSourceOneDest("ProcessReduceBy4", function (image) return image:Width() / 2 end,
function (image) return image:Height() / 2 end)
function im.ProcessCropNew (src_image, xmin, xmax, ymin, ymax)
local width = xmax - xmin + 1
local height = ymax - ymin + 1
local dst_image = im.ImageCreateBased(src_image, width, height)
im.ProcessCrop(src_image, dst_image, xmin, ymin)
return dst_image
end
TwoSourcesOneDest("ProcessInsert")
function im.ProcessAddMarginsNew (src_image, xmin, xmax, ymin, ymax)
local width = xmax - xmin + 1
local height = ymax - ymin + 1
local dst_image = im.ImageCreateBased(src_image, width, height)
im.ProcessAddMargins(src_image, dst_image, xmin, ymin)
return dst_image
end
function im.ProcessRotateNew (src_image, cos0, sin0, order)
local width, height = im.ProcessCalcRotateSize(src_image:Width(), src_image:Height(), cos0, sin0)
local dst_image = im.ImageCreateBased(src_image, width, height)
return im.ProcessRotate(src_image, dst_image, cos0, sin0, order), dst_image
end
OneSourceOneDest("ProcessRotateRef")
OneSourceOneDest("ProcessRotate90", function (image) return image:Height() end, function (image) return image:Width() end)
OneSourceOneDest("ProcessRotate180")
OneSourceOneDest("ProcessMirror")
OneSourceOneDest("ProcessFlip")
OneSourceOneDest("ProcessRadial")
OneSourceOneDest("ProcessGrayMorphConvolve")
OneSourceOneDest("ProcessGrayMorphErode")
OneSourceOneDest("ProcessGrayMorphDilate")
OneSourceOneDest("ProcessGrayMorphOpen")
OneSourceOneDest("ProcessGrayMorphClose")
OneSourceOneDest("ProcessGrayMorphTopHat")
OneSourceOneDest("ProcessGrayMorphWell")
OneSourceOneDest("ProcessGrayMorphGradient")
OneSourceOneDest("ProcessBinMorphConvolve")
OneSourceOneDest("ProcessBinMorphErode")
OneSourceOneDest("ProcessBinMorphDilate")
OneSourceOneDest("ProcessBinMorphOpen")
OneSourceOneDest("ProcessBinMorphClose")
OneSourceOneDest("ProcessBinMorphOutline")
OneSourceOneDest("ProcessBinMorphThin")
OneSourceOneDest("ProcessMedianConvolve")
OneSourceOneDest("ProcessRangeConvolve")
OneSourceOneDest("ProcessRankClosestConvolve")
OneSourceOneDest("ProcessRankMaxConvolve")
OneSourceOneDest("ProcessRankMinConvolve")
OneSourceOneDest("ProcessConvolve")
OneSourceOneDest("ProcessConvolveSep")
OneSourceOneDest("ProcessConvolveRep")
OneSourceOneDest("ProcessConvolveDual")
OneSourceOneDest("ProcessCompassConvolve")
OneSourceOneDest("ProcessMeanConvolve")
OneSourceOneDest("ProcessGaussianConvolve")
OneSourceOneDest("ProcessBarlettConvolve")
OneSourceTwoDests("ProcessInterlaceSplit", nil, function (image) if (image:Height()) then return image:Height() else return image:Height()/2 end end)
function im.ProcessInterlaceSplitNew(src_image)
-- create destination image
local dst_height1 = src_image:Height()/2
if math.mod(src_image:Height(), 2) then
dst_height1 = dst_height1 + 1
end
local dst_image1 = im.ImageCreateBased(src_image, nil, dst_height1)
local dst_image2 = im.ImageCreateBased(src_image, nil, src_image:Height()/2)
-- call method, repassing all parameters
im.ProcessInterlaceSplit(src_image, dst_image1, dst_image2)
return dst_image1, dst_image2
end
local function int_datatype (image)
local data_type = image:DataType()
if data_type == im.BYTE or data_type == im.USHORT then
data_type = im.INT
end
return data_type
end
OneSourceOneDest("ProcessDiffOfGaussianConvolve", nil, nil, nil, int_datatype)
OneSourceOneDest("ProcessLapOfGaussianConvolve", nil, nil, nil, int_datatype)
OneSourceOneDest("ProcessSobelConvolve")
OneSourceOneDest("ProcessSplineEdgeConvolve")
OneSourceOneDest("ProcessPrewittConvolve")
OneSourceOneDest("ProcessZeroCrossing")
OneSourceOneDest("ProcessCanny")
OneSourceOneDest("ProcessUnArithmeticOp")
TwoSourcesOneDest("ProcessArithmeticOp")
OneSourceOneDest("ProcessUnsharp")
OneSourceOneDest("ProcessSharp")
TwoSourcesOneDest("ProcessSharpKernel")
function im.ProcessArithmeticConstOpNew (src_image, src_const, op)
local dst_image = im.ImageCreateBased(src_image)
im.ProcessArithmeticConstOp(src_image, src_const, dst_image, op)
return dst_image
end
TwoSourcesOneDest("ProcessBlendConst")
ThreeSourcesOneDest("ProcessBlend")
OneSourceTwoDests("ProcessSplitComplex")
TwoSourcesOneDest("ProcessMergeComplex", nil, nil, nil, im.CFLOAT)
function im.ProcessMultipleMeanNew (src_image_list, dst_image)
local dst_image = im.ImageCreateBased(src_image_list[1])
im.ProcessMultipleMean(src_image_list, dst_image)
return dst_image
end
function im.ProcessMultipleStdDevNew (src_image_list, mean_image)
local dst_image = im.ImageCreateBased(src_image_list[1])
im.ProcessMultipleStdDev(src_image_list, mean_image, dst_image)
return dst_image
end
TwoSourcesOneDest("ProcessAutoCovariance")
OneSourceOneDest("ProcessMultiplyConj")
OneSourceOneDest("ProcessQuantizeRGBUniform", nil, nil, im.MAP, nil)
OneSourceOneDest("ProcessQuantizeGrayUniform")
OneSourceOneDest("ProcessExpandHistogram")
OneSourceOneDest("ProcessEqualizeHistogram")
function im.ProcessSplitYChromaNew (src_image)
local y_image = im.ImageCreateBased(src_image, nil, nil, im.GRAY, im.BYTE)
local chroma_image = im.ImageCreateBased(src_image, nil, nil, im.RGB, im.BYTE)
im.ProcessSplitYChroma(src_image, y_image, chroma_image)
return y_image, chroma_image
end
OneSourceThreeDests("ProcessSplitHSI", nil, nil, im.GRAY, im.FLOAT)
ThreeSourcesOneDest("ProcessMergeHSI", nil, nil, im.RGB, im.BYTE)
function im.ProcessSplitComponentsNew (src_image)
local depth = src_image:Depth()
local dst_images = {}
for i = 1, depth do
table.insert(dst_images, im.ImageCreateBased(src_image, nil, nil, im.GRAY))
end
im.ProcessSplitComponents(src_image, dst_images)
return unpack(dst_images)
end
function im.ProcessMergeComponentsNew (src_image_list)
local dst_image = im.ImageCreateBased(src_image_list[1], nil, nil, im.RGB)
im.ProcessMergeComponents(src_image_list, dst_image)
return dst_image
end
OneSourceOneDest("ProcessNormalizeComponents", nil, nil, nil, im.FLOAT)
OneSourceOneDest("ProcessReplaceColor")
TwoSourcesOneDest("ProcessBitwiseOp")
OneSourceOneDest("ProcessBitwiseNot")
OneSourceOneDest("ProcessBitMask")
OneSourceOneDest("ProcessBitPlane")
OneSourceOneDest("ProcessToneGamut")
OneSourceOneDest("ProcessUnNormalize", nil, nil, nil, im.BYTE)
OneSourceOneDest("ProcessDirectConv", nil, nil, nil, im.BYTE)
OneSourceOneDest("ProcessNegative")
OneSourceOneDest("ProcessRangeContrastThreshold", nil, nil, im.BINARY, nil)
OneSourceOneDest("ProcessLocalMaxThreshold", nil, nil, im.BINARY, nil)
OneSourceOneDest("ProcessThreshold", nil, nil, im.BINARY, nil)
TwoSourcesOneDest("ProcessThresholdByDiff")
OneSourceOneDest("ProcessHysteresisThreshold", nil, nil, im.BINARY, nil)
OneSourceOneDest("ProcessUniformErrThreshold", nil, nil, im.BINARY, nil)
OneSourceOneDest("ProcessDifusionErrThreshold")
OneSourceOneDest("ProcessPercentThreshold")
OneSourceOneDest("ProcessOtsuThreshold")
OneSourceOneDest("ProcessMinMaxThreshold", nil, nil, im.BINARY, nil)
OneSourceOneDest("ProcessSliceThreshold", nil, nil, im.BINARY, nil)
OneSourceOneDest("ProcessPixelate")
OneSourceOneDest("ProcessPosterize")
|
