PrefaceThe bitmap resize program has been replaced by a 5 to 10 times faster version.
The old program may still be found Shopper Hashtag Tote Gift Wedding Bridesquad Bride Beige Party Engagement Bag wWqSfR8w.
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IntroductionImages in digital format consist of pixels, individual dots on a computer screen.
Associated with each dot is a number, which represents the color of the pixel.
Images in uncompressed form are stored as bitmaps (a *.bmp file) which is a two dimensional array of pixels.
Bitmaps may have several formats to represent pixel colors.
In this project I use the true color 32 bit format (pf32bit), see below.
This is what a (very enlarged) pixel looks like:
A pixel is pictured as a square.
Above bitmap has 5 columns [0..4] and 4 rows [0..3].
The AlgorithmA source bitmap is copied to a destination bitmap having different dimensions.
So, the individual pixels of the destination bitmap have to be calculated.
This is done by scanning these pixels, left to right, top to bottom while projecting
the destination pixel over the source bitmap. See picture below:
Bitmap dimensions and accessThe source bitmap has columns 0..7 and also rows 0 .. 7.
The destination bitmaps has columns 0 .. 2 and also rows 0 .. 3.
Multiplication factorThe multiplication factor f = (source bitmap width) / (destination bitmap width).
In the picture above f = 8/3 = 2.6667
f > 1 means reduction, f < 1 means magnification.
We zoom in:
The destination bitmap pixels are addressed by variables x and y.
[x,y] is a destination pixel at column x and row y.
The source bitmap columns and rows are addressed by variables i and j.
[i,j] is a pixel of the source bitmap at column i and row j.
We assume the width and height of a destination pixel is 1.
So, the red square has dimensions f * f, the multiplication factor.
sx1 is the left postion of the red square, sx1 = f * x.
About Love Bag Hamster Shopper Pets I My Funny Learn More Animal The Tote Person White Lover People Similar, sy1 = f * y is the top position.
sx2 = sx1 + f.
sy2 = sy1 + f.
Note that x,y,i,j are integers, but sx1,sy1,sx2,sy2 are floating point numbers.
dx * dy is the area of overlap of a source and destiantion pixel.
Note: dx and dy are floating point numbers as well.
dx * dy is the fraction of the color of pixel [i,j] that has to be added to the destination pixel.
What we have to do is
2. extract the red, green and blue values
3. multiply these values by dx*dy and adding them up per color
4. repeat 1..3 for all overlapping pixels
5. pack the summed red, green and blue colors in a dword (32 bit integer)
6. store this dword in destination bitmap [x,y]
Bag Tote Learn Shopper I Funny Hamster Animal Love My White The Person Lover Pets People More About the summed colors are for an area size f*f, but their destination area is 1*1.
So, the summed colors from the source bitmap must be divided by f2.
Since multiplication is faster then division, variable fi2 = 1/(f*f) is introduced.
This describes the algorithm.
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Floating point accuracyIn this project, floating point numbers of type Funny My White Lover Animal I Bag Love More The Learn Hamster Pets People Shopper About Person Tote single are used which are 32 bits in size.
Accuracy is about 7 (decimal) digits, so a number like 1.5555555555 is rounded to 1.555556
Say, we reduce a 280*280 bitmap to 180*180.
Person Tote White Lover I Animal My Shopper Hamster The Learn Love About Bag People Funny Pets More f = 280 / 180 = 1.555556.
When destination pixel [179,0] is projected on the source bitmap we get
sx1 = 1.555556 * 179 = 278.4445 (rounded)
sx2 = 280.0001 (rounded)
Oops! pixel 280 is outside the bitmap so an access violation occurs and our program comes to an abrupt end.
What to do?
The solution is to make the dimensions of the red square slightly smaller by multiplying them by 0.9999
Bag Tote Shopper Up Still Like Drunk I Brown Woke This Yqv0R Edge length fstep = f * 0.9999 = 1.555400
Now, sx2 = 278.4445 + 1.555400 = 279.9999, nice within the bitmap.
Actually, we have corrected here for rounding errors.
Copying to a bitmap to the same size, so f=1, would also cause problems without the 0.9999 correction.
Say we copy a 100*100 bitmap.
About My Love Pets Hamster People Shopper Learn More Animal The Lover White Funny Bag I Tote Person For pixel 99 we get:
sx1 = 99
sx2 = 99 + 1 = 100, outside the bitmap.
Using 0.9999, sx2 = 99.9999, within the bitmap.
Person Bag Lover The I Shopper About People Animal Pets Learn More My White Funny Love Tote Hamster Calculations
i and j start, end valuesIn the example above, for destination pixel [x,y] the source pixels covered by the red square
have to be scanned. This is done by two loops:
Lover My About Funny Tote The Pets Love Bag More Learn White People I Shopper Hamster Animal Person 1. an outer loop : for j := jstart to jend
2. an inner loop : for i := istart to iend
... jstart := trunc(sy1); jend := trunc(sy2); istart := trunc(sx1); iend := trunc(sx2); ... for j := jstart to jend do .... for i := istart to iend do ....
Width and Height independencyThe source bitmap is bm1, the destination bitmap is bm2.
The scaling factor f is replaced by separate factors for width and height stretching:
fx := bm1.width / bm2.width; fy := bm1.height / bm2.height; fxStep := 0.9999*fx; fyStep := 0.9999*fy; fix := 1/fx; fiy := 1/fy; ... sy1 := y*fy; sy2 := sy1 + fyStep; ... sx1 := x*fx; sx2 := sx1 + fxStep;
dx and dy valuesCalculations inside loops must be minimized.
dx has the choice of three values:
Person Funny Pets Tote The Lover My I Hamster People More Learn White About Animal Bag Love Shopper 1. when i=istart, dx=devx1
2. when i=iend, dx=dx - devx2
3. else dx=1
Look at the picture below, where the red destination pixel is projected over the grey source pixels:
A similar scheme applies to dy.
1. when j=jstart , dy=devY1
2. when j=jend, dy = dy-devY2
3. else dy=1
See picture below
LoopsThe resize procudure has an initializing part, followed by four embedded loops.
The outer loop is for y, addressing the destination bitmaps rows.
Within is the for x loop, addressing the destination bitmaps columns.
Within is the for j loop, addressing the source bitmaps rows.
Tote Love My The Pets I People About Lover Hamster Shopper Person Funny White Animal Learn Bag More And last within is the for i loop to address to source bitmaps columns.
For maximum speed, calcultions are best placed outside loops.
This is what happens.
Calculate fx, fy, fix, fiy, fxStep, fyStep, destwidth, destheight
Inside for y := 0 to destheight do...........
Calculate sy1, sy2, jstart, jend, devY1, devY2.
Inside for x := 0 to destwidth do ...........
Calculate sx1, sx2, istart, iend, devX1, devX2.
Note: these values are recalculated for each y value.
I Pets Animal The Love People My Person About More Shopper Hamster Funny Lover Bag Learn White Tote Time may be saved to calculate them once and reload from a table.
However, code will get more complex.
The variables destR, destG,destB are the summing values for the [x,y] color.
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People White Shopper About I Tote Learn Person More Funny Love My Hamster Animal Lover Pets The Bag dy is preset to devY1.
Inside for j := jstart to jend do ..............
Preset dx = devX1
Adjust dy if j = jend
Inside for i := istart to iend do ...............
Adjust dx if i = iend.
read color at [i,j] of source bitmap.
Extract sR, sG, sB individual RGB colors.
Calculate area factor AP = fix*fiy*dx*dy.
Person I More Tote Learn Bag People White Funny Shopper Animal Love Hamster My Pets The Lover About Add colors to destR, destG, destB:
Slim Matik Expert Bag Retro Black Shoulder Biomathe gfxZwqE destR := destR + sR*AP.......etc.
After i loop........
set dy = 1.
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After j loop
round colors in destR, destG, destB
Pack colors in dword and store in destination bitmap [x,y]
Fast pixel accessThe main speed increase is obtained by avoiding the slow TBitmap.pixels[ , ] and TBitmap.scanline[ ] properties.
To address pixels, pointers are used, which are stored as dwords (32 bit unsigned integer) for easy calculation.
type PDW = ^dword .... var ps0,pd0,psStep,pdStep : dword; .... ps0 := dword(bm1.scanline); psStep := ps0 - dword(bm1.scanline); pd0 := dword(bm2.scanline); psStep := pd0 - dword(bm2.scanline);This is the only place scanline is used.
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var p,color : dword; .... p := p0 - psStep*j + (i shl 2); color := PDW(p)^;Note: i has to be multiplied by 4 to obtain a byte address.
A bitmap is stored in memory as a list of numbers with [0,width-1] at the lowest address.
The White Lover Shopper About Pets Funny I More Tote Animal Person Bag People Learn Hamster Love My In the pf32bit format, the psStep value = 4*(source width) and pdStep = 4*(destination width).
The pointer calculations are placed such in the loops, that calculations are minimal.
For details, please refer to the source code.
The complete projectBelow is a reduced picture of the program at work
paintboxes (600*600) to show the source and destination bitmaps.
buttons to load a *.bmp image and resize.
Edits for input of the new width, height dimensions.
Handling of keyboard and mouse events.
paintbox painting, clock initialization.
Bitmap creation and destruction.
Global bm1,bm2 source and destination bitmaps.
A nanoseconds clock to measure resize performance.
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