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I am drawing a simple rectangle using postscript with following

1 -1 scale
0 -300 translate
newpath 88.9 117.25 moveto   131.6 117.25 lineto
88.9 259.75 lineto closepath  fill 88.9 117.25 moveto   111.4 94.75
lineto154.1 94.75 lineto 131.6 117.25 lineto closepath  fill 131.6
117.25 moveto   154.1 94.75 lineto 154.1 237.25 lineto 131.6 259.75 
lineto closepath  fill

The result is a 3D rectangle.

But when I add the following code, rectangle becomes inclined at some angle.

[ 0.9999999 0 -1 1 261 0 ] concat

I can understand that this behavior is caused because of the values used in matrix concatenated with CTM. Can anyone explain the use of values in above matrix and how it affects the behavior of drawing?


Thanks a lot for the information. Actually, I am converting a bitmap to eps using post script. For this, I am converting all the operations performed on Graphics object for drawing bitmap to their equivalent post script command.

I am converting g.Transform=matrix in C# as [ matrix.Elements[0] ...... [matrix.Elements[5] ] concat in post script. From what I googled, both looks similar to me in functionality but the result of drawn eps is different from the bitmap image. So, I wanted to know how postscript matrix concat transformation works. Can anyone explain what's going wrong with my approach for converting to eps?

share|improve this question
Transformation matrices are covered in the manual: partners.adobe.com/public/developer/en/ps/PLRM.pdf – luser droog Jan 6 '14 at 20:42
it works by matrix multiplication. Your matrix should be [1 0 0 1 261 0] if the vector ai + bj is not orthogonal with ci + di then your model is skewed, period. full stop. Simply i+j is not orthogonal with i. Is it possible that your matrix is transposed because matrix math works out both ways accoriding to the rule AB=(BTAT)T Where T is transpose operation. – joojaa Jan 8 '14 at 19:20
I think the problem is because g.Transform replaces the matrix with new one, but concat uses matrix multiplication matrixCTM (Current transformation matrix). I think concatening CTMmatrix in postscript will fix this. Can anyone suggest how I can achieve this. – Kira Jan 10 '14 at 4:39
up vote 4 down vote accepted

CTM is the Current Transformation Matrix, which is normally a 3x3 matrix. In Postscript, it's represented as a 6 element array, since 3 of the elements in a 3x3 CTM are constant. The Postscript CTM array

[a b c d tx ty] 

corresponds to the 3x3 CTM matrix

 a  b  0
 c  d  0
 tx ty 1

though it's often seen in transposed form (as in the linked article):

 a  c  tx
 b  d  ty
 0  0  1

In any case, tx and ty control translation and the other values combine for other transformations. Some abcd patterns result in named transformations: rotate, scale, reflect and shear. The one you give fits the shear pattern (if we treat 0.9999999 as 1): 1 0 k 1, where k is the shearing amount, which is -1 in your case.

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Thanks for your information about transformation matrix. It helped me solve my problem – Kira Feb 3 '14 at 7:21

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