colour.adaptation.cmccat2000 Module¶

CMCCAT2000 Chromatic Adaptation Model¶

Defines CMCCAT2000 chromatic adaptation model objects:

• CMCCAT2000_InductionFactors
• CMCCAT2000_VIEWING_CONDITIONS
• CMCCAT2000_forward()
• CMCCAT2000_reverse()
• chromatic_adaptation_CMCCAT2000()

References

colour.adaptation.cmccat2000.CMCCAT2000_INVERSE_CAT = array([[ 1.07645005, -0.23766239, 0.16121234], [ 0.41096433, 0.5543418 , 0.03469387], [-0.01095377, -0.01338936, 1.02434312]])¶

Inverse CMCCAT2000_CAT chromatic adaptation transform.

CMCCAT2000_INVERSE_CAT : array_like, (3, 3)

class colour.adaptation.cmccat2000.CMCCAT2000_InductionFactors[source]¶

Bases: colour.adaptation.cmccat2000.CMCCAT2000_InductionFactors

CMCCAT2000 chromatic adaptation model induction factors.

Parameters:	F (numeric) – \(F\) surround condition.

colour.adaptation.cmccat2000.CMCCAT2000_VIEWING_CONDITIONS = CaseInsensitiveMapping({u'Dark': CMCCAT2000_InductionFactors(F=0.8), u'Dim': CMCCAT2000_InductionFactors(F=0.8), u'Average': CMCCAT2000_InductionFactors(F=1.0)})¶

Reference CMCCAT2000 chromatic adaptation model viewing conditions.

CMCCAT2000_VIEWING_CONDITIONS : CaseInsensitiveMapping

(‘Average’, ‘Dim’, ‘Dark’)

colour.adaptation.cmccat2000.CMCCAT2000_forward(XYZ, XYZ_w, XYZ_wr, L_A1, L_A2, surround=CMCCAT2000_InductionFactors(F=1.0))[source]¶

Adapts given CIE XYZ colourspace stimulus from test viewing conditions CIE XYZ_w colourspace matrix to reference viewing conditions CIE XYZ_wr colourspace matrix using CMCCAT2000 forward chromatic adaptation model.

Parameters:	XYZ (array_like, (3,)) – CIE XYZ colourspace stimulus to adapt. XYZ_w (array_like, (3,)) – Test viewing condition CIE XYZ colourspace matrix. XYZ_wr (array_like, (3,)) – Reference viewing condition CIE XYZ colourspace matrix. L_A1 (numeric) – Luminance of test adapting field \(L_{A1}\) in \(cd/m^2\). L_A2 (numeric) – Luminance of reference adapting field \(L_{A2}\) in \(cd/m^2\). surround (CMCCAT2000_InductionFactors, optional) – Surround viewing conditions induction factors.
Returns:	CIE XYZ_c colourspace matrix of the stimulus corresponding colour.
Return type:	ndarray, (3,)

Warning

The input and output domains of that definition are non standard!

Notes

• Input CIE XYZ, CIE XYZ_w and CIE XYZ_wr colourspace matrices are in domain [0, 100].
• Output CIE XYZ_c colourspace matrix is in domain [0, 100].

Examples

>>> XYZ = np.array([22.48, 22.74, 8.54])
>>> XYZ_w = np.array([111.15, 100.00, 35.20])
>>> XYZ_wr = np.array([94.81, 100.00, 107.30])
>>> L_A1 = 200
>>> L_A2 = 200
>>> CMCCAT2000_forward(XYZ, XYZ_w, XYZ_wr, L_A1, L_A2)    
array([ 19.5269832...,  23.0683396...,  24.9717522...])

colour.adaptation.cmccat2000.CMCCAT2000_reverse(XYZ_c, XYZ_w, XYZ_wr, L_A1, L_A2, surround=CMCCAT2000_InductionFactors(F=1.0))[source]¶

Adapts given CIE XYZ colourspace matrix of the stimulus corresponding colour from reference viewing conditions CIE XYZ_wr colourspace matrix to test viewing conditions CIE XYZ_w colourspace matrix using CMCCAT2000 reverse chromatic adaptation model.

Parameters:	XYZ (array_like, (3,)) – CIE XYZ colourspace stimulus to adapt. XYZ_w (array_like, (3,)) – Test viewing condition CIE XYZ colourspace whitepoint matrix. XYZ_wr (array_like, (3,)) – Reference viewing condition CIE XYZ colourspace whitepoint matrix. L_A1 (numeric) – Luminance of test adapting field \(L_{A1}\) in \(cd/m^2\). L_A2 (numeric) – Luminance of reference adapting field \(L_{A2}\) in \(cd/m^2\). surround (CMCCAT2000_InductionFactors, optional) – Surround viewing conditions induction factors.
Returns:	CIE XYZ_c stimulus colourspace matrix.
Return type:	ndarray, (3,)

Warning

The input and output domains of that definition are non standard!

Notes

• Input CIE XYZ_c, CIE XYZ_w and CIE XYZ_wr colourspace matrices are in domain [0, 100].
• Output CIE XYZ colourspace matrix is in domain [0, 100].

Examples

>>> XYZ_c = np.array([19.53, 23.07, 24.97])
>>> XYZ_w = np.array([111.15, 100.00, 35.20])
>>> XYZ_wr = np.array([94.81, 100.00, 107.30])
>>> L_A1 = 200
>>> L_A2 = 200
>>> CMCCAT2000_reverse(XYZ_c, XYZ_w, XYZ_wr, L_A1, L_A2)    
array([ 22.4839876...,  22.7419485...,   8.5393392...])

colour.adaptation.cmccat2000.chromatic_adaptation_CMCCAT2000(XYZ, XYZ_w, XYZ_wr, L_A1, L_A2, surround=CMCCAT2000_InductionFactors(F=1.0), method=u'Forward')[source]¶

Adapts given CIE XYZ colourspace matrix using given viewing conditions.

This definition is a convenient wrapper around CMCCAT2000_forward() and CMCCAT2000_reverse().

Parameters:	XYZ (array_like, (3,)) – CIE XYZ colourspace matrix to adapt. XYZ_w (array_like, (3,)) – Source viewing condition CIE XYZ colourspace whitepoint matrix. XYZ_wr (array_like, (3,)) – Target viewing condition CIE XYZ colourspace whitepoint matrix. L_A1 (numeric) – Luminance of test adapting field \(L_{A1}\) in \(cd/m^2\). L_A2 (numeric) – Luminance of reference adapting field \(L_{A2}\) in \(cd/m^2\). surround (CMCCAT2000_InductionFactors, optional) – Surround viewing conditions induction factors. method (unicode, optional) – {‘Forward’, ‘Reverse’} Chromatic adaptation method.
Returns:	Adapted CIE XYZ colourspace matrix.
Return type:	ndarray, (3,)

Warning

The input and output domains of that definition are non standard!

Notes

• Input CIE XYZ, CIE XYZ_w and CIE XYZ_wr colourspace matrices are in domain [0, 100].
• Output CIE XYZ colourspace matrix is in domain [0, 100].

Examples

>>> XYZ = np.array([22.48, 22.74, 8.54])
>>> XYZ_w = np.array([111.15, 100.00, 35.20])
>>> XYZ_wr = np.array([94.81, 100.00, 107.30])
>>> L_A1 = 200
>>> L_A2 = 200
>>> chromatic_adaptation_CMCCAT2000(XYZ, XYZ_w, XYZ_wr, L_A1, L_A2, method='Forward')    
array([ 19.5269832...,  23.0683396...,  24.9717522...])

Using the CMCCAT2000 reverse model:

>>> XYZ = np.array([19.52698326, 23.0683396, 24.97175229])
>>> XYZ_w = np.array([111.15, 100.00, 35.20])
>>> XYZ_wr = np.array([94.81, 100.00, 107.30])
>>> L_A1 = 200
>>> L_A2 = 200
>>> chromatic_adaptation_CMCCAT2000(XYZ, XYZ_w, XYZ_wr, L_A1, L_A2, method='Reverse')    
array([ 22.48,  22.74,   8.54])