/usr/share/DisplayCAL/report/compare.constants.js is in dispcalgui 3.1.0.0-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 | var DELTA_A_MAX = 'DELTA_A_MAX',
DELTA_A_AVG = 'DELTA_A_AVG',
DELTA_A_MED = 'DELTA_A_MED', // Median
DELTA_A_MAD = 'DELTA_A_MAD', // Median absolute deviation
DELTA_A_RANGE = 'DELTA_A_RANGE', // The 'range' between two delta values is calculated as follows: abs(delta1 - delta2)
// e.g. if delta1 = -0.2 and delta2 = 0.3, the range is 0.5
DELTA_A_STDDEV = 'DELTA_A_STDDEV', // Standard deviation
DELTA_A_B_RANGE = 'DELTA_A_B_RANGE', // The 'range' between two delta a b values is calculated as follows: abs(delta_a - delta_b)
// e.g. if delta_a = -0.2 and delta_b = 0.3, the range is 0.5
DELTA_B_MAX = 'DELTA_B_MAX',
DELTA_B_AVG = 'DELTA_B_AVG',
DELTA_B_MED = 'DELTA_B_MED', // Median
DELTA_B_MAD = 'DELTA_B_MAD', // Median absolute deviation
DELTA_B_RANGE = 'DELTA_B_RANGE', // The 'range' between two delta values is calculated as follows: abs(delta1 - delta2)
// e.g. if delta1 = -0.2 and delta2 = 0.3, the range is 0.5
DELTA_B_STDDEV = 'DELTA_B_STDDEV', // Standard deviation
DELTA_E_MAX = 'DELTA_E_MAX',
DELTA_E_AVG = 'DELTA_E_AVG',
DELTA_E_MED = 'DELTA_E_MED', // Median
DELTA_E_MAD = 'DELTA_E_MAD', // Median absolute deviation
DELTA_E_RANGE = 'DELTA_E_RANGE', // The 'range' between two delta values is calculated as follows: abs(delta1 - delta2)
// e.g. if delta1 = -0.2 and delta2 = 0.3, the range is 0.5
DELTA_E_STDDEV = 'DELTA_E_STDDEV', // Standard deviation
DELTA_L_MAX = 'DELTA_L_MAX',
DELTA_L_AVG = 'DELTA_L_AVG',
DELTA_L_MED = 'DELTA_L_MED', // Median
DELTA_L_MAD = 'DELTA_L_MAD', // Median absolute deviation
DELTA_L_RANGE = 'DELTA_L_RANGE', // The 'range' between two delta values is calculated as follows: abs(delta1 - delta2)
// e.g. if delta1 = -0.2 and delta2 = 0.3, the range is 0.5
DELTA_L_STDDEV = 'DELTA_L_STDDEV', // Standard deviation
DELTA_C_MAX = 'DELTA_C_MAX',
DELTA_C_AVG = 'DELTA_C_AVG',
DELTA_C_MED = 'DELTA_C_MED', // Median
DELTA_C_MAD = 'DELTA_C_MAD', // Median absolute deviation
DELTA_C_RANGE = 'DELTA_C_RANGE', // The 'range' between two delta values is calculated as follows: abs(delta1 - delta2)
// e.g. if delta1 = -0.2 and delta2 = 0.3, the range is 0.5
DELTA_C_STDDEV = 'DELTA_C_STDDEV', // Standard deviation
DELTA_H_MAX = 'DELTA_H_MAX',
DELTA_H_AVG = 'DELTA_H_AVG',
DELTA_H_MED = 'DELTA_H_MED', // Median
DELTA_H_MAD = 'DELTA_H_MAD', // Median absolute deviation
DELTA_H_RANGE = 'DELTA_H_RANGE', // The 'range' between two delta values is calculated as follows: abs(delta1 - delta2)
// e.g. if delta1 = -0.2 and delta2 = 0.3, the range is 0.5
DELTA_H_STDDEV = 'DELTA_H_STDDEV', // Standard deviation
GAMMA_MAX = 'GAMMA_MAX',
GAMMA_MIN = 'GAMMA_MIN',
GAMMA_AVG = 'GAMMA_AVG',
GAMMA_MED = 'GAMMA_MED', // Median
GAMMA_MAD = 'GAMMA_MAD', // Median absolute deviation
GAMMA_RANGE = 'GAMMA_RANGE', // The 'range' between two delta values is calculated as follows: abs(delta1 - delta2)
// e.g. if delta1 = -0.2 and delta2 = 0.3, the range is 0.5
GAMMA_STDDEV = 'GAMMA_STDDEV', // Standard deviation
CIE76 = 'CIE76',
CIE94 = 'CIE94',
CIE00 = 'CIE00',
CMC11 = 'CMC11',
CMC21 = 'CMC21';
|