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libglitter_get_colour_model_conversion_matrix_double.3
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libglitter_get_colour_model_conversion_matrix_double.3
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.TH LIBGLITTER_GET_COLOUR_MODEL_CONVERSION_MATRIX_* 3 LIBGLITTER
.SH NAME
libglitter_get_colour_model_conversion_matrix_* - Create a column-major colour model conversion matrix
.SH SYNOPSIS
.LP
.nf
#include <libglitter.h>
void libglitter_get_colour_model_conversion_matrix_double(double \fImatrix\fP[3][3],
double \fIc1x\fP, double \fIc1y\fP,
double \fIc2x\fP, double \fIc2y\fP,
double \fIc3x\fP, double \fIc3y\fP,
double \fIwhite_x\fP, double \fIwhite_y\fP,
double \fIwhite_Y\fP, int \fIxyz\fP,
double *\fIc1Yp\fP, double *\fIc2Yp\fP,
double *\fIc3Yp\fP);
void libglitter_get_colour_model_conversion_matrix_float(float \fImatrix\fP[3][3],
float \fIc1x\fP, float \fIc1y\fP,
float \fIc2x\fP, float \fIc2y\fP,
float \fIc3x\fP, float \fIc3y\fP,
float \fIwhite_x\fP, float \fIwhite_y\fP,
float \fIwhite_Y\fP, int \fIxyz\fP,
float *\fIc1Yp\fP, float *\fIc2Yp\fP,
float *\fIc3Yp\fP);
.fi
.PP
Link with
.IR "-lglitter -lm" .
.SH DESCRIPTION
The
.BR libglitter_get_colour_model_conversion_matrix_double ()
and
.BR libglitter_get_colour_model_conversion_matrix_float ()
functions calculate the CIE XYZ values for an output's
primary colours from there chromas expressed as CIE xy
values (CIE xyY sans Y) and the output's whitepoint's
CIE xyY values. It is assumed that the output uses additive
colour mixing and that the blackpoint is perfect black.
After calculating the primary colours' CIE XYZ values,
the functions either output, to
.I matrix
a column-major conversion matrix from the output's colour
model to CIE XYZ (if
.I xyz
is non-zero) or a column-major conversion matrix from the
output's colour model to [0, 1]-normalised sRGB (otherwise).
.PP
The x and y values of the output's first primary colour
shall be input as the
.I c1x
and
.I c1y
arguments, the second primary colour's values as
.I c2x
and
.I c2y
and the third primary colour's values as
.I c3x
and
.IR c3y .
.PP
.IR white_x ,
.IR white_y ,
and
.IR white_Y
shall be the output's whitepoint's CIE xyY values
(x, y, and Y respectively).
.I white_Y
is normally 1, and if it is, and if the whitepoint is
also the D65 illuminant (which it usually is), the macro
.I LIBGLITTER_ILLUMINANT_D65
can be used to specify these three arguments (it expands
into three arguments):
.RS
.nf
void libglitter_get_colour_model_conversion_matrix_double(double \fImatrix\fP[3][3],
double \fIc1x\fP, double \fIc1y\fP,
double \fIc2x\fP, double \fIc2y\fP,
double \fIc3x\fP, double \fIc3y\fP,
LIBGLITTER_ILLUMINANT_D65,
int \fIxyz\fP, double *\fIc1Yp\fP,
double *\fIc2Yp\fP, double *\fIc3Yp\fP);
void libglitter_get_colour_model_conversion_matrix_float(float \fImatrix\fP[3][3],
float \fIc1x\fP, float \fIc1y\fP,
float \fIc2x\fP, float \fIc2y\fP,
float \fIc3x\fP, float \fIc3y\fP,
LIBGLITTER_ILLUMINANT_D65,
int \fIxyz\fP, float *\fIc1Yp\fP,
float *\fIc2Yp\fP, float *\fIc3Yp\fP);
.fi
.RE
.PP
Unless
.I c1Yp
is
.IR NULL ,
.I *c1Yp
is set to the first primary colour's CIE Y value.
Likewise, unless
.I c2Yp
is
.IR NULL ,
.I *c2Yp
is set to the second primary colour's CIE Y value,
and unless
.I c3Yp
is
.IR NULL ,
.I *c3Yp
is set to the third primary colour's CIE Y value,
.PP
The output's three primary colours not form a straight
line: they must render a three dimensional colour space.
.SH RETURN VALUES
None.
.SH ERRORS
None.
.SH SEE ALSO
.BR libglitter (7),
.BR libglitter_colour_model_convert_rasters_double (3),
.BR libglitter_desaturate_double (3)