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diff -uNr Argyll_V1.0.1.orig/doc/ArgyllDoc.html Argyll_V1.0.1/doc/ArgyllDoc.html
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--- Argyll_V1.0.1.orig/doc/ArgyllDoc.html 2008-07-27 11:18:52.000000000 +0200
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+++ Argyll_V1.0.1/doc/ArgyllDoc.html 2008-07-27 11:39:29.000000000 +0200
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@@ -18,7 +18,7 @@
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Author: Graeme Gill
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<u>Introduction</u>
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Argyll is an open source, ICC compatible color management
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-system. It supports accurate ICC profile creation for scanners, CMYK
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+system. It supports accurate ICC profile creation for acquisition devices, CMYK
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printers,
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film recorders and calibration and profiling of displays.
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Spectral sample data is supported,
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diff -uNr Argyll_V1.0.1.orig/doc/chartread.html Argyll_V1.0.1/doc/chartread.html
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--- Argyll_V1.0.1.orig/doc/chartread.html 2008-07-27 11:18:52.000000000 +0200
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+++ Argyll_V1.0.1/doc/chartread.html 2008-07-27 11:40:27.000000000 +0200
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@@ -206,7 +206,7 @@
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Normally the patch locations are not needed in the
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output, but if a chart is being read as an input reference (for use in
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-profiling a scanner or a camera), then the patch locations will still
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+profiling an acquisition device), then the patch locations will still
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be needed. The -a flag adds
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the locations to the output .ti3 file.
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diff -uNr Argyll_V1.0.1.orig/doc/colprof.html Argyll_V1.0.1/doc/colprof.html
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--- Argyll_V1.0.1.orig/doc/colprof.html 2008-07-27 11:18:52.000000000 +0200
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+++ Argyll_V1.0.1/doc/colprof.html 2008-07-27 11:41:01.000000000 +0200
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@@ -617,8 +617,8 @@
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absolute value, and any values whiter than that, will not be clipped by
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the profile. The profile effectively operates in an absolute intent
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mode, irrespective of what intent is selected when it is used.
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-This flag can be useful when an input profile is needed for using a
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-scanner as a "poor mans" colorimeter, or if the white point of the test
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+This flag can be useful when an input profile is needed for using an
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+acquisition device as a "poor mans" colorimeter, or if the white point of the test
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chart doesn't represent the white points of media
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that will be used in practice, and that white point adjustment will be
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done individually in some downstream application.
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/doc/Installing_Linux.html Argyll_V1.0.1/doc/Installing_Linux.html
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29f5c32 |
--- Argyll_V1.0.1.orig/doc/Installing_Linux.html 2008-07-27 11:18:52.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/doc/Installing_Linux.html 2008-07-27 11:42:29.000000000 +0200
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@@ -30,7 +30,7 @@
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variable to give access to the executables from your command line
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environment.
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The .tgz file also contains several useful reference files (such as
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-scanner
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+acquisition device
|
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chart recognition templates, sample illumination spectrum etc.) in the
|
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ref sub-directory, as
|
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29f5c32 |
well
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/doc/Installing_MSWindows.html Argyll_V1.0.1/doc/Installing_MSWindows.html
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29f5c32 |
--- Argyll_V1.0.1.orig/doc/Installing_MSWindows.html 2008-07-27 11:18:52.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/doc/Installing_MSWindows.html 2008-07-27 11:42:50.000000000 +0200
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29f5c32 |
@@ -69,7 +69,7 @@
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29f5c32 |
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29f5c32 |
The .zip file also contains several useful reference files
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(such as
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29f5c32 |
-scanner
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29f5c32 |
+acquisition device
|
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29f5c32 |
chart recognition templates, sample illumination spectrum etc.) in the
|
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29f5c32 |
ref sub-directory, all the current documentation in a doc
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29f5c32 |
sub-directory, and instrument USB drivers in the libusbw directory.
|
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/doc/Installing_OSX.html Argyll_V1.0.1/doc/Installing_OSX.html
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29f5c32 |
--- Argyll_V1.0.1.orig/doc/Installing_OSX.html 2008-07-27 11:18:52.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/doc/Installing_OSX.html 2008-07-27 11:39:58.000000000 +0200
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29f5c32 |
@@ -30,7 +30,7 @@
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with how to do this, consult an appropriate tutorial, e.g. <
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29f5c32 |
href="http://heather.cs.ucdavis.edu/%7Ematloff/UnixAndC/Unix/ShellIntro.html#tth_sEc1">ShellIntro>.
|
|
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29f5c32 |
The .tgz file also contains several useful reference files (such as
|
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29f5c32 |
-scanner chart recognition templates, sample illumination spectrum
|
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29f5c32 |
+acquisition device chart recognition templates, sample illumination spectrum
|
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29f5c32 |
etc.) in the ref sub-directory, as well as
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29f5c32 |
all the current documentation in a doc sub-directory.
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29f5c32 |
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/doc/Organisation.html Argyll_V1.0.1/doc/Organisation.html
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29f5c32 |
--- Argyll_V1.0.1.orig/doc/Organisation.html 2008-07-27 11:18:52.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/doc/Organisation.html 2008-07-27 11:36:55.000000000 +0200
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29f5c32 |
@@ -13,7 +13,7 @@
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29f5c32 |
This directory contains routines that generate calibration test charts,
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29f5c32 |
based
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29f5c32 |
on various distribution algorithms suitable for
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29f5c32 |
-reading using an Xrite DTP51 or DTP41 colorimeter, or scanner for print
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29f5c32 |
+reading using an Xrite DTP51 or DTP41 colorimeter, or acquisition device for print
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29f5c32 |
charts,
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the Gretag Spectrolino for film charts, or the Xrite DTP92 pr DTP94 for
|
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29f5c32 |
monitor
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/doc/printtarg.html Argyll_V1.0.1/doc/printtarg.html
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29f5c32 |
--- Argyll_V1.0.1.orig/doc/printtarg.html 2008-07-27 11:18:52.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/doc/printtarg.html 2008-07-27 11:36:27.000000000 +0200
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29f5c32 |
@@ -167,7 +167,7 @@
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file, and a .ti2 file containing the device test values together with
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29f5c32 |
the layout information needed to identify the patch location. This
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29f5c32 |
module can also generate the image recognition templates needed to read
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-the print targets in using a scanner.
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+the print targets in using an acquisition device.
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The -v flag turns on verbose mode. Prints
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information about how many patches there are in a row, how many patches
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/doc/scanin.html Argyll_V1.0.1/doc/scanin.html
|
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29f5c32 |
--- Argyll_V1.0.1.orig/doc/scanin.html 2008-07-27 11:18:52.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/doc/scanin.html 2008-07-27 11:34:18.000000000 +0200
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29f5c32 |
@@ -23,7 +23,7 @@
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recogin.cht
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valin.cie [diag.tif]
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:- inputs
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-'input.tif', and outputs scanner
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+'input.tif', and outputs device
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'input.ti3', or
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29f5c32 |
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29f5c32 |
usage
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@@ -85,7 +85,7 @@
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style="font-family: monospace;">
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29f5c32 |
Replace device values in .ti3
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29f5c32 |
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-Default is to create a scanner .ti3 file
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+Default is to create a device .ti3 file
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</small><small>
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style="font-family: monospace;" href="#F">-F x1,y1,x2,y2,x3,y3,x4,y4
|
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style="font-family: monospace;">
|
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29f5c32 |
@@ -187,10 +187,10 @@
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of the chart are visible within the image, and if the image is cropped
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29f5c32 |
to exclude the chart edges, it may well not recognize the chart
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29f5c32 |
properly. It is designed to cope with a variety of resolutions, and
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-will cope with some degree of noise in the scan (due to screening
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+will cope with some degree of noise in the acquisition (due to screening
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29f5c32 |
artefacts on the original, or film grain), but it isn't really designed
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29f5c32 |
to accept very high resolution input. For anything over 600DPI, you
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-should consider down sampling the scan using a filtering downsample,
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+should consider down sampling the image using a filtering downsample,
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before submitting the file to scanin.
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29f5c32 |
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There are 5 basic modes that scanin operates in.
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29f5c32 |
@@ -199,7 +199,7 @@
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29f5c32 |
assumed to be parsing an input device characterization chart (ie. an
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29f5c32 |
IT8.7/2 chart), for the purpose of creating a
|
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29f5c32 |
href="File_Formats.html#.ti3">.ti3 data file containing
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29f5c32 |
-the CIE test values and the corresponding RGB scanner values. The
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+the CIE test values and the corresponding RGB device values. The
|
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29f5c32 |
href="File_Formats.html#.ti3">.ti3 file can then be used for
|
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29f5c32 |
creating
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29f5c32 |
an input profile using colprof. The file
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29f5c32 |
@@ -221,7 +221,7 @@
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29f5c32 |
file in
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this situation, should be a good quality image, perhaps synthetically
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29f5c32 |
generated
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-(rather than being scanned), and perfectly oriented, to make
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+(rather than being parsed), and perfectly oriented, to make
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specification
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of the patch locations easier. The file arguments are: The
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TIFF file that
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29f5c32 |
@@ -245,7 +245,7 @@
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29f5c32 |
input devices to be used as a crude replacement for a color measuring
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instrument. The icc profile has
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(presumably) been
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-created by scanning an IT8.7/2 chart (or similar) through the RGB input
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+created with an image of a IT8.7/2 chart (or similar) through the RGB input
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device,
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and
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then using scanin to create the .ti3 file needed to feed to colprof to
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29f5c32 |
@@ -267,7 +267,7 @@
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The resulting .ti3 file will have the same base name as the input TIFF
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file.
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If there is more than one page in the test chart, then scanin will need
|
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-to be run multiple times, once for each scan file made from each test
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+to be run multiple times, once for each image file made from each test
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chart. The -ca flag combination should be
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used
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for all pages after the first,
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@@ -339,7 +339,7 @@
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29f5c32 |
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By default the automatic chart recognition copes with
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rotation, scale and stretch in the chart image, making it suitable for
|
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-charts that have been scanned, or shot squarely with a camera. If a
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+charts that have been acquired, or shot squarely with a camera. If a
|
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chart has been shot not exactly facing the camera (perhaps to avoid
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reflection, or to get more even lighting), then it will suffer from
|
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perspective distortion as well. The
|
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29f5c32 |
@@ -349,7 +349,7 @@
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Normally scanin computes an average of the pixel values
|
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within a sample square, using a "robust" mean, that discards pixel
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values that are too far from the average ("outlier" pixel values). This
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-is done in an attempt to discard value that are due to scanning
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+is done in an attempt to discard value that are due to acquisition
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artefacts such as dust, scratches etc. You can force scanin to return
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the true mean values for the sample squares that includes all the pixel
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values, by using the -m flag.
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29f5c32 |
@@ -357,9 +357,9 @@
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Normally scanin has reasonably robust feature
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recognition, but the default assumption is that the input chart has an
|
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29f5c32 |
approximately even visual distribution of patch values, and has been
|
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-scanned and converted to a typical gamma 2.2 corrected image, meaning
|
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+acquired and converted to a typical gamma 2.2 corrected image, meaning
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29f5c32 |
that the average patch pixel value is expected to be about 50%. If this
|
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-is not the case (for instance if the input chart has been scanned with
|
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+is not the case (for instance if the input chart has been processed with
|
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29f5c32 |
linear light or "raw" encoding), then it may enhance the image
|
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29f5c32 |
recognition to provide the approximate gamma encoding of the image. For
|
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29f5c32 |
instance, if linear light encoding ("Raw") is used, a
|
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/doc/Scenarios.html Argyll_V1.0.1/doc/Scenarios.html
|
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|
29f5c32 |
--- Argyll_V1.0.1.orig/doc/Scenarios.html 2008-07-27 11:18:52.000000000 +0200
|
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29f5c32 |
+++ Argyll_V1.0.1/doc/Scenarios.html 2008-07-27 11:52:05.000000000 +0200
|
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29f5c32 |
@@ -32,17 +32,17 @@
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29f5c32 |
href="#PM5">Installing a
|
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29f5c32 |
display profile
|
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29f5c32 |
|
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29f5c32 |
-Profiling Scanners
|
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29f5c32 |
+Profiling Acquisition Devices
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29f5c32 |
|
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-
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-
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+
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+
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29f5c32 |
|
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29f5c32 |
Profiling Printers
|
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29f5c32 |
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29f5c32 |
|
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29f5c32 |
using an instrument
|
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29f5c32 |
|
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29f5c32 |
-using a scanner
|
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29f5c32 |
+using an acquisition device
|
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29f5c32 |
|
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29f5c32 |
|
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29f5c32 |
|
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29f5c32 |
@@ -353,14 +353,14 @@
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29f5c32 |
the connected display.
|
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29f5c32 |
|
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29f5c32 |
|
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29f5c32 |
-Profiling Scanners
|
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29f5c32 |
-Because a scanner is an input device, it is necessary to go about
|
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29f5c32 |
+Profiling Acquisition Devices
|
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|
29f5c32 |
+Because a acquisition device is an input device, it is necessary to go about
|
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|
29f5c32 |
profiling it in quite a different way to an output device. To profile
|
|
|
29f5c32 |
-it, a test chart is needed to exercise the scanner response, to which
|
|
|
29f5c32 |
+it, a test chart is needed to exercise the device response, to which
|
|
|
29f5c32 |
the CIE values for each test patch is known. Generally standard
|
|
|
29f5c32 |
reflection or transparency test charts are used for this purpose.
|
|
|
29f5c32 |
Types of test charts
|
|
|
29f5c32 |
-The most common and popular test chart for scanner profiling is the
|
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|
29f5c32 |
+The most common and popular test chart for acquisiton device profiling is the
|
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|
29f5c32 |
IT8.7/2 chart. This is a standard format chart generally reproduced on
|
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|
29f5c32 |
photographic film, containing about 264 test patches. The Kodak Q-60
|
|
|
29f5c32 |
Color Input Target is a typical example:
|
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|
29f5c32 |
@@ -400,18 +400,18 @@
|
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29f5c32 |
|
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29f5c32 |
style="width: 186px; height: 141px;">
|
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|
29f5c32 |
|
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|
29f5c32 |
-Taking readings from a scanner
|
|
|
29f5c32 |
-The test chart you are using needs to be placed on the scanner, and the
|
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|
29f5c32 |
-scanner needs to be configured to a suitable state, and restored to
|
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29f5c32 |
+Taking readings from an acquisition device
|
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|
29f5c32 |
+The test chart you are using needs to be exposed to the device, and the
|
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|
29f5c32 |
+acquisition device needs to be configured to a suitable state, and restored to
|
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|
29f5c32 |
that
|
|
|
29f5c32 |
same state when used subsequently with the resulting profile. The chart
|
|
|
29f5c32 |
should
|
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|
29f5c32 |
be scanned, and saved to a TIFF format file. I will assume the
|
|
|
29f5c32 |
resulting
|
|
|
29f5c32 |
-file is called scanner.tif. The raster file need only be roughly
|
|
|
29f5c32 |
+file is called device.tif. The raster file need only be roughly
|
|
|
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cropped so as to contain the test chart (including the charts edges).
|
|
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29f5c32 |
|
|
|
29f5c32 |
-The second step is to extract the RGB values from the scanner.tif file,
|
|
|
29f5c32 |
+The second step is to extract the RGB values from the device.tif file,
|
|
|
29f5c32 |
and match then to the reference CIE values.
|
|
|
29f5c32 |
To locate the patch values in the scan, the scanin utility
|
|
|
29f5c32 |
needs to
|
|
|
29f5c32 |
@@ -485,32 +485,32 @@
|
|
|
29f5c32 |
chart recognition template file will need to be created (this is beyond
|
|
|
29f5c32 |
the scope of the current documentation).
|
|
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29f5c32 |
|
|
|
29f5c32 |
-To create the scanner .ti3 file, run the scanin utility as
|
|
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29f5c32 |
+To create the device .ti3 file, run the scanin utility as
|
|
|
29f5c32 |
follows
|
|
|
29f5c32 |
(assuming an IT8 chart is being used):
|
|
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29f5c32 |
|
|
|
29f5c32 |
- scanin -v scanner.tif It8.cht It8ref.txt
|
|
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29f5c32 |
+ scanin -v device.tif It8.cht It8ref.txt
|
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29f5c32 |
|
|
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29f5c32 |
"It8ref.txt" is assumed to be the name of the CIE reference file
|
|
|
29f5c32 |
-supplied by the chart manufacturer. The resulting file will be named "scanner.ti3".
|
|
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29f5c32 |
+supplied by the chart manufacturer. The resulting file will be named "device.ti3".
|
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29f5c32 |
|
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29f5c32 |
scanin will process 16 bit per
|
|
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29f5c32 |
-component .tiff files, which (if the scanner is capable of creating
|
|
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29f5c32 |
+component .tiff files, which (if the device is capable of creating
|
|
|
29f5c32 |
such files), may improve the quality of the profile.
|
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29f5c32 |
|
|
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29f5c32 |
If you have any doubts about the correctness of the chart recognition,
|
|
|
29f5c32 |
or the subsequent profile's delta E report is unusual, then use the
|
|
|
29f5c32 |
scanin diagnostic flags -dipn and examine
|
|
|
29f5c32 |
the diag.tif diagnostic file.
|
|
|
29f5c32 |
-Creating a scanner profile
|
|
|
29f5c32 |
-Similar to a display profile, a scanner profile can be either a
|
|
|
29f5c32 |
-shaper/matrix or LUT based profile. Well behaved scanners will
|
|
|
29f5c32 |
+Creating an acquisition device profile
|
|
|
29f5c32 |
+Similar to a display profile, an acquisition device profile can be either a
|
|
|
29f5c32 |
+shaper/matrix or LUT based profile. Well behaved devices will
|
|
|
29f5c32 |
probably give the best results
|
|
|
29f5c32 |
with a shaper/matrix profile, but if the fit is poor, consider using a
|
|
|
29f5c32 |
LUT
|
|
|
29f5c32 |
type profile.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
-If the purpose of the scanner profile is to use it as a substitute for
|
|
|
29f5c32 |
+If the purpose of the device profile is to use it as a substitute for
|
|
|
29f5c32 |
a
|
|
|
29f5c32 |
colorimeter, then the -u flag should be used to avoid clipping
|
|
|
29f5c32 |
values above the white point. Unless the shaper/matrix type profile is
|
|
|
29f5c32 |
@@ -520,24 +520,24 @@
|
|
|
29f5c32 |
To create a matrix/shaper profile, the following suffices:
|
|
|
29f5c32 |
|
|
|
29f5c32 |
colprof -v
|
|
|
29f5c32 |
- href="colprof.html#E">-D"Scanner A"
|
|
|
29f5c32 |
+ href="colprof.html#E">-D"Device A"
|
|
|
29f5c32 |
href="colprof.html#q">-qm -as
|
|
|
29f5c32 |
-scanner
|
|
|
29f5c32 |
+device
|
|
|
29f5c32 |
|
|
|
29f5c32 |
For a LUT based profile then the following would be used:
|
|
|
29f5c32 |
|
|
|
29f5c32 |
colprof -v
|
|
|
29f5c32 |
- href="colprof.html#E">-D"Scanner A"
|
|
|
29f5c32 |
+ href="colprof.html#E">-D"Device A"
|
|
|
29f5c32 |
-qm
|
|
|
29f5c32 |
-scanner
|
|
|
29f5c32 |
+device
|
|
|
29f5c32 |
|
|
|
29f5c32 |
For the purposes of a poor mans colorimeter, the following would
|
|
|
29f5c32 |
generally be used:
|
|
|
29f5c32 |
|
|
|
29f5c32 |
colprof -v
|
|
|
29f5c32 |
- href="colprof.html#E">-D"Scanner A"
|
|
|
29f5c32 |
+ href="colprof.html#E">-D"Device A"
|
|
|
29f5c32 |
-qm -u
|
|
|
29f5c32 |
-scanner
|
|
|
29f5c32 |
+device
|
|
|
29f5c32 |
|
|
|
29f5c32 |
Make sure you check the delta E report at the end of the profile
|
|
|
29f5c32 |
creation, to see if the profile is behaving reasonably.
|
|
|
29f5c32 |
@@ -703,7 +703,7 @@
|
|
|
29f5c32 |
-ii1 -pA4
|
|
|
29f5c32 |
PrinterA
|
|
|
29f5c32 |
|
|
|
29f5c32 |
-For using with a scanner as a colorimeter, the Gretag Spectroscan
|
|
|
29f5c32 |
+For using with an acquisition device as a colorimeter, the Gretag Spectroscan
|
|
|
29f5c32 |
layout is suitable, but the -s flag
|
|
|
29f5c32 |
should be used so as to generate a layout suitable for scan
|
|
|
29f5c32 |
recognition, as well as generating the scan recognition template
|
|
|
29f5c32 |
@@ -804,28 +804,27 @@
|
|
|
29f5c32 |
for each type of instrument. Continue with Creating
|
|
|
29f5c32 |
a printer profile.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
-Reading a print test chart using a scanner or
|
|
|
29f5c32 |
-camera
|
|
|
29f5c32 |
+Reading a print test chart using an acquisition device
|
|
|
29f5c32 |
|
|
|
29f5c32 |
|
|
|
29f5c32 |
-Argyll supports using a scanner or even a camera as a substitute for a
|
|
|
29f5c32 |
+Argyll supports using any acquisition device as a substitute for a
|
|
|
29f5c32 |
colorimeter.
|
|
|
29f5c32 |
-While a scanner or camera is no replacement for a color measurement
|
|
|
29f5c32 |
+While most are no replacement for a color measurement
|
|
|
29f5c32 |
instrument, it may give acceptable results in some situations, and may
|
|
|
29f5c32 |
give better results than a generic profile for a printing device.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
-The main limitation of the scanner-as-colorimeter approach are:
|
|
|
29f5c32 |
+The main limitation of the any-device-as-colorimeter approach are:
|
|
|
29f5c32 |
|
|
|
29f5c32 |
-* The scanner dynamic range and/or precision may not match the printers
|
|
|
29f5c32 |
+* The acquisition device dynamic range and/or precision may not match the printers
|
|
|
29f5c32 |
or what is required for a good profile.
|
|
|
29f5c32 |
-* The spectral interaction of the scanner test chart and printer test
|
|
|
29f5c32 |
-chart with the scanner
|
|
|
29f5c32 |
+* The spectral interaction of the device test chart and printer test
|
|
|
29f5c32 |
+chart with the device
|
|
|
29f5c32 |
spectral response can cause color errors.
|
|
|
29f5c32 |
* Spectral differences caused by different black amounts in the print
|
|
|
29f5c32 |
test chart can cause
|
|
|
29f5c32 |
color errors.
|
|
|
29f5c32 |
* The IT8 chart gamut may be so much smaller than the printers that the
|
|
|
29f5c32 |
-scanner profile is too inaccurate.
|
|
|
29f5c32 |
+acquisition device profile is too inaccurate.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
As well as some of the above, a camera may not be suitable if it
|
|
|
29f5c32 |
automatically adjusts exposure or white point when taking a picture,
|
|
|
29f5c32 |
@@ -834,23 +833,23 @@
|
|
|
29f5c32 |
The end result is often a profile that has a slight color cast to,
|
|
|
29f5c32 |
compared to a profile created using a colorimeter or spectrometer..
|
|
|
29f5c32 |
|
|
|
29f5c32 |
-It is assumed that you have created a scanner or camera profile
|
|
|
29f5c32 |
+It is assumed that you have created an acquisition device profile
|
|
|
29f5c32 |
following the procedure
|
|
|
29f5c32 |
outline above. For best possible results it
|
|
|
29f5c32 |
-is advisable to both profile the scanner or camera, and use it in
|
|
|
29f5c32 |
+is advisable to both profile the acquisition device, and use it in
|
|
|
29f5c32 |
scanning the
|
|
|
29f5c32 |
printed test chart, in as "raw" mode as possible (i.e. using 16 bits
|
|
|
29f5c32 |
-per component images, if the scanner or camera is
|
|
|
29f5c32 |
+per component images, if the acquisition device is
|
|
|
29f5c32 |
capable of doing so; not setting white or black points, using a fixed
|
|
|
29f5c32 |
exposure etc.). It is
|
|
|
29f5c32 |
generally advisable to create a LUT type input profile, and use the
|
|
|
29f5c32 |
href="http://www.argyllcms.com/doc/colprof.html#u">-u flag to
|
|
|
29f5c32 |
avoid clipping scanned value whiter than the input calibration chart.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
-Scan or photograph your printer chart (or charts) on the scanner or
|
|
|
29f5c32 |
-camera previously profiled.
|
|
|
29f5c32 |
+Scan or photograph your printer chart (or charts) on the acquisition device
|
|
|
29f5c32 |
+previously profiled.
|
|
|
29f5c32 |
<big>The
|
|
|
29f5c32 |
-scanner or camera must be configured and used exactly the same as it
|
|
|
29f5c32 |
+acquisition device must be configured and used exactly the same as it
|
|
|
29f5c32 |
was when it
|
|
|
29f5c32 |
was profiled.</big>
|
|
|
29f5c32 |
|
|
|
29f5c32 |
@@ -858,21 +857,21 @@
|
|
|
29f5c32 |
style="font-weight: bold;">PrinterB.tif (or
|
|
|
29f5c32 |
style="font-weight: bold;">PrinterB1.tif,
|
|
|
29f5c32 |
style="font-weight: bold;">PrinterB2.tif etc. in the case of
|
|
|
29f5c32 |
-multiple charts). As with profiling the scanner or camera, the raster
|
|
|
29f5c32 |
+multiple charts). As with profiling the acquisition device, the raster
|
|
|
29f5c32 |
file need
|
|
|
29f5c32 |
only be roughly cropped so as to contain the test chart.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
-The scanner recognition files
|
|
|
29f5c32 |
+The acquisition device recognition files
|
|
|
29f5c32 |
created when printtarg was run
|
|
|
29f5c32 |
is assumed to be called PrinterB.cht.
|
|
|
29f5c32 |
-Using the scanner profile created previously (assumed to be called
|
|
|
29f5c32 |
- style="font-weight: bold;">scanner.icm), the printer test chart
|
|
|
29f5c32 |
+Using the device profile created previously (assumed to be called
|
|
|
29f5c32 |
+ style="font-weight: bold;">device.icm), the printer test chart
|
|
|
29f5c32 |
scan patches are converted to CIE values using the
|
|
|
29f5c32 |
style="font-weight: bold;">scanin utility:
|
|
|
29f5c32 |
|
|
|
29f5c32 |
scanin -v
|
|
|
29f5c32 |
href="scanin.html#c">-c PrinterB.tif
|
|
|
29f5c32 |
-PrinterB.cht scanner.icm
|
|
|
29f5c32 |
+PrinterB.cht device.icm
|
|
|
29f5c32 |
PrinterB
|
|
|
29f5c32 |
|
|
|
29f5c32 |
If there were multiple test chart pages, the results would be
|
|
|
29f5c32 |
@@ -881,15 +880,15 @@
|
|
|
29f5c32 |
|
|
|
29f5c32 |
scanin -v
|
|
|
29f5c32 |
href="scanin.html#c">-c PrinterB1.tif
|
|
|
29f5c32 |
-PrinterB1.cht scanner.icm
|
|
|
29f5c32 |
+PrinterB1.cht device.icm
|
|
|
29f5c32 |
PrinterB
|
|
|
29f5c32 |
scanin -v
|
|
|
29f5c32 |
href="scanin.html#ca">-ca PrinterB2.tif
|
|
|
29f5c32 |
-PrinterB2.cht scanner.icm
|
|
|
29f5c32 |
+PrinterB2.cht device.icm
|
|
|
29f5c32 |
PrinterB
|
|
|
29f5c32 |
scanin -v
|
|
|
29f5c32 |
href="scanin.html#ca">-ca PrinterB3.tif
|
|
|
29f5c32 |
-PrinterB3.cht scanner.icm
|
|
|
29f5c32 |
+PrinterB3.cht device.icm
|
|
|
29f5c32 |
PrinterB
|
|
|
29f5c32 |
|
|
|
29f5c32 |
Now that the PrinterB.ti3 data
|
|
|
29f5c32 |
diff -uNr Argyll_V1.0.1.orig/doc/targen.html Argyll_V1.0.1/doc/targen.html
|
|
|
29f5c32 |
--- Argyll_V1.0.1.orig/doc/targen.html 2008-07-27 11:18:52.000000000 +0200
|
|
|
29f5c32 |
+++ Argyll_V1.0.1/doc/targen.html 2008-07-27 11:53:34.000000000 +0200
|
|
|
29f5c32 |
@@ -615,7 +615,7 @@
|
|
|
29f5c32 |
3 x Letter 1386
|
|
|
29f5c32 |
4 x Letter 1848
|
|
|
29f5c32 |
|
|
|
29f5c32 |
- Scanner (printtarg with -iSS -s options):
|
|
|
29f5c32 |
+ Acquisition device (printtarg with -iSS -s options):
|
|
|
29f5c32 |
|
|
|
29f5c32 |
1 x A4R 1014
|
|
|
29f5c32 |
2 x A4R 2028
|
|
|
29f5c32 |
diff -uNr Argyll_V1.0.1.orig/doc/ti3_format.html Argyll_V1.0.1/doc/ti3_format.html
|
|
|
29f5c32 |
--- Argyll_V1.0.1.orig/doc/ti3_format.html 2008-07-27 11:18:52.000000000 +0200
|
|
|
29f5c32 |
+++ Argyll_V1.0.1/doc/ti3_format.html 2008-07-27 11:42:04.000000000 +0200
|
|
|
29f5c32 |
@@ -173,7 +173,7 @@
|
|
|
29f5c32 |
or "RGB_LAB" for an RGB printer
|
|
|
29f5c32 |
or display, "CMYK_XYZ" for a
|
|
|
29f5c32 |
printer, "XYZ_RGB" for an RGB
|
|
|
29f5c32 |
-scanner.
|
|
|
29f5c32 |
+acquisition device.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
If spectral values are going to be included in the file, the following
|
|
|
29f5c32 |
keywords and values shall be used:
|
|
|
29f5c32 |
diff -uNr Argyll_V1.0.1.orig/doc/ucmm.html Argyll_V1.0.1/doc/ucmm.html
|
|
|
29f5c32 |
--- Argyll_V1.0.1.orig/doc/ucmm.html 2008-07-27 11:18:52.000000000 +0200
|
|
|
29f5c32 |
+++ Argyll_V1.0.1/doc/ucmm.html 2008-07-27 11:41:27.000000000 +0200
|
|
|
29f5c32 |
@@ -13,7 +13,7 @@
|
|
|
29f5c32 |
designed just to handle the necessary configuration needed to track the
|
|
|
29f5c32 |
installation and association of ICC profiles with Unix/Linux X11
|
|
|
29f5c32 |
displays. It could be expanded at some point to also hold the
|
|
|
29f5c32 |
-associations for other devices such as scanner and printers.
|
|
|
29f5c32 |
+associations for other devices such as acquisition devices and printers.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
It consists primarily of a small configuration database that associates
|
|
|
29f5c32 |
a display monitor (identified by its EDID or the X11 display name if an
|
|
|
29f5c32 |
diff -uNr Argyll_V1.0.1.orig/log.txt Argyll_V1.0.1/log.txt
|
|
|
29f5c32 |
--- Argyll_V1.0.1.orig/log.txt 2008-07-27 11:18:52.000000000 +0200
|
|
|
29f5c32 |
+++ Argyll_V1.0.1/log.txt 2008-07-27 11:35:38.000000000 +0200
|
|
|
29f5c32 |
@@ -1648,7 +1648,7 @@
|
|
|
29f5c32 |
|
|
|
29f5c32 |
* Added shaper/matrix input profile support.
|
|
|
29f5c32 |
(profile/profin.c, xicc/xmatrix.c)
|
|
|
29f5c32 |
- This may be more accurate for scanner profiles,
|
|
|
29f5c32 |
+ This may be more accurate for device profiles,
|
|
|
29f5c32 |
given the poor coverage of test points provided
|
|
|
29f5c32 |
by an IT8 chart (but doesn't appear to be in practice).
|
|
|
29f5c32 |
|
|
|
29f5c32 |
@@ -1659,7 +1659,7 @@
|
|
|
29f5c32 |
|
|
|
29f5c32 |
* Added support in scanin.c and scanrd.c for
|
|
|
29f5c32 |
using a scan of a print test chart, plus a
|
|
|
29f5c32 |
- profile for the scanner, to be able to measure
|
|
|
29f5c32 |
+ profile for the device, to be able to measure
|
|
|
29f5c32 |
color for printer calibration. This
|
|
|
29f5c32 |
new mode handles multi-page test charts.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
@@ -1689,13 +1689,13 @@
|
|
|
29f5c32 |
patch spacer contrast determination.
|
|
|
29f5c32 |
Also added an XYZ to sRGB conversion
|
|
|
29f5c32 |
function to support RGB previews of N color
|
|
|
29f5c32 |
- devices, as well as scanner recognition template files.
|
|
|
29f5c32 |
+ devices, as well as device recognition template files.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
* Expanded xicc/xcolorants.c to incorporate
|
|
|
29f5c32 |
an approximate device model for arbitrary
|
|
|
29f5c32 |
colorant combinations. This is used to
|
|
|
29f5c32 |
be able to approximate expected density readings,
|
|
|
29f5c32 |
- as well as preview colors and scanner recognition templates.
|
|
|
29f5c32 |
+ as well as preview colors and device recognition templates.
|
|
|
29f5c32 |
|
|
|
29f5c32 |
* Create a new test point creation module,
|
|
|
29f5c32 |
target/simplat.c, to create higher dimentional,
|
|
|
29f5c32 |
@@ -1793,7 +1793,7 @@
|
|
|
29f5c32 |
|
|
|
29f5c32 |
* Added preliminary support in printtarg for the SpectroScan
|
|
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29f5c32 |
spectrodensitometer. Also added preliminary support for
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29f5c32 |
- scanner recognisable test charts.
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29f5c32 |
+ device recognisable test charts.
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29f5c32 |
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29f5c32 |
* Added option to icclink to turn off the use of linearisation
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29f5c32 |
curves in the output link, since this sometimes seems to
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29f5c32 |
@@ -1960,7 +1960,7 @@
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29f5c32 |
Cleaned up build automation somewhat.
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29f5c32 |
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29f5c32 |
Added RGB output device profile generation support.
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29f5c32 |
- Added RGB scanner device profile generation support.
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29f5c32 |
+ Added RGB device profile generation support.
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29f5c32 |
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29f5c32 |
Added a couple of spectrometer conversion utilities for
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raw data files from other CMSs.
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/profile/profcheck.c Argyll_V1.0.1/profile/profcheck.c
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--- Argyll_V1.0.1.orig/profile/profcheck.c 2008-07-27 11:18:52.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/profile/profcheck.c 2008-07-27 11:54:01.000000000 +0200
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29f5c32 |
@@ -360,7 +360,7 @@
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devchan = 3;
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isLab = 1;
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isAdditive = 1;
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- /* Scanner .ti3 files: */
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+ /* Acquisition Device .ti3 files: */
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} else if (strcmp(icg->t[0].kdata[ti],"XYZ_RGB") == 0) {
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devspace = icSigRgbData;
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29f5c32 |
devchan = 3;
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/profile/profin.c Argyll_V1.0.1/profile/profin.c
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29f5c32 |
--- Argyll_V1.0.1.orig/profile/profin.c 2008-07-27 11:18:52.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/profile/profin.c 2008-07-27 11:53:08.000000000 +0200
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29f5c32 |
@@ -49,7 +49,7 @@
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29f5c32 |
/*
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Basic algorithm outline:
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29f5c32 |
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29f5c32 |
- Scanner:
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29f5c32 |
+ Acquisition Device:
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29f5c32 |
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29f5c32 |
Figure out the input curves to give
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29f5c32 |
the flattest grid.
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/scanin/scanin.c Argyll_V1.0.1/scanin/scanin.c
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29f5c32 |
--- Argyll_V1.0.1.orig/scanin/scanin.c 2008-07-27 11:18:53.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/scanin/scanin.c 2008-07-27 11:26:37.000000000 +0200
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29f5c32 |
@@ -2,7 +2,7 @@
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29f5c32 |
/*
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29f5c32 |
* Argyll Color Correction System
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29f5c32 |
*
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29f5c32 |
- * Scanin: Input the scan of a test chart, and output cgats data
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29f5c32 |
+ * Scanin: Input the image of a test chart, and output cgats data
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29f5c32 |
* Uses scanrd to do the hard work.
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29f5c32 |
*
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29f5c32 |
* Author: Graeme W. Gill
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29f5c32 |
@@ -72,7 +72,7 @@
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29f5c32 |
fprintf(stderr,"Author: Graeme W. Gill, licensed under the GPL Version 3\n");
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29f5c32 |
fprintf(stderr,"\n");
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29f5c32 |
fprintf(stderr,"usage: scanin [options] input.tif recogin.cht valin.cie [diag.tif]\n");
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29f5c32 |
- fprintf(stderr," :- inputs 'input.tif' and outputs scanner 'input.ti3', or\n");
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29f5c32 |
+ fprintf(stderr," :- inputs 'input.tif' and outputs device 'input.ti3', or\n");
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29f5c32 |
fprintf(stderr,"\n");
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29f5c32 |
fprintf(stderr,"usage: scanin -g [options] input.tif recogout.cht [diag.tif]\n");
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29f5c32 |
fprintf(stderr," :- outputs file 'recogout.cht', or\n");
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29f5c32 |
@@ -92,7 +92,7 @@
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29f5c32 |
fprintf(stderr," -ca Same as -c, but accumulates more values to .ti3\n");
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29f5c32 |
fprintf(stderr," from subsequent pages\n");
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29f5c32 |
fprintf(stderr," -r Replace device values in .ti2/.ti3\n");
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29f5c32 |
- fprintf(stderr," Default is to create a scanner .ti3 file\n");
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29f5c32 |
+ fprintf(stderr," Default is to create a device .ti3 file\n");
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29f5c32 |
fprintf(stderr," -F x1,y1,x2,y2,x3,y3,x4,y4\n");
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29f5c32 |
fprintf(stderr," Don't auto recognize, locate using four fiducual marks\n");
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29f5c32 |
fprintf(stderr," -p Compensate for perspective distortion\n");
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29f5c32 |
@@ -127,12 +127,12 @@
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29f5c32 |
static char datin_name[200] = { 0 }; /* Data input name (.cie/.q60) */
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29f5c32 |
static char datout_name[200] = { 0 }; /* Data output name (.ti3/.val) */
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29f5c32 |
static char recog_name[200] = { 0 }; /* Reference chart name (.cht) */
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29f5c32 |
- static char prof_name[200] = { 0 }; /* scanner profile name (.cht) */
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29f5c32 |
+ static char prof_name[200] = { 0 }; /* device profile name (.cht) */
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29f5c32 |
static char diag_name[200] = { 0 }; /* Diagnostic Output (.tif) name, if used */
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29f5c32 |
int verb = 1;
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29f5c32 |
int tmean = 0; /* Return true mean, rather than robust mean */
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29f5c32 |
int repl = 0; /* Replace .ti3 device values from raster file */
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29f5c32 |
- int outo = 0; /* Output the values read, rather than creating scanner .ti3 */
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29f5c32 |
+ int outo = 0; /* Output the values read, rather than creating device .ti3 */
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29f5c32 |
int colm = 0; /* Use inage values to measure color for print profile. > 1 == append */
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29f5c32 |
int flags = SI_GENERAL_ROT; /* Default allow all rotations */
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29f5c32 |
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29f5c32 |
@@ -153,7 +153,7 @@
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29f5c32 |
scanrd *sr; /* Scanrd object */
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29f5c32 |
int err;
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29f5c32 |
char *errm;
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29f5c32 |
- int pnotscan = 0; /* Number of patches that wern't scanned */
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29f5c32 |
+ int pnotscan = 0; /* Number of patches that weren't processed */
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29f5c32 |
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29f5c32 |
if (argc <= 1)
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29f5c32 |
usage();
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/target/printtarg.c Argyll_V1.0.1/target/printtarg.c
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29f5c32 |
--- Argyll_V1.0.1.orig/target/printtarg.c 2008-07-27 11:18:52.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/target/printtarg.c 2008-07-27 11:37:20.000000000 +0200
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29f5c32 |
@@ -3252,7 +3252,7 @@
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29f5c32 |
}
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29f5c32 |
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29f5c32 |
/******************************************************************/
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29f5c32 |
-/* Edge tracking support, for generating the scanner image */
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29f5c32 |
+/* Edge tracking support, for generating the device image */
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29f5c32 |
/* recognition reference chart file. */
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29f5c32 |
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29f5c32 |
/* Establish width and height to convert between topleft and */
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29f5c32 |
diff -uNr Argyll_V1.0.1.orig/ttbd.txt Argyll_V1.0.1/ttbd.txt
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29f5c32 |
--- Argyll_V1.0.1.orig/ttbd.txt 2008-07-27 11:18:54.000000000 +0200
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29f5c32 |
+++ Argyll_V1.0.1/ttbd.txt 2008-07-27 11:54:46.000000000 +0200
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29f5c32 |
@@ -123,7 +123,7 @@
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29f5c32 |
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29f5c32 |
* Should create a .ti2 template file for some standard charts,
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29f5c32 |
such as an IT8.7/3, ECI2002 random and non-random etc.
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29f5c32 |
- Scanner recognition files too ??
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29f5c32 |
+ Device recognition files too ??
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29f5c32 |
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29f5c32 |
* Add an option to targen, that allows generation of
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29f5c32 |
test points down the neutral axis (how does this work
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29f5c32 |
@@ -293,7 +293,7 @@
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29f5c32 |
patch variance is too high (probable faulty read).
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29f5c32 |
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29f5c32 |
* Add spectral fix options to scanin code to allow compensation
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29f5c32 |
- for scanner and media errors when using a scanned image to
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29f5c32 |
+ for device and media errors when using an acquired image to
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29f5c32 |
measure color.
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29f5c32 |
This means figuring out how it will work, as well as creating
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29f5c32 |
to tools to create the spectral fix data (or just add general
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