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[gnuastro-commits] master 484b4f5: Book: minor edits to the description
From: |
Mohammad Akhlaghi |
Subject: |
[gnuastro-commits] master 484b4f5: Book: minor edits to the description of gal_arithmetic |
Date: |
Fri, 17 Sep 2021 09:20:48 -0400 (EDT) |
branch: master
commit 484b4f5c5d222c1074636ff8e23267f840e43fea
Author: Mohammad Akhlaghi <mohammad@akhlaghi.org>
Commit: Mohammad Akhlaghi <mohammad@akhlaghi.org>
Book: minor edits to the description of gal_arithmetic
In the previous commit, the description of this function was edited to be
more clear. However, Raul Infante-Sainz reported that instead of a base-e,
I had written base-2 for the 'log' function! After looking through it
again, some other edits occurred to me that could futher help clarify the
point.
With this commit, it has been edited again, and in the process, the
description of the 'GAL_ARITHMETIC_OP_LOG' operator (as well as the 'sqrt'
and 'log10' operators) were also edited to be more clear.
---
doc/gnuastro.texi | 42 +++++++++++++++++++++---------------------
1 file changed, 21 insertions(+), 21 deletions(-)
diff --git a/doc/gnuastro.texi b/doc/gnuastro.texi
index d2326b9..85fe3c7 100644
--- a/doc/gnuastro.texi
+++ b/doc/gnuastro.texi
@@ -27383,18 +27383,13 @@ polish notation}).
@deffn Macro GAL_ARITHMETIC_OP_SQRT
@deffnx Macro GAL_ARITHMETIC_OP_LOG
@deffnx Macro GAL_ARITHMETIC_OP_LOG10
-Unary operator functions for calculating the square root
-(@mymath{\sqrt{i}}), @mymath{ln(i)} and @mymath{log(i)} mathematic
-operators on each element of the input dataset. The returned dataset will
-have a floating point type, but its precision is determined from the input:
-if the input is a 64-bit floating point, the output will also be
-64-bit. Otherwise, the returned dataset will be 32-bit floating point. See
-@ref{Numeric data types} for the respective precision.
-
-If you want your output to be 64-bit floating point but your input is a
-different type, you can convert the input to a floating point type with
-@code{gal_data_copy_to_new_type} or
-@code{gal_data_copy_to_new_type_free}(see @ref{Copying datasets}).
+Unary operator functions for calculating the square root (@mymath{\sqrt{i}}),
@mymath{ln(i)} and @mymath{log(i)} mathematic operators on each element of the
input dataset.
+The returned dataset will have a floating point type, but its precision is
determined from the input: if the input is a 64-bit floating point, the output
will also be 64-bit.
+Otherwise, the returned dataset will be 32-bit floating point: you don't gain
precision by using these operators, but you gain in operating speed if you use
the sufficient precision.
+See @ref{Numeric data types} for more on the precision of floating point
numbers to help in selecting your required floating point precision.
+
+If you want your output to be 64-bit floating point but your input is a
different type, you can convert the input to a 64-bit floating point type with
@code{gal_data_copy_to_new_type} or @code{gal_data_copy_to_new_type_free}(see
@ref{Copying datasets}).
+Alternatively, you can use the @code{GAL_ARITHMETIC_OP_TO_FLOAT64} operators
in the arithmetic library.
@end deffn
@deffn Macro GAL_ARITHMETIC_OP_SIN
@@ -27590,7 +27585,7 @@ Special conditions can also be specified with the
@code{flag} operator (a bit-fl
@code{gal_arithmetic} is a multi-argument function (like C's @code{printf}).
In other words, the number of necessary arguments is not fixed and depends on
the value to @code{operator}.
-Here is one minimal working example, showing how different operators need
different numbers of arguments.
+Below, you can see a minimal, fully working example, showing how different
operators need different numbers of arguments.
@example
#include <stdio.h>
@@ -27606,10 +27601,10 @@ main(void)
int flag=GAL_ARITHMETIC_FLAGS_BASIC;
/* Read the input images. */
- in1=gal_fits_img_read("image1.fits", "0", -1, 1);
- in2=gal_fits_img_read("image2.fits", "0", -1, 1);
+ in1=gal_fits_img_read("image1.fits", "1", -1, 1);
+ in2=gal_fits_img_read("image2.fits", "1", -1, 1);
- /* Take the logarithm (base-2) of the first input. */
+ /* Take the logarithm (base-e) of the first input. */
out1=gal_arithmetic(GAL_ARITHMETIC_OP_LOG, 1, flag, in1);
/* Add the second input with the logarithm of the first. */
@@ -27618,9 +27613,13 @@ main(void)
/* Write the output into a file. */
gal_fits_img_write(out2, "out.fits", NULL, NULL);
- /* Free ('out2'). Due to the in-place flag (in BASIC), 'out1' and
- * 'out2' point to the same array in memory, therefore it is only
- * necessary to free one of them. */
+ /* Clean up. Due to the in-place flag (in
+ * 'GAL_ARITHMETIC_FLAGS_BASIC'), 'out1' and 'out2' point to the
+ * same array in memory and due to the freeing flag, any input
+ * dataset(s) that weren't returned have been freed internally by
+ * 'gal_arithmetic'. Therefore it is only necessary to free
+ * 'out2': all other allocated spaces have been freed internally.
+ * before reaching this point. */
gal_data_free(out2);
/* Return control back to the OS (saying that we succeeded). */
@@ -27628,8 +27627,8 @@ main(void)
@}
@end example
-As you see above, by feeding the returned dataset from one call of
@code{gal_arithmetic} to another call.
-The advantage of using @code{gal_arithmetic} (as opposed to manually writing a
@code{for} or @code{while} loop and doing the operation with the C @code{+}
operator and @code{log()} function yourself), is that you don't have to worry
about the type of the input data.
+As you see above, you can feed the returned dataset from one call of
@code{gal_arithmetic} to another call.
+The advantage of using @code{gal_arithmetic} (as opposed to manually writing a
@code{for} or @code{while} loop and doing the operation with the @code{+}
operator and @code{log()} function yourself), is that you don't have to worry
about the type of the input data (for a list of acceptable datatypes in
Gnuastro, see @ref{Library data types}).
Arithmetic will automatically deal with the datatypes internally and choose
the best output type depending on the operator.
@end deftypefun
@@ -30584,6 +30583,7 @@ extension/HDU.
@example
#include <stdio.h>
+#include <stdlib.h>
#include <gnuastro/fits.h>
#include <gnuastro/dimension.h>
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