Result:
found more than 658 distributions - search limited to the first 2001 files matching your query
( run in 0.620 )
App-get_flash_videos
view release on metacpan or search on metacpan
lib/FlashVideo/Site/Bbc.pm view on Meta::CPAN
$info = $playlist->{item}->{programme}->{media}->{connection} unless $info;
$info->{application} ||= "ondemand";
# Different method for retrieving some BBC videos, for example:
# http://news.bbc.co.uk/sport1/hi/motorsport/formula_one/8766344.stm
if (!$info->{server}) {
my $id = $playlist->{item}->{mediator}->{identifier};
my $stream_info_url = sprintf
"http://open.live.bbc.co.uk/mediaselector/4/mtis/stream/%s", $id;
App-mycnfdiff
view release on metacpan or search on metacpan
t/samples/percona-compiled.txt view on Meta::CPAN
setting this to OFF. Enable InnoDB checksums validation
(enabled by default). Disable with
--skip-innodb-checksums.
(Defaults to on; use --skip-innodb-checksums to disable.)
--innodb-cleaner-lsn-age-factor[=name]
The formula for LSN age factor for page cleaner adaptive
flushing. LEGACY: Original Oracle MySQL 5.6 formula.
HIGH_CHECKPOINT: (the default) Percona Server 5.6
formula.
--innodb-cmp-per-index-enabled
Enable INFORMATION_SCHEMA.innodb_cmp_per_index, may have
negative impact on performance (off by default)
--innodb-commit-concurrency=#
Helps in performance tuning in heavily concurrent
App-pl
view release on metacpan or search on metacpan
pod/examples.pod view on Meta::CPAN
}' *.java
=item Delete Matching Files, Except Last One
If you have many files, which sort chronologically by name, and you want to
keep only the last one, it can be quite painful to formulate Shell patterns.
So check on each iteration of the B<-o> loop, if the index C<$ARGIND> (or
C<$I>) is less than the last, before unlinking (deleting). If you want to test
it first, replace C<unlink> with C<e(cho)>:
pl -o 'unlink if $ARGIND < $#ARGV' file*
App-pltest
view release on metacpan or search on metacpan
pod/examples.pod view on Meta::CPAN
}' *.java
=item Delete Matching Files, Except Last One
If you have many files, which sort chronologically by name, and you want to
keep only the last one, it can be quite painful to formulate Shell patterns.
So check on each iteration of the B<-o> loop, if the index C<$ARGIND> (or
C<$I>) is less than the last, before unlinking (deleting). If you want to test
it first, replace C<unlink> with C<e(cho)>:
pltest -o 'unlink if $ARGIND < $#ARGV' file*
App-remarkpl
view release on metacpan or search on metacpan
lib/App/remarkpl/public/remark.min.js view on Meta::CPAN
contains:[{className:"comment",begin:/\(\*/,end:/\*\)/},e.APOS_STRING_MODE,e.QUOTE_STRING_MODE,e.C_NUMBER_MODE,{begin:/\{/,end:/\}/,illegal:/:/}]}}},{name:"matlab",create:function(e){var t=[e.C_NUMBER_MODE,{className:"string",begin:"'",end:"'",contai...
illegal:"</",contains:[e.C_NUMBER_MODE,e.APOS_STRING_MODE,e.QUOTE_STRING_MODE,{className:"string",begin:"`",end:"`",contains:[e.BACKSLASH_ESCAPE]},{begin:"[\\$\\%\\@](\\^\\w\\b|#\\w+|[^\\s\\w{]|{\\w+}|\\w+)"},e.C_LINE_COMMENT_MODE,e.C_BLOCK_COMMENT_M...
contains:[i]});return{aliases:["ps"],lexemes:/-?[A-z\.\-]+/,case_insensitive:!0,keywords:{keyword:"if else foreach return function do while until elseif begin for trap data dynamicparam end break throw param continue finally in switch exit filter try...
},{className:"meta",begin:"#\\!?\\[",end:"\\]",contains:[{className:"meta-string",begin:/"/,end:/"/}]},{className:"class",beginKeywords:"type",end:";",contains:[e.inherit(e.UNDERSCORE_TITLE_MODE,{endsParent:!0})],illegal:"\\S"},{className:"class",beg...
literal:"true false nil"},contains:[e.C_LINE_COMMENT_MODE,e.C_BLOCK_COMMENT_MODE,e.NUMBER_MODE,a,t.preprocessor],illegal:/#/}}},{name:"sql",create:function(e){var t=e.COMMENT("--","$");return{case_insensitive:!0,illegal:/[<>{}*#]/,contains:[{beginKey...
return{aliases:["styl"],case_insensitive:!1,keywords:"if else for in",illegal:"("+o.join("|")+")",contains:[e.QUOTE_STRING_MODE,e.APOS_STRING_MODE,e.C_LINE_COMMENT_MODE,e.C_BLOCK_COMMENT_MODE,a,{begin:"\\.[a-zA-Z][a-zA-Z0-9_-]*"+i,returnBegin:!0,cont...
built_in:"ip eip rip al ah bl bh cl ch dl dh sil dil bpl spl r8b r9b r10b r11b r12b r13b r14b r15b ax bx cx dx si di bp sp r8w r9w r10w r11w r12w r13w r14w r15w eax ebx ecx edx esi edi ebp esp eip r8d r9d r10d r11d r12d r13d r14d r15d rax rbx rcx rdx...
"atelier-lakeside-light":".hljs-atelier-lakeside-light .hljs-comment,.hljs-atelier-lakeside-light .hljs-quote{color:#5a7b8c}.hljs-atelier-lakeside-light .hljs-variable,.hljs-atelier-lakeside-light .hljs-template-variable,.hljs-atelier-lakeside-light ...
grayscale:".hljs-grayscale .hljs{display:block;overflow-x:auto;padding:.5em;color:#333;background:#fff}.hljs-grayscale .hljs-comment,.hljs-grayscale .hljs-quote{color:#777;font-style:italic}.hljs-grayscale .hljs-keyword,.hljs-grayscale .hljs-selector...
"solarized-dark":".hljs-solarized-dark .hljs{display:block;overflow-x:auto;padding:.5em;background:#002b36;color:#839496}.hljs-solarized-dark .hljs-comment,.hljs-solarized-dark .hljs-quote{color:#586e75}.hljs-solarized-dark .hljs-keyword,.hljs-solari...
containerLayout:'<div class="remark-notes-area">\n <div class="remark-top-area">\n <div class="remark-toolbar">\n <a class="remark-toolbar-link" href="#increase">+</a>\n <a class="remark-toolbar-link" href="#decrease">-</a>\n <span...
App-revealup
view release on metacpan or search on metacpan
share/revealjs/plugin/highlight/highlight.esm.js view on Meta::CPAN
function e(t){return(e="function"==typeof Symbol&&"symbol"==typeof Symbol.iterator?function(e){return typeof e}:function(e){return e&&"function"==typeof Symbol&&e.constructor===Symbol&&e!==Symbol.prototype?"symbol":typeof e})(t)}function t(e,t){if(!(...
/*!
* reveal.js plugin that adds syntax highlight support.
*/
var of={id:"highlight",HIGHLIGHT_STEP_DELIMITER:"|",HIGHLIGHT_LINE_DELIMITER:",",HIGHLIGHT_LINE_RANGE_DELIMITER:"-",hljs:rf,init:function(e){var t=e.getConfig().highlight||{};t.highlightOnLoad="boolean"!=typeof t.highlightOnLoad||t.highlightOnLoad,t....
App-wdq
view release on metacpan or search on metacpan
=head1 DESCRIPTION
The command line script C<wdq>, included in CPAN module L<App::wdq>, provides a
tool to access L<Wikidata Query Service|https://query.wikidata.org/>. It
supports formulation and execution of L<SPARQL SELECT
queries|http://www.w3.org/TR/sparql11-query/#select> to extract selected
information from Wikidata or other Wikibase instances.
=head1 INSTALLATION
AproJo
view release on metacpan or search on metacpan
share/files/templates/front/macros/menue.html.ep view on Meta::CPAN
</ul>
</li>
<li><a href="">Templates</a>
<ul>
<li><a title="Layout" href="/site/fixpunkt/layout">Layout</a></li>
<li><a title="Formulare" href="/site/fixpunkt/formulare">Formulare</a></li>
</ul>
</li>
</ul>
</div>
Archive-TarGzip
view release on metacpan or search on metacpan
t/Archive/File/Package.pm view on Meta::CPAN
# The Perl authorities have Core::die locked down tight so
# it is next to impossible to trap off of Core::die. Lucky
# must everyone uses Carp::croak instead of just dieing.
#
# Anyway, get the benefit of a lot of stack gyrations to
# formulate the correct error msg by Exporter::import.
#
$error = '';
no warnings;
*Carp::carp = sub {
$error .= (join '', @_);
Arithmetic-PaperAndPencil
view release on metacpan or search on metacpan
lib/Arithmetic/PaperAndPencil.pm view on Meta::CPAN
letter paper (21,6 cm × 27,9 cm). The module writes its calculations
on unlimited sheets of paper. If you want to compute the product of
two 1000-digit numbers, the multiplication will have a 2000-char width
and a 1000-line height and still be on a single sheet of paper.
If you ask for the operations with the "talking" formulas, most of
these formulas are the traditional sentences which accompanies the
writing of the computation. But in some cases, the module displays a
non-standard sentence, to explain better what is happening.
=head1 EXPORT
Array-APX
view release on metacpan or search on metacpan
lib/Array/APX.pm view on Meta::CPAN
my $f = sub { $_[0] + $_[1] };
print $f/ $x, "\n";
calculates the sum of all integers between 1 and 100 (without using Gauss'
summation formula just by repeated addition). The combined operator
$f/
applies the function referenced by $f between each two successive elements
of the APX structure on the right hand side of the operator.
ArrayData-Lingua-Word-EN-Enable
view release on metacpan or search on metacpan
lib/ArrayData/Lingua/Word/EN/Enable.pm view on Meta::CPAN
formlessness
formlessnesses
formol
formols
forms
formula
formulae
formulaic
formulaically
formularies
formularization
formularizations
formularize
formularized
formularizer
formularizers
formularizes
formularizing
formulary
formulas
formulate
formulated
formulates
formulating
formulation
formulations
formulator
formulators
formulize
formulized
formulizes
formulizing
formwork
lib/ArrayData/Lingua/Word/EN/Enable.pm view on Meta::CPAN
preformatted
preformatting
preformed
preforming
preforms
preformulate
preformulated
preformulates
preformulating
prefrank
prefranked
prefranking
prefranks
prefreeze
lib/ArrayData/Lingua/Word/EN/Enable.pm view on Meta::CPAN
reformism
reformisms
reformist
reformists
reforms
reformulate
reformulated
reformulates
reformulating
reformulation
reformulations
refortification
refortifications
refortified
refortifies
refortify
lib/ArrayData/Lingua/Word/EN/Enable.pm view on Meta::CPAN
unforgivingness
unforgivingnesses
unforgot
unforked
unformed
unformulated
unforthcoming
unfortified
unfortunate
unfortunately
unfortunates
ArrayData-Lingua-Word-EN-Medical-Glutanimate
view release on metacpan or search on metacpan
lib/ArrayData/Lingua/Word/EN/Medical/Glutanimate.pm view on Meta::CPAN
formol
formolized
formonitrile
formoterol
forms
formula
formulae
formularies
formulary
formulas
formulate
Formulation
formycins
formyl
formylase
formylkynurenine
ArrayData-Lingua-Word-ID-KBBI-ByClass-Noun
view release on metacpan or search on metacpan
lib/ArrayData/Lingua/Word/ID/KBBI/ByClass/Noun.pm view on Meta::CPAN
formasi
format
formatif
formatur
formika
formula
formulasi
formulator
formulir
fornikasi
forsep
fortifikasi
forum
ArrayData-Lingua-Word-ID-KBBI-ByClass-Verb
view release on metacpan or search on metacpan
lib/ArrayData/Lingua/Word/ID/KBBI/ByClass/Verb.pm view on Meta::CPAN
memfilter
memfitnah
memfitrahkan
memfokus
memfokuskan
memformulasikan
memfosil
memfotokopi
memfungsikan
memfusikan
memiagamkan
ArrayData-Lingua-Word-ID-KBBI
view release on metacpan or search on metacpan
lib/ArrayData/Lingua/Word/ID/KBBI.pm view on Meta::CPAN
format
formatif
formatir
formatur
formika
formula
formulasi
formulator
formulir
fornikasi
forsep
forsir
forte
lib/ArrayData/Lingua/Word/ID/KBBI.pm view on Meta::CPAN
memfilter
memfitnah
memfitrahkan
memfokus
memfokuskan
memformulasikan
memfosil
memfotokopi
memfungsikan
memfusikan
memiagamkan
ArrayData-Word-EN-Enable
view release on metacpan or search on metacpan
lib/ArrayData/Word/EN/Enable.pm view on Meta::CPAN
formlessness
formlessnesses
formol
formols
forms
formula
formulae
formulaic
formulaically
formularies
formularization
formularizations
formularize
formularized
formularizer
formularizers
formularizes
formularizing
formulary
formulas
formulate
formulated
formulates
formulating
formulation
formulations
formulator
formulators
formulize
formulized
formulizes
formulizing
formwork
lib/ArrayData/Word/EN/Enable.pm view on Meta::CPAN
preformatted
preformatting
preformed
preforming
preforms
preformulate
preformulated
preformulates
preformulating
prefrank
prefranked
prefranking
prefranks
prefreeze
lib/ArrayData/Word/EN/Enable.pm view on Meta::CPAN
reformism
reformisms
reformist
reformists
reforms
reformulate
reformulated
reformulates
reformulating
reformulation
reformulations
refortification
refortifications
refortified
refortifies
refortify
lib/ArrayData/Word/EN/Enable.pm view on Meta::CPAN
unforgivingness
unforgivingnesses
unforgot
unforked
unformed
unformulated
unforthcoming
unfortified
unfortunate
unfortunately
unfortunates
ArrayData-Word-ID-KBBI
view release on metacpan or search on metacpan
lib/ArrayData/Word/ID/KBBI.pm view on Meta::CPAN
format
formatif
formatir
formatur
formika
formula
formulasi
formulator
formulir
fornikasi
forsep
forsir
forte
lib/ArrayData/Word/ID/KBBI.pm view on Meta::CPAN
memfilter
memfitnah
memfitrahkan
memfokus
memfokuskan
memformulasikan
memfosil
memfotokopi
memfungsikan
memfusikan
memiagamkan
AsposeCellsCloud-CellsApi
view release on metacpan or search on metacpan
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
# @name string (required) The file name.
# @sheetName string (required) The worksheet name.
# @cellName string (required) The cell name.
# @value string The cell value.
# @type string The value type.
# @formula string Formula for cell
# @folder string The folder where the file is situated.
# @storageName string The storage name where the file is situated.
#
{
my $params = {
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
}
#
# PostCellCalculateRequest
#
# Calculate cell formula in the worksheet.
#
# @name string (required) The file name.
# @sheetName string (required) The worksheet name.
# @cellName string (required) The cell name.
# @options CalculationOptions Calculation Options
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
description => 'PostCellCalculate Request.',
required => '0',
}
};
__PACKAGE__->method_documentation->{ 'post_cell_calculate' } = {
summary => 'Calculate cell formula in the worksheet.',
params => $params,
returns => 'CellsCloudResponse',
};
}
#
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
# @sheetName string (required) The worksheet name.
# @index int (required) Gets the Conditional Formatting element at the specified index.
# @cellArea string (required) Adds a conditional formatted cell range.
# @type string (required) Format condition type(CellValue/Expression/ColorScale/DataBar/IconSet/Top10/UniqueValues/DuplicateValues/ContainsText/NotContainsText/BeginsWith/EndsWith/ContainsBlanks/NotContainsBlanks/ContainsErrors/NotContainsErrors/Ti...
# @operatorType string (required) Represents the operator type of conditional format and data validation(Between/Equal/GreaterThan/GreaterOrEqual/LessThan/None/NotBetween/NotEqual).
# @formula1 string (required) The value or expression associated with conditional formatting.
# @formula2 string (required) The value or expression associated with conditional formatting.
# @folder string The folder where the file is situated.
# @storageName string The storage name where the file is situated.
#
{
my $params = {
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
# @name string (required) The file name.
# @sheetName string (required) The worksheet name.
# @index int (required) Gets the Conditional Formatting element at the specified index.
# @type string (required) Format condition type(CellValue/Expression/ColorScale/DataBar/IconSet/Top10/UniqueValues/DuplicateValues/ContainsText/NotContainsText/BeginsWith/EndsWith/ContainsBlanks/NotContainsBlanks/ContainsErrors/NotContainsErrors/Ti...
# @operatorType string (required) Represents the operator type of conditional format and data validation(Between/Equal/GreaterThan/GreaterOrEqual/LessThan/None/NotBetween/NotEqual).
# @formula1 string (required) The value or expression associated with conditional formatting.
# @formula2 string (required) The value or expression associated with conditional formatting.
# @folder string The folder where the file is situated.
# @storageName string The storage name where the file is situated.
#
{
my $params = {
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
#
# CheckWorkbookFormulaErrorsRequest
#
#
#
# @formulaErrorOptions CheckFormulaErrorOptions (required)
#
{
my $params = {
'request' =>{
data_type => 'CheckWorkbookFormulaErrorsRequest',
description => 'CheckWorkbookFormulaErrors Request.',
required => '0',
}
};
__PACKAGE__->method_documentation->{ 'check_workbook_formula_errors' } = {
summary => '',
params => $params,
returns => 'CheckedFormulaErrorsResponse',
};
}
#
# @return CheckedFormulaErrorsResponse
#
sub check_workbook_formula_errors{
my ($self, %args) = @_;
my $request = $args{'request'};
my $response = $request->run_http_request('client' => $self->{api_client} );
if (!$response) {
return;
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
}
#
# PostWorkbookCalculateFormulaRequest
#
# Calculate all formulas in the workbook.
#
# @name string (required) The file name.
# @options CalculationOptions CalculationOptions Calculation Options.
# @ignoreError boolean ignore Error.
# @folder string The folder where the file is situated.
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
data_type => 'PostWorkbookCalculateFormulaRequest',
description => 'PostWorkbookCalculateFormula Request.',
required => '0',
}
};
__PACKAGE__->method_documentation->{ 'post_workbook_calculate_formula' } = {
summary => 'Calculate all formulas in the workbook.',
params => $params,
returns => 'CellsCloudResponse',
};
}
#
# @return CellsCloudResponse
#
sub post_workbook_calculate_formula{
my ($self, %args) = @_;
my $request = $args{'request'};
my $response = $request->run_http_request('client' => $self->{api_client} );
if (!$response) {
return;
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
}
#
# GetWorksheetCalculateFormulaRequest
#
# Calculate formula in the worksheet.
#
# @name string (required) The file name.
# @sheetName string (required) The worksheet name.
# @formula string (required) The formula.
# @folder string The folder where the file is situated.
# @storageName string The storage name where the file is situated.
#
{
my $params = {
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
data_type => 'GetWorksheetCalculateFormulaRequest',
description => 'GetWorksheetCalculateFormula Request.',
required => '0',
}
};
__PACKAGE__->method_documentation->{ 'get_worksheet_calculate_formula' } = {
summary => 'Calculate formula in the worksheet.',
params => $params,
returns => 'SingleValueResponse',
};
}
#
# @return SingleValueResponse
#
sub get_worksheet_calculate_formula{
my ($self, %args) = @_;
my $request = $args{'request'};
my $response = $request->run_http_request('client' => $self->{api_client} );
if (!$response) {
return;
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
}
#
# PostWorksheetCalculateFormulaRequest
#
# Calculate formula in the worksheet.
#
# @name string (required) The file name.
# @sheetName string (required) Worksheet name.
# @formula string (required) The formula.
# @folder string The folder where the file is situated.
# @storageName string The storage name where the file is situated.
#
{
my $params = {
lib/AsposeCellsCloud/CellsApi.pm view on Meta::CPAN
data_type => 'PostWorksheetCalculateFormulaRequest',
description => 'PostWorksheetCalculateFormula Request.',
required => '0',
}
};
__PACKAGE__->method_documentation->{ 'post_worksheet_calculate_formula' } = {
summary => 'Calculate formula in the worksheet.',
params => $params,
returns => 'SingleValueResponse',
};
}
#
# @return SingleValueResponse
#
sub post_worksheet_calculate_formula{
my ($self, %args) = @_;
my $request = $args{'request'};
my $response = $request->run_http_request('client' => $self->{api_client} );
if (!$response) {
return;
AsposeSlidesCloud-SlidesApi
view release on metacpan or search on metacpan
lib/AsposeSlidesCloud/Object/BubbleChartDataPoint.pm view on Meta::CPAN
base_name => 'YValue',
description => 'Y-value',
format => '',
read_only => '',
},
'x_value_formula' => {
datatype => 'string',
base_name => 'XValueFormula',
description => 'Spreadsheet formula in A1-style.',
format => '',
read_only => '',
},
'y_value_formula' => {
datatype => 'string',
base_name => 'YValueFormula',
description => 'Spreadsheet formula in A1-style.',
format => '',
read_only => '',
},
'bubble_size' => {
datatype => 'double',
base_name => 'BubbleSize',
description => 'Bubble size.',
format => '',
read_only => '',
},
'bubble_size_formula' => {
datatype => 'string',
base_name => 'BubbleSizeFormula',
description => 'Spreadsheet formula in A1-style.',
format => '',
read_only => '',
},
});
lib/AsposeSlidesCloud/Object/BubbleChartDataPoint.pm view on Meta::CPAN
'line_format' => 'LineFormat',
'marker' => 'SeriesMarker',
'type' => 'string',
'x_value' => 'double',
'y_value' => 'double',
'x_value_formula' => 'string',
'y_value_formula' => 'string',
'bubble_size' => 'double',
'bubble_size_formula' => 'string'
} );
__PACKAGE__->attribute_map( {
'fill_format' => 'FillFormat',
'effect_format' => 'EffectFormat',
lib/AsposeSlidesCloud/Object/BubbleChartDataPoint.pm view on Meta::CPAN
'line_format' => 'LineFormat',
'marker' => 'Marker',
'type' => 'Type',
'x_value' => 'XValue',
'y_value' => 'YValue',
'x_value_formula' => 'XValueFormula',
'y_value_formula' => 'YValueFormula',
'bubble_size' => 'BubbleSize',
'bubble_size_formula' => 'BubbleSizeFormula'
} );
__PACKAGE__->mk_accessors(keys %{__PACKAGE__->attribute_map});
Astro-Catalog
view release on metacpan or search on metacpan
lib/Astro/Catalog/IO/FITSTable.pm view on Meta::CPAN
=back
RA and Dec are assumed to be in J2000 coordinates, and are in units
of radians. The isophotal flux is assumed to be in units of counts,
and is converted into a magnitude through the formula -2.5 * log10(flux).
The position angle is assumed to be the angle measured counter-
clockwise from the positive x axis, in degrees.
An attempt to read in the DATE-OBS header is made so that flux measurements
can be timestamped. If the DATE-OBS header does not exist, then the current
Astro-Coords
view release on metacpan or search on metacpan
lib/Astro/Coords.pm view on Meta::CPAN
my $obscorr = 1 - ( $vhel / ( CLIGHT * $vhel) );
$doppler = $zcorr * $obscorr;
} else {
# small radial velocity, use standard doppler formula
$doppler = 1 - ( $obsvel / ( CLIGHT + $obsvel ) );
}
} elsif ( $vdefn eq 'RELATIVISTIC' ) {
# do we need to use the same correction as for OPTICAL and REDSHIFT?
# presumably
Astro-Cosmology
view release on metacpan or search on metacpan
Cosmology.pm view on Meta::CPAN
kappa is sqrt( abs(ok) )
=head2 Distances
For cosmologies with no lambda term, the luminosity distances
(C<dl>) are calculated by the standard formulae:
empty: dl = 0.5 * z * (2+z)
flat: dl = 2 * ( 1+z - sqrt(1+z) )
otherwise: dl = (2 / (om*om)) *
( om*z + (om-2) * (sqrt(1+om*z)-1) )
Cosmology.pm view on Meta::CPAN
integration of the following from 0 to C<z>:
1.0 / sqrt( (1+z)^2 * (1+om*z) - z*(2+z)*ol )
The comoving distance is always calculated by numerical
integration of the above formula. The angular diameter and
proper motion distances are defined as
C<dl/(1+z)^2> and C<dl/(1+z)> respectively.
=head2 Volumes
Cosmology.pm view on Meta::CPAN
ddm = dc * sqrt( 1 + abs(ok) * dm^2 )
=head2 Times
The lookback time is calculated by integration of the following
formula from 0 to C<z>:
1.0 / ( (1+z) * sqrt( (1+z)^2 * (1+om*z) - z*(2+z)*ol ) )
=head2 Flux and Magnitudes
Astro-Montenbruck
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lib/Astro/Montenbruck/Time/DeltaT.pm view on Meta::CPAN
sub _interpolate {
my ( $jd, $ye ) = @_;
# For a historical range from 1620 to a recent year, we interpolate from a
# table of observed values. Outside that range we use formulae.
# Last value in the table
if ( $ye == $TAB_UNTIL ) {
return $HISTORICAL{$TAB_UNTIL};
}
lib/Astro/Montenbruck/Time/DeltaT.pm view on Meta::CPAN
Returns approximate Delta-T in seconds for a given Julian Day.
C<Delta-T = ET - UT>
For a historical range from 1620 to recent years, we interpolate from a
table of observed values. Outside that range we use formulae from
I<Astronomical Algorithms> by I<J.Meeus>, second edition.
=head3 Arguments
=over
Astro-Nova
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libnova-0.15.0/doc/doxyfile.in view on Meta::CPAN
USE_PDFLATEX = NO
# If the LATEX_BATCHMODE tag is set to YES, doxygen will add the \\batchmode.
# command to the generated LaTeX files. This will instruct LaTeX to keep
# running if errors occur, instead of asking the user for help.
# This option is also used when generating formulas in HTML.
LATEX_BATCHMODE = NO
# If LATEX_HIDE_INDICES is set to YES then doxygen will not
# include the index chapters (such as File Index, Compound Index, etc.)
Astro-PAL
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erfasrc/src/eect00.c view on Meta::CPAN
**
** EE = dpsi * cos(eps)
**
** where dpsi is the nutation in longitude and eps is the obliquity
** of date. However, if the rotation of the Earth were constant in
** an inertial frame the classical formulation would lead to
** apparent irregularities in the UT1 timescale traceable to side-
** effects of precession-nutation. In order to eliminate these
** effects from UT1, "complementary terms" were introduced in 1994
** (IAU, 1994) and took effect from 1997 (Capitaine and Gontier,
** 1993):
Astro-Sunrise
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doc/astronomical-notes.pod view on Meta::CPAN
=item E
The Earth runs along an orbit around the Sun, with noticeable perturbations
caused by the Moon, Jupiter, Saturn, etc.
Which is a formulation equivalent to assertion D.
=item F
The movement of the Earth with the Solar System is a I<n>-body problem,
with I<n> ≥ 3. Therefore, there is no analytical solution.
doc/astronomical-notes.pod view on Meta::CPAN
but all other planets have a perihelion precession, including
the Earth.
=head3 Other Drifts And Fluctuations
The formulas computing the positions of celestial bodies
use some constants. But these values are constant only
on a short timespan (astronomically speaking; or, with the
metaphor above, on a "meteorological" timespan). But they are
variable on a longer timespan (or a "climatic" timespan) For example,
everybody knows that the day lasts 24 hours (the mean
Astro-satpass
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lib/Astro/Coord/ECI.pm view on Meta::CPAN
Unfortunately, as of early 2021 the National Council of Teachers of
Mathematics restricted the Dr. Math content to their members, but an
annotated and expanded version of the article on haversines is available
at
L<https://www.themathdoctors.org/distances-on-earth-2-the-haversine-formula/>.
If you want the original article, you can feed the URL
C<http://mathforum.org/library/drmath/view/51879.html> to the Wayback
Machine.
Prior to version 0.011_03 the law of cosines was used, but this produced
lib/Astro/Coord/ECI.pm view on Meta::CPAN
if ( $elevation > $horizon - TWO_DEGREES ) {
# Thorsteinn Saemundsson's algorithm for refraction, as reported
# in Meeus, page 106, equation 16.4, and adjusted per the
# suggestion in Meeus' following paragraph. Thorsteinn's
# formula is in terms of angles in degrees and produces
# a correction in minutes of arc. Meeus reports the original
# publication as Sky and Telescope, volume 72 page 70, July 1986.
# In deference to Thorsteinn I will point out:
# * The Icelanders do not use family names. The "Saemundsson"
lib/Astro/Coord/ECI.pm view on Meta::CPAN
my $E = $y * sin( 2 * $L0 ) - 2 * $e * sin( $M ) +
4 * $e * $y * sin( $M ) * cos( 2 * $L0 ) -
$y * $y * .5 * sin( 4 * $L0 ) -
1.25 * $e * $e * sin( 2 * $M ); # Meeus (28.3)
return $E * SECSPERDAY / TWOPI; # The formula gives radians.
}
=item $coord->equatorial ($rightasc, $declin, $range, $time);
This method sets the L</Equatorial> coordinates represented by the
lib/Astro/Coord/ECI.pm view on Meta::CPAN
Jean Meeus does in "Astronomical Algorithms".
For practical purposes, TT = TAI + 32.184 seconds. If I ever get the
gumption to do a re-implementation (or alternate implementation) of time
in terms of the DateTime object, this will be the definition of
dynamical time. Until then, though, formula 10.2 on page 78 of Jean
Meeus' "Astronomical Algorithms" second edition, Chapter 10 (Dynamical
Time and Universal Time) is used.
Compare and contrast this to L</Universal time>. This explanation leans
heavily on C<http://star-www.rl.ac.uk/star/docs/sun67.htx/node226.html>,
lib/Astro/Coord/ECI.pm view on Meta::CPAN
technical definition differs in detail from GMT (Greenwich Mean Time).
The former is a clock-based time, whose second is the SI second (defined
in terms of atomic clocks), but which is kept within 0.9 seconds of UT1
by the introduction of leap seconds. These are introduced (typically at
midyear or year end) by prior agreement among the various timekeeping
bodies based on observation; there is no formula for computing when a
leap second will be needed, because of irregularities in the Earth's
rotation.
Jean Meeus' "Astronomical Algorithms", second edition, deals with the
relationship between Universal time and L</Dynamical time> in Chapter 10
Astro
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Astro/Misc.pm view on Meta::CPAN
chomp;
$freq = substr $_, 1, 16;
$molecule = substr $_, 18, 11;
$form = substr $_, 29, 28;
$c = substr $_, 57, 1; # Could be either formulae or Tsys
$tsys = substr $_, 58, 7;
$source = substr $_, 65, 15;
$telescope = substr $_, 81, 12;
$ref = substr $_, 94;
Audio-Analyzer-ToneDetect
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lib/Audio/Analyzer/ToneDetect.pm view on Meta::CPAN
=item min_tone_length 0.5
Minimum durration of a tone, in seconds, before we consider it detected. Due to
sample rate, chunk size, and integer math, with defaults this ends up being
0.448 seconds. The formula for actual seconds is int( min_length * sample_rate
/ chunk_size ) * chunk_size / sample_rate. Default to 0.5
=item valid_tones undef, 'builtin', or ARRAYREF
A list of valid (expected) tones. If supplied, the closest expected tone for
( run in 0.620 second using v1.01-cache-2.11-cpan-3cd7ad12f66 )